var __create = Object.create; var __defProp = Object.defineProperty; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropNames = Object.getOwnPropertyNames; var __getProtoOf = Object.getPrototypeOf; var __hasOwnProp = Object.prototype.hasOwnProperty; var __commonJS = (cb, mod) => function __require() { return mod || (0, cb[__getOwnPropNames(cb)[0]])((mod = { exports: {} }).exports, mod), mod.exports; }; var __export = (target, all2) => { for (var name in all2) __defProp(target, name, { get: all2[name], enumerable: true }); }; var __copyProps = (to, from, except, desc) => { if (from && typeof from === "object" || typeof from === "function") { for (let key of __getOwnPropNames(from)) if (!__hasOwnProp.call(to, key) && key !== except) __defProp(to, key, { get: () => from[key], enumerable: !(desc = __getOwnPropDesc(from, key)) || desc.enumerable }); } return to; }; var __toESM = (mod, isNodeMode, target) => (target = mod != null ? __create(__getProtoOf(mod)) : {}, __copyProps( // If the importer is in node compatibility mode or this is not an ESM // file that has been converted to a CommonJS file using a Babel- // compatible transform (i.e. "__esModule" has not been set), then set // "default" to the CommonJS "module.exports" for node compatibility. isNodeMode || !mod || !mod.__esModule ? __defProp(target, "default", { value: mod, enumerable: true }) : target, mod )); var __toCommonJS = (mod) => __copyProps(__defProp({}, "__esModule", { value: true }), mod); // node_modules/extend/index.js var require_extend = __commonJS({ "node_modules/extend/index.js"(exports, module2) { "use strict"; var hasOwn = Object.prototype.hasOwnProperty; var toStr = Object.prototype.toString; var defineProperty = Object.defineProperty; var gOPD = Object.getOwnPropertyDescriptor; var isArray = function isArray2(arr) { if (typeof Array.isArray === "function") { return Array.isArray(arr); } return toStr.call(arr) === "[object Array]"; }; var isPlainObject2 = function isPlainObject3(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 setProperty2(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 getProperty2(obj, name) { if (name === "__proto__") { if (!hasOwn.call(obj, name)) { return void 0; } else if (gOPD) { return gOPD(obj, name).value; } } return obj[name]; }; module2.exports = function extend2() { 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 && (isPlainObject2(copy) || (copyIsArray = isArray(copy)))) { if (copyIsArray) { copyIsArray = false; clone = src && isArray(src) ? src : []; } else { clone = src && isPlainObject2(src) ? src : {}; } setProperty(target, { name, newValue: extend2(deep, clone, copy) }); } else if (typeof copy !== "undefined") { setProperty(target, { name, newValue: copy }); } } } } } return target; }; } }); // node_modules/remark/index.js var remark_exports = {}; __export(remark_exports, { remark: () => remark1501 }); module.exports = __toCommonJS(remark_exports); // node_modules/mdast-util-to-string/lib/index.js var 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 index2 = -1; while (++index2 < values.length) { result[index2] = one(values[index2], includeImageAlt, includeHtml); } return result.join(""); } function node(value) { return Boolean(value && typeof value === "object"); } // node_modules/character-entities/index.js var characterEntities = { AElig: "\xC6", AMP: "&", Aacute: "\xC1", Abreve: "\u0102", Acirc: "\xC2", Acy: "\u0410", Afr: "\u{1D504}", Agrave: "\xC0", Alpha: "\u0391", Amacr: "\u0100", And: "\u2A53", Aogon: "\u0104", Aopf: "\u{1D538}", ApplyFunction: "\u2061", Aring: "\xC5", Ascr: "\u{1D49C}", Assign: "\u2254", Atilde: "\xC3", Auml: "\xC4", Backslash: "\u2216", Barv: "\u2AE7", Barwed: "\u2306", Bcy: "\u0411", Because: "\u2235", Bernoullis: "\u212C", Beta: "\u0392", Bfr: "\u{1D505}", Bopf: "\u{1D539}", Breve: "\u02D8", Bscr: "\u212C", Bumpeq: "\u224E", CHcy: "\u0427", COPY: "\xA9", Cacute: "\u0106", Cap: "\u22D2", CapitalDifferentialD: "\u2145", Cayleys: "\u212D", Ccaron: "\u010C", Ccedil: "\xC7", Ccirc: "\u0108", Cconint: "\u2230", Cdot: "\u010A", Cedilla: "\xB8", CenterDot: "\xB7", Cfr: "\u212D", Chi: "\u03A7", CircleDot: "\u2299", CircleMinus: "\u2296", CirclePlus: "\u2295", CircleTimes: "\u2297", ClockwiseContourIntegral: "\u2232", CloseCurlyDoubleQuote: "\u201D", CloseCurlyQuote: "\u2019", Colon: "\u2237", Colone: "\u2A74", Congruent: "\u2261", Conint: "\u222F", ContourIntegral: "\u222E", Copf: "\u2102", Coproduct: "\u2210", CounterClockwiseContourIntegral: "\u2233", Cross: "\u2A2F", Cscr: "\u{1D49E}", Cup: "\u22D3", CupCap: "\u224D", DD: "\u2145", DDotrahd: "\u2911", DJcy: "\u0402", DScy: "\u0405", DZcy: "\u040F", Dagger: "\u2021", Darr: "\u21A1", Dashv: "\u2AE4", Dcaron: "\u010E", Dcy: "\u0414", Del: "\u2207", Delta: "\u0394", Dfr: "\u{1D507}", DiacriticalAcute: "\xB4", DiacriticalDot: "\u02D9", DiacriticalDoubleAcute: "\u02DD", DiacriticalGrave: "`", DiacriticalTilde: "\u02DC", Diamond: "\u22C4", DifferentialD: "\u2146", Dopf: "\u{1D53B}", Dot: "\xA8", DotDot: "\u20DC", DotEqual: "\u2250", DoubleContourIntegral: "\u222F", DoubleDot: "\xA8", DoubleDownArrow: "\u21D3", DoubleLeftArrow: "\u21D0", DoubleLeftRightArrow: "\u21D4", DoubleLeftTee: "\u2AE4", DoubleLongLeftArrow: "\u27F8", DoubleLongLeftRightArrow: "\u27FA", DoubleLongRightArrow: "\u27F9", DoubleRightArrow: "\u21D2", DoubleRightTee: "\u22A8", DoubleUpArrow: "\u21D1", DoubleUpDownArrow: "\u21D5", DoubleVerticalBar: "\u2225", DownArrow: "\u2193", DownArrowBar: "\u2913", DownArrowUpArrow: "\u21F5", DownBreve: "\u0311", DownLeftRightVector: "\u2950", DownLeftTeeVector: "\u295E", DownLeftVector: "\u21BD", DownLeftVectorBar: "\u2956", DownRightTeeVector: "\u295F", DownRightVector: "\u21C1", DownRightVectorBar: "\u2957", DownTee: "\u22A4", DownTeeArrow: "\u21A7", Downarrow: "\u21D3", Dscr: "\u{1D49F}", Dstrok: "\u0110", ENG: "\u014A", ETH: "\xD0", Eacute: "\xC9", Ecaron: "\u011A", Ecirc: "\xCA", Ecy: "\u042D", Edot: "\u0116", Efr: "\u{1D508}", Egrave: "\xC8", Element: "\u2208", Emacr: "\u0112", EmptySmallSquare: "\u25FB", EmptyVerySmallSquare: "\u25AB", Eogon: "\u0118", Eopf: "\u{1D53C}", Epsilon: "\u0395", Equal: "\u2A75", EqualTilde: "\u2242", Equilibrium: "\u21CC", Escr: "\u2130", Esim: "\u2A73", Eta: "\u0397", Euml: "\xCB", Exists: "\u2203", ExponentialE: "\u2147", Fcy: "\u0424", Ffr: "\u{1D509}", FilledSmallSquare: "\u25FC", FilledVerySmallSquare: "\u25AA", Fopf: "\u{1D53D}", ForAll: "\u2200", Fouriertrf: "\u2131", Fscr: "\u2131", GJcy: "\u0403", GT: ">", Gamma: "\u0393", Gammad: "\u03DC", Gbreve: "\u011E", Gcedil: "\u0122", Gcirc: "\u011C", Gcy: "\u0413", Gdot: "\u0120", Gfr: "\u{1D50A}", Gg: "\u22D9", Gopf: "\u{1D53E}", GreaterEqual: "\u2265", GreaterEqualLess: "\u22DB", GreaterFullEqual: "\u2267", GreaterGreater: "\u2AA2", GreaterLess: "\u2277", GreaterSlantEqual: "\u2A7E", GreaterTilde: "\u2273", Gscr: "\u{1D4A2}", Gt: "\u226B", HARDcy: "\u042A", Hacek: "\u02C7", Hat: "^", Hcirc: "\u0124", Hfr: "\u210C", HilbertSpace: "\u210B", Hopf: "\u210D", HorizontalLine: "\u2500", Hscr: "\u210B", Hstrok: "\u0126", HumpDownHump: "\u224E", HumpEqual: "\u224F", IEcy: "\u0415", IJlig: "\u0132", IOcy: "\u0401", Iacute: "\xCD", Icirc: "\xCE", Icy: "\u0418", Idot: "\u0130", Ifr: "\u2111", Igrave: "\xCC", Im: "\u2111", Imacr: "\u012A", ImaginaryI: "\u2148", Implies: "\u21D2", Int: "\u222C", Integral: "\u222B", Intersection: "\u22C2", InvisibleComma: "\u2063", InvisibleTimes: "\u2062", Iogon: "\u012E", Iopf: "\u{1D540}", Iota: "\u0399", Iscr: "\u2110", Itilde: "\u0128", Iukcy: "\u0406", Iuml: "\xCF", Jcirc: "\u0134", Jcy: "\u0419", Jfr: "\u{1D50D}", Jopf: "\u{1D541}", Jscr: "\u{1D4A5}", Jsercy: "\u0408", Jukcy: "\u0404", KHcy: "\u0425", KJcy: "\u040C", Kappa: "\u039A", Kcedil: "\u0136", Kcy: "\u041A", Kfr: "\u{1D50E}", Kopf: "\u{1D542}", Kscr: "\u{1D4A6}", LJcy: "\u0409", LT: "<", Lacute: "\u0139", Lambda: "\u039B", Lang: "\u27EA", Laplacetrf: "\u2112", Larr: "\u219E", Lcaron: "\u013D", Lcedil: "\u013B", Lcy: "\u041B", LeftAngleBracket: "\u27E8", LeftArrow: "\u2190", LeftArrowBar: "\u21E4", LeftArrowRightArrow: "\u21C6", LeftCeiling: "\u2308", LeftDoubleBracket: "\u27E6", LeftDownTeeVector: "\u2961", LeftDownVector: "\u21C3", LeftDownVectorBar: "\u2959", LeftFloor: "\u230A", LeftRightArrow: "\u2194", LeftRightVector: "\u294E", LeftTee: "\u22A3", LeftTeeArrow: "\u21A4", LeftTeeVector: "\u295A", LeftTriangle: "\u22B2", LeftTriangleBar: "\u29CF", LeftTriangleEqual: "\u22B4", LeftUpDownVector: "\u2951", LeftUpTeeVector: "\u2960", LeftUpVector: "\u21BF", LeftUpVectorBar: "\u2958", LeftVector: "\u21BC", LeftVectorBar: "\u2952", Leftarrow: "\u21D0", Leftrightarrow: "\u21D4", LessEqualGreater: "\u22DA", LessFullEqual: "\u2266", LessGreater: "\u2276", LessLess: "\u2AA1", LessSlantEqual: "\u2A7D", LessTilde: "\u2272", Lfr: "\u{1D50F}", Ll: "\u22D8", Lleftarrow: "\u21DA", Lmidot: "\u013F", LongLeftArrow: "\u27F5", LongLeftRightArrow: "\u27F7", LongRightArrow: "\u27F6", Longleftarrow: "\u27F8", Longleftrightarrow: "\u27FA", Longrightarrow: "\u27F9", Lopf: "\u{1D543}", LowerLeftArrow: "\u2199", LowerRightArrow: "\u2198", Lscr: "\u2112", Lsh: "\u21B0", Lstrok: "\u0141", Lt: "\u226A", Map: "\u2905", Mcy: "\u041C", MediumSpace: "\u205F", Mellintrf: "\u2133", Mfr: "\u{1D510}", MinusPlus: "\u2213", Mopf: "\u{1D544}", Mscr: "\u2133", Mu: "\u039C", NJcy: "\u040A", Nacute: "\u0143", Ncaron: "\u0147", Ncedil: "\u0145", Ncy: "\u041D", NegativeMediumSpace: "\u200B", NegativeThickSpace: "\u200B", NegativeThinSpace: "\u200B", NegativeVeryThinSpace: "\u200B", NestedGreaterGreater: "\u226B", NestedLessLess: "\u226A", NewLine: "\n", Nfr: "\u{1D511}", NoBreak: "\u2060", NonBreakingSpace: "\xA0", Nopf: "\u2115", Not: "\u2AEC", NotCongruent: "\u2262", NotCupCap: "\u226D", NotDoubleVerticalBar: "\u2226", NotElement: "\u2209", NotEqual: "\u2260", NotEqualTilde: "\u2242\u0338", NotExists: "\u2204", NotGreater: "\u226F", NotGreaterEqual: "\u2271", NotGreaterFullEqual: "\u2267\u0338", NotGreaterGreater: "\u226B\u0338", NotGreaterLess: "\u2279", NotGreaterSlantEqual: "\u2A7E\u0338", NotGreaterTilde: "\u2275", NotHumpDownHump: "\u224E\u0338", NotHumpEqual: "\u224F\u0338", NotLeftTriangle: "\u22EA", NotLeftTriangleBar: "\u29CF\u0338", NotLeftTriangleEqual: "\u22EC", NotLess: "\u226E", NotLessEqual: "\u2270", NotLessGreater: "\u2278", NotLessLess: "\u226A\u0338", NotLessSlantEqual: "\u2A7D\u0338", NotLessTilde: "\u2274", NotNestedGreaterGreater: "\u2AA2\u0338", NotNestedLessLess: "\u2AA1\u0338", NotPrecedes: "\u2280", NotPrecedesEqual: "\u2AAF\u0338", NotPrecedesSlantEqual: "\u22E0", NotReverseElement: "\u220C", NotRightTriangle: "\u22EB", NotRightTriangleBar: "\u29D0\u0338", NotRightTriangleEqual: "\u22ED", NotSquareSubset: "\u228F\u0338", NotSquareSubsetEqual: "\u22E2", NotSquareSuperset: "\u2290\u0338", NotSquareSupersetEqual: "\u22E3", NotSubset: "\u2282\u20D2", NotSubsetEqual: "\u2288", NotSucceeds: "\u2281", NotSucceedsEqual: "\u2AB0\u0338", NotSucceedsSlantEqual: "\u22E1", NotSucceedsTilde: "\u227F\u0338", NotSuperset: "\u2283\u20D2", NotSupersetEqual: "\u2289", NotTilde: "\u2241", NotTildeEqual: "\u2244", NotTildeFullEqual: "\u2247", NotTildeTilde: "\u2249", NotVerticalBar: "\u2224", Nscr: "\u{1D4A9}", Ntilde: "\xD1", Nu: "\u039D", OElig: "\u0152", Oacute: "\xD3", Ocirc: "\xD4", Ocy: "\u041E", Odblac: "\u0150", Ofr: "\u{1D512}", Ograve: "\xD2", Omacr: "\u014C", Omega: "\u03A9", Omicron: "\u039F", Oopf: "\u{1D546}", OpenCurlyDoubleQuote: "\u201C", OpenCurlyQuote: "\u2018", Or: "\u2A54", Oscr: "\u{1D4AA}", Oslash: "\xD8", Otilde: "\xD5", Otimes: "\u2A37", Ouml: "\xD6", OverBar: "\u203E", OverBrace: "\u23DE", OverBracket: "\u23B4", OverParenthesis: "\u23DC", PartialD: "\u2202", Pcy: "\u041F", Pfr: "\u{1D513}", Phi: "\u03A6", Pi: "\u03A0", PlusMinus: "\xB1", Poincareplane: "\u210C", Popf: "\u2119", Pr: "\u2ABB", Precedes: "\u227A", PrecedesEqual: "\u2AAF", PrecedesSlantEqual: "\u227C", PrecedesTilde: "\u227E", Prime: "\u2033", Product: "\u220F", Proportion: "\u2237", Proportional: "\u221D", Pscr: "\u{1D4AB}", Psi: "\u03A8", QUOT: '"', Qfr: "\u{1D514}", Qopf: "\u211A", Qscr: "\u{1D4AC}", RBarr: "\u2910", REG: "\xAE", Racute: "\u0154", Rang: "\u27EB", Rarr: "\u21A0", Rarrtl: "\u2916", Rcaron: "\u0158", Rcedil: "\u0156", Rcy: "\u0420", Re: "\u211C", ReverseElement: "\u220B", ReverseEquilibrium: "\u21CB", ReverseUpEquilibrium: "\u296F", Rfr: "\u211C", Rho: "\u03A1", RightAngleBracket: "\u27E9", RightArrow: "\u2192", RightArrowBar: "\u21E5", RightArrowLeftArrow: "\u21C4", RightCeiling: "\u2309", RightDoubleBracket: "\u27E7", RightDownTeeVector: "\u295D", RightDownVector: "\u21C2", RightDownVectorBar: "\u2955", RightFloor: "\u230B", RightTee: "\u22A2", RightTeeArrow: "\u21A6", RightTeeVector: "\u295B", RightTriangle: "\u22B3", RightTriangleBar: "\u29D0", RightTriangleEqual: "\u22B5", RightUpDownVector: "\u294F", RightUpTeeVector: "\u295C", RightUpVector: "\u21BE", RightUpVectorBar: "\u2954", RightVector: "\u21C0", RightVectorBar: "\u2953", Rightarrow: "\u21D2", Ropf: "\u211D", RoundImplies: "\u2970", Rrightarrow: "\u21DB", Rscr: "\u211B", Rsh: "\u21B1", RuleDelayed: "\u29F4", SHCHcy: "\u0429", SHcy: "\u0428", SOFTcy: "\u042C", Sacute: "\u015A", Sc: "\u2ABC", Scaron: "\u0160", Scedil: "\u015E", Scirc: "\u015C", Scy: "\u0421", Sfr: "\u{1D516}", ShortDownArrow: "\u2193", ShortLeftArrow: "\u2190", ShortRightArrow: "\u2192", ShortUpArrow: "\u2191", Sigma: "\u03A3", SmallCircle: "\u2218", Sopf: "\u{1D54A}", Sqrt: "\u221A", Square: "\u25A1", SquareIntersection: "\u2293", SquareSubset: "\u228F", SquareSubsetEqual: "\u2291", SquareSuperset: "\u2290", SquareSupersetEqual: "\u2292", SquareUnion: "\u2294", Sscr: "\u{1D4AE}", Star: "\u22C6", Sub: "\u22D0", Subset: "\u22D0", SubsetEqual: "\u2286", Succeeds: "\u227B", SucceedsEqual: "\u2AB0", SucceedsSlantEqual: "\u227D", SucceedsTilde: "\u227F", SuchThat: "\u220B", Sum: "\u2211", Sup: "\u22D1", Superset: "\u2283", SupersetEqual: "\u2287", Supset: "\u22D1", THORN: "\xDE", TRADE: "\u2122", TSHcy: "\u040B", TScy: "\u0426", Tab: " ", Tau: "\u03A4", Tcaron: "\u0164", Tcedil: "\u0162", Tcy: "\u0422", Tfr: "\u{1D517}", Therefore: "\u2234", Theta: "\u0398", ThickSpace: "\u205F\u200A", ThinSpace: "\u2009", Tilde: "\u223C", TildeEqual: "\u2243", TildeFullEqual: "\u2245", TildeTilde: "\u2248", Topf: "\u{1D54B}", TripleDot: "\u20DB", Tscr: "\u{1D4AF}", Tstrok: "\u0166", Uacute: "\xDA", Uarr: "\u219F", Uarrocir: "\u2949", Ubrcy: "\u040E", Ubreve: "\u016C", Ucirc: "\xDB", Ucy: "\u0423", Udblac: "\u0170", Ufr: "\u{1D518}", Ugrave: "\xD9", Umacr: "\u016A", UnderBar: "_", UnderBrace: "\u23DF", UnderBracket: "\u23B5", UnderParenthesis: "\u23DD", Union: "\u22C3", UnionPlus: "\u228E", Uogon: "\u0172", Uopf: "\u{1D54C}", UpArrow: "\u2191", UpArrowBar: "\u2912", UpArrowDownArrow: "\u21C5", UpDownArrow: "\u2195", UpEquilibrium: "\u296E", UpTee: "\u22A5", UpTeeArrow: "\u21A5", Uparrow: "\u21D1", Updownarrow: "\u21D5", UpperLeftArrow: "\u2196", UpperRightArrow: "\u2197", Upsi: "\u03D2", Upsilon: "\u03A5", Uring: "\u016E", Uscr: "\u{1D4B0}", Utilde: "\u0168", Uuml: "\xDC", VDash: "\u22AB", Vbar: "\u2AEB", Vcy: "\u0412", Vdash: "\u22A9", Vdashl: "\u2AE6", Vee: "\u22C1", Verbar: "\u2016", Vert: "\u2016", VerticalBar: "\u2223", VerticalLine: "|", VerticalSeparator: "\u2758", VerticalTilde: "\u2240", VeryThinSpace: "\u200A", Vfr: "\u{1D519}", Vopf: "\u{1D54D}", Vscr: "\u{1D4B1}", Vvdash: "\u22AA", Wcirc: "\u0174", Wedge: "\u22C0", Wfr: "\u{1D51A}", Wopf: "\u{1D54E}", Wscr: "\u{1D4B2}", Xfr: "\u{1D51B}", Xi: "\u039E", Xopf: "\u{1D54F}", Xscr: "\u{1D4B3}", YAcy: "\u042F", YIcy: "\u0407", YUcy: "\u042E", Yacute: "\xDD", Ycirc: "\u0176", Ycy: "\u042B", Yfr: "\u{1D51C}", Yopf: "\u{1D550}", Yscr: "\u{1D4B4}", Yuml: "\u0178", ZHcy: "\u0416", Zacute: "\u0179", Zcaron: "\u017D", Zcy: "\u0417", Zdot: "\u017B", ZeroWidthSpace: "\u200B", Zeta: "\u0396", Zfr: "\u2128", Zopf: "\u2124", Zscr: "\u{1D4B5}", aacute: "\xE1", abreve: "\u0103", ac: "\u223E", acE: "\u223E\u0333", acd: "\u223F", acirc: "\xE2", acute: "\xB4", acy: "\u0430", aelig: "\xE6", af: "\u2061", afr: "\u{1D51E}", agrave: "\xE0", alefsym: "\u2135", aleph: "\u2135", alpha: "\u03B1", amacr: "\u0101", amalg: "\u2A3F", amp: "&", and: "\u2227", andand: "\u2A55", andd: "\u2A5C", andslope: "\u2A58", andv: "\u2A5A", ang: "\u2220", ange: "\u29A4", angle: "\u2220", angmsd: "\u2221", angmsdaa: "\u29A8", angmsdab: "\u29A9", angmsdac: "\u29AA", angmsdad: "\u29AB", angmsdae: "\u29AC", angmsdaf: "\u29AD", angmsdag: "\u29AE", angmsdah: "\u29AF", angrt: "\u221F", angrtvb: "\u22BE", angrtvbd: "\u299D", angsph: "\u2222", angst: "\xC5", angzarr: "\u237C", aogon: "\u0105", aopf: "\u{1D552}", ap: "\u2248", apE: "\u2A70", apacir: "\u2A6F", ape: "\u224A", apid: "\u224B", apos: "'", approx: "\u2248", approxeq: "\u224A", aring: "\xE5", ascr: "\u{1D4B6}", ast: "*", asymp: "\u2248", asympeq: "\u224D", atilde: "\xE3", auml: "\xE4", awconint: "\u2233", awint: "\u2A11", bNot: "\u2AED", backcong: "\u224C", backepsilon: "\u03F6", backprime: "\u2035", backsim: "\u223D", backsimeq: "\u22CD", barvee: "\u22BD", barwed: "\u2305", barwedge: "\u2305", bbrk: "\u23B5", bbrktbrk: "\u23B6", bcong: "\u224C", bcy: "\u0431", bdquo: "\u201E", becaus: "\u2235", because: "\u2235", bemptyv: "\u29B0", bepsi: "\u03F6", bernou: "\u212C", beta: "\u03B2", beth: "\u2136", between: "\u226C", bfr: "\u{1D51F}", bigcap: "\u22C2", bigcirc: "\u25EF", bigcup: "\u22C3", bigodot: "\u2A00", bigoplus: "\u2A01", bigotimes: "\u2A02", bigsqcup: "\u2A06", bigstar: "\u2605", bigtriangledown: "\u25BD", bigtriangleup: "\u25B3", biguplus: "\u2A04", bigvee: "\u22C1", bigwedge: "\u22C0", bkarow: "\u290D", blacklozenge: "\u29EB", blacksquare: "\u25AA", blacktriangle: "\u25B4", blacktriangledown: "\u25BE", blacktriangleleft: "\u25C2", blacktriangleright: "\u25B8", blank: "\u2423", blk12: "\u2592", blk14: "\u2591", blk34: "\u2593", block: "\u2588", bne: "=\u20E5", bnequiv: "\u2261\u20E5", bnot: "\u2310", bopf: "\u{1D553}", bot: "\u22A5", bottom: "\u22A5", bowtie: "\u22C8", boxDL: "\u2557", boxDR: "\u2554", boxDl: "\u2556", boxDr: "\u2553", boxH: "\u2550", boxHD: "\u2566", boxHU: "\u2569", boxHd: "\u2564", boxHu: "\u2567", boxUL: "\u255D", boxUR: "\u255A", boxUl: "\u255C", boxUr: "\u2559", boxV: "\u2551", boxVH: "\u256C", boxVL: "\u2563", boxVR: "\u2560", boxVh: "\u256B", boxVl: "\u2562", boxVr: "\u255F", boxbox: "\u29C9", boxdL: "\u2555", boxdR: "\u2552", boxdl: "\u2510", boxdr: "\u250C", boxh: "\u2500", boxhD: "\u2565", boxhU: "\u2568", boxhd: "\u252C", boxhu: "\u2534", boxminus: "\u229F", boxplus: "\u229E", boxtimes: "\u22A0", boxuL: "\u255B", boxuR: "\u2558", boxul: "\u2518", boxur: "\u2514", boxv: "\u2502", boxvH: "\u256A", boxvL: "\u2561", boxvR: "\u255E", boxvh: "\u253C", boxvl: "\u2524", boxvr: "\u251C", bprime: "\u2035", breve: "\u02D8", brvbar: "\xA6", bscr: "\u{1D4B7}", bsemi: "\u204F", bsim: "\u223D", bsime: "\u22CD", bsol: "\\", bsolb: "\u29C5", bsolhsub: "\u27C8", bull: "\u2022", bullet: "\u2022", bump: "\u224E", bumpE: "\u2AAE", bumpe: "\u224F", bumpeq: "\u224F", cacute: "\u0107", cap: "\u2229", capand: "\u2A44", capbrcup: "\u2A49", capcap: "\u2A4B", capcup: "\u2A47", capdot: "\u2A40", caps: "\u2229\uFE00", caret: "\u2041", caron: "\u02C7", ccaps: "\u2A4D", ccaron: "\u010D", ccedil: "\xE7", ccirc: "\u0109", ccups: "\u2A4C", ccupssm: "\u2A50", cdot: "\u010B", cedil: "\xB8", cemptyv: "\u29B2", cent: "\xA2", centerdot: "\xB7", cfr: "\u{1D520}", chcy: "\u0447", check: "\u2713", checkmark: "\u2713", chi: "\u03C7", cir: "\u25CB", cirE: "\u29C3", circ: "\u02C6", circeq: "\u2257", circlearrowleft: "\u21BA", circlearrowright: "\u21BB", circledR: "\xAE", circledS: "\u24C8", circledast: "\u229B", circledcirc: "\u229A", circleddash: "\u229D", cire: "\u2257", cirfnint: "\u2A10", cirmid: "\u2AEF", cirscir: "\u29C2", clubs: "\u2663", clubsuit: "\u2663", colon: ":", colone: "\u2254", coloneq: "\u2254", comma: ",", commat: "@", comp: "\u2201", compfn: "\u2218", complement: "\u2201", complexes: "\u2102", cong: "\u2245", congdot: "\u2A6D", conint: "\u222E", copf: "\u{1D554}", coprod: "\u2210", copy: "\xA9", copysr: "\u2117", crarr: "\u21B5", cross: "\u2717", cscr: "\u{1D4B8}", csub: "\u2ACF", csube: "\u2AD1", csup: "\u2AD0", csupe: "\u2AD2", ctdot: "\u22EF", cudarrl: "\u2938", cudarrr: "\u2935", cuepr: "\u22DE", cuesc: "\u22DF", cularr: "\u21B6", cularrp: "\u293D", cup: "\u222A", cupbrcap: "\u2A48", cupcap: "\u2A46", cupcup: "\u2A4A", cupdot: "\u228D", cupor: "\u2A45", cups: "\u222A\uFE00", curarr: "\u21B7", curarrm: "\u293C", curlyeqprec: "\u22DE", curlyeqsucc: "\u22DF", curlyvee: "\u22CE", curlywedge: "\u22CF", curren: "\xA4", curvearrowleft: "\u21B6", curvearrowright: "\u21B7", cuvee: "\u22CE", cuwed: "\u22CF", cwconint: "\u2232", cwint: "\u2231", cylcty: "\u232D", dArr: "\u21D3", dHar: "\u2965", dagger: "\u2020", daleth: "\u2138", darr: "\u2193", dash: "\u2010", dashv: "\u22A3", dbkarow: "\u290F", dblac: "\u02DD", dcaron: "\u010F", dcy: "\u0434", dd: "\u2146", ddagger: "\u2021", ddarr: "\u21CA", ddotseq: "\u2A77", deg: "\xB0", delta: "\u03B4", demptyv: "\u29B1", dfisht: "\u297F", dfr: "\u{1D521}", dharl: "\u21C3", dharr: "\u21C2", diam: "\u22C4", diamond: "\u22C4", diamondsuit: "\u2666", diams: "\u2666", die: "\xA8", digamma: "\u03DD", disin: "\u22F2", div: "\xF7", divide: "\xF7", divideontimes: "\u22C7", divonx: "\u22C7", djcy: "\u0452", dlcorn: "\u231E", dlcrop: "\u230D", dollar: "$", dopf: "\u{1D555}", dot: "\u02D9", doteq: "\u2250", doteqdot: "\u2251", dotminus: "\u2238", dotplus: "\u2214", dotsquare: "\u22A1", doublebarwedge: "\u2306", downarrow: "\u2193", downdownarrows: "\u21CA", downharpoonleft: "\u21C3", downharpoonright: "\u21C2", drbkarow: "\u2910", drcorn: "\u231F", drcrop: "\u230C", dscr: "\u{1D4B9}", dscy: "\u0455", dsol: "\u29F6", dstrok: "\u0111", dtdot: "\u22F1", dtri: "\u25BF", dtrif: "\u25BE", duarr: "\u21F5", duhar: "\u296F", dwangle: "\u29A6", dzcy: "\u045F", dzigrarr: "\u27FF", eDDot: "\u2A77", eDot: "\u2251", eacute: "\xE9", easter: "\u2A6E", ecaron: "\u011B", ecir: "\u2256", ecirc: "\xEA", ecolon: "\u2255", ecy: "\u044D", edot: "\u0117", ee: "\u2147", efDot: "\u2252", efr: "\u{1D522}", eg: "\u2A9A", egrave: "\xE8", egs: "\u2A96", egsdot: "\u2A98", el: "\u2A99", elinters: "\u23E7", ell: "\u2113", els: "\u2A95", elsdot: "\u2A97", emacr: "\u0113", empty: "\u2205", emptyset: "\u2205", emptyv: "\u2205", emsp13: "\u2004", emsp14: "\u2005", emsp: "\u2003", eng: "\u014B", ensp: "\u2002", eogon: "\u0119", eopf: "\u{1D556}", epar: "\u22D5", eparsl: "\u29E3", eplus: "\u2A71", epsi: "\u03B5", epsilon: "\u03B5", epsiv: "\u03F5", eqcirc: "\u2256", eqcolon: "\u2255", eqsim: "\u2242", eqslantgtr: "\u2A96", eqslantless: "\u2A95", equals: "=", equest: "\u225F", equiv: "\u2261", equivDD: "\u2A78", eqvparsl: "\u29E5", erDot: "\u2253", erarr: "\u2971", escr: "\u212F", esdot: "\u2250", esim: "\u2242", eta: "\u03B7", eth: "\xF0", euml: "\xEB", euro: "\u20AC", excl: "!", exist: "\u2203", expectation: "\u2130", exponentiale: "\u2147", fallingdotseq: "\u2252", fcy: "\u0444", female: "\u2640", ffilig: "\uFB03", fflig: "\uFB00", ffllig: "\uFB04", ffr: "\u{1D523}", filig: "\uFB01", fjlig: "fj", flat: "\u266D", fllig: "\uFB02", fltns: "\u25B1", fnof: "\u0192", fopf: "\u{1D557}", forall: "\u2200", fork: "\u22D4", forkv: "\u2AD9", fpartint: "\u2A0D", frac12: "\xBD", frac13: "\u2153", frac14: "\xBC", frac15: "\u2155", frac16: "\u2159", frac18: "\u215B", frac23: "\u2154", frac25: "\u2156", frac34: "\xBE", frac35: "\u2157", frac38: "\u215C", frac45: "\u2158", frac56: "\u215A", frac58: "\u215D", frac78: "\u215E", frasl: "\u2044", frown: "\u2322", fscr: "\u{1D4BB}", gE: "\u2267", gEl: "\u2A8C", gacute: "\u01F5", gamma: "\u03B3", gammad: "\u03DD", gap: "\u2A86", gbreve: "\u011F", gcirc: "\u011D", gcy: "\u0433", gdot: "\u0121", ge: "\u2265", gel: "\u22DB", geq: "\u2265", geqq: "\u2267", geqslant: "\u2A7E", ges: "\u2A7E", gescc: "\u2AA9", gesdot: "\u2A80", gesdoto: "\u2A82", gesdotol: "\u2A84", gesl: "\u22DB\uFE00", gesles: "\u2A94", gfr: "\u{1D524}", gg: "\u226B", ggg: "\u22D9", gimel: "\u2137", gjcy: "\u0453", gl: "\u2277", glE: "\u2A92", gla: "\u2AA5", glj: "\u2AA4", gnE: "\u2269", gnap: "\u2A8A", gnapprox: "\u2A8A", gne: "\u2A88", gneq: "\u2A88", gneqq: "\u2269", gnsim: "\u22E7", gopf: "\u{1D558}", grave: "`", gscr: "\u210A", gsim: "\u2273", gsime: "\u2A8E", gsiml: "\u2A90", gt: ">", gtcc: "\u2AA7", gtcir: "\u2A7A", gtdot: "\u22D7", gtlPar: "\u2995", gtquest: "\u2A7C", gtrapprox: "\u2A86", gtrarr: "\u2978", gtrdot: "\u22D7", gtreqless: "\u22DB", gtreqqless: "\u2A8C", gtrless: "\u2277", gtrsim: "\u2273", gvertneqq: "\u2269\uFE00", gvnE: "\u2269\uFE00", hArr: "\u21D4", hairsp: "\u200A", half: "\xBD", hamilt: "\u210B", hardcy: "\u044A", harr: "\u2194", harrcir: "\u2948", harrw: "\u21AD", hbar: "\u210F", hcirc: "\u0125", hearts: "\u2665", heartsuit: "\u2665", hellip: "\u2026", hercon: "\u22B9", hfr: "\u{1D525}", hksearow: "\u2925", hkswarow: "\u2926", hoarr: "\u21FF", homtht: "\u223B", hookleftarrow: "\u21A9", hookrightarrow: "\u21AA", hopf: "\u{1D559}", horbar: "\u2015", hscr: "\u{1D4BD}", hslash: "\u210F", hstrok: "\u0127", hybull: "\u2043", hyphen: "\u2010", iacute: "\xED", ic: "\u2063", icirc: "\xEE", icy: "\u0438", iecy: "\u0435", iexcl: "\xA1", iff: "\u21D4", ifr: "\u{1D526}", igrave: "\xEC", ii: "\u2148", iiiint: "\u2A0C", iiint: "\u222D", iinfin: "\u29DC", iiota: "\u2129", ijlig: "\u0133", imacr: "\u012B", image: "\u2111", imagline: "\u2110", imagpart: "\u2111", imath: "\u0131", imof: "\u22B7", imped: "\u01B5", in: "\u2208", incare: "\u2105", infin: "\u221E", infintie: "\u29DD", inodot: "\u0131", int: "\u222B", intcal: "\u22BA", integers: "\u2124", intercal: "\u22BA", intlarhk: "\u2A17", intprod: "\u2A3C", iocy: "\u0451", iogon: "\u012F", iopf: "\u{1D55A}", iota: "\u03B9", iprod: "\u2A3C", iquest: "\xBF", iscr: "\u{1D4BE}", isin: "\u2208", isinE: "\u22F9", isindot: "\u22F5", isins: "\u22F4", isinsv: "\u22F3", isinv: "\u2208", it: "\u2062", itilde: "\u0129", iukcy: "\u0456", iuml: "\xEF", jcirc: "\u0135", jcy: "\u0439", jfr: "\u{1D527}", jmath: "\u0237", jopf: "\u{1D55B}", jscr: "\u{1D4BF}", jsercy: "\u0458", jukcy: "\u0454", kappa: "\u03BA", kappav: "\u03F0", kcedil: "\u0137", kcy: "\u043A", kfr: "\u{1D528}", kgreen: "\u0138", khcy: "\u0445", kjcy: "\u045C", kopf: "\u{1D55C}", kscr: "\u{1D4C0}", lAarr: "\u21DA", lArr: "\u21D0", lAtail: "\u291B", lBarr: "\u290E", lE: "\u2266", lEg: "\u2A8B", lHar: "\u2962", lacute: "\u013A", laemptyv: "\u29B4", lagran: "\u2112", lambda: "\u03BB", lang: "\u27E8", langd: "\u2991", langle: "\u27E8", lap: "\u2A85", laquo: "\xAB", larr: "\u2190", larrb: "\u21E4", larrbfs: "\u291F", larrfs: "\u291D", larrhk: "\u21A9", larrlp: "\u21AB", larrpl: "\u2939", larrsim: "\u2973", larrtl: "\u21A2", lat: "\u2AAB", latail: "\u2919", late: "\u2AAD", lates: "\u2AAD\uFE00", lbarr: "\u290C", lbbrk: "\u2772", lbrace: "{", lbrack: "[", lbrke: "\u298B", lbrksld: "\u298F", lbrkslu: "\u298D", lcaron: "\u013E", lcedil: "\u013C", lceil: "\u2308", lcub: "{", lcy: "\u043B", ldca: "\u2936", ldquo: "\u201C", ldquor: "\u201E", ldrdhar: "\u2967", ldrushar: "\u294B", ldsh: "\u21B2", le: "\u2264", leftarrow: "\u2190", leftarrowtail: "\u21A2", leftharpoondown: "\u21BD", leftharpoonup: "\u21BC", leftleftarrows: "\u21C7", leftrightarrow: "\u2194", leftrightarrows: "\u21C6", leftrightharpoons: "\u21CB", leftrightsquigarrow: "\u21AD", leftthreetimes: "\u22CB", leg: "\u22DA", leq: "\u2264", leqq: "\u2266", leqslant: "\u2A7D", les: "\u2A7D", lescc: "\u2AA8", lesdot: "\u2A7F", lesdoto: "\u2A81", lesdotor: "\u2A83", lesg: "\u22DA\uFE00", lesges: "\u2A93", lessapprox: "\u2A85", lessdot: "\u22D6", lesseqgtr: "\u22DA", lesseqqgtr: "\u2A8B", lessgtr: "\u2276", lesssim: "\u2272", lfisht: "\u297C", lfloor: "\u230A", lfr: "\u{1D529}", lg: "\u2276", lgE: "\u2A91", lhard: "\u21BD", lharu: "\u21BC", lharul: "\u296A", lhblk: "\u2584", ljcy: "\u0459", ll: "\u226A", llarr: "\u21C7", llcorner: "\u231E", llhard: "\u296B", lltri: "\u25FA", lmidot: "\u0140", lmoust: "\u23B0", lmoustache: "\u23B0", lnE: "\u2268", lnap: "\u2A89", lnapprox: "\u2A89", lne: "\u2A87", lneq: "\u2A87", lneqq: "\u2268", lnsim: "\u22E6", loang: "\u27EC", loarr: "\u21FD", lobrk: "\u27E6", longleftarrow: "\u27F5", longleftrightarrow: "\u27F7", longmapsto: "\u27FC", longrightarrow: "\u27F6", looparrowleft: "\u21AB", looparrowright: "\u21AC", lopar: "\u2985", lopf: "\u{1D55D}", loplus: "\u2A2D", lotimes: "\u2A34", lowast: "\u2217", lowbar: "_", loz: "\u25CA", lozenge: "\u25CA", lozf: "\u29EB", lpar: "(", lparlt: "\u2993", lrarr: "\u21C6", lrcorner: "\u231F", lrhar: "\u21CB", lrhard: "\u296D", lrm: "\u200E", lrtri: "\u22BF", lsaquo: "\u2039", lscr: "\u{1D4C1}", lsh: "\u21B0", lsim: "\u2272", lsime: "\u2A8D", lsimg: "\u2A8F", lsqb: "[", lsquo: "\u2018", lsquor: "\u201A", lstrok: "\u0142", lt: "<", ltcc: "\u2AA6", ltcir: "\u2A79", ltdot: "\u22D6", lthree: "\u22CB", ltimes: "\u22C9", ltlarr: "\u2976", ltquest: "\u2A7B", ltrPar: "\u2996", ltri: "\u25C3", ltrie: "\u22B4", ltrif: "\u25C2", lurdshar: "\u294A", luruhar: "\u2966", lvertneqq: "\u2268\uFE00", lvnE: "\u2268\uFE00", mDDot: "\u223A", macr: "\xAF", male: "\u2642", malt: "\u2720", maltese: "\u2720", map: "\u21A6", mapsto: "\u21A6", mapstodown: "\u21A7", mapstoleft: "\u21A4", mapstoup: "\u21A5", marker: "\u25AE", mcomma: "\u2A29", mcy: "\u043C", mdash: "\u2014", measuredangle: "\u2221", mfr: "\u{1D52A}", mho: "\u2127", micro: "\xB5", mid: "\u2223", midast: "*", midcir: "\u2AF0", middot: "\xB7", minus: "\u2212", minusb: "\u229F", minusd: "\u2238", minusdu: "\u2A2A", mlcp: "\u2ADB", mldr: "\u2026", mnplus: "\u2213", models: "\u22A7", mopf: "\u{1D55E}", mp: "\u2213", mscr: "\u{1D4C2}", mstpos: "\u223E", mu: "\u03BC", multimap: "\u22B8", mumap: "\u22B8", nGg: "\u22D9\u0338", nGt: "\u226B\u20D2", nGtv: "\u226B\u0338", nLeftarrow: "\u21CD", nLeftrightarrow: "\u21CE", nLl: "\u22D8\u0338", nLt: "\u226A\u20D2", nLtv: "\u226A\u0338", nRightarrow: "\u21CF", nVDash: "\u22AF", nVdash: "\u22AE", nabla: "\u2207", nacute: "\u0144", nang: "\u2220\u20D2", nap: "\u2249", napE: "\u2A70\u0338", napid: "\u224B\u0338", napos: "\u0149", napprox: "\u2249", natur: "\u266E", natural: "\u266E", naturals: "\u2115", nbsp: "\xA0", nbump: "\u224E\u0338", nbumpe: "\u224F\u0338", ncap: "\u2A43", ncaron: "\u0148", ncedil: "\u0146", ncong: "\u2247", ncongdot: "\u2A6D\u0338", ncup: "\u2A42", ncy: "\u043D", ndash: "\u2013", ne: "\u2260", neArr: "\u21D7", nearhk: "\u2924", nearr: "\u2197", nearrow: "\u2197", nedot: "\u2250\u0338", nequiv: "\u2262", nesear: "\u2928", nesim: "\u2242\u0338", nexist: "\u2204", nexists: "\u2204", nfr: "\u{1D52B}", ngE: "\u2267\u0338", nge: "\u2271", ngeq: "\u2271", ngeqq: "\u2267\u0338", ngeqslant: "\u2A7E\u0338", nges: "\u2A7E\u0338", ngsim: "\u2275", ngt: "\u226F", ngtr: "\u226F", nhArr: "\u21CE", nharr: "\u21AE", nhpar: "\u2AF2", ni: "\u220B", nis: "\u22FC", nisd: "\u22FA", niv: "\u220B", njcy: "\u045A", nlArr: "\u21CD", nlE: "\u2266\u0338", nlarr: "\u219A", nldr: "\u2025", nle: "\u2270", nleftarrow: "\u219A", nleftrightarrow: "\u21AE", nleq: "\u2270", nleqq: "\u2266\u0338", nleqslant: "\u2A7D\u0338", nles: "\u2A7D\u0338", nless: "\u226E", nlsim: "\u2274", nlt: "\u226E", nltri: "\u22EA", nltrie: "\u22EC", nmid: "\u2224", nopf: "\u{1D55F}", not: "\xAC", notin: "\u2209", notinE: "\u22F9\u0338", notindot: "\u22F5\u0338", notinva: "\u2209", notinvb: "\u22F7", notinvc: "\u22F6", notni: "\u220C", notniva: "\u220C", notnivb: "\u22FE", notnivc: "\u22FD", npar: "\u2226", nparallel: "\u2226", nparsl: "\u2AFD\u20E5", npart: "\u2202\u0338", npolint: "\u2A14", npr: "\u2280", nprcue: "\u22E0", npre: "\u2AAF\u0338", nprec: "\u2280", npreceq: "\u2AAF\u0338", nrArr: "\u21CF", nrarr: "\u219B", nrarrc: "\u2933\u0338", nrarrw: "\u219D\u0338", nrightarrow: "\u219B", nrtri: "\u22EB", nrtrie: "\u22ED", nsc: "\u2281", nsccue: "\u22E1", nsce: "\u2AB0\u0338", nscr: "\u{1D4C3}", nshortmid: "\u2224", nshortparallel: "\u2226", nsim: "\u2241", nsime: "\u2244", nsimeq: "\u2244", nsmid: "\u2224", nspar: "\u2226", nsqsube: "\u22E2", nsqsupe: "\u22E3", nsub: "\u2284", nsubE: "\u2AC5\u0338", nsube: "\u2288", nsubset: "\u2282\u20D2", nsubseteq: "\u2288", nsubseteqq: "\u2AC5\u0338", nsucc: "\u2281", nsucceq: "\u2AB0\u0338", nsup: "\u2285", nsupE: "\u2AC6\u0338", nsupe: "\u2289", nsupset: "\u2283\u20D2", nsupseteq: "\u2289", nsupseteqq: "\u2AC6\u0338", ntgl: "\u2279", ntilde: "\xF1", ntlg: "\u2278", ntriangleleft: "\u22EA", ntrianglelefteq: "\u22EC", ntriangleright: "\u22EB", ntrianglerighteq: "\u22ED", nu: "\u03BD", num: "#", numero: "\u2116", numsp: "\u2007", nvDash: "\u22AD", nvHarr: "\u2904", nvap: "\u224D\u20D2", nvdash: "\u22AC", nvge: "\u2265\u20D2", nvgt: ">\u20D2", nvinfin: "\u29DE", nvlArr: "\u2902", nvle: "\u2264\u20D2", nvlt: "<\u20D2", nvltrie: "\u22B4\u20D2", nvrArr: "\u2903", nvrtrie: "\u22B5\u20D2", nvsim: "\u223C\u20D2", nwArr: "\u21D6", nwarhk: "\u2923", nwarr: "\u2196", nwarrow: "\u2196", nwnear: "\u2927", oS: "\u24C8", oacute: "\xF3", oast: "\u229B", ocir: "\u229A", ocirc: "\xF4", ocy: "\u043E", odash: "\u229D", odblac: "\u0151", odiv: "\u2A38", odot: "\u2299", odsold: "\u29BC", oelig: "\u0153", ofcir: "\u29BF", ofr: "\u{1D52C}", ogon: "\u02DB", ograve: "\xF2", ogt: "\u29C1", ohbar: "\u29B5", ohm: "\u03A9", oint: "\u222E", olarr: "\u21BA", olcir: "\u29BE", olcross: "\u29BB", oline: "\u203E", olt: "\u29C0", omacr: "\u014D", omega: "\u03C9", omicron: "\u03BF", omid: "\u29B6", ominus: "\u2296", oopf: "\u{1D560}", opar: "\u29B7", operp: "\u29B9", oplus: "\u2295", or: "\u2228", orarr: "\u21BB", ord: "\u2A5D", order: "\u2134", orderof: "\u2134", ordf: "\xAA", ordm: "\xBA", origof: "\u22B6", oror: "\u2A56", orslope: "\u2A57", orv: "\u2A5B", oscr: "\u2134", oslash: "\xF8", osol: "\u2298", otilde: "\xF5", otimes: "\u2297", otimesas: "\u2A36", ouml: "\xF6", ovbar: "\u233D", par: "\u2225", para: "\xB6", parallel: "\u2225", parsim: "\u2AF3", parsl: "\u2AFD", part: "\u2202", pcy: "\u043F", percnt: "%", period: ".", permil: "\u2030", perp: "\u22A5", pertenk: "\u2031", pfr: "\u{1D52D}", phi: "\u03C6", phiv: "\u03D5", phmmat: "\u2133", phone: "\u260E", pi: "\u03C0", pitchfork: "\u22D4", piv: "\u03D6", planck: "\u210F", planckh: "\u210E", plankv: "\u210F", plus: "+", plusacir: "\u2A23", plusb: "\u229E", pluscir: "\u2A22", plusdo: "\u2214", plusdu: "\u2A25", pluse: "\u2A72", plusmn: "\xB1", plussim: "\u2A26", plustwo: "\u2A27", pm: "\xB1", pointint: "\u2A15", popf: "\u{1D561}", pound: "\xA3", pr: "\u227A", prE: "\u2AB3", prap: "\u2AB7", prcue: "\u227C", pre: "\u2AAF", prec: "\u227A", precapprox: "\u2AB7", preccurlyeq: "\u227C", preceq: "\u2AAF", precnapprox: "\u2AB9", precneqq: "\u2AB5", precnsim: "\u22E8", precsim: "\u227E", prime: "\u2032", primes: "\u2119", prnE: "\u2AB5", prnap: "\u2AB9", prnsim: "\u22E8", prod: "\u220F", profalar: "\u232E", profline: "\u2312", profsurf: "\u2313", prop: "\u221D", propto: "\u221D", prsim: "\u227E", prurel: "\u22B0", pscr: "\u{1D4C5}", psi: "\u03C8", puncsp: "\u2008", qfr: "\u{1D52E}", qint: "\u2A0C", qopf: "\u{1D562}", qprime: "\u2057", qscr: "\u{1D4C6}", quaternions: "\u210D", quatint: "\u2A16", quest: "?", questeq: "\u225F", quot: '"', rAarr: "\u21DB", rArr: "\u21D2", rAtail: "\u291C", rBarr: "\u290F", rHar: "\u2964", race: "\u223D\u0331", racute: "\u0155", radic: "\u221A", raemptyv: "\u29B3", rang: "\u27E9", rangd: "\u2992", range: "\u29A5", rangle: "\u27E9", raquo: "\xBB", rarr: "\u2192", rarrap: "\u2975", rarrb: "\u21E5", rarrbfs: "\u2920", rarrc: "\u2933", rarrfs: "\u291E", rarrhk: "\u21AA", rarrlp: "\u21AC", rarrpl: "\u2945", rarrsim: "\u2974", rarrtl: "\u21A3", rarrw: "\u219D", ratail: "\u291A", ratio: "\u2236", rationals: "\u211A", rbarr: "\u290D", rbbrk: "\u2773", rbrace: "}", rbrack: "]", rbrke: "\u298C", rbrksld: "\u298E", rbrkslu: "\u2990", rcaron: "\u0159", rcedil: "\u0157", rceil: "\u2309", rcub: "}", rcy: "\u0440", rdca: "\u2937", rdldhar: "\u2969", rdquo: "\u201D", rdquor: "\u201D", rdsh: "\u21B3", real: "\u211C", realine: "\u211B", realpart: "\u211C", reals: "\u211D", rect: "\u25AD", reg: "\xAE", rfisht: "\u297D", rfloor: "\u230B", rfr: "\u{1D52F}", rhard: "\u21C1", rharu: "\u21C0", rharul: "\u296C", rho: "\u03C1", rhov: "\u03F1", rightarrow: "\u2192", rightarrowtail: "\u21A3", rightharpoondown: "\u21C1", rightharpoonup: "\u21C0", rightleftarrows: "\u21C4", rightleftharpoons: "\u21CC", rightrightarrows: "\u21C9", rightsquigarrow: "\u219D", rightthreetimes: "\u22CC", ring: "\u02DA", risingdotseq: "\u2253", rlarr: "\u21C4", rlhar: "\u21CC", rlm: "\u200F", rmoust: "\u23B1", rmoustache: "\u23B1", rnmid: "\u2AEE", roang: "\u27ED", roarr: "\u21FE", robrk: "\u27E7", ropar: "\u2986", ropf: "\u{1D563}", roplus: "\u2A2E", rotimes: "\u2A35", rpar: ")", rpargt: "\u2994", rppolint: "\u2A12", rrarr: "\u21C9", rsaquo: "\u203A", rscr: "\u{1D4C7}", rsh: "\u21B1", rsqb: "]", rsquo: "\u2019", rsquor: "\u2019", rthree: "\u22CC", rtimes: "\u22CA", rtri: "\u25B9", rtrie: "\u22B5", rtrif: "\u25B8", rtriltri: "\u29CE", ruluhar: "\u2968", rx: "\u211E", sacute: "\u015B", sbquo: "\u201A", sc: "\u227B", scE: "\u2AB4", scap: "\u2AB8", scaron: "\u0161", sccue: "\u227D", sce: "\u2AB0", scedil: "\u015F", scirc: "\u015D", scnE: "\u2AB6", scnap: "\u2ABA", scnsim: "\u22E9", scpolint: "\u2A13", scsim: "\u227F", scy: "\u0441", sdot: "\u22C5", sdotb: "\u22A1", sdote: "\u2A66", seArr: "\u21D8", searhk: "\u2925", searr: "\u2198", searrow: "\u2198", sect: "\xA7", semi: ";", seswar: "\u2929", setminus: "\u2216", setmn: "\u2216", sext: "\u2736", sfr: "\u{1D530}", sfrown: "\u2322", sharp: "\u266F", shchcy: "\u0449", shcy: "\u0448", shortmid: "\u2223", shortparallel: "\u2225", shy: "\xAD", sigma: "\u03C3", sigmaf: "\u03C2", sigmav: "\u03C2", sim: "\u223C", simdot: "\u2A6A", sime: "\u2243", simeq: "\u2243", simg: "\u2A9E", simgE: "\u2AA0", siml: "\u2A9D", simlE: "\u2A9F", simne: "\u2246", simplus: "\u2A24", simrarr: "\u2972", slarr: "\u2190", smallsetminus: "\u2216", smashp: "\u2A33", smeparsl: "\u29E4", smid: "\u2223", smile: "\u2323", smt: "\u2AAA", smte: "\u2AAC", smtes: "\u2AAC\uFE00", softcy: "\u044C", sol: "/", solb: "\u29C4", solbar: "\u233F", sopf: "\u{1D564}", spades: "\u2660", spadesuit: "\u2660", spar: "\u2225", sqcap: "\u2293", sqcaps: "\u2293\uFE00", sqcup: "\u2294", sqcups: "\u2294\uFE00", sqsub: "\u228F", sqsube: "\u2291", sqsubset: "\u228F", sqsubseteq: "\u2291", sqsup: "\u2290", sqsupe: "\u2292", sqsupset: "\u2290", sqsupseteq: "\u2292", squ: "\u25A1", square: "\u25A1", squarf: "\u25AA", squf: "\u25AA", srarr: "\u2192", sscr: "\u{1D4C8}", ssetmn: "\u2216", ssmile: "\u2323", sstarf: "\u22C6", star: "\u2606", starf: "\u2605", straightepsilon: "\u03F5", straightphi: "\u03D5", strns: "\xAF", sub: "\u2282", subE: "\u2AC5", subdot: "\u2ABD", sube: "\u2286", subedot: "\u2AC3", submult: "\u2AC1", subnE: "\u2ACB", subne: "\u228A", subplus: "\u2ABF", subrarr: "\u2979", subset: "\u2282", subseteq: "\u2286", subseteqq: "\u2AC5", subsetneq: "\u228A", subsetneqq: "\u2ACB", subsim: "\u2AC7", subsub: "\u2AD5", subsup: "\u2AD3", succ: "\u227B", succapprox: "\u2AB8", succcurlyeq: "\u227D", succeq: "\u2AB0", succnapprox: "\u2ABA", succneqq: "\u2AB6", succnsim: "\u22E9", succsim: "\u227F", sum: "\u2211", sung: "\u266A", sup1: "\xB9", sup2: "\xB2", sup3: "\xB3", sup: "\u2283", supE: "\u2AC6", supdot: "\u2ABE", supdsub: "\u2AD8", supe: "\u2287", supedot: "\u2AC4", suphsol: "\u27C9", suphsub: "\u2AD7", suplarr: "\u297B", supmult: "\u2AC2", supnE: "\u2ACC", supne: "\u228B", supplus: "\u2AC0", supset: "\u2283", supseteq: "\u2287", supseteqq: "\u2AC6", supsetneq: "\u228B", supsetneqq: "\u2ACC", supsim: "\u2AC8", supsub: "\u2AD4", supsup: "\u2AD6", swArr: "\u21D9", swarhk: "\u2926", swarr: "\u2199", swarrow: "\u2199", swnwar: "\u292A", szlig: "\xDF", target: "\u2316", tau: "\u03C4", tbrk: "\u23B4", tcaron: "\u0165", tcedil: "\u0163", tcy: "\u0442", tdot: "\u20DB", telrec: "\u2315", tfr: "\u{1D531}", there4: "\u2234", therefore: "\u2234", theta: "\u03B8", thetasym: "\u03D1", thetav: "\u03D1", thickapprox: "\u2248", thicksim: "\u223C", thinsp: "\u2009", thkap: "\u2248", thksim: "\u223C", thorn: "\xFE", tilde: "\u02DC", times: "\xD7", timesb: "\u22A0", timesbar: "\u2A31", timesd: "\u2A30", tint: "\u222D", toea: "\u2928", top: "\u22A4", topbot: "\u2336", topcir: "\u2AF1", topf: "\u{1D565}", topfork: "\u2ADA", tosa: "\u2929", tprime: "\u2034", trade: "\u2122", triangle: "\u25B5", triangledown: "\u25BF", triangleleft: "\u25C3", trianglelefteq: "\u22B4", triangleq: "\u225C", triangleright: "\u25B9", trianglerighteq: "\u22B5", tridot: "\u25EC", trie: "\u225C", triminus: "\u2A3A", triplus: "\u2A39", trisb: "\u29CD", tritime: "\u2A3B", trpezium: "\u23E2", tscr: "\u{1D4C9}", tscy: "\u0446", tshcy: "\u045B", tstrok: "\u0167", twixt: "\u226C", twoheadleftarrow: "\u219E", twoheadrightarrow: "\u21A0", uArr: "\u21D1", uHar: "\u2963", uacute: "\xFA", uarr: "\u2191", ubrcy: "\u045E", ubreve: "\u016D", ucirc: "\xFB", ucy: "\u0443", udarr: "\u21C5", udblac: "\u0171", udhar: "\u296E", ufisht: "\u297E", ufr: "\u{1D532}", ugrave: "\xF9", uharl: "\u21BF", uharr: "\u21BE", uhblk: "\u2580", ulcorn: "\u231C", ulcorner: "\u231C", ulcrop: "\u230F", ultri: "\u25F8", umacr: "\u016B", uml: "\xA8", uogon: "\u0173", uopf: "\u{1D566}", uparrow: "\u2191", updownarrow: "\u2195", upharpoonleft: "\u21BF", upharpoonright: "\u21BE", uplus: "\u228E", upsi: "\u03C5", upsih: "\u03D2", upsilon: "\u03C5", upuparrows: "\u21C8", urcorn: "\u231D", urcorner: "\u231D", urcrop: "\u230E", uring: "\u016F", urtri: "\u25F9", uscr: "\u{1D4CA}", utdot: "\u22F0", utilde: "\u0169", utri: "\u25B5", utrif: "\u25B4", uuarr: "\u21C8", uuml: "\xFC", uwangle: "\u29A7", vArr: "\u21D5", vBar: "\u2AE8", vBarv: "\u2AE9", vDash: "\u22A8", vangrt: "\u299C", varepsilon: "\u03F5", varkappa: "\u03F0", varnothing: "\u2205", varphi: "\u03D5", varpi: "\u03D6", varpropto: "\u221D", varr: "\u2195", varrho: "\u03F1", varsigma: "\u03C2", varsubsetneq: "\u228A\uFE00", varsubsetneqq: "\u2ACB\uFE00", varsupsetneq: "\u228B\uFE00", varsupsetneqq: "\u2ACC\uFE00", vartheta: "\u03D1", vartriangleleft: "\u22B2", vartriangleright: "\u22B3", vcy: "\u0432", vdash: "\u22A2", vee: "\u2228", veebar: "\u22BB", veeeq: "\u225A", vellip: "\u22EE", verbar: "|", vert: "|", vfr: "\u{1D533}", vltri: "\u22B2", vnsub: "\u2282\u20D2", vnsup: "\u2283\u20D2", vopf: "\u{1D567}", vprop: "\u221D", vrtri: "\u22B3", vscr: "\u{1D4CB}", vsubnE: "\u2ACB\uFE00", vsubne: "\u228A\uFE00", vsupnE: "\u2ACC\uFE00", vsupne: "\u228B\uFE00", vzigzag: "\u299A", wcirc: "\u0175", wedbar: "\u2A5F", wedge: "\u2227", wedgeq: "\u2259", weierp: "\u2118", wfr: "\u{1D534}", wopf: "\u{1D568}", wp: "\u2118", wr: "\u2240", wreath: "\u2240", wscr: "\u{1D4CC}", xcap: "\u22C2", xcirc: "\u25EF", xcup: "\u22C3", xdtri: "\u25BD", xfr: "\u{1D535}", xhArr: "\u27FA", xharr: "\u27F7", xi: "\u03BE", xlArr: "\u27F8", xlarr: "\u27F5", xmap: "\u27FC", xnis: "\u22FB", xodot: "\u2A00", xopf: "\u{1D569}", xoplus: "\u2A01", xotime: "\u2A02", xrArr: "\u27F9", xrarr: "\u27F6", xscr: "\u{1D4CD}", xsqcup: "\u2A06", xuplus: "\u2A04", xutri: "\u25B3", xvee: "\u22C1", xwedge: "\u22C0", yacute: "\xFD", yacy: "\u044F", ycirc: "\u0177", ycy: "\u044B", yen: "\xA5", yfr: "\u{1D536}", yicy: "\u0457", yopf: "\u{1D56A}", yscr: "\u{1D4CE}", yucy: "\u044E", yuml: "\xFF", zacute: "\u017A", zcaron: "\u017E", zcy: "\u0437", zdot: "\u017C", zeetrf: "\u2128", zeta: "\u03B6", zfr: "\u{1D537}", zhcy: "\u0436", zigrarr: "\u21DD", zopf: "\u{1D56B}", zscr: "\u{1D4CF}", zwj: "\u200D", zwnj: "\u200C" }; // node_modules/decode-named-character-reference/index.js var own = {}.hasOwnProperty; function decodeNamedCharacterReference(value) { return own.call(characterEntities, value) ? characterEntities[value] : false; } // node_modules/micromark-util-chunked/index.js function splice(list4, start, remove, items) { const end = list4.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 < 1e4) { parameters = Array.from(items); parameters.unshift(start, remove); list4.splice(...parameters); } else { if (remove) list4.splice(start, remove); while (chunkStart < items.length) { parameters = items.slice(chunkStart, chunkStart + 1e4); parameters.unshift(start, 0); list4.splice(...parameters); chunkStart += 1e4; start += 1e4; } } } function push(list4, items) { if (list4.length > 0) { splice(list4, list4.length, 0, items); return list4; } return items; } // node_modules/micromark-util-combine-extensions/index.js var hasOwnProperty = {}.hasOwnProperty; function combineExtensions(extensions) { const all2 = {}; let index2 = -1; while (++index2 < extensions.length) { syntaxExtension(all2, extensions[index2]); } return all2; } function syntaxExtension(all2, extension2) { let hook; for (hook in extension2) { const maybe = hasOwnProperty.call(all2, hook) ? all2[hook] : void 0; const left = maybe || (all2[hook] = {}); const right = extension2[hook]; let code2; if (right) { for (code2 in right) { if (!hasOwnProperty.call(left, code2)) left[code2] = []; const value = right[code2]; constructs( // @ts-expect-error Looks like a list. left[code2], Array.isArray(value) ? value : value ? [value] : [] ); } } } } function constructs(existing, list4) { let index2 = -1; const before = []; while (++index2 < list4.length) { ; (list4[index2].add === "after" ? existing : before).push(list4[index2]); } splice(existing, 0, 0, before); } // node_modules/micromark-util-decode-numeric-character-reference/index.js function decodeNumericCharacterReference(value, base) { const code2 = Number.parseInt(value, base); if ( // C0 except for HT, LF, FF, CR, space. code2 < 9 || code2 === 11 || code2 > 13 && code2 < 32 || // Control character (DEL) of C0, and C1 controls. code2 > 126 && code2 < 160 || // Lone high surrogates and low surrogates. code2 > 55295 && code2 < 57344 || // Noncharacters. code2 > 64975 && code2 < 65008 || (code2 & 65535) === 65535 || (code2 & 65535) === 65534 || // Out of range code2 > 1114111 ) { return "\uFFFD"; } return String.fromCharCode(code2); } // node_modules/micromark-util-normalize-identifier/index.js function normalizeIdentifier(value) { return value.replace(/[\t\n\r ]+/g, " ").replace(/^ | $/g, "").toLowerCase().toUpperCase(); } // node_modules/micromark-util-character/index.js var unicodePunctuationInternal = regexCheck(/\p{P}/u); var asciiAlpha = regexCheck(/[A-Za-z]/); var asciiAlphanumeric = regexCheck(/[\dA-Za-z]/); var asciiAtext = regexCheck(/[#-'*+\--9=?A-Z^-~]/); function asciiControl(code2) { return ( // Special whitespace codes (which have negative values), C0 and Control // character DEL code2 !== null && (code2 < 32 || code2 === 127) ); } var asciiDigit = regexCheck(/\d/); var asciiHexDigit = regexCheck(/[\dA-Fa-f]/); var asciiPunctuation = regexCheck(/[!-/:-@[-`{-~]/); function markdownLineEnding(code2) { return code2 !== null && code2 < -2; } function markdownLineEndingOrSpace(code2) { return code2 !== null && (code2 < 0 || code2 === 32); } function markdownSpace(code2) { return code2 === -2 || code2 === -1 || code2 === 32; } function unicodePunctuation(code2) { return asciiPunctuation(code2) || unicodePunctuationInternal(code2); } var unicodeWhitespace = regexCheck(/\s/); function regexCheck(regex) { return check; function check(code2) { return code2 !== null && code2 > -1 && regex.test(String.fromCharCode(code2)); } } // node_modules/micromark-factory-space/index.js function factorySpace(effects, ok3, type, max) { const limit = max ? max - 1 : Number.POSITIVE_INFINITY; let size = 0; return start; function start(code2) { if (markdownSpace(code2)) { effects.enter(type); return prefix(code2); } return ok3(code2); } function prefix(code2) { if (markdownSpace(code2) && size++ < limit) { effects.consume(code2); return prefix; } effects.exit(type); return ok3(code2); } } // node_modules/micromark/lib/initialize/content.js var content = { tokenize: initializeContent }; function initializeContent(effects) { const contentStart = effects.attempt( this.parser.constructs.contentInitial, afterContentStartConstruct, paragraphInitial ); let previous2; return contentStart; function afterContentStartConstruct(code2) { if (code2 === null) { effects.consume(code2); return; } effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return factorySpace(effects, contentStart, "linePrefix"); } function paragraphInitial(code2) { effects.enter("paragraph"); return lineStart(code2); } function lineStart(code2) { const token = effects.enter("chunkText", { contentType: "text", previous: previous2 }); if (previous2) { previous2.next = token; } previous2 = token; return data(code2); } function data(code2) { if (code2 === null) { effects.exit("chunkText"); effects.exit("paragraph"); effects.consume(code2); return; } if (markdownLineEnding(code2)) { effects.consume(code2); effects.exit("chunkText"); return lineStart; } effects.consume(code2); return data; } } // node_modules/micromark/lib/initialize/document.js var document = { tokenize: initializeDocument }; var containerConstruct = { tokenize: tokenizeContainer }; function initializeDocument(effects) { const self = this; const stack = []; let continued = 0; let childFlow; let childToken; let lineStartOffset; return start; function start(code2) { if (continued < stack.length) { const item = stack[continued]; self.containerState = item[1]; return effects.attempt( item[0].continuation, documentContinue, checkNewContainers )(code2); } return checkNewContainers(code2); } function documentContinue(code2) { continued++; if (self.containerState._closeFlow) { self.containerState._closeFlow = void 0; if (childFlow) { closeFlow(); } const indexBeforeExits = self.events.length; let indexBeforeFlow = indexBeforeExits; let point3; while (indexBeforeFlow--) { if (self.events[indexBeforeFlow][0] === "exit" && self.events[indexBeforeFlow][1].type === "chunkFlow") { point3 = self.events[indexBeforeFlow][1].end; break; } } exitContainers(continued); let index2 = indexBeforeExits; while (index2 < self.events.length) { self.events[index2][1].end = Object.assign({}, point3); index2++; } splice( self.events, indexBeforeFlow + 1, 0, self.events.slice(indexBeforeExits) ); self.events.length = index2; return checkNewContainers(code2); } return start(code2); } function checkNewContainers(code2) { if (continued === stack.length) { if (!childFlow) { return documentContinued(code2); } if (childFlow.currentConstruct && childFlow.currentConstruct.concrete) { return flowStart(code2); } self.interrupt = Boolean( childFlow.currentConstruct && !childFlow._gfmTableDynamicInterruptHack ); } self.containerState = {}; return effects.check( containerConstruct, thereIsANewContainer, thereIsNoNewContainer )(code2); } function thereIsANewContainer(code2) { if (childFlow) closeFlow(); exitContainers(continued); return documentContinued(code2); } function thereIsNoNewContainer(code2) { self.parser.lazy[self.now().line] = continued !== stack.length; lineStartOffset = self.now().offset; return flowStart(code2); } function documentContinued(code2) { self.containerState = {}; return effects.attempt( containerConstruct, containerContinue, flowStart )(code2); } function containerContinue(code2) { continued++; stack.push([self.currentConstruct, self.containerState]); return documentContinued(code2); } function flowStart(code2) { if (code2 === null) { if (childFlow) closeFlow(); exitContainers(0); effects.consume(code2); return; } childFlow = childFlow || self.parser.flow(self.now()); effects.enter("chunkFlow", { contentType: "flow", previous: childToken, _tokenizer: childFlow }); return flowContinue(code2); } function flowContinue(code2) { if (code2 === null) { writeToChild(effects.exit("chunkFlow"), true); exitContainers(0); effects.consume(code2); return; } if (markdownLineEnding(code2)) { effects.consume(code2); writeToChild(effects.exit("chunkFlow")); continued = 0; self.interrupt = void 0; return start; } effects.consume(code2); 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 index2 = childFlow.events.length; while (index2--) { if ( // The token starts before the line ending… childFlow.events[index2][1].start.offset < lineStartOffset && // …and either is not ended yet… (!childFlow.events[index2][1].end || // …or ends after it. childFlow.events[index2][1].end.offset > lineStartOffset) ) { return; } } const indexBeforeExits = self.events.length; let indexBeforeFlow = indexBeforeExits; let seen; let point3; while (indexBeforeFlow--) { if (self.events[indexBeforeFlow][0] === "exit" && self.events[indexBeforeFlow][1].type === "chunkFlow") { if (seen) { point3 = self.events[indexBeforeFlow][1].end; break; } seen = true; } } exitContainers(continued); index2 = indexBeforeExits; while (index2 < self.events.length) { self.events[index2][1].end = Object.assign({}, point3); index2++; } splice( self.events, indexBeforeFlow + 1, 0, self.events.slice(indexBeforeExits) ); self.events.length = index2; } } function exitContainers(size) { let index2 = stack.length; while (index2-- > size) { const entry = stack[index2]; self.containerState = entry[1]; entry[0].exit.call(self, effects); } stack.length = size; } function closeFlow() { childFlow.write([null]); childToken = void 0; childFlow = void 0; self.containerState._closeFlow = void 0; } } function tokenizeContainer(effects, ok3, nok) { return factorySpace( effects, effects.attempt(this.parser.constructs.document, ok3, nok), "linePrefix", this.