(() => { var __create = Object.create; var __defProp = Object.defineProperty; var __defProps = Object.defineProperties; var __getOwnPropDesc = Object.getOwnPropertyDescriptor; var __getOwnPropDescs = Object.getOwnPropertyDescriptors; var __getOwnPropNames = Object.getOwnPropertyNames; var __getOwnPropSymbols = Object.getOwnPropertySymbols; var __getProtoOf = Object.getPrototypeOf; var __hasOwnProp = Object.prototype.hasOwnProperty; var __propIsEnum = Object.prototype.propertyIsEnumerable; var __typeError = (msg) => { throw TypeError(msg); }; var __defNormalProp = (obj, key, value) => key in obj ? __defProp(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value; var __spreadValues = (a2, b4) => { for (var prop in b4 || (b4 = {})) if (__hasOwnProp.call(b4, prop)) __defNormalProp(a2, prop, b4[prop]); if (__getOwnPropSymbols) for (var prop of __getOwnPropSymbols(b4)) { if (__propIsEnum.call(b4, prop)) __defNormalProp(a2, prop, b4[prop]); } return a2; }; var __spreadProps = (a2, b4) => __defProps(a2, __getOwnPropDescs(b4)); var __objRest = (source, exclude) => { var target = {}; for (var prop in source) if (__hasOwnProp.call(source, prop) && exclude.indexOf(prop) < 0) target[prop] = source[prop]; if (source != null && __getOwnPropSymbols) for (var prop of __getOwnPropSymbols(source)) { if (exclude.indexOf(prop) < 0 && __propIsEnum.call(source, prop)) target[prop] = source[prop]; } return target; }; 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 __accessCheck = (obj, member, msg) => member.has(obj) || __typeError("Cannot " + msg); var __privateGet = (obj, member, getter) => (__accessCheck(obj, member, "read from private field"), getter ? getter.call(obj) : member.get(obj)); var __privateAdd = (obj, member, value) => member.has(obj) ? __typeError("Cannot add the same private member more than once") : member instanceof WeakSet ? member.add(obj) : member.set(obj, value); var __privateSet = (obj, member, value, setter) => (__accessCheck(obj, member, "write to private field"), setter ? setter.call(obj, value) : member.set(obj, value), value); // node_modules/extend/index.js var require_extend = __commonJS({ "node_modules/extend/index.js"(exports, module) { "use strict"; var hasOwn = Object.prototype.hasOwnProperty; var toStr = Object.prototype.toString; var defineProperty = Object.defineProperty; var gOPD = Object.getOwnPropertyDescriptor; var isArray2 = function isArray3(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 setProperty2 = function setProperty3(target, options2) { if (defineProperty && options2.name === "__proto__") { defineProperty(target, options2.name, { enumerable: true, configurable: true, value: options2.newValue, writable: true }); } else { target[options2.name] = options2.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]; }; module.exports = function extend2() { var options2, name, src, copy2, copyIsArray, clone; var target = arguments[0]; var i2 = 1; var length = arguments.length; var deep = false; if (typeof target === "boolean") { deep = target; target = arguments[1] || {}; i2 = 2; } if (target == null || typeof target !== "object" && typeof target !== "function") { target = {}; } for (; i2 < length; ++i2) { options2 = arguments[i2]; if (options2 != null) { for (name in options2) { src = getProperty(target, name); copy2 = getProperty(options2, name); if (target !== copy2) { if (deep && copy2 && (isPlainObject2(copy2) || (copyIsArray = isArray2(copy2)))) { if (copyIsArray) { copyIsArray = false; clone = src && isArray2(src) ? src : []; } else { clone = src && isPlainObject2(src) ? src : {}; } setProperty2(target, { name, newValue: extend2(deep, clone, copy2) }); } else if (typeof copy2 !== "undefined") { setProperty2(target, { name, newValue: copy2 }); } } } } } return target; }; } }); // node_modules/lodash.debounce/index.js var require_lodash = __commonJS({ "node_modules/lodash.debounce/index.js"(exports, module) { var FUNC_ERROR_TEXT = "Expected a function"; var NAN = 0 / 0; var symbolTag = "[object Symbol]"; var reTrim = /^\s+|\s+$/g; var reIsBadHex = /^[-+]0x[0-9a-f]+$/i; var reIsBinary = /^0b[01]+$/i; var reIsOctal = /^0o[0-7]+$/i; var freeParseInt = parseInt; var freeGlobal = typeof global == "object" && global && global.Object === Object && global; var freeSelf = typeof self == "object" && self && self.Object === Object && self; var root2 = freeGlobal || freeSelf || Function("return this")(); var objectProto = Object.prototype; var objectToString = objectProto.toString; var nativeMax = Math.max; var nativeMin = Math.min; var now = function() { return root2.Date.now(); }; function debounce(func, wait, options2) { var lastArgs, lastThis, maxWait, result, timerId, lastCallTime, lastInvokeTime = 0, leading = false, maxing = false, trailing = true; if (typeof func != "function") { throw new TypeError(FUNC_ERROR_TEXT); } wait = toNumber(wait) || 0; if (isObject2(options2)) { leading = !!options2.leading; maxing = "maxWait" in options2; maxWait = maxing ? nativeMax(toNumber(options2.maxWait) || 0, wait) : maxWait; trailing = "trailing" in options2 ? !!options2.trailing : trailing; } function invokeFunc(time) { var args = lastArgs, thisArg = lastThis; lastArgs = lastThis = void 0; lastInvokeTime = time; result = func.apply(thisArg, args); return result; } function leadingEdge(time) { lastInvokeTime = time; timerId = setTimeout(timerExpired, wait); return leading ? invokeFunc(time) : result; } function remainingWait(time) { var timeSinceLastCall = time - lastCallTime, timeSinceLastInvoke = time - lastInvokeTime, result2 = wait - timeSinceLastCall; return maxing ? nativeMin(result2, maxWait - timeSinceLastInvoke) : result2; } function shouldInvoke(time) { var timeSinceLastCall = time - lastCallTime, timeSinceLastInvoke = time - lastInvokeTime; return lastCallTime === void 0 || timeSinceLastCall >= wait || timeSinceLastCall < 0 || maxing && timeSinceLastInvoke >= maxWait; } function timerExpired() { var time = now(); if (shouldInvoke(time)) { return trailingEdge(time); } timerId = setTimeout(timerExpired, remainingWait(time)); } function trailingEdge(time) { timerId = void 0; if (trailing && lastArgs) { return invokeFunc(time); } lastArgs = lastThis = void 0; return result; } function cancel() { if (timerId !== void 0) { clearTimeout(timerId); } lastInvokeTime = 0; lastArgs = lastCallTime = lastThis = timerId = void 0; } function flush() { return timerId === void 0 ? result : trailingEdge(now()); } function debounced() { var time = now(), isInvoking = shouldInvoke(time); lastArgs = arguments; lastThis = this; lastCallTime = time; if (isInvoking) { if (timerId === void 0) { return leadingEdge(lastCallTime); } if (maxing) { timerId = setTimeout(timerExpired, wait); return invokeFunc(lastCallTime); } } if (timerId === void 0) { timerId = setTimeout(timerExpired, wait); } return result; } debounced.cancel = cancel; debounced.flush = flush; return debounced; } function isObject2(value) { var type = typeof value; return !!value && (type == "object" || type == "function"); } function isObjectLike(value) { return !!value && typeof value == "object"; } function isSymbol(value) { return typeof value == "symbol" || isObjectLike(value) && objectToString.call(value) == symbolTag; } function toNumber(value) { if (typeof value == "number") { return value; } if (isSymbol(value)) { return NAN; } if (isObject2(value)) { var other = typeof value.valueOf == "function" ? value.valueOf() : value; value = isObject2(other) ? other + "" : other; } if (typeof value != "string") { return value === 0 ? value : +value; } value = value.replace(reTrim, ""); var isBinary = reIsBinary.test(value); return isBinary || reIsOctal.test(value) ? freeParseInt(value.slice(2), isBinary ? 2 : 8) : reIsBadHex.test(value) ? NAN : +value; } module.exports = debounce; } }); // node_modules/@milkdown/exception/lib/index.es.js var n = /* @__PURE__ */ ((e2) => (e2.docTypeError = "docTypeError", e2.contextNotFound = "contextNotFound", e2.timerNotFound = "timerNotFound", e2.ctxCallOutOfScope = "ctxCallOutOfScope", e2.createNodeInParserFail = "createNodeInParserFail", e2.stackOverFlow = "stackOverFlow", e2.parserMatchError = "parserMatchError", e2.serializerMatchError = "serializerMatchError", e2.getAtomFromSchemaFail = "getAtomFromSchemaFail", e2.expectDomTypeError = "expectDomTypeError", e2.callCommandBeforeEditorView = "callCommandBeforeEditorView", e2.missingRootElement = "missingRootElement", e2.missingNodeInSchema = "missingNodeInSchema", e2.missingMarkInSchema = "missingMarkInSchema", e2.ctxNotBind = "ctxNotBind", e2.missingYjsDoc = "missingYjsDoc", e2))(n || {}); var t = class extends Error { constructor(o2, a2) { super(a2), this.name = "MilkdownError", this.code = o2; } }; var u = (e2, o2) => typeof o2 == "function" ? "[Function]" : o2; var i = (e2) => JSON.stringify(e2, u); function l(e2) { return new t(n.docTypeError, `Doc type error, unsupported type: ${i(e2)}`); } function d(e2) { return new t(n.contextNotFound, `Context "${e2}" not found, do you forget to inject it?`); } function f(e2) { return new t(n.timerNotFound, `Timer "${e2}" not found, do you forget to record it?`); } function p() { return new t(n.ctxCallOutOfScope, "Should not call a context out of the plugin."); } function g(...e2) { const o2 = e2.reduce((a2, c6) => { if (!c6) return a2; const s2 = (r3) => Array.isArray(r3) ? r3.map((m3) => s2(m3)).join(", ") : r3.toJSON ? i(r3.toJSON()) : r3.spec ? i(r3.spec) : r3.toString(); return `${a2}, ${s2(c6)}`; }, "Create prosemirror node from remark failed in parser"); return new t(n.createNodeInParserFail, o2); } function h() { return new t(n.stackOverFlow, "Stack over flow, cannot pop on an empty stack."); } function w(e2) { return new t(n.parserMatchError, `Cannot match target parser for node: ${i(e2)}.`); } function F(e2) { return new t(n.serializerMatchError, `Cannot match target serializer for node: ${i(e2)}.`); } function S(e2) { return new t(n.expectDomTypeError, `Expect to be a dom, but get: ${i(e2)}.`); } function y() { return new t( n.callCommandBeforeEditorView, "You're trying to call a command before editor view initialized, make sure to get commandManager from ctx after editor view has been initialized" ); } function M(e2) { return new t( n.missingNodeInSchema, `Missing node in schema, milkdown cannot find "${e2}" in schema.` ); } function x(e2) { return new t( n.missingMarkInSchema, `Missing mark in schema, milkdown cannot find "${e2}" in schema.` ); } // node_modules/@milkdown/ctx/lib/index.es.js var P = (o2, s2, i2) => { if (!s2.has(o2)) throw TypeError("Cannot " + i2); }; var e = (o2, s2, i2) => (P(o2, s2, "read from private field"), i2 ? i2.call(o2) : s2.get(o2)); var a = (o2, s2, i2) => { if (s2.has(o2)) throw TypeError("Cannot add the same private member more than once"); s2 instanceof WeakSet ? s2.add(o2) : s2.set(o2, i2); }; var n2 = (o2, s2, i2, r3) => (P(o2, s2, "write to private field"), r3 ? r3.call(o2, i2) : s2.set(o2, i2), i2); var G = class { constructor() { this.sliceMap = /* @__PURE__ */ new Map(), this.get = (s2) => { const i2 = typeof s2 == "string" ? [...this.sliceMap.values()].find((r3) => r3.type.name === s2) : this.sliceMap.get(s2.id); if (!i2) { const r3 = typeof s2 == "string" ? s2 : s2.name; throw d(r3); } return i2; }, this.remove = (s2) => { const i2 = typeof s2 == "string" ? [...this.sliceMap.values()].find((r3) => r3.type.name === s2) : this.sliceMap.get(s2.id); i2 && this.sliceMap.delete(i2.type.id); }, this.has = (s2) => typeof s2 == "string" ? [...this.sliceMap.values()].some((i2) => i2.type.name === s2) : this.sliceMap.has(s2.id); } }; var u2; var m; var y2; var V = class { /// @internal constructor(s2, i2, r3) { a(this, u2, void 0); a(this, m, void 0); a(this, y2, void 0); n2(this, u2, []), n2(this, y2, () => { e(this, u2).forEach((t2) => t2(e(this, m))); }), this.set = (t2) => { n2(this, m, t2), e(this, y2).call(this); }, this.get = () => e(this, m), this.update = (t2) => { n2(this, m, t2(e(this, m))), e(this, y2).call(this); }, this.type = r3, n2(this, m, i2), s2.set(r3.id, this); } /// Add a watcher for changes in the slice. /// Returns a function to remove the watcher. on(s2) { return e(this, u2).push(s2), () => { n2(this, u2, e(this, u2).filter((i2) => i2 !== s2)); }; } /// Add a one-time watcher for changes in the slice. /// The watcher will be removed after it is called. /// Returns a function to remove the watcher. once(s2) { const i2 = this.on((r3) => { s2(r3), i2(); }); return i2; } /// Remove a watcher. off(s2) { n2(this, u2, e(this, u2).filter((i2) => i2 !== s2)); } /// Remove all watchers. offAll() { n2(this, u2, []); } }; u2 = /* @__PURE__ */ new WeakMap(), m = /* @__PURE__ */ new WeakMap(), y2 = /* @__PURE__ */ new WeakMap(); var W = class { /// Create a slice type with a default value and a name. /// The name should be unique in the container. constructor(s2, i2) { this.id = Symbol(`Context-${i2}`), this.name = i2, this._defaultValue = s2, this._typeInfo = () => { throw p(); }; } /// Create a slice with a container. /// You can also pass a value to override the default value. create(s2, i2 = this._defaultValue) { return new V(s2, i2, this); } }; var H = (o2, s2) => new W(o2, s2); var D; var x2; var R; var w2; var S2; var f2; var M2; var T; var j; var _ = class { /// Create an inspector with container, clock and metadata. constructor(s2, i2, r3) { a(this, D, void 0); a(this, x2, void 0); a(this, R, void 0); a(this, w2, void 0); a(this, S2, void 0); a(this, f2, void 0); a(this, M2, void 0); a(this, T, void 0); a(this, j, void 0); n2(this, w2, /* @__PURE__ */ new Set()), n2(this, S2, /* @__PURE__ */ new Set()), n2(this, f2, /* @__PURE__ */ new Map()), n2(this, M2, /* @__PURE__ */ new Map()), this.read = () => ({ metadata: e(this, D), injectedSlices: [...e(this, w2)].map((t2) => ({ name: typeof t2 == "string" ? t2 : t2.name, value: e(this, T).call(this, t2) })), consumedSlices: [...e(this, S2)].map((t2) => ({ name: typeof t2 == "string" ? t2 : t2.name, value: e(this, T).call(this, t2) })), recordedTimers: [...e(this, f2)].map(([t2, { duration: h5 }]) => ({ name: t2.name, duration: h5, status: e(this, j).call(this, t2) })), waitTimers: [...e(this, M2)].map(([t2, { duration: h5 }]) => ({ name: t2.name, duration: h5, status: e(this, j).call(this, t2) })) }), this.onRecord = (t2) => { e(this, f2).set(t2, { start: Date.now(), duration: 0 }); }, this.onClear = (t2) => { e(this, f2).delete(t2); }, this.onDone = (t2) => { const h5 = e(this, f2).get(t2); h5 && (h5.duration = Date.now() - h5.start); }, this.onWait = (t2, h5) => { const v4 = Date.now(); h5.finally(() => { e(this, M2).set(t2, { duration: Date.now() - v4 }); }); }, this.onInject = (t2) => { e(this, w2).add(t2); }, this.onRemove = (t2) => { e(this, w2).delete(t2); }, this.onUse = (t2) => { e(this, S2).add(t2); }, n2(this, T, (t2) => e(this, x2).get(t2).get()), n2(this, j, (t2) => e(this, R).get(t2).status), n2(this, x2, s2), n2(this, R, i2), n2(this, D, r3); } }; D = /* @__PURE__ */ new WeakMap(), x2 = /* @__PURE__ */ new WeakMap(), R = /* @__PURE__ */ new WeakMap(), w2 = /* @__PURE__ */ new WeakMap(), S2 = /* @__PURE__ */ new WeakMap(), f2 = /* @__PURE__ */ new WeakMap(), M2 = /* @__PURE__ */ new WeakMap(), T = /* @__PURE__ */ new WeakMap(), j = /* @__PURE__ */ new WeakMap(); var d2; var l2; var b; var c; var L = class L2 { /// Create a ctx object with container and clock. constructor(s2, i2, r3) { a(this, d2, void 0); a(this, l2, void 0); a(this, b, void 0); a(this, c, void 0); this.produce = (t2) => t2 && Object.keys(t2).length ? new L2(e(this, d2), e(this, l2), __spreadValues({}, t2)) : this, this.inject = (t2, h5) => { var O4; const v4 = t2.create(e(this, d2).sliceMap); return h5 != null && v4.set(h5), (O4 = e(this, c)) == null || O4.onInject(t2), this; }, this.remove = (t2) => { var h5; return e(this, d2).remove(t2), (h5 = e(this, c)) == null || h5.onRemove(t2), this; }, this.record = (t2) => { var h5; return t2.create(e(this, l2).store), (h5 = e(this, c)) == null || h5.onRecord(t2), this; }, this.clearTimer = (t2) => { var h5; return e(this, l2).remove(t2), (h5 = e(this, c)) == null || h5.onClear(t2), this; }, this.isInjected = (t2) => e(this, d2).has(t2), this.isRecorded = (t2) => e(this, l2).has(t2), this.use = (t2) => { var h5; return (h5 = e(this, c)) == null || h5.onUse(t2), e(this, d2).get(t2); }, this.get = (t2) => this.use(t2).get(), this.set = (t2, h5) => this.use(t2).set(h5), this.update = (t2, h5) => this.use(t2).update(h5), this.timer = (t2) => e(this, l2).get(t2), this.done = (t2) => { var h5; this.timer(t2).done(), (h5 = e(this, c)) == null || h5.onDone(t2); }, this.wait = (t2) => { var v4; const h5 = this.timer(t2).start(); return (v4 = e(this, c)) == null || v4.onWait(t2, h5), h5; }, this.waitTimers = async (t2) => { await Promise.all(this.get(t2).map((h5) => this.wait(h5))); }, n2(this, d2, s2), n2(this, l2, i2), n2(this, b, r3), r3 && n2(this, c, new _(s2, i2, r3)); } /// Get metadata of the ctx. get meta() { return e(this, b); } /// Get the inspector of the ctx. get inspector() { return e(this, c); } }; d2 = /* @__PURE__ */ new WeakMap(), l2 = /* @__PURE__ */ new WeakMap(), b = /* @__PURE__ */ new WeakMap(), c = /* @__PURE__ */ new WeakMap(); var U = L; var J = class { constructor() { this.store = /* @__PURE__ */ new Map(), this.get = (s2) => { const i2 = this.store.get(s2.id); if (!i2) throw f(s2.name); return i2; }, this.remove = (s2) => { this.store.delete(s2.id); }, this.has = (s2) => this.store.has(s2.id); } }; var C; var g2; var E; var p2; var I; var k; var q = class { /// @internal constructor(s2, i2) { a(this, C, void 0); a(this, g2, void 0); a(this, E, void 0); a(this, p2, void 0); a(this, I, void 0); a(this, k, void 0); n2(this, C, null), n2(this, g2, null), n2(this, p2, "pending"), this.start = () => { var _a; return (_a = e(this, C)) != null ? _a : n2(this, C, new Promise((r3, t2) => { n2(this, g2, (h5) => { h5 instanceof CustomEvent && h5.detail.id === e(this, E) && (n2(this, p2, "resolved"), e(this, I).call(this), h5.stopImmediatePropagation(), r3()); }), e(this, k).call(this, () => { e(this, p2) === "pending" && n2(this, p2, "rejected"), e(this, I).call(this), t2(new Error(`Timing ${this.type.name} timeout.`)); }), n2(this, p2, "pending"), addEventListener(this.type.name, e(this, g2)); })), e(this, C); }, this.done = () => { const r3 = new CustomEvent(this.type.name, { detail: { id: e(this, E) } }); dispatchEvent(r3); }, n2(this, I, () => { e(this, g2) && removeEventListener(this.type.name, e(this, g2)); }), n2(this, k, (r3) => { setTimeout(() => { r3(); }, this.type.timeout); }), n2(this, E, Symbol(i2.name)), this.type = i2, s2.set(i2.id, this); } /// The status of the timer. /// Can be `pending`, `resolved` or `rejected`. get status() { return e(this, p2); } }; C = /* @__PURE__ */ new WeakMap(), g2 = /* @__PURE__ */ new WeakMap(), E = /* @__PURE__ */ new WeakMap(), p2 = /* @__PURE__ */ new WeakMap(), I = /* @__PURE__ */ new WeakMap(), k = /* @__PURE__ */ new WeakMap(); var A = class { /// Create a timer type with a name and a timeout. /// The name should be unique in the clock. constructor(s2, i2 = 3e3) { this.create = (r3) => new q(r3, this), this.id = Symbol(`Timer-${s2}`), this.name = s2, this.timeout = i2; } }; var K = (o2, s2 = 3e3) => new A(o2, s2); // node_modules/orderedmap/dist/index.js function OrderedMap(content3) { this.content = content3; } OrderedMap.prototype = { constructor: OrderedMap, find: function(key) { for (var i2 = 0; i2 < this.content.length; i2 += 2) if (this.content[i2] === key) return i2; return -1; }, // :: (string) → ?any // Retrieve the value stored under `key`, or return undefined when // no such key exists. get: function(key) { var found2 = this.find(key); return found2 == -1 ? void 0 : this.content[found2 + 1]; }, // :: (string, any, ?string) → OrderedMap // Create a new map by replacing the value of `key` with a new // value, or adding a binding to the end of the map. If `newKey` is // given, the key of the binding will be replaced with that key. update: function(key, value, newKey) { var self2 = newKey && newKey != key ? this.remove(newKey) : this; var found2 = self2.find(key), content3 = self2.content.slice(); if (found2 == -1) { content3.push(newKey || key, value); } else { content3[found2 + 1] = value; if (newKey) content3[found2] = newKey; } return new OrderedMap(content3); }, // :: (string) → OrderedMap // Return a map with the given key removed, if it existed. remove: function(key) { var found2 = this.find(key); if (found2 == -1) return this; var content3 = this.content.slice(); content3.splice(found2, 2); return new OrderedMap(content3); }, // :: (string, any) → OrderedMap // Add a new key to the start of the map. addToStart: function(key, value) { return new OrderedMap([key, value].concat(this.remove(key).content)); }, // :: (string, any) → OrderedMap // Add a new key to the end of the map. addToEnd: function(key, value) { var content3 = this.remove(key).content.slice(); content3.push(key, value); return new OrderedMap(content3); }, // :: (string, string, any) → OrderedMap // Add a key after the given key. If `place` is not found, the new // key is added to the end. addBefore: function(place, key, value) { var without = this.remove(key), content3 = without.content.slice(); var found2 = without.find(place); content3.splice(found2 == -1 ? content3.length : found2, 0, key, value); return new OrderedMap(content3); }, // :: ((key: string, value: any)) // Call the given function for each key/value pair in the map, in // order. forEach: function(f3) { for (var i2 = 0; i2 < this.content.length; i2 += 2) f3(this.content[i2], this.content[i2 + 1]); }, // :: (union) → OrderedMap // Create a new map by prepending the keys in this map that don't // appear in `map` before the keys in `map`. prepend: function(map5) { map5 = OrderedMap.from(map5); if (!map5.size) return this; return new OrderedMap(map5.content.concat(this.subtract(map5).content)); }, // :: (union) → OrderedMap // Create a new map by appending the keys in this map that don't // appear in `map` after the keys in `map`. append: function(map5) { map5 = OrderedMap.from(map5); if (!map5.size) return this; return new OrderedMap(this.subtract(map5).content.concat(map5.content)); }, // :: (union) → OrderedMap // Create a map containing all the keys in this map that don't // appear in `map`. subtract: function(map5) { var result = this; map5 = OrderedMap.from(map5); for (var i2 = 0; i2 < map5.content.length; i2 += 2) result = result.remove(map5.content[i2]); return result; }, // :: () → Object // Turn ordered map into a plain object. toObject: function() { var result = {}; this.forEach(function(key, value) { result[key] = value; }); return result; }, // :: number // The amount of keys in this map. get size() { return this.content.length >> 1; } }; OrderedMap.from = function(value) { if (value instanceof OrderedMap) return value; var content3 = []; if (value) for (var prop in value) content3.push(prop, value[prop]); return new OrderedMap(content3); }; var dist_default = OrderedMap; // node_modules/prosemirror-model/dist/index.js function findDiffStart(a2, b4, pos) { for (let i2 = 0; ; i2++) { if (i2 == a2.childCount || i2 == b4.childCount) return a2.childCount == b4.childCount ? null : pos; let childA = a2.child(i2), childB = b4.child(i2); if (childA == childB) { pos += childA.nodeSize; continue; } if (!childA.sameMarkup(childB)) return pos; if (childA.isText && childA.text != childB.text) { for (let j6 = 0; childA.text[j6] == childB.text[j6]; j6++) pos++; return pos; } if (childA.content.size || childB.content.size) { let inner = findDiffStart(childA.content, childB.content, pos + 1); if (inner != null) return inner; } pos += childA.nodeSize; } } function findDiffEnd(a2, b4, posA, posB) { for (let iA = a2.childCount, iB = b4.childCount; ; ) { if (iA == 0 || iB == 0) return iA == iB ? null : { a: posA, b: posB }; let childA = a2.child(--iA), childB = b4.child(--iB), size = childA.nodeSize; if (childA == childB) { posA -= size; posB -= size; continue; } if (!childA.sameMarkup(childB)) return { a: posA, b: posB }; if (childA.isText && childA.text != childB.text) { let same = 0, minSize = Math.min(childA.text.length, childB.text.length); while (same < minSize && childA.text[childA.text.length - same - 1] == childB.text[childB.text.length - same - 1]) { same++; posA--; posB--; } return { a: posA, b: posB }; } if (childA.content.size || childB.content.size) { let inner = findDiffEnd(childA.content, childB.content, posA - 1, posB - 1); if (inner) return inner; } posA -= size; posB -= size; } } var Fragment = class _Fragment { /** @internal */ constructor(content3, size) { this.content = content3; this.size = size || 0; if (size == null) for (let i2 = 0; i2 < content3.length; i2++) this.size += content3[i2].nodeSize; } /** Invoke a callback for all descendant nodes between the given two positions (relative to start of this fragment). Doesn't descend into a node when the callback returns `false`. */ nodesBetween(from, to, f3, nodeStart = 0, parent) { for (let i2 = 0, pos = 0; pos < to; i2++) { let child = this.content[i2], end = pos + child.nodeSize; if (end > from && f3(child, nodeStart + pos, parent || null, i2) !== false && child.content.size) { let start = pos + 1; child.nodesBetween(Math.max(0, from - start), Math.min(child.content.size, to - start), f3, nodeStart + start); } pos = end; } } /** Call the given callback for every descendant node. `pos` will be relative to the start of the fragment. The callback may return `false` to prevent traversal of a given node's children. */ descendants(f3) { this.nodesBetween(0, this.size, f3); } /** Extract the text between `from` and `to`. See the same method on [`Node`](https://prosemirror.net/docs/ref/#model.Node.textBetween). */ textBetween(from, to, blockSeparator, leafText) { let text5 = "", first = true; this.nodesBetween(from, to, (node2, pos) => { let nodeText = node2.isText ? node2.text.slice(Math.max(from, pos) - pos, to - pos) : !node2.isLeaf ? "" : leafText ? typeof leafText === "function" ? leafText(node2) : leafText : node2.type.spec.leafText ? node2.type.spec.leafText(node2) : ""; if (node2.isBlock && (node2.isLeaf && nodeText || node2.isTextblock) && blockSeparator) { if (first) first = false; else text5 += blockSeparator; } text5 += nodeText; }, 0); return text5; } /** Create a new fragment containing the combined content of this fragment and the other. */ append(other) { if (!other.size) return this; if (!this.size) return other; let last = this.lastChild, first = other.firstChild, content3 = this.content.slice(), i2 = 0; if (last.isText && last.sameMarkup(first)) { content3[content3.length - 1] = last.withText(last.text + first.text); i2 = 1; } for (; i2 < other.content.length; i2++) content3.push(other.content[i2]); return new _Fragment(content3, this.size + other.size); } /** Cut out the sub-fragment between the two given positions. */ cut(from, to = this.size) { if (from == 0 && to == this.size) return this; let result = [], size = 0; if (to > from) for (let i2 = 0, pos = 0; pos < to; i2++) { let child = this.content[i2], end = pos + child.nodeSize; if (end > from) { if (pos < from || end > to) { if (child.isText) child = child.cut(Math.max(0, from - pos), Math.min(child.text.length, to - pos)); else child = child.cut(Math.max(0, from - pos - 1), Math.min(child.content.size, to - pos - 1)); } result.push(child); size += child.nodeSize; } pos = end; } return new _Fragment(result, size); } /** @internal */ cutByIndex(from, to) { if (from == to) return _Fragment.empty; if (from == 0 && to == this.content.length) return this; return new _Fragment(this.content.slice(from, to)); } /** Create a new fragment in which the node at the given index is replaced by the given node. */ replaceChild(index2, node2) { let current = this.content[index2]; if (current == node2) return this; let copy2 = this.content.slice(); let size = this.size + node2.nodeSize - current.nodeSize; copy2[index2] = node2; return new _Fragment(copy2, size); } /** Create a new fragment by prepending the given node to this fragment. */ addToStart(node2) { return new _Fragment([node2].concat(this.content), this.size + node2.nodeSize); } /** Create a new fragment by appending the given node to this fragment. */ addToEnd(node2) { return new _Fragment(this.content.concat(node2), this.size + node2.nodeSize); } /** Compare this fragment to another one. */ eq(other) { if (this.content.length != other.content.length) return false; for (let i2 = 0; i2 < this.content.length; i2++) if (!this.content[i2].eq(other.content[i2])) return false; return true; } /** The first child of the fragment, or `null` if it is empty. */ get firstChild() { return this.content.length ? this.content[0] : null; } /** The last child of the fragment, or `null` if it is empty. */ get lastChild() { return this.content.length ? this.content[this.content.length - 1] : null; } /** The number of child nodes in this fragment. */ get childCount() { return this.content.length; } /** Get the child node at the given index. Raise an error when the index is out of range. */ child(index2) { let found2 = this.content[index2]; if (!found2) throw new RangeError("Index " + index2 + " out of range for " + this); return found2; } /** Get the child node at the given index, if it exists. */ maybeChild(index2) { return this.content[index2] || null; } /** Call `f` for every child node, passing the node, its offset into this parent node, and its index. */ forEach(f3) { for (let i2 = 0, p4 = 0; i2 < this.content.length; i2++) { let child = this.content[i2]; f3(child, p4, i2); p4 += child.nodeSize; } } /** Find the first position at which this fragment and another fragment differ, or `null` if they are the same. */ findDiffStart(other, pos = 0) { return findDiffStart(this, other, pos); } /** Find the first position, searching from the end, at which this fragment and the given fragment differ, or `null` if they are the same. Since this position will not be the same in both nodes, an object with two separate positions is returned. */ findDiffEnd(other, pos = this.size, otherPos = other.size) { return findDiffEnd(this, other, pos, otherPos); } /** Find the index and inner offset corresponding to a given relative position in this fragment. The result object will be reused (overwritten) the next time the function is called. (Not public.) */ findIndex(pos, round = -1) { if (pos == 0) return retIndex(0, pos); if (pos == this.size) return retIndex(this.content.length, pos); if (pos > this.size || pos < 0) throw new RangeError(`Position ${pos} outside of fragment (${this})`); for (let i2 = 0, curPos = 0; ; i2++) { let cur = this.child(i2), end = curPos + cur.nodeSize; if (end >= pos) { if (end == pos || round > 0) return retIndex(i2 + 1, end); return retIndex(i2, curPos); } curPos = end; } } /** Return a debugging string that describes this fragment. */ toString() { return "<" + this.toStringInner() + ">"; } /** @internal */ toStringInner() { return this.content.join(", "); } /** Create a JSON-serializeable representation of this fragment. */ toJSON() { return this.content.length ? this.content.map((n4) => n4.toJSON()) : null; } /** Deserialize a fragment from its JSON representation. */ static fromJSON(schema, value) { if (!value) return _Fragment.empty; if (!Array.isArray(value)) throw new RangeError("Invalid input for Fragment.fromJSON"); return new _Fragment(value.map(schema.nodeFromJSON)); } /** Build a fragment from an array of nodes. Ensures that adjacent text nodes with the same marks are joined together. */ static fromArray(array) { if (!array.length) return _Fragment.empty; let joined, size = 0; for (let i2 = 0; i2 < array.length; i2++) { let node2 = array[i2]; size += node2.nodeSize; if (i2 && node2.isText && array[i2 - 1].sameMarkup(node2)) { if (!joined) joined = array.slice(0, i2); joined[joined.length - 1] = node2.withText(joined[joined.length - 1].text + node2.text); } else if (joined) { joined.push(node2); } } return new _Fragment(joined || array, size); } /** Create a fragment from something that can be interpreted as a set of nodes. For `null`, it returns the empty fragment. For a fragment, the fragment itself. For a node or array of nodes, a fragment containing those nodes. */ static from(nodes) { if (!nodes) return _Fragment.empty; if (nodes instanceof _Fragment) return nodes; if (Array.isArray(nodes)) return this.fromArray(nodes); if (nodes.attrs) return new _Fragment([nodes], nodes.nodeSize); throw new RangeError("Can not convert " + nodes + " to a Fragment" + (nodes.nodesBetween ? " (looks like multiple versions of prosemirror-model were loaded)" : "")); } }; Fragment.empty = new Fragment([], 0); var found = { index: 0, offset: 0 }; function retIndex(index2, offset) { found.index = index2; found.offset = offset; return found; } function compareDeep(a2, b4) { if (a2 === b4) return true; if (!(a2 && typeof a2 == "object") || !(b4 && typeof b4 == "object")) return false; let array = Array.isArray(a2); if (Array.isArray(b4) != array) return false; if (array) { if (a2.length != b4.length) return false; for (let i2 = 0; i2 < a2.length; i2++) if (!compareDeep(a2[i2], b4[i2])) return false; } else { for (let p4 in a2) if (!(p4 in b4) || !compareDeep(a2[p4], b4[p4])) return false; for (let p4 in b4) if (!(p4 in a2)) return false; } return true; } var Mark = class _Mark { /** @internal */ constructor(type, attrs) { this.type = type; this.attrs = attrs; } /** Given a set of marks, create a new set which contains this one as well, in the right position. If this mark is already in the set, the set itself is returned. If any marks that are set to be [exclusive](https://prosemirror.net/docs/ref/#model.MarkSpec.excludes) with this mark are present, those are replaced by this one. */ addToSet(set) { let copy2, placed = false; for (let i2 = 0; i2 < set.length; i2++) { let other = set[i2]; if (this.eq(other)) return set; if (this.type.excludes(other.type)) { if (!copy2) copy2 = set.slice(0, i2); } else if (other.type.excludes(this.type)) { return set; } else { if (!placed && other.type.rank > this.type.rank) { if (!copy2) copy2 = set.slice(0, i2); copy2.push(this); placed = true; } if (copy2) copy2.push(other); } } if (!copy2) copy2 = set.slice(); if (!placed) copy2.push(this); return copy2; } /** Remove this mark from the given set, returning a new set. If this mark is not in the set, the set itself is returned. */ removeFromSet(set) { for (let i2 = 0; i2 < set.length; i2++) if (this.eq(set[i2])) return set.slice(0, i2).concat(set.slice(i2 + 1)); return set; } /** Test whether this mark is in the given set of marks. */ isInSet(set) { for (let i2 = 0; i2 < set.length; i2++) if (this.eq(set[i2])) return true; return false; } /** Test whether this mark has the same type and attributes as another mark. */ eq(other) { return this == other || this.type == other.type && compareDeep(this.attrs, other.attrs); } /** Convert this mark to a JSON-serializeable representation. */ toJSON() { let obj = { type: this.type.name }; for (let _3 in this.attrs) { obj.attrs = this.attrs; break; } return obj; } /** Deserialize a mark from JSON. */ static fromJSON(schema, json) { if (!json) throw new RangeError("Invalid input for Mark.fromJSON"); let type = schema.marks[json.type]; if (!type) throw new RangeError(`There is no mark type ${json.type} in this schema`); return type.create(json.attrs); } /** Test whether two sets of marks are identical. */ static sameSet(a2, b4) { if (a2 == b4) return true; if (a2.length != b4.length) return false; for (let i2 = 0; i2 < a2.length; i2++) if (!a2[i2].eq(b4[i2])) return false; return true; } /** Create a properly sorted mark set from null, a single mark, or an unsorted array of marks. */ static setFrom(marks) { if (!marks || Array.isArray(marks) && marks.length == 0) return _Mark.none; if (marks instanceof _Mark) return [marks]; let copy2 = marks.slice(); copy2.sort((a2, b4) => a2.type.rank - b4.type.rank); return copy2; } }; Mark.none = []; var ReplaceError = class extends Error { }; var Slice = class _Slice { /** Create a slice. When specifying a non-zero open depth, you must make sure that there are nodes of at least that depth at the appropriate side of the fragment—i.e. if the fragment is an empty paragraph node, `openStart` and `openEnd` can't be greater than 1. It is not necessary for the content of open nodes to conform to the schema's content constraints, though it should be a valid start/end/middle for such a node, depending on which sides are open. */ constructor(content3, openStart, openEnd) { this.content = content3; this.openStart = openStart; this.openEnd = openEnd; } /** The size this slice would add when inserted into a document. */ get size() { return this.content.size - this.openStart - this.openEnd; } /** @internal */ insertAt(pos, fragment) { let content3 = insertInto(this.content, pos + this.openStart, fragment); return content3 && new _Slice(content3, this.openStart, this.openEnd); } /** @internal */ removeBetween(from, to) { return new _Slice(removeRange(this.content, from + this.openStart, to + this.openStart), this.openStart, this.openEnd); } /** Tests whether this slice is equal to another slice. */ eq(other) { return this.content.eq(other.content) && this.openStart == other.openStart && this.openEnd == other.openEnd; } /** @internal */ toString() { return this.content + "(" + this.openStart + "," + this.openEnd + ")"; } /** Convert a slice to a JSON-serializable representation. */ toJSON() { if (!this.content.size) return null; let json = { content: this.content.toJSON() }; if (this.openStart > 0) json.openStart = this.openStart; if (this.openEnd > 0) json.openEnd = this.openEnd; return json; } /** Deserialize a slice from its JSON representation. */ static fromJSON(schema, json) { if (!json) return _Slice.empty; let openStart = json.openStart || 0, openEnd = json.openEnd || 0; if (typeof openStart != "number" || typeof openEnd != "number") throw new RangeError("Invalid input for Slice.fromJSON"); return new _Slice(Fragment.fromJSON(schema, json.content), openStart, openEnd); } /** Create a slice from a fragment by taking the maximum possible open value on both side of the fragment. */ static maxOpen(fragment, openIsolating = true) { let openStart = 0, openEnd = 0; for (let n4 = fragment.firstChild; n4 && !n4.isLeaf && (openIsolating || !n4.type.spec.isolating); n4 = n4.firstChild) openStart++; for (let n4 = fragment.lastChild; n4 && !n4.isLeaf && (openIsolating || !n4.type.spec.isolating); n4 = n4.lastChild) openEnd++; return new _Slice(fragment, openStart, openEnd); } }; Slice.empty = new Slice(Fragment.empty, 0, 0); function removeRange(content3, from, to) { let { index: index2, offset } = content3.findIndex(from), child = content3.maybeChild(index2); let { index: indexTo, offset: offsetTo } = content3.findIndex(to); if (offset == from || child.isText) { if (offsetTo != to && !content3.child(indexTo).isText) throw new RangeError("Removing non-flat range"); return content3.cut(0, from).append(content3.cut(to)); } if (index2 != indexTo) throw new RangeError("Removing non-flat range"); return content3.replaceChild(index2, child.copy(removeRange(child.content, from - offset - 1, to - offset - 1))); } function insertInto(content3, dist, insert, parent) { let { index: index2, offset } = content3.findIndex(dist), child = content3.maybeChild(index2); if (offset == dist || child.isText) { if (parent && !parent.canReplace(index2, index2, insert)) return null; return content3.cut(0, dist).append(insert).append(content3.cut(dist)); } let inner = insertInto(child.content, dist - offset - 1, insert); return inner && content3.replaceChild(index2, child.copy(inner)); } function replace($from, $to, slice) { if (slice.openStart > $from.depth) throw new ReplaceError("Inserted content deeper than insertion position"); if ($from.depth - slice.openStart != $to.depth - slice.openEnd) throw new ReplaceError("Inconsistent open depths"); return replaceOuter($from, $to, slice, 0); } function replaceOuter($from, $to, slice, depth) { let index2 = $from.index(depth), node2 = $from.node(depth); if (index2 == $to.index(depth) && depth < $from.depth - slice.openStart) { let inner = replaceOuter($from, $to, slice, depth + 1); return node2.copy(node2.content.replaceChild(index2, inner)); } else if (!slice.content.size) { return close(node2, replaceTwoWay($from, $to, depth)); } else if (!slice.openStart && !slice.openEnd && $from.depth == depth && $to.depth == depth) { let parent = $from.parent, content3 = parent.content; return close(parent, content3.cut(0, $from.parentOffset).append(slice.content).append(content3.cut($to.parentOffset))); } else { let { start, end } = prepareSliceForReplace(slice, $from); return close(node2, replaceThreeWay($from, start, end, $to, depth)); } } function checkJoin(main, sub) { if (!sub.type.compatibleContent(main.type)) throw new ReplaceError("Cannot join " + sub.type.name + " onto " + main.type.name); } function joinable($before, $after, depth) { let node2 = $before.node(depth); checkJoin(node2, $after.node(depth)); return node2; } function addNode(child, target) { let last = target.length - 1; if (last >= 0 && child.isText && child.sameMarkup(target[last])) target[last] = child.withText(target[last].text + child.text); else target.push(child); } function addRange($start, $end, depth, target) { let node2 = ($end || $start).node(depth); let startIndex = 0, endIndex = $end ? $end.index(depth) : node2.childCount; if ($start) { startIndex = $start.index(depth); if ($start.depth > depth) { startIndex++; } else if ($start.textOffset) { addNode($start.nodeAfter, target); startIndex++; } } for (let i2 = startIndex; i2 < endIndex; i2++) addNode(node2.child(i2), target); if ($end && $end.depth == depth && $end.textOffset) addNode($end.nodeBefore, target); } function close(node2, content3) { node2.type.checkContent(content3); return node2.copy(content3); } function replaceThreeWay($from, $start, $end, $to, depth) { let openStart = $from.depth > depth && joinable($from, $start, depth + 1); let openEnd = $to.depth > depth && joinable($end, $to, depth + 1); let content3 = []; addRange(null, $from, depth, content3); if (openStart && openEnd && $start.index(depth) == $end.index(depth)) { checkJoin(openStart, openEnd); addNode(close(openStart, replaceThreeWay($from, $start, $end, $to, depth + 1)), content3); } else { if (openStart) addNode(close(openStart, replaceTwoWay($from, $start, depth + 1)), content3); addRange($start, $end, depth, content3); if (openEnd) addNode(close(openEnd, replaceTwoWay($end, $to, depth + 1)), content3); } addRange($to, null, depth, content3); return new Fragment(content3); } function replaceTwoWay($from, $to, depth) { let content3 = []; addRange(null, $from, depth, content3); if ($from.depth > depth) { let type = joinable($from, $to, depth + 1); addNode(close(type, replaceTwoWay($from, $to, depth + 1)), content3); } addRange($to, null, depth, content3); return new Fragment(content3); } function prepareSliceForReplace(slice, $along) { let extra = $along.depth - slice.openStart, parent = $along.node(extra); let node2 = parent.copy(slice.content); for (let i2 = extra - 1; i2 >= 0; i2--) node2 = $along.node(i2).copy(Fragment.from(node2)); return { start: node2.resolveNoCache(slice.openStart + extra), end: node2.resolveNoCache(node2.content.size - slice.openEnd - extra) }; } var ResolvedPos = class _ResolvedPos { /** @internal */ constructor(pos, path3, parentOffset) { this.pos = pos; this.path = path3; this.parentOffset = parentOffset; this.depth = path3.length / 3 - 1; } /** @internal */ resolveDepth(val) { if (val == null) return this.depth; if (val < 0) return this.depth + val; return val; } /** The parent node that the position points into. Note that even if a position points into a text node, that node is not considered the parent—text nodes are ‘flat’ in this model, and have no content. */ get parent() { return this.node(this.depth); } /** The root node in which the position was resolved. */ get doc() { return this.node(0); } /** The ancestor node at the given level. `p.node(p.depth)` is the same as `p.parent`. */ node(depth) { return this.path[this.resolveDepth(depth) * 3]; } /** The index into the ancestor at the given level. If this points at the 3rd node in the 2nd paragraph on the top level, for example, `p.index(0)` is 1 and `p.index(1)` is 2. */ index(depth) { return this.path[this.resolveDepth(depth) * 3 + 1]; } /** The index pointing after this position into the ancestor at the given level. */ indexAfter(depth) { depth = this.resolveDepth(depth); return this.index(depth) + (depth == this.depth && !this.textOffset ? 0 : 1); } /** The (absolute) position at the start of the node at the given level. */ start(depth) { depth = this.resolveDepth(depth); return depth == 0 ? 0 : this.path[depth * 3 - 1] + 1; } /** The (absolute) position at the end of the node at the given level. */ end(depth) { depth = this.resolveDepth(depth); return this.start(depth) + this.node(depth).content.size; } /** The (absolute) position directly before the wrapping node at the given level, or, when `depth` is `this.depth + 1`, the original position. */ before(depth) { depth = this.resolveDepth(depth); if (!depth) throw new RangeError("There is no position before the top-level node"); return depth == this.depth + 1 ? this.pos : this.path[depth * 3 - 1]; } /** The (absolute) position directly after the wrapping node at the given level, or the original position when `depth` is `this.depth + 1`. */ after(depth) { depth = this.resolveDepth(depth); if (!depth) throw new RangeError("There is no position after the top-level node"); return depth == this.depth + 1 ? this.pos : this.path[depth * 3 - 1] + this.path[depth * 3].nodeSize; } /** When this position points into a text node, this returns the distance between the position and the start of the text node. Will be zero for positions that point between nodes. */ get textOffset() { return this.pos - this.path[this.path.length - 1]; } /** Get the node directly after the position, if any. If the position points into a text node, only the part of that node after the position is returned. */ get nodeAfter() { let parent = this.parent, index2 = this.index(this.depth); if (index2 == parent.childCount) return null; let dOff = this.pos - this.path[this.path.length - 1], child = parent.child(index2); return dOff ? parent.child(index2).cut(dOff) : child; } /** Get the node directly before the position, if any. If the position points into a text node, only the part of that node before the position is returned. */ get nodeBefore() { let index2 = this.index(this.depth); let dOff = this.pos - this.path[this.path.length - 1]; if (dOff) return this.parent.child(index2).cut(0, dOff); return index2 == 0 ? null : this.parent.child(index2 - 1); } /** Get the position at the given index in the parent node at the given depth (which defaults to `this.depth`). */ posAtIndex(index2, depth) { depth = this.resolveDepth(depth); let node2 = this.path[depth * 3], pos = depth == 0 ? 0 : this.path[depth * 3 - 1] + 1; for (let i2 = 0; i2 < index2; i2++) pos += node2.child(i2).nodeSize; return pos; } /** Get the marks at this position, factoring in the surrounding marks' [`inclusive`](https://prosemirror.net/docs/ref/#model.MarkSpec.inclusive) property. If the position is at the start of a non-empty node, the marks of the node after it (if any) are returned. */ marks() { let parent = this.parent, index2 = this.index(); if (parent.content.size == 0) return Mark.none; if (this.textOffset) return parent.child(index2).marks; let main = parent.maybeChild(index2 - 1), other = parent.maybeChild(index2); if (!main) { let tmp = main; main = other; other = tmp; } let marks = main.marks; for (var i2 = 0; i2 < marks.length; i2++) if (marks[i2].type.spec.inclusive === false && (!other || !marks[i2].isInSet(other.marks))) marks = marks[i2--].removeFromSet(marks); return marks; } /** Get the marks after the current position, if any, except those that are non-inclusive and not present at position `$end`. This is mostly useful for getting the set of marks to preserve after a deletion. Will return `null` if this position is at the end of its parent node or its parent node isn't a textblock (in which case no marks should be preserved). */ marksAcross($end) { let after = this.parent.maybeChild(this.index()); if (!after || !after.isInline) return null; let marks = after.marks, next = $end.parent.maybeChild($end.index()); for (var i2 = 0; i2 < marks.length; i2++) if (marks[i2].type.spec.inclusive === false && (!next || !marks[i2].isInSet(next.marks))) marks = marks[i2--].removeFromSet(marks); return marks; } /** The depth up to which this position and the given (non-resolved) position share the same parent nodes. */ sharedDepth(pos) { for (let depth = this.depth; depth > 0; depth--) if (this.start(depth) <= pos && this.end(depth) >= pos) return depth; return 0; } /** Returns a range based on the place where this position and the given position diverge around block content. If both point into the same textblock, for example, a range around that textblock will be returned. If they point into different blocks, the range around those blocks in their shared ancestor is returned. You can pass in an optional predicate that will be called with a parent node to see if a range into that parent is acceptable. */ blockRange(other = this, pred) { if (other.pos < this.pos) return other.blockRange(this); for (let d6 = this.depth - (this.parent.inlineContent || this.pos == other.pos ? 1 : 0); d6 >= 0; d6--) if (other.pos <= this.end(d6) && (!pred || pred(this.node(d6)))) return new NodeRange(this, other, d6); return null; } /** Query whether the given position shares the same parent node. */ sameParent(other) { return this.pos - this.parentOffset == other.pos - other.parentOffset; } /** Return the greater of this and the given position. */ max(other) { return other.pos > this.pos ? other : this; } /** Return the smaller of this and the given position. */ min(other) { return other.pos < this.pos ? other : this; } /** @internal */ toString() { let str = ""; for (let i2 = 1; i2 <= this.depth; i2++) str += (str ? "/" : "") + this.node(i2).type.name + "_" + this.index(i2 - 1); return str + ":" + this.parentOffset; } /** @internal */ static resolve(doc4, pos) { if (!(pos >= 0 && pos <= doc4.content.size)) throw new RangeError("Position " + pos + " out of range"); let path3 = []; let start = 0, parentOffset = pos; for (let node2 = doc4; ; ) { let { index: index2, offset } = node2.content.findIndex(parentOffset); let rem = parentOffset - offset; path3.push(node2, index2, start + offset); if (!rem) break; node2 = node2.child(index2); if (node2.isText) break; parentOffset = rem - 1; start += offset + 1; } return new _ResolvedPos(pos, path3, parentOffset); } /** @internal */ static resolveCached(doc4, pos) { for (let i2 = 0; i2 < resolveCache.length; i2++) { let cached = resolveCache[i2]; if (cached.pos == pos && cached.doc == doc4) return cached; } let result = resolveCache[resolveCachePos] = _ResolvedPos.resolve(doc4, pos); resolveCachePos = (resolveCachePos + 1) % resolveCacheSize; return result; } }; var resolveCache = []; var resolveCachePos = 0; var resolveCacheSize = 12; var NodeRange = class { /** Construct a node range. `$from` and `$to` should point into the same node until at least the given `depth`, since a node range denotes an adjacent set of nodes in a single parent node. */ constructor($from, $to, depth) { this.$from = $from; this.$to = $to; this.depth = depth; } /** The position at the start of the range. */ get start() { return this.$from.before(this.depth + 1); } /** The position at the end of the range. */ get end() { return this.$to.after(this.depth + 1); } /** The parent node that the range points into. */ get parent() { return this.$from.node(this.depth); } /** The start index of the range in the parent node. */ get startIndex() { return this.$from.index(this.depth); } /** The end index of the range in the parent node. */ get endIndex() { return this.$to.indexAfter(this.depth); } }; var emptyAttrs = /* @__PURE__ */ Object.create(null); var Node2 = class _Node { /** @internal */ constructor(type, attrs, content3, marks = Mark.none) { this.type = type; this.attrs = attrs; this.marks = marks; this.content = content3 || Fragment.empty; } /** The size of this node, as defined by the integer-based [indexing scheme](/docs/guide/#doc.indexing). For text nodes, this is the amount of characters. For other leaf nodes, it is one. For non-leaf nodes, it is the size of the content plus two (the start and end token). */ get nodeSize() { return this.isLeaf ? 1 : 2 + this.content.size; } /** The number of children that the node has. */ get childCount() { return this.content.childCount; } /** Get the child node at the given index. Raises an error when the index is out of range. */ child(index2) { return this.content.child(index2); } /** Get the child node at the given index, if it exists. */ maybeChild(index2) { return this.content.maybeChild(index2); } /** Call `f` for every child node, passing the node, its offset into this parent node, and its index. */ forEach(f3) { this.content.forEach(f3); } /** Invoke a callback for all descendant nodes recursively between the given two positions that are relative to start of this node's content. The callback is invoked with the node, its position relative to the original node (method receiver), its parent node, and its child index. When the callback returns false for a given node, that node's children will not be recursed over. The last parameter can be used to specify a starting position to count from. */ nodesBetween(from, to, f3, startPos = 0) { this.content.nodesBetween(from, to, f3, startPos, this); } /** Call the given callback for every descendant node. Doesn't descend into a node when the callback returns `false`. */ descendants(f3) { this.nodesBetween(0, this.content.size, f3); } /** Concatenates all the text nodes found in this fragment and its children. */ get textContent() { return this.isLeaf && this.type.spec.leafText ? this.type.spec.leafText(this) : this.textBetween(0, this.content.size, ""); } /** Get all text between positions `from` and `to`. When `blockSeparator` is given, it will be inserted to separate text from different block nodes. If `leafText` is given, it'll be inserted for every non-text leaf node encountered, otherwise [`leafText`](https://prosemirror.net/docs/ref/#model.NodeSpec^leafText) will be used. */ textBetween(from, to, blockSeparator, leafText) { return this.content.textBetween(from, to, blockSeparator, leafText); } /** Returns this node's first child, or `null` if there are no children. */ get firstChild() { return this.content.firstChild; } /** Returns this node's last child, or `null` if there are no children. */ get lastChild() { return this.content.lastChild; } /** Test whether two nodes represent the same piece of document. */ eq(other) { return this == other || this.sameMarkup(other) && this.content.eq(other.content); } /** Compare the markup (type, attributes, and marks) of this node to those of another. Returns `true` if both have the same markup. */ sameMarkup(other) { return this.hasMarkup(other.type, other.attrs, other.marks); } /** Check whether this node's markup correspond to the given type, attributes, and marks. */ hasMarkup(type, attrs, marks) { return this.type == type && compareDeep(this.attrs, attrs || type.defaultAttrs || emptyAttrs) && Mark.sameSet(this.marks, marks || Mark.none); } /** Create a new node with the same markup as this node, containing the given content (or empty, if no content is given). */ copy(content3 = null) { if (content3 == this.content) return this; return new _Node(this.type, this.attrs, content3, this.marks); } /** Create a copy of this node, with the given set of marks instead of the node's own marks. */ mark(marks) { return marks == this.marks ? this : new _Node(this.type, this.attrs, this.content, marks); } /** Create a copy of this node with only the content between the given positions. If `to` is not given, it defaults to the end of the node. */ cut(from, to = this.content.size) { if (from == 0 && to == this.content.size) return this; return this.copy(this.content.cut(from, to)); } /** Cut out the part of the document between the given positions, and return it as a `Slice` object. */ slice(from, to = this.content.size, includeParents = false) { if (from == to) return Slice.empty; let $from = this.resolve(from), $to = this.resolve(to); let depth = includeParents ? 0 : $from.sharedDepth(to); let start = $from.start(depth), node2 = $from.node(depth); let content3 = node2.content.cut($from.pos - start, $to.pos - start); return new Slice(content3, $from.depth - depth, $to.depth - depth); } /** Replace the part of the document between the given positions with the given slice. The slice must 'fit', meaning its open sides must be able to connect to the surrounding content, and its content nodes must be valid children for the node they are placed into. If any of this is violated, an error of type [`ReplaceError`](https://prosemirror.net/docs/ref/#model.ReplaceError) is thrown. */ replace(from, to, slice) { return replace(this.resolve(from), this.resolve(to), slice); } /** Find the node directly after the given position. */ nodeAt(pos) { for (let node2 = this; ; ) { let { index: index2, offset } = node2.content.findIndex(pos); node2 = node2.maybeChild(index2); if (!node2) return null; if (offset == pos || node2.isText) return node2; pos -= offset + 1; } } /** Find the (direct) child node after the given offset, if any, and return it along with its index and offset relative to this node. */ childAfter(pos) { let { index: index2, offset } = this.content.findIndex(pos); return { node: this.content.maybeChild(index2), index: index2, offset }; } /** Find the (direct) child node before the given offset, if any, and return it along with its index and offset relative to this node. */ childBefore(pos) { if (pos == 0) return { node: null, index: 0, offset: 0 }; let { index: index2, offset } = this.content.findIndex(pos); if (offset < pos) return { node: this.content.child(index2), index: index2, offset }; let node2 = this.content.child(index2 - 1); return { node: node2, index: index2 - 1, offset: offset - node2.nodeSize }; } /** Resolve the given position in the document, returning an [object](https://prosemirror.net/docs/ref/#model.ResolvedPos) with information about its context. */ resolve(pos) { return ResolvedPos.resolveCached(this, pos); } /** @internal */ resolveNoCache(pos) { return ResolvedPos.resolve(this, pos); } /** Test whether a given mark or mark type occurs in this document between the two given positions. */ rangeHasMark(from, to, type) { let found2 = false; if (to > from) this.nodesBetween(from, to, (node2) => { if (type.isInSet(node2.marks)) found2 = true; return !found2; }); return found2; } /** True when this is a block (non-inline node) */ get isBlock() { return this.type.isBlock; } /** True when this is a textblock node, a block node with inline content. */ get isTextblock() { return this.type.isTextblock; } /** True when this node allows inline content. */ get inlineContent() { return this.type.inlineContent; } /** True when this is an inline node (a text node or a node that can appear among text). */ get isInline() { return this.type.isInline; } /** True when this is a text node. */ get isText() { return this.type.isText; } /** True when this is a leaf node. */ get isLeaf() { return this.type.isLeaf; } /** True when this is an atom, i.e. when it does not have directly editable content. This is usually the same as `isLeaf`, but can be configured with the [`atom` property](https://prosemirror.net/docs/ref/#model.NodeSpec.atom) on a node's spec (typically used when the node is displayed as an uneditable [node view](https://prosemirror.net/docs/ref/#view.NodeView)). */ get isAtom() { return this.type.isAtom; } /** Return a string representation of this node for debugging purposes. */ toString() { if (this.type.spec.toDebugString) return this.type.spec.toDebugString(this); let name = this.type.name; if (this.content.size) name += "(" + this.content.toStringInner() + ")"; return wrapMarks(this.marks, name); } /** Get the content match in this node at the given index. */ contentMatchAt(index2) { let match = this.type.contentMatch.matchFragment(this.content, 0, index2); if (!match) throw new Error("Called contentMatchAt on a node with invalid content"); return match; } /** Test whether replacing the range between `from` and `to` (by child index) with the given replacement fragment (which defaults to the empty fragment) would leave the node's content valid. You can optionally pass `start` and `end` indices into the replacement fragment. */ canReplace(from, to, replacement = Fragment.empty, start = 0, end = replacement.childCount) { let one2 = this.contentMatchAt(from).matchFragment(replacement, start, end); let two = one2 && one2.matchFragment(this.content, to); if (!two || !two.validEnd) return false; for (let i2 = start; i2 < end; i2++) if (!this.type.allowsMarks(replacement.child(i2).marks)) return false; return true; } /** Test whether replacing the range `from` to `to` (by index) with a node of the given type would leave the node's content valid. */ canReplaceWith(from, to, type, marks) { if (marks && !this.type.allowsMarks(marks)) return false; let start = this.contentMatchAt(from).matchType(type); let end = start && start.matchFragment(this.content, to); return end ? end.validEnd : false; } /** Test whether the given node's content could be appended to this node. If that node is empty, this will only return true if there is at least one node type that can appear in both nodes (to avoid merging completely incompatible nodes). */ canAppend(other) { if (other.content.size) return this.canReplace(this.childCount, this.childCount, other.content); else return this.type.compatibleContent(other.type); } /** Check whether this node and its descendants conform to the schema, and raise error when they do not. */ check() { this.type.checkContent(this.content); let copy2 = Mark.none; for (let i2 = 0; i2 < this.marks.length; i2++) copy2 = this.marks[i2].addToSet(copy2); if (!Mark.sameSet(copy2, this.marks)) throw new RangeError(`Invalid collection of marks for node ${this.type.name}: ${this.marks.map((m3) => m3.type.name)}`); this.content.forEach((node2) => node2.check()); } /** Return a JSON-serializeable representation of this node. */ toJSON() { let obj = { type: this.type.name }; for (let _3 in this.attrs) { obj.attrs = this.attrs; break; } if (this.content.size) obj.content = this.content.toJSON(); if (this.marks.length) obj.marks = this.marks.map((n4) => n4.toJSON()); return obj; } /** Deserialize a node from its JSON representation. */ static fromJSON(schema, json) { if (!json) throw new RangeError("Invalid input for Node.fromJSON"); let marks = null; if (json.marks) { if (!Array.isArray(json.marks)) throw new RangeError("Invalid mark data for Node.fromJSON"); marks = json.marks.map(schema.markFromJSON); } if (json.type == "text") { if (typeof json.text != "string") throw new RangeError("Invalid text node in JSON"); return schema.text(json.text, marks); } let content3 = Fragment.fromJSON(schema, json.content); return schema.nodeType(json.type).create(json.attrs, content3, marks); } }; Node2.prototype.text = void 0; var TextNode = class _TextNode extends Node2 { /** @internal */ constructor(type, attrs, content3, marks) { super(type, attrs, null, marks); if (!content3) throw new RangeError("Empty text nodes are not allowed"); this.text = content3; } toString() { if (this.type.spec.toDebugString) return this.type.spec.toDebugString(this); return wrapMarks(this.marks, JSON.stringify(this.text)); } get textContent() { return this.text; } textBetween(from, to) { return this.text.slice(from, to); } get nodeSize() { return this.text.length; } mark(marks) { return marks == this.marks ? this : new _TextNode(this.type, this.attrs, this.text, marks); } withText(text5) { if (text5 == this.text) return this; return new _TextNode(this.type, this.attrs, text5, this.marks); } cut(from = 0, to = this.text.length) { if (from == 0 && to == this.text.length) return this; return this.withText(this.text.slice(from, to)); } eq(other) { return this.sameMarkup(other) && this.text == other.text; } toJSON() { let base2 = super.toJSON(); base2.text = this.text; return base2; } }; function wrapMarks(marks, str) { for (let i2 = marks.length - 1; i2 >= 0; i2--) str = marks[i2].type.name + "(" + str + ")"; return str; } var ContentMatch = class _ContentMatch { /** @internal */ constructor(validEnd) { this.validEnd = validEnd; this.next = []; this.wrapCache = []; } /** @internal */ static parse(string3, nodeTypes) { let stream = new TokenStream(string3, nodeTypes); if (stream.next == null) return _ContentMatch.empty; let expr = parseExpr(stream); if (stream.next) stream.err("Unexpected trailing text"); let match = dfa(nfa(expr)); checkForDeadEnds(match, stream); return match; } /** Match a node type, returning a match after that node if successful. */ matchType(type) { for (let i2 = 0; i2 < this.next.length; i2++) if (this.next[i2].type == type) return this.next[i2].next; return null; } /** Try to match a fragment. Returns the resulting match when successful. */ matchFragment(frag, start = 0, end = frag.childCount) { let cur = this; for (let i2 = start; cur && i2 < end; i2++) cur = cur.matchType(frag.child(i2).type); return cur; } /** @internal */ get inlineContent() { return this.next.length != 0 && this.next[0].type.isInline; } /** Get the first matching node type at this match position that can be generated. */ get defaultType() { for (let i2 = 0; i2 < this.next.length; i2++) { let { type } = this.next[i2]; if (!