import fs from 'fs'; import path$2 from 'path'; import { pathToFileURL } from 'url'; import path$1 from 'node:path'; import process$1 from 'node:process'; import { fileURLToPath } from 'node:url'; import fs$1 from 'node:fs'; import os from 'node:os'; import tty from 'node:tty'; function bail(error) { if (error) { throw error } } var commonjsGlobal = typeof globalThis !== 'undefined' ? globalThis : typeof window !== 'undefined' ? window : typeof global !== 'undefined' ? global : typeof self !== 'undefined' ? self : {}; function getDefaultExportFromCjs (x) { return x && x.__esModule && Object.prototype.hasOwnProperty.call(x, 'default') ? x['default'] : x; } var hasOwn = Object.prototype.hasOwnProperty; var toStr = Object.prototype.toString; var defineProperty = Object.defineProperty; var gOPD = Object.getOwnPropertyDescriptor; var isArray = function isArray(arr) { if (typeof Array.isArray === 'function') { return Array.isArray(arr); } return toStr.call(arr) === '[object Array]'; }; var isPlainObject$1 = function isPlainObject(obj) { if (!obj || toStr.call(obj) !== '[object Object]') { return false; } var hasOwnConstructor = hasOwn.call(obj, 'constructor'); var hasIsPrototypeOf = obj.constructor && obj.constructor.prototype && hasOwn.call(obj.constructor.prototype, 'isPrototypeOf'); if (obj.constructor && !hasOwnConstructor && !hasIsPrototypeOf) { return false; } var key; for (key in obj) { } return typeof key === 'undefined' || hasOwn.call(obj, key); }; var setProperty = function setProperty(target, options) { if (defineProperty && options.name === '__proto__') { defineProperty(target, options.name, { enumerable: true, configurable: true, value: options.newValue, writable: true }); } else { target[options.name] = options.newValue; } }; var getProperty = function getProperty(obj, name) { if (name === '__proto__') { if (!hasOwn.call(obj, name)) { return void 0; } else if (gOPD) { return gOPD(obj, name).value; } } return obj[name]; }; var extend$1 = function extend() { var options, name, src, copy, copyIsArray, clone; var target = arguments[0]; var i = 1; var length = arguments.length; var deep = false; if (typeof target === 'boolean') { deep = target; target = arguments[1] || {}; i = 2; } if (target == null || (typeof target !== 'object' && typeof target !== 'function')) { target = {}; } for (; i < length; ++i) { options = arguments[i]; if (options != null) { for (name in options) { src = getProperty(target, name); copy = getProperty(options, name); if (target !== copy) { if (deep && copy && (isPlainObject$1(copy) || (copyIsArray = isArray(copy)))) { if (copyIsArray) { copyIsArray = false; clone = src && isArray(src) ? src : []; } else { clone = src && isPlainObject$1(src) ? src : {}; } setProperty(target, { name: name, newValue: extend(deep, clone, copy) }); } else if (typeof copy !== 'undefined') { setProperty(target, { name: name, newValue: copy }); } } } } } return target; }; var extend$2 = getDefaultExportFromCjs(extend$1); function ok$B() {} function isPlainObject(value) { if (typeof value !== 'object' || value === null) { return false; } const prototype = Object.getPrototypeOf(value); return (prototype === null || prototype === Object.prototype || Object.getPrototypeOf(prototype) === null) && !(Symbol.toStringTag in value) && !(Symbol.iterator in value); } function trough() { const fns = []; const pipeline = {run, use}; return pipeline function run(...values) { let middlewareIndex = -1; const callback = values.pop(); if (typeof callback !== 'function') { throw new TypeError('Expected function as last argument, not ' + callback) } next(null, ...values); function next(error, ...output) { const fn = fns[++middlewareIndex]; let index = -1; if (error) { callback(error); return } while (++index < values.length) { if (output[index] === null || output[index] === undefined) { output[index] = values[index]; } } values = output; if (fn) { wrap(fn, next)(...output); } else { callback(null, ...output); } } } function use(middelware) { if (typeof middelware !== 'function') { throw new TypeError( 'Expected `middelware` to be a function, not ' + middelware ) } fns.push(middelware); return pipeline } } function wrap(middleware, callback) { let called; return wrapped function wrapped(...parameters) { const fnExpectsCallback = middleware.length > parameters.length; let result; if (fnExpectsCallback) { parameters.push(done); } try { result = middleware.apply(this, parameters); } catch (error) { const exception = (error); if (fnExpectsCallback && called) { throw exception } return done(exception) } if (!fnExpectsCallback) { if (result instanceof Promise) { result.then(then, done); } else if (result instanceof Error) { done(result); } else { then(result); } } } function done(error, ...output) { if (!called) { called = true; callback(error, ...output); } } function then(value) { done(null, value); } } function stringifyPosition$2(value) { if (!value || typeof value !== 'object') { return '' } if ('position' in value || 'type' in value) { return position$2(value.position) } if ('start' in value || 'end' in value) { return position$2(value) } if ('line' in value || 'column' in value) { return point$4(value) } return '' } function point$4(point) { return index$2(point && point.line) + ':' + index$2(point && point.column) } function position$2(pos) { return point$4(pos && pos.start) + '-' + point$4(pos && pos.end) } function index$2(value) { return value && typeof value === 'number' ? value : 1 } let VFileMessage$1 = class VFileMessage extends Error { constructor(causeOrReason, optionsOrParentOrPlace, origin) { super(); if (typeof optionsOrParentOrPlace === 'string') { origin = optionsOrParentOrPlace; optionsOrParentOrPlace = undefined; } let reason = ''; let options = {}; let legacyCause = false; if (optionsOrParentOrPlace) { if ( 'line' in optionsOrParentOrPlace && 'column' in optionsOrParentOrPlace ) { options = {place: optionsOrParentOrPlace}; } else if ( 'start' in optionsOrParentOrPlace && 'end' in optionsOrParentOrPlace ) { options = {place: optionsOrParentOrPlace}; } else if ('type' in optionsOrParentOrPlace) { options = { ancestors: [optionsOrParentOrPlace], place: optionsOrParentOrPlace.position }; } else { options = {...optionsOrParentOrPlace}; } } if (typeof causeOrReason === 'string') { reason = causeOrReason; } else if (!options.cause && causeOrReason) { legacyCause = true; reason = causeOrReason.message; options.cause = causeOrReason; } if (!options.ruleId && !options.source && typeof origin === 'string') { const index = origin.indexOf(':'); if (index === -1) { options.ruleId = origin; } else { options.source = origin.slice(0, index); options.ruleId = origin.slice(index + 1); } } if (!options.place && options.ancestors && options.ancestors) { const parent = options.ancestors[options.ancestors.length - 1]; if (parent) { options.place = parent.position; } } const start = options.place && 'start' in options.place ? options.place.start : options.place; this.ancestors = options.ancestors || undefined; this.cause = options.cause || undefined; this.column = start ? start.column : undefined; this.fatal = undefined; this.file; this.message = reason; this.line = start ? start.line : undefined; this.name = stringifyPosition$2(options.place) || '1:1'; this.place = options.place || undefined; this.reason = this.message; this.ruleId = options.ruleId || undefined; this.source = options.source || undefined; this.stack = legacyCause && options.cause && typeof options.cause.stack === 'string' ? options.cause.stack : ''; this.actual; this.expected; this.note; this.url; } }; VFileMessage$1.prototype.file = ''; VFileMessage$1.prototype.name = ''; VFileMessage$1.prototype.reason = ''; VFileMessage$1.prototype.message = ''; VFileMessage$1.prototype.stack = ''; VFileMessage$1.prototype.column = undefined; VFileMessage$1.prototype.line = undefined; VFileMessage$1.prototype.ancestors = undefined; VFileMessage$1.prototype.cause = undefined; VFileMessage$1.prototype.fatal = undefined; VFileMessage$1.prototype.place = undefined; VFileMessage$1.prototype.ruleId = undefined; VFileMessage$1.prototype.source = undefined; function isUrl$1(fileUrlOrPath) { return Boolean( fileUrlOrPath !== null && typeof fileUrlOrPath === 'object' && 'href' in fileUrlOrPath && fileUrlOrPath.href && 'protocol' in fileUrlOrPath && fileUrlOrPath.protocol && fileUrlOrPath.auth === undefined ) } const order$1 = ([ 'history', 'path', 'basename', 'stem', 'extname', 'dirname' ]); let VFile$1 = class VFile { constructor(value) { let options; if (!value) { options = {}; } else if (isUrl$1(value)) { options = {path: value}; } else if (typeof value === 'string' || isUint8Array$3(value)) { options = {value}; } else { options = value; } this.cwd = process$1.cwd(); this.data = {}; this.history = []; this.messages = []; this.value; this.map; this.result; this.stored; let index = -1; while (++index < order$1.length) { const prop = order$1[index]; if ( prop in options && options[prop] !== undefined && options[prop] !== null ) { this[prop] = prop === 'history' ? [...options[prop]] : options[prop]; } } let prop; for (prop in options) { if (!order$1.includes(prop)) { this[prop] = options[prop]; } } } get basename() { return typeof this.path === 'string' ? path$1.basename(this.path) : undefined } set basename(basename) { assertNonEmpty$1(basename, 'basename'); assertPart$1(basename, 'basename'); this.path = path$1.join(this.dirname || '', basename); } get dirname() { return typeof this.path === 'string' ? path$1.dirname(this.path) : undefined } set dirname(dirname) { assertPath$1(this.basename, 'dirname'); this.path = path$1.join(dirname || '', this.basename); } get extname() { return typeof this.path === 'string' ? path$1.extname(this.path) : undefined } set extname(extname) { assertPart$1(extname, 'extname'); assertPath$1(this.dirname, 'extname'); if (extname) { if (extname.codePointAt(0) !== 46 ) { throw new Error('`extname` must start with `.`') } if (extname.includes('.', 1)) { throw new Error('`extname` cannot contain multiple dots') } } this.path = path$1.join(this.dirname, this.stem + (extname || '')); } get path() { return this.history[this.history.length - 1] } set path(path) { if (isUrl$1(path)) { path = fileURLToPath(path); } assertNonEmpty$1(path, 'path'); if (this.path !== path) { this.history.push(path); } } get stem() { return typeof this.path === 'string' ? path$1.basename(this.path, this.extname) : undefined } set stem(stem) { assertNonEmpty$1(stem, 'stem'); assertPart$1(stem, 'stem'); this.path = path$1.join(this.dirname || '', stem + (this.extname || '')); } fail(causeOrReason, optionsOrParentOrPlace, origin) { const message = this.message(causeOrReason, optionsOrParentOrPlace, origin); message.fatal = true; throw message } info(causeOrReason, optionsOrParentOrPlace, origin) { const message = this.message(causeOrReason, optionsOrParentOrPlace, origin); message.fatal = undefined; return message } message(causeOrReason, optionsOrParentOrPlace, origin) { const message = new VFileMessage$1( causeOrReason, optionsOrParentOrPlace, origin ); if (this.path) { message.name = this.path + ':' + message.name; message.file = this.path; } message.fatal = false; this.messages.push(message); return message } toString(encoding) { if (this.value === undefined) { return '' } if (typeof this.value === 'string') { return this.value } const decoder = new TextDecoder(encoding || undefined); return decoder.decode(this.value) } }; function assertPart$1(part, name) { if (part && part.includes(path$1.sep)) { throw new Error( '`' + name + '` cannot be a path: did not expect `' + path$1.sep + '`' ) } } function assertNonEmpty$1(part, name) { if (!part) { throw new Error('`' + name + '` cannot be empty') } } function assertPath$1(path, name) { if (!path) { throw new Error('Setting `' + name + '` requires `path` to be set too') } } function isUint8Array$3(value) { return Boolean( value && typeof value === 'object' && 'byteLength' in value && 'byteOffset' in value ) } const CallableInstance = ( ( function (property) { const self = this; const constr = self.constructor; const proto = ( constr.prototype ); const func = proto[property]; const apply = function () { return func.apply(apply, arguments) }; Object.setPrototypeOf(apply, proto); const names = Object.getOwnPropertyNames(func); for (const p of names) { const descriptor = Object.getOwnPropertyDescriptor(func, p); if (descriptor) Object.defineProperty(apply, p, descriptor); } return apply } ) ); const own$6 = {}.hasOwnProperty; class Processor extends CallableInstance { constructor() { super('copy'); this.Compiler = undefined; this.Parser = undefined; this.attachers = []; this.compiler = undefined; this.freezeIndex = -1; this.frozen = undefined; this.namespace = {}; this.parser = undefined; this.transformers = trough(); } copy() { const destination = ( new Processor() ); let index = -1; while (++index < this.attachers.length) { const attacher = this.attachers[index]; destination.use(...attacher); } destination.data(extend$2(true, {}, this.namespace)); return destination } data(key, value) { if (typeof key === 'string') { if (arguments.length === 2) { assertUnfrozen('data', this.frozen); this.namespace[key] = value; return this } return (own$6.call(this.namespace, key) && this.namespace[key]) || undefined } if (key) { assertUnfrozen('data', this.frozen); this.namespace = key; return this } return this.namespace } freeze() { if (this.frozen) { return this } const self = ( (this)); while (++this.freezeIndex < this.attachers.length) { const [attacher, ...options] = this.attachers[this.freezeIndex]; if (options[0] === false) { continue } if (options[0] === true) { options[0] = undefined; } const transformer = attacher.call(self, ...options); if (typeof transformer === 'function') { this.transformers.use(transformer); } } this.frozen = true; this.freezeIndex = Number.POSITIVE_INFINITY; return this } parse(file) { this.freeze(); const realFile = vfile(file); const parser = this.parser || this.Parser; assertParser('parse', parser); return parser(String(realFile), realFile) } process(file, done) { const self = this; this.freeze(); assertParser('process', this.parser || this.Parser); assertCompiler('process', this.compiler || this.Compiler); return done ? executor(undefined, done) : new Promise(executor) function executor(resolve, reject) { const realFile = vfile(file); const parseTree = ( (self.parse(realFile)) ); self.run(parseTree, realFile, function (error, tree, file) { if (error || !tree || !file) { return realDone(error) } const compileTree = ( (tree) ); const compileResult = self.stringify(compileTree, file); if (looksLikeAValue(compileResult)) { file.value = compileResult; } else { file.result = compileResult; } realDone(error, (file)); }); function realDone(error, file) { if (error || !file) { reject(error); } else if (resolve) { resolve(file); } else { done(undefined, file); } } } } processSync(file) { let complete = false; let result; this.freeze(); assertParser('processSync', this.parser || this.Parser); assertCompiler('processSync', this.compiler || this.Compiler); this.process(file, realDone); assertDone('processSync', 'process', complete); return result function realDone(error, file) { complete = true; bail(error); result = file; } } run(tree, file, done) { assertNode(tree); this.freeze(); const transformers = this.transformers; if (!done && typeof file === 'function') { done = file; file = undefined; } return done ? executor(undefined, done) : new Promise(executor) function executor(resolve, reject) { const realFile = vfile(file); transformers.run(tree, realFile, realDone); function realDone(error, outputTree, file) { const resultingTree = ( outputTree || tree ); if (error) { reject(error); } else if (resolve) { resolve(resultingTree); } else { done(undefined, resultingTree, file); } } } } runSync(tree, file) { let complete = false; let result; this.run(tree, file, realDone); assertDone('runSync', 'run', complete); return result function realDone(error, tree) { bail(error); result = tree; complete = true; } } stringify(tree, file) { this.freeze(); const realFile = vfile(file); const compiler = this.compiler || this.Compiler; assertCompiler('stringify', compiler); assertNode(tree); return compiler(tree, realFile) } use(value, ...parameters) { const attachers = this.attachers; const namespace = this.namespace; assertUnfrozen('use', this.frozen); if (value === null || value === undefined) ; else if (typeof value === 'function') { addPlugin(value, parameters); } else if (typeof value === 'object') { if (Array.isArray(value)) { addList(value); } else { addPreset(value); } } else { throw new TypeError('Expected usable value, not `' + value + '`') } return this function add(value) { if (typeof value === 'function') { addPlugin(value, []); } else if (typeof value === 'object') { if (Array.isArray(value)) { const [plugin, ...parameters] = (value); addPlugin(plugin, parameters); } else { addPreset(value); } } else { throw new TypeError('Expected usable value, not `' + value + '`') } } function addPreset(result) { if (!('plugins' in result) && !('settings' in result)) { throw new Error( 'Expected usable value but received an empty preset, which is probably a mistake: presets typically come with `plugins` and sometimes with `settings`, but this has neither' ) } addList(result.plugins); if (result.settings) { namespace.settings = extend$2(true, namespace.settings, result.settings); } } function addList(plugins) { let index = -1; if (plugins === null || plugins === undefined) ; else if (Array.isArray(plugins)) { while (++index < plugins.length) { const thing = plugins[index]; add(thing); } } else { throw new TypeError('Expected a list of plugins, not `' + plugins + '`') } } function addPlugin(plugin, parameters) { let index = -1; let entryIndex = -1; while (++index < attachers.length) { if (attachers[index][0] === plugin) { entryIndex = index; break } } if (entryIndex === -1) { attachers.push([plugin, ...parameters]); } else if (parameters.length > 0) { let [primary, ...rest] = parameters; const currentPrimary = attachers[entryIndex][1]; if (isPlainObject(currentPrimary) && isPlainObject(primary)) { primary = extend$2(true, currentPrimary, primary); } attachers[entryIndex] = [plugin, primary, ...rest]; } } } } const unified = new Processor().freeze(); function assertParser(name, value) { if (typeof value !== 'function') { throw new TypeError('Cannot `' + name + '` without `parser`') } } function assertCompiler(name, value) { if (typeof value !== 'function') { throw new TypeError('Cannot `' + name + '` without `compiler`') } } function assertUnfrozen(name, frozen) { if (frozen) { throw new Error( 'Cannot call `' + name + '` on a frozen processor.\nCreate a new processor first, by calling it: use `processor()` instead of `processor`.' ) } } function assertNode(node) { if (!isPlainObject(node) || typeof node.type !== 'string') { throw new TypeError('Expected node, got `' + node + '`') } } function assertDone(name, asyncName, complete) { if (!complete) { throw new Error( '`' + name + '` finished async. Use `' + asyncName + '` instead' ) } } function vfile(value) { return looksLikeAVFile$1(value) ? value : new VFile$1(value) } function looksLikeAVFile$1(value) { return Boolean( value && typeof value === 'object' && 'message' in value && 'messages' in value ) } function looksLikeAValue(value) { return typeof value === 'string' || isUint8Array$2(value) } function isUint8Array$2(value) { return Boolean( value && typeof value === 'object' && 'byteLength' in value && 'byteOffset' in value ) } const emptyOptions$3 = {}; function toString$2(value, options) { const settings = options || emptyOptions$3; const includeImageAlt = typeof settings.includeImageAlt === 'boolean' ? settings.includeImageAlt : true; const includeHtml = typeof settings.includeHtml === 'boolean' ? settings.includeHtml : true; return one$2(value, includeImageAlt, includeHtml) } function one$2(value, includeImageAlt, includeHtml) { if (node$2(value)) { if ('value' in value) { return value.type === 'html' && !includeHtml ? '' : value.value } if (includeImageAlt && 'alt' in value && value.alt) { return value.alt } if ('children' in value) { return all$2(value.children, includeImageAlt, includeHtml) } } if (Array.isArray(value)) { return all$2(value, includeImageAlt, includeHtml) } return '' } function all$2(values, includeImageAlt, includeHtml) { const result = []; let index = -1; while (++index < values.length) { result[index] = one$2(values[index], includeImageAlt, includeHtml); } return result.join('') } function node$2(value) { return Boolean(value && typeof value === 'object') } const characterEntities = { AElig: 'Æ', AMP: '&', Aacute: 'Á', Abreve: 'Ă', Acirc: 'Â', Acy: 'А', Afr: '𝔄', Agrave: 'À', Alpha: 'Α', Amacr: 'Ā', And: '⩓', Aogon: 'Ą', Aopf: '𝔸', ApplyFunction: '⁡', Aring: 'Å', Ascr: '𝒜', Assign: '≔', Atilde: 'Ã', Auml: 'Ä', Backslash: '∖', Barv: '⫧', Barwed: '⌆', Bcy: 'Б', Because: '∵', Bernoullis: 'ℬ', Beta: 'Β', Bfr: '𝔅', Bopf: '𝔹', Breve: '˘', Bscr: 'ℬ', Bumpeq: '≎', CHcy: 'Ч', COPY: '©', Cacute: 'Ć', Cap: '⋒', CapitalDifferentialD: 'ⅅ', Cayleys: 'ℭ', Ccaron: 'Č', Ccedil: 'Ç', Ccirc: 'Ĉ', Cconint: '∰', Cdot: 'Ċ', Cedilla: '¸', CenterDot: '·', Cfr: 'ℭ', Chi: 'Χ', CircleDot: '⊙', CircleMinus: '⊖', CirclePlus: '⊕', CircleTimes: '⊗', ClockwiseContourIntegral: '∲', CloseCurlyDoubleQuote: '”', CloseCurlyQuote: '’', Colon: '∷', Colone: '⩴', Congruent: '≡', Conint: '∯', ContourIntegral: '∮', Copf: 'ℂ', Coproduct: '∐', CounterClockwiseContourIntegral: '∳', Cross: '⨯', Cscr: '𝒞', Cup: '⋓', CupCap: '≍', DD: 'ⅅ', DDotrahd: '⤑', DJcy: 'Ђ', DScy: 'Ѕ', DZcy: 'Џ', Dagger: '‡', Darr: '↡', Dashv: '⫤', Dcaron: 'Ď', Dcy: 'Д', Del: '∇', Delta: 'Δ', Dfr: '𝔇', DiacriticalAcute: '´', DiacriticalDot: '˙', DiacriticalDoubleAcute: '˝', DiacriticalGrave: '`', DiacriticalTilde: '˜', Diamond: '⋄', DifferentialD: 'ⅆ', Dopf: '𝔻', Dot: '¨', DotDot: '⃜', DotEqual: '≐', DoubleContourIntegral: '∯', DoubleDot: '¨', DoubleDownArrow: '⇓', DoubleLeftArrow: '⇐', DoubleLeftRightArrow: '⇔', DoubleLeftTee: '⫤', DoubleLongLeftArrow: '⟸', DoubleLongLeftRightArrow: '⟺', DoubleLongRightArrow: '⟹', DoubleRightArrow: '⇒', DoubleRightTee: '⊨', DoubleUpArrow: '⇑', DoubleUpDownArrow: '⇕', DoubleVerticalBar: '∥', DownArrow: '↓', DownArrowBar: '⤓', DownArrowUpArrow: '⇵', DownBreve: '̑', DownLeftRightVector: '⥐', DownLeftTeeVector: '⥞', DownLeftVector: '↽', DownLeftVectorBar: '⥖', DownRightTeeVector: '⥟', DownRightVector: '⇁', DownRightVectorBar: '⥗', DownTee: '⊤', DownTeeArrow: '↧', Downarrow: '⇓', Dscr: '𝒟', Dstrok: 'Đ', ENG: 'Ŋ', ETH: 'Ð', Eacute: 'É', Ecaron: 'Ě', Ecirc: 'Ê', Ecy: 'Э', Edot: 'Ė', Efr: '𝔈', Egrave: 'È', Element: '∈', Emacr: 'Ē', EmptySmallSquare: '◻', EmptyVerySmallSquare: '▫', Eogon: 'Ę', Eopf: '𝔼', Epsilon: 'Ε', Equal: '⩵', EqualTilde: '≂', Equilibrium: '⇌', Escr: 'ℰ', Esim: '⩳', Eta: 'Η', Euml: 'Ë', Exists: '∃', ExponentialE: 'ⅇ', Fcy: 'Ф', Ffr: '𝔉', FilledSmallSquare: '◼', FilledVerySmallSquare: '▪', Fopf: '𝔽', ForAll: '∀', Fouriertrf: 'ℱ', Fscr: 'ℱ', GJcy: 'Ѓ', GT: '>', Gamma: 'Γ', Gammad: 'Ϝ', Gbreve: 'Ğ', Gcedil: 'Ģ', Gcirc: 'Ĝ', Gcy: 'Г', Gdot: 'Ġ', Gfr: '𝔊', Gg: '⋙', Gopf: '𝔾', GreaterEqual: '≥', GreaterEqualLess: '⋛', GreaterFullEqual: '≧', GreaterGreater: '⪢', GreaterLess: '≷', GreaterSlantEqual: '⩾', GreaterTilde: '≳', Gscr: '𝒢', Gt: '≫', HARDcy: 'Ъ', Hacek: 'ˇ', Hat: '^', Hcirc: 'Ĥ', Hfr: 'ℌ', HilbertSpace: 'ℋ', Hopf: 'ℍ', HorizontalLine: '─', Hscr: 'ℋ', Hstrok: 'Ħ', HumpDownHump: '≎', HumpEqual: '≏', IEcy: 'Е', IJlig: 'IJ', IOcy: 'Ё', Iacute: 'Í', Icirc: 'Î', Icy: 'И', Idot: 'İ', Ifr: 'ℑ', Igrave: 'Ì', Im: 'ℑ', Imacr: 'Ī', ImaginaryI: 'ⅈ', Implies: '⇒', Int: '∬', Integral: '∫', Intersection: '⋂', InvisibleComma: '⁣', InvisibleTimes: '⁢', Iogon: 'Į', Iopf: '𝕀', Iota: 'Ι', Iscr: 'ℐ', Itilde: 'Ĩ', Iukcy: 'І', Iuml: 'Ï', Jcirc: 'Ĵ', Jcy: 'Й', Jfr: '𝔍', Jopf: '𝕁', Jscr: '𝒥', Jsercy: 'Ј', Jukcy: 'Є', KHcy: 'Х', KJcy: 'Ќ', Kappa: 'Κ', Kcedil: 'Ķ', Kcy: 'К', Kfr: '𝔎', Kopf: '𝕂', Kscr: '𝒦', LJcy: 'Љ', LT: '<', Lacute: 'Ĺ', Lambda: 'Λ', Lang: '⟪', Laplacetrf: 'ℒ', Larr: '↞', Lcaron: 'Ľ', Lcedil: 'Ļ', Lcy: 'Л', LeftAngleBracket: '⟨', LeftArrow: '←', LeftArrowBar: '⇤', LeftArrowRightArrow: '⇆', LeftCeiling: '⌈', LeftDoubleBracket: '⟦', LeftDownTeeVector: '⥡', LeftDownVector: '⇃', LeftDownVectorBar: '⥙', LeftFloor: '⌊', LeftRightArrow: '↔', LeftRightVector: '⥎', LeftTee: '⊣', LeftTeeArrow: '↤', LeftTeeVector: '⥚', LeftTriangle: '⊲', LeftTriangleBar: '⧏', LeftTriangleEqual: '⊴', LeftUpDownVector: '⥑', LeftUpTeeVector: '⥠', LeftUpVector: '↿', LeftUpVectorBar: '⥘', LeftVector: '↼', LeftVectorBar: '⥒', Leftarrow: '⇐', Leftrightarrow: '⇔', LessEqualGreater: '⋚', LessFullEqual: '≦', LessGreater: '≶', LessLess: '⪡', LessSlantEqual: '⩽', LessTilde: '≲', Lfr: '𝔏', Ll: '⋘', Lleftarrow: '⇚', Lmidot: 'Ŀ', LongLeftArrow: '⟵', LongLeftRightArrow: '⟷', LongRightArrow: '⟶', Longleftarrow: '⟸', Longleftrightarrow: '⟺', Longrightarrow: '⟹', Lopf: '𝕃', LowerLeftArrow: '↙', LowerRightArrow: '↘', Lscr: 'ℒ', Lsh: '↰', Lstrok: 'Ł', Lt: '≪', Map: '⤅', Mcy: 'М', MediumSpace: ' ', Mellintrf: 'ℳ', Mfr: '𝔐', MinusPlus: '∓', Mopf: '𝕄', Mscr: 'ℳ', Mu: 'Μ', NJcy: 'Њ', Nacute: 'Ń', Ncaron: 'Ň', Ncedil: 'Ņ', Ncy: 'Н', NegativeMediumSpace: '​', NegativeThickSpace: '​', NegativeThinSpace: '​', NegativeVeryThinSpace: '​', NestedGreaterGreater: '≫', NestedLessLess: '≪', NewLine: '\n', Nfr: '𝔑', NoBreak: '⁠', NonBreakingSpace: ' ', Nopf: 'ℕ', Not: '⫬', NotCongruent: '≢', NotCupCap: '≭', NotDoubleVerticalBar: '∦', NotElement: '∉', NotEqual: '≠', NotEqualTilde: '≂̸', NotExists: '∄', NotGreater: '≯', NotGreaterEqual: '≱', NotGreaterFullEqual: '≧̸', NotGreaterGreater: '≫̸', NotGreaterLess: '≹', NotGreaterSlantEqual: '⩾̸', NotGreaterTilde: '≵', NotHumpDownHump: '≎̸', NotHumpEqual: '≏̸', NotLeftTriangle: '⋪', NotLeftTriangleBar: '⧏̸', NotLeftTriangleEqual: '⋬', NotLess: '≮', NotLessEqual: '≰', NotLessGreater: '≸', NotLessLess: '≪̸', NotLessSlantEqual: '⩽̸', NotLessTilde: '≴', NotNestedGreaterGreater: '⪢̸', NotNestedLessLess: '⪡̸', NotPrecedes: '⊀', NotPrecedesEqual: '⪯̸', NotPrecedesSlantEqual: '⋠', NotReverseElement: '∌', NotRightTriangle: '⋫', NotRightTriangleBar: '⧐̸', NotRightTriangleEqual: '⋭', NotSquareSubset: '⊏̸', NotSquareSubsetEqual: '⋢', NotSquareSuperset: '⊐̸', NotSquareSupersetEqual: '⋣', NotSubset: '⊂⃒', NotSubsetEqual: '⊈', NotSucceeds: '⊁', NotSucceedsEqual: '⪰̸', NotSucceedsSlantEqual: '⋡', NotSucceedsTilde: '≿̸', NotSuperset: '⊃⃒', NotSupersetEqual: '⊉', NotTilde: '≁', NotTildeEqual: '≄', NotTildeFullEqual: '≇', NotTildeTilde: '≉', NotVerticalBar: '∤', Nscr: '𝒩', Ntilde: 'Ñ', Nu: 'Ν', OElig: 'Œ', Oacute: 'Ó', Ocirc: 'Ô', Ocy: 'О', Odblac: 'Ő', Ofr: '𝔒', Ograve: 'Ò', Omacr: 'Ō', Omega: 'Ω', Omicron: 'Ο', Oopf: '𝕆', OpenCurlyDoubleQuote: '“', OpenCurlyQuote: '‘', Or: '⩔', Oscr: '𝒪', Oslash: 'Ø', Otilde: 'Õ', Otimes: '⨷', Ouml: 'Ö', OverBar: '‾', OverBrace: '⏞', OverBracket: '⎴', OverParenthesis: '⏜', PartialD: '∂', Pcy: 'П', Pfr: '𝔓', Phi: 'Φ', Pi: 'Π', PlusMinus: '±', Poincareplane: 'ℌ', Popf: 'ℙ', Pr: '⪻', Precedes: '≺', PrecedesEqual: '⪯', PrecedesSlantEqual: '≼', PrecedesTilde: '≾', Prime: '″', Product: '∏', Proportion: '∷', Proportional: '∝', Pscr: '𝒫', Psi: 'Ψ', QUOT: '"', Qfr: '𝔔', Qopf: 'ℚ', Qscr: '𝒬', RBarr: '⤐', REG: '®', Racute: 'Ŕ', Rang: '⟫', Rarr: '↠', Rarrtl: '⤖', Rcaron: 'Ř', Rcedil: 'Ŗ', Rcy: 'Р', Re: 'ℜ', ReverseElement: '∋', ReverseEquilibrium: '⇋', ReverseUpEquilibrium: '⥯', Rfr: 'ℜ', Rho: 'Ρ', RightAngleBracket: '⟩', RightArrow: '→', RightArrowBar: '⇥', RightArrowLeftArrow: '⇄', RightCeiling: '⌉', RightDoubleBracket: '⟧', RightDownTeeVector: '⥝', RightDownVector: '⇂', RightDownVectorBar: '⥕', RightFloor: '⌋', RightTee: '⊢', RightTeeArrow: '↦', RightTeeVector: '⥛', RightTriangle: '⊳', RightTriangleBar: '⧐', RightTriangleEqual: '⊵', RightUpDownVector: '⥏', RightUpTeeVector: '⥜', RightUpVector: '↾', RightUpVectorBar: '⥔', RightVector: '⇀', RightVectorBar: '⥓', Rightarrow: '⇒', Ropf: 'ℝ', RoundImplies: '⥰', Rrightarrow: '⇛', Rscr: 'ℛ', Rsh: '↱', RuleDelayed: '⧴', SHCHcy: 'Щ', SHcy: 'Ш', SOFTcy: 'Ь', Sacute: 'Ś', Sc: '⪼', Scaron: 'Š', Scedil: 'Ş', Scirc: 'Ŝ', Scy: 'С', Sfr: '𝔖', ShortDownArrow: '↓', ShortLeftArrow: '←', ShortRightArrow: '→', ShortUpArrow: '↑', Sigma: 'Σ', SmallCircle: '∘', Sopf: '𝕊', Sqrt: '√', Square: '□', SquareIntersection: '⊓', SquareSubset: '⊏', SquareSubsetEqual: '⊑', SquareSuperset: '⊐', SquareSupersetEqual: '⊒', SquareUnion: '⊔', Sscr: '𝒮', Star: '⋆', Sub: '⋐', Subset: '⋐', SubsetEqual: '⊆', Succeeds: '≻', SucceedsEqual: '⪰', SucceedsSlantEqual: '≽', SucceedsTilde: '≿', SuchThat: '∋', Sum: '∑', Sup: '⋑', Superset: '⊃', SupersetEqual: '⊇', Supset: '⋑', THORN: 'Þ', TRADE: '™', TSHcy: 'Ћ', TScy: 'Ц', Tab: '\t', Tau: 'Τ', Tcaron: 'Ť', Tcedil: 'Ţ', Tcy: 'Т', Tfr: '𝔗', Therefore: '∴', Theta: 'Θ', ThickSpace: '  ', ThinSpace: ' ', Tilde: '∼', TildeEqual: '≃', TildeFullEqual: '≅', TildeTilde: '≈', Topf: '𝕋', TripleDot: '⃛', Tscr: '𝒯', Tstrok: 'Ŧ', Uacute: 'Ú', Uarr: '↟', Uarrocir: '⥉', Ubrcy: 'Ў', Ubreve: 'Ŭ', Ucirc: 'Û', Ucy: 'У', Udblac: 'Ű', Ufr: '𝔘', Ugrave: 'Ù', Umacr: 'Ū', UnderBar: '_', UnderBrace: '⏟', UnderBracket: '⎵', UnderParenthesis: '⏝', Union: '⋃', UnionPlus: '⊎', Uogon: 'Ų', Uopf: '𝕌', UpArrow: '↑', UpArrowBar: '⤒', UpArrowDownArrow: '⇅', UpDownArrow: '↕', UpEquilibrium: '⥮', UpTee: '⊥', UpTeeArrow: '↥', Uparrow: '⇑', Updownarrow: '⇕', UpperLeftArrow: '↖', UpperRightArrow: '↗', Upsi: 'ϒ', Upsilon: 'Υ', Uring: 'Ů', Uscr: '𝒰', Utilde: 'Ũ', Uuml: 'Ü', VDash: '⊫', Vbar: '⫫', Vcy: 'В', Vdash: '⊩', Vdashl: '⫦', Vee: '⋁', Verbar: '‖', Vert: '‖', VerticalBar: '∣', VerticalLine: '|', VerticalSeparator: '❘', VerticalTilde: '≀', VeryThinSpace: ' ', Vfr: '𝔙', Vopf: '𝕍', Vscr: '𝒱', Vvdash: '⊪', Wcirc: 'Ŵ', Wedge: '⋀', Wfr: '𝔚', Wopf: '𝕎', Wscr: '𝒲', Xfr: '𝔛', Xi: 'Ξ', Xopf: '𝕏', Xscr: '𝒳', YAcy: 'Я', YIcy: 'Ї', YUcy: 'Ю', Yacute: 'Ý', Ycirc: 'Ŷ', Ycy: 'Ы', Yfr: '𝔜', Yopf: '𝕐', Yscr: '𝒴', Yuml: 'Ÿ', ZHcy: 'Ж', Zacute: 'Ź', Zcaron: 'Ž', Zcy: 'З', Zdot: 'Ż', ZeroWidthSpace: '​', Zeta: 'Ζ', Zfr: 'ℨ', Zopf: 'ℤ', Zscr: '𝒵', aacute: 'á', abreve: 'ă', ac: '∾', acE: '∾̳', acd: '∿', acirc: 'â', acute: '´', acy: 'а', aelig: 'æ', af: '⁡', afr: '𝔞', agrave: 'à', alefsym: 'ℵ', aleph: 'ℵ', alpha: 'α', amacr: 'ā', amalg: '⨿', amp: '&', and: '∧', andand: '⩕', andd: '⩜', andslope: '⩘', andv: '⩚', ang: '∠', ange: '⦤', angle: '∠', angmsd: '∡', angmsdaa: '⦨', angmsdab: '⦩', angmsdac: '⦪', angmsdad: '⦫', angmsdae: '⦬', angmsdaf: '⦭', angmsdag: '⦮', angmsdah: '⦯', angrt: '∟', angrtvb: '⊾', angrtvbd: '⦝', angsph: '∢', angst: 'Å', angzarr: '⍼', aogon: 'ą', aopf: '𝕒', ap: '≈', apE: '⩰', apacir: '⩯', ape: '≊', apid: '≋', apos: "'", approx: '≈', approxeq: '≊', aring: 'å', ascr: '𝒶', ast: '*', asymp: '≈', asympeq: '≍', atilde: 'ã', auml: 'ä', awconint: '∳', awint: '⨑', bNot: '⫭', backcong: '≌', backepsilon: '϶', backprime: '‵', backsim: '∽', backsimeq: '⋍', barvee: '⊽', barwed: '⌅', barwedge: '⌅', bbrk: '⎵', bbrktbrk: '⎶', bcong: '≌', bcy: 'б', bdquo: '„', becaus: '∵', because: '∵', bemptyv: '⦰', bepsi: '϶', bernou: 'ℬ', beta: 'β', beth: 'ℶ', between: '≬', bfr: '𝔟', bigcap: '⋂', bigcirc: '◯', bigcup: '⋃', bigodot: '⨀', bigoplus: '⨁', bigotimes: '⨂', bigsqcup: '⨆', bigstar: '★', bigtriangledown: '▽', bigtriangleup: '△', biguplus: '⨄', bigvee: '⋁', bigwedge: '⋀', bkarow: '⤍', blacklozenge: '⧫', blacksquare: '▪', blacktriangle: '▴', blacktriangledown: '▾', blacktriangleleft: '◂', blacktriangleright: '▸', blank: '␣', blk12: '▒', blk14: '░', blk34: '▓', block: '█', bne: '=⃥', bnequiv: '≡⃥', bnot: '⌐', bopf: '𝕓', bot: '⊥', bottom: '⊥', bowtie: '⋈', boxDL: '╗', boxDR: '╔', boxDl: '╖', boxDr: '╓', boxH: '═', boxHD: '╦', boxHU: '╩', boxHd: '╤', boxHu: '╧', boxUL: '╝', boxUR: '╚', boxUl: '╜', boxUr: '╙', boxV: '║', boxVH: '╬', boxVL: '╣', boxVR: '╠', boxVh: '╫', boxVl: '╢', boxVr: '╟', boxbox: '⧉', boxdL: '╕', boxdR: '╒', boxdl: '┐', boxdr: '┌', boxh: '─', boxhD: '╥', boxhU: '╨', boxhd: '┬', boxhu: '┴', boxminus: '⊟', boxplus: '⊞', boxtimes: '⊠', boxuL: '╛', boxuR: '╘', boxul: '┘', boxur: '└', boxv: '│', boxvH: '╪', boxvL: '╡', boxvR: '╞', boxvh: '┼', boxvl: '┤', boxvr: '├', bprime: '‵', breve: '˘', brvbar: '¦', bscr: '𝒷', bsemi: '⁏', bsim: '∽', bsime: '⋍', bsol: '\\', bsolb: '⧅', bsolhsub: '⟈', bull: '•', bullet: '•', bump: '≎', bumpE: '⪮', bumpe: '≏', bumpeq: '≏', cacute: 'ć', cap: '∩', capand: '⩄', capbrcup: '⩉', capcap: '⩋', capcup: '⩇', capdot: '⩀', caps: '∩︀', caret: '⁁', caron: 'ˇ', ccaps: '⩍', ccaron: 'č', ccedil: 'ç', ccirc: 'ĉ', ccups: '⩌', ccupssm: '⩐', cdot: 'ċ', cedil: '¸', cemptyv: '⦲', cent: '¢', centerdot: '·', cfr: '𝔠', chcy: 'ч', check: '✓', checkmark: '✓', chi: 'χ', cir: '○', cirE: '⧃', circ: 'ˆ', circeq: '≗', circlearrowleft: '↺', circlearrowright: '↻', circledR: '®', circledS: 'Ⓢ', circledast: '⊛', circledcirc: '⊚', circleddash: '⊝', cire: '≗', cirfnint: '⨐', cirmid: '⫯', cirscir: '⧂', clubs: '♣', clubsuit: '♣', colon: ':', colone: '≔', coloneq: '≔', comma: ',', commat: '@', comp: '∁', compfn: '∘', complement: '∁', complexes: 'ℂ', cong: '≅', congdot: '⩭', conint: '∮', copf: '𝕔', coprod: '∐', copy: '©', copysr: '℗', crarr: '↵', cross: '✗', cscr: '𝒸', csub: '⫏', csube: '⫑', csup: '⫐', csupe: '⫒', ctdot: '⋯', cudarrl: '⤸', cudarrr: '⤵', cuepr: '⋞', cuesc: '⋟', cularr: '↶', cularrp: '⤽', cup: '∪', cupbrcap: '⩈', cupcap: '⩆', cupcup: '⩊', cupdot: '⊍', cupor: '⩅', cups: '∪︀', curarr: '↷', curarrm: '⤼', curlyeqprec: '⋞', curlyeqsucc: '⋟', curlyvee: '⋎', curlywedge: '⋏', curren: '¤', curvearrowleft: '↶', curvearrowright: '↷', cuvee: '⋎', cuwed: '⋏', cwconint: '∲', cwint: '∱', cylcty: '⌭', dArr: '⇓', dHar: '⥥', dagger: '†', daleth: 'ℸ', darr: '↓', dash: '‐', dashv: '⊣', dbkarow: '⤏', dblac: '˝', dcaron: 'ď', dcy: 'д', dd: 'ⅆ', ddagger: '‡', ddarr: '⇊', ddotseq: '⩷', deg: '°', delta: 'δ', demptyv: '⦱', dfisht: '⥿', dfr: '𝔡', dharl: '⇃', dharr: '⇂', diam: '⋄', diamond: '⋄', diamondsuit: '♦', diams: '♦', die: '¨', digamma: 'ϝ', disin: '⋲', div: '÷', divide: '÷', divideontimes: '⋇', divonx: '⋇', djcy: 'ђ', dlcorn: '⌞', dlcrop: '⌍', dollar: '$', dopf: '𝕕', dot: '˙', doteq: '≐', doteqdot: '≑', dotminus: '∸', dotplus: '∔', dotsquare: '⊡', doublebarwedge: '⌆', downarrow: '↓', downdownarrows: '⇊', downharpoonleft: '⇃', downharpoonright: '⇂', drbkarow: '⤐', drcorn: '⌟', drcrop: '⌌', dscr: '𝒹', dscy: 'ѕ', dsol: '⧶', dstrok: 'đ', dtdot: '⋱', dtri: '▿', dtrif: '▾', duarr: '⇵', duhar: '⥯', dwangle: '⦦', dzcy: 'џ', dzigrarr: '⟿', eDDot: '⩷', eDot: '≑', eacute: 'é', easter: '⩮', ecaron: 'ě', ecir: '≖', ecirc: 'ê', ecolon: '≕', ecy: 'э', edot: 'ė', ee: 'ⅇ', efDot: '≒', efr: '𝔢', eg: '⪚', egrave: 'è', egs: '⪖', egsdot: '⪘', el: '⪙', elinters: '⏧', ell: 'ℓ', els: '⪕', elsdot: '⪗', emacr: 'ē', empty: '∅', emptyset: '∅', emptyv: '∅', emsp13: ' ', emsp14: ' ', emsp: ' ', eng: 'ŋ', ensp: ' ', eogon: 'ę', eopf: '𝕖', epar: '⋕', eparsl: '⧣', eplus: '⩱', epsi: 'ε', epsilon: 'ε', epsiv: 'ϵ', eqcirc: '≖', eqcolon: '≕', eqsim: '≂', eqslantgtr: '⪖', eqslantless: '⪕', equals: '=', equest: '≟', equiv: '≡', equivDD: '⩸', eqvparsl: '⧥', erDot: '≓', erarr: '⥱', escr: 'ℯ', esdot: '≐', esim: '≂', eta: 'η', eth: 'ð', euml: 'ë', euro: '€', excl: '!', exist: '∃', expectation: 'ℰ', exponentiale: 'ⅇ', fallingdotseq: '≒', fcy: 'ф', female: '♀', ffilig: 'ffi', fflig: 'ff', ffllig: 'ffl', ffr: '𝔣', filig: 'fi', fjlig: 'fj', flat: '♭', fllig: 'fl', fltns: '▱', fnof: 'ƒ', fopf: '𝕗', forall: '∀', fork: '⋔', forkv: '⫙', fpartint: '⨍', frac12: '½', frac13: '⅓', frac14: '¼', frac15: '⅕', frac16: '⅙', frac18: '⅛', frac23: '⅔', frac25: '⅖', frac34: '¾', frac35: '⅗', frac38: '⅜', frac45: '⅘', frac56: '⅚', frac58: '⅝', frac78: '⅞', frasl: '⁄', frown: '⌢', fscr: '𝒻', gE: '≧', gEl: '⪌', gacute: 'ǵ', gamma: 'γ', gammad: 'ϝ', gap: '⪆', gbreve: 'ğ', gcirc: 'ĝ', gcy: 'г', gdot: 'ġ', ge: '≥', gel: '⋛', geq: '≥', geqq: '≧', geqslant: '⩾', ges: '⩾', gescc: '⪩', gesdot: '⪀', gesdoto: '⪂', gesdotol: '⪄', gesl: '⋛︀', gesles: '⪔', gfr: '𝔤', gg: '≫', ggg: '⋙', gimel: 'ℷ', gjcy: 'ѓ', gl: '≷', glE: '⪒', gla: '⪥', glj: '⪤', gnE: '≩', gnap: '⪊', gnapprox: '⪊', gne: '⪈', gneq: '⪈', gneqq: '≩', gnsim: '⋧', gopf: '𝕘', grave: '`', gscr: 'ℊ', gsim: '≳', gsime: '⪎', gsiml: '⪐', gt: '>', gtcc: '⪧', gtcir: '⩺', gtdot: '⋗', gtlPar: '⦕', gtquest: '⩼', gtrapprox: '⪆', gtrarr: '⥸', gtrdot: '⋗', gtreqless: '⋛', gtreqqless: '⪌', gtrless: '≷', gtrsim: '≳', gvertneqq: '≩︀', gvnE: '≩︀', hArr: '⇔', hairsp: ' ', half: '½', hamilt: 'ℋ', hardcy: 'ъ', harr: '↔', harrcir: '⥈', harrw: '↭', hbar: 'ℏ', hcirc: 'ĥ', hearts: '♥', heartsuit: '♥', hellip: '…', hercon: '⊹', hfr: '𝔥', hksearow: '⤥', hkswarow: '⤦', hoarr: '⇿', homtht: '∻', hookleftarrow: '↩', hookrightarrow: '↪', hopf: '𝕙', horbar: '―', hscr: '𝒽', hslash: 'ℏ', hstrok: 'ħ', hybull: '⁃', hyphen: '‐', iacute: 'í', ic: '⁣', icirc: 'î', icy: 'и', iecy: 'е', iexcl: '¡', iff: '⇔', ifr: '𝔦', igrave: 'ì', ii: 'ⅈ', iiiint: '⨌', iiint: '∭', iinfin: '⧜', iiota: '℩', ijlig: 'ij', imacr: 'ī', image: 'ℑ', imagline: 'ℐ', imagpart: 'ℑ', imath: 'ı', imof: '⊷', imped: 'Ƶ', in: '∈', incare: '℅', infin: '∞', infintie: '⧝', inodot: 'ı', int: '∫', intcal: '⊺', integers: 'ℤ', intercal: '⊺', intlarhk: '⨗', intprod: '⨼', iocy: 'ё', iogon: 'į', iopf: '𝕚', iota: 'ι', iprod: '⨼', iquest: '¿', iscr: '𝒾', isin: '∈', isinE: '⋹', isindot: '⋵', isins: '⋴', isinsv: '⋳', isinv: '∈', it: '⁢', itilde: 'ĩ', iukcy: 'і', iuml: 'ï', jcirc: 'ĵ', jcy: 'й', jfr: '𝔧', jmath: 'ȷ', jopf: '𝕛', jscr: '𝒿', jsercy: 'ј', jukcy: 'є', kappa: 'κ', kappav: 'ϰ', kcedil: 'ķ', kcy: 'к', kfr: '𝔨', kgreen: 'ĸ', khcy: 'х', kjcy: 'ќ', kopf: '𝕜', kscr: '𝓀', lAarr: '⇚', lArr: '⇐', lAtail: '⤛', lBarr: '⤎', lE: '≦', lEg: '⪋', lHar: '⥢', lacute: 'ĺ', laemptyv: '⦴', lagran: 'ℒ', lambda: 'λ', lang: '⟨', langd: '⦑', langle: '⟨', lap: '⪅', laquo: '«', larr: '←', larrb: '⇤', larrbfs: '⤟', larrfs: '⤝', larrhk: '↩', larrlp: '↫', larrpl: '⤹', larrsim: '⥳', larrtl: '↢', lat: '⪫', latail: '⤙', late: '⪭', lates: '⪭︀', lbarr: '⤌', lbbrk: '❲', lbrace: '{', lbrack: '[', lbrke: '⦋', lbrksld: '⦏', lbrkslu: '⦍', lcaron: 'ľ', lcedil: 'ļ', lceil: '⌈', lcub: '{', lcy: 'л', ldca: '⤶', ldquo: '“', ldquor: '„', ldrdhar: '⥧', ldrushar: '⥋', ldsh: '↲', le: '≤', leftarrow: '←', leftarrowtail: '↢', leftharpoondown: '↽', leftharpoonup: '↼', leftleftarrows: '⇇', leftrightarrow: '↔', leftrightarrows: '⇆', leftrightharpoons: '⇋', leftrightsquigarrow: '↭', leftthreetimes: '⋋', leg: '⋚', leq: '≤', leqq: '≦', leqslant: '⩽', les: '⩽', lescc: '⪨', lesdot: '⩿', lesdoto: '⪁', lesdotor: '⪃', lesg: '⋚︀', lesges: '⪓', lessapprox: '⪅', lessdot: '⋖', lesseqgtr: '⋚', lesseqqgtr: '⪋', lessgtr: '≶', lesssim: '≲', lfisht: '⥼', lfloor: '⌊', lfr: '𝔩', lg: '≶', lgE: '⪑', lhard: '↽', lharu: '↼', lharul: '⥪', lhblk: '▄', ljcy: 'љ', ll: '≪', llarr: '⇇', llcorner: '⌞', llhard: '⥫', lltri: '◺', lmidot: 'ŀ', lmoust: '⎰', lmoustache: '⎰', lnE: '≨', lnap: '⪉', lnapprox: '⪉', lne: '⪇', lneq: '⪇', lneqq: '≨', lnsim: '⋦', loang: '⟬', loarr: '⇽', lobrk: '⟦', longleftarrow: '⟵', longleftrightarrow: '⟷', longmapsto: '⟼', longrightarrow: '⟶', looparrowleft: '↫', looparrowright: '↬', lopar: '⦅', lopf: '𝕝', loplus: '⨭', lotimes: '⨴', lowast: '∗', lowbar: '_', loz: '◊', lozenge: '◊', lozf: '⧫', lpar: '(', lparlt: '⦓', lrarr: '⇆', lrcorner: '⌟', lrhar: '⇋', lrhard: '⥭', lrm: '‎', lrtri: '⊿', lsaquo: '‹', lscr: '𝓁', lsh: '↰', lsim: '≲', lsime: '⪍', lsimg: '⪏', lsqb: '[', lsquo: '‘', lsquor: '‚', lstrok: 'ł', lt: '<', ltcc: '⪦', ltcir: '⩹', ltdot: '⋖', lthree: '⋋', ltimes: '⋉', ltlarr: '⥶', ltquest: '⩻', ltrPar: '⦖', ltri: '◃', ltrie: '⊴', ltrif: '◂', lurdshar: '⥊', luruhar: '⥦', lvertneqq: '≨︀', lvnE: '≨︀', mDDot: '∺', macr: '¯', male: '♂', malt: '✠', maltese: '✠', map: '↦', mapsto: '↦', mapstodown: '↧', mapstoleft: '↤', mapstoup: '↥', marker: '▮', mcomma: '⨩', mcy: 'м', mdash: '—', measuredangle: '∡', mfr: '𝔪', mho: '℧', micro: 'µ', mid: '∣', midast: '*', midcir: '⫰', middot: '·', minus: '−', minusb: '⊟', minusd: '∸', minusdu: '⨪', mlcp: '⫛', mldr: '…', mnplus: '∓', models: '⊧', mopf: '𝕞', mp: '∓', mscr: '𝓂', mstpos: '∾', mu: 'μ', multimap: '⊸', mumap: '⊸', nGg: '⋙̸', nGt: '≫⃒', nGtv: '≫̸', nLeftarrow: '⇍', nLeftrightarrow: '⇎', nLl: '⋘̸', nLt: '≪⃒', nLtv: '≪̸', nRightarrow: '⇏', nVDash: '⊯', nVdash: '⊮', nabla: '∇', nacute: 'ń', nang: '∠⃒', nap: '≉', napE: '⩰̸', napid: '≋̸', napos: 'ʼn', napprox: '≉', natur: '♮', natural: '♮', naturals: 'ℕ', nbsp: ' ', nbump: '≎̸', nbumpe: '≏̸', ncap: '⩃', ncaron: 'ň', ncedil: 'ņ', ncong: '≇', ncongdot: '⩭̸', ncup: '⩂', ncy: 'н', ndash: '–', ne: '≠', neArr: '⇗', nearhk: '⤤', nearr: '↗', nearrow: '↗', nedot: '≐̸', nequiv: '≢', nesear: '⤨', nesim: '≂̸', nexist: '∄', nexists: '∄', nfr: '𝔫', ngE: '≧̸', nge: '≱', ngeq: '≱', ngeqq: '≧̸', ngeqslant: '⩾̸', nges: '⩾̸', ngsim: '≵', ngt: '≯', ngtr: '≯', nhArr: '⇎', nharr: '↮', nhpar: '⫲', ni: '∋', nis: '⋼', nisd: '⋺', niv: '∋', njcy: 'њ', nlArr: '⇍', nlE: '≦̸', nlarr: '↚', nldr: '‥', nle: '≰', nleftarrow: '↚', nleftrightarrow: '↮', nleq: '≰', nleqq: '≦̸', nleqslant: '⩽̸', nles: '⩽̸', nless: '≮', nlsim: '≴', nlt: '≮', nltri: '⋪', nltrie: '⋬', nmid: '∤', nopf: '𝕟', not: '¬', notin: '∉', notinE: '⋹̸', notindot: '⋵̸', notinva: '∉', notinvb: '⋷', notinvc: '⋶', notni: '∌', notniva: '∌', notnivb: '⋾', notnivc: '⋽', npar: '∦', nparallel: '∦', nparsl: '⫽⃥', npart: '∂̸', npolint: '⨔', npr: '⊀', nprcue: '⋠', npre: '⪯̸', nprec: '⊀', npreceq: '⪯̸', nrArr: '⇏', nrarr: '↛', nrarrc: '⤳̸', nrarrw: '↝̸', nrightarrow: '↛', nrtri: '⋫', nrtrie: '⋭', nsc: '⊁', nsccue: '⋡', nsce: '⪰̸', nscr: '𝓃', nshortmid: '∤', nshortparallel: '∦', nsim: '≁', nsime: '≄', nsimeq: '≄', nsmid: '∤', nspar: '∦', nsqsube: '⋢', nsqsupe: '⋣', nsub: '⊄', nsubE: '⫅̸', nsube: '⊈', nsubset: '⊂⃒', nsubseteq: '⊈', nsubseteqq: '⫅̸', nsucc: '⊁', nsucceq: '⪰̸', nsup: '⊅', nsupE: '⫆̸', nsupe: '⊉', nsupset: '⊃⃒', nsupseteq: '⊉', nsupseteqq: '⫆̸', ntgl: '≹', ntilde: 'ñ', ntlg: '≸', ntriangleleft: '⋪', ntrianglelefteq: '⋬', ntriangleright: '⋫', ntrianglerighteq: '⋭', nu: 'ν', num: '#', numero: '№', numsp: ' ', nvDash: '⊭', nvHarr: '⤄', nvap: '≍⃒', nvdash: '⊬', nvge: '≥⃒', nvgt: '>⃒', nvinfin: '⧞', nvlArr: '⤂', nvle: '≤⃒', nvlt: '<⃒', nvltrie: '⊴⃒', nvrArr: '⤃', nvrtrie: '⊵⃒', nvsim: '∼⃒', nwArr: '⇖', nwarhk: '⤣', nwarr: '↖', nwarrow: '↖', nwnear: '⤧', oS: 'Ⓢ', oacute: 'ó', oast: '⊛', ocir: '⊚', ocirc: 'ô', ocy: 'о', odash: '⊝', odblac: 'ő', odiv: '⨸', odot: '⊙', odsold: '⦼', oelig: 'œ', ofcir: '⦿', ofr: '𝔬', ogon: '˛', ograve: 'ò', ogt: '⧁', ohbar: '⦵', ohm: 'Ω', oint: '∮', olarr: '↺', olcir: '⦾', olcross: '⦻', oline: '‾', olt: '⧀', omacr: 'ō', omega: 'ω', omicron: 'ο', omid: '⦶', ominus: '⊖', oopf: '𝕠', opar: '⦷', operp: '⦹', oplus: '⊕', or: '∨', orarr: '↻', ord: '⩝', order: 'ℴ', orderof: 'ℴ', ordf: 'ª', ordm: 'º', origof: '⊶', oror: '⩖', orslope: '⩗', orv: '⩛', oscr: 'ℴ', oslash: 'ø', osol: '⊘', otilde: 'õ', otimes: '⊗', otimesas: '⨶', ouml: 'ö', ovbar: '⌽', par: '∥', para: '¶', parallel: '∥', parsim: '⫳', parsl: '⫽', part: '∂', pcy: 'п', percnt: '%', period: '.', permil: '‰', perp: '⊥', pertenk: '‱', pfr: '𝔭', phi: 'φ', phiv: 'ϕ', phmmat: 'ℳ', phone: '☎', pi: 'π', pitchfork: '⋔', piv: 'ϖ', planck: 'ℏ', planckh: 'ℎ', plankv: 'ℏ', plus: '+', plusacir: '⨣', plusb: '⊞', pluscir: '⨢', plusdo: '∔', plusdu: '⨥', pluse: '⩲', plusmn: '±', plussim: '⨦', plustwo: '⨧', pm: '±', pointint: '⨕', popf: '𝕡', pound: '£', pr: '≺', prE: '⪳', prap: '⪷', prcue: '≼', pre: '⪯', prec: '≺', precapprox: '⪷', preccurlyeq: '≼', preceq: '⪯', precnapprox: '⪹', precneqq: '⪵', precnsim: '⋨', precsim: '≾', prime: '′', primes: 'ℙ', prnE: '⪵', prnap: '⪹', prnsim: '⋨', prod: '∏', profalar: '⌮', profline: '⌒', profsurf: '⌓', prop: '∝', propto: '∝', prsim: '≾', prurel: '⊰', pscr: '𝓅', psi: 'ψ', puncsp: ' ', qfr: '𝔮', qint: '⨌', qopf: '𝕢', qprime: '⁗', qscr: '𝓆', quaternions: 'ℍ', quatint: '⨖', quest: '?', questeq: '≟', quot: '"', rAarr: '⇛', rArr: '⇒', rAtail: '⤜', rBarr: '⤏', rHar: '⥤', race: '∽̱', racute: 'ŕ', radic: '√', raemptyv: '⦳', rang: '⟩', rangd: '⦒', range: '⦥', rangle: '⟩', raquo: '»', rarr: '→', rarrap: '⥵', rarrb: '⇥', rarrbfs: '⤠', rarrc: '⤳', rarrfs: '⤞', rarrhk: '↪', rarrlp: '↬', rarrpl: '⥅', rarrsim: '⥴', rarrtl: '↣', rarrw: '↝', ratail: '⤚', ratio: '∶', rationals: 'ℚ', rbarr: '⤍', rbbrk: '❳', rbrace: '}', rbrack: ']', rbrke: '⦌', rbrksld: '⦎', rbrkslu: '⦐', rcaron: 'ř', rcedil: 'ŗ', rceil: '⌉', rcub: '}', rcy: 'р', rdca: '⤷', rdldhar: '⥩', rdquo: '”', rdquor: '”', rdsh: '↳', real: 'ℜ', realine: 'ℛ', realpart: 'ℜ', reals: 'ℝ', rect: '▭', reg: '®', rfisht: '⥽', rfloor: '⌋', rfr: '𝔯', rhard: '⇁', rharu: '⇀', rharul: '⥬', rho: 'ρ', rhov: 'ϱ', rightarrow: '→', rightarrowtail: '↣', rightharpoondown: '⇁', rightharpoonup: '⇀', rightleftarrows: '⇄', rightleftharpoons: '⇌', rightrightarrows: '⇉', rightsquigarrow: '↝', rightthreetimes: '⋌', ring: '˚', risingdotseq: '≓', rlarr: '⇄', rlhar: '⇌', rlm: '‏', rmoust: '⎱', rmoustache: '⎱', rnmid: '⫮', roang: '⟭', roarr: '⇾', robrk: '⟧', ropar: '⦆', ropf: '𝕣', roplus: '⨮', rotimes: '⨵', rpar: ')', rpargt: '⦔', rppolint: '⨒', rrarr: '⇉', rsaquo: '›', rscr: '𝓇', rsh: '↱', rsqb: ']', rsquo: '’', rsquor: '’', rthree: '⋌', rtimes: '⋊', rtri: '▹', rtrie: '⊵', rtrif: '▸', rtriltri: '⧎', ruluhar: '⥨', rx: '℞', sacute: 'ś', sbquo: '‚', sc: '≻', scE: '⪴', scap: '⪸', scaron: 'š', sccue: '≽', sce: '⪰', scedil: 'ş', scirc: 'ŝ', scnE: '⪶', scnap: '⪺', scnsim: '⋩', scpolint: '⨓', scsim: '≿', scy: 'с', sdot: '⋅', sdotb: '⊡', sdote: '⩦', seArr: '⇘', searhk: '⤥', searr: '↘', searrow: '↘', sect: '§', semi: ';', seswar: '⤩', setminus: '∖', setmn: '∖', sext: '✶', sfr: '𝔰', sfrown: '⌢', sharp: '♯', shchcy: 'щ', shcy: 'ш', shortmid: '∣', shortparallel: '∥', shy: '­', sigma: 'σ', sigmaf: 'ς', sigmav: 'ς', sim: '∼', simdot: '⩪', sime: '≃', simeq: '≃', simg: '⪞', simgE: '⪠', siml: '⪝', simlE: '⪟', simne: '≆', simplus: '⨤', simrarr: '⥲', slarr: '←', smallsetminus: '∖', smashp: '⨳', smeparsl: '⧤', smid: '∣', smile: '⌣', smt: '⪪', smte: '⪬', smtes: '⪬︀', softcy: 'ь', sol: '/', solb: '⧄', solbar: '⌿', sopf: '𝕤', spades: '♠', spadesuit: '♠', spar: '∥', sqcap: '⊓', sqcaps: '⊓︀', sqcup: '⊔', sqcups: '⊔︀', sqsub: '⊏', sqsube: '⊑', sqsubset: '⊏', sqsubseteq: '⊑', sqsup: '⊐', sqsupe: '⊒', sqsupset: '⊐', sqsupseteq: '⊒', squ: '□', square: '□', squarf: '▪', squf: '▪', srarr: '→', sscr: '𝓈', ssetmn: '∖', ssmile: '⌣', sstarf: '⋆', star: '☆', starf: '★', straightepsilon: 'ϵ', straightphi: 'ϕ', strns: '¯', sub: '⊂', subE: '⫅', subdot: '⪽', sube: '⊆', subedot: '⫃', submult: '⫁', subnE: '⫋', subne: '⊊', subplus: '⪿', subrarr: '⥹', subset: '⊂', subseteq: '⊆', subseteqq: '⫅', subsetneq: '⊊', subsetneqq: '⫋', subsim: '⫇', subsub: '⫕', subsup: '⫓', succ: '≻', succapprox: '⪸', succcurlyeq: '≽', succeq: '⪰', succnapprox: '⪺', succneqq: '⪶', succnsim: '⋩', succsim: '≿', sum: '∑', sung: '♪', sup1: '¹', sup2: '²', sup3: '³', sup: '⊃', supE: '⫆', supdot: '⪾', supdsub: '⫘', supe: '⊇', supedot: '⫄', suphsol: '⟉', suphsub: '⫗', suplarr: '⥻', supmult: '⫂', supnE: '⫌', supne: '⊋', supplus: '⫀', supset: '⊃', supseteq: '⊇', supseteqq: '⫆', supsetneq: '⊋', supsetneqq: '⫌', supsim: '⫈', supsub: '⫔', supsup: '⫖', swArr: '⇙', swarhk: '⤦', swarr: '↙', swarrow: '↙', swnwar: '⤪', szlig: 'ß', target: '⌖', tau: 'τ', tbrk: '⎴', tcaron: 'ť', tcedil: 'ţ', tcy: 'т', tdot: '⃛', telrec: '⌕', tfr: '𝔱', there4: '∴', therefore: '∴', theta: 'θ', thetasym: 'ϑ', thetav: 'ϑ', thickapprox: '≈', thicksim: '∼', thinsp: ' ', thkap: '≈', thksim: '∼', thorn: 'þ', tilde: '˜', times: '×', timesb: '⊠', timesbar: '⨱', timesd: '⨰', tint: '∭', toea: '⤨', top: '⊤', topbot: '⌶', topcir: '⫱', topf: '𝕥', topfork: '⫚', tosa: '⤩', tprime: '‴', trade: '™', triangle: '▵', triangledown: '▿', triangleleft: '◃', trianglelefteq: '⊴', triangleq: '≜', triangleright: '▹', trianglerighteq: '⊵', tridot: '◬', trie: '≜', triminus: '⨺', triplus: '⨹', trisb: '⧍', tritime: '⨻', trpezium: '⏢', tscr: '𝓉', tscy: 'ц', tshcy: 'ћ', tstrok: 'ŧ', twixt: '≬', twoheadleftarrow: '↞', twoheadrightarrow: '↠', uArr: '⇑', uHar: '⥣', uacute: 'ú', uarr: '↑', ubrcy: 'ў', ubreve: 'ŭ', ucirc: 'û', ucy: 'у', udarr: '⇅', udblac: 'ű', udhar: '⥮', ufisht: '⥾', ufr: '𝔲', ugrave: 'ù', uharl: '↿', uharr: '↾', uhblk: '▀', ulcorn: '⌜', ulcorner: '⌜', ulcrop: '⌏', ultri: '◸', umacr: 'ū', uml: '¨', uogon: 'ų', uopf: '𝕦', uparrow: '↑', updownarrow: '↕', upharpoonleft: '↿', upharpoonright: '↾', uplus: '⊎', upsi: 'υ', upsih: 'ϒ', upsilon: 'υ', upuparrows: '⇈', urcorn: '⌝', urcorner: '⌝', urcrop: '⌎', uring: 'ů', urtri: '◹', uscr: '𝓊', utdot: '⋰', utilde: 'ũ', utri: '▵', utrif: '▴', uuarr: '⇈', uuml: 'ü', uwangle: '⦧', vArr: '⇕', vBar: '⫨', vBarv: '⫩', vDash: '⊨', vangrt: '⦜', varepsilon: 'ϵ', varkappa: 'ϰ', varnothing: '∅', varphi: 'ϕ', varpi: 'ϖ', varpropto: '∝', varr: '↕', varrho: 'ϱ', varsigma: 'ς', varsubsetneq: '⊊︀', varsubsetneqq: '⫋︀', varsupsetneq: '⊋︀', varsupsetneqq: '⫌︀', vartheta: 'ϑ', vartriangleleft: '⊲', vartriangleright: '⊳', vcy: 'в', vdash: '⊢', vee: '∨', veebar: '⊻', veeeq: '≚', vellip: '⋮', verbar: '|', vert: '|', vfr: '𝔳', vltri: '⊲', vnsub: '⊂⃒', vnsup: '⊃⃒', vopf: '𝕧', vprop: '∝', vrtri: '⊳', vscr: '𝓋', vsubnE: '⫋︀', vsubne: '⊊︀', vsupnE: '⫌︀', vsupne: '⊋︀', vzigzag: '⦚', wcirc: 'ŵ', wedbar: '⩟', wedge: '∧', wedgeq: '≙', weierp: '℘', wfr: '𝔴', wopf: '𝕨', wp: '℘', wr: '≀', wreath: '≀', wscr: '𝓌', xcap: '⋂', xcirc: '◯', xcup: '⋃', xdtri: '▽', xfr: '𝔵', xhArr: '⟺', xharr: '⟷', xi: 'ξ', xlArr: '⟸', xlarr: '⟵', xmap: '⟼', xnis: '⋻', xodot: '⨀', xopf: '𝕩', xoplus: '⨁', xotime: '⨂', xrArr: '⟹', xrarr: '⟶', xscr: '𝓍', xsqcup: '⨆', xuplus: '⨄', xutri: '△', xvee: '⋁', xwedge: '⋀', yacute: 'ý', yacy: 'я', ycirc: 'ŷ', ycy: 'ы', yen: '¥', yfr: '𝔶', yicy: 'ї', yopf: '𝕪', yscr: '𝓎', yucy: 'ю', yuml: 'ÿ', zacute: 'ź', zcaron: 'ž', zcy: 'з', zdot: 'ż', zeetrf: 'ℨ', zeta: 'ζ', zfr: '𝔷', zhcy: 'ж', zigrarr: '⇝', zopf: '𝕫', zscr: '𝓏', zwj: '‍', zwnj: '‌' }; const own$5 = {}.hasOwnProperty; function decodeNamedCharacterReference(value) { return own$5.call(characterEntities, value) ? characterEntities[value] : false } function splice(list, start, remove, items) { const end = list.length; let chunkStart = 0; let parameters; if (start < 0) { start = -start > end ? 0 : end + start; } else { start = start > end ? end : start; } remove = remove > 0 ? remove : 0; if (items.length < 10000) { parameters = Array.from(items); parameters.unshift(start, remove); list.splice(...parameters); } else { if (remove) list.splice(start, remove); while (chunkStart < items.length) { parameters = items.slice(chunkStart, chunkStart + 10000); parameters.unshift(start, 0); list.splice(...parameters); chunkStart += 10000; start += 10000; } } } function push(list, items) { if (list.length > 0) { splice(list, list.length, 0, items); return list } return items } const hasOwnProperty = {}.hasOwnProperty; function combineExtensions(extensions) { const all = {}; let index = -1; while (++index < extensions.length) { syntaxExtension(all, extensions[index]); } return all } function syntaxExtension(all, extension) { let hook; for (hook in extension) { const maybe = hasOwnProperty.call(all, hook) ? all[hook] : undefined; const left = maybe || (all[hook] = {}); const right = extension[hook]; let code; if (right) { for (code in right) { if (!hasOwnProperty.call(left, code)) left[code] = []; const value = right[code]; constructs( left[code], Array.isArray(value) ? value : value ? [value] : [] ); } } } } function constructs(existing, list) { let index = -1; const before = []; while (++index < list.length) { (list[index].add === 'after' ? existing : before).push(list[index]); } splice(existing, 0, 0, before); } function decodeNumericCharacterReference(value, base) { const code = Number.parseInt(value, base); if ( code < 9 || code === 11 || (code > 13 && code < 32) || (code > 126 && code < 160) || (code > 55_295 && code < 57_344) || (code > 64_975 && code < 65_008) || (code & 65_535) === 65_535 || (code & 65_535) === 65_534 || code > 1_114_111 ) { return '\uFFFD' } return String.fromCharCode(code) } function normalizeIdentifier$1(value) { return ( value .replace(/[\t\n\r ]+/g, ' ') .replace(/^ | $/g, '') .toLowerCase() .toUpperCase() ) } const unicodePunctuationInternal = regexCheck(/\p{P}/u); const asciiAlpha = regexCheck(/[A-Za-z]/); const asciiAlphanumeric = regexCheck(/[\dA-Za-z]/); const asciiAtext = regexCheck(/[#-'*+\--9=?A-Z^-~]/); function asciiControl(code) { return ( code !