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 ); } // node_modules/micromark-util-classify-character/index.js function classifyCharacter(code2) { if (code2 === null || markdownLineEndingOrSpace(code2) || unicodeWhitespace(code2)) { return 1; } if (unicodePunctuation(code2)) { return 2; } } // node_modules/micromark-util-resolve-all/index.js function resolveAll(constructs2, events, context) { const called = []; let index2 = -1; while (++index2 < constructs2.length) { const resolve = constructs2[index2].resolveAll; if (resolve && !called.includes(resolve)) { events = resolve(events, context); called.push(resolve); } } return events; } // node_modules/micromark-core-commonmark/lib/attention.js var attention = { name: "attention", tokenize: tokenizeAttention, resolveAll: resolveAllAttention }; function resolveAllAttention(events, context) { let index2 = -1; let open; let group; let text4; let openingSequence; let closingSequence; let use; let nextEvents; let offset; while (++index2 < events.length) { if (events[index2][0] === "enter" && events[index2][1].type === "attentionSequence" && events[index2][1]._close) { open = index2; while (open--) { if (events[open][0] === "exit" && events[open][1].type === "attentionSequence" && events[open][1]._open && // If the markers are the same: context.sliceSerialize(events[open][1]).charCodeAt(0) === context.sliceSerialize(events[index2][1]).charCodeAt(0)) { if ((events[open][1]._close || events[index2][1]._open) && (events[index2][1].end.offset - events[index2][1].start.offset) % 3 && !((events[open][1].end.offset - events[open][1].start.offset + events[index2][1].end.offset - events[index2][1].start.offset) % 3)) { continue; } use = events[open][1].end.offset - events[open][1].start.offset > 1 && events[index2][1].end.offset - events[index2][1].start.offset > 1 ? 2 : 1; const start = Object.assign({}, events[open][1].end); const end = Object.assign({}, events[index2][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[index2][1].start), end }; text4 = { type: use > 1 ? "strongText" : "emphasisText", start: Object.assign({}, events[open][1].end), end: Object.assign({}, events[index2][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[index2][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", text4, context] ]); nextEvents = push( nextEvents, resolveAll( context.parser.constructs.insideSpan.null, events.slice(open + 1, index2), context ) ); nextEvents = push(nextEvents, [ ["exit", text4, context], ["enter", closingSequence, context], ["exit", closingSequence, context], ["exit", group, context] ]); if (events[index2][1].end.offset - events[index2][1].start.offset) { offset = 2; nextEvents = push(nextEvents, [ ["enter", events[index2][1], context], ["exit", events[index2][1], context] ]); } else { offset = 0; } splice(events, open - 1, index2 - open + 3, nextEvents); index2 = open + nextEvents.length - offset - 2; break; } } } } index2 = -1; while (++index2 < events.length) { if (events[index2][1].type === "attentionSequence") { events[index2][1].type = "data"; } } return events; } function tokenizeAttention(effects, ok3) { const attentionMarkers2 = this.parser.constructs.attentionMarkers.null; const previous2 = this.previous; const before = classifyCharacter(previous2); let marker; return start; function start(code2) { marker = code2; effects.enter("attentionSequence"); return inside(code2); } function inside(code2) { if (code2 === marker) { effects.consume(code2); return inside; } const token = effects.exit("attentionSequence"); const after = classifyCharacter(code2); const open = !after || after === 2 && before || attentionMarkers2.includes(code2); const close = !before || before === 2 && after || attentionMarkers2.includes(previous2); token._open = Boolean(marker === 42 ? open : open && (before || !close)); token._close = Boolean(marker === 42 ? close : close && (after || !open)); return ok3(code2); } } function movePoint(point3, offset) { point3.column += offset; point3.offset += offset; point3._bufferIndex += offset; } // node_modules/micromark-core-commonmark/lib/autolink.js var autolink = { name: "autolink", tokenize: tokenizeAutolink }; function tokenizeAutolink(effects, ok3, nok) { let size = 0; return start; function start(code2) { effects.enter("autolink"); effects.enter("autolinkMarker"); effects.consume(code2); effects.exit("autolinkMarker"); effects.enter("autolinkProtocol"); return open; } function open(code2) { if (asciiAlpha(code2)) { effects.consume(code2); return schemeOrEmailAtext; } return emailAtext(code2); } function schemeOrEmailAtext(code2) { if (code2 === 43 || code2 === 45 || code2 === 46 || asciiAlphanumeric(code2)) { size = 1; return schemeInsideOrEmailAtext(code2); } return emailAtext(code2); } function schemeInsideOrEmailAtext(code2) { if (code2 === 58) { effects.consume(code2); size = 0; return urlInside; } if ((code2 === 43 || code2 === 45 || code2 === 46 || asciiAlphanumeric(code2)) && size++ < 32) { effects.consume(code2); return schemeInsideOrEmailAtext; } size = 0; return emailAtext(code2); } function urlInside(code2) { if (code2 === 62) { effects.exit("autolinkProtocol"); effects.enter("autolinkMarker"); effects.consume(code2); effects.exit("autolinkMarker"); effects.exit("autolink"); return ok3; } if (code2 === null || code2 === 32 || code2 === 60 || asciiControl(code2)) { return nok(code2); } effects.consume(code2); return urlInside; } function emailAtext(code2) { if (code2 === 64) { effects.consume(code2); return emailAtSignOrDot; } if (asciiAtext(code2)) { effects.consume(code2); return emailAtext; } return nok(code2); } function emailAtSignOrDot(code2) { return asciiAlphanumeric(code2) ? emailLabel(code2) : nok(code2); } function emailLabel(code2) { if (code2 === 46) { effects.consume(code2); size = 0; return emailAtSignOrDot; } if (code2 === 62) { effects.exit("autolinkProtocol").type = "autolinkEmail"; effects.enter("autolinkMarker"); effects.consume(code2); effects.exit("autolinkMarker"); effects.exit("autolink"); return ok3; } return emailValue(code2); } function emailValue(code2) { if ((code2 === 45 || asciiAlphanumeric(code2)) && size++ < 63) { const next = code2 === 45 ? emailValue : emailLabel; effects.consume(code2); return next; } return nok(code2); } } // node_modules/micromark-core-commonmark/lib/blank-line.js var blankLine = { tokenize: tokenizeBlankLine, partial: true }; function tokenizeBlankLine(effects, ok3, nok) { return start; function start(code2) { return markdownSpace(code2) ? factorySpace(effects, after, "linePrefix")(code2) : after(code2); } function after(code2) { return code2 === null || markdownLineEnding(code2) ? ok3(code2) : nok(code2); } } // node_modules/micromark-core-commonmark/lib/block-quote.js var blockQuote = { name: "blockQuote", tokenize: tokenizeBlockQuoteStart, continuation: { tokenize: tokenizeBlockQuoteContinuation }, exit }; function tokenizeBlockQuoteStart(effects, ok3, nok) { const self = this; return start; function start(code2) { if (code2 === 62) { const state = self.containerState; if (!state.open) { effects.enter("blockQuote", { _container: true }); state.open = true; } effects.enter("blockQuotePrefix"); effects.enter("blockQuoteMarker"); effects.consume(code2); effects.exit("blockQuoteMarker"); return after; } return nok(code2); } function after(code2) { if (markdownSpace(code2)) { effects.enter("blockQuotePrefixWhitespace"); effects.consume(code2); effects.exit("blockQuotePrefixWhitespace"); effects.exit("blockQuotePrefix"); return ok3; } effects.exit("blockQuotePrefix"); return ok3(code2); } } function tokenizeBlockQuoteContinuation(effects, ok3, nok) { const self = this; return contStart; function contStart(code2) { if (markdownSpace(code2)) { return factorySpace( effects, contBefore, "linePrefix", self.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 )(code2); } return contBefore(code2); } function contBefore(code2) { return effects.attempt(blockQuote, ok3, nok)(code2); } } function exit(effects) { effects.exit("blockQuote"); } // node_modules/micromark-core-commonmark/lib/character-escape.js var characterEscape = { name: "characterEscape", tokenize: tokenizeCharacterEscape }; function tokenizeCharacterEscape(effects, ok3, nok) { return start; function start(code2) { effects.enter("characterEscape"); effects.enter("escapeMarker"); effects.consume(code2); effects.exit("escapeMarker"); return inside; } function inside(code2) { if (asciiPunctuation(code2)) { effects.enter("characterEscapeValue"); effects.consume(code2); effects.exit("characterEscapeValue"); effects.exit("characterEscape"); return ok3; } return nok(code2); } } // node_modules/micromark-core-commonmark/lib/character-reference.js var characterReference = { name: "characterReference", tokenize: tokenizeCharacterReference }; function tokenizeCharacterReference(effects, ok3, nok) { const self = this; let size = 0; let max; let test; return start; function start(code2) { effects.enter("characterReference"); effects.enter("characterReferenceMarker"); effects.consume(code2); effects.exit("characterReferenceMarker"); return open; } function open(code2) { if (code2 === 35) { effects.enter("characterReferenceMarkerNumeric"); effects.consume(code2); effects.exit("characterReferenceMarkerNumeric"); return numeric; } effects.enter("characterReferenceValue"); max = 31; test = asciiAlphanumeric; return value(code2); } function numeric(code2) { if (code2 === 88 || code2 === 120) { effects.enter("characterReferenceMarkerHexadecimal"); effects.consume(code2); effects.exit("characterReferenceMarkerHexadecimal"); effects.enter("characterReferenceValue"); max = 6; test = asciiHexDigit; return value; } effects.enter("characterReferenceValue"); max = 7; test = asciiDigit; return value(code2); } function value(code2) { if (code2 === 59 && size) { const token = effects.exit("characterReferenceValue"); if (test === asciiAlphanumeric && !decodeNamedCharacterReference(self.sliceSerialize(token))) { return nok(code2); } effects.enter("characterReferenceMarker"); effects.consume(code2); effects.exit("characterReferenceMarker"); effects.exit("characterReference"); return ok3; } if (test(code2) && size++ < max) { effects.consume(code2); return value; } return nok(code2); } } // node_modules/micromark-core-commonmark/lib/code-fenced.js var nonLazyContinuation = { tokenize: tokenizeNonLazyContinuation, partial: true }; var codeFenced = { name: "codeFenced", tokenize: tokenizeCodeFenced, concrete: true }; function tokenizeCodeFenced(effects, ok3, nok) { const self = this; const closeStart = { tokenize: tokenizeCloseStart, partial: true }; let initialPrefix = 0; let sizeOpen = 0; let marker; return start; function start(code2) { return beforeSequenceOpen(code2); } function beforeSequenceOpen(code2) { const tail = self.events[self.events.length - 1]; initialPrefix = tail && tail[1].type === "linePrefix" ? tail[2].sliceSerialize(tail[1], true).length : 0; marker = code2; effects.enter("codeFenced"); effects.enter("codeFencedFence"); effects.enter("codeFencedFenceSequence"); return sequenceOpen(code2); } function sequenceOpen(code2) { if (code2 === marker) { sizeOpen++; effects.consume(code2); return sequenceOpen; } if (sizeOpen < 3) { return nok(code2); } effects.exit("codeFencedFenceSequence"); return markdownSpace(code2) ? factorySpace(effects, infoBefore, "whitespace")(code2) : infoBefore(code2); } function infoBefore(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("codeFencedFence"); return self.interrupt ? ok3(code2) : effects.check(nonLazyContinuation, atNonLazyBreak, after)(code2); } effects.enter("codeFencedFenceInfo"); effects.enter("chunkString", { contentType: "string" }); return info(code2); } function info(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("chunkString"); effects.exit("codeFencedFenceInfo"); return infoBefore(code2); } if (markdownSpace(code2)) { effects.exit("chunkString"); effects.exit("codeFencedFenceInfo"); return factorySpace(effects, metaBefore, "whitespace")(code2); } if (code2 === 96 && code2 === marker) { return nok(code2); } effects.consume(code2); return info; } function metaBefore(code2) { if (code2 === null || markdownLineEnding(code2)) { return infoBefore(code2); } effects.enter("codeFencedFenceMeta"); effects.enter("chunkString", { contentType: "string" }); return meta(code2); } function meta(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("chunkString"); effects.exit("codeFencedFenceMeta"); return infoBefore(code2); } if (code2 === 96 && code2 === marker) { return nok(code2); } effects.consume(code2); return meta; } function atNonLazyBreak(code2) { return effects.attempt(closeStart, after, contentBefore)(code2); } function contentBefore(code2) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return contentStart; } function contentStart(code2) { return initialPrefix > 0 && markdownSpace(code2) ? factorySpace( effects, beforeContentChunk, "linePrefix", initialPrefix + 1 )(code2) : beforeContentChunk(code2); } function beforeContentChunk(code2) { if (code2 === null || markdownLineEnding(code2)) { return effects.check(nonLazyContinuation, atNonLazyBreak, after)(code2); } effects.enter("codeFlowValue"); return contentChunk(code2); } function contentChunk(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("codeFlowValue"); return beforeContentChunk(code2); } effects.consume(code2); return contentChunk; } function after(code2) { effects.exit("codeFenced"); return ok3(code2); } function tokenizeCloseStart(effects2, ok4, nok2) { let size = 0; return startBefore; function startBefore(code2) { effects2.enter("lineEnding"); effects2.consume(code2); effects2.exit("lineEnding"); return start2; } function start2(code2) { effects2.enter("codeFencedFence"); return markdownSpace(code2) ? factorySpace( effects2, beforeSequenceClose, "linePrefix", self.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 )(code2) : beforeSequenceClose(code2); } function beforeSequenceClose(code2) { if (code2 === marker) { effects2.enter("codeFencedFenceSequence"); return sequenceClose(code2); } return nok2(code2); } function sequenceClose(code2) { if (code2 === marker) { size++; effects2.consume(code2); return sequenceClose; } if (size >= sizeOpen) { effects2.exit("codeFencedFenceSequence"); return markdownSpace(code2) ? factorySpace(effects2, sequenceCloseAfter, "whitespace")(code2) : sequenceCloseAfter(code2); } return nok2(code2); } function sequenceCloseAfter(code2) { if (code2 === null || markdownLineEnding(code2)) { effects2.exit("codeFencedFence"); return ok4(code2); } return nok2(code2); } } } function tokenizeNonLazyContinuation(effects, ok3, nok) { const self = this; return start; function start(code2) { if (code2 === null) { return nok(code2); } effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return lineStart; } function lineStart(code2) { return self.parser.lazy[self.now().line] ? nok(code2) : ok3(code2); } } // node_modules/micromark-core-commonmark/lib/code-indented.js var codeIndented = { name: "codeIndented", tokenize: tokenizeCodeIndented }; var furtherStart = { tokenize: tokenizeFurtherStart, partial: true }; function tokenizeCodeIndented(effects, ok3, nok) { const self = this; return start; function start(code2) { effects.enter("codeIndented"); return factorySpace(effects, afterPrefix, "linePrefix", 4 + 1)(code2); } function afterPrefix(code2) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === "linePrefix" && tail[2].sliceSerialize(tail[1], true).length >= 4 ? atBreak(code2) : nok(code2); } function atBreak(code2) { if (code2 === null) { return after(code2); } if (markdownLineEnding(code2)) { return effects.attempt(furtherStart, atBreak, after)(code2); } effects.enter("codeFlowValue"); return inside(code2); } function inside(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("codeFlowValue"); return atBreak(code2); } effects.consume(code2); return inside; } function after(code2) { effects.exit("codeIndented"); return ok3(code2); } } function tokenizeFurtherStart(effects, ok3, nok) { const self = this; return furtherStart2; function furtherStart2(code2) { if (self.parser.lazy[self.now().line]) { return nok(code2); } if (markdownLineEnding(code2)) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return furtherStart2; } return factorySpace(effects, afterPrefix, "linePrefix", 4 + 1)(code2); } function afterPrefix(code2) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === "linePrefix" && tail[2].sliceSerialize(tail[1], true).length >= 4 ? ok3(code2) : markdownLineEnding(code2) ? furtherStart2(code2) : nok(code2); } } // node_modules/micromark-core-commonmark/lib/code-text.js var codeText = { name: "codeText", tokenize: tokenizeCodeText, resolve: resolveCodeText, previous }; function resolveCodeText(events) { let tailExitIndex = events.length - 4; let headEnterIndex = 3; let index2; let enter; if ((events[headEnterIndex][1].type === "lineEnding" || events[headEnterIndex][1].type === "space") && (events[tailExitIndex][1].type === "lineEnding" || events[tailExitIndex][1].type === "space")) { index2 = headEnterIndex; while (++index2 < tailExitIndex) { if (events[index2][1].type === "codeTextData") { events[headEnterIndex][1].type = "codeTextPadding"; events[tailExitIndex][1].type = "codeTextPadding"; headEnterIndex += 2; tailExitIndex -= 2; break; } } } index2 = headEnterIndex - 1; tailExitIndex++; while (++index2 <= tailExitIndex) { if (enter === void 0) { if (index2 !== tailExitIndex && events[index2][1].type !== "lineEnding") { enter = index2; } } else if (index2 === tailExitIndex || events[index2][1].type === "lineEnding") { events[enter][1].type = "codeTextData"; if (index2 !== enter + 2) { events[enter][1].end = events[index2 - 1][1].end; events.splice(enter + 2, index2 - enter - 2); tailExitIndex -= index2 - enter - 2; index2 = enter + 2; } enter = void 0; } } return events; } function previous(code2) { return code2 !== 96 || this.events[this.events.length - 1][1].type === "characterEscape"; } function tokenizeCodeText(effects, ok3, nok) { const self = this; let sizeOpen = 0; let size; let token; return start; function start(code2) { effects.enter("codeText"); effects.enter("codeTextSequence"); return sequenceOpen(code2); } function sequenceOpen(code2) { if (code2 === 96) { effects.consume(code2); sizeOpen++; return sequenceOpen; } effects.exit("codeTextSequence"); return between2(code2); } function between2(code2) { if (code2 === null) { return nok(code2); } if (code2 === 32) { effects.enter("space"); effects.consume(code2); effects.exit("space"); return between2; } if (code2 === 96) { token = effects.enter("codeTextSequence"); size = 0; return sequenceClose(code2); } if (markdownLineEnding(code2)) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return between2; } effects.enter("codeTextData"); return data(code2); } function data(code2) { if (code2 === null || code2 === 32 || code2 === 96 || markdownLineEnding(code2)) { effects.exit("codeTextData"); return between2(code2); } effects.consume(code2); return data; } function sequenceClose(code2) { if (code2 === 96) { effects.consume(code2); size++; return sequenceClose; } if (size === sizeOpen) { effects.exit("codeTextSequence"); effects.exit("codeText"); return ok3(code2); } token.type = "codeTextData"; return data(code2); } } // node_modules/micromark-util-subtokenize/index.js function subtokenize(events) { const jumps = {}; let index2 = -1; let event; let lineIndex; let otherIndex; let otherEvent; let parameters; let subevents; let more; while (++index2 < events.length) { while (index2 in jumps) { index2 = jumps[index2]; } event = events[index2]; if (index2 && event[1].type === "chunkFlow" && events[index2 - 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, index2)); index2 = jumps[index2]; more = true; } } else if (event[1]._container) { otherIndex = index2; lineIndex = void 0; 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, index2); parameters.unshift(event); splice(events, lineIndex, index2 - 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 previous2; let index2 = -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 (previous2) { tokenizer.defineSkip(current.start); } if (current._isInFirstContentOfListItem) { tokenizer._gfmTasklistFirstContentOfListItem = true; } tokenizer.write(stream); if (current._isInFirstContentOfListItem) { tokenizer._gfmTasklistFirstContentOfListItem = void 0; } } previous2 = current; current = current.next; } current = token; while (++index2 < childEvents.length) { if ( // Find a void token that includes a break. childEvents[index2][0] === "exit" && childEvents[index2 - 1][0] === "enter" && childEvents[index2][1].type === childEvents[index2 - 1][1].type && childEvents[index2][1].start.line !== childEvents[index2][1].end.line ) { start = index2 + 1; breaks.push(start); current._tokenizer = void 0; current.previous = void 0; current = current.next; } } tokenizer.events = []; if (current) { current._tokenizer = void 0; current.previous = void 0; } else { breaks.pop(); } index2 = breaks.length; while (index2--) { const slice = childEvents.slice(breaks[index2], breaks[index2 + 1]); const start2 = startPositions.pop(); jumps.unshift([start2, start2 + slice.length - 1]); splice(events, start2, 2, slice); } index2 = -1; while (++index2 < jumps.length) { gaps[adjust + jumps[index2][0]] = adjust + jumps[index2][1]; adjust += jumps[index2][1] - jumps[index2][0] - 1; } return gaps; } // node_modules/micromark-core-commonmark/lib/content.js var content2 = { tokenize: tokenizeContent, resolve: resolveContent }; var continuationConstruct = { tokenize: tokenizeContinuation, partial: true }; function resolveContent(events) { subtokenize(events); return events; } function tokenizeContent(effects, ok3) { let previous2; return chunkStart; function chunkStart(code2) { effects.enter("content"); previous2 = effects.enter("chunkContent", { contentType: "content" }); return chunkInside(code2); } function chunkInside(code2) { if (code2 === null) { return contentEnd(code2); } if (markdownLineEnding(code2)) { return effects.check( continuationConstruct, contentContinue, contentEnd )(code2); } effects.consume(code2); return chunkInside; } function contentEnd(code2) { effects.exit("chunkContent"); effects.exit("content"); return ok3(code2); } function contentContinue(code2) { effects.consume(code2); effects.exit("chunkContent"); previous2.next = effects.enter("chunkContent", { contentType: "content", previous: previous2 }); previous2 = previous2.next; return chunkInside; } } function tokenizeContinuation(effects, ok3, nok) { const self = this; return startLookahead; function startLookahead(code2) { effects.exit("chunkContent"); effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return factorySpace(effects, prefixed, "linePrefix"); } function prefixed(code2) { if (code2 === null || markdownLineEnding(code2)) { return nok(code2); } 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 ok3(code2); } return effects.interrupt(self.parser.constructs.flow, nok, ok3)(code2); } } // node_modules/micromark-factory-destination/index.js function factoryDestination(effects, ok3, nok, type, literalType, literalMarkerType, rawType, stringType, max) { const limit = max || Number.POSITIVE_INFINITY; let balance = 0; return start; function start(code2) { if (code2 === 60) { effects.enter(type); effects.enter(literalType); effects.enter(literalMarkerType); effects.consume(code2); effects.exit(literalMarkerType); return enclosedBefore; } if (code2 === null || code2 === 32 || code2 === 41 || asciiControl(code2)) { return nok(code2); } effects.enter(type); effects.enter(rawType); effects.enter(stringType); effects.enter("chunkString", { contentType: "string" }); return raw(code2); } function enclosedBefore(code2) { if (code2 === 62) { effects.enter(literalMarkerType); effects.consume(code2); effects.exit(literalMarkerType); effects.exit(literalType); effects.exit(type); return ok3; } effects.enter(stringType); effects.enter("chunkString", { contentType: "string" }); return enclosed(code2); } function enclosed(code2) { if (code2 === 62) { effects.exit("chunkString"); effects.exit(stringType); return enclosedBefore(code2); } if (code2 === null || code2 === 60 || markdownLineEnding(code2)) { return nok(code2); } effects.consume(code2); return code2 === 92 ? enclosedEscape : enclosed; } function enclosedEscape(code2) { if (code2 === 60 || code2 === 62 || code2 === 92) { effects.consume(code2); return enclosed; } return enclosed(code2); } function raw(code2) { if (!balance && (code2 === null || code2 === 41 || markdownLineEndingOrSpace(code2))) { effects.exit("chunkString"); effects.exit(stringType); effects.exit(rawType); effects.exit(type); return ok3(code2); } if (balance < limit && code2 === 40) { effects.consume(code2); balance++; return raw; } if (code2 === 41) { effects.consume(code2); balance--; return raw; } if (code2 === null || code2 === 32 || code2 === 40 || asciiControl(code2)) { return nok(code2); } effects.consume(code2); return code2 === 92 ? rawEscape : raw; } function rawEscape(code2) { if (code2 === 40 || code2 === 41 || code2 === 92) { effects.consume(code2); return raw; } return raw(code2); } } // node_modules/micromark-factory-label/index.js function factoryLabel(effects, ok3, nok, type, markerType, stringType) { const self = this; let size = 0; let seen; return start; function start(code2) { effects.enter(type); effects.enter(markerType); effects.consume(code2); effects.exit(markerType); effects.enter(stringType); return atBreak; } function atBreak(code2) { if (size > 999 || code2 === null || code2 === 91 || code2 === 93 && !seen || // To do: remove in the future once we’ve switched from // `micromark-extension-footnote` to `micromark-extension-gfm-footnote`, // which doesn’t need this. // Hidden footnotes hook. /* c8 ignore next 3 */ code2 === 94 && !size && "_hiddenFootnoteSupport" in self.parser.constructs) { return nok(code2); } if (code2 === 93) { effects.exit(stringType); effects.enter(markerType); effects.consume(code2); effects.exit(markerType); effects.exit(type); return ok3; } if (markdownLineEnding(code2)) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return atBreak; } effects.enter("chunkString", { contentType: "string" }); return labelInside(code2); } function labelInside(code2) { if (code2 === null || code2 === 91 || code2 === 93 || markdownLineEnding(code2) || size++ > 999) { effects.exit("chunkString"); return atBreak(code2); } effects.consume(code2); if (!seen) seen = !markdownSpace(code2); return code2 === 92 ? labelEscape : labelInside; } function labelEscape(code2) { if (code2 === 91 || code2 === 92 || code2 === 93) { effects.consume(code2); size++; return labelInside; } return labelInside(code2); } } // node_modules/micromark-factory-title/index.js function factoryTitle(effects, ok3, nok, type, markerType, stringType) { let marker; return start; function start(code2) { if (code2 === 34 || code2 === 39 || code2 === 40) { effects.enter(type); effects.enter(markerType); effects.consume(code2); effects.exit(markerType); marker = code2 === 40 ? 