(type.isText || type.hasRequiredAttrs())) return type; } return null; } /** @internal */ compatible(other) { for (let i2 = 0; i2 < this.next.length; i2++) for (let j6 = 0; j6 < other.next.length; j6++) if (this.next[i2].type == other.next[j6].type) return true; return false; } /** Try to match the given fragment, and if that fails, see if it can be made to match by inserting nodes in front of it. When successful, return a fragment of inserted nodes (which may be empty if nothing had to be inserted). When `toEnd` is true, only return a fragment if the resulting match goes to the end of the content expression. */ fillBefore(after, toEnd = false, startIndex = 0) { let seen = [this]; function search2(match, types) { let finished = match.matchFragment(after, startIndex); if (finished && (!toEnd || finished.validEnd)) return Fragment.from(types.map((tp) => tp.createAndFill())); for (let i2 = 0; i2 < match.next.length; i2++) { let { type, next } = match.next[i2]; if (!(type.isText || type.hasRequiredAttrs()) && seen.indexOf(next) == -1) { seen.push(next); let found2 = search2(next, types.concat(type)); if (found2) return found2; } } return null; } return search2(this, []); } /** Find a set of wrapping node types that would allow a node of the given type to appear at this position. The result may be empty (when it fits directly) and will be null when no such wrapping exists. */ findWrapping(target) { for (let i2 = 0; i2 < this.wrapCache.length; i2 += 2) if (this.wrapCache[i2] == target) return this.wrapCache[i2 + 1]; let computed = this.computeWrapping(target); this.wrapCache.push(target, computed); return computed; } /** @internal */ computeWrapping(target) { let seen = /* @__PURE__ */ Object.create(null), active = [{ match: this, type: null, via: null }]; while (active.length) { let current = active.shift(), match = current.match; if (match.matchType(target)) { let result = []; for (let obj = current; obj.type; obj = obj.via) result.push(obj.type); return result.reverse(); } for (let i2 = 0; i2 < match.next.length; i2++) { let { type, next } = match.next[i2]; if (!type.isLeaf && !type.hasRequiredAttrs() && !(type.name in seen) && (!current.type || next.validEnd)) { active.push({ match: type.contentMatch, type, via: current }); seen[type.name] = true; } } } return null; } /** The number of outgoing edges this node has in the finite automaton that describes the content expression. */ get edgeCount() { return this.next.length; } /** Get the _n_​th outgoing edge from this node in the finite automaton that describes the content expression. */ edge(n4) { if (n4 >= this.next.length) throw new RangeError(`There's no ${n4}th edge in this content match`); return this.next[n4]; } /** @internal */ toString() { let seen = []; function scan(m3) { seen.push(m3); for (let i2 = 0; i2 < m3.next.length; i2++) if (seen.indexOf(m3.next[i2].next) == -1) scan(m3.next[i2].next); } scan(this); return seen.map((m3, i2) => { let out = i2 + (m3.validEnd ? "*" : " ") + " "; for (let i3 = 0; i3 < m3.next.length; i3++) out += (i3 ? ", " : "") + m3.next[i3].type.name + "->" + seen.indexOf(m3.next[i3].next); return out; }).join("\n"); } }; ContentMatch.empty = new ContentMatch(true); var TokenStream = class { constructor(string3, nodeTypes) { this.string = string3; this.nodeTypes = nodeTypes; this.inline = null; this.pos = 0; this.tokens = string3.split(/\s*(?=\b|\W|$)/); if (this.tokens[this.tokens.length - 1] == "") this.tokens.pop(); if (this.tokens[0] == "") this.tokens.shift(); } get next() { return this.tokens[this.pos]; } eat(tok) { return this.next == tok && (this.pos++ || true); } err(str) { throw new SyntaxError(str + " (in content expression '" + this.string + "')"); } }; function parseExpr(stream) { let exprs = []; do { exprs.push(parseExprSeq(stream)); } while (stream.eat("|")); return exprs.length == 1 ? exprs[0] : { type: "choice", exprs }; } function parseExprSeq(stream) { let exprs = []; do { exprs.push(parseExprSubscript(stream)); } while (stream.next && stream.next != ")" && stream.next != "|"); return exprs.length == 1 ? exprs[0] : { type: "seq", exprs }; } function parseExprSubscript(stream) { let expr = parseExprAtom(stream); for (; ; ) { if (stream.eat("+")) expr = { type: "plus", expr }; else if (stream.eat("*")) expr = { type: "star", expr }; else if (stream.eat("?")) expr = { type: "opt", expr }; else if (stream.eat("{")) expr = parseExprRange(stream, expr); else break; } return expr; } function parseNum(stream) { if (/\D/.test(stream.next)) stream.err("Expected number, got '" + stream.next + "'"); let result = Number(stream.next); stream.pos++; return result; } function parseExprRange(stream, expr) { let min = parseNum(stream), max = min; if (stream.eat(",")) { if (stream.next != "}") max = parseNum(stream); else max = -1; } if (!stream.eat("}")) stream.err("Unclosed braced range"); return { type: "range", min, max, expr }; } function resolveName(stream, name) { let types = stream.nodeTypes, type = types[name]; if (type) return [type]; let result = []; for (let typeName in types) { let type2 = types[typeName]; if (type2.groups.indexOf(name) > -1) result.push(type2); } if (result.length == 0) stream.err("No node type or group '" + name + "' found"); return result; } function parseExprAtom(stream) { if (stream.eat("(")) { let expr = parseExpr(stream); if (!stream.eat(")")) stream.err("Missing closing paren"); return expr; } else if (!/\W/.test(stream.next)) { let exprs = resolveName(stream, stream.next).map((type) => { if (stream.inline == null) stream.inline = type.isInline; else if (stream.inline != type.isInline) stream.err("Mixing inline and block content"); return { type: "name", value: type }; }); stream.pos++; return exprs.length == 1 ? exprs[0] : { type: "choice", exprs }; } else { stream.err("Unexpected token '" + stream.next + "'"); } } function nfa(expr) { let nfa2 = [[]]; connect(compile(expr, 0), node2()); return nfa2; function node2() { return nfa2.push([]) - 1; } function edge(from, to, term) { let edge2 = { term, to }; nfa2[from].push(edge2); return edge2; } function connect(edges, to) { edges.forEach((edge2) => edge2.to = to); } function compile(expr2, from) { if (expr2.type == "choice") { return expr2.exprs.reduce((out, expr3) => out.concat(compile(expr3, from)), []); } else if (expr2.type == "seq") { for (let i2 = 0; ; i2++) { let next = compile(expr2.exprs[i2], from); if (i2 == expr2.exprs.length - 1) return next; connect(next, from = node2()); } } else if (expr2.type == "star") { let loop = node2(); edge(from, loop); connect(compile(expr2.expr, loop), loop); return [edge(loop)]; } else if (expr2.type == "plus") { let loop = node2(); connect(compile(expr2.expr, from), loop); connect(compile(expr2.expr, loop), loop); return [edge(loop)]; } else if (expr2.type == "opt") { return [edge(from)].concat(compile(expr2.expr, from)); } else if (expr2.type == "range") { let cur = from; for (let i2 = 0; i2 < expr2.min; i2++) { let next = node2(); connect(compile(expr2.expr, cur), next); cur = next; } if (expr2.max == -1) { connect(compile(expr2.expr, cur), cur); } else { for (let i2 = expr2.min; i2 < expr2.max; i2++) { let next = node2(); edge(cur, next); connect(compile(expr2.expr, cur), next); cur = next; } } return [edge(cur)]; } else if (expr2.type == "name") { return [edge(from, void 0, expr2.value)]; } else { throw new Error("Unknown expr type"); } } } function cmp(a2, b4) { return b4 - a2; } function nullFrom(nfa2, node2) { let result = []; scan(node2); return result.sort(cmp); function scan(node3) { let edges = nfa2[node3]; if (edges.length == 1 && !edges[0].term) return scan(edges[0].to); result.push(node3); for (let i2 = 0; i2 < edges.length; i2++) { let { term, to } = edges[i2]; if (!term && result.indexOf(to) == -1) scan(to); } } } function dfa(nfa2) { let labeled = /* @__PURE__ */ Object.create(null); return explore(nullFrom(nfa2, 0)); function explore(states) { let out = []; states.forEach((node2) => { nfa2[node2].forEach(({ term, to }) => { if (!term) return; let set; for (let i2 = 0; i2 < out.length; i2++) if (out[i2][0] == term) set = out[i2][1]; nullFrom(nfa2, to).forEach((node3) => { if (!set) out.push([term, set = []]); if (set.indexOf(node3) == -1) set.push(node3); }); }); }); let state = labeled[states.join(",")] = new ContentMatch(states.indexOf(nfa2.length - 1) > -1); for (let i2 = 0; i2 < out.length; i2++) { let states2 = out[i2][1].sort(cmp); state.next.push({ type: out[i2][0], next: labeled[states2.join(",")] || explore(states2) }); } return state; } } function checkForDeadEnds(match, stream) { for (let i2 = 0, work = [match]; i2 < work.length; i2++) { let state = work[i2], dead = !state.validEnd, nodes = []; for (let j6 = 0; j6 < state.next.length; j6++) { let { type, next } = state.next[j6]; nodes.push(type.name); if (dead && !(type.isText || type.hasRequiredAttrs())) dead = false; if (work.indexOf(next) == -1) work.push(next); } if (dead) stream.err("Only non-generatable nodes (" + nodes.join(", ") + ") in a required position (see https://prosemirror.net/docs/guide/#generatable)"); } } function defaultAttrs(attrs) { let defaults = /* @__PURE__ */ Object.create(null); for (let attrName in attrs) { let attr = attrs[attrName]; if (!attr.hasDefault) return null; defaults[attrName] = attr.default; } return defaults; } function computeAttrs(attrs, value) { let built = /* @__PURE__ */ Object.create(null); for (let name in attrs) { let given = value && value[name]; if (given === void 0) { let attr = attrs[name]; if (attr.hasDefault) given = attr.default; else throw new RangeError("No value supplied for attribute " + name); } built[name] = given; } return built; } function initAttrs(attrs) { let result = /* @__PURE__ */ Object.create(null); if (attrs) for (let name in attrs) result[name] = new Attribute(attrs[name]); return result; } var NodeType = class _NodeType { /** @internal */ constructor(name, schema, spec) { this.name = name; this.schema = schema; this.spec = spec; this.markSet = null; this.groups = spec.group ? spec.group.split(" ") : []; this.attrs = initAttrs(spec.attrs); this.defaultAttrs = defaultAttrs(this.attrs); this.contentMatch = null; this.inlineContent = null; this.isBlock = !(spec.inline || name == "text"); this.isText = name == "text"; } /** True if this is an inline type. */ get isInline() { return !this.isBlock; } /** True if this is a textblock type, a block that contains inline content. */ get isTextblock() { return this.isBlock && this.inlineContent; } /** True for node types that allow no content. */ get isLeaf() { return this.contentMatch == ContentMatch.empty; } /** True when this node is an atom, i.e. when it does not have directly editable content. */ get isAtom() { return this.isLeaf || !!this.spec.atom; } /** The node type's [whitespace](https://prosemirror.net/docs/ref/#model.NodeSpec.whitespace) option. */ get whitespace() { return this.spec.whitespace || (this.spec.code ? "pre" : "normal"); } /** Tells you whether this node type has any required attributes. */ hasRequiredAttrs() { for (let n4 in this.attrs) if (this.attrs[n4].isRequired) return true; return false; } /** Indicates whether this node allows some of the same content as the given node type. */ compatibleContent(other) { return this == other || this.contentMatch.compatible(other.contentMatch); } /** @internal */ computeAttrs(attrs) { if (!attrs && this.defaultAttrs) return this.defaultAttrs; else return computeAttrs(this.attrs, attrs); } /** Create a `Node` of this type. The given attributes are checked and defaulted (you can pass `null` to use the type's defaults entirely, if no required attributes exist). `content` may be a `Fragment`, a node, an array of nodes, or `null`. Similarly `marks` may be `null` to default to the empty set of marks. */ create(attrs = null, content3, marks) { if (this.isText) throw new Error("NodeType.create can't construct text nodes"); return new Node2(this, this.computeAttrs(attrs), Fragment.from(content3), Mark.setFrom(marks)); } /** Like [`create`](https://prosemirror.net/docs/ref/#model.NodeType.create), but check the given content against the node type's content restrictions, and throw an error if it doesn't match. */ createChecked(attrs = null, content3, marks) { content3 = Fragment.from(content3); this.checkContent(content3); return new Node2(this, this.computeAttrs(attrs), content3, Mark.setFrom(marks)); } /** Like [`create`](https://prosemirror.net/docs/ref/#model.NodeType.create), but see if it is necessary to add nodes to the start or end of the given fragment to make it fit the node. If no fitting wrapping can be found, return null. Note that, due to the fact that required nodes can always be created, this will always succeed if you pass null or `Fragment.empty` as content. */ createAndFill(attrs = null, content3, marks) { attrs = this.computeAttrs(attrs); content3 = Fragment.from(content3); if (content3.size) { let before = this.contentMatch.fillBefore(content3); if (!before) return null; content3 = before.append(content3); } let matched = this.contentMatch.matchFragment(content3); let after = matched && matched.fillBefore(Fragment.empty, true); if (!after) return null; return new Node2(this, attrs, content3.append(after), Mark.setFrom(marks)); } /** Returns true if the given fragment is valid content for this node type with the given attributes. */ validContent(content3) { let result = this.contentMatch.matchFragment(content3); if (!result || !result.validEnd) return false; for (let i2 = 0; i2 < content3.childCount; i2++) if (!this.allowsMarks(content3.child(i2).marks)) return false; return true; } /** Throws a RangeError if the given fragment is not valid content for this node type. @internal */ checkContent(content3) { if (!this.validContent(content3)) throw new RangeError(`Invalid content for node ${this.name}: ${content3.toString().slice(0, 50)}`); } /** Check whether the given mark type is allowed in this node. */ allowsMarkType(markType) { return this.markSet == null || this.markSet.indexOf(markType) > -1; } /** Test whether the given set of marks are allowed in this node. */ allowsMarks(marks) { if (this.markSet == null) return true; for (let i2 = 0; i2 < marks.length; i2++) if (!this.allowsMarkType(marks[i2].type)) return false; return true; } /** Removes the marks that are not allowed in this node from the given set. */ allowedMarks(marks) { if (this.markSet == null) return marks; let copy2; for (let i2 = 0; i2 < marks.length; i2++) { if (!this.allowsMarkType(marks[i2].type)) { if (!copy2) copy2 = marks.slice(0, i2); } else if (copy2) { copy2.push(marks[i2]); } } return !copy2 ? marks : copy2.length ? copy2 : Mark.none; } /** @internal */ static compile(nodes, schema) { let result = /* @__PURE__ */ Object.create(null); nodes.forEach((name, spec) => result[name] = new _NodeType(name, schema, spec)); let topType = schema.spec.topNode || "doc"; if (!result[topType]) throw new RangeError("Schema is missing its top node type ('" + topType + "')"); if (!result.text) throw new RangeError("Every schema needs a 'text' type"); for (let _3 in result.text.attrs) throw new RangeError("The text node type should not have attributes"); return result; } }; var Attribute = class { constructor(options2) { this.hasDefault = Object.prototype.hasOwnProperty.call(options2, "default"); this.default = options2.default; } get isRequired() { return !this.hasDefault; } }; var MarkType = class _MarkType { /** @internal */ constructor(name, rank, schema, spec) { this.name = name; this.rank = rank; this.schema = schema; this.spec = spec; this.attrs = initAttrs(spec.attrs); this.excluded = null; let defaults = defaultAttrs(this.attrs); this.instance = defaults ? new Mark(this, defaults) : null; } /** Create a mark of this type. `attrs` may be `null` or an object containing only some of the mark's attributes. The others, if they have defaults, will be added. */ create(attrs = null) { if (!attrs && this.instance) return this.instance; return new Mark(this, computeAttrs(this.attrs, attrs)); } /** @internal */ static compile(marks, schema) { let result = /* @__PURE__ */ Object.create(null), rank = 0; marks.forEach((name, spec) => result[name] = new _MarkType(name, rank++, schema, spec)); return result; } /** When there is a mark of this type in the given set, a new set without it is returned. Otherwise, the input set is returned. */ removeFromSet(set) { for (var i2 = 0; i2 < set.length; i2++) if (set[i2].type == this) { set = set.slice(0, i2).concat(set.slice(i2 + 1)); i2--; } return set; } /** Tests whether there is a mark of this type in the given set. */ isInSet(set) { for (let i2 = 0; i2 < set.length; i2++) if (set[i2].type == this) return set[i2]; } /** Queries whether a given mark type is [excluded](https://prosemirror.net/docs/ref/#model.MarkSpec.excludes) by this one. */ excludes(other) { return this.excluded.indexOf(other) > -1; } }; var Schema = class { /** Construct a schema from a schema [specification](https://prosemirror.net/docs/ref/#model.SchemaSpec). */ constructor(spec) { this.linebreakReplacement = null; this.cached = /* @__PURE__ */ Object.create(null); let instanceSpec = this.spec = {}; for (let prop in spec) instanceSpec[prop] = spec[prop]; instanceSpec.nodes = dist_default.from(spec.nodes), instanceSpec.marks = dist_default.from(spec.marks || {}), this.nodes = NodeType.compile(this.spec.nodes, this); this.marks = MarkType.compile(this.spec.marks, this); let contentExprCache = /* @__PURE__ */ Object.create(null); for (let prop in this.nodes) { if (prop in this.marks) throw new RangeError(prop + " can not be both a node and a mark"); let type = this.nodes[prop], contentExpr = type.spec.content || "", markExpr = type.spec.marks; type.contentMatch = contentExprCache[contentExpr] || (contentExprCache[contentExpr] = ContentMatch.parse(contentExpr, this.nodes)); type.inlineContent = type.contentMatch.inlineContent; if (type.spec.linebreakReplacement) { if (this.linebreakReplacement) throw new RangeError("Multiple linebreak nodes defined"); if (!type.isInline || !type.isLeaf) throw new RangeError("Linebreak replacement nodes must be inline leaf nodes"); this.linebreakReplacement = type; } type.markSet = markExpr == "_" ? null : markExpr ? gatherMarks(this, markExpr.split(" ")) : markExpr == "" || !type.inlineContent ? [] : null; } for (let prop in this.marks) { let type = this.marks[prop], excl = type.spec.excludes; type.excluded = excl == null ? [type] : excl == "" ? [] : gatherMarks(this, excl.split(" ")); } this.nodeFromJSON = this.nodeFromJSON.bind(this); this.markFromJSON = this.markFromJSON.bind(this); this.topNodeType = this.nodes[this.spec.topNode || "doc"]; this.cached.wrappings = /* @__PURE__ */ Object.create(null); } /** Create a node in this schema. The `type` may be a string or a `NodeType` instance. Attributes will be extended with defaults, `content` may be a `Fragment`, `null`, a `Node`, or an array of nodes. */ node(type, attrs = null, content3, marks) { if (typeof type == "string") type = this.nodeType(type); else if (!(type instanceof NodeType)) throw new RangeError("Invalid node type: " + type); else if (type.schema != this) throw new RangeError("Node type from different schema used (" + type.name + ")"); return type.createChecked(attrs, content3, marks); } /** Create a text node in the schema. Empty text nodes are not allowed. */ text(text5, marks) { let type = this.nodes.text; return new TextNode(type, type.defaultAttrs, text5, Mark.setFrom(marks)); } /** Create a mark with the given type and attributes. */ mark(type, attrs) { if (typeof type == "string") type = this.marks[type]; return type.create(attrs); } /** Deserialize a node from its JSON representation. This method is bound. */ nodeFromJSON(json) { return Node2.fromJSON(this, json); } /** Deserialize a mark from its JSON representation. This method is bound. */ markFromJSON(json) { return Mark.fromJSON(this, json); } /** @internal */ nodeType(name) { let found2 = this.nodes[name]; if (!found2) throw new RangeError("Unknown node type: " + name); return found2; } }; function gatherMarks(schema, marks) { let found2 = []; for (let i2 = 0; i2 < marks.length; i2++) { let name = marks[i2], mark = schema.marks[name], ok3 = mark; if (mark) { found2.push(mark); } else { for (let prop in schema.marks) { let mark2 = schema.marks[prop]; if (name == "_" || mark2.spec.group && mark2.spec.group.split(" ").indexOf(name) > -1) found2.push(ok3 = mark2); } } if (!ok3) throw new SyntaxError("Unknown mark type: '" + marks[i2] + "'"); } return found2; } function isTagRule(rule) { return rule.tag != null; } function isStyleRule(rule) { return rule.style != null; } var DOMParser = class _DOMParser { /** Create a parser that targets the given schema, using the given parsing rules. */ constructor(schema, rules) { this.schema = schema; this.rules = rules; this.tags = []; this.styles = []; rules.forEach((rule) => { if (isTagRule(rule)) this.tags.push(rule); else if (isStyleRule(rule)) this.styles.push(rule); }); this.normalizeLists = !this.tags.some((r3) => { if (!/^(ul|ol)\b/.test(r3.tag) || !r3.node) return false; let node2 = schema.nodes[r3.node]; return node2.contentMatch.matchType(node2); }); } /** Parse a document from the content of a DOM node. */ parse(dom, options2 = {}) { let context = new ParseContext(this, options2, false); context.addAll(dom, options2.from, options2.to); return context.finish(); } /** Parses the content of the given DOM node, like [`parse`](https://prosemirror.net/docs/ref/#model.DOMParser.parse), and takes the same set of options. But unlike that method, which produces a whole node, this one returns a slice that is open at the sides, meaning that the schema constraints aren't applied to the start of nodes to the left of the input and the end of nodes at the end. */ parseSlice(dom, options2 = {}) { let context = new ParseContext(this, options2, true); context.addAll(dom, options2.from, options2.to); return Slice.maxOpen(context.finish()); } /** @internal */ matchTag(dom, context, after) { for (let i2 = after ? this.tags.indexOf(after) + 1 : 0; i2 < this.tags.length; i2++) { let rule = this.tags[i2]; if (matches(dom, rule.tag) && (rule.namespace === void 0 || dom.namespaceURI == rule.namespace) && (!rule.context || context.matchesContext(rule.context))) { if (rule.getAttrs) { let result = rule.getAttrs(dom); if (result === false) continue; rule.attrs = result || void 0; } return rule; } } } /** @internal */ matchStyle(prop, value, context, after) { for (let i2 = after ? this.styles.indexOf(after) + 1 : 0; i2 < this.styles.length; i2++) { let rule = this.styles[i2], style2 = rule.style; if (style2.indexOf(prop) != 0 || rule.context && !context.matchesContext(rule.context) || // Test that the style string either precisely matches the prop, // or has an '=' sign after the prop, followed by the given // value. style2.length > prop.length && (style2.charCodeAt(prop.length) != 61 || style2.slice(prop.length + 1) != value)) continue; if (rule.getAttrs) { let result = rule.getAttrs(value); if (result === false) continue; rule.attrs = result || void 0; } return rule; } } /** @internal */ static schemaRules(schema) { let result = []; function insert(rule) { let priority = rule.priority == null ? 50 : rule.priority, i2 = 0; for (; i2 < result.length; i2++) { let next = result[i2], nextPriority = next.priority == null ? 50 : next.priority; if (nextPriority < priority) break; } result.splice(i2, 0, rule); } for (let name in schema.marks) { let rules = schema.marks[name].spec.parseDOM; if (rules) rules.forEach((rule) => { insert(rule = copy(rule)); if (!(rule.mark || rule.ignore || rule.clearMark)) rule.mark = name; }); } for (let name in schema.nodes) { let rules = schema.nodes[name].spec.parseDOM; if (rules) rules.forEach((rule) => { insert(rule = copy(rule)); if (!(rule.node || rule.ignore || rule.mark)) rule.node = name; }); } return result; } /** Construct a DOM parser using the parsing rules listed in a schema's [node specs](https://prosemirror.net/docs/ref/#model.NodeSpec.parseDOM), reordered by [priority](https://prosemirror.net/docs/ref/#model.ParseRule.priority). */ static fromSchema(schema) { return schema.cached.domParser || (schema.cached.domParser = new _DOMParser(schema, _DOMParser.schemaRules(schema))); } }; var blockTags = { address: true, article: true, aside: true, blockquote: true, canvas: true, dd: true, div: true, dl: true, fieldset: true, figcaption: true, figure: true, footer: true, form: true, h1: true, h2: true, h3: true, h4: true, h5: true, h6: true, header: true, hgroup: true, hr: true, li: true, noscript: true, ol: true, output: true, p: true, pre: true, section: true, table: true, tfoot: true, ul: true }; var ignoreTags = { head: true, noscript: true, object: true, script: true, style: true, title: true }; var listTags = { ol: true, ul: true }; var OPT_PRESERVE_WS = 1; var OPT_PRESERVE_WS_FULL = 2; var OPT_OPEN_LEFT = 4; function wsOptionsFor(type, preserveWhitespace, base2) { if (preserveWhitespace != null) return (preserveWhitespace ? OPT_PRESERVE_WS : 0) | (preserveWhitespace === "full" ? OPT_PRESERVE_WS_FULL : 0); return type && type.whitespace == "pre" ? OPT_PRESERVE_WS | OPT_PRESERVE_WS_FULL : base2 & ~OPT_OPEN_LEFT; } var NodeContext = class { constructor(type, attrs, marks, pendingMarks, solid, match, options2) { this.type = type; this.attrs = attrs; this.marks = marks; this.pendingMarks = pendingMarks; this.solid = solid; this.options = options2; this.content = []; this.activeMarks = Mark.none; this.stashMarks = []; this.match = match || (options2 & OPT_OPEN_LEFT ? null : type.contentMatch); } findWrapping(node2) { if (!this.match) { if (!this.type) return []; let fill = this.type.contentMatch.fillBefore(Fragment.from(node2)); if (fill) { this.match = this.type.contentMatch.matchFragment(fill); } else { let start = this.type.contentMatch, wrap3; if (wrap3 = start.findWrapping(node2.type)) { this.match = start; return wrap3; } else { return null; } } } return this.match.findWrapping(node2.type); } finish(openEnd) { if (!(this.options & OPT_PRESERVE_WS)) { let last = this.content[this.content.length - 1], m3; if (last && last.isText && (m3 = /[ \t\r\n\u000c]+$/.exec(last.text))) { let text5 = last; if (last.text.length == m3[0].length) this.content.pop(); else this.content[this.content.length - 1] = text5.withText(text5.text.slice(0, text5.text.length - m3[0].length)); } } let content3 = Fragment.from(this.content); if (!openEnd && this.match) content3 = content3.append(this.match.fillBefore(Fragment.empty, true)); return this.type ? this.type.create(this.attrs, content3, this.marks) : content3; } popFromStashMark(mark) { for (let i2 = this.stashMarks.length - 1; i2 >= 0; i2--) if (mark.eq(this.stashMarks[i2])) return this.stashMarks.splice(i2, 1)[0]; } applyPending(nextType) { for (let i2 = 0, pending = this.pendingMarks; i2 < pending.length; i2++) { let mark = pending[i2]; if ((this.type ? this.type.allowsMarkType(mark.type) : markMayApply(mark.type, nextType)) && !mark.isInSet(this.activeMarks)) { this.activeMarks = mark.addToSet(this.activeMarks); this.pendingMarks = mark.removeFromSet(this.pendingMarks); } } } inlineContext(node2) { if (this.type) return this.type.inlineContent; if (this.content.length) return this.content[0].isInline; return node2.parentNode && !blockTags.hasOwnProperty(node2.parentNode.nodeName.toLowerCase()); } }; var ParseContext = class { constructor(parser, options2, isOpen) { this.parser = parser; this.options = options2; this.isOpen = isOpen; this.open = 0; let topNode = options2.topNode, topContext; let topOptions = wsOptionsFor(null, options2.preserveWhitespace, 0) | (isOpen ? OPT_OPEN_LEFT : 0); if (topNode) topContext = new NodeContext(topNode.type, topNode.attrs, Mark.none, Mark.none, true, options2.topMatch || topNode.type.contentMatch, topOptions); else if (isOpen) topContext = new NodeContext(null, null, Mark.none, Mark.none, true, null, topOptions); else topContext = new NodeContext(parser.schema.topNodeType, null, Mark.none, Mark.none, true, null, topOptions); this.nodes = [topContext]; this.find = options2.findPositions; this.needsBlock = false; } get top() { return this.nodes[this.open]; } // Add a DOM node to the content. Text is inserted as text node, // otherwise, the node is passed to `addElement` or, if it has a // `style` attribute, `addElementWithStyles`. addDOM(dom) { if (dom.nodeType == 3) this.addTextNode(dom); else if (dom.nodeType == 1) this.addElement(dom); } withStyleRules(dom, f3) { let style2 = dom.getAttribute("style"); if (!style2) return f3(); let marks = this.readStyles(parseStyles(style2)); if (!marks) return; let [addMarks, removeMarks] = marks, top = this.top; for (let i2 = 0; i2 < removeMarks.length; i2++) this.removePendingMark(removeMarks[i2], top); for (let i2 = 0; i2 < addMarks.length; i2++) this.addPendingMark(addMarks[i2]); f3(); for (let i2 = 0; i2 < addMarks.length; i2++) this.removePendingMark(addMarks[i2], top); for (let i2 = 0; i2 < removeMarks.length; i2++) this.addPendingMark(removeMarks[i2]); } addTextNode(dom) { let value = dom.nodeValue; let top = this.top; if (top.options & OPT_PRESERVE_WS_FULL || top.inlineContext(dom) || /[^ \t\r\n\u000c]/.test(value)) { if (!(top.options & OPT_PRESERVE_WS)) { value = value.replace(/[ \t\r\n\u000c]+/g, " "); if (/^[ \t\r\n\u000c]/.test(value) && this.open == this.nodes.length - 1) { let nodeBefore = top.content[top.content.length - 1]; let domNodeBefore = dom.previousSibling; if (!nodeBefore || domNodeBefore && domNodeBefore.nodeName == "BR" || nodeBefore.isText && /[ \t\r\n\u000c]$/.test(nodeBefore.text)) value = value.slice(1); } } else if (!(top.options & OPT_PRESERVE_WS_FULL)) { value = value.replace(/\r?\n|\r/g, " "); } else { value = value.replace(/\r\n?/g, "\n"); } if (value) this.insertNode(this.parser.schema.text(value)); this.findInText(dom); } else { this.findInside(dom); } } // Try to find a handler for the given tag and use that to parse. If // none is found, the element's content nodes are added directly. addElement(dom, matchAfter) { let name = dom.nodeName.toLowerCase(), ruleID; if (listTags.hasOwnProperty(name) && this.parser.normalizeLists) normalizeList(dom); let rule = this.options.ruleFromNode && this.options.ruleFromNode(dom) || (ruleID = this.parser.matchTag(dom, this, matchAfter)); if (rule ? rule.ignore : ignoreTags.hasOwnProperty(name)) { this.findInside(dom); this.ignoreFallback(dom); } else if (!rule || rule.skip || rule.closeParent) { if (rule && rule.closeParent) this.open = Math.max(0, this.open - 1); else if (rule && rule.skip.nodeType) dom = rule.skip; let sync, top = this.top, oldNeedsBlock = this.needsBlock; if (blockTags.hasOwnProperty(name)) { if (top.content.length && top.content[0].isInline && this.open) { this.open--; top = this.top; } sync = true; if (!top.type) this.needsBlock = true; } else if (!dom.firstChild) { this.leafFallback(dom); return; } if (rule && rule.skip) this.addAll(dom); else this.withStyleRules(dom, () => this.addAll(dom)); if (sync) this.sync(top); this.needsBlock = oldNeedsBlock; } else { this.withStyleRules(dom, () => { this.addElementByRule(dom, rule, rule.consuming === false ? ruleID : void 0); }); } } // Called for leaf DOM nodes that would otherwise be ignored leafFallback(dom) { if (dom.nodeName == "BR" && this.top.type && this.top.type.inlineContent) this.addTextNode(dom.ownerDocument.createTextNode("\n")); } // Called for ignored nodes ignoreFallback(dom) { if (dom.nodeName == "BR" && (!this.top.type || !this.top.type.inlineContent)) this.findPlace(this.parser.schema.text("-")); } // Run any style parser associated with the node's styles. Either // return an array of marks, or null to indicate some of the styles // had a rule with `ignore` set. readStyles(styles) { let add = Mark.none, remove = Mark.none; for (let i2 = 0; i2 < styles.length; i2 += 2) { for (let after = void 0; ; ) { let rule = this.parser.matchStyle(styles[i2], styles[i2 + 1], this, after); if (!rule) break; if (rule.ignore) return null; if (rule.clearMark) { this.top.pendingMarks.concat(this.top.activeMarks).forEach((m3) => { if (rule.clearMark(m3)) remove = m3.addToSet(remove); }); } else { add = this.parser.schema.marks[rule.mark].create(rule.attrs).addToSet(add); } if (rule.consuming === false) after = rule; else break; } } return [add, remove]; } // Look up a handler for the given node. If none are found, return // false. Otherwise, apply it, use its return value to drive the way // the node's content is wrapped, and return true. addElementByRule(dom, rule, continueAfter) { let sync, nodeType, mark; if (rule.node) { nodeType = this.parser.schema.nodes[rule.node]; if (!nodeType.isLeaf) { sync = this.enter(nodeType, rule.attrs || null, rule.preserveWhitespace); } else if (!this.insertNode(nodeType.create(rule.attrs))) { this.leafFallback(dom); } } else { let markType = this.parser.schema.marks[rule.mark]; mark = markType.create(rule.attrs); this.addPendingMark(mark); } let startIn = this.top; if (nodeType && nodeType.isLeaf) { this.findInside(dom); } else if (continueAfter) { this.addElement(dom, continueAfter); } else if (rule.getContent) { this.findInside(dom); rule.getContent(dom, this.parser.schema).forEach((node2) => this.insertNode(node2)); } else { let contentDOM = dom; if (typeof rule.contentElement == "string") contentDOM = dom.querySelector(rule.contentElement); else if (typeof rule.contentElement == "function") contentDOM = rule.contentElement(dom); else if (rule.contentElement) contentDOM = rule.contentElement; this.findAround(dom, contentDOM, true); this.addAll(contentDOM); } if (sync && this.sync(startIn)) this.open--; if (mark) this.removePendingMark(mark, startIn); } // Add all child nodes between `startIndex` and `endIndex` (or the // whole node, if not given). If `sync` is passed, use it to // synchronize after every block element. addAll(parent, startIndex, endIndex) { let index2 = startIndex || 0; for (let dom = startIndex ? parent.childNodes[startIndex] : parent.firstChild, end = endIndex == null ? null : parent.childNodes[endIndex]; dom != end; dom = dom.nextSibling, ++index2) { this.findAtPoint(parent, index2); this.addDOM(dom); } this.findAtPoint(parent, index2); } // Try to find a way to fit the given node type into the current // context. May add intermediate wrappers and/or leave non-solid // nodes that we're in. findPlace(node2) { let route, sync; for (let depth = this.open; depth >= 0; depth--) { let cx = this.nodes[depth]; let found2 = cx.findWrapping(node2); if (found2 && (!route || route.length > found2.length)) { route = found2; sync = cx; if (!found2.length) break; } if (cx.solid) break; } if (!route) return false; this.sync(sync); for (let i2 = 0; i2 < route.length; i2++) this.enterInner(route[i2], null, false); return true; } // Try to insert the given node, adjusting the context when needed. insertNode(node2) { if (node2.isInline && this.needsBlock && !this.top.type) { let block = this.textblockFromContext(); if (block) this.enterInner(block); } if (this.findPlace(node2)) { this.closeExtra(); let top = this.top; top.applyPending(node2.type); if (top.match) top.match = top.match.matchType(node2.type); let marks = top.activeMarks; for (let i2 = 0; i2 < node2.marks.length; i2++) if (!top.type || top.type.allowsMarkType(node2.marks[i2].type)) marks = node2.marks[i2].addToSet(marks); top.content.push(node2.mark(marks)); return true; } return false; } // Try to start a node of the given type, adjusting the context when // necessary. enter(type, attrs, preserveWS) { let ok3 = this.findPlace(type.create(attrs)); if (ok3) this.enterInner(type, attrs, true, preserveWS); return ok3; } // Open a node of the given type enterInner(type, attrs = null, solid = false, preserveWS) { this.closeExtra(); let top = this.top; top.applyPending(type); top.match = top.match && top.match.matchType(type); let options2 = wsOptionsFor(type, preserveWS, top.options); if (top.options & OPT_OPEN_LEFT && top.content.length == 0) options2 |= OPT_OPEN_LEFT; this.nodes.push(new NodeContext(type, attrs, top.activeMarks, top.pendingMarks, solid, null, options2)); this.open++; } // Make sure all nodes above this.open are finished and added to // their parents closeExtra(openEnd = false) { let i2 = this.nodes.length - 1; if (i2 > this.open) { for (; i2 > this.open; i2--) this.nodes[i2 - 1].content.push(this.nodes[i2].finish(openEnd)); this.nodes.length = this.open + 1; } } finish() { this.open = 0; this.closeExtra(this.isOpen); return this.nodes[0].finish(this.isOpen || this.options.topOpen); } sync(to) { for (let i2 = this.open; i2 >= 0; i2--) if (this.nodes[i2] == to) { this.open = i2; return true; } return false; } get currentPos() { this.closeExtra(); let pos = 0; for (let i2 = this.open; i2 >= 0; i2--) { let content3 = this.nodes[i2].content; for (let j6 = content3.length - 1; j6 >= 0; j6--) pos += content3[j6].nodeSize; if (i2) pos++; } return pos; } findAtPoint(parent, offset) { if (this.find) for (let i2 = 0; i2 < this.find.length; i2++) { if (this.find[i2].node == parent && this.find[i2].offset == offset) this.find[i2].pos = this.currentPos; } } findInside(parent) { if (this.find) for (let i2 = 0; i2 < this.find.length; i2++) { if (this.find[i2].pos == null && parent.nodeType == 1 && parent.contains(this.find[i2].node)) this.find[i2].pos = this.currentPos; } } findAround(parent, content3, before) { if (parent != content3 && this.find) for (let i2 = 0; i2 < this.find.length; i2++) { if (this.find[i2].pos == null && parent.nodeType == 1 && parent.contains(this.find[i2].node)) { let pos = content3.compareDocumentPosition(this.find[i2].node); if (pos & (before ? 2 : 4)) this.find[i2].pos = this.currentPos; } } } findInText(textNode) { if (this.find) for (let i2 = 0; i2 < this.find.length; i2++) { if (this.find[i2].node == textNode) this.find[i2].pos = this.currentPos - (textNode.nodeValue.length - this.find[i2].offset); } } // Determines whether the given context string matches this context. matchesContext(context) { if (context.indexOf("|") > -1) return context.split(/\s*\|\s*/).some(this.matchesContext, this); let parts = context.split("/"); let option = this.options.context; let useRoot = !this.isOpen && (!option || option.parent.type == this.nodes[0].type); let minDepth = -(option ? option.depth + 1 : 0) + (useRoot ? 0 : 1); let match = (i2, depth) => { for (; i2 >= 0; i2--) { let part = parts[i2]; if (part == "") { if (i2 == parts.length - 1 || i2 == 0) continue; for (; depth >= minDepth; depth--) if (match(i2 - 1, depth)) return true; return false; } else { let next = depth > 0 || depth == 0 && useRoot ? this.nodes[depth].type : option && depth >= minDepth ? option.node(depth - minDepth).type : null; if (!next || next.name != part && next.groups.indexOf(part) == -1) return false; depth--; } } return true; }; return match(parts.length - 1, this.open); } textblockFromContext() { let $context = this.options.context; if ($context) for (let d6 = $context.depth; d6 >= 0; d6--) { let deflt = $context.node(d6).contentMatchAt($context.indexAfter(d6)).defaultType; if (deflt && deflt.isTextblock && deflt.defaultAttrs) return deflt; } for (let name in this.parser.schema.nodes) { let type = this.parser.schema.nodes[name]; if (type.isTextblock && type.defaultAttrs) return type; } } addPendingMark(mark) { let found2 = findSameMarkInSet(mark, this.top.pendingMarks); if (found2) this.top.stashMarks.push(found2); this.top.pendingMarks = mark.addToSet(this.top.pendingMarks); } removePendingMark(mark, upto) { for (let depth = this.open; depth >= 0; depth--) { let level = this.nodes[depth]; let found2 = level.pendingMarks.lastIndexOf(mark); if (found2 > -1) { level.pendingMarks = mark.removeFromSet(level.pendingMarks); } else { level.activeMarks = mark.removeFromSet(level.activeMarks); let stashMark = level.popFromStashMark(mark); if (stashMark && level.type && level.type.allowsMarkType(stashMark.type)) level.activeMarks = stashMark.addToSet(level.activeMarks); } if (level == upto) break; } } }; function normalizeList(dom) { for (let child = dom.firstChild, prevItem = null; child; child = child.nextSibling) { let name = child.nodeType == 1 ? child.nodeName.toLowerCase() : null; if (name && listTags.hasOwnProperty(name) && prevItem) { prevItem.appendChild(child); child = prevItem; } else if (name == "li") { prevItem = child; } else if (name) { prevItem = null; } } } function matches(dom, selector) { return (dom.matches || dom.msMatchesSelector || dom.webkitMatchesSelector || dom.mozMatchesSelector).call(dom, selector); } function parseStyles(style2) { let re4 = /\s*([\w-]+)\s*:\s*([^;]+)/g, m3, result = []; while (m3 = re4.exec(style2)) result.push(m3[1], m3[2].trim()); return result; } function copy(obj) { let copy2 = {}; for (let prop in obj) copy2[prop] = obj[prop]; return copy2; } function markMayApply(markType, nodeType) { let nodes = nodeType.schema.nodes; for (let name in nodes) { let parent = nodes[name]; if (!parent.allowsMarkType(markType)) continue; let seen = [], scan = (match) => { seen.push(match); for (let i2 = 0; i2 < match.edgeCount; i2++) { let { type, next } = match.edge(i2); if (type == nodeType) return true; if (seen.indexOf(next) < 0 && scan(next)) return true; } }; if (scan(parent.contentMatch)) return true; } } function findSameMarkInSet(mark, set) { for (let i2 = 0; i2 < set.length; i2++) { if (mark.eq(set[i2])) return set[i2]; } } var DOMSerializer = class _DOMSerializer { /** Create a serializer. `nodes` should map node names to functions that take a node and return a description of the corresponding DOM. `marks` does the same for mark names, but also gets an argument that tells it whether the mark's content is block or inline content (for typical use, it'll always be inline). A mark serializer may be `null` to indicate that marks of that type should not be serialized. */ constructor(nodes, marks) { this.nodes = nodes; this.marks = marks; } /** Serialize the content of this fragment to a DOM fragment. When not in the browser, the `document` option, containing a DOM document, should be passed so that the serializer can create nodes. */ serializeFragment(fragment, options2 = {}, target) { if (!target) target = doc(options2).createDocumentFragment(); let top = target, active = []; fragment.forEach((node2) => { if (active.length || node2.marks.length) { let keep = 0, rendered = 0; while (keep < active.length && rendered < node2.marks.length) { let next = node2.marks[rendered]; if (!this.marks[next.type.name]) { rendered++; continue; } if (!next.eq(active[keep][0]) || next.type.spec.spanning === false) break; keep++; rendered++; } while (keep < active.length) top = active.pop()[1]; while (rendered < node2.marks.length) { let add = node2.marks[rendered++]; let markDOM = this.serializeMark(add, node2.isInline, options2); if (markDOM) { active.push([add, top]); top.appendChild(markDOM.dom); top = markDOM.contentDOM || markDOM.dom; } } } top.appendChild(this.serializeNodeInner(node2, options2)); }); return target; } /** @internal */ serializeNodeInner(node2, options2) { let { dom, contentDOM } = _DOMSerializer.renderSpec(doc(options2), this.nodes[node2.type.name](node2)); if (contentDOM) { if (node2.isLeaf) throw new RangeError("Content hole not allowed in a leaf node spec"); this.serializeFragment(node2.content, options2, contentDOM); } return dom; } /** Serialize this node to a DOM node. This can be useful when you need to serialize a part of a document, as opposed to the whole document. To serialize a whole document, use [`serializeFragment`](https://prosemirror.net/docs/ref/#model.DOMSerializer.serializeFragment) on its [content](https://prosemirror.net/docs/ref/#model.Node.content). */ serializeNode(node2, options2 = {}) { let dom = this.serializeNodeInner(node2, options2); for (let i2 = node2.marks.length - 1; i2 >= 0; i2--) { let wrap3 = this.serializeMark(node2.marks[i2], node2.isInline, options2); if (wrap3) { (wrap3.contentDOM || wrap3.dom).appendChild(dom); dom = wrap3.dom; } } return dom; } /** @internal */ serializeMark(mark, inline, options2 = {}) { let toDOM = this.marks[mark.type.name]; return toDOM && _DOMSerializer.renderSpec(doc(options2), toDOM(mark, inline)); } /** Render an [output spec](https://prosemirror.net/docs/ref/#model.DOMOutputSpec) to a DOM node. If the spec has a hole (zero) in it, `contentDOM` will point at the node with the hole. */ static renderSpec(doc4, structure, xmlNS = null) { if (typeof structure == "string") return { dom: doc4.createTextNode(structure) }; if (structure.nodeType != null) return { dom: structure }; if (structure.dom && structure.dom.nodeType != null) return structure; let tagName = structure[0], space = tagName.indexOf(" "); if (space > 0) { xmlNS = tagName.slice(0, space); tagName = tagName.slice(space + 1); } let contentDOM; let dom = xmlNS ? doc4.createElementNS(xmlNS, tagName) : doc4.createElement(tagName); let attrs = structure[1], start = 1; if (attrs && typeof attrs == "object" && attrs.nodeType == null && !Array.isArray(attrs)) { start = 2; for (let name in attrs) if (attrs[name] != null) { let space2 = name.indexOf(" "); if (space2 > 0) dom.setAttributeNS(name.slice(0, space2), name.slice(space2 + 1), attrs[name]); else dom.setAttribute(name, attrs[name]); } } for (let i2 = start; i2 < structure.length; i2++) { let child = structure[i2]; if (child === 0) { if (i2 < structure.length - 1 || i2 > start) throw new RangeError("Content hole must be the only child of its parent node"); return { dom, contentDOM: dom }; } else { let { dom: inner, contentDOM: innerContent } = _DOMSerializer.renderSpec(doc4, child, xmlNS); dom.appendChild(inner); if (innerContent) { if (contentDOM) throw new RangeError("Multiple content holes"); contentDOM = innerContent; } } } return { dom, contentDOM }; } /** Build a serializer using the [`toDOM`](https://prosemirror.net/docs/ref/#model.NodeSpec.toDOM) properties in a schema's node and mark specs. */ static fromSchema(schema) { return schema.cached.domSerializer || (schema.cached.domSerializer = new _DOMSerializer(this.nodesFromSchema(schema), this.marksFromSchema(schema))); } /** Gather the serializers in a schema's node specs into an object. This can be useful as a base to build a custom serializer from. */ static nodesFromSchema(schema) { let result = gatherToDOM(schema.nodes); if (!result.text) result.text = (node2) => node2.text; return result; } /** Gather the serializers in a schema's mark specs into an object. */ static marksFromSchema(schema) { return gatherToDOM(schema.marks); } }; function gatherToDOM(obj) { let result = {}; for (let name in obj) { let toDOM = obj[name].spec.toDOM; if (toDOM) result[name] = toDOM; } return result; } function doc(options2) { return options2.document || window.document; } // node_modules/mdast-util-to-string/lib/index.js var emptyOptions = {}; function toString(value, options2) { const settings = options2 || 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/decode-named-character-reference/index.dom.js var element = document.createElement("i"); function decodeNamedCharacterReference(value) { const characterReference2 = "&" + value + ";"; element.innerHTML = characterReference2; const char = element.textContent; if (char.charCodeAt(char.length - 1) === 59 && value !== "semi") { return false; } return char === characterReference2 ? false : char; } // 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 code3; if (right) { for (code3 in right) { if (!hasOwnProperty.call(left, code3)) left[code3] = []; const value = right[code3]; constructs( // @ts-expect-error Looks like a list. left[code3], 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, base2) { const code3 = Number.parseInt(value, base2); if ( // C0 except for HT, LF, FF, CR, space. code3 < 9 || code3 === 11 || code3 > 13 && code3 < 32 || // Control character (DEL) of C0, and C1 controls. code3 > 126 && code3 < 160 || // Lone high surrogates and low surrogates. code3 > 55295 && code3 < 57344 || // Noncharacters. code3 > 64975 && code3 < 65008 || /* eslint-disable no-bitwise */ (code3 & 65535) === 65535 || (code3 & 65535) === 65534 || /* eslint-enable no-bitwise */ // Out of range code3 > 1114111 ) { return "\uFFFD"; } return String.fromCodePoint(code3); } // 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 asciiAlpha = regexCheck(/[A-Za-z]/); var asciiAlphanumeric = regexCheck(/[\dA-Za-z]/); var asciiAtext = regexCheck(/[#-'*+\--9=?A-Z^-~]/); function asciiControl(code3) { return ( // Special whitespace codes (which have negative values), C0 and Control // character DEL code3 !== null && (code3 < 32 || code3 === 127) ); } var asciiDigit = regexCheck(/\d/); var asciiHexDigit = regexCheck(/[\dA-Fa-f]/); var asciiPunctuation = regexCheck(/[!-/:-@[-`{-~]/); function markdownLineEnding(code3) { return code3 !== null && code3 < -2; } function markdownLineEndingOrSpace(code3) { return code3 !== null && (code3 < 0 || code3 === 32); } function markdownSpace(code3) { return code3 === -2 || code3 === -1 || code3 === 32; } var unicodePunctuation = regexCheck(new RegExp("\\p{P}|\\p{S}", "u")); var unicodeWhitespace = regexCheck(/\s/); function regexCheck(regex) { return check; function check(code3) { return code3 !== null && code3 > -1 && regex.test(String.fromCharCode(code3)); } } // 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(code3) { if (markdownSpace(code3)) { effects.enter(type); return prefix(code3); } return ok3(code3); } function prefix(code3) { if (markdownSpace(code3) && size++ < limit) { effects.consume(code3); return prefix; } effects.exit(type); return ok3(code3); } } // 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 previous3; return contentStart; function afterContentStartConstruct(code3) { if (code3 === null) { effects.consume(code3); return; } effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return factorySpace(effects, contentStart, "linePrefix"); } function paragraphInitial(code3) { effects.enter("paragraph"); return lineStart(code3); } function lineStart(code3) { const token = effects.enter("chunkText", { contentType: "text", previous: previous3 }); if (previous3) { previous3.next = token; } previous3 = token; return data(code3); } function data(code3) { if (code3 === null) { effects.exit("chunkText"); effects.exit("paragraph"); effects.consume(code3); return; } if (markdownLineEnding(code3)) { effects.consume(code3); effects.exit("chunkText"); return lineStart; } effects.consume(code3); return data; } } // node_modules/micromark/lib/initialize/document.js var document2 = { tokenize: initializeDocument }; var containerConstruct = { tokenize: tokenizeContainer }; function initializeDocument(effects) { const self2 = this; const stack = []; let continued = 0; let childFlow; let childToken; let lineStartOffset; return start; function start(code3) { if (continued < stack.length) { const item = stack[continued]; self2.containerState = item[1]; return effects.attempt( item[0].continuation, documentContinue, checkNewContainers )(code3); } return checkNewContainers(code3); } function documentContinue(code3) { continued++; if (self2.containerState._closeFlow) { self2.containerState._closeFlow = void 0; if (childFlow) { closeFlow(); } const indexBeforeExits = self2.events.length; let indexBeforeFlow = indexBeforeExits; let point3; while (indexBeforeFlow--) { if (self2.events[indexBeforeFlow][0] === "exit" && self2.events[indexBeforeFlow][1].type === "chunkFlow") { point3 = self2.events[indexBeforeFlow][1].end; break; } } exitContainers(continued); let index2 = indexBeforeExits; while (index2 < self2.events.length) { self2.events[index2][1].end = Object.assign({}, point3); index2++; } splice( self2.events, indexBeforeFlow + 1, 0, self2.events.slice(indexBeforeExits) ); self2.events.length = index2; return checkNewContainers(code3); } return start(code3); } function checkNewContainers(code3) { if (continued === stack.length) { if (!childFlow) { return documentContinued(code3); } if (childFlow.currentConstruct && childFlow.currentConstruct.concrete) { return flowStart(code3); } self2.interrupt = Boolean( childFlow.currentConstruct && !childFlow._gfmTableDynamicInterruptHack ); } self2.containerState = {}; return effects.check( containerConstruct, thereIsANewContainer, thereIsNoNewContainer )(code3); } function thereIsANewContainer(code3) { if (childFlow) closeFlow(); exitContainers(continued); return documentContinued(code3); } function thereIsNoNewContainer(code3) { self2.parser.lazy[self2.now().line] = continued !== stack.length; lineStartOffset = self2.now().offset; return flowStart(code3); } function documentContinued(code3) { self2.containerState = {}; return effects.attempt( containerConstruct, containerContinue, flowStart )(code3); } function containerContinue(code3) { continued++; stack.push([self2.currentConstruct, self2.containerState]); return documentContinued(code3); } function flowStart(code3) { if (code3 === null) { if (childFlow) closeFlow(); exitContainers(0); effects.consume(code3); return; } childFlow = childFlow || self2.parser.flow(self2.now()); effects.enter("chunkFlow", { contentType: "flow", previous: childToken, _tokenizer: childFlow }); return flowContinue(code3); } function flowContinue(code3) { if (code3 === null) { writeToChild(effects.exit("chunkFlow"), true); exitContainers(0); effects.consume(code3); return; } if (markdownLineEnding(code3)) { effects.consume(code3); writeToChild(effects.exit("chunkFlow")); continued = 0; self2.interrupt = void 0; return start; } effects.consume(code3); return flowContinue; } function writeToChild(token, eof) { const stream = self2.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 (self2.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 = self2.events.length; let indexBeforeFlow = indexBeforeExits; let seen; let point3; while (indexBeforeFlow--) { if (self2.events[indexBeforeFlow][0] === "exit" && self2.events[indexBeforeFlow][1].type === "chunkFlow") { if (seen) { point3 = self2.events[indexBeforeFlow][1].end; break; } seen = true; } } exitContainers(continued); index2 = indexBeforeExits; while (index2 < self2.events.length) { self2.events[index2][1].end = Object.assign({}, point3); index2++; } splice( self2.events, indexBeforeFlow + 1, 0, self2.events.slice(indexBeforeExits) ); self2.events.length = index2; } } function exitContainers(size) { let index2 = stack.length; while (index2-- > size) { const entry = stack[index2]; self2.containerState = entry[1]; entry[0].exit.call(self2, effects); } stack.length = size; } function closeFlow() { childFlow.write([null]); childToken = void 0; childFlow = void 0; self2.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(code3) { if (code3 === null || markdownLineEndingOrSpace(code3) || unicodeWhitespace(code3)) { return 1; } if (unicodePunctuation(code3)) { 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 text5; 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 }; text5 = { 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", text5, context]]); nextEvents = push(nextEvents, resolveAll(context.parser.constructs.insideSpan.null, events.slice(open + 1, index2), context)); nextEvents = push(nextEvents, [["exit", text5, 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 previous3 = this.previous; const before = classifyCharacter(previous3); let marker; return start; function start(code3) { marker = code3; effects.enter("attentionSequence"); return inside(code3); } function inside(code3) { if (code3 === marker) { effects.consume(code3); return inside; } const token = effects.exit("attentionSequence"); const after = classifyCharacter(code3); const open = !after || after === 2 && before || attentionMarkers2.includes(code3); const close2 = !before || before === 2 && after || attentionMarkers2.includes(previous3); token._open = Boolean(marker === 42 ? open : open && (before || !close2)); token._close = Boolean(marker === 42 ? close2 : close2 && (after || !open)); return ok3(code3); } } 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(code3) { effects.enter("autolink"); effects.enter("autolinkMarker"); effects.consume(code3); effects.exit("autolinkMarker"); effects.enter("autolinkProtocol"); return open; } function open(code3) { if (asciiAlpha(code3)) { effects.consume(code3); return schemeOrEmailAtext; } if (code3 === 64) { return nok(code3); } return emailAtext(code3); } function schemeOrEmailAtext(code3) { if (code3 === 43 || code3 === 45 || code3 === 46 || asciiAlphanumeric(code3)) { size = 1; return schemeInsideOrEmailAtext(code3); } return emailAtext(code3); } function schemeInsideOrEmailAtext(code3) { if (code3 === 58) { effects.consume(code3); size = 0; return urlInside; } if ((code3 === 43 || code3 === 45 || code3 === 46 || asciiAlphanumeric(code3)) && size++ < 32) { effects.consume(code3); return schemeInsideOrEmailAtext; } size = 0; return emailAtext(code3); } function urlInside(code3) { if (code3 === 62) { effects.exit("autolinkProtocol"); effects.enter("autolinkMarker"); effects.consume(code3); effects.exit("autolinkMarker"); effects.exit("autolink"); return ok3; } if (code3 === null || code3 === 32 || code3 === 60 || asciiControl(code3)) { return nok(code3); } effects.consume(code3); return urlInside; } function emailAtext(code3) { if (code3 === 64) { effects.consume(code3); return emailAtSignOrDot; } if (asciiAtext(code3)) { effects.consume(code3); return emailAtext; } return nok(code3); } function emailAtSignOrDot(code3) { return asciiAlphanumeric(code3) ? emailLabel(code3) : nok(code3); } function emailLabel(code3) { if (code3 === 46) { effects.consume(code3); size = 0; return emailAtSignOrDot; } if (code3 === 62) { effects.exit("autolinkProtocol").type = "autolinkEmail"; effects.enter("autolinkMarker"); effects.consume(code3); effects.exit("autolinkMarker"); effects.exit("autolink"); return ok3; } return emailValue(code3); } function emailValue(code3) { if ((code3 === 45 || asciiAlphanumeric(code3)) && size++ < 63) { const next = code3 === 45 ? emailValue : emailLabel; effects.consume(code3); return next; } return nok(code3); } } // node_modules/micromark-core-commonmark/lib/blank-line.js var blankLine = { tokenize: tokenizeBlankLine, partial: true }; function tokenizeBlankLine(effects, ok3, nok) { return start; function start(code3) { return markdownSpace(code3) ? factorySpace(effects, after, "linePrefix")(code3) : after(code3); } function after(code3) { return code3 === null || markdownLineEnding(code3) ? ok3(code3) : nok(code3); } } // 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 self2 = this; return start; function start(code3) { if (code3 === 62) { const state = self2.containerState; if (!state.open) { effects.enter("blockQuote", { _container: true }); state.open = true; } effects.enter("blockQuotePrefix"); effects.enter("blockQuoteMarker"); effects.consume(code3); effects.exit("blockQuoteMarker"); return after; } return nok(code3); } function after(code3) { if (markdownSpace(code3)) { effects.enter("blockQuotePrefixWhitespace"); effects.consume(code3); effects.exit("blockQuotePrefixWhitespace"); effects.exit("blockQuotePrefix"); return ok3; } effects.exit("blockQuotePrefix"); return ok3(code3); } } function tokenizeBlockQuoteContinuation(effects, ok3, nok) { const self2 = this; return contStart; function contStart(code3) { if (markdownSpace(code3)) { return factorySpace(effects, contBefore, "linePrefix", self2.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4)(code3); } return contBefore(code3); } function contBefore(code3) { return effects.attempt(blockQuote, ok3, nok)(code3); } } 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(code3) { effects.enter("characterEscape"); effects.enter("escapeMarker"); effects.consume(code3); effects.exit("escapeMarker"); return inside; } function inside(code3) { if (asciiPunctuation(code3)) { effects.enter("characterEscapeValue"); effects.consume(code3); effects.exit("characterEscapeValue"); effects.exit("characterEscape"); return ok3; } return nok(code3); } } // node_modules/micromark-core-commonmark/lib/character-reference.js var characterReference = { name: "characterReference", tokenize: tokenizeCharacterReference }; function tokenizeCharacterReference(effects, ok3, nok) { const self2 = this; let size = 0; let max; let test; return start; function start(code3) { effects.enter("characterReference"); effects.enter("characterReferenceMarker"); effects.consume(code3); effects.exit("characterReferenceMarker"); return open; } function open(code3) { if (code3 === 35) { effects.enter("characterReferenceMarkerNumeric"); effects.consume(code3); effects.exit("characterReferenceMarkerNumeric"); return numeric; } effects.enter("characterReferenceValue"); max = 31; test = asciiAlphanumeric; return value(code3); } function numeric(code3) { if (code3 === 88 || code3 === 120) { effects.enter("characterReferenceMarkerHexadecimal"); effects.consume(code3); effects.exit("characterReferenceMarkerHexadecimal"); effects.enter("characterReferenceValue"); max = 6; test = asciiHexDigit; return value; } effects.enter("characterReferenceValue"); max = 7; test = asciiDigit; return value(code3); } function value(code3) { if (code3 === 59 && size) { const token = effects.exit("characterReferenceValue"); if (test === asciiAlphanumeric && !decodeNamedCharacterReference(self2.sliceSerialize(token))) { return nok(code3); } effects.enter("characterReferenceMarker"); effects.consume(code3); effects.exit("characterReferenceMarker"); effects.exit("characterReference"); return ok3; } if (test(code3) && size++ < max) { effects.consume(code3); return value; } return nok(code3); } } // 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 self2 = this; const closeStart = { tokenize: tokenizeCloseStart, partial: true }; let initialPrefix = 0; let sizeOpen = 0; let marker; return start; function start(code3) { return beforeSequenceOpen(code3); } function beforeSequenceOpen(code3) { const tail = self2.events[self2.events.length - 1]; initialPrefix = tail && tail[1].type === "linePrefix" ? tail[2].sliceSerialize(tail[1], true).length : 0; marker = code3; effects.enter("codeFenced"); effects.enter("codeFencedFence"); effects.enter("codeFencedFenceSequence"); return sequenceOpen(code3); } function sequenceOpen(code3) { if (code3 === marker) { sizeOpen++; effects.consume(code3); return sequenceOpen; } if (sizeOpen < 3) { return nok(code3); } effects.exit("codeFencedFenceSequence"); return markdownSpace(code3) ? factorySpace(effects, infoBefore, "whitespace")(code3) : infoBefore(code3); } function infoBefore(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("codeFencedFence"); return self2.interrupt ? ok3(code3) : effects.check(nonLazyContinuation, atNonLazyBreak, after)(code3); } effects.enter("codeFencedFenceInfo"); effects.enter("chunkString", { contentType: "string" }); return info(code3); } function info(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("chunkString"); effects.exit("codeFencedFenceInfo"); return infoBefore(code3); } if (markdownSpace(code3)) { effects.exit("chunkString"); effects.exit("codeFencedFenceInfo"); return factorySpace(effects, metaBefore, "whitespace")(code3); } if (code3 === 96 && code3 === marker) { return nok(code3); } effects.consume(code3); return info; } function metaBefore(code3) { if (code3 === null || markdownLineEnding(code3)) { return infoBefore(code3); } effects.enter("codeFencedFenceMeta"); effects.enter("chunkString", { contentType: "string" }); return meta(code3); } function meta(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("chunkString"); effects.exit("codeFencedFenceMeta"); return infoBefore(code3); } if (code3 === 96 && code3 === marker) { return nok(code3); } effects.consume(code3); return meta; } function atNonLazyBreak(code3) { return effects.attempt(closeStart, after, contentBefore)(code3); } function contentBefore(code3) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return contentStart; } function contentStart(code3) { return initialPrefix > 0 && markdownSpace(code3) ? factorySpace(effects, beforeContentChunk, "linePrefix", initialPrefix + 1)(code3) : beforeContentChunk(code3); } function beforeContentChunk(code3) { if (code3 === null || markdownLineEnding(code3)) { return effects.check(nonLazyContinuation, atNonLazyBreak, after)(code3); } effects.enter("codeFlowValue"); return contentChunk(code3); } function contentChunk(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("codeFlowValue"); return beforeContentChunk(code3); } effects.consume(code3); return contentChunk; } function after(code3) { effects.exit("codeFenced"); return ok3(code3); } function tokenizeCloseStart(effects2, ok4, nok2) { let size = 0; return startBefore; function startBefore(code3) { effects2.enter("lineEnding"); effects2.consume(code3); effects2.exit("lineEnding"); return start2; } function start2(code3) { effects2.enter("codeFencedFence"); return markdownSpace(code3) ? factorySpace(effects2, beforeSequenceClose, "linePrefix", self2.