== null && (code < 32 || code === 127) ) } const asciiDigit = regexCheck(/\d/); const asciiHexDigit = regexCheck(/[\dA-Fa-f]/); const asciiPunctuation = regexCheck(/[!-/:-@[-`{-~]/); function markdownLineEnding(code) { return code !== null && code < -2 } function markdownLineEndingOrSpace(code) { return code !== null && (code < 0 || code === 32) } function markdownSpace(code) { return code === -2 || code === -1 || code === 32 } function unicodePunctuation(code) { return asciiPunctuation(code) || unicodePunctuationInternal(code) } const unicodeWhitespace = regexCheck(/\s/); function regexCheck(regex) { return check function check(code) { return code !== null && code > -1 && regex.test(String.fromCharCode(code)) } } function factorySpace(effects, ok, type, max) { const limit = max ? max - 1 : Number.POSITIVE_INFINITY; let size = 0; return start function start(code) { if (markdownSpace(code)) { effects.enter(type); return prefix(code) } return ok(code) } function prefix(code) { if (markdownSpace(code) && size++ < limit) { effects.consume(code); return prefix } effects.exit(type); return ok(code) } } const content$1 = { tokenize: initializeContent }; function initializeContent(effects) { const contentStart = effects.attempt( this.parser.constructs.contentInitial, afterContentStartConstruct, paragraphInitial ); let previous; return contentStart function afterContentStartConstruct(code) { if (code === null) { effects.consume(code); return } effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return factorySpace(effects, contentStart, 'linePrefix') } function paragraphInitial(code) { effects.enter('paragraph'); return lineStart(code) } function lineStart(code) { const token = effects.enter('chunkText', { contentType: 'text', previous }); if (previous) { previous.next = token; } previous = token; return data(code) } function data(code) { if (code === null) { effects.exit('chunkText'); effects.exit('paragraph'); effects.consume(code); return } if (markdownLineEnding(code)) { effects.consume(code); effects.exit('chunkText'); return lineStart } effects.consume(code); return data } } const document$1 = { tokenize: initializeDocument }; const containerConstruct = { tokenize: tokenizeContainer }; function initializeDocument(effects) { const self = this; const stack = []; let continued = 0; let childFlow; let childToken; let lineStartOffset; return start function start(code) { if (continued < stack.length) { const item = stack[continued]; self.containerState = item[1]; return effects.attempt( item[0].continuation, documentContinue, checkNewContainers )(code) } return checkNewContainers(code) } function documentContinue(code) { continued++; if (self.containerState._closeFlow) { self.containerState._closeFlow = undefined; if (childFlow) { closeFlow(); } const indexBeforeExits = self.events.length; let indexBeforeFlow = indexBeforeExits; let point; while (indexBeforeFlow--) { if ( self.events[indexBeforeFlow][0] === 'exit' && self.events[indexBeforeFlow][1].type === 'chunkFlow' ) { point = self.events[indexBeforeFlow][1].end; break } } exitContainers(continued); let index = indexBeforeExits; while (index < self.events.length) { self.events[index][1].end = Object.assign({}, point); index++; } splice( self.events, indexBeforeFlow + 1, 0, self.events.slice(indexBeforeExits) ); self.events.length = index; return checkNewContainers(code) } return start(code) } function checkNewContainers(code) { if (continued === stack.length) { if (!childFlow) { return documentContinued(code) } if (childFlow.currentConstruct && childFlow.currentConstruct.concrete) { return flowStart(code) } self.interrupt = Boolean( childFlow.currentConstruct && !childFlow._gfmTableDynamicInterruptHack ); } self.containerState = {}; return effects.check( containerConstruct, thereIsANewContainer, thereIsNoNewContainer )(code) } function thereIsANewContainer(code) { if (childFlow) closeFlow(); exitContainers(continued); return documentContinued(code) } function thereIsNoNewContainer(code) { self.parser.lazy[self.now().line] = continued !== stack.length; lineStartOffset = self.now().offset; return flowStart(code) } function documentContinued(code) { self.containerState = {}; return effects.attempt( containerConstruct, containerContinue, flowStart )(code) } function containerContinue(code) { continued++; stack.push([self.currentConstruct, self.containerState]); return documentContinued(code) } function flowStart(code) { if (code === null) { if (childFlow) closeFlow(); exitContainers(0); effects.consume(code); return } childFlow = childFlow || self.parser.flow(self.now()); effects.enter('chunkFlow', { contentType: 'flow', previous: childToken, _tokenizer: childFlow }); return flowContinue(code) } function flowContinue(code) { if (code === null) { writeToChild(effects.exit('chunkFlow'), true); exitContainers(0); effects.consume(code); return } if (markdownLineEnding(code)) { effects.consume(code); writeToChild(effects.exit('chunkFlow')); continued = 0; self.interrupt = undefined; return start } effects.consume(code); return flowContinue } function writeToChild(token, eof) { const stream = self.sliceStream(token); if (eof) stream.push(null); token.previous = childToken; if (childToken) childToken.next = token; childToken = token; childFlow.defineSkip(token.start); childFlow.write(stream); if (self.parser.lazy[token.start.line]) { let index = childFlow.events.length; while (index--) { if ( childFlow.events[index][1].start.offset < lineStartOffset && (!childFlow.events[index][1].end || childFlow.events[index][1].end.offset > lineStartOffset) ) { return } } const indexBeforeExits = self.events.length; let indexBeforeFlow = indexBeforeExits; let seen; let point; while (indexBeforeFlow--) { if ( self.events[indexBeforeFlow][0] === 'exit' && self.events[indexBeforeFlow][1].type === 'chunkFlow' ) { if (seen) { point = self.events[indexBeforeFlow][1].end; break } seen = true; } } exitContainers(continued); index = indexBeforeExits; while (index < self.events.length) { self.events[index][1].end = Object.assign({}, point); index++; } splice( self.events, indexBeforeFlow + 1, 0, self.events.slice(indexBeforeExits) ); self.events.length = index; } } function exitContainers(size) { let index = stack.length; while (index-- > size) { const entry = stack[index]; self.containerState = entry[1]; entry[0].exit.call(self, effects); } stack.length = size; } function closeFlow() { childFlow.write([null]); childToken = undefined; childFlow = undefined; self.containerState._closeFlow = undefined; } } function tokenizeContainer(effects, ok, nok) { return factorySpace( effects, effects.attempt(this.parser.constructs.document, ok, nok), 'linePrefix', this.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 ) } function classifyCharacter(code) { if ( code === null || markdownLineEndingOrSpace(code) || unicodeWhitespace(code) ) { return 1 } if (unicodePunctuation(code)) { return 2 } } function resolveAll(constructs, events, context) { const called = []; let index = -1; while (++index < constructs.length) { const resolve = constructs[index].resolveAll; if (resolve && !called.includes(resolve)) { events = resolve(events, context); called.push(resolve); } } return events } const attention = { name: 'attention', tokenize: tokenizeAttention, resolveAll: resolveAllAttention }; function resolveAllAttention(events, context) { let index = -1; let open; let group; let text; let openingSequence; let closingSequence; let use; let nextEvents; let offset; while (++index < events.length) { if ( events[index][0] === 'enter' && events[index][1].type === 'attentionSequence' && events[index][1]._close ) { open = index; while (open--) { if ( events[open][0] === 'exit' && events[open][1].type === 'attentionSequence' && events[open][1]._open && context.sliceSerialize(events[open][1]).charCodeAt(0) === context.sliceSerialize(events[index][1]).charCodeAt(0) ) { if ( (events[open][1]._close || events[index][1]._open) && (events[index][1].end.offset - events[index][1].start.offset) % 3 && !( (events[open][1].end.offset - events[open][1].start.offset + events[index][1].end.offset - events[index][1].start.offset) % 3 ) ) { continue } use = events[open][1].end.offset - events[open][1].start.offset > 1 && events[index][1].end.offset - events[index][1].start.offset > 1 ? 2 : 1; const start = Object.assign({}, events[open][1].end); const end = Object.assign({}, events[index][1].start); movePoint(start, -use); movePoint(end, use); openingSequence = { type: use > 1 ? 'strongSequence' : 'emphasisSequence', start, end: Object.assign({}, events[open][1].end) }; closingSequence = { type: use > 1 ? 'strongSequence' : 'emphasisSequence', start: Object.assign({}, events[index][1].start), end }; text = { type: use > 1 ? 'strongText' : 'emphasisText', start: Object.assign({}, events[open][1].end), end: Object.assign({}, events[index][1].start) }; group = { type: use > 1 ? 'strong' : 'emphasis', start: Object.assign({}, openingSequence.start), end: Object.assign({}, closingSequence.end) }; events[open][1].end = Object.assign({}, openingSequence.start); events[index][1].start = Object.assign({}, closingSequence.end); nextEvents = []; if (events[open][1].end.offset - events[open][1].start.offset) { nextEvents = push(nextEvents, [ ['enter', events[open][1], context], ['exit', events[open][1], context] ]); } nextEvents = push(nextEvents, [ ['enter', group, context], ['enter', openingSequence, context], ['exit', openingSequence, context], ['enter', text, context] ]); nextEvents = push( nextEvents, resolveAll( context.parser.constructs.insideSpan.null, events.slice(open + 1, index), context ) ); nextEvents = push(nextEvents, [ ['exit', text, context], ['enter', closingSequence, context], ['exit', closingSequence, context], ['exit', group, context] ]); if (events[index][1].end.offset - events[index][1].start.offset) { offset = 2; nextEvents = push(nextEvents, [ ['enter', events[index][1], context], ['exit', events[index][1], context] ]); } else { offset = 0; } splice(events, open - 1, index - open + 3, nextEvents); index = open + nextEvents.length - offset - 2; break } } } } index = -1; while (++index < events.length) { if (events[index][1].type === 'attentionSequence') { events[index][1].type = 'data'; } } return events } function tokenizeAttention(effects, ok) { const attentionMarkers = this.parser.constructs.attentionMarkers.null; const previous = this.previous; const before = classifyCharacter(previous); let marker; return start function start(code) { marker = code; effects.enter('attentionSequence'); return inside(code) } function inside(code) { if (code === marker) { effects.consume(code); return inside } const token = effects.exit('attentionSequence'); const after = classifyCharacter(code); const open = !after || (after === 2 && before) || attentionMarkers.includes(code); const close = !before || (before === 2 && after) || attentionMarkers.includes(previous); token._open = Boolean(marker === 42 ? open : open && (before || !close)); token._close = Boolean(marker === 42 ? close : close && (after || !open)); return ok(code) } } function movePoint(point, offset) { point.column += offset; point.offset += offset; point._bufferIndex += offset; } const autolink = { name: 'autolink', tokenize: tokenizeAutolink }; function tokenizeAutolink(effects, ok, nok) { let size = 0; return start function start(code) { effects.enter('autolink'); effects.enter('autolinkMarker'); effects.consume(code); effects.exit('autolinkMarker'); effects.enter('autolinkProtocol'); return open } function open(code) { if (asciiAlpha(code)) { effects.consume(code); return schemeOrEmailAtext } return emailAtext(code) } function schemeOrEmailAtext(code) { if (code === 43 || code === 45 || code === 46 || asciiAlphanumeric(code)) { size = 1; return schemeInsideOrEmailAtext(code) } return emailAtext(code) } function schemeInsideOrEmailAtext(code) { if (code === 58) { effects.consume(code); size = 0; return urlInside } if ( (code === 43 || code === 45 || code === 46 || asciiAlphanumeric(code)) && size++ < 32 ) { effects.consume(code); return schemeInsideOrEmailAtext } size = 0; return emailAtext(code) } function urlInside(code) { if (code === 62) { effects.exit('autolinkProtocol'); effects.enter('autolinkMarker'); effects.consume(code); effects.exit('autolinkMarker'); effects.exit('autolink'); return ok } if (code === null || code === 32 || code === 60 || asciiControl(code)) { return nok(code) } effects.consume(code); return urlInside } function emailAtext(code) { if (code === 64) { effects.consume(code); return emailAtSignOrDot } if (asciiAtext(code)) { effects.consume(code); return emailAtext } return nok(code) } function emailAtSignOrDot(code) { return asciiAlphanumeric(code) ? emailLabel(code) : nok(code) } function emailLabel(code) { if (code === 46) { effects.consume(code); size = 0; return emailAtSignOrDot } if (code === 62) { effects.exit('autolinkProtocol').type = 'autolinkEmail'; effects.enter('autolinkMarker'); effects.consume(code); effects.exit('autolinkMarker'); effects.exit('autolink'); return ok } return emailValue(code) } function emailValue(code) { if ((code === 45 || asciiAlphanumeric(code)) && size++ < 63) { const next = code === 45 ? emailValue : emailLabel; effects.consume(code); return next } return nok(code) } } const blankLine = { tokenize: tokenizeBlankLine, partial: true }; function tokenizeBlankLine(effects, ok, nok) { return start function start(code) { return markdownSpace(code) ? factorySpace(effects, after, 'linePrefix')(code) : after(code) } function after(code) { return code === null || markdownLineEnding(code) ? ok(code) : nok(code) } } const blockQuote = { name: 'blockQuote', tokenize: tokenizeBlockQuoteStart, continuation: { tokenize: tokenizeBlockQuoteContinuation }, exit: exit$1 }; function tokenizeBlockQuoteStart(effects, ok, nok) { const self = this; return start function start(code) { if (code === 62) { const state = self.containerState; if (!state.open) { effects.enter('blockQuote', { _container: true }); state.open = true; } effects.enter('blockQuotePrefix'); effects.enter('blockQuoteMarker'); effects.consume(code); effects.exit('blockQuoteMarker'); return after } return nok(code) } function after(code) { if (markdownSpace(code)) { effects.enter('blockQuotePrefixWhitespace'); effects.consume(code); effects.exit('blockQuotePrefixWhitespace'); effects.exit('blockQuotePrefix'); return ok } effects.exit('blockQuotePrefix'); return ok(code) } } function tokenizeBlockQuoteContinuation(effects, ok, nok) { const self = this; return contStart function contStart(code) { if (markdownSpace(code)) { return factorySpace( effects, contBefore, 'linePrefix', self.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 )(code) } return contBefore(code) } function contBefore(code) { return effects.attempt(blockQuote, ok, nok)(code) } } function exit$1(effects) { effects.exit('blockQuote'); } const characterEscape = { name: 'characterEscape', tokenize: tokenizeCharacterEscape }; function tokenizeCharacterEscape(effects, ok, nok) { return start function start(code) { effects.enter('characterEscape'); effects.enter('escapeMarker'); effects.consume(code); effects.exit('escapeMarker'); return inside } function inside(code) { if (asciiPunctuation(code)) { effects.enter('characterEscapeValue'); effects.consume(code); effects.exit('characterEscapeValue'); effects.exit('characterEscape'); return ok } return nok(code) } } const characterReference = { name: 'characterReference', tokenize: tokenizeCharacterReference }; function tokenizeCharacterReference(effects, ok, nok) { const self = this; let size = 0; let max; let test; return start function start(code) { effects.enter('characterReference'); effects.enter('characterReferenceMarker'); effects.consume(code); effects.exit('characterReferenceMarker'); return open } function open(code) { if (code === 35) { effects.enter('characterReferenceMarkerNumeric'); effects.consume(code); effects.exit('characterReferenceMarkerNumeric'); return numeric } effects.enter('characterReferenceValue'); max = 31; test = asciiAlphanumeric; return value(code) } function numeric(code) { if (code === 88 || code === 120) { effects.enter('characterReferenceMarkerHexadecimal'); effects.consume(code); effects.exit('characterReferenceMarkerHexadecimal'); effects.enter('characterReferenceValue'); max = 6; test = asciiHexDigit; return value } effects.enter('characterReferenceValue'); max = 7; test = asciiDigit; return value(code) } function value(code) { if (code === 59 && size) { const token = effects.exit('characterReferenceValue'); if ( test === asciiAlphanumeric && !decodeNamedCharacterReference(self.sliceSerialize(token)) ) { return nok(code) } effects.enter('characterReferenceMarker'); effects.consume(code); effects.exit('characterReferenceMarker'); effects.exit('characterReference'); return ok } if (test(code) && size++ < max) { effects.consume(code); return value } return nok(code) } } const nonLazyContinuation = { tokenize: tokenizeNonLazyContinuation, partial: true }; const codeFenced = { name: 'codeFenced', tokenize: tokenizeCodeFenced, concrete: true }; function tokenizeCodeFenced(effects, ok, nok) { const self = this; const closeStart = { tokenize: tokenizeCloseStart, partial: true }; let initialPrefix = 0; let sizeOpen = 0; let marker; return start function start(code) { return beforeSequenceOpen(code) } function beforeSequenceOpen(code) { const tail = self.events[self.events.length - 1]; initialPrefix = tail && tail[1].type === 'linePrefix' ? tail[2].sliceSerialize(tail[1], true).length : 0; marker = code; effects.enter('codeFenced'); effects.enter('codeFencedFence'); effects.enter('codeFencedFenceSequence'); return sequenceOpen(code) } function sequenceOpen(code) { if (code === marker) { sizeOpen++; effects.consume(code); return sequenceOpen } if (sizeOpen < 3) { return nok(code) } effects.exit('codeFencedFenceSequence'); return markdownSpace(code) ? factorySpace(effects, infoBefore, 'whitespace')(code) : infoBefore(code) } function infoBefore(code) { if (code === null || markdownLineEnding(code)) { effects.exit('codeFencedFence'); return self.interrupt ? ok(code) : effects.check(nonLazyContinuation, atNonLazyBreak, after)(code) } effects.enter('codeFencedFenceInfo'); effects.enter('chunkString', { contentType: 'string' }); return info(code) } function info(code) { if (code === null || markdownLineEnding(code)) { effects.exit('chunkString'); effects.exit('codeFencedFenceInfo'); return infoBefore(code) } if (markdownSpace(code)) { effects.exit('chunkString'); effects.exit('codeFencedFenceInfo'); return factorySpace(effects, metaBefore, 'whitespace')(code) } if (code === 96 && code === marker) { return nok(code) } effects.consume(code); return info } function metaBefore(code) { if (code === null || markdownLineEnding(code)) { return infoBefore(code) } effects.enter('codeFencedFenceMeta'); effects.enter('chunkString', { contentType: 'string' }); return meta(code) } function meta(code) { if (code === null || markdownLineEnding(code)) { effects.exit('chunkString'); effects.exit('codeFencedFenceMeta'); return infoBefore(code) } if (code === 96 && code === marker) { return nok(code) } effects.consume(code); return meta } function atNonLazyBreak(code) { return effects.attempt(closeStart, after, contentBefore)(code) } function contentBefore(code) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return contentStart } function contentStart(code) { return initialPrefix > 0 && markdownSpace(code) ? factorySpace( effects, beforeContentChunk, 'linePrefix', initialPrefix + 1 )(code) : beforeContentChunk(code) } function beforeContentChunk(code) { if (code === null || markdownLineEnding(code)) { return effects.check(nonLazyContinuation, atNonLazyBreak, after)(code) } effects.enter('codeFlowValue'); return contentChunk(code) } function contentChunk(code) { if (code === null || markdownLineEnding(code)) { effects.exit('codeFlowValue'); return beforeContentChunk(code) } effects.consume(code); return contentChunk } function after(code) { effects.exit('codeFenced'); return ok(code) } function tokenizeCloseStart(effects, ok, nok) { let size = 0; return startBefore function startBefore(code) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return start } function start(code) { effects.enter('codeFencedFence'); return markdownSpace(code) ? factorySpace( effects, beforeSequenceClose, 'linePrefix', self.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 )(code) : beforeSequenceClose(code) } function beforeSequenceClose(code) { if (code === marker) { effects.enter('codeFencedFenceSequence'); return sequenceClose(code) } return nok(code) } function sequenceClose(code) { if (code === marker) { size++; effects.consume(code); return sequenceClose } if (size >= sizeOpen) { effects.exit('codeFencedFenceSequence'); return markdownSpace(code) ? factorySpace(effects, sequenceCloseAfter, 'whitespace')(code) : sequenceCloseAfter(code) } return nok(code) } function sequenceCloseAfter(code) { if (code === null || markdownLineEnding(code)) { effects.exit('codeFencedFence'); return ok(code) } return nok(code) } } } function tokenizeNonLazyContinuation(effects, ok, nok) { const self = this; return start function start(code) { if (code === null) { return nok(code) } effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return lineStart } function lineStart(code) { return self.parser.lazy[self.now().line] ? nok(code) : ok(code) } } const codeIndented = { name: 'codeIndented', tokenize: tokenizeCodeIndented }; const furtherStart = { tokenize: tokenizeFurtherStart, partial: true }; function tokenizeCodeIndented(effects, ok, nok) { const self = this; return start function start(code) { effects.enter('codeIndented'); return factorySpace(effects, afterPrefix, 'linePrefix', 4 + 1)(code) } function afterPrefix(code) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === 'linePrefix' && tail[2].sliceSerialize(tail[1], true).length >= 4 ? atBreak(code) : nok(code) } function atBreak(code) { if (code === null) { return after(code) } if (markdownLineEnding(code)) { return effects.attempt(furtherStart, atBreak, after)(code) } effects.enter('codeFlowValue'); return inside(code) } function inside(code) { if (code === null || markdownLineEnding(code)) { effects.exit('codeFlowValue'); return atBreak(code) } effects.consume(code); return inside } function after(code) { effects.exit('codeIndented'); return ok(code) } } function tokenizeFurtherStart(effects, ok, nok) { const self = this; return furtherStart function furtherStart(code) { if (self.parser.lazy[self.now().line]) { return nok(code) } if (markdownLineEnding(code)) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return furtherStart } return factorySpace(effects, afterPrefix, 'linePrefix', 4 + 1)(code) } function afterPrefix(code) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === 'linePrefix' && tail[2].sliceSerialize(tail[1], true).length >= 4 ? ok(code) : markdownLineEnding(code) ? furtherStart(code) : nok(code) } } const codeText = { name: 'codeText', tokenize: tokenizeCodeText, resolve: resolveCodeText, previous: previous$1 }; function resolveCodeText(events) { let tailExitIndex = events.length - 4; let headEnterIndex = 3; let index; let enter; if ( (events[headEnterIndex][1].type === 'lineEnding' || events[headEnterIndex][1].type === 'space') && (events[tailExitIndex][1].type === 'lineEnding' || events[tailExitIndex][1].type === 'space') ) { index = headEnterIndex; while (++index < tailExitIndex) { if (events[index][1].type === 'codeTextData') { events[headEnterIndex][1].type = 'codeTextPadding'; events[tailExitIndex][1].type = 'codeTextPadding'; headEnterIndex += 2; tailExitIndex -= 2; break } } } index = headEnterIndex - 1; tailExitIndex++; while (++index <= tailExitIndex) { if (enter === undefined) { if (index !== tailExitIndex && events[index][1].type !== 'lineEnding') { enter = index; } } else if ( index === tailExitIndex || events[index][1].type === 'lineEnding' ) { events[enter][1].type = 'codeTextData'; if (index !== enter + 2) { events[enter][1].end = events[index - 1][1].end; events.splice(enter + 2, index - enter - 2); tailExitIndex -= index - enter - 2; index = enter + 2; } enter = undefined; } } return events } function previous$1(code) { return ( code !== 96 || this.events[this.events.length - 1][1].type === 'characterEscape' ) } function tokenizeCodeText(effects, ok, nok) { let sizeOpen = 0; let size; let token; return start function start(code) { effects.enter('codeText'); effects.enter('codeTextSequence'); return sequenceOpen(code) } function sequenceOpen(code) { if (code === 96) { effects.consume(code); sizeOpen++; return sequenceOpen } effects.exit('codeTextSequence'); return between(code) } function between(code) { if (code === null) { return nok(code) } if (code === 32) { effects.enter('space'); effects.consume(code); effects.exit('space'); return between } if (code === 96) { token = effects.enter('codeTextSequence'); size = 0; return sequenceClose(code) } if (markdownLineEnding(code)) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return between } effects.enter('codeTextData'); return data(code) } function data(code) { if ( code === null || code === 32 || code === 96 || markdownLineEnding(code) ) { effects.exit('codeTextData'); return between(code) } effects.consume(code); return data } function sequenceClose(code) { if (code === 96) { effects.consume(code); size++; return sequenceClose } if (size === sizeOpen) { effects.exit('codeTextSequence'); effects.exit('codeText'); return ok(code) } token.type = 'codeTextData'; return data(code) } } function subtokenize(events) { const jumps = {}; let index = -1; let event; let lineIndex; let otherIndex; let otherEvent; let parameters; let subevents; let more; while (++index < events.length) { while (index in jumps) { index = jumps[index]; } event = events[index]; if ( index && event[1].type === 'chunkFlow' && events[index - 1][1].type === 'listItemPrefix' ) { subevents = event[1]._tokenizer.events; otherIndex = 0; if ( otherIndex < subevents.length && subevents[otherIndex][1].type === 'lineEndingBlank' ) { otherIndex += 2; } if ( otherIndex < subevents.length && subevents[otherIndex][1].type === 'content' ) { while (++otherIndex < subevents.length) { if (subevents[otherIndex][1].type === 'content') { break } if (subevents[otherIndex][1].type === 'chunkText') { subevents[otherIndex][1]._isInFirstContentOfListItem = true; otherIndex++; } } } } if (event[0] === 'enter') { if (event[1].contentType) { Object.assign(jumps, subcontent(events, index)); index = jumps[index]; more = true; } } else if (event[1]._container) { otherIndex = index; lineIndex = undefined; while (otherIndex--) { otherEvent = events[otherIndex]; if ( otherEvent[1].type === 'lineEnding' || otherEvent[1].type === 'lineEndingBlank' ) { if (otherEvent[0] === 'enter') { if (lineIndex) { events[lineIndex][1].type = 'lineEndingBlank'; } otherEvent[1].type = 'lineEnding'; lineIndex = otherIndex; } } else { break } } if (lineIndex) { event[1].end = Object.assign({}, events[lineIndex][1].start); parameters = events.slice(lineIndex, index); parameters.unshift(event); splice(events, lineIndex, index - lineIndex + 1, parameters); } } } return !more } function subcontent(events, eventIndex) { const token = events[eventIndex][1]; const context = events[eventIndex][2]; let startPosition = eventIndex - 1; const startPositions = []; const tokenizer = token._tokenizer || context.parser[token.contentType](token.start); const childEvents = tokenizer.events; const jumps = []; const gaps = {}; let stream; let previous; let index = -1; let current = token; let adjust = 0; let start = 0; const breaks = [start]; while (current) { while (events[++startPosition][1] !== current) { } startPositions.push(startPosition); if (!current._tokenizer) { stream = context.sliceStream(current); if (!current.next) { stream.push(null); } if (previous) { tokenizer.defineSkip(current.start); } if (current._isInFirstContentOfListItem) { tokenizer._gfmTasklistFirstContentOfListItem = true; } tokenizer.write(stream); if (current._isInFirstContentOfListItem) { tokenizer._gfmTasklistFirstContentOfListItem = undefined; } } previous = current; current = current.next; } current = token; while (++index < childEvents.length) { if ( childEvents[index][0] === 'exit' && childEvents[index - 1][0] === 'enter' && childEvents[index][1].type === childEvents[index - 1][1].type && childEvents[index][1].start.line !== childEvents[index][1].end.line ) { start = index + 1; breaks.push(start); current._tokenizer = undefined; current.previous = undefined; current = current.next; } } tokenizer.events = []; if (current) { current._tokenizer = undefined; current.previous = undefined; } else { breaks.pop(); } index = breaks.length; while (index--) { const slice = childEvents.slice(breaks[index], breaks[index + 1]); const start = startPositions.pop(); jumps.unshift([start, start + slice.length - 1]); splice(events, start, 2, slice); } index = -1; while (++index < jumps.length) { gaps[adjust + jumps[index][0]] = adjust + jumps[index][1]; adjust += jumps[index][1] - jumps[index][0] - 1; } return gaps } const content = { tokenize: tokenizeContent, resolve: resolveContent }; const continuationConstruct = { tokenize: tokenizeContinuation, partial: true }; function resolveContent(events) { subtokenize(events); return events } function tokenizeContent(effects, ok) { let previous; return chunkStart function chunkStart(code) { effects.enter('content'); previous = effects.enter('chunkContent', { contentType: 'content' }); return chunkInside(code) } function chunkInside(code) { if (code === null) { return contentEnd(code) } if (markdownLineEnding(code)) { return effects.check( continuationConstruct, contentContinue, contentEnd )(code) } effects.consume(code); return chunkInside } function contentEnd(code) { effects.exit('chunkContent'); effects.exit('content'); return ok(code) } function contentContinue(code) { effects.consume(code); effects.exit('chunkContent'); previous.next = effects.enter('chunkContent', { contentType: 'content', previous }); previous = previous.next; return chunkInside } } function tokenizeContinuation(effects, ok, nok) { const self = this; return startLookahead function startLookahead(code) { effects.exit('chunkContent'); effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return factorySpace(effects, prefixed, 'linePrefix') } function prefixed(code) { if (code === null || markdownLineEnding(code)) { return nok(code) } const tail = self.events[self.events.length - 1]; if ( !self.parser.constructs.disable.null.includes('codeIndented') && tail && tail[1].type === 'linePrefix' && tail[2].sliceSerialize(tail[1], true).length >= 4 ) { return ok(code) } return effects.interrupt(self.parser.constructs.flow, nok, ok)(code) } } function factoryDestination( effects, ok, nok, type, literalType, literalMarkerType, rawType, stringType, max ) { const limit = max || Number.POSITIVE_INFINITY; let balance = 0; return start function start(code) { if (code === 60) { effects.enter(type); effects.enter(literalType); effects.enter(literalMarkerType); effects.consume(code); effects.exit(literalMarkerType); return enclosedBefore } if (code === null || code === 32 || code === 41 || asciiControl(code)) { return nok(code) } effects.enter(type); effects.enter(rawType); effects.enter(stringType); effects.enter('chunkString', { contentType: 'string' }); return raw(code) } function enclosedBefore(code) { if (code === 62) { effects.enter(literalMarkerType); effects.consume(code); effects.exit(literalMarkerType); effects.exit(literalType); effects.exit(type); return ok } effects.enter(stringType); effects.enter('chunkString', { contentType: 'string' }); return enclosed(code) } function enclosed(code) { if (code === 62) { effects.exit('chunkString'); effects.exit(stringType); return enclosedBefore(code) } if (code === null || code === 60 || markdownLineEnding(code)) { return nok(code) } effects.consume(code); return code === 92 ? enclosedEscape : enclosed } function enclosedEscape(code) { if (code === 60 || code === 62 || code === 92) { effects.consume(code); return enclosed } return enclosed(code) } function raw(code) { if ( !balance && (code === null || code === 41 || markdownLineEndingOrSpace(code)) ) { effects.exit('chunkString'); effects.exit(stringType); effects.exit(rawType); effects.exit(type); return ok(code) } if (balance < limit && code === 40) { effects.consume(code); balance++; return raw } if (code === 41) { effects.consume(code); balance--; return raw } if (code === null || code === 32 || code === 40 || asciiControl(code)) { return nok(code) } effects.consume(code); return code === 92 ? rawEscape : raw } function rawEscape(code) { if (code === 40 || code === 41 || code === 92) { effects.consume(code); return raw } return raw(code) } } function factoryLabel(effects, ok, nok, type, markerType, stringType) { const self = this; let size = 0; let seen; return start function start(code) { effects.enter(type); effects.enter(markerType); effects.consume(code); effects.exit(markerType); effects.enter(stringType); return atBreak } function atBreak(code) { if ( size > 999 || code === null || code === 91 || (code === 93 && !seen) || (code === 94 && !size && '_hiddenFootnoteSupport' in self.parser.constructs) ) { return nok(code) } if (code === 93) { effects.exit(stringType); effects.enter(markerType); effects.consume(code); effects.exit(markerType); effects.exit(type); return ok } if (markdownLineEnding(code)) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return atBreak } effects.enter('chunkString', { contentType: 'string' }); return labelInside(code) } function labelInside(code) { if ( code === null || code === 91 || code === 93 || markdownLineEnding(code) || size++ > 999 ) { effects.exit('chunkString'); return atBreak(code) } effects.consume(code); if (!seen) seen = !markdownSpace(code); return code === 92 ? labelEscape : labelInside } function labelEscape(code) { if (code === 91 || code === 92 || code === 93) { effects.consume(code); size++; return labelInside } return labelInside(code) } } function factoryTitle(effects, ok, nok, type, markerType, stringType) { let marker; return start function start(code) { if (code === 34 || code === 39 || code === 40) { effects.enter(type); effects.enter(markerType); effects.consume(code); effects.exit(markerType); marker = code === 40 ? 41 : code; return begin } return nok(code) } function begin(code) { if (code === marker) { effects.enter(markerType); effects.consume(code); effects.exit(markerType); effects.exit(type); return ok } effects.enter(stringType); return atBreak(code) } function atBreak(code) { if (code === marker) { effects.exit(stringType); return begin(marker) } if (code === null) { return nok(code) } if (markdownLineEnding(code)) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return factorySpace(effects, atBreak, 'linePrefix') } effects.enter('chunkString', { contentType: 'string' }); return inside(code) } function inside(code) { if (code === marker || code === null || markdownLineEnding(code)) { effects.exit('chunkString'); return atBreak(code) } effects.consume(code); return code === 92 ? escape : inside } function escape(code) { if (code === marker || code === 92) { effects.consume(code); return inside } return inside(code) } } function factoryWhitespace(effects, ok) { let seen; return start function start(code) { if (markdownLineEnding(code)) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); seen = true; return start } if (markdownSpace(code)) { return factorySpace( effects, start, seen ? 'linePrefix' : 'lineSuffix' )(code) } return ok(code) } } const definition$1 = { name: 'definition', tokenize: tokenizeDefinition }; const titleBefore = { tokenize: tokenizeTitleBefore, partial: true }; function tokenizeDefinition(effects, ok, nok) { const self = this; let identifier; return start function start(code) { effects.enter('definition'); return before(code) } function before(code) { return factoryLabel.call( self, effects, labelAfter, nok, 'definitionLabel', 'definitionLabelMarker', 'definitionLabelString' )(code) } function labelAfter(code) { identifier = normalizeIdentifier$1( self.sliceSerialize(self.events[self.events.length - 1][1]).slice(1, -1) ); if (code === 58) { effects.enter('definitionMarker'); effects.consume(code); effects.exit('definitionMarker'); return markerAfter } return nok(code) } function markerAfter(code) { return markdownLineEndingOrSpace(code) ? factoryWhitespace(effects, destinationBefore)(code) : destinationBefore(code) } function destinationBefore(code) { return factoryDestination( effects, destinationAfter, nok, 'definitionDestination', 'definitionDestinationLiteral', 'definitionDestinationLiteralMarker', 'definitionDestinationRaw', 'definitionDestinationString' )(code) } function destinationAfter(code) { return effects.attempt(titleBefore, after, after)(code) } function after(code) { return markdownSpace(code) ? factorySpace(effects, afterWhitespace, 'whitespace')(code) : afterWhitespace(code) } function afterWhitespace(code) { if (code === null || markdownLineEnding(code)) { effects.exit('definition'); self.parser.defined.push(identifier); return ok(code) } return nok(code) } } function tokenizeTitleBefore(effects, ok, nok) { return titleBefore function titleBefore(code) { return markdownLineEndingOrSpace(code) ? factoryWhitespace(effects, beforeMarker)(code) : nok(code) } function beforeMarker(code) { return factoryTitle( effects, titleAfter, nok, 'definitionTitle', 'definitionTitleMarker', 'definitionTitleString' )(code) } function titleAfter(code) { return markdownSpace(code) ? factorySpace(effects, titleAfterOptionalWhitespace, 'whitespace')(code) : titleAfterOptionalWhitespace(code) } function titleAfterOptionalWhitespace(code) { return code === null || markdownLineEnding(code) ? ok(code) : nok(code) } } const hardBreakEscape = { name: 'hardBreakEscape', tokenize: tokenizeHardBreakEscape }; function tokenizeHardBreakEscape(effects, ok, nok) { return start function start(code) { effects.enter('hardBreakEscape'); effects.consume(code); return after } function after(code) { if (markdownLineEnding(code)) { effects.exit('hardBreakEscape'); return ok(code) } return nok(code) } } const headingAtx = { name: 'headingAtx', tokenize: tokenizeHeadingAtx, resolve: resolveHeadingAtx }; function resolveHeadingAtx(events, context) { let contentEnd = events.length - 2; let contentStart = 3; let content; let text; if (events[contentStart][1].type === 'whitespace') { contentStart += 2; } if ( contentEnd - 2 > contentStart && events[contentEnd][1].type === 'whitespace' ) { contentEnd -= 2; } if ( events[contentEnd][1].type === 'atxHeadingSequence' && (contentStart === contentEnd - 1 || (contentEnd - 4 > contentStart && events[contentEnd - 2][1].type === 'whitespace')) ) { contentEnd -= contentStart + 1 === contentEnd ? 2 : 4; } if (contentEnd > contentStart) { content = { type: 'atxHeadingText', start: events[contentStart][1].start, end: events[contentEnd][1].end }; text = { type: 'chunkText', start: events[contentStart][1].start, end: events[contentEnd][1].end, contentType: 'text' }; splice(events, contentStart, contentEnd - contentStart + 1, [ ['enter', content, context], ['enter', text, context], ['exit', text, context], ['exit', content, context] ]); } return events } function tokenizeHeadingAtx(effects, ok, nok) { let size = 0; return start function start(code) { effects.enter('atxHeading'); return before(code) } function before(code) { effects.enter('atxHeadingSequence'); return sequenceOpen(code) } function sequenceOpen(code) { if (code === 35 && size++ < 6) { effects.consume(code); return sequenceOpen } if (code === null || markdownLineEndingOrSpace(code)) { effects.exit('atxHeadingSequence'); return atBreak(code) } return nok(code) } function atBreak(code) { if (code === 35) { effects.enter('atxHeadingSequence'); return sequenceFurther(code) } if (code === null || markdownLineEnding(code)) { effects.exit('atxHeading'); return ok(code) } if (markdownSpace(code)) { return factorySpace(effects, atBreak, 'whitespace')(code) } effects.enter('atxHeadingText'); return data(code) } function sequenceFurther(code) { if (code === 35) { effects.consume(code); return sequenceFurther } effects.exit('atxHeadingSequence'); return atBreak(code) } function data(code) { if (code === null || code === 35 || markdownLineEndingOrSpace(code)) { effects.exit('atxHeadingText'); return atBreak(code) } effects.consume(code); return data } } const htmlBlockNames = [ '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', 'h1', 'h2', 'h3', 'h4', 'h5', 'h6', 'head', 'header', 'hr', 'html', 'iframe', 'legend', 'li', 'link', 'main', 'menu', 'menuitem', 'nav', 'noframes', 'ol', 'optgroup', 'option', 'p', 'param', 'search', 'section', 'summary', 'table', 'tbody', 'td', 'tfoot', 'th', 'thead', 'title', 'tr', 'track', 'ul' ]; const htmlRawNames = ['pre', 'script', 'style', 'textarea']; const htmlFlow = { name: 'htmlFlow', tokenize: tokenizeHtmlFlow, resolveTo: resolveToHtmlFlow, concrete: true }; const blankLineBefore = { tokenize: tokenizeBlankLineBefore, partial: true }; const nonLazyContinuationStart = { tokenize: tokenizeNonLazyContinuationStart, partial: true }; function resolveToHtmlFlow(events) { let index = events.length; while (index--) { if (events[index][0] === 'enter' && events[index][1].type === 'htmlFlow') { break } } if (index > 1 && events[index - 2][1].type === 'linePrefix') { events[index][1].start = events[index - 2][1].start; events[index + 1][1].start = events[index - 2][1].start; events.splice(index - 2, 2); } return events } function tokenizeHtmlFlow(effects, ok, nok) { const self = this; let marker; let closingTag; let buffer; let index; let markerB; return start function start(code) { return before(code) } function before(code) { effects.enter('htmlFlow'); effects.enter('htmlFlowData'); effects.consume(code); return open } function open(code) { if (code === 33) { effects.consume(code); return declarationOpen } if (code === 47) { effects.consume(code); closingTag = true; return tagCloseStart } if (code === 63) { effects.consume(code); marker = 3; return self.interrupt ? ok : continuationDeclarationInside } if (asciiAlpha(code)) { effects.consume(code); buffer = String.fromCharCode(code); return tagName } return nok(code) } function declarationOpen(code) { if (code === 45) { effects.consume(code); marker = 2; return commentOpenInside } if (code === 91) { effects.consume(code); marker = 5; index = 0; return cdataOpenInside } if (asciiAlpha(code)) { effects.consume(code); marker = 4; return self.interrupt ? ok : continuationDeclarationInside } return nok(code) } function commentOpenInside(code) { if (code === 45) { effects.consume(code); return self.interrupt ? ok : continuationDeclarationInside } return nok(code) } function cdataOpenInside(code) { const value = 'CDATA['; if (code === value.charCodeAt(index++)) { effects.consume(code); if (index === value.length) { return self.interrupt ? ok : continuation } return cdataOpenInside } return nok(code) } function tagCloseStart(code) { if (asciiAlpha(code)) { effects.consume(code); buffer = String.fromCharCode(code); return tagName } return nok(code) } function tagName(code) { if ( code === null || code === 47 || code === 62 || markdownLineEndingOrSpace(code) ) { const slash = code === 47; const name = buffer.toLowerCase(); if (!slash && !closingTag && htmlRawNames.includes(name)) { marker = 1; return self.interrupt ? ok(code) : continuation(code) } if (htmlBlockNames.includes(buffer.toLowerCase())) { marker = 6; if (slash) { effects.consume(code); return basicSelfClosing } return self.interrupt ? ok(code) : continuation(code) } marker = 7; return self.interrupt && !self.parser.lazy[self.now().line] ? nok(code) : closingTag ? completeClosingTagAfter(code) : completeAttributeNameBefore(code) } if (code === 45 || asciiAlphanumeric(code)) { effects.consume(code); buffer += String.fromCharCode(code); return tagName } return nok(code) } function basicSelfClosing(code) { if (code === 62) { effects.consume(code); return self.interrupt ? ok : continuation } return nok(code) } function completeClosingTagAfter(code) { if (markdownSpace(code)) { effects.consume(code); return completeClosingTagAfter } return completeEnd(code) } function completeAttributeNameBefore(code) { if (code === 47) { effects.consume(code); return completeEnd } if (code === 58 || code === 95 || asciiAlpha(code)) { effects.consume(code); return completeAttributeName } if (markdownSpace(code)) { effects.consume(code); return completeAttributeNameBefore } return completeEnd(code) } function completeAttributeName(code) { if ( code === 45 || code === 46 || code === 58 || code === 95 || asciiAlphanumeric(code) ) { effects.consume(code); return completeAttributeName } return completeAttributeNameAfter(code) } function completeAttributeNameAfter(code) { if (code === 61) { effects.consume(code); return completeAttributeValueBefore } if (markdownSpace(code)) { effects.consume(code); return completeAttributeNameAfter } return completeAttributeNameBefore(code) } function completeAttributeValueBefore(code) { if ( code === null || code === 60 || code === 61 || code === 62 || code === 96 ) { return nok(code) } if (code === 34 || code === 39) { effects.consume(code); markerB = code; return completeAttributeValueQuoted } if (markdownSpace(code)) { effects.consume(code); return completeAttributeValueBefore } return completeAttributeValueUnquoted(code) } function completeAttributeValueQuoted(code) { if (code === markerB) { effects.consume(code); markerB = null; return completeAttributeValueQuotedAfter } if (code === null || markdownLineEnding(code)) { return nok(code) } effects.consume(code); return completeAttributeValueQuoted } function completeAttributeValueUnquoted(code) { if ( code === null || code === 34 || code === 39 || code === 47 || code === 60 || code === 61 || code === 62 || code === 96 || markdownLineEndingOrSpace(code) ) { return completeAttributeNameAfter(code) } effects.consume(code); return completeAttributeValueUnquoted } function completeAttributeValueQuotedAfter(code) { if (code === 47 || code === 62 || markdownSpace(code)) { return completeAttributeNameBefore(code) } return nok(code) } function completeEnd(code) { if (code === 62) { effects.consume(code); return completeAfter } return nok(code) } function completeAfter(code) { if (code === null || markdownLineEnding(code)) { return continuation(code) } if (markdownSpace(code)) { effects.consume(code); return completeAfter } return nok(code) } function continuation(code) { if (code === 45 && marker === 2) { effects.consume(code); return continuationCommentInside } if (code === 60 && marker === 1) { effects.consume(code); return continuationRawTagOpen } if (code === 62 && marker === 4) { effects.consume(code); return continuationClose } if (code === 63 && marker === 3) { effects.consume(code); return continuationDeclarationInside } if (code === 93 && marker === 5) { effects.consume(code); return continuationCdataInside } if (markdownLineEnding(code) && (marker === 6 || marker === 7)) { effects.exit('htmlFlowData'); return effects.check( blankLineBefore, continuationAfter, continuationStart )(code) } if (code === null || markdownLineEnding(code)) { effects.exit('htmlFlowData'); return continuationStart(code) } effects.consume(code); return continuation } function continuationStart(code) { return effects.check( nonLazyContinuationStart, continuationStartNonLazy, continuationAfter )(code) } function continuationStartNonLazy(code) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return continuationBefore } function continuationBefore(code) { if (code === null || markdownLineEnding(code)) { return continuationStart(code) } effects.enter('htmlFlowData'); return continuation(code) } function continuationCommentInside(code) { if (code === 45) { effects.consume(code); return continuationDeclarationInside } return continuation(code) } function continuationRawTagOpen(code) { if (code === 47) { effects.consume(code); buffer = ''; return continuationRawEndTag } return continuation(code) } function continuationRawEndTag(code) { if (code === 62) { const name = buffer.toLowerCase(); if (htmlRawNames.includes(name)) { effects.consume(code); return continuationClose } return continuation(code) } if (asciiAlpha(code) && buffer.length < 8) { effects.consume(code); buffer += String.fromCharCode(code); return continuationRawEndTag } return continuation(code) } function continuationCdataInside(code) { if (code === 93) { effects.consume(code); return continuationDeclarationInside } return continuation(code) } function continuationDeclarationInside(code) { if (code === 62) { effects.consume(code); return continuationClose } if (code === 45 && marker === 2) { effects.consume(code); return continuationDeclarationInside } return continuation(code) } function continuationClose(code) { if (code === null || markdownLineEnding(code)) { effects.exit('htmlFlowData'); return continuationAfter(code) } effects.consume(code); return continuationClose } function continuationAfter(code) { effects.exit('htmlFlow'); return ok(code) } } function tokenizeNonLazyContinuationStart(effects, ok, nok) { const self = this; return start function start(code) { if (markdownLineEnding(code)) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return after } return nok(code) } function after(code) { return self.parser.lazy[self.now().line] ? nok(code) : ok(code) } } function tokenizeBlankLineBefore(effects, ok, nok) { return start function start(code) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return effects.attempt(blankLine, ok, nok) } } const htmlText = { name: 'htmlText', tokenize: tokenizeHtmlText }; function tokenizeHtmlText(effects, ok, nok) { const self = this; let marker; let index; let returnState; return start function start(code) { effects.enter('htmlText'); effects.enter('htmlTextData'); effects.consume(code); return open } function open(code) { if (code === 33) { effects.consume(code); return declarationOpen } if (code === 47) { effects.consume(code); return tagCloseStart } if (code === 63) { effects.consume(code); return instruction } if (asciiAlpha(code)) { effects.consume(code); return tagOpen } return nok(code) } function declarationOpen(code) { if (code === 45) { effects.consume(code); return commentOpenInside } if (code === 91) { effects.consume(code); index = 0; return cdataOpenInside } if (asciiAlpha(code)) { effects.consume(code); return declaration } return nok(code) } function commentOpenInside(code) { if (code === 45) { effects.consume(code); return commentEnd } return nok(code) } function comment(code) { if (code === null) { return nok(code) } if (code === 45) { effects.consume(code); return commentClose } if (markdownLineEnding(code)) { returnState = comment; return lineEndingBefore(code) } effects.consume(code); return comment } function commentClose(code) { if (code === 45) { effects.consume(code); return commentEnd } return comment(code) } function commentEnd(code) { return code === 62 ? end(code) : code === 45 ? commentClose(code) : comment(code) } function cdataOpenInside(code) { const value = 'CDATA['; if (code === value.charCodeAt(index++)) { effects.consume(code); return index === value.length ? cdata : cdataOpenInside } return nok(code) } function cdata(code) { if (code === null) { return nok(code) } if (code === 93) { effects.consume(code); return cdataClose } if (markdownLineEnding(code)) { returnState = cdata; return lineEndingBefore(code) } effects.consume(code); return cdata } function cdataClose(code) { if (code === 93) { effects.consume(code); return cdataEnd } return cdata(code) } function cdataEnd(code) { if (code === 62) { return end(code) } if (code === 93) { effects.consume(code); return cdataEnd } return cdata(code) } function declaration(code) { if (code === null || code === 62) { return end(code) } if (markdownLineEnding(code)) { returnState = declaration; return lineEndingBefore(code) } effects.consume(code); return declaration } function instruction(code) { if (code === null) { return nok(code) } if (code === 63) { effects.consume(code); return instructionClose } if (markdownLineEnding(code)) { returnState = instruction; return lineEndingBefore(code) } effects.consume(code); return instruction } function instructionClose(code) { return code === 62 ? end(code) : instruction(code) } function tagCloseStart(code) { if (asciiAlpha(code)) { effects.consume(code); return tagClose } return nok(code) } function tagClose(code) { if (code === 45 || asciiAlphanumeric(code)) { effects.consume(code); return tagClose } return tagCloseBetween(code) } function tagCloseBetween(code) { if (markdownLineEnding(code)) { returnState = tagCloseBetween; return lineEndingBefore(code) } if (markdownSpace(code)) { effects.consume(code); return tagCloseBetween } return end(code) } function tagOpen(code) { if (code === 45 || asciiAlphanumeric(code)) { effects.consume(code); return tagOpen } if (code === 47 || code === 62 || markdownLineEndingOrSpace(code)) { return tagOpenBetween(code) } return nok(code) } function tagOpenBetween(code) { if (code === 47) { effects.consume(code); return end } if (code === 58 || code === 95 || asciiAlpha(code)) { effects.consume(code); return tagOpenAttributeName } if (markdownLineEnding(code)) { returnState = tagOpenBetween; return lineEndingBefore(code) } if (markdownSpace(code)) { effects.consume(code); return tagOpenBetween } return end(code) } function tagOpenAttributeName(code) { if ( code === 45 || code === 46 || code === 58 || code === 95 || asciiAlphanumeric(code) ) { effects.consume(code); return tagOpenAttributeName } return tagOpenAttributeNameAfter(code) } function tagOpenAttributeNameAfter(code) { if (code === 61) { effects.consume(code); return tagOpenAttributeValueBefore } if (markdownLineEnding(code)) { returnState = tagOpenAttributeNameAfter; return lineEndingBefore(code) } if (markdownSpace(code)) { effects.consume(code); return tagOpenAttributeNameAfter } return tagOpenBetween(code) } function tagOpenAttributeValueBefore(code) { if ( code === null || code === 60 || code === 61 || code === 62 || code === 96 ) { return nok(code) } if (code === 34 || code === 39) { effects.consume(code); marker = code; return tagOpenAttributeValueQuoted } if (markdownLineEnding(code)) { returnState = tagOpenAttributeValueBefore; return lineEndingBefore(code) } if (markdownSpace(code)) { effects.consume(code); return tagOpenAttributeValueBefore } effects.consume(code); return tagOpenAttributeValueUnquoted } function tagOpenAttributeValueQuoted(code) { if (code === marker) { effects.consume(code); marker = undefined; return tagOpenAttributeValueQuotedAfter } if (code === null) { return nok(code) } if (markdownLineEnding(code)) { returnState = tagOpenAttributeValueQuoted; return lineEndingBefore(code) } effects.consume(code); return tagOpenAttributeValueQuoted } function tagOpenAttributeValueUnquoted(code) { if ( code === null || code === 34 || code === 39 || code === 60 || code === 61 || code === 96 ) { return nok(code) } if (code === 47 || code === 62 || markdownLineEndingOrSpace(code)) { return tagOpenBetween(code) } effects.consume(code); return tagOpenAttributeValueUnquoted } function tagOpenAttributeValueQuotedAfter(code) { if (code === 47 || code === 62 || markdownLineEndingOrSpace(code)) { return tagOpenBetween(code) } return nok(code) } function end(code) { if (code === 62) { effects.consume(code); effects.exit('htmlTextData'); effects.exit('htmlText'); return ok } return nok(code) } function lineEndingBefore(code) { effects.exit('htmlTextData'); effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return lineEndingAfter } function lineEndingAfter(code) { return markdownSpace(code) ? factorySpace( effects, lineEndingAfterPrefix, 'linePrefix', self.