41 : code2; return begin; } return nok(code2); } function begin(code2) { if (code2 === marker) { effects.enter(markerType); effects.consume(code2); effects.exit(markerType); effects.exit(type); return ok3; } effects.enter(stringType); return atBreak(code2); } function atBreak(code2) { if (code2 === marker) { effects.exit(stringType); return begin(marker); } if (code2 === null) { return nok(code2); } if (markdownLineEnding(code2)) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return factorySpace(effects, atBreak, "linePrefix"); } effects.enter("chunkString", { contentType: "string" }); return inside(code2); } function inside(code2) { if (code2 === marker || code2 === null || markdownLineEnding(code2)) { effects.exit("chunkString"); return atBreak(code2); } effects.consume(code2); return code2 === 92 ? escape : inside; } function escape(code2) { if (code2 === marker || code2 === 92) { effects.consume(code2); return inside; } return inside(code2); } } // node_modules/micromark-factory-whitespace/index.js function factoryWhitespace(effects, ok3) { let seen; return start; function start(code2) { if (markdownLineEnding(code2)) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); seen = true; return start; } if (markdownSpace(code2)) { return factorySpace( effects, start, seen ? "linePrefix" : "lineSuffix" )(code2); } return ok3(code2); } } // node_modules/micromark-core-commonmark/lib/definition.js var definition = { name: "definition", tokenize: tokenizeDefinition }; var titleBefore = { tokenize: tokenizeTitleBefore, partial: true }; function tokenizeDefinition(effects, ok3, nok) { const self = this; let identifier; return start; function start(code2) { effects.enter("definition"); return before(code2); } function before(code2) { return factoryLabel.call( self, effects, labelAfter, // Note: we don’t need to reset the way `markdown-rs` does. nok, "definitionLabel", "definitionLabelMarker", "definitionLabelString" )(code2); } function labelAfter(code2) { identifier = normalizeIdentifier( self.sliceSerialize(self.events[self.events.length - 1][1]).slice(1, -1) ); if (code2 === 58) { effects.enter("definitionMarker"); effects.consume(code2); effects.exit("definitionMarker"); return markerAfter; } return nok(code2); } function markerAfter(code2) { return markdownLineEndingOrSpace(code2) ? factoryWhitespace(effects, destinationBefore)(code2) : destinationBefore(code2); } function destinationBefore(code2) { return factoryDestination( effects, destinationAfter, // Note: we don’t need to reset the way `markdown-rs` does. nok, "definitionDestination", "definitionDestinationLiteral", "definitionDestinationLiteralMarker", "definitionDestinationRaw", "definitionDestinationString" )(code2); } function destinationAfter(code2) { return effects.attempt(titleBefore, after, after)(code2); } function after(code2) { return markdownSpace(code2) ? factorySpace(effects, afterWhitespace, "whitespace")(code2) : afterWhitespace(code2); } function afterWhitespace(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("definition"); self.parser.defined.push(identifier); return ok3(code2); } return nok(code2); } } function tokenizeTitleBefore(effects, ok3, nok) { return titleBefore2; function titleBefore2(code2) { return markdownLineEndingOrSpace(code2) ? factoryWhitespace(effects, beforeMarker)(code2) : nok(code2); } function beforeMarker(code2) { return factoryTitle( effects, titleAfter, nok, "definitionTitle", "definitionTitleMarker", "definitionTitleString" )(code2); } function titleAfter(code2) { return markdownSpace(code2) ? factorySpace(effects, titleAfterOptionalWhitespace, "whitespace")(code2) : titleAfterOptionalWhitespace(code2); } function titleAfterOptionalWhitespace(code2) { return code2 === null || markdownLineEnding(code2) ? ok3(code2) : nok(code2); } } // node_modules/micromark-core-commonmark/lib/hard-break-escape.js var hardBreakEscape = { name: "hardBreakEscape", tokenize: tokenizeHardBreakEscape }; function tokenizeHardBreakEscape(effects, ok3, nok) { return start; function start(code2) { effects.enter("hardBreakEscape"); effects.consume(code2); return after; } function after(code2) { if (markdownLineEnding(code2)) { effects.exit("hardBreakEscape"); return ok3(code2); } return nok(code2); } } // node_modules/micromark-core-commonmark/lib/heading-atx.js var headingAtx = { name: "headingAtx", tokenize: tokenizeHeadingAtx, resolve: resolveHeadingAtx }; function resolveHeadingAtx(events, context) { let contentEnd = events.length - 2; let contentStart = 3; let content3; let text4; 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) { content3 = { type: "atxHeadingText", start: events[contentStart][1].start, end: events[contentEnd][1].end }; text4 = { type: "chunkText", start: events[contentStart][1].start, end: events[contentEnd][1].end, contentType: "text" }; splice(events, contentStart, contentEnd - contentStart + 1, [ ["enter", content3, context], ["enter", text4, context], ["exit", text4, context], ["exit", content3, context] ]); } return events; } function tokenizeHeadingAtx(effects, ok3, nok) { let size = 0; return start; function start(code2) { effects.enter("atxHeading"); return before(code2); } function before(code2) { effects.enter("atxHeadingSequence"); return sequenceOpen(code2); } function sequenceOpen(code2) { if (code2 === 35 && size++ < 6) { effects.consume(code2); return sequenceOpen; } if (code2 === null || markdownLineEndingOrSpace(code2)) { effects.exit("atxHeadingSequence"); return atBreak(code2); } return nok(code2); } function atBreak(code2) { if (code2 === 35) { effects.enter("atxHeadingSequence"); return sequenceFurther(code2); } if (code2 === null || markdownLineEnding(code2)) { effects.exit("atxHeading"); return ok3(code2); } if (markdownSpace(code2)) { return factorySpace(effects, atBreak, "whitespace")(code2); } effects.enter("atxHeadingText"); return data(code2); } function sequenceFurther(code2) { if (code2 === 35) { effects.consume(code2); return sequenceFurther; } effects.exit("atxHeadingSequence"); return atBreak(code2); } function data(code2) { if (code2 === null || code2 === 35 || markdownLineEndingOrSpace(code2)) { effects.exit("atxHeadingText"); return atBreak(code2); } effects.consume(code2); return data; } } // node_modules/micromark-util-html-tag-name/index.js var 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" ]; var htmlRawNames = ["pre", "script", "style", "textarea"]; // node_modules/micromark-core-commonmark/lib/html-flow.js var htmlFlow = { name: "htmlFlow", tokenize: tokenizeHtmlFlow, resolveTo: resolveToHtmlFlow, concrete: true }; var blankLineBefore = { tokenize: tokenizeBlankLineBefore, partial: true }; var nonLazyContinuationStart = { tokenize: tokenizeNonLazyContinuationStart, partial: true }; function resolveToHtmlFlow(events) { let index2 = events.length; while (index2--) { if (events[index2][0] === "enter" && events[index2][1].type === "htmlFlow") { break; } } if (index2 > 1 && events[index2 - 2][1].type === "linePrefix") { events[index2][1].start = events[index2 - 2][1].start; events[index2 + 1][1].start = events[index2 - 2][1].start; events.splice(index2 - 2, 2); } return events; } function tokenizeHtmlFlow(effects, ok3, nok) { const self = this; let marker; let closingTag; let buffer; let index2; let markerB; return start; function start(code2) { return before(code2); } function before(code2) { effects.enter("htmlFlow"); effects.enter("htmlFlowData"); effects.consume(code2); return open; } function open(code2) { if (code2 === 33) { effects.consume(code2); return declarationOpen; } if (code2 === 47) { effects.consume(code2); closingTag = true; return tagCloseStart; } if (code2 === 63) { effects.consume(code2); marker = 3; return self.interrupt ? ok3 : continuationDeclarationInside; } if (asciiAlpha(code2)) { effects.consume(code2); buffer = String.fromCharCode(code2); return tagName; } return nok(code2); } function declarationOpen(code2) { if (code2 === 45) { effects.consume(code2); marker = 2; return commentOpenInside; } if (code2 === 91) { effects.consume(code2); marker = 5; index2 = 0; return cdataOpenInside; } if (asciiAlpha(code2)) { effects.consume(code2); marker = 4; return self.interrupt ? ok3 : continuationDeclarationInside; } return nok(code2); } function commentOpenInside(code2) { if (code2 === 45) { effects.consume(code2); return self.interrupt ? ok3 : continuationDeclarationInside; } return nok(code2); } function cdataOpenInside(code2) { const value = "CDATA["; if (code2 === value.charCodeAt(index2++)) { effects.consume(code2); if (index2 === value.length) { return self.interrupt ? ok3 : continuation; } return cdataOpenInside; } return nok(code2); } function tagCloseStart(code2) { if (asciiAlpha(code2)) { effects.consume(code2); buffer = String.fromCharCode(code2); return tagName; } return nok(code2); } function tagName(code2) { if (code2 === null || code2 === 47 || code2 === 62 || markdownLineEndingOrSpace(code2)) { const slash = code2 === 47; const name = buffer.toLowerCase(); if (!slash && !closingTag && htmlRawNames.includes(name)) { marker = 1; return self.interrupt ? ok3(code2) : continuation(code2); } if (htmlBlockNames.includes(buffer.toLowerCase())) { marker = 6; if (slash) { effects.consume(code2); return basicSelfClosing; } return self.interrupt ? ok3(code2) : continuation(code2); } marker = 7; return self.interrupt && !self.parser.lazy[self.now().line] ? nok(code2) : closingTag ? completeClosingTagAfter(code2) : completeAttributeNameBefore(code2); } if (code2 === 45 || asciiAlphanumeric(code2)) { effects.consume(code2); buffer += String.fromCharCode(code2); return tagName; } return nok(code2); } function basicSelfClosing(code2) { if (code2 === 62) { effects.consume(code2); return self.interrupt ? ok3 : continuation; } return nok(code2); } function completeClosingTagAfter(code2) { if (markdownSpace(code2)) { effects.consume(code2); return completeClosingTagAfter; } return completeEnd(code2); } function completeAttributeNameBefore(code2) { if (code2 === 47) { effects.consume(code2); return completeEnd; } if (code2 === 58 || code2 === 95 || asciiAlpha(code2)) { effects.consume(code2); return completeAttributeName; } if (markdownSpace(code2)) { effects.consume(code2); return completeAttributeNameBefore; } return completeEnd(code2); } function completeAttributeName(code2) { if (code2 === 45 || code2 === 46 || code2 === 58 || code2 === 95 || asciiAlphanumeric(code2)) { effects.consume(code2); return completeAttributeName; } return completeAttributeNameAfter(code2); } function completeAttributeNameAfter(code2) { if (code2 === 61) { effects.consume(code2); return completeAttributeValueBefore; } if (markdownSpace(code2)) { effects.consume(code2); return completeAttributeNameAfter; } return completeAttributeNameBefore(code2); } function completeAttributeValueBefore(code2) { if (code2 === null || code2 === 60 || code2 === 61 || code2 === 62 || code2 === 96) { return nok(code2); } if (code2 === 34 || code2 === 39) { effects.consume(code2); markerB = code2; return completeAttributeValueQuoted; } if (markdownSpace(code2)) { effects.consume(code2); return completeAttributeValueBefore; } return completeAttributeValueUnquoted(code2); } function completeAttributeValueQuoted(code2) { if (code2 === markerB) { effects.consume(code2); markerB = null; return completeAttributeValueQuotedAfter; } if (code2 === null || markdownLineEnding(code2)) { return nok(code2); } effects.consume(code2); return completeAttributeValueQuoted; } function completeAttributeValueUnquoted(code2) { if (code2 === null || code2 === 34 || code2 === 39 || code2 === 47 || code2 === 60 || code2 === 61 || code2 === 62 || code2 === 96 || markdownLineEndingOrSpace(code2)) { return completeAttributeNameAfter(code2); } effects.consume(code2); return completeAttributeValueUnquoted; } function completeAttributeValueQuotedAfter(code2) { if (code2 === 47 || code2 === 62 || markdownSpace(code2)) { return completeAttributeNameBefore(code2); } return nok(code2); } function completeEnd(code2) { if (code2 === 62) { effects.consume(code2); return completeAfter; } return nok(code2); } function completeAfter(code2) { if (code2 === null || markdownLineEnding(code2)) { return continuation(code2); } if (markdownSpace(code2)) { effects.consume(code2); return completeAfter; } return nok(code2); } function continuation(code2) { if (code2 === 45 && marker === 2) { effects.consume(code2); return continuationCommentInside; } if (code2 === 60 && marker === 1) { effects.consume(code2); return continuationRawTagOpen; } if (code2 === 62 && marker === 4) { effects.consume(code2); return continuationClose; } if (code2 === 63 && marker === 3) { effects.consume(code2); return continuationDeclarationInside; } if (code2 === 93 && marker === 5) { effects.consume(code2); return continuationCdataInside; } if (markdownLineEnding(code2) && (marker === 6 || marker === 7)) { effects.exit("htmlFlowData"); return effects.check( blankLineBefore, continuationAfter, continuationStart )(code2); } if (code2 === null || markdownLineEnding(code2)) { effects.exit("htmlFlowData"); return continuationStart(code2); } effects.consume(code2); return continuation; } function continuationStart(code2) { return effects.check( nonLazyContinuationStart, continuationStartNonLazy, continuationAfter )(code2); } function continuationStartNonLazy(code2) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return continuationBefore; } function continuationBefore(code2) { if (code2 === null || markdownLineEnding(code2)) { return continuationStart(code2); } effects.enter("htmlFlowData"); return continuation(code2); } function continuationCommentInside(code2) { if (code2 === 45) { effects.consume(code2); return continuationDeclarationInside; } return continuation(code2); } function continuationRawTagOpen(code2) { if (code2 === 47) { effects.consume(code2); buffer = ""; return continuationRawEndTag; } return continuation(code2); } function continuationRawEndTag(code2) { if (code2 === 62) { const name = buffer.toLowerCase(); if (htmlRawNames.includes(name)) { effects.consume(code2); return continuationClose; } return continuation(code2); } if (asciiAlpha(code2) && buffer.length < 8) { effects.consume(code2); buffer += String.fromCharCode(code2); return continuationRawEndTag; } return continuation(code2); } function continuationCdataInside(code2) { if (code2 === 93) { effects.consume(code2); return continuationDeclarationInside; } return continuation(code2); } function continuationDeclarationInside(code2) { if (code2 === 62) { effects.consume(code2); return continuationClose; } if (code2 === 45 && marker === 2) { effects.consume(code2); return continuationDeclarationInside; } return continuation(code2); } function continuationClose(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("htmlFlowData"); return continuationAfter(code2); } effects.consume(code2); return continuationClose; } function continuationAfter(code2) { effects.exit("htmlFlow"); return ok3(code2); } } function tokenizeNonLazyContinuationStart(effects, ok3, nok) { const self = this; return start; function start(code2) { if (markdownLineEnding(code2)) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return after; } return nok(code2); } function after(code2) { return self.parser.lazy[self.now().line] ? nok(code2) : ok3(code2); } } function tokenizeBlankLineBefore(effects, ok3, nok) { return start; function start(code2) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return effects.attempt(blankLine, ok3, nok); } } // node_modules/micromark-core-commonmark/lib/html-text.js var htmlText = { name: "htmlText", tokenize: tokenizeHtmlText }; function tokenizeHtmlText(effects, ok3, nok) { const self = this; let marker; let index2; let returnState; return start; function start(code2) { effects.enter("htmlText"); effects.enter("htmlTextData"); effects.consume(code2); return open; } function open(code2) { if (code2 === 33) { effects.consume(code2); return declarationOpen; } if (code2 === 47) { effects.consume(code2); return tagCloseStart; } if (code2 === 63) { effects.consume(code2); return instruction; } if (asciiAlpha(code2)) { effects.consume(code2); return tagOpen; } return nok(code2); } function declarationOpen(code2) { if (code2 === 45) { effects.consume(code2); return commentOpenInside; } if (code2 === 91) { effects.consume(code2); index2 = 0; return cdataOpenInside; } if (asciiAlpha(code2)) { effects.consume(code2); return declaration; } return nok(code2); } function commentOpenInside(code2) { if (code2 === 45) { effects.consume(code2); return commentEnd; } return nok(code2); } function comment(code2) { if (code2 === null) { return nok(code2); } if (code2 === 45) { effects.consume(code2); return commentClose; } if (markdownLineEnding(code2)) { returnState = comment; return lineEndingBefore(code2); } effects.consume(code2); return comment; } function commentClose(code2) { if (code2 === 45) { effects.consume(code2); return commentEnd; } return comment(code2); } function commentEnd(code2) { return code2 === 62 ? end(code2) : code2 === 45 ? commentClose(code2) : comment(code2); } function cdataOpenInside(code2) { const value = "CDATA["; if (code2 === value.charCodeAt(index2++)) { effects.consume(code2); return index2 === value.length ? cdata : cdataOpenInside; } return nok(code2); } function cdata(code2) { if (code2 === null) { return nok(code2); } if (code2 === 93) { effects.consume(code2); return cdataClose; } if (markdownLineEnding(code2)) { returnState = cdata; return lineEndingBefore(code2); } effects.consume(code2); return cdata; } function cdataClose(code2) { if (code2 === 93) { effects.consume(code2); return cdataEnd; } return cdata(code2); } function cdataEnd(code2) { if (code2 === 62) { return end(code2); } if (code2 === 93) { effects.consume(code2); return cdataEnd; } return cdata(code2); } function declaration(code2) { if (code2 === null || code2 === 62) { return end(code2); } if (markdownLineEnding(code2)) { returnState = declaration; return lineEndingBefore(code2); } effects.consume(code2); return declaration; } function instruction(code2) { if (code2 === null) { return nok(code2); } if (code2 === 63) { effects.consume(code2); return instructionClose; } if (markdownLineEnding(code2)) { returnState = instruction; return lineEndingBefore(code2); } effects.consume(code2); return instruction; } function instructionClose(code2) { return code2 === 62 ? end(code2) : instruction(code2); } function tagCloseStart(code2) { if (asciiAlpha(code2)) { effects.consume(code2); return tagClose; } return nok(code2); } function tagClose(code2) { if (code2 === 45 || asciiAlphanumeric(code2)) { effects.consume(code2); return tagClose; } return tagCloseBetween(code2); } function tagCloseBetween(code2) { if (markdownLineEnding(code2)) { returnState = tagCloseBetween; return lineEndingBefore(code2); } if (markdownSpace(code2)) { effects.consume(code2); return tagCloseBetween; } return end(code2); } function tagOpen(code2) { if (code2 === 45 || asciiAlphanumeric(code2)) { effects.consume(code2); return tagOpen; } if (code2 === 47 || code2 === 62 || markdownLineEndingOrSpace(code2)) { return tagOpenBetween(code2); } return nok(code2); } function tagOpenBetween(code2) { if (code2 === 47) { effects.consume(code2); return end; } if (code2 === 58 || code2 === 95 || asciiAlpha(code2)) { effects.consume(code2); return tagOpenAttributeName; } if (markdownLineEnding(code2)) { returnState = tagOpenBetween; return lineEndingBefore(code2); } if (markdownSpace(code2)) { effects.consume(code2); return tagOpenBetween; } return end(code2); } function tagOpenAttributeName(code2) { if (code2 === 45 || code2 === 46 || code2 === 58 || code2 === 95 || asciiAlphanumeric(code2)) { effects.consume(code2); return tagOpenAttributeName; } return tagOpenAttributeNameAfter(code2); } function tagOpenAttributeNameAfter(code2) { if (code2 === 61) { effects.consume(code2); return tagOpenAttributeValueBefore; } if (markdownLineEnding(code2)) { returnState = tagOpenAttributeNameAfter; return lineEndingBefore(code2); } if (markdownSpace(code2)) { effects.consume(code2); return tagOpenAttributeNameAfter; } return tagOpenBetween(code2); } function tagOpenAttributeValueBefore(code2) { if (code2 === null || code2 === 60 || code2 === 61 || code2 === 62 || code2 === 96) { return nok(code2); } if (code2 === 34 || code2 === 39) { effects.consume(code2); marker = code2; return tagOpenAttributeValueQuoted; } if (markdownLineEnding(code2)) { returnState = tagOpenAttributeValueBefore; return lineEndingBefore(code2); } if (markdownSpace(code2)) { effects.consume(code2); return tagOpenAttributeValueBefore; } effects.consume(code2); return tagOpenAttributeValueUnquoted; } function tagOpenAttributeValueQuoted(code2) { if (code2 === marker) { effects.consume(code2); marker = void 0; return tagOpenAttributeValueQuotedAfter; } if (code2 === null) { return nok(code2); } if (markdownLineEnding(code2)) { returnState = tagOpenAttributeValueQuoted; return lineEndingBefore(code2); } effects.consume(code2); return tagOpenAttributeValueQuoted; } function tagOpenAttributeValueUnquoted(code2) { if (code2 === null || code2 === 34 || code2 === 39 || code2 === 60 || code2 === 61 || code2 === 96) { return nok(code2); } if (code2 === 47 || code2 === 62 || markdownLineEndingOrSpace(code2)) { return tagOpenBetween(code2); } effects.consume(code2); return tagOpenAttributeValueUnquoted; } function tagOpenAttributeValueQuotedAfter(code2) { if (code2 === 47 || code2 === 62 || markdownLineEndingOrSpace(code2)) { return tagOpenBetween(code2); } return nok(code2); } function end(code2) { if (code2 === 62) { effects.consume(code2); effects.exit("htmlTextData"); effects.exit("htmlText"); return ok3; } return nok(code2); } function lineEndingBefore(code2) { effects.exit("htmlTextData"); effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return lineEndingAfter; } function lineEndingAfter(code2) { return markdownSpace(code2) ? factorySpace( effects, lineEndingAfterPrefix, "linePrefix", self.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 )(code2) : lineEndingAfterPrefix(code2); } function lineEndingAfterPrefix(code2) { effects.enter("htmlTextData"); return returnState(code2); } } // node_modules/micromark-core-commonmark/lib/label-end.js var labelEnd = { name: "labelEnd", tokenize: tokenizeLabelEnd, resolveTo: resolveToLabelEnd, resolveAll: resolveAllLabelEnd }; var resourceConstruct = { tokenize: tokenizeResource }; var referenceFullConstruct = { tokenize: tokenizeReferenceFull }; var referenceCollapsedConstruct = { tokenize: tokenizeReferenceCollapsed }; function resolveAllLabelEnd(events) { let index2 = -1; while (++index2 < events.length) { const token = events[index2][1]; if (token.type === "labelImage" || token.type === "labelLink" || token.type === "labelEnd") { events.splice(index2 + 1, token.type === "labelImage" ? 4 : 2); token.type = "data"; index2++; } } return events; } function resolveToLabelEnd(events, context) { let index2 = events.length; let offset = 0; let token; let open; let close; let media; while (index2--) { token = events[index2][1]; if (open) { if (token.type === "link" || token.type === "labelLink" && token._inactive) { break; } if (events[index2][0] === "enter" && token.type === "labelLink") { token._inactive = true; } } else if (close) { if (events[index2][0] === "enter" && (token.type === "labelImage" || token.type === "labelLink") && !token._balanced) { open = index2; if (token.type !