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4)(code3) : beforeSequenceClose(code3); } function beforeSequenceClose(code3) { if (code3 === marker) { effects2.enter("codeFencedFenceSequence"); return sequenceClose(code3); } return nok2(code3); } function sequenceClose(code3) { if (code3 === marker) { size++; effects2.consume(code3); return sequenceClose; } if (size >= sizeOpen) { effects2.exit("codeFencedFenceSequence"); return markdownSpace(code3) ? factorySpace(effects2, sequenceCloseAfter, "whitespace")(code3) : sequenceCloseAfter(code3); } return nok2(code3); } function sequenceCloseAfter(code3) { if (code3 === null || markdownLineEnding(code3)) { effects2.exit("codeFencedFence"); return ok4(code3); } return nok2(code3); } } } function tokenizeNonLazyContinuation(effects, ok3, nok) { const self2 = this; return start; function start(code3) { if (code3 === null) { return nok(code3); } effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return lineStart; } function lineStart(code3) { return self2.parser.lazy[self2.now().line] ? nok(code3) : ok3(code3); } } // 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 self2 = this; return start; function start(code3) { effects.enter("codeIndented"); return factorySpace(effects, afterPrefix, "linePrefix", 4 + 1)(code3); } function afterPrefix(code3) { const tail = self2.events[self2.events.length - 1]; return tail && tail[1].type === "linePrefix" && tail[2].sliceSerialize(tail[1], true).length >= 4 ? atBreak(code3) : nok(code3); } function atBreak(code3) { if (code3 === null) { return after(code3); } if (markdownLineEnding(code3)) { return effects.attempt(furtherStart, atBreak, after)(code3); } effects.enter("codeFlowValue"); return inside(code3); } function inside(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("codeFlowValue"); return atBreak(code3); } effects.consume(code3); return inside; } function after(code3) { effects.exit("codeIndented"); return ok3(code3); } } function tokenizeFurtherStart(effects, ok3, nok) { const self2 = this; return furtherStart2; function furtherStart2(code3) { if (self2.parser.lazy[self2.now().line]) { return nok(code3); } if (markdownLineEnding(code3)) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return furtherStart2; } return factorySpace(effects, afterPrefix, "linePrefix", 4 + 1)(code3); } function afterPrefix(code3) { const tail = self2.events[self2.events.length - 1]; return tail && tail[1].type === "linePrefix" && tail[2].sliceSerialize(tail[1], true).length >= 4 ? ok3(code3) : markdownLineEnding(code3) ? furtherStart2(code3) : nok(code3); } } // 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(code3) { return code3 !== 96 || this.events[this.events.length - 1][1].type === "characterEscape"; } function tokenizeCodeText(effects, ok3, nok) { const self2 = this; let sizeOpen = 0; let size; let token; return start; function start(code3) { effects.enter("codeText"); effects.enter("codeTextSequence"); return sequenceOpen(code3); } function sequenceOpen(code3) { if (code3 === 96) { effects.consume(code3); sizeOpen++; return sequenceOpen; } effects.exit("codeTextSequence"); return between2(code3); } function between2(code3) { if (code3 === null) { return nok(code3); } if (code3 === 32) { effects.enter("space"); effects.consume(code3); effects.exit("space"); return between2; } if (code3 === 96) { token = effects.enter("codeTextSequence"); size = 0; return sequenceClose(code3); } if (markdownLineEnding(code3)) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return between2; } effects.enter("codeTextData"); return data(code3); } function data(code3) { if (code3 === null || code3 === 32 || code3 === 96 || markdownLineEnding(code3)) { effects.exit("codeTextData"); return between2(code3); } effects.consume(code3); return data; } function sequenceClose(code3) { if (code3 === 96) { effects.consume(code3); size++; return sequenceClose; } if (size === sizeOpen) { effects.exit("codeTextSequence"); effects.exit("codeText"); return ok3(code3); } token.type = "codeTextData"; return data(code3); } } // node_modules/micromark-util-subtokenize/lib/splice-buffer.js var SpliceBuffer = class { /** * @param {ReadonlyArray | null | undefined} [initial] * Initial items (optional). * @returns * Splice buffer. */ constructor(initial) { this.left = initial ? [...initial] : []; this.right = []; } /** * Array access; * does not move the cursor. * * @param {number} index * Index. * @return {T} * Item. */ get(index2) { if (index2 < 0 || index2 >= this.left.length + this.right.length) { throw new RangeError("Cannot access index `" + index2 + "` in a splice buffer of size `" + (this.left.length + this.right.length) + "`"); } if (index2 < this.left.length) return this.left[index2]; return this.right[this.right.length - index2 + this.left.length - 1]; } /** * The length of the splice buffer, one greater than the largest index in the * array. */ get length() { return this.left.length + this.right.length; } /** * Remove and return `list[0]`; * moves the cursor to `0`. * * @returns {T | undefined} * Item, optional. */ shift() { this.setCursor(0); return this.right.pop(); } /** * Slice the buffer to get an array; * does not move the cursor. * * @param {number} start * Start. * @param {number | null | undefined} [end] * End (optional). * @returns {Array} * Array of items. */ slice(start, end) { const stop = end === null || end === void 0 ? Number.POSITIVE_INFINITY : end; if (stop < this.left.length) { return this.left.slice(start, stop); } if (start > this.left.length) { return this.right.slice(this.right.length - stop + this.left.length, this.right.length - start + this.left.length).reverse(); } return this.left.slice(start).concat(this.right.slice(this.right.length - stop + this.left.length).reverse()); } /** * Mimics the behavior of Array.prototype.splice() except for the change of * interface necessary to avoid segfaults when patching in very large arrays. * * This operation moves cursor is moved to `start` and results in the cursor * placed after any inserted items. * * @param {number} start * Start; * zero-based index at which to start changing the array; * negative numbers count backwards from the end of the array and values * that are out-of bounds are clamped to the appropriate end of the array. * @param {number | null | undefined} [deleteCount=0] * Delete count (default: `0`); * maximum number of elements to delete, starting from start. * @param {Array | null | undefined} [items=[]] * Items to include in place of the deleted items (default: `[]`). * @return {Array} * Any removed items. */ splice(start, deleteCount, items) { const count = deleteCount || 0; this.setCursor(Math.trunc(start)); const removed = this.right.splice(this.right.length - count, Number.POSITIVE_INFINITY); if (items) chunkedPush(this.left, items); return removed.reverse(); } /** * Remove and return the highest-numbered item in the array, so * `list[list.length - 1]`; * Moves the cursor to `length`. * * @returns {T | undefined} * Item, optional. */ pop() { this.setCursor(Number.POSITIVE_INFINITY); return this.left.pop(); } /** * Inserts a single item to the high-numbered side of the array; * moves the cursor to `length`. * * @param {T} item * Item. * @returns {undefined} * Nothing. */ push(item) { this.setCursor(Number.POSITIVE_INFINITY); this.left.push(item); } /** * Inserts many items to the high-numbered side of the array. * Moves the cursor to `length`. * * @param {Array} items * Items. * @returns {undefined} * Nothing. */ pushMany(items) { this.setCursor(Number.POSITIVE_INFINITY); chunkedPush(this.left, items); } /** * Inserts a single item to the low-numbered side of the array; * Moves the cursor to `0`. * * @param {T} item * Item. * @returns {undefined} * Nothing. */ unshift(item) { this.setCursor(0); this.right.push(item); } /** * Inserts many items to the low-numbered side of the array; * moves the cursor to `0`. * * @param {Array} items * Items. * @returns {undefined} * Nothing. */ unshiftMany(items) { this.setCursor(0); chunkedPush(this.right, items.reverse()); } /** * Move the cursor to a specific position in the array. Requires * time proportional to the distance moved. * * If `n < 0`, the cursor will end up at the beginning. * If `n > length`, the cursor will end up at the end. * * @param {number} n * Position. * @return {undefined} * Nothing. */ setCursor(n4) { if (n4 === this.left.length || n4 > this.left.length && this.right.length === 0 || n4 < 0 && this.left.length === 0) return; if (n4 < this.left.length) { const removed = this.left.splice(n4, Number.POSITIVE_INFINITY); chunkedPush(this.right, removed.reverse()); } else { const removed = this.right.splice(this.left.length + this.right.length - n4, Number.POSITIVE_INFINITY); chunkedPush(this.left, removed.reverse()); } } }; function chunkedPush(list4, right) { let chunkStart = 0; if (right.length < 1e4) { list4.push(...right); } else { while (chunkStart < right.length) { list4.push(...right.slice(chunkStart, chunkStart + 1e4)); chunkStart += 1e4; } } } // node_modules/micromark-util-subtokenize/index.js function subtokenize(eventsArray) { const jumps = {}; let index2 = -1; let event; let lineIndex; let otherIndex; let otherEvent; let parameters; let subevents; let more; const events = new SpliceBuffer(eventsArray); while (++index2 < events.length) { while (index2 in jumps) { index2 = jumps[index2]; } event = events.get(index2); if (index2 && event[1].type === "chunkFlow" && events.get(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.get(otherIndex); if (otherEvent[1].type === "lineEnding" || otherEvent[1].type === "lineEndingBlank") { if (otherEvent[0] === "enter") { if (lineIndex) { events.get(lineIndex)[1].type = "lineEndingBlank"; } otherEvent[1].type = "lineEnding"; lineIndex = otherIndex; } } else { break; } } if (lineIndex) { event[1].end = Object.assign({}, events.get(lineIndex)[1].start); parameters = events.slice(lineIndex, index2); parameters.unshift(event); events.splice(lineIndex, index2 - lineIndex + 1, parameters); } } } splice(eventsArray, 0, Number.POSITIVE_INFINITY, events.slice(0)); return !more; } function subcontent(events, eventIndex) { const token = events.get(eventIndex)[1]; const context = events.get(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 previous3; let index2 = -1; let current = token; let adjust = 0; let start = 0; const breaks = [start]; while (current) { while (events.get(++startPosition)[1] !== current) { } startPositions.push(startPosition); if (!current._tokenizer) { stream = context.sliceStream(current); if (!current.next) { stream.push(null); } if (previous3) { tokenizer.defineSkip(current.start); } if (current._isInFirstContentOfListItem) { tokenizer._gfmTasklistFirstContentOfListItem = true; } tokenizer.write(stream); if (current._isInFirstContentOfListItem) { tokenizer._gfmTasklistFirstContentOfListItem = void 0; } } previous3 = 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.push([start2, start2 + slice.length - 1]); events.splice(start2, 2, slice); } jumps.reverse(); 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 previous3; return chunkStart; function chunkStart(code3) { effects.enter("content"); previous3 = effects.enter("chunkContent", { contentType: "content" }); return chunkInside(code3); } function chunkInside(code3) { if (code3 === null) { return contentEnd(code3); } if (markdownLineEnding(code3)) { return effects.check(continuationConstruct, contentContinue, contentEnd)(code3); } effects.consume(code3); return chunkInside; } function contentEnd(code3) { effects.exit("chunkContent"); effects.exit("content"); return ok3(code3); } function contentContinue(code3) { effects.consume(code3); effects.exit("chunkContent"); previous3.next = effects.enter("chunkContent", { contentType: "content", previous: previous3 }); previous3 = previous3.next; return chunkInside; } } function tokenizeContinuation(effects, ok3, nok) { const self2 = this; return startLookahead; function startLookahead(code3) { effects.exit("chunkContent"); effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return factorySpace(effects, prefixed, "linePrefix"); } function prefixed(code3) { if (code3 === null || markdownLineEnding(code3)) { return nok(code3); } const tail = self2.events[self2.events.length - 1]; if (!self2.parser.constructs.disable.null.includes("codeIndented") && tail && tail[1].type === "linePrefix" && tail[2].sliceSerialize(tail[1], true).length >= 4) { return ok3(code3); } return effects.interrupt(self2.parser.constructs.flow, nok, ok3)(code3); } } // 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(code3) { if (code3 === 60) { effects.enter(type); effects.enter(literalType); effects.enter(literalMarkerType); effects.consume(code3); effects.exit(literalMarkerType); return enclosedBefore; } if (code3 === null || code3 === 32 || code3 === 41 || asciiControl(code3)) { return nok(code3); } effects.enter(type); effects.enter(rawType); effects.enter(stringType); effects.enter("chunkString", { contentType: "string" }); return raw(code3); } function enclosedBefore(code3) { if (code3 === 62) { effects.enter(literalMarkerType); effects.consume(code3); effects.exit(literalMarkerType); effects.exit(literalType); effects.exit(type); return ok3; } effects.enter(stringType); effects.enter("chunkString", { contentType: "string" }); return enclosed(code3); } function enclosed(code3) { if (code3 === 62) { effects.exit("chunkString"); effects.exit(stringType); return enclosedBefore(code3); } if (code3 === null || code3 === 60 || markdownLineEnding(code3)) { return nok(code3); } effects.consume(code3); return code3 === 92 ? enclosedEscape : enclosed; } function enclosedEscape(code3) { if (code3 === 60 || code3 === 62 || code3 === 92) { effects.consume(code3); return enclosed; } return enclosed(code3); } function raw(code3) { if (!balance && (code3 === null || code3 === 41 || markdownLineEndingOrSpace(code3))) { effects.exit("chunkString"); effects.exit(stringType); effects.exit(rawType); effects.exit(type); return ok3(code3); } if (balance < limit && code3 === 40) { effects.consume(code3); balance++; return raw; } if (code3 === 41) { effects.consume(code3); balance--; return raw; } if (code3 === null || code3 === 32 || code3 === 40 || asciiControl(code3)) { return nok(code3); } effects.consume(code3); return code3 === 92 ? rawEscape : raw; } function rawEscape(code3) { if (code3 === 40 || code3 === 41 || code3 === 92) { effects.consume(code3); return raw; } return raw(code3); } } // node_modules/micromark-factory-label/index.js function factoryLabel(effects, ok3, nok, type, markerType, stringType) { const self2 = this; let size = 0; let seen; return start; function start(code3) { effects.enter(type); effects.enter(markerType); effects.consume(code3); effects.exit(markerType); effects.enter(stringType); return atBreak; } function atBreak(code3) { if (size > 999 || code3 === null || code3 === 91 || code3 === 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 */ code3 === 94 && !size && "_hiddenFootnoteSupport" in self2.parser.constructs) { return nok(code3); } if (code3 === 93) { effects.exit(stringType); effects.enter(markerType); effects.consume(code3); effects.exit(markerType); effects.exit(type); return ok3; } if (markdownLineEnding(code3)) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return atBreak; } effects.enter("chunkString", { contentType: "string" }); return labelInside(code3); } function labelInside(code3) { if (code3 === null || code3 === 91 || code3 === 93 || markdownLineEnding(code3) || size++ > 999) { effects.exit("chunkString"); return atBreak(code3); } effects.consume(code3); if (!seen) seen = !markdownSpace(code3); return code3 === 92 ? labelEscape : labelInside; } function labelEscape(code3) { if (code3 === 91 || code3 === 92 || code3 === 93) { effects.consume(code3); size++; return labelInside; } return labelInside(code3); } } // node_modules/micromark-factory-title/index.js function factoryTitle(effects, ok3, nok, type, markerType, stringType) { let marker; return start; function start(code3) { if (code3 === 34 || code3 === 39 || code3 === 40) { effects.enter(type); effects.enter(markerType); effects.consume(code3); effects.exit(markerType); marker = code3 === 40 ? 41 : code3; return begin; } return nok(code3); } function begin(code3) { if (code3 === marker) { effects.enter(markerType); effects.consume(code3); effects.exit(markerType); effects.exit(type); return ok3; } effects.enter(stringType); return atBreak(code3); } function atBreak(code3) { if (code3 === marker) { effects.exit(stringType); return begin(marker); } if (code3 === null) { return nok(code3); } if (markdownLineEnding(code3)) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return factorySpace(effects, atBreak, "linePrefix"); } effects.enter("chunkString", { contentType: "string" }); return inside(code3); } function inside(code3) { if (code3 === marker || code3 === null || markdownLineEnding(code3)) { effects.exit("chunkString"); return atBreak(code3); } effects.consume(code3); return code3 === 92 ? escape : inside; } function escape(code3) { if (code3 === marker || code3 === 92) { effects.consume(code3); return inside; } return inside(code3); } } // node_modules/micromark-factory-whitespace/index.js function factoryWhitespace(effects, ok3) { let seen; return start; function start(code3) { if (markdownLineEnding(code3)) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); seen = true; return start; } if (markdownSpace(code3)) { return factorySpace( effects, start, seen ? "linePrefix" : "lineSuffix" )(code3); } return ok3(code3); } } // 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 self2 = this; let identifier; return start; function start(code3) { effects.enter("definition"); return before(code3); } function before(code3) { return factoryLabel.call( self2, effects, labelAfter, // Note: we don’t need to reset the way `markdown-rs` does. nok, "definitionLabel", "definitionLabelMarker", "definitionLabelString" )(code3); } function labelAfter(code3) { identifier = normalizeIdentifier(self2.sliceSerialize(self2.events[self2.events.length - 1][1]).slice(1, -1)); if (code3 === 58) { effects.enter("definitionMarker"); effects.consume(code3); effects.exit("definitionMarker"); return markerAfter; } return nok(code3); } function markerAfter(code3) { return markdownLineEndingOrSpace(code3) ? factoryWhitespace(effects, destinationBefore)(code3) : destinationBefore(code3); } function destinationBefore(code3) { return factoryDestination( effects, destinationAfter, // Note: we don’t need to reset the way `markdown-rs` does. nok, "definitionDestination", "definitionDestinationLiteral", "definitionDestinationLiteralMarker", "definitionDestinationRaw", "definitionDestinationString" )(code3); } function destinationAfter(code3) { return effects.attempt(titleBefore, after, after)(code3); } function after(code3) { return markdownSpace(code3) ? factorySpace(effects, afterWhitespace, "whitespace")(code3) : afterWhitespace(code3); } function afterWhitespace(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("definition"); self2.parser.defined.push(identifier); return ok3(code3); } return nok(code3); } } function tokenizeTitleBefore(effects, ok3, nok) { return titleBefore2; function titleBefore2(code3) { return markdownLineEndingOrSpace(code3) ? factoryWhitespace(effects, beforeMarker)(code3) : nok(code3); } function beforeMarker(code3) { return factoryTitle(effects, titleAfter, nok, "definitionTitle", "definitionTitleMarker", "definitionTitleString")(code3); } function titleAfter(code3) { return markdownSpace(code3) ? factorySpace(effects, titleAfterOptionalWhitespace, "whitespace")(code3) : titleAfterOptionalWhitespace(code3); } function titleAfterOptionalWhitespace(code3) { return code3 === null || markdownLineEnding(code3) ? ok3(code3) : nok(code3); } } // 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(code3) { effects.enter("hardBreakEscape"); effects.consume(code3); return after; } function after(code3) { if (markdownLineEnding(code3)) { effects.exit("hardBreakEscape"); return ok3(code3); } return nok(code3); } } // 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 text5; 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 }; text5 = { type: "chunkText", start: events[contentStart][1].start, end: events[contentEnd][1].end, contentType: "text" }; splice(events, contentStart, contentEnd - contentStart + 1, [["enter", content3, context], ["enter", text5, context], ["exit", text5, context], ["exit", content3, context]]); } return events; } function tokenizeHeadingAtx(effects, ok3, nok) { let size = 0; return start; function start(code3) { effects.enter("atxHeading"); return before(code3); } function before(code3) { effects.enter("atxHeadingSequence"); return sequenceOpen(code3); } function sequenceOpen(code3) { if (code3 === 35 && size++ < 6) { effects.consume(code3); return sequenceOpen; } if (code3 === null || markdownLineEndingOrSpace(code3)) { effects.exit("atxHeadingSequence"); return atBreak(code3); } return nok(code3); } function atBreak(code3) { if (code3 === 35) { effects.enter("atxHeadingSequence"); return sequenceFurther(code3); } if (code3 === null || markdownLineEnding(code3)) { effects.exit("atxHeading"); return ok3(code3); } if (markdownSpace(code3)) { return factorySpace(effects, atBreak, "whitespace")(code3); } effects.enter("atxHeadingText"); return data(code3); } function sequenceFurther(code3) { if (code3 === 35) { effects.consume(code3); return sequenceFurther; } effects.exit("atxHeadingSequence"); return atBreak(code3); } function data(code3) { if (code3 === null || code3 === 35 || markdownLineEndingOrSpace(code3)) { effects.exit("atxHeadingText"); return atBreak(code3); } effects.consume(code3); 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 self2 = this; let marker; let closingTag; let buffer; let index2; let markerB; return start; function start(code3) { return before(code3); } function before(code3) { effects.enter("htmlFlow"); effects.enter("htmlFlowData"); effects.consume(code3); return open; } function open(code3) { if (code3 === 33) { effects.consume(code3); return declarationOpen; } if (code3 === 47) { effects.consume(code3); closingTag = true; return tagCloseStart; } if (code3 === 63) { effects.consume(code3); marker = 3; return self2.interrupt ? ok3 : continuationDeclarationInside; } if (asciiAlpha(code3)) { effects.consume(code3); buffer = String.fromCharCode(code3); return tagName; } return nok(code3); } function declarationOpen(code3) { if (code3 === 45) { effects.consume(code3); marker = 2; return commentOpenInside; } if (code3 === 91) { effects.consume(code3); marker = 5; index2 = 0; return cdataOpenInside; } if (asciiAlpha(code3)) { effects.consume(code3); marker = 4; return self2.interrupt ? ok3 : continuationDeclarationInside; } return nok(code3); } function commentOpenInside(code3) { if (code3 === 45) { effects.consume(code3); return self2.interrupt ? ok3 : continuationDeclarationInside; } return nok(code3); } function cdataOpenInside(code3) { const value = "CDATA["; if (code3 === value.charCodeAt(index2++)) { effects.consume(code3); if (index2 === value.length) { return self2.interrupt ? ok3 : continuation; } return cdataOpenInside; } return nok(code3); } function tagCloseStart(code3) { if (asciiAlpha(code3)) { effects.consume(code3); buffer = String.fromCharCode(code3); return tagName; } return nok(code3); } function tagName(code3) { if (code3 === null || code3 === 47 || code3 === 62 || markdownLineEndingOrSpace(code3)) { const slash = code3 === 47; const name = buffer.toLowerCase(); if (!slash && !closingTag && htmlRawNames.includes(name)) { marker = 1; return self2.interrupt ? ok3(code3) : continuation(code3); } if (htmlBlockNames.includes(buffer.toLowerCase())) { marker = 6; if (slash) { effects.consume(code3); return basicSelfClosing; } return self2.interrupt ? ok3(code3) : continuation(code3); } marker = 7; return self2.interrupt && !self2.parser.lazy[self2.now().line] ? nok(code3) : closingTag ? completeClosingTagAfter(code3) : completeAttributeNameBefore(code3); } if (code3 === 45 || asciiAlphanumeric(code3)) { effects.consume(code3); buffer += String.fromCharCode(code3); return tagName; } return nok(code3); } function basicSelfClosing(code3) { if (code3 === 62) { effects.consume(code3); return self2.interrupt ? ok3 : continuation; } return nok(code3); } function completeClosingTagAfter(code3) { if (markdownSpace(code3)) { effects.consume(code3); return completeClosingTagAfter; } return completeEnd(code3); } function completeAttributeNameBefore(code3) { if (code3 === 47) { effects.consume(code3); return completeEnd; } if (code3 === 58 || code3 === 95 || asciiAlpha(code3)) { effects.consume(code3); return completeAttributeName; } if (markdownSpace(code3)) { effects.consume(code3); return completeAttributeNameBefore; } return completeEnd(code3); } function completeAttributeName(code3) { if (code3 === 45 || code3 === 46 || code3 === 58 || code3 === 95 || asciiAlphanumeric(code3)) { effects.consume(code3); return completeAttributeName; } return completeAttributeNameAfter(code3); } function completeAttributeNameAfter(code3) { if (code3 === 61) { effects.consume(code3); return completeAttributeValueBefore; } if (markdownSpace(code3)) { effects.consume(code3); return completeAttributeNameAfter; } return completeAttributeNameBefore(code3); } function completeAttributeValueBefore(code3) { if (code3 === null || code3 === 60 || code3 === 61 || code3 === 62 || code3 === 96) { return nok(code3); } if (code3 === 34 || code3 === 39) { effects.consume(code3); markerB = code3; return completeAttributeValueQuoted; } if (markdownSpace(code3)) { effects.consume(code3); return completeAttributeValueBefore; } return completeAttributeValueUnquoted(code3); } function completeAttributeValueQuoted(code3) { if (code3 === markerB) { effects.consume(code3); markerB = null; return completeAttributeValueQuotedAfter; } if (code3 === null || markdownLineEnding(code3)) { return nok(code3); } effects.consume(code3); return completeAttributeValueQuoted; } function completeAttributeValueUnquoted(code3) { if (code3 === null || code3 === 34 || code3 === 39 || code3 === 47 || code3 === 60 || code3 === 61 || code3 === 62 || code3 === 96 || markdownLineEndingOrSpace(code3)) { return completeAttributeNameAfter(code3); } effects.consume(code3); return completeAttributeValueUnquoted; } function completeAttributeValueQuotedAfter(code3) { if (code3 === 47 || code3 === 62 || markdownSpace(code3)) { return completeAttributeNameBefore(code3); } return nok(code3); } function completeEnd(code3) { if (code3 === 62) { effects.consume(code3); return completeAfter; } return nok(code3); } function completeAfter(code3) { if (code3 === null || markdownLineEnding(code3)) { return continuation(code3); } if (markdownSpace(code3)) { effects.consume(code3); return completeAfter; } return nok(code3); } function continuation(code3) { if (code3 === 45 && marker === 2) { effects.consume(code3); return continuationCommentInside; } if (code3 === 60 && marker === 1) { effects.consume(code3); return continuationRawTagOpen; } if (code3 === 62 && marker === 4) { effects.consume(code3); return continuationClose; } if (code3 === 63 && marker === 3) { effects.consume(code3); return continuationDeclarationInside; } if (code3 === 93 && marker === 5) { effects.consume(code3); return continuationCdataInside; } if (markdownLineEnding(code3) && (marker === 6 || marker === 7)) { effects.exit("htmlFlowData"); return effects.check(blankLineBefore, continuationAfter, continuationStart)(code3); } if (code3 === null || markdownLineEnding(code3)) { effects.exit("htmlFlowData"); return continuationStart(code3); } effects.consume(code3); return continuation; } function continuationStart(code3) { return effects.check(nonLazyContinuationStart, continuationStartNonLazy, continuationAfter)(code3); } function continuationStartNonLazy(code3) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return continuationBefore; } function continuationBefore(code3) { if (code3 === null || markdownLineEnding(code3)) { return continuationStart(code3); } effects.enter("htmlFlowData"); return continuation(code3); } function continuationCommentInside(code3) { if (code3 === 45) { effects.consume(code3); return continuationDeclarationInside; } return continuation(code3); } function continuationRawTagOpen(code3) { if (code3 === 47) { effects.consume(code3); buffer = ""; return continuationRawEndTag; } return continuation(code3); } function continuationRawEndTag(code3) { if (code3 === 62) { const name = buffer.toLowerCase(); if (htmlRawNames.includes(name)) { effects.consume(code3); return continuationClose; } return continuation(code3); } if (asciiAlpha(code3) && buffer.length < 8) { effects.consume(code3); buffer += String.fromCharCode(code3); return continuationRawEndTag; } return continuation(code3); } function continuationCdataInside(code3) { if (code3 === 93) { effects.consume(code3); return continuationDeclarationInside; } return continuation(code3); } function continuationDeclarationInside(code3) { if (code3 === 62) { effects.consume(code3); return continuationClose; } if (code3 === 45 && marker === 2) { effects.consume(code3); return continuationDeclarationInside; } return continuation(code3); } function continuationClose(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("htmlFlowData"); return continuationAfter(code3); } effects.consume(code3); return continuationClose; } function continuationAfter(code3) { effects.exit("htmlFlow"); return ok3(code3); } } function tokenizeNonLazyContinuationStart(effects, ok3, nok) { const self2 = this; return start; function start(code3) { if (markdownLineEnding(code3)) { effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return after; } return nok(code3); } function after(code3) { return self2.parser.lazy[self2.now().line] ? nok(code3) : ok3(code3); } } function tokenizeBlankLineBefore(effects, ok3, nok) { return start; function start(code3) { effects.enter("lineEnding"); effects.consume(code3); 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 self2 = this; let marker; let index2; let returnState; return start; function start(code3) { effects.enter("htmlText"); effects.enter("htmlTextData"); effects.consume(code3); return open; } function open(code3) { if (code3 === 33) { effects.consume(code3); return declarationOpen; } if (code3 === 47) { effects.consume(code3); return tagCloseStart; } if (code3 === 63) { effects.consume(code3); return instruction; } if (asciiAlpha(code3)) { effects.consume(code3); return tagOpen; } return nok(code3); } function declarationOpen(code3) { if (code3 === 45) { effects.consume(code3); return commentOpenInside; } if (code3 === 91) { effects.consume(code3); index2 = 0; return cdataOpenInside; } if (asciiAlpha(code3)) { effects.consume(code3); return declaration; } return nok(code3); } function commentOpenInside(code3) { if (code3 === 45) { effects.consume(code3); return commentEnd; } return nok(code3); } function comment(code3) { if (code3 === null) { return nok(code3); } if (code3 === 45) { effects.consume(code3); return commentClose; } if (markdownLineEnding(code3)) { returnState = comment; return lineEndingBefore(code3); } effects.consume(code3); return comment; } function commentClose(code3) { if (code3 === 45) { effects.consume(code3); return commentEnd; } return comment(code3); } function commentEnd(code3) { return code3 === 62 ? end(code3) : code3 === 45 ? commentClose(code3) : comment(code3); } function cdataOpenInside(code3) { const value = "CDATA["; if (code3 === value.charCodeAt(index2++)) { effects.consume(code3); return index2 === value.length ? cdata : cdataOpenInside; } return nok(code3); } function cdata(code3) { if (code3 === null) { return nok(code3); } if (code3 === 93) { effects.consume(code3); return cdataClose; } if (markdownLineEnding(code3)) { returnState = cdata; return lineEndingBefore(code3); } effects.consume(code3); return cdata; } function cdataClose(code3) { if (code3 === 93) { effects.consume(code3); return cdataEnd; } return cdata(code3); } function cdataEnd(code3) { if (code3 === 62) { return end(code3); } if (code3 === 93) { effects.consume(code3); return cdataEnd; } return cdata(code3); } function declaration(code3) { if (code3 === null || code3 === 62) { return end(code3); } if (markdownLineEnding(code3)) { returnState = declaration; return lineEndingBefore(code3); } effects.consume(code3); return declaration; } function instruction(code3) { if (code3 === null) { return nok(code3); } if (code3 === 63) { effects.consume(code3); return instructionClose; } if (markdownLineEnding(code3)) { returnState = instruction; return lineEndingBefore(code3); } effects.consume(code3); return instruction; } function instructionClose(code3) { return code3 === 62 ? end(code3) : instruction(code3); } function tagCloseStart(code3) { if (asciiAlpha(code3)) { effects.consume(code3); return tagClose; } return nok(code3); } function tagClose(code3) { if (code3 === 45 || asciiAlphanumeric(code3)) { effects.consume(code3); return tagClose; } return tagCloseBetween(code3); } function tagCloseBetween(code3) { if (markdownLineEnding(code3)) { returnState = tagCloseBetween; return lineEndingBefore(code3); } if (markdownSpace(code3)) { effects.consume(code3); return tagCloseBetween; } return end(code3); } function tagOpen(code3) { if (code3 === 45 || asciiAlphanumeric(code3)) { effects.consume(code3); return tagOpen; } if (code3 === 47 || code3 === 62 || markdownLineEndingOrSpace(code3)) { return tagOpenBetween(code3); } return nok(code3); } function tagOpenBetween(code3) { if (code3 === 47) { effects.consume(code3); return end; } if (code3 === 58 || code3 === 95 || asciiAlpha(code3)) { effects.consume(code3); return tagOpenAttributeName; } if (markdownLineEnding(code3)) { returnState = tagOpenBetween; return lineEndingBefore(code3); } if (markdownSpace(code3)) { effects.consume(code3); return tagOpenBetween; } return end(code3); } function tagOpenAttributeName(code3) { if (code3 === 45 || code3 === 46 || code3 === 58 || code3 === 95 || asciiAlphanumeric(code3)) { effects.consume(code3); return tagOpenAttributeName; } return tagOpenAttributeNameAfter(code3); } function tagOpenAttributeNameAfter(code3) { if (code3 === 61) { effects.consume(code3); return tagOpenAttributeValueBefore; } if (markdownLineEnding(code3)) { returnState = tagOpenAttributeNameAfter; return lineEndingBefore(code3); } if (markdownSpace(code3)) { effects.consume(code3); return tagOpenAttributeNameAfter; } return tagOpenBetween(code3); } function tagOpenAttributeValueBefore(code3) { if (code3 === null || code3 === 60 || code3 === 61 || code3 === 62 || code3 === 96) { return nok(code3); } if (code3 === 34 || code3 === 39) { effects.consume(code3); marker = code3; return tagOpenAttributeValueQuoted; } if (markdownLineEnding(code3)) { returnState = tagOpenAttributeValueBefore; return lineEndingBefore(code3); } if (markdownSpace(code3)) { effects.consume(code3); return tagOpenAttributeValueBefore; } effects.consume(code3); return tagOpenAttributeValueUnquoted; } function tagOpenAttributeValueQuoted(code3) { if (code3 === marker) { effects.consume(code3); marker = void 0; return tagOpenAttributeValueQuotedAfter; } if (code3 === null) { return nok(code3); } if (markdownLineEnding(code3)) { returnState = tagOpenAttributeValueQuoted; return lineEndingBefore(code3); } effects.consume(code3); return tagOpenAttributeValueQuoted; } function tagOpenAttributeValueUnquoted(code3) { if (code3 === null || code3 === 34 || code3 === 39 || code3 === 60 || code3 === 61 || code3 === 96) { return nok(code3); } if (code3 === 47 || code3 === 62 || markdownLineEndingOrSpace(code3)) { return tagOpenBetween(code3); } effects.consume(code3); return tagOpenAttributeValueUnquoted; } function tagOpenAttributeValueQuotedAfter(code3) { if (code3 === 47 || code3 === 62 || markdownLineEndingOrSpace(code3)) { return tagOpenBetween(code3); } return nok(code3); } function end(code3) { if (code3 === 62) { effects.consume(code3); effects.exit("htmlTextData"); effects.exit("htmlText"); return ok3; } return nok(code3); } function lineEndingBefore(code3) { effects.exit("htmlTextData"); effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return lineEndingAfter; } function lineEndingAfter(code3) { return markdownSpace(code3) ? factorySpace(effects, lineEndingAfterPrefix, "linePrefix", self2.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4)(code3) : lineEndingAfterPrefix(code3); } function lineEndingAfterPrefix(code3) { effects.enter("htmlTextData"); return returnState(code3); } } // 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 close2; 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 (close2) { 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") { close2 = 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[close2][1].end) }; const text5 = { type: "labelText", start: Object.assign({}, events[open + offset + 2][1].end), end: Object.assign({}, events[close2 - 2][1].start) }; media = [["enter", group, context], ["enter", label, context]]; media = push(media, events.slice(open + 1, open + offset + 3)); media = push(media, [["enter", text5, context]]); media = push(media, resolveAll(context.parser.constructs.insideSpan.null, events.slice(open + offset + 4, close2 - 3), context)); media = push(media, [["exit", text5, context], events[close2 - 2], events[close2 - 1], ["exit", label, context]]); media = push(media, events.slice(close2 + 1)); media = push(media, [["exit", group, context]]); splice(events, open, events.length, media); return events; } function tokenizeLabelEnd(effects, ok3, nok) { const self2 = this; let index2 = self2.events.length; let labelStart; let defined; while (index2--) { if ((self2.events[index2][1].type === "labelImage" || self2.events[index2][1].type === "labelLink") && !self2.events[index2][1]._balanced) { labelStart = self2.events[index2][1]; break; } } return start; function start(code3) { if (!labelStart) { return nok(code3); } if (labelStart._inactive) { return labelEndNok(code3); } defined = self2.parser.defined.includes(normalizeIdentifier(self2.sliceSerialize({ start: labelStart.end, end: self2.now() }))); effects.enter("labelEnd"); effects.enter("labelMarker"); effects.consume(code3); effects.exit("labelMarker"); effects.exit("labelEnd"); return after; } function after(code3) { if (code3 === 40) { return effects.attempt(resourceConstruct, labelEndOk, defined ? labelEndOk : labelEndNok)(code3); } if (code3 === 91) { return effects.attempt(referenceFullConstruct, labelEndOk, defined ? referenceNotFull : labelEndNok)(code3); } return defined ? labelEndOk(code3) : labelEndNok(code3); } function referenceNotFull(code3) { return effects.attempt(referenceCollapsedConstruct, labelEndOk, labelEndNok)(code3); } function labelEndOk(code3) { return ok3(code3); } function labelEndNok(code3) { labelStart._balanced = true; return nok(code3); } } function tokenizeResource(effects, ok3, nok) { return resourceStart; function resourceStart(code3) { effects.enter("resource"); effects.enter("resourceMarker"); effects.consume(code3); effects.exit("resourceMarker"); return resourceBefore; } function resourceBefore(code3) { return markdownLineEndingOrSpace(code3) ? factoryWhitespace(effects, resourceOpen)(code3) : resourceOpen(code3); } function resourceOpen(code3) { if (code3 === 41) { return resourceEnd(code3); } return factoryDestination(effects, resourceDestinationAfter, resourceDestinationMissing, "resourceDestination", "resourceDestinationLiteral", "resourceDestinationLiteralMarker", "resourceDestinationRaw", "resourceDestinationString", 32)(code3); } function resourceDestinationAfter(code3) { return markdownLineEndingOrSpace(code3) ? factoryWhitespace(effects, resourceBetween)(code3) : resourceEnd(code3); } function resourceDestinationMissing(code3) { return nok(code3); } function resourceBetween(code3) { if (code3 === 34 || code3 === 39 || code3 === 40) { return factoryTitle(effects, resourceTitleAfter, nok, "resourceTitle", "resourceTitleMarker", "resourceTitleString")(code3); } return resourceEnd(code3); } function resourceTitleAfter(code3) { return markdownLineEndingOrSpace(code3) ? factoryWhitespace(effects, resourceEnd)(code3) : resourceEnd(code3); } function resourceEnd(code3) { if (code3 === 41) { effects.enter("resourceMarker"); effects.consume(code3); effects.exit("resourceMarker"); effects.exit("resource"); return ok3; } return nok(code3); } } function tokenizeReferenceFull(effects, ok3, nok) { const self2 = this; return referenceFull; function referenceFull(code3) { return factoryLabel.call(self2, effects, referenceFullAfter, referenceFullMissing, "reference", "referenceMarker", "referenceString")(code3); } function referenceFullAfter(code3) { return self2.parser.defined.includes(normalizeIdentifier(self2.sliceSerialize(self2.events[self2.events.length - 1][1]).slice(1, -1))) ? ok3(code3) : nok(code3); } function referenceFullMissing(code3) { return nok(code3); } } function tokenizeReferenceCollapsed(effects, ok3, nok) { return referenceCollapsedStart; function referenceCollapsedStart(code3) { effects.enter("reference"); effects.enter("referenceMarker"); effects.consume(code3); effects.exit("referenceMarker"); return referenceCollapsedOpen; } function referenceCollapsedOpen(code3) { if (code3 === 93) { effects.enter("referenceMarker"); effects.consume(code3); effects.exit("referenceMarker"); effects.exit("reference"); return ok3; } return nok(code3); } } // 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 self2 = this; return start; function start(code3) { effects.enter("labelImage"); effects.enter("labelImageMarker"); effects.consume(code3); effects.exit("labelImageMarker"); return open; } function open(code3) { if (code3 === 91) { effects.enter("labelMarker"); effects.consume(code3); effects.exit("labelMarker"); effects.exit("labelImage"); return after; } return nok(code3); } function after(code3) { return code3 === 94 && "_hiddenFootnoteSupport" in self2.parser.constructs ? nok(code3) : ok3(code3); } } // 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 self2 = this; return start; function start(code3) { effects.enter("labelLink"); effects.enter("labelMarker"); effects.consume(code3); effects.exit("labelMarker"); effects.exit("labelLink"); return after; } function after(code3) { return code3 === 94 && "_hiddenFootnoteSupport" in self2.parser.constructs ? nok(code3) : ok3(code3); } } // node_modules/micromark-core-commonmark/lib/line-ending.js var lineEnding = { name: "lineEnding", tokenize: tokenizeLineEnding }; function tokenizeLineEnding(effects, ok3) { return start; function start(code3) { effects.enter("lineEnding"); effects.consume(code3); 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(code3) { effects.enter("thematicBreak"); return before(code3); } function before(code3) { marker = code3; return atBreak(code3); } function atBreak(code3) { if (code3 === marker) { effects.enter("thematicBreakSequence"); return sequence(code3); } if (size >= 3 && (code3 === null || markdownLineEnding(code3))) { effects.exit("thematicBreak"); return ok3(code3); } return nok(code3); } function sequence(code3) { if (code3 === marker) { effects.consume(code3); size++; return sequence; } effects.exit("thematicBreakSequence"); return markdownSpace(code3) ? factorySpace(effects, atBreak, "whitespace")(code3) : atBreak(code3); } } // 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 self2 = this; const tail = self2.events[self2.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(code3) { const kind = self2.containerState.type || (code3 === 42 || code3 === 43 || code3 === 45 ? "listUnordered" : "listOrdered"); if (kind === "listUnordered" ? !self2.containerState.marker || code3 === self2.containerState.marker : asciiDigit(code3)) { if (!self2.containerState.type) { self2.containerState.type = kind; effects.enter(kind, { _container: true }); } if (kind === "listUnordered") { effects.enter("listItemPrefix"); return code3 === 42 || code3 === 45 ? effects.check(thematicBreak, nok, atMarker)(code3) : atMarker(code3); } if (!self2.interrupt || code3 === 49) { effects.enter("listItemPrefix"); effects.enter("listItemValue"); return inside(code3); } } return nok(code3); } function inside(code3) { if (asciiDigit(code3) && ++size < 10) { effects.consume(code3); return inside; } if ((!self2.interrupt || size < 2) && (self2.containerState.marker ? code3 === self2.containerState.marker : code3 === 41 || code3 === 46)) { effects.exit("listItemValue"); return atMarker(code3); } return nok(code3); } function atMarker(code3) { effects.enter("listItemMarker"); effects.consume(code3); effects.exit("listItemMarker"); self2.containerState.marker = self2.containerState.marker || code3; return effects.check( blankLine, // Can’t be empty when interrupting. self2.interrupt ? nok : onBlank, effects.attempt(listItemPrefixWhitespaceConstruct, endOfPrefix, otherPrefix) ); } function onBlank(code3) { self2.containerState.initialBlankLine = true; initialSize++; return endOfPrefix(code3); } function otherPrefix(code3) { if (markdownSpace(code3)) { effects.enter("listItemPrefixWhitespace"); effects.consume(code3); effects.exit("listItemPrefixWhitespace"); return endOfPrefix; } return nok(code3); } function endOfPrefix(code3) { self2.containerState.size = initialSize + self2.sliceSerialize(effects.exit("listItemPrefix"), true).length; return ok3(code3); } } function tokenizeListContinuation(effects, ok3, nok) { const self2 = this; self2.containerState._closeFlow = void 0; return effects.check(blankLine, onBlank, notBlank); function onBlank(code3) { self2.containerState.furtherBlankLines = self2.containerState.furtherBlankLines || self2.containerState.initialBlankLine; return factorySpace(effects, ok3, "listItemIndent", self2.containerState.size + 1)(code3); } function notBlank(code3) { if (self2.containerState.furtherBlankLines || !markdownSpace(code3)) { self2.containerState.furtherBlankLines = void 0; self2.containerState.initialBlankLine = void 0; return notInCurrentItem(code3); } self2.containerState.furtherBlankLines = void 0; self2.containerState.initialBlankLine = void 0; return effects.attempt(indentConstruct, ok3, notInCurrentItem)(code3); } function notInCurrentItem(code3) { self2.containerState._closeFlow = true; self2.interrupt = void 0; return factorySpace(effects, effects.attempt(list, ok3, nok), "linePrefix", self2.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4)(code3); } } function tokenizeIndent(effects, ok3, nok) { const self2 = this; return factorySpace(effects, afterPrefix, "listItemIndent", self2.containerState.size + 1); function afterPrefix(code3) { const tail = self2.events[self2.events.length - 1]; return tail && tail[1].type === "listItemIndent" && tail[2].sliceSerialize(tail[1], true).length === self2.containerState.size ? ok3(code3) : nok(code3); } } function tokenizeListEnd(effects) { effects.exit(this.containerState.type); } function tokenizeListItemPrefixWhitespace(effects, ok3, nok) { const self2 = this; return factorySpace(effects, afterPrefix, "listItemPrefixWhitespace", self2.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 + 1); function afterPrefix(code3) { const tail = self2.events[self2.events.length - 1]; return !markdownSpace(code3) && tail && tail[1].type === "listItemPrefixWhitespace" ? ok3(code3) : nok(code3); } } // 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 text5; let definition3; while (index2--) { if (events[index2][0] === "enter") { if (events[index2][1].type === "content") { content3 = index2; break; } if (events[index2][1].type === "paragraph") { text5 = 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[text5][1].start), end: Object.assign({}, events[events.length - 1][1].end) }; events[text5][1].type = "setextHeadingText"; if (definition3) { events.splice(text5, 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 self2 = this; let marker; return start; function start(code3) { let index2 = self2.events.length; let paragraph2; while (index2--) { if (self2.events[index2][1].type !== "lineEnding" && self2.events[index2][1].type !== "linePrefix" && self2.events[index2][1].type !== "content") { paragraph2 = self2.events[index2][1].type === "paragraph"; break; } } if (!self2.parser.lazy[self2.now().line] && (self2.interrupt || paragraph2)) { effects.enter("setextHeadingLine"); marker = code3; return before(code3); } return nok(code3); } function before(code3) { effects.enter("setextHeadingLineSequence"); return inside(code3); } function inside(code3) { if (code3 === marker) { effects.consume(code3); return inside; } effects.exit("setextHeadingLineSequence"); return markdownSpace(code3) ? factorySpace(effects, after, "lineSuffix")(code3) : after(code3); } function after(code3) { if (code3 === null || markdownLineEnding(code3)) { effects.exit("setextHeadingLine"); return ok3(code3); } return nok(code3); } } // node_modules/micromark/lib/initialize/flow.js var flow = { tokenize: initializeFlow }; function initializeFlow(effects) { const self2 = 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(code3) { if (code3 === null) { effects.consume(code3); return; } effects.enter("lineEndingBlank"); effects.consume(code3); effects.exit("lineEndingBlank"); self2.currentConstruct = void 0; return initial; } function afterConstruct(code3) { if (code3 === null) { effects.consume(code3); return; } effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); self2.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 self2 = this; const constructs2 = this.parser.constructs[field]; const text5 = effects.attempt(constructs2, start, notText); return start; function start(code3) { return atBreak(code3) ? text5(code3) : notText(code3); } function notText(code3) { if (code3 === null) { effects.consume(code3); return; } effects.enter("data"); effects.consume(code3); return data; } function data(code3) { if (atBreak(code3)) { effects.exit("data"); return text5(code3); } effects.consume(code3); return data; } function atBreak(code3) { if (code3 === null) { return true; } const list4 = constructs2[code3]; let index2 = -1; if (list4) { while (++index2 < list4.length) { const item = list4[index2]; if (!item.previous || item.previous.call(self2, self2.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: exit3, 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(code3) { consumed = void 0; expectedCode = code3; state = state(code3); } function consume(code3) { if (markdownLineEnding(code3)) { point3.line++; point3.column = 1; point3.offset += code3 === -3 ? 2 : 1; accountForPotentialSkip(); } else if (code3 !== -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 = code3; 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 exit3(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(_3, 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(map5) { return start; function start(code3) { const def = code3 !== null && map5[code3]; const all2 = code3 !== null && map5.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)(code3); } } function handleListOfConstructs(list4) { listOfConstructs = list4; constructIndex = 0; if (list4.length === 0) { return bogusState; } return handleConstruct(list4[constructIndex]); } function handleConstruct(construct) { return start; function start(code3) { info = store(); currentConstruct = construct; if (!construct.partial) { context.currentConstruct = construct; } if (construct.name && context.parser.constructs.disable.null.includes(construct.name)) { return nok(code3); } 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 )(code3); } } function ok3(code3) { consumed = true; onreturn(currentConstruct, info); return returnState; } function nok(code3) { 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: () => document3, flow: () => flow2, flowInitial: () => flowInitial, insideSpan: () => insideSpan, string: () => string2, text: () => text2 }); var document3 = { [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(options2) { const settings = options2 || {}; const constructs2 = ( /** @type {FullNormalizedExtension} */ combineExtensions([constructs_exports, ...settings.extensions || []]) ); const parser = { defined: [], lazy: {}, constructs: constructs2, content: create(content), document: create(document2), 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 code3; 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; code3 = value.charCodeAt(endPosition); if (!match) { buffer = value.slice(startPosition); break; } if (code3 === 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 (code3) { 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, $22) { if ($1) { return $1; } const head = $22.charCodeAt(0); if (head === 35) { const head2 = $22.charCodeAt(1); const hex = head2 === 120 || head2 === 88; return decodeNumericCharacterReference($22.slice(hex ? 2 : 1), hex ? 16 : 10); } return decodeNamedCharacterReference($22) || $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 own = {}.hasOwnProperty; function fromMarkdown(value, encoding, options2) { if (typeof encoding !== "string") { options2 = encoding; encoding = void 0; } return compiler(options2)( postprocess( parse(options2).document().write(preprocess()(value, encoding, true)) ) ); } function compiler(options2) { 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(html3, buffer), htmlFlowData: onenterdata, htmlText: opener(html3, 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, (options2 || {}).mdastExtensions || []); const data = {}; return compile; function compile(events) { let tree = { type: "root", children: [] }; const context = { stack: [tree], tokenStack: [], config, enter, exit: exit3, 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 (own.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 close2; function close2(token) { if (and) and.call(this, token); exit3.call(this, token); } } function exit3(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 = text5(); 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 html3() { 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 text5() { return { type: "text", value: "" }; } function thematicBreak3() { return { type: "thematicBreak" }; } } function point2(d6) { return { line: d6.line, column: d6.column, offset: d6.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 (own.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(options2) { const self2 = this; self2.parser = parser; function parser(doc4) { return fromMarkdown(doc4, __spreadProps(__spreadValues(__spreadValues({}, self2.data("settings")), options2), { // 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: self2.data("micromarkExtensions") || [], mdastExtensions: self2.data("fromMarkdownExtensions") || [] })); } } // node_modules/zwitch/index.js var own2 = {}.hasOwnProperty; function zwitch(key, options2) { const settings = options2 || {}; function one2(value, ...parameters) { let fn = one2.invalid; const handlers2 = one2.handlers; if (value && own2.call(value, key)) { const id = String(value[key]); fn = own2.call(handlers2, id) ? handlers2[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 own3 = {}.hasOwnProperty; function configure2(base2, extension2) { let index2 = -1; let key; if (extension2.extensions) { while (++index2 < extension2.extensions.length) { configure2(base2, extension2.extensions[index2]); } } for (key in extension2) { if (own3.call(extension2, key)) { switch (key) { case "extensions": { break; } case "unsafe": { list2(base2[key], extension2[key]); break; } case "join": { list2(base2[key], extension2[key]); break; } case "handlers": { map(base2[key], extension2[key]); break; } default: { base2.options[key] = extension2[key]; } } } } return base2; } 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, _3, state, info) { const exit3 = state.enter("blockquote"); const tracker = state.createTracker(info); tracker.move("> "); tracker.shift(2); const value = state.indentLines( state.containerFlow(node2, tracker.current()), map2 ); exit3(); return value; } function map2(line, _3, 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, none2) { if (typeof list4 === "string") { list4 = [list4]; } if (!list4 || list4.length === 0) { return none2; } 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(_3, _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 ]*$/.test(node2.value) ); } // node_modules/mdast-util-to-markdown/lib/util/check-fence.js function checkFence(state) { const marker = state.options.fence || "`"; if (marker !== "`" && marker !== "~") { throw new Error( "Cannot serialize code with `" + marker + "` for `options.fence`, expected `` ` `` or `~`" ); } return marker; } // node_modules/mdast-util-to-markdown/lib/handle/code.js function code(node2, _3, state, info) { const marker = checkFence(state); const raw = node2.value || ""; const suffix = marker === "`" ? "GraveAccent" : "Tilde"; if (formatCodeAsIndented(node2, state)) { const exit4 = state.enter("codeIndented"); const value2 = state.indentLines(raw, map3); exit4(); return value2; } const tracker = state.createTracker(info); const sequence = marker.repeat(Math.max(longestStreak(raw, marker) + 1, 3)); const exit3 = state.enter("codeFenced"); let value = tracker.move(sequence); if (node2.lang) { const subexit = state.enter(`codeFencedLang${suffix}`); value += tracker.move( state.safe(node2.lang, __spreadValues({ before: value, after: " ", encode: ["`"] }, tracker.current())) ); subexit(); } if (node2.lang && node2.meta) { const subexit = state.enter(`codeFencedMeta${suffix}`); value += tracker.move(" "); value += tracker.move( state.safe(node2.meta, __spreadValues({ before: value, after: "\n", encode: ["`"] }, tracker.current())) ); subexit(); } value += tracker.move("\n"); if (raw) { value += tracker.move(raw + "\n"); } value += tracker.move(sequence); exit3(); return value; } function map3(line, _3, blank) { return (blank ? "" : " ") + line; } // node_modules/mdast-util-to-markdown/lib/util/check-quote.js function checkQuote(state) { const marker = state.options.quote || '"'; if (marker !== '"' && marker !== "'") { throw new Error( "Cannot serialize title with `" + marker + "` for `options.quote`, expected `\"`, or `'`" ); } return marker; } // node_modules/mdast-util-to-markdown/lib/handle/definition.js function definition2(node2, _3, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? "Quote" : "Apostrophe"; const exit3 = state.enter("definition"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("["); value += tracker.move( state.safe(state.associationId(node2), __spreadValues({ before: value, after: "]" }, tracker.current())) ); value += tracker.move("]: "); subexit(); if ( // If there’s no url, or… !node2.url || // If there are control characters or whitespace. /[\0- \u007F]/.test(node2.url) ) { subexit = state.enter("destinationLiteral"); value += tracker.move("<"); value += tracker.move( state.safe(node2.url, __spreadValues({ before: value, after: ">" }, tracker.current())) ); value += tracker.move(">"); } else { subexit = state.enter("destinationRaw"); value += tracker.move( state.safe(node2.url, __spreadValues({ before: value, after: node2.title ? " " : "\n" }, tracker.current())) ); } subexit(); if (node2.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(" " + quote); value += tracker.move( state.safe(node2.title, __spreadValues({ before: value, after: quote }, tracker.current())) ); value += tracker.move(quote); subexit(); } exit3(); 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, _3, state, info) { const marker = checkEmphasis(state); const exit3 = state.enter("emphasis"); const tracker = state.createTracker(info); let value = tracker.move(marker); value += tracker.move( state.containerPhrasing(node2, __spreadValues({ before: value, after: marker }, tracker.current())) ); value += tracker.move(marker); exit3(); return value; } function emphasisPeek(_3, _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.js function color(d6) { return d6; } // 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, _3, state, info) { const rank = Math.max(Math.min(6, node2.depth || 1), 1); const tracker = state.createTracker(info); if (formatHeadingAsSetext(node2, state)) { const exit4 = state.enter("headingSetext"); const subexit2 = state.enter("phrasing"); const value2 = state.containerPhrasing(node2, __spreadProps(__spreadValues({}, tracker.current()), { before: "\n", after: "\n" })); subexit2(); exit4(); 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 exit3 = state.enter("headingAtx"); const subexit = state.enter("phrasing"); tracker.move(sequence + " "); let value = state.containerPhrasing(node2, __spreadValues({ 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(); exit3(); 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, _3, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? "Quote" : "Apostrophe"; const exit3 = state.enter("image"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("!["); value += tracker.move( state.safe(node2.alt, __spreadValues({ 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, __spreadValues({ before: value, after: ">" }, tracker.current())) ); value += tracker.move(">"); } else { subexit = state.enter("destinationRaw"); value += tracker.move( state.safe(node2.url, __spreadValues({ before: value, after: node2.title ? " " : ")" }, tracker.current())) ); } subexit(); if (node2.title) { subexit = state.enter(`title${suffix}`); value += tracker.move(" " + quote); value += tracker.move( state.safe(node2.title, __spreadValues({ before: value, after: quote }, tracker.current())) ); value += tracker.move(quote); subexit(); } value += tracker.move(")"); exit3(); return value; } function imagePeek() { return "!"; } // node_modules/mdast-util-to-markdown/lib/handle/image-reference.js imageReference.peek = imageReferencePeek; function imageReference(node2, _3, state, info) { const type = node2.referenceType; const exit3 = state.enter("imageReference"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("!["); const alt = state.safe(node2.alt, __spreadValues({ before: value, after: "]" }, tracker.current())); value += tracker.move(alt + "]["); subexit(); const stack = state.stack; state.stack = []; subexit = state.enter("reference"); const reference = state.safe(state.associationId(node2), __spreadValues({ before: value, after: "]" }, tracker.current())); subexit(); state.stack = stack; exit3(); if (type === "full" || !alt || alt !