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 )(code) : lineEndingAfterPrefix(code) } function lineEndingAfterPrefix(code) { effects.enter('htmlTextData'); return returnState(code) } } const labelEnd = { name: 'labelEnd', tokenize: tokenizeLabelEnd, resolveTo: resolveToLabelEnd, resolveAll: resolveAllLabelEnd }; const resourceConstruct = { tokenize: tokenizeResource }; const referenceFullConstruct = { tokenize: tokenizeReferenceFull }; const referenceCollapsedConstruct = { tokenize: tokenizeReferenceCollapsed }; function resolveAllLabelEnd(events) { let index = -1; while (++index < events.length) { const token = events[index][1]; if ( token.type === 'labelImage' || token.type === 'labelLink' || token.type === 'labelEnd' ) { events.splice(index + 1, token.type === 'labelImage' ? 4 : 2); token.type = 'data'; index++; } } return events } function resolveToLabelEnd(events, context) { let index = events.length; let offset = 0; let token; let open; let close; let media; while (index--) { token = events[index][1]; if (open) { if ( token.type === 'link' || (token.type === 'labelLink' && token._inactive) ) { break } if (events[index][0] === 'enter' && token.type === 'labelLink') { token._inactive = true; } } else if (close) { if ( events[index][0] === 'enter' && (token.type === 'labelImage' || token.type === 'labelLink') && !token._balanced ) { open = index; if (token.type !== 'labelLink') { offset = 2; break } } } else if (token.type === 'labelEnd') { close = index; } } const group = { type: events[open][1].type === 'labelLink' ? 'link' : 'image', start: Object.assign({}, events[open][1].start), end: Object.assign({}, events[events.length - 1][1].end) }; const label = { type: 'label', start: Object.assign({}, events[open][1].start), end: Object.assign({}, events[close][1].end) }; const text = { type: 'labelText', start: Object.assign({}, events[open + offset + 2][1].end), end: Object.assign({}, events[close - 2][1].start) }; media = [ ['enter', group, context], ['enter', label, context] ]; media = push(media, events.slice(open + 1, open + offset + 3)); media = push(media, [['enter', text, context]]); media = push( media, resolveAll( context.parser.constructs.insideSpan.null, events.slice(open + offset + 4, close - 3), context ) ); media = push(media, [ ['exit', text, context], events[close - 2], events[close - 1], ['exit', label, context] ]); media = push(media, events.slice(close + 1)); media = push(media, [['exit', group, context]]); splice(events, open, events.length, media); return events } function tokenizeLabelEnd(effects, ok, nok) { const self = this; let index = self.events.length; let labelStart; let defined; while (index--) { if ( (self.events[index][1].type === 'labelImage' || self.events[index][1].type === 'labelLink') && !self.events[index][1]._balanced ) { labelStart = self.events[index][1]; break } } return start function start(code) { if (!labelStart) { return nok(code) } if (labelStart._inactive) { return labelEndNok(code) } defined = self.parser.defined.includes( normalizeIdentifier$1( self.sliceSerialize({ start: labelStart.end, end: self.now() }) ) ); effects.enter('labelEnd'); effects.enter('labelMarker'); effects.consume(code); effects.exit('labelMarker'); effects.exit('labelEnd'); return after } function after(code) { if (code === 40) { return effects.attempt( resourceConstruct, labelEndOk, defined ? labelEndOk : labelEndNok )(code) } if (code === 91) { return effects.attempt( referenceFullConstruct, labelEndOk, defined ? referenceNotFull : labelEndNok )(code) } return defined ? labelEndOk(code) : labelEndNok(code) } function referenceNotFull(code) { return effects.attempt( referenceCollapsedConstruct, labelEndOk, labelEndNok )(code) } function labelEndOk(code) { return ok(code) } function labelEndNok(code) { labelStart._balanced = true; return nok(code) } } function tokenizeResource(effects, ok, nok) { return resourceStart function resourceStart(code) { effects.enter('resource'); effects.enter('resourceMarker'); effects.consume(code); effects.exit('resourceMarker'); return resourceBefore } function resourceBefore(code) { return markdownLineEndingOrSpace(code) ? factoryWhitespace(effects, resourceOpen)(code) : resourceOpen(code) } function resourceOpen(code) { if (code === 41) { return resourceEnd(code) } return factoryDestination( effects, resourceDestinationAfter, resourceDestinationMissing, 'resourceDestination', 'resourceDestinationLiteral', 'resourceDestinationLiteralMarker', 'resourceDestinationRaw', 'resourceDestinationString', 32 )(code) } function resourceDestinationAfter(code) { return markdownLineEndingOrSpace(code) ? factoryWhitespace(effects, resourceBetween)(code) : resourceEnd(code) } function resourceDestinationMissing(code) { return nok(code) } function resourceBetween(code) { if (code === 34 || code === 39 || code === 40) { return factoryTitle( effects, resourceTitleAfter, nok, 'resourceTitle', 'resourceTitleMarker', 'resourceTitleString' )(code) } return resourceEnd(code) } function resourceTitleAfter(code) { return markdownLineEndingOrSpace(code) ? factoryWhitespace(effects, resourceEnd)(code) : resourceEnd(code) } function resourceEnd(code) { if (code === 41) { effects.enter('resourceMarker'); effects.consume(code); effects.exit('resourceMarker'); effects.exit('resource'); return ok } return nok(code) } } function tokenizeReferenceFull(effects, ok, nok) { const self = this; return referenceFull function referenceFull(code) { return factoryLabel.call( self, effects, referenceFullAfter, referenceFullMissing, 'reference', 'referenceMarker', 'referenceString' )(code) } function referenceFullAfter(code) { return self.parser.defined.includes( normalizeIdentifier$1( self.sliceSerialize(self.events[self.events.length - 1][1]).slice(1, -1) ) ) ? ok(code) : nok(code) } function referenceFullMissing(code) { return nok(code) } } function tokenizeReferenceCollapsed(effects, ok, nok) { return referenceCollapsedStart function referenceCollapsedStart(code) { effects.enter('reference'); effects.enter('referenceMarker'); effects.consume(code); effects.exit('referenceMarker'); return referenceCollapsedOpen } function referenceCollapsedOpen(code) { if (code === 93) { effects.enter('referenceMarker'); effects.consume(code); effects.exit('referenceMarker'); effects.exit('reference'); return ok } return nok(code) } } const labelStartImage = { name: 'labelStartImage', tokenize: tokenizeLabelStartImage, resolveAll: labelEnd.resolveAll }; function tokenizeLabelStartImage(effects, ok, nok) { const self = this; return start function start(code) { effects.enter('labelImage'); effects.enter('labelImageMarker'); effects.consume(code); effects.exit('labelImageMarker'); return open } function open(code) { if (code === 91) { effects.enter('labelMarker'); effects.consume(code); effects.exit('labelMarker'); effects.exit('labelImage'); return after } return nok(code) } function after(code) { return code === 94 && '_hiddenFootnoteSupport' in self.parser.constructs ? nok(code) : ok(code) } } const labelStartLink = { name: 'labelStartLink', tokenize: tokenizeLabelStartLink, resolveAll: labelEnd.resolveAll }; function tokenizeLabelStartLink(effects, ok, nok) { const self = this; return start function start(code) { effects.enter('labelLink'); effects.enter('labelMarker'); effects.consume(code); effects.exit('labelMarker'); effects.exit('labelLink'); return after } function after(code) { return code === 94 && '_hiddenFootnoteSupport' in self.parser.constructs ? nok(code) : ok(code) } } const lineEnding = { name: 'lineEnding', tokenize: tokenizeLineEnding }; function tokenizeLineEnding(effects, ok) { return start function start(code) { effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return factorySpace(effects, ok, 'linePrefix') } } const thematicBreak$1 = { name: 'thematicBreak', tokenize: tokenizeThematicBreak }; function tokenizeThematicBreak(effects, ok, nok) { let size = 0; let marker; return start function start(code) { effects.enter('thematicBreak'); return before(code) } function before(code) { marker = code; return atBreak(code) } function atBreak(code) { if (code === marker) { effects.enter('thematicBreakSequence'); return sequence(code) } if (size >= 3 && (code === null || markdownLineEnding(code))) { effects.exit('thematicBreak'); return ok(code) } return nok(code) } function sequence(code) { if (code === marker) { effects.consume(code); size++; return sequence } effects.exit('thematicBreakSequence'); return markdownSpace(code) ? factorySpace(effects, atBreak, 'whitespace')(code) : atBreak(code) } } const list$2 = { name: 'list', tokenize: tokenizeListStart, continuation: { tokenize: tokenizeListContinuation }, exit: tokenizeListEnd }; const listItemPrefixWhitespaceConstruct = { tokenize: tokenizeListItemPrefixWhitespace, partial: true }; const indentConstruct = { tokenize: tokenizeIndent$1, partial: true }; function tokenizeListStart(effects, ok, nok) { const self = this; const tail = self.events[self.events.length - 1]; let initialSize = tail && tail[1].type === 'linePrefix' ? tail[2].sliceSerialize(tail[1], true).length : 0; let size = 0; return start function start(code) { const kind = self.containerState.type || (code === 42 || code === 43 || code === 45 ? 'listUnordered' : 'listOrdered'); if ( kind === 'listUnordered' ? !self.containerState.marker || code === self.containerState.marker : asciiDigit(code) ) { if (!self.containerState.type) { self.containerState.type = kind; effects.enter(kind, { _container: true }); } if (kind === 'listUnordered') { effects.enter('listItemPrefix'); return code === 42 || code === 45 ? effects.check(thematicBreak$1, nok, atMarker)(code) : atMarker(code) } if (!self.interrupt || code === 49) { effects.enter('listItemPrefix'); effects.enter('listItemValue'); return inside(code) } } return nok(code) } function inside(code) { if (asciiDigit(code) && ++size < 10) { effects.consume(code); return inside } if ( (!self.interrupt || size < 2) && (self.containerState.marker ? code === self.containerState.marker : code === 41 || code === 46) ) { effects.exit('listItemValue'); return atMarker(code) } return nok(code) } function atMarker(code) { effects.enter('listItemMarker'); effects.consume(code); effects.exit('listItemMarker'); self.containerState.marker = self.containerState.marker || code; return effects.check( blankLine, self.interrupt ? nok : onBlank, effects.attempt( listItemPrefixWhitespaceConstruct, endOfPrefix, otherPrefix ) ) } function onBlank(code) { self.containerState.initialBlankLine = true; initialSize++; return endOfPrefix(code) } function otherPrefix(code) { if (markdownSpace(code)) { effects.enter('listItemPrefixWhitespace'); effects.consume(code); effects.exit('listItemPrefixWhitespace'); return endOfPrefix } return nok(code) } function endOfPrefix(code) { self.containerState.size = initialSize + self.sliceSerialize(effects.exit('listItemPrefix'), true).length; return ok(code) } } function tokenizeListContinuation(effects, ok, nok) { const self = this; self.containerState._closeFlow = undefined; return effects.check(blankLine, onBlank, notBlank) function onBlank(code) { self.containerState.furtherBlankLines = self.containerState.furtherBlankLines || self.containerState.initialBlankLine; return factorySpace( effects, ok, 'listItemIndent', self.containerState.size + 1 )(code) } function notBlank(code) { if (self.containerState.furtherBlankLines || !markdownSpace(code)) { self.containerState.furtherBlankLines = undefined; self.containerState.initialBlankLine = undefined; return notInCurrentItem(code) } self.containerState.furtherBlankLines = undefined; self.containerState.initialBlankLine = undefined; return effects.attempt(indentConstruct, ok, notInCurrentItem)(code) } function notInCurrentItem(code) { self.containerState._closeFlow = true; self.interrupt = undefined; return factorySpace( effects, effects.attempt(list$2, ok, nok), 'linePrefix', self.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 )(code) } } function tokenizeIndent$1(effects, ok, nok) { const self = this; return factorySpace( effects, afterPrefix, 'listItemIndent', self.containerState.size + 1 ) function afterPrefix(code) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === 'listItemIndent' && tail[2].sliceSerialize(tail[1], true).length === self.containerState.size ? ok(code) : nok(code) } } function tokenizeListEnd(effects) { effects.exit(this.containerState.type); } function tokenizeListItemPrefixWhitespace(effects, ok, nok) { const self = this; return factorySpace( effects, afterPrefix, 'listItemPrefixWhitespace', self.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 + 1 ) function afterPrefix(code) { const tail = self.events[self.events.length - 1]; return !markdownSpace(code) && tail && tail[1].type === 'listItemPrefixWhitespace' ? ok(code) : nok(code) } } const setextUnderline = { name: 'setextUnderline', tokenize: tokenizeSetextUnderline, resolveTo: resolveToSetextUnderline }; function resolveToSetextUnderline(events, context) { let index = events.length; let content; let text; let definition; while (index--) { if (events[index][0] === 'enter') { if (events[index][1].type === 'content') { content = index; break } if (events[index][1].type === 'paragraph') { text = index; } } else { if (events[index][1].type === 'content') { events.splice(index, 1); } if (!definition && events[index][1].type === 'definition') { definition = index; } } } const heading = { type: 'setextHeading', start: Object.assign({}, events[text][1].start), end: Object.assign({}, events[events.length - 1][1].end) }; events[text][1].type = 'setextHeadingText'; if (definition) { events.splice(text, 0, ['enter', heading, context]); events.splice(definition + 1, 0, ['exit', events[content][1], context]); events[content][1].end = Object.assign({}, events[definition][1].end); } else { events[content][1] = heading; } events.push(['exit', heading, context]); return events } function tokenizeSetextUnderline(effects, ok, nok) { const self = this; let marker; return start function start(code) { let index = self.events.length; let paragraph; while (index--) { if ( self.events[index][1].type !== 'lineEnding' && self.events[index][1].type !== 'linePrefix' && self.events[index][1].type !== 'content' ) { paragraph = self.events[index][1].type === 'paragraph'; break } } if (!self.parser.lazy[self.now().line] && (self.interrupt || paragraph)) { effects.enter('setextHeadingLine'); marker = code; return before(code) } return nok(code) } function before(code) { effects.enter('setextHeadingLineSequence'); return inside(code) } function inside(code) { if (code === marker) { effects.consume(code); return inside } effects.exit('setextHeadingLineSequence'); return markdownSpace(code) ? factorySpace(effects, after, 'lineSuffix')(code) : after(code) } function after(code) { if (code === null || markdownLineEnding(code)) { effects.exit('setextHeadingLine'); return ok(code) } return nok(code) } } const flow$1 = { tokenize: initializeFlow }; function initializeFlow(effects) { const self = this; const initial = effects.attempt( blankLine, atBlankEnding, effects.attempt( this.parser.constructs.flowInitial, afterConstruct, factorySpace( effects, effects.attempt( this.parser.constructs.flow, afterConstruct, effects.attempt(content, afterConstruct) ), 'linePrefix' ) ) ); return initial function atBlankEnding(code) { if (code === null) { effects.consume(code); return } effects.enter('lineEndingBlank'); effects.consume(code); effects.exit('lineEndingBlank'); self.currentConstruct = undefined; return initial } function afterConstruct(code) { if (code === null) { effects.consume(code); return } effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); self.currentConstruct = undefined; return initial } } const resolver = { resolveAll: createResolver() }; const string$1 = initializeFactory('string'); const text$3 = initializeFactory('text'); function initializeFactory(field) { return { tokenize: initializeText, resolveAll: createResolver( field === 'text' ? resolveAllLineSuffixes : undefined ) } function initializeText(effects) { const self = this; const constructs = this.parser.constructs[field]; const text = effects.attempt(constructs, start, notText); return start function start(code) { return atBreak(code) ? text(code) : notText(code) } function notText(code) { if (code === null) { effects.consume(code); return } effects.enter('data'); effects.consume(code); return data } function data(code) { if (atBreak(code)) { effects.exit('data'); return text(code) } effects.consume(code); return data } function atBreak(code) { if (code === null) { return true } const list = constructs[code]; let index = -1; if (list) { while (++index < list.length) { const item = list[index]; if (!item.previous || item.previous.call(self, self.previous)) { return true } } } return false } } } function createResolver(extraResolver) { return resolveAllText function resolveAllText(events, context) { let index = -1; let enter; while (++index <= events.length) { if (enter === undefined) { if (events[index] && events[index][1].type === 'data') { enter = index; index++; } } else if (!events[index] || events[index][1].type !== 'data') { if (index !== enter + 2) { events[enter][1].end = events[index - 1][1].end; events.splice(enter + 2, index - enter - 2); index = enter + 2; } enter = undefined; } } return extraResolver ? extraResolver(events, context) : events } } function resolveAllLineSuffixes(events, context) { let eventIndex = 0; while (++eventIndex <= events.length) { if ( (eventIndex === events.length || events[eventIndex][1].type === 'lineEnding') && events[eventIndex - 1][1].type === 'data' ) { const data = events[eventIndex - 1][1]; const chunks = context.sliceStream(data); let index = chunks.length; let bufferIndex = -1; let size = 0; let tabs; while (index--) { const chunk = chunks[index]; if (typeof chunk === 'string') { bufferIndex = chunk.length; while (chunk.charCodeAt(bufferIndex - 1) === 32) { size++; bufferIndex--; } if (bufferIndex) break bufferIndex = -1; } else if (chunk === -2) { tabs = true; size++; } else if (chunk === -1) ; else { index++; break } } if (size) { const token = { type: eventIndex === events.length || tabs || size < 2 ? 'lineSuffix' : 'hardBreakTrailing', start: { line: data.end.line, column: data.end.column - size, offset: data.end.offset - size, _index: data.start._index + index, _bufferIndex: index ? bufferIndex : data.start._bufferIndex + bufferIndex }, end: Object.assign({}, data.end) }; data.end = Object.assign({}, token.start); if (data.start.offset === data.end.offset) { Object.assign(data, token); } else { events.splice( eventIndex, 0, ['enter', token, context], ['exit', token, context] ); eventIndex += 2; } } eventIndex++; } } return events } function createTokenizer(parser, initialize, from) { let point = Object.assign( from ? Object.assign({}, from) : { line: 1, column: 1, offset: 0 }, { _index: 0, _bufferIndex: -1 } ); const columnStart = {}; const resolveAllConstructs = []; let chunks = []; let stack = []; const effects = { consume, enter, exit, attempt: constructFactory(onsuccessfulconstruct), check: constructFactory(onsuccessfulcheck), interrupt: constructFactory(onsuccessfulcheck, { interrupt: true }) }; const context = { previous: null, code: null, containerState: {}, events: [], parser, sliceStream, sliceSerialize, now, defineSkip, write }; let state = initialize.tokenize.call(context, effects); if (initialize.resolveAll) { resolveAllConstructs.push(initialize); } return context function write(slice) { chunks = push(chunks, slice); main(); if (chunks[chunks.length - 1] !== null) { return [] } addResult(initialize, 0); context.events = resolveAll(resolveAllConstructs, context.events, context); return context.events } function sliceSerialize(token, expandTabs) { return serializeChunks(sliceStream(token), expandTabs) } function sliceStream(token) { return sliceChunks(chunks, token) } function now() { const {line, column, offset, _index, _bufferIndex} = point; return { line, column, offset, _index, _bufferIndex } } function defineSkip(value) { columnStart[value.line] = value.column; accountForPotentialSkip(); } function main() { let chunkIndex; while (point._index < chunks.length) { const chunk = chunks[point._index]; if (typeof chunk === 'string') { chunkIndex = point._index; if (point._bufferIndex < 0) { point._bufferIndex = 0; } while ( point._index === chunkIndex && point._bufferIndex < chunk.length ) { go(chunk.charCodeAt(point._bufferIndex)); } } else { go(chunk); } } } function go(code) { state = state(code); } function consume(code) { if (markdownLineEnding(code)) { point.line++; point.column = 1; point.offset += code === -3 ? 2 : 1; accountForPotentialSkip(); } else if (code !== -1) { point.column++; point.offset++; } if (point._bufferIndex < 0) { point._index++; } else { point._bufferIndex++; if (point._bufferIndex === chunks[point._index].length) { point._bufferIndex = -1; point._index++; } } context.previous = code; } function enter(type, fields) { const token = fields || {}; token.type = type; token.start = now(); context.events.push(['enter', token, context]); stack.push(token); return token } function exit(type) { const token = stack.pop(); token.end = now(); context.events.push(['exit', token, context]); return token } function onsuccessfulconstruct(construct, info) { addResult(construct, info.from); } function onsuccessfulcheck(_, info) { info.restore(); } function constructFactory(onreturn, fields) { return hook function hook(constructs, returnState, bogusState) { let listOfConstructs; let constructIndex; let currentConstruct; let info; return Array.isArray(constructs) ? handleListOfConstructs(constructs) : 'tokenize' in constructs ? handleListOfConstructs([constructs]) : handleMapOfConstructs(constructs) function handleMapOfConstructs(map) { return start function start(code) { const def = code !== null && map[code]; const all = code !== null && map.null; const list = [ ...(Array.isArray(def) ? def : def ? [def] : []), ...(Array.isArray(all) ? all : all ? [all] : []) ]; return handleListOfConstructs(list)(code) } } function handleListOfConstructs(list) { listOfConstructs = list; constructIndex = 0; if (list.length === 0) { return bogusState } return handleConstruct(list[constructIndex]) } function handleConstruct(construct) { return start function start(code) { info = store(); currentConstruct = construct; if (!construct.partial) { context.currentConstruct = construct; } if ( construct.name && context.parser.constructs.disable.null.includes(construct.name) ) { return nok() } return construct.tokenize.call( fields ? Object.assign(Object.create(context), fields) : context, effects, ok, nok )(code) } } function ok(code) { onreturn(currentConstruct, info); return returnState } function nok(code) { info.restore(); if (++constructIndex < listOfConstructs.length) { return handleConstruct(listOfConstructs[constructIndex]) } return bogusState } } } function addResult(construct, from) { if (construct.resolveAll && !resolveAllConstructs.includes(construct)) { resolveAllConstructs.push(construct); } if (construct.resolve) { splice( context.events, from, context.events.length - from, construct.resolve(context.events.slice(from), context) ); } if (construct.resolveTo) { context.events = construct.resolveTo(context.events, context); } } function store() { const startPoint = now(); const startPrevious = context.previous; const startCurrentConstruct = context.currentConstruct; const startEventsIndex = context.events.length; const startStack = Array.from(stack); return { restore, from: startEventsIndex } function restore() { point = startPoint; context.previous = startPrevious; context.currentConstruct = startCurrentConstruct; context.events.length = startEventsIndex; stack = startStack; accountForPotentialSkip(); } } function accountForPotentialSkip() { if (point.line in columnStart && point.column < 2) { point.column = columnStart[point.line]; point.offset += columnStart[point.line] - 1; } } } function sliceChunks(chunks, token) { const startIndex = token.start._index; const startBufferIndex = token.start._bufferIndex; const endIndex = token.end._index; const endBufferIndex = token.end._bufferIndex; let view; if (startIndex === endIndex) { view = [chunks[startIndex].slice(startBufferIndex, endBufferIndex)]; } else { view = chunks.slice(startIndex, endIndex); if (startBufferIndex > -1) { const head = view[0]; if (typeof head === 'string') { view[0] = head.slice(startBufferIndex); } else { view.shift(); } } if (endBufferIndex > 0) { view.push(chunks[endIndex].slice(0, endBufferIndex)); } } return view } function serializeChunks(chunks, expandTabs) { let index = -1; const result = []; let atTab; while (++index < chunks.length) { const chunk = chunks[index]; let value; if (typeof chunk === 'string') { value = chunk; } else switch (chunk) { case -5: { value = '\r'; break } case -4: { value = '\n'; break } case -3: { value = '\r' + '\n'; break } case -2: { value = expandTabs ? ' ' : '\t'; break } case -1: { if (!expandTabs && atTab) continue value = ' '; break } default: { value = String.fromCharCode(chunk); } } atTab = chunk === -2; result.push(value); } return result.join('') } const document = { [42]: list$2, [43]: list$2, [45]: list$2, [48]: list$2, [49]: list$2, [50]: list$2, [51]: list$2, [52]: list$2, [53]: list$2, [54]: list$2, [55]: list$2, [56]: list$2, [57]: list$2, [62]: blockQuote }; const contentInitial = { [91]: definition$1 }; const flowInitial = { [-2]: codeIndented, [-1]: codeIndented, [32]: codeIndented }; const flow = { [35]: headingAtx, [42]: thematicBreak$1, [45]: [setextUnderline, thematicBreak$1], [60]: htmlFlow, [61]: setextUnderline, [95]: thematicBreak$1, [96]: codeFenced, [126]: codeFenced }; const string = { [38]: characterReference, [92]: characterEscape }; const text$2 = { [-5]: lineEnding, [-4]: lineEnding, [-3]: lineEnding, [33]: labelStartImage, [38]: characterReference, [42]: attention, [60]: [autolink, htmlText], [91]: labelStartLink, [92]: [hardBreakEscape, characterEscape], [93]: labelEnd, [95]: attention, [96]: codeText }; const insideSpan = { null: [attention, resolver] }; const attentionMarkers = { null: [42, 95] }; const disable = { null: [] }; var defaultConstructs = /*#__PURE__*/Object.freeze({ __proto__: null, attentionMarkers: attentionMarkers, contentInitial: contentInitial, disable: disable, document: document, flow: flow, flowInitial: flowInitial, insideSpan: insideSpan, string: string, text: text$2 }); function parse$1(options) { const settings = options || {}; const constructs = combineExtensions([defaultConstructs, ...(settings.extensions || [])]); const parser = { defined: [], lazy: {}, constructs, content: create(content$1), document: create(document$1), flow: create(flow$1), string: create(string$1), text: create(text$3) }; return parser function create(initial) { return creator function creator(from) { return createTokenizer(parser, initial, from) } } } function postprocess(events) { while (!subtokenize(events)) { } return events } const search = /[\0\t\n\r]/g; function preprocess() { let column = 1; let buffer = ''; let start = true; let atCarriageReturn; return preprocessor function preprocessor(value, encoding, end) { const chunks = []; let match; let next; let startPosition; let endPosition; let code; value = buffer + (typeof value === 'string' ? value.toString() : new TextDecoder(encoding || undefined).decode(value)); startPosition = 0; buffer = ''; if (start) { if (value.charCodeAt(0) === 65279) { startPosition++; } start = undefined; } while (startPosition < value.length) { search.lastIndex = startPosition; match = search.exec(value); endPosition = match && match.index !== undefined ? match.index : value.length; code = value.charCodeAt(endPosition); if (!match) { buffer = value.slice(startPosition); break } if (code === 10 && startPosition === endPosition && atCarriageReturn) { chunks.push(-3); atCarriageReturn = undefined; } else { if (atCarriageReturn) { chunks.push(-5); atCarriageReturn = undefined; } if (startPosition < endPosition) { chunks.push(value.slice(startPosition, endPosition)); column += endPosition - startPosition; } switch (code) { case 0: { chunks.push(65533); column++; break } case 9: { next = Math.ceil(column / 4) * 4; chunks.push(-2); while (column++ < next) chunks.push(-1); break } case 10: { chunks.push(-4); column = 1; break } default: { atCarriageReturn = true; column = 1; } } } startPosition = endPosition + 1; } if (end) { if (atCarriageReturn) chunks.push(-5); if (buffer) chunks.push(buffer); chunks.push(null); } return chunks } } const characterEscapeOrReference = /\\([!-/:-@[-`{-~])|&(#(?:\d{1,7}|x[\da-f]{1,6})|[\da-z]{1,31});/gi; function decodeString(value) { return value.replace(characterEscapeOrReference, decode) } function decode($0, $1, $2) { if ($1) { return $1 } const head = $2.charCodeAt(0); if (head === 35) { const head = $2.charCodeAt(1); const hex = head === 120 || head === 88; return decodeNumericCharacterReference($2.slice(hex ? 2 : 1), hex ? 16 : 10) } return decodeNamedCharacterReference($2) || $0 } const own$4 = {}.hasOwnProperty; function fromMarkdown(value, encoding, options) { if (typeof encoding !== 'string') { options = encoding; encoding = undefined; } return compiler(options)( postprocess( parse$1(options).document().write(preprocess()(value, encoding, true)) ) ) } function compiler(options) { const config = { transforms: [], canContainEols: ['emphasis', 'fragment', 'heading', 'paragraph', 'strong'], enter: { autolink: opener(link), autolinkProtocol: onenterdata, autolinkEmail: onenterdata, atxHeading: opener(heading), blockQuote: opener(blockQuote), characterEscape: onenterdata, characterReference: onenterdata, codeFenced: opener(codeFlow), codeFencedFenceInfo: buffer, codeFencedFenceMeta: buffer, codeIndented: opener(codeFlow, buffer), codeText: opener(codeText, buffer), codeTextData: onenterdata, data: onenterdata, codeFlowValue: onenterdata, definition: opener(definition), definitionDestinationString: buffer, definitionLabelString: buffer, definitionTitleString: buffer, emphasis: opener(emphasis), hardBreakEscape: opener(hardBreak), hardBreakTrailing: opener(hardBreak), htmlFlow: opener(html, buffer), htmlFlowData: onenterdata, htmlText: opener(html, buffer), htmlTextData: onenterdata, image: opener(image), label: buffer, link: opener(link), listItem: opener(listItem), listItemValue: onenterlistitemvalue, listOrdered: opener(list, onenterlistordered), listUnordered: opener(list), paragraph: opener(paragraph), reference: onenterreference, referenceString: buffer, resourceDestinationString: buffer, resourceTitleString: buffer, setextHeading: opener(heading), strong: opener(strong), thematicBreak: opener(thematicBreak) }, exit: { atxHeading: closer(), atxHeadingSequence: onexitatxheadingsequence, autolink: closer(), autolinkEmail: onexitautolinkemail, autolinkProtocol: onexitautolinkprotocol, blockQuote: closer(), characterEscapeValue: onexitdata, characterReferenceMarkerHexadecimal: onexitcharacterreferencemarker, characterReferenceMarkerNumeric: onexitcharacterreferencemarker, characterReferenceValue: onexitcharacterreferencevalue, codeFenced: closer(onexitcodefenced), codeFencedFence: onexitcodefencedfence, codeFencedFenceInfo: onexitcodefencedfenceinfo, codeFencedFenceMeta: onexitcodefencedfencemeta, codeFlowValue: onexitdata, codeIndented: closer(onexitcodeindented), codeText: closer(onexitcodetext), codeTextData: onexitdata, data: onexitdata, definition: closer(), definitionDestinationString: onexitdefinitiondestinationstring, definitionLabelString: onexitdefinitionlabelstring, definitionTitleString: onexitdefinitiontitlestring, emphasis: closer(), hardBreakEscape: closer(onexithardbreak), hardBreakTrailing: closer(onexithardbreak), htmlFlow: closer(onexithtmlflow), htmlFlowData: onexitdata, htmlText: closer(onexithtmltext), htmlTextData: onexitdata, image: closer(onexitimage), label: onexitlabel, labelText: onexitlabeltext, lineEnding: onexitlineending, link: closer(onexitlink), listItem: closer(), listOrdered: closer(), listUnordered: closer(), paragraph: closer(), referenceString: onexitreferencestring, resourceDestinationString: onexitresourcedestinationstring, resourceTitleString: onexitresourcetitlestring, resource: onexitresource, setextHeading: closer(onexitsetextheading), setextHeadingLineSequence: onexitsetextheadinglinesequence, setextHeadingText: onexitsetextheadingtext, strong: closer(), thematicBreak: closer() } }; configure$1(config, (options || {}).mdastExtensions || []); const data = {}; return compile function compile(events) { let tree = { type: 'root', children: [] }; const context = { stack: [tree], tokenStack: [], config, enter, exit, buffer, resume, data }; const listStack = []; let index = -1; while (++index < events.length) { if ( events[index][1].type === 'listOrdered' || events[index][1].type === 'listUnordered' ) { if (events[index][0] === 'enter') { listStack.push(index); } else { const tail = listStack.pop(); index = prepareList(events, tail, index); } } } index = -1; while (++index < events.length) { const handler = config[events[index][0]]; if (own$4.call(handler, events[index][1].type)) { handler[events[index][1].type].call( Object.assign( { sliceSerialize: events[index][2].sliceSerialize }, context ), events[index][1] ); } } if (context.tokenStack.length > 0) { const tail = context.tokenStack[context.tokenStack.length - 1]; const handler = tail[1] || defaultOnError; handler.call(context, undefined, tail[0]); } tree.position = { start: point$3( events.length > 0 ? events[0][1].start : { line: 1, column: 1, offset: 0 } ), end: point$3( events.length > 0 ? events[events.length - 2][1].end : { line: 1, column: 1, offset: 0 } ) }; index = -1; while (++index < config.transforms.length) { tree = config.transforms[index](tree) || tree; } return tree } function prepareList(events, start, length) { let index = start - 1; let containerBalance = -1; let listSpread = false; let listItem; let lineIndex; let firstBlankLineIndex; let atMarker; while (++index <= length) { const event = events[index]; switch (event[1].type) { case 'listUnordered': case 'listOrdered': case 'blockQuote': { if (event[0] === 'enter') { containerBalance++; } else { containerBalance--; } atMarker = undefined; break } case 'lineEndingBlank': { if (event[0] === 'enter') { if ( listItem && !atMarker && !containerBalance && !firstBlankLineIndex ) { firstBlankLineIndex = index; } atMarker = undefined; } break } case 'linePrefix': case 'listItemValue': case 'listItemMarker': case 'listItemPrefix': case 'listItemPrefixWhitespace': { break } default: { atMarker = undefined; } } if ( (!containerBalance && event[0] === 'enter' && event[1].type === 'listItemPrefix') || (containerBalance === -1 && event[0] === 'exit' && (event[1].type === 'listUnordered' || event[1].type === 'listOrdered')) ) { if (listItem) { let tailIndex = index; lineIndex = undefined; while (tailIndex--) { const tailEvent = events[tailIndex]; if ( tailEvent[1].type === 'lineEnding' || tailEvent[1].type === 'lineEndingBlank' ) { if (tailEvent[0] === 'exit') continue if (lineIndex) { events[lineIndex][1].type = 'lineEndingBlank'; listSpread = true; } tailEvent[1].type = 'lineEnding'; lineIndex = tailIndex; } else if ( tailEvent[1].type === 'linePrefix' || tailEvent[1].type === 'blockQuotePrefix' || tailEvent[1].type === 'blockQuotePrefixWhitespace' || tailEvent[1].type === 'blockQuoteMarker' || tailEvent[1].type === 'listItemIndent' ) ; else { break } } if ( firstBlankLineIndex && (!lineIndex || firstBlankLineIndex < lineIndex) ) { listItem._spread = true; } listItem.end = Object.assign( {}, lineIndex ? events[lineIndex][1].start : event[1].end ); events.splice(lineIndex || index, 0, ['exit', listItem, event[2]]); index++; length++; } if (event[1].type === 'listItemPrefix') { const item = { type: 'listItem', _spread: false, start: Object.assign({}, event[1].start), end: undefined }; listItem = item; events.splice(index, 0, ['enter', item, event[2]]); index++; length++; firstBlankLineIndex = undefined; atMarker = true; } } } events[start][1]._spread = listSpread; return length } function opener(create, and) { return open function open(token) { enter.call(this, create(token), token); if (and) and.call(this, token); } } function buffer() { this.stack.push({ type: 'fragment', children: [] }); } function enter(node, token, errorHandler) { const parent = this.stack[this.stack.length - 1]; const siblings = parent.children; siblings.push(node); this.stack.push(node); this.tokenStack.push([token, errorHandler]); node.position = { start: point$3(token.start), end: undefined }; } function closer(and) { return close function close(token) { if (and) and.call(this, token); exit.call(this, token); } } function exit(token, onExitError) { const node = this.stack.pop(); const open = this.tokenStack.pop(); if (!open) { throw new Error( 'Cannot close `' + token.type + '` (' + stringifyPosition$2({ start: token.start, end: token.end }) + '): it’s not open' ) } else if (open[0].type !== token.type) { if (onExitError) { onExitError.call(this, token, open[0]); } else { const handler = open[1] || defaultOnError; handler.call(this, token, open[0]); } } node.position.end = point$3(token.end); } function resume() { return toString$2(this.stack.pop()) } function onenterlistordered() { this.data.expectingFirstListItemValue = true; } function onenterlistitemvalue(token) { if (this.data.expectingFirstListItemValue) { const ancestor = this.stack[this.stack.length - 2]; ancestor.start = Number.parseInt(this.sliceSerialize(token), 10); this.data.expectingFirstListItemValue = undefined; } } function onexitcodefencedfenceinfo() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.lang = data; } function onexitcodefencedfencemeta() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.meta = data; } function onexitcodefencedfence() { if (this.data.flowCodeInside) return this.buffer(); this.data.flowCodeInside = true; } function onexitcodefenced() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.value = data.replace(/^(\r?\n|\r)|(\r?\n|\r)$/g, ''); this.data.flowCodeInside = undefined; } function onexitcodeindented() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.value = data.replace(/(\r?\n|\r)$/g, ''); } function onexitdefinitionlabelstring(token) { const label = this.resume(); const node = this.stack[this.stack.length - 1]; node.label = label; node.identifier = normalizeIdentifier$1( this.sliceSerialize(token) ).toLowerCase(); } function onexitdefinitiontitlestring() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.title = data; } function onexitdefinitiondestinationstring() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.url = data; } function onexitatxheadingsequence(token) { const node = this.stack[this.stack.length - 1]; if (!node.depth) { const depth = this.sliceSerialize(token).length; node.depth = depth; } } function onexitsetextheadingtext() { this.data.setextHeadingSlurpLineEnding = true; } function onexitsetextheadinglinesequence(token) { const node = this.stack[this.stack.length - 1]; node.depth = this.sliceSerialize(token).codePointAt(0) === 61 ? 1 : 2; } function onexitsetextheading() { this.data.setextHeadingSlurpLineEnding = undefined; } function onenterdata(token) { const node = this.stack[this.stack.length - 1]; const siblings = node.children; let tail = siblings[siblings.length - 1]; if (!tail || tail.type !== 'text') { tail = text(); tail.position = { start: point$3(token.start), end: undefined }; siblings.push(tail); } this.stack.push(tail); } function onexitdata(token) { const tail = this.stack.pop(); tail.value += this.sliceSerialize(token); tail.position.end = point$3(token.end); } function onexitlineending(token) { const context = this.stack[this.stack.length - 1]; if (this.data.atHardBreak) { const tail = context.children[context.children.length - 1]; tail.position.end = point$3(token.end); this.data.atHardBreak = undefined; return } if ( !this.data.setextHeadingSlurpLineEnding && config.canContainEols.includes(context.type) ) { onenterdata.call(this, token); onexitdata.call(this, token); } } function onexithardbreak() { this.data.atHardBreak = true; } function onexithtmlflow() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.value = data; } function onexithtmltext() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.value = data; } function onexitcodetext() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.value = data; } function onexitlink() { const node = this.stack[this.stack.length - 1]; if (this.data.inReference) { const referenceType = this.data.referenceType || 'shortcut'; node.type += 'Reference'; node.referenceType = referenceType; delete node.url; delete node.title; } else { delete node.identifier; delete node.label; } this.data.referenceType = undefined; } function onexitimage() { const node = this.stack[this.stack.length - 1]; if (this.data.inReference) { const referenceType = this.data.referenceType || 'shortcut'; node.type += 'Reference'; node.referenceType = referenceType; delete node.url; delete node.title; } else { delete node.identifier; delete node.label; } this.data.referenceType = undefined; } function onexitlabeltext(token) { const string = this.sliceSerialize(token); const ancestor = this.stack[this.stack.length - 2]; ancestor.label = decodeString(string); ancestor.identifier = normalizeIdentifier$1(string).toLowerCase(); } function onexitlabel() { const fragment = this.stack[this.stack.length - 1]; const value = this.resume(); const node = this.stack[this.stack.length - 1]; this.data.inReference = true; if (node.type === 'link') { const children = fragment.children; node.children = children; } else { node.alt = value; } } function onexitresourcedestinationstring() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.url = data; } function onexitresourcetitlestring() { const data = this.resume(); const node = this.stack[this.stack.length - 1]; node.title = data; } function onexitresource() { this.data.inReference = undefined; } function onenterreference() { this.data.referenceType = 'collapsed'; } function onexitreferencestring(token) { const label = this.resume(); const node = this.stack[this.stack.length - 1]; node.label = label; node.identifier = normalizeIdentifier$1( this.sliceSerialize(token) ).toLowerCase(); this.data.referenceType = 'full'; } function onexitcharacterreferencemarker(token) { this.data.characterReferenceType = token.type; } function onexitcharacterreferencevalue(token) { const data = this.sliceSerialize(token); const type = this.data.characterReferenceType; let value; if (type) { value = decodeNumericCharacterReference( data, type === 'characterReferenceMarkerNumeric' ? 10 : 16 ); this.data.characterReferenceType = undefined; } else { const result = decodeNamedCharacterReference(data); value = result; } const tail = this.stack.pop(); tail.value += value; tail.position.end = point$3(token.end); } function onexitautolinkprotocol(token) { onexitdata.call(this, token); const node = this.stack[this.stack.length - 1]; node.url = this.sliceSerialize(token); } function onexitautolinkemail(token) { onexitdata.call(this, token); const node = this.stack[this.stack.length - 1]; node.url = 'mailto:' + this.sliceSerialize(token); } function blockQuote() { return { type: 'blockquote', children: [] } } function codeFlow() { return { type: 'code', lang: null, meta: null, value: '' } } function codeText() { return { type: 'inlineCode', value: '' } } function definition() { return { type: 'definition', identifier: '', label: null, title: null, url: '' } } function emphasis() { return { type: 'emphasis', children: [] } } function heading() { return { type: 'heading', depth: 0, children: [] } } function hardBreak() { return { type: 'break' } } function html() { return { type: 'html', value: '' } } function image() { return { type: 'image', title: null, url: '', alt: null } } function link() { return { type: 'link', title: null, url: '', children: [] } } function list(token) { return { type: 'list', ordered: token.type === 'listOrdered', start: null, spread: token._spread, children: [] } } function listItem(token) { return { type: 'listItem', spread: token._spread, checked: null, children: [] } } function paragraph() { return { type: 'paragraph', children: [] } } function strong() { return { type: 'strong', children: [] } } function text() { return { type: 'text', value: '' } } function thematicBreak() { return { type: 'thematicBreak' } } } function point$3(d) { return { line: d.line, column: d.column, offset: d.offset } } function configure$1(combined, extensions) { let index = -1; while (++index < extensions.length) { const value = extensions[index]; if (Array.isArray(value)) { configure$1(combined, value); } else { extension(combined, value); } } } function extension(combined, extension) { let key; for (key in extension) { if (own$4.call(extension, key)) { switch (key) { case 'canContainEols': { const right = extension[key]; if (right) { combined[key].push(...right); } break } case 'transforms': { const right = extension[key]; if (right) { combined[key].push(...right); } break } case 'enter': case 'exit': { const right = extension[key]; if (right) { Object.assign(combined[key], right); } break } } } } } function defaultOnError(left, right) { if (left) { throw new Error( 'Cannot close `' + left.type + '` (' + stringifyPosition$2({ start: left.start, end: left.end }) + '): a different token (`' + right.type + '`, ' + stringifyPosition$2({ start: right.start, end: right.end }) + ') is open' ) } else { throw new Error( 'Cannot close document, a token (`' + right.type + '`, ' + stringifyPosition$2({ start: right.start, end: right.end }) + ') is still open' ) } } function remarkParse(options) { const self = this; self.parser = parser; function parser(doc) { return fromMarkdown(doc, { ...self.data('settings'), ...options, extensions: self.data('micromarkExtensions') || [], mdastExtensions: self.data('fromMarkdownExtensions') || [] }) } } const own$3 = {}.hasOwnProperty; function zwitch(key, options) { const settings = options || {}; function one(value, ...parameters) { let fn = one.invalid; const handlers = one.handlers; if (value && own$3.call(value, key)) { const id = String(value[key]); fn = own$3.call(handlers, id) ? handlers[id] : one.unknown; } if (fn) { return fn.call(this, value, ...parameters) } } one.handlers = settings.handlers || {}; one.invalid = settings.invalid; one.unknown = settings.unknown; return one } const own$2 = {}.hasOwnProperty; function configure(base, extension) { let index = -1; let key; if (extension.extensions) { while (++index < extension.extensions.length) { configure(base, extension.extensions[index]); } } for (key in extension) { if (own$2.call(extension, key)) { switch (key) { case 'extensions': { break } case 'unsafe': { list$1(base[key], extension[key]); break } case 'join': { list$1(base[key], extension[key]); break } case 'handlers': { map$4(base[key], extension[key]); break } default: { base.options[key] = extension[key]; } } } } return base } function list$1(left, right) { if (right) { left.push(...right); } } function map$4(left, right) { if (right) { Object.assign(left, right); } } function blockquote(node, _, state, info) { const exit = state.enter('blockquote'); const tracker = state.createTracker(info); tracker.move('> '); tracker.shift(2); const value = state.indentLines( state.containerFlow(node, tracker.current()), map$3 ); exit(); return value } function map$3(line, _, blank) { return '>' + (blank ? '' : ' ') + line } function patternInScope(stack, pattern) { return ( listInScope(stack, pattern.inConstruct, true) && !listInScope(stack, pattern.notInConstruct, false) ) } function listInScope(stack, list, none) { if (typeof list === 'string') { list = [list]; } if (!list || list.length === 0) { return none } let index = -1; while (++index < list.length) { if (stack.includes(list[index])) { return true } } return false } function hardBreak(_, _1, state, info) { let index = -1; while (++index < state.unsafe.length) { if ( state.unsafe[index].character === '\n' && patternInScope(state.stack, state.unsafe[index]) ) { return /[ \t]/.test(info.before) ? '' : ' ' } } return '\\\n' } function longestStreak(value, substring) { const source = String(value); let index = source.indexOf(substring); let expected = index; let count = 0; let max = 0; if (typeof substring !