== "labelLink") { offset = 2; break; } } } else if (token.type === "labelEnd") { close = index2; } } 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 text4 = { 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", text4, context]]); media = push( media, resolveAll( context.parser.constructs.insideSpan.null, events.slice(open + offset + 4, close - 3), context ) ); media = push(media, [ ["exit", text4, 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, ok3, nok) { const self = this; let index2 = self.events.length; let labelStart; let defined; while (index2--) { if ((self.events[index2][1].type === "labelImage" || self.events[index2][1].type === "labelLink") && !self.events[index2][1]._balanced) { labelStart = self.events[index2][1]; break; } } return start; function start(code2) { if (!labelStart) { return nok(code2); } if (labelStart._inactive) { return labelEndNok(code2); } defined = self.parser.defined.includes( normalizeIdentifier( self.sliceSerialize({ start: labelStart.end, end: self.now() }) ) ); effects.enter("labelEnd"); effects.enter("labelMarker"); effects.consume(code2); effects.exit("labelMarker"); effects.exit("labelEnd"); return after; } function after(code2) { if (code2 === 40) { return effects.attempt( resourceConstruct, labelEndOk, defined ? labelEndOk : labelEndNok )(code2); } if (code2 === 91) { return effects.attempt( referenceFullConstruct, labelEndOk, defined ? referenceNotFull : labelEndNok )(code2); } return defined ? labelEndOk(code2) : labelEndNok(code2); } function referenceNotFull(code2) { return effects.attempt( referenceCollapsedConstruct, labelEndOk, labelEndNok )(code2); } function labelEndOk(code2) { return ok3(code2); } function labelEndNok(code2) { labelStart._balanced = true; return nok(code2); } } function tokenizeResource(effects, ok3, nok) { return resourceStart; function resourceStart(code2) { effects.enter("resource"); effects.enter("resourceMarker"); effects.consume(code2); effects.exit("resourceMarker"); return resourceBefore; } function resourceBefore(code2) { return markdownLineEndingOrSpace(code2) ? factoryWhitespace(effects, resourceOpen)(code2) : resourceOpen(code2); } function resourceOpen(code2) { if (code2 === 41) { return resourceEnd(code2); } return factoryDestination( effects, resourceDestinationAfter, resourceDestinationMissing, "resourceDestination", "resourceDestinationLiteral", "resourceDestinationLiteralMarker", "resourceDestinationRaw", "resourceDestinationString", 32 )(code2); } function resourceDestinationAfter(code2) { return markdownLineEndingOrSpace(code2) ? factoryWhitespace(effects, resourceBetween)(code2) : resourceEnd(code2); } function resourceDestinationMissing(code2) { return nok(code2); } function resourceBetween(code2) { if (code2 === 34 || code2 === 39 || code2 === 40) { return factoryTitle( effects, resourceTitleAfter, nok, "resourceTitle", "resourceTitleMarker", "resourceTitleString" )(code2); } return resourceEnd(code2); } function resourceTitleAfter(code2) { return markdownLineEndingOrSpace(code2) ? factoryWhitespace(effects, resourceEnd)(code2) : resourceEnd(code2); } function resourceEnd(code2) { if (code2 === 41) { effects.enter("resourceMarker"); effects.consume(code2); effects.exit("resourceMarker"); effects.exit("resource"); return ok3; } return nok(code2); } } function tokenizeReferenceFull(effects, ok3, nok) { const self = this; return referenceFull; function referenceFull(code2) { return factoryLabel.call( self, effects, referenceFullAfter, referenceFullMissing, "reference", "referenceMarker", "referenceString" )(code2); } function referenceFullAfter(code2) { return self.parser.defined.includes( normalizeIdentifier( self.sliceSerialize(self.events[self.events.length - 1][1]).slice(1, -1) ) ) ? ok3(code2) : nok(code2); } function referenceFullMissing(code2) { return nok(code2); } } function tokenizeReferenceCollapsed(effects, ok3, nok) { return referenceCollapsedStart; function referenceCollapsedStart(code2) { effects.enter("reference"); effects.enter("referenceMarker"); effects.consume(code2); effects.exit("referenceMarker"); return referenceCollapsedOpen; } function referenceCollapsedOpen(code2) { if (code2 === 93) { effects.enter("referenceMarker"); effects.consume(code2); effects.exit("referenceMarker"); effects.exit("reference"); return ok3; } return nok(code2); } } // node_modules/micromark-core-commonmark/lib/label-start-image.js var labelStartImage = { name: "labelStartImage", tokenize: tokenizeLabelStartImage, resolveAll: labelEnd.resolveAll }; function tokenizeLabelStartImage(effects, ok3, nok) { const self = this; return start; function start(code2) { effects.enter("labelImage"); effects.enter("labelImageMarker"); effects.consume(code2); effects.exit("labelImageMarker"); return open; } function open(code2) { if (code2 === 91) { effects.enter("labelMarker"); effects.consume(code2); effects.exit("labelMarker"); effects.exit("labelImage"); return after; } return nok(code2); } function after(code2) { return code2 === 94 && "_hiddenFootnoteSupport" in self.parser.constructs ? nok(code2) : ok3(code2); } } // node_modules/micromark-core-commonmark/lib/label-start-link.js var labelStartLink = { name: "labelStartLink", tokenize: tokenizeLabelStartLink, resolveAll: labelEnd.resolveAll }; function tokenizeLabelStartLink(effects, ok3, nok) { const self = this; return start; function start(code2) { effects.enter("labelLink"); effects.enter("labelMarker"); effects.consume(code2); effects.exit("labelMarker"); effects.exit("labelLink"); return after; } function after(code2) { return code2 === 94 && "_hiddenFootnoteSupport" in self.parser.constructs ? nok(code2) : ok3(code2); } } // node_modules/micromark-core-commonmark/lib/line-ending.js var lineEnding = { name: "lineEnding", tokenize: tokenizeLineEnding }; function tokenizeLineEnding(effects, ok3) { return start; function start(code2) { effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); return factorySpace(effects, ok3, "linePrefix"); } } // node_modules/micromark-core-commonmark/lib/thematic-break.js var thematicBreak = { name: "thematicBreak", tokenize: tokenizeThematicBreak }; function tokenizeThematicBreak(effects, ok3, nok) { let size = 0; let marker; return start; function start(code2) { effects.enter("thematicBreak"); return before(code2); } function before(code2) { marker = code2; return atBreak(code2); } function atBreak(code2) { if (code2 === marker) { effects.enter("thematicBreakSequence"); return sequence(code2); } if (size >= 3 && (code2 === null || markdownLineEnding(code2))) { effects.exit("thematicBreak"); return ok3(code2); } return nok(code2); } function sequence(code2) { if (code2 === marker) { effects.consume(code2); size++; return sequence; } effects.exit("thematicBreakSequence"); return markdownSpace(code2) ? factorySpace(effects, atBreak, "whitespace")(code2) : atBreak(code2); } } // node_modules/micromark-core-commonmark/lib/list.js var list = { name: "list", tokenize: tokenizeListStart, continuation: { tokenize: tokenizeListContinuation }, exit: tokenizeListEnd }; var listItemPrefixWhitespaceConstruct = { tokenize: tokenizeListItemPrefixWhitespace, partial: true }; var indentConstruct = { tokenize: tokenizeIndent, partial: true }; function tokenizeListStart(effects, ok3, 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(code2) { const kind = self.containerState.type || (code2 === 42 || code2 === 43 || code2 === 45 ? "listUnordered" : "listOrdered"); if (kind === "listUnordered" ? !self.containerState.marker || code2 === self.containerState.marker : asciiDigit(code2)) { if (!self.containerState.type) { self.containerState.type = kind; effects.enter(kind, { _container: true }); } if (kind === "listUnordered") { effects.enter("listItemPrefix"); return code2 === 42 || code2 === 45 ? effects.check(thematicBreak, nok, atMarker)(code2) : atMarker(code2); } if (!self.interrupt || code2 === 49) { effects.enter("listItemPrefix"); effects.enter("listItemValue"); return inside(code2); } } return nok(code2); } function inside(code2) { if (asciiDigit(code2) && ++size < 10) { effects.consume(code2); return inside; } if ((!self.interrupt || size < 2) && (self.containerState.marker ? code2 === self.containerState.marker : code2 === 41 || code2 === 46)) { effects.exit("listItemValue"); return atMarker(code2); } return nok(code2); } function atMarker(code2) { effects.enter("listItemMarker"); effects.consume(code2); effects.exit("listItemMarker"); self.containerState.marker = self.containerState.marker || code2; return effects.check( blankLine, // Can’t be empty when interrupting. self.interrupt ? nok : onBlank, effects.attempt( listItemPrefixWhitespaceConstruct, endOfPrefix, otherPrefix ) ); } function onBlank(code2) { self.containerState.initialBlankLine = true; initialSize++; return endOfPrefix(code2); } function otherPrefix(code2) { if (markdownSpace(code2)) { effects.enter("listItemPrefixWhitespace"); effects.consume(code2); effects.exit("listItemPrefixWhitespace"); return endOfPrefix; } return nok(code2); } function endOfPrefix(code2) { self.containerState.size = initialSize + self.sliceSerialize(effects.exit("listItemPrefix"), true).length; return ok3(code2); } } function tokenizeListContinuation(effects, ok3, nok) { const self = this; self.containerState._closeFlow = void 0; return effects.check(blankLine, onBlank, notBlank); function onBlank(code2) { self.containerState.furtherBlankLines = self.containerState.furtherBlankLines || self.containerState.initialBlankLine; return factorySpace( effects, ok3, "listItemIndent", self.containerState.size + 1 )(code2); } function notBlank(code2) { if (self.containerState.furtherBlankLines || !markdownSpace(code2)) { self.containerState.furtherBlankLines = void 0; self.containerState.initialBlankLine = void 0; return notInCurrentItem(code2); } self.containerState.furtherBlankLines = void 0; self.containerState.initialBlankLine = void 0; return effects.attempt(indentConstruct, ok3, notInCurrentItem)(code2); } function notInCurrentItem(code2) { self.containerState._closeFlow = true; self.interrupt = void 0; return factorySpace( effects, effects.attempt(list, ok3, nok), "linePrefix", self.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 )(code2); } } function tokenizeIndent(effects, ok3, nok) { const self = this; return factorySpace( effects, afterPrefix, "listItemIndent", self.containerState.size + 1 ); function afterPrefix(code2) { const tail = self.events[self.events.length - 1]; return tail && tail[1].type === "listItemIndent" && tail[2].sliceSerialize(tail[1], true).length === self.containerState.size ? ok3(code2) : nok(code2); } } function tokenizeListEnd(effects) { effects.exit(this.containerState.type); } function tokenizeListItemPrefixWhitespace(effects, ok3, nok) { const self = this; return factorySpace( effects, afterPrefix, "listItemPrefixWhitespace", self.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 + 1 ); function afterPrefix(code2) { const tail = self.events[self.events.length - 1]; return !markdownSpace(code2) && tail && tail[1].type === "listItemPrefixWhitespace" ? ok3(code2) : nok(code2); } } // node_modules/micromark-core-commonmark/lib/setext-underline.js var setextUnderline = { name: "setextUnderline", tokenize: tokenizeSetextUnderline, resolveTo: resolveToSetextUnderline }; function resolveToSetextUnderline(events, context) { let index2 = events.length; let content3; let text4; let definition3; while (index2--) { if (events[index2][0] === "enter") { if (events[index2][1].type === "content") { content3 = index2; break; } if (events[index2][1].type === "paragraph") { text4 = index2; } } else { if (events[index2][1].type === "content") { events.splice(index2, 1); } if (!definition3 && events[index2][1].type === "definition") { definition3 = index2; } } } const heading2 = { type: "setextHeading", start: Object.assign({}, events[text4][1].start), end: Object.assign({}, events[events.length - 1][1].end) }; events[text4][1].type = "setextHeadingText"; if (definition3) { events.splice(text4, 0, ["enter", heading2, context]); events.splice(definition3 + 1, 0, ["exit", events[content3][1], context]); events[content3][1].end = Object.assign({}, events[definition3][1].end); } else { events[content3][1] = heading2; } events.push(["exit", heading2, context]); return events; } function tokenizeSetextUnderline(effects, ok3, nok) { const self = this; let marker; return start; function start(code2) { let index2 = self.events.length; let paragraph2; while (index2--) { if (self.events[index2][1].type !== "lineEnding" && self.events[index2][1].type !== "linePrefix" && self.events[index2][1].type !== "content") { paragraph2 = self.events[index2][1].type === "paragraph"; break; } } if (!self.parser.lazy[self.now().line] && (self.interrupt || paragraph2)) { effects.enter("setextHeadingLine"); marker = code2; return before(code2); } return nok(code2); } function before(code2) { effects.enter("setextHeadingLineSequence"); return inside(code2); } function inside(code2) { if (code2 === marker) { effects.consume(code2); return inside; } effects.exit("setextHeadingLineSequence"); return markdownSpace(code2) ? factorySpace(effects, after, "lineSuffix")(code2) : after(code2); } function after(code2) { if (code2 === null || markdownLineEnding(code2)) { effects.exit("setextHeadingLine"); return ok3(code2); } return nok(code2); } } // node_modules/micromark/lib/initialize/flow.js var flow = { tokenize: initializeFlow }; function initializeFlow(effects) { const self = this; const initial = effects.attempt( // Try to parse a blank line. blankLine, atBlankEnding, // Try to parse initial flow (essentially, only code). effects.attempt( this.parser.constructs.flowInitial, afterConstruct, factorySpace( effects, effects.attempt( this.parser.constructs.flow, afterConstruct, effects.attempt(content2, afterConstruct) ), "linePrefix" ) ) ); return initial; function atBlankEnding(code2) { if (code2 === null) { effects.consume(code2); return; } effects.enter("lineEndingBlank"); effects.consume(code2); effects.exit("lineEndingBlank"); self.currentConstruct = void 0; return initial; } function afterConstruct(code2) { if (code2 === null) { effects.consume(code2); return; } effects.enter("lineEnding"); effects.consume(code2); effects.exit("lineEnding"); self.currentConstruct = void 0; return initial; } } // node_modules/micromark/lib/initialize/text.js var resolver = { resolveAll: createResolver() }; var string = initializeFactory("string"); var text = initializeFactory("text"); function initializeFactory(field) { return { tokenize: initializeText, resolveAll: createResolver( field === "text" ? resolveAllLineSuffixes : void 0 ) }; function initializeText(effects) { const self = this; const constructs2 = this.parser.constructs[field]; const text4 = effects.attempt(constructs2, start, notText); return start; function start(code2) { return atBreak(code2) ? text4(code2) : notText(code2); } function notText(code2) { if (code2 === null) { effects.consume(code2); return; } effects.enter("data"); effects.consume(code2); return data; } function data(code2) { if (atBreak(code2)) { effects.exit("data"); return text4(code2); } effects.consume(code2); return data; } function atBreak(code2) { if (code2 === null) { return true; } const list4 = constructs2[code2]; let index2 = -1; if (list4) { while (++index2 < list4.length) { const item = list4[index2]; if (!item.previous || item.previous.call(self, self.previous)) { return true; } } } return false; } } } function createResolver(extraResolver) { return resolveAllText; function resolveAllText(events, context) { let index2 = -1; let enter; while (++index2 <= events.length) { if (enter === void 0) { if (events[index2] && events[index2][1].type === "data") { enter = index2; index2++; } } else if (!events[index2] || events[index2][1].type !== "data") { if (index2 !== enter + 2) { events[enter][1].end = events[index2 - 1][1].end; events.splice(enter + 2, index2 - enter - 2); index2 = enter + 2; } enter = void 0; } } 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 index2 = chunks.length; let bufferIndex = -1; let size = 0; let tabs; while (index2--) { const chunk = chunks[index2]; 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 { index2++; 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 + index2, _bufferIndex: index2 ? 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; } // node_modules/micromark/lib/create-tokenizer.js function createTokenizer(parser, initialize, from) { let point3 = Object.assign( from ? Object.assign({}, from) : { line: 1, column: 1, offset: 0 }, { _index: 0, _bufferIndex: -1 } ); const columnStart = {}; const resolveAllConstructs = []; let chunks = []; let stack = []; let consumed = true; const effects = { consume, enter, exit: exit2, 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); let expectedCode; 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 } = point3; return { line, column, offset, _index, _bufferIndex }; } function defineSkip(value) { columnStart[value.line] = value.column; accountForPotentialSkip(); } function main() { let chunkIndex; while (point3._index < chunks.length) { const chunk = chunks[point3._index]; if (typeof chunk === "string") { chunkIndex = point3._index; if (point3._bufferIndex < 0) { point3._bufferIndex = 0; } while (point3._index === chunkIndex && point3._bufferIndex < chunk.length) { go(chunk.charCodeAt(point3._bufferIndex)); } } else { go(chunk); } } } function go(code2) { consumed = void 0; expectedCode = code2; state = state(code2); } function consume(code2) { if (markdownLineEnding(code2)) { point3.line++; point3.column = 1; point3.offset += code2 === -3 ? 2 : 1; accountForPotentialSkip(); } else if (code2 !== -1) { point3.column++; point3.offset++; } if (point3._bufferIndex < 0) { point3._index++; } else { point3._bufferIndex++; if (point3._bufferIndex === chunks[point3._index].length) { point3._bufferIndex = -1; point3._index++; } } context.previous = code2; consumed = true; } 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 exit2(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(constructs2, returnState, bogusState) { let listOfConstructs; let constructIndex; let currentConstruct; let info; return Array.isArray(constructs2) ? handleListOfConstructs(constructs2) : "tokenize" in constructs2 ? ( // @ts-expect-error Looks like a construct. handleListOfConstructs([constructs2]) ) : handleMapOfConstructs(constructs2); function handleMapOfConstructs(map4) { return start; function start(code2) { const def = code2 !== null && map4[code2]; const all2 = code2 !== null && map4.null; const list4 = [ // To do: add more extension tests. /* c8 ignore next 2 */ ...Array.isArray(def) ? def : def ? [def] : [], ...Array.isArray(all2) ? all2 : all2 ? [all2] : [] ]; return handleListOfConstructs(list4)(code2); } } function handleListOfConstructs(list4) { listOfConstructs = list4; constructIndex = 0; if (list4.length === 0) { return bogusState; } return handleConstruct(list4[constructIndex]); } function handleConstruct(construct) { return start; function start(code2) { info = store(); currentConstruct = construct; if (!construct.partial) { context.currentConstruct = construct; } if (construct.name && context.parser.constructs.disable.null.includes(construct.name)) { return nok(code2); } return construct.tokenize.call( // If we do have fields, create an object w/ `context` as its // prototype. // This allows a “live binding”, which is needed for `interrupt`. fields ? Object.assign(Object.create(context), fields) : context, effects, ok3, nok )(code2); } } function ok3(code2) { consumed = true; onreturn(currentConstruct, info); return returnState; } function nok(code2) { consumed = true; info.restore(); if (++constructIndex < listOfConstructs.length) { return handleConstruct(listOfConstructs[constructIndex]); } return bogusState; } } } function addResult(construct, from2) { if (construct.resolveAll && !resolveAllConstructs.includes(construct)) { resolveAllConstructs.push(construct); } if (construct.resolve) { splice( context.events, from2, context.events.length - from2, construct.resolve(context.events.slice(from2), 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() { point3 = startPoint; context.previous = startPrevious; context.currentConstruct = startCurrentConstruct; context.events.length = startEventsIndex; stack = startStack; accountForPotentialSkip(); } } function accountForPotentialSkip() { if (point3.line in columnStart && point3.column < 2) { point3.column = columnStart[point3.line]; point3.offset += columnStart[point3.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 index2 = -1; const result = []; let atTab; while (++index2 < chunks.length) { const chunk = chunks[index2]; 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 ? " " : " "; break; } case -1: { if (!expandTabs && atTab) continue; value = " "; break; } default: { value = String.fromCharCode(chunk); } } atTab = chunk === -2; result.push(value); } return result.join(""); } // node_modules/micromark/lib/constructs.js var constructs_exports = {}; __export(constructs_exports, { attentionMarkers: () => attentionMarkers, contentInitial: () => contentInitial, disable: () => disable, document: () => document2, flow: () => flow2, flowInitial: () => flowInitial, insideSpan: () => insideSpan, string: () => string2, text: () => text2 }); var document2 = { [42]: list, [43]: list, [45]: list, [48]: list, [49]: list, [50]: list, [51]: list, [52]: list, [53]: list, [54]: list, [55]: list, [56]: list, [57]: list, [62]: blockQuote }; var contentInitial = { [91]: definition }; var flowInitial = { [-2]: codeIndented, [-1]: codeIndented, [32]: codeIndented }; var flow2 = { [35]: headingAtx, [42]: thematicBreak, [45]: [setextUnderline, thematicBreak], [60]: htmlFlow, [61]: setextUnderline, [95]: thematicBreak, [96]: codeFenced, [126]: codeFenced }; var string2 = { [38]: characterReference, [92]: characterEscape }; var text2 = { [-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 }; var insideSpan = { null: [attention, resolver] }; var attentionMarkers = { null: [42, 95] }; var disable = { null: [] }; // node_modules/micromark/lib/parse.js function parse(options) { const settings = options || {}; const constructs2 = ( /** @type {FullNormalizedExtension} */ combineExtensions([constructs_exports, ...settings.extensions || []]) ); const parser = { defined: [], lazy: {}, constructs: constructs2, content: create(content), document: create(document), flow: create(flow), string: create(string), text: create(text) }; return parser; function create(initial) { return creator; function creator(from) { return createTokenizer(parser, initial, from); } } } // node_modules/micromark/lib/postprocess.js function postprocess(events) { while (!subtokenize(events)) { } return events; } // node_modules/micromark/lib/preprocess.js var 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 code2; value = buffer + (typeof value === "string" ? value.toString() : new TextDecoder(encoding || void 0).decode(value)); startPosition = 0; buffer = ""; if (start) { if (value.charCodeAt(0) === 65279) { startPosition++; } start = void 0; } while (startPosition < value.length) { search.lastIndex = startPosition; match = search.exec(value); endPosition = match && match.index !== void 0 ? match.index : value.length; code2 = value.charCodeAt(endPosition); if (!match) { buffer = value.slice(startPosition); break; } if (code2 === 10 && startPosition === endPosition && atCarriageReturn) { chunks.push(-3); atCarriageReturn = void 0; } else { if (atCarriageReturn) { chunks.push(-5); atCarriageReturn = void 0; } if (startPosition < endPosition) { chunks.push(value.slice(startPosition, endPosition)); column += endPosition - startPosition; } switch (code2) { 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; } } // node_modules/micromark-util-decode-string/index.js var 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 head2 = $2.charCodeAt(1); const hex = head2 === 120 || head2 === 88; return decodeNumericCharacterReference($2.slice(hex ? 2 : 1), hex ? 16 : 10); } return decodeNamedCharacterReference($2) || $0; } // node_modules/unist-util-stringify-position/lib/index.js function stringifyPosition(value) { if (!value || typeof value !== "object") { return ""; } if ("position" in value || "type" in value) { return position(value.position); } if ("start" in value || "end" in value) { return position(value); } if ("line" in value || "column" in value) { return point(value); } return ""; } function point(point3) { return index(point3 && point3.line) + ":" + index(point3 && point3.column); } function position(pos) { return point(pos && pos.start) + "-" + point(pos && pos.end); } function index(value) { return value && typeof value === "number" ? value : 1; } // node_modules/mdast-util-from-markdown/lib/index.js var own2 = {}.hasOwnProperty; function fromMarkdown(value, encoding, options) { if (typeof encoding !