== reference) { value += tracker.move(reference + "]"); } else if (type === "shortcut") { value = value.slice(0, -1); } else { value += tracker.move("]"); } return value; } function imageReferencePeek() { return "!"; } // node_modules/mdast-util-to-markdown/lib/handle/inline-code.js inlineCode.peek = inlineCodePeek; function inlineCode(node2, _3, state) { let value = node2.value || ""; let sequence = "`"; let index2 = -1; while (new RegExp("(^|[^`])" + sequence + "([^`]|$)").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, _3, state, info) { const quote = checkQuote(state); const suffix = quote === '"' ? "Quote" : "Apostrophe"; const tracker = state.createTracker(info); let exit3; let subexit; if (formatLinkAsAutolink(node2, state)) { const stack = state.stack; state.stack = []; exit3 = state.enter("autolink"); let value2 = tracker.move("<"); value2 += tracker.move( state.containerPhrasing(node2, __spreadValues({ before: value2, after: ">" }, tracker.current())) ); value2 += tracker.move(">"); exit3(); state.stack = stack; return value2; } exit3 = state.enter("link"); subexit = state.enter("label"); let value = tracker.move("["); value += tracker.move( state.containerPhrasing(node2, __spreadValues({ 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, __spreadValues({ before: value, after: ">" }, tracker.current())) ); value += tracker.move(">"); } else { subexit = state.enter("destinationRaw"); value += tracker.move( state.safe(node2.url, __spreadValues({ 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, __spreadValues({ before: value, after: quote }, tracker.current())) ); value += tracker.move(quote); subexit(); } value += tracker.move(")"); exit3(); return value; } function linkPeek(node2, _3, state) { return formatLinkAsAutolink(node2, state) ? "<" : "["; } // node_modules/mdast-util-to-markdown/lib/handle/link-reference.js linkReference.peek = linkReferencePeek; function linkReference(node2, _3, state, info) { const type = node2.referenceType; const exit3 = state.enter("linkReference"); let subexit = state.enter("label"); const tracker = state.createTracker(info); let value = tracker.move("["); const text5 = state.containerPhrasing(node2, __spreadValues({ before: value, after: "]" }, tracker.current())); value += tracker.move(text5 + "]["); subexit(); const stack = state.stack; state.stack = []; subexit = state.enter("reference"); const reference = state.safe(state.associationId(node2), __spreadValues({ before: value, after: "]" }, tracker.current())); subexit(); state.stack = stack; exit3(); if (type === "full" || !text5 || text5 !== 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 exit3 = 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; exit3(); return value; } // node_modules/mdast-util-to-markdown/lib/util/check-list-item-indent.js function checkListItemIndent(state) { const style2 = state.options.listItemIndent || "one"; if (style2 !== "tab" && style2 !== "one" && style2 !== "mixed") { throw new Error( "Cannot serialize items with `" + style2 + "` for `options.listItemIndent`, expected `tab`, `one`, or `mixed`" ); } return style2; } // 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 exit3 = state.enter("listItem"); const value = state.indentLines( state.containerFlow(node2, tracker.current()), map5 ); exit3(); return value; function map5(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, _3, state, info) { const exit3 = state.enter("paragraph"); const subexit = state.enter("phrasing"); const value = state.containerPhrasing(node2, info); subexit(); exit3(); return value; } // node_modules/mdast-util-phrasing/lib/index.js var phrasing = ( /** @type {(node?: unknown) => node is Exclude} */ convert([ "break", "delete", "emphasis", // To do: next major: removed since footnotes were added to GFM. "footnote", "footnoteReference", "image", "imageReference", "inlineCode", // Enabled by `mdast-util-math`: "inlineMath", "link", "linkReference", // Enabled by `mdast-util-mdx`: "mdxJsxTextElement", // Enabled by `mdast-util-mdx`: "mdxTextExpression", "strong", "text", // Enabled by `mdast-util-directive`: "textDirective" ]) ); // node_modules/mdast-util-to-markdown/lib/handle/root.js function root(node2, _3, state, info) { const hasPhrasing = node2.children.some(function(d6) { return phrasing(d6); }); 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, _3, state, info) { const marker = checkStrong(state); const exit3 = state.enter("strong"); const tracker = state.createTracker(info); let value = tracker.move(marker + marker); value += tracker.move( state.containerPhrasing(node2, __spreadValues({ before: value, after: marker }, tracker.current())) ); value += tracker.move(marker + marker); exit3(); return value; } function strongPeek(_3, _1, state) { return state.options.strong || "*"; } // node_modules/mdast-util-to-markdown/lib/handle/text.js function text3(node2, _3, 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(_3, _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 + ")" : "") + (/[|\\{}()[\]^$+*?.-]/.test(pattern.character) ? "\\" : "") + pattern.character + (pattern.after ? "(?:" + pattern.after + ")" : ""), "g" ); } return pattern._compiled; } // node_modules/mdast-util-to-markdown/lib/util/container-phrasing.js function containerPhrasing(parent, state, info) { const indexStack = state.indexStack; const children = parent.children || []; const results = []; let index2 = -1; let before = info.before; indexStack.push(-1); let tracker = state.createTracker(info); while (++index2 < children.length) { const child = children[index2]; let after; indexStack[indexStack.length - 1] = index2; if (index2 + 1 < children.length) { let handle2 = state.handle.handlers[children[index2 + 1].type]; if (handle2 && handle2.peek) handle2 = handle2.peek; after = handle2 ? handle2(children[index2 + 1], parent, state, __spreadValues({ before: "", after: "" }, tracker.current())).charAt(0) : ""; } else { after = info.after; } if (results.length > 0 && (before === "\r" || before === "\n") && child.type === "html") { results[results.length - 1] = results[results.length - 1].replace( /(\r?\n|\r)$/, " " ); before = " "; tracker = state.createTracker(info); tracker.move(results.join("")); } results.push( tracker.move( state.handle(child, parent, state, __spreadProps(__spreadValues({}, 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, __spreadValues({ 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, map5) { 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(map5(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(a2, b4) { return a2 - b4; } 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 options2 = config || {}; const now = options2.now || {}; let lineShift = options2.lineShift || 0; let line = now.line || 1; let column = now.column || 1; return { move, current, shift: shift2 }; function current() { return { now: { line, column }, lineShift }; } function shift2(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, options2 = {}) { 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: __spreadValues({}, handle), options: {}, indexStack: [], // @ts-expect-error: add `handle` in a second. handle: void 0 }; configure2(state, options2); 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 exit3; function exit3() { 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(options2) { const self2 = this; self2.compiler = compiler2; function compiler2(tree) { return toMarkdown(tree, __spreadProps(__spreadValues(__spreadValues({}, self2.data("settings")), options2), { // 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: self2.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/lib/index.js function trough() { const fns = []; const pipeline = { run: run2, use }; return pipeline; function run2(...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 && result.then && typeof result.then === "function") { 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 options2 = {}; let legacyCause = false; if (optionsOrParentOrPlace) { if ("line" in optionsOrParentOrPlace && "column" in optionsOrParentOrPlace) { options2 = { place: optionsOrParentOrPlace }; } else if ("start" in optionsOrParentOrPlace && "end" in optionsOrParentOrPlace) { options2 = { place: optionsOrParentOrPlace }; } else if ("type" in optionsOrParentOrPlace) { options2 = { ancestors: [optionsOrParentOrPlace], place: optionsOrParentOrPlace.position }; } else { options2 = __spreadValues({}, optionsOrParentOrPlace); } } if (typeof causeOrReason === "string") { reason = causeOrReason; } else if (!options2.cause && causeOrReason) { legacyCause = true; reason = causeOrReason.message; options2.cause = causeOrReason; } if (!options2.ruleId && !options2.source && typeof origin === "string") { const index2 = origin.indexOf(":"); if (index2 === -1) { options2.ruleId = origin; } else { options2.source = origin.slice(0, index2); options2.ruleId = origin.slice(index2 + 1); } } if (!options2.place && options2.ancestors && options2.ancestors) { const parent = options2.ancestors[options2.ancestors.length - 1]; if (parent) { options2.place = parent.position; } } const start = options2.place && "start" in options2.place ? options2.place.start : options2.place; this.ancestors = options2.ancestors || void 0; this.cause = options2.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(options2.place) || "1:1"; this.place = options2.place || void 0; this.reason = this.message; this.ruleId = options2.ruleId || void 0; this.source = options2.source || void 0; this.stack = legacyCause && options2.cause && typeof options2.cause.stack === "string" ? options2.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.browser.js var path = { basename, dirname, extname, join: join2, sep: "/" }; function basename(path3, ext) { if (ext !== void 0 && typeof ext !== "string") { throw new TypeError('"ext" argument must be a string'); } assertPath(path3); let start = 0; let end = -1; let index2 = path3.length; let seenNonSlash; if (ext === void 0 || ext.length === 0 || ext.length > path3.length) { while (index2--) { if (path3.codePointAt(index2) === 47) { if (seenNonSlash) { start = index2 + 1; break; } } else if (end < 0) { seenNonSlash = true; end = index2 + 1; } } return end < 0 ? "" : path3.slice(start, end); } if (ext === path3) { return ""; } let firstNonSlashEnd = -1; let extIndex = ext.length - 1; while (index2--) { if (path3.codePointAt(index2) === 47) { if (seenNonSlash) { start = index2 + 1; break; } } else { if (firstNonSlashEnd < 0) { seenNonSlash = true; firstNonSlashEnd = index2 + 1; } if (extIndex > -1) { if (path3.codePointAt(index2) === ext.codePointAt(extIndex--)) { if (extIndex < 0) { end = index2; } } else { extIndex = -1; end = firstNonSlashEnd; } } } } if (start === end) { end = firstNonSlashEnd; } else if (end < 0) { end = path3.length; } return path3.slice(start, end); } function dirname(path3) { assertPath(path3); if (path3.length === 0) { return "."; } let end = -1; let index2 = path3.length; let unmatchedSlash; while (--index2) { if (path3.codePointAt(index2) === 47) { if (unmatchedSlash) { end = index2; break; } } else if (!unmatchedSlash) { unmatchedSlash = true; } } return end < 0 ? path3.codePointAt(0) === 47 ? "/" : "." : end === 1 && path3.codePointAt(0) === 47 ? "//" : path3.slice(0, end); } function extname(path3) { assertPath(path3); let index2 = path3.length; let end = -1; let startPart = 0; let startDot = -1; let preDotState = 0; let unmatchedSlash; while (index2--) { const code3 = path3.codePointAt(index2); if (code3 === 47) { if (unmatchedSlash) { startPart = index2 + 1; break; } continue; } if (end < 0) { unmatchedSlash = true; end = index2 + 1; } if (code3 === 46) { if (startDot < 0) { startDot = index2; } else if (preDotState !== 1) { preDotState = 1; } } else if (startDot > -1) { preDotState = -1; } } if (startDot < 0 || end < 0 || // We saw a non-dot character immediately before the dot. preDotState === 0 || // The (right-most) trimmed path component is exactly `..`. preDotState === 1 && startDot === end - 1 && startDot === startPart + 1) { return ""; } return path3.slice(startDot, end); } function join2(...segments) { let index2 = -1; let joined; while (++index2 < segments.length) { assertPath(segments[index2]); if (segments[index2]) { joined = joined === void 0 ? segments[index2] : joined + "/" + segments[index2]; } } return joined === void 0 ? "." : normalize(joined); } function normalize(path3) { assertPath(path3); const absolute = path3.codePointAt(0) === 47; let value = normalizeString(path3, !absolute); if (value.length === 0 && !absolute) { value = "."; } if (value.length > 0 && path3.codePointAt(path3.length - 1) === 47) { value += "/"; } return absolute ? "/" + value : value; } function normalizeString(path3, allowAboveRoot) { let result = ""; let lastSegmentLength = 0; let lastSlash = -1; let dots = 0; let index2 = -1; let code3; let lastSlashIndex; while (++index2 <= path3.length) { if (index2 < path3.length) { code3 = path3.codePointAt(index2); } else if (code3 === 47) { break; } else { code3 = 47; } if (code3 === 47) { if (lastSlash === index2 - 1 || dots === 1) { } else if (lastSlash !== index2 - 1 && dots === 2) { if (result.length < 2 || lastSegmentLength !== 2 || result.codePointAt(result.length - 1) !== 46 || result.codePointAt(result.length - 2) !== 46) { if (result.length > 2) { lastSlashIndex = result.lastIndexOf("/"); if (lastSlashIndex !== result.length - 1) { if (lastSlashIndex < 0) { result = ""; lastSegmentLength = 0; } else { result = result.slice(0, lastSlashIndex); lastSegmentLength = result.length - 1 - result.lastIndexOf("/"); } lastSlash = index2; dots = 0; continue; } } else if (result.length > 0) { result = ""; lastSegmentLength = 0; lastSlash = index2; dots = 0; continue; } } if (allowAboveRoot) { result = result.length > 0 ? result + "/.." : ".."; lastSegmentLength = 2; } } else { if (result.length > 0) { result += "/" + path3.slice(lastSlash + 1, index2); } else { result = path3.slice(lastSlash + 1, index2); } lastSegmentLength = index2 - lastSlash - 1; } lastSlash = index2; dots = 0; } else if (code3 === 46 && dots > -1) { dots++; } else { dots = -1; } } return result; } function assertPath(path3) { if (typeof path3 !== "string") { throw new TypeError( "Path must be a string. Received " + JSON.stringify(path3) ); } } // node_modules/vfile/lib/minproc.browser.js var proc = { cwd }; function cwd() { return "/"; } // 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/minurl.browser.js function urlToPath(path3) { if (typeof path3 === "string") { path3 = new URL(path3); } else if (!isUrl(path3)) { const error = new TypeError( 'The "path" argument must be of type string or an instance of URL. Received `' + path3 + "`" ); error.code = "ERR_INVALID_ARG_TYPE"; throw error; } if (path3.protocol !== "file:") { const error = new TypeError("The URL must be of scheme file"); error.code = "ERR_INVALID_URL_SCHEME"; throw error; } return getPathFromURLPosix(path3); } function getPathFromURLPosix(url) { if (url.hostname !== "") { const error = new TypeError( 'File URL host must be "localhost" or empty on darwin' ); error.code = "ERR_INVALID_FILE_URL_HOST"; throw error; } const pathname = url.pathname; let index2 = -1; while (++index2 < pathname.length) { if (pathname.codePointAt(index2) === 37 && pathname.codePointAt(index2 + 1) === 50) { const third = pathname.codePointAt(index2 + 2); if (third === 70 || third === 102) { const error = new TypeError( "File URL path must not include encoded / characters" ); error.code = "ERR_INVALID_FILE_URL_PATH"; throw error; } } } return decodeURIComponent(pathname); } // 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 options2; if (!value) { options2 = {}; } else if (isUrl(value)) { options2 = { path: value }; } else if (typeof value === "string" || isUint8Array(value)) { options2 = { value }; } else { options2 = value; } this.cwd = proc.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 options2 && options2[prop2] !== void 0 && options2[prop2] !== null) { this[prop2] = prop2 === "history" ? [...options2[prop2]] : options2[prop2]; } } let prop; for (prop in options2) { if (!order.includes(prop)) { this[prop] = options2[prop]; } } } /** * Get the basename (including extname) (example: `'index.min.js'`). * * @returns {string | undefined} * Basename. */ get basename() { return typeof this.path === "string" ? path.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(basename2) { assertNonEmpty(basename2, "basename"); assertPart(basename2, "basename"); this.path = path.join(this.dirname || "", basename2); } /** * Get the parent path (example: `'~'`). * * @returns {string | undefined} * Dirname. */ get dirname() { return typeof this.path === "string" ? path.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(dirname2) { assertPath2(this.basename, "dirname"); this.path = path.join(dirname2 || "", this.basename); } /** * Get the extname (including dot) (example: `'.js'`). * * @returns {string | undefined} * Extname. */ get extname() { return typeof this.path === "string" ? path.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(extname2) { assertPart(extname2, "extname"); assertPath2(this.dirname, "extname"); if (extname2) { if (extname2.codePointAt(0) !== 46) { throw new Error("`extname` must start with `.`"); } if (extname2.includes(".", 1)) { throw new Error("`extname` cannot contain multiple dots"); } } this.path = path.join(this.dirname, this.stem + (extname2 || "")); } /** * 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(path3) { if (isUrl(path3)) { path3 = urlToPath(path3); } assertNonEmpty(path3, "path"); if (this.path !== path3) { this.history.push(path3); } } /** * Get the stem (basename w/o extname) (example: `'index.min'`). * * @returns {string | undefined} * Stem. */ get stem() { return typeof this.path === "string" ? path.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 = path.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(path.sep)) { throw new Error( "`" + name + "` cannot be a path: did not expect `" + path.sep + "`" ); } } function assertNonEmpty(part, name) { if (!part) { throw new Error("`" + name + "` cannot be empty"); } } function assertPath2(path3, name) { if (!path3) { 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 self2 = this; const constr = self2.constructor; const proto = ( /** @type {Record} */ // Prototypes do exist. // type-coverage:ignore-next-line constr.prototype ); const func = proto[property]; const apply2 = function() { return func.apply(apply2, arguments); }; Object.setPrototypeOf(apply2, proto); const names = Object.getOwnPropertyNames(func); for (const p4 of names) { const descriptor = Object.getOwnPropertyDescriptor(func, p4); if (descriptor) Object.defineProperty(apply2, p4, descriptor); } return apply2; } ); // node_modules/unified/lib/index.js var own4 = {}.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 own4.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 self2 = ( /** @type {Processor} */ /** @type {unknown} */ this ); while (++this.freezeIndex < this.attachers.length) { const [attacher, ...options2] = this.attachers[this.freezeIndex]; if (options2[0] === false) { continue; } if (options2[0] === true) { options2[0] = void 0; } const transformer = attacher.call(self2, ...options2); 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 self2 = 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} */ self2.parse(realFile) ); self2.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 = self2.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/@milkdown/transformer/lib/index.es.js var G2 = (p4, h5, n4) => { if (!h5.has(p4)) throw TypeError("Cannot " + n4); }; var r = (p4, h5, n4) => (G2(p4, h5, "read from private field"), n4 ? n4.call(p4) : h5.get(p4)); var c2 = (p4, h5, n4) => { if (h5.has(p4)) throw TypeError("Cannot add the same private member more than once"); h5 instanceof WeakSet ? h5.add(p4) : h5.set(p4, n4); }; var o = (p4, h5, n4, t2) => (G2(p4, h5, "write to private field"), t2 ? t2.call(p4, n4) : h5.set(p4, n4), n4); var Q = class { }; var U2 = class { constructor() { this.elements = [], this.size = () => this.elements.length, this.top = () => this.elements.at(-1), this.push = (h5) => { var n4; (n4 = this.top()) == null || n4.push(h5); }, this.open = (h5) => { this.elements.push(h5); }, this.close = () => { const h5 = this.elements.pop(); if (!h5) throw h(); return h5; }; } }; var B = class _B extends Q { constructor(h5, n4, t2) { super(), this.type = h5, this.content = n4, this.attrs = t2; } push(h5, ...n4) { this.content.push(h5, ...n4); } pop() { return this.content.pop(); } static create(h5, n4, t2) { return new _B(h5, n4, t2); } }; var d3; var N; var O; var T2; var F2; var k2; var M3; var S3 = class S4 extends U2 { /// @internal constructor(n4) { super(); c2(this, d3, void 0); c2(this, N, void 0); c2(this, O, void 0); c2(this, T2, void 0); c2(this, F2, void 0); c2(this, k2, void 0); c2(this, M3, void 0); o(this, d3, Mark.none), o(this, N, (t2) => t2.isText), o(this, O, (t2, s2) => { if (r(this, N).call(this, t2) && r(this, N).call(this, s2) && Mark.sameSet(t2.marks, s2.marks)) return this.schema.text(t2.text + s2.text, t2.marks); }), o(this, T2, (t2) => { const s2 = Object.values(__spreadValues(__spreadValues({}, this.schema.nodes), this.schema.marks)).find((e2) => e2.spec.parseMarkdown.match(t2)); if (!s2) throw w(t2); return s2; }), o(this, F2, (t2) => { const s2 = r(this, T2).call(this, t2); s2.spec.parseMarkdown.runner(this, t2, s2); }), this.injectRoot = (t2, s2, e2) => (this.openNode(s2, e2), this.next(t2.children), this), this.openNode = (t2, s2) => (this.open(B.create(t2, [], s2)), this), o(this, k2, () => { o(this, d3, Mark.none); const t2 = this.close(); return r(this, M3).call(this, t2.type, t2.attrs, t2.content); }), this.closeNode = () => (r(this, k2).call(this), this), o(this, M3, (t2, s2, e2) => { const i2 = t2.createAndFill(s2, e2, r(this, d3)); if (!i2) throw g(t2, s2, e2); return this.push(i2), i2; }), this.addNode = (t2, s2, e2) => (r(this, M3).call(this, t2, s2, e2), this), this.openMark = (t2, s2) => { const e2 = t2.create(s2); return o(this, d3, e2.addToSet(r(this, d3))), this; }, this.closeMark = (t2) => (o(this, d3, t2.removeFromSet(r(this, d3))), this), this.addText = (t2) => { const s2 = this.top(); if (!s2) throw h(); const e2 = s2.pop(), i2 = this.schema.text(t2, r(this, d3)); if (!e2) return s2.push(i2), this; const a2 = r(this, O).call(this, e2, i2); return a2 ? (s2.push(a2), this) : (s2.push(e2, i2), this); }, this.build = () => { let t2; do t2 = r(this, k2).call(this); while (this.size()); return t2; }, this.next = (t2 = []) => ([t2].flat().forEach((s2) => r(this, F2).call(this, s2)), this), this.toDoc = () => this.build(), this.run = (t2, s2) => { const e2 = t2.runSync(t2.parse(s2), s2); return this.next(e2), this; }, this.schema = n4; } }; d3 = /* @__PURE__ */ new WeakMap(), N = /* @__PURE__ */ new WeakMap(), O = /* @__PURE__ */ new WeakMap(), T2 = /* @__PURE__ */ new WeakMap(), F2 = /* @__PURE__ */ new WeakMap(), k2 = /* @__PURE__ */ new WeakMap(), M3 = /* @__PURE__ */ new WeakMap(), S3.create = (n4, t2) => { const s2 = new S3(n4); return (e2) => (s2.run(t2, e2), s2.toDoc()); }; var H2 = S3; var q2 = class q3 extends Q { constructor(h5, n4, t2, s2 = {}) { super(), this.type = h5, this.children = n4, this.value = t2, this.props = s2, this.push = (e2, ...i2) => { this.children || (this.children = []), this.children.push(e2, ...i2); }, this.pop = () => { var e2; return (e2 = this.children) == null ? void 0 : e2.pop(); }; } }; q2.create = (h5, n4, t2, s2 = {}) => new q2(h5, n4, t2, s2); var J2 = q2; var Z = (p4) => Object.prototype.hasOwnProperty.call(p4, "size"); var l3; var v; var A2; var E2; var w3; var j2; var x3; var R2; var m2; var g3; var C2; var P2; var z = class z2 extends U2 { /// @internal constructor(n4) { super(); c2(this, l3, void 0); c2(this, v, void 0); c2(this, A2, void 0); c2(this, E2, void 0); c2(this, w3, void 0); c2(this, j2, void 0); c2(this, x3, void 0); c2(this, R2, void 0); c2(this, m2, void 0); c2(this, g3, void 0); c2(this, C2, void 0); c2(this, P2, void 0); o(this, l3, Mark.none), o(this, v, (t2) => { const s2 = Object.values(__spreadValues(__spreadValues({}, this.schema.nodes), this.schema.marks)).find((e2) => e2.spec.toMarkdown.match(t2)); if (!s2) throw F(t2.type); return s2; }), o(this, A2, (t2) => r(this, v).call(this, t2).spec.toMarkdown.runner(this, t2)), o(this, E2, (t2, s2) => r(this, v).call(this, t2).spec.toMarkdown.runner(this, t2, s2)), o(this, w3, (t2) => { const { marks: s2 } = t2, e2 = (u4) => { var _a; return (_a = u4.type.spec.priority) != null ? _a : 50; }; [...s2].sort((u4, f3) => e2(u4) - e2(f3)).every((u4) => !r(this, E2).call(this, u4, t2)) && r(this, A2).call(this, t2), s2.forEach((u4) => r(this, P2).call(this, u4)); }), o(this, j2, (t2, s2) => { var f3; if (t2.type === s2 || ((f3 = t2.children) == null ? void 0 : f3.length) !== 1) return t2; const e2 = (y4) => { var I4; if (y4.type === s2) return y4; if (((I4 = y4.children) == null ? void 0 : I4.length) !== 1) return null; const [b4] = y4.children; return b4 ? e2(b4) : null; }, i2 = e2(t2); if (!i2) return t2; const a2 = i2.children ? [...i2.children] : void 0, u4 = __spreadProps(__spreadValues({}, t2), { children: a2 }); return u4.children = a2, i2.children = [u4], i2; }), o(this, x3, (t2) => { const { children: s2 } = t2; return s2 && (t2.children = s2.reduce((e2, i2, a2) => { if (a2 === 0) return [i2]; const u4 = e2.at(-1); if (u4 && u4.isMark && i2.isMark) { i2 = r(this, j2).call(this, i2, u4.type); const _a = i2, { children: f3 } = _a, y4 = __objRest(_a, ["children"]), _b = u4, { children: b4 } = _b, I4 = __objRest(_b, ["children"]); if (i2.type === u4.type && f3 && b4 && JSON.stringify(y4) === JSON.stringify(I4)) { const V4 = __spreadProps(__spreadValues({}, I4), { children: [...b4, ...f3] }); return e2.slice(0, -1).concat(r(this, x3).call(this, V4)); } } return e2.concat(i2); }, [])), t2; }), o(this, R2, (t2) => { const s2 = __spreadProps(__spreadValues({}, t2.props), { type: t2.type }); return t2.children && (s2.children = t2.children), t2.value && (s2.value = t2.value), s2; }), this.openNode = (t2, s2, e2) => (this.open(J2.create(t2, void 0, s2, e2)), this), o(this, m2, () => { const t2 = this.close(); return r(this, g3).call(this, t2.type, t2.children, t2.value, t2.props); }), this.closeNode = () => (r(this, m2).call(this), this), o(this, g3, (t2, s2, e2, i2) => { const a2 = J2.create(t2, s2, e2, i2), u4 = r(this, x3).call(this, r(this, R2).call(this, a2)); return this.push(u4), u4; }), this.addNode = (t2, s2, e2, i2) => (r(this, g3).call(this, t2, s2, e2, i2), this), o(this, C2, (t2, s2, e2, i2) => t2.isInSet(r(this, l3)) ? this : (o(this, l3, t2.addToSet(r(this, l3))), this.openNode(s2, e2, __spreadProps(__spreadValues({}, i2), { isMark: true })))), o(this, P2, (t2) => { t2.isInSet(r(this, l3)) && (o(this, l3, t2.type.removeFromSet(r(this, l3))), r(this, m2).call(this)); }), this.withMark = (t2, s2, e2, i2) => (r(this, C2).call(this, t2, s2, e2, i2), this), this.closeMark = (t2) => (r(this, P2).call(this, t2), this), this.build = () => { let t2 = null; do t2 = r(this, m2).call(this); while (this.size()); return t2; }, this.next = (t2) => Z(t2) ? (t2.forEach((s2) => { r(this, w3).call(this, s2); }), this) : (r(this, w3).call(this, t2), this), this.toString = (t2) => t2.stringify(this.build()), this.run = (t2) => (this.next(t2), this), this.schema = n4; } }; l3 = /* @__PURE__ */ new WeakMap(), v = /* @__PURE__ */ new WeakMap(), A2 = /* @__PURE__ */ new WeakMap(), E2 = /* @__PURE__ */ new WeakMap(), w3 = /* @__PURE__ */ new WeakMap(), j2 = /* @__PURE__ */ new WeakMap(), x3 = /* @__PURE__ */ new WeakMap(), R2 = /* @__PURE__ */ new WeakMap(), m2 = /* @__PURE__ */ new WeakMap(), g3 = /* @__PURE__ */ new WeakMap(), C2 = /* @__PURE__ */ new WeakMap(), P2 = /* @__PURE__ */ new WeakMap(), z.create = (n4, t2) => { const s2 = new z(n4); return (e2) => (s2.run(e2), s2.toString(t2)); }; var K2 = z; // node_modules/prosemirror-transform/dist/index.js var lower16 = 65535; var factor16 = Math.pow(2, 16); function makeRecover(index2, offset) { return index2 + offset * factor16; } function recoverIndex(value) { return value & lower16; } function recoverOffset(value) { return (value - (value & lower16)) / factor16; } var DEL_BEFORE = 1; var DEL_AFTER = 2; var DEL_ACROSS = 4; var DEL_SIDE = 8; var MapResult = class { /** @internal */ constructor(pos, delInfo, recover) { this.pos = pos; this.delInfo = delInfo; this.recover = recover; } /** Tells you whether the position was deleted, that is, whether the step removed the token on the side queried (via the `assoc`) argument from the document. */ get deleted() { return (this.delInfo & DEL_SIDE) > 0; } /** Tells you whether the token before the mapped position was deleted. */ get deletedBefore() { return (this.delInfo & (DEL_BEFORE | DEL_ACROSS)) > 0; } /** True when the token after the mapped position was deleted. */ get deletedAfter() { return (this.delInfo & (DEL_AFTER | DEL_ACROSS)) > 0; } /** Tells whether any of the steps mapped through deletes across the position (including both the token before and after the position). */ get deletedAcross() { return (this.delInfo & DEL_ACROSS) > 0; } }; var StepMap = class _StepMap { /** Create a position map. The modifications to the document are represented as an array of numbers, in which each group of three represents a modified chunk as `[start, oldSize, newSize]`. */ constructor(ranges, inverted = false) { this.ranges = ranges; this.inverted = inverted; if (!ranges.length && _StepMap.empty) return _StepMap.empty; } /** @internal */ recover(value) { let diff2 = 0, index2 = recoverIndex(value); if (!this.inverted) for (let i2 = 0; i2 < index2; i2++) diff2 += this.ranges[i2 * 3 + 2] - this.ranges[i2 * 3 + 1]; return this.ranges[index2 * 3] + diff2 + recoverOffset(value); } mapResult(pos, assoc = 1) { return this._map(pos, assoc, false); } map(pos, assoc = 1) { return this._map(pos, assoc, true); } /** @internal */ _map(pos, assoc, simple) { let diff2 = 0, oldIndex = this.inverted ? 2 : 1, newIndex = this.inverted ? 1 : 2; for (let i2 = 0; i2 < this.ranges.length; i2 += 3) { let start = this.ranges[i2] - (this.inverted ? diff2 : 0); if (start > pos) break; let oldSize = this.ranges[i2 + oldIndex], newSize = this.ranges[i2 + newIndex], end = start + oldSize; if (pos <= end) { let side = !oldSize ? assoc : pos == start ? -1 : pos == end ? 1 : assoc; let result = start + diff2 + (side < 0 ? 0 : newSize); if (simple) return result; let recover = pos == (assoc < 0 ? start : end) ? null : makeRecover(i2 / 3, pos - start); let del2 = pos == start ? DEL_AFTER : pos == end ? DEL_BEFORE : DEL_ACROSS; if (assoc < 0 ? pos != start : pos != end) del2 |= DEL_SIDE; return new MapResult(result, del2, recover); } diff2 += newSize - oldSize; } return simple ? pos + diff2 : new MapResult(pos + diff2, 0, null); } /** @internal */ touches(pos, recover) { let diff2 = 0, index2 = recoverIndex(recover); let oldIndex = this.inverted ? 2 : 1, newIndex = this.inverted ? 1 : 2; for (let i2 = 0; i2 < this.ranges.length; i2 += 3) { let start = this.ranges[i2] - (this.inverted ? diff2 : 0); if (start > pos) break; let oldSize = this.ranges[i2 + oldIndex], end = start + oldSize; if (pos <= end && i2 == index2 * 3) return true; diff2 += this.ranges[i2 + newIndex] - oldSize; } return false; } /** Calls the given function on each of the changed ranges included in this map. */ forEach(f3) { let oldIndex = this.inverted ? 2 : 1, newIndex = this.inverted ? 1 : 2; for (let i2 = 0, diff2 = 0; i2 < this.ranges.length; i2 += 3) { let start = this.ranges[i2], oldStart = start - (this.inverted ? diff2 : 0), newStart = start + (this.inverted ? 0 : diff2); let oldSize = this.ranges[i2 + oldIndex], newSize = this.ranges[i2 + newIndex]; f3(oldStart, oldStart + oldSize, newStart, newStart + newSize); diff2 += newSize - oldSize; } } /** Create an inverted version of this map. The result can be used to map positions in the post-step document to the pre-step document. */ invert() { return new _StepMap(this.ranges, !this.inverted); } /** @internal */ toString() { return (this.inverted ? "-" : "") + JSON.stringify(this.ranges); } /** Create a map that moves all positions by offset `n` (which may be negative). This can be useful when applying steps meant for a sub-document to a larger document, or vice-versa. */ static offset(n4) { return n4 == 0 ? _StepMap.empty : new _StepMap(n4 < 0 ? [0, -n4, 0] : [0, 0, n4]); } }; StepMap.empty = new StepMap([]); var Mapping = class _Mapping { /** Create a new mapping with the given position maps. */ constructor(maps = [], mirror, from = 0, to = maps.length) { this.maps = maps; this.mirror = mirror; this.from = from; this.to = to; } /** Create a mapping that maps only through a part of this one. */ slice(from = 0, to = this.maps.length) { return new _Mapping(this.maps, this.mirror, from, to); } /** @internal */ copy() { return new _Mapping(this.maps.slice(), this.mirror && this.mirror.slice(), this.from, this.to); } /** Add a step map to the end of this mapping. If `mirrors` is given, it should be the index of the step map that is the mirror image of this one. */ appendMap(map5, mirrors) { this.to = this.maps.push(map5); if (mirrors != null) this.setMirror(this.maps.length - 1, mirrors); } /** Add all the step maps in a given mapping to this one (preserving mirroring information). */ appendMapping(mapping) { for (let i2 = 0, startSize = this.maps.length; i2 < mapping.maps.length; i2++) { let mirr = mapping.getMirror(i2); this.appendMap(mapping.maps[i2], mirr != null && mirr < i2 ? startSize + mirr : void 0); } } /** Finds the offset of the step map that mirrors the map at the given offset, in this mapping (as per the second argument to `appendMap`). */ getMirror(n4) { if (this.mirror) { for (let i2 = 0; i2 < this.mirror.length; i2++) if (this.mirror[i2] == n4) return this.mirror[i2 + (i2 % 2 ? -1 : 1)]; } } /** @internal */ setMirror(n4, m3) { if (!this.mirror) this.mirror = []; this.mirror.push(n4, m3); } /** Append the inverse of the given mapping to this one. */ appendMappingInverted(mapping) { for (let i2 = mapping.maps.length - 1, totalSize = this.maps.length + mapping.maps.length; i2 >= 0; i2--) { let mirr = mapping.getMirror(i2); this.appendMap(mapping.maps[i2].invert(), mirr != null && mirr > i2 ? totalSize - mirr - 1 : void 0); } } /** Create an inverted version of this mapping. */ invert() { let inverse = new _Mapping(); inverse.appendMappingInverted(this); return inverse; } /** Map a position through this mapping. */ map(pos, assoc = 1) { if (this.mirror) return this._map(pos, assoc, true); for (let i2 = this.from; i2 < this.to; i2++) pos = this.maps[i2].map(pos, assoc); return pos; } /** Map a position through this mapping, returning a mapping result. */ mapResult(pos, assoc = 1) { return this._map(pos, assoc, false); } /** @internal */ _map(pos, assoc, simple) { let delInfo = 0; for (let i2 = this.from; i2 < this.to; i2++) { let map5 = this.maps[i2], result = map5.mapResult(pos, assoc); if (result.recover != null) { let corr = this.getMirror(i2); if (corr != null && corr > i2 && corr < this.to) { i2 = corr; pos = this.maps[corr].recover(result.recover); continue; } } delInfo |= result.delInfo; pos = result.pos; } return simple ? pos : new MapResult(pos, delInfo, null); } }; var stepsByID = /* @__PURE__ */ Object.create(null); var Step = class { /** Get the step map that represents the changes made by this step, and which can be used to transform between positions in the old and the new document. */ getMap() { return StepMap.empty; } /** Try to merge this step with another one, to be applied directly after it. Returns the merged step when possible, null if the steps can't be merged. */ merge(other) { return null; } /** Deserialize a step from its JSON representation. Will call through to the step class' own implementation of this method. */ static fromJSON(schema, json) { if (!json || !json.stepType) throw new RangeError("Invalid input for Step.fromJSON"); let type = stepsByID[json.stepType]; if (!type) throw new RangeError(`No step type ${json.stepType} defined`); return type.fromJSON(schema, json); } /** To be able to serialize steps to JSON, each step needs a string ID to attach to its JSON representation. Use this method to register an ID for your step classes. Try to pick something that's unlikely to clash with steps from other modules. */ static jsonID(id, stepClass) { if (id in stepsByID) throw new RangeError("Duplicate use of step JSON ID " + id); stepsByID[id] = stepClass; stepClass.prototype.jsonID = id; return stepClass; } }; var StepResult = class _StepResult { /** @internal */ constructor(doc4, failed) { this.doc = doc4; this.failed = failed; } /** Create a successful step result. */ static ok(doc4) { return new _StepResult(doc4, null); } /** Create a failed step result. */ static fail(message) { return new _StepResult(null, message); } /** Call [`Node.replace`](https://prosemirror.net/docs/ref/#model.Node.replace) with the given arguments. Create a successful result if it succeeds, and a failed one if it throws a `ReplaceError`. */ static fromReplace(doc4, from, to, slice) { try { return _StepResult.ok(doc4.replace(from, to, slice)); } catch (e2) { if (e2 instanceof ReplaceError) return _StepResult.fail(e2.message); throw e2; } } }; function mapFragment(fragment, f3, parent) { let mapped = []; for (let i2 = 0; i2 < fragment.childCount; i2++) { let child = fragment.child(i2); if (child.content.size) child = child.copy(mapFragment(child.content, f3, child)); if (child.isInline) child = f3(child, parent, i2); mapped.push(child); } return Fragment.fromArray(mapped); } var AddMarkStep = class _AddMarkStep extends Step { /** Create a mark step. */ constructor(from, to, mark) { super(); this.from = from; this.to = to; this.mark = mark; } apply(doc4) { let oldSlice = doc4.slice(this.from, this.to), $from = doc4.resolve(this.from); let parent = $from.node($from.sharedDepth(this.to)); let slice = new Slice(mapFragment(oldSlice.content, (node2, parent2) => { if (!node2.isAtom || !parent2.type.allowsMarkType(this.mark.type)) return node2; return node2.mark(this.mark.addToSet(node2.marks)); }, parent), oldSlice.openStart, oldSlice.openEnd); return StepResult.fromReplace(doc4, this.from, this.to, slice); } invert() { return new RemoveMarkStep(this.from, this.to, this.mark); } map(mapping) { let from = mapping.mapResult(this.from, 1), to = mapping.mapResult(this.to, -1); if (from.deleted && to.deleted || from.pos >= to.pos) return null; return new _AddMarkStep(from.pos, to.pos, this.mark); } merge(other) { if (other instanceof _AddMarkStep && other.mark.eq(this.mark) && this.from <= other.to && this.to >= other.from) return new _AddMarkStep(Math.min(this.from, other.from), Math.max(this.to, other.to), this.mark); return null; } toJSON() { return { stepType: "addMark", mark: this.mark.toJSON(), from: this.from, to: this.to }; } /** @internal */ static fromJSON(schema, json) { if (typeof json.from != "number" || typeof json.to != "number") throw new RangeError("Invalid input for AddMarkStep.fromJSON"); return new _AddMarkStep(json.from, json.to, schema.markFromJSON(json.mark)); } }; Step.jsonID("addMark", AddMarkStep); var RemoveMarkStep = class _RemoveMarkStep extends Step { /** Create a mark-removing step. */ constructor(from, to, mark) { super(); this.from = from; this.to = to; this.mark = mark; } apply(doc4) { let oldSlice = doc4.slice(this.from, this.to); let slice = new Slice(mapFragment(oldSlice.content, (node2) => { return node2.mark(this.mark.removeFromSet(node2.marks)); }, doc4), oldSlice.openStart, oldSlice.openEnd); return StepResult.fromReplace(doc4, this.from, this.to, slice); } invert() { return new AddMarkStep(this.from, this.to, this.mark); } map(mapping) { let from = mapping.mapResult(this.from, 1), to = mapping.mapResult(this.to, -1); if (from.deleted && to.deleted || from.pos >= to.pos) return null; return new _RemoveMarkStep(from.pos, to.pos, this.mark); } merge(other) { if (other instanceof _RemoveMarkStep && other.mark.eq(this.mark) && this.from <= other.to && this.to >= other.from) return new _RemoveMarkStep(Math.min(this.from, other.from), Math.max(this.to, other.to), this.mark); return null; } toJSON() { return { stepType: "removeMark", mark: this.mark.toJSON(), from: this.from, to: this.to }; } /** @internal */ static fromJSON(schema, json) { if (typeof json.from != "number" || typeof json.to != "number") throw new RangeError("Invalid input for RemoveMarkStep.fromJSON"); return new _RemoveMarkStep(json.from, json.to, schema.markFromJSON(json.mark)); } }; Step.jsonID("removeMark", RemoveMarkStep); var AddNodeMarkStep = class _AddNodeMarkStep extends Step { /** Create a node mark step. */ constructor(pos, mark) { super(); this.pos = pos; this.mark = mark; } apply(doc4) { let node2 = doc4.nodeAt(this.pos); if (!node2) return StepResult.fail("No node at mark step's position"); let updated = node2.type.create(node2.attrs, null, this.mark.addToSet(node2.marks)); return StepResult.fromReplace(doc4, this.pos, this.pos + 1, new Slice(Fragment.from(updated), 0, node2.isLeaf ? 0 : 1)); } invert(doc4) { let node2 = doc4.nodeAt(this.pos); if (node2) { let newSet = this.mark.addToSet(node2.marks); if (newSet.length == node2.marks.length) { for (let i2 = 0; i2 < node2.marks.length; i2++) if (!node2.marks[i2].isInSet(newSet)) return new _AddNodeMarkStep(this.pos, node2.marks[i2]); return new _AddNodeMarkStep(this.pos, this.mark); } } return new RemoveNodeMarkStep(this.pos, this.mark); } map(mapping) { let pos = mapping.mapResult(this.pos, 1); return pos.deletedAfter ? null : new _AddNodeMarkStep(pos.pos, this.mark); } toJSON() { return { stepType: "addNodeMark", pos: this.pos, mark: this.mark.toJSON() }; } /** @internal */ static fromJSON(schema, json) { if (typeof json.pos != "number") throw new RangeError("Invalid input for AddNodeMarkStep.fromJSON"); return new _AddNodeMarkStep(json.pos, schema.markFromJSON(json.mark)); } }; Step.jsonID("addNodeMark", AddNodeMarkStep); var RemoveNodeMarkStep = class _RemoveNodeMarkStep extends Step { /** Create a mark-removing step. */ constructor(pos, mark) { super(); this.pos = pos; this.mark = mark; } apply(doc4) { let node2 = doc4.nodeAt(this.pos); if (!node2) return StepResult.fail("No node at mark step's position"); let updated = node2.type.create(node2.attrs, null, this.mark.removeFromSet(node2.marks)); return StepResult.fromReplace(doc4, this.pos, this.pos + 1, new Slice(Fragment.from(updated), 0, node2.isLeaf ? 0 : 1)); } invert(doc4) { let node2 = doc4.nodeAt(this.pos); if (!node2 || !this.mark.isInSet(node2.marks)) return this; return new AddNodeMarkStep(this.pos, this.mark); } map(mapping) { let pos = mapping.mapResult(this.pos, 1); return pos.deletedAfter ? null : new _RemoveNodeMarkStep(pos.pos, this.mark); } toJSON() { return { stepType: "removeNodeMark", pos: this.pos, mark: this.mark.toJSON() }; } /** @internal */ static fromJSON(schema, json) { if (typeof json.pos != "number") throw new RangeError("Invalid input for RemoveNodeMarkStep.fromJSON"); return new _RemoveNodeMarkStep(json.pos, schema.markFromJSON(json.mark)); } }; Step.jsonID("removeNodeMark", RemoveNodeMarkStep); var ReplaceStep = class _ReplaceStep extends Step { /** The given `slice` should fit the 'gap' between `from` and `to`—the depths must line up, and the surrounding nodes must be able to be joined with the open sides of the slice. When `structure` is true, the step will fail if the content between from and to is not just a sequence of closing and then opening tokens (this is to guard against rebased replace steps overwriting something they weren't supposed to). */ constructor(from, to, slice, structure = false) { super(); this.from = from; this.to = to; this.slice = slice; this.structure = structure; } apply(doc4) { if (this.structure && contentBetween(doc4, this.from, this.to)) return StepResult.fail("Structure replace would overwrite content"); return StepResult.fromReplace(doc4, this.from, this.to, this.slice); } getMap() { return new StepMap([this.from, this.to - this.from, this.slice.size]); } invert(doc4) { return new _ReplaceStep(this.from, this.from + this.slice.size, doc4.slice(this.from, this.to)); } map(mapping) { let from = mapping.mapResult(this.from, 1), to = mapping.mapResult(this.to, -1); if (from.deletedAcross && to.deletedAcross) return null; return new _ReplaceStep(from.pos, Math.max(from.pos, to.pos), this.slice); } merge(other) { if (!(other instanceof _ReplaceStep) || other.structure || this.structure) return null; if (this.from + this.slice.size == other.from && !this.slice.openEnd && !other.slice.openStart) { let slice = this.slice.size + other.slice.size == 0 ? Slice.empty : new Slice(this.slice.content.append(other.slice.content), this.slice.openStart, other.slice.openEnd); return new _ReplaceStep(this.from, this.to + (other.to - other.from), slice, this.structure); } else if (other.to == this.from && !this.slice.openStart && !other.slice.openEnd) { let slice = this.slice.size + other.slice.size == 0 ? Slice.empty : new Slice(other.slice.content.append(this.slice.content), other.slice.openStart, this.slice.openEnd); return new _ReplaceStep(other.from, this.to, slice, this.structure); } else { return null; } } toJSON() { let json = { stepType: "replace", from: this.from, to: this.to }; if (this.slice.size) json.slice = this.slice.toJSON(); if (this.structure) json.structure = true; return json; } /** @internal */ static fromJSON(schema, json) { if (typeof json.from != "number" || typeof json.to != "number") throw new RangeError("Invalid input for ReplaceStep.fromJSON"); return new _ReplaceStep(json.from, json.to, Slice.fromJSON(schema, json.slice), !!json.structure); } }; Step.jsonID("replace", ReplaceStep); var ReplaceAroundStep = class _ReplaceAroundStep extends Step { /** Create a replace-around step with the given range and gap. `insert` should be the point in the slice into which the content of the gap should be moved. `structure` has the same meaning as it has in the [`ReplaceStep`](https://prosemirror.net/docs/ref/#transform.ReplaceStep) class. */ constructor(from, to, gapFrom, gapTo, slice, insert, structure = false) { super(); this.from = from; this.to = to; this.gapFrom = gapFrom; this.gapTo = gapTo; this.slice = slice; this.insert = insert; this.structure = structure; } apply(doc4) { if (this.structure && (contentBetween(doc4, this.from, this.gapFrom) || contentBetween(doc4, this.gapTo, this.to))) return StepResult.fail("Structure gap-replace would overwrite content"); let gap = doc4.slice(this.gapFrom, this.gapTo); if (gap.openStart || gap.openEnd) return StepResult.fail("Gap is not a flat range"); let inserted = this.slice.insertAt(this.insert, gap.content); if (!inserted) return StepResult.fail("Content does not fit in gap"); return StepResult.fromReplace(doc4, this.from, this.to, inserted); } getMap() { return new StepMap([ this.from, this.gapFrom - this.from, this.insert, this.gapTo, this.to - this.gapTo, this.slice.size - this.insert ]); } invert(doc4) { let gap = this.gapTo - this.gapFrom; return new _ReplaceAroundStep(this.from, this.from + this.slice.size + gap, this.from + this.insert, this.from + this.insert + gap, doc4.slice(this.from, this.to).removeBetween(this.gapFrom - this.from, this.gapTo - this.from), this.gapFrom - this.from, this.structure); } map(mapping) { let from = mapping.mapResult(this.from, 1), to = mapping.mapResult(this.to, -1); let gapFrom = this.from == this.gapFrom ? from.pos : mapping.map(this.gapFrom, -1); let gapTo = this.to == this.gapTo ? to.pos : mapping.map(this.gapTo, 1); if (from.deletedAcross && to.deletedAcross || gapFrom < from.pos || gapTo > to.pos) return null; return new _ReplaceAroundStep(from.pos, to.pos, gapFrom, gapTo, this.slice, this.insert, this.structure); } toJSON() { let json = { stepType: "replaceAround", from: this.from, to: this.to, gapFrom: this.gapFrom, gapTo: this.gapTo, insert: this.insert }; if (this.slice.size) json.slice = this.slice.toJSON(); if (this.structure) json.structure = true; return json; } /** @internal */ static fromJSON(schema, json) { if (typeof json.from != "number" || typeof json.to != "number" || typeof json.gapFrom != "number" || typeof json.gapTo != "number" || typeof json.insert != "number") throw new RangeError("Invalid input for ReplaceAroundStep.fromJSON"); return new _ReplaceAroundStep(json.from, json.to, json.gapFrom, json.gapTo, Slice.fromJSON(schema, json.slice), json.insert, !!json.structure); } }; Step.jsonID("replaceAround", ReplaceAroundStep); function contentBetween(doc4, from, to) { let $from = doc4.resolve(from), dist = to - from, depth = $from.depth; while (dist > 0 && depth > 0 && $from.indexAfter(depth) == $from.node(depth).childCount) { depth--; dist--; } if (dist > 0) { let next = $from.node(depth).maybeChild($from.indexAfter(depth)); while (dist > 0) { if (!next || next.isLeaf) return true; next = next.firstChild; dist--; } } return false; } function addMark(tr, from, to, mark) { let removed = [], added = []; let removing, adding; tr.doc.nodesBetween(from, to, (node2, pos, parent) => { if (!node2.isInline) return; let marks = node2.marks; if (!mark.isInSet(marks) && parent.type.allowsMarkType(mark.type)) { let start = Math.max(pos, from), end = Math.min(pos + node2.nodeSize, to); let newSet = mark.addToSet(marks); for (let i2 = 0; i2 < marks.length; i2++) { if (!marks[i2].isInSet(newSet)) { if (removing && removing.to == start && removing.mark.eq(marks[i2])) removing.to = end; else removed.push(removing = new RemoveMarkStep(start, end, marks[i2])); } } if (adding && adding.to == start) adding.to = end; else added.push(adding = new AddMarkStep(start, end, mark)); } }); removed.forEach((s2) => tr.step(s2)); added.forEach((s2) => tr.step(s2)); } function removeMark(tr, from, to, mark) { let matched = [], step = 0; tr.doc.nodesBetween(from, to, (node2, pos) => { if (!node2.isInline) return; step++; let toRemove = null; if (mark instanceof MarkType) { let set = node2.marks, found2; while (found2 = mark.isInSet(set)) { (toRemove || (toRemove = [])).push(found2); set = found2.removeFromSet(set); } } else if (mark) { if (mark.isInSet(node2.marks)) toRemove = [mark]; } else { toRemove = node2.marks; } if (toRemove && toRemove.length) { let end = Math.min(pos + node2.nodeSize, to); for (let i2 = 0; i2 < toRemove.length; i2++) { let style2 = toRemove[i2], found2; for (let j6 = 0; j6 < matched.length; j6++) { let m3 = matched[j6]; if (m3.step == step - 1 && style2.eq(matched[j6].style)) found2 = m3; } if (found2) { found2.to = end; found2.step = step; } else { matched.push({ style: style2, from: Math.max(pos, from), to: end, step }); } } } }); matched.forEach((m3) => tr.step(new RemoveMarkStep(m3.from, m3.to, m3.style))); } function clearIncompatible(tr, pos, parentType, match = parentType.contentMatch, clearNewlines = true) { let node2 = tr.doc.nodeAt(pos); let replSteps = [], cur = pos + 1; for (let i2 = 0; i2 < node2.childCount; i2++) { let child = node2.child(i2), end = cur + child.nodeSize; let allowed = match.matchType(child.type); if (!allowed) { replSteps.push(new ReplaceStep(cur, end, Slice.empty)); } else { match = allowed; for (let j6 = 0; j6 < child.marks.length; j6++) if (!parentType.allowsMarkType(child.marks[j6].type)) tr.step(new RemoveMarkStep(cur, end, child.marks[j6])); if (clearNewlines && child.isText && parentType.whitespace != "pre") { let m3, newline = /\r?\n|\r/g, slice; while (m3 = newline.exec(child.text)) { if (!slice) slice = new Slice(Fragment.from(parentType.schema.text(" ", parentType.allowedMarks(child.marks))), 0, 0); replSteps.push(new ReplaceStep(cur + m3.index, cur + m3.index + m3[0].length, slice)); } } } cur = end; } if (!match.validEnd) { let fill = match.fillBefore(Fragment.empty, true); tr.replace(cur, cur, new Slice(fill, 0, 0)); } for (let i2 = replSteps.length - 1; i2 >= 0; i2--) tr.step(replSteps[i2]); } function canCut(node2, start, end) { return (start == 0 || node2.canReplace(start, node2.childCount)) && (end == node2.childCount || node2.canReplace(0, end)); } function liftTarget(range) { let parent = range.parent; let content3 = parent.content.cutByIndex(range.startIndex, range.endIndex); for (let depth = range.depth; ; --depth) { let node2 = range.$from.node(depth); let index2 = range.$from.index(depth), endIndex = range.$to.indexAfter(depth); if (depth < range.depth && node2.canReplace(index2, endIndex, content3)) return depth; if (depth == 0 || node2.type.spec.isolating || !canCut(node2, index2, endIndex)) break; } return null; } function lift(tr, range, target) { let { $from, $to, depth } = range; let gapStart = $from.before(depth + 1), gapEnd = $to.after(depth + 1); let start = gapStart, end = gapEnd; let before = Fragment.empty, openStart = 0; for (let d6 = depth, splitting = false; d6 > target; d6--) if (splitting || $from.index(d6) > 0) { splitting = true; before = Fragment.from($from.node(d6).copy(before)); openStart++; } else { start--; } let after = Fragment.empty, openEnd = 0; for (let d6 = depth, splitting = false; d6 > target; d6--) if (splitting || $to.after(d6 + 1) < $to.end(d6)) { splitting = true; after = Fragment.from($to.node(d6).copy(after)); openEnd++; } else { end++; } tr.step(new ReplaceAroundStep(start, end, gapStart, gapEnd, new Slice(before.append(after), openStart, openEnd), before.size - openStart, true)); } function findWrapping(range, nodeType, attrs = null, innerRange = range) { let around = findWrappingOutside(range, nodeType); let inner = around && findWrappingInside(innerRange, nodeType); if (!inner) return null; return around.map(withAttrs).concat({ type: nodeType, attrs }).concat(inner.map(withAttrs)); } function withAttrs(type) { return { type, attrs: null }; } function findWrappingOutside(range, type) { let { parent, startIndex, endIndex } = range; let around = parent.contentMatchAt(startIndex).findWrapping(type); if (!around) return null; let outer = around.length ? around[0] : type; return parent.canReplaceWith(startIndex, endIndex, outer) ? around : null; } function findWrappingInside(range, type) { let { parent, startIndex, endIndex } = range; let inner = parent.child(startIndex); let inside = type.contentMatch.findWrapping(inner.type); if (!inside) return null; let lastType = inside.length ? inside[inside.length - 1] : type; let innerMatch = lastType.contentMatch; for (let i2 = startIndex; innerMatch && i2 < endIndex; i2++) innerMatch = innerMatch.matchType(parent.child(i2).type); if (!innerMatch || !innerMatch.validEnd) return null; return inside; } function wrap2(tr, range, wrappers) { let content3 = Fragment.empty; for (let i2 = wrappers.length - 1; i2 >= 0; i2--) { if (content3.size) { let match = wrappers[i2].type.contentMatch.matchFragment(content3); if (!match || !match.validEnd) throw new RangeError("Wrapper type given to Transform.wrap does not form valid content of its parent wrapper"); } content3 = Fragment.from(wrappers[i2].type.create(wrappers[i2].attrs, content3)); } let start = range.start, end = range.end; tr.step(new ReplaceAroundStep(start, end, start, end, new Slice(content3, 0, 0), wrappers.length, true)); } function setBlockType(tr, from, to, type, attrs) { if (!type.isTextblock) throw new RangeError("Type given to setBlockType should be a textblock"); let mapFrom = tr.steps.length; tr.doc.nodesBetween(from, to, (node2, pos) => { if (node2.isTextblock && !node2.hasMarkup(type, attrs) && canChangeType(tr.doc, tr.mapping.slice(mapFrom).map(pos), type)) { let convertNewlines = null; if (type.schema.linebreakReplacement) { let pre = type.whitespace == "pre", supportLinebreak = !!type.contentMatch.matchType(type.schema.linebreakReplacement); if (pre && !supportLinebreak) convertNewlines = false; else if (!pre && supportLinebreak) convertNewlines = true; } if (convertNewlines === false) replaceLinebreaks(tr, node2, pos, mapFrom); clearIncompatible(tr, tr.mapping.slice(mapFrom).map(pos, 1), type, void 0, convertNewlines === null); let mapping = tr.mapping.slice(mapFrom); let startM = mapping.map(pos, 1), endM = mapping.map(pos + node2.nodeSize, 1); tr.step(new ReplaceAroundStep(startM, endM, startM + 1, endM - 1, new Slice(Fragment.from(type.create(attrs, null, node2.marks)), 0, 0), 1, true)); if (convertNewlines === true) replaceNewlines(tr, node2, pos, mapFrom); return false; } }); } function replaceNewlines(tr, node2, pos, mapFrom) { node2.forEach((child, offset) => { if (child.isText) { let m3, newline = /\r?\n|\r/g; while (m3 = newline.exec(child.text)) { let start = tr.mapping.slice(mapFrom).map(pos + 1 + offset + m3.index); tr.replaceWith(start, start + 1, node2.type.schema.linebreakReplacement.create()); } } }); } function replaceLinebreaks(tr, node2, pos, mapFrom) { node2.forEach((child, offset) => { if (child.type == child.type.schema.linebreakReplacement) { let start = tr.mapping.slice(mapFrom).map(pos + 1 + offset); tr.replaceWith(start, start + 1, node2.type.schema.text("\n")); } }); } function canChangeType(doc4, pos, type) { let $pos = doc4.resolve(pos), index2 = $pos.index(); return $pos.parent.canReplaceWith(index2, index2 + 1, type); } function setNodeMarkup(tr, pos, type, attrs, marks) { let node2 = tr.doc.nodeAt(pos); if (!node2) throw new RangeError("No node at given position"); if (!type) type = node2.type; let newNode = type.create(attrs, null, marks || node2.marks); if (node2.isLeaf) return tr.replaceWith(pos, pos + node2.nodeSize, newNode); if (!type.validContent(node2.content)) throw new RangeError("Invalid content for node type " + type.name); tr.step(new ReplaceAroundStep(pos, pos + node2.nodeSize, pos + 1, pos + node2.nodeSize - 1, new Slice(Fragment.from(newNode), 0, 0), 1, true)); } function canSplit(doc4, pos, depth = 1, typesAfter) { let $pos = doc4.resolve(pos), base2 = $pos.depth - depth; let innerType = typesAfter && typesAfter[typesAfter.length - 1] || $pos.parent; if (base2 < 0 || $pos.parent.type.spec.isolating || !$pos.parent.canReplace($pos.index(), $pos.parent.childCount) || !innerType.type.validContent($pos.parent.content.cutByIndex($pos.index(), $pos.parent.childCount))) return false; for (let d6 = $pos.depth - 1, i2 = depth - 2; d6 > base2; d6--, i2--) { let node2 = $pos.node(d6), index3 = $pos.index(d6); if (node2.type.spec.isolating) return false; let rest = node2.content.cutByIndex(index3, node2.childCount); let overrideChild = typesAfter && typesAfter[i2 + 1]; if (overrideChild) rest = rest.replaceChild(0, overrideChild.type.create(overrideChild.attrs)); let after = typesAfter && typesAfter[i2] || node2; if (!node2.canReplace(index3 + 1, node2.childCount) || !after.type.validContent(rest)) return false; } let index2 = $pos.indexAfter(base2); let baseType = typesAfter && typesAfter[0]; return $pos.node(base2).canReplaceWith(index2, index2, baseType ? baseType.type : $pos.node(base2 + 1).type); } function split(tr, pos, depth = 1, typesAfter) { let $pos = tr.doc.resolve(pos), before = Fragment.empty, after = Fragment.empty; for (let d6 = $pos.depth, e2 = $pos.depth - depth, i2 = depth - 1; d6 > e2; d6--, i2--) { before = Fragment.from($pos.node(d6).copy(before)); let typeAfter = typesAfter && typesAfter[i2]; after = Fragment.from(typeAfter ? typeAfter.type.create(typeAfter.attrs, after) : $pos.node(d6).copy(after)); } tr.step(new ReplaceStep(pos, pos, new Slice(before.append(after), depth, depth), true)); } function canJoin(doc4, pos) { let $pos = doc4.resolve(pos), index2 = $pos.index(); return joinable2($pos.nodeBefore, $pos.nodeAfter) && $pos.parent.canReplace(index2, index2 + 1); } function joinable2(a2, b4) { return !!(a2 && b4 && !a2.isLeaf && a2.canAppend(b4)); } function join3(tr, pos, depth) { let step = new ReplaceStep(pos - depth, pos + depth, Slice.empty, true); tr.step(step); } function insertPoint(doc4, pos, nodeType) { let $pos = doc4.resolve(pos); if ($pos.parent.canReplaceWith($pos.index(), $pos.index(), nodeType)) return pos; if ($pos.parentOffset == 0) for (let d6 = $pos.depth - 1; d6 >= 0; d6--) { let index2 = $pos.index(d6); if ($pos.node(d6).canReplaceWith(index2, index2, nodeType)) return $pos.before(d6 + 1); if (index2 > 0) return null; } if ($pos.parentOffset == $pos.parent.content.size) for (let d6 = $pos.depth - 1; d6 >= 0; d6--) { let index2 = $pos.indexAfter(d6); if ($pos.node(d6).canReplaceWith(index2, index2, nodeType)) return $pos.after(d6 + 1); if (index2 < $pos.node(d6).childCount) return null; } return null; } function dropPoint(doc4, pos, slice) { let $pos = doc4.resolve(pos); if (!slice.content.size) return pos; let content3 = slice.content; for (let i2 = 0; i2 < slice.openStart; i2++) content3 = content3.firstChild.content; for (let pass = 1; pass <= (slice.openStart == 0 && slice.size ? 2 : 1); pass++) { for (let d6 = $pos.depth; d6 >= 0; d6--) { let bias = d6 == $pos.depth ? 0 : $pos.pos <= ($pos.start(d6 + 1) + $pos.end(d6 + 1)) / 2 ? -1 : 1; let insertPos = $pos.index(d6) + (bias > 0 ? 1 : 0); let parent = $pos.node(d6), fits = false; if (pass == 1) { fits = parent.canReplace(insertPos, insertPos, content3); } else { let wrapping = parent.contentMatchAt(insertPos).findWrapping(content3.firstChild.type); fits = wrapping && parent.canReplaceWith(insertPos, insertPos, wrapping[0]); } if (fits) return bias == 0 ? $pos.pos : bias < 0 ? $pos.before(d6 + 1) : $pos.after(d6 + 1); } } return null; } function replaceStep(doc4, from, to = from, slice = Slice.empty) { if (from == to && !slice.size) return null; let $from = doc4.resolve(from), $to = doc4.resolve(to); if (fitsTrivially($from, $to, slice)) return new ReplaceStep(from, to, slice); return new Fitter($from, $to, slice).fit(); } function fitsTrivially($from, $to, slice) { return !slice.openStart && !slice.openEnd && $from.start() == $to.start() && $from.parent.canReplace($from.index(), $to.index(), slice.content); } var Fitter = class { constructor($from, $to, unplaced) { this.$from = $from; this.$to = $to; this.unplaced = unplaced; this.frontier = []; this.placed = Fragment.empty; for (let i2 = 0; i2 <= $from.depth; i2++) { let node2 = $from.node(i2); this.frontier.push({ type: node2.type, match: node2.contentMatchAt($from.indexAfter(i2)) }); } for (let i2 = $from.depth; i2 > 0; i2--) this.placed = Fragment.from($from.node(i2).copy(this.placed)); } get depth() { return this.frontier.length - 1; } fit() { while (this.unplaced.size) { let fit = this.findFittable(); if (fit) this.placeNodes(fit); else this.openMore() || this.dropNode(); } let moveInline = this.mustMoveInline(), placedSize = this.placed.size - this.depth - this.$from.depth; let $from = this.$from, $to = this.close(moveInline < 0 ? this.$to : $from.doc.resolve(moveInline)); if (!$to) return null; let content3 = this.placed, openStart = $from.depth, openEnd = $to.depth; while (openStart && openEnd && content3.childCount == 1) { content3 = content3.firstChild.content; openStart--; openEnd--; } let slice = new Slice(content3, openStart, openEnd); if (moveInline > -1) return new ReplaceAroundStep($from.pos, moveInline, this.$to.pos, this.$to.end(), slice, placedSize); if (slice.size || $from.pos != this.