== 'string') { throw new TypeError('Expected substring') } while (index !== -1) { if (index === expected) { if (++count > max) { max = count; } } else { count = 1; } expected = index + substring.length; index = source.indexOf(substring, expected); } return max } function formatCodeAsIndented(node, state) { return Boolean( state.options.fences === false && node.value && !node.lang && /[^ \r\n]/.test(node.value) && !/^[\t ]*(?:[\r\n]|$)|(?:^|[\r\n])[\t ]*$/.test(node.value) ) } function checkFence(state) { const marker = state.options.fence || '`'; if (marker !== '`' && marker !== '~') { throw new Error( 'Cannot serialize code with `' + marker + '` for `options.fence`, expected `` ` `` or `~`' ) } return marker } function code$1(node, _, state, info) { const marker = checkFence(state); const raw = node.value || ''; const suffix = marker === '`' ? 'GraveAccent' : 'Tilde'; if (formatCodeAsIndented(node, state)) { const exit = state.enter('codeIndented'); const value = state.indentLines(raw, map$2); exit(); return value } const tracker = state.createTracker(info); const sequence = marker.repeat(Math.max(longestStreak(raw, marker) + 1, 3)); const exit = state.enter('codeFenced'); let value = tracker.move(sequence); if (node.lang) { const subexit = state.enter(`codeFencedLang${suffix}`); value += tracker.move( state.safe(node.lang, { before: value, after: ' ', encode: ['`'], ...tracker.current() }) ); subexit(); } if (node.lang && node.meta) { const subexit = state.enter(`codeFencedMeta${suffix}`); value += tracker.move(' '); value += tracker.move( state.safe(node.meta, { before: value, after: '\n', encode: ['`'], ...tracker.current() }) ); subexit(); } value += tracker.move('\n'); if (raw) { value += tracker.move(raw + '\n'); } value += tracker.move(sequence); exit(); return value } function map$2(line, _, blank) { return (blank ? '' : ' ') + line } function checkQuote(state) { const marker = state.options.quote || '"'; if (marker !== '"' && marker !== "'") { throw new Error( 'Cannot serialize title with `' + marker + '` for `options.quote`, expected `"`, or `\'`' ) } return marker } function definition(node, _, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? 'Quote' : 'Apostrophe'; const exit = state.enter('definition'); let subexit = state.enter('label'); const tracker = state.createTracker(info); let value = tracker.move('['); value += tracker.move( state.safe(state.associationId(node), { before: value, after: ']', ...tracker.current() }) ); value += tracker.move(']: '); subexit(); if ( !node.url || /[\0- \u007F]/.test(node.url) ) { subexit = state.enter('destinationLiteral'); value += tracker.move('<'); value += tracker.move( state.safe(node.url, {before: value, after: '>', ...tracker.current()}) ); value += tracker.move('>'); } else { subexit = state.enter('destinationRaw'); value += tracker.move( state.safe(node.url, { before: value, after: node.title ? ' ' : '\n', ...tracker.current() }) ); } subexit(); if (node.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(' ' + quote); value += tracker.move( state.safe(node.title, { before: value, after: quote, ...tracker.current() }) ); value += tracker.move(quote); subexit(); } exit(); return value } function checkEmphasis(state) { const marker = state.options.emphasis || '*'; if (marker !== '*' && marker !== '_') { throw new Error( 'Cannot serialize emphasis with `' + marker + '` for `options.emphasis`, expected `*`, or `_`' ) } return marker } emphasis.peek = emphasisPeek; function emphasis(node, _, state, info) { const marker = checkEmphasis(state); const exit = state.enter('emphasis'); const tracker = state.createTracker(info); let value = tracker.move(marker); value += tracker.move( state.containerPhrasing(node, { before: value, after: marker, ...tracker.current() }) ); value += tracker.move(marker); exit(); return value } function emphasisPeek(_, _1, state) { return state.options.emphasis || '*' } const convert$A = ( function (test) { if (test === null || test === undefined) { return ok$A } if (typeof test === 'function') { return castFactory$A(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$A(test) : propsFactory$A(test) } if (typeof test === 'string') { return typeFactory$A(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$A(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$A(tests[index]); } return castFactory$A(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].apply(this, parameters)) return true } return false } } function propsFactory$A(check) { const checkAsRecord = (check); return castFactory$A(all) function all(node) { const nodeAsRecord = ( (node) ); let key; for (key in check) { if (nodeAsRecord[key] !== checkAsRecord[key]) return false } return true } } function typeFactory$A(check) { return castFactory$A(type) function type(node) { return node && node.type === check } } function castFactory$A(testFunction) { return check function check(value, index, parent) { return Boolean( looksLikeANode(value) && testFunction.call( this, value, typeof index === 'number' ? index : undefined, parent || undefined ) ) } } function ok$A() { return true } function looksLikeANode(value) { return value !== null && typeof value === 'object' && 'type' in value } function color$B(d) { return '\u001B[33m' + d + '\u001B[39m' } const empty = []; const CONTINUE$A = true; const EXIT$A = false; const SKIP$A = 'skip'; function visitParents$A(tree, test, visitor, reverse) { let check; if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; } else { check = test; } const is = convert$A(check); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = ( node && typeof node === 'object' ? node : {} ); if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$B(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = empty; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || undefined)) { result = toResult$A(visitor(node, parents)); if (result[0] === EXIT$A) { return result } } if ('children' in node && node.children) { const nodeAsParent = (node); if (nodeAsParent.children && result[0] !== SKIP$A) { offset = (reverse ? nodeAsParent.children.length : -1) + step; grandparents = parents.concat(nodeAsParent); while (offset > -1 && offset < nodeAsParent.children.length) { const child = nodeAsParent.children[offset]; subresult = factory(child, offset, grandparents)(); if (subresult[0] === EXIT$A) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } } return result } } } function toResult$A(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$A, value] } return value === null || value === undefined ? empty : [value] } function visit$A(tree, testOrVisitor, visitorOrReverse, maybeReverse) { let reverse; let test; let visitor; if ( typeof testOrVisitor === 'function' && typeof visitorOrReverse !== 'function' ) { test = undefined; visitor = testOrVisitor; reverse = visitorOrReverse; } else { test = testOrVisitor; visitor = visitorOrReverse; reverse = maybeReverse; } visitParents$A(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; const index = parent ? parent.children.indexOf(node) : undefined; return visitor(node, index, parent) } } function formatHeadingAsSetext(node, state) { let literalWithBreak = false; visit$A(node, function (node) { if ( ('value' in node && /\r?\n|\r/.test(node.value)) || node.type === 'break' ) { literalWithBreak = true; return EXIT$A } }); return Boolean( (!node.depth || node.depth < 3) && toString$2(node) && (state.options.setext || literalWithBreak) ) } function heading(node, _, state, info) { const rank = Math.max(Math.min(6, node.depth || 1), 1); const tracker = state.createTracker(info); if (formatHeadingAsSetext(node, state)) { const exit = state.enter('headingSetext'); const subexit = state.enter('phrasing'); const value = state.containerPhrasing(node, { ...tracker.current(), before: '\n', after: '\n' }); subexit(); exit(); return ( value + '\n' + (rank === 1 ? '=' : '-').repeat( value.length - (Math.max(value.lastIndexOf('\r'), value.lastIndexOf('\n')) + 1) ) ) } const sequence = '#'.repeat(rank); const exit = state.enter('headingAtx'); const subexit = state.enter('phrasing'); tracker.move(sequence + ' '); let value = state.containerPhrasing(node, { before: '# ', after: '\n', ...tracker.current() }); if (/^[\t ]/.test(value)) { value = '&#x' + value.charCodeAt(0).toString(16).toUpperCase() + ';' + value.slice(1); } value = value ? sequence + ' ' + value : sequence; if (state.options.closeAtx) { value += ' ' + sequence; } subexit(); exit(); return value } html.peek = htmlPeek; function html(node) { return node.value || '' } function htmlPeek() { return '<' } image.peek = imagePeek; function image(node, _, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? 'Quote' : 'Apostrophe'; const exit = state.enter('image'); let subexit = state.enter('label'); const tracker = state.createTracker(info); let value = tracker.move('!['); value += tracker.move( state.safe(node.alt, {before: value, after: ']', ...tracker.current()}) ); value += tracker.move(']('); subexit(); if ( (!node.url && node.title) || /[\0- \u007F]/.test(node.url) ) { subexit = state.enter('destinationLiteral'); value += tracker.move('<'); value += tracker.move( state.safe(node.url, {before: value, after: '>', ...tracker.current()}) ); value += tracker.move('>'); } else { subexit = state.enter('destinationRaw'); value += tracker.move( state.safe(node.url, { before: value, after: node.title ? ' ' : ')', ...tracker.current() }) ); } subexit(); if (node.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(' ' + quote); value += tracker.move( state.safe(node.title, { before: value, after: quote, ...tracker.current() }) ); value += tracker.move(quote); subexit(); } value += tracker.move(')'); exit(); return value } function imagePeek() { return '!' } imageReference.peek = imageReferencePeek; function imageReference(node, _, state, info) { const type = node.referenceType; const exit = state.enter('imageReference'); let subexit = state.enter('label'); const tracker = state.createTracker(info); let value = tracker.move('!['); const alt = state.safe(node.alt, { before: value, after: ']', ...tracker.current() }); value += tracker.move(alt + ']['); subexit(); const stack = state.stack; state.stack = []; subexit = state.enter('reference'); const reference = state.safe(state.associationId(node), { before: value, after: ']', ...tracker.current() }); subexit(); state.stack = stack; exit(); if (type === 'full' || !alt || alt !== reference) { value += tracker.move(reference + ']'); } else if (type === 'shortcut') { value = value.slice(0, -1); } else { value += tracker.move(']'); } return value } function imageReferencePeek() { return '!' } inlineCode.peek = inlineCodePeek; function inlineCode(node, _, state) { let value = node.value || ''; let sequence = '`'; let index = -1; while (new RegExp('(^|[^`])' + sequence + '([^`]|$)').test(value)) { sequence += '`'; } if ( /[^ \r\n]/.test(value) && ((/^[ \r\n]/.test(value) && /[ \r\n]$/.test(value)) || /^`|`$/.test(value)) ) { value = ' ' + value + ' '; } while (++index < state.unsafe.length) { const pattern = state.unsafe[index]; const expression = state.compilePattern(pattern); let match; if (!pattern.atBreak) continue while ((match = expression.exec(value))) { let position = match.index; if ( value.charCodeAt(position) === 10 && value.charCodeAt(position - 1) === 13 ) { position--; } value = value.slice(0, position) + ' ' + value.slice(match.index + 1); } } return sequence + value + sequence } function inlineCodePeek() { return '`' } function formatLinkAsAutolink(node, state) { const raw = toString$2(node); return Boolean( !state.options.resourceLink && node.url && !node.title && node.children && node.children.length === 1 && node.children[0].type === 'text' && (raw === node.url || 'mailto:' + raw === node.url) && /^[a-z][a-z+.-]+:/i.test(node.url) && !/[\0- <>\u007F]/.test(node.url) ) } link.peek = linkPeek; function link(node, _, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? 'Quote' : 'Apostrophe'; const tracker = state.createTracker(info); let exit; let subexit; if (formatLinkAsAutolink(node, state)) { const stack = state.stack; state.stack = []; exit = state.enter('autolink'); let value = tracker.move('<'); value += tracker.move( state.containerPhrasing(node, { before: value, after: '>', ...tracker.current() }) ); value += tracker.move('>'); exit(); state.stack = stack; return value } exit = state.enter('link'); subexit = state.enter('label'); let value = tracker.move('['); value += tracker.move( state.containerPhrasing(node, { before: value, after: '](', ...tracker.current() }) ); value += tracker.move(']('); subexit(); if ( (!node.url && node.title) || /[\0- \u007F]/.test(node.url) ) { subexit = state.enter('destinationLiteral'); value += tracker.move('<'); value += tracker.move( state.safe(node.url, {before: value, after: '>', ...tracker.current()}) ); value += tracker.move('>'); } else { subexit = state.enter('destinationRaw'); value += tracker.move( state.safe(node.url, { before: value, after: node.title ? ' ' : ')', ...tracker.current() }) ); } subexit(); if (node.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(' ' + quote); value += tracker.move( state.safe(node.title, { before: value, after: quote, ...tracker.current() }) ); value += tracker.move(quote); subexit(); } value += tracker.move(')'); exit(); return value } function linkPeek(node, _, state) { return formatLinkAsAutolink(node, state) ? '<' : '[' } linkReference.peek = linkReferencePeek; function linkReference(node, _, state, info) { const type = node.referenceType; const exit = state.enter('linkReference'); let subexit = state.enter('label'); const tracker = state.createTracker(info); let value = tracker.move('['); const text = state.containerPhrasing(node, { before: value, after: ']', ...tracker.current() }); value += tracker.move(text + ']['); subexit(); const stack = state.stack; state.stack = []; subexit = state.enter('reference'); const reference = state.safe(state.associationId(node), { before: value, after: ']', ...tracker.current() }); subexit(); state.stack = stack; exit(); if (type === 'full' || !text || text !== reference) { value += tracker.move(reference + ']'); } else if (type === 'shortcut') { value = value.slice(0, -1); } else { value += tracker.move(']'); } return value } function linkReferencePeek() { return '[' } function checkBullet(state) { const marker = state.options.bullet || '*'; if (marker !== '*' && marker !== '+' && marker !== '-') { throw new Error( 'Cannot serialize items with `' + marker + '` for `options.bullet`, expected `*`, `+`, or `-`' ) } return marker } function checkBulletOther(state) { const bullet = checkBullet(state); const bulletOther = state.options.bulletOther; if (!bulletOther) { return bullet === '*' ? '-' : '*' } if (bulletOther !== '*' && bulletOther !== '+' && bulletOther !== '-') { throw new Error( 'Cannot serialize items with `' + bulletOther + '` for `options.bulletOther`, expected `*`, `+`, or `-`' ) } if (bulletOther === bullet) { throw new Error( 'Expected `bullet` (`' + bullet + '`) and `bulletOther` (`' + bulletOther + '`) to be different' ) } return bulletOther } function checkBulletOrdered(state) { const marker = state.options.bulletOrdered || '.'; if (marker !== '.' && marker !== ')') { throw new Error( 'Cannot serialize items with `' + marker + '` for `options.bulletOrdered`, expected `.` or `)`' ) } return marker } function checkRule(state) { const marker = state.options.rule || '*'; if (marker !== '*' && marker !== '-' && marker !== '_') { throw new Error( 'Cannot serialize rules with `' + marker + '` for `options.rule`, expected `*`, `-`, or `_`' ) } return marker } function list(node, parent, state, info) { const exit = state.enter('list'); const bulletCurrent = state.bulletCurrent; let bullet = node.ordered ? checkBulletOrdered(state) : checkBullet(state); const bulletOther = node.ordered ? bullet === '.' ? ')' : '.' : checkBulletOther(state); let useDifferentMarker = parent && state.bulletLastUsed ? bullet === state.bulletLastUsed : false; if (!node.ordered) { const firstListItem = node.children ? node.children[0] : undefined; if ( (bullet === '*' || bullet === '-') && firstListItem && (!firstListItem.children || !firstListItem.children[0]) && state.stack[state.stack.length - 1] === 'list' && state.stack[state.stack.length - 2] === 'listItem' && state.stack[state.stack.length - 3] === 'list' && state.stack[state.stack.length - 4] === 'listItem' && state.indexStack[state.indexStack.length - 1] === 0 && state.indexStack[state.indexStack.length - 2] === 0 && state.indexStack[state.indexStack.length - 3] === 0 ) { useDifferentMarker = true; } if (checkRule(state) === bullet && firstListItem) { let index = -1; while (++index < node.children.length) { const item = node.children[index]; if ( item && item.type === 'listItem' && item.children && item.children[0] && item.children[0].type === 'thematicBreak' ) { useDifferentMarker = true; break } } } } if (useDifferentMarker) { bullet = bulletOther; } state.bulletCurrent = bullet; const value = state.containerFlow(node, info); state.bulletLastUsed = bullet; state.bulletCurrent = bulletCurrent; exit(); return value } function checkListItemIndent(state) { const style = state.options.listItemIndent || 'one'; if (style !== 'tab' && style !== 'one' && style !== 'mixed') { throw new Error( 'Cannot serialize items with `' + style + '` for `options.listItemIndent`, expected `tab`, `one`, or `mixed`' ) } return style } function listItem(node, parent, state, info) { const listItemIndent = checkListItemIndent(state); let bullet = state.bulletCurrent || checkBullet(state); if (parent && parent.type === 'list' && parent.ordered) { bullet = (typeof parent.start === 'number' && parent.start > -1 ? parent.start : 1) + (state.options.incrementListMarker === false ? 0 : parent.children.indexOf(node)) + bullet; } let size = bullet.length + 1; if ( listItemIndent === 'tab' || (listItemIndent === 'mixed' && ((parent && parent.type === 'list' && parent.spread) || node.spread)) ) { size = Math.ceil(size / 4) * 4; } const tracker = state.createTracker(info); tracker.move(bullet + ' '.repeat(size - bullet.length)); tracker.shift(size); const exit = state.enter('listItem'); const value = state.indentLines( state.containerFlow(node, tracker.current()), map ); exit(); return value function map(line, index, blank) { if (index) { return (blank ? '' : ' '.repeat(size)) + line } return (blank ? bullet : bullet + ' '.repeat(size - bullet.length)) + line } } function paragraph(node, _, state, info) { const exit = state.enter('paragraph'); const subexit = state.enter('phrasing'); const value = state.containerPhrasing(node, info); subexit(); exit(); return value } const phrasing = ( convert$A([ 'break', 'delete', 'emphasis', 'footnote', 'footnoteReference', 'image', 'imageReference', 'inlineCode', 'link', 'linkReference', 'strong', 'text' ]) ); function root(node, _, state, info) { const hasPhrasing = node.children.some(function (d) { return phrasing(d) }); const fn = hasPhrasing ? state.containerPhrasing : state.containerFlow; return fn.call(state, node, info) } function checkStrong(state) { const marker = state.options.strong || '*'; if (marker !== '*' && marker !== '_') { throw new Error( 'Cannot serialize strong with `' + marker + '` for `options.strong`, expected `*`, or `_`' ) } return marker } strong.peek = strongPeek; function strong(node, _, state, info) { const marker = checkStrong(state); const exit = state.enter('strong'); const tracker = state.createTracker(info); let value = tracker.move(marker + marker); value += tracker.move( state.containerPhrasing(node, { before: value, after: marker, ...tracker.current() }) ); value += tracker.move(marker + marker); exit(); return value } function strongPeek(_, _1, state) { return state.options.strong || '*' } function text$1(node, _, state, info) { return state.safe(node.value, info) } function checkRuleRepetition(state) { const repetition = state.options.ruleRepetition || 3; if (repetition < 3) { throw new Error( 'Cannot serialize rules with repetition `' + repetition + '` for `options.ruleRepetition`, expected `3` or more' ) } return repetition } function thematicBreak(_, _1, state) { const value = ( checkRule(state) + (state.options.ruleSpaces ? ' ' : '') ).repeat(checkRuleRepetition(state)); return state.options.ruleSpaces ? value.slice(0, -1) : value } const handle = { blockquote, break: hardBreak, code: code$1, definition, emphasis, hardBreak, heading, html, image, imageReference, inlineCode, link, linkReference, list, listItem, paragraph, root, strong, text: text$1, thematicBreak }; const join = [joinDefaults]; function joinDefaults(left, right, parent, state) { if ( right.type === 'code' && formatCodeAsIndented(right, state) && (left.type === 'list' || (left.type === right.type && formatCodeAsIndented(left, state))) ) { return false } if ('spread' in parent && typeof parent.spread === 'boolean') { if ( left.type === 'paragraph' && (left.type === right.type || right.type === 'definition' || (right.type === 'heading' && formatHeadingAsSetext(right, state))) ) { return } return parent.spread ? 1 : 0 } } const fullPhrasingSpans = [ 'autolink', 'destinationLiteral', 'destinationRaw', 'reference', 'titleQuote', 'titleApostrophe' ]; const unsafe = [ {character: '\t', after: '[\\r\\n]', inConstruct: 'phrasing'}, {character: '\t', before: '[\\r\\n]', inConstruct: 'phrasing'}, { character: '\t', inConstruct: ['codeFencedLangGraveAccent', 'codeFencedLangTilde'] }, { character: '\r', inConstruct: [ 'codeFencedLangGraveAccent', 'codeFencedLangTilde', 'codeFencedMetaGraveAccent', 'codeFencedMetaTilde', 'destinationLiteral', 'headingAtx' ] }, { character: '\n', inConstruct: [ 'codeFencedLangGraveAccent', 'codeFencedLangTilde', 'codeFencedMetaGraveAccent', 'codeFencedMetaTilde', 'destinationLiteral', 'headingAtx' ] }, {character: ' ', after: '[\\r\\n]', inConstruct: 'phrasing'}, {character: ' ', before: '[\\r\\n]', inConstruct: 'phrasing'}, { character: ' ', inConstruct: ['codeFencedLangGraveAccent', 'codeFencedLangTilde'] }, { character: '!', after: '\\[', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans }, {character: '"', inConstruct: 'titleQuote'}, {atBreak: true, character: '#'}, {character: '#', inConstruct: 'headingAtx', after: '(?:[\r\n]|$)'}, {character: '&', after: '[#A-Za-z]', inConstruct: 'phrasing'}, {character: "'", inConstruct: 'titleApostrophe'}, {character: '(', inConstruct: 'destinationRaw'}, { before: '\\]', character: '(', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans }, {atBreak: true, before: '\\d+', character: ')'}, {character: ')', inConstruct: 'destinationRaw'}, {atBreak: true, character: '*', after: '(?:[ \t\r\n*])'}, {character: '*', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans}, {atBreak: true, character: '+', after: '(?:[ \t\r\n])'}, {atBreak: true, character: '-', after: '(?:[ \t\r\n-])'}, {atBreak: true, before: '\\d+', character: '.', after: '(?:[ \t\r\n]|$)'}, {atBreak: true, character: '<', after: '[!/?A-Za-z]'}, { character: '<', after: '[!/?A-Za-z]', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans }, {character: '<', inConstruct: 'destinationLiteral'}, {atBreak: true, character: '='}, {atBreak: true, character: '>'}, {character: '>', inConstruct: 'destinationLiteral'}, {atBreak: true, character: '['}, {character: '[', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans}, {character: '[', inConstruct: ['label', 'reference']}, {character: '\\', after: '[\\r\\n]', inConstruct: 'phrasing'}, {character: ']', inConstruct: ['label', 'reference']}, {atBreak: true, character: '_'}, {character: '_', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans}, {atBreak: true, character: '`'}, { character: '`', inConstruct: ['codeFencedLangGraveAccent', 'codeFencedMetaGraveAccent'] }, {character: '`', inConstruct: 'phrasing', notInConstruct: fullPhrasingSpans}, {atBreak: true, character: '~'} ]; function association(node) { if (node.label || !node.identifier) { return node.label || '' } return decodeString(node.identifier) } function compilePattern(pattern) { if (!pattern._compiled) { const before = (pattern.atBreak ? '[\\r\\n][\\t ]*' : '') + (pattern.before ? '(?:' + pattern.before + ')' : ''); pattern._compiled = new RegExp( (before ? '(' + before + ')' : '') + (/[|\\{}()[\]^$+*?.-]/.test(pattern.character) ? '\\' : '') + pattern.character + (pattern.after ? '(?:' + pattern.after + ')' : ''), 'g' ); } return pattern._compiled } function containerPhrasing(parent, state, info) { const indexStack = state.indexStack; const children = parent.children || []; const results = []; let index = -1; let before = info.before; indexStack.push(-1); let tracker = state.createTracker(info); while (++index < children.length) { const child = children[index]; let after; indexStack[indexStack.length - 1] = index; if (index + 1 < children.length) { let handle = state.handle.handlers[children[index + 1].type]; if (handle && handle.peek) handle = handle.peek; after = handle ? handle(children[index + 1], parent, state, { before: '', after: '', ...tracker.current() }).charAt(0) : ''; } else { after = info.after; } if ( results.length > 0 && (before === '\r' || before === '\n') && child.type === 'html' ) { results[results.length - 1] = results[results.length - 1].replace( /(\r?\n|\r)$/, ' ' ); before = ' '; tracker = state.createTracker(info); tracker.move(results.join('')); } results.push( tracker.move( state.handle(child, parent, state, { ...tracker.current(), before, after }) ) ); before = results[results.length - 1].slice(-1); } indexStack.pop(); return results.join('') } function containerFlow(parent, state, info) { const indexStack = state.indexStack; const children = parent.children || []; const tracker = state.createTracker(info); const results = []; let index = -1; indexStack.push(-1); while (++index < children.length) { const child = children[index]; indexStack[indexStack.length - 1] = index; results.push( tracker.move( state.handle(child, parent, state, { before: '\n', after: '\n', ...tracker.current() }) ) ); if (child.type !== 'list') { state.bulletLastUsed = undefined; } if (index < children.length - 1) { results.push( tracker.move(between(child, children[index + 1], parent, state)) ); } } indexStack.pop(); return results.join('') } function between(left, right, parent, state) { let index = state.join.length; while (index--) { const result = state.join[index](left, right, parent, state); if (result === true || result === 1) { break } if (typeof result === 'number') { return '\n'.repeat(1 + result) } if (result === false) { return '\n\n\n\n' } } return '\n\n' } const eol$1 = /\r?\n|\r/g; function indentLines(value, map) { const result = []; let start = 0; let line = 0; let match; while ((match = eol$1.exec(value))) { one(value.slice(start, match.index)); result.push(match[0]); start = match.index + match[0].length; line++; } one(value.slice(start)); return result.join('') function one(value) { result.push(map(value, line, !value)); } } function safe(state, input, config) { const value = (config.before || '') + (input || '') + (config.after || ''); const positions = []; const result = []; const infos = {}; let index = -1; while (++index < state.unsafe.length) { const pattern = state.unsafe[index]; if (!patternInScope(state.stack, pattern)) { continue } const expression = state.compilePattern(pattern); let match; while ((match = expression.exec(value))) { const before = 'before' in pattern || Boolean(pattern.atBreak); const after = 'after' in pattern; const position = match.index + (before ? match[1].length : 0); if (positions.includes(position)) { if (infos[position].before && !before) { infos[position].before = false; } if (infos[position].after && !after) { infos[position].after = false; } } else { positions.push(position); infos[position] = {before, after}; } } } positions.sort(numerical); let start = config.before ? config.before.length : 0; const end = value.length - (config.after ? config.after.length : 0); index = -1; while (++index < positions.length) { const position = positions[index]; if (position < start || position >= end) { continue } if ( (position + 1 < end && positions[index + 1] === position + 1 && infos[position].after && !infos[position + 1].before && !infos[position + 1].after) || (positions[index - 1] === position - 1 && infos[position].before && !infos[position - 1].before && !infos[position - 1].after) ) { continue } if (start !== position) { result.push(escapeBackslashes(value.slice(start, position), '\\')); } start = position; if ( /[!-/:-@[-`{-~]/.test(value.charAt(position)) && (!config.encode || !config.encode.includes(value.charAt(position))) ) { result.push('\\'); } else { result.push( '&#x' + value.charCodeAt(position).toString(16).toUpperCase() + ';' ); start++; } } result.push(escapeBackslashes(value.slice(start, end), config.after)); return result.join('') } function numerical(a, b) { return a - b } function escapeBackslashes(value, after) { const expression = /\\(?=[!-/:-@[-`{-~])/g; const positions = []; const results = []; const whole = value + after; let index = -1; let start = 0; let match; while ((match = expression.exec(whole))) { positions.push(match.index); } while (++index < positions.length) { if (start !== positions[index]) { results.push(value.slice(start, positions[index])); } results.push('\\'); start = positions[index]; } results.push(value.slice(start)); return results.join('') } function track(config) { const options = config || {}; const now = options.now || {}; let lineShift = options.lineShift || 0; let line = now.line || 1; let column = now.column || 1; return {move, current, shift} function current() { return {now: {line, column}, lineShift} } function shift(value) { lineShift += value; } function move(input) { const value = input || ''; const chunks = value.split(/\r?\n|\r/g); const tail = chunks[chunks.length - 1]; line += chunks.length - 1; column = chunks.length === 1 ? column + tail.length : 1 + tail.length + lineShift; return value } } function toMarkdown(tree, options = {}) { const state = { enter, indentLines, associationId: association, containerPhrasing: containerPhrasingBound, containerFlow: containerFlowBound, createTracker: track, compilePattern, safe: safeBound, stack: [], unsafe: [...unsafe], join: [...join], handlers: {...handle}, options: {}, indexStack: [], handle: undefined }; configure(state, options); if (state.options.tightDefinitions) { state.join.push(joinDefinition); } state.handle = zwitch('type', { invalid, unknown, handlers: state.handlers }); let result = state.handle(tree, undefined, state, { before: '\n', after: '\n', now: {line: 1, column: 1}, lineShift: 0 }); if ( result && result.charCodeAt(result.length - 1) !== 10 && result.charCodeAt(result.length - 1) !== 13 ) { result += '\n'; } return result function enter(name) { state.stack.push(name); return exit function exit() { state.stack.pop(); } } } function invalid(value) { throw new Error('Cannot handle value `' + value + '`, expected node') } function unknown(value) { const node = (value); throw new Error('Cannot handle unknown node `' + node.type + '`') } function joinDefinition(left, right) { if (left.type === 'definition' && left.type === right.type) { return 0 } } function containerPhrasingBound(parent, info) { return containerPhrasing(parent, this, info) } function containerFlowBound(parent, info) { return containerFlow(parent, this, info) } function safeBound(value, config) { return safe(this, value, config) } function remarkStringify(options) { const self = this; self.compiler = compiler; function compiler(tree) { return toMarkdown(tree, { ...self.data('settings'), ...options, extensions: self.data('toMarkdownExtensions') || [] }) } } function ccount(value, character) { const source = String(value); if (typeof character !== 'string') { throw new TypeError('Expected character') } let count = 0; let index = source.indexOf(character); while (index !== -1) { count++; index = source.indexOf(character, index + character.length); } return count } function escapeStringRegexp(string) { if (typeof string !== 'string') { throw new TypeError('Expected a string'); } return string .replace(/[|\\{}()[\]^$+*?.]/g, '\\$&') .replace(/-/g, '\\x2d'); } function findAndReplace(tree, list, options) { const settings = options || {}; const ignored = convert$A(settings.ignore || []); const pairs = toPairs(list); let pairIndex = -1; while (++pairIndex < pairs.length) { visitParents$A(tree, 'text', visitor); } function visitor(node, parents) { let index = -1; let grandparent; while (++index < parents.length) { const parent = parents[index]; const siblings = grandparent ? grandparent.children : undefined; if ( ignored( parent, siblings ? siblings.indexOf(parent) : undefined, grandparent ) ) { return } grandparent = parent; } if (grandparent) { return handler(node, parents) } } function handler(node, parents) { const parent = parents[parents.length - 1]; const find = pairs[pairIndex][0]; const replace = pairs[pairIndex][1]; let start = 0; const siblings = parent.children; const index = siblings.indexOf(node); let change = false; let nodes = []; find.lastIndex = 0; let match = find.exec(node.value); while (match) { const position = match.index; const matchObject = { index: match.index, input: match.input, stack: [...parents, node] }; let value = replace(...match, matchObject); if (typeof value === 'string') { value = value.length > 0 ? {type: 'text', value} : undefined; } if (value === false) { find.lastIndex = position + 1; } else { if (start !== position) { nodes.push({ type: 'text', value: node.value.slice(start, position) }); } if (Array.isArray(value)) { nodes.push(...value); } else if (value) { nodes.push(value); } start = position + match[0].length; change = true; } if (!find.global) { break } match = find.exec(node.value); } if (change) { if (start < node.value.length) { nodes.push({type: 'text', value: node.value.slice(start)}); } parent.children.splice(index, 1, ...nodes); } else { nodes = [node]; } return index + nodes.length } } function toPairs(tupleOrList) { const result = []; if (!Array.isArray(tupleOrList)) { throw new TypeError('Expected find and replace tuple or list of tuples') } const list = !tupleOrList[0] || Array.isArray(tupleOrList[0]) ? tupleOrList : [tupleOrList]; let index = -1; while (++index < list.length) { const tuple = list[index]; result.push([toExpression(tuple[0]), toFunction(tuple[1])]); } return result } function toExpression(find) { return typeof find === 'string' ? new RegExp(escapeStringRegexp(find), 'g') : find } function toFunction(replace) { return typeof replace === 'function' ? replace : function () { return replace } } const inConstruct = 'phrasing'; const notInConstruct = ['autolink', 'link', 'image', 'label']; function gfmAutolinkLiteralFromMarkdown() { return { transforms: [transformGfmAutolinkLiterals], enter: { literalAutolink: enterLiteralAutolink, literalAutolinkEmail: enterLiteralAutolinkValue, literalAutolinkHttp: enterLiteralAutolinkValue, literalAutolinkWww: enterLiteralAutolinkValue }, exit: { literalAutolink: exitLiteralAutolink, literalAutolinkEmail: exitLiteralAutolinkEmail, literalAutolinkHttp: exitLiteralAutolinkHttp, literalAutolinkWww: exitLiteralAutolinkWww } } } function gfmAutolinkLiteralToMarkdown() { return { unsafe: [ { character: '@', before: '[+\\-.\\w]', after: '[\\-.\\w]', inConstruct, notInConstruct }, { character: '.', before: '[Ww]', after: '[\\-.\\w]', inConstruct, notInConstruct }, { character: ':', before: '[ps]', after: '\\/', inConstruct, notInConstruct } ] } } function enterLiteralAutolink(token) { this.enter({type: 'link', title: null, url: '', children: []}, token); } function enterLiteralAutolinkValue(token) { this.config.enter.autolinkProtocol.call(this, token); } function exitLiteralAutolinkHttp(token) { this.config.exit.autolinkProtocol.call(this, token); } function exitLiteralAutolinkWww(token) { this.config.exit.data.call(this, token); const node = this.stack[this.stack.length - 1]; ok$B(node.type === 'link'); node.url = 'http://' + this.sliceSerialize(token); } function exitLiteralAutolinkEmail(token) { this.config.exit.autolinkEmail.call(this, token); } function exitLiteralAutolink(token) { this.exit(token); } function transformGfmAutolinkLiterals(tree) { findAndReplace( tree, [ [/(https?:\/\/|www(?=\.))([-.\w]+)([^ \t\r\n]*)/gi, findUrl], [/([-.\w+]+)@([-\w]+(?:\.[-\w]+)+)/g, findEmail] ], {ignore: ['link', 'linkReference']} ); } function findUrl(_, protocol, domain, path, match) { let prefix = ''; if (!previous(match)) { return false } if (/^w/i.test(protocol)) { domain = protocol + domain; protocol = ''; prefix = 'http://'; } if (!isCorrectDomain(domain)) { return false } const parts = splitUrl(domain + path); if (!parts[0]) return false const result = { type: 'link', title: null, url: prefix + protocol + parts[0], children: [{type: 'text', value: protocol + parts[0]}] }; if (parts[1]) { return [result, {type: 'text', value: parts[1]}] } return result } function findEmail(_, atext, label, match) { if ( !previous(match, true) || /[-\d_]$/.test(label) ) { return false } return { type: 'link', title: null, url: 'mailto:' + atext + '@' + label, children: [{type: 'text', value: atext + '@' + label}] } } function isCorrectDomain(domain) { const parts = domain.split('.'); if ( parts.length < 2 || (parts[parts.length - 1] && (/_/.test(parts[parts.length - 1]) || !/[a-zA-Z\d]/.test(parts[parts.length - 1]))) || (parts[parts.length - 2] && (/_/.test(parts[parts.length - 2]) || !/[a-zA-Z\d]/.test(parts[parts.length - 2]))) ) { return false } return true } function splitUrl(url) { const trailExec = /[!"&'),.:;<>?\]}]+$/.exec(url); if (!trailExec) { return [url, undefined] } url = url.slice(0, trailExec.index); let trail = trailExec[0]; let closingParenIndex = trail.indexOf(')'); const openingParens = ccount(url, '('); let closingParens = ccount(url, ')'); while (closingParenIndex !== -1 && openingParens > closingParens) { url += trail.slice(0, closingParenIndex + 1); trail = trail.slice(closingParenIndex + 1); closingParenIndex = trail.indexOf(')'); closingParens++; } return [url, trail] } function previous(match, email) { const code = match.input.charCodeAt(match.index - 1); return ( (match.index === 0 || unicodeWhitespace(code) || unicodePunctuation(code)) && (!email || code !== 47) ) } footnoteReference.peek = footnoteReferencePeek; function gfmFootnoteFromMarkdown() { return { enter: { gfmFootnoteDefinition: enterFootnoteDefinition, gfmFootnoteDefinitionLabelString: enterFootnoteDefinitionLabelString, gfmFootnoteCall: enterFootnoteCall, gfmFootnoteCallString: enterFootnoteCallString }, exit: { gfmFootnoteDefinition: exitFootnoteDefinition, gfmFootnoteDefinitionLabelString: exitFootnoteDefinitionLabelString, gfmFootnoteCall: exitFootnoteCall, gfmFootnoteCallString: exitFootnoteCallString } } } function gfmFootnoteToMarkdown() { return { unsafe: [{character: '[', inConstruct: ['phrasing', 'label', 'reference']}], handlers: {footnoteDefinition, footnoteReference} } } function enterFootnoteDefinition(token) { this.enter( {type: 'footnoteDefinition', identifier: '', label: '', children: []}, token ); } function enterFootnoteDefinitionLabelString() { this.buffer(); } function exitFootnoteDefinitionLabelString(token) { const label = this.resume(); const node = this.stack[this.stack.length - 1]; ok$B(node.type === 'footnoteDefinition'); node.label = label; node.identifier = normalizeIdentifier$1( this.sliceSerialize(token) ).toLowerCase(); } function exitFootnoteDefinition(token) { this.exit(token); } function enterFootnoteCall(token) { this.enter({type: 'footnoteReference', identifier: '', label: ''}, token); } function enterFootnoteCallString() { this.buffer(); } function exitFootnoteCallString(token) { const label = this.resume(); const node = this.stack[this.stack.length - 1]; ok$B(node.type === 'footnoteReference'); node.label = label; node.identifier = normalizeIdentifier$1( this.sliceSerialize(token) ).toLowerCase(); } function exitFootnoteCall(token) { this.exit(token); } function footnoteReference(node, _, state, info) { const tracker = state.createTracker(info); let value = tracker.move('[^'); const exit = state.enter('footnoteReference'); const subexit = state.enter('reference'); value += tracker.move( state.safe(state.associationId(node), { ...tracker.current(), before: value, after: ']' }) ); subexit(); exit(); value += tracker.move(']'); return value } function footnoteReferencePeek() { return '[' } function footnoteDefinition(node, _, state, info) { const tracker = state.createTracker(info); let value = tracker.move('[^'); const exit = state.enter('footnoteDefinition'); const subexit = state.enter('label'); value += tracker.move( state.safe(state.associationId(node), { ...tracker.current(), before: value, after: ']' }) ); subexit(); value += tracker.move( ']:' + (node.children && node.children.length > 0 ? ' ' : '') ); tracker.shift(4); value += tracker.move( state.indentLines(state.containerFlow(node, tracker.current()), map$1) ); exit(); return value } function map$1(line, index, blank) { if (index === 0) { return line } return (blank ? '' : ' ') + line } const constructsWithoutStrikethrough = [ 'autolink', 'destinationLiteral', 'destinationRaw', 'reference', 'titleQuote', 'titleApostrophe' ]; handleDelete.peek = peekDelete; function gfmStrikethroughFromMarkdown() { return { canContainEols: ['delete'], enter: {strikethrough: enterStrikethrough}, exit: {strikethrough: exitStrikethrough} } } function gfmStrikethroughToMarkdown() { return { unsafe: [ { character: '~', inConstruct: 'phrasing', notInConstruct: constructsWithoutStrikethrough } ], handlers: {delete: handleDelete} } } function enterStrikethrough(token) { this.enter({type: 'delete', children: []}, token); } function exitStrikethrough(token) { this.exit(token); } function handleDelete(node, _, state, info) { const tracker = state.createTracker(info); const exit = state.enter('strikethrough'); let value = tracker.move('~~'); value += state.containerPhrasing(node, { ...tracker.current(), before: value, after: '~' }); value += tracker.move('~~'); exit(); return value } function peekDelete() { return '~' } function markdownTable(table, options = {}) { const align = (options.align || []).concat(); const stringLength = options.stringLength || defaultStringLength; const alignments = []; const cellMatrix = []; const sizeMatrix = []; const longestCellByColumn = []; let mostCellsPerRow = 0; let rowIndex = -1; while (++rowIndex < table.length) { const row = []; const sizes = []; let columnIndex = -1; if (table[rowIndex].length > mostCellsPerRow) { mostCellsPerRow = table[rowIndex].length; } while (++columnIndex < table[rowIndex].length) { const cell = serialize(table[rowIndex][columnIndex]); if (options.alignDelimiters !== false) { const size = stringLength(cell); sizes[columnIndex] = size; if ( longestCellByColumn[columnIndex] === undefined || size > longestCellByColumn[columnIndex] ) { longestCellByColumn[columnIndex] = size; } } row.push(cell); } cellMatrix[rowIndex] = row; sizeMatrix[rowIndex] = sizes; } let columnIndex = -1; if (typeof align === 'object' && 'length' in align) { while (++columnIndex < mostCellsPerRow) { alignments[columnIndex] = toAlignment(align[columnIndex]); } } else { const code = toAlignment(align); while (++columnIndex < mostCellsPerRow) { alignments[columnIndex] = code; } } columnIndex = -1; const row = []; const sizes = []; while (++columnIndex < mostCellsPerRow) { const code = alignments[columnIndex]; let before = ''; let after = ''; if (code === 99 ) { before = ':'; after = ':'; } else if (code === 108 ) { before = ':'; } else if (code === 114 ) { after = ':'; } let size = options.alignDelimiters === false ? 1 : Math.max( 1, longestCellByColumn[columnIndex] - before.length - after.length ); const cell = before + '-'.repeat(size) + after; if (options.alignDelimiters !== false) { size = before.length + size + after.length; if (size > longestCellByColumn[columnIndex]) { longestCellByColumn[columnIndex] = size; } sizes[columnIndex] = size; } row[columnIndex] = cell; } cellMatrix.splice(1, 0, row); sizeMatrix.splice(1, 0, sizes); rowIndex = -1; const lines = []; while (++rowIndex < cellMatrix.length) { const row = cellMatrix[rowIndex]; const sizes = sizeMatrix[rowIndex]; columnIndex = -1; const line = []; while (++columnIndex < mostCellsPerRow) { const cell = row[columnIndex] || ''; let before = ''; let after = ''; if (options.alignDelimiters !== false) { const size = longestCellByColumn[columnIndex] - (sizes[columnIndex] || 0); const code = alignments[columnIndex]; if (code === 114 ) { before = ' '.repeat(size); } else if (code === 99 ) { if (size % 2) { before = ' '.repeat(size / 2 + 0.5); after = ' '.repeat(size / 2 - 0.5); } else { before = ' '.repeat(size / 2); after = before; } } else { after = ' '.repeat(size); } } if (options.delimiterStart !== false && !columnIndex) { line.push('|'); } if ( options.padding !== false && !(options.alignDelimiters === false && cell === '') && (options.delimiterStart !== false || columnIndex) ) { line.push(' '); } if (options.alignDelimiters !== false) { line.push(before); } line.push(cell); if (options.alignDelimiters !== false) { line.push(after); } if (options.padding !== false) { line.push(' '); } if ( options.delimiterEnd !== false || columnIndex !== mostCellsPerRow - 1 ) { line.push('|'); } } lines.push( options.delimiterEnd === false ? line.join('').replace(/ +$/, '') : line.join('') ); } return lines.join('\n') } function serialize(value) { return value === null || value === undefined ? '' : String(value) } function defaultStringLength(value) { return value.length } function toAlignment(value) { const code = typeof value === 'string' ? value.codePointAt(0) : 0; return code === 67 || code === 99 ? 99 : code === 76 || code === 108 ? 108 : code === 82 || code === 114 ? 114 : 0 } function gfmTableFromMarkdown() { return { enter: { table: enterTable, tableData: enterCell, tableHeader: enterCell, tableRow: enterRow }, exit: { codeText: exitCodeText, table: exitTable, tableData: exit, tableHeader: exit, tableRow: exit } } } function enterTable(token) { const align = token._align; this.enter( { type: 'table', align: align.map(function (d) { return d === 'none' ? null : d }), children: [] }, token ); this.data.inTable = true; } function exitTable(token) { this.exit(token); this.data.inTable = undefined; } function enterRow(token) { this.enter({type: 'tableRow', children: []}, token); } function exit(token) { this.exit(token); } function enterCell(token) { this.enter({type: 'tableCell', children: []}, token); } function exitCodeText(token) { let value = this.resume(); if (this.data.inTable) { value = value.replace(/\\([\\|])/g, replace); } const node = this.stack[this.stack.length - 1]; ok$B(node.type === 'inlineCode'); node.value = value; this.exit(token); } function replace($0, $1) { return $1 === '|' ? $1 : $0 } function gfmTableToMarkdown(options) { const settings = options || {}; const padding = settings.tableCellPadding; const alignDelimiters = settings.tablePipeAlign; const stringLength = settings.stringLength; const around = padding ? ' ' : '|'; return { unsafe: [ {character: '\r', inConstruct: 'tableCell'}, {character: '\n', inConstruct: 'tableCell'}, {atBreak: true, character: '|', after: '[\t :-]'}, {character: '|', inConstruct: 'tableCell'}, {atBreak: true, character: ':', after: '-'}, {atBreak: true, character: '-', after: '[:|-]'} ], handlers: { inlineCode: inlineCodeWithTable, table: handleTable, tableCell: handleTableCell, tableRow: handleTableRow } } function handleTable(node, _, state, info) { return serializeData(handleTableAsData(node, state, info), node.align) } function handleTableRow(node, _, state, info) { const row = handleTableRowAsData(node, state, info); const value = serializeData([row]); return value.slice(0, value.indexOf('\n')) } function handleTableCell(node, _, state, info) { const exit = state.enter('tableCell'); const subexit = state.enter('phrasing'); const value = state.containerPhrasing(node, { ...info, before: around, after: around }); subexit(); exit(); return value } function serializeData(matrix, align) { return markdownTable(matrix, { align, alignDelimiters, padding, stringLength }) } function handleTableAsData(node, state, info) { const children = node.children; let index = -1; const result = []; const subexit = state.enter('table'); while (++index < children.length) { result[index] = handleTableRowAsData(children[index], state, info); } subexit(); return result } function handleTableRowAsData(node, state, info) { const children = node.children; let index = -1; const result = []; const subexit = state.enter('tableRow'); while (++index < children.length) { result[index] = handleTableCell(children[index], node, state, info); } subexit(); return result } function inlineCodeWithTable(node, parent, state) { let value = handle.inlineCode(node, parent, state); if (state.stack.includes('tableCell')) { value = value.replace(/\|/g, '\\$&'); } return value } } function gfmTaskListItemFromMarkdown() { return { exit: { taskListCheckValueChecked: exitCheck, taskListCheckValueUnchecked: exitCheck, paragraph: exitParagraphWithTaskListItem } } } function gfmTaskListItemToMarkdown() { return { unsafe: [{atBreak: true, character: '-', after: '[:|-]'}], handlers: {listItem: listItemWithTaskListItem} } } function exitCheck(token) { const node = this.stack[this.stack.length - 2]; ok$B(node.type === 'listItem'); node.checked = token.type === 'taskListCheckValueChecked'; } function exitParagraphWithTaskListItem(token) { const parent = this.stack[this.stack.length - 2]; if ( parent && parent.type === 'listItem' && typeof parent.checked === 'boolean' ) { const node = this.stack[this.stack.length - 1]; ok$B(node.type === 'paragraph'); const head = node.children[0]; if (head && head.type === 'text') { const siblings = parent.children; let index = -1; let firstParaghraph; while (++index < siblings.length) { const sibling = siblings[index]; if (sibling.type === 'paragraph') { firstParaghraph = sibling; break } } if (firstParaghraph === node) { head.value = head.value.slice(1); if (head.value.length === 0) { node.children.shift(); } else if ( node.position && head.position && typeof head.position.start.offset === 'number' ) { head.position.start.column++; head.position.start.offset++; node.position.start = Object.assign({}, head.position.start); } } } } this.exit(token); } function listItemWithTaskListItem(node, parent, state, info) { const head = node.children[0]; const checkable = typeof node.checked === 'boolean' && head && head.type === 'paragraph'; const checkbox = '[' + (node.checked ? 