== "string") { options = encoding; encoding = void 0; } return compiler(options)( postprocess( parse(options).document().write(preprocess()(value, encoding, true)) ) ); } function compiler(options) { const config = { transforms: [], canContainEols: ["emphasis", "fragment", "heading", "paragraph", "strong"], enter: { autolink: opener(link2), autolinkProtocol: onenterdata, autolinkEmail: onenterdata, atxHeading: opener(heading2), blockQuote: opener(blockQuote2), characterEscape: onenterdata, characterReference: onenterdata, codeFenced: opener(codeFlow), codeFencedFenceInfo: buffer, codeFencedFenceMeta: buffer, codeIndented: opener(codeFlow, buffer), codeText: opener(codeText2, buffer), codeTextData: onenterdata, data: onenterdata, codeFlowValue: onenterdata, definition: opener(definition3), definitionDestinationString: buffer, definitionLabelString: buffer, definitionTitleString: buffer, emphasis: opener(emphasis2), hardBreakEscape: opener(hardBreak2), hardBreakTrailing: opener(hardBreak2), htmlFlow: opener(html2, buffer), htmlFlowData: onenterdata, htmlText: opener(html2, buffer), htmlTextData: onenterdata, image: opener(image2), label: buffer, link: opener(link2), listItem: opener(listItem2), listItemValue: onenterlistitemvalue, listOrdered: opener(list4, onenterlistordered), listUnordered: opener(list4), paragraph: opener(paragraph2), reference: onenterreference, referenceString: buffer, resourceDestinationString: buffer, resourceTitleString: buffer, setextHeading: opener(heading2), strong: opener(strong2), thematicBreak: opener(thematicBreak3) }, 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(config, (options || {}).mdastExtensions || []); const data = {}; return compile; function compile(events) { let tree = { type: "root", children: [] }; const context = { stack: [tree], tokenStack: [], config, enter, exit: exit2, buffer, resume, data }; const listStack = []; let index2 = -1; while (++index2 < events.length) { if (events[index2][1].type === "listOrdered" || events[index2][1].type === "listUnordered") { if (events[index2][0] === "enter") { listStack.push(index2); } else { const tail = listStack.pop(); index2 = prepareList(events, tail, index2); } } } index2 = -1; while (++index2 < events.length) { const handler = config[events[index2][0]]; if (own2.call(handler, events[index2][1].type)) { handler[events[index2][1].type].call( Object.assign( { sliceSerialize: events[index2][2].sliceSerialize }, context ), events[index2][1] ); } } if (context.tokenStack.length > 0) { const tail = context.tokenStack[context.tokenStack.length - 1]; const handler = tail[1] || defaultOnError; handler.call(context, void 0, tail[0]); } tree.position = { start: point2( events.length > 0 ? events[0][1].start : { line: 1, column: 1, offset: 0 } ), end: point2( events.length > 0 ? events[events.length - 2][1].end : { line: 1, column: 1, offset: 0 } ) }; index2 = -1; while (++index2 < config.transforms.length) { tree = config.transforms[index2](tree) || tree; } return tree; } function prepareList(events, start, length) { let index2 = start - 1; let containerBalance = -1; let listSpread = false; let listItem3; let lineIndex; let firstBlankLineIndex; let atMarker; while (++index2 <= length) { const event = events[index2]; switch (event[1].type) { case "listUnordered": case "listOrdered": case "blockQuote": { if (event[0] === "enter") { containerBalance++; } else { containerBalance--; } atMarker = void 0; break; } case "lineEndingBlank": { if (event[0] === "enter") { if (listItem3 && !atMarker && !containerBalance && !firstBlankLineIndex) { firstBlankLineIndex = index2; } atMarker = void 0; } break; } case "linePrefix": case "listItemValue": case "listItemMarker": case "listItemPrefix": case "listItemPrefixWhitespace": { break; } default: { atMarker = void 0; } } if (!containerBalance && event[0] === "enter" && event[1].type === "listItemPrefix" || containerBalance === -1 && event[0] === "exit" && (event[1].type === "listUnordered" || event[1].type === "listOrdered")) { if (listItem3) { let tailIndex = index2; lineIndex = void 0; 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)) { listItem3._spread = true; } listItem3.end = Object.assign( {}, lineIndex ? events[lineIndex][1].start : event[1].end ); events.splice(lineIndex || index2, 0, ["exit", listItem3, event[2]]); index2++; length++; } if (event[1].type === "listItemPrefix") { const item = { type: "listItem", _spread: false, start: Object.assign({}, event[1].start), // @ts-expect-error: we’ll add `end` in a second. end: void 0 }; listItem3 = item; events.splice(index2, 0, ["enter", item, event[2]]); index2++; length++; firstBlankLineIndex = void 0; 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(node2, token, errorHandler) { const parent = this.stack[this.stack.length - 1]; const siblings = parent.children; siblings.push(node2); this.stack.push(node2); this.tokenStack.push([token, errorHandler]); node2.position = { start: point2(token.start), // @ts-expect-error: `end` will be patched later. end: void 0 }; } function closer(and) { return close; function close(token) { if (and) and.call(this, token); exit2.call(this, token); } } function exit2(token, onExitError) { const node2 = this.stack.pop(); const open = this.tokenStack.pop(); if (!open) { throw new Error( "Cannot close `" + token.type + "` (" + stringifyPosition({ start: token.start, end: token.end }) + "): it\u2019s 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]); } } node2.position.end = point2(token.end); } function resume() { return toString(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 = void 0; } } function onexitcodefencedfenceinfo() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.lang = data2; } function onexitcodefencedfencemeta() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.meta = data2; } function onexitcodefencedfence() { if (this.data.flowCodeInside) return; this.buffer(); this.data.flowCodeInside = true; } function onexitcodefenced() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.value = data2.replace(/^(\r?\n|\r)|(\r?\n|\r)$/g, ""); this.data.flowCodeInside = void 0; } function onexitcodeindented() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.value = data2.replace(/(\r?\n|\r)$/g, ""); } function onexitdefinitionlabelstring(token) { const label = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.label = label; node2.identifier = normalizeIdentifier( this.sliceSerialize(token) ).toLowerCase(); } function onexitdefinitiontitlestring() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.title = data2; } function onexitdefinitiondestinationstring() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.url = data2; } function onexitatxheadingsequence(token) { const node2 = this.stack[this.stack.length - 1]; if (!node2.depth) { const depth = this.sliceSerialize(token).length; node2.depth = depth; } } function onexitsetextheadingtext() { this.data.setextHeadingSlurpLineEnding = true; } function onexitsetextheadinglinesequence(token) { const node2 = this.stack[this.stack.length - 1]; node2.depth = this.sliceSerialize(token).codePointAt(0) === 61 ? 1 : 2; } function onexitsetextheading() { this.data.setextHeadingSlurpLineEnding = void 0; } function onenterdata(token) { const node2 = this.stack[this.stack.length - 1]; const siblings = node2.children; let tail = siblings[siblings.length - 1]; if (!tail || tail.type !== "text") { tail = text4(); tail.position = { start: point2(token.start), // @ts-expect-error: we’ll add `end` later. end: void 0 }; siblings.push(tail); } this.stack.push(tail); } function onexitdata(token) { const tail = this.stack.pop(); tail.value += this.sliceSerialize(token); tail.position.end = point2(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 = point2(token.end); this.data.atHardBreak = void 0; 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 data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.value = data2; } function onexithtmltext() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.value = data2; } function onexitcodetext() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.value = data2; } function onexitlink() { const node2 = this.stack[this.stack.length - 1]; if (this.data.inReference) { const referenceType = this.data.referenceType || "shortcut"; node2.type += "Reference"; node2.referenceType = referenceType; delete node2.url; delete node2.title; } else { delete node2.identifier; delete node2.label; } this.data.referenceType = void 0; } function onexitimage() { const node2 = this.stack[this.stack.length - 1]; if (this.data.inReference) { const referenceType = this.data.referenceType || "shortcut"; node2.type += "Reference"; node2.referenceType = referenceType; delete node2.url; delete node2.title; } else { delete node2.identifier; delete node2.label; } this.data.referenceType = void 0; } function onexitlabeltext(token) { const string3 = this.sliceSerialize(token); const ancestor = this.stack[this.stack.length - 2]; ancestor.label = decodeString(string3); ancestor.identifier = normalizeIdentifier(string3).toLowerCase(); } function onexitlabel() { const fragment = this.stack[this.stack.length - 1]; const value = this.resume(); const node2 = this.stack[this.stack.length - 1]; this.data.inReference = true; if (node2.type === "link") { const children = fragment.children; node2.children = children; } else { node2.alt = value; } } function onexitresourcedestinationstring() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.url = data2; } function onexitresourcetitlestring() { const data2 = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.title = data2; } function onexitresource() { this.data.inReference = void 0; } function onenterreference() { this.data.referenceType = "collapsed"; } function onexitreferencestring(token) { const label = this.resume(); const node2 = this.stack[this.stack.length - 1]; node2.label = label; node2.identifier = normalizeIdentifier( this.sliceSerialize(token) ).toLowerCase(); this.data.referenceType = "full"; } function onexitcharacterreferencemarker(token) { this.data.characterReferenceType = token.type; } function onexitcharacterreferencevalue(token) { const data2 = this.sliceSerialize(token); const type = this.data.characterReferenceType; let value; if (type) { value = decodeNumericCharacterReference( data2, type === "characterReferenceMarkerNumeric" ? 10 : 16 ); this.data.characterReferenceType = void 0; } else { const result = decodeNamedCharacterReference(data2); value = result; } const tail = this.stack.pop(); tail.value += value; tail.position.end = point2(token.end); } function onexitautolinkprotocol(token) { onexitdata.call(this, token); const node2 = this.stack[this.stack.length - 1]; node2.url = this.sliceSerialize(token); } function onexitautolinkemail(token) { onexitdata.call(this, token); const node2 = this.stack[this.stack.length - 1]; node2.url = "mailto:" + this.sliceSerialize(token); } function blockQuote2() { return { type: "blockquote", children: [] }; } function codeFlow() { return { type: "code", lang: null, meta: null, value: "" }; } function codeText2() { return { type: "inlineCode", value: "" }; } function definition3() { return { type: "definition", identifier: "", label: null, title: null, url: "" }; } function emphasis2() { return { type: "emphasis", children: [] }; } function heading2() { return { type: "heading", // @ts-expect-error `depth` will be set later. depth: 0, children: [] }; } function hardBreak2() { return { type: "break" }; } function html2() { return { type: "html", value: "" }; } function image2() { return { type: "image", title: null, url: "", alt: null }; } function link2() { return { type: "link", title: null, url: "", children: [] }; } function list4(token) { return { type: "list", ordered: token.type === "listOrdered", start: null, spread: token._spread, children: [] }; } function listItem2(token) { return { type: "listItem", spread: token._spread, checked: null, children: [] }; } function paragraph2() { return { type: "paragraph", children: [] }; } function strong2() { return { type: "strong", children: [] }; } function text4() { return { type: "text", value: "" }; } function thematicBreak3() { return { type: "thematicBreak" }; } } function point2(d) { return { line: d.line, column: d.column, offset: d.offset }; } function configure(combined, extensions) { let index2 = -1; while (++index2 < extensions.length) { const value = extensions[index2]; if (Array.isArray(value)) { configure(combined, value); } else { extension(combined, value); } } } function extension(combined, extension2) { let key; for (key in extension2) { if (own2.call(extension2, key)) { switch (key) { case "canContainEols": { const right = extension2[key]; if (right) { combined[key].push(...right); } break; } case "transforms": { const right = extension2[key]; if (right) { combined[key].push(...right); } break; } case "enter": case "exit": { const right = extension2[key]; if (right) { Object.assign(combined[key], right); } break; } } } } } function defaultOnError(left, right) { if (left) { throw new Error( "Cannot close `" + left.type + "` (" + stringifyPosition({ start: left.start, end: left.end }) + "): a different token (`" + right.type + "`, " + stringifyPosition({ start: right.start, end: right.end }) + ") is open" ); } else { throw new Error( "Cannot close document, a token (`" + right.type + "`, " + stringifyPosition({ start: right.start, end: right.end }) + ") is still open" ); } } // node_modules/remark-parse/lib/index.js function remarkParse(options) { const self = this; self.parser = parser; function parser(doc) { return fromMarkdown(doc, { ...self.data("settings"), ...options, // Note: these options are not in the readme. // The goal is for them to be set by plugins on `data` instead of being // passed by users. extensions: self.data("micromarkExtensions") || [], mdastExtensions: self.data("fromMarkdownExtensions") || [] }); } } // node_modules/zwitch/index.js var own3 = {}.hasOwnProperty; function zwitch(key, options) { const settings = options || {}; function one2(value, ...parameters) { let fn = one2.invalid; const handlers = one2.handlers; if (value && own3.call(value, key)) { const id = String(value[key]); fn = own3.call(handlers, id) ? handlers[id] : one2.unknown; } if (fn) { return fn.call(this, value, ...parameters); } } one2.handlers = settings.handlers || {}; one2.invalid = settings.invalid; one2.unknown = settings.unknown; return one2; } // node_modules/mdast-util-to-markdown/lib/configure.js var own4 = {}.hasOwnProperty; function configure2(base, extension2) { let index2 = -1; let key; if (extension2.extensions) { while (++index2 < extension2.extensions.length) { configure2(base, extension2.extensions[index2]); } } for (key in extension2) { if (own4.call(extension2, key)) { switch (key) { case "extensions": { break; } case "unsafe": { list2(base[key], extension2[key]); break; } case "join": { list2(base[key], extension2[key]); break; } case "handlers": { map(base[key], extension2[key]); break; } default: { base.options[key] = extension2[key]; } } } } return base; } function list2(left, right) { if (right) { left.push(...right); } } function map(left, right) { if (right) { Object.assign(left, right); } } // node_modules/mdast-util-to-markdown/lib/handle/blockquote.js function blockquote(node2, _, state, info) { const exit2 = state.enter("blockquote"); const tracker = state.createTracker(info); tracker.move("> "); tracker.shift(2); const value = state.indentLines( state.containerFlow(node2, tracker.current()), map2 ); exit2(); return value; } function map2(line, _, blank) { return ">" + (blank ? "" : " ") + line; } // node_modules/mdast-util-to-markdown/lib/util/pattern-in-scope.js function patternInScope(stack, pattern) { return listInScope(stack, pattern.inConstruct, true) && !listInScope(stack, pattern.notInConstruct, false); } function listInScope(stack, list4, none) { if (typeof list4 === "string") { list4 = [list4]; } if (!list4 || list4.length === 0) { return none; } let index2 = -1; while (++index2 < list4.length) { if (stack.includes(list4[index2])) { return true; } } return false; } // node_modules/mdast-util-to-markdown/lib/handle/break.js function hardBreak(_, _1, state, info) { let index2 = -1; while (++index2 < state.unsafe.length) { if (state.unsafe[index2].character === "\n" && patternInScope(state.stack, state.unsafe[index2])) { return /[ \t]/.test(info.before) ? "" : " "; } } return "\\\n"; } // node_modules/longest-streak/index.js function longestStreak(value, substring) { const source = String(value); let index2 = source.indexOf(substring); let expected = index2; let count = 0; let max = 0; if (typeof substring !== "string") { throw new TypeError("Expected substring"); } while (index2 !== -1) { if (index2 === expected) { if (++count > max) { max = count; } } else { count = 1; } expected = index2 + substring.length; index2 = source.indexOf(substring, expected); } return max; } // node_modules/mdast-util-to-markdown/lib/util/format-code-as-indented.js function formatCodeAsIndented(node2, state) { return Boolean( state.options.fences === false && node2.value && // If there’s no info… !node2.lang && // And there’s a non-whitespace character… /[^ \r\n]/.test(node2.value) && // And the value doesn’t start or end in a blank… !/^[\t ]*(?:[\r\n]|$)|(?:^|[\r\n])[\t ]*$/.test(node2.value) ); } // node_modules/mdast-util-to-markdown/lib/util/check-fence.js function checkFence(state) { const marker = state.options.fence || "`"; if (marker !== "`" && marker !== "~") { throw new Error( "Cannot serialize code with `" + marker + "` for `options.fence`, expected `` ` `` or `~`" ); } return marker; } // node_modules/mdast-util-to-markdown/lib/handle/code.js function code(node2, _, state, info) { const marker = checkFence(state); const raw = node2.value || ""; const suffix = marker === "`" ? "GraveAccent" : "Tilde"; if (formatCodeAsIndented(node2, state)) { const exit3 = state.enter("codeIndented"); const value2 = state.indentLines(raw, map3); exit3(); return value2; } const tracker = state.createTracker(info); const sequence = marker.repeat(Math.max(longestStreak(raw, marker) + 1, 3)); const exit2 = state.enter("codeFenced"); let value = tracker.move(sequence); if (node2.lang) { const subexit = state.enter(`codeFencedLang${suffix}`); value += tracker.move( state.safe(node2.lang, { before: value, after: " ", encode: ["`"], ...tracker.current() }) ); subexit(); } if (node2.lang && node2.meta) { const subexit = state.enter(`codeFencedMeta${suffix}`); value += tracker.move(" "); value += tracker.move( state.safe(node2.meta, { before: value, after: "\n", encode: ["`"], ...tracker.current() }) ); subexit(); } value += tracker.move("\n"); if (raw) { value += tracker.move(raw + "\n"); } value += tracker.move(sequence); exit2(); return value; } function map3(line, _, blank) { return (blank ? "" : " ") + line; } // node_modules/mdast-util-to-markdown/lib/util/check-quote.js function checkQuote(state) { const marker = state.options.quote || '"'; if (marker !== '"' && marker !== "'") { throw new Error( "Cannot serialize title with `" + marker + "` for `options.quote`, expected `\"`, or `'`" ); } return marker; } // node_modules/mdast-util-to-markdown/lib/handle/definition.js function definition2(node2, _, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? "Quote" : "Apostrophe"; const exit2 = state.enter("definition"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("["); value += tracker.move( state.safe(state.associationId(node2), { before: value, after: "]", ...tracker.current() }) ); value += tracker.move("]: "); subexit(); if ( // If there’s no url, or… !node2.url || // If there are control characters or whitespace. /[\0- \u007F]/.test(node2.url) ) { subexit = state.enter("destinationLiteral"); value += tracker.move("<"); value += tracker.move( state.safe(node2.url, { before: value, after: ">", ...tracker.current() }) ); value += tracker.move(">"); } else { subexit = state.enter("destinationRaw"); value += tracker.move( state.safe(node2.url, { before: value, after: node2.title ? " " : "\n", ...tracker.current() }) ); } subexit(); if (node2.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(" " + quote); value += tracker.move( state.safe(node2.title, { before: value, after: quote, ...tracker.current() }) ); value += tracker.move(quote); subexit(); } exit2(); return value; } // node_modules/mdast-util-to-markdown/lib/util/check-emphasis.js 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; } // node_modules/mdast-util-to-markdown/lib/handle/emphasis.js emphasis.peek = emphasisPeek; function emphasis(node2, _, state, info) { const marker = checkEmphasis(state); const exit2 = state.enter("emphasis"); const tracker = state.createTracker(info); let value = tracker.move(marker); value += tracker.move( state.containerPhrasing(node2, { before: value, after: marker, ...tracker.current() }) ); value += tracker.move(marker); exit2(); return value; } function emphasisPeek(_, _1, state) { return state.options.emphasis || "*"; } // node_modules/unist-util-is/lib/index.js var convert = ( // Note: overloads in JSDoc can’t yet use different `@template`s. /** * @type {( * ((test: Condition) => (node: unknown, index?: number | null | undefined, parent?: Parent | null | undefined, context?: unknown) => node is Node & {type: Condition}) & * ((test: Condition) => (node: unknown, index?: number | null | undefined, parent?: Parent | null | undefined, context?: unknown) => node is Node & Condition) & * ((test: Condition) => (node: unknown, index?: number | null | undefined, parent?: Parent | null | undefined, context?: unknown) => node is Node & Predicate) & * ((test?: null | undefined) => (node?: unknown, index?: number | null | undefined, parent?: Parent | null | undefined, context?: unknown) => node is Node) & * ((test?: Test) => Check) * )} */ /** * @param {Test} [test] * @returns {Check} */ function(test) { if (test === null || test === void 0) { return ok; } if (typeof test === "function") { return castFactory(test); } if (typeof test === "object") { return Array.isArray(test) ? anyFactory(test) : propsFactory(test); } if (typeof test === "string") { return typeFactory(test); } throw new Error("Expected function, string, or object as test"); } ); function anyFactory(tests) { const checks = []; let index2 = -1; while (++index2 < tests.length) { checks[index2] = convert(tests[index2]); } return castFactory(any); function any(...parameters) { let index3 = -1; while (++index3 < checks.length) { if (checks[index3].apply(this, parameters)) return true; } return false; } } function propsFactory(check) { const checkAsRecord = ( /** @type {Record} */ check ); return castFactory(all2); function all2(node2) { const nodeAsRecord = ( /** @type {Record} */ /** @type {unknown} */ node2 ); let key; for (key in check) { if (nodeAsRecord[key] !== checkAsRecord[key]) return false; } return true; } } function typeFactory(check) { return castFactory(type); function type(node2) { return node2 && node2.type === check; } } function castFactory(testFunction) { return check; function check(value, index2, parent) { return Boolean( looksLikeANode(value) && testFunction.call( this, value, typeof index2 === "number" ? index2 : void 0, parent || void 0 ) ); } } function ok() { return true; } function looksLikeANode(value) { return value !== null && typeof value === "object" && "type" in value; } // node_modules/unist-util-visit-parents/lib/color.node.js function color(d) { return "\x1B[33m" + d + "\x1B[39m"; } // node_modules/unist-util-visit-parents/lib/index.js var empty = []; var CONTINUE = true; var EXIT = false; var SKIP = "skip"; function visitParents(tree, test, visitor, reverse) { let check; if (typeof test === "function" && typeof visitor !== "function") { reverse = visitor; visitor = test; } else { check = test; } const is2 = convert(check); const step = reverse ? -1 : 1; factory(tree, void 0, [])(); function factory(node2, index2, parents) { const value = ( /** @type {Record} */ node2 && typeof node2 === "object" ? node2 : {} ); if (typeof value.type === "string") { const name = ( // `hast` typeof value.tagName === "string" ? value.tagName : ( // `xast` typeof value.name === "string" ? value.name : void 0 ) ); Object.defineProperty(visit2, "name", { value: "node (" + color(node2.type + (name ? "<" + name + ">" : "")) + ")" }); } return visit2; function visit2() { let result = empty; let subresult; let offset; let grandparents; if (!test || is2(node2, index2, parents[parents.length - 1] || void 0)) { result = toResult(visitor(node2, parents)); if (result[0] === EXIT) { return result; } } if ("children" in node2 && node2.children) { const nodeAsParent = ( /** @type {UnistParent} */ node2 ); if (nodeAsParent.children && result[0] !== SKIP) { 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) { 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 === null || value === void 0 ? empty : [value]; } // node_modules/unist-util-visit/lib/index.js function visit(tree, testOrVisitor, visitorOrReverse, maybeReverse) { let reverse; let test; let visitor; if (typeof testOrVisitor === "function" && typeof visitorOrReverse !== "function") { test = void 0; visitor = testOrVisitor; reverse = visitorOrReverse; } else { test = testOrVisitor; visitor = visitorOrReverse; reverse = maybeReverse; } visitParents(tree, test, overload, reverse); function overload(node2, parents) { const parent = parents[parents.length - 1]; const index2 = parent ? parent.children.indexOf(node2) : void 0; return visitor(node2, index2, parent); } } // node_modules/mdast-util-to-markdown/lib/util/format-heading-as-setext.js function formatHeadingAsSetext(node2, state) { let literalWithBreak = false; visit(node2, function(node3) { if ("value" in node3 && /\r?\n|\r/.test(node3.value) || node3.type === "break") { literalWithBreak = true; return EXIT; } }); return Boolean( (!node2.depth || node2.depth < 3) && toString(node2) && (state.options.setext || literalWithBreak) ); } // node_modules/mdast-util-to-markdown/lib/handle/heading.js function heading(node2, _, state, info) { const rank = Math.max(Math.min(6, node2.depth || 1), 1); const tracker = state.createTracker(info); if (formatHeadingAsSetext(node2, state)) { const exit3 = state.enter("headingSetext"); const subexit2 = state.enter("phrasing"); const value2 = state.containerPhrasing(node2, { ...tracker.current(), before: "\n", after: "\n" }); subexit2(); exit3(); return value2 + "\n" + (rank === 1 ? "=" : "-").repeat( // The whole size… value2.length - // Minus the position of the character after the last EOL (or // 0 if there is none)… (Math.max(value2.lastIndexOf("\r"), value2.lastIndexOf("\n")) + 1) ); } const sequence = "#".repeat(rank); const exit2 = state.enter("headingAtx"); const subexit = state.enter("phrasing"); tracker.move(sequence + " "); let value = state.containerPhrasing(node2, { 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(); exit2(); return value; } // node_modules/mdast-util-to-markdown/lib/handle/html.js html.peek = htmlPeek; function html(node2) { return node2.value || ""; } function htmlPeek() { return "<"; } // node_modules/mdast-util-to-markdown/lib/handle/image.js image.peek = imagePeek; function image(node2, _, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? "Quote" : "Apostrophe"; const exit2 = state.enter("image"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("!["); value += tracker.move( state.safe(node2.alt, { before: value, after: "]", ...tracker.current() }) ); value += tracker.move("]("); subexit(); if ( // If there’s no url but there is a title… !node2.url && node2.title || // If there are control characters or whitespace. /[\0- \u007F]/.test(node2.url) ) { subexit = state.enter("destinationLiteral"); value += tracker.move("<"); value += tracker.move( state.safe(node2.url, { before: value, after: ">", ...tracker.current() }) ); value += tracker.move(">"); } else { subexit = state.enter("destinationRaw"); value += tracker.move( state.safe(node2.url, { before: value, after: node2.title ? " " : ")", ...tracker.current() }) ); } subexit(); if (node2.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(" " + quote); value += tracker.move( state.safe(node2.title, { before: value, after: quote, ...tracker.current() }) ); value += tracker.move(quote); subexit(); } value += tracker.move(")"); exit2(); return value; } function imagePeek() { return "!"; } // node_modules/mdast-util-to-markdown/lib/handle/image-reference.js imageReference.peek = imageReferencePeek; function imageReference(node2, _, state, info) { const type = node2.referenceType; const exit2 = state.enter("imageReference"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("!