$to.pos) return new ReplaceStep($from.pos, $to.pos, slice); return null; } // Find a position on the start spine of `this.unplaced` that has // content that can be moved somewhere on the frontier. Returns two // depths, one for the slice and one for the frontier. findFittable() { let startDepth = this.unplaced.openStart; for (let cur = this.unplaced.content, d6 = 0, openEnd = this.unplaced.openEnd; d6 < startDepth; d6++) { let node2 = cur.firstChild; if (cur.childCount > 1) openEnd = 0; if (node2.type.spec.isolating && openEnd <= d6) { startDepth = d6; break; } cur = node2.content; } for (let pass = 1; pass <= 2; pass++) { for (let sliceDepth = pass == 1 ? startDepth : this.unplaced.openStart; sliceDepth >= 0; sliceDepth--) { let fragment, parent = null; if (sliceDepth) { parent = contentAt(this.unplaced.content, sliceDepth - 1).firstChild; fragment = parent.content; } else { fragment = this.unplaced.content; } let first = fragment.firstChild; for (let frontierDepth = this.depth; frontierDepth >= 0; frontierDepth--) { let { type, match } = this.frontier[frontierDepth], wrap3, inject = null; if (pass == 1 && (first ? match.matchType(first.type) || (inject = match.fillBefore(Fragment.from(first), false)) : parent && type.compatibleContent(parent.type))) return { sliceDepth, frontierDepth, parent, inject }; else if (pass == 2 && first && (wrap3 = match.findWrapping(first.type))) return { sliceDepth, frontierDepth, parent, wrap: wrap3 }; if (parent && match.matchType(parent.type)) break; } } } } openMore() { let { content: content3, openStart, openEnd } = this.unplaced; let inner = contentAt(content3, openStart); if (!inner.childCount || inner.firstChild.isLeaf) return false; this.unplaced = new Slice(content3, openStart + 1, Math.max(openEnd, inner.size + openStart >= content3.size - openEnd ? openStart + 1 : 0)); return true; } dropNode() { let { content: content3, openStart, openEnd } = this.unplaced; let inner = contentAt(content3, openStart); if (inner.childCount <= 1 && openStart > 0) { let openAtEnd = content3.size - openStart <= openStart + inner.size; this.unplaced = new Slice(dropFromFragment(content3, openStart - 1, 1), openStart - 1, openAtEnd ? openStart - 1 : openEnd); } else { this.unplaced = new Slice(dropFromFragment(content3, openStart, 1), openStart, openEnd); } } // Move content from the unplaced slice at `sliceDepth` to the // frontier node at `frontierDepth`. Close that frontier node when // applicable. placeNodes({ sliceDepth, frontierDepth, parent, inject, wrap: wrap3 }) { while (this.depth > frontierDepth) this.closeFrontierNode(); if (wrap3) for (let i2 = 0; i2 < wrap3.length; i2++) this.openFrontierNode(wrap3[i2]); let slice = this.unplaced, fragment = parent ? parent.content : slice.content; let openStart = slice.openStart - sliceDepth; let taken = 0, add = []; let { match, type } = this.frontier[frontierDepth]; if (inject) { for (let i2 = 0; i2 < inject.childCount; i2++) add.push(inject.child(i2)); match = match.matchFragment(inject); } let openEndCount = fragment.size + sliceDepth - (slice.content.size - slice.openEnd); while (taken < fragment.childCount) { let next = fragment.child(taken), matches2 = match.matchType(next.type); if (!matches2) break; taken++; if (taken > 1 || openStart == 0 || next.content.size) { match = matches2; add.push(closeNodeStart(next.mark(type.allowedMarks(next.marks)), taken == 1 ? openStart : 0, taken == fragment.childCount ? openEndCount : -1)); } } let toEnd = taken == fragment.childCount; if (!toEnd) openEndCount = -1; this.placed = addToFragment(this.placed, frontierDepth, Fragment.from(add)); this.frontier[frontierDepth].match = match; if (toEnd && openEndCount < 0 && parent && parent.type == this.frontier[this.depth].type && this.frontier.length > 1) this.closeFrontierNode(); for (let i2 = 0, cur = fragment; i2 < openEndCount; i2++) { let node2 = cur.lastChild; this.frontier.push({ type: node2.type, match: node2.contentMatchAt(node2.childCount) }); cur = node2.content; } this.unplaced = !toEnd ? new Slice(dropFromFragment(slice.content, sliceDepth, taken), slice.openStart, slice.openEnd) : sliceDepth == 0 ? Slice.empty : new Slice(dropFromFragment(slice.content, sliceDepth - 1, 1), sliceDepth - 1, openEndCount < 0 ? slice.openEnd : sliceDepth - 1); } mustMoveInline() { if (!this.$to.parent.isTextblock) return -1; let top = this.frontier[this.depth], level; if (!top.type.isTextblock || !contentAfterFits(this.$to, this.$to.depth, top.type, top.match, false) || this.$to.depth == this.depth && (level = this.findCloseLevel(this.$to)) && level.depth == this.depth) return -1; let { depth } = this.$to, after = this.$to.after(depth); while (depth > 1 && after == this.$to.end(--depth)) ++after; return after; } findCloseLevel($to) { scan: for (let i2 = Math.min(this.depth, $to.depth); i2 >= 0; i2--) { let { match, type } = this.frontier[i2]; let dropInner = i2 < $to.depth && $to.end(i2 + 1) == $to.pos + ($to.depth - (i2 + 1)); let fit = contentAfterFits($to, i2, type, match, dropInner); if (!fit) continue; for (let d6 = i2 - 1; d6 >= 0; d6--) { let { match: match2, type: type2 } = this.frontier[d6]; let matches2 = contentAfterFits($to, d6, type2, match2, true); if (!matches2 || matches2.childCount) continue scan; } return { depth: i2, fit, move: dropInner ? $to.doc.resolve($to.after(i2 + 1)) : $to }; } } close($to) { let close2 = this.findCloseLevel($to); if (!close2) return null; while (this.depth > close2.depth) this.closeFrontierNode(); if (close2.fit.childCount) this.placed = addToFragment(this.placed, close2.depth, close2.fit); $to = close2.move; for (let d6 = close2.depth + 1; d6 <= $to.depth; d6++) { let node2 = $to.node(d6), add = node2.type.contentMatch.fillBefore(node2.content, true, $to.index(d6)); this.openFrontierNode(node2.type, node2.attrs, add); } return $to; } openFrontierNode(type, attrs = null, content3) { let top = this.frontier[this.depth]; top.match = top.match.matchType(type); this.placed = addToFragment(this.placed, this.depth, Fragment.from(type.create(attrs, content3))); this.frontier.push({ type, match: type.contentMatch }); } closeFrontierNode() { let open = this.frontier.pop(); let add = open.match.fillBefore(Fragment.empty, true); if (add.childCount) this.placed = addToFragment(this.placed, this.frontier.length, add); } }; function dropFromFragment(fragment, depth, count) { if (depth == 0) return fragment.cutByIndex(count, fragment.childCount); return fragment.replaceChild(0, fragment.firstChild.copy(dropFromFragment(fragment.firstChild.content, depth - 1, count))); } function addToFragment(fragment, depth, content3) { if (depth == 0) return fragment.append(content3); return fragment.replaceChild(fragment.childCount - 1, fragment.lastChild.copy(addToFragment(fragment.lastChild.content, depth - 1, content3))); } function contentAt(fragment, depth) { for (let i2 = 0; i2 < depth; i2++) fragment = fragment.firstChild.content; return fragment; } function closeNodeStart(node2, openStart, openEnd) { if (openStart <= 0) return node2; let frag = node2.content; if (openStart > 1) frag = frag.replaceChild(0, closeNodeStart(frag.firstChild, openStart - 1, frag.childCount == 1 ? openEnd - 1 : 0)); if (openStart > 0) { frag = node2.type.contentMatch.fillBefore(frag).append(frag); if (openEnd <= 0) frag = frag.append(node2.type.contentMatch.matchFragment(frag).fillBefore(Fragment.empty, true)); } return node2.copy(frag); } function contentAfterFits($to, depth, type, match, open) { let node2 = $to.node(depth), index2 = open ? $to.indexAfter(depth) : $to.index(depth); if (index2 == node2.childCount && !type.compatibleContent(node2.type)) return null; let fit = match.fillBefore(node2.content, true, index2); return fit && !invalidMarks(type, node2.content, index2) ? fit : null; } function invalidMarks(type, fragment, start) { for (let i2 = start; i2 < fragment.childCount; i2++) if (!type.allowsMarks(fragment.child(i2).marks)) return true; return false; } function definesContent(type) { return type.spec.defining || type.spec.definingForContent; } function replaceRange(tr, from, to, slice) { if (!slice.size) return tr.deleteRange(from, to); let $from = tr.doc.resolve(from), $to = tr.doc.resolve(to); if (fitsTrivially($from, $to, slice)) return tr.step(new ReplaceStep(from, to, slice)); let targetDepths = coveredDepths($from, tr.doc.resolve(to)); if (targetDepths[targetDepths.length - 1] == 0) targetDepths.pop(); let preferredTarget = -($from.depth + 1); targetDepths.unshift(preferredTarget); for (let d6 = $from.depth, pos = $from.pos - 1; d6 > 0; d6--, pos--) { let spec = $from.node(d6).type.spec; if (spec.defining || spec.definingAsContext || spec.isolating) break; if (targetDepths.indexOf(d6) > -1) preferredTarget = d6; else if ($from.before(d6) == pos) targetDepths.splice(1, 0, -d6); } let preferredTargetIndex = targetDepths.indexOf(preferredTarget); let leftNodes = [], preferredDepth = slice.openStart; for (let content3 = slice.content, i2 = 0; ; i2++) { let node2 = content3.firstChild; leftNodes.push(node2); if (i2 == slice.openStart) break; content3 = node2.content; } for (let d6 = preferredDepth - 1; d6 >= 0; d6--) { let leftNode = leftNodes[d6], def = definesContent(leftNode.type); if (def && !leftNode.sameMarkup($from.node(Math.abs(preferredTarget) - 1))) preferredDepth = d6; else if (def || !leftNode.type.isTextblock) break; } for (let j6 = slice.openStart; j6 >= 0; j6--) { let openDepth = (j6 + preferredDepth + 1) % (slice.openStart + 1); let insert = leftNodes[openDepth]; if (!insert) continue; for (let i2 = 0; i2 < targetDepths.length; i2++) { let targetDepth = targetDepths[(i2 + preferredTargetIndex) % targetDepths.length], expand = true; if (targetDepth < 0) { expand = false; targetDepth = -targetDepth; } let parent = $from.node(targetDepth - 1), index2 = $from.index(targetDepth - 1); if (parent.canReplaceWith(index2, index2, insert.type, insert.marks)) return tr.replace($from.before(targetDepth), expand ? $to.after(targetDepth) : to, new Slice(closeFragment(slice.content, 0, slice.openStart, openDepth), openDepth, slice.openEnd)); } } let startSteps = tr.steps.length; for (let i2 = targetDepths.length - 1; i2 >= 0; i2--) { tr.replace(from, to, slice); if (tr.steps.length > startSteps) break; let depth = targetDepths[i2]; if (depth < 0) continue; from = $from.before(depth); to = $to.after(depth); } } function closeFragment(fragment, depth, oldOpen, newOpen, parent) { if (depth < oldOpen) { let first = fragment.firstChild; fragment = fragment.replaceChild(0, first.copy(closeFragment(first.content, depth + 1, oldOpen, newOpen, first))); } if (depth > newOpen) { let match = parent.contentMatchAt(0); let start = match.fillBefore(fragment).append(fragment); fragment = start.append(match.matchFragment(start).fillBefore(Fragment.empty, true)); } return fragment; } function replaceRangeWith(tr, from, to, node2) { if (!node2.isInline && from == to && tr.doc.resolve(from).parent.content.size) { let point3 = insertPoint(tr.doc, from, node2.type); if (point3 != null) from = to = point3; } tr.replaceRange(from, to, new Slice(Fragment.from(node2), 0, 0)); } function deleteRange(tr, from, to) { let $from = tr.doc.resolve(from), $to = tr.doc.resolve(to); let covered = coveredDepths($from, $to); for (let i2 = 0; i2 < covered.length; i2++) { let depth = covered[i2], last = i2 == covered.length - 1; if (last && depth == 0 || $from.node(depth).type.contentMatch.validEnd) return tr.delete($from.start(depth), $to.end(depth)); if (depth > 0 && (last || $from.node(depth - 1).canReplace($from.index(depth - 1), $to.indexAfter(depth - 1)))) return tr.delete($from.before(depth), $to.after(depth)); } for (let d6 = 1; d6 <= $from.depth && d6 <= $to.depth; d6++) { if (from - $from.start(d6) == $from.depth - d6 && to > $from.end(d6) && $to.end(d6) - to != $to.depth - d6) return tr.delete($from.before(d6), to); } tr.delete(from, to); } function coveredDepths($from, $to) { let result = [], minDepth = Math.min($from.depth, $to.depth); for (let d6 = minDepth; d6 >= 0; d6--) { let start = $from.start(d6); if (start < $from.pos - ($from.depth - d6) || $to.end(d6) > $to.pos + ($to.depth - d6) || $from.node(d6).type.spec.isolating || $to.node(d6).type.spec.isolating) break; if (start == $to.start(d6) || d6 == $from.depth && d6 == $to.depth && $from.parent.inlineContent && $to.parent.inlineContent && d6 && $to.start(d6 - 1) == start - 1) result.push(d6); } return result; } var AttrStep = class _AttrStep extends Step { /** Construct an attribute step. */ constructor(pos, attr, value) { super(); this.pos = pos; this.attr = attr; this.value = value; } apply(doc4) { let node2 = doc4.nodeAt(this.pos); if (!node2) return StepResult.fail("No node at attribute step's position"); let attrs = /* @__PURE__ */ Object.create(null); for (let name in node2.attrs) attrs[name] = node2.attrs[name]; attrs[this.attr] = this.value; let updated = node2.type.create(attrs, null, node2.marks); return StepResult.fromReplace(doc4, this.pos, this.pos + 1, new Slice(Fragment.from(updated), 0, node2.isLeaf ? 0 : 1)); } getMap() { return StepMap.empty; } invert(doc4) { return new _AttrStep(this.pos, this.attr, doc4.nodeAt(this.pos).attrs[this.attr]); } map(mapping) { let pos = mapping.mapResult(this.pos, 1); return pos.deletedAfter ? null : new _AttrStep(pos.pos, this.attr, this.value); } toJSON() { return { stepType: "attr", pos: this.pos, attr: this.attr, value: this.value }; } static fromJSON(schema, json) { if (typeof json.pos != "number" || typeof json.attr != "string") throw new RangeError("Invalid input for AttrStep.fromJSON"); return new _AttrStep(json.pos, json.attr, json.value); } }; Step.jsonID("attr", AttrStep); var DocAttrStep = class _DocAttrStep extends Step { /** Construct an attribute step. */ constructor(attr, value) { super(); this.attr = attr; this.value = value; } apply(doc4) { let attrs = /* @__PURE__ */ Object.create(null); for (let name in doc4.attrs) attrs[name] = doc4.attrs[name]; attrs[this.attr] = this.value; let updated = doc4.type.create(attrs, doc4.content, doc4.marks); return StepResult.ok(updated); } getMap() { return StepMap.empty; } invert(doc4) { return new _DocAttrStep(this.attr, doc4.attrs[this.attr]); } map(mapping) { return this; } toJSON() { return { stepType: "docAttr", attr: this.attr, value: this.value }; } static fromJSON(schema, json) { if (typeof json.attr != "string") throw new RangeError("Invalid input for DocAttrStep.fromJSON"); return new _DocAttrStep(json.attr, json.value); } }; Step.jsonID("docAttr", DocAttrStep); var TransformError = class extends Error { }; TransformError = function TransformError2(message) { let err = Error.call(this, message); err.__proto__ = TransformError2.prototype; return err; }; TransformError.prototype = Object.create(Error.prototype); TransformError.prototype.constructor = TransformError; TransformError.prototype.name = "TransformError"; var Transform = class { /** Create a transform that starts with the given document. */ constructor(doc4) { this.doc = doc4; this.steps = []; this.docs = []; this.mapping = new Mapping(); } /** The starting document. */ get before() { return this.docs.length ? this.docs[0] : this.doc; } /** Apply a new step in this transform, saving the result. Throws an error when the step fails. */ step(step) { let result = this.maybeStep(step); if (result.failed) throw new TransformError(result.failed); return this; } /** Try to apply a step in this transformation, ignoring it if it fails. Returns the step result. */ maybeStep(step) { let result = step.apply(this.doc); if (!result.failed) this.addStep(step, result.doc); return result; } /** True when the document has been changed (when there are any steps). */ get docChanged() { return this.steps.length > 0; } /** @internal */ addStep(step, doc4) { this.docs.push(this.doc); this.steps.push(step); this.mapping.appendMap(step.getMap()); this.doc = doc4; } /** Replace the part of the document between `from` and `to` with the given `slice`. */ replace(from, to = from, slice = Slice.empty) { let step = replaceStep(this.doc, from, to, slice); if (step) this.step(step); return this; } /** Replace the given range with the given content, which may be a fragment, node, or array of nodes. */ replaceWith(from, to, content3) { return this.replace(from, to, new Slice(Fragment.from(content3), 0, 0)); } /** Delete the content between the given positions. */ delete(from, to) { return this.replace(from, to, Slice.empty); } /** Insert the given content at the given position. */ insert(pos, content3) { return this.replaceWith(pos, pos, content3); } /** Replace a range of the document with a given slice, using `from`, `to`, and the slice's [`openStart`](https://prosemirror.net/docs/ref/#model.Slice.openStart) property as hints, rather than fixed start and end points. This method may grow the replaced area or close open nodes in the slice in order to get a fit that is more in line with WYSIWYG expectations, by dropping fully covered parent nodes of the replaced region when they are marked [non-defining as context](https://prosemirror.net/docs/ref/#model.NodeSpec.definingAsContext), or including an open parent node from the slice that _is_ marked as [defining its content](https://prosemirror.net/docs/ref/#model.NodeSpec.definingForContent). This is the method, for example, to handle paste. The similar [`replace`](https://prosemirror.net/docs/ref/#transform.Transform.replace) method is a more primitive tool which will _not_ move the start and end of its given range, and is useful in situations where you need more precise control over what happens. */ replaceRange(from, to, slice) { replaceRange(this, from, to, slice); return this; } /** Replace the given range with a node, but use `from` and `to` as hints, rather than precise positions. When from and to are the same and are at the start or end of a parent node in which the given node doesn't fit, this method may _move_ them out towards a parent that does allow the given node to be placed. When the given range completely covers a parent node, this method may completely replace that parent node. */ replaceRangeWith(from, to, node2) { replaceRangeWith(this, from, to, node2); return this; } /** Delete the given range, expanding it to cover fully covered parent nodes until a valid replace is found. */ deleteRange(from, to) { deleteRange(this, from, to); return this; } /** Split the content in the given range off from its parent, if there is sibling content before or after it, and move it up the tree to the depth specified by `target`. You'll probably want to use [`liftTarget`](https://prosemirror.net/docs/ref/#transform.liftTarget) to compute `target`, to make sure the lift is valid. */ lift(range, target) { lift(this, range, target); return this; } /** Join the blocks around the given position. If depth is 2, their last and first siblings are also joined, and so on. */ join(pos, depth = 1) { join3(this, pos, depth); return this; } /** Wrap the given [range](https://prosemirror.net/docs/ref/#model.NodeRange) in the given set of wrappers. The wrappers are assumed to be valid in this position, and should probably be computed with [`findWrapping`](https://prosemirror.net/docs/ref/#transform.findWrapping). */ wrap(range, wrappers) { wrap2(this, range, wrappers); return this; } /** Set the type of all textblocks (partly) between `from` and `to` to the given node type with the given attributes. */ setBlockType(from, to = from, type, attrs = null) { setBlockType(this, from, to, type, attrs); return this; } /** Change the type, attributes, and/or marks of the node at `pos`. When `type` isn't given, the existing node type is preserved, */ setNodeMarkup(pos, type, attrs = null, marks) { setNodeMarkup(this, pos, type, attrs, marks); return this; } /** Set a single attribute on a given node to a new value. The `pos` addresses the document content. Use `setDocAttribute` to set attributes on the document itself. */ setNodeAttribute(pos, attr, value) { this.step(new AttrStep(pos, attr, value)); return this; } /** Set a single attribute on the document to a new value. */ setDocAttribute(attr, value) { this.step(new DocAttrStep(attr, value)); return this; } /** Add a mark to the node at position `pos`. */ addNodeMark(pos, mark) { this.step(new AddNodeMarkStep(pos, mark)); return this; } /** Remove a mark (or a mark of the given type) from the node at position `pos`. */ removeNodeMark(pos, mark) { if (!(mark instanceof Mark)) { let node2 = this.doc.nodeAt(pos); if (!node2) throw new RangeError("No node at position " + pos); mark = mark.isInSet(node2.marks); if (!mark) return this; } this.step(new RemoveNodeMarkStep(pos, mark)); return this; } /** Split the node at the given position, and optionally, if `depth` is greater than one, any number of nodes above that. By default, the parts split off will inherit the node type of the original node. This can be changed by passing an array of types and attributes to use after the split. */ split(pos, depth = 1, typesAfter) { split(this, pos, depth, typesAfter); return this; } /** Add the given mark to the inline content between `from` and `to`. */ addMark(from, to, mark) { addMark(this, from, to, mark); return this; } /** Remove marks from inline nodes between `from` and `to`. When `mark` is a single mark, remove precisely that mark. When it is a mark type, remove all marks of that type. When it is null, remove all marks of any type. */ removeMark(from, to, mark) { removeMark(this, from, to, mark); return this; } /** Removes all marks and nodes from the content of the node at `pos` that don't match the given new parent node type. Accepts an optional starting [content match](https://prosemirror.net/docs/ref/#model.ContentMatch) as third argument. */ clearIncompatible(pos, parentType, match) { clearIncompatible(this, pos, parentType, match); return this; } }; // node_modules/prosemirror-state/dist/index.js var classesById = /* @__PURE__ */ Object.create(null); var Selection = class { /** Initialize a selection with the head and anchor and ranges. If no ranges are given, constructs a single range across `$anchor` and `$head`. */ constructor($anchor, $head, ranges) { this.$anchor = $anchor; this.$head = $head; this.ranges = ranges || [new SelectionRange($anchor.min($head), $anchor.max($head))]; } /** The selection's anchor, as an unresolved position. */ get anchor() { return this.$anchor.pos; } /** The selection's head. */ get head() { return this.$head.pos; } /** The lower bound of the selection's main range. */ get from() { return this.$from.pos; } /** The upper bound of the selection's main range. */ get to() { return this.$to.pos; } /** The resolved lower bound of the selection's main range. */ get $from() { return this.ranges[0].$from; } /** The resolved upper bound of the selection's main range. */ get $to() { return this.ranges[0].$to; } /** Indicates whether the selection contains any content. */ get empty() { let ranges = this.ranges; for (let i2 = 0; i2 < ranges.length; i2++) if (ranges[i2].$from.pos != ranges[i2].$to.pos) return false; return true; } /** Get the content of this selection as a slice. */ content() { return this.$from.doc.slice(this.from, this.to, true); } /** Replace the selection with a slice or, if no slice is given, delete the selection. Will append to the given transaction. */ replace(tr, content3 = Slice.empty) { let lastNode = content3.content.lastChild, lastParent = null; for (let i2 = 0; i2 < content3.openEnd; i2++) { lastParent = lastNode; lastNode = lastNode.lastChild; } let mapFrom = tr.steps.length, ranges = this.ranges; for (let i2 = 0; i2 < ranges.length; i2++) { let { $from, $to } = ranges[i2], mapping = tr.mapping.slice(mapFrom); tr.replaceRange(mapping.map($from.pos), mapping.map($to.pos), i2 ? Slice.empty : content3); if (i2 == 0) selectionToInsertionEnd(tr, mapFrom, (lastNode ? lastNode.isInline : lastParent && lastParent.isTextblock) ? -1 : 1); } } /** Replace the selection with the given node, appending the changes to the given transaction. */ replaceWith(tr, node2) { let mapFrom = tr.steps.length, ranges = this.ranges; for (let i2 = 0; i2 < ranges.length; i2++) { let { $from, $to } = ranges[i2], mapping = tr.mapping.slice(mapFrom); let from = mapping.map($from.pos), to = mapping.map($to.pos); if (i2) { tr.deleteRange(from, to); } else { tr.replaceRangeWith(from, to, node2); selectionToInsertionEnd(tr, mapFrom, node2.isInline ? -1 : 1); } } } /** Find a valid cursor or leaf node selection starting at the given position and searching back if `dir` is negative, and forward if positive. When `textOnly` is true, only consider cursor selections. Will return null when no valid selection position is found. */ static findFrom($pos, dir, textOnly = false) { let inner = $pos.parent.inlineContent ? new TextSelection($pos) : findSelectionIn($pos.node(0), $pos.parent, $pos.pos, $pos.index(), dir, textOnly); if (inner) return inner; for (let depth = $pos.depth - 1; depth >= 0; depth--) { let found2 = dir < 0 ? findSelectionIn($pos.node(0), $pos.node(depth), $pos.before(depth + 1), $pos.index(depth), dir, textOnly) : findSelectionIn($pos.node(0), $pos.node(depth), $pos.after(depth + 1), $pos.index(depth) + 1, dir, textOnly); if (found2) return found2; } return null; } /** Find a valid cursor or leaf node selection near the given position. Searches forward first by default, but if `bias` is negative, it will search backwards first. */ static near($pos, bias = 1) { return this.findFrom($pos, bias) || this.findFrom($pos, -bias) || new AllSelection($pos.node(0)); } /** Find the cursor or leaf node selection closest to the start of the given document. Will return an [`AllSelection`](https://prosemirror.net/docs/ref/#state.AllSelection) if no valid position exists. */ static atStart(doc4) { return findSelectionIn(doc4, doc4, 0, 0, 1) || new AllSelection(doc4); } /** Find the cursor or leaf node selection closest to the end of the given document. */ static atEnd(doc4) { return findSelectionIn(doc4, doc4, doc4.content.size, doc4.childCount, -1) || new AllSelection(doc4); } /** Deserialize the JSON representation of a selection. Must be implemented for custom classes (as a static class method). */ static fromJSON(doc4, json) { if (!json || !json.type) throw new RangeError("Invalid input for Selection.fromJSON"); let cls = classesById[json.type]; if (!cls) throw new RangeError(`No selection type ${json.type} defined`); return cls.fromJSON(doc4, json); } /** To be able to deserialize selections from JSON, custom selection classes must register themselves with an ID string, so that they can be disambiguated. Try to pick something that's unlikely to clash with classes from other modules. */ static jsonID(id, selectionClass) { if (id in classesById) throw new RangeError("Duplicate use of selection JSON ID " + id); classesById[id] = selectionClass; selectionClass.prototype.jsonID = id; return selectionClass; } /** Get a [bookmark](https://prosemirror.net/docs/ref/#state.SelectionBookmark) for this selection, which is a value that can be mapped without having access to a current document, and later resolved to a real selection for a given document again. (This is used mostly by the history to track and restore old selections.) The default implementation of this method just converts the selection to a text selection and returns the bookmark for that. */ getBookmark() { return TextSelection.between(this.$anchor, this.$head).getBookmark(); } }; Selection.prototype.visible = true; var SelectionRange = class { /** Create a range. */ constructor($from, $to) { this.$from = $from; this.$to = $to; } }; var warnedAboutTextSelection = false; function checkTextSelection($pos) { if (!warnedAboutTextSelection && !$pos.parent.inlineContent) { warnedAboutTextSelection = true; console["warn"]("TextSelection endpoint not pointing into a node with inline content (" + $pos.parent.type.name + ")"); } } var TextSelection = class _TextSelection extends Selection { /** Construct a text selection between the given points. */ constructor($anchor, $head = $anchor) { checkTextSelection($anchor); checkTextSelection($head); super($anchor, $head); } /** Returns a resolved position if this is a cursor selection (an empty text selection), and null otherwise. */ get $cursor() { return this.$anchor.pos == this.$head.pos ? this.$head : null; } map(doc4, mapping) { let $head = doc4.resolve(mapping.map(this.head)); if (!$head.parent.inlineContent) return Selection.near($head); let $anchor = doc4.resolve(mapping.map(this.anchor)); return new _TextSelection($anchor.parent.inlineContent ? $anchor : $head, $head); } replace(tr, content3 = Slice.empty) { super.replace(tr, content3); if (content3 == Slice.empty) { let marks = this.$from.marksAcross(this.$to); if (marks) tr.ensureMarks(marks); } } eq(other) { return other instanceof _TextSelection && other.anchor == this.anchor && other.head == this.head; } getBookmark() { return new TextBookmark(this.anchor, this.head); } toJSON() { return { type: "text", anchor: this.anchor, head: this.head }; } /** @internal */ static fromJSON(doc4, json) { if (typeof json.anchor != "number" || typeof json.head != "number") throw new RangeError("Invalid input for TextSelection.fromJSON"); return new _TextSelection(doc4.resolve(json.anchor), doc4.resolve(json.head)); } /** Create a text selection from non-resolved positions. */ static create(doc4, anchor, head = anchor) { let $anchor = doc4.resolve(anchor); return new this($anchor, head == anchor ? $anchor : doc4.resolve(head)); } /** Return a text selection that spans the given positions or, if they aren't text positions, find a text selection near them. `bias` determines whether the method searches forward (default) or backwards (negative number) first. Will fall back to calling [`Selection.near`](https://prosemirror.net/docs/ref/#state.Selection^near) when the document doesn't contain a valid text position. */ static between($anchor, $head, bias) { let dPos = $anchor.pos - $head.pos; if (!bias || dPos) bias = dPos >= 0 ? 1 : -1; if (!$head.parent.inlineContent) { let found2 = Selection.findFrom($head, bias, true) || Selection.findFrom($head, -bias, true); if (found2) $head = found2.$head; else return Selection.near($head, bias); } if (!$anchor.parent.inlineContent) { if (dPos == 0) { $anchor = $head; } else { $anchor = (Selection.findFrom($anchor, -bias, true) || Selection.findFrom($anchor, bias, true)).$anchor; if ($anchor.pos < $head.pos != dPos < 0) $anchor = $head; } } return new _TextSelection($anchor, $head); } }; Selection.jsonID("text", TextSelection); var TextBookmark = class _TextBookmark { constructor(anchor, head) { this.anchor = anchor; this.head = head; } map(mapping) { return new _TextBookmark(mapping.map(this.anchor), mapping.map(this.head)); } resolve(doc4) { return TextSelection.between(doc4.resolve(this.anchor), doc4.resolve(this.head)); } }; var NodeSelection = class _NodeSelection extends Selection { /** Create a node selection. Does not verify the validity of its argument. */ constructor($pos) { let node2 = $pos.nodeAfter; let $end = $pos.node(0).resolve($pos.pos + node2.nodeSize); super($pos, $end); this.node = node2; } map(doc4, mapping) { let { deleted, pos } = mapping.mapResult(this.anchor); let $pos = doc4.resolve(pos); if (deleted) return Selection.near($pos); return new _NodeSelection($pos); } content() { return new Slice(Fragment.from(this.node), 0, 0); } eq(other) { return other instanceof _NodeSelection && other.anchor == this.anchor; } toJSON() { return { type: "node", anchor: this.anchor }; } getBookmark() { return new NodeBookmark(this.anchor); } /** @internal */ static fromJSON(doc4, json) { if (typeof json.anchor != "number") throw new RangeError("Invalid input for NodeSelection.fromJSON"); return new _NodeSelection(doc4.resolve(json.anchor)); } /** Create a node selection from non-resolved positions. */ static create(doc4, from) { return new _NodeSelection(doc4.resolve(from)); } /** Determines whether the given node may be selected as a node selection. */ static isSelectable(node2) { return !node2.isText && node2.type.spec.selectable !== false; } }; NodeSelection.prototype.visible = false; Selection.jsonID("node", NodeSelection); var NodeBookmark = class _NodeBookmark { constructor(anchor) { this.anchor = anchor; } map(mapping) { let { deleted, pos } = mapping.mapResult(this.anchor); return deleted ? new TextBookmark(pos, pos) : new _NodeBookmark(pos); } resolve(doc4) { let $pos = doc4.resolve(this.anchor), node2 = $pos.nodeAfter; if (node2 && NodeSelection.isSelectable(node2)) return new NodeSelection($pos); return Selection.near($pos); } }; var AllSelection = class _AllSelection extends Selection { /** Create an all-selection over the given document. */ constructor(doc4) { super(doc4.resolve(0), doc4.resolve(doc4.content.size)); } replace(tr, content3 = Slice.empty) { if (content3 == Slice.empty) { tr.delete(0, tr.doc.content.size); let sel = Selection.atStart(tr.doc); if (!sel.eq(tr.selection)) tr.setSelection(sel); } else { super.replace(tr, content3); } } toJSON() { return { type: "all" }; } /** @internal */ static fromJSON(doc4) { return new _AllSelection(doc4); } map(doc4) { return new _AllSelection(doc4); } eq(other) { return other instanceof _AllSelection; } getBookmark() { return AllBookmark; } }; Selection.jsonID("all", AllSelection); var AllBookmark = { map() { return this; }, resolve(doc4) { return new AllSelection(doc4); } }; function findSelectionIn(doc4, node2, pos, index2, dir, text5 = false) { if (node2.inlineContent) return TextSelection.create(doc4, pos); for (let i2 = index2 - (dir > 0 ? 0 : 1); dir > 0 ? i2 < node2.childCount : i2 >= 0; i2 += dir) { let child = node2.child(i2); if (!child.isAtom) { let inner = findSelectionIn(doc4, child, pos + dir, dir < 0 ? child.childCount : 0, dir, text5); if (inner) return inner; } else if (!text5 && NodeSelection.isSelectable(child)) { return NodeSelection.create(doc4, pos - (dir < 0 ? child.nodeSize : 0)); } pos += child.nodeSize * dir; } return null; } function selectionToInsertionEnd(tr, startLen, bias) { let last = tr.steps.length - 1; if (last < startLen) return; let step = tr.steps[last]; if (!(step instanceof ReplaceStep || step instanceof ReplaceAroundStep)) return; let map5 = tr.mapping.maps[last], end; map5.forEach((_from, _to, _newFrom, newTo) => { if (end == null) end = newTo; }); tr.setSelection(Selection.near(tr.doc.resolve(end), bias)); } var UPDATED_SEL = 1; var UPDATED_MARKS = 2; var UPDATED_SCROLL = 4; var Transaction = class extends Transform { /** @internal */ constructor(state) { super(state.doc); this.curSelectionFor = 0; this.updated = 0; this.meta = /* @__PURE__ */ Object.create(null); this.time = Date.now(); this.curSelection = state.selection; this.storedMarks = state.storedMarks; } /** The transaction's current selection. This defaults to the editor selection [mapped](https://prosemirror.net/docs/ref/#state.Selection.map) through the steps in the transaction, but can be overwritten with [`setSelection`](https://prosemirror.net/docs/ref/#state.Transaction.setSelection). */ get selection() { if (this.curSelectionFor < this.steps.length) { this.curSelection = this.curSelection.map(this.doc, this.mapping.slice(this.curSelectionFor)); this.curSelectionFor = this.steps.length; } return this.curSelection; } /** Update the transaction's current selection. Will determine the selection that the editor gets when the transaction is applied. */ setSelection(selection) { if (selection.$from.doc != this.doc) throw new RangeError("Selection passed to setSelection must point at the current document"); this.curSelection = selection; this.curSelectionFor = this.steps.length; this.updated = (this.updated | UPDATED_SEL) & ~UPDATED_MARKS; this.storedMarks = null; return this; } /** Whether the selection was explicitly updated by this transaction. */ get selectionSet() { return (this.updated & UPDATED_SEL) > 0; } /** Set the current stored marks. */ setStoredMarks(marks) { this.storedMarks = marks; this.updated |= UPDATED_MARKS; return this; } /** Make sure the current stored marks or, if that is null, the marks at the selection, match the given set of marks. Does nothing if this is already the case. */ ensureMarks(marks) { if (!Mark.sameSet(this.storedMarks || this.selection.$from.marks(), marks)) this.setStoredMarks(marks); return this; } /** Add a mark to the set of stored marks. */ addStoredMark(mark) { return this.ensureMarks(mark.addToSet(this.storedMarks || this.selection.$head.marks())); } /** Remove a mark or mark type from the set of stored marks. */ removeStoredMark(mark) { return this.ensureMarks(mark.removeFromSet(this.storedMarks || this.selection.$head.marks())); } /** Whether the stored marks were explicitly set for this transaction. */ get storedMarksSet() { return (this.updated & UPDATED_MARKS) > 0; } /** @internal */ addStep(step, doc4) { super.addStep(step, doc4); this.updated = this.updated & ~UPDATED_MARKS; this.storedMarks = null; } /** Update the timestamp for the transaction. */ setTime(time) { this.time = time; return this; } /** Replace the current selection with the given slice. */ replaceSelection(slice) { this.selection.replace(this, slice); return this; } /** Replace the selection with the given node. When `inheritMarks` is true and the content is inline, it inherits the marks from the place where it is inserted. */ replaceSelectionWith(node2, inheritMarks = true) { let selection = this.selection; if (inheritMarks) node2 = node2.mark(this.storedMarks || (selection.empty ? selection.$from.marks() : selection.$from.marksAcross(selection.$to) || Mark.none)); selection.replaceWith(this, node2); return this; } /** Delete the selection. */ deleteSelection() { this.selection.replace(this); return this; } /** Replace the given range, or the selection if no range is given, with a text node containing the given string. */ insertText(text5, from, to) { let schema = this.doc.type.schema; if (from == null) { if (!text5) return this.deleteSelection(); return this.replaceSelectionWith(schema.text(text5), true); } else { if (to == null) to = from; to = to == null ? from : to; if (!text5) return this.deleteRange(from, to); let marks = this.storedMarks; if (!marks) { let $from = this.doc.resolve(from); marks = to == from ? $from.marks() : $from.marksAcross(this.doc.resolve(to)); } this.replaceRangeWith(from, to, schema.text(text5, marks)); if (!this.selection.empty) this.setSelection(Selection.near(this.selection.$to)); return this; } } /** Store a metadata property in this transaction, keyed either by name or by plugin. */ setMeta(key, value) { this.meta[typeof key == "string" ? key : key.key] = value; return this; } /** Retrieve a metadata property for a given name or plugin. */ getMeta(key) { return this.meta[typeof key == "string" ? key : key.key]; } /** Returns true if this transaction doesn't contain any metadata, and can thus safely be extended. */ get isGeneric() { for (let _3 in this.meta) return false; return true; } /** Indicate that the editor should scroll the selection into view when updated to the state produced by this transaction. */ scrollIntoView() { this.updated |= UPDATED_SCROLL; return this; } /** True when this transaction has had `scrollIntoView` called on it. */ get scrolledIntoView() { return (this.updated & UPDATED_SCROLL) > 0; } }; function bind(f3, self2) { return !self2 || !f3 ? f3 : f3.bind(self2); } var FieldDesc = class { constructor(name, desc, self2) { this.name = name; this.init = bind(desc.init, self2); this.apply = bind(desc.apply, self2); } }; var baseFields = [ new FieldDesc("doc", { init(config) { return config.doc || config.schema.topNodeType.createAndFill(); }, apply(tr) { return tr.doc; } }), new FieldDesc("selection", { init(config, instance) { return config.selection || Selection.atStart(instance.doc); }, apply(tr) { return tr.selection; } }), new FieldDesc("storedMarks", { init(config) { return config.storedMarks || null; }, apply(tr, _marks, _old, state) { return state.selection.$cursor ? tr.storedMarks : null; } }), new FieldDesc("scrollToSelection", { init() { return 0; }, apply(tr, prev) { return tr.scrolledIntoView ? prev + 1 : prev; } }) ]; var Configuration = class { constructor(schema, plugins) { this.schema = schema; this.plugins = []; this.pluginsByKey = /* @__PURE__ */ Object.create(null); this.fields = baseFields.slice(); if (plugins) plugins.forEach((plugin) => { if (this.pluginsByKey[plugin.key]) throw new RangeError("Adding different instances of a keyed plugin (" + plugin.key + ")"); this.plugins.push(plugin); this.pluginsByKey[plugin.key] = plugin; if (plugin.spec.state) this.fields.push(new FieldDesc(plugin.key, plugin.spec.state, plugin)); }); } }; var EditorState = class _EditorState { /** @internal */ constructor(config) { this.config = config; } /** The schema of the state's document. */ get schema() { return this.config.schema; } /** The plugins that are active in this state. */ get plugins() { return this.config.plugins; } /** Apply the given transaction to produce a new state. */ apply(tr) { return this.applyTransaction(tr).state; } /** @internal */ filterTransaction(tr, ignore = -1) { for (let i2 = 0; i2 < this.config.plugins.length; i2++) if (i2 != ignore) { let plugin = this.config.plugins[i2]; if (plugin.spec.filterTransaction && !plugin.spec.filterTransaction.call(plugin, tr, this)) return false; } return true; } /** Verbose variant of [`apply`](https://prosemirror.net/docs/ref/#state.EditorState.apply) that returns the precise transactions that were applied (which might be influenced by the [transaction hooks](https://prosemirror.net/docs/ref/#state.PluginSpec.filterTransaction) of plugins) along with the new state. */ applyTransaction(rootTr) { if (!this.filterTransaction(rootTr)) return { state: this, transactions: [] }; let trs = [rootTr], newState = this.applyInner(rootTr), seen = null; for (; ; ) { let haveNew = false; for (let i2 = 0; i2 < this.config.plugins.length; i2++) { let plugin = this.config.plugins[i2]; if (plugin.spec.appendTransaction) { let n4 = seen ? seen[i2].n : 0, oldState = seen ? seen[i2].state : this; let tr = n4 < trs.length && plugin.spec.appendTransaction.call(plugin, n4 ? trs.slice(n4) : trs, oldState, newState); if (tr && newState.filterTransaction(tr, i2)) { tr.setMeta("appendedTransaction", rootTr); if (!seen) { seen = []; for (let j6 = 0; j6 < this.config.plugins.length; j6++) seen.push(j6 < i2 ? { state: newState, n: trs.length } : { state: this, n: 0 }); } trs.push(tr); newState = newState.applyInner(tr); haveNew = true; } if (seen) seen[i2] = { state: newState, n: trs.length }; } } if (!haveNew) return { state: newState, transactions: trs }; } } /** @internal */ applyInner(tr) { if (!tr.before.eq(this.doc)) throw new RangeError("Applying a mismatched transaction"); let newInstance = new _EditorState(this.config), fields = this.config.fields; for (let i2 = 0; i2 < fields.length; i2++) { let field = fields[i2]; newInstance[field.name] = field.apply(tr, this[field.name], this, newInstance); } return newInstance; } /** Start a [transaction](https://prosemirror.net/docs/ref/#state.Transaction) from this state. */ get tr() { return new Transaction(this); } /** Create a new state. */ static create(config) { let $config = new Configuration(config.doc ? config.doc.type.schema : config.schema, config.plugins); let instance = new _EditorState($config); for (let i2 = 0; i2 < $config.fields.length; i2++) instance[$config.fields[i2].name] = $config.fields[i2].init(config, instance); return instance; } /** Create a new state based on this one, but with an adjusted set of active plugins. State fields that exist in both sets of plugins are kept unchanged. Those that no longer exist are dropped, and those that are new are initialized using their [`init`](https://prosemirror.net/docs/ref/#state.StateField.init) method, passing in the new configuration object.. */ reconfigure(config) { let $config = new Configuration(this.schema, config.plugins); let fields = $config.fields, instance = new _EditorState($config); for (let i2 = 0; i2 < fields.length; i2++) { let name = fields[i2].name; instance[name] = this.hasOwnProperty(name) ? this[name] : fields[i2].init(config, instance); } return instance; } /** Serialize this state to JSON. If you want to serialize the state of plugins, pass an object mapping property names to use in the resulting JSON object to plugin objects. The argument may also be a string or number, in which case it is ignored, to support the way `JSON.stringify` calls `toString` methods. */ toJSON(pluginFields) { let result = { doc: this.doc.toJSON(), selection: this.selection.toJSON() }; if (this.storedMarks) result.storedMarks = this.storedMarks.map((m3) => m3.toJSON()); if (pluginFields && typeof pluginFields == "object") for (let prop in pluginFields) { if (prop == "doc" || prop == "selection") throw new RangeError("The JSON fields `doc` and `selection` are reserved"); let plugin = pluginFields[prop], state = plugin.spec.state; if (state && state.toJSON) result[prop] = state.toJSON.call(plugin, this[plugin.key]); } return result; } /** Deserialize a JSON representation of a state. `config` should have at least a `schema` field, and should contain array of plugins to initialize the state with. `pluginFields` can be used to deserialize the state of plugins, by associating plugin instances with the property names they use in the JSON object. */ static fromJSON(config, json, pluginFields) { if (!json) throw new RangeError("Invalid input for EditorState.fromJSON"); if (!config.schema) throw new RangeError("Required config field 'schema' missing"); let $config = new Configuration(config.schema, config.plugins); let instance = new _EditorState($config); $config.fields.forEach((field) => { if (field.name == "doc") { instance.doc = Node2.fromJSON(config.schema, json.doc); } else if (field.name == "selection") { instance.selection = Selection.fromJSON(instance.doc, json.selection); } else if (field.name == "storedMarks") { if (json.storedMarks) instance.storedMarks = json.storedMarks.map(config.schema.markFromJSON); } else { if (pluginFields) for (let prop in pluginFields) { let plugin = pluginFields[prop], state = plugin.spec.state; if (plugin.key == field.name && state && state.fromJSON && Object.prototype.hasOwnProperty.call(json, prop)) { instance[field.name] = state.fromJSON.call(plugin, config, json[prop], instance); return; } } instance[field.name] = field.init(config, instance); } }); return instance; } }; function bindProps(obj, self2, target) { for (let prop in obj) { let val = obj[prop]; if (val instanceof Function) val = val.bind(self2); else if (prop == "handleDOMEvents") val = bindProps(val, self2, {}); target[prop] = val; } return target; } var Plugin = class { /** Create a plugin. */ constructor(spec) { this.spec = spec; this.props = {}; if (spec.props) bindProps(spec.props, this, this.props); this.key = spec.key ? spec.key.key : createKey("plugin"); } /** Extract the plugin's state field from an editor state. */ getState(state) { return state[this.key]; } }; var keys = /* @__PURE__ */ Object.create(null); function createKey(name) { if (name in keys) return name + "$" + ++keys[name]; keys[name] = 0; return name + "$"; } var PluginKey = class { /** Create a plugin key. */ constructor(name = "key") { this.key = createKey(name); } /** Get the active plugin with this key, if any, from an editor state. */ get(state) { return state.config.pluginsByKey[this.key]; } /** Get the plugin's state from an editor state. */ getState(state) { return state[this.key]; } }; // node_modules/prosemirror-view/dist/index.js var domIndex = function(node2) { for (var index2 = 0; ; index2++) { node2 = node2.previousSibling; if (!node2) return index2; } }; var parentNode = function(node2) { let parent = node2.assignedSlot || node2.parentNode; return parent && parent.nodeType == 11 ? parent.host : parent; }; var reusedRange = null; var textRange = function(node2, from, to) { let range = reusedRange || (reusedRange = document.createRange()); range.setEnd(node2, to == null ? node2.nodeValue.length : to); range.setStart(node2, from || 0); return range; }; var clearReusedRange = function() { reusedRange = null; }; var isEquivalentPosition = function(node2, off, targetNode, targetOff) { return targetNode && (scanFor(node2, off, targetNode, targetOff, -1) || scanFor(node2, off, targetNode, targetOff, 1)); }; var atomElements = /^(img|br|input|textarea|hr)$/i; function scanFor(node2, off, targetNode, targetOff, dir) { for (; ; ) { if (node2 == targetNode && off == targetOff) return true; if (off == (dir < 0 ? 0 : nodeSize(node2))) { let parent = node2.parentNode; if (!parent || parent.nodeType != 1 || hasBlockDesc(node2) || atomElements.test(node2.nodeName) || node2.contentEditable == "false") return false; off = domIndex(node2) + (dir < 0 ? 0 : 1); node2 = parent; } else if (node2.nodeType == 1) { node2 = node2.childNodes[off + (dir < 0 ? -1 : 0)]; if (node2.contentEditable == "false") return false; off = dir < 0 ? nodeSize(node2) : 0; } else { return false; } } } function nodeSize(node2) { return node2.nodeType == 3 ? node2.nodeValue.length : node2.childNodes.length; } function textNodeBefore$1(node2, offset) { for (; ; ) { if (node2.nodeType == 3 && offset) return node2; if (node2.nodeType == 1 && offset > 0) { if (node2.contentEditable == "false") return null; node2 = node2.childNodes[offset - 1]; offset = nodeSize(node2); } else if (node2.parentNode && !hasBlockDesc(node2)) { offset = domIndex(node2); node2 = node2.parentNode; } else { return null; } } } function textNodeAfter$1(node2, offset) { for (; ; ) { if (node2.nodeType == 3 && offset < node2.nodeValue.length) return node2; if (node2.nodeType == 1 && offset < node2.childNodes.length) { if (node2.contentEditable == "false") return null; node2 = node2.childNodes[offset]; offset = 0; } else if (node2.parentNode && !hasBlockDesc(node2)) { offset = domIndex(node2) + 1; node2 = node2.parentNode; } else { return null; } } } function isOnEdge(node2, offset, parent) { for (let atStart = offset == 0, atEnd = offset == nodeSize(node2); atStart || atEnd; ) { if (node2 == parent) return true; let index2 = domIndex(node2); node2 = node2.parentNode; if (!node2) return false; atStart = atStart && index2 == 0; atEnd = atEnd && index2 == nodeSize(node2); } } function hasBlockDesc(dom) { let desc; for (let cur = dom; cur; cur = cur.parentNode) if (desc = cur.pmViewDesc) break; return desc && desc.node && desc.node.isBlock && (desc.dom == dom || desc.contentDOM == dom); } var selectionCollapsed = function(domSel) { return domSel.focusNode && isEquivalentPosition(domSel.focusNode, domSel.focusOffset, domSel.anchorNode, domSel.anchorOffset); }; function keyEvent(keyCode, key) { let event = document.createEvent("Event"); event.initEvent("keydown", true, true); event.keyCode = keyCode; event.key = event.code = key; return event; } function deepActiveElement(doc4) { let elt = doc4.activeElement; while (elt && elt.shadowRoot) elt = elt.shadowRoot.activeElement; return elt; } function caretFromPoint(doc4, x6, y4) { if (doc4.caretPositionFromPoint) { try { let pos = doc4.caretPositionFromPoint(x6, y4); if (pos) return { node: pos.offsetNode, offset: pos.offset }; } catch (_3) { } } if (doc4.caretRangeFromPoint) { let range = doc4.caretRangeFromPoint(x6, y4); if (range) return { node: range.startContainer, offset: range.startOffset }; } } var nav = typeof navigator != "undefined" ? navigator : null; var doc2 = typeof document != "undefined" ? document : null; var agent = nav && nav.userAgent || ""; var ie_edge = /Edge\/(\d+)/.exec(agent); var ie_upto10 = /MSIE \d/.exec(agent); var ie_11up = /Trident\/(?:[7-9]|\d{2,})\..*rv:(\d+)/.exec(agent); var ie = !!(ie_upto10 || ie_11up || ie_edge); var ie_version = ie_upto10 ? document.documentMode : ie_11up ? +ie_11up[1] : ie_edge ? +ie_edge[1] : 0; var gecko = !ie && /gecko\/(\d+)/i.test(agent); gecko && +(/Firefox\/(\d+)/.exec(agent) || [0, 0])[1]; var _chrome = !ie && /Chrome\/(\d+)/.exec(agent); var chrome = !!_chrome; var chrome_version = _chrome ? +_chrome[1] : 0; var safari = !ie && !!nav && /Apple Computer/.test(nav.vendor); var ios = safari && (/Mobile\/\w+/.test(agent) || !!nav && nav.maxTouchPoints > 2); var mac = ios || (nav ? /Mac/.test(nav.platform) : false); var windows = nav ? /Win/.test(nav.platform) : false; var android = /Android \d/.test(agent); var webkit = !!doc2 && "webkitFontSmoothing" in doc2.documentElement.style; var webkit_version = webkit ? +(/\bAppleWebKit\/(\d+)/.exec(navigator.userAgent) || [0, 0])[1] : 0; function windowRect(doc4) { let vp = doc4.defaultView && doc4.defaultView.visualViewport; if (vp) return { left: 0, right: vp.width, top: 0, bottom: vp.height }; return { left: 0, right: doc4.documentElement.clientWidth, top: 0, bottom: doc4.documentElement.clientHeight }; } function getSide(value, side) { return typeof value == "number" ? value : value[side]; } function clientRect(node2) { let rect = node2.getBoundingClientRect(); let scaleX = rect.width / node2.offsetWidth || 1; let scaleY = rect.height / node2.offsetHeight || 1; return { left: rect.left, right: rect.left + node2.clientWidth * scaleX, top: rect.top, bottom: rect.top + node2.clientHeight * scaleY }; } function scrollRectIntoView(view, rect, startDOM) { let scrollThreshold = view.someProp("scrollThreshold") || 0, scrollMargin = view.someProp("scrollMargin") || 5; let doc4 = view.dom.ownerDocument; for (let parent = startDOM || view.dom; ; parent = parentNode(parent)) { if (!parent) break; if (parent.nodeType != 1) continue; let elt = parent; let atTop = elt == doc4.body; let bounding = atTop ? windowRect(doc4) : clientRect(elt); let moveX = 0, moveY = 0; if (rect.top < bounding.top + getSide(scrollThreshold, "top")) moveY = -(bounding.top - rect.top + getSide(scrollMargin, "top")); else if (rect.bottom > bounding.bottom - getSide(scrollThreshold, "bottom")) moveY = rect.bottom - rect.top > bounding.bottom - bounding.top ? rect.top + getSide(scrollMargin, "top") - bounding.top : rect.bottom - bounding.bottom + getSide(scrollMargin, "bottom"); if (rect.left < bounding.left + getSide(scrollThreshold, "left")) moveX = -(bounding.left - rect.left + getSide(scrollMargin, "left")); else if (rect.right > bounding.right - getSide(scrollThreshold, "right")) moveX = rect.right - bounding.right + getSide(scrollMargin, "right"); if (moveX || moveY) { if (atTop) { doc4.defaultView.scrollBy(moveX, moveY); } else { let startX = elt.scrollLeft, startY = elt.scrollTop; if (moveY) elt.scrollTop += moveY; if (moveX) elt.scrollLeft += moveX; let dX = elt.scrollLeft - startX, dY = elt.scrollTop - startY; rect = { left: rect.left - dX, top: rect.top - dY, right: rect.right - dX, bottom: rect.bottom - dY }; } } if (atTop || /^(fixed|sticky)$/.test(getComputedStyle(parent).position)) break; } } function storeScrollPos(view) { let rect = view.dom.getBoundingClientRect(), startY = Math.max(0, rect.top); let refDOM, refTop; for (let x6 = (rect.left + rect.right) / 2, y4 = startY + 1; y4 < Math.min(innerHeight, rect.bottom); y4 += 5) { let dom = view.root.elementFromPoint(x6, y4); if (!dom || dom == view.dom || !view.dom.contains(dom)) continue; let localRect = dom.getBoundingClientRect(); if (localRect.top >= startY - 20) { refDOM = dom; refTop = localRect.top; break; } } return { refDOM, refTop, stack: scrollStack(view.dom) }; } function scrollStack(dom) { let stack = [], doc4 = dom.ownerDocument; for (let cur = dom; cur; cur = parentNode(cur)) { stack.push({ dom: cur, top: cur.scrollTop, left: cur.scrollLeft }); if (dom == doc4) break; } return stack; } function resetScrollPos({ refDOM, refTop, stack }) { let newRefTop = refDOM ? refDOM.getBoundingClientRect().top : 0; restoreScrollStack(stack, newRefTop == 0 ? 0 : newRefTop - refTop); } function restoreScrollStack(stack, dTop) { for (let i2 = 0; i2 < stack.length; i2++) { let { dom, top, left } = stack[i2]; if (dom.scrollTop != top + dTop) dom.scrollTop = top + dTop; if (dom.scrollLeft != left) dom.scrollLeft = left; } } var preventScrollSupported = null; function focusPreventScroll(dom) { if (dom.setActive) return dom.setActive(); if (preventScrollSupported) return dom.focus(preventScrollSupported); let stored = scrollStack(dom); dom.focus(preventScrollSupported == null ? { get preventScroll() { preventScrollSupported = { preventScroll: true }; return true; } } : void 0); if (!preventScrollSupported) { preventScrollSupported = false; restoreScrollStack(stored, 0); } } function findOffsetInNode(node2, coords) { let closest, dxClosest = 2e8, coordsClosest, offset = 0; let rowBot = coords.top, rowTop = coords.top; let firstBelow, coordsBelow; for (let child = node2.firstChild, childIndex = 0; child; child = child.nextSibling, childIndex++) { let rects; if (child.nodeType == 1) rects = child.getClientRects(); else if (child.nodeType == 3) rects = textRange(child).getClientRects(); else continue; for (let i2 = 0; i2 < rects.length; i2++) { let rect = rects[i2]; if (rect.top <= rowBot && rect.bottom >= rowTop) { rowBot = Math.max(rect.bottom, rowBot); rowTop = Math.min(rect.top, rowTop); let dx = rect.left > coords.left ? rect.left - coords.left : rect.right < coords.left ? coords.left - rect.right : 0; if (dx < dxClosest) { closest = child; dxClosest = dx; coordsClosest = dx && closest.nodeType == 3 ? { left: rect.right < coords.left ? rect.right : rect.left, top: coords.top } : coords; if (child.nodeType == 1 && dx) offset = childIndex + (coords.left >= (rect.left + rect.right) / 2 ? 1 : 0); continue; } } else if (rect.top > coords.top && !firstBelow && rect.left <= coords.left && rect.right >= coords.left) { firstBelow = child; coordsBelow = { left: Math.max(rect.left, Math.min(rect.right, coords.left)), top: rect.top }; } if (!closest && (coords.left >= rect.right && coords.top >= rect.top || coords.left >= rect.left && coords.top >= rect.bottom)) offset = childIndex + 1; } } if (!closest && firstBelow) { closest = firstBelow; coordsClosest = coordsBelow; dxClosest = 0; } if (closest && closest.nodeType == 3) return findOffsetInText(closest, coordsClosest); if (!closest || dxClosest && closest.nodeType == 1) return { node: node2, offset }; return findOffsetInNode(closest, coordsClosest); } function findOffsetInText(node2, coords) { let len = node2.nodeValue.length; let range = document.createRange(); for (let i2 = 0; i2 < len; i2++) { range.setEnd(node2, i2 + 1); range.setStart(node2, i2); let rect = singleRect(range, 1); if (rect.top == rect.bottom) continue; if (inRect(coords, rect)) return { node: node2, offset: i2 + (coords.left >= (rect.left + rect.right) / 2 ? 1 : 0) }; } return { node: node2, offset: 0 }; } function inRect(coords, rect) { return coords.left >= rect.left - 1 && coords.left <= rect.right + 1 && coords.top >= rect.top - 1 && coords.top <= rect.bottom + 1; } function targetKludge(dom, coords) { let parent = dom.parentNode; if (parent && /^li$/i.test(parent.nodeName) && coords.left < dom.getBoundingClientRect().left) return parent; return dom; } function posFromElement(view, elt, coords) { let { node: node2, offset } = findOffsetInNode(elt, coords), bias = -1; if (node2.nodeType == 1 && !node2.firstChild) { let rect = node2.getBoundingClientRect(); bias = rect.left != rect.right && coords.left > (rect.left + rect.right) / 2 ? 1 : -1; } return view.docView.posFromDOM(node2, offset, bias); } function posFromCaret(view, node2, offset, coords) { let outsideBlock = -1; for (let cur = node2, sawBlock = false; ; ) { if (cur == view.dom) break; let desc = view.docView.nearestDesc(cur, true); if (!desc) return null; if (desc.dom.nodeType == 1 && (desc.node.isBlock && desc.parent && !sawBlock || !desc.contentDOM)) { let rect = desc.dom.getBoundingClientRect(); if (desc.node.isBlock && desc.parent && !sawBlock) { sawBlock = true; if (rect.left > coords.left || rect.top > coords.top) outsideBlock = desc.posBefore; else if (rect.right < coords.left || rect.bottom < coords.top) outsideBlock = desc.posAfter; } if (!desc.contentDOM && outsideBlock < 0 && !desc.node.isText) { let before = desc.node.isBlock ? coords.top < (rect.top + rect.bottom) / 2 : coords.left < (rect.left + rect.right) / 2; return before ? desc.posBefore : desc.posAfter; } } cur = desc.dom.parentNode; } return outsideBlock > -1 ? outsideBlock : view.docView.posFromDOM(node2, offset, -1); } function elementFromPoint(element2, coords, box) { let len = element2.childNodes.length; if (len && box.top < box.bottom) { for (let startI = Math.max(0, Math.min(len - 1, Math.floor(len * (coords.top - box.top) / (box.bottom - box.top)) - 2)), i2 = startI; ; ) { let child = element2.childNodes[i2]; if (child.nodeType == 1) { let rects = child.getClientRects(); for (let j6 = 0; j6 < rects.length; j6++) { let rect = rects[j6]; if (inRect(coords, rect)) return elementFromPoint(child, coords, rect); } } if ((i2 = (i2 + 1) % len) == startI) break; } } return element2; } function posAtCoords(view, coords) { let doc4 = view.dom.ownerDocument, node2, offset = 0; let caret = caretFromPoint(doc4, coords.left, coords.top); if (caret) ({ node: node2, offset } = caret); let elt = (view.root.elementFromPoint ? view.root : doc4).elementFromPoint(coords.left, coords.top); let pos; if (!elt || !view.dom.contains(elt.nodeType != 1 ? elt.parentNode : elt)) { let box = view.dom.getBoundingClientRect(); if (!inRect(coords, box)) return null; elt = elementFromPoint(view.dom, coords, box); if (!elt) return null; } if (safari) { for (let p4 = elt; node2 && p4; p4 = parentNode(p4)) if (p4.draggable) node2 = void 0; } elt = targetKludge(elt, coords); if (node2) { if (gecko && node2.nodeType == 1) { offset = Math.min(offset, node2.childNodes.length); if (offset < node2.childNodes.length) { let next = node2.childNodes[offset], box; if (next.nodeName == "IMG" && (box = next.getBoundingClientRect()).right <= coords.left && box.bottom > coords.top) offset++; } } let prev; if (webkit && offset && node2.nodeType == 1 && (prev = node2.childNodes[offset - 1]).nodeType == 1 && prev.contentEditable == "false" && prev.getBoundingClientRect().top >= coords.top) offset--; if (node2 == view.dom && offset == node2.childNodes.length - 1 && node2.lastChild.nodeType == 1 && coords.top > node2.lastChild.getBoundingClientRect().bottom) pos = view.state.doc.content.size; else if (offset == 0 || node2.nodeType != 1 || node2.childNodes[offset - 1].nodeName != "BR") pos = posFromCaret(view, node2, offset, coords); } if (pos == null) pos = posFromElement(view, elt, coords); let desc = view.docView.nearestDesc(elt, true); return { pos, inside: desc ? desc.posAtStart - desc.border : -1 }; } function nonZero(rect) { return rect.top < rect.bottom || rect.left < rect.right; } function singleRect(target, bias) { let rects = target.getClientRects(); if (rects.length) { let first = rects[bias < 0 ? 0 : rects.length - 1]; if (nonZero(first)) return first; } return Array.prototype.find.call(rects, nonZero) || target.getBoundingClientRect(); } var BIDI = /[\u0590-\u05f4\u0600-\u06ff\u0700-\u08ac]/; function coordsAtPos(view, pos, side) { let { node: node2, offset, atom } = view.docView.domFromPos(pos, side < 0 ? -1 : 1); let supportEmptyRange = webkit || gecko; if (node2.nodeType == 3) { if (supportEmptyRange && (BIDI.test(node2.nodeValue) || (side < 0 ? !offset : offset == node2.nodeValue.length))) { let rect = singleRect(textRange(node2, offset, offset), side); if (gecko && offset && /\s/.test(node2.nodeValue[offset - 1]) && offset < node2.nodeValue.length) { let rectBefore = singleRect(textRange(node2, offset - 1, offset - 1), -1); if (rectBefore.top == rect.top) { let rectAfter = singleRect(textRange(node2, offset, offset + 1), -1); if (rectAfter.top != rect.top) return flattenV(rectAfter, rectAfter.left < rectBefore.left); } } return rect; } else { let from = offset, to = offset, takeSide = side < 0 ? 1 : -1; if (side < 0 && !offset) { to++; takeSide = -1; } else if (side >= 0 && offset == node2.nodeValue.length) { from--; takeSide = 1; } else if (side < 0) { from--; } else { to++; } return flattenV(singleRect(textRange(node2, from, to), takeSide), takeSide < 0); } } let $dom = view.state.doc.resolve(pos - (atom || 0)); if (!$dom.parent.inlineContent) { if (atom == null && offset && (side < 0 || offset == nodeSize(node2))) { let before = node2.childNodes[offset - 1]; if (before.nodeType == 1) return flattenH(before.getBoundingClientRect(), false); } if (atom == null && offset < nodeSize(node2)) { let after = node2.childNodes[offset]; if (after.nodeType == 1) return flattenH(after.getBoundingClientRect(), true); } return flattenH(node2.getBoundingClientRect(), side >= 0); } if (atom == null && offset && (side < 0 || offset == nodeSize(node2))) { let before = node2.childNodes[offset - 1]; let target = before.nodeType == 3 ? textRange(before, nodeSize(before) - (supportEmptyRange ? 0 : 1)) : before.nodeType == 1 && (before.nodeName != "BR" || !before.nextSibling) ? before : null; if (target) return flattenV(singleRect(target, 1), false); } if (atom == null && offset < nodeSize(node2)) { let after = node2.childNodes[offset]; while (after.pmViewDesc && after.pmViewDesc.ignoreForCoords) after = after.nextSibling; let target = !after ? null : after.nodeType == 3 ? textRange(after, 0, supportEmptyRange ? 0 : 1) : after.nodeType == 1 ? after : null; if (target) return flattenV(singleRect(target, -1), true); } return flattenV(singleRect(node2.nodeType == 3 ? textRange(node2) : node2, -side), side >= 0); } function flattenV(rect, left) { if (rect.width == 0) return rect; let x6 = left ? rect.left : rect.right; return { top: rect.top, bottom: rect.bottom, left: x6, right: x6 }; } function flattenH(rect, top) { if (rect.height == 0) return rect; let y4 = top ? rect.top : rect.bottom; return { top: y4, bottom: y4, left: rect.left, right: rect.right }; } function withFlushedState(view, state, f3) { let viewState = view.state, active = view.root.activeElement; if (viewState != state) view.updateState(state); if (active != view.dom) view.focus(); try { return f3(); } finally { if (viewState != state) view.updateState(viewState); if (active != view.dom && active) active.focus(); } } function endOfTextblockVertical(view, state, dir) { let sel = state.selection; let $pos = dir == "up" ? sel.