'x' : ' ') + '] '; const tracker = state.createTracker(info); if (checkable) { tracker.move(checkbox); } let value = handle.listItem(node, parent, state, { ...info, ...tracker.current() }); if (checkable) { value = value.replace(/^(?:[*+-]|\d+\.)([\r\n]| {1,3})/, check); } return value function check($0) { return $0 + checkbox } } function gfmFromMarkdown() { return [ gfmAutolinkLiteralFromMarkdown(), gfmFootnoteFromMarkdown(), gfmStrikethroughFromMarkdown(), gfmTableFromMarkdown(), gfmTaskListItemFromMarkdown() ] } function gfmToMarkdown(options) { return { extensions: [ gfmAutolinkLiteralToMarkdown(), gfmFootnoteToMarkdown(), gfmStrikethroughToMarkdown(), gfmTableToMarkdown(options), gfmTaskListItemToMarkdown() ] } } const wwwPrefix = { tokenize: tokenizeWwwPrefix, partial: true }; const domain = { tokenize: tokenizeDomain, partial: true }; const path = { tokenize: tokenizePath, partial: true }; const trail = { tokenize: tokenizeTrail, partial: true }; const emailDomainDotTrail = { tokenize: tokenizeEmailDomainDotTrail, partial: true }; const wwwAutolink = { tokenize: tokenizeWwwAutolink, previous: previousWww }; const protocolAutolink = { tokenize: tokenizeProtocolAutolink, previous: previousProtocol }; const emailAutolink = { tokenize: tokenizeEmailAutolink, previous: previousEmail }; const text = {}; function gfmAutolinkLiteral() { return { text } } let code = 48; while (code < 123) { text[code] = emailAutolink; code++; if (code === 58) code = 65; else if (code === 91) code = 97; } text[43] = emailAutolink; text[45] = emailAutolink; text[46] = emailAutolink; text[95] = emailAutolink; text[72] = [emailAutolink, protocolAutolink]; text[104] = [emailAutolink, protocolAutolink]; text[87] = [emailAutolink, wwwAutolink]; text[119] = [emailAutolink, wwwAutolink]; function tokenizeEmailAutolink(effects, ok, nok) { const self = this; let dot; let data; return start function start(code) { if ( !gfmAtext(code) || !previousEmail.call(self, self.previous) || previousUnbalanced(self.events) ) { return nok(code) } effects.enter('literalAutolink'); effects.enter('literalAutolinkEmail'); return atext(code) } function atext(code) { if (gfmAtext(code)) { effects.consume(code); return atext } if (code === 64) { effects.consume(code); return emailDomain } return nok(code) } function emailDomain(code) { if (code === 46) { return effects.check( emailDomainDotTrail, emailDomainAfter, emailDomainDot )(code) } if (code === 45 || code === 95 || asciiAlphanumeric(code)) { data = true; effects.consume(code); return emailDomain } return emailDomainAfter(code) } function emailDomainDot(code) { effects.consume(code); dot = true; return emailDomain } function emailDomainAfter(code) { if (data && dot && asciiAlpha(self.previous)) { effects.exit('literalAutolinkEmail'); effects.exit('literalAutolink'); return ok(code) } return nok(code) } } function tokenizeWwwAutolink(effects, ok, nok) { const self = this; return wwwStart function wwwStart(code) { if ( (code !== 87 && code !== 119) || !previousWww.call(self, self.previous) || previousUnbalanced(self.events) ) { return nok(code) } effects.enter('literalAutolink'); effects.enter('literalAutolinkWww'); return effects.check( wwwPrefix, effects.attempt(domain, effects.attempt(path, wwwAfter), nok), nok )(code) } function wwwAfter(code) { effects.exit('literalAutolinkWww'); effects.exit('literalAutolink'); return ok(code) } } function tokenizeProtocolAutolink(effects, ok, nok) { const self = this; let buffer = ''; let seen = false; return protocolStart function protocolStart(code) { if ( (code === 72 || code === 104) && previousProtocol.call(self, self.previous) && !previousUnbalanced(self.events) ) { effects.enter('literalAutolink'); effects.enter('literalAutolinkHttp'); buffer += String.fromCodePoint(code); effects.consume(code); return protocolPrefixInside } return nok(code) } function protocolPrefixInside(code) { if (asciiAlpha(code) && buffer.length < 5) { buffer += String.fromCodePoint(code); effects.consume(code); return protocolPrefixInside } if (code === 58) { const protocol = buffer.toLowerCase(); if (protocol === 'http' || protocol === 'https') { effects.consume(code); return protocolSlashesInside } } return nok(code) } function protocolSlashesInside(code) { if (code === 47) { effects.consume(code); if (seen) { return afterProtocol } seen = true; return protocolSlashesInside } return nok(code) } function afterProtocol(code) { return code === null || asciiControl(code) || markdownLineEndingOrSpace(code) || unicodeWhitespace(code) || unicodePunctuation(code) ? nok(code) : effects.attempt(domain, effects.attempt(path, protocolAfter), nok)(code) } function protocolAfter(code) { effects.exit('literalAutolinkHttp'); effects.exit('literalAutolink'); return ok(code) } } function tokenizeWwwPrefix(effects, ok, nok) { let size = 0; return wwwPrefixInside function wwwPrefixInside(code) { if ((code === 87 || code === 119) && size < 3) { size++; effects.consume(code); return wwwPrefixInside } if (code === 46 && size === 3) { effects.consume(code); return wwwPrefixAfter } return nok(code) } function wwwPrefixAfter(code) { return code === null ? nok(code) : ok(code) } } function tokenizeDomain(effects, ok, nok) { let underscoreInLastSegment; let underscoreInLastLastSegment; let seen; return domainInside function domainInside(code) { if (code === 46 || code === 95) { return effects.check(trail, domainAfter, domainAtPunctuation)(code) } if ( code === null || markdownLineEndingOrSpace(code) || unicodeWhitespace(code) || (code !== 45 && unicodePunctuation(code)) ) { return domainAfter(code) } seen = true; effects.consume(code); return domainInside } function domainAtPunctuation(code) { if (code === 95) { underscoreInLastSegment = true; } else { underscoreInLastLastSegment = underscoreInLastSegment; underscoreInLastSegment = undefined; } effects.consume(code); return domainInside } function domainAfter(code) { if (underscoreInLastLastSegment || underscoreInLastSegment || !seen) { return nok(code) } return ok(code) } } function tokenizePath(effects, ok) { let sizeOpen = 0; let sizeClose = 0; return pathInside function pathInside(code) { if (code === 40) { sizeOpen++; effects.consume(code); return pathInside } if (code === 41 && sizeClose < sizeOpen) { return pathAtPunctuation(code) } if ( code === 33 || code === 34 || code === 38 || code === 39 || code === 41 || code === 42 || code === 44 || code === 46 || code === 58 || code === 59 || code === 60 || code === 63 || code === 93 || code === 95 || code === 126 ) { return effects.check(trail, ok, pathAtPunctuation)(code) } if ( code === null || markdownLineEndingOrSpace(code) || unicodeWhitespace(code) ) { return ok(code) } effects.consume(code); return pathInside } function pathAtPunctuation(code) { if (code === 41) { sizeClose++; } effects.consume(code); return pathInside } } function tokenizeTrail(effects, ok, nok) { return trail function trail(code) { if ( code === 33 || code === 34 || code === 39 || code === 41 || code === 42 || code === 44 || code === 46 || code === 58 || code === 59 || code === 63 || code === 95 || code === 126 ) { effects.consume(code); return trail } if (code === 38) { effects.consume(code); return trailCharRefStart } if (code === 93) { effects.consume(code); return trailBracketAfter } if ( code === 60 || code === null || markdownLineEndingOrSpace(code) || unicodeWhitespace(code) ) { return ok(code) } return nok(code) } function trailBracketAfter(code) { if ( code === null || code === 40 || code === 91 || markdownLineEndingOrSpace(code) || unicodeWhitespace(code) ) { return ok(code) } return trail(code) } function trailCharRefStart(code) { return asciiAlpha(code) ? trailCharRefInside(code) : nok(code) } function trailCharRefInside(code) { if (code === 59) { effects.consume(code); return trail } if (asciiAlpha(code)) { effects.consume(code); return trailCharRefInside } return nok(code) } } function tokenizeEmailDomainDotTrail(effects, ok, nok) { return start function start(code) { effects.consume(code); return after } function after(code) { return asciiAlphanumeric(code) ? nok(code) : ok(code) } } function previousWww(code) { return ( code === null || code === 40 || code === 42 || code === 95 || code === 91 || code === 93 || code === 126 || markdownLineEndingOrSpace(code) ) } function previousProtocol(code) { return !asciiAlpha(code) } function previousEmail(code) { return !(code === 47 || gfmAtext(code)) } function gfmAtext(code) { return ( code === 43 || code === 45 || code === 46 || code === 95 || asciiAlphanumeric(code) ) } function previousUnbalanced(events) { let index = events.length; let result = false; while (index--) { const token = events[index][1]; if ( (token.type === 'labelLink' || token.type === 'labelImage') && !token._balanced ) { result = true; break } if (token._gfmAutolinkLiteralWalkedInto) { result = false; break } } if (events.length > 0 && !result) { events[events.length - 1][1]._gfmAutolinkLiteralWalkedInto = true; } return result } const indent = { tokenize: tokenizeIndent, partial: true }; function gfmFootnote() { return { document: { [91]: { tokenize: tokenizeDefinitionStart, continuation: { tokenize: tokenizeDefinitionContinuation }, exit: gfmFootnoteDefinitionEnd } }, text: { [91]: { tokenize: tokenizeGfmFootnoteCall }, [93]: { add: 'after', tokenize: tokenizePotentialGfmFootnoteCall, resolveTo: resolveToPotentialGfmFootnoteCall } } } } function tokenizePotentialGfmFootnoteCall(effects, ok, nok) { const self = this; let index = self.events.length; const defined = self.parser.gfmFootnotes || (self.parser.gfmFootnotes = []); let labelStart; while (index--) { const token = self.events[index][1]; if (token.type === 'labelImage') { labelStart = token; break } if ( token.type === 'gfmFootnoteCall' || token.type === 'labelLink' || token.type === 'label' || token.type === 'image' || token.type === 'link' ) { break } } return start function start(code) { if (!labelStart || !labelStart._balanced) { return nok(code) } const id = normalizeIdentifier$1( self.sliceSerialize({ start: labelStart.end, end: self.now() }) ); if (id.codePointAt(0) !== 94 || !defined.includes(id.slice(1))) { return nok(code) } effects.enter('gfmFootnoteCallLabelMarker'); effects.consume(code); effects.exit('gfmFootnoteCallLabelMarker'); return ok(code) } } function resolveToPotentialGfmFootnoteCall(events, context) { let index = events.length; while (index--) { if ( events[index][1].type === 'labelImage' && events[index][0] === 'enter' ) { events[index][1]; break } } events[index + 1][1].type = 'data'; events[index + 3][1].type = 'gfmFootnoteCallLabelMarker'; const call = { type: 'gfmFootnoteCall', start: Object.assign({}, events[index + 3][1].start), end: Object.assign({}, events[events.length - 1][1].end) }; const marker = { type: 'gfmFootnoteCallMarker', start: Object.assign({}, events[index + 3][1].end), end: Object.assign({}, events[index + 3][1].end) }; marker.end.column++; marker.end.offset++; marker.end._bufferIndex++; const string = { type: 'gfmFootnoteCallString', start: Object.assign({}, marker.end), end: Object.assign({}, events[events.length - 1][1].start) }; const chunk = { type: 'chunkString', contentType: 'string', start: Object.assign({}, string.start), end: Object.assign({}, string.end) }; const replacement = [ events[index + 1], events[index + 2], ['enter', call, context], events[index + 3], events[index + 4], ['enter', marker, context], ['exit', marker, context], ['enter', string, context], ['enter', chunk, context], ['exit', chunk, context], ['exit', string, context], events[events.length - 2], events[events.length - 1], ['exit', call, context] ]; events.splice(index, events.length - index + 1, ...replacement); return events } function tokenizeGfmFootnoteCall(effects, ok, nok) { const self = this; const defined = self.parser.gfmFootnotes || (self.parser.gfmFootnotes = []); let size = 0; let data; return start function start(code) { effects.enter('gfmFootnoteCall'); effects.enter('gfmFootnoteCallLabelMarker'); effects.consume(code); effects.exit('gfmFootnoteCallLabelMarker'); return callStart } function callStart(code) { if (code !== 94) return nok(code) effects.enter('gfmFootnoteCallMarker'); effects.consume(code); effects.exit('gfmFootnoteCallMarker'); effects.enter('gfmFootnoteCallString'); effects.enter('chunkString').contentType = 'string'; return callData } function callData(code) { if ( size > 999 || (code === 93 && !data) || code === null || code === 91 || markdownLineEndingOrSpace(code) ) { return nok(code) } if (code === 93) { effects.exit('chunkString'); const token = effects.exit('gfmFootnoteCallString'); if (!defined.includes(normalizeIdentifier$1(self.sliceSerialize(token)))) { return nok(code) } effects.enter('gfmFootnoteCallLabelMarker'); effects.consume(code); effects.exit('gfmFootnoteCallLabelMarker'); effects.exit('gfmFootnoteCall'); return ok } if (!markdownLineEndingOrSpace(code)) { data = true; } size++; effects.consume(code); return code === 92 ? callEscape : callData } function callEscape(code) { if (code === 91 || code === 92 || code === 93) { effects.consume(code); size++; return callData } return callData(code) } } function tokenizeDefinitionStart(effects, ok, nok) { const self = this; const defined = self.parser.gfmFootnotes || (self.parser.gfmFootnotes = []); let identifier; let size = 0; let data; return start function start(code) { effects.enter('gfmFootnoteDefinition')._container = true; effects.enter('gfmFootnoteDefinitionLabel'); effects.enter('gfmFootnoteDefinitionLabelMarker'); effects.consume(code); effects.exit('gfmFootnoteDefinitionLabelMarker'); return labelAtMarker } function labelAtMarker(code) { if (code === 94) { effects.enter('gfmFootnoteDefinitionMarker'); effects.consume(code); effects.exit('gfmFootnoteDefinitionMarker'); effects.enter('gfmFootnoteDefinitionLabelString'); effects.enter('chunkString').contentType = 'string'; return labelInside } return nok(code) } function labelInside(code) { if ( size > 999 || (code === 93 && !data) || code === null || code === 91 || markdownLineEndingOrSpace(code) ) { return nok(code) } if (code === 93) { effects.exit('chunkString'); const token = effects.exit('gfmFootnoteDefinitionLabelString'); identifier = normalizeIdentifier$1(self.sliceSerialize(token)); effects.enter('gfmFootnoteDefinitionLabelMarker'); effects.consume(code); effects.exit('gfmFootnoteDefinitionLabelMarker'); effects.exit('gfmFootnoteDefinitionLabel'); return labelAfter } if (!markdownLineEndingOrSpace(code)) { data = true; } size++; effects.consume(code); return code === 92 ? labelEscape : labelInside } function labelEscape(code) { if (code === 91 || code === 92 || code === 93) { effects.consume(code); size++; return labelInside } return labelInside(code) } function labelAfter(code) { if (code === 58) { effects.enter('definitionMarker'); effects.consume(code); effects.exit('definitionMarker'); if (!defined.includes(identifier)) { defined.push(identifier); } return factorySpace( effects, whitespaceAfter, 'gfmFootnoteDefinitionWhitespace' ) } return nok(code) } function whitespaceAfter(code) { return ok(code) } } function tokenizeDefinitionContinuation(effects, ok, nok) { return effects.check(blankLine, ok, effects.attempt(indent, ok, nok)) } function gfmFootnoteDefinitionEnd(effects) { effects.exit('gfmFootnoteDefinition'); } function tokenizeIndent(effects, ok, nok) { const self = this; return factorySpace( effects, afterPrefix, 'gfmFootnoteDefinitionIndent', 4 + 1 ) function afterPrefix(code) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === 'gfmFootnoteDefinitionIndent' && tail[2].sliceSerialize(tail[1], true).length === 4 ? ok(code) : nok(code) } } function gfmStrikethrough(options) { const options_ = options || {}; let single = options_.singleTilde; const tokenizer = { tokenize: tokenizeStrikethrough, resolveAll: resolveAllStrikethrough }; if (single === null || single === undefined) { single = true; } return { text: { [126]: tokenizer }, insideSpan: { null: [tokenizer] }, attentionMarkers: { null: [126] } } function resolveAllStrikethrough(events, context) { let index = -1; while (++index < events.length) { if ( events[index][0] === 'enter' && events[index][1].type === 'strikethroughSequenceTemporary' && events[index][1]._close ) { let open = index; while (open--) { if ( events[open][0] === 'exit' && events[open][1].type === 'strikethroughSequenceTemporary' && events[open][1]._open && events[index][1].end.offset - events[index][1].start.offset === events[open][1].end.offset - events[open][1].start.offset ) { events[index][1].type = 'strikethroughSequence'; events[open][1].type = 'strikethroughSequence'; const strikethrough = { type: 'strikethrough', start: Object.assign({}, events[open][1].start), end: Object.assign({}, events[index][1].end) }; const text = { type: 'strikethroughText', start: Object.assign({}, events[open][1].end), end: Object.assign({}, events[index][1].start) }; const nextEvents = [ ['enter', strikethrough, context], ['enter', events[open][1], context], ['exit', events[open][1], context], ['enter', text, context] ]; const insideSpan = context.parser.constructs.insideSpan.null; if (insideSpan) { splice( nextEvents, nextEvents.length, 0, resolveAll(insideSpan, events.slice(open + 1, index), context) ); } splice(nextEvents, nextEvents.length, 0, [ ['exit', text, context], ['enter', events[index][1], context], ['exit', events[index][1], context], ['exit', strikethrough, context] ]); splice(events, open - 1, index - open + 3, nextEvents); index = open + nextEvents.length - 2; break } } } } index = -1; while (++index < events.length) { if (events[index][1].type === 'strikethroughSequenceTemporary') { events[index][1].type = 'data'; } } return events } function tokenizeStrikethrough(effects, ok, nok) { const previous = this.previous; const events = this.events; let size = 0; return start function start(code) { if ( previous === 126 && events[events.length - 1][1].type !== 'characterEscape' ) { return nok(code) } effects.enter('strikethroughSequenceTemporary'); return more(code) } function more(code) { const before = classifyCharacter(previous); if (code === 126) { if (size > 1) return nok(code) effects.consume(code); size++; return more } if (size < 2 && !single) return nok(code) const token = effects.exit('strikethroughSequenceTemporary'); const after = classifyCharacter(code); token._open = !after || (after === 2 && Boolean(before)); token._close = !before || (before === 2 && Boolean(after)); return ok(code) } } } class EditMap { constructor() { this.map = []; } add(index, remove, add) { addImpl(this, index, remove, add); } consume(events) { this.map.sort(function (a, b) { return a[0] - b[0] }); if (this.map.length === 0) { return } let index = this.map.length; const vecs = []; while (index > 0) { index -= 1; vecs.push( events.slice(this.map[index][0] + this.map[index][1]), this.map[index][2] ); events.length = this.map[index][0]; } vecs.push([...events]); events.length = 0; let slice = vecs.pop(); while (slice) { events.push(...slice); slice = vecs.pop(); } this.map.length = 0; } } function addImpl(editMap, at, remove, add) { let index = 0; if (remove === 0 && add.length === 0) { return } while (index < editMap.map.length) { if (editMap.map[index][0] === at) { editMap.map[index][1] += remove; editMap.map[index][2].push(...add); return } index += 1; } editMap.map.push([at, remove, add]); } function gfmTableAlign(events, index) { let inDelimiterRow = false; const align = []; while (index < events.length) { const event = events[index]; if (inDelimiterRow) { if (event[0] === 'enter') { if (event[1].type === 'tableContent') { align.push( events[index + 1][1].type === 'tableDelimiterMarker' ? 'left' : 'none' ); } } else if (event[1].type === 'tableContent') { if (events[index - 1][1].type === 'tableDelimiterMarker') { const alignIndex = align.length - 1; align[alignIndex] = align[alignIndex] === 'left' ? 'center' : 'right'; } } else if (event[1].type === 'tableDelimiterRow') { break } } else if (event[0] === 'enter' && event[1].type === 'tableDelimiterRow') { inDelimiterRow = true; } index += 1; } return align } function gfmTable() { return { flow: { null: { tokenize: tokenizeTable, resolveAll: resolveTable } } } } function tokenizeTable(effects, ok, nok) { const self = this; let size = 0; let sizeB = 0; let seen; return start function start(code) { let index = self.events.length - 1; while (index > -1) { const type = self.events[index][1].type; if ( type === 'lineEnding' || type === 'linePrefix' ) index--; else break } const tail = index > -1 ? self.events[index][1].type : null; const next = tail === 'tableHead' || tail === 'tableRow' ? bodyRowStart : headRowBefore; if (next === bodyRowStart && self.parser.lazy[self.now().line]) { return nok(code) } return next(code) } function headRowBefore(code) { effects.enter('tableHead'); effects.enter('tableRow'); return headRowStart(code) } function headRowStart(code) { if (code === 124) { return headRowBreak(code) } seen = true; sizeB += 1; return headRowBreak(code) } function headRowBreak(code) { if (code === null) { return nok(code) } if (markdownLineEnding(code)) { if (sizeB > 1) { sizeB = 0; self.interrupt = true; effects.exit('tableRow'); effects.enter('lineEnding'); effects.consume(code); effects.exit('lineEnding'); return headDelimiterStart } return nok(code) } if (markdownSpace(code)) { return factorySpace(effects, headRowBreak, 'whitespace')(code) } sizeB += 1; if (seen) { seen = false; size += 1; } if (code === 124) { effects.enter('tableCellDivider'); effects.consume(code); effects.exit('tableCellDivider'); seen = true; return headRowBreak } effects.enter('data'); return headRowData(code) } function headRowData(code) { if (code === null || code === 124 || markdownLineEndingOrSpace(code)) { effects.exit('data'); return headRowBreak(code) } effects.consume(code); return code === 92 ? headRowEscape : headRowData } function headRowEscape(code) { if (code === 92 || code === 124) { effects.consume(code); return headRowData } return headRowData(code) } function headDelimiterStart(code) { self.interrupt = false; if (self.parser.lazy[self.now().line]) { return nok(code) } effects.enter('tableDelimiterRow'); seen = false; if (markdownSpace(code)) { return factorySpace( effects, headDelimiterBefore, 'linePrefix', self.parser.constructs.disable.null.includes('codeIndented') ? undefined : 4 )(code) } return headDelimiterBefore(code) } function headDelimiterBefore(code) { if (code === 45 || code === 58) { return headDelimiterValueBefore(code) } if (code === 124) { seen = true; effects.enter('tableCellDivider'); effects.consume(code); effects.exit('tableCellDivider'); return headDelimiterCellBefore } return headDelimiterNok(code) } function headDelimiterCellBefore(code) { if (markdownSpace(code)) { return factorySpace(effects, headDelimiterValueBefore, 'whitespace')(code) } return headDelimiterValueBefore(code) } function headDelimiterValueBefore(code) { if (code === 58) { sizeB += 1; seen = true; effects.enter('tableDelimiterMarker'); effects.consume(code); effects.exit('tableDelimiterMarker'); return headDelimiterLeftAlignmentAfter } if (code === 45) { sizeB += 1; return headDelimiterLeftAlignmentAfter(code) } if (code === null || markdownLineEnding(code)) { return headDelimiterCellAfter(code) } return headDelimiterNok(code) } function headDelimiterLeftAlignmentAfter(code) { if (code === 45) { effects.enter('tableDelimiterFiller'); return headDelimiterFiller(code) } return headDelimiterNok(code) } function headDelimiterFiller(code) { if (code === 45) { effects.consume(code); return headDelimiterFiller } if (code === 58) { seen = true; effects.exit('tableDelimiterFiller'); effects.enter('tableDelimiterMarker'); effects.consume(code); effects.exit('tableDelimiterMarker'); return headDelimiterRightAlignmentAfter } effects.exit('tableDelimiterFiller'); return headDelimiterRightAlignmentAfter(code) } function headDelimiterRightAlignmentAfter(code) { if (markdownSpace(code)) { return factorySpace(effects, headDelimiterCellAfter, 'whitespace')(code) } return headDelimiterCellAfter(code) } function headDelimiterCellAfter(code) { if (code === 124) { return headDelimiterBefore(code) } if (code === null || markdownLineEnding(code)) { if (!seen || size !== sizeB) { return headDelimiterNok(code) } effects.exit('tableDelimiterRow'); effects.exit('tableHead'); return ok(code) } return headDelimiterNok(code) } function headDelimiterNok(code) { return nok(code) } function bodyRowStart(code) { effects.enter('tableRow'); return bodyRowBreak(code) } function bodyRowBreak(code) { if (code === 124) { effects.enter('tableCellDivider'); effects.consume(code); effects.exit('tableCellDivider'); return bodyRowBreak } if (code === null || markdownLineEnding(code)) { effects.exit('tableRow'); return ok(code) } if (markdownSpace(code)) { return factorySpace(effects, bodyRowBreak, 'whitespace')(code) } effects.enter('data'); return bodyRowData(code) } function bodyRowData(code) { if (code === null || code === 124 || markdownLineEndingOrSpace(code)) { effects.exit('data'); return bodyRowBreak(code) } effects.consume(code); return code === 92 ? bodyRowEscape : bodyRowData } function bodyRowEscape(code) { if (code === 92 || code === 124) { effects.consume(code); return bodyRowData } return bodyRowData(code) } } function resolveTable(events, context) { let index = -1; let inFirstCellAwaitingPipe = true; let rowKind = 0; let lastCell = [0, 0, 0, 0]; let cell = [0, 0, 0, 0]; let afterHeadAwaitingFirstBodyRow = false; let lastTableEnd = 0; let currentTable; let currentBody; let currentCell; const map = new EditMap(); while (++index < events.length) { const event = events[index]; const token = event[1]; if (event[0] === 'enter') { if (token.type === 'tableHead') { afterHeadAwaitingFirstBodyRow = false; if (lastTableEnd !== 0) { flushTableEnd(map, context, lastTableEnd, currentTable, currentBody); currentBody = undefined; lastTableEnd = 0; } currentTable = { type: 'table', start: Object.assign({}, token.start), end: Object.assign({}, token.end) }; map.add(index, 0, [['enter', currentTable, context]]); } else if ( token.type === 'tableRow' || token.type === 'tableDelimiterRow' ) { inFirstCellAwaitingPipe = true; currentCell = undefined; lastCell = [0, 0, 0, 0]; cell = [0, index + 1, 0, 0]; if (afterHeadAwaitingFirstBodyRow) { afterHeadAwaitingFirstBodyRow = false; currentBody = { type: 'tableBody', start: Object.assign({}, token.start), end: Object.assign({}, token.end) }; map.add(index, 0, [['enter', currentBody, context]]); } rowKind = token.type === 'tableDelimiterRow' ? 2 : currentBody ? 3 : 1; } else if ( rowKind && (token.type === 'data' || token.type === 'tableDelimiterMarker' || token.type === 'tableDelimiterFiller') ) { inFirstCellAwaitingPipe = false; if (cell[2] === 0) { if (lastCell[1] !== 0) { cell[0] = cell[1]; currentCell = flushCell( map, context, lastCell, rowKind, undefined, currentCell ); lastCell = [0, 0, 0, 0]; } cell[2] = index; } } else if (token.type === 'tableCellDivider') { if (inFirstCellAwaitingPipe) { inFirstCellAwaitingPipe = false; } else { if (lastCell[1] !== 0) { cell[0] = cell[1]; currentCell = flushCell( map, context, lastCell, rowKind, undefined, currentCell ); } lastCell = cell; cell = [lastCell[1], index, 0, 0]; } } } else if (token.type === 'tableHead') { afterHeadAwaitingFirstBodyRow = true; lastTableEnd = index; } else if ( token.type === 'tableRow' || token.type === 'tableDelimiterRow' ) { lastTableEnd = index; if (lastCell[1] !== 0) { cell[0] = cell[1]; currentCell = flushCell( map, context, lastCell, rowKind, index, currentCell ); } else if (cell[1] !== 0) { currentCell = flushCell(map, context, cell, rowKind, index, currentCell); } rowKind = 0; } else if ( rowKind && (token.type === 'data' || token.type === 'tableDelimiterMarker' || token.type === 'tableDelimiterFiller') ) { cell[3] = index; } } if (lastTableEnd !== 0) { flushTableEnd(map, context, lastTableEnd, currentTable, currentBody); } map.consume(context.events); index = -1; while (++index < context.events.length) { const event = context.events[index]; if (event[0] === 'enter' && event[1].type === 'table') { event[1]._align = gfmTableAlign(context.events, index); } } return events } function flushCell(map, context, range, rowKind, rowEnd, previousCell) { const groupName = rowKind === 1 ? 'tableHeader' : rowKind === 2 ? 'tableDelimiter' : 'tableData'; const valueName = 'tableContent'; if (range[0] !== 0) { previousCell.end = Object.assign({}, getPoint(context.events, range[0])); map.add(range[0], 0, [['exit', previousCell, context]]); } const now = getPoint(context.events, range[1]); previousCell = { type: groupName, start: Object.assign({}, now), end: Object.assign({}, now) }; map.add(range[1], 0, [['enter', previousCell, context]]); if (range[2] !== 0) { const relatedStart = getPoint(context.events, range[2]); const relatedEnd = getPoint(context.events, range[3]); const valueToken = { type: valueName, start: Object.assign({}, relatedStart), end: Object.assign({}, relatedEnd) }; map.add(range[2], 0, [['enter', valueToken, context]]); if (rowKind !== 2) { const start = context.events[range[2]]; const end = context.events[range[3]]; start[1].end = Object.assign({}, end[1].end); start[1].type = 'chunkText'; start[1].contentType = 'text'; if (range[3] > range[2] + 1) { const a = range[2] + 1; const b = range[3] - range[2] - 1; map.add(a, b, []); } } map.add(range[3] + 1, 0, [['exit', valueToken, context]]); } if (rowEnd !== undefined) { previousCell.end = Object.assign({}, getPoint(context.events, rowEnd)); map.add(rowEnd, 0, [['exit', previousCell, context]]); previousCell = undefined; } return previousCell } function flushTableEnd(map, context, index, table, tableBody) { const exits = []; const related = getPoint(context.events, index); if (tableBody) { tableBody.end = Object.assign({}, related); exits.push(['exit', tableBody, context]); } table.end = Object.assign({}, related); exits.push(['exit', table, context]); map.add(index + 1, 0, exits); } function getPoint(events, index) { const event = events[index]; const side = event[0] === 'enter' ? 'start' : 'end'; return event[1][side] } const tasklistCheck = { tokenize: tokenizeTasklistCheck }; function gfmTaskListItem() { return { text: { [91]: tasklistCheck } } } function tokenizeTasklistCheck(effects, ok, nok) { const self = this; return open function open(code) { if ( self.previous !== null || !self._gfmTasklistFirstContentOfListItem ) { return nok(code) } effects.enter('taskListCheck'); effects.enter('taskListCheckMarker'); effects.consume(code); effects.exit('taskListCheckMarker'); return inside } function inside(code) { if (markdownLineEndingOrSpace(code)) { effects.enter('taskListCheckValueUnchecked'); effects.consume(code); effects.exit('taskListCheckValueUnchecked'); return close } if (code === 88 || code === 120) { effects.enter('taskListCheckValueChecked'); effects.consume(code); effects.exit('taskListCheckValueChecked'); return close } return nok(code) } function close(code) { if (code === 93) { effects.enter('taskListCheckMarker'); effects.consume(code); effects.exit('taskListCheckMarker'); effects.exit('taskListCheck'); return after } return nok(code) } function after(code) { if (markdownLineEnding(code)) { return ok(code) } if (markdownSpace(code)) { return effects.check( { tokenize: spaceThenNonSpace }, ok, nok )(code) } return nok(code) } } function spaceThenNonSpace(effects, ok, nok) { return factorySpace(effects, after, 'whitespace') function after(code) { return code === null ? nok(code) : ok(code) } } function gfm(options) { return combineExtensions([ gfmAutolinkLiteral(), gfmFootnote(), gfmStrikethrough(options), gfmTable(), gfmTaskListItem() ]) } const emptyOptions$2 = {}; function remarkGfm(options) { const self = (this); const settings = options || emptyOptions$2; const data = self.data(); const micromarkExtensions = data.micromarkExtensions || (data.micromarkExtensions = []); const fromMarkdownExtensions = data.fromMarkdownExtensions || (data.fromMarkdownExtensions = []); const toMarkdownExtensions = data.toMarkdownExtensions || (data.toMarkdownExtensions = []); micromarkExtensions.push(gfm(settings)); fromMarkdownExtensions.push(gfmFromMarkdown()); toMarkdownExtensions.push(gfmToMarkdown(settings)); } function location(file) { const value = String(file); const indices = []; const search = /\r?\n|\r/g; while (search.test(value)) { indices.push(search.lastIndex); } indices.push(value.length + 1); return {toPoint, toOffset} function toPoint(offset) { let index = -1; if ( typeof offset === 'number' && offset > -1 && offset < indices[indices.length - 1] ) { while (++index < indices.length) { if (indices[index] > offset) { return { line: index + 1, column: offset - (index > 0 ? indices[index - 1] : 0) + 1, offset } } } } return {line: undefined, column: undefined, offset: undefined} } function toOffset(point) { const line = point && point.line; const column = point && point.column; if ( typeof line === 'number' && typeof column === 'number' && !Number.isNaN(line) && !Number.isNaN(column) && line - 1 in indices ) { const offset = (indices[line - 2] || 0) + column - 1 || 0; if (offset > -1 && offset < indices[indices.length - 1]) { return offset } } return -1 } } const convert$z = ( function (test) { if (test === undefined || test === null) { return ok$z } if (typeof test === 'string') { return typeFactory$z(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$z(test) : propsFactory$z(test) } if (typeof test === 'function') { return castFactory$z(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$z(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$z(tests[index]); } return castFactory$z(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$z(check) { return castFactory$z(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$z(check) { return castFactory$z(type) function type(node) { return node && node.type === check } } function castFactory$z(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$z() { return true } function color$A(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$z = true; const SKIP$z = 'skip'; const EXIT$z = false; const visitParents$z = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } var is = convert$z(test); var step = reverse ? -1 : 1; factory(tree, null, [])(); function factory(node, index, parents) { var value = typeof node === 'object' && node !== null ? node : {}; var name; if (typeof value.type === 'string') { name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$A(value.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { var result = []; var subresult; var offset; var grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$z(visitor(node, parents)); if (result[0] === EXIT$z) { return result } } if (node.children && result[0] !== SKIP$z) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$z) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$z(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$z, value] } return [value] } const visit$z = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$z(tree, test, overload, reverse); function overload(node, parents) { var parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); const own$1 = {}.hasOwnProperty; function messageControl(options) { if (!options || typeof options !== 'object' || !options.name) { throw new Error( 'Expected `name` in `options`, got `' + (options || {}).name + '`' ) } if (!options.marker) { throw new Error( 'Expected `marker` in `options`, got `' + options.marker + '`' ) } const enable = 'enable' in options && options.enable ? options.enable : []; const disable = 'disable' in options && options.disable ? options.disable : []; let reset = options.reset; const sources = typeof options.source === 'string' ? [options.source] : options.source || [options.name]; return transformer function transformer(tree, file) { const toOffset = location(file).toOffset; const initial = !reset; const gaps = detectGaps(tree, file); const scope = {}; const globals = []; visit$z(tree, options.test, visitor); file.messages = file.messages.filter((m) => filter(m)); function visitor(node, position, parent) { const mark = options.marker(node); if (!mark || mark.name !== options.name) { return } const ruleIds = mark.attributes.split(/\s/g); const point = mark.node.position && mark.node.position.start; const next = (parent && position !== null && parent.children[position + 1]) || undefined; const tail = (next && next.position && next.position.end) || undefined; let index = -1; const verb = ruleIds.shift(); if (verb !== 'enable' && verb !== 'disable' && verb !== 'ignore') { file.fail( 'Unknown keyword `' + verb + '`: expected ' + "`'enable'`, `'disable'`, or `'ignore'`", mark.node ); } if (ruleIds.length > 0) { while (++index < ruleIds.length) { const ruleId = ruleIds[index]; if (isKnown(ruleId, verb, mark.node)) { toggle(point, verb === 'enable', ruleId); if (verb === 'ignore') { toggle(tail, true, ruleId); } } } } else if (verb === 'ignore') { toggle(point, false); toggle(tail, true); } else { toggle(point, verb === 'enable'); reset = verb !== 'enable'; } } function filter(message) { let gapIndex = gaps.length; if (!message.source || !sources.includes(message.source)) { return true } if (!message.line) { message.line = 1; } if (!message.column) { message.column = 1; } const offset = toOffset(message); while (gapIndex--) { if (gaps[gapIndex][0] <= offset && gaps[gapIndex][1] > offset) { return false } } return ( (!message.ruleId || check(message, scope[message.ruleId], message.ruleId)) && check(message, globals) ) } function isKnown(ruleId, verb, node) { const result = options.known ? options.known.includes(ruleId) : true; if (!result) { file.message( 'Unknown rule: cannot ' + verb + " `'" + ruleId + "'`", node ); } return result } function getState(ruleId) { const ranges = ruleId ? scope[ruleId] : globals; if (ranges && ranges.length > 0) { return ranges[ranges.length - 1].state } if (!ruleId) { return !reset } return reset ? enable.includes(ruleId) : !disable.includes(ruleId) } function toggle(point, state, ruleId) { let markers = ruleId ? scope[ruleId] : globals; if (!markers) { markers = []; scope[String(ruleId)] = markers; } const previousState = getState(ruleId); if (state !== previousState) { markers.push({state, point}); } if (!ruleId) { for (ruleId in scope) { if (own$1.call(scope, ruleId)) { toggle(point, state, ruleId); } } } } function check(message, ranges, ruleId) { if (ranges && ranges.length > 0) { let index = ranges.length; while (index--) { const range = ranges[index]; if ( message.line && message.column && range.point && range.point.line && range.point.column && (range.point.line < message.line || (range.point.line === message.line && range.point.column <= message.column)) ) { return range.state === true } } } if (!ruleId) { return Boolean(initial || reset) } return reset ? enable.includes(ruleId) : !disable.includes(ruleId) } } } function detectGaps(tree, file) { const children = tree.children || []; const lastNode = children[children.length - 1]; const gaps = []; let offset = 0; let gap; visit$z(tree, one); if ( lastNode && lastNode.position && lastNode.position.end && offset === lastNode.position.end.offset && file.toString().slice(offset).trim() !== '' ) { update(); update( tree && tree.position && tree.position.end && tree.position.end.offset && tree.position.end.offset - 1 ); } return gaps function one(node) { update(node.position && node.position.start && node.position.start.offset); if (!('children' in node)) { update(node.position && node.position.end && node.position.end.offset); } } function update(latest) { if (latest === null || latest === undefined) { gap = true; } else if (offset < latest) { if (gap) { gaps.push([offset, latest]); gap = undefined; } offset = latest; } } } const commentExpression = /\s*([a-zA-Z\d-]+)(\s+([\s\S]*))?\s*/; const esCommentExpression = new RegExp( '(\\s*\\/\\*' + commentExpression.source + '\\*\\/\\s*)' ); const markerExpression = new RegExp( '(\\s*\\s*)' ); function commentMarker(value) { if ( isNode(value) && (value.type === 'html' || value.type === 'comment' || value.type === 'mdxFlowExpression' || value.type === 'mdxTextExpression') ) { let offset = 2; let match; if (value.type === 'comment') { match = value.value.match(commentExpression); offset = 1; } else if (value.type === 'html') { match = value.value.match(markerExpression); } else if ( value.type === 'mdxFlowExpression' || value.type === 'mdxTextExpression' ) { match = value.value.match(esCommentExpression); } if (match && match[0].length === value.value.length) { const parameters = parseParameters(match[offset + 1] || ''); if (parameters) { return { name: match[offset], attributes: (match[offset + 2] || '').trim(), parameters, node: value } } } } return null } function parseParameters(value) { const parameters = {}; return value .replace( /\s+([-\w]+)(?:=(?:"((?:\\[\s\S]|[^"])*)"|'((?:\\[\s\S]|[^'])*)'|((?:\\[\s\S]|[^"'\s])+)))?/gi, replacer ) .replace(/\s+/g, '') ? null : parameters function replacer(_, $1, $2, $3, $4) { let value = $2 === undefined ? ($3 === undefined ? $4 : $3) : $2; const number = Number(value); if (value === 'true' || value === undefined) { value = true; } else if (value === 'false') { value = false; } else if (value.trim() && !Number.isNaN(number)) { value = number; } parameters[$1] = value; return '' } } function isNode(value) { return Boolean(value && typeof value === 'object' && 'type' in value) } const test = [ 'html', 'comment', 'mdxFlowExpression', 'mdxTextExpression' ]; function remarkMessageControl(options) { return messageControl( Object.assign({marker: commentMarker, test}, options) ) } function remarkLint() { this.use(lintMessageControl); } function lintMessageControl() { return remarkMessageControl({name: 'lint', source: 'remark-lint'}) } function lintRule(meta, rule) { const id = typeof meta === 'string' ? meta : meta.origin; const url = typeof meta === 'string' ? undefined : meta.url; const parts = id.split(':'); const source = parts[1] ? parts[0] : undefined; const ruleId = parts[1]; Object.defineProperty(plugin, 'name', {value: id}); return plugin function plugin(config) { const [severity, options] = coerce$1(ruleId, config); if (!severity) return const fatal = severity === 2; return (tree, file, next) => { let index = file.messages.length - 1; wrap(rule, (error) => { const messages = file.messages; if (error && !messages.includes(error)) { try { file.fail(error); } catch {} } while (++index < messages.length) { Object.assign(messages[index], {ruleId, source, fatal, url}); } next(); })(tree, file, options); } } } function coerce$1(name, config) { if (!Array.isArray(config)) return [1, config] const [severity, ...options] = config; switch (severity) { case false: case 'off': case 0: { return [0, ...options] } case true: case 'on': case 'warn': case 1: { return [1, ...options] } case 'error': case 2: { return [2, ...options] } default: { if (typeof severity !== 'number') return [1, config] throw new Error( 'Incorrect severity `' + severity + '` for `' + name + '`, ' + 'expected 0, 1, or 2' ) } } } /** * ## When should I use this? * * You can use this package to check that fenced code markers are consistent. * * ## API * * There are no options. * * ## Recommendation * * Turn this rule on. * See [StackExchange](https://unix.stackexchange.com/questions/18743) for more * info. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * always adds final line endings. * * ## Example * * ##### `ok.md` * * ###### In * * > 👉 **Note**: `␊` represents a line feed (`\n`). * * ```markdown * Alpha␊ * ``` * * ###### Out * * No messages. * * ##### `not-ok.md` * * ###### In * * > 👉 **Note**: `␀` represents the end of the file. * * ```markdown * Bravo␀ * ``` * * ###### Out * * ```text * 1:1: Missing newline character at end of file * ``` * * @module final-newline * @summary * remark-lint rule to warn when files don’t end in a newline. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT */ const remarkLintFinalNewline = lintRule( { origin: 'remark-lint:final-newline', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-final-newline#readme' }, (_, file) => { const value = String(file); const last = value.length - 1; if (last > -1 && value.charAt(last) !== '\n') { file.message('Missing newline character at end of file'); } } ); var remarkLintFinalNewline$1 = remarkLintFinalNewline; function commonjsRequire(path) { throw new Error('Could not dynamically require "' + path + '". Please configure the dynamicRequireTargets or/and ignoreDynamicRequires option of @rollup/plugin-commonjs appropriately for this require call to work.'); } var pluralize = {exports: {}}; (function (module, exports) { (function (root, pluralize) { if (typeof commonjsRequire === 'function' && 'object' === 'object' && 'object' === 'object') { module.exports = pluralize(); } else { root.pluralize = pluralize(); } })(commonjsGlobal, function () { var pluralRules = []; var singularRules = []; var uncountables = {}; var irregularPlurals = {}; var irregularSingles = {}; function sanitizeRule (rule) { if (typeof rule === 'string') { return new RegExp('^' + rule + '$', 'i'); } return rule; } function restoreCase (word, token) { if (word === token) return token; if (word === word.toLowerCase()) return token.toLowerCase(); if (word === word.toUpperCase()) return token.toUpperCase(); if (word[0] === word[0].toUpperCase()) { return token.charAt(0).toUpperCase() + token.substr(1).toLowerCase(); } return token.toLowerCase(); } function interpolate (str, args) { return str.replace(/\$(\d{1,2})/g, function (match, index) { return args[index] || ''; }); } function replace (word, rule) { return word.replace(rule[0], function (match, index) { var result = interpolate(rule[1], arguments); if (match === '') { return restoreCase(word[index - 1], result); } return restoreCase(match, result); }); } function sanitizeWord (token, word, rules) { if (!token.length || uncountables.hasOwnProperty(token)) { return word; } var len = rules.length; while (len--) { var rule = rules[len]; if (rule[0].test(word)) return replace(word, rule); } return word; } function replaceWord (replaceMap, keepMap, rules) { return function (word) { var token = word.toLowerCase(); if (keepMap.hasOwnProperty(token)) { return restoreCase(word, token); } if (replaceMap.hasOwnProperty(token)) { return restoreCase(word, replaceMap[token]); } return sanitizeWord(token, word, rules); }; } function checkWord (replaceMap, keepMap, rules, bool) { return function (word) { var token = word.toLowerCase(); if (keepMap.hasOwnProperty(token)) return true; if (replaceMap.hasOwnProperty(token)) return false; return sanitizeWord(token, token, rules) === token; }; } function pluralize (word, count, inclusive) { var pluralized = count === 1 ? pluralize.singular(word) : pluralize.plural(word); return (inclusive ? count + ' ' : '') + pluralized; } pluralize.plural = replaceWord( irregularSingles, irregularPlurals, pluralRules ); pluralize.isPlural = checkWord( irregularSingles, irregularPlurals, pluralRules ); pluralize.singular = replaceWord( irregularPlurals, irregularSingles, singularRules ); pluralize.isSingular = checkWord( irregularPlurals, irregularSingles, singularRules ); pluralize.addPluralRule = function (rule, replacement) { pluralRules.push([sanitizeRule(rule), replacement]); }; pluralize.addSingularRule = function (rule, replacement) { singularRules.push([sanitizeRule(rule), replacement]); }; pluralize.addUncountableRule = function (word) { if (typeof word === 'string') { uncountables[word.toLowerCase()] = true; return; } pluralize.addPluralRule(word, '$0'); pluralize.addSingularRule(word, '$0'); }; pluralize.addIrregularRule = function (single, plural) { plural = plural.toLowerCase(); single = single.toLowerCase(); irregularSingles[single] = plural; irregularPlurals[plural] = single; }; [ ['I', 'we'], ['me', 'us'], ['he', 'they'], ['she', 'they'], ['them', 'them'], ['myself', 'ourselves'], ['yourself', 'yourselves'], ['itself', 'themselves'], ['herself', 'themselves'], ['himself', 'themselves'], ['themself', 'themselves'], ['is', 'are'], ['was', 'were'], ['has', 'have'], ['this', 'these'], ['that', 'those'], ['echo', 'echoes'], ['dingo', 'dingoes'], ['volcano', 'volcanoes'], ['tornado', 'tornadoes'], ['torpedo', 'torpedoes'], ['genus', 'genera'], ['viscus', 'viscera'], ['stigma', 'stigmata'], ['stoma', 'stomata'], ['dogma', 'dogmata'], ['lemma', 'lemmata'], ['schema', 'schemata'], ['anathema', 'anathemata'], ['ox', 'oxen'], ['axe', 'axes'], ['die', 'dice'], ['yes', 'yeses'], ['foot', 'feet'], ['eave', 'eaves'], ['goose', 'geese'], ['tooth', 'teeth'], ['quiz', 'quizzes'], ['human', 'humans'], ['proof', 'proofs'], ['carve', 'carves'], ['valve', 'valves'], ['looey', 'looies'], ['thief', 'thieves'], ['groove', 'grooves'], ['pickaxe', 'pickaxes'], ['passerby', 'passersby'] ].forEach(function (rule) { return pluralize.addIrregularRule(rule[0], rule[1]); }); [ [/s?$/i, 's'], [/[^\u0000-\u007F]$/i, '$0'], [/([^aeiou]ese)$/i, '$1'], [/(ax|test)is$/i, '$1es'], [/(alias|[^aou]us|t[lm]as|gas|ris)$/i, '$1es'], [/(e[mn]u)s?$/i, '$1s'], [/([^l]ias|[aeiou]las|[ejzr]as|[iu]am)$/i, '$1'], [/(alumn|syllab|vir|radi|nucle|fung|cact|stimul|termin|bacill|foc|uter|loc|strat)(?:us|i)$/i, '$1i'], [/(alumn|alg|vertebr)(?:a|ae)$/i, '$1ae'], [/(seraph|cherub)(?:im)?