["); const alt = state.safe(node2.alt, { before: value, after: "]", ...tracker.current() }); value += tracker.move(alt + "]["); subexit(); const stack = state.stack; state.stack = []; subexit = state.enter("reference"); const reference = state.safe(state.associationId(node2), { before: value, after: "]", ...tracker.current() }); subexit(); state.stack = stack; exit2(); if (type === "full" || !alt || alt !== reference) { value += tracker.move(reference + "]"); } else if (type === "shortcut") { value = value.slice(0, -1); } else { value += tracker.move("]"); } return value; } function imageReferencePeek() { return "!"; } // node_modules/mdast-util-to-markdown/lib/handle/inline-code.js inlineCode.peek = inlineCodePeek; function inlineCode(node2, _, state) { let value = node2.value || ""; let sequence = "`"; let index2 = -1; while (new RegExp("(^|[^`])" + sequence + "([^`]|$)").test(value)) { sequence += "`"; } if (/[^ \r\n]/.test(value) && (/^[ \r\n]/.test(value) && /[ \r\n]$/.test(value) || /^`|`$/.test(value))) { value = " " + value + " "; } while (++index2 < state.unsafe.length) { const pattern = state.unsafe[index2]; const expression = state.compilePattern(pattern); let match; if (!pattern.atBreak) continue; while (match = expression.exec(value)) { let position2 = match.index; if (value.charCodeAt(position2) === 10 && value.charCodeAt(position2 - 1) === 13) { position2--; } value = value.slice(0, position2) + " " + value.slice(match.index + 1); } } return sequence + value + sequence; } function inlineCodePeek() { return "`"; } // node_modules/mdast-util-to-markdown/lib/util/format-link-as-autolink.js function formatLinkAsAutolink(node2, state) { const raw = toString(node2); return Boolean( !state.options.resourceLink && // If there’s a url… node2.url && // And there’s a no title… !node2.title && // And the content of `node` is a single text node… node2.children && node2.children.length === 1 && node2.children[0].type === "text" && // And if the url is the same as the content… (raw === node2.url || "mailto:" + raw === node2.url) && // And that starts w/ a protocol… /^[a-z][a-z+.-]+:/i.test(node2.url) && // And that doesn’t contain ASCII control codes (character escapes and // references don’t work), space, or angle brackets… !/[\0- <>\u007F]/.test(node2.url) ); } // node_modules/mdast-util-to-markdown/lib/handle/link.js link.peek = linkPeek; function link(node2, _, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? "Quote" : "Apostrophe"; const tracker = state.createTracker(info); let exit2; let subexit; if (formatLinkAsAutolink(node2, state)) { const stack = state.stack; state.stack = []; exit2 = state.enter("autolink"); let value2 = tracker.move("<"); value2 += tracker.move( state.containerPhrasing(node2, { before: value2, after: ">", ...tracker.current() }) ); value2 += tracker.move(">"); exit2(); state.stack = stack; return value2; } exit2 = state.enter("link"); subexit = state.enter("label"); let value = tracker.move("["); value += tracker.move( state.containerPhrasing(node2, { before: value, after: "](", ...tracker.current() }) ); value += tracker.move("]("); subexit(); if ( // If there’s no url but there is a title… !node2.url && node2.title || // If there are control characters or whitespace. /[\0- \u007F]/.test(node2.url) ) { subexit = state.enter("destinationLiteral"); value += tracker.move("<"); value += tracker.move( state.safe(node2.url, { before: value, after: ">", ...tracker.current() }) ); value += tracker.move(">"); } else { subexit = state.enter("destinationRaw"); value += tracker.move( state.safe(node2.url, { before: value, after: node2.title ? " " : ")", ...tracker.current() }) ); } subexit(); if (node2.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(" " + quote); value += tracker.move( state.safe(node2.title, { before: value, after: quote, ...tracker.current() }) ); value += tracker.move(quote); subexit(); } value += tracker.move(")"); exit2(); return value; } function linkPeek(node2, _, state) { return formatLinkAsAutolink(node2, state) ? "<" : "["; } // node_modules/mdast-util-to-markdown/lib/handle/link-reference.js linkReference.peek = linkReferencePeek; function linkReference(node2, _, state, info) { const type = node2.referenceType; const exit2 = state.enter("linkReference"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("["); const text4 = state.containerPhrasing(node2, { before: value, after: "]", ...tracker.current() }); value += tracker.move(text4 + "]["); subexit(); const stack = state.stack; state.stack = []; subexit = state.enter("reference"); const reference = state.safe(state.associationId(node2), { before: value, after: "]", ...tracker.current() }); subexit(); state.stack = stack; exit2(); if (type === "full" || !text4 || text4 !== reference) { value += tracker.move(reference + "]"); } else if (type === "shortcut") { value = value.slice(0, -1); } else { value += tracker.move("]"); } return value; } function linkReferencePeek() { return "["; } // node_modules/mdast-util-to-markdown/lib/util/check-bullet.js 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; } // node_modules/mdast-util-to-markdown/lib/util/check-bullet-other.js 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; } // node_modules/mdast-util-to-markdown/lib/util/check-bullet-ordered.js 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; } // node_modules/mdast-util-to-markdown/lib/util/check-rule.js 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; } // node_modules/mdast-util-to-markdown/lib/handle/list.js function list3(node2, parent, state, info) { const exit2 = state.enter("list"); const bulletCurrent = state.bulletCurrent; let bullet = node2.ordered ? checkBulletOrdered(state) : checkBullet(state); const bulletOther = node2.ordered ? bullet === "." ? ")" : "." : checkBulletOther(state); let useDifferentMarker = parent && state.bulletLastUsed ? bullet === state.bulletLastUsed : false; if (!node2.ordered) { const firstListItem = node2.children ? node2.children[0] : void 0; if ( // Bullet could be used as a thematic break marker: (bullet === "*" || bullet === "-") && // Empty first list item: firstListItem && (!firstListItem.children || !firstListItem.children[0]) && // Directly in two other list items: 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" && // That are each the first child. 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 index2 = -1; while (++index2 < node2.children.length) { const item = node2.children[index2]; 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(node2, info); state.bulletLastUsed = bullet; state.bulletCurrent = bulletCurrent; exit2(); return value; } // node_modules/mdast-util-to-markdown/lib/util/check-list-item-indent.js 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; } // node_modules/mdast-util-to-markdown/lib/handle/list-item.js function listItem(node2, 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(node2)) + bullet; } let size = bullet.length + 1; if (listItemIndent === "tab" || listItemIndent === "mixed" && (parent && parent.type === "list" && parent.spread || node2.spread)) { size = Math.ceil(size / 4) * 4; } const tracker = state.createTracker(info); tracker.move(bullet + " ".repeat(size - bullet.length)); tracker.shift(size); const exit2 = state.enter("listItem"); const value = state.indentLines( state.containerFlow(node2, tracker.current()), map4 ); exit2(); return value; function map4(line, index2, blank) { if (index2) { return (blank ? "" : " ".repeat(size)) + line; } return (blank ? bullet : bullet + " ".repeat(size - bullet.length)) + line; } } // node_modules/mdast-util-to-markdown/lib/handle/paragraph.js function paragraph(node2, _, state, info) { const exit2 = state.enter("paragraph"); const subexit = state.enter("phrasing"); const value = state.containerPhrasing(node2, info); subexit(); exit2(); return value; } // node_modules/mdast-util-phrasing/lib/index.js var phrasing = ( /** @type {(node?: unknown) => node is PhrasingContent} */ convert([ "break", "delete", "emphasis", "footnote", "footnoteReference", "image", "imageReference", "inlineCode", "link", "linkReference", "strong", "text" ]) ); // node_modules/mdast-util-to-markdown/lib/handle/root.js function root(node2, _, state, info) { const hasPhrasing = node2.children.some(function(d) { return phrasing(d); }); const fn = hasPhrasing ? state.containerPhrasing : state.containerFlow; return fn.call(state, node2, info); } // node_modules/mdast-util-to-markdown/lib/util/check-strong.js 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; } // node_modules/mdast-util-to-markdown/lib/handle/strong.js strong.peek = strongPeek; function strong(node2, _, state, info) { const marker = checkStrong(state); const exit2 = state.enter("strong"); const tracker = state.createTracker(info); let value = tracker.move(marker + marker); value += tracker.move( state.containerPhrasing(node2, { before: value, after: marker, ...tracker.current() }) ); value += tracker.move(marker + marker); exit2(); return value; } function strongPeek(_, _1, state) { return state.options.strong || "*"; } // node_modules/mdast-util-to-markdown/lib/handle/text.js function text3(node2, _, state, info) { return state.safe(node2.value, info); } // node_modules/mdast-util-to-markdown/lib/util/check-rule-repetition.js 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; } // node_modules/mdast-util-to-markdown/lib/handle/thematic-break.js function thematicBreak2(_, _1, state) { const value = (checkRule(state) + (state.options.ruleSpaces ? " " : "")).repeat(checkRuleRepetition(state)); return state.options.ruleSpaces ? value.slice(0, -1) : value; } // node_modules/mdast-util-to-markdown/lib/handle/index.js var handle = { blockquote, break: hardBreak, code, definition: definition2, emphasis, hardBreak, heading, html, image, imageReference, inlineCode, link, linkReference, list: list3, listItem, paragraph, root, strong, text: text3, thematicBreak: thematicBreak2 }; // node_modules/mdast-util-to-markdown/lib/join.js var 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" && // Two paragraphs. (left.type === right.type || right.type === "definition" || // Paragraph followed by a setext heading. right.type === "heading" && formatHeadingAsSetext(right, state))) { return; } return parent.spread ? 1 : 0; } } // node_modules/mdast-util-to-markdown/lib/unsafe.js var fullPhrasingSpans = [ "autolink", "destinationLiteral", "destinationRaw", "reference", "titleQuote", "titleApostrophe" ]; var unsafe = [ { character: " ", after: "[\\r\\n]", inConstruct: "phrasing" }, { character: " ", before: "[\\r\\n]", inConstruct: "phrasing" }, { character: " ", 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"] }, // An exclamation mark can start an image, if it is followed by a link or // a link reference. { character: "!", after: "\\[", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, // A quote can break out of a title. { character: '"', inConstruct: "titleQuote" }, // A number sign could start an ATX heading if it starts a line. { atBreak: true, character: "#" }, { character: "#", inConstruct: "headingAtx", after: "(?:[\r\n]|$)" }, // Dollar sign and percentage are not used in markdown. // An ampersand could start a character reference. { character: "&", after: "[#A-Za-z]", inConstruct: "phrasing" }, // An apostrophe can break out of a title. { character: "'", inConstruct: "titleApostrophe" }, // A left paren could break out of a destination raw. { character: "(", inConstruct: "destinationRaw" }, // A left paren followed by `]` could make something into a link or image. { before: "\\]", character: "(", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, // A right paren could start a list item or break out of a destination // raw. { atBreak: true, before: "\\d+", character: ")" }, { character: ")", inConstruct: "destinationRaw" }, // An asterisk can start thematic breaks, list items, emphasis, strong. { atBreak: true, character: "*", after: "(?:[ \r\n*])" }, { character: "*", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, // A plus sign could start a list item. { atBreak: true, character: "+", after: "(?:[ \r\n])" }, // A dash can start thematic breaks, list items, and setext heading // underlines. { atBreak: true, character: "-", after: "(?:[ \r\n-])" }, // A dot could start a list item. { atBreak: true, before: "\\d+", character: ".", after: "(?:[ \r\n]|$)" }, // Slash, colon, and semicolon are not used in markdown for constructs. // A less than can start html (flow or text) or an autolink. // HTML could start with an exclamation mark (declaration, cdata, comment), // slash (closing tag), question mark (instruction), or a letter (tag). // An autolink also starts with a letter. // Finally, it could break out of a destination literal. { atBreak: true, character: "<", after: "[!/?A-Za-z]" }, { character: "<", after: "[!/?A-Za-z]", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, { character: "<", inConstruct: "destinationLiteral" }, // An equals to can start setext heading underlines. { atBreak: true, character: "=" }, // A greater than can start block quotes and it can break out of a // destination literal. { atBreak: true, character: ">" }, { character: ">", inConstruct: "destinationLiteral" }, // Question mark and at sign are not used in markdown for constructs. // A left bracket can start definitions, references, labels, { atBreak: true, character: "[" }, { character: "[", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, { character: "[", inConstruct: ["label", "reference"] }, // A backslash can start an escape (when followed by punctuation) or a // hard break (when followed by an eol). // Note: typical escapes are handled in `safe`! { character: "\\", after: "[\\r\\n]", inConstruct: "phrasing" }, // A right bracket can exit labels. { character: "]", inConstruct: ["label", "reference"] }, // Caret is not used in markdown for constructs. // An underscore can start emphasis, strong, or a thematic break. { atBreak: true, character: "_" }, { character: "_", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, // A grave accent can start code (fenced or text), or it can break out of // a grave accent code fence. { atBreak: true, character: "`" }, { character: "`", inConstruct: ["codeFencedLangGraveAccent", "codeFencedMetaGraveAccent"] }, { character: "`", inConstruct: "phrasing", notInConstruct: fullPhrasingSpans }, // Left brace, vertical bar, right brace are not used in markdown for // constructs. // A tilde can start code (fenced). { atBreak: true, character: "~" } ]; // node_modules/mdast-util-to-markdown/lib/util/association.js function association(node2) { if (node2.label || !node2.identifier) { return node2.label || ""; } return decodeString(node2.identifier); } // node_modules/mdast-util-to-markdown/lib/util/compile-pattern.js function compilePattern(pattern) { if (!pattern._compiled) { const before = (pattern.atBreak ? "[\\r\\n][\\t ]*" : "") + (pattern.before ? "(?:" + pattern.before + ")" : ""); pattern._compiled = new RegExp( (before ? "(" + before + ")" : "") + (/[|\\{}()[\]^$+*?.-]/.test(pattern.character) ? "\\" : "") + pattern.character + (pattern.after ? "(?:" + pattern.after + ")" : ""), "g" ); } return pattern._compiled; } // node_modules/mdast-util-to-markdown/lib/util/container-phrasing.js function containerPhrasing(parent, state, info) { const indexStack = state.indexStack; const children = parent.children || []; const results = []; let index2 = -1; let before = info.before; indexStack.push(-1); let tracker = state.createTracker(info); while (++index2 < children.length) { const child = children[index2]; let after; indexStack[indexStack.length - 1] = index2; if (index2 + 1 < children.length) { let handle2 = state.handle.handlers[children[index2 + 1].type]; if (handle2 && handle2.peek) handle2 = handle2.peek; after = handle2 ? handle2(children[index2 + 1], parent, state, { before: "", after: "", ...tracker.current() }).charAt(0) : ""; } else { after = info.after; } if (results.length > 0 && (before === "\r" || before === "\n") && child.type === "html") { results[results.length - 1] = results[results.length - 1].replace( /(\r?\n|\r)$/, " " ); 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(""); } // node_modules/mdast-util-to-markdown/lib/util/container-flow.js function containerFlow(parent, state, info) { const indexStack = state.indexStack; const children = parent.children || []; const tracker = state.createTracker(info); const results = []; let index2 = -1; indexStack.push(-1); while (++index2 < children.length) { const child = children[index2]; indexStack[indexStack.length - 1] = index2; results.push( tracker.move( state.handle(child, parent, state, { before: "\n", after: "\n", ...tracker.current() }) ) ); if (child.type !== "list") { state.bulletLastUsed = void 0; } if (index2 < children.length - 1) { results.push( tracker.move(between(child, children[index2 + 1], parent, state)) ); } } indexStack.pop(); return results.join(""); } function between(left, right, parent, state) { let index2 = state.join.length; while (index2--) { const result = state.join[index2](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"; } // node_modules/mdast-util-to-markdown/lib/util/indent-lines.js var eol = /\r?\n|\r/g; function indentLines(value, map4) { const result = []; let start = 0; let line = 0; let match; while (match = eol.exec(value)) { one2(value.slice(start, match.index)); result.push(match[0]); start = match.index + match[0].length; line++; } one2(value.slice(start)); return result.join(""); function one2(value2) { result.push(map4(value2, line, !value2)); } } // node_modules/mdast-util-to-markdown/lib/util/safe.js function safe(state, input, config) { const value = (config.before || "") + (input || "") + (config.after || ""); const positions = []; const result = []; const infos = {}; let index2 = -1; while (++index2 < state.unsafe.length) { const pattern = state.unsafe[index2]; 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 position2 = match.index + (before ? match[1].length : 0); if (positions.includes(position2)) { if (infos[position2].before && !before) { infos[position2].before = false; } if (infos[position2].after && !after) { infos[position2].after = false; } } else { positions.push(position2); infos[position2] = { before, after }; } } } positions.sort(numerical); let start = config.before ? config.before.length : 0; const end = value.length - (config.after ? config.after.length : 0); index2 = -1; while (++index2 < positions.length) { const position2 = positions[index2]; if (position2 < start || position2 >= end) { continue; } if (position2 + 1 < end && positions[index2 + 1] === position2 + 1 && infos[position2].after && !infos[position2 + 1].before && !infos[position2 + 1].after || positions[index2 - 1] === position2 - 1 && infos[position2].before && !infos[position2 - 1].before && !infos[position2 - 1].after) { continue; } if (start !== position2) { result.push(escapeBackslashes(value.slice(start, position2), "\\")); } start = position2; if (/[!-/:-@[-`{-~]/.test(value.charAt(position2)) && (!config.encode || !config.encode.includes(value.charAt(position2)))) { result.push("\\"); } else { result.push( "&#x" + value.charCodeAt(position2).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 index2 = -1; let start = 0; let match; while (match = expression.exec(whole)) { positions.push(match.index); } while (++index2 < positions.length) { if (start !== positions[index2]) { results.push(value.slice(start, positions[index2])); } results.push("\\"); start = positions[index2]; } results.push(value.slice(start)); return results.join(""); } // node_modules/mdast-util-to-markdown/lib/util/track.js 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; } } // node_modules/mdast-util-to-markdown/lib/index.js function toMarkdown(tree, options = {}) { const state = { enter, indentLines, associationId: association, containerPhrasing: containerPhrasingBound, containerFlow: containerFlowBound, createTracker: track, compilePattern, safe: safeBound, stack: [], unsafe: [...unsafe], join: [...join], // @ts-expect-error: GFM / frontmatter are typed in `mdast` but not defined // here. handlers: { ...handle }, options: {}, indexStack: [], // @ts-expect-error: add `handle` in a second. handle: void 0 }; configure2(state, options); if (state.options.tightDefinitions) { state.join.push(joinDefinition); } state.handle = zwitch("type", { invalid, unknown, handlers: state.handlers }); let result = state.handle(tree, void 0, 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 exit2; function exit2() { state.stack.pop(); } } } function invalid(value) { throw new Error("Cannot handle value `" + value + "`, expected node"); } function unknown(value) { const node2 = ( /** @type {Nodes} */ value ); throw new Error("Cannot handle unknown node `" + node2.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); } // node_modules/remark-stringify/lib/index.js function remarkStringify(options) { const self = this; self.compiler = compiler2; function compiler2(tree) { return toMarkdown(tree, { ...self.data("settings"), ...options, // Note: this option is not in the readme. // The goal is for it to be set by plugins on `data` instead of being // passed by users. extensions: self.data("toMarkdownExtensions") || [] }); } } // node_modules/bail/index.js function bail(error) { if (error) { throw error; } } // node_modules/unified/lib/index.js var import_extend = __toESM(require_extend(), 1); // node_modules/devlop/lib/default.js function ok2() { } // node_modules/is-plain-obj/index.js 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); } // node_modules/trough/index.js 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 index2 = -1; if (error) { callback(error); return; } while (++index2 < values.length) { if (output[index2] === null || output[index2] === void 0) { output[index2] = values[index2]; } } 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 = ( /** @type {Error} */ 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); } } // node_modules/vfile-message/lib/index.js var VFileMessage = class extends Error { /** * Create a message for `reason`. * * > 🪦 **Note**: also has obsolete signatures. * * @overload * @param {string} reason * @param {Options | null | undefined} [options] * @returns * * @overload * @param {string} reason * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns * * @overload * @param {string} reason * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns * * @overload * @param {string} reason * @param {string | null | undefined} [origin] * @returns * * @overload * @param {Error | VFileMessage} cause * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns * * @overload * @param {Error | VFileMessage} cause * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns * * @overload * @param {Error | VFileMessage} cause * @param {string | null | undefined} [origin] * @returns * * @param {Error | VFileMessage | string} causeOrReason * Reason for message, should use markdown. * @param {Node | NodeLike | Options | Point | Position | string | null | undefined} [optionsOrParentOrPlace] * Configuration (optional). * @param {string | null | undefined} [origin] * Place in code where the message originates (example: * `'my-package:my-rule'` or `'my-rule'`). * @returns * Instance of `VFileMessage`. */ // eslint-disable-next-line complexity constructor(causeOrReason, optionsOrParentOrPlace, origin) { super(); if (typeof optionsOrParentOrPlace === "string") { origin = optionsOrParentOrPlace; optionsOrParentOrPlace = void 0; } 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 index2 = origin.indexOf(":"); if (index2 === -1) { options.ruleId = origin; } else { options.source = origin.slice(0, index2); options.ruleId = origin.slice(index2 + 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 || void 0; this.cause = options.cause || void 0; this.column = start ? start.column : void 0; this.fatal = void 0; this.file; this.message = reason; this.line = start ? start.line : void 0; this.name = stringifyPosition(options.place) || "1:1"; this.place = options.place || void 0; this.reason = this.message; this.ruleId = options.ruleId || void 0; this.source = options.source || void 0; 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 = void 0; VFileMessage.prototype.line = void 0; VFileMessage.prototype.ancestors = void 0; VFileMessage.prototype.cause = void 0; VFileMessage.prototype.fatal = void 0; VFileMessage.prototype.place = void 0; VFileMessage.prototype.ruleId = void 0; VFileMessage.prototype.source = void 0; // node_modules/vfile/lib/minpath.js var import_node_path = __toESM(require("node:path"), 1); // node_modules/vfile/lib/minproc.js var import_node_process = __toESM(require("node:process"), 1); // node_modules/vfile/lib/minurl.js var import_node_url = require("node:url"); // node_modules/vfile/lib/minurl.shared.js function isUrl(fileUrlOrPath) { return Boolean( fileUrlOrPath !== null && typeof fileUrlOrPath === "object" && "href" in fileUrlOrPath && fileUrlOrPath.href && "protocol" in fileUrlOrPath && fileUrlOrPath.protocol && // @ts-expect-error: indexing is fine. fileUrlOrPath.auth === void 0 ); } // node_modules/vfile/lib/index.js var order = ( /** @type {const} */ [ "history", "path", "basename", "stem", "extname", "dirname" ] ); var VFile = class { /** * Create a new virtual file. * * `options` is treated as: * * * `string` or `Uint8Array` — `{value: options}` * * `URL` — `{path: options}` * * `VFile` — shallow copies its data over to the new file * * `object` — all fields are shallow copied over to the new file * * Path related fields are set in the following order (least specific to * most specific): `history`, `path`, `basename`, `stem`, `extname`, * `dirname`. * * You cannot set `dirname` or `extname` without setting either `history`, * `path`, `basename`, or `stem` too. * * @param {Compatible | null | undefined} [value] * File value. * @returns * New instance. */ constructor(value) { let options; if (!value) { options = {}; } else if (isUrl(value)) { options = { path: value }; } else if (typeof value === "string" || isUint8Array(value)) { options = { value }; } else { options = value; } this.cwd = import_node_process.default.cwd(); this.data = {}; this.history = []; this.messages = []; this.value; this.map; this.result; this.stored; let index2 = -1; while (++index2 < order.length) { const prop2 = order[index2]; if (prop2 in options && options[prop2] !== void 0 && options[prop2] !== null) { this[prop2] = prop2 === "history" ? [...options[prop2]] : options[prop2]; } } let prop; for (prop in options) { if (!order.includes(prop)) { this[prop] = options[prop]; } } } /** * Get the basename (including extname) (example: `'index.min.js'`). * * @returns {string | undefined} * Basename. */ get basename() { return typeof this.path === "string" ? import_node_path.default.basename(this.path) : void 0; } /** * Set basename (including extname) (`'index.min.js'`). * * Cannot contain path separators (`'/'` on unix, macOS, and browsers, `'\'` * on windows). * Cannot be nullified (use `file.path = file.dirname` instead). * * @param {string} basename * Basename. * @returns {undefined} * Nothing. */ set basename(basename) { assertNonEmpty(basename, "basename"); assertPart(basename, "basename"); this.path = import_node_path.default.join(this.dirname || "", basename); } /** * Get the parent path (example: `'~'`). * * @returns {string | undefined} * Dirname. */ get dirname() { return typeof this.path === "string" ? import_node_path.default.dirname(this.path) : void 0; } /** * Set the parent path (example: `'~'`). * * Cannot be set if there’s no `path` yet. * * @param {string | undefined} dirname * Dirname. * @returns {undefined} * Nothing. */ set dirname(dirname) { assertPath(this.basename, "dirname"); this.path = import_node_path.default.join(dirname || "", this.basename); } /** * Get the extname (including dot) (example: `'.js'`). * * @returns {string | undefined} * Extname. */ get extname() { return typeof this.path === "string" ? import_node_path.default.extname(this.path) : void 0; } /** * Set the extname (including dot) (example: `'.js'`). * * Cannot contain path separators (`'/'` on unix, macOS, and browsers, `'\'` * on windows). * Cannot be set if there’s no `path` yet. * * @param {string | undefined} extname * Extname. * @returns {undefined} * Nothing. */ 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 = import_node_path.default.join(this.dirname, this.stem + (extname || "")); } /** * Get the full path (example: `'~/index.min.js'`). * * @returns {string} * Path. */ get path() { return this.history[this.history.length - 1]; } /** * Set the full path (example: `'~/index.min.js'`). * * Cannot be nullified. * You can set a file URL (a `URL` object with a `file:` protocol) which will * be turned into a path with `url.fileURLToPath`. * * @param {URL | string} path * Path. * @returns {undefined} * Nothing. */ set path(path) { if (isUrl(path)) { path = (0, import_node_url.fileURLToPath)(path); } assertNonEmpty(path, "path"); if (this.path !== path) { this.history.push(path); } } /** * Get the stem (basename w/o extname) (example: `'index.min'`). * * @returns {string | undefined} * Stem. */ get stem() { return typeof this.path === "string" ? import_node_path.default.basename(this.path, this.extname) : void 0; } /** * Set the stem (basename w/o extname) (example: `'index.min'`). * * Cannot contain path separators (`'/'` on unix, macOS, and browsers, `'\'` * on windows). * Cannot be nullified (use `file.path = file.dirname` instead). * * @param {string} stem * Stem. * @returns {undefined} * Nothing. */ set stem(stem) { assertNonEmpty(stem, "stem"); assertPart(stem, "stem"); this.path = import_node_path.default.join(this.dirname || "", stem + (this.extname || "")); } // Normal prototypal methods. /** * Create a fatal message for `reason` associated with the file. * * The `fatal` field of the message is set to `true` (error; file not usable) * and the `file` field is set to the current file path. * The message is added to the `messages` field on `file`. * * > 🪦 **Note**: also has obsolete signatures. * * @overload * @param {string} reason * @param {MessageOptions | null | undefined} [options] * @returns {never} * * @overload * @param {string} reason * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns {never} * * @overload * @param {string} reason * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns {never} * * @overload * @param {string} reason * @param {string | null | undefined} [origin] * @returns {never} * * @overload * @param {Error | VFileMessage} cause * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns {never} * * @overload * @param {Error | VFileMessage} cause * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns {never} * * @overload * @param {Error | VFileMessage} cause * @param {string | null | undefined} [origin] * @returns {never} * * @param {Error | VFileMessage | string} causeOrReason * Reason for message, should use markdown. * @param {Node | NodeLike | MessageOptions | Point | Position | string | null | undefined} [optionsOrParentOrPlace] * Configuration (optional). * @param {string | null | undefined} [origin] * Place in code where the message originates (example: * `'my-package:my-rule'` or `'my-rule'`). * @returns {never} * Never. * @throws {VFileMessage} * Message. */ fail(causeOrReason, optionsOrParentOrPlace, origin) { const message = this.message(causeOrReason, optionsOrParentOrPlace, origin); message.fatal = true; throw message; } /** * Create an info message for `reason` associated with the file. * * The `fatal` field of the message is set to `undefined` (info; change * likely not needed) and the `file` field is set to the current file path. * The message is added to the `messages` field on `file`. * * > 🪦 **Note**: also has obsolete signatures. * * @overload * @param {string} reason * @param {MessageOptions | null | undefined} [options] * @returns {VFileMessage} * * @overload * @param {string} reason * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {string} reason * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {string} reason * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {Error | VFileMessage} cause * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {Error | VFileMessage} cause * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {Error | VFileMessage} cause * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @param {Error | VFileMessage | string} causeOrReason * Reason for message, should use markdown. * @param {Node | NodeLike | MessageOptions | Point | Position | string | null | undefined} [optionsOrParentOrPlace] * Configuration (optional). * @param {string | null | undefined} [origin] * Place in code where the message originates (example: * `'my-package:my-rule'` or `'my-rule'`). * @returns {VFileMessage} * Message. */ info(causeOrReason, optionsOrParentOrPlace, origin) { const message = this.message(causeOrReason, optionsOrParentOrPlace, origin); message.fatal = void 0; return message; } /** * Create a message for `reason` associated with the file. * * The `fatal` field of the message is set to `false` (warning; change may be * needed) and the `file` field is set to the current file path. * The message is added to the `messages` field on `file`. * * > 🪦 **Note**: also has obsolete signatures. * * @overload * @param {string} reason * @param {MessageOptions | null | undefined} [options] * @returns {VFileMessage} * * @overload * @param {string} reason * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {string} reason * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {string} reason * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {Error | VFileMessage} cause * @param {Node | NodeLike | null | undefined} parent * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {Error | VFileMessage} cause * @param {Point | Position | null | undefined} place * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @overload * @param {Error | VFileMessage} cause * @param {string | null | undefined} [origin] * @returns {VFileMessage} * * @param {Error | VFileMessage | string} causeOrReason * Reason for message, should use markdown. * @param {Node | NodeLike | MessageOptions | Point | Position | string | null | undefined} [optionsOrParentOrPlace] * Configuration (optional). * @param {string | null | undefined} [origin] * Place in code where the message originates (example: * `'my-package:my-rule'` or `'my-rule'`). * @returns {VFileMessage} * Message. */ message(causeOrReason, optionsOrParentOrPlace, origin) { const message = new VFileMessage( // @ts-expect-error: the overloads are fine. 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; } /** * Serialize the file. * * > **Note**: which encodings are supported depends on the engine. * > For info on Node.js, see: * > . * * @param {string | null | undefined} [encoding='utf8'] * Character encoding to understand `value` as when it’s a `Uint8Array` * (default: `'utf-8'`). * @returns {string} * Serialized file. */ toString(encoding) { if (this.value === void 0) { return ""; } if (typeof this.value === "string") { return this.value; } const decoder = new TextDecoder(encoding || void 0); return decoder.decode(this.value); } }; function assertPart(part, name) { if (part && part.includes(import_node_path.default.sep)) { throw new Error( "`" + name + "` cannot be a path: did not expect `" + import_node_path.default.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(value) { return Boolean( value && typeof value === "object" && "byteLength" in value && "byteOffset" in value ); } // node_modules/unified/lib/callable-instance.js var CallableInstance = ( /** * @type {new , Result>(property: string | symbol) => (...parameters: Parameters) => Result} */ /** @type {unknown} */ /** * @this {Function} * @param {string | symbol} property * @returns {(...parameters: Array) => unknown} */ function(property) { const self = this; const constr = self.constructor; const proto = ( /** @type {Record} */ // Prototypes do exist. // type-coverage:ignore-next-line 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; } ); // node_modules/unified/lib/index.js var own5 = {}.hasOwnProperty; var Processor = class _Processor extends CallableInstance { /** * Create a processor. */ constructor() { super("copy"); this.Compiler = void 0; this.Parser = void 0; this.attachers = []; this.compiler = void 0; this.freezeIndex = -1; this.frozen = void 0; this.namespace = {}; this.parser = void 0; this.transformers = trough(); } /** * Copy a processor. * * @deprecated * This is a private internal method and should not be used. * @returns {Processor} * New *unfrozen* processor ({@link Processor `Processor`}) that is * configured to work the same as its ancestor. * When the descendant processor is configured in the future it does not * affect the ancestral processor. */ copy() { const destination = ( /** @type {Processor} */ new _Processor() ); let index2 = -1; while (++index2 < this.attachers.length) { const attacher = this.attachers[index2]; destination.use(...attacher); } destination.data((0, import_extend.default)(true, {}, this.namespace)); return destination; } /** * Configure the processor with info available to all plugins. * Information is stored in an object. * * Typically, options can be given to a specific plugin, but sometimes it * makes sense to have information shared with several plugins. * For example, a list of HTML elements that are self-closing, which is * needed during all phases. * * > 👉 **Note**: setting information cannot occur on *frozen* processors. * > Call the processor first to create a new unfrozen processor. * * > 👉 **Note**: to register custom data in TypeScript, augment the * > {@link Data `Data`} interface. * * @example * This example show how to get and set info: * * ```js * import {unified} from 'unified' * * const processor = unified().data('alpha', 'bravo') * * processor.data('alpha') // => 'bravo' * * processor.data() // => {alpha: 'bravo'} * * processor.data({charlie: 'delta'}) * * processor.data() // => {charlie: 'delta'} * ``` * * @template {keyof Data} Key * * @overload * @returns {Data} * * @overload * @param {Data} dataset * @returns {Processor} * * @overload * @param {Key} key * @returns {Data[Key]} * * @overload * @param {Key} key * @param {Data[Key]} value * @returns {Processor} * * @param {Data | Key} [key] * Key to get or set, or entire dataset to set, or nothing to get the * entire dataset (optional). * @param {Data[Key]} [value] * Value to set (optional). * @returns {unknown} * The current processor when setting, the value at `key` when getting, or * the entire dataset when getting without key. */ data(key, value) { if (typeof key === "string") { if (arguments.length === 2) { assertUnfrozen("data", this.frozen); this.namespace[key] = value; return this; } return own5.call(this.namespace, key) && this.namespace[key] || void 0; } if (key) { assertUnfrozen("data", this.frozen); this.namespace = key; return this; } return this.namespace; } /** * Freeze a processor. * * Frozen processors are meant to be extended and not to be configured * directly. * * When a processor is frozen it cannot be unfrozen. * New processors working the same way can be created by calling the * processor. * * It’s possible to freeze processors explicitly by calling `.freeze()`. * Processors freeze automatically when `.parse()`, `.run()`, `.runSync()`, * `.stringify()`, `.process()`, or `.processSync()` are called. * * @returns {Processor} * The current processor. */ freeze() { if (this.frozen) { return this; } const self = ( /** @type {Processor} */ /** @type {unknown} */ 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] = void 0; } 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 text to a syntax tree. * * > 👉 **Note**: `parse` freezes the processor if not already *frozen*. * * > 👉 **Note**: `parse` performs the parse phase, not the run phase or other * > phases. * * @param {Compatible | undefined} [file] * file to parse (optional); typically `string` or `VFile`; any value * accepted as `x` in `new VFile(x)`. * @returns {ParseTree extends undefined ? Node : ParseTree} * Syntax tree representing `file`. */ parse(file) { this.freeze(); const realFile = vfile(file); const parser = this.parser || this.Parser; assertParser("parse", parser); return parser(String(realFile), realFile); } /** * Process the given file as configured on the processor. * * > 👉 **Note**: `process` freezes the processor if not already *frozen*. * * > 👉 **Note**: `process` performs the parse, run, and stringify phases. * * @overload * @param {Compatible | undefined} file * @param {ProcessCallback>} done * @returns {undefined} * * @overload * @param {Compatible | undefined} [file] * @returns {Promise>} * * @param {Compatible | undefined} [file] * File (optional); typically `string` or `VFile`]; any value accepted as * `x` in `new VFile(x)`. * @param {ProcessCallback> | undefined} [done] * Callback (optional). * @returns {Promise | undefined} * Nothing if `done` is given. * Otherwise a promise, rejected with a fatal error or resolved with the * processed file. * * The parsed, transformed, and compiled value is available at * `file.value` (see note). * * > 👉 **Note**: unified typically compiles by serializing: most * > compilers return `string` (or `Uint8Array`). * > Some compilers, such as the one configured with * > [`rehype-react`][rehype-react], return other values (in this case, a * > React tree). * > If you’re using a compiler that doesn’t serialize, expect different * > result values. * > * > To register custom results in TypeScript, add them to * > {@link CompileResultMap `CompileResultMap`}. * * [rehype-react]: https://github.com/rehypejs/rehype-react */ process(file, done) { const self = this; this.freeze(); assertParser("process", this.parser || this.Parser); assertCompiler("process", this.compiler || this.Compiler); return done ? executor(void 0, done) : new Promise(executor); function executor(resolve, reject) { const realFile = vfile(file); const parseTree = ( /** @type {HeadTree extends undefined ? Node : HeadTree} */ /** @type {unknown} */ self.parse(realFile) ); self.run(parseTree, realFile, function(error, tree, file2) { if (error || !tree || !file2) { return realDone(error); } const compileTree = ( /** @type {CompileTree extends undefined ? Node : CompileTree} */ /** @type {unknown} */ tree ); const compileResult = self.stringify(compileTree, file2); if (looksLikeAValue(compileResult)) { file2.value = compileResult; } else { file2.result = compileResult; } realDone( error, /** @type {VFileWithOutput} */ file2 ); }); function realDone(error, file2) { if (error || !file2) { reject(error); } else if (resolve) { resolve(file2); } else { ok2(done, "`done` is defined if `resolve` is not"); done(void 0, file2); } } } } /** * Process the given file as configured on the processor. * * An error is thrown if asynchronous transforms are configured. * * > 👉 **Note**: `processSync` freezes the processor if not already *frozen*. * * > 👉 **Note**: `processSync` performs the parse, run, and stringify phases. * * @param {Compatible | undefined} [file] * File (optional); typically `string` or `VFile`; any value accepted as * `x` in `new VFile(x)`. * @returns {VFileWithOutput} * The processed file. * * The parsed, transformed, and compiled value is available at * `file.value` (see note). * * > 👉 **Note**: unified typically compiles by serializing: most * > compilers return `string` (or `Uint8Array`). * > Some compilers, such as the one configured with * > [`rehype-react`][rehype-react], return other values (in this case, a * > React tree). * > If you’re using a compiler that doesn’t serialize, expect different * > result values. * > * > To register custom results in TypeScript, add them to * > {@link CompileResultMap `CompileResultMap`}. * * [rehype-react]: https://github.com/rehypejs/rehype-react */ 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); ok2(result, "we either bailed on an error or have a tree"); return result; function realDone(error, file2) { complete = true; bail(error); result = file2; } } /** * Run *transformers* on a syntax tree. * * > 👉 **Note**: `run` freezes the processor if not already *frozen*. * * > 👉 **Note**: `run` performs the run phase, not other phases. * * @overload * @param {HeadTree extends undefined ? Node : HeadTree} tree * @param {RunCallback} done * @returns {undefined} * * @overload * @param {HeadTree extends undefined ? Node : HeadTree} tree * @param {Compatible | undefined} file * @param {RunCallback} done * @returns {undefined} * * @overload * @param {HeadTree extends undefined ? Node : HeadTree} tree * @param {Compatible | undefined} [file] * @returns {Promise} * * @param {HeadTree extends undefined ? Node : HeadTree} tree * Tree to transform and inspect. * @param {( * RunCallback | * Compatible * )} [file] * File associated with `node` (optional); any value accepted as `x` in * `new VFile(x)`. * @param {RunCallback} [done] * Callback (optional). * @returns {Promise | undefined} * Nothing if `done` is given. * Otherwise, a promise rejected with a fatal error or resolved with the * transformed tree. */ run(tree, file, done) { assertNode(tree); this.freeze(); const transformers = this.transformers; if (!done && typeof file === "function") { done = file; file = void 0; } return done ? executor(void 0, done) : new Promise(executor); function executor(resolve, reject) { ok2( typeof file !== "function", "`file` can\u2019t be a `done` anymore, we checked" ); const realFile = vfile(file); transformers.run(tree, realFile, realDone); function realDone(error, outputTree, file2) { const resultingTree = ( /** @type {TailTree extends undefined ? Node : TailTree} */ outputTree || tree ); if (error) { reject(error); } else if (resolve) { resolve(resultingTree); } else { ok2(done, "`done` is defined if `resolve` is not"); done(void 0, resultingTree, file2); } } } } /** * Run *transformers* on a syntax tree. * * An error is thrown if asynchronous transforms are configured. * * > 👉 **Note**: `runSync` freezes the processor if not already *frozen*. * * > 👉 **Note**: `runSync` performs the run phase, not other phases. * * @param {HeadTree extends undefined ? Node : HeadTree} tree * Tree to transform and inspect. * @param {Compatible | undefined} [file] * File associated with `node` (optional); any value accepted as `x` in * `new VFile(x)`. * @returns {TailTree extends undefined ? Node : TailTree} * Transformed tree. */ runSync(tree, file) { let complete = false; let result; this.run(tree, file, realDone); assertDone("runSync", "run", complete); ok2(result, "we either bailed on an error or have a tree"); return result; function realDone(error, tree2) { bail(error); result = tree2; complete = true; } } /** * Compile a syntax tree. * * > 👉 **Note**: `stringify` freezes the processor if not already *frozen*. * * > 👉 **Note**: `stringify` performs the stringify phase, not the run phase * > or other phases. * * @param {CompileTree extends undefined ? Node : CompileTree} tree * Tree to compile. * @param {Compatible | undefined} [file] * File associated with `node` (optional); any value accepted as `x` in * `new VFile(x)`. * @returns {CompileResult extends undefined ? Value : CompileResult} * Textual representation of the tree (see note). * * > 👉 **Note**: unified typically compiles by serializing: most compilers * > return `string` (or `Uint8Array`). * > Some compilers, such as the one configured with * > [`rehype-react`][rehype-react], return other values (in this case, a * > React tree). * > If you’re using a compiler that doesn’t serialize, expect different * > result values. * > * > To register custom results in TypeScript, add them to * > {@link CompileResultMap `CompileResultMap`}. * * [rehype-react]: https://github.com/rehypejs/rehype-react */ stringify(tree, file) { this.freeze(); const realFile = vfile(file); const compiler2 = this.compiler || this.Compiler; assertCompiler("stringify", compiler2); assertNode(tree); return compiler2(tree, realFile); } /** * Configure the processor to use a plugin, a list of usable values, or a * preset. * * If the processor is already using a plugin, the previous plugin * configuration is changed based on the options that are passed in. * In other words, the plugin is not added a second time. * * > 👉 **Note**: `use` cannot be called on *frozen* processors. * > Call the processor first to create a new unfrozen processor. * * @example * There are many ways to pass plugins to `.use()`. * This example gives an overview: * * ```js * import {unified} from 'unified' * * unified() * // Plugin with options: * .use(pluginA, {x: true, y: true}) * // Passing the same plugin again merges configuration (to `{x: true, y: false, z: true}`): * .use(pluginA, {y: false, z: true}) * // Plugins: * .use([pluginB, pluginC]) * // Two plugins, the second with options: * .use([pluginD, [pluginE, {}]]) * // Preset with plugins and settings: * .use({plugins: [pluginF, [pluginG, {}]], settings: {position: false}}) * // Settings only: * .use({settings: {position: false}}) * ``` * * @template {Array} [Parameters=[]] * @template {Node | string | undefined} [Input=undefined] * @template [Output=Input] * * @overload * @param {Preset | null | undefined} [preset] * @returns {Processor} * * @overload * @param {PluggableList} list * @returns {Processor} * * @overload * @param {Plugin} plugin * @param {...(Parameters | [boolean])} parameters * @returns {UsePlugin} * * @param {PluggableList | Plugin | Preset | null | undefined} value * Usable value. * @param {...unknown} parameters * Parameters, when a plugin is given as a usable value. * @returns {Processor} * Current processor. */ use(value, ...parameters) { const attachers = this.attachers; const namespace = this.namespace; assertUnfrozen("use", this.frozen); if (value === null || value === void 0) { } 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(value2) { if (typeof value2 === "function") { addPlugin(value2, []); } else if (typeof value2 === "object") { if (Array.isArray(value2)) { const [plugin, ...parameters2] = ( /** @type {PluginTuple>} */ value2 ); addPlugin(plugin, parameters2); } else { addPreset(value2); } } else { throw new TypeError("Expected usable value, not `" + value2 + "`"); } } 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 = (0, import_extend.default)(true, namespace.settings, result.settings); } } function addList(plugins) { let index2 = -1; if (plugins === null || plugins === void 0) { } else if (Array.isArray(plugins)) { while (++index2 < plugins.length) { const thing = plugins[index2]; add(thing); } } else { throw new TypeError("Expected a list of plugins, not `" + plugins + "`"); } } function addPlugin(plugin, parameters2) { let index2 = -1; let entryIndex = -1; while (++index2 < attachers.length) { if (attachers[index2][0] === plugin) { entryIndex = index2; break; } } if (entryIndex === -1) { attachers.push([plugin, ...parameters2]); } else if (parameters2.length > 0) { let [primary, ...rest] = parameters2; const currentPrimary = attachers[entryIndex][1]; if (isPlainObject(currentPrimary) && isPlainObject(primary)) { primary = (0, import_extend.default)(true, currentPrimary, primary); } attachers[entryIndex] = [plugin, primary, ...rest]; } } } }; var 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(node2) { if (!isPlainObject(node2) || typeof node2.type !== "string") { throw new TypeError("Expected node, got `" + node2 + "`"); } } function assertDone(name, asyncName, complete) { if (!complete) { throw new Error( "`" + name + "` finished async. Use `" + asyncName + "` instead" ); } } function vfile(value) { return looksLikeAVFile(value) ? value : new VFile(value); } function looksLikeAVFile(value) { return Boolean( value && typeof value === "object" && "message" in value && "messages" in value ); } function looksLikeAValue(value) { return typeof value === "string" || isUint8Array2(value); } function isUint8Array2(value) { return Boolean( value && typeof value === "object" && "byteLength" in value && "byteOffset" in value ); } // node_modules/remark/index.js var remark1501 = unified().use(remarkParse).use(remarkStringify).freeze(); // Annotate the CommonJS export names for ESM import in node: 0 && (module.exports = { remark: remark1501 });