$from : sel.$to; return withFlushedState(view, state, () => { let { node: dom } = view.docView.domFromPos($pos.pos, dir == "up" ? -1 : 1); for (; ; ) { let nearest = view.docView.nearestDesc(dom, true); if (!nearest) break; if (nearest.node.isBlock) { dom = nearest.contentDOM || nearest.dom; break; } dom = nearest.dom.parentNode; } let coords = coordsAtPos(view, $pos.pos, 1); for (let child = dom.firstChild; child; child = child.nextSibling) { let boxes; if (child.nodeType == 1) boxes = child.getClientRects(); else if (child.nodeType == 3) boxes = textRange(child, 0, child.nodeValue.length).getClientRects(); else continue; for (let i2 = 0; i2 < boxes.length; i2++) { let box = boxes[i2]; if (box.bottom > box.top + 1 && (dir == "up" ? coords.top - box.top > (box.bottom - coords.top) * 2 : box.bottom - coords.bottom > (coords.bottom - box.top) * 2)) return false; } } return true; }); } var maybeRTL = /[\u0590-\u08ac]/; function endOfTextblockHorizontal(view, state, dir) { let { $head } = state.selection; if (!$head.parent.isTextblock) return false; let offset = $head.parentOffset, atStart = !offset, atEnd = offset == $head.parent.content.size; let sel = view.domSelection(); if (!maybeRTL.test($head.parent.textContent) || !sel.modify) return dir == "left" || dir == "backward" ? atStart : atEnd; return withFlushedState(view, state, () => { let { focusNode: oldNode, focusOffset: oldOff, anchorNode, anchorOffset } = view.domSelectionRange(); let oldBidiLevel = sel.caretBidiLevel; sel.modify("move", dir, "character"); let parentDOM = $head.depth ? view.docView.domAfterPos($head.before()) : view.dom; let { focusNode: newNode, focusOffset: newOff } = view.domSelectionRange(); let result = newNode && !parentDOM.contains(newNode.nodeType == 1 ? newNode : newNode.parentNode) || oldNode == newNode && oldOff == newOff; try { sel.collapse(anchorNode, anchorOffset); if (oldNode && (oldNode != anchorNode || oldOff != anchorOffset) && sel.extend) sel.extend(oldNode, oldOff); } catch (_3) { } if (oldBidiLevel != null) sel.caretBidiLevel = oldBidiLevel; return result; }); } var cachedState = null; var cachedDir = null; var cachedResult = false; function endOfTextblock(view, state, dir) { if (cachedState == state && cachedDir == dir) return cachedResult; cachedState = state; cachedDir = dir; return cachedResult = dir == "up" || dir == "down" ? endOfTextblockVertical(view, state, dir) : endOfTextblockHorizontal(view, state, dir); } var NOT_DIRTY = 0; var CHILD_DIRTY = 1; var CONTENT_DIRTY = 2; var NODE_DIRTY = 3; var ViewDesc = class { constructor(parent, children, dom, contentDOM) { this.parent = parent; this.children = children; this.dom = dom; this.contentDOM = contentDOM; this.dirty = NOT_DIRTY; dom.pmViewDesc = this; } // Used to check whether a given description corresponds to a // widget/mark/node. matchesWidget(widget) { return false; } matchesMark(mark) { return false; } matchesNode(node2, outerDeco, innerDeco) { return false; } matchesHack(nodeName) { return false; } // When parsing in-editor content (in domchange.js), we allow // descriptions to determine the parse rules that should be used to // parse them. parseRule() { return null; } // Used by the editor's event handler to ignore events that come // from certain descs. stopEvent(event) { return false; } // The size of the content represented by this desc. get size() { let size = 0; for (let i2 = 0; i2 < this.children.length; i2++) size += this.children[i2].size; return size; } // For block nodes, this represents the space taken up by their // start/end tokens. get border() { return 0; } destroy() { this.parent = void 0; if (this.dom.pmViewDesc == this) this.dom.pmViewDesc = void 0; for (let i2 = 0; i2 < this.children.length; i2++) this.children[i2].destroy(); } posBeforeChild(child) { for (let i2 = 0, pos = this.posAtStart; ; i2++) { let cur = this.children[i2]; if (cur == child) return pos; pos += cur.size; } } get posBefore() { return this.parent.posBeforeChild(this); } get posAtStart() { return this.parent ? this.parent.posBeforeChild(this) + this.border : 0; } get posAfter() { return this.posBefore + this.size; } get posAtEnd() { return this.posAtStart + this.size - 2 * this.border; } localPosFromDOM(dom, offset, bias) { if (this.contentDOM && this.contentDOM.contains(dom.nodeType == 1 ? dom : dom.parentNode)) { if (bias < 0) { let domBefore, desc; if (dom == this.contentDOM) { domBefore = dom.childNodes[offset - 1]; } else { while (dom.parentNode != this.contentDOM) dom = dom.parentNode; domBefore = dom.previousSibling; } while (domBefore && !((desc = domBefore.pmViewDesc) && desc.parent == this)) domBefore = domBefore.previousSibling; return domBefore ? this.posBeforeChild(desc) + desc.size : this.posAtStart; } else { let domAfter, desc; if (dom == this.contentDOM) { domAfter = dom.childNodes[offset]; } else { while (dom.parentNode != this.contentDOM) dom = dom.parentNode; domAfter = dom.nextSibling; } while (domAfter && !((desc = domAfter.pmViewDesc) && desc.parent == this)) domAfter = domAfter.nextSibling; return domAfter ? this.posBeforeChild(desc) : this.posAtEnd; } } let atEnd; if (dom == this.dom && this.contentDOM) { atEnd = offset > domIndex(this.contentDOM); } else if (this.contentDOM && this.contentDOM != this.dom && this.dom.contains(this.contentDOM)) { atEnd = dom.compareDocumentPosition(this.contentDOM) & 2; } else if (this.dom.firstChild) { if (offset == 0) for (let search2 = dom; ; search2 = search2.parentNode) { if (search2 == this.dom) { atEnd = false; break; } if (search2.previousSibling) break; } if (atEnd == null && offset == dom.childNodes.length) for (let search2 = dom; ; search2 = search2.parentNode) { if (search2 == this.dom) { atEnd = true; break; } if (search2.nextSibling) break; } } return (atEnd == null ? bias > 0 : atEnd) ? this.posAtEnd : this.posAtStart; } nearestDesc(dom, onlyNodes = false) { for (let first = true, cur = dom; cur; cur = cur.parentNode) { let desc = this.getDesc(cur), nodeDOM; if (desc && (!onlyNodes || desc.node)) { if (first && (nodeDOM = desc.nodeDOM) && !(nodeDOM.nodeType == 1 ? nodeDOM.contains(dom.nodeType == 1 ? dom : dom.parentNode) : nodeDOM == dom)) first = false; else return desc; } } } getDesc(dom) { let desc = dom.pmViewDesc; for (let cur = desc; cur; cur = cur.parent) if (cur == this) return desc; } posFromDOM(dom, offset, bias) { for (let scan = dom; scan; scan = scan.parentNode) { let desc = this.getDesc(scan); if (desc) return desc.localPosFromDOM(dom, offset, bias); } return -1; } // Find the desc for the node after the given pos, if any. (When a // parent node overrode rendering, there might not be one.) descAt(pos) { for (let i2 = 0, offset = 0; i2 < this.children.length; i2++) { let child = this.children[i2], end = offset + child.size; if (offset == pos && end != offset) { while (!child.border && child.children.length) child = child.children[0]; return child; } if (pos < end) return child.descAt(pos - offset - child.border); offset = end; } } domFromPos(pos, side) { if (!this.contentDOM) return { node: this.dom, offset: 0, atom: pos + 1 }; let i2 = 0, offset = 0; for (let curPos = 0; i2 < this.children.length; i2++) { let child = this.children[i2], end = curPos + child.size; if (end > pos || child instanceof TrailingHackViewDesc) { offset = pos - curPos; break; } curPos = end; } if (offset) return this.children[i2].domFromPos(offset - this.children[i2].border, side); for (let prev; i2 && !(prev = this.children[i2 - 1]).size && prev instanceof WidgetViewDesc && prev.side >= 0; i2--) { } if (side <= 0) { let prev, enter = true; for (; ; i2--, enter = false) { prev = i2 ? this.children[i2 - 1] : null; if (!prev || prev.dom.parentNode == this.contentDOM) break; } if (prev && side && enter && !prev.border && !prev.domAtom) return prev.domFromPos(prev.size, side); return { node: this.contentDOM, offset: prev ? domIndex(prev.dom) + 1 : 0 }; } else { let next, enter = true; for (; ; i2++, enter = false) { next = i2 < this.children.length ? this.children[i2] : null; if (!next || next.dom.parentNode == this.contentDOM) break; } if (next && enter && !next.border && !next.domAtom) return next.domFromPos(0, side); return { node: this.contentDOM, offset: next ? domIndex(next.dom) : this.contentDOM.childNodes.length }; } } // Used to find a DOM range in a single parent for a given changed // range. parseRange(from, to, base2 = 0) { if (this.children.length == 0) return { node: this.contentDOM, from, to, fromOffset: 0, toOffset: this.contentDOM.childNodes.length }; let fromOffset = -1, toOffset = -1; for (let offset = base2, i2 = 0; ; i2++) { let child = this.children[i2], end = offset + child.size; if (fromOffset == -1 && from <= end) { let childBase = offset + child.border; if (from >= childBase && to <= end - child.border && child.node && child.contentDOM && this.contentDOM.contains(child.contentDOM)) return child.parseRange(from, to, childBase); from = offset; for (let j6 = i2; j6 > 0; j6--) { let prev = this.children[j6 - 1]; if (prev.size && prev.dom.parentNode == this.contentDOM && !prev.emptyChildAt(1)) { fromOffset = domIndex(prev.dom) + 1; break; } from -= prev.size; } if (fromOffset == -1) fromOffset = 0; } if (fromOffset > -1 && (end > to || i2 == this.children.length - 1)) { to = end; for (let j6 = i2 + 1; j6 < this.children.length; j6++) { let next = this.children[j6]; if (next.size && next.dom.parentNode == this.contentDOM && !next.emptyChildAt(-1)) { toOffset = domIndex(next.dom); break; } to += next.size; } if (toOffset == -1) toOffset = this.contentDOM.childNodes.length; break; } offset = end; } return { node: this.contentDOM, from, to, fromOffset, toOffset }; } emptyChildAt(side) { if (this.border || !this.contentDOM || !this.children.length) return false; let child = this.children[side < 0 ? 0 : this.children.length - 1]; return child.size == 0 || child.emptyChildAt(side); } domAfterPos(pos) { let { node: node2, offset } = this.domFromPos(pos, 0); if (node2.nodeType != 1 || offset == node2.childNodes.length) throw new RangeError("No node after pos " + pos); return node2.childNodes[offset]; } // View descs are responsible for setting any selection that falls // entirely inside of them, so that custom implementations can do // custom things with the selection. Note that this falls apart when // a selection starts in such a node and ends in another, in which // case we just use whatever domFromPos produces as a best effort. setSelection(anchor, head, root2, force = false) { let from = Math.min(anchor, head), to = Math.max(anchor, head); for (let i2 = 0, offset = 0; i2 < this.children.length; i2++) { let child = this.children[i2], end = offset + child.size; if (from > offset && to < end) return child.setSelection(anchor - offset - child.border, head - offset - child.border, root2, force); offset = end; } let anchorDOM = this.domFromPos(anchor, anchor ? -1 : 1); let headDOM = head == anchor ? anchorDOM : this.domFromPos(head, head ? -1 : 1); let domSel = root2.getSelection(); let brKludge = false; if ((gecko || safari) && anchor == head) { let { node: node2, offset } = anchorDOM; if (node2.nodeType == 3) { brKludge = !!(offset && node2.nodeValue[offset - 1] == "\n"); if (brKludge && offset == node2.nodeValue.length) { for (let scan = node2, after; scan; scan = scan.parentNode) { if (after = scan.nextSibling) { if (after.nodeName == "BR") anchorDOM = headDOM = { node: after.parentNode, offset: domIndex(after) + 1 }; break; } let desc = scan.pmViewDesc; if (desc && desc.node && desc.node.isBlock) break; } } } else { let prev = node2.childNodes[offset - 1]; brKludge = prev && (prev.nodeName == "BR" || prev.contentEditable == "false"); } } if (gecko && domSel.focusNode && domSel.focusNode != headDOM.node && domSel.focusNode.nodeType == 1) { let after = domSel.focusNode.childNodes[domSel.focusOffset]; if (after && after.contentEditable == "false") force = true; } if (!(force || brKludge && safari) && isEquivalentPosition(anchorDOM.node, anchorDOM.offset, domSel.anchorNode, domSel.anchorOffset) && isEquivalentPosition(headDOM.node, headDOM.offset, domSel.focusNode, domSel.focusOffset)) return; let domSelExtended = false; if ((domSel.extend || anchor == head) && !brKludge) { domSel.collapse(anchorDOM.node, anchorDOM.offset); try { if (anchor != head) domSel.extend(headDOM.node, headDOM.offset); domSelExtended = true; } catch (_3) { } } if (!domSelExtended) { if (anchor > head) { let tmp = anchorDOM; anchorDOM = headDOM; headDOM = tmp; } let range = document.createRange(); range.setEnd(headDOM.node, headDOM.offset); range.setStart(anchorDOM.node, anchorDOM.offset); domSel.removeAllRanges(); domSel.addRange(range); } } ignoreMutation(mutation) { return !this.contentDOM && mutation.type != "selection"; } get contentLost() { return this.contentDOM && this.contentDOM != this.dom && !this.dom.contains(this.contentDOM); } // Remove a subtree of the element tree that has been touched // by a DOM change, so that the next update will redraw it. markDirty(from, to) { for (let offset = 0, i2 = 0; i2 < this.children.length; i2++) { let child = this.children[i2], end = offset + child.size; if (offset == end ? from <= end && to >= offset : from < end && to > offset) { let startInside = offset + child.border, endInside = end - child.border; if (from >= startInside && to <= endInside) { this.dirty = from == offset || to == end ? CONTENT_DIRTY : CHILD_DIRTY; if (from == startInside && to == endInside && (child.contentLost || child.dom.parentNode != this.contentDOM)) child.dirty = NODE_DIRTY; else child.markDirty(from - startInside, to - startInside); return; } else { child.dirty = child.dom == child.contentDOM && child.dom.parentNode == this.contentDOM && !child.children.length ? CONTENT_DIRTY : NODE_DIRTY; } } offset = end; } this.dirty = CONTENT_DIRTY; } markParentsDirty() { let level = 1; for (let node2 = this.parent; node2; node2 = node2.parent, level++) { let dirty = level == 1 ? CONTENT_DIRTY : CHILD_DIRTY; if (node2.dirty < dirty) node2.dirty = dirty; } } get domAtom() { return false; } get ignoreForCoords() { return false; } isText(text5) { return false; } }; var WidgetViewDesc = class extends ViewDesc { constructor(parent, widget, view, pos) { let self2, dom = widget.type.toDOM; if (typeof dom == "function") dom = dom(view, () => { if (!self2) return pos; if (self2.parent) return self2.parent.posBeforeChild(self2); }); if (!widget.type.spec.raw) { if (dom.nodeType != 1) { let wrap3 = document.createElement("span"); wrap3.appendChild(dom); dom = wrap3; } dom.contentEditable = "false"; dom.classList.add("ProseMirror-widget"); } super(parent, [], dom, null); this.widget = widget; this.widget = widget; self2 = this; } matchesWidget(widget) { return this.dirty == NOT_DIRTY && widget.type.eq(this.widget.type); } parseRule() { return { ignore: true }; } stopEvent(event) { let stop = this.widget.spec.stopEvent; return stop ? stop(event) : false; } ignoreMutation(mutation) { return mutation.type != "selection" || this.widget.spec.ignoreSelection; } destroy() { this.widget.type.destroy(this.dom); super.destroy(); } get domAtom() { return true; } get side() { return this.widget.type.side; } }; var CompositionViewDesc = class extends ViewDesc { constructor(parent, dom, textDOM, text5) { super(parent, [], dom, null); this.textDOM = textDOM; this.text = text5; } get size() { return this.text.length; } localPosFromDOM(dom, offset) { if (dom != this.textDOM) return this.posAtStart + (offset ? this.size : 0); return this.posAtStart + offset; } domFromPos(pos) { return { node: this.textDOM, offset: pos }; } ignoreMutation(mut) { return mut.type === "characterData" && mut.target.nodeValue == mut.oldValue; } }; var MarkViewDesc = class _MarkViewDesc extends ViewDesc { constructor(parent, mark, dom, contentDOM) { super(parent, [], dom, contentDOM); this.mark = mark; } static create(parent, mark, inline, view) { let custom = view.nodeViews[mark.type.name]; let spec = custom && custom(mark, view, inline); if (!spec || !spec.dom) spec = DOMSerializer.renderSpec(document, mark.type.spec.toDOM(mark, inline)); return new _MarkViewDesc(parent, mark, spec.dom, spec.contentDOM || spec.dom); } parseRule() { if (this.dirty & NODE_DIRTY || this.mark.type.spec.reparseInView) return null; return { mark: this.mark.type.name, attrs: this.mark.attrs, contentElement: this.contentDOM }; } matchesMark(mark) { return this.dirty != NODE_DIRTY && this.mark.eq(mark); } markDirty(from, to) { super.markDirty(from, to); if (this.dirty != NOT_DIRTY) { let parent = this.parent; while (!parent.node) parent = parent.parent; if (parent.dirty < this.dirty) parent.dirty = this.dirty; this.dirty = NOT_DIRTY; } } slice(from, to, view) { let copy2 = _MarkViewDesc.create(this.parent, this.mark, true, view); let nodes = this.children, size = this.size; if (to < size) nodes = replaceNodes(nodes, to, size, view); if (from > 0) nodes = replaceNodes(nodes, 0, from, view); for (let i2 = 0; i2 < nodes.length; i2++) nodes[i2].parent = copy2; copy2.children = nodes; return copy2; } }; var NodeViewDesc = class _NodeViewDesc extends ViewDesc { constructor(parent, node2, outerDeco, innerDeco, dom, contentDOM, nodeDOM, view, pos) { super(parent, [], dom, contentDOM); this.node = node2; this.outerDeco = outerDeco; this.innerDeco = innerDeco; this.nodeDOM = nodeDOM; } // By default, a node is rendered using the `toDOM` method from the // node type spec. But client code can use the `nodeViews` spec to // supply a custom node view, which can influence various aspects of // the way the node works. // // (Using subclassing for this was intentionally decided against, // since it'd require exposing a whole slew of finicky // implementation details to the user code that they probably will // never need.) static create(parent, node2, outerDeco, innerDeco, view, pos) { let custom = view.nodeViews[node2.type.name], descObj; let spec = custom && custom(node2, view, () => { if (!descObj) return pos; if (descObj.parent) return descObj.parent.posBeforeChild(descObj); }, outerDeco, innerDeco); let dom = spec && spec.dom, contentDOM = spec && spec.contentDOM; if (node2.isText) { if (!dom) dom = document.createTextNode(node2.text); else if (dom.nodeType != 3) throw new RangeError("Text must be rendered as a DOM text node"); } else if (!dom) { ({ dom, contentDOM } = DOMSerializer.renderSpec(document, node2.type.spec.toDOM(node2))); } if (!contentDOM && !node2.isText && dom.nodeName != "BR") { if (!dom.hasAttribute("contenteditable")) dom.contentEditable = "false"; if (node2.type.spec.draggable) dom.draggable = true; } let nodeDOM = dom; dom = applyOuterDeco(dom, outerDeco, node2); if (spec) return descObj = new CustomNodeViewDesc(parent, node2, outerDeco, innerDeco, dom, contentDOM || null, nodeDOM, spec, view, pos + 1); else if (node2.isText) return new TextViewDesc(parent, node2, outerDeco, innerDeco, dom, nodeDOM, view); else return new _NodeViewDesc(parent, node2, outerDeco, innerDeco, dom, contentDOM || null, nodeDOM, view, pos + 1); } parseRule() { if (this.node.type.spec.reparseInView) return null; let rule = { node: this.node.type.name, attrs: this.node.attrs }; if (this.node.type.whitespace == "pre") rule.preserveWhitespace = "full"; if (!this.contentDOM) { rule.getContent = () => this.node.content; } else if (!this.contentLost) { rule.contentElement = this.contentDOM; } else { for (let i2 = this.children.length - 1; i2 >= 0; i2--) { let child = this.children[i2]; if (this.dom.contains(child.dom.parentNode)) { rule.contentElement = child.dom.parentNode; break; } } if (!rule.contentElement) rule.getContent = () => Fragment.empty; } return rule; } matchesNode(node2, outerDeco, innerDeco) { return this.dirty == NOT_DIRTY && node2.eq(this.node) && sameOuterDeco(outerDeco, this.outerDeco) && innerDeco.eq(this.innerDeco); } get size() { return this.node.nodeSize; } get border() { return this.node.isLeaf ? 0 : 1; } // Syncs `this.children` to match `this.node.content` and the local // decorations, possibly introducing nesting for marks. Then, in a // separate step, syncs the DOM inside `this.contentDOM` to // `this.children`. updateChildren(view, pos) { let inline = this.node.inlineContent, off = pos; let composition = view.composing ? this.localCompositionInfo(view, pos) : null; let localComposition = composition && composition.pos > -1 ? composition : null; let compositionInChild = composition && composition.pos < 0; let updater = new ViewTreeUpdater(this, localComposition && localComposition.node, view); iterDeco(this.node, this.innerDeco, (widget, i2, insideNode) => { if (widget.spec.marks) updater.syncToMarks(widget.spec.marks, inline, view); else if (widget.type.side >= 0 && !insideNode) updater.syncToMarks(i2 == this.node.childCount ? Mark.none : this.node.child(i2).marks, inline, view); updater.placeWidget(widget, view, off); }, (child, outerDeco, innerDeco, i2) => { updater.syncToMarks(child.marks, inline, view); let compIndex; if (updater.findNodeMatch(child, outerDeco, innerDeco, i2)) ; else if (compositionInChild && view.state.selection.from > off && view.state.selection.to < off + child.nodeSize && (compIndex = updater.findIndexWithChild(composition.node)) > -1 && updater.updateNodeAt(child, outerDeco, innerDeco, compIndex, view)) ; else if (updater.updateNextNode(child, outerDeco, innerDeco, view, i2, off)) ; else { updater.addNode(child, outerDeco, innerDeco, view, off); } off += child.nodeSize; }); updater.syncToMarks([], inline, view); if (this.node.isTextblock) updater.addTextblockHacks(); updater.destroyRest(); if (updater.changed || this.dirty == CONTENT_DIRTY) { if (localComposition) this.protectLocalComposition(view, localComposition); renderDescs(this.contentDOM, this.children, view); if (ios) iosHacks(this.dom); } } localCompositionInfo(view, pos) { let { from, to } = view.state.selection; if (!(view.state.selection instanceof TextSelection) || from < pos || to > pos + this.node.content.size) return null; let textNode = view.input.compositionNode; if (!textNode || !this.dom.contains(textNode.parentNode)) return null; if (this.node.inlineContent) { let text5 = textNode.nodeValue; let textPos = findTextInFragment(this.node.content, text5, from - pos, to - pos); return textPos < 0 ? null : { node: textNode, pos: textPos, text: text5 }; } else { return { node: textNode, pos: -1, text: "" }; } } protectLocalComposition(view, { node: node2, pos, text: text5 }) { if (this.getDesc(node2)) return; let topNode = node2; for (; ; topNode = topNode.parentNode) { if (topNode.parentNode == this.contentDOM) break; while (topNode.previousSibling) topNode.parentNode.removeChild(topNode.previousSibling); while (topNode.nextSibling) topNode.parentNode.removeChild(topNode.nextSibling); if (topNode.pmViewDesc) topNode.pmViewDesc = void 0; } let desc = new CompositionViewDesc(this, topNode, node2, text5); view.input.compositionNodes.push(desc); this.children = replaceNodes(this.children, pos, pos + text5.length, view, desc); } // If this desc must be updated to match the given node decoration, // do so and return true. update(node2, outerDeco, innerDeco, view) { if (this.dirty == NODE_DIRTY || !node2.sameMarkup(this.node)) return false; this.updateInner(node2, outerDeco, innerDeco, view); return true; } updateInner(node2, outerDeco, innerDeco, view) { this.updateOuterDeco(outerDeco); this.node = node2; this.innerDeco = innerDeco; if (this.contentDOM) this.updateChildren(view, this.posAtStart); this.dirty = NOT_DIRTY; } updateOuterDeco(outerDeco) { if (sameOuterDeco(outerDeco, this.outerDeco)) return; let needsWrap = this.nodeDOM.nodeType != 1; let oldDOM = this.dom; this.dom = patchOuterDeco(this.dom, this.nodeDOM, computeOuterDeco(this.outerDeco, this.node, needsWrap), computeOuterDeco(outerDeco, this.node, needsWrap)); if (this.dom != oldDOM) { oldDOM.pmViewDesc = void 0; this.dom.pmViewDesc = this; } this.outerDeco = outerDeco; } // Mark this node as being the selected node. selectNode() { if (this.nodeDOM.nodeType == 1) this.nodeDOM.classList.add("ProseMirror-selectednode"); if (this.contentDOM || !this.node.type.spec.draggable) this.dom.draggable = true; } // Remove selected node marking from this node. deselectNode() { if (this.nodeDOM.nodeType == 1) this.nodeDOM.classList.remove("ProseMirror-selectednode"); if (this.contentDOM || !this.node.type.spec.draggable) this.dom.removeAttribute("draggable"); } get domAtom() { return this.node.isAtom; } }; function docViewDesc(doc4, outerDeco, innerDeco, dom, view) { applyOuterDeco(dom, outerDeco, doc4); let docView = new NodeViewDesc(void 0, doc4, outerDeco, innerDeco, dom, dom, dom, view, 0); if (docView.contentDOM) docView.updateChildren(view, 0); return docView; } var TextViewDesc = class _TextViewDesc extends NodeViewDesc { constructor(parent, node2, outerDeco, innerDeco, dom, nodeDOM, view) { super(parent, node2, outerDeco, innerDeco, dom, null, nodeDOM, view, 0); } parseRule() { let skip = this.nodeDOM.parentNode; while (skip && skip != this.dom && !skip.pmIsDeco) skip = skip.parentNode; return { skip: skip || true }; } update(node2, outerDeco, innerDeco, view) { if (this.dirty == NODE_DIRTY || this.dirty != NOT_DIRTY && !this.inParent() || !node2.sameMarkup(this.node)) return false; this.updateOuterDeco(outerDeco); if ((this.dirty != NOT_DIRTY || node2.text != this.node.text) && node2.text != this.nodeDOM.nodeValue) { this.nodeDOM.nodeValue = node2.text; if (view.trackWrites == this.nodeDOM) view.trackWrites = null; } this.node = node2; this.dirty = NOT_DIRTY; return true; } inParent() { let parentDOM = this.parent.contentDOM; for (let n4 = this.nodeDOM; n4; n4 = n4.parentNode) if (n4 == parentDOM) return true; return false; } domFromPos(pos) { return { node: this.nodeDOM, offset: pos }; } localPosFromDOM(dom, offset, bias) { if (dom == this.nodeDOM) return this.posAtStart + Math.min(offset, this.node.text.length); return super.localPosFromDOM(dom, offset, bias); } ignoreMutation(mutation) { return mutation.type != "characterData" && mutation.type != "selection"; } slice(from, to, view) { let node2 = this.node.cut(from, to), dom = document.createTextNode(node2.text); return new _TextViewDesc(this.parent, node2, this.outerDeco, this.innerDeco, dom, dom, view); } markDirty(from, to) { super.markDirty(from, to); if (this.dom != this.nodeDOM && (from == 0 || to == this.nodeDOM.nodeValue.length)) this.dirty = NODE_DIRTY; } get domAtom() { return false; } isText(text5) { return this.node.text == text5; } }; var TrailingHackViewDesc = class extends ViewDesc { parseRule() { return { ignore: true }; } matchesHack(nodeName) { return this.dirty == NOT_DIRTY && this.dom.nodeName == nodeName; } get domAtom() { return true; } get ignoreForCoords() { return this.dom.nodeName == "IMG"; } }; var CustomNodeViewDesc = class extends NodeViewDesc { constructor(parent, node2, outerDeco, innerDeco, dom, contentDOM, nodeDOM, spec, view, pos) { super(parent, node2, outerDeco, innerDeco, dom, contentDOM, nodeDOM, view, pos); this.spec = spec; } // A custom `update` method gets to decide whether the update goes // through. If it does, and there's a `contentDOM` node, our logic // updates the children. update(node2, outerDeco, innerDeco, view) { if (this.dirty == NODE_DIRTY) return false; if (this.spec.update) { let result = this.spec.update(node2, outerDeco, innerDeco); if (result) this.updateInner(node2, outerDeco, innerDeco, view); return result; } else if (!this.contentDOM && !node2.isLeaf) { return false; } else { return super.update(node2, outerDeco, innerDeco, view); } } selectNode() { this.spec.selectNode ? this.spec.selectNode() : super.selectNode(); } deselectNode() { this.spec.deselectNode ? this.spec.deselectNode() : super.deselectNode(); } setSelection(anchor, head, root2, force) { this.spec.setSelection ? this.spec.setSelection(anchor, head, root2) : super.setSelection(anchor, head, root2, force); } destroy() { if (this.spec.destroy) this.spec.destroy(); super.destroy(); } stopEvent(event) { return this.spec.stopEvent ? this.spec.stopEvent(event) : false; } ignoreMutation(mutation) { return this.spec.ignoreMutation ? this.spec.ignoreMutation(mutation) : super.ignoreMutation(mutation); } }; function renderDescs(parentDOM, descs, view) { let dom = parentDOM.firstChild, written = false; for (let i2 = 0; i2 < descs.length; i2++) { let desc = descs[i2], childDOM = desc.dom; if (childDOM.parentNode == parentDOM) { while (childDOM != dom) { dom = rm(dom); written = true; } dom = dom.nextSibling; } else { written = true; parentDOM.insertBefore(childDOM, dom); } if (desc instanceof MarkViewDesc) { let pos = dom ? dom.previousSibling : parentDOM.lastChild; renderDescs(desc.contentDOM, desc.children, view); dom = pos ? pos.nextSibling : parentDOM.firstChild; } } while (dom) { dom = rm(dom); written = true; } if (written && view.trackWrites == parentDOM) view.trackWrites = null; } var OuterDecoLevel = function(nodeName) { if (nodeName) this.nodeName = nodeName; }; OuterDecoLevel.prototype = /* @__PURE__ */ Object.create(null); var noDeco = [new OuterDecoLevel()]; function computeOuterDeco(outerDeco, node2, needsWrap) { if (outerDeco.length == 0) return noDeco; let top = needsWrap ? noDeco[0] : new OuterDecoLevel(), result = [top]; for (let i2 = 0; i2 < outerDeco.length; i2++) { let attrs = outerDeco[i2].type.attrs; if (!attrs) continue; if (attrs.nodeName) result.push(top = new OuterDecoLevel(attrs.nodeName)); for (let name in attrs) { let val = attrs[name]; if (val == null) continue; if (needsWrap && result.length == 1) result.push(top = new OuterDecoLevel(node2.isInline ? "span" : "div")); if (name == "class") top.class = (top.class ? top.class + " " : "") + val; else if (name == "style") top.style = (top.style ? top.style + ";" : "") + val; else if (name != "nodeName") top[name] = val; } } return result; } function patchOuterDeco(outerDOM, nodeDOM, prevComputed, curComputed) { if (prevComputed == noDeco && curComputed == noDeco) return nodeDOM; let curDOM = nodeDOM; for (let i2 = 0; i2 < curComputed.length; i2++) { let deco = curComputed[i2], prev = prevComputed[i2]; if (i2) { let parent; if (prev && prev.nodeName == deco.nodeName && curDOM != outerDOM && (parent = curDOM.parentNode) && parent.nodeName.toLowerCase() == deco.nodeName) { curDOM = parent; } else { parent = document.createElement(deco.nodeName); parent.pmIsDeco = true; parent.appendChild(curDOM); prev = noDeco[0]; curDOM = parent; } } patchAttributes(curDOM, prev || noDeco[0], deco); } return curDOM; } function patchAttributes(dom, prev, cur) { for (let name in prev) if (name != "class" && name != "style" && name != "nodeName" && !(name in cur)) dom.removeAttribute(name); for (let name in cur) if (name != "class" && name != "style" && name != "nodeName" && cur[name] != prev[name]) dom.setAttribute(name, cur[name]); if (prev.class != cur.class) { let prevList = prev.class ? prev.class.split(" ").filter(Boolean) : []; let curList = cur.class ? cur.class.split(" ").filter(Boolean) : []; for (let i2 = 0; i2 < prevList.length; i2++) if (curList.indexOf(prevList[i2]) == -1) dom.classList.remove(prevList[i2]); for (let i2 = 0; i2 < curList.length; i2++) if (prevList.indexOf(curList[i2]) == -1) dom.classList.add(curList[i2]); if (dom.classList.length == 0) dom.removeAttribute("class"); } if (prev.style != cur.style) { if (prev.style) { let prop = /\s*([\w\-\xa1-\uffff]+)\s*:(?:"(?:\\.|[^"])*"|'(?:\\.|[^'])*'|\(.*?\)|[^;])*/g, m3; while (m3 = prop.exec(prev.style)) dom.style.removeProperty(m3[1]); } if (cur.style) dom.style.cssText += cur.style; } } function applyOuterDeco(dom, deco, node2) { return patchOuterDeco(dom, dom, noDeco, computeOuterDeco(deco, node2, dom.nodeType != 1)); } function sameOuterDeco(a2, b4) { if (a2.length != b4.length) return false; for (let i2 = 0; i2 < a2.length; i2++) if (!a2[i2].type.eq(b4[i2].type)) return false; return true; } function rm(dom) { let next = dom.nextSibling; dom.parentNode.removeChild(dom); return next; } var ViewTreeUpdater = class { constructor(top, lock, view) { this.lock = lock; this.view = view; this.index = 0; this.stack = []; this.changed = false; this.top = top; this.preMatch = preMatch(top.node.content, top); } // Destroy and remove the children between the given indices in // `this.top`. destroyBetween(start, end) { if (start == end) return; for (let i2 = start; i2 < end; i2++) this.top.children[i2].destroy(); this.top.children.splice(start, end - start); this.changed = true; } // Destroy all remaining children in `this.top`. destroyRest() { this.destroyBetween(this.index, this.top.children.length); } // Sync the current stack of mark descs with the given array of // marks, reusing existing mark descs when possible. syncToMarks(marks, inline, view) { let keep = 0, depth = this.stack.length >> 1; let maxKeep = Math.min(depth, marks.length); while (keep < maxKeep && (keep == depth - 1 ? this.top : this.stack[keep + 1 << 1]).matchesMark(marks[keep]) && marks[keep].type.spec.spanning !== false) keep++; while (keep < depth) { this.destroyRest(); this.top.dirty = NOT_DIRTY; this.index = this.stack.pop(); this.top = this.stack.pop(); depth--; } while (depth < marks.length) { this.stack.push(this.top, this.index + 1); let found2 = -1; for (let i2 = this.index; i2 < Math.min(this.index + 3, this.top.children.length); i2++) { let next = this.top.children[i2]; if (next.matchesMark(marks[depth]) && !this.isLocked(next.dom)) { found2 = i2; break; } } if (found2 > -1) { if (found2 > this.index) { this.changed = true; this.destroyBetween(this.index, found2); } this.top = this.top.children[this.index]; } else { let markDesc = MarkViewDesc.create(this.top, marks[depth], inline, view); this.top.children.splice(this.index, 0, markDesc); this.top = markDesc; this.changed = true; } this.index = 0; depth++; } } // Try to find a node desc matching the given data. Skip over it and // return true when successful. findNodeMatch(node2, outerDeco, innerDeco, index2) { let found2 = -1, targetDesc; if (index2 >= this.preMatch.index && (targetDesc = this.preMatch.matches[index2 - this.preMatch.index]).parent == this.top && targetDesc.matchesNode(node2, outerDeco, innerDeco)) { found2 = this.top.children.indexOf(targetDesc, this.index); } else { for (let i2 = this.index, e2 = Math.min(this.top.children.length, i2 + 5); i2 < e2; i2++) { let child = this.top.children[i2]; if (child.matchesNode(node2, outerDeco, innerDeco) && !this.preMatch.matched.has(child)) { found2 = i2; break; } } } if (found2 < 0) return false; this.destroyBetween(this.index, found2); this.index++; return true; } updateNodeAt(node2, outerDeco, innerDeco, index2, view) { let child = this.top.children[index2]; if (child.dirty == NODE_DIRTY && child.dom == child.contentDOM) child.dirty = CONTENT_DIRTY; if (!child.update(node2, outerDeco, innerDeco, view)) return false; this.destroyBetween(this.index, index2); this.index++; return true; } findIndexWithChild(domNode) { for (; ; ) { let parent = domNode.parentNode; if (!parent) return -1; if (parent == this.top.contentDOM) { let desc = domNode.pmViewDesc; if (desc) for (let i2 = this.index; i2 < this.top.children.length; i2++) { if (this.top.children[i2] == desc) return i2; } return -1; } domNode = parent; } } // Try to update the next node, if any, to the given data. Checks // pre-matches to avoid overwriting nodes that could still be used. updateNextNode(node2, outerDeco, innerDeco, view, index2, pos) { for (let i2 = this.index; i2 < this.top.children.length; i2++) { let next = this.top.children[i2]; if (next instanceof NodeViewDesc) { let preMatch2 = this.preMatch.matched.get(next); if (preMatch2 != null && preMatch2 != index2) return false; let nextDOM = next.dom, updated; let locked = this.isLocked(nextDOM) && !(node2.isText && next.node && next.node.isText && next.nodeDOM.nodeValue == node2.text && next.dirty != NODE_DIRTY && sameOuterDeco(outerDeco, next.outerDeco)); if (!locked && next.update(node2, outerDeco, innerDeco, view)) { this.destroyBetween(this.index, i2); if (next.dom != nextDOM) this.changed = true; this.index++; return true; } else if (!locked && (updated = this.recreateWrapper(next, node2, outerDeco, innerDeco, view, pos))) { this.top.children[this.index] = updated; if (updated.contentDOM) { updated.dirty = CONTENT_DIRTY; updated.updateChildren(view, pos + 1); updated.dirty = NOT_DIRTY; } this.changed = true; this.index++; return true; } break; } } return false; } // When a node with content is replaced by a different node with // identical content, move over its children. recreateWrapper(next, node2, outerDeco, innerDeco, view, pos) { if (next.dirty || node2.isAtom || !next.children.length || !next.node.content.eq(node2.content)) return null; let wrapper = NodeViewDesc.create(this.top, node2, outerDeco, innerDeco, view, pos); if (wrapper.contentDOM) { wrapper.children = next.children; next.children = []; for (let ch of wrapper.children) ch.parent = wrapper; } next.destroy(); return wrapper; } // Insert the node as a newly created node desc. addNode(node2, outerDeco, innerDeco, view, pos) { let desc = NodeViewDesc.create(this.top, node2, outerDeco, innerDeco, view, pos); if (desc.contentDOM) desc.updateChildren(view, pos + 1); this.top.children.splice(this.index++, 0, desc); this.changed = true; } placeWidget(widget, view, pos) { let next = this.index < this.top.children.length ? this.top.children[this.index] : null; if (next && next.matchesWidget(widget) && (widget == next.widget || !next.widget.type.toDOM.parentNode)) { this.index++; } else { let desc = new WidgetViewDesc(this.top, widget, view, pos); this.top.children.splice(this.index++, 0, desc); this.changed = true; } } // Make sure a textblock looks and behaves correctly in // contentEditable. addTextblockHacks() { let lastChild = this.top.children[this.index - 1], parent = this.top; while (lastChild instanceof MarkViewDesc) { parent = lastChild; lastChild = parent.children[parent.children.length - 1]; } if (!lastChild || // Empty textblock !(lastChild instanceof TextViewDesc) || /\n$/.test(lastChild.node.text) || this.view.requiresGeckoHackNode && /\s$/.test(lastChild.node.text)) { if ((safari || chrome) && lastChild && lastChild.dom.contentEditable == "false") this.addHackNode("IMG", parent); this.addHackNode("BR", this.top); } } addHackNode(nodeName, parent) { if (parent == this.top && this.index < parent.children.length && parent.children[this.index].matchesHack(nodeName)) { this.index++; } else { let dom = document.createElement(nodeName); if (nodeName == "IMG") { dom.className = "ProseMirror-separator"; dom.alt = ""; } if (nodeName == "BR") dom.className = "ProseMirror-trailingBreak"; let hack = new TrailingHackViewDesc(this.top, [], dom, null); if (parent != this.top) parent.children.push(hack); else parent.children.splice(this.index++, 0, hack); this.changed = true; } } isLocked(node2) { return this.lock && (node2 == this.lock || node2.nodeType == 1 && node2.contains(this.lock.parentNode)); } }; function preMatch(frag, parentDesc) { let curDesc = parentDesc, descI = curDesc.children.length; let fI = frag.childCount, matched = /* @__PURE__ */ new Map(), matches2 = []; outer: while (fI > 0) { let desc; for (; ; ) { if (descI) { let next = curDesc.children[descI - 1]; if (next instanceof MarkViewDesc) { curDesc = next; descI = next.children.length; } else { desc = next; descI--; break; } } else if (curDesc == parentDesc) { break outer; } else { descI = curDesc.parent.children.indexOf(curDesc); curDesc = curDesc.parent; } } let node2 = desc.node; if (!node2) continue; if (node2 != frag.child(fI - 1)) break; --fI; matched.set(desc, fI); matches2.push(desc); } return { index: fI, matched, matches: matches2.reverse() }; } function compareSide(a2, b4) { return a2.type.side - b4.type.side; } function iterDeco(parent, deco, onWidget, onNode) { let locals = deco.locals(parent), offset = 0; if (locals.length == 0) { for (let i2 = 0; i2 < parent.childCount; i2++) { let child = parent.child(i2); onNode(child, locals, deco.forChild(offset, child), i2); offset += child.nodeSize; } return; } let decoIndex = 0, active = [], restNode = null; for (let parentIndex = 0; ; ) { let widget, widgets; while (decoIndex < locals.length && locals[decoIndex].to == offset) { let next = locals[decoIndex++]; if (next.widget) { if (!widget) widget = next; else (widgets || (widgets = [widget])).push(next); } } if (widget) { if (widgets) { widgets.sort(compareSide); for (let i2 = 0; i2 < widgets.length; i2++) onWidget(widgets[i2], parentIndex, !!restNode); } else { onWidget(widget, parentIndex, !!restNode); } } let child, index2; if (restNode) { index2 = -1; child = restNode; restNode = null; } else if (parentIndex < parent.childCount) { index2 = parentIndex; child = parent.child(parentIndex++); } else { break; } for (let i2 = 0; i2 < active.length; i2++) if (active[i2].to <= offset) active.splice(i2--, 1); while (decoIndex < locals.length && locals[decoIndex].from <= offset && locals[decoIndex].to > offset) active.push(locals[decoIndex++]); let end = offset + child.nodeSize; if (child.isText) { let cutAt = end; if (decoIndex < locals.length && locals[decoIndex].from < cutAt) cutAt = locals[decoIndex].from; for (let i2 = 0; i2 < active.length; i2++) if (active[i2].to < cutAt) cutAt = active[i2].to; if (cutAt < end) { restNode = child.cut(cutAt - offset); child = child.cut(0, cutAt - offset); end = cutAt; index2 = -1; } } else { while (decoIndex < locals.length && locals[decoIndex].to < end) decoIndex++; } let outerDeco = child.isInline && !child.isLeaf ? active.filter((d6) => !d6.inline) : active.slice(); onNode(child, outerDeco, deco.forChild(offset, child), index2); offset = end; } } function iosHacks(dom) { if (dom.nodeName == "UL" || dom.nodeName == "OL") { let oldCSS = dom.style.cssText; dom.style.cssText = oldCSS + "; list-style: square !important"; window.getComputedStyle(dom).listStyle; dom.style.cssText = oldCSS; } } function findTextInFragment(frag, text5, from, to) { for (let i2 = 0, pos = 0; i2 < frag.childCount && pos <= to; ) { let child = frag.child(i2++), childStart = pos; pos += child.nodeSize; if (!child.isText) continue; let str = child.text; while (i2 < frag.childCount) { let next = frag.child(i2++); pos += next.nodeSize; if (!next.isText) break; str += next.text; } if (pos >= from) { if (pos >= to && str.slice(to - text5.length - childStart, to - childStart) == text5) return to - text5.length; let found2 = childStart < to ? str.lastIndexOf(text5, to - childStart - 1) : -1; if (found2 >= 0 && found2 + text5.length + childStart >= from) return childStart + found2; if (from == to && str.length >= to + text5.length - childStart && str.slice(to - childStart, to - childStart + text5.length) == text5) return to; } } return -1; } function replaceNodes(nodes, from, to, view, replacement) { let result = []; for (let i2 = 0, off = 0; i2 < nodes.length; i2++) { let child = nodes[i2], start = off, end = off += child.size; if (start >= to || end <= from) { result.push(child); } else { if (start < from) result.push(child.slice(0, from - start, view)); if (replacement) { result.push(replacement); replacement = void 0; } if (end > to) result.push(child.slice(to - start, child.size, view)); } } return result; } function selectionFromDOM(view, origin = null) { let domSel = view.domSelectionRange(), doc4 = view.state.doc; if (!domSel.focusNode) return null; let nearestDesc = view.docView.nearestDesc(domSel.focusNode), inWidget = nearestDesc && nearestDesc.size == 0; let head = view.docView.posFromDOM(domSel.focusNode, domSel.focusOffset, 1); if (head < 0) return null; let $head = doc4.resolve(head), $anchor, selection; if (selectionCollapsed(domSel)) { $anchor = $head; while (nearestDesc && !nearestDesc.node) nearestDesc = nearestDesc.parent; let nearestDescNode = nearestDesc.node; if (nearestDesc && nearestDescNode.isAtom && NodeSelection.isSelectable(nearestDescNode) && nearestDesc.parent && !(nearestDescNode.isInline && isOnEdge(domSel.focusNode, domSel.focusOffset, nearestDesc.dom))) { let pos = nearestDesc.posBefore; selection = new NodeSelection(head == pos ? $head : doc4.resolve(pos)); } } else { let anchor = view.docView.posFromDOM(domSel.anchorNode, domSel.anchorOffset, 1); if (anchor < 0) return null; $anchor = doc4.resolve(anchor); } if (!selection) { let bias = origin == "pointer" || view.state.selection.head < $head.pos && !inWidget ? 1 : -1; selection = selectionBetween(view, $anchor, $head, bias); } return selection; } function editorOwnsSelection(view) { return view.editable ? view.hasFocus() : hasSelection(view) && document.activeElement && document.activeElement.contains(view.dom); } function selectionToDOM(view, force = false) { let sel = view.state.selection; syncNodeSelection(view, sel); if (!editorOwnsSelection(view)) return; if (!force && view.input.mouseDown && view.input.mouseDown.allowDefault && chrome) { let domSel = view.domSelectionRange(), curSel = view.domObserver.currentSelection; if (domSel.anchorNode && curSel.anchorNode && isEquivalentPosition(domSel.anchorNode, domSel.anchorOffset, curSel.anchorNode, curSel.anchorOffset)) { view.input.mouseDown.delayedSelectionSync = true; view.domObserver.setCurSelection(); return; } } view.domObserver.disconnectSelection(); if (view.cursorWrapper) { selectCursorWrapper(view); } else { let { anchor, head } = sel, resetEditableFrom, resetEditableTo; if (brokenSelectBetweenUneditable && !(sel instanceof TextSelection)) { if (!sel.$from.parent.inlineContent) resetEditableFrom = temporarilyEditableNear(view, sel.from); if (!sel.empty && !sel.$from.parent.inlineContent) resetEditableTo = temporarilyEditableNear(view, sel.to); } view.docView.setSelection(anchor, head, view.root, force); if (brokenSelectBetweenUneditable) { if (resetEditableFrom) resetEditable(resetEditableFrom); if (resetEditableTo) resetEditable(resetEditableTo); } if (sel.visible) { view.dom.classList.remove("ProseMirror-hideselection"); } else { view.dom.classList.add("ProseMirror-hideselection"); if ("onselectionchange" in document) removeClassOnSelectionChange(view); } } view.domObserver.setCurSelection(); view.domObserver.connectSelection(); } var brokenSelectBetweenUneditable = safari || chrome && chrome_version < 63; function temporarilyEditableNear(view, pos) { let { node: node2, offset } = view.docView.domFromPos(pos, 0); let after = offset < node2.childNodes.length ? node2.childNodes[offset] : null; let before = offset ? node2.childNodes[offset - 1] : null; if (safari && after && after.contentEditable == "false") return setEditable(after); if ((!after || after.contentEditable == "false") && (!before || before.contentEditable == "false")) { if (after) return setEditable(after); else if (before) return setEditable(before); } } function setEditable(element2) { element2.contentEditable = "true"; if (safari && element2.draggable) { element2.draggable = false; element2.wasDraggable = true; } return element2; } function resetEditable(element2) { element2.contentEditable = "false"; if (element2.wasDraggable) { element2.draggable = true; element2.wasDraggable = null; } } function removeClassOnSelectionChange(view) { let doc4 = view.dom.ownerDocument; doc4.removeEventListener("selectionchange", view.input.hideSelectionGuard); let domSel = view.domSelectionRange(); let node2 = domSel.anchorNode, offset = domSel.anchorOffset; doc4.addEventListener("selectionchange", view.input.hideSelectionGuard = () => { if (domSel.anchorNode != node2 || domSel.anchorOffset != offset) { doc4.removeEventListener("selectionchange", view.input.hideSelectionGuard); setTimeout(() => { if (!editorOwnsSelection(view) || view.state.selection.visible) view.dom.classList.remove("ProseMirror-hideselection"); }, 20); } }); } function selectCursorWrapper(view) { let domSel = view.domSelection(), range = document.createRange(); let node2 = view.cursorWrapper.dom, img = node2.nodeName == "IMG"; if (img) range.setEnd(node2.parentNode, domIndex(node2) + 1); else range.setEnd(node2, 0); range.collapse(false); domSel.removeAllRanges(); domSel.addRange(range); if (!img && !view.state.selection.visible && ie && ie_version <= 11) { node2.disabled = true; node2.disabled = false; } } function syncNodeSelection(view, sel) { if (sel instanceof NodeSelection) { let desc = view.docView.descAt(sel.from); if (desc != view.lastSelectedViewDesc) { clearNodeSelection(view); if (desc) desc.selectNode(); view.lastSelectedViewDesc = desc; } } else { clearNodeSelection(view); } } function clearNodeSelection(view) { if (view.lastSelectedViewDesc) { if (view.lastSelectedViewDesc.parent) view.lastSelectedViewDesc.deselectNode(); view.lastSelectedViewDesc = void 0; } } function selectionBetween(view, $anchor, $head, bias) { return view.someProp("createSelectionBetween", (f3) => f3(view, $anchor, $head)) || TextSelection.between($anchor, $head, bias); } function hasFocusAndSelection(view) { if (view.editable && !view.hasFocus()) return false; return hasSelection(view); } function hasSelection(view) { let sel = view.domSelectionRange(); if (!sel.anchorNode) return false; try { return view.dom.contains(sel.anchorNode.nodeType == 3 ? sel.anchorNode.parentNode : sel.anchorNode) && (view.editable || view.dom.contains(sel.focusNode.nodeType == 3 ? sel.focusNode.parentNode : sel.focusNode)); } catch (_3) { return false; } } function anchorInRightPlace(view) { let anchorDOM = view.docView.domFromPos(view.state.selection.anchor, 0); let domSel = view.domSelectionRange(); return isEquivalentPosition(anchorDOM.node, anchorDOM.offset, domSel.anchorNode, domSel.anchorOffset); } function moveSelectionBlock(state, dir) { let { $anchor, $head } = state.selection; let $side = dir > 0 ? $anchor.max($head) : $anchor.min($head); let $start = !$side.parent.inlineContent ? $side : $side.depth ? state.doc.resolve(dir > 0 ? $side.after() : $side.before()) : null; return $start && Selection.findFrom($start, dir); } function apply(view, sel) { view.dispatch(view.state.tr.setSelection(sel).scrollIntoView()); return true; } function selectHorizontally(view, dir, mods) { let sel = view.state.selection; if (sel instanceof TextSelection) { if (mods.indexOf("s") > -1) { let { $head } = sel, node2 = $head.textOffset ? null : dir < 0 ? $head.nodeBefore : $head.nodeAfter; if (!node2 || node2.isText || !node2.isLeaf) return false; let $newHead = view.state.doc.resolve($head.pos + node2.nodeSize * (dir < 0 ? -1 : 1)); return apply(view, new TextSelection(sel.$anchor, $newHead)); } else if (!sel.empty) { return false; } else if (view.endOfTextblock(dir > 0 ? "forward" : "backward")) { let next = moveSelectionBlock(view.state, dir); if (next && next instanceof NodeSelection) return apply(view, next); return false; } else if (!(mac && mods.indexOf("m") > -1)) { let $head = sel.$head, node2 = $head.textOffset ? null : dir < 0 ? $head.nodeBefore : $head.nodeAfter, desc; if (!node2 || node2.isText) return false; let nodePos = dir < 0 ? $head.pos - node2.nodeSize : $head.pos; if (!(node2.isAtom || (desc = view.docView.descAt(nodePos)) && !desc.contentDOM)) return false; if (NodeSelection.isSelectable(node2)) { return apply(view, new NodeSelection(dir < 0 ? view.state.doc.resolve($head.pos - node2.nodeSize) : $head)); } else if (webkit) { return apply(view, new TextSelection(view.state.doc.resolve(dir < 0 ? nodePos : nodePos + node2.nodeSize))); } else { return false; } } } else if (sel instanceof NodeSelection && sel.node.isInline) { return apply(view, new TextSelection(dir > 0 ? sel.$to : sel.$from)); } else { let next = moveSelectionBlock(view.state, dir); if (next) return apply(view, next); return false; } } function nodeLen(node2) { return node2.nodeType == 3 ? node2.nodeValue.length : node2.childNodes.length; } function isIgnorable(dom, dir) { let desc = dom.pmViewDesc; return desc && desc.size == 0 && (dir < 0 || dom.nextSibling || dom.nodeName != "BR"); } function skipIgnoredNodes(view, dir) { return dir < 0 ? skipIgnoredNodesBefore(view) : skipIgnoredNodesAfter(view); } function skipIgnoredNodesBefore(view) { let sel = view.domSelectionRange(); let node2 = sel.focusNode, offset = sel.focusOffset; if (!node2) return; let moveNode, moveOffset, force = false; if (gecko && node2.nodeType == 1 && offset < nodeLen(node2) && isIgnorable(node2.childNodes[offset], -1)) force = true; for (; ; ) { if (offset > 0) { if (node2.nodeType != 1) { break; } else { let before = node2.childNodes[offset - 1]; if (isIgnorable(before, -1)) { moveNode = node2; moveOffset = --offset; } else if (before.nodeType == 3) { node2 = before; offset = node2.nodeValue.length; } else break; } } else if (isBlockNode(node2)) { break; } else { let prev = node2.previousSibling; while (prev && isIgnorable(prev, -1)) { moveNode = node2.parentNode; moveOffset = domIndex(prev); prev = prev.previousSibling; } if (!prev) { node2 = node2.parentNode; if (node2 == view.dom) break; offset = 0; } else { node2 = prev; offset = nodeLen(node2); } } } if (force) setSelFocus(view, node2, offset); else if (moveNode) setSelFocus(view, moveNode, moveOffset); } function skipIgnoredNodesAfter(view) { let sel = view.domSelectionRange(); let node2 = sel.focusNode, offset = sel.focusOffset; if (!node2) return; let len = nodeLen(node2); let moveNode, moveOffset; for (; ; ) { if (offset < len) { if (node2.nodeType != 1) break; let after = node2.childNodes[offset]; if (isIgnorable(after, 1)) { moveNode = node2; moveOffset = ++offset; } else break; } else if (isBlockNode(node2)) { break; } else { let next = node2.nextSibling; while (next && isIgnorable(next, 1)) { moveNode = next.parentNode; moveOffset = domIndex(next) + 1; next = next.nextSibling; } if (!next) { node2 = node2.parentNode; if (node2 == view.dom) break; offset = len = 0; } else { node2 = next; offset = 0; len = nodeLen(node2); } } } if (moveNode) setSelFocus(view, moveNode, moveOffset); } function isBlockNode(dom) { let desc = dom.pmViewDesc; return desc && desc.node && desc.node.isBlock; } function textNodeAfter(node2, offset) { while (node2 && offset == node2.childNodes.length && !hasBlockDesc(node2)) { offset = domIndex(node2) + 1; node2 = node2.parentNode; } while (node2 && offset < node2.childNodes.length) { let next = node2.childNodes[offset]; if (next.nodeType == 3) return next; if (next.nodeType == 1 && next.contentEditable == "false") break; node2 = next; offset = 0; } } function textNodeBefore(node2, offset) { while (node2 && !offset && !hasBlockDesc(node2)) { offset = domIndex(node2); node2 = node2.parentNode; } while (node2 && offset) { let next = node2.childNodes[offset - 1]; if (next.nodeType == 3) return next; if (next.nodeType == 1 && next.contentEditable == "false") break; node2 = next; offset = node2.childNodes.length; } } function setSelFocus(view, node2, offset) { if (node2.nodeType != 3) { let before, after; if (after = textNodeAfter(node2, offset)) { node2 = after; offset = 0; } else if (before = textNodeBefore(node2, offset)) { node2 = before; offset = before.nodeValue.length; } } let sel = view.domSelection(); if (selectionCollapsed(sel)) { let range = document.createRange(); range.setEnd(node2, offset); range.setStart(node2, offset); sel.removeAllRanges(); sel.addRange(range); } else if (sel.extend) { sel.extend(node2, offset); } view.domObserver.setCurSelection(); let { state } = view; setTimeout(() => { if (view.state == state) selectionToDOM(view); }, 50); } function findDirection(view, pos) { let $pos = view.state.doc.resolve(pos); if (!(chrome || windows) && $pos.parent.inlineContent) { let coords = view.coordsAtPos(pos); if (pos > $pos.start()) { let before = view.coordsAtPos(pos - 1); let mid = (before.top + before.bottom) / 2; if (mid > coords.top && mid < coords.bottom && Math.abs(before.left - coords.left) > 1) return before.left < coords.left ? "ltr" : "rtl"; } if (pos < $pos.end()) { let after = view.coordsAtPos(pos + 1); let mid = (after.top + after.bottom) / 2; if (mid > coords.top && mid < coords.bottom && Math.abs(after.left - coords.left) > 1) return after.left > coords.left ? "ltr" : "rtl"; } } let computed = getComputedStyle(view.dom).direction; return computed == "rtl" ? "rtl" : "ltr"; } function selectVertically(view, dir, mods) { let sel = view.state.selection; if (sel instanceof TextSelection && !sel.empty || mods.indexOf("s") > -1) return false; if (mac && mods.indexOf("m") > -1) return false; let { $from, $to } = sel; if (!$from.parent.inlineContent || view.endOfTextblock(dir < 0 ? "up" : "down")) { let next = moveSelectionBlock(view.state, dir); if (next && next instanceof NodeSelection) return apply(view, next); } if (!$from.parent.inlineContent) { let side = dir < 0 ? $from : $to; let beyond = sel instanceof AllSelection ? Selection.near(side, dir) : Selection.findFrom(side, dir); return beyond ? apply(view, beyond) : false; } return false; } function stopNativeHorizontalDelete(view, dir) { if (!(view.state.selection instanceof TextSelection)) return true; let { $head, $anchor, empty: empty3 } = view.state.selection; if (!$head.sameParent($anchor)) return true; if (!empty3) return false; if (view.endOfTextblock(dir > 0 ? "forward" : "backward")) return true; let nextNode = !$head.textOffset && (dir < 0 ? $head.nodeBefore : $head.nodeAfter); if (nextNode && !nextNode.isText) { let tr = view.state.tr; if (dir < 0) tr.delete($head.pos - nextNode.nodeSize, $head.pos); else tr.delete($head.pos, $head.pos + nextNode.nodeSize); view.dispatch(tr); return true; } return false; } function switchEditable(view, node2, state) { view.domObserver.stop(); node2.contentEditable = state; view.domObserver.start(); } function safariDownArrowBug(view) { if (!safari || view.state.selection.$head.parentOffset > 0) return false; let { focusNode, focusOffset } = view.domSelectionRange(); if (focusNode && focusNode.nodeType == 1 && focusOffset == 0 && focusNode.firstChild && focusNode.firstChild.contentEditable == "false") { let child = focusNode.firstChild; switchEditable(view, child, "true"); setTimeout(() => switchEditable(view, child, "false"), 20); } return false; } function getMods(event) { let result = ""; if (event.ctrlKey) result += "c"; if (event.metaKey) result += "m"; if (event.altKey) result += "a"; if (event.shiftKey) result += "s"; return result; } function captureKeyDown(view, event) { let code3 = event.keyCode, mods = getMods(event); if (code3 == 8 || mac && code3 == 72 && mods == "c") { return stopNativeHorizontalDelete(view, -1) || skipIgnoredNodes(view, -1); } else if (code3 == 46 && !event.shiftKey || mac && code3 == 68 && mods == "c") { return stopNativeHorizontalDelete(view, 1) || skipIgnoredNodes(view, 1); } else if (code3 == 13 || code3 == 27) { return true; } else if (code3 == 37 || mac && code3 == 66 && mods == "c") { let dir = code3 == 37 ? findDirection(view, view.state.selection.from) == "ltr" ? -1 : 1 : -1; return selectHorizontally(view, dir, mods) || skipIgnoredNodes(view, dir); } else if (code3 == 39 || mac && code3 == 70 && mods == "c") { let dir = code3 == 39 ? findDirection(view, view.state.selection.from) == "ltr" ? 1 : -1 : 1; return selectHorizontally(view, dir, mods) || skipIgnoredNodes(view, dir); } else if (code3 == 38 || mac && code3 == 80 && mods == "c") { return selectVertically(view, -1, mods) || skipIgnoredNodes(view, -1); } else if (code3 == 40 || mac && code3 == 78 && mods == "c") { return safariDownArrowBug(view) || selectVertically(view, 1, mods) || skipIgnoredNodes(view, 1); } else if (mods == (mac ? "m" : "c") && (code3 == 66 || code3 == 73 || code3 == 89 || code3 == 90)) { return true; } return false; } function serializeForClipboard(view, slice) { view.someProp("transformCopied", (f3) => { slice = f3(slice, view); }); let context = [], { content: content3, openStart, openEnd } = slice; while (openStart > 1 && openEnd > 1 && content3.childCount == 1 && content3.firstChild.childCount == 1) { openStart--; openEnd--; let node2 = content3.firstChild; context.push(node2.type.name, node2.attrs != node2.type.defaultAttrs ? node2.attrs : null); content3 = node2.content; } let serializer = view.someProp("clipboardSerializer") || DOMSerializer.fromSchema(view.state.schema); let doc4 = detachedDoc(), wrap3 = doc4.createElement("div"); wrap3.appendChild(serializer.serializeFragment(content3, { document: doc4 })); let firstChild = wrap3.firstChild, needsWrap, wrappers = 0; while (firstChild && firstChild.nodeType == 1 && (needsWrap = wrapMap[firstChild.nodeName.toLowerCase()])) { for (let i2 = needsWrap.length - 1; i2 >= 0; i2--) { let wrapper = doc4.createElement(needsWrap[i2]); while (wrap3.firstChild) wrapper.appendChild(wrap3.firstChild); wrap3.appendChild(wrapper); wrappers++; } firstChild = wrap3.firstChild; } if (firstChild && firstChild.nodeType == 1) firstChild.setAttribute("data-pm-slice", `${openStart} ${openEnd}${wrappers ? ` -${wrappers}` : ""} ${JSON.stringify(context)}`); let text5 = view.someProp("clipboardTextSerializer", (f3) => f3(slice, view)) || slice.content.textBetween(0, slice.content.size, "\n\n"); return { dom: wrap3, text: text5, slice }; } function parseFromClipboard(view, text5, html3, plainText, $context) { let inCode = $context.parent.type.spec.code; let dom, slice; if (!html3 && !text5) return null; let asText = text5 && (plainText || inCode || !html3); if (asText) { view.someProp("transformPastedText", (f3) => { text5 = f3(text5, inCode || plainText, view); }); if (inCode) return text5 ? new Slice(Fragment.from(view.state.schema.text(text5.replace(/\r\n?/g, "\n"))), 0, 0) : Slice.empty; let parsed = view.someProp("clipboardTextParser", (f3) => f3(text5, $context, plainText, view)); if (parsed) { slice = parsed; } else { let marks = $context.marks(); let { schema } = view.state, serializer = DOMSerializer.fromSchema(schema); dom = document.createElement("div"); text5.split(/(?:\r\n?|\n)+/).forEach((block) => { let p4 = dom.appendChild(document.createElement("p")); if (block) p4.appendChild(serializer.serializeNode(schema.text(block, marks))); }); } } else { view.someProp("transformPastedHTML", (f3) => { html3 = f3(html3, view); }); dom = readHTML(html3); if (webkit) restoreReplacedSpaces(dom); } let contextNode = dom && dom.querySelector("[data-pm-slice]"); let sliceData = contextNode && /^(\d+) (\d+)(?: -(\d+))? (.*)/.exec(contextNode.getAttribute("data-pm-slice") || ""); if (sliceData && sliceData[3]) for (let i2 = +sliceData[3]; i2 > 0; i2--) { let child = dom.firstChild; while (child && child.nodeType != 1) child = child.nextSibling; if (!child) break; dom = child; } if (!slice) { let parser = view.someProp("clipboardParser") || view.someProp("domParser") || DOMParser.fromSchema(view.state.schema); slice = parser.parseSlice(dom, { preserveWhitespace: !!(asText || sliceData), context: $context, ruleFromNode(dom2) { if (dom2.nodeName == "BR" && !dom2.nextSibling && dom2.parentNode && !inlineParents.test(dom2.parentNode.nodeName)) return { ignore: true }; return null; } }); } if (sliceData) { slice = addContext(closeSlice(slice, +sliceData[1], +sliceData[2]), sliceData[4]); } else { slice = Slice.maxOpen(normalizeSiblings(slice.content, $context), true); if (slice.openStart || slice.openEnd) { let openStart = 0, openEnd = 0; for (let node2 = slice.content.firstChild; openStart < slice.openStart && !node2.type.spec.isolating; openStart++, node2 = node2.firstChild) { } for (let node2 = slice.content.lastChild; openEnd < slice.openEnd && !node2.type.spec.isolating; openEnd++, node2 = node2.lastChild) { } slice = closeSlice(slice, openStart, openEnd); } } view.someProp("transformPasted", (f3) => { slice = f3(slice, view); }); return slice; } var inlineParents = /^(a|abbr|acronym|b|cite|code|del|em|i|ins|kbd|label|output|q|ruby|s|samp|span|strong|sub|sup|time|u|tt|var)$/i; function normalizeSiblings(fragment, $context) { if (fragment.childCount < 2) return fragment; for (let d6 = $context.depth; d6 >= 0; d6--) { let parent = $context.node(d6); let match = parent.contentMatchAt($context.index(d6)); let lastWrap, result = []; fragment.forEach((node2) => { if (!result) return; let wrap3 = match.findWrapping(node2.type), inLast; if (!wrap3) return result = null; if (inLast = result.length && lastWrap.length && addToSibling(wrap3, lastWrap, node2, result[result.length - 1], 0)) { result[result.length - 1] = inLast; } else { if (result.length) result[result.length - 1] = closeRight(result[result.length - 1], lastWrap.length); let wrapped = withWrappers(node2, wrap3); result.push(wrapped); match = match.matchType(wrapped.type); lastWrap = wrap3; } }); if (result) return Fragment.from(result); } return fragment; } function withWrappers(node2, wrap3, from = 0) { for (let i2 = wrap3.length - 1; i2 >= from; i2--) node2 = wrap3[i2].create(null, Fragment.from(node2)); return node2; } function addToSibling(wrap3, lastWrap, node2, sibling, depth) { if (depth < wrap3.length && depth < lastWrap.length && wrap3[depth] == lastWrap[depth]) { let inner = addToSibling(wrap3, lastWrap, node2, sibling.lastChild, depth + 1); if (inner) return sibling.copy(sibling.content.replaceChild(sibling.childCount - 1, inner)); let match = sibling.contentMatchAt(sibling.childCount); if (match.matchType(depth == wrap3.length - 1 ? node2.type : wrap3[depth + 1])) return sibling.copy(sibling.content.append(Fragment.from(withWrappers(node2, wrap3, depth + 1)))); } } function closeRight(node2, depth) { if (depth == 0) return node2; let fragment = node2.content.replaceChild(node2.childCount - 1, closeRight(node2.lastChild, depth - 1)); let fill = node2.contentMatchAt(node2.childCount).fillBefore(Fragment.empty, true); return node2.copy(fragment.append(fill)); } function closeRange(fragment, side, from, to, depth, openEnd) { let node2 = side < 0 ? fragment.firstChild : fragment.lastChild, inner = node2.content; if (fragment.childCount > 1) openEnd = 0; if (depth < to - 1) inner = closeRange(inner, side, from, to, depth + 1, openEnd); if (depth >= from) inner = side < 0 ? node2.contentMatchAt(0).fillBefore(inner, openEnd <= depth).append(inner) : inner.append(node2.contentMatchAt(node2.childCount).fillBefore(Fragment.empty, true)); return fragment.replaceChild(side < 0 ? 0 : fragment.childCount - 1, node2.copy(inner)); } function closeSlice(slice, openStart, openEnd) { if (openStart < slice.openStart) slice = new Slice(closeRange(slice.content, -1, openStart, slice.openStart, 0, slice.openEnd), openStart, slice.openEnd); if (openEnd < slice.openEnd) slice = new Slice(closeRange(slice.content, 1, openEnd, slice.openEnd, 0, 0), slice.openStart, openEnd); return slice; } var wrapMap = { thead: ["table"], tbody: ["table"], tfoot: ["table"], caption: ["table"], colgroup: ["table"], col: ["table", "colgroup"], tr: ["table", "tbody"], td: ["table", "tbody", "tr"], th: ["table", "tbody", "tr"] }; var _detachedDoc = null; function detachedDoc() { return _detachedDoc || (_detachedDoc = document.implementation.createHTMLDocument("title")); } function readHTML(html3) { let metas = /^(\s*]*>)*/.exec(html3); if (metas) html3 = html3.slice(metas[0].length); let elt = detachedDoc().createElement("div"); let firstTag = /<([a-z][^>\s]+)/i.exec(html3), wrap3; if (wrap3 = firstTag && wrapMap[firstTag[1].toLowerCase()]) html3 = wrap3.map((n4) => "<" + n4 + ">").join("") + html3 + wrap3.map((n4) => "").reverse().join(""); elt.innerHTML = html3; if (wrap3) for (let i2 = 0; i2 < wrap3.length; i2++) elt = elt.querySelector(wrap3[i2]) || elt; return elt; } function restoreReplacedSpaces(dom) { let nodes = dom.querySelectorAll(chrome ? "span:not([class]):not([style])" : "span.Apple-converted-space"); for (let i2 = 0; i2 < nodes.length; i2++) { let node2 = nodes[i2]; if (node2.childNodes.length == 1 && node2.textContent == "\xA0" && node2.parentNode) node2.parentNode.replaceChild(dom.ownerDocument.createTextNode(" "), node2); } } function addContext(slice, context) { if (!slice.size) return slice; let schema = slice.content.firstChild.type.schema, array; try { array = JSON.parse(context); } catch (e2) { return slice; } let { content: content3, openStart, openEnd } = slice; for (let i2 = array.length - 2; i2 >= 0; i2 -= 2) { let type = schema.nodes[array[i2]]; if (!type || type.hasRequiredAttrs()) break; content3 = Fragment.from(type.create(array[i2 + 1], content3)); openStart++; openEnd++; } return new Slice(content3, openStart, openEnd); } var handlers = {}; var editHandlers = {}; var passiveHandlers = { touchstart: true, touchmove: true }; var InputState = class { constructor() { this.shiftKey = false; this.mouseDown = null; this.lastKeyCode = null; this.lastKeyCodeTime = 0; this.lastClick = { time: 0, x: 0, y: 0, type: "" }; this.lastSelectionOrigin = null; this.lastSelectionTime = 0; this.lastIOSEnter = 0; this.lastIOSEnterFallbackTimeout = -1; this.lastFocus = 0; this.lastTouch = 0; this.lastAndroidDelete = 0; this.composing = false; this.compositionNode = null; this.composingTimeout = -1; this.compositionNodes = []; this.compositionEndedAt = -2e8; this.compositionID = 1; this.compositionPendingChanges = 0; this.domChangeCount = 0; this.eventHandlers = /* @__PURE__ */ Object.create(null); this.hideSelectionGuard = null; } }; function initInput(view) { for (let event in handlers) { let handler = handlers[event]; view.dom.addEventListener(event, view.input.eventHandlers[event] = (event2) => { if (eventBelongsToView(view, event2) && !runCustomHandler(view, event2) && (view.editable || !(event2.type in editHandlers))) handler(view, event2); }, passiveHandlers[event] ? { passive: true } : void 0); } if (safari) view.dom.addEventListener("input", () => null); ensureListeners(view); } function setSelectionOrigin(view, origin) { view.input.lastSelectionOrigin = origin; view.input.lastSelectionTime = Date.now(); } function destroyInput(view) { view.domObserver.stop(); for (let type in view.input.eventHandlers) view.dom.removeEventListener(type, view.input.eventHandlers[type]); clearTimeout(view.input.composingTimeout); clearTimeout(view.input.lastIOSEnterFallbackTimeout); } function ensureListeners(view) { view.someProp("handleDOMEvents", (currentHandlers) => { for (let type in currentHandlers) if (!view.input.eventHandlers[type]) view.dom.addEventListener(type, view.input.eventHandlers[type] = (event) => runCustomHandler(view, event)); }); } function runCustomHandler(view, event) { return view.someProp("handleDOMEvents", (handlers2) => { let handler = handlers2[event.type]; return handler ? handler(view, event) || event.defaultPrevented : false; }); } function eventBelongsToView(view, event) { if (!event.bubbles) return true; if (event.defaultPrevented) return false; for (let node2 = event.target; node2 != view.dom; node2 = node2.parentNode) if (!node2 || node2.nodeType == 11 || node2.pmViewDesc && node2.pmViewDesc.stopEvent(event)) return false; return true; } function dispatchEvent2(view, event) { if (!runCustomHandler(view, event) && handlers[event.type] && (view.editable || !(event.type in editHandlers))) handlers[event.type](view, event); } editHandlers.keydown = (view, _event) => { let event = _event; view.input.shiftKey = event.keyCode == 16 || event.shiftKey; if (inOrNearComposition(view, event)) return; view.input.lastKeyCode = event.keyCode; view.input.lastKeyCodeTime = Date.now(); if (android && chrome && event.keyCode == 13) return; if (event.keyCode != 229) view.domObserver.forceFlush(); if (ios && event.keyCode == 13 && !event.ctrlKey && !event.altKey && !event.metaKey) { let now = Date.now(); view.input.lastIOSEnter = now; view.input.lastIOSEnterFallbackTimeout = setTimeout(() => { if (view.input.lastIOSEnter == now) { view.someProp("handleKeyDown", (f3) => f3(view, keyEvent(13, "Enter"))); view.input.lastIOSEnter = 0; } }, 200); } else if (view.someProp("handleKeyDown", (f3) => f3(view, event)) || captureKeyDown(view, event)) { event.preventDefault(); } else { setSelectionOrigin(view, "key"); } }; editHandlers.keyup = (view, event) => { if (event.keyCode == 16) view.input.shiftKey = false; }; editHandlers.keypress = (view, _event) => { let event = _event; if (inOrNearComposition(view, event) || !event.charCode || event.ctrlKey && !event.altKey || mac && event.metaKey) return; if (view.someProp("handleKeyPress", (f3) => f3(view, event))) { event.preventDefault(); return; } let sel = view.state.selection; if (!(sel instanceof TextSelection) || !sel.$from.sameParent(sel.$to)) { let text5 = String.fromCharCode(event.charCode); if (!/[\r\n]/.test(text5) && !view.someProp("handleTextInput", (f3) => f3(view, sel.$from.pos, sel.$to.pos, text5))) view.dispatch(view.state.tr.insertText(text5).scrollIntoView()); event.preventDefault(); } }; function eventCoords(event) { return { left: event.clientX, top: event.clientY }; } function isNear(event, click) { let dx = click.x - event.clientX, dy = click.y - event.clientY; return dx * dx + dy * dy < 100; } function runHandlerOnContext(view, propName, pos, inside, event) { if (inside == -1) return false; let $pos = view.state.doc.resolve(inside); for (let i2 = $pos.depth + 1; i2 > 0; i2--) { if (view.someProp(propName, (f3) => i2 > $pos.depth ? f3(view, pos, $pos.nodeAfter, $pos.before(i2), event, true) : f3(view, pos, $pos.node(i2), $pos.before(i2), event, false))) return true; } return false; } function updateSelection(view, selection, origin) { if (!view.focused) view.focus(); let tr = view.state.tr.setSelection(selection); if (origin == "pointer") tr.setMeta("pointer", true); view.dispatch(tr); } function selectClickedLeaf(view, inside) { if (inside == -1) return false; let $pos = view.state.doc.resolve(inside), node2 = $pos.nodeAfter; if (node2 && node2.isAtom && NodeSelection.isSelectable(node2)) { updateSelection(view, new NodeSelection($pos), "pointer"); return true; } return false; } function selectClickedNode(view, inside) { if (inside == -1) return false; let sel = view.state.selection, selectedNode, selectAt; if (sel instanceof NodeSelection) selectedNode = sel.node; let $pos = view.state.doc.resolve(inside); for (let i2 = $pos.depth + 1; i2 > 0; i2--) { let node2 = i2 > $pos.depth ? $pos.nodeAfter : $pos.node(i2); if (NodeSelection.isSelectable(node2)) { if (selectedNode && sel.$from.depth > 0 && i2 >= sel.$from.depth && $pos.before(sel.$from.depth + 1) == sel.$from.pos) selectAt = $pos.before(sel.$from.depth); else selectAt = $pos.before(i2); break; } } if (selectAt != null) { updateSelection(view, NodeSelection.create(view.state.doc, selectAt), "pointer"); return true; } else { return false; } } function handleSingleClick(view, pos, inside, event, selectNode) { return runHandlerOnContext(view, "handleClickOn", pos, inside, event) || view.someProp("handleClick", (f3) => f3(view, pos, event)) || (selectNode ? selectClickedNode(view, inside) : selectClickedLeaf(view, inside)); } function handleDoubleClick(view, pos, inside, event) { return runHandlerOnContext(view, "handleDoubleClickOn", pos, inside, event) || view.someProp("handleDoubleClick", (f3) => f3(view, pos, event)); } function handleTripleClick(view, pos, inside, event) { return runHandlerOnContext(view, "handleTripleClickOn", pos, inside, event) || view.someProp("handleTripleClick", (f3) => f3(view, pos, event)) || defaultTripleClick(view, inside, event); } function defaultTripleClick(view, inside, event) { if (event.button != 0) return false; let doc4 = view.state.doc; if (inside == -1) { if (doc4.inlineContent) { updateSelection(view, TextSelection.create(doc4, 0, doc4.content.size), "pointer"); return true; } return false; } let $pos = doc4.resolve(inside); for (let i2 = $pos.depth + 1; i2 > 0; i2--) { let node2 = i2 > $pos.depth ? $pos.nodeAfter : $pos.node(i2); let nodePos = $pos.before(i2); if (node2.inlineContent) updateSelection(view, TextSelection.create(doc4, nodePos + 1, nodePos + 1 + node2.content.size), "pointer"); else if (NodeSelection.isSelectable(node2)) updateSelection(view, NodeSelection.create(doc4, nodePos), "pointer"); else continue; return true; } } function forceDOMFlush(view) { return endComposition(view); } var selectNodeModifier = mac ? "metaKey" : "ctrlKey"; handlers.mousedown = (view, _event) => { let event = _event; view.input.shiftKey = event.shiftKey; let flushed = forceDOMFlush(view); let now = Date.now(), type = "singleClick"; if (now - view.input.lastClick.time < 500 && isNear(event, view.input.lastClick) && !event[selectNodeModifier]) { if (view.input.lastClick.type == "singleClick") type = "doubleClick"; else if (view.input.lastClick.type == "doubleClick") type = "tripleClick"; } view.input.lastClick = { time: now, x: event.clientX, y: event.clientY, type }; let pos = view.posAtCoords(eventCoords(event)); if (!pos) return; if (type == "singleClick") { if (view.input.mouseDown) view.input.mouseDown.done(); view.input.mouseDown = new MouseDown(view, pos, event, !!flushed); } else if ((type == "doubleClick" ? handleDoubleClick : handleTripleClick)(view, pos.pos, pos.inside, event)) { event.preventDefault(); } else { setSelectionOrigin(view, "pointer"); } }; var MouseDown = class { constructor(view, pos, event, flushed) { this.view = view; this.pos = pos; this.event = event; this.flushed = flushed; this.delayedSelectionSync = false; this.mightDrag = null; this.startDoc = view.state.doc; this.selectNode = !!event[selectNodeModifier]; this.allowDefault = event.shiftKey; let targetNode, targetPos; if (pos.inside > -1) { targetNode = view.state.doc.nodeAt(pos.inside); targetPos = pos.inside; } else { let $pos = view.state.doc.resolve(pos.pos); targetNode = $pos.parent; targetPos = $pos.depth ? $pos.before() : 0; } const target = flushed ? null : event.target; const targetDesc = target ? view.docView.nearestDesc(target, true) : null; this.target = targetDesc ? targetDesc.dom : null; let { selection } = view.state; if (event.button == 0 && targetNode.type.spec.draggable && targetNode.type.spec.selectable !== false || selection instanceof NodeSelection && selection.from <= targetPos && selection.to > targetPos) this.mightDrag = { node: targetNode, pos: targetPos, addAttr: !!(this.target && !this.target.draggable), setUneditable: !!(this.target && gecko && !this.target.hasAttribute("contentEditable")) }; if (this.target && this.mightDrag && (this.mightDrag.addAttr || this.mightDrag.setUneditable)) { this.view.domObserver.stop(); if (this.mightDrag.addAttr) this.target.draggable = true; if (this.mightDrag.setUneditable) setTimeout(() => { if (this.view.input.mouseDown == this) this.target.setAttribute("contentEditable", "false"); }, 20); this.view.domObserver.start(); } view.root.addEventListener("mouseup", this.up = this.up.bind(this)); view.root.addEventListener("mousemove", this.move = this.move.bind(this)); setSelectionOrigin(view, "pointer"); } done() { this.view.root.removeEventListener("mouseup", this.up); this.view.root.removeEventListener("mousemove", this.move); if (this.mightDrag && this.target) { this.view.domObserver.stop(); if (this.mightDrag.addAttr) this.target.removeAttribute("draggable"); if (this.mightDrag.setUneditable) this.target.removeAttribute("contentEditable"); this.view.domObserver.start(); } if (this.delayedSelectionSync) setTimeout(() => selectionToDOM(this.view)); this.view.input.mouseDown = null; } up(event) { this.done(); if (!this.view.dom.contains(event.target)) return; let pos = this.pos; if (this.view.state.doc != this.startDoc) pos = this.view.posAtCoords(eventCoords(event)); this.updateAllowDefault(event); if (this.allowDefault || !pos) { setSelectionOrigin(this.view, "pointer"); } else if (handleSingleClick(this.view, pos.pos, pos.inside, event, this.selectNode)) { event.preventDefault(); } else if (event.button == 0 && (this.flushed || // Safari ignores clicks on draggable elements safari && this.mightDrag && !this.mightDrag.node.isAtom || // Chrome will sometimes treat a node selection as a // cursor, but still report that the node is selected // when asked through getSelection. You'll then get a // situation where clicking at the point where that // (hidden) cursor is doesn't change the selection, and // thus doesn't get a reaction from ProseMirror. This // works around that. chrome && !this.view.state.selection.visible && Math.min(Math.abs(pos.pos - this.view.state.selection.from), Math.abs(pos.pos - this.view.state.selection.to)) <= 2)) { updateSelection(this.view, Selection.near(this.view.state.doc.resolve(pos.pos)), "pointer"); event.preventDefault(); } else { setSelectionOrigin(this.view, "pointer"); } } move(event) { this.updateAllowDefault(event); setSelectionOrigin(this.view, "pointer"); if (event.buttons == 0) this.done(); } updateAllowDefault(event) { if (!this.allowDefault && (Math.abs(this.event.x - event.clientX) > 4 || Math.abs(this.event.y - event.clientY) > 4)) this.allowDefault = true; } }; handlers.touchstart = (view) => { view.input.lastTouch = Date.now(); forceDOMFlush(view); setSelectionOrigin(view, "pointer"); }; handlers.touchmove = (view) => { view.input.lastTouch = Date.now(); setSelectionOrigin(view, "pointer"); }; handlers.contextmenu = (view) => forceDOMFlush(view); function inOrNearComposition(view, event) { if (view.composing) return true; if (safari && Math.abs(event.timeStamp - view.input.compositionEndedAt) < 500) { view.input.compositionEndedAt = -2e8; return true; } return false; } var timeoutComposition = android ? 5e3 : -1; editHandlers.compositionstart = editHandlers.compositionupdate = (view) => { if (!view.composing) { view.domObserver.flush(); let { state } = view, $pos = state.selection.$from; if (state.selection.empty && (state.storedMarks || !$pos.textOffset && $pos.parentOffset && $pos.nodeBefore.marks.some((m3) => m3.type.spec.inclusive === false))) { view.markCursor = view.state.storedMarks || $pos.marks(); endComposition(view, true); view.markCursor = null; } else { endComposition(view); if (gecko && state.selection.empty && $pos.parentOffset && !$pos.textOffset && $pos.nodeBefore.marks.length) { let sel = view.domSelectionRange(); for (let node2 = sel.focusNode, offset = sel.focusOffset; node2 && node2.nodeType == 1 && offset != 0; ) { let before = offset < 0 ? node2.lastChild : node2.childNodes[offset - 1]; if (!before) break; if (before.nodeType == 3) { view.domSelection().collapse(before, before.nodeValue.length); break; } else { node2 = before; offset = -1; } } } } view.input.composing = true; } scheduleComposeEnd(view, timeoutComposition); }; editHandlers.compositionend = (view, event) => { if (view.composing) { view.input.composing = false; view.input.compositionEndedAt = event.timeStamp; view.input.compositionPendingChanges = view.domObserver.pendingRecords().length ? view.input.compositionID : 0; view.input.compositionNode = null; if (view.input.compositionPendingChanges) Promise.resolve().then(() => view.domObserver.flush()); view.input.compositionID++; scheduleComposeEnd(view, 20); } }; function scheduleComposeEnd(view, delay) { clearTimeout(view.input.composingTimeout); if (delay > -1) view.input.composingTimeout = setTimeout(() => endComposition(view), delay); } function clearComposition(view) { if (view.composing) { view.input.composing = false; view.input.compositionEndedAt = timestampFromCustomEvent(); } while (view.input.compositionNodes.length > 0) view.input.compositionNodes.pop().markParentsDirty(); } function findCompositionNode(view) { let sel = view.domSelectionRange(); if (!sel.focusNode) return null; let textBefore = textNodeBefore$1(sel.focusNode, sel.focusOffset); let textAfter = textNodeAfter$1(sel.focusNode, sel.focusOffset); if (textBefore && textAfter && textBefore != textAfter) { let descAfter = textAfter.pmViewDesc; if (!descAfter || !descAfter.isText(textAfter.nodeValue)) { return textAfter; } else if (view.input.compositionNode == textAfter) { let descBefore = textBefore.pmViewDesc; if (!(!descBefore || !descBefore.isText(textBefore.nodeValue))) return textAfter; } } return textBefore || textAfter; } function timestampFromCustomEvent() { let event = document.createEvent("Event"); event.initEvent("event", true, true); return event.timeStamp; } function endComposition(view, forceUpdate = false) { if (android && view.domObserver.flushingSoon >= 0) return; view.domObserver.forceFlush(); clearComposition(view); if (forceUpdate || view.docView && view.docView.dirty) { let sel = selectionFromDOM(view); if (sel && !sel.eq(view.state.selection)) view.dispatch(view.state.tr.setSelection(sel)); else view.updateState(view.state); return true; } return false; } function captureCopy(view, dom) { if (!view.dom.parentNode) return; let wrap3 = view.dom.parentNode.appendChild(document.createElement("div")); wrap3.appendChild(dom); wrap3.style.cssText = "position: fixed; left: -10000px; top: 10px"; let sel = getSelection(), range = document.createRange(); range.selectNodeContents(dom); view.dom.blur(); sel.removeAllRanges(); sel.addRange(range); setTimeout(() => { if (wrap3.parentNode) wrap3.parentNode.removeChild(wrap3); view.focus(); }, 50); } var brokenClipboardAPI = ie && ie_version < 15 || ios && webkit_version < 604; handlers.copy = editHandlers.cut = (view, _event) => { let event = _event; let sel = view.state.selection, cut = event.type == "cut"; if (sel.empty) return; let data = brokenClipboardAPI ? null : event.clipboardData; let slice = sel.content(), { dom, text: text5 } = serializeForClipboard(view, slice); if (data) { event.preventDefault(); data.clearData(); data.setData("text/html", dom.innerHTML); data.setData("text/plain", text5); } else { captureCopy(view, dom); } if (cut) view.dispatch(view.state.tr.deleteSelection().scrollIntoView().setMeta("uiEvent", "cut")); }; function sliceSingleNode(slice) { return slice.openStart == 0 && slice.openEnd == 0 && slice.content.childCount == 1 ? slice.content.firstChild : null; } function capturePaste(view, event) { if (!view.dom.parentNode) return; let plainText = view.input.shiftKey || view.state.selection.$from.parent.type.spec.code; let target = view.dom.parentNode.appendChild(document.createElement(plainText ? "textarea" : "div")); if (!plainText) target.contentEditable = "true"; target.style.cssText = "position: fixed; left: -10000px; top: 10px"; target.focus(); let plain = view.input.shiftKey && view.input.lastKeyCode != 45; setTimeout(() => { view.focus(); if (target.parentNode) target.parentNode.removeChild(target); if (plainText) doPaste(view, target.value, null, plain, event); else doPaste(view, target.textContent, target.innerHTML, plain, event); }, 50); } function doPaste(view, text5, html3, preferPlain, event) { let slice = parseFromClipboard(view, text5, html3, preferPlain, view.state.selection.$from); if (view.someProp("handlePaste", (f3) => f3(view, event, slice || Slice.empty))) return true; if (!slice) return false; let singleNode = sliceSingleNode(slice); let tr = singleNode ? view.state.tr.replaceSelectionWith(singleNode, preferPlain) : view.state.tr.replaceSelection(slice); view.dispatch(tr.scrollIntoView().setMeta("paste", true).setMeta("uiEvent", "paste")); return true; } function getText(clipboardData) { let text5 = clipboardData.getData("text/plain") || clipboardData.getData("Text"); if (text5) return text5; let uris = clipboardData.getData("text/uri-list"); return uris ? uris.replace(/\r?\n/g, " ") : ""; } editHandlers.paste = (view, _event) => { let event = _event; if (view.composing && !android) return; let data = brokenClipboardAPI ? null : event.clipboardData; let plain = view.input.shiftKey && view.input.lastKeyCode != 45; if (data && doPaste(view, getText(data), data.getData("text/html"), plain, event)) event.preventDefault(); else capturePaste(view, event); }; var Dragging = class { constructor(slice, move, node2) { this.slice = slice; this.move = move; this.node = node2; } }; var dragCopyModifier = mac ? "altKey" : "ctrlKey"; handlers.dragstart = (view, _event) => { let event = _event; let mouseDown = view.input.mouseDown; if (mouseDown) mouseDown.done(); if (!event.dataTransfer) return; let sel = view.state.selection; let pos = sel.empty ? null : view.posAtCoords(eventCoords(event)); let node2; if (pos && pos.pos >= sel.from && pos.pos <= (sel instanceof NodeSelection ? sel.to - 1 : sel.to)) ; else if (mouseDown && mouseDown.mightDrag) { node2 = NodeSelection.create(view.state.doc, mouseDown.mightDrag.pos); } else if (event.target && event.target.nodeType == 1) { let desc = view.docView.nearestDesc(event.target, true); if (desc && desc.node.type.spec.draggable && desc != view.docView) node2 = NodeSelection.create(view.state.doc, desc.posBefore); } let draggedSlice = (node2 || view.state.selection).content(); let { dom, text: text5, slice } = serializeForClipboard(view, draggedSlice); event.dataTransfer.clearData(); event.dataTransfer.setData(brokenClipboardAPI ? "Text" : "text/html", dom.innerHTML); event.dataTransfer.effectAllowed = "copyMove"; if (!brokenClipboardAPI) event.dataTransfer.setData("text/plain", text5); view.dragging = new Dragging(slice, !event[dragCopyModifier], node2); }; handlers.dragend = (view) => { let dragging = view.dragging; window.setTimeout(() => { if (view.dragging == dragging) view.dragging = null; }, 50); }; editHandlers.dragover = editHandlers.dragenter = (_3, e2) => e2.preventDefault(); editHandlers.drop = (view, _event) => { let event = _event; let dragging = view.dragging; view.dragging = null; if (!event.dataTransfer) return; let eventPos = view.posAtCoords(eventCoords(event)); if (!eventPos) return; let $mouse = view.state.doc.resolve(eventPos.pos); let slice = dragging && dragging.slice; if (slice) { view.someProp("transformPasted", (f3) => { slice = f3(slice, view); }); } else { slice = parseFromClipboard(view, getText(event.dataTransfer), brokenClipboardAPI ? null : event.dataTransfer.getData("text/html"), false, $mouse); } let move = !!(dragging && !event[dragCopyModifier]); if (view.someProp("handleDrop", (f3) => f3(view, event, slice || Slice.empty, move))) { event.preventDefault(); return; } if (!slice) return; event.preventDefault(); let insertPos = slice ? dropPoint(view.state.doc, $mouse.pos, slice) : $mouse.pos; if (insertPos == null) insertPos = $mouse.pos; let tr = view.state.tr; if (move) { let { node: node2 } = dragging; if (node2) node2.replace(tr); else tr.deleteSelection(); } let pos = tr.mapping.map(insertPos); let isNode = slice.openStart == 0 && slice.openEnd == 0 && slice.content.childCount == 1; let beforeInsert = tr.doc; if (isNode) tr.replaceRangeWith(pos, pos, slice.content.firstChild); else tr.replaceRange(pos, pos, slice); if (tr.doc.eq(beforeInsert)) return; let $pos = tr.doc.resolve(pos); if (isNode && NodeSelection.isSelectable(slice.content.firstChild) && $pos.nodeAfter && $pos.nodeAfter.sameMarkup(slice.content.firstChild)) { tr.setSelection(new NodeSelection($pos)); } else { let end = tr.mapping.map(insertPos); tr.mapping.maps[tr.mapping.maps.length - 1].forEach((_from, _to, _newFrom, newTo) => end = newTo); tr.setSelection(selectionBetween(view, $pos, tr.doc.resolve(end))); } view.focus(); view.dispatch(tr.setMeta("uiEvent", "drop")); }; handlers.focus = (view) => { view.input.lastFocus = Date.now(); if (!view.focused) { view.domObserver.stop(); view.dom.classList.add("ProseMirror-focused"); view.domObserver.start(); view.focused = true; setTimeout(() => { if (view.docView && view.hasFocus() && !view.domObserver.currentSelection.eq(view.domSelectionRange())) selectionToDOM(view); }, 20); } }; handlers.blur = (view, _event) => { let event = _event; if (view.focused) { view.domObserver.stop(); view.dom.classList.remove("ProseMirror-focused"); view.domObserver.start(); if (event.relatedTarget && view.dom.contains(event.relatedTarget)) view.domObserver.currentSelection.clear(); view.focused = false; } }; handlers.beforeinput = (view, _event) => { let event = _event; if (chrome && android && event.inputType == "deleteContentBackward") { view.domObserver.flushSoon(); let { domChangeCount } = view.input; setTimeout(() => { if (view.input.domChangeCount != domChangeCount) return; view.dom.blur(); view.focus(); if (view.someProp("handleKeyDown", (f3) => f3(view, keyEvent(8, "Backspace")))) return; let { $cursor } = view.state.selection; if ($cursor && $cursor.pos > 0) view.dispatch(view.state.tr.delete($cursor.pos - 1, $cursor.pos).scrollIntoView()); }, 50); } }; for (let prop in editHandlers) handlers[prop] = editHandlers[prop]; function compareObjs(a2, b4) { if (a2 == b4) return true; for (let p4 in a2) if (a2[p4] !== b4[p4]) return false; for (let p4 in b4) if (!(p4 in a2)) return false; return true; } var WidgetType = class _WidgetType { constructor(toDOM, spec) { this.toDOM = toDOM; this.spec = spec || noSpec; this.side = this.spec.side || 0; } map(mapping, span, offset, oldOffset) { let { pos, deleted } = mapping.mapResult(span.from + oldOffset, this.side < 0 ? -1 : 1); return deleted ? null : new Decoration(pos - offset, pos - offset, this); } valid() { return true; } eq(other) { return this == other || other instanceof _WidgetType && (this.spec.key && this.spec.key == other.spec.key || this.toDOM == other.toDOM && compareObjs(this.spec, other.spec)); } destroy(node2) { if (this.spec.destroy) this.spec.destroy(node2); } }; var InlineType = class _InlineType { constructor(attrs, spec) { this.attrs = attrs; this.spec = spec || noSpec; } map(mapping, span, offset, oldOffset) { let from = mapping.map(span.from + oldOffset, this.spec.inclusiveStart ? -1 : 1) - offset; let to = mapping.map(span.to + oldOffset, this.spec.inclusiveEnd ? 1 : -1) - offset; return from >= to ? null : new Decoration(from, to, this); } valid(_3, span) { return span.from < span.to; } eq(other) { return this == other || other instanceof _InlineType && compareObjs(this.attrs, other.attrs) && compareObjs(this.spec, other.spec); } static is(span) { return span.type instanceof _InlineType; } destroy() { } }; var NodeType2 = class _NodeType { constructor(attrs, spec) { this.attrs = attrs; this.spec = spec || noSpec; } map(mapping, span, offset, oldOffset) { let from = mapping.mapResult(span.from + oldOffset, 1); if (from.deleted) return null; let to = mapping.mapResult(span.to + oldOffset, -1); if (to.deleted || to.pos <= from.pos) return null; return new Decoration(from.pos - offset, to.pos - offset, this); } valid(node2, span) { let { index: index2, offset } = node2.content.findIndex(span.from), child; return offset == span.from && !(child = node2.child(index2)).isText && offset + child.nodeSize == span.to; } eq(other) { return this == other || other instanceof _NodeType && compareObjs(this.attrs, other.attrs) && compareObjs(this.spec, other.spec); } destroy() { } }; var Decoration = class _Decoration { /** @internal */ constructor(from, to, type) { this.from = from; this.to = to; this.type = type; } /** @internal */ copy(from, to) { return new _Decoration(from, to, this.type); } /** @internal */ eq(other, offset = 0) { return this.type.eq(other.type) && this.from + offset == other.from && this.to + offset == other.to; } /** @internal */ map(mapping, offset, oldOffset) { return this.type.map(mapping, this, offset, oldOffset); } /** Creates a widget decoration, which is a DOM node that's shown in the document at the given position. It is recommended that you delay rendering the widget by passing a function that will be called when the widget is actually drawn in a view, but you can also directly pass a DOM node. `getPos` can be used to find the widget's current document position. */ static widget(pos, toDOM, spec) { return new _Decoration(pos, pos, new WidgetType(toDOM, spec)); } /** Creates an inline decoration, which adds the given attributes to each inline node between `from` and `to`. */ static inline(from, to, attrs, spec) { return new _Decoration(from, to, new InlineType(attrs, spec)); } /** Creates a node decoration. `from` and `to` should point precisely before and after a node in the document. That node, and only that node, will receive the given attributes. */ static node(from, to, attrs, spec) { return new _Decoration(from, to, new NodeType2(attrs, spec)); } /** The spec provided when creating this decoration. Can be useful if you've stored extra information in that object. */ get spec() { return this.type.spec; } /** @internal */ get inline() { return this.type instanceof InlineType; } /** @internal */ get widget() { return this.type instanceof WidgetType; } }; var none = []; var noSpec = {}; var DecorationSet = class _DecorationSet { /** @internal */ constructor(local, children) { this.local = local.length ? local : none; this.children = children.length ? children : none; } /** Create a set of decorations, using the structure of the given document. This will consume (modify) the `decorations` array, so you must make a copy if you want need to preserve that. */ static create(doc4, decorations) { return decorations.length ? buildTree(decorations, doc4, 0, noSpec) : empty2; } /** Find all decorations in this set which touch the given range (including decorations that start or end directly at the boundaries) and match the given predicate on their spec. When `start` and `end` are omitted, all decorations in the set are considered. When `predicate` isn't given, all decorations are assumed to match. */ find(start, end, predicate) { let result = []; this.findInner(start == null ? 0 : start, end == null ? 1e9 : end, result, 0, predicate); return result; } findInner(start, end, result, offset, predicate) { for (let i2 = 0; i2 < this.local.length; i2++) { let span = this.local[i2]; if (span.from <= end && span.to >= start && (!predicate || predicate(span.spec))) result.push(span.copy(span.from + offset, span.to + offset)); } for (let i2 = 0; i2 < this.children.length; i2 += 3) { if (this.children[i2] < end && this.children[i2 + 1] > start) { let childOff = this.children[i2] + 1; this.children[i2 + 2].findInner(start - childOff, end - childOff, result, offset + childOff, predicate); } } } /** Map the set of decorations in response to a change in the document. */ map(mapping, doc4, options2) { if (this == empty2 || mapping.maps.length == 0) return this; return this.mapInner(mapping, doc4, 0, 0, options2 || noSpec); } /** @internal */ mapInner(mapping, node2, offset, oldOffset, options2) { let newLocal; for (let i2 = 0; i2 < this.local.length; i2++) { let mapped = this.local[i2].map(mapping, offset, oldOffset); if (mapped && mapped.type.valid(node2, mapped)) (newLocal || (newLocal = [])).push(mapped); else if (options2.onRemove) options2.onRemove(this.local[i2].spec); } if (this.children.length) return mapChildren(this.children, newLocal || [], mapping, node2, offset, oldOffset, options2); else return newLocal ? new _DecorationSet(newLocal.sort(byPos), none) : empty2; } /** Add the given array of decorations to the ones in the set, producing a new set. Consumes the `decorations` array. Needs access to the current document to create the appropriate tree structure. */ add(doc4, decorations) { if (!decorations.length) return this; if (this == empty2) return _DecorationSet.create(doc4, decorations); return this.addInner(doc4, decorations, 0); } addInner(doc4, decorations, offset) { let children, childIndex = 0; doc4.forEach((childNode, childOffset) => { let baseOffset = childOffset + offset, found2; if (!(found2 = takeSpansForNode(decorations, childNode, baseOffset))) return; if (!children) children = this.children.slice(); while (childIndex < children.length && children[childIndex] < childOffset) childIndex += 3; if (children[childIndex] == childOffset) children[childIndex + 2] = children[childIndex + 2].addInner(childNode, found2, baseOffset + 1); else children.splice(childIndex, 0, childOffset, childOffset + childNode.nodeSize, buildTree(found2, childNode, baseOffset + 1, noSpec)); childIndex += 3; }); let local = moveSpans(childIndex ? withoutNulls(decorations) : decorations, -offset); for (let i2 = 0; i2 < local.length; i2++) if (!local[i2].type.valid(doc4, local[i2])) local.splice(i2--, 1); return new _DecorationSet(local.length ? this.local.concat(local).sort(byPos) : this.local, children || this.children); } /** Create a new set that contains the decorations in this set, minus the ones in the given array. */ remove(decorations) { if (decorations.length == 0 || this == empty2) return this; return this.removeInner(decorations, 0); } removeInner(decorations, offset) { let children = this.children, local = this.local; for (let i2 = 0; i2 < children.length; i2 += 3) { let found2; let from = children[i2] + offset, to = children[i2 + 1] + offset; for (let j6 = 0, span; j6 < decorations.length; j6++) if (span = decorations[j6]) { if (span.from > from && span.to < to) { decorations[j6] = null; (found2 || (found2 = [])).push(span); } } if (!found2) continue; if (children == this.children) children = this.children.slice(); let removed = children[i2 + 2].removeInner(found2, from + 1); if (removed != empty2) { children[i2 + 2] = removed; } else { children.splice(i2, 3); i2 -= 3; } } if (local.length) { for (let i2 = 0, span; i2 < decorations.length; i2++) if (span = decorations[i2]) { for (let j6 = 0; j6 < local.length; j6++) if (local[j6].eq(span, offset)) { if (local == this.local) local = this.local.slice(); local.splice(j6--, 1); } } } if (children == this.children && local == this.local) return this; return local.length || children.length ? new _DecorationSet(local, children) : empty2; } forChild(offset, node2) { if (this == empty2) return this; if (node2.isLeaf) return _DecorationSet.empty; let child, local; for (let i2 = 0; i2 < this.children.length; i2 += 3) if (this.children[i2] >= offset) { if (this.children[i2] == offset) child = this.children[i2 + 2]; break; } let start = offset + 1, end = start + node2.content.size; for (let i2 = 0; i2 < this.local.length; i2++) { let dec = this.local[i2]; if (dec.from < end && dec.to > start && dec.type instanceof InlineType) { let from = Math.max(start, dec.from) - start, to = Math.min(end, dec.to) - start; if (from < to) (local || (local = [])).push(dec.copy(from, to)); } } if (local) { let localSet = new _DecorationSet(local.sort(byPos), none); return child ? new DecorationGroup([localSet, child]) : localSet; } return child || empty2; } /** @internal */ eq(other) { if (this == other) return true; if (!(other instanceof _DecorationSet) || this.local.length != other.local.length || this.children.length != other.children.length) return false; for (let i2 = 0; i2 < this.local.length; i2++) if (!this.local[i2].eq(other.local[i2])) return false; for (let i2 = 0; i2 < this.children.length; i2 += 3) if (this.children[i2] != other.children[i2] || this.children[i2 + 1] != other.children[i2 + 1] || !this.children[i2 + 2].eq(other.children[i2 + 2])) return false; return true; } /** @internal */ locals(node2) { return removeOverlap(this.localsInner(node2)); } /** @internal */ localsInner(node2) { if (this == empty2) return none; if (node2.inlineContent || !this.local.some(InlineType.is)) return this.local; let result = []; for (let i2 = 0; i2 < this.local.length; i2++) { if (!(this.local[i2].type instanceof InlineType)) result.push(this.local[i2]); } return result; } }; DecorationSet.empty = new DecorationSet([], []); DecorationSet.removeOverlap = removeOverlap; var empty2 = DecorationSet.empty; var DecorationGroup = class _DecorationGroup { constructor(members) { this.members = members; } map(mapping, doc4) { const mappedDecos = this.members.map((member) => member.map(mapping, doc4, noSpec)); return _DecorationGroup.from(mappedDecos); } forChild(offset, child) { if (child.isLeaf) return DecorationSet.empty; let found2 = []; for (let i2 = 0; i2 < this.members.length; i2++) { let result = this.members[i2].forChild(offset, child); if (result == empty2) continue; if (result instanceof _DecorationGroup) found2 = found2.concat(result.members); else found2.push(result); } return _DecorationGroup.from(found2); } eq(other) { if (!(other instanceof _DecorationGroup) || other.members.length != this.members.length) return false; for (let i2 = 0; i2 < this.members.length; i2++) if (!this.members[i2].eq(other.members[i2])) return false; return true; } locals(node2) { let result, sorted = true; for (let i2 = 0; i2 < this.members.length; i2++) { let locals = this.members[i2].localsInner(node2); if (!locals.length) continue; if (!result) { result = locals; } else { if (sorted) { result = result.slice(); sorted = false; } for (let j6 = 0; j6 < locals.length; j6++) result.push(locals[j6]); } } return result ? removeOverlap(sorted ? result : result.sort(byPos)) : none; } // Create a group for the given array of decoration sets, or return // a single set when possible. static from(members) { switch (members.length) { case 0: return empty2; case 1: return members[0]; default: return new _DecorationGroup(members.every((m3) => m3 instanceof DecorationSet) ? members : members.reduce((r3, m3) => r3.concat(m3 instanceof DecorationSet ? m3 : m3.members), [])); } } }; function mapChildren(oldChildren, newLocal, mapping, node2, offset, oldOffset, options2) { let children = oldChildren.slice(); for (let i2 = 0, baseOffset = oldOffset; i2 < mapping.maps.length; i2++) { let moved = 0; mapping.maps[i2].forEach((oldStart, oldEnd, newStart, newEnd) => { let dSize = newEnd - newStart - (oldEnd - oldStart); for (let i3 = 0; i3 < children.length; i3 += 3) { let end = children[i3 + 1]; if (end < 0 || oldStart > end + baseOffset - moved) continue; let start = children[i3] + baseOffset - moved; if (oldEnd >= start) { children[i3 + 1] = oldStart <= start ? -2 : -1; } else if (oldStart >= baseOffset && dSize) { children[i3] += dSize; children[i3 + 1] += dSize; } } moved += dSize; }); baseOffset = mapping.maps[i2].map(baseOffset, -1); } let mustRebuild = false; for (let i2 = 0; i2 < children.length; i2 += 3) if (children[i2 + 1] < 0) { if (children[i2 + 1] == -2) { mustRebuild = true; children[i2 + 1] = -1; continue; } let from = mapping.map(oldChildren[i2] + oldOffset), fromLocal = from - offset; if (fromLocal < 0 || fromLocal >= node2.content.size) { mustRebuild = true; continue; } let to = mapping.map(oldChildren[i2 + 1] + oldOffset, -1), toLocal = to - offset; let { index: index2, offset: childOffset } = node2.content.findIndex(fromLocal); let childNode = node2.maybeChild(index2); if (childNode && childOffset == fromLocal && childOffset + childNode.nodeSize == toLocal) { let mapped = children[i2 + 2].mapInner(mapping, childNode, from + 1, oldChildren[i2] + oldOffset + 1, options2); if (mapped != empty2) { children[i2] = fromLocal; children[i2 + 1] = toLocal; children[i2 + 2] = mapped; } else { children[i2 + 1] = -2; mustRebuild = true; } } else { mustRebuild = true; } } if (mustRebuild) { let decorations = mapAndGatherRemainingDecorations(children, oldChildren, newLocal, mapping, offset, oldOffset, options2); let built = buildTree(decorations, node2, 0, options2); newLocal = built.local; for (let i2 = 0; i2 < children.length; i2 += 3) if (children[i2 + 1] < 0) { children.splice(i2, 3); i2 -= 3; } for (let i2 = 0, j6 = 0; i2 < built.children.length; i2 += 3) { let from = built.children[i2]; while (j6 < children.length && children[j6] < from) j6 += 3; children.splice(j6, 0, built.children[i2], built.children[i2 + 1], built.children[i2 + 2]); } } return new DecorationSet(newLocal.sort(byPos), children); } function moveSpans(spans, offset) { if (!offset || !spans.length) return spans; let result = []; for (let i2 = 0; i2 < spans.length; i2++) { let span = spans[i2]; result.push(new Decoration(span.from + offset, span.to + offset, span.type)); } return result; } function mapAndGatherRemainingDecorations(children, oldChildren, decorations, mapping, offset, oldOffset, options2) { function gather(set, oldOffset2) { for (let i2 = 0; i2 < set.local.length; i2++) { let mapped = set.local[i2].map(mapping, offset, oldOffset2); if (mapped) decorations.push(mapped); else if (options2.onRemove) options2.onRemove(set.local[i2].spec); } for (let i2 = 0; i2 < set.children.length; i2 += 3) gather(set.children[i2 + 2], set.children[i2] + oldOffset2 + 1); } for (let i2 = 0; i2 < children.length; i2 += 3) if (children[i2 + 1] == -1) gather(children[i2 + 2], oldChildren[i2] + oldOffset + 1); return decorations; } function takeSpansForNode(spans, node2, offset) { if (node2.isLeaf) return null; let end = offset + node2.nodeSize, found2 = null; for (let i2 = 0, span; i2 < spans.length; i2++) { if ((span = spans[i2]) && span.from > offset && span.to < end) { (found2 || (found2 = [])).push(span); spans[i2] = null; } } return found2; } function withoutNulls(array) { let result = []; for (let i2 = 0; i2 < array.length; i2++) if (array[i2] != null) result.push(array[i2]); return result; } function buildTree(spans, node2, offset, options2) { let children = [], hasNulls = false; node2.forEach((childNode, localStart) => { let found2 = takeSpansForNode(spans, childNode, localStart + offset); if (found2) { hasNulls = true; let subtree = buildTree(found2, childNode, offset + localStart + 1, options2); if (subtree != empty2) children.push(localStart, localStart + childNode.nodeSize, subtree); } }); let locals = moveSpans(hasNulls ? withoutNulls(spans) : spans, -offset).sort(byPos); for (let i2 = 0; i2 < locals.length; i2++) if (!locals[i2].type.valid(node2, locals[i2])) { if (options2.onRemove) options2.onRemove(locals[i2].spec); locals.splice(i2--, 1); } return locals.length || children.length ? new DecorationSet(locals, children) : empty2; } function byPos(a2, b4) { return a2.from - b4.from || a2.to - b4.to; } function removeOverlap(spans) { let working = spans; for (let i2 = 0; i2 < working.length - 1; i2++) { let span = working[i2]; if (span.from != span.to) for (let j6 = i2 + 1; j6 < working.length; j6++) { let next = working[j6]; if (next.from == span.from) { if (next.to != span.to) { if (working == spans) working = spans.slice(); working[j6] = next.copy(next.from, span.to); insertAhead(working, j6 + 1, next.copy(span.to, next.to)); } continue; } else { if (next.from < span.to) { if (working == spans) working = spans.slice(); working[i2] = span.copy(span.from, next.from); insertAhead(working, j6, span.copy(next.from, span.to)); } break; } } } return working; } function insertAhead(array, i2, deco) { while (i2 < array.length && byPos(deco, array[i2]) > 0) i2++; array.splice(i2, 0, deco); } function viewDecorations(view) { let found2 = []; view.someProp("decorations", (f3) => { let result = f3(view.state); if (result && result != empty2) found2.push(result); }); if (view.cursorWrapper) found2.push(DecorationSet.create(view.state.doc, [view.cursorWrapper.deco])); return DecorationGroup.from(found2); } var observeOptions = { childList: true, characterData: true, characterDataOldValue: true, attributes: true, attributeOldValue: true, subtree: true }; var useCharData = ie && ie_version <= 11; var SelectionState = class { constructor() { this.anchorNode = null; this.anchorOffset = 0; this.focusNode = null; this.focusOffset = 0; } set(sel) { this.anchorNode = sel.anchorNode; this.anchorOffset = sel.anchorOffset; this.focusNode = sel.focusNode; this.focusOffset = sel.focusOffset; } clear() { this.anchorNode = this.focusNode = null; } eq(sel) { return sel.anchorNode == this.anchorNode && sel.anchorOffset == this.anchorOffset && sel.focusNode == this.focusNode && sel.focusOffset == this.focusOffset; } }; var DOMObserver = class { constructor(view, handleDOMChange) { this.view = view; this.handleDOMChange = handleDOMChange; this.queue = []; this.flushingSoon = -1; this.observer = null; this.currentSelection = new SelectionState(); this.onCharData = null; this.suppressingSelectionUpdates = false; this.observer = window.MutationObserver && new window.MutationObserver((mutations) => { for (let i2 = 0; i2 < mutations.length; i2++) this.queue.push(mutations[i2]); if (ie && ie_version <= 11 && mutations.some((m3) => m3.type == "childList" && m3.removedNodes.length || m3.type == "characterData" && m3.oldValue.length > m3.target.nodeValue.length)) this.flushSoon(); else this.flush(); }); if (useCharData) { this.onCharData = (e2) => { this.queue.push({ target: e2.target, type: "characterData", oldValue: e2.prevValue }); this.flushSoon(); }; } this.onSelectionChange = this.onSelectionChange.bind(this); } flushSoon() { if (this.flushingSoon < 0) this.flushingSoon = window.setTimeout(() => { this.flushingSoon = -1; this.flush(); }, 20); } forceFlush() { if (this.flushingSoon > -1) { window.clearTimeout(this.flushingSoon); this.flushingSoon = -1; this.flush(); } } start() { if (this.observer) { this.observer.takeRecords(); this.observer.observe(this.view.dom, observeOptions); } if (this.onCharData) this.view.dom.addEventListener("DOMCharacterDataModified", this.onCharData); this.connectSelection(); } stop() { if (this.observer) { let take = this.observer.takeRecords(); if (take.length) { for (let i2 = 0; i2 < take.length; i2++) this.queue.push(take[i2]); window.setTimeout(() => this.flush(), 20); } this.observer.disconnect(); } if (this.onCharData) this.view.dom.removeEventListener("DOMCharacterDataModified", this.onCharData); this.disconnectSelection(); } connectSelection() { this.view.dom.ownerDocument.addEventListener("selectionchange", this.onSelectionChange); } disconnectSelection() { this.view.dom.ownerDocument.removeEventListener("selectionchange", this.onSelectionChange); } suppressSelectionUpdates() { this.suppressingSelectionUpdates = true; setTimeout(() => this.suppressingSelectionUpdates = false, 50); } onSelectionChange() { if (!hasFocusAndSelection(this.view)) return; if (this.suppressingSelectionUpdates) return selectionToDOM(this.view); if (ie && ie_version <= 11 && !this.view.state.selection.empty) { let sel = this.view.domSelectionRange(); if (sel.focusNode && isEquivalentPosition(sel.focusNode, sel.focusOffset, sel.anchorNode, sel.anchorOffset)) return this.flushSoon(); } this.flush(); } setCurSelection() { this.currentSelection.set(this.view.domSelectionRange()); } ignoreSelectionChange(sel) { if (!sel.focusNode) return true; let ancestors = /* @__PURE__ */ new Set(), container; for (let scan = sel.focusNode; scan; scan = parentNode(scan)) ancestors.add(scan); for (let scan = sel.anchorNode; scan; scan = parentNode(scan)) if (ancestors.has(scan)) { container = scan; break; } let desc = container && this.view.docView.nearestDesc(container); if (desc && desc.ignoreMutation({ type: "selection", target: container.nodeType == 3 ? container.parentNode : container })) { this.setCurSelection(); return true; } } pendingRecords() { if (this.observer) for (let mut of this.observer.takeRecords()) this.queue.push(mut); return this.queue; } flush() { let { view } = this; if (!view.docView || this.flushingSoon > -1) return; let mutations = this.pendingRecords(); if (mutations.length) this.queue = []; let sel = view.domSelectionRange(); let newSel = !this.suppressingSelectionUpdates && !this.currentSelection.eq(sel) && hasFocusAndSelection(view) && !this.ignoreSelectionChange(sel); let from = -1, to = -1, typeOver = false, added = []; if (view.editable) { for (let i2 = 0; i2 < mutations.length; i2++) { let result = this.registerMutation(mutations[i2], added); if (result) { from = from < 0 ? result.from : Math.min(result.from, from); to = to < 0 ? result.to : Math.max(result.to, to); if (result.typeOver) typeOver = true; } } } if (gecko && added.length > 1) { let brs = added.filter((n4) => n4.nodeName == "BR"); if (brs.length == 2) { let a2 = brs[0], b4 = brs[1]; if (a2.parentNode && a2.parentNode.parentNode == b4.parentNode) b4.remove(); else a2.remove(); } } let readSel = null; if (from < 0 && newSel && view.input.lastFocus > Date.now() - 200 && Math.max(view.input.lastTouch, view.input.lastClick.time) < Date.now() - 300 && selectionCollapsed(sel) && (readSel = selectionFromDOM(view)) && readSel.eq(Selection.near(view.state.doc.resolve(0), 1))) { view.input.lastFocus = 0; selectionToDOM(view); this.currentSelection.set(sel); view.scrollToSelection(); } else if (from > -1 || newSel) { if (from > -1) { view.docView.markDirty(from, to); checkCSS(view); } this.handleDOMChange(from, to, typeOver, added); if (view.docView && view.docView.dirty) view.updateState(view.state); else if (!this.currentSelection.eq(sel)) selectionToDOM(view); this.currentSelection.set(sel); } } registerMutation(mut, added) { if (added.indexOf(mut.target) > -1) return null; let desc = this.view.docView.nearestDesc(mut.target); if (mut.type == "attributes" && (desc == this.view.docView || mut.attributeName == "contenteditable" || // Firefox sometimes fires spurious events for null/empty styles mut.attributeName == "style" && !mut.oldValue && !mut.target.getAttribute("style"))) return null; if (!desc || desc.ignoreMutation(mut)) return null; if (mut.type == "childList") { for (let i2 = 0; i2 < mut.addedNodes.length; i2++) added.push(mut.addedNodes[i2]); if (desc.contentDOM && desc.contentDOM != desc.dom && !desc.contentDOM.contains(mut.target)) return { from: desc.posBefore, to: desc.posAfter }; let prev = mut.previousSibling, next = mut.nextSibling; if (ie && ie_version <= 11 && mut.addedNodes.length) { for (let i2 = 0; i2 < mut.addedNodes.length; i2++) { let { previousSibling, nextSibling } = mut.addedNodes[i2]; if (!previousSibling || Array.prototype.indexOf.call(mut.addedNodes, previousSibling) < 0) prev = previousSibling; if (!nextSibling || Array.prototype.indexOf.call(mut.addedNodes, nextSibling) < 0) next = nextSibling; } } let fromOffset = prev && prev.parentNode == mut.target ? domIndex(prev) + 1 : 0; let from = desc.localPosFromDOM(mut.target, fromOffset, -1); let toOffset = next && next.parentNode == mut.target ? domIndex(next) : mut.target.childNodes.length; let to = desc.localPosFromDOM(mut.target, toOffset, 1); return { from, to }; } else if (mut.type == "attributes") { return { from: desc.posAtStart - desc.border, to: desc.posAtEnd + desc.border }; } else { return { from: desc.posAtStart, to: desc.posAtEnd, // An event was generated for a text change that didn't change // any text. Mark the dom change to fall back to assuming the // selection was typed over with an identical value if it can't // find another change. typeOver: mut.target.nodeValue == mut.oldValue }; } } }; var cssChecked = /* @__PURE__ */ new WeakMap(); var cssCheckWarned = false; function checkCSS(view) { if (cssChecked.has(view)) return; cssChecked.set(view, null); if (["normal", "nowrap", "pre-line"].indexOf(getComputedStyle(view.dom).whiteSpace) !== -1) { view.requiresGeckoHackNode = gecko; if (cssCheckWarned) return; console["warn"]("ProseMirror expects the CSS white-space property to be set, preferably to 'pre-wrap'. It is recommended to load style/prosemirror.css from the prosemirror-view package."); cssCheckWarned = true; } } function rangeToSelectionRange(view, range) { let anchorNode = range.startContainer, anchorOffset = range.startOffset; let focusNode = range.endContainer, focusOffset = range.endOffset; let currentAnchor = view.domAtPos(view.state.selection.anchor); if (isEquivalentPosition(currentAnchor.node, currentAnchor.offset, focusNode, focusOffset)) [anchorNode, anchorOffset, focusNode, focusOffset] = [focusNode, focusOffset, anchorNode, anchorOffset]; return { anchorNode, anchorOffset, focusNode, focusOffset }; } function safariShadowSelectionRange(view, selection) { if (selection.getComposedRanges) { let range = selection.getComposedRanges(view.root)[0]; if (range) return rangeToSelectionRange(view, range); } let found2; function read(event) { event.preventDefault(); event.stopImmediatePropagation(); found2 = event.getTargetRanges()[0]; } view.dom.addEventListener("beforeinput", read, true); document.execCommand("indent"); view.dom.removeEventListener("beforeinput", read, true); return found2 ? rangeToSelectionRange(view, found2) : null; } function parseBetween(view, from_, to_) { let { node: parent, fromOffset, toOffset, from, to } = view.docView.parseRange(from_, to_); let domSel = view.domSelectionRange(); let find; let anchor = domSel.anchorNode; if (anchor && view.dom.contains(anchor.nodeType == 1 ? anchor : anchor.parentNode)) { find = [{ node: anchor, offset: domSel.anchorOffset }]; if (!selectionCollapsed(domSel)) find.push({ node: domSel.focusNode, offset: domSel.focusOffset }); } if (chrome && view.input.lastKeyCode === 8) { for (let off = toOffset; off > fromOffset; off--) { let node2 = parent.childNodes[off - 1], desc = node2.pmViewDesc; if (node2.nodeName == "BR" && !desc) { toOffset = off; break; } if (!desc || desc.size) break; } } let startDoc = view.state.doc; let parser = view.someProp("domParser") || DOMParser.fromSchema(view.state.schema); let $from = startDoc.resolve(from); let sel = null, doc4 = parser.parse(parent, { topNode: $from.parent, topMatch: $from.parent.contentMatchAt($from.index()), topOpen: true, from: fromOffset, to: toOffset, preserveWhitespace: $from.parent.type.whitespace == "pre" ? "full" : true, findPositions: find, ruleFromNode, context: $from }); if (find && find[0].pos != null) { let anchor2 = find[0].pos, head = find[1] && find[1].pos; if (head == null) head = anchor2; sel = { anchor: anchor2 + from, head: head + from }; } return { doc: doc4, sel, from, to }; } function ruleFromNode(dom) { let desc = dom.pmViewDesc; if (desc) { return desc.parseRule(); } else if (dom.nodeName == "BR" && dom.parentNode) { if (safari && /^(ul|ol)$/i.test(dom.parentNode.nodeName)) { let skip = document.createElement("div"); skip.appendChild(document.createElement("li")); return { skip }; } else if (dom.parentNode.lastChild == dom || safari && /^(tr|table)$/i.test(dom.parentNode.nodeName)) { return { ignore: true }; } } else if (dom.nodeName == "IMG" && dom.getAttribute("mark-placeholder")) { return { ignore: true }; } return null; } var isInline = /^(a|abbr|acronym|b|bd[io]|big|br|button|cite|code|data(list)?|del|dfn|em|i|ins|kbd|label|map|mark|meter|output|q|ruby|s|samp|small|span|strong|su[bp]|time|u|tt|var)$/i; function readDOMChange(view, from, to, typeOver, addedNodes) { let compositionID = view.input.compositionPendingChanges || (view.composing ? view.input.compositionID : 0); view.input.compositionPendingChanges = 0; if (from < 0) { let origin = view.input.lastSelectionTime > Date.now() - 50 ? view.input.lastSelectionOrigin : null; let newSel = selectionFromDOM(view, origin); if (newSel && !view.state.selection.eq(newSel)) { if (chrome && android && view.input.lastKeyCode === 13 && Date.now() - 100 < view.input.lastKeyCodeTime && view.someProp("handleKeyDown", (f3) => f3(view, keyEvent(13, "Enter")))) return; let tr2 = view.state.tr.setSelection(newSel); if (origin == "pointer") tr2.setMeta("pointer", true); else if (origin == "key") tr2.scrollIntoView(); if (compositionID) tr2.setMeta("composition", compositionID); view.dispatch(tr2); } return; } let $before = view.state.doc.resolve(from); let shared = $before.sharedDepth(to); from = $before.before(shared + 1); to = view.state.doc.resolve(to).after(shared + 1); let sel = view.state.selection; let parse2 = parseBetween(view, from, to); let doc4 = view.state.doc, compare = doc4.slice(parse2.from, parse2.to); let preferredPos, preferredSide; if (view.input.lastKeyCode === 8 && Date.now() - 100 < view.input.lastKeyCodeTime) { preferredPos = view.state.selection.to; preferredSide = "end"; } else { preferredPos = view.state.selection.from; preferredSide = "start"; } view.input.lastKeyCode = null; let change = findDiff(compare.content, parse2.doc.content, parse2.from, preferredPos, preferredSide); if ((ios && view.input.lastIOSEnter > Date.now() - 225 || android) && addedNodes.some((n4) => n4.nodeType == 1 && !isInline.test(n4.nodeName)) && (!change || change.endA >= change.endB) && view.someProp("handleKeyDown", (f3) => f3(view, keyEvent(13, "Enter")))) { view.input.lastIOSEnter = 0; return; } if (!change) { if (typeOver && sel instanceof TextSelection && !sel.empty && sel.$head.sameParent(sel.$anchor) && !view.composing && !(parse2.sel && parse2.sel.anchor != parse2.sel.head)) { change = { start: sel.from, endA: sel.to, endB: sel.to }; } else { if (parse2.sel) { let sel2 = resolveSelection(view, view.state.doc, parse2.sel); if (sel2 && !sel2.eq(view.state.selection)) { let tr2 = view.state.tr.setSelection(sel2); if (compositionID) tr2.setMeta("composition", compositionID); view.dispatch(tr2); } } return; } } view.input.domChangeCount++; if (view.state.selection.from < view.state.selection.to && change.start == change.endB && view.state.selection instanceof TextSelection) { if (change.start > view.state.selection.from && change.start <= view.state.selection.from + 2 && view.state.selection.from >= parse2.from) { change.start = view.state.selection.from; } else if (change.endA < view.state.selection.to && change.endA >= view.state.selection.to - 2 && view.state.selection.to <= parse2.to) { change.endB += view.state.selection.to - change.endA; change.endA = view.state.selection.to; } } if (ie && ie_version <= 11 && change.endB == change.start + 1 && change.endA == change.start && change.start > parse2.from && parse2.doc.textBetween(change.start - parse2.from - 1, change.start - parse2.from + 1) == " \xA0") { change.start--; change.endA--; change.endB--; } let $from = parse2.doc.resolveNoCache(change.start - parse2.from); let $to = parse2.doc.resolveNoCache(change.endB - parse2.from); let $fromA = doc4.resolve(change.start); let inlineChange = $from.sameParent($to) && $from.parent.inlineContent && $fromA.end() >= change.endA; let nextSel; if ((ios && view.input.lastIOSEnter > Date.now() - 225 && (!inlineChange || addedNodes.some((n4) => n4.nodeName == "DIV" || n4.nodeName == "P")) || !inlineChange && $from.pos < parse2.doc.content.size && !$from.sameParent($to) && (nextSel = Selection.findFrom(parse2.doc.resolve($from.pos + 1), 1, true)) && nextSel.head == $to.pos) && view.someProp("handleKeyDown", (f3) => f3(view, keyEvent(13, "Enter")))) { view.input.lastIOSEnter = 0; return; } if (view.state.selection.anchor > change.start && looksLikeBackspace(doc4, change.start, change.endA, $from, $to) && view.someProp("handleKeyDown", (f3) => f3(view, keyEvent(8, "Backspace")))) { if (android && chrome) view.domObserver.suppressSelectionUpdates(); return; } if (chrome && android && change.endB == change.start) view.input.lastAndroidDelete = Date.now(); if (android && !inlineChange && $from.start() != $to.start() && $to.parentOffset == 0 && $from.depth == $to.depth && parse2.sel && parse2.sel.anchor == parse2.sel.head && parse2.sel.head == change.endA) { change.endB -= 2; $to = parse2.doc.resolveNoCache(change.endB - parse2.from); setTimeout(() => { view.someProp("handleKeyDown", function(f3) { return f3(view, keyEvent(13, "Enter")); }); }, 20); } let chFrom = change.start, chTo = change.endA; let tr, storedMarks, markChange; if (inlineChange) { if ($from.pos == $to.pos) { if (ie && ie_version <= 11 && $from.parentOffset == 0) { view.domObserver.suppressSelectionUpdates(); setTimeout(() => selectionToDOM(view), 20); } tr = view.state.tr.delete(chFrom, chTo); storedMarks = doc4.resolve(change.start).marksAcross(doc4.resolve(change.endA)); } else if ( // Adding or removing a mark change.endA == change.endB && (markChange = isMarkChange($from.parent.content.cut($from.parentOffset, $to.parentOffset), $fromA.parent.content.cut($fromA.parentOffset, change.endA - $fromA.start()))) ) { tr = view.state.tr; if (markChange.type == "add") tr.addMark(chFrom, chTo, markChange.mark); else tr.removeMark(chFrom, chTo, markChange.mark); } else if ($from.parent.child($from.index()).isText && $from.index() == $to.index() - ($to.textOffset ? 0 : 1)) { let text5 = $from.parent.textBetween($from.parentOffset, $to.parentOffset); if (view.someProp("handleTextInput", (f3) => f3(view, chFrom, chTo, text5))) return; tr = view.state.tr.insertText(text5, chFrom, chTo); } } if (!tr) tr = view.state.tr.replace(chFrom, chTo, parse2.doc.slice(change.start - parse2.from, change.endB - parse2.from)); if (parse2.sel) { let sel2 = resolveSelection(view, tr.doc, parse2.sel); if (sel2 && !(chrome && android && view.composing && sel2.empty && (change.start != change.endB || view.input.lastAndroidDelete < Date.now() - 100) && (sel2.head == chFrom || sel2.head == tr.mapping.map(chTo) - 1) || ie && sel2.empty && sel2.head == chFrom)) tr.setSelection(sel2); } if (storedMarks) tr.ensureMarks(storedMarks); if (compositionID) tr.setMeta("composition", compositionID); view.dispatch(tr.scrollIntoView()); } function resolveSelection(view, doc4, parsedSel) { if (Math.max(parsedSel.anchor, parsedSel.head) > doc4.content.size) return null; return selectionBetween(view, doc4.resolve(parsedSel.anchor), doc4.resolve(parsedSel.head)); } function isMarkChange(cur, prev) { let curMarks = cur.firstChild.marks, prevMarks = prev.firstChild.marks; let added = curMarks, removed = prevMarks, type, mark, update; for (let i2 = 0; i2 < prevMarks.length; i2++) added = prevMarks[i2].removeFromSet(added); for (let i2 = 0; i2 < curMarks.length; i2++) removed = curMarks[i2].removeFromSet(removed); if (added.length == 1 && removed.length == 0) { mark = added[0]; type = "add"; update = (node2) => node2.mark(mark.addToSet(node2.marks)); } else if (added.length == 0 && removed.length == 1) { mark = removed[0]; type = "remove"; update = (node2) => node2.mark(mark.removeFromSet(node2.marks)); } else { return null; } let updated = []; for (let i2 = 0; i2 < prev.childCount; i2++) updated.push(update(prev.child(i2))); if (Fragment.from(updated).eq(cur)) return { mark, type }; } function looksLikeBackspace(old, start, end, $newStart, $newEnd) { if ( // The content must have shrunk end - start <= $newEnd.pos - $newStart.pos || // newEnd must point directly at or after the end of the block that newStart points into skipClosingAndOpening($newStart, true, false) < $newEnd.pos ) return false; let $start = old.resolve(start); if (!$newStart.parent.isTextblock) { let after = $start.nodeAfter; return after != null && end == start + after.nodeSize; } if ($start.parentOffset < $start.parent.content.size || !$start.parent.isTextblock) return false; let $next = old.resolve(skipClosingAndOpening($start, true, true)); if (!$next.parent.isTextblock || $next.pos > end || skipClosingAndOpening($next, true, false) < end) return false; return $newStart.parent.content.cut($newStart.parentOffset).eq($next.parent.content); } function skipClosingAndOpening($pos, fromEnd, mayOpen) { let depth = $pos.depth, end = fromEnd ? $pos.end() : $pos.pos; while (depth > 0 && (fromEnd || $pos.indexAfter(depth) == $pos.node(depth).childCount)) { depth--; end++; fromEnd = false; } if (mayOpen) { let next = $pos.node(depth).maybeChild($pos.indexAfter(depth)); while (next && !next.isLeaf) { next = next.firstChild; end++; } } return end; } function findDiff(a2, b4, pos, preferredPos, preferredSide) { let start = a2.findDiffStart(b4, pos); if (start == null) return null; let { a: endA, b: endB } = a2.findDiffEnd(b4, pos + a2.size, pos + b4.size); if (preferredSide == "end") { let adjust = Math.max(0, start - Math.min(endA, endB)); preferredPos -= endA + adjust - start; } if (endA < start && a2.size < b4.size) { let move = preferredPos <= start && preferredPos >= endA ? start - preferredPos : 0; start -= move; if (start && start < b4.size && isSurrogatePair(b4.textBetween(start - 1, start + 1))) start += move ? 1 : -1; endB = start + (endB - endA); endA = start; } else if (endB < start) { let move = preferredPos <= start && preferredPos >= endB ? start - preferredPos : 0; start -= move; if (start && start < a2.size && isSurrogatePair(a2.textBetween(start - 1, start + 1))) start += move ? 1 : -1; endA = start + (endA - endB); endB = start; } return { start, endA, endB }; } function isSurrogatePair(str) { if (str.length != 2) return false; let a2 = str.charCodeAt(0), b4 = str.charCodeAt(1); return a2 >= 56320 && a2 <= 57343 && b4 >= 55296 && b4 <= 56319; } var EditorView = class { /** Create a view. `place` may be a DOM node that the editor should be appended to, a function that will place it into the document, or an object whose `mount` property holds the node to use as the document container. If it is `null`, the editor will not be added to the document. */ constructor(place, props) { this._root = null; this.focused = false; this.trackWrites = null; this.mounted = false; this.markCursor = null; this.cursorWrapper = null; this.lastSelectedViewDesc = void 0; this.input = new InputState(); this.prevDirectPlugins = []; this.pluginViews = []; this.requiresGeckoHackNode = false; this.dragging = null; this._props = props; this.state = props.state; this.directPlugins = props.plugins || []; this.directPlugins.forEach(checkStateComponent); this.dispatch = this.dispatch.bind(this); this.dom = place && place.mount || document.createElement("div"); if (place) { if (place.appendChild) place.appendChild(this.dom); else if (typeof place == "function") place(this.dom); else if (place.mount) this.mounted = true; } this.editable = getEditable(this); updateCursorWrapper(this); this.nodeViews = buildNodeViews(this); this.docView = docViewDesc(this.state.doc, computeDocDeco(this), viewDecorations(this), this.dom, this); this.domObserver = new DOMObserver(this, (from, to, typeOver, added) => readDOMChange(this, from, to, typeOver, added)); this.domObserver.start(); initInput(this); this.updatePluginViews(); } /** Holds `true` when a [composition](https://w3c.github.io/uievents/#events-compositionevents) is active. */ get composing() { return this.input.composing; } /** The view's current [props](https://prosemirror.net/docs/ref/#view.EditorProps). */ get props() { if (this._props.state != this.state) { let prev = this._props; this._props = {}; for (let name in prev) this._props[name] = prev[name]; this._props.state = this.state; } return this._props; } /** Update the view's props. Will immediately cause an update to the DOM. */ update(props) { if (props.handleDOMEvents != this._props.handleDOMEvents) ensureListeners(this); let prevProps = this._props; this._props = props; if (props.plugins) { props.plugins.forEach(checkStateComponent); this.directPlugins = props.plugins; } this.updateStateInner(props.state, prevProps); } /** Update the view by updating existing props object with the object given as argument. Equivalent to `view.update(Object.assign({}, view.props, props))`. */ setProps(props) { let updated = {}; for (let name in this._props) updated[name] = this._props[name]; updated.state = this.state; for (let name in props) updated[name] = props[name]; this.update(updated); } /** Update the editor's `state` prop, without touching any of the other props. */ updateState(state) { this.updateStateInner(state, this._props); } updateStateInner(state, prevProps) { var _a; let prev = this.state, redraw = false, updateSel = false; if (state.storedMarks && this.composing) { clearComposition(this); updateSel = true; } this.state = state; let pluginsChanged = prev.plugins != state.plugins || this._props.plugins != prevProps.plugins; if (pluginsChanged || this._props.plugins != prevProps.plugins || this._props.nodeViews != prevProps.nodeViews) { let nodeViews = buildNodeViews(this); if (changedNodeViews(nodeViews, this.nodeViews)) { this.nodeViews = nodeViews; redraw = true; } } if (pluginsChanged || prevProps.handleDOMEvents != this._props.handleDOMEvents) { ensureListeners(this); } this.editable = getEditable(this); updateCursorWrapper(this); let innerDeco = viewDecorations(this), outerDeco = computeDocDeco(this); let scroll = prev.plugins != state.plugins && !prev.doc.eq(state.doc) ? "reset" : state.scrollToSelection > prev.scrollToSelection ? "to selection" : "preserve"; let updateDoc = redraw || !this.docView.matchesNode(state.doc, outerDeco, innerDeco); if (updateDoc || !state.selection.eq(prev.selection)) updateSel = true; let oldScrollPos = scroll == "preserve" && updateSel && this.dom.style.overflowAnchor == null && storeScrollPos(this); if (updateSel) { this.domObserver.stop(); let forceSelUpdate = updateDoc && (ie || chrome) && !this.composing && !prev.selection.empty && !state.selection.empty && selectionContextChanged(prev.selection, state.selection); if (updateDoc) { let chromeKludge = chrome ? this.trackWrites = this.domSelectionRange().focusNode : null; if (this.composing) this.input.compositionNode = findCompositionNode(this); if (redraw || !this.docView.update(state.doc, outerDeco, innerDeco, this)) { this.docView.updateOuterDeco(outerDeco); this.docView.destroy(); this.docView = docViewDesc(state.doc, outerDeco, innerDeco, this.dom, this); } if (chromeKludge && !this.trackWrites) forceSelUpdate = true; } if (forceSelUpdate || !(this.input.mouseDown && this.domObserver.currentSelection.eq(this.domSelectionRange()) && anchorInRightPlace(this))) { selectionToDOM(this, forceSelUpdate); } else { syncNodeSelection(this, state.selection); this.domObserver.setCurSelection(); } this.domObserver.start(); } this.updatePluginViews(prev); if (((_a = this.dragging) === null || _a === void 0 ? void 0 : _a.node) && !prev.doc.eq(state.doc)) this.updateDraggedNode(this.dragging, prev); if (scroll == "reset") { this.dom.scrollTop = 0; } else if (scroll == "to selection") { this.scrollToSelection(); } else if (oldScrollPos) { resetScrollPos(oldScrollPos); } } /** @internal */ scrollToSelection() { let startDOM = this.domSelectionRange().focusNode; if (this.someProp("handleScrollToSelection", (f3) => f3(this))) ; else if (this.state.selection instanceof NodeSelection) { let target = this.docView.domAfterPos(this.state.selection.from); if (target.nodeType == 1) scrollRectIntoView(this, target.getBoundingClientRect(), startDOM); } else { scrollRectIntoView(this, this.coordsAtPos(this.state.selection.head, 1), startDOM); } } destroyPluginViews() { let view; while (view = this.pluginViews.pop()) if (view.destroy) view.destroy(); } updatePluginViews(prevState) { if (!prevState || prevState.plugins != this.state.plugins || this.directPlugins != this.prevDirectPlugins) { this.prevDirectPlugins = this.directPlugins; this.destroyPluginViews(); for (let i2 = 0; i2 < this.directPlugins.length; i2++) { let plugin = this.directPlugins[i2]; if (plugin.spec.view) this.pluginViews.push(plugin.spec.view(this)); } for (let i2 = 0; i2 < this.state.plugins.length; i2++) { let plugin = this.state.plugins[i2]; if (plugin.spec.view) this.pluginViews.push(plugin.spec.view(this)); } } else { for (let i2 = 0; i2 < this.pluginViews.length; i2++) { let pluginView = this.pluginViews[i2]; if (pluginView.update) pluginView.update(this, prevState); } } } updateDraggedNode(dragging, prev) { let sel = dragging.node, found2 = -1; if (this.state.doc.nodeAt(sel.from) == sel.node) { found2 = sel.from; } else { let movedPos = sel.from + (this.state.doc.content.size - prev.doc.content.size); let moved = movedPos > 0 && this.state.doc.nodeAt(movedPos); if (moved == sel.node) found2 = movedPos; } this.dragging = new Dragging(dragging.slice, dragging.move, found2 < 0 ? void 0 : NodeSelection.create(this.state.doc, found2)); } someProp(propName, f3) { let prop = this._props && this._props[propName], value; if (prop != null && (value = f3 ? f3(prop) : prop)) return value; for (let i2 = 0; i2 < this.directPlugins.length; i2++) { let prop2 = this.directPlugins[i2].props[propName]; if (prop2 != null && (value = f3 ? f3(prop2) : prop2)) return value; } let plugins = this.state.plugins; if (plugins) for (let i2 = 0; i2 < plugins.length; i2++) { let prop2 = plugins[i2].props[propName]; if (prop2 != null && (value = f3 ? f3(prop2) : prop2)) return value; } } /** Query whether the view has focus. */ hasFocus() { if (ie) { let node2 = this.root.activeElement; if (node2 == this.dom) return true; if (!node2 || !this.dom.contains(node2)) return false; while (node2 && this.dom != node2 && this.dom.contains(node2)) { if (node2.contentEditable == "false") return false; node2 = node2.parentElement; } return true; } return this.root.activeElement == this.dom; } /** Focus the editor. */ focus() { this.domObserver.stop(); if (this.editable) focusPreventScroll(this.dom); selectionToDOM(this); this.domObserver.start(); } /** Get the document root in which the editor exists. This will usually be the top-level `document`, but might be a [shadow DOM](https://developer.mozilla.org/en-US/docs/Web/Web_Components/Shadow_DOM) root if the editor is inside one. */ get root() { let cached = this._root; if (cached == null) for (let search2 = this.dom.parentNode; search2; search2 = search2.parentNode) { if (search2.nodeType == 9 || search2.nodeType == 11 && search2.host) { if (!search2.getSelection) Object.getPrototypeOf(search2).getSelection = () => search2.ownerDocument.getSelection(); return this._root = search2; } } return cached || document; } /** When an existing editor view is moved to a new document or shadow tree, call this to make it recompute its root. */ updateRoot() { this._root = null; } /** Given a pair of viewport coordinates, return the document position that corresponds to them. May return null if the given coordinates aren't inside of the editor. When an object is returned, its `pos` property is the position nearest to the coordinates, and its `inside` property holds the position of the inner node that the position falls inside of, or -1 if it is at the top level, not in any node. */ posAtCoords(coords) { return posAtCoords(this, coords); } /** Returns the viewport rectangle at a given document position. `left` and `right` will be the same number, as this returns a flat cursor-ish rectangle. If the position is between two things that aren't directly adjacent, `side` determines which element is used. When < 0, the element before the position is used, otherwise the element after. */ coordsAtPos(pos, side = 1) { return coordsAtPos(this, pos, side); } /** Find the DOM position that corresponds to the given document position. When `side` is negative, find the position as close as possible to the content before the position. When positive, prefer positions close to the content after the position. When zero, prefer as shallow a position as possible. Note that you should **not** mutate the editor's internal DOM, only inspect it (and even that is usually not necessary). */ domAtPos(pos, side = 0) { return this.docView.domFromPos(pos, side); } /** Find the DOM node that represents the document node after the given position. May return `null` when the position doesn't point in front of a node or if the node is inside an opaque node view. This is intended to be able to call things like `getBoundingClientRect` on that DOM node. Do **not** mutate the editor DOM directly, or add styling this way, since that will be immediately overriden by the editor as it redraws the node. */ nodeDOM(pos) { let desc = this.docView.descAt(pos); return desc ? desc.nodeDOM : null; } /** Find the document position that corresponds to a given DOM position. (Whenever possible, it is preferable to inspect the document structure directly, rather than poking around in the DOM, but sometimes—for example when interpreting an event target—you don't have a choice.) The `bias` parameter can be used to influence which side of a DOM node to use when the position is inside a leaf node. */ posAtDOM(node2, offset, bias = -1) { let pos = this.docView.posFromDOM(node2, offset, bias); if (pos == null) throw new RangeError("DOM position not inside the editor"); return pos; } /** Find out whether the selection is at the end of a textblock when moving in a given direction. When, for example, given `"left"`, it will return true if moving left from the current cursor position would leave that position's parent textblock. Will apply to the view's current state by default, but it is possible to pass a different state. */ endOfTextblock(dir, state) { return endOfTextblock(this, state || this.state, dir); } /** Run the editor's paste logic with the given HTML string. The `event`, if given, will be passed to the [`handlePaste`](https://prosemirror.net/docs/ref/#view.EditorProps.handlePaste) hook. */ pasteHTML(html3, event) { return doPaste(this, "", html3, false, event || new ClipboardEvent("paste")); } /** Run the editor's paste logic with the given plain-text input. */ pasteText(text5, event) { return doPaste(this, text5, null, true, event || new ClipboardEvent("paste")); } /** Removes the editor from the DOM and destroys all [node views](https://prosemirror.net/docs/ref/#view.NodeView). */ destroy() { if (!this.docView) return; destroyInput(this); this.destroyPluginViews(); if (this.mounted) { this.docView.update(this.state.doc, [], viewDecorations(this), this); this.dom.textContent = ""; } else if (this.dom.parentNode) { this.dom.parentNode.removeChild(this.dom); } this.docView.destroy(); this.docView = null; clearReusedRange(); } /** This is true when the view has been [destroyed](https://prosemirror.net/docs/ref/#view.EditorView.destroy) (and thus should not be used anymore). */ get isDestroyed() { return this.docView == null; } /** Used for testing. */ dispatchEvent(event) { return dispatchEvent2(this, event); } /** Dispatch a transaction. Will call [`dispatchTransaction`](https://prosemirror.net/docs/ref/#view.DirectEditorProps.dispatchTransaction) when given, and otherwise defaults to applying the transaction to the current state and calling [`updateState`](https://prosemirror.net/docs/ref/#view.EditorView.updateState) with the result. This method is bound to the view instance, so that it can be easily passed around. */ dispatch(tr) { let dispatchTransaction = this._props.dispatchTransaction; if (dispatchTransaction) dispatchTransaction.call(this, tr); else this.updateState(this.state.apply(tr)); } /** @internal */ domSelectionRange() { let sel = this.domSelection(); return safari && this.root.nodeType === 11 && deepActiveElement(this.dom.ownerDocument) == this.dom && safariShadowSelectionRange(this, sel) || sel; } /** @internal */ domSelection() { return this.root.getSelection(); } }; function computeDocDeco(view) { let attrs = /* @__PURE__ */ Object.create(null); attrs.class = "ProseMirror"; attrs.contenteditable = String(view.editable); view.someProp("attributes", (value) => { if (typeof value == "function") value = value(view.state); if (value) for (let attr in value) { if (attr == "class") attrs.class += " " + value[attr]; else if (attr == "style") attrs.style = (attrs.style ? attrs.style + ";" : "") + value[attr]; else if (!attrs[attr] && attr != "contenteditable" && attr != "nodeName") attrs[attr] = String(value[attr]); } }); if (!attrs.translate) attrs.translate = "no"; return [Decoration.node(0, view.state.doc.content.size, attrs)]; } function updateCursorWrapper(view) { if (view.markCursor) { let dom = document.createElement("img"); dom.className = "ProseMirror-separator"; dom.setAttribute("mark-placeholder", "true"); dom.setAttribute("alt", ""); view.cursorWrapper = { dom, deco: Decoration.widget(view.state.selection.head, dom, { raw: true, marks: view.markCursor }) }; } else { view.cursorWrapper = null; } } function getEditable(view) { return !view.someProp("editable", (value) => value(view.state) === false); } function selectionContextChanged(sel1, sel2) { let depth = Math.min(sel1.$anchor.sharedDepth(sel1.head), sel2.$anchor.sharedDepth(sel2.head)); return sel1.$anchor.start(depth) != sel2.$anchor.start(depth); } function buildNodeViews(view) { let result = /* @__PURE__ */ Object.create(null); function add(obj) { for (let prop in obj) if (!Object.prototype.hasOwnProperty.call(result, prop)) result[prop] = obj[prop]; } view.someProp("nodeViews", add); view.someProp("markViews", add); return result; } function changedNodeViews(a2, b4) { let nA = 0, nB = 0; for (let prop in a2) { if (a2[prop] != b4[prop]) return true; nA++; } for (let _3 in b4) nB++; return nA != nB; } function checkStateComponent(plugin) { if (plugin.spec.state || plugin.spec.filterTransaction || plugin.spec.appendTransaction) throw new RangeError("Plugins passed directly to the view must not have a state component"); } // node_modules/prosemirror-inputrules/dist/index.js var InputRule = class { // :: (RegExp, union) /** Create an input rule. The rule applies when the user typed something and the text directly in front of the cursor matches `match`, which should end with `$`. The `handler` can be a string, in which case the matched text, or the first matched group in the regexp, is replaced by that string. Or a it can be a function, which will be called with the match array produced by [`RegExp.exec`](https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/RegExp/exec), as well as the start and end of the matched range, and which can return a [transaction](https://prosemirror.net/docs/ref/#state.Transaction) that describes the rule's effect, or null to indicate the input was not handled. */ constructor(match, handler, options2 = {}) { this.match = match; this.match = match; this.handler = typeof handler == "string" ? stringHandler(handler) : handler; this.undoable = options2.undoable !== false; this.inCode = options2.inCode || false; } }; function stringHandler(string3) { return function(state, match, start, end) { let insert = string3; if (match[1]) { let offset = match[0].lastIndexOf(match[1]); insert += match[0].slice(offset + match[1].length); start += offset; let cutOff = start - end; if (cutOff > 0) { insert = match[0].slice(offset - cutOff, offset) + insert; start = end; } } return state.tr.insertText(insert, start, end); }; } var undoInputRule = (state, dispatch) => { let plugins = state.plugins; for (let i2 = 0; i2 < plugins.length; i2++) { let plugin = plugins[i2], undoable; if (plugin.spec.isInputRules && (undoable = plugin.getState(state))) { if (dispatch) { let tr = state.tr, toUndo = undoable.transform; for (let j6 = toUndo.steps.length - 1; j6 >= 0; j6--) tr.step(toUndo.steps[j6].invert(toUndo.docs[j6])); if (undoable.text) { let marks = tr.doc.resolve(undoable.from).marks(); tr.replaceWith(undoable.from, undoable.to, state.schema.text(undoable.text, marks)); } else { tr.delete(undoable.from, undoable.to); } dispatch(tr); } return true; } } return false; }; var emDash = new InputRule(/--$/, "\u2014"); var ellipsis = new InputRule(/\.\.\.$/, "\u2026"); var openDoubleQuote = new InputRule(/(?:^|[\s\{\[\(\<'"\u2018\u201C])(")$/, "\u201C"); var closeDoubleQuote = new InputRule(/"$/, "\u201D"); var openSingleQuote = new InputRule(/(?:^|[\s\{\[\(\<'"\u2018\u201C])(')$/, "\u2018"); var closeSingleQuote = new InputRule(/'$/, "\u2019"); function wrappingInputRule(regexp, nodeType, getAttrs = null, joinPredicate) { return new InputRule(regexp, (state, match, start, end) => { let attrs = getAttrs instanceof Function ? getAttrs(match) : getAttrs; let tr = state.tr.delete(start, end); let $start = tr.doc.resolve(start), range = $start.blockRange(), wrapping = range && findWrapping(range, nodeType, attrs); if (!wrapping) return null; tr.wrap(range, wrapping); let before = tr.doc.resolve(start - 1).nodeBefore; if (before && before.type == nodeType && canJoin(tr.doc, start - 1) && (!joinPredicate || joinPredicate(match, before))) tr.join(start - 1); return tr; }); } function textblockTypeInputRule(regexp, nodeType, getAttrs = null) { return new InputRule(regexp, (state, match, start, end) => { let $start = state.doc.resolve(start); let attrs = getAttrs instanceof Function ? getAttrs(match) : getAttrs; if (!$start.node(-1).canReplaceWith($start.index(-1), $start.indexAfter(-1), nodeType)) return null; return state.tr.delete(start, end).setBlockType(start, start, nodeType, attrs); }); } // node_modules/@milkdown/prose/lib/index.js var nav2 = typeof navigator != "undefined" ? navigator : null; var doc3 = typeof document != "undefined" ? document : null; var agent2 = nav2 && nav2.userAgent || ""; var ie_edge2 = /Edge\/(\d+)/.exec(agent2); var ie_upto102 = /MSIE \d/.exec(agent2); var ie_11up2 = /Trident\/(?:[7-9]|\d{2,})\..*rv:(\d+)/.exec(agent2); var ie2 = !!(ie_upto102 || ie_11up2 || ie_edge2); var ie_version2 = ie_upto102 ? document.documentMode : ie_11up2 ? +ie_11up2[1] : ie_edge2 ? +ie_edge2[1] : 0; var gecko2 = !ie2 && /gecko\/(\d+)/i.test(agent2); var gecko_version = gecko2 && +(/Firefox\/(\d+)/.exec(agent2) || [0, 0])[1]; var _chrome2 = !ie2 && /Chrome\/(\d+)/.exec(agent2); var chrome2 = !!_chrome2; var chrome_version2 = _chrome2 ? +_chrome2[1] : 0; var safari2 = !ie2 && !!nav2 && /Apple Computer/.test(nav2.vendor); var ios2 = safari2 && (/Mobile\/\w+/.test(agent2) || !!nav2 && nav2.maxTouchPoints > 2); var mac2 = ios2 || (nav2 ? /Mac/.test(nav2.platform) : false); var android2 = /Android \d/.test(agent2); var webkit2 = !!doc3 && "webkitFontSmoothing" in doc3.documentElement.style; var webkit_version2 = webkit2 ? +(/\bAppleWebKit\/(\d+)/.exec(navigator.userAgent) || [0, 0])[1] : 0; var browser = /* @__PURE__ */ Object.freeze({ __proto__: null, android: android2, chrome: chrome2, chrome_version: chrome_version2, gecko: gecko2, gecko_version, ie: ie2, ie_version: ie_version2, ios: ios2, mac: mac2, safari: safari2, webkit: webkit2, webkit_version: webkit_version2 }); function run(view, from, to, text5, rules, plugin) { if (view.composing) return false; const state = view.state; const $from = state.doc.resolve(from); if ($from.parent.type.spec.code) return false; const textBefore = $from.parent.textBetween(Math.max(0, $from.parentOffset - 500), $from.parentOffset, void 0, "\uFFFC") + text5; for (let i2 = 0; i2 < rules.length; i2++) { const match = rules[i2].match.exec(textBefore); const tr = match && match[0] && rules[i2].handler(state, match, from - (match[0].length - text5.length), to); if (!tr) continue; view.dispatch(tr.setMeta(plugin, { transform: tr, from, to, text: text5 })); return true; } return false; } var customInputRulesKey = new PluginKey("MILKDOWN_CUSTOM_INPUTRULES"); function customInputRules({ rules }) { const plugin = new Plugin({ key: customInputRulesKey, isInputRules: true, state: { init() { return null; }, apply(tr, prev) { const stored = tr.getMeta(this); if (stored) return stored; return tr.selectionSet || tr.docChanged ? null : prev; } }, props: { handleTextInput(view, from, to, text5) { return run(view, from, to, text5, rules, plugin); }, handleDOMEvents: { compositionend: (view) => { setTimeout(() => { const { $cursor } = view.state.selection; if ($cursor) run(view, $cursor.pos, $cursor.pos, "", rules, plugin); }); return false; } }, handleKeyDown(view, event) { if (event.key !== "Enter") return false; const { $cursor } = view.state.selection; if ($cursor) return run(view, $cursor.pos, $cursor.pos, "\n", rules, plugin); return false; } } }); return plugin; } function markRule(regexp, markType, options2 = {}) { return new InputRule(regexp, (state, match, start, end) => { var _a, _b, _c, _d; const { tr } = state; const matchLength = match.length; let group = match[matchLength - 1]; let fullMatch = match[0]; let initialStoredMarks = []; let markEnd = end; const captured = { group, fullMatch, start, end }; const result = (_a = options2.updateCaptured) == null ? void 0 : _a.call(options2, captured); Object.assign(captured, result); ({ group, fullMatch, start, end } = captured); if (fullMatch === null) return null; if ((group == null ? void 0 : group.trim()) === "") return null; if (group) { const startSpaces = fullMatch.search(/\S/); const textStart = start + fullMatch.indexOf(group); const textEnd = textStart + group.length; initialStoredMarks = (_b = tr.storedMarks) != null ? _b : []; if (textEnd < end) tr.delete(textEnd, end); if (textStart > start) tr.delete(start + startSpaces, textStart); markEnd = start + startSpaces + group.length; const attrs = (_c = options2.getAttr) == null ? void 0 : _c.call(options2, match); tr.addMark(start, markEnd, markType.create(attrs)); tr.setStoredMarks(initialStoredMarks); (_d = options2.beforeDispatch) == null ? void 0 : _d.call(options2, { match, start, end, tr }); } return tr; }); } function cloneTr(tr) { return Object.assign(Object.create(tr), tr).setTime(Date.now()); } function equalNodeType(nodeType, node2) { return Array.isArray(nodeType) && nodeType.includes(node2.type) || node2.type === nodeType; } function findParentNodeClosestToPos(predicate) { return ($pos) => { for (let i2 = $pos.depth; i2 > 0; i2--) { const node2 = $pos.node(i2); if (predicate(node2)) { return { pos: i2 > 0 ? $pos.before(i2) : 0, start: $pos.start(i2), depth: i2, node: node2 }; } } return void 0; }; } function findParentNode(predicate) { return (selection) => { return findParentNodeClosestToPos(predicate)(selection.$from); }; } function findSelectedNodeOfType(selection, nodeType) { if (!(selection instanceof NodeSelection)) return; const { node: node2, $from } = selection; if (equalNodeType(nodeType, node2)) return { node: node2, pos: $from.pos, start: $from.start($from.depth), depth: $from.depth }; return void 0; } // node_modules/prosemirror-commands/dist/index.js var deleteSelection = (state, dispatch) => { if (state.selection.empty) return false; if (dispatch) dispatch(state.tr.deleteSelection().scrollIntoView()); return true; }; function atBlockStart(state, view) { let { $cursor } = state.selection; if (!$cursor || (view ? !view.endOfTextblock("backward", state) : $cursor.parentOffset > 0)) return null; return $cursor; } var joinBackward = (state, dispatch, view) => { let $cursor = atBlockStart(state, view); if (!$cursor) return false; let $cut = findCutBefore($cursor); if (!$cut) { let range = $cursor.blockRange(), target = range && liftTarget(range); if (target == null) return false; if (dispatch) dispatch(state.tr.lift(range, target).scrollIntoView()); return true; } let before = $cut.nodeBefore; if (!before.type.spec.isolating && deleteBarrier(state, $cut, dispatch)) return true; if ($cursor.parent.content.size == 0 && (textblockAt(before, "end") || NodeSelection.isSelectable(before))) { let delStep = replaceStep(state.doc, $cursor.before(), $cursor.after(), Slice.empty); if (delStep && delStep.slice.size < delStep.to - delStep.from) { if (dispatch) { let tr = state.tr.step(delStep); tr.setSelection(textblockAt(before, "end") ? Selection.findFrom(tr.doc.resolve(tr.mapping.map($cut.pos, -1)), -1) : NodeSelection.create(tr.doc, $cut.pos - before.nodeSize)); dispatch(tr.scrollIntoView()); } return true; } } if (before.isAtom && $cut.depth == $cursor.depth - 1) { if (dispatch) dispatch(state.tr.delete($cut.pos - before.nodeSize, $cut.pos).scrollIntoView()); return true; } return false; }; function textblockAt(node2, side, only = false) { for (let scan = node2; scan; scan = side == "start" ? scan.firstChild : scan.lastChild) { if (scan.isTextblock) return true; if (only && scan.childCount != 1) return false; } return false; } var selectNodeBackward = (state, dispatch, view) => { let { $head, empty: empty3 } = state.selection, $cut = $head; if (!empty3) return false; if ($head.parent.isTextblock) { if (view ? !view.endOfTextblock("backward", state) : $head.parentOffset > 0) return false; $cut = findCutBefore($head); } let node2 = $cut && $cut.nodeBefore; if (!node2 || !NodeSelection.isSelectable(node2)) return false; if (dispatch) dispatch(state.tr.setSelection(NodeSelection.create(state.doc, $cut.pos - node2.nodeSize)).scrollIntoView()); return true; }; function findCutBefore($pos) { if (!$pos.parent.type.spec.isolating) for (let i2 = $pos.depth - 1; i2 >= 0; i2--) { if ($pos.index(i2) > 0) return $pos.doc.resolve($pos.before(i2 + 1)); if ($pos.node(i2).type.spec.isolating) break; } return null; } function atBlockEnd(state, view) { let { $cursor } = state.selection; if (!$cursor || (view ? !view.endOfTextblock("forward", state) : $cursor.parentOffset < $cursor.parent.content.size)) return null; return $cursor; } var joinForward = (state, dispatch, view) => { let $cursor = atBlockEnd(state, view); if (!$cursor) return false; let $cut = findCutAfter($cursor); if (!$cut) return false; let after = $cut.nodeAfter; if (deleteBarrier(state, $cut, dispatch)) return true; if ($cursor.parent.content.size == 0 && (textblockAt(after, "start") || NodeSelection.isSelectable(after))) { let delStep = replaceStep(state.doc, $cursor.before(), $cursor.after(), Slice.empty); if (delStep && delStep.slice.size < delStep.to - delStep.from) { if (dispatch) { let tr = state.tr.step(delStep); tr.setSelection(textblockAt(after, "start") ? Selection.findFrom(tr.doc.resolve(tr.mapping.map($cut.pos)), 1) : NodeSelection.create(tr.doc, tr.mapping.map($cut.pos))); dispatch(tr.scrollIntoView()); } return true; } } if (after.isAtom && $cut.depth == $cursor.depth - 1) { if (dispatch) dispatch(state.tr.delete($cut.pos, $cut.pos + after.nodeSize).scrollIntoView()); return true; } return false; }; var selectNodeForward = (state, dispatch, view) => { let { $head, empty: empty3 } = state.selection, $cut = $head; if (!empty3) return false; if ($head.parent.isTextblock) { if (view ? !view.endOfTextblock("forward", state) : $head.parentOffset < $head.parent.content.size) return false; $cut = findCutAfter($head); } let node2 = $cut && $cut.nodeAfter; if (!node2 || !NodeSelection.isSelectable(node2)) return false; if (dispatch) dispatch(state.tr.setSelection(NodeSelection.create(state.doc, $cut.pos)).scrollIntoView()); return true; }; function findCutAfter($pos) { if (!$pos.parent.type.spec.isolating) for (let i2 = $pos.depth - 1; i2 >= 0; i2--) { let parent = $pos.node(i2); if ($pos.index(i2) + 1 < parent.childCount) return $pos.doc.resolve($pos.after(i2 + 1)); if (parent.type.spec.isolating) break; } return null; } var newlineInCode = (state, dispatch) => { let { $head, $anchor } = state.selection; if (!$head.parent.type.spec.code || !$head.sameParent($anchor)) return false; if (dispatch) dispatch(state.tr.insertText("\n").scrollIntoView()); return true; }; function defaultBlockAt(match) { for (let i2 = 0; i2 < match.edgeCount; i2++) { let { type } = match.edge(i2); if (type.isTextblock && !type.hasRequiredAttrs()) return type; } return null; } var exitCode = (state, dispatch) => { let { $head, $anchor } = state.selection; if (!$head.parent.type.spec.code || !$head.sameParent($anchor)) return false; let above = $head.node(-1), after = $head.indexAfter(-1), type = defaultBlockAt(above.contentMatchAt(after)); if (!type || !above.canReplaceWith(after, after, type)) return false; if (dispatch) { let pos = $head.after(), tr = state.tr.replaceWith(pos, pos, type.createAndFill()); tr.setSelection(Selection.near(tr.doc.resolve(pos), 1)); dispatch(tr.scrollIntoView()); } return true; }; var createParagraphNear = (state, dispatch) => { let sel = state.selection, { $from, $to } = sel; if (sel instanceof AllSelection || $from.parent.inlineContent || $to.parent.inlineContent) return false; let type = defaultBlockAt($to.parent.contentMatchAt($to.indexAfter())); if (!type || !type.isTextblock) return false; if (dispatch) { let side = (!$from.parentOffset && $to.index() < $to.parent.childCount ? $from : $to).pos; let tr = state.tr.insert(side, type.createAndFill()); tr.setSelection(TextSelection.create(tr.doc, side + 1)); dispatch(tr.scrollIntoView()); } return true; }; var liftEmptyBlock = (state, dispatch) => { let { $cursor } = state.selection; if (!$cursor || $cursor.parent.content.size) return false; if ($cursor.depth > 1 && $cursor.after() != $cursor.end(-1)) { let before = $cursor.before(); if (canSplit(state.doc, before)) { if (dispatch) dispatch(state.tr.split(before).scrollIntoView()); return true; } } let range = $cursor.blockRange(), target = range && liftTarget(range); if (target == null) return false; if (dispatch) dispatch(state.tr.lift(range, target).scrollIntoView()); return true; }; function splitBlockAs(splitNode) { return (state, dispatch) => { let { $from, $to } = state.selection; if (state.selection instanceof NodeSelection && state.selection.node.isBlock) { if (!$from.parentOffset || !canSplit(state.doc, $from.pos)) return false; if (dispatch) dispatch(state.tr.split($from.pos).scrollIntoView()); return true; } if (!$from.parent.isBlock) return false; if (dispatch) { let atEnd = $to.parentOffset == $to.parent.content.size; let tr = state.tr; if (state.selection instanceof TextSelection || state.selection instanceof AllSelection) tr.deleteSelection(); let deflt = $from.depth == 0 ? null : defaultBlockAt($from.node(-1).contentMatchAt($from.indexAfter(-1))); let splitType = splitNode && splitNode($to.parent, atEnd); let types = splitType ? [splitType] : atEnd && deflt ? [{ type: deflt }] : void 0; let can = canSplit(tr.doc, tr.mapping.map($from.pos), 1, types); if (!types && !can && canSplit(tr.doc, tr.mapping.map($from.pos), 1, deflt ? [{ type: deflt }] : void 0)) { if (deflt) types = [{ type: deflt }]; can = true; } if (can) { tr.split(tr.mapping.map($from.pos), 1, types); if (!atEnd && !$from.parentOffset && $from.parent.type != deflt) { let first = tr.mapping.map($from.before()), $first = tr.doc.resolve(first); if (deflt && $from.node(-1).canReplaceWith($first.index(), $first.index() + 1, deflt)) tr.setNodeMarkup(tr.mapping.map($from.before()), deflt); } } dispatch(tr.scrollIntoView()); } return true; }; } var splitBlock = splitBlockAs(); var selectAll = (state, dispatch) => { if (dispatch) dispatch(state.tr.setSelection(new AllSelection(state.doc))); return true; }; function joinMaybeClear(state, $pos, dispatch) { let before = $pos.nodeBefore, after = $pos.nodeAfter, index2 = $pos.index(); if (!before || !after || !before.type.compatibleContent(after.type)) return false; if (!before.content.size && $pos.parent.canReplace(index2 - 1, index2)) { if (dispatch) dispatch(state.tr.delete($pos.pos - before.nodeSize, $pos.pos).scrollIntoView()); return true; } if (!$pos.parent.canReplace(index2, index2 + 1) || !(after.isTextblock || canJoin(state.doc, $pos.pos))) return false; if (dispatch) dispatch(state.tr.clearIncompatible($pos.pos, before.type, before.contentMatchAt(before.childCount)).join($pos.pos).scrollIntoView()); return true; } function deleteBarrier(state, $cut, dispatch) { let before = $cut.nodeBefore, after = $cut.nodeAfter, conn, match; if (before.type.spec.isolating || after.type.spec.isolating) return false; if (joinMaybeClear(state, $cut, dispatch)) return true; let canDelAfter = $cut.parent.canReplace($cut.index(), $cut.index() + 1); if (canDelAfter && (conn = (match = before.contentMatchAt(before.childCount)).findWrapping(after.type)) && match.matchType(conn[0] || after.type).validEnd) { if (dispatch) { let end = $cut.pos + after.nodeSize, wrap3 = Fragment.empty; for (let i2 = conn.length - 1; i2 >= 0; i2--) wrap3 = Fragment.from(conn[i2].create(null, wrap3)); wrap3 = Fragment.from(before.copy(wrap3)); let tr = state.tr.step(new ReplaceAroundStep($cut.pos - 1, end, $cut.pos, end, new Slice(wrap3, 1, 0), conn.length, true)); let joinAt = end + 2 * conn.length; if (canJoin(tr.doc, joinAt)) tr.join(joinAt); dispatch(tr.scrollIntoView()); } return true; } let selAfter = Selection.findFrom($cut, 1); let range = selAfter && selAfter.$from.blockRange(selAfter.$to), target = range && liftTarget(range); if (target != null && target >= $cut.depth) { if (dispatch) dispatch(state.tr.lift(range, target).scrollIntoView()); return true; } if (canDelAfter && textblockAt(after, "start", true) && textblockAt(before, "end")) { let at4 = before, wrap3 = []; for (; ; ) { wrap3.push(at4); if (at4.isTextblock) break; at4 = at4.lastChild; } let afterText = after, afterDepth = 1; for (; !afterText.isTextblock; afterText = afterText.firstChild) afterDepth++; if (at4.canReplace(at4.childCount, at4.childCount, afterText.content)) { if (dispatch) { let end = Fragment.empty; for (let i2 = wrap3.length - 1; i2 >= 0; i2--) end = Fragment.from(wrap3[i2].copy(end)); let tr = state.tr.step(new ReplaceAroundStep($cut.pos - wrap3.length, $cut.pos + after.nodeSize, $cut.pos + afterDepth, $cut.pos + after.nodeSize - afterDepth, new Slice(end, wrap3.length, 0), 0, true)); dispatch(tr.scrollIntoView()); } return true; } } return false; } function selectTextblockSide(side) { return function(state, dispatch) { let sel = state.selection, $pos = side < 0 ? sel.$from : sel.$to; let depth = $pos.depth; while ($pos.node(depth).isInline) { if (!depth) return false; depth--; } if (!$pos.node(depth).isTextblock) return false; if (dispatch) dispatch(state.tr.setSelection(TextSelection.create(state.doc, side < 0 ? $pos.start(depth) : $pos.end(depth)))); return true; }; } var selectTextblockStart = selectTextblockSide(-1); var selectTextblockEnd = selectTextblockSide(1); function wrapIn(nodeType, attrs = null) { return function(state, dispatch) { let { $from, $to } = state.selection; let range = $from.blockRange($to), wrapping = range && findWrapping(range, nodeType, attrs); if (!wrapping) return false; if (dispatch) dispatch(state.tr.wrap(range, wrapping).scrollIntoView()); return true; }; } function setBlockType2(nodeType, attrs = null) { return function(state, dispatch) { let applicable = false; for (let i2 = 0; i2 < state.selection.ranges.length && !applicable; i2++) { let { $from: { pos: from }, $to: { pos: to } } = state.selection.ranges[i2]; state.doc.nodesBetween(from, to, (node2, pos) => { if (applicable) return false; if (!node2.isTextblock || node2.hasMarkup(nodeType, attrs)) return; if (node2.type == nodeType) { applicable = true; } else { let $pos = state.doc.resolve(pos), index2 = $pos.index(); applicable = $pos.parent.canReplaceWith(index2, index2 + 1, nodeType); } }); } if (!applicable) return false; if (dispatch) { let tr = state.tr; for (let i2 = 0; i2 < state.selection.ranges.length; i2++) { let { $from: { pos: from }, $to: { pos: to } } = state.selection.ranges[i2]; tr.setBlockType(from, to, nodeType, attrs); } dispatch(tr.scrollIntoView()); } return true; }; } function markApplies(doc4, ranges, type) { for (let i2 = 0; i2 < ranges.length; i2++) { let { $from, $to } = ranges[i2]; let can = $from.depth == 0 ? doc4.inlineContent && doc4.type.allowsMarkType(type) : false; doc4.nodesBetween($from.pos, $to.pos, (node2) => { if (can) return false; can = node2.inlineContent && node2.type.allowsMarkType(type); }); if (can) return true; } return false; } function toggleMark(markType, attrs = null) { return function(state, dispatch) { let { empty: empty3, $cursor, ranges } = state.selection; if (empty3 && !$cursor || !markApplies(state.doc, ranges, markType)) return false; if (dispatch) { if ($cursor) { if (markType.isInSet(state.storedMarks || $cursor.marks())) dispatch(state.tr.removeStoredMark(markType)); else dispatch(state.tr.addStoredMark(markType.create(attrs))); } else { let has = false, tr = state.tr; for (let i2 = 0; !has && i2 < ranges.length; i2++) { let { $from, $to } = ranges[i2]; has = state.doc.rangeHasMark($from.pos, $to.pos, markType); } for (let i2 = 0; i2 < ranges.length; i2++) { let { $from, $to } = ranges[i2]; if (has) { tr.removeMark($from.pos, $to.pos, markType); } else { let from = $from.pos, to = $to.pos, start = $from.nodeAfter, end = $to.nodeBefore; let spaceStart = start && start.isText ? /^\s*/.exec(start.text)[0].length : 0; let spaceEnd = end && end.isText ? /\s*$/.exec(end.text)[0].length : 0; if (from + spaceStart < to) { from += spaceStart; to -= spaceEnd; } tr.addMark(from, to, markType.create(attrs)); } } dispatch(tr.scrollIntoView()); } } return true; }; } function chainCommands(...commands) { return function(state, dispatch, view) { for (let i2 = 0; i2 < commands.length; i2++) if (commands[i2](state, dispatch, view)) return true; return false; }; } var backspace = chainCommands(deleteSelection, joinBackward, selectNodeBackward); var del = chainCommands(deleteSelection, joinForward, selectNodeForward); var pcBaseKeymap = { "Enter": chainCommands(newlineInCode, createParagraphNear, liftEmptyBlock, splitBlock), "Mod-Enter": exitCode, "Backspace": backspace, "Mod-Backspace": backspace, "Shift-Backspace": backspace, "Delete": del, "Mod-Delete": del, "Mod-a": selectAll }; var macBaseKeymap = { "Ctrl-h": pcBaseKeymap["Backspace"], "Alt-Backspace": pcBaseKeymap["Mod-Backspace"], "Ctrl-d": pcBaseKeymap["Delete"], "Ctrl-Alt-Backspace": pcBaseKeymap["Mod-Delete"], "Alt-Delete": pcBaseKeymap["Mod-Delete"], "Alt-d": pcBaseKeymap["Mod-Delete"], "Ctrl-a": selectTextblockStart, "Ctrl-e": selectTextblockEnd }; for (let key in pcBaseKeymap) macBaseKeymap[key] = pcBaseKeymap[key]; var mac3 = typeof navigator != "undefined" ? /Mac|iP(hone|[oa]d)/.test(navigator.platform) : typeof os != "undefined" && os.platform ? os.platform() == "darwin" : false; var baseKeymap = mac3 ? macBaseKeymap : pcBaseKeymap; // node_modules/w3c-keyname/index.js var base = { 8: "Backspace", 9: "Tab", 10: "Enter", 12: "NumLock", 13: "Enter", 16: "Shift", 17: "Control", 18: "Alt", 20: "CapsLock", 27: "Escape", 32: " ", 33: "PageUp", 34: "PageDown", 35: "End", 36: "Home", 37: "ArrowLeft", 38: "ArrowUp", 39: "ArrowRight", 40: "ArrowDown", 44: "PrintScreen", 45: "Insert", 46: "Delete", 59: ";", 61: "=", 91: "Meta", 92: "Meta", 106: "*", 107: "+", 108: ",", 109: "-", 110: ".", 111: "/", 144: "NumLock", 145: "ScrollLock", 160: "Shift", 161: "Shift", 162: "Control", 163: "Control", 164: "Alt", 165: "Alt", 173: "-", 186: ";", 187: "=", 188: ",", 189: "-", 190: ".", 191: "/", 192: "`", 219: "[", 220: "\\", 221: "]", 222: "'" }; var shift = { 48: ")", 49: "!", 50: "@", 51: "#", 52: "$", 53: "%", 54: "^", 55: "&", 56: "*", 57: "(", 59: ":", 61: "+", 173: "_", 186: ":", 187: "+", 188: "<", 189: "_", 190: ">", 191: "?", 192: "~", 219: "{", 220: "|", 221: "}", 222: '"' }; var mac4 = typeof navigator != "undefined" && /Mac/.test(navigator.platform); var ie3 = typeof navigator != "undefined" && /MSIE \d|Trident\/(?:[7-9]|\d{2,})\..*rv:(\d+)/.exec(navigator.userAgent); for (i2 = 0; i2 < 10; i2++) base[48 + i2] = base[96 + i2] = String(i2); var i2; for (i2 = 1; i2 <= 24; i2++) base[i2 + 111] = "F" + i2; var i2; for (i2 = 65; i2 <= 90; i2++) { base[i2] = String.fromCharCode(i2 + 32); shift[i2] = String.fromCharCode(i2); } var i2; for (code3 in base) if (!shift.hasOwnProperty(code3)) shift[code3] = base[code3]; var code3; function keyName(event) { var ignoreKey = mac4 && event.metaKey && event.shiftKey && !event.ctrlKey && !event.altKey || ie3 && event.shiftKey && event.key && event.key.length == 1 || event.key == "Unidentified"; var name = !ignoreKey && event.key || (event.shiftKey ? shift : base)[event.keyCode] || event.key || "Unidentified"; if (name == "Esc") name = "Escape"; if (name == "Del") name = "Delete"; if (name == "Left") name = "ArrowLeft"; if (name == "Up") name = "ArrowUp"; if (name == "Right") name = "ArrowRight"; if (name == "Down") name = "ArrowDown"; return name; } // node_modules/prosemirror-keymap/dist/index.js var mac5 = typeof navigator != "undefined" ? /Mac|iP(hone|[oa]d)/.test(navigator.platform) : false; function normalizeKeyName(name) { let parts = name.split(/-(?!$)/), result = parts[parts.length - 1]; if (result == "Space") result = " "; let alt, ctrl, shift2, meta; for (let i2 = 0; i2 < parts.length - 1; i2++) { let mod = parts[i2]; if (/^(cmd|meta|m)$/i.test(mod)) meta = true; else if (/^a(lt)?$/i.test(mod)) alt = true; else if (/^(c|ctrl|control)$/i.test(mod)) ctrl = true; else if (/^s(hift)?$/i.test(mod)) shift2 = true; else if (/^mod$/i.test(mod)) { if (mac5) meta = true; else ctrl = true; } else throw new Error("Unrecognized modifier name: " + mod); } if (alt) result = "Alt-" + result; if (ctrl) result = "Ctrl-" + result; if (meta) result = "Meta-" + result; if (shift2) result = "Shift-" + result; return result; } function normalize2(map5) { let copy2 = /* @__PURE__ */ Object.create(null); for (let prop in map5) copy2[normalizeKeyName(prop)] = map5[prop]; return copy2; } function modifiers(name, event, shift2 = true) { if (event.altKey) name = "Alt-" + name; if (event.ctrlKey) name = "Ctrl-" + name; if (event.metaKey) name = "Meta-" + name; if (shift2 && event.shiftKey) name = "Shift-" + name; return name; } function keymap(bindings) { return new Plugin({ props: { handleKeyDown: keydownHandler(bindings) } }); } function keydownHandler(bindings) { let map5 = normalize2(bindings); return function(view, event) { let name = keyName(event), baseName, direct = map5[modifiers(name, event)]; if (direct && direct(view.state, view.dispatch, view)) return true; if (name.length == 1 && name != " ") { if (event.shiftKey) { let noShift = map5[modifiers(name, event, false)]; if (noShift && noShift(view.state, view.dispatch, view)) return true; } if ((event.shiftKey || event.altKey || event.metaKey || name.charCodeAt(0) > 127) && (baseName = base[event.keyCode]) && baseName != name) { let fromCode = map5[modifiers(baseName, event)]; if (fromCode && fromCode(view.state, view.dispatch, view)) return true; } } return false; }; } // node_modules/@milkdown/core/lib/index.es.js var ve = (e2, t2, r3) => { if (!t2.has(e2)) throw TypeError("Cannot " + r3); }; var s = (e2, t2, r3) => (ve(e2, t2, "read from private field"), r3 ? r3.call(e2) : t2.get(e2)); var d4 = (e2, t2, r3) => { if (t2.has(e2)) throw TypeError("Cannot add the same private member more than once"); t2 instanceof WeakSet ? t2.add(e2) : t2.set(e2, r3); }; var c3 = (e2, t2, r3, i2) => (ve(e2, t2, "write to private field"), i2 ? i2.call(e2, r3) : t2.set(e2, r3), r3); function k3(e2, t2) { return e2.meta = __spreadValues({ package: "@milkdown/core", group: "System" }, t2), e2; } var De = { strong: (e2, t2, r3, i2) => { const n4 = e2.marker || r3.options.strong || "*", a2 = r3.enter("strong"), h5 = r3.createTracker(i2); let m3 = h5.move(n4 + n4); return m3 += h5.move( r3.containerPhrasing(e2, __spreadValues({ before: m3, after: n4 }, h5.current())) ), m3 += h5.move(n4 + n4), a2(), m3; }, emphasis: (e2, t2, r3, i2) => { const n4 = e2.marker || r3.options.emphasis || "*", a2 = r3.enter("emphasis"), h5 = r3.createTracker(i2); let m3 = h5.move(n4); return m3 += h5.move( r3.containerPhrasing(e2, __spreadValues({ before: m3, after: n4 }, h5.current())) ), m3 += h5.move(n4), a2(), m3; } }; var L3 = K("ConfigReady"); function ot(e2) { const t2 = (r3) => (r3.record(L3), async () => (await e2(r3), r3.done(L3), () => { r3.clearTimer(L3); })); return k3(t2, { displayName: "Config" }), t2; } var M4 = K("InitReady"); var G3 = H([], "initTimer"); var ke = H({}, "editor"); var ue = H([], "inputRules"); var N2 = H([], "prosePlugins"); var pe = H([], "remarkPlugins"); var fe = H([], "nodeView"); var ye = H([], "markView"); var P3 = H(unified().use(remarkParse).use(remarkStringify), "remark"); var Q2 = H({ handlers: De }, "remarkStringifyOptions"); function at(e2) { const t2 = (r3) => (r3.inject(ke, e2).inject(N2, []).inject(pe, []).inject(ue, []).inject(fe, []).inject(ye, []).inject(Q2, { handlers: De }).inject(P3, unified().use(remarkParse).use(remarkStringify)).inject(G3, [L3]).record(M4), async () => { await r3.waitTimers(G3); const i2 = r3.get(Q2); return r3.set(P3, unified().use(remarkParse).use(remarkStringify, i2)), r3.done(M4), () => { r3.remove(ke).remove(N2).remove(pe).remove(ue).remove(fe).remove(ye).remove(Q2).remove(P3).remove(G3).clearTimer(M4); }; }); return k3(t2, { displayName: "Init" }), t2; } var R3 = K("SchemaReady"); var U3 = H([], "schemaTimer"); var b2 = H({}, "schema"); var X = H([], "nodes"); var Z2 = H([], "marks"); function Te(e2) { var t2; return __spreadProps(__spreadValues({}, e2), { parseDOM: (t2 = e2.parseDOM) == null ? void 0 : t2.map((r3) => __spreadValues({ priority: e2.priority }, r3)) }); } var Ee = (e2) => (e2.inject(b2, {}).inject(X, []).inject(Z2, []).inject(U3, [M4]).record(R3), async () => { await e2.waitTimers(U3); const t2 = e2.get(P3), i2 = e2.get(pe).reduce((m3, f3) => m3.use(f3.plugin, f3.options), t2); e2.set(P3, i2); const n4 = Object.fromEntries(e2.get(X).map(([m3, f3]) => [m3, Te(f3)])), a2 = Object.fromEntries(e2.get(Z2).map(([m3, f3]) => [m3, Te(f3)])), h5 = new Schema({ nodes: n4, marks: a2 }); return e2.set(b2, h5), e2.done(R3), () => { e2.remove(b2).remove(X).remove(Z2).remove(U3).clearTimer(R3); }; }); k3(Ee, { displayName: "Schema" }); var W2 = K("ParserReady"); var Ie = () => { throw p(); }; var Y = H(Ie, "parser"); var x4 = H([], "parserTimer"); var Ve = (e2) => (e2.inject(Y, Ie).inject(x4, [R3]).record(W2), async () => { await e2.waitTimers(x4); const t2 = e2.get(P3), r3 = e2.get(b2); return e2.set(Y, H2.create(r3, t2)), e2.done(W2), () => { e2.remove(Y).remove(x4).clearTimer(W2); }; }); k3(Ve, { displayName: "Parser" }); var $ = K("SerializerReady"); var ee = H([], "serializerTimer"); var Me = () => { throw p(); }; var te = H(Me, "serializer"); var Ne = (e2) => (e2.inject(te, Me).inject(ee, [R3]).record($), async () => { await e2.waitTimers(ee); const t2 = e2.get(P3), r3 = e2.get(b2); return e2.set(te, K2.create(r3, t2)), e2.done($), () => { e2.remove(te).remove(ee).clearTimer($); }; }); k3(Ne, { displayName: "Serializer" }); var re = H("", "defaultValue"); var V2 = H({}, "editorState"); var se = H((e2) => e2, "stateOptions"); var ie4 = H([], "editorStateTimer"); var q4 = K("EditorStateReady"); function ct(e2, t2, r3) { if (typeof e2 == "string") return t2(e2); if (e2.type === "html") return DOMParser.fromSchema(r3).parse(e2.dom); if (e2.type === "json") return Node2.fromJSON(r3, e2.value); throw l(e2); } var mt = new PluginKey("MILKDOWN_STATE_TRACKER"); function dt(e2) { const t2 = chainCommands( undoInputRule, deleteSelection, joinBackward, selectNodeBackward ); return e2.Backspace = t2, e2; } var _e = (e2) => (e2.inject(re, "").inject(V2, {}).inject(se, (t2) => t2).inject(ie4, [W2, $, J3]).record(q4), async () => { await e2.waitTimers(ie4); const t2 = e2.get(b2), r3 = e2.get(Y), i2 = e2.get(ue), n4 = e2.get(se), a2 = e2.get(N2), h5 = e2.get(re), m3 = ct(h5, r3, t2), f3 = [ ...a2, new Plugin({ key: mt, state: { init: () => { }, apply: (Be2, F4, ft2, Le2) => { e2.set(V2, Le2); } } }), customInputRules({ rules: i2 }), keymap(dt(baseKeymap)) ]; e2.set(N2, f3); const B3 = n4({ schema: t2, doc: m3, plugins: f3 }), l5 = EditorState.create(B3); return e2.set(V2, l5), e2.done(q4), () => { e2.remove(re).remove(V2).remove(se).remove(ie4).clearTimer(q4); }; }); k3(_e, { displayName: "EditorState" }); var ne = K("EditorViewReady"); var H3 = H({}, "editorView"); var oe = H([], "editorViewTimer"); var ae = H({}, "editorViewOptions"); var ce = H(null, "root"); var we = H(null, "rootDOM"); var ge = H({}, "rootAttrs"); function ht(e2, t2) { const r3 = document.createElement("div"); r3.className = "milkdown", e2.appendChild(r3), t2.set(we, r3); const i2 = t2.get(ge); return Object.entries(i2).forEach(([n4, a2]) => r3.setAttribute(n4, a2)), r3; } function lt(e2) { e2.classList.add("editor"), e2.setAttribute("role", "textbox"); } var ut = new PluginKey("MILKDOWN_VIEW_CLEAR"); var ze = (e2) => (e2.inject(ce, document.body).inject(H3, {}).inject(ae, {}).inject(we, null).inject(ge, {}).inject(oe, [q4]).record(ne), async () => { await e2.wait(M4); const t2 = e2.get(ce) || document.body, r3 = typeof t2 == "string" ? document.querySelector(t2) : t2; e2.update(N2, (f3) => [ new Plugin({ key: ut, view: (B3) => { const l5 = r3 ? ht(r3, e2) : void 0; return (() => { if (l5 && r3) { const F4 = B3.dom; r3.replaceChild(l5, F4), l5.appendChild(F4); } })(), { destroy: () => { l5 != null && l5.parentNode && (l5 == null || l5.parentNode.replaceChild(B3.dom, l5)), l5 == null || l5.remove(); } }; } }), ...f3 ]), await e2.waitTimers(oe); const i2 = e2.get(V2), n4 = e2.get(ae), a2 = Object.fromEntries(e2.get(fe)), h5 = Object.fromEntries(e2.get(ye)), m3 = new EditorView(r3, __spreadValues({ state: i2, nodeViews: a2, markViews: h5 }, n4)); return lt(m3.dom), e2.set(H3, m3), e2.done(ne), () => { m3 == null || m3.destroy(), e2.remove(ce).remove(H3).remove(ae).remove(we).remove(ge).remove(oe).clearTimer(ne); }; }); k3(ze, { displayName: "EditorView" }); var T3; var g4; var Ke = class { constructor() { d4(this, T3, void 0); d4(this, g4, void 0); c3(this, T3, new G()), c3(this, g4, null), this.setCtx = (t2) => { c3(this, g4, t2); }; } get ctx() { return s(this, g4); } /// Register a command into the manager. create(t2, r3) { const i2 = t2.create(s(this, T3).sliceMap); return i2.set(r3), i2; } get(t2) { return s(this, T3).get(t2).get(); } remove(t2) { return s(this, T3).remove(t2); } call(t2, r3) { if (s(this, g4) == null) throw y(); const n4 = this.get(t2)(r3), a2 = s(this, g4).get(H3); return n4(a2.state, a2.dispatch, a2); } }; T3 = /* @__PURE__ */ new WeakMap(), g4 = /* @__PURE__ */ new WeakMap(); function Et(e2 = "cmdKey") { return H(() => () => false, e2); } var je = H(new Ke(), "commands"); var me = H([R3], "commandsTimer"); var J3 = K("CommandsReady"); var Ae = (e2) => { const t2 = new Ke(); return t2.setCtx(e2), e2.inject(je, t2).inject(me, [R3]).record(J3), async () => (await e2.waitTimers(me), e2.done(J3), () => { e2.remove(je).remove(me).clearTimer(J3); }); }; k3(Ae, { displayName: "Commands" }); var j3; var p3; var y3; var D2; var _2; var z3; var u3; var w4; var O2; var K3; var S5; var E3; var A3; var C3; var I2; var Ce = class Ce2 { constructor() { d4(this, j3, void 0); d4(this, p3, void 0); d4(this, y3, void 0); d4(this, D2, void 0); d4(this, _2, void 0); d4(this, z3, void 0); d4(this, u3, void 0); d4(this, w4, void 0); d4(this, O2, void 0); d4(this, K3, void 0); d4(this, S5, void 0); d4(this, E3, void 0); d4(this, A3, void 0); d4(this, C3, void 0); d4(this, I2, void 0); c3(this, j3, false), c3(this, p3, "Idle"), c3(this, y3, []), c3(this, D2, () => { }), c3(this, _2, new G()), c3(this, z3, new J()), c3(this, u3, /* @__PURE__ */ new Map()), c3(this, w4, /* @__PURE__ */ new Map()), c3(this, O2, new U(s(this, _2), s(this, z3))), c3(this, K3, () => { const t2 = ot(async (i2) => { await Promise.all(s(this, y3).map((n4) => n4(i2))); }), r3 = [ Ee, Ve, Ne, Ae, _e, ze, at(this), t2 ]; s(this, S5).call(this, r3, s(this, w4)); }), c3(this, S5, (t2, r3) => { t2.forEach((i2) => { const n4 = s(this, O2).produce(s(this, j3) ? i2.meta : void 0), a2 = i2(n4); r3.set(i2, { ctx: n4, handler: a2, cleanup: void 0 }); }); }), c3(this, E3, (t2, r3 = false) => Promise.all( [t2].flat().map((i2) => { const n4 = s(this, u3).get(i2), a2 = n4 == null ? void 0 : n4.cleanup; return r3 ? s(this, u3).delete(i2) : s(this, u3).set(i2, { ctx: void 0, handler: void 0, cleanup: void 0 }), typeof a2 == "function" ? a2() : a2; }) )), c3(this, A3, async () => { await Promise.all([...s(this, w4).entries()].map(([t2, { cleanup: r3 }]) => typeof r3 == "function" ? r3() : r3)), s(this, w4).clear(); }), c3(this, C3, (t2) => { c3(this, p3, t2), s(this, D2).call(this, t2); }), c3(this, I2, (t2) => [...t2.entries()].map(async ([r3, i2]) => { const { ctx: n4, handler: a2 } = i2; if (!a2) return; const h5 = await a2(); t2.set(r3, { ctx: n4, handler: a2, cleanup: h5 }); })), this.enableInspector = (t2 = true) => (c3(this, j3, t2), this), this.onStatusChange = (t2) => (c3(this, D2, t2), this), this.config = (t2) => (s(this, y3).push(t2), this), this.removeConfig = (t2) => (c3(this, y3, s(this, y3).filter((r3) => r3 !== t2)), this), this.use = (t2) => { const r3 = [t2].flat(); return r3.flat().forEach((i2) => { s(this, u3).set(i2, { ctx: void 0, handler: void 0, cleanup: void 0 }); }), s(this, p3) === "Created" && s(this, S5).call(this, r3, s(this, u3)), this; }, this.remove = async (t2) => s(this, p3) === "OnCreate" ? (console.warn("[Milkdown]: You are trying to remove plugins when the editor is creating, this is not recommended, please check your code."), new Promise((r3) => { setTimeout(() => { r3(this.remove(t2)); }, 50); })) : (await s(this, E3).call(this, [t2].flat(), true), this), this.create = async () => s(this, p3) === "OnCreate" ? this : (s(this, p3) === "Created" && await this.destroy(), s(this, C3).call(this, "OnCreate"), s(this, K3).call(this), s(this, S5).call(this, [...s(this, u3).keys()], s(this, u3)), await Promise.all( [ s(this, I2).call(this, s(this, w4)), s(this, I2).call(this, s(this, u3)) ].flat() ), s(this, C3).call(this, "Created"), this), this.destroy = async (t2 = false) => s(this, p3) === "Destroyed" || s(this, p3) === "OnDestroy" ? this : s(this, p3) === "OnCreate" ? new Promise((r3) => { setTimeout(() => { r3(this.destroy(t2)); }, 50); }) : (t2 && c3(this, y3, []), s(this, C3).call(this, "OnDestroy"), await s(this, E3).call(this, [...s(this, u3).keys()], t2), await s(this, A3).call(this), s(this, C3).call(this, "Destroyed"), this), this.action = (t2) => t2(s(this, O2)), this.inspect = () => s(this, j3) ? [...s(this, w4).values(), ...s(this, u3).values()].map(({ ctx: t2 }) => { var r3; return (r3 = t2 == null ? void 0 : t2.inspector) == null ? void 0 : r3.read(); }).filter((t2) => !!t2) : (console.warn("[Milkdown]: You are trying to collect inspection when inspector is disabled, please enable inspector by `editor.enableInspector()` first."), []); } /// Create a new editor instance. static make() { return new Ce2(); } /// Get the ctx of the editor. get ctx() { return s(this, O2); } /// Get the status of the editor. get status() { return s(this, p3); } }; j3 = /* @__PURE__ */ new WeakMap(), p3 = /* @__PURE__ */ new WeakMap(), y3 = /* @__PURE__ */ new WeakMap(), D2 = /* @__PURE__ */ new WeakMap(), _2 = /* @__PURE__ */ new WeakMap(), z3 = /* @__PURE__ */ new WeakMap(), u3 = /* @__PURE__ */ new WeakMap(), w4 = /* @__PURE__ */ new WeakMap(), O2 = /* @__PURE__ */ new WeakMap(), K3 = /* @__PURE__ */ new WeakMap(), S5 = /* @__PURE__ */ new WeakMap(), E3 = /* @__PURE__ */ new WeakMap(), A3 = /* @__PURE__ */ new WeakMap(), C3 = /* @__PURE__ */ new WeakMap(), I2 = /* @__PURE__ */ new WeakMap(); var Oe = Ce; // node_modules/atomico/src/ref.js var _current, _listeners; var Ref = class { /** * @param {T} current */ constructor(current) { /** * @type {T} */ __privateAdd(this, _current); __privateAdd(this, _listeners, /* @__PURE__ */ new Set()); __privateSet(this, _current, current); } /** * @return {T} */ get current() { return __privateGet(this, _current); } /** * @param {T} value */ set current(value) { if (__privateGet(this, _current) != value) { __privateSet(this, _current, value); __privateGet(this, _listeners).forEach((fn) => fn(value)); } } /** * @type {import("hooks").Ref["on"]} */ on(fn) { __privateGet(this, _listeners).add(fn); return () => __privateGet(this, _listeners).delete(fn); } }; _current = new WeakMap(); _listeners = new WeakMap(); var createRef = (value) => new Ref(value); // node_modules/atomico/src/hooks/create-hooks.js var ID = Symbol.for("atomico.hooks"); globalThis[ID] = globalThis[ID] || {}; var SCOPE = globalThis[ID]; var IdSuspense = Symbol.for("Atomico.suspense"); var IdEffect = Symbol.for("Atomico.effect"); var IdLayoutEffect = Symbol.for("Atomico.layoutEffect"); var IdInsertionEffect = Symbol.for("Atomico.insertionEffect"); var useHook = (render, effect, tag) => { const { i: i2, hooks } = SCOPE.c; const hook = hooks[i2] = hooks[i2] || {}; hook.value = render(hook.value); hook.effect = effect; hook.tag = tag; SCOPE.c.i++; return hooks[i2].value; }; var useRef = (current) => useHook((ref = createRef(current)) => ref); var useHost = () => useHook((ref = createRef(SCOPE.c.host)) => ref); var createHooks = (update, host, id = 0) => { let hooks = {}; let suspense = false; const isSuspense = () => suspense; const cleanEffectsByType = (tag, unmounted) => { for (const index2 in hooks) { const hook = hooks[index2]; if (hook.effect && hook.tag === tag) { hook.value = hook.effect(hook.value, unmounted); } } }; const load = (callback) => { SCOPE.c = { host, hooks, update, i: 0, id }; let value; try { suspense = false; value = callback(); } catch (e2) { if (e2 !== IdSuspense) throw e2; suspense = true; } finally { SCOPE.c = null; } return value; }; const cleanEffects = (unmounted) => { cleanEffectsByType(IdInsertionEffect, unmounted); return () => { cleanEffectsByType(IdLayoutEffect, unmounted); return () => { cleanEffectsByType(IdEffect, unmounted); }; }; }; return { load, cleanEffects, isSuspense }; }; // node_modules/atomico/src/utils.js var SymbolFor = Symbol.for; function isEqualArray(before, after) { const length = before.length; if (length !== after.length) return false; for (let i2 = 0; i2 < length; i2++) { let beforeValue = before[i2]; let afterValue = after[i2]; if (beforeValue !== afterValue) return false; } return true; } var isFunction = (value) => typeof value == "function"; var isObject = (value) => typeof value == "object"; var { isArray } = Array; var isHydrate = (node2, styleOnly) => (styleOnly ? node2 instanceof HTMLStyleElement : true) && "hydrate" in ((node2 == null ? void 0 : node2.dataset) || {}); function flat(list4, callback) { let last; const reduce = (list5) => { let { length } = list5; for (let i2 = 0; i2 < length; i2++) { const value = list5[i2]; if (value && Array.isArray(value)) { reduce(value); } else { const type = typeof value; if (value == null || type === "function" || type === "boolean") { continue; } else if (type === "string" || type === "number") { if (last == null) last = ""; last += value; } else { if (last != null) { callback(last); last = null; } callback(value); } } } }; reduce(list4); if (last != null) callback(last); } var addListener = (target, type, handler) => { target.addEventListener(type, handler); return () => target.removeEventListener(type, handler); }; // node_modules/atomico/src/element/errors.js var Error2 = class { /** * * @param {HTMLElement} target * @param {string} message * @param {string} value */ constructor(target, message, value) { this.message = message; this.target = target; this.value = value; } }; var PropError = class extends Error2 { }; var ParseError = class extends Error2 { }; // node_modules/atomico/src/element/set-prototype.js var CUSTOM_TYPE_NAME = "Custom"; var Any = null; var TRUE_VALUES = { true: 1, "": 1, 1: 1 }; function setPrototype(prototype, prop, schema, attrs, values) { const { type, reflect, event, value: defaultValue, attr = getAttr(prop