$/i, '$1im'], [/(her|at|gr)o$/i, '$1oes'], [/(agend|addend|millenni|dat|extrem|bacteri|desiderat|strat|candelabr|errat|ov|symposi|curricul|automat|quor)(?:a|um)$/i, '$1a'], [/(apheli|hyperbat|periheli|asyndet|noumen|phenomen|criteri|organ|prolegomen|hedr|automat)(?:a|on)$/i, '$1a'], [/sis$/i, 'ses'], [/(?:(kni|wi|li)fe|(ar|l|ea|eo|oa|hoo)f)$/i, '$1$2ves'], [/([^aeiouy]|qu)y$/i, '$1ies'], [/([^ch][ieo][ln])ey$/i, '$1ies'], [/(x|ch|ss|sh|zz)$/i, '$1es'], [/(matr|cod|mur|sil|vert|ind|append)(?:ix|ex)$/i, '$1ices'], [/\b((?:tit)?m|l)(?:ice|ouse)$/i, '$1ice'], [/(pe)(?:rson|ople)$/i, '$1ople'], [/(child)(?:ren)?$/i, '$1ren'], [/eaux$/i, '$0'], [/m[ae]n$/i, 'men'], ['thou', 'you'] ].forEach(function (rule) { return pluralize.addPluralRule(rule[0], rule[1]); }); [ [/s$/i, ''], [/(ss)$/i, '$1'], [/(wi|kni|(?:after|half|high|low|mid|non|night|[^\w]|^)li)ves$/i, '$1fe'], [/(ar|(?:wo|[ae])l|[eo][ao])ves$/i, '$1f'], [/ies$/i, 'y'], [/\b([pl]|zomb|(?:neck|cross)?t|coll|faer|food|gen|goon|group|lass|talk|goal|cut)ies$/i, '$1ie'], [/\b(mon|smil)ies$/i, '$1ey'], [/\b((?:tit)?m|l)ice$/i, '$1ouse'], [/(seraph|cherub)im$/i, '$1'], [/(x|ch|ss|sh|zz|tto|go|cho|alias|[^aou]us|t[lm]as|gas|(?:her|at|gr)o|[aeiou]ris)(?:es)?$/i, '$1'], [/(analy|diagno|parenthe|progno|synop|the|empha|cri|ne)(?:sis|ses)$/i, '$1sis'], [/(movie|twelve|abuse|e[mn]u)s$/i, '$1'], [/(test)(?:is|es)$/i, '$1is'], [/(alumn|syllab|vir|radi|nucle|fung|cact|stimul|termin|bacill|foc|uter|loc|strat)(?:us|i)$/i, '$1us'], [/(agend|addend|millenni|dat|extrem|bacteri|desiderat|strat|candelabr|errat|ov|symposi|curricul|quor)a$/i, '$1um'], [/(apheli|hyperbat|periheli|asyndet|noumen|phenomen|criteri|organ|prolegomen|hedr|automat)a$/i, '$1on'], [/(alumn|alg|vertebr)ae$/i, '$1a'], [/(cod|mur|sil|vert|ind)ices$/i, '$1ex'], [/(matr|append)ices$/i, '$1ix'], [/(pe)(rson|ople)$/i, '$1rson'], [/(child)ren$/i, '$1'], [/(eau)x?$/i, '$1'], [/men$/i, 'man'] ].forEach(function (rule) { return pluralize.addSingularRule(rule[0], rule[1]); }); [ 'adulthood', 'advice', 'agenda', 'aid', 'aircraft', 'alcohol', 'ammo', 'analytics', 'anime', 'athletics', 'audio', 'bison', 'blood', 'bream', 'buffalo', 'butter', 'carp', 'cash', 'chassis', 'chess', 'clothing', 'cod', 'commerce', 'cooperation', 'corps', 'debris', 'diabetes', 'digestion', 'elk', 'energy', 'equipment', 'excretion', 'expertise', 'firmware', 'flounder', 'fun', 'gallows', 'garbage', 'graffiti', 'hardware', 'headquarters', 'health', 'herpes', 'highjinks', 'homework', 'housework', 'information', 'jeans', 'justice', 'kudos', 'labour', 'literature', 'machinery', 'mackerel', 'mail', 'media', 'mews', 'moose', 'music', 'mud', 'manga', 'news', 'only', 'personnel', 'pike', 'plankton', 'pliers', 'police', 'pollution', 'premises', 'rain', 'research', 'rice', 'salmon', 'scissors', 'series', 'sewage', 'shambles', 'shrimp', 'software', 'species', 'staff', 'swine', 'tennis', 'traffic', 'transportation', 'trout', 'tuna', 'wealth', 'welfare', 'whiting', 'wildebeest', 'wildlife', 'you', /pok[eé]mon$/i, /[^aeiou]ese$/i, /deer$/i, /fish$/i, /measles$/i, /o[iu]s$/i, /pox$/i, /sheep$/i ].forEach(pluralize.addUncountableRule); return pluralize; }); } (pluralize)); var pluralizeExports = pluralize.exports; var plural = getDefaultExportFromCjs(pluralizeExports); const convert$y = ( function (test) { if (test === undefined || test === null) { return ok$y } if (typeof test === 'string') { return typeFactory$y(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$y(test) : propsFactory$y(test) } if (typeof test === 'function') { return castFactory$y(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$y(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$y(tests[index]); } return castFactory$y(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$y(check) { return castFactory$y(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$y(check) { return castFactory$y(type) function type(node) { return node && node.type === check } } function castFactory$y(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$y() { return true } function color$z(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$y = true; const EXIT$y = false; const SKIP$y = 'skip'; const visitParents$y = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$y(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$z(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$y(visitor(node, parents)); if (result[0] === EXIT$y) { return result } } if (node.children && result[0] !== SKIP$y) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$y) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$y(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$y, value] } return [value] } const visit$y = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$y(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that list items are not indented. * * ## API * * There are no options. * * ## Recommendation * * There is no specific handling of indented list items (or anything else) in * markdown. * While it is possible to use an indent to align ordered lists on their marker: * * ```markdown * 1. One * 10. Ten * 100. Hundred * ``` * * …such a style is uncommon and a bit hard to maintain: adding a 10th item * means 9 other items have to change (more arduous, while unlikely, would be * the 100th item). * Hence, it’s recommended to not indent items and to turn this rule on. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats all items without indent. * * @module list-item-bullet-indent * @summary * remark-lint rule to warn when list items are indented. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * Paragraph. * * * List item * * List item * * @example * {"name": "not-ok.md", "label": "input"} * * Paragraph. * * ·* List item * ·* List item * * @example * {"name": "not-ok.md", "label": "output"} * * 3:2: Incorrect indentation before bullet: remove 1 space * 4:2: Incorrect indentation before bullet: remove 1 space */ const remarkLintListItemBulletIndent = lintRule( { origin: 'remark-lint:list-item-bullet-indent', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-list-item-bullet-indent#readme' }, (tree, file) => { visit$y(tree, 'list', (list, _, grandparent) => { let index = -1; while (++index < list.children.length) { const item = list.children[index]; if ( grandparent && grandparent.type === 'root' && grandparent.position && typeof grandparent.position.start.column === 'number' && item.position && typeof item.position.start.column === 'number' ) { const indent = item.position.start.column - grandparent.position.start.column; if (indent) { file.message( 'Incorrect indentation before bullet: remove ' + indent + ' ' + plural('space', indent), item.position.start ); } } } }); } ); var remarkLintListItemBulletIndent$1 = remarkLintListItemBulletIndent; const convert$x = ( function (test) { if (test === undefined || test === null) { return ok$x } if (typeof test === 'string') { return typeFactory$x(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$x(test) : propsFactory$x(test) } if (typeof test === 'function') { return castFactory$x(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$x(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$x(tests[index]); } return castFactory$x(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$x(check) { return castFactory$x(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$x(check) { return castFactory$x(type) function type(node) { return node && node.type === check } } function castFactory$x(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$x() { return true } function color$y(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$x = true; const EXIT$x = false; const SKIP$x = 'skip'; const visitParents$x = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$x(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$y(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$x(visitor(node, parents)); if (result[0] === EXIT$x) { return result } } if (node.children && result[0] !== SKIP$x) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$x) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$x(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$x, value] } return [value] } const visit$x = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$x(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); const pointStart = point$2('start'); const pointEnd = point$2('end'); function point$2(type) { return point function point(node) { const point = (node && node.position && node.position[type]) || {}; return { line: point.line || null, column: point.column || null, offset: point.offset > -1 ? point.offset : null } } } function generated(node) { return ( !node || !node.position || !node.position.start || !node.position.start.line || !node.position.start.column || !node.position.end || !node.position.end.line || !node.position.end.column ) } /** * ## When should I use this? * * You can use this package to check that the spacing between list item markers * and content is inconsistent. * * ## API * * The following options (default: `'tab-size'`) are accepted: * * * `'space'` * — prefer a single space * * `'tab-size'` * — prefer spaces the size of the next tab stop * * `'mixed'` * — prefer `'space'` for tight lists and `'tab-size'` for loose lists * * ## Recommendation * * First, some background. * The number of spaces that occur after list markers (`*`, `-`, and `+` for * unordered lists, or `.` and `)` for unordered lists) and before the content * on the first line, defines how much indentation can be used for further * lines. * At least one space is required and up to 4 spaces are allowed (if there is no * further content after the marker then it’s a blank line which is handled as * if there was one space; if there are 5 or more spaces and then content, it’s * also seen as one space and the rest is seen as indented code). * * There are two types of lists in markdown (other than ordered and unordered): * tight and loose lists. * Lists are tight by default but if there is a blank line between two list * items or between two blocks inside an item, that turns the whole list into a * loose list. * When turning markdown into HTML, paragraphs in tight lists are not wrapped * in `

` tags. * * Historically, how indentation of lists works in markdown has been a mess, * especially with how they interact with indented code. * CommonMark made that a *lot* better, but there remain (documented but * complex) edge cases and some behavior intuitive. * Due to this, the default of this list is `'tab-size'`, which worked the best * in most markdown parsers. * Currently, the situation between markdown parsers is better, so choosing * `'space'` (which seems to be the most common style used by authors) should * be okay. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * uses `'tab-size'` (named `'tab'` there) by default. * [`listItemIndent: '1'` (for `'space'`) or `listItemIndent: 'mixed'`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionslistitemindent) * is supported. * * @module list-item-indent * @summary * remark-lint rule to warn when spacing between list item markers and * content is inconsistent. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * *···List * ····item. * * Paragraph. * * 11.·List * ····item. * * Paragraph. * * *···List * ····item. * * *···List * ····item. * * @example * {"name": "ok.md", "config": "mixed"} * * *·List item. * * Paragraph. * * 11.·List item * * Paragraph. * * *···List * ····item. * * *···List * ····item. * * @example * {"name": "ok.md", "config": "space"} * * *·List item. * * Paragraph. * * 11.·List item * * Paragraph. * * *·List * ··item. * * *·List * ··item. * * @example * {"name": "not-ok.md", "config": "space", "label": "input"} * * *···List * ····item. * * @example * {"name": "not-ok.md", "config": "space", "label": "output"} * * 1:5: Incorrect list-item indent: remove 2 spaces * * @example * {"name": "not-ok.md", "config": "tab-size", "label": "input"} * * *·List * ··item. * * @example * {"name": "not-ok.md", "config": "tab-size", "label": "output"} * * 1:3: Incorrect list-item indent: add 2 spaces * * @example * {"name": "not-ok.md", "config": "mixed", "label": "input"} * * *···List item. * * @example * {"name": "not-ok.md", "config": "mixed", "label": "output"} * * 1:5: Incorrect list-item indent: remove 2 spaces * * @example * {"name": "not-ok.md", "config": "💩", "label": "output", "positionless": true} * * 1:1: Incorrect list-item indent style `💩`: use either `'tab-size'`, `'space'`, or `'mixed'` */ const remarkLintListItemIndent = lintRule( { origin: 'remark-lint:list-item-indent', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-list-item-indent#readme' }, (tree, file, option = 'tab-size') => { const value = String(file); if (option !== 'tab-size' && option !== 'space' && option !== 'mixed') { file.fail( 'Incorrect list-item indent style `' + option + "`: use either `'tab-size'`, `'space'`, or `'mixed'`" ); } visit$x(tree, 'list', (node) => { if (generated(node)) return const spread = node.spread; let index = -1; while (++index < node.children.length) { const item = node.children[index]; const head = item.children[0]; const final = pointStart(head); const marker = value .slice(pointStart(item).offset, final.offset) .replace(/\[[x ]?]\s*$/i, ''); const bulletSize = marker.replace(/\s+$/, '').length; const style = option === 'tab-size' || (option === 'mixed' && spread) ? Math.ceil(bulletSize / 4) * 4 : bulletSize + 1; if (marker.length !== style) { const diff = style - marker.length; const abs = Math.abs(diff); file.message( 'Incorrect list-item indent: ' + (diff > 0 ? 'add' : 'remove') + ' ' + abs + ' ' + plural('space', abs), final ); } } }); } ); var remarkLintListItemIndent$1 = remarkLintListItemIndent; const convert$w = ( function (test) { if (test === undefined || test === null) { return ok$w } if (typeof test === 'string') { return typeFactory$w(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$w(test) : propsFactory$w(test) } if (typeof test === 'function') { return castFactory$w(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$w(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$w(tests[index]); } return castFactory$w(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$w(check) { return castFactory$w(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$w(check) { return castFactory$w(type) function type(node) { return node && node.type === check } } function castFactory$w(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$w() { return true } function color$x(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$w = true; const EXIT$w = false; const SKIP$w = 'skip'; const visitParents$w = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$w(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$x(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$w(visitor(node, parents)); if (result[0] === EXIT$w) { return result } } if (node.children && result[0] !== SKIP$w) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$w) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$w(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$w, value] } return [value] } const visit$w = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$w(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that lines in block quotes start with `>`. * * ## API * * There are no options. * * ## Recommendation * * Rules around “lazy” lines are not straightforward and visually confusing, * so it’s recommended to start each line with a `>`. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * adds `>` markers to every line in a block quote. * * @module no-blockquote-without-marker * @summary * remark-lint rule to warn when lines in block quotes start without `>`. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * > Foo… * > …bar… * > …baz. * * @example * {"name": "ok-tabs.md"} * * >»Foo… * >»…bar… * >»…baz. * * @example * {"name": "not-ok.md", "label": "input"} * * > Foo… * …bar… * > …baz. * * @example * {"name": "not-ok.md", "label": "output"} * * 2:1: Missing marker in block quote * * @example * {"name": "not-ok-tabs.md", "label": "input"} * * >»Foo… * »…bar… * …baz. * * @example * {"name": "not-ok-tabs.md", "label": "output"} * * 2:1: Missing marker in block quote * 3:1: Missing marker in block quote */ const remarkLintNoBlockquoteWithoutMarker = lintRule( { origin: 'remark-lint:no-blockquote-without-marker', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-blockquote-without-marker#readme' }, (tree, file) => { const value = String(file); const loc = location(file); visit$w(tree, 'blockquote', (node) => { let index = -1; while (++index < node.children.length) { const child = node.children[index]; if (child.type === 'paragraph' && !generated(child)) { const end = pointEnd(child).line; const column = pointStart(child).column; let line = pointStart(child).line; while (++line <= end) { const offset = loc.toOffset({line, column}); if (/>[\t ]+$/.test(value.slice(offset - 5, offset))) { continue } file.message('Missing marker in block quote', { line, column: column - 2 }); } } } }); } ); var remarkLintNoBlockquoteWithoutMarker$1 = remarkLintNoBlockquoteWithoutMarker; const convert$v = ( function (test) { if (test === undefined || test === null) { return ok$v } if (typeof test === 'string') { return typeFactory$v(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$v(test) : propsFactory$v(test) } if (typeof test === 'function') { return castFactory$v(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$v(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$v(tests[index]); } return castFactory$v(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$v(check) { return castFactory$v(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$v(check) { return castFactory$v(type) function type(node) { return node && node.type === check } } function castFactory$v(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$v() { return true } function color$w(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$v = true; const EXIT$v = false; const SKIP$v = 'skip'; const visitParents$v = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$v(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$w(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$v(visitor(node, parents)); if (result[0] === EXIT$v) { return result } } if (node.children && result[0] !== SKIP$v) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$v) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$v(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$v, value] } return [value] } const visit$v = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$v(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); const emptyOptions$1 = {}; function toString$1(value, options) { const settings = options || emptyOptions$1; const includeImageAlt = typeof settings.includeImageAlt === 'boolean' ? settings.includeImageAlt : true; const includeHtml = typeof settings.includeHtml === 'boolean' ? settings.includeHtml : true; return one$1(value, includeImageAlt, includeHtml) } function one$1(value, includeImageAlt, includeHtml) { if (node$1(value)) { if ('value' in value) { return value.type === 'html' && !includeHtml ? '' : value.value } if (includeImageAlt && 'alt' in value && value.alt) { return value.alt } if ('children' in value) { return all$1(value.children, includeImageAlt, includeHtml) } } if (Array.isArray(value)) { return all$1(value, includeImageAlt, includeHtml) } return '' } function all$1(values, includeImageAlt, includeHtml) { const result = []; let index = -1; while (++index < values.length) { result[index] = one$1(values[index], includeImageAlt, includeHtml); } return result.join('') } function node$1(value) { return Boolean(value && typeof value === 'object') } /** * ## When should I use this? * * You can use this package to check that autolink literal URLs are not used. * * ## API * * There are no options. * * ## Recommendation * * Autolink literal URLs (just a URL) are a feature enabled by GFM. * They don’t work everywhere. * Due to this, it’s recommended to instead use normal autolinks * (``) or links (`[text](url)`). * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * never creates autolink literals and always uses normal autolinks (``). * * @module no-literal-urls * @summary * remark-lint rule to warn for autolink literals. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * * * @example * {"name": "not-ok.md", "label": "input", "gfm": true} * * http://foo.bar/baz * * @example * {"name": "not-ok.md", "label": "output", "gfm": true} * * 1:1-1:19: Don’t use literal URLs without angle brackets */ const remarkLintNoLiteralUrls = lintRule( { origin: 'remark-lint:no-literal-urls', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-literal-urls#readme' }, (tree, file) => { visit$v(tree, 'link', (node) => { const value = toString$1(node); if ( !generated(node) && pointStart(node).column === pointStart(node.children[0]).column && pointEnd(node).column === pointEnd(node.children[node.children.length - 1]).column && (node.url === 'mailto:' + value || node.url === value) ) { file.message('Don’t use literal URLs without angle brackets', node); } }); } ); var remarkLintNoLiteralUrls$1 = remarkLintNoLiteralUrls; const convert$u = ( function (test) { if (test === undefined || test === null) { return ok$u } if (typeof test === 'string') { return typeFactory$u(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$u(test) : propsFactory$u(test) } if (typeof test === 'function') { return castFactory$u(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$u(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$u(tests[index]); } return castFactory$u(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$u(check) { return castFactory$u(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$u(check) { return castFactory$u(type) function type(node) { return node && node.type === check } } function castFactory$u(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$u() { return true } function color$v(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$u = true; const EXIT$u = false; const SKIP$u = 'skip'; const visitParents$u = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$u(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$v(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$u(visitor(node, parents)); if (result[0] === EXIT$u) { return result } } if (node.children && result[0] !== SKIP$u) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$u) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$u(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$u, value] } return [value] } const visit$u = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$u(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that ordered list markers are consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `'.'` * — prefer dots * * `')'` * — prefer parens * * `'consistent'` * — detect the first used style and warn when further markers differ * * ## Recommendation * * Parens for list markers were not supported in markdown before CommonMark. * While they should work in most places now, not all markdown parsers follow * CommonMark. * Due to this, it’s recommended to prefer dots. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats ordered lists with dots by default. * Pass * [`bulletOrdered: ')'`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsbulletordered) * to always use parens. * * @module ordered-list-marker-style * @summary * remark-lint rule to warn when ordered list markers are inconsistent. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * 1. Foo * * * 1. Bar * * Unordered lists are not affected by this rule. * * * Foo * * @example * {"name": "ok.md", "config": "."} * * 1. Foo * * 2. Bar * * @example * {"name": "ok.md", "config": ")"} * * 1) Foo * * 2) Bar * * @example * {"name": "not-ok.md", "label": "input"} * * 1. Foo * * 2) Bar * * @example * {"name": "not-ok.md", "label": "output"} * * 3:1-3:8: Marker style should be `.` * * @example * {"name": "not-ok.md", "label": "output", "config": "💩", "positionless": true} * * 1:1: Incorrect ordered list item marker style `💩`: use either `'.'` or `')'` */ const remarkLintOrderedListMarkerStyle = lintRule( { origin: 'remark-lint:ordered-list-marker-style', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-ordered-list-marker-style#readme' }, (tree, file, option = 'consistent') => { const value = String(file); if (option !== 'consistent' && option !== '.' && option !== ')') { file.fail( 'Incorrect ordered list item marker style `' + option + "`: use either `'.'` or `')'`" ); } visit$u(tree, 'list', (node) => { let index = -1; if (!node.ordered) return while (++index < node.children.length) { const child = node.children[index]; if (!generated(child)) { const marker = ( value .slice( pointStart(child).offset, pointStart(child.children[0]).offset ) .replace(/\s|\d/g, '') .replace(/\[[x ]?]\s*$/i, '') ); if (option === 'consistent') { option = marker; } else if (marker !== option) { file.message('Marker style should be `' + option + '`', child); } } } }); } ); var remarkLintOrderedListMarkerStyle$1 = remarkLintOrderedListMarkerStyle; const convert$t = ( function (test) { if (test === undefined || test === null) { return ok$t } if (typeof test === 'string') { return typeFactory$t(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$t(test) : propsFactory$t(test) } if (typeof test === 'function') { return castFactory$t(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$t(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$t(tests[index]); } return castFactory$t(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$t(check) { return castFactory$t(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$t(check) { return castFactory$t(type) function type(node) { return node && node.type === check } } function castFactory$t(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$t() { return true } function color$u(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$t = true; const EXIT$t = false; const SKIP$t = 'skip'; const visitParents$t = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$t(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$u(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$t(visitor(node, parents)); if (result[0] === EXIT$t) { return result } } if (node.children && result[0] !== SKIP$t) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$t) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$t(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$t, value] } return [value] } const visit$t = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$t(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that hard breaks use two spaces and * not more. * * ## API * * There are no options. * * ## Recommendation * * Less than two spaces do not create a hard breaks and more than two spaces * have no effect. * Due to this, it’s recommended to turn this rule on. * * @module hard-break-spaces * @summary * remark-lint rule to warn when more spaces are used than needed * for hard breaks. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * Lorem ipsum·· * dolor sit amet * * @example * {"name": "not-ok.md", "label": "input"} * * Lorem ipsum··· * dolor sit amet. * * @example * {"name": "not-ok.md", "label": "output"} * * 1:12-2:1: Use two spaces for hard line breaks */ const remarkLintHardBreakSpaces = lintRule( { origin: 'remark-lint:hard-break-spaces', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-hard-break-spaces#readme' }, (tree, file) => { const value = String(file); visit$t(tree, 'break', (node) => { if (!generated(node)) { const slice = value .slice(pointStart(node).offset, pointEnd(node).offset) .split('\n', 1)[0] .replace(/\r$/, ''); if (slice.length > 2) { file.message('Use two spaces for hard line breaks', node); } } }); } ); var remarkLintHardBreakSpaces$1 = remarkLintHardBreakSpaces; function stringifyPosition$1(value) { if (!value || typeof value !== 'object') { return '' } if ('position' in value || 'type' in value) { return position$1(value.position) } if ('start' in value || 'end' in value) { return position$1(value) } if ('line' in value || 'column' in value) { return point$1(value) } return '' } function point$1(point) { return index$1(point && point.line) + ':' + index$1(point && point.column) } function position$1(pos) { return point$1(pos && pos.start) + '-' + point$1(pos && pos.end) } function index$1(value) { return value && typeof value === 'number' ? value : 1 } const convert$s = ( function (test) { if (test === undefined || test === null) { return ok$s } if (typeof test === 'string') { return typeFactory$s(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$s(test) : propsFactory$s(test) } if (typeof test === 'function') { return castFactory$s(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$s(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$s(tests[index]); } return castFactory$s(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$s(check) { return castFactory$s(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$s(check) { return castFactory$s(type) function type(node) { return node && node.type === check } } function castFactory$s(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$s() { return true } function color$t(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$s = true; const EXIT$s = false; const SKIP$s = 'skip'; const visitParents$s = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$s(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$t(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$s(visitor(node, parents)); if (result[0] === EXIT$s) { return result } } if (node.children && result[0] !== SKIP$s) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$s) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$s(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$s, value] } return [value] } const visit$s = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$s(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that identifiers are defined once. * * ## API * * There are no options. * * ## Recommendation * * It’s a mistake when the same identifier is defined multiple times. * * @module no-duplicate-definitions * @summary * remark-lint rule to warn when identifiers are defined multiple times. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * [foo]: bar * [baz]: qux * * @example * {"name": "not-ok.md", "label": "input"} * * [foo]: bar * [foo]: qux * * @example * {"name": "not-ok.md", "label": "output"} * * 2:1-2:11: Do not use definitions with the same identifier (1:1) */ const remarkLintNoDuplicateDefinitions = lintRule( { origin: 'remark-lint:no-duplicate-definitions', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-duplicate-definitions#readme' }, (tree, file) => { const map = Object.create(null); visit$s(tree, (node) => { if ( (node.type === 'definition' || node.type === 'footnoteDefinition') && !generated(node) ) { const identifier = node.identifier; const duplicate = map[identifier]; if (duplicate) { file.message( 'Do not use definitions with the same identifier (' + duplicate + ')', node ); } map[identifier] = stringifyPosition$1(pointStart(node)); } }); } ); var remarkLintNoDuplicateDefinitions$1 = remarkLintNoDuplicateDefinitions; const convert$r = ( function (test) { if (test === undefined || test === null) { return ok$r } if (typeof test === 'string') { return typeFactory$r(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$r(test) : propsFactory$r(test) } if (typeof test === 'function') { return castFactory$r(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$r(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$r(tests[index]); } return castFactory$r(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$r(check) { return castFactory$r(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$r(check) { return castFactory$r(type) function type(node) { return node && node.type === check } } function castFactory$r(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$r() { return true } function color$s(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$r = true; const EXIT$r = false; const SKIP$r = 'skip'; const visitParents$r = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$r(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$s(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$r(visitor(node, parents)); if (result[0] === EXIT$r) { return result } } if (node.children && result[0] !== SKIP$r) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$r) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$r(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$r, value] } return [value] } const visit$r = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$r(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); function headingStyle(node, relative) { const last = node.children[node.children.length - 1]; const depth = node.depth; const pos = node.position && node.position.end; const final = last && last.position && last.position.end; if (!pos) { return null } if (!last) { if (pos.column - 1 <= depth * 2) { return consolidate(depth, relative) } return 'atx-closed' } if (final && final.line + 1 === pos.line) { return 'setext' } if (final && final.column + depth < pos.column) { return 'atx-closed' } return consolidate(depth, relative) } function consolidate(depth, relative) { return depth < 3 ? 'atx' : relative === 'atx' || relative === 'setext' ? relative : null } /** * ## When should I use this? * * You can use this package to check that there is on space between `#` * characters and the content in headings. * * ## API * * There are no options. * * ## Recommendation * * One space is required and more than one space has no effect. * Due to this, it’s recommended to turn this rule on. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats headings with exactly one space. * * @module no-heading-content-indent * @summary * remark-lint rule to warn when there are too many spaces between * hashes and content in headings. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * #·Foo * * ## Bar·## * * ##·Baz * * Setext headings are not affected. * * Baz * === * * @example * {"name": "not-ok.md", "label": "input"} * * #··Foo * * ## Bar··## * * ##··Baz * * @example * {"name": "not-ok.md", "label": "output"} * * 1:4: Remove 1 space before this heading’s content * 3:7: Remove 1 space after this heading’s content * 5:7: Remove 1 space before this heading’s content * * @example * {"name": "empty-heading.md"} * * #·· */ const remarkLintNoHeadingContentIndent = lintRule( { origin: 'remark-lint:no-heading-content-indent', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-heading-content-indent#readme' }, (tree, file) => { visit$r(tree, 'heading', (node) => { if (generated(node)) { return } const type = headingStyle(node, 'atx'); if (type === 'atx' || type === 'atx-closed') { const head = pointStart(node.children[0]).column; if (!head) { return } const diff = head - pointStart(node).column - 1 - node.depth; if (diff) { file.message( 'Remove ' + Math.abs(diff) + ' ' + plural('space', Math.abs(diff)) + ' before this heading’s content', pointStart(node.children[0]) ); } } if (type === 'atx-closed') { const final = pointEnd(node.children[node.children.length - 1]); const diff = pointEnd(node).column - final.column - 1 - node.depth; if (diff) { file.message( 'Remove ' + diff + ' ' + plural('space', diff) + ' after this heading’s content', final ); } } }); } ); var remarkLintNoHeadingContentIndent$1 = remarkLintNoHeadingContentIndent; const convert$q = ( function (test) { if (test === undefined || test === null) { return ok$q } if (typeof test === 'string') { return typeFactory$q(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$q(test) : propsFactory$q(test) } if (typeof test === 'function') { return castFactory$q(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$q(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$q(tests[index]); } return castFactory$q(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$q(check) { return castFactory$q(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$q(check) { return castFactory$q(type) function type(node) { return node && node.type === check } } function castFactory$q(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$q() { return true } function color$r(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$q = true; const EXIT$q = false; const SKIP$q = 'skip'; const visitParents$q = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$q(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$r(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$q(visitor(node, parents)); if (result[0] === EXIT$q) { return result } } if (node.children && result[0] !== SKIP$q) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$q) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$q(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$q, value] } return [value] } const visit$q = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$q(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); const emptyOptions = {}; function toString(value, options) { const settings = options || emptyOptions; const includeImageAlt = typeof settings.includeImageAlt === 'boolean' ? settings.includeImageAlt : true; const includeHtml = typeof settings.includeHtml === 'boolean' ? settings.includeHtml : true; return one(value, includeImageAlt, includeHtml) } function one(value, includeImageAlt, includeHtml) { if (node(value)) { if ('value' in value) { return value.type === 'html' && !includeHtml ? '' : value.value } if (includeImageAlt && 'alt' in value && value.alt) { return value.alt } if ('children' in value) { return all(value.children, includeImageAlt, includeHtml) } } if (Array.isArray(value)) { return all(value, includeImageAlt, includeHtml) } return '' } function all(values, includeImageAlt, includeHtml) { const result = []; let index = -1; while (++index < values.length) { result[index] = one(values[index], includeImageAlt, includeHtml); } return result.join('') } function node(value) { return Boolean(value && typeof value === 'object') } /** * ## When should I use this? * * You can use this package to check that inline constructs (links) are * not padded. * Historically, it was possible to pad emphasis, strong, and strikethrough * too, but this was removed in CommonMark, making this rule much less useful. * * ## API * * There are no options. * * @module no-inline-padding * @summary * remark-lint rule to warn when inline constructs are padded. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * Alpha [bravo](http://echo.fox/trot) * * @example * {"name": "not-ok.md", "label": "input"} * * Alpha [ bravo ](http://echo.fox/trot) * * @example * {"name": "not-ok.md", "label": "output"} * * 1:7-1:38: Don’t pad `link` with inner spaces */ const remarkLintNoInlinePadding = lintRule( { origin: 'remark-lint:no-inline-padding', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-inline-padding#readme' }, (tree, file) => { visit$q(tree, (node) => { if ( (node.type === 'link' || node.type === 'linkReference') && !generated(node) ) { const value = toString(node); if (value.charAt(0) === ' ' || value.charAt(value.length - 1) === ' ') { file.message('Don’t pad `' + node.type + '` with inner spaces', node); } } }); } ); var remarkLintNoInlinePadding$1 = remarkLintNoInlinePadding; const convert$p = ( function (test) { if (test === undefined || test === null) { return ok$p } if (typeof test === 'string') { return typeFactory$p(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$p(test) : propsFactory$p(test) } if (typeof test === 'function') { return castFactory$p(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$p(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$p(tests[index]); } return castFactory$p(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$p(check) { return castFactory$p(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$p(check) { return castFactory$p(type) function type(node) { return node && node.type === check } } function castFactory$p(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$p() { return true } function color$q(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$p = true; const EXIT$p = false; const SKIP$p = 'skip'; const visitParents$p = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$p(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$q(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$p(visitor(node, parents)); if (result[0] === EXIT$p) { return result } } if (node.children && result[0] !== SKIP$p) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$p) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$p(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$p, value] } return [value] } const visit$p = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$p(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that collapsed or full reference images * are used. * * ## API * * There are no options. * * ## Recommendation * * Shortcut references use an implicit style that looks a lot like something * that could occur as plain text instead of syntax. * In some cases, plain text is intended instead of an image. * Due to this, it’s recommended to use collapsed (or full) references * instead. * * @module no-shortcut-reference-image * @summary * remark-lint rule to warn when shortcut reference images are used. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * ![foo][] * * [foo]: http://foo.bar/baz.png * * @example * {"name": "not-ok.md", "label": "input"} * * ![foo] * * [foo]: http://foo.bar/baz.png * * @example * {"name": "not-ok.md", "label": "output"} * * 1:1-1:7: Use the trailing [] on reference images */ const remarkLintNoShortcutReferenceImage = lintRule( { origin: 'remark-lint:no-shortcut-reference-image', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-shortcut-reference-image#readme' }, (tree, file) => { visit$p(tree, 'imageReference', (node) => { if (!generated(node) && node.referenceType === 'shortcut') { file.message('Use the trailing [] on reference images', node); } }); } ); var remarkLintNoShortcutReferenceImage$1 = remarkLintNoShortcutReferenceImage; const convert$o = ( function (test) { if (test === undefined || test === null) { return ok$o } if (typeof test === 'string') { return typeFactory$o(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$o(test) : propsFactory$o(test) } if (typeof test === 'function') { return castFactory$o(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$o(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$o(tests[index]); } return castFactory$o(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$o(check) { return castFactory$o(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$o(check) { return castFactory$o(type) function type(node) { return node && node.type === check } } function castFactory$o(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$o() { return true } function color$p(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$o = true; const EXIT$o = false; const SKIP$o = 'skip'; const visitParents$o = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$o(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$p(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$o(visitor(node, parents)); if (result[0] === EXIT$o) { return result } } if (node.children && result[0] !== SKIP$o) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$o) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$o(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$o, value] } return [value] } const visit$o = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$o(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that collapsed or full reference links * are used. * * ## API * * There are no options. * * ## Recommendation * * Shortcut references use an implicit style that looks a lot like something * that could occur as plain text instead of syntax. * In some cases, plain text is intended instead of a link. * Due to this, it’s recommended to use collapsed (or full) references * instead. * * @module no-shortcut-reference-link * @summary * remark-lint rule to warn when shortcut reference links are used. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * [foo][] * * [foo]: http://foo.bar/baz * * @example * {"name": "not-ok.md", "label": "input"} * * [foo] * * [foo]: http://foo.bar/baz * * @example * {"name": "not-ok.md", "label": "output"} * * 1:1-1:6: Use the trailing `[]` on reference links */ const remarkLintNoShortcutReferenceLink = lintRule( { origin: 'remark-lint:no-shortcut-reference-link', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-shortcut-reference-link#readme' }, (tree, file) => { visit$o(tree, 'linkReference', (node) => { if (!generated(node) && node.referenceType === 'shortcut') { file.message('Use the trailing `[]` on reference links', node); } }); } ); var remarkLintNoShortcutReferenceLink$1 = remarkLintNoShortcutReferenceLink; function normalizeIdentifier(value) { return ( value .replace(/[\t\n\r ]+/g, ' ') .replace(/^ | $/g, '') .toLowerCase() .toUpperCase() ) } const convert$n = ( function (test) { if (test === undefined || test === null) { return ok$n } if (typeof test === 'string') { return typeFactory$n(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$n(test) : propsFactory$n(test) } if (typeof test === 'function') { return castFactory$n(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$n(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$n(tests[index]); } return castFactory$n(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$n(check) { return castFactory$n(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$n(check) { return castFactory$n(type) function type(node) { return node && node.type === check } } function castFactory$n(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$n() { return true } function color$o(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$n = true; const EXIT$n = false; const SKIP$n = 'skip'; const visitParents$n = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$n(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$o(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$n(visitor(node, parents)); if (result[0] === EXIT$n) { return result } } if (node.children && result[0] !== SKIP$n) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$n) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$n(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$n, value] } return [value] } const visit$n = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$n(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that referenced definitions are defined. * * ## API * * The following options (default: `undefined`) are accepted: * * * `Object` with the following fields: * * `allow` (`Array`, * default: `[]`) * — text or regex that you want to be allowed between `[` and `]` * even though it’s undefined; regex is provided via a `RegExp` object * or via a `{source: string}` object where `source` is the source * text of a case-insensitive regex * * ## Recommendation * * Shortcut references use an implicit syntax that could also occur as plain * text. * For example, it is reasonable to expect an author adding `[…]` to abbreviate * some text somewhere in a document: * * ```markdown * > Some […] quote. * ``` * * This isn’t a problem, but it might become one when an author later adds a * definition: * * ```markdown * Some text. […][] * * […] #read-more "Read more" * ``` * * The second author might expect only their newly added text to form a link, * but their changes also result in a link for the first author’s text. * * @module no-undefined-references * @summary * remark-lint rule to warn when undefined definitions are referenced. * @author Titus Wormer * @copyright 2016 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * [foo][] * * Just a [ bracket. * * Typically, you’d want to use escapes (with a backslash: \\) to escape what * could turn into a \[reference otherwise]. * * Just two braces can’t link: []. * * [foo]: https://example.com * * @example * {"name": "ok-allow.md", "config": {"allow": ["...", "…"]}} * * > Eliding a portion of a quoted passage […] is acceptable. * * @example * {"name": "ok-allow.md", "config": {"allow": ["a", {"source": "^b\\."}]}} * * [foo][b.c] * * [bar][a] * * Matching is case-insensitive: [bar][B.C] * * @example * {"name": "not-ok.md", "label": "input"} * * [bar] * * [baz][] * * [text][qux] * * Spread [over * lines][] * * > in [a * > block quote][] * * [asd][a * * Can include [*emphasis*]. * * Multiple pairs: [a][b][c]. * * @example * {"name": "not-ok.md", "label": "output"} * * 1:1-1:6: Found reference to undefined definition * 3:1-3:8: Found reference to undefined definition * 5:1-5:12: Found reference to undefined definition * 7:8-8:9: Found reference to undefined definition * 10:6-11:17: Found reference to undefined definition * 13:1-13:6: Found reference to undefined definition * 15:13-15:25: Found reference to undefined definition * 17:17-17:23: Found reference to undefined definition * 17:23-17:26: Found reference to undefined definition * * @example * {"name": "not-ok.md", "label": "input", "config": {"allow": ["a", {"source": "^b\\."}]}} * * [foo][a.c] * * [bar][b] * * @example * {"name": "not-ok.md", "label": "output", "config": {"allow": ["a", {"source": "^b\\."}]}} * * 1:1-1:11: Found reference to undefined definition * 3:1-3:9: Found reference to undefined definition */ const remarkLintNoUndefinedReferences = lintRule( { origin: 'remark-lint:no-undefined-references', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-undefined-references#readme' }, (tree, file, option = {}) => { const contents = String(file); const loc = location(file); const lineEnding = /(\r?\n|\r)[\t ]*(>[\t ]*)*/g; const map = Object.create(null); const allow = option.allow || []; const regexes = []; const strings = new Set(); let index = -1; while (++index < allow.length) { const value = allow[index]; if (typeof value === 'string') { strings.add(normalizeIdentifier(value)); } else if (value instanceof RegExp) { regexes.push(value); } else { regexes.push(new RegExp(value.source, 'i')); } } visit$n(tree, (node) => { if ( (node.type === 'definition' || node.type === 'footnoteDefinition') && !generated(node) ) { map[normalizeIdentifier(node.identifier)] = true; } }); visit$n(tree, (node) => { if ( (node.type === 'imageReference' || node.type === 'linkReference' || node.type === 'footnoteReference') && !generated(node) && !(normalizeIdentifier(node.identifier) in map) && !isAllowed(node.identifier) ) { file.message('Found reference to undefined definition', node); } if (node.type === 'paragraph' || node.type === 'heading') { findInPhrasing(node); } }); function findInPhrasing(node) { let ranges = []; visit$n(node, (child) => { if (child === node) return if (child.type === 'link' || child.type === 'linkReference') { ranges = []; return SKIP$n } if (child.type !== 'text') return const start = pointStart(child).offset; const end = pointEnd(child).offset; if (typeof start !== 'number' || typeof end !== 'number') { return EXIT$n } const source = contents.slice(start, end); const lines = [[start, '']]; let last = 0; lineEnding.lastIndex = 0; let match = lineEnding.exec(source); while (match) { const index = match.index; lines[lines.length - 1][1] = source.slice(last, index); last = index + match[0].length; lines.push([start + last, '']); match = lineEnding.exec(source); } lines[lines.length - 1][1] = source.slice(last); let lineIndex = -1; while (++lineIndex < lines.length) { const line = lines[lineIndex][1]; let index = 0; while (index < line.length) { const code = line.charCodeAt(index); if (code === 92) { const next = line.charCodeAt(index + 1); index++; if (next === 91 || next === 93) { index++; } } else if (code === 91) { ranges.push([lines[lineIndex][0] + index]); index++; } else if (code === 93) { if (ranges.length === 0) { index++; } else if (line.charCodeAt(index + 1) === 91) { index++; let range = ranges.pop(); if (range) { range.push(lines[lineIndex][0] + index); if (range.length === 4) { handleRange(range); range = []; } range.push(lines[lineIndex][0] + index); ranges.push(range); index++; } } else { index++; const range = ranges.pop(); if (range) { range.push(lines[lineIndex][0] + index); handleRange(range); } } } else { index++; } } } }); let index = -1; while (++index < ranges.length) { handleRange(ranges[index]); } return SKIP$n function handleRange(range) { if (range.length === 1) return if (range.length === 3) range.length = 2; if (range.length === 2 && range[0] + 2 === range[1]) return const offset = range.length === 4 && range[2] + 2 !== range[3] ? 2 : 0; const id = contents .slice(range[0 + offset] + 1, range[1 + offset] - 1) .replace(lineEnding, ' '); const pos = { start: loc.toPoint(range[0]), end: loc.toPoint(range[range.length - 1]) }; if ( !generated({position: pos}) && !(normalizeIdentifier(id) in map) && !isAllowed(id) ) { file.message('Found reference to undefined definition', pos); } } } function isAllowed(id) { const normalized = normalizeIdentifier(id); return ( strings.has(normalized) || regexes.some((regex) => regex.test(normalized)) ) } } ); var remarkLintNoUndefinedReferences$1 = remarkLintNoUndefinedReferences; const convert$m = ( function (test) { if (test === undefined || test === null) { return ok$m } if (typeof test === 'string') { return typeFactory$m(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$m(test) : propsFactory$m(test) } if (typeof test === 'function') { return castFactory$m(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$m(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$m(tests[index]); } return castFactory$m(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$m(check) { return castFactory$m(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$m(check) { return castFactory$m(type) function type(node) { return node && node.type === check } } function castFactory$m(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$m() { return true } function color$n(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$m = true; const EXIT$m = false; const SKIP$m = 'skip'; const visitParents$m = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$m(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$n(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$m(visitor(node, parents)); if (result[0] === EXIT$m) { return result } } if (node.children && result[0] !== SKIP$m) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$m) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$m(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$m, value] } return [value] } const visit$m = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$m(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check definitions are referenced. * * ## API * * There are no options. * * ## Recommendation * * Unused definitions do not contribute anything, so they can be removed. * * @module no-unused-definitions * @summary * remark-lint rule to warn when unreferenced definitions are used. * @author Titus Wormer * @copyright 2016 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * [foo][] * * [foo]: https://example.com * * @example * {"name": "not-ok.md", "label": "input"} * * [bar]: https://example.com * * @example * {"name": "not-ok.md", "label": "output"} * * 1:1-1:27: Found unused definition */ const own = {}.hasOwnProperty; const remarkLintNoUnusedDefinitions = lintRule( { origin: 'remark-lint:no-unused-definitions', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-no-unused-definitions#readme' }, (tree, file) => { const map = Object.create(null); visit$m(tree, (node) => { if ( (node.type === 'definition' || node.type === 'footnoteDefinition') && !generated(node) ) { map[node.identifier.toUpperCase()] = {node, used: false}; } }); visit$m(tree, (node) => { if ( node.type === 'imageReference' || node.type === 'linkReference' || node.type === 'footnoteReference' ) { const info = map[node.identifier.toUpperCase()]; if (!generated(node) && info) { info.used = true; } } }); let identifier; for (identifier in map) { if (own.call(map, identifier)) { const entry = map[identifier]; if (!entry.used) { file.message('Found unused definition', entry.node); } } } } ); var remarkLintNoUnusedDefinitions$1 = remarkLintNoUnusedDefinitions; const remarkPresetLintRecommended = { plugins: [ remarkLint, remarkLintFinalNewline$1, remarkLintListItemBulletIndent$1, [remarkLintListItemIndent$1, 'tab-size'], remarkLintNoBlockquoteWithoutMarker$1, remarkLintNoLiteralUrls$1, [remarkLintOrderedListMarkerStyle$1, '.'], remarkLintHardBreakSpaces$1, remarkLintNoDuplicateDefinitions$1, remarkLintNoHeadingContentIndent$1, remarkLintNoInlinePadding$1, remarkLintNoShortcutReferenceImage$1, remarkLintNoShortcutReferenceLink$1, remarkLintNoUndefinedReferences$1, remarkLintNoUnusedDefinitions$1 ] }; var remarkPresetLintRecommended$1 = remarkPresetLintRecommended; const convert$l = ( function (test) { if (test === undefined || test === null) { return ok$l } if (typeof test === 'string') { return typeFactory$l(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$l(test) : propsFactory$l(test) } if (typeof test === 'function') { return castFactory$l(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$l(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$l(tests[index]); } return castFactory$l(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$l(check) { return castFactory$l(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$l(check) { return castFactory$l(type) function type(node) { return node && node.type === check } } function castFactory$l(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$l() { return true } function color$m(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$l = true; const EXIT$l = false; const SKIP$l = 'skip'; const visitParents$l = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$l(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$m(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$l(visitor(node, parents)); if (result[0] === EXIT$l) { return result } } if (node.children && result[0] !== SKIP$l) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$l) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$l(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$l, value] } return [value] } const visit$l = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$l(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that the “indent” of block quotes is * consistent. * Indent here is the `>` (greater than) marker and the spaces before content. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `number` (example: `2`) * — preferred indent of `>` and spaces before content * * `'consistent'` * — detect the first used style and warn when further block quotes differ * * ## Recommendation * * CommonMark specifies that when block quotes are used the `>` markers can be * followed by an optional space. * No space at all arguably looks rather ugly: * * ```markdown * >Mars and * >Venus. * ``` * * There is no specific handling of more that one space, so if 5 spaces were * used after `>`, then indented code kicks in: * * ```markdown * > neptune() * ``` * * Due to this, it’s recommended to configure this rule with `2`. * * @module blockquote-indentation * @summary * remark-lint rule to warn when block quotes are indented too much or * too little. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md", "config": 4} * * > Hello * * Paragraph. * * > World * @example * {"name": "ok.md", "config": 2} * * > Hello * * Paragraph. * * > World * * @example * {"name": "not-ok.md", "label": "input"} * * > Hello * * Paragraph. * * > World * * Paragraph. * * > World * * @example * {"name": "not-ok.md", "label": "output"} * * 5:5: Remove 1 space between block quote and content * 9:3: Add 1 space between block quote and content */ const remarkLintBlockquoteIndentation = lintRule( { origin: 'remark-lint:blockquote-indentation', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-blockquote-indentation#readme' }, (tree, file, option = 'consistent') => { visit$l(tree, 'blockquote', (node) => { if (generated(node) || node.children.length === 0) { return } if (option === 'consistent') { option = check(node); } else { const diff = option - check(node); if (diff !== 0) { const abs = Math.abs(diff); file.message( (diff > 0 ? 'Add' : 'Remove') + ' ' + abs + ' ' + plural('space', abs) + ' between block quote and content', pointStart(node.children[0]) ); } } }); } ); var remarkLintBlockquoteIndentation$1 = remarkLintBlockquoteIndentation; function check(node) { return pointStart(node.children[0]).column - pointStart(node).column } const convert$k = ( function (test) { if (test === undefined || test === null) { return ok$k } if (typeof test === 'string') { return typeFactory$k(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$k(test) : propsFactory$k(test) } if (typeof test === 'function') { return castFactory$k(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$k(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$k(tests[index]); } return castFactory$k(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$k(check) { return castFactory$k(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$k(check) { return castFactory$k(type) function type(node) { return node && node.type === check } } function castFactory$k(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$k() { return true } function color$l(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$k = true; const EXIT$k = false; const SKIP$k = 'skip'; const visitParents$k = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$k(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$l(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$k(visitor(node, parents)); if (result[0] === EXIT$k) { return result } } if (node.children && result[0] !== SKIP$k) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$k) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$k(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$k, value] } return [value] } const visit$k = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$k(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that the style of GFM tasklists is * consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `Object` with the following fields: * * `checked` (`'x'`, `'X'`, or `'consistent'`, default: `'consistent'`) * — preferred character to use for checked checkboxes * * `unchecked` (`'·'` (a space), `'»'` (a tab), or `'consistent'`, * default: `'consistent'`) * — preferred character to use for unchecked checkboxes * * `'consistent'` * — detect the first used styles and warn when further checkboxes differ * * ## Recommendation * * It’s recommended to set `options.checked` to `'x'` (a lowercase X) as it * prevents an extra keyboard press and `options.unchecked` to `'·'` (a space) * to make all checkboxes align. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats checked checkboxes using `'x'` (lowercase X) and unchecked checkboxes * using `'·'` (a space). * * @module checkbox-character-style * @summary * remark-lint rule to warn when list item checkboxes violate a given * style. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md", "config": {"checked": "x"}, "gfm": true} * * - [x] List item * - [x] List item * * @example * {"name": "ok.md", "config": {"checked": "X"}, "gfm": true} * * - [X] List item * - [X] List item * * @example * {"name": "ok.md", "config": {"unchecked": " "}, "gfm": true} * * - [ ] List item * - [ ] List item * - [ ]·· * - [ ] * * @example * {"name": "ok.md", "config": {"unchecked": "\t"}, "gfm": true} * * - [»] List item * - [»] List item * * @example * {"name": "not-ok.md", "label": "input", "gfm": true} * * - [x] List item * - [X] List item * - [ ] List item * - [»] List item * * @example * {"name": "not-ok.md", "label": "output", "gfm": true} * * 2:5: Checked checkboxes should use `x` as a marker * 4:5: Unchecked checkboxes should use ` ` as a marker * * @example * {"config": {"unchecked": "💩"}, "name": "not-ok.md", "label": "output", "positionless": true, "gfm": true} * * 1:1: Incorrect unchecked checkbox marker `💩`: use either `'\t'`, or `' '` * * @example * {"config": {"checked": "💩"}, "name": "not-ok.md", "label": "output", "positionless": true, "gfm": true} * * 1:1: Incorrect checked checkbox marker `💩`: use either `'x'`, or `'X'` */ const remarkLintCheckboxCharacterStyle = lintRule( { origin: 'remark-lint:checkbox-character-style', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-checkbox-character-style#readme' }, (tree, file, option = 'consistent') => { const value = String(file); let checked = 'consistent'; let unchecked = 'consistent'; if (typeof option === 'object') { checked = option.checked || 'consistent'; unchecked = option.unchecked || 'consistent'; } if (unchecked !== 'consistent' && unchecked !== ' ' && unchecked !== '\t') { file.fail( 'Incorrect unchecked checkbox marker `' + unchecked + "`: use either `'\\t'`, or `' '`" ); } if (checked !== 'consistent' && checked !== 'x' && checked !== 'X') { file.fail( 'Incorrect checked checkbox marker `' + checked + "`: use either `'x'`, or `'X'`" ); } visit$k(tree, 'listItem', (node) => { const head = node.children[0]; const point = pointStart(head); if ( typeof node.checked !== 'boolean' || !head || typeof point.offset !== 'number' ) { return } point.offset -= 2; point.column -= 2; const match = /\[([\t Xx])]/.exec( value.slice(point.offset - 2, point.offset + 1) ); if (!match) return const style = node.checked ? checked : unchecked; if (style === 'consistent') { if (node.checked) { checked = match[1]; } else { unchecked = match[1]; } } else if (match[1] !== style) { file.message( (node.checked ? 'Checked' : 'Unchecked') + ' checkboxes should use `' + style + '` as a marker', point ); } }); } ); var remarkLintCheckboxCharacterStyle$1 = remarkLintCheckboxCharacterStyle; const convert$j = ( function (test) { if (test === undefined || test === null) { return ok$j } if (typeof test === 'string') { return typeFactory$j(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$j(test) : propsFactory$j(test) } if (typeof test === 'function') { return castFactory$j(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$j(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$j(tests[index]); } return castFactory$j(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$j(check) { return castFactory$j(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$j(check) { return castFactory$j(type) function type(node) { return node && node.type === check } } function castFactory$j(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$j() { return true } function color$k(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$j = true; const EXIT$j = false; const SKIP$j = 'skip'; const visitParents$j = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$j(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$k(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$j(visitor(node, parents)); if (result[0] === EXIT$j) { return result } } if (node.children && result[0] !== SKIP$j) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$j) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$j(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$j, value] } return [value] } const visit$j = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$j(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that the “indent” after a GFM tasklist * checkbox is a single space. * * ## API * * There are no accepted options. * * ## Recommendation * * GFM allows zero or more spaces and tabs after checkboxes. * No space at all arguably looks rather ugly: * * ```markdown * * [x]Pluto * ``` * * More that one space is superfluous: * * ```markdown * * [x] Jupiter * ``` * * Due to this, it’s recommended to turn this rule on. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats checkboxes and the content after them with a single space between. * * @module checkbox-content-indent * @summary * remark-lint rule to warn when GFM tasklist checkboxes are followed by * more than one space. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md", "gfm": true} * * - [ ] List item * + [x] List Item * * [X] List item * - [ ] List item * * @example * {"name": "not-ok.md", "label": "input", "gfm": true} * * - [ ] List item * + [x] List item * * [X] List item * - [ ] List item * * @example * {"name": "not-ok.md", "label": "output", "gfm": true} * * 2:7-2:8: Checkboxes should be followed by a single character * 3:7-3:9: Checkboxes should be followed by a single character * 4:7-4:10: Checkboxes should be followed by a single character */ const remarkLintCheckboxContentIndent = lintRule( { origin: 'remark-lint:checkbox-content-indent', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-checkbox-content-indent#readme' }, (tree, file) => { const value = String(file); const loc = location(file); visit$j(tree, 'listItem', (node) => { const head = node.children[0]; const point = pointStart(head); if ( typeof node.checked !== 'boolean' || !head || typeof point.offset !== 'number' ) { return } const match = /\[([\t xX])]/.exec( value.slice(point.offset - 4, point.offset + 1) ); if (!match) return const initial = point.offset; let final = initial; while (/[\t ]/.test(value.charAt(final))) final++; if (final - initial > 0) { file.message('Checkboxes should be followed by a single character', { start: loc.toPoint(initial), end: loc.toPoint(final) }); } }); } ); var remarkLintCheckboxContentIndent$1 = remarkLintCheckboxContentIndent; const convert$i = ( function (test) { if (test === undefined || test === null) { return ok$i } if (typeof test === 'string') { return typeFactory$i(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$i(test) : propsFactory$i(test) } if (typeof test === 'function') { return castFactory$i(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$i(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$i(tests[index]); } return castFactory$i(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$i(check) { return castFactory$i(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$i(check) { return castFactory$i(type) function type(node) { return node && node.type === check } } function castFactory$i(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$i() { return true } function color$j(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$i = true; const EXIT$i = false; const SKIP$i = 'skip'; const visitParents$i = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$i(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$j(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$i(visitor(node, parents)); if (result[0] === EXIT$i) { return result } } if (node.children && result[0] !== SKIP$i) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$i) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$i(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$i, value] } return [value] } const visit$i = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$i(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that code blocks are consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `'fenced'` * — prefer fenced code blocks: * ````markdown * ```js * code() * ``` * ```` * * `'indented'` * — prefer indented code blocks: * ```markdown * code() * ``` * * `'consistent'` * — detect the first used style and warn when further code blocks differ * * ## Recommendation * * Indentation in markdown is complex, especially because lists and indented * code can interfere in unexpected ways. * Fenced code has more features than indented code: importantly, specifying a * programming language. * Since CommonMark took the idea of fenced code from GFM, fenced code became * widely supported. * Due to this, it’s recommended to configure this rule with `'fenced'`. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats code blocks as fenced code when they have a language flag and as * indented code otherwise. * Pass * [`fences: true`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsfences) * to always use fenced code. * * @module code-block-style * @summary * remark-lint rule to warn when code blocks violate a given style. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * * @example * {"config": "indented", "name": "ok.md"} * * alpha() * * Paragraph. * * bravo() * * @example * {"config": "indented", "name": "not-ok.md", "label": "input"} * * ``` * alpha() * ``` * * Paragraph. * * ``` * bravo() * ``` * * @example * {"config": "indented", "name": "not-ok.md", "label": "output"} * * 1:1-3:4: Code blocks should be indented * 7:1-9:4: Code blocks should be indented * * @example * {"config": "fenced", "name": "ok.md"} * * ``` * alpha() * ``` * * Paragraph. * * ``` * bravo() * ``` * * @example * {"config": "fenced", "name": "not-ok-fenced.md", "label": "input"} * * alpha() * * Paragraph. * * bravo() * * @example * {"config": "fenced", "name": "not-ok-fenced.md", "label": "output"} * * 1:1-1:12: Code blocks should be fenced * 5:1-5:12: Code blocks should be fenced * * @example * {"name": "not-ok-consistent.md", "label": "input"} * * alpha() * * Paragraph. * * ``` * bravo() * ``` * * @example * {"name": "not-ok-consistent.md", "label": "output"} * * 5:1-7:4: Code blocks should be indented * * @example * {"config": "💩", "name": "not-ok-incorrect.md", "label": "output", "positionless": true} * * 1:1: Incorrect code block style `💩`: use either `'consistent'`, `'fenced'`, or `'indented'` */ const remarkLintCodeBlockStyle = lintRule( { origin: 'remark-lint:code-block-style', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-code-block-style#readme' }, (tree, file, option = 'consistent') => { const value = String(file); if ( option !== 'consistent' && option !== 'fenced' && option !== 'indented' ) { file.fail( 'Incorrect code block style `' + option + "`: use either `'consistent'`, `'fenced'`, or `'indented'`" ); } visit$i(tree, 'code', (node) => { if (generated(node)) { return } const initial = pointStart(node).offset; const final = pointEnd(node).offset; const current = node.lang || /^\s*([~`])\1{2,}/.test(value.slice(initial, final)) ? 'fenced' : 'indented'; if (option === 'consistent') { option = current; } else if (option !== current) { file.message('Code blocks should be ' + option, node); } }); } ); var remarkLintCodeBlockStyle$1 = remarkLintCodeBlockStyle; const convert$h = ( function (test) { if (test === undefined || test === null) { return ok$h } if (typeof test === 'string') { return typeFactory$h(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$h(test) : propsFactory$h(test) } if (typeof test === 'function') { return castFactory$h(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$h(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$h(tests[index]); } return castFactory$h(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$h(check) { return castFactory$h(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$h(check) { return castFactory$h(type) function type(node) { return node && node.type === check } } function castFactory$h(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$h() { return true } function color$i(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$h = true; const EXIT$h = false; const SKIP$h = 'skip'; const visitParents$h = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$h(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$i(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$h(visitor(node, parents)); if (result[0] === EXIT$h) { return result } } if (node.children && result[0] !== SKIP$h) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$h) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$h(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$h, value] } return [value] } const visit$h = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$h(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that the labels used in definitions * do not use meaningless white space. * * ## API * * There are no options. * * ## Recommendation * * Definitions and references are matched together by collapsing white space. * Using more white space in labels might incorrectly indicate that they are of * importance. * Due to this, it’s recommended to use one space (or a line ending if needed) * and turn this rule on. * * @module definition-spacing * @summary * remark-lint rule to warn when consecutive whitespace is used in * a definition label. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * [example domain]: http://example.com "Example Domain" * * @example * {"name": "not-ok.md", "label": "input"} * * [example····domain]: http://example.com "Example Domain" * * @example * {"name": "not-ok.md", "label": "output"} * * 1:1-1:57: Do not use consecutive whitespace in definition labels */ const label = /^\s*\[((?:\\[\s\S]|[^[\]])+)]/; const remarkLintDefinitionSpacing = lintRule( { origin: 'remark-lint:definition-spacing', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-definition-spacing#readme' }, (tree, file) => { const value = String(file); visit$h(tree, (node) => { if (node.type === 'definition' || node.type === 'footnoteDefinition') { const start = pointStart(node).offset; const end = pointEnd(node).offset; if (typeof start === 'number' && typeof end === 'number') { const match = value.slice(start, end).match(label); if (match && /[ \t\n]{2,}/.test(match[1])) { file.message( 'Do not use consecutive whitespace in definition labels', node ); } } } }); } ); var remarkLintDefinitionSpacing$1 = remarkLintDefinitionSpacing; const convert$g = ( function (test) { if (test === undefined || test === null) { return ok$g } if (typeof test === 'string') { return typeFactory$g(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$g(test) : propsFactory$g(test) } if (typeof test === 'function') { return castFactory$g(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$g(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$g(tests[index]); } return castFactory$g(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$g(check) { return castFactory$g(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$g(check) { return castFactory$g(type) function type(node) { return node && node.type === check } } function castFactory$g(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$g() { return true } function color$h(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$g = true; const EXIT$g = false; const SKIP$g = 'skip'; const visitParents$g = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$g(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$h(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$g(visitor(node, parents)); if (result[0] === EXIT$g) { return result } } if (node.children && result[0] !== SKIP$g) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$g) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$g(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$g, value] } return [value] } const visit$g = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$g(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that language flags of fenced code * are used and consistent. * * ## API * * The following options (default: `undefined`) are accepted: * * * `Array` * — as if passing `{flags: options}` * * `Object` with the following fields: * * `allowEmpty` (`boolean`, default: `false`) * — allow language flags to be omitted * * `flags` (`Array` default: `[]`) * — specific flags to allow (other flags will result in a warning) * * ## Recommendation * * While omitting the language flag is perfectly fine to signal that the code is * plain text, it *could* point to a mistake. * It’s recommended to instead use a certain flag for plain text (such as `txt`) * and to turn this rule on. * * @module fenced-code-flag * @summary * remark-lint rule to check that language flags of fenced code are used. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * * @example * {"name": "ok.md"} * * ```alpha * bravo() * ``` * * @example * {"name": "not-ok.md", "label": "input"} * * ``` * alpha() * ``` * * @example * {"name": "not-ok.md", "label": "output"} * * 1:1-3:4: Missing code language flag * * @example * {"name": "ok.md", "config": {"allowEmpty": true}} * * ``` * alpha() * ``` * * @example * {"name": "not-ok.md", "config": {"allowEmpty": false}, "label": "input"} * * ``` * alpha() * ``` * * @example * {"name": "not-ok.md", "config": {"allowEmpty": false}, "label": "output"} * * 1:1-3:4: Missing code language flag * * @example * {"name": "ok.md", "config": ["alpha"]} * * ```alpha * bravo() * ``` * * @example * {"name": "ok.md", "config": {"flags":["alpha"]}} * * ```alpha * bravo() * ``` * * @example * {"name": "not-ok.md", "config": ["charlie"], "label": "input"} * * ```alpha * bravo() * ``` * * @example * {"name": "not-ok.md", "config": ["charlie"], "label": "output"} * * 1:1-3:4: Incorrect code language flag */ const fence = /^ {0,3}([~`])\1{2,}/; const remarkLintFencedCodeFlag = lintRule( { origin: 'remark-lint:fenced-code-flag', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-fenced-code-flag#readme' }, (tree, file, option) => { const value = String(file); let allowEmpty = false; let allowed = []; if (typeof option === 'object') { if (Array.isArray(option)) { allowed = option; } else { allowEmpty = Boolean(option.allowEmpty); if (option.flags) { allowed = option.flags; } } } visit$g(tree, 'code', (node) => { if (!generated(node)) { if (node.lang) { if (allowed.length > 0 && !allowed.includes(node.lang)) { file.message('Incorrect code language flag', node); } } else { const slice = value.slice( pointStart(node).offset, pointEnd(node).offset ); if (!allowEmpty && fence.test(slice)) { file.message('Missing code language flag', node); } } } }); } ); var remarkLintFencedCodeFlag$1 = remarkLintFencedCodeFlag; const convert$f = ( function (test) { if (test === undefined || test === null) { return ok$f } if (typeof test === 'string') { return typeFactory$f(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$f(test) : propsFactory$f(test) } if (typeof test === 'function') { return castFactory$f(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$f(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$f(tests[index]); } return castFactory$f(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$f(check) { return castFactory$f(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$f(check) { return castFactory$f(type) function type(node) { return node && node.type === check } } function castFactory$f(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$f() { return true } function color$g(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$f = true; const EXIT$f = false; const SKIP$f = 'skip'; const visitParents$f = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$f(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$g(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$f(visitor(node, parents)); if (result[0] === EXIT$f) { return result } } if (node.children && result[0] !== SKIP$f) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$f) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$f(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$f, value] } return [value] } const visit$f = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$f(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that fenced code markers are consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * ``'`'`` * — prefer grave accents * * `'~'` * — prefer tildes * * `'consistent'` * — detect the first used style and warn when further fenced code differs * * ## Recommendation * * Tildes are extremely uncommon. * Due to this, it’s recommended to configure this rule with ``'`'``. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats fenced code with grave accents by default. * Pass * [`fence: '~'`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsfence) * to always use tildes. * * @module fenced-code-marker * @summary * remark-lint rule to warn when fenced code markers are inconsistent. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * Indented code blocks are not affected by this rule: * * bravo() * * @example * {"name": "ok.md", "config": "`"} * * ```alpha * bravo() * ``` * * ``` * charlie() * ``` * * @example * {"name": "ok.md", "config": "~"} * * ~~~alpha * bravo() * ~~~ * * ~~~ * charlie() * ~~~ * * @example * {"name": "not-ok-consistent-tick.md", "label": "input"} * * ```alpha * bravo() * ``` * * ~~~ * charlie() * ~~~ * * @example * {"name": "not-ok-consistent-tick.md", "label": "output"} * * 5:1-7:4: Fenced code should use `` ` `` as a marker * * @example * {"name": "not-ok-consistent-tilde.md", "label": "input"} * * ~~~alpha * bravo() * ~~~ * * ``` * charlie() * ``` * * @example * {"name": "not-ok-consistent-tilde.md", "label": "output"} * * 5:1-7:4: Fenced code should use `~` as a marker * * @example * {"name": "not-ok-incorrect.md", "config": "💩", "label": "output", "positionless": true} * * 1:1: Incorrect fenced code marker `💩`: use either `'consistent'`, `` '`' ``, or `'~'` */ const remarkLintFencedCodeMarker = lintRule( { origin: 'remark-lint:fenced-code-marker', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-fenced-code-marker#readme' }, (tree, file, option = 'consistent') => { const contents = String(file); if (option !== 'consistent' && option !== '~' && option !== '`') { file.fail( 'Incorrect fenced code marker `' + option + "`: use either `'consistent'`, `` '`' ``, or `'~'`" ); } visit$f(tree, 'code', (node) => { const start = pointStart(node).offset; if (typeof start === 'number') { const marker = contents .slice(start, start + 4) .replace(/^\s+/, '') .charAt(0); if (marker === '~' || marker === '`') { if (option === 'consistent') { option = marker; } else if (marker !== option) { file.message( 'Fenced code should use `' + (option === '~' ? option : '` ` `') + '` as a marker', node ); } } } }); } ); var remarkLintFencedCodeMarker$1 = remarkLintFencedCodeMarker; /** * ## When should I use this? * * You can use this package to check that file extensions are `md`. * * ## API * * The following options (default: `'md'`) are accepted: * * * `string` (example `'markdown'`) * — preferred file extension (no dot) * * > 👉 **Note**: does not warn when files have no file extensions (such as * > `AUTHORS` or `LICENSE`). * * ## Recommendation * * Use `md` as it’s the most common. * Also use `md` when your markdown contains common syntax extensions (such as * GFM, frontmatter, or math). * Do not use `md` for MDX: use `mdx` instead. * * @module file-extension * @summary * remark-lint rule to check the file extension. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "readme.md"} * * @example * {"name": "readme"} * * @example * {"name": "readme.mkd", "label": "output", "positionless": true} * * 1:1: Incorrect extension: use `md` * * @example * {"name": "readme.mkd", "config": "mkd"} */ const remarkLintFileExtension = lintRule( { origin: 'remark-lint:file-extension', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-file-extension#readme' }, (_, file, option = 'md') => { const ext = file.extname; if (ext && ext.slice(1) !== option) { file.message('Incorrect extension: use `' + option + '`'); } } ); var remarkLintFileExtension$1 = remarkLintFileExtension; const convert$e = ( function (test) { if (test === undefined || test === null) { return ok$e } if (typeof test === 'string') { return typeFactory$e(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$e(test) : propsFactory$e(test) } if (typeof test === 'function') { return castFactory$e(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$e(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$e(tests[index]); } return castFactory$e(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$e(check) { return castFactory$e(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$e(check) { return castFactory$e(type) function type(node) { return node && node.type === check } } function castFactory$e(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$e() { return true } function color$f(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$e = true; const EXIT$e = false; const SKIP$e = 'skip'; const visitParents$e = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$e(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$f(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$e(visitor(node, parents)); if (result[0] === EXIT$e) { return result } } if (node.children && result[0] !== SKIP$e) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$e) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$e(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$e, value] } return [value] } const visit$e = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$e(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that definitions are placed at the end of * the document. * * ## API * * There are no options. * * ## Recommendation * * There are different strategies for placing definitions. * The simplest is perhaps to place them all at the bottem of documents. * If you prefer that, turn on this rule. * * @module final-definition * @summary * remark-lint rule to warn when definitions are used *in* the document * instead of at the end. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * Paragraph. * * [example]: http://example.com "Example Domain" * * @example * {"name": "not-ok.md", "label": "input"} * * Paragraph. * * [example]: http://example.com "Example Domain" * * Another paragraph. * * @example * {"name": "not-ok.md", "label": "output"} * * 3:1-3:47: Move definitions to the end of the file (after the node at line `5`) * * @example * {"name": "ok-comments.md"} * * Paragraph. * * [example-1]: http://example.com/one/ * * * * [example-2]: http://example.com/two/ */ const remarkLintFinalDefinition = lintRule( { origin: 'remark-lint:final-definition', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-final-definition#readme' }, (tree, file) => { let last = 0; visit$e( tree, (node) => { if ( node.type === 'root' || generated(node) || (node.type === 'html' && /^\s*".length)); validateMeta(node, file, meta); } catch (e) { file.message(e, node); } }); } const remarkLintNodejsYamlComments = lintRule( "remark-lint:nodejs-yaml-comments", validateYAMLComments, ); const convert$5 = ( function (test) { if (test === undefined || test === null) { return ok$5 } if (typeof test === 'string') { return typeFactory$5(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$5(test) : propsFactory$5(test) } if (typeof test === 'function') { return castFactory$5(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$5(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$5(tests[index]); } return castFactory$5(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$5(check) { return castFactory$5(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$5(check) { return castFactory$5(type) function type(node) { return node && node.type === check } } function castFactory$5(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$5() { return true } function color$6(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$5 = true; const EXIT$5 = false; const SKIP$5 = 'skip'; const visitParents$5 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$5(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$6(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$5(visitor(node, parents)); if (result[0] === EXIT$5) { return result } } if (node.children && result[0] !== SKIP$5) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$5) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$5(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$5, value] } return [value] } const visit$5 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$5(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); const remarkLintProhibitedStrings = lintRule('remark-lint:prohibited-strings', prohibitedStrings); function testProhibited (val, content) { let regexpFlags = 'g'; let no = val.no; if (!no) { no = escapeStringRegexp(val.yes); regexpFlags += 'i'; } let regexpString = '(? escapeStringRegexp(a)).join('|'); ignoreNextTo = `(?:${parts})`; } else { ignoreNextTo = escapeStringRegexp(val.ignoreNextTo); } } else { ignoreNextTo = ''; } const replaceCaptureGroups = !!val.replaceCaptureGroups; if (/^\b/.test(no)) { regexpString += '\\b'; } if (ignoreNextTo) { regexpString += `(? { const results = testProhibited(val, content); if (results.length) { results.forEach(({ result, index, yes }) => { const message = val.yes ? `Use "${yes}" instead of "${result}"` : `Do not use "${result}"`; file.message(message, { start: myLocation.toPoint(initial + index), end: myLocation.toPoint(initial + index + [...result].length) }); }); } }); } } const convert$4 = ( function (test) { if (test === undefined || test === null) { return ok$4 } if (typeof test === 'string') { return typeFactory$4(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$4(test) : propsFactory$4(test) } if (typeof test === 'function') { return castFactory$4(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$4(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$4(tests[index]); } return castFactory$4(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$4(check) { return castFactory$4(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$4(check) { return castFactory$4(type) function type(node) { return node && node.type === check } } function castFactory$4(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$4() { return true } function color$5(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$4 = true; const EXIT$4 = false; const SKIP$4 = 'skip'; const visitParents$4 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$4(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$5(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$4(visitor(node, parents)); if (result[0] === EXIT$4) { return result } } if (node.children && result[0] !== SKIP$4) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$4) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$4(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$4, value] } return [value] } const visit$4 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$4(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that rules (thematic breaks, horizontal * rules) are consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `string` (example: `'** * **'`, `'___'`) * — thematic break to prefer * * `'consistent'` * — detect the first used style and warn when further rules differ * * ## Recommendation * * Rules consist of a `*`, `-`, or `_` character, which occurs at least three * times with nothing else except for arbitrary spaces or tabs on a single line. * Using spaces, tabs, and more than three markers seems unnecessary work to * type out. * Because asterisks can be used as a marker for more markdown constructs, * it’s recommended to use that for rules (and lists, emphasis, strong) too. * Due to this, it’s recommended to pass `'***'`. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats rules with `***` by default. * There are three settings to control rules: * * * [`rule`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsrule) * (default: `'*'`) — marker * * [`ruleRepetition`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsrulerepetition) * (default: `3`) — repetitions * * [`ruleSpaces`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsrulespaces) * (default: `false`) — use spaces between markers * * @module rule-style * @summary * remark-lint rule to warn when rule markers are inconsistent. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md", "config": "* * *"} * * * * * * * * * * * * @example * {"name": "ok.md", "config": "_______"} * * _______ * * _______ * * @example * {"name": "not-ok.md", "label": "input"} * * *** * * * * * * * @example * {"name": "not-ok.md", "label": "output"} * * 3:1-3:6: Rules should use `***` * * @example * {"name": "not-ok.md", "label": "output", "config": "💩", "positionless": true} * * 1:1: Incorrect preferred rule style: provide a correct markdown rule or `'consistent'` */ const remarkLintRuleStyle = lintRule( { origin: 'remark-lint:rule-style', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-rule-style#readme' }, (tree, file, option = 'consistent') => { const value = String(file); if (option !== 'consistent' && /[^-_* ]/.test(option)) { file.fail( "Incorrect preferred rule style: provide a correct markdown rule or `'consistent'`" ); } visit$4(tree, 'thematicBreak', (node) => { const initial = pointStart(node).offset; const final = pointEnd(node).offset; if (typeof initial === 'number' && typeof final === 'number') { const rule = value.slice(initial, final); if (option === 'consistent') { option = rule; } else if (rule !== option) { file.message('Rules should use `' + option + '`', node); } } }); } ); var remarkLintRuleStyle$1 = remarkLintRuleStyle; const convert$3 = ( function (test) { if (test === undefined || test === null) { return ok$3 } if (typeof test === 'string') { return typeFactory$3(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$3(test) : propsFactory$3(test) } if (typeof test === 'function') { return castFactory$3(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$3(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$3(tests[index]); } return castFactory$3(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$3(check) { return castFactory$3(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$3(check) { return castFactory$3(type) function type(node) { return node && node.type === check } } function castFactory$3(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$3() { return true } function color$4(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$3 = true; const EXIT$3 = false; const SKIP$3 = 'skip'; const visitParents$3 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$3(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$4(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$3(visitor(node, parents)); if (result[0] === EXIT$3) { return result } } if (node.children && result[0] !== SKIP$3) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$3) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$3(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$3, value] } return [value] } const visit$3 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$3(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that strong markers are consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `'*'` * — prefer asterisks * * `'_'` * — prefer underscores * * `'consistent'` * — detect the first used style and warn when further strong differs * * ## Recommendation * * Underscores and asterisks work slightly different: asterisks can form strong * in more cases than underscores. * Because underscores are sometimes used to represent normal underscores inside * words, there are extra rules supporting that. * Asterisks can also be used as the marker of more constructs than underscores: * lists. * Due to having simpler parsing rules, looking more like syntax, and that they * can be used for more constructs, it’s recommended to prefer asterisks. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats strong with asterisks by default. * Pass * [`strong: '_'`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsstrong) * to always use underscores. * * @module strong-marker * @summary * remark-lint rule to warn when strong markers are inconsistent. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * **foo** and **bar**. * * @example * {"name": "also-ok.md"} * * __foo__ and __bar__. * * @example * {"name": "ok.md", "config": "*"} * * **foo**. * * @example * {"name": "ok.md", "config": "_"} * * __foo__. * * @example * {"name": "not-ok.md", "label": "input"} * * **foo** and __bar__. * * @example * {"name": "not-ok.md", "label": "output"} * * 1:13-1:20: Strong should use `*` as a marker * * @example * {"name": "not-ok.md", "label": "output", "config": "💩", "positionless": true} * * 1:1: Incorrect strong marker `💩`: use either `'consistent'`, `'*'`, or `'_'` */ const remarkLintStrongMarker = lintRule( { origin: 'remark-lint:strong-marker', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-strong-marker#readme' }, (tree, file, option = 'consistent') => { const value = String(file); if (option !== '*' && option !== '_' && option !== 'consistent') { file.fail( 'Incorrect strong marker `' + option + "`: use either `'consistent'`, `'*'`, or `'_'`" ); } visit$3(tree, 'strong', (node) => { const start = pointStart(node).offset; if (typeof start === 'number') { const marker = (value.charAt(start)); if (option === 'consistent') { option = marker; } else if (marker !== option) { file.message('Strong should use `' + option + '` as a marker', node); } } }); } ); var remarkLintStrongMarker$1 = remarkLintStrongMarker; const convert$2 = ( function (test) { if (test === undefined || test === null) { return ok$2 } if (typeof test === 'string') { return typeFactory$2(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$2(test) : propsFactory$2(test) } if (typeof test === 'function') { return castFactory$2(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$2(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$2(tests[index]); } return castFactory$2(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$2(check) { return castFactory$2(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$2(check) { return castFactory$2(type) function type(node) { return node && node.type === check } } function castFactory$2(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$2() { return true } function color$3(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$2 = true; const EXIT$2 = false; const SKIP$2 = 'skip'; const visitParents$2 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$2(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$3(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$2(visitor(node, parents)); if (result[0] === EXIT$2) { return result } } if (node.children && result[0] !== SKIP$2) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$2) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$2(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$2, value] } return [value] } const visit$2 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$2(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that table cells are padded consistently. * Tables are a GFM feature enabled with * [`remark-gfm`](https://github.com/remarkjs/remark-gfm). * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `'padded'` * — prefer at least one space between pipes and content * * `'compact'` * — prefer zero spaces between pipes and content * * `'consistent'` * — detect the first used style and warn when further tables differ * * ## Recommendation * * It’s recommended to use at least one space between pipes and content for * legibility of the markup (`'padded'`). * * ## Fix * * [`remark-gfm`](https://github.com/remarkjs/remark-gfm) * formats all table cells as padded by default. * Pass * [`tableCellPadding: false`](https://github.com/remarkjs/remark-gfm#optionstablecellpadding) * to use a more compact style. * * @module table-cell-padding * @summary * remark-lint rule to warn when table cells are inconsistently padded. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md", "config": "padded", "gfm": true} * * | A | B | * | ----- | ----- | * | Alpha | Bravo | * * @example * {"name": "not-ok.md", "label": "input", "config": "padded", "gfm": true} * * | A | B | * | :----|----: | * | Alpha|Bravo | * * | C | D | * | :----- | ---: | * |Charlie | Delta| * * Too much padding isn’t good either: * * | E | F | G | H | * | :---- | -------- | :----: | -----: | * | Echo | Foxtrot | Golf | Hotel | * * @example * {"name": "not-ok.md", "label": "output", "config": "padded", "gfm": true} * * 3:8: Cell should be padded * 3:9: Cell should be padded * 7:2: Cell should be padded * 7:17: Cell should be padded * 13:7: Cell should be padded with 1 space, not 2 * 13:18: Cell should be padded with 1 space, not 2 * 13:23: Cell should be padded with 1 space, not 2 * 13:27: Cell should be padded with 1 space, not 2 * 13:32: Cell should be padded with 1 space, not 2 * * @example * {"name": "ok.md", "config": "compact", "gfm": true} * * |A |B | * |-----|-----| * |Alpha|Bravo| * * @example * {"name": "not-ok.md", "label": "input", "config": "compact", "gfm": true} * * | A | B | * | -----| -----| * | Alpha| Bravo| * * |C | D| * |:------|-----:| * |Charlie|Delta | * * @example * {"name": "not-ok.md", "label": "output", "config": "compact", "gfm": true} * * 3:5: Cell should be compact * 3:12: Cell should be compact * 7:15: Cell should be compact * * @example * {"name": "ok-padded.md", "config": "consistent", "gfm": true} * * | A | B | * | ----- | ----- | * | Alpha | Bravo | * * | C | D | * | ------- | ----- | * | Charlie | Delta | * * @example * {"name": "not-ok-padded.md", "label": "input", "config": "consistent", "gfm": true} * * | A | B | * | ----- | ----- | * | Alpha | Bravo | * * | C | D | * | :----- | ----: | * |Charlie | Delta | * * @example * {"name": "not-ok-padded.md", "label": "output", "config": "consistent", "gfm": true} * * 7:2: Cell should be padded * * @example * {"name": "ok-compact.md", "config": "consistent", "gfm": true} * * |A |B | * |-----|-----| * |Alpha|Bravo| * * |C |D | * |-------|-----| * |Charlie|Delta| * * @example * {"name": "not-ok-compact.md", "label": "input", "config": "consistent", "gfm": true} * * |A |B | * |-----|-----| * |Alpha|Bravo| * * |C | D| * |:------|-----:| * |Charlie|Delta | * * @example * {"name": "not-ok-compact.md", "label": "output", "config": "consistent", "gfm": true} * * 7:15: Cell should be compact * * @example * {"name": "not-ok.md", "label": "output", "config": "💩", "positionless": true, "gfm": true} * * 1:1: Incorrect table cell padding style `💩`, expected `'padded'`, `'compact'`, or `'consistent'` * * @example * {"name": "empty.md", "label": "input", "config": "padded", "gfm": true} * * * * | | Alpha | Bravo| * | ------ | ----- | ---: | * | Charlie| | Echo| * * @example * {"name": "empty.md", "label": "output", "config": "padded", "gfm": true} * * 3:25: Cell should be padded * 5:10: Cell should be padded * 5:25: Cell should be padded * * @example * {"name": "missing-body.md", "config": "padded", "gfm": true} * * * * | Alpha | Bravo | Charlie | * | ----- | ------- | ------- | * | Delta | * | Echo | Foxtrot | */ const remarkLintTableCellPadding = lintRule( { origin: 'remark-lint:table-cell-padding', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-table-cell-padding#readme' }, (tree, file, option = 'consistent') => { if ( option !== 'padded' && option !== 'compact' && option !== 'consistent' ) { file.fail( 'Incorrect table cell padding style `' + option + "`, expected `'padded'`, `'compact'`, or `'consistent'`" ); } visit$2(tree, 'table', (node) => { const rows = node.children; const align = node.align || []; const sizes = []; const entries = []; let index = -1; while (++index < align.length) { const alignment = align[index]; sizes[index] = alignment === 'center' ? 3 : alignment ? 2 : 1; } index = -1; while (++index < rows.length) { const row = rows[index]; let column = -1; while (++column < row.children.length) { const cell = row.children[column]; const cellStart = pointStart(cell).offset; const cellEnd = pointEnd(cell).offset; const contentStart = pointStart(cell.children[0]).offset; const contentEnd = pointEnd( cell.children[cell.children.length - 1] ).offset; if ( typeof cellStart !== 'number' || typeof cellEnd !== 'number' || typeof contentStart !== 'number' || typeof contentEnd !== 'number' ) { continue } entries.push({ node: cell, start: contentStart - cellStart - 1, end: cellEnd - contentEnd - (column === row.children.length - 1 ? 1 : 0), column }); sizes[column] = Math.max( sizes[column] || 0, contentEnd - contentStart ); } } const style = option === 'consistent' ? entries[0] && (!entries[0].start || !entries[0].end) ? 0 : 1 : option === 'padded' ? 1 : 0; index = -1; while (++index < entries.length) { checkSide('start', entries[index], style, sizes); checkSide('end', entries[index], style, sizes); } return SKIP$2 }); function checkSide(side, entry, style, sizes) { const cell = entry.node; const column = entry.column; const spacing = entry[side]; if (spacing === undefined || spacing === style) { return } let reason = 'Cell should be '; if (style === 0) { if (size(cell) < sizes[column]) { return } reason += 'compact'; } else { reason += 'padded'; if (spacing > style) { if (size(cell) < sizes[column]) { return } reason += ' with 1 space, not ' + spacing; } } file.message( reason, side === 'start' ? pointStart(cell.children[0]) : pointEnd(cell.children[cell.children.length - 1]) ); } } ); var remarkLintTableCellPadding$1 = remarkLintTableCellPadding; function size(node) { const head = pointStart(node.children[0]).offset; const tail = pointEnd(node.children[node.children.length - 1]).offset; return typeof head === 'number' && typeof tail === 'number' ? tail - head : 0 } const convert$1 = ( function (test) { if (test === undefined || test === null) { return ok$1 } if (typeof test === 'string') { return typeFactory$1(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory$1(test) : propsFactory$1(test) } if (typeof test === 'function') { return castFactory$1(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory$1(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert$1(tests[index]); } return castFactory$1(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory$1(check) { return castFactory$1(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory$1(check) { return castFactory$1(type) function type(node) { return node && node.type === check } } function castFactory$1(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok$1() { return true } function color$2(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE$1 = true; const EXIT$1 = false; const SKIP$1 = 'skip'; const visitParents$1 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert$1(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$2(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult$1(visitor(node, parents)); if (result[0] === EXIT$1) { return result } } if (node.children && result[0] !== SKIP$1) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT$1) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult$1(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE$1, value] } return [value] } const visit$1 = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents$1(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that tables have initial and final * delimiters. * Tables are a GFM feature enabled with * [`remark-gfm`](https://github.com/remarkjs/remark-gfm). * * ## API * * There are no options. * * ## Recommendation * * While tables don’t require initial or final delimiters (pipes before the * first and after the last cells in a row), it arguably does look weird. * * ## Fix * * [`remark-gfm`](https://github.com/remarkjs/remark-gfm) * formats all tables with initial and final delimiters. * * @module table-pipes * @summary * remark-lint rule to warn when tables are missing initial and final * delimiters. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md", "gfm": true} * * | A | B | * | ----- | ----- | * | Alpha | Bravo | * * @example * {"name": "not-ok.md", "label": "input", "gfm": true} * * A | B * ----- | ----- * Alpha | Bravo * * @example * {"name": "not-ok.md", "label": "output", "gfm": true} * * 1:1: Missing initial pipe in table fence * 1:10: Missing final pipe in table fence * 3:1: Missing initial pipe in table fence * 3:14: Missing final pipe in table fence */ const reasonStart = 'Missing initial pipe in table fence'; const reasonEnd = 'Missing final pipe in table fence'; const remarkLintTablePipes = lintRule( { origin: 'remark-lint:table-pipes', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-table-pipes#readme' }, (tree, file) => { const value = String(file); visit$1(tree, 'table', (node) => { let index = -1; while (++index < node.children.length) { const row = node.children[index]; const start = pointStart(row); const end = pointEnd(row); if ( typeof start.offset === 'number' && value.charCodeAt(start.offset) !== 124 ) { file.message(reasonStart, start); } if ( typeof end.offset === 'number' && value.charCodeAt(end.offset - 1) !== 124 ) { file.message(reasonEnd, end); } } }); } ); var remarkLintTablePipes$1 = remarkLintTablePipes; const convert = ( function (test) { if (test === undefined || test === null) { return ok } if (typeof test === 'string') { return typeFactory(test) } if (typeof test === 'object') { return Array.isArray(test) ? anyFactory(test) : propsFactory(test) } if (typeof test === 'function') { return castFactory(test) } throw new Error('Expected function, string, or object as test') } ); function anyFactory(tests) { const checks = []; let index = -1; while (++index < tests.length) { checks[index] = convert(tests[index]); } return castFactory(any) function any(...parameters) { let index = -1; while (++index < checks.length) { if (checks[index].call(this, ...parameters)) return true } return false } } function propsFactory(check) { return castFactory(all) function all(node) { let key; for (key in check) { if (node[key] !== check[key]) return false } return true } } function typeFactory(check) { return castFactory(type) function type(node) { return node && node.type === check } } function castFactory(check) { return assertion function assertion(node, ...parameters) { return Boolean( node && typeof node === 'object' && 'type' in node && Boolean(check.call(this, node, ...parameters)) ) } } function ok() { return true } function color$1(d) { return '\u001B[33m' + d + '\u001B[39m' } const CONTINUE = true; const EXIT = false; const SKIP = 'skip'; const visitParents = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } const is = convert(test); const step = reverse ? -1 : 1; factory(tree, undefined, [])(); function factory(node, index, parents) { const value = node && typeof node === 'object' ? node : {}; if (typeof value.type === 'string') { const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; Object.defineProperty(visit, 'name', { value: 'node (' + color$1(node.type + (name ? '<' + name + '>' : '')) + ')' }); } return visit function visit() { let result = []; let subresult; let offset; let grandparents; if (!test || is(node, index, parents[parents.length - 1] || null)) { result = toResult(visitor(node, parents)); if (result[0] === EXIT) { return result } } if (node.children && result[0] !== SKIP) { offset = (reverse ? node.children.length : -1) + step; grandparents = parents.concat(node); while (offset > -1 && offset < node.children.length) { subresult = factory(node.children[offset], offset, grandparents)(); if (subresult[0] === EXIT) { return subresult } offset = typeof subresult[1] === 'number' ? subresult[1] : offset + step; } } return result } } } ); function toResult(value) { if (Array.isArray(value)) { return value } if (typeof value === 'number') { return [CONTINUE, value] } return [value] } const visit = ( function (tree, test, visitor, reverse) { if (typeof test === 'function' && typeof visitor !== 'function') { reverse = visitor; visitor = test; test = null; } visitParents(tree, test, overload, reverse); function overload(node, parents) { const parent = parents[parents.length - 1]; return visitor( node, parent ? parent.children.indexOf(node) : null, parent ) } } ); /** * ## When should I use this? * * You can use this package to check that unordered list markers (bullets) * are consistent. * * ## API * * The following options (default: `'consistent'`) are accepted: * * * `'*'` * — prefer asterisks * * `'+'` * — prefer plusses * * `'-'` * — prefer dashes * * `'consistent'` * — detect the first used style and warn when further markers differ * * ## Recommendation * * Because asterisks can be used as a marker for more markdown constructs, * it’s recommended to use that for lists (and thematic breaks, emphasis, * strong) too. * * ## Fix * * [`remark-stringify`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify) * formats ordered lists with asterisks by default. * Pass * [`bullet: '+'` or `bullet: '-'`](https://github.com/remarkjs/remark/tree/main/packages/remark-stringify#optionsbullet) * to always use plusses or dashes. * * @module unordered-list-marker-style * @summary * remark-lint rule to warn when unordered list markers are inconsistent. * @author Titus Wormer * @copyright 2015 Titus Wormer * @license MIT * @example * {"name": "ok.md"} * * By default (`'consistent'`), if the file uses only one marker, * that’s OK. * * * Foo * * Bar * * Baz * * Ordered lists are not affected. * * 1. Foo * 2. Bar * 3. Baz * * @example * {"name": "ok.md", "config": "*"} * * * Foo * * @example * {"name": "ok.md", "config": "-"} * * - Foo * * @example * {"name": "ok.md", "config": "+"} * * + Foo * * @example * {"name": "not-ok.md", "label": "input"} * * * Foo * - Bar * + Baz * * @example * {"name": "not-ok.md", "label": "output"} * * 2:1-2:6: Marker style should be `*` * 3:1-3:6: Marker style should be `*` * * @example * {"name": "not-ok.md", "label": "output", "config": "💩", "positionless": true} * * 1:1: Incorrect unordered list item marker style `💩`: use either `'-'`, `'*'`, or `'+'` */ const markers = new Set(['-', '*', '+']); const remarkLintUnorderedListMarkerStyle = lintRule( { origin: 'remark-lint:unordered-list-marker-style', url: 'https://github.com/remarkjs/remark-lint/tree/main/packages/remark-lint-unordered-list-marker-style#readme' }, (tree, file, option = 'consistent') => { const value = String(file); if (option !== 'consistent' && !markers.has(option)) { file.fail( 'Incorrect unordered list item marker style `' + option + "`: use either `'-'`, `'*'`, or `'+'`" ); } visit(tree, 'list', (node) => { if (node.ordered) return let index = -1; while (++index < node.children.length) { const child = node.children[index]; if (!generated(child)) { const marker = ( value .slice( pointStart(child).offset, pointStart(child.children[0]).offset ) .replace(/\[[x ]?]\s*$/i, '') .replace(/\s/g, '') ); if (option === 'consistent') { option = marker; } else if (marker !== option) { file.message('Marker style should be `' + option + '`', child); } } } }); } ); var remarkLintUnorderedListMarkerStyle$1 = remarkLintUnorderedListMarkerStyle; const plugins = [ remarkGfm, remarkPresetLintRecommended$1, [remarkLintBlockquoteIndentation$1, 2], [remarkLintCheckboxCharacterStyle$1, { checked: "x", unchecked: " " }], remarkLintCheckboxContentIndent$1, [remarkLintCodeBlockStyle$1, "fenced"], remarkLintDefinitionSpacing$1, [ remarkLintFencedCodeFlag$1, { flags: [ "bash", "c", "cjs", "coffee", "console", "cpp", "diff", "http", "js", "json", "markdown", "mjs", "powershell", "r", "text", "ts", ], }, ], [remarkLintFencedCodeMarker$1, "`"], [remarkLintFileExtension$1, "md"], remarkLintFinalDefinition$1, [remarkLintFirstHeadingLevel$1, 1], [remarkLintHeadingStyle$1, "atx"], [remarkLintListItemIndent$1, "space"], remarkLintMaximumLineLength$1, remarkLintNoConsecutiveBlankLines$1, remarkLintNoFileNameArticles$1, remarkLintNoFileNameConsecutiveDashes$1, remarkLintNofileNameOuterDashes$1, remarkLintNoHeadingIndent$1, remarkLintNoMultipleToplevelHeadings$1, remarkLintNoShellDollars$1, remarkLintNoTableIndentation$1, remarkLintNoTabs$1, remarkLintNoTrailingSpaces$1, remarkLintNodejsLinks, remarkLintNodejsYamlComments, [ remarkLintProhibitedStrings, [ { yes: "End-of-Life" }, { no: "filesystem", yes: "file system" }, { yes: "GitHub" }, { no: "hostname", yes: "host name" }, { yes: "JavaScript" }, { no: "[Ll]ong[ -][Tt]erm [Ss]upport", yes: "Long Term Support" }, { no: "Node", yes: "Node.js", ignoreNextTo: "-API" }, { yes: "Node.js" }, { no: "Node[Jj][Ss]", yes: "Node.js" }, { no: "Node\\.js's?", yes: "the Node.js" }, { no: "[Nn]ote that", yes: "" }, { yes: "RFC" }, { no: "[Rr][Ff][Cc]\\d+", yes: "RFC " }, { yes: "Unix" }, { yes: "Valgrind" }, { yes: "V8" }, ], ], remarkLintRuleStyle$1, [remarkLintStrongMarker$1, "*"], [remarkLintTableCellPadding$1, "padded"], remarkLintTablePipes$1, [remarkLintUnorderedListMarkerStyle$1, "*"], ]; const settings = { emphasis: "_", listItemIndent: "one", tightDefinitions: true, }; const remarkPresetLintNode = { plugins, settings }; class VFileMessage extends Error { constructor(causeOrReason, optionsOrParentOrPlace, origin) { super(); if (typeof optionsOrParentOrPlace === 'string') { origin = optionsOrParentOrPlace; optionsOrParentOrPlace = undefined; } let reason = ''; let options = {}; let legacyCause = false; if (optionsOrParentOrPlace) { if ( 'line' in optionsOrParentOrPlace && 'column' in optionsOrParentOrPlace ) { options = {place: optionsOrParentOrPlace}; } else if ( 'start' in optionsOrParentOrPlace && 'end' in optionsOrParentOrPlace ) { options = {place: optionsOrParentOrPlace}; } else if ('type' in optionsOrParentOrPlace) { options = { ancestors: [optionsOrParentOrPlace], place: optionsOrParentOrPlace.position }; } else { options = {...optionsOrParentOrPlace}; } } if (typeof causeOrReason === 'string') { reason = causeOrReason; } else if (!options.cause && causeOrReason) { legacyCause = true; reason = causeOrReason.message; options.cause = causeOrReason; } if (!options.ruleId && !options.source && typeof origin === 'string') { const index = origin.indexOf(':'); if (index === -1) { options.ruleId = origin; } else { options.source = origin.slice(0, index); options.ruleId = origin.slice(index + 1); } } if (!options.place && options.ancestors && options.ancestors) { const parent = options.ancestors[options.ancestors.length - 1]; if (parent) { options.place = parent.position; } } const start = options.place && 'start' in options.place ? options.place.start : options.place; this.ancestors = options.ancestors || undefined; this.cause = options.cause || undefined; this.column = start ? start.column : undefined; this.fatal = undefined; this.file; this.message = reason; this.line = start ? start.line : undefined; this.name = stringifyPosition$2(options.place) || '1:1'; this.place = options.place || undefined; this.reason = this.message; this.ruleId = options.ruleId || undefined; this.source = options.source || undefined; this.stack = legacyCause && options.cause && typeof options.cause.stack === 'string' ? options.cause.stack : ''; this.actual; this.expected; this.note; this.url; } } VFileMessage.prototype.file = ''; VFileMessage.prototype.name = ''; VFileMessage.prototype.reason = ''; VFileMessage.prototype.message = ''; VFileMessage.prototype.stack = ''; VFileMessage.prototype.column = undefined; VFileMessage.prototype.line = undefined; VFileMessage.prototype.ancestors = undefined; VFileMessage.prototype.cause = undefined; VFileMessage.prototype.fatal = undefined; VFileMessage.prototype.place = undefined; VFileMessage.prototype.ruleId = undefined; VFileMessage.prototype.source = undefined; function isUrl(fileUrlOrPath) { return Boolean( fileUrlOrPath !== null && typeof fileUrlOrPath === 'object' && 'href' in fileUrlOrPath && fileUrlOrPath.href && 'protocol' in fileUrlOrPath && fileUrlOrPath.protocol && fileUrlOrPath.auth === undefined ) } const order = ([ 'history', 'path', 'basename', 'stem', 'extname', 'dirname' ]); class VFile { constructor(value) { let options; if (!value) { options = {}; } else if (isUrl(value)) { options = {path: value}; } else if (typeof value === 'string' || isUint8Array$1(value)) { options = {value}; } else { options = value; } this.cwd = process$1.cwd(); this.data = {}; this.history = []; this.messages = []; this.value; this.map; this.result; this.stored; let index = -1; while (++index < order.length) { const prop = order[index]; if ( prop in options && options[prop] !== undefined && options[prop] !== null ) { this[prop] = prop === 'history' ? [...options[prop]] : options[prop]; } } let prop; for (prop in options) { if (!order.includes(prop)) { this[prop] = options[prop]; } } } get basename() { return typeof this.path === 'string' ? path$1.basename(this.path) : undefined } set basename(basename) { assertNonEmpty(basename, 'basename'); assertPart(basename, 'basename'); this.path = path$1.join(this.dirname || '', basename); } get dirname() { return typeof this.path === 'string' ? path$1.dirname(this.path) : undefined } set dirname(dirname) { assertPath(this.basename, 'dirname'); this.path = path$1.join(dirname || '', this.basename); } get extname() { return typeof this.path === 'string' ? path$1.extname(this.path) : undefined } set extname(extname) { assertPart(extname, 'extname'); assertPath(this.dirname, 'extname'); if (extname) { if (extname.codePointAt(0) !== 46 ) { throw new Error('`extname` must start with `.`') } if (extname.includes('.', 1)) { throw new Error('`extname` cannot contain multiple dots') } } this.path = path$1.join(this.dirname, this.stem + (extname || '')); } get path() { return this.history[this.history.length - 1] } set path(path) { if (isUrl(path)) { path = fileURLToPath(path); } assertNonEmpty(path, 'path'); if (this.path !== path) { this.history.push(path); } } get stem() { return typeof this.path === 'string' ? path$1.basename(this.path, this.extname) : undefined } set stem(stem) { assertNonEmpty(stem, 'stem'); assertPart(stem, 'stem'); this.path = path$1.join(this.dirname || '', stem + (this.extname || '')); } fail(causeOrReason, optionsOrParentOrPlace, origin) { const message = this.message(causeOrReason, optionsOrParentOrPlace, origin); message.fatal = true; throw message } info(causeOrReason, optionsOrParentOrPlace, origin) { const message = this.message(causeOrReason, optionsOrParentOrPlace, origin); message.fatal = undefined; return message } message(causeOrReason, optionsOrParentOrPlace, origin) { const message = new VFileMessage( causeOrReason, optionsOrParentOrPlace, origin ); if (this.path) { message.name = this.path + ':' + message.name; message.file = this.path; } message.fatal = false; this.messages.push(message); return message } toString(encoding) { if (this.value === undefined) { return '' } if (typeof this.value === 'string') { return this.value } const decoder = new TextDecoder(encoding || undefined); return decoder.decode(this.value) } } function assertPart(part, name) { if (part && part.includes(path$1.sep)) { throw new Error( '`' + name + '` cannot be a path: did not expect `' + path$1.sep + '`' ) } } function assertNonEmpty(part, name) { if (!part) { throw new Error('`' + name + '` cannot be empty') } } function assertPath(path, name) { if (!path) { throw new Error('Setting `' + name + '` requires `path` to be set too') } } function isUint8Array$1(value) { return Boolean( value && typeof value === 'object' && 'byteLength' in value && 'byteOffset' in value ) } function read(description, options, callback) { const file = toVFile(description); if (!callback && typeof options === 'function') { callback = options; options = undefined; } if (!callback) { return new Promise(executor) } executor(resolve, callback); function resolve(result) { callback(undefined, result); } function executor(resolve, reject) { let fp; try { fp = path$1.resolve(file.cwd, file.path); } catch (error) { const exception = (error); return reject(exception) } fs$1.readFile(fp, options, done); function done(error, result) { if (error) { reject(error); } else { file.value = result; resolve(file); } } } } function toVFile(description) { if (typeof description === 'string' || description instanceof URL) { description = {path: description}; } else if (isUint8Array(description)) { description = {path: new TextDecoder().decode(description)}; } return looksLikeAVFile(description) ? description : new VFile(description) } function looksLikeAVFile(value) { return Boolean( value && typeof value === 'object' && 'message' in value && 'messages' in value ) } function isUint8Array(value) { return Boolean( value && typeof value === 'object' && 'byteLength' in value && 'byteOffset' in value ) } function ansiRegex({onlyFirst = false} = {}) { const pattern = [ '[\\u001B\\u009B][[\\]()#;?]*(?:(?:(?:(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]+)*|[a-zA-Z\\d]+(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]*)*)?\\u0007)', '(?:(?:\\d{1,4}(?:;\\d{0,4})*)?[\\dA-PR-TZcf-ntqry=><~]))' ].join('|'); return new RegExp(pattern, onlyFirst ? undefined : 'g'); } const regex = ansiRegex(); function stripAnsi(string) { if (typeof string !== 'string') { throw new TypeError(`Expected a \`string\`, got \`${typeof string}\``); } return string.replace(regex, ''); } var eastasianwidth = {exports: {}}; (function (module) { var eaw = {}; { module.exports = eaw; } eaw.eastAsianWidth = function(character) { var x = character.charCodeAt(0); var y = (character.length == 2) ? character.charCodeAt(1) : 0; var codePoint = x; if ((0xD800 <= x && x <= 0xDBFF) && (0xDC00 <= y && y <= 0xDFFF)) { x &= 0x3FF; y &= 0x3FF; codePoint = (x << 10) | y; codePoint += 0x10000; } if ((0x3000 == codePoint) || (0xFF01 <= codePoint && codePoint <= 0xFF60) || (0xFFE0 <= codePoint && codePoint <= 0xFFE6)) { return 'F'; } if ((0x20A9 == codePoint) || (0xFF61 <= codePoint && codePoint <= 0xFFBE) || (0xFFC2 <= codePoint && codePoint <= 0xFFC7) || (0xFFCA <= codePoint && codePoint <= 0xFFCF) || (0xFFD2 <= codePoint && codePoint <= 0xFFD7) || (0xFFDA <= codePoint && codePoint <= 0xFFDC) || (0xFFE8 <= codePoint && codePoint <= 0xFFEE)) { return 'H'; } if ((0x1100 <= codePoint && codePoint <= 0x115F) || (0x11A3 <= codePoint && codePoint <= 0x11A7) || (0x11FA <= codePoint && codePoint <= 0x11FF) || (0x2329 <= codePoint && codePoint <= 0x232A) || (0x2E80 <= codePoint && codePoint <= 0x2E99) || (0x2E9B <= codePoint && codePoint <= 0x2EF3) || (0x2F00 <= codePoint && codePoint <= 0x2FD5) || (0x2FF0 <= codePoint && codePoint <= 0x2FFB) || (0x3001 <= codePoint && codePoint <= 0x303E) || (0x3041 <= codePoint && codePoint <= 0x3096) || (0x3099 <= codePoint && codePoint <= 0x30FF) || (0x3105 <= codePoint && codePoint <= 0x312D) || (0x3131 <= codePoint && codePoint <= 0x318E) || (0x3190 <= codePoint && codePoint <= 0x31BA) || (0x31C0 <= codePoint && codePoint <= 0x31E3) || (0x31F0 <= codePoint && codePoint <= 0x321E) || (0x3220 <= codePoint && codePoint <= 0x3247) || (0x3250 <= codePoint && codePoint <= 0x32FE) || (0x3300 <= codePoint && codePoint <= 0x4DBF) || (0x4E00 <= codePoint && codePoint <= 0xA48C) || (0xA490 <= codePoint && codePoint <= 0xA4C6) || (0xA960 <= codePoint && codePoint <= 0xA97C) || (0xAC00 <= codePoint && codePoint <= 0xD7A3) || (0xD7B0 <= codePoint && codePoint <= 0xD7C6) || (0xD7CB <= codePoint && codePoint <= 0xD7FB) || (0xF900 <= codePoint && codePoint <= 0xFAFF) || (0xFE10 <= codePoint && codePoint <= 0xFE19) || (0xFE30 <= codePoint && codePoint <= 0xFE52) || (0xFE54 <= codePoint && codePoint <= 0xFE66) || (0xFE68 <= codePoint && codePoint <= 0xFE6B) || (0x1B000 <= codePoint && codePoint <= 0x1B001) || (0x1F200 <= codePoint && codePoint <= 0x1F202) || (0x1F210 <= codePoint && codePoint <= 0x1F23A) || (0x1F240 <= codePoint && codePoint <= 0x1F248) || (0x1F250 <= codePoint && codePoint <= 0x1F251) || (0x20000 <= codePoint && codePoint <= 0x2F73F) || (0x2B740 <= codePoint && codePoint <= 0x2FFFD) || (0x30000 <= codePoint && codePoint <= 0x3FFFD)) { return 'W'; } if ((0x0020 <= codePoint && codePoint <= 0x007E) || (0x00A2 <= codePoint && codePoint <= 0x00A3) || (0x00A5 <= codePoint && codePoint <= 0x00A6) || (0x00AC == codePoint) || (0x00AF == codePoint) || (0x27E6 <= codePoint && codePoint <= 0x27ED) || (0x2985 <= codePoint && codePoint <= 0x2986)) { return 'Na'; } if ((0x00A1 == codePoint) || (0x00A4 == codePoint) || (0x00A7 <= codePoint && codePoint <= 0x00A8) || (0x00AA == codePoint) || (0x00AD <= codePoint && codePoint <= 0x00AE) || (0x00B0 <= codePoint && codePoint <= 0x00B4) || (0x00B6 <= codePoint && codePoint <= 0x00BA) || (0x00BC <= codePoint && codePoint <= 0x00BF) || (0x00C6 == codePoint) || (0x00D0 == codePoint) || (0x00D7 <= codePoint && codePoint <= 0x00D8) || (0x00DE <= codePoint && codePoint <= 0x00E1) || (0x00E6 == codePoint) || (0x00E8 <= codePoint && codePoint <= 0x00EA) || (0x00EC <= codePoint && codePoint <= 0x00ED) || (0x00F0 == codePoint) || (0x00F2 <= codePoint && codePoint <= 0x00F3) || (0x00F7 <= codePoint && codePoint <= 0x00FA) || (0x00FC == codePoint) || (0x00FE == codePoint) || (0x0101 == codePoint) || (0x0111 == codePoint) || (0x0113 == codePoint) || (0x011B == codePoint) || (0x0126 <= codePoint && codePoint <= 0x0127) || (0x012B == codePoint) || (0x0131 <= codePoint && codePoint <= 0x0133) || (0x0138 == codePoint) || (0x013F <= codePoint && codePoint <= 0x0142) || (0x0144 == codePoint) || (0x0148 <= codePoint && codePoint <= 0x014B) || (0x014D == codePoint) || (0x0152 <= codePoint && codePoint <= 0x0153) || (0x0166 <= codePoint && codePoint <= 0x0167) || (0x016B == codePoint) || (0x01CE == codePoint) || (0x01D0 == codePoint) || (0x01D2 == codePoint) || (0x01D4 == codePoint) || (0x01D6 == codePoint) || (0x01D8 == codePoint) || (0x01DA == codePoint) || (0x01DC == codePoint) || (0x0251 == codePoint) || (0x0261 == codePoint) || (0x02C4 == codePoint) || (0x02C7 == codePoint) || (0x02C9 <= codePoint && codePoint <= 0x02CB) || (0x02CD == codePoint) || (0x02D0 == codePoint) || (0x02D8 <= codePoint && codePoint <= 0x02DB) || (0x02DD == codePoint) || (0x02DF == codePoint) || (0x0300 <= codePoint && codePoint <= 0x036F) || (0x0391 <= codePoint && codePoint <= 0x03A1) || (0x03A3 <= codePoint && codePoint <= 0x03A9) || (0x03B1 <= codePoint && codePoint <= 0x03C1) || (0x03C3 <= codePoint && codePoint <= 0x03C9) || (0x0401 == codePoint) || (0x0410 <= codePoint && codePoint <= 0x044F) || (0x0451 == codePoint) || (0x2010 == codePoint) || (0x2013 <= codePoint && codePoint <= 0x2016) || (0x2018 <= codePoint && codePoint <= 0x2019) || (0x201C <= codePoint && codePoint <= 0x201D) || (0x2020 <= codePoint && codePoint <= 0x2022) || (0x2024 <= codePoint && codePoint <= 0x2027) || (0x2030 == codePoint) || (0x2032 <= codePoint && codePoint <= 0x2033) || (0x2035 == codePoint) || (0x203B == codePoint) || (0x203E == codePoint) || (0x2074 == codePoint) || (0x207F == codePoint) || (0x2081 <= codePoint && codePoint <= 0x2084) || (0x20AC == codePoint) || (0x2103 == codePoint) || (0x2105 == codePoint) || (0x2109 == codePoint) || (0x2113 == codePoint) || (0x2116 == codePoint) || (0x2121 <= codePoint && codePoint <= 0x2122) || (0x2126 == codePoint) || (0x212B == codePoint) || (0x2153 <= codePoint && codePoint <= 0x2154) || (0x215B <= codePoint && codePoint <= 0x215E) || (0x2160 <= codePoint && codePoint <= 0x216B) || (0x2170 <= codePoint && codePoint <= 0x2179) || (0x2189 == codePoint) || (0x2190 <= codePoint && codePoint <= 0x2199) || (0x21B8 <= codePoint && codePoint <= 0x21B9) || (0x21D2 == codePoint) || (0x21D4 == codePoint) || (0x21E7 == codePoint) || (0x2200 == codePoint) || (0x2202 <= codePoint && codePoint <= 0x2203) || (0x2207 <= codePoint && codePoint <= 0x2208) || (0x220B == codePoint) || (0x220F == codePoint) || (0x2211 == codePoint) || (0x2215 == codePoint) || (0x221A == codePoint) || (0x221D <= codePoint && codePoint <= 0x2220) || (0x2223 == codePoint) || (0x2225 == codePoint) || (0x2227 <= codePoint && codePoint <= 0x222C) || (0x222E == codePoint) || (0x2234 <= codePoint && codePoint <= 0x2237) || (0x223C <= codePoint && codePoint <= 0x223D) || (0x2248 == codePoint) || (0x224C == codePoint) || (0x2252 == codePoint) || (0x2260 <= codePoint && codePoint <= 0x2261) || (0x2264 <= codePoint && codePoint <= 0x2267) || (0x226A <= codePoint && codePoint <= 0x226B) || (0x226E <= codePoint && codePoint <= 0x226F) || (0x2282 <= codePoint && codePoint <= 0x2283) || (0x2286 <= codePoint && codePoint <= 0x2287) || (0x2295 == codePoint) || (0x2299 == codePoint) || (0x22A5 == codePoint) || (0x22BF == codePoint) || (0x2312 == codePoint) || (0x2460 <= codePoint && codePoint <= 0x24E9) || (0x24EB <= codePoint && codePoint <= 0x254B) || (0x2550 <= codePoint && codePoint <= 0x2573) || (0x2580 <= codePoint && codePoint <= 0x258F) || (0x2592 <= codePoint && codePoint <= 0x2595) || (0x25A0 <= codePoint && codePoint <= 0x25A1) || (0x25A3 <= codePoint && codePoint <= 0x25A9) || (0x25B2 <= codePoint && codePoint <= 0x25B3) || (0x25B6 <= codePoint && codePoint <= 0x25B7) || (0x25BC <= codePoint && codePoint <= 0x25BD) || (0x25C0 <= codePoint && codePoint <= 0x25C1) || (0x25C6 <= codePoint && codePoint <= 0x25C8) || (0x25CB == codePoint) || (0x25CE <= codePoint && codePoint <= 0x25D1) || (0x25E2 <= codePoint && codePoint <= 0x25E5) || (0x25EF == codePoint) || (0x2605 <= codePoint && codePoint <= 0x2606) || (0x2609 == codePoint) || (0x260E <= codePoint && codePoint <= 0x260F) || (0x2614 <= codePoint && codePoint <= 0x2615) || (0x261C == codePoint) || (0x261E == codePoint) || (0x2640 == codePoint) || (0x2642 == codePoint) || (0x2660 <= codePoint && codePoint <= 0x2661) || (0x2663 <= codePoint && codePoint <= 0x2665) || (0x2667 <= codePoint && codePoint <= 0x266A) || (0x266C <= codePoint && codePoint <= 0x266D) || (0x266F == codePoint) || (0x269E <= codePoint && codePoint <= 0x269F) || (0x26BE <= codePoint && codePoint <= 0x26BF) || (0x26C4 <= codePoint && codePoint <= 0x26CD) || (0x26CF <= codePoint && codePoint <= 0x26E1) || (0x26E3 == codePoint) || (0x26E8 <= codePoint && codePoint <= 0x26FF) || (0x273D == codePoint) || (0x2757 == codePoint) || (0x2776 <= codePoint && codePoint <= 0x277F) || (0x2B55 <= codePoint && codePoint <= 0x2B59) || (0x3248 <= codePoint && codePoint <= 0x324F) || (0xE000 <= codePoint && codePoint <= 0xF8FF) || (0xFE00 <= codePoint && codePoint <= 0xFE0F) || (0xFFFD == codePoint) || (0x1F100 <= codePoint && codePoint <= 0x1F10A) || (0x1F110 <= codePoint && codePoint <= 0x1F12D) || (0x1F130 <= codePoint && codePoint <= 0x1F169) || (0x1F170 <= codePoint && codePoint <= 0x1F19A) || (0xE0100 <= codePoint && codePoint <= 0xE01EF) || (0xF0000 <= codePoint && codePoint <= 0xFFFFD) || (0x100000 <= codePoint && codePoint <= 0x10FFFD)) { return 'A'; } return 'N'; }; eaw.characterLength = function(character) { var code = this.eastAsianWidth(character); if (code == 'F' || code == 'W' || code == 'A') { return 2; } else { return 1; } }; function stringToArray(string) { return string.match(/[\uD800-\uDBFF][\uDC00-\uDFFF]|[^\uD800-\uDFFF]/g) || []; } eaw.length = function(string) { var characters = stringToArray(string); var len = 0; for (var i = 0; i < characters.length; i++) { len = len + this.characterLength(characters[i]); } return len; }; eaw.slice = function(text, start, end) { textLen = eaw.length(text); start = start ? start : 0; end = end ? end : 1; if (start < 0) { start = textLen + start; } if (end < 0) { end = textLen + end; } var result = ''; var eawLen = 0; var chars = stringToArray(text); for (var i = 0; i < chars.length; i++) { var char = chars[i]; var charLen = eaw.length(char); if (eawLen >= start - (charLen == 2 ? 1 : 0)) { if (eawLen + charLen <= end) { result += char; } else { break; } } eawLen += charLen; } return result; }; } (eastasianwidth)); var eastasianwidthExports = eastasianwidth.exports; var eastAsianWidth = getDefaultExportFromCjs(eastasianwidthExports); var emojiRegex = () => { return 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3E\uDDD1\uD83C[\uDFFB-\uDFFF])))?|\uDFFC(?:\u200D(?:[\u2695\u2696\u2708]\uFE0F?|\u2764\uFE0F?\u200D(?:\uD83D\uDC8B\u200D)?\uD83E\uDDD1\uD83C[\uDFFB\uDFFD-\uDFFF]|\uD83C[\uDF3E\uDF73\uDF7C\uDF84\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E(?:[\uDDAF-\uDDB3\uDDBC\uDDBD]|\uDD1D\u200D\uD83E\uDDD1\uD83C[\uDFFB-\uDFFF])))?|\uDFFD(?:\u200D(?:[\u2695\u2696\u2708]\uFE0F?|\u2764\uFE0F?\u200D(?:\uD83D\uDC8B\u200D)?\uD83E\uDDD1\uD83C[\uDFFB\uDFFC\uDFFE\uDFFF]|\uD83C[\uDF3E\uDF73\uDF7C\uDF84\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E(?:[\uDDAF-\uDDB3\uDDBC\uDDBD]|\uDD1D\u200D\uD83E\uDDD1\uD83C[\uDFFB-\uDFFF])))?|\uDFFE(?:\u200D(?:[\u2695\u2696\u2708]\uFE0F?|\u2764\uFE0F?\u200D(?:\uD83D\uDC8B\u200D)?\uD83E\uDDD1\uD83C[\uDFFB-\uDFFD\uDFFF]|\uD83C[\uDF3E\uDF73\uDF7C\uDF84\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E(?:[\uDDAF-\uDDB3\uDDBC\uDDBD]|\uDD1D\u200D\uD83E\uDDD1\uD83C[\uDFFB-\uDFFF])))?|\uDFFF(?:\u200D(?:[\u2695\u2696\u2708]\uFE0F?|\u2764\uFE0F?\u200D(?:\uD83D\uDC8B\u200D)?\uD83E\uDDD1\uD83C[\uDFFB-\uDFFE]|\uD83C[\uDF3E\uDF73\uDF7C\uDF84\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E(?:[\uDDAF-\uDDB3\uDDBC\uDDBD]|\uDD1D\u200D\uD83E\uDDD1\uD83C[\uDFFB-\uDFFF])))?))?|\uDEF1(?:\uD83C(?:\uDFFB(?:\u200D\uD83E\uDEF2\uD83C[\uDFFC-\uDFFF])?|\uDFFC(?:\u200D\uD83E\uDEF2\uD83C[\uDFFB\uDFFD-\uDFFF])?|\uDFFD(?:\u200D\uD83E\uDEF2\uD83C[\uDFFB\uDFFC\uDFFE\uDFFF])?|\uDFFE(?:\u200D\uD83E\uDEF2\uD83C[\uDFFB-\uDFFD\uDFFF])?|\uDFFF(?:\u200D\uD83E\uDEF2\uD83C[\uDFFB-\uDFFE])?))?)/g; }; function stringWidth(string, options) { if (typeof string !== 'string' || string.length === 0) { return 0; } options = { ambiguousIsNarrow: true, countAnsiEscapeCodes: false, ...options, }; if (!options.countAnsiEscapeCodes) { string = stripAnsi(string); } if (string.length === 0) { return 0; } const ambiguousCharacterWidth = options.ambiguousIsNarrow ? 1 : 2; let width = 0; for (const {segment: character} of new Intl.Segmenter().segment(string)) { const codePoint = character.codePointAt(0); if (codePoint <= 0x1F || (codePoint >= 0x7F && codePoint <= 0x9F)) { continue; } if (codePoint >= 0x3_00 && codePoint <= 0x3_6F) { continue; } if (emojiRegex().test(character)) { width += 2; continue; } const code = eastAsianWidth.eastAsianWidth(character); switch (code) { case 'F': case 'W': { width += 2; break; } case 'A': { width += ambiguousCharacterWidth; break; } default: { width += 1; } } } return width; } function compareFile(a, b) { return compareString(a, b, 'path') } function compareMessage(a, b) { return ( compareNumber(a, b, 'line') || compareNumber(a, b, 'column') || compareBoolean(a, b, 'fatal') || compareString(a, b, 'source') || compareString(a, b, 'ruleId') || compareString(a, b, 'reason') ) } function compareBoolean(a, b, field) { return scoreNullableBoolean(a[field]) - scoreNullableBoolean(b[field]) } function compareNumber(a, b, field) { return (a[field] || 0) - (b[field] || 0) } function compareString(a, b, field) { return String(a[field] || '').localeCompare(String(b[field] || '')) } function scoreNullableBoolean(value) { return value ? 0 : value === false ? 1 : 2 } function statistics(value) { const result = {fatal: 0, warn: 0, info: 0}; if (!value) { throw new TypeError( 'Expected file or message for `value`, not `' + value + '`' ) } if (Array.isArray(value)) { list(value); } else { one(value); } return { fatal: result.fatal, nonfatal: result.warn + result.info, warn: result.warn, info: result.info, total: result.fatal + result.warn + result.info } function list(value) { let index = -1; while (++index < value.length) { one(value[index]); } } function one(value) { if ('messages' in value) return list(value.messages) result[value.fatal ? 'fatal' : value.fatal === false ? 'warn' : 'info']++; } } function hasFlag(flag, argv = globalThis.Deno ? globalThis.Deno.args : process$1.argv) { const prefix = flag.startsWith('-') ? '' : (flag.length === 1 ? '-' : '--'); const position = argv.indexOf(prefix + flag); const terminatorPosition = argv.indexOf('--'); return position !== -1 && (terminatorPosition === -1 || position < terminatorPosition); } const {env} = process$1; let flagForceColor; if ( hasFlag('no-color') || hasFlag('no-colors') || hasFlag('color=false') || hasFlag('color=never') ) { flagForceColor = 0; } else if ( hasFlag('color') || hasFlag('colors') || hasFlag('color=true') || hasFlag('color=always') ) { flagForceColor = 1; } function envForceColor() { if ('FORCE_COLOR' in env) { if (env.FORCE_COLOR === 'true') { return 1; } if (env.FORCE_COLOR === 'false') { return 0; } return env.FORCE_COLOR.length === 0 ? 1 : Math.min(Number.parseInt(env.FORCE_COLOR, 10), 3); } } function translateLevel(level) { if (level === 0) { return false; } return { level, hasBasic: true, has256: level >= 2, has16m: level >= 3, }; } function _supportsColor(haveStream, {streamIsTTY, sniffFlags = true} = {}) { const noFlagForceColor = envForceColor(); if (noFlagForceColor !== undefined) { flagForceColor = noFlagForceColor; } const forceColor = sniffFlags ? flagForceColor : noFlagForceColor; if (forceColor === 0) { return 0; } if (sniffFlags) { if (hasFlag('color=16m') || hasFlag('color=full') || hasFlag('color=truecolor')) { return 3; } if (hasFlag('color=256')) { return 2; } } if ('TF_BUILD' in env && 'AGENT_NAME' in env) { return 1; } if (haveStream && !streamIsTTY && forceColor === undefined) { return 0; } const min = forceColor || 0; if (env.TERM === 'dumb') { return min; } if (process$1.platform === 'win32') { const osRelease = os.release().split('.'); if ( Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10_586 ) { return Number(osRelease[2]) >= 14_931 ? 3 : 2; } return 1; } if ('CI' in env) { if ('GITHUB_ACTIONS' in env || 'GITEA_ACTIONS' in env) { return 3; } if (['TRAVIS', 'CIRCLECI', 'APPVEYOR', 'GITLAB_CI', 'BUILDKITE', 'DRONE'].some(sign => sign in env) || env.CI_NAME === 'codeship') { return 1; } return min; } if ('TEAMCITY_VERSION' in env) { return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env.TEAMCITY_VERSION) ? 1 : 0; } if (env.COLORTERM === 'truecolor') { return 3; } if (env.TERM === 'xterm-kitty') { return 3; } if ('TERM_PROGRAM' in env) { const version = Number.parseInt((env.TERM_PROGRAM_VERSION || '').split('.')[0], 10); switch (env.TERM_PROGRAM) { case 'iTerm.app': { return version >= 3 ? 3 : 2; } case 'Apple_Terminal': { return 2; } } } if (/-256(color)?$/i.test(env.TERM)) { return 2; } if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env.TERM)) { return 1; } if ('COLORTERM' in env) { return 1; } return min; } function createSupportsColor(stream, options = {}) { const level = _supportsColor(stream, { streamIsTTY: stream && stream.isTTY, ...options, }); return translateLevel(level); } const supportsColor = { stdout: createSupportsColor({isTTY: tty.isatty(1)}), stderr: createSupportsColor({isTTY: tty.isatty(2)}), }; const color = supportsColor.stderr.hasBasic; const eol = /\r?\n|\r/; function reporter(files, options) { if ( !files || ('name' in files && 'message' in files) ) { throw new TypeError( 'Unexpected value for `files`, expected one or more `VFile`s' ) } const settings = options || {}; const colorEnabled = typeof settings.color === 'boolean' ? settings.color : color; let oneFileMode = false; if (Array.isArray(files)) ; else { oneFileMode = true; files = [files]; } return serializeRows( createRows( { defaultName: settings.defaultName || undefined, oneFileMode, quiet: settings.quiet || false, silent: settings.silent || false, traceLimit: typeof settings.traceLimit === 'number' ? settings.traceLimit : 10, verbose: settings.verbose || false, bold: colorEnabled ? '\u001B[1m' : '', underline: colorEnabled ? '\u001B[4m' : '', normalIntensity: colorEnabled ? '\u001B[22m' : '', noUnderline: colorEnabled ? '\u001B[24m' : '', red: colorEnabled ? '\u001B[31m' : '', cyan: colorEnabled ? '\u001B[36m' : '', green: colorEnabled ? '\u001B[32m' : '', yellow: colorEnabled ? '\u001B[33m' : '', defaultColor: colorEnabled ? '\u001B[39m' : '' }, files ) ) } function createAncestorsLines(state, ancestors) { const min = ancestors.length > state.traceLimit ? ancestors.length - state.traceLimit : 0; let index = ancestors.length; const lines = []; if (index > min) { lines.unshift(' ' + state.bold + '[trace]' + state.normalIntensity + ':'); } while (index-- > min) { const node = ancestors[index]; const value = node; const name = typeof value.tagName === 'string' ? value.tagName : typeof value.name === 'string' ? value.name : undefined; const position = stringifyPosition$2(node.position); lines.push( ' at ' + state.yellow + node.type + (name ? '<' + name + '>' : '') + state.defaultColor + (position ? ' (' + position + ')' : '') ); } return lines } function createByline(state, stats) { let result = ''; if (stats.fatal) { result = state.red + '✖' + state.defaultColor + ' ' + stats.fatal + ' ' + (fatalToLabel(true) + (stats.fatal === 1 ? '' : 's')); } if (stats.warn) { result = (result ? result + ', ' : '') + (state.yellow + '⚠' + state.defaultColor) + ' ' + stats.warn + ' ' + (fatalToLabel(false) + (stats.warn === 1 ? '' : 's')); } if (stats.total !== stats.fatal && stats.total !== stats.warn) { result = stats.total + ' messages (' + result + ')'; } return result } function createCauseLines(state, cause) { const lines = [' ' + state.bold + '[cause]' + state.normalIntensity + ':']; let foundReasonableCause = false; if (cause !== null && typeof cause === 'object') { const stackValue = ('stack' in cause ? String(cause.stack) : undefined) || ('message' in cause ? String(cause.message) : undefined); if (typeof stackValue === 'string') { foundReasonableCause = true; const stackLines = stackValue.split(eol); stackLines[0] = ' ' + stackLines[0]; lines.push(...stackLines); if ('cause' in cause && cause.cause) { lines.push(...createCauseLines(state, cause.cause)); } } } if (!foundReasonableCause) { lines.push(' ' + cause); } return lines } function createFileLine(state, file) { const stats = statistics(file.messages); const fromPath = file.history[0]; const toPath = file.path; let left = ''; let right = ''; if (!state.oneFileMode || state.defaultName || fromPath) { const name = fromPath || state.defaultName || ''; left = state.underline + (stats.fatal ? state.red : stats.total ? state.yellow : state.green) + name + state.defaultColor + state.noUnderline + (file.stored && name !== toPath ? ' > ' + toPath : ''); } if (file.stored) { right = state.yellow + 'written' + state.defaultColor; } else if (!stats.total) { right = 'no issues found'; } return left && right ? left + ': ' + right : left + right } function createNoteLines(state, note) { const noteLines = note.split(eol); let index = -1; while (++index < noteLines.length) { noteLines[index] = ' ' + noteLines[index]; } return [ ' ' + state.bold + '[note]' + state.normalIntensity + ':', ...noteLines ] } function createMessageLine(state, message) { const label = fatalToLabel(message.fatal); let reason = message.stack || message.message; const match = eol.exec(reason); let rest = []; if (match) { rest = reason.slice(match.index + 1).split(eol); reason = reason.slice(0, match.index); } const place = message.place || message.position; const row = [ stringifyPosition$2(place), (label === 'error' ? state.red : state.yellow) + label + state.defaultColor, formatReason(state, reason), message.ruleId || '', message.source || '' ]; if (message.cause) { rest.push(...createCauseLines(state, message.cause)); } if (state.verbose && message.url) { rest.push(...createUrlLines(state, message.url)); } if (state.verbose && message.note) { rest.push(...createNoteLines(state, message.note)); } if (state.verbose && message.ancestors) { rest.push(...createAncestorsLines(state, message.ancestors)); } return [row, ...rest] } function createRows(state, files) { const sortedFiles = [...files].sort(compareFile); const all = []; let index = -1; const rows = []; let lastWasMessage = false; while (++index < sortedFiles.length) { const file = sortedFiles[index]; const messages = [...file.messages].sort(compareMessage); const messageRows = []; let offset = -1; while (++offset < messages.length) { const message = messages[offset]; if (!state.silent || message.fatal) { all.push(message); messageRows.push(...createMessageLine(state, message)); } } if ((!state.quiet && !state.silent) || messageRows.length > 0) { const line = createFileLine(state, file); if (lastWasMessage && line) rows.push(''); if (line) rows.push(line); if (messageRows.length > 0) rows.push(...messageRows); lastWasMessage = messageRows.length > 0; } } const stats = statistics(all); if (stats.fatal || stats.warn) { rows.push('', createByline(state, stats)); } return rows } function createUrlLines(state, url) { return [ ' ' + state.bold + '[url]' + state.normalIntensity + ':', ' ' + url ] } function formatReason(state, reason) { const result = []; const splits = []; let index = reason.indexOf('`'); while (index !== -1) { const split = {index, size: 1}; splits.push(split); while (reason.codePointAt(index + 1) === 96) { split.size++; index++; } index = reason.indexOf('`', index + 1); } index = -1; let textStart = 0; while (++index < splits.length) { let closeIndex = index; let close; while (++closeIndex < splits.length) { if (splits[index].size === splits[closeIndex].size) { close = splits[closeIndex]; break } } if (close) { const codeStart = splits[index].index; const codeEnd = close.index + close.size; result.push( reason.slice(textStart, codeStart) + state.cyan + reason.slice(codeStart, codeEnd) + state.defaultColor ); textStart = codeEnd; index = closeIndex; } } result.push(reason.slice(textStart)); return state.bold + result.join('') + state.normalIntensity } function fatalToLabel(value) { return value ? 'error' : value === false ? 'warning' : 'info' } function serializeRows(rows) { const sizes = []; let index = -1; while (++index < rows.length) { const row = rows[index]; if (typeof row === 'string') ; else { let cellIndex = -1; while (++cellIndex < row.length) { const current = sizes[cellIndex] || 0; const size = stringWidth(row[cellIndex]); if (size > current) { sizes[cellIndex] = size; } } } } const lines = []; index = -1; while (++index < rows.length) { const row = rows[index]; let line = ''; if (typeof row === 'string') { line = row; } else { let cellIndex = -1; while (++cellIndex < row.length) { const cell = row[cellIndex] || ''; const max = (sizes[cellIndex] || 0) + 1; line += cell + ' '.repeat(max - stringWidth(cell)); } } lines.push(line.trimEnd()); } return lines.join('\n') } const paths = process.argv.slice(2); if (!paths.length) { console.error('Usage: lint-md.mjs [ ...]'); process.exit(1); } let format = false; if (paths[0] === '--format') { paths.shift(); format = true; } const linter = unified() .use(remarkParse) .use(remarkPresetLintNode) .use(remarkStringify); paths.forEach(async (path) => { const file = await read(path); const fileContents = file.toString(); const result = await linter.process(file); const isDifferent = fileContents !== result.toString(); if (format) { if (isDifferent) { fs.writeFileSync(path, result.toString()); } } else { if (isDifferent) { process.exitCode = 1; const cmd = process.platform === 'win32' ? 'vcbuild' : 'make'; console.error(`${path} is not formatted. Please run '${cmd} format-md'.`); } if (result.messages.length) { process.exitCode = 1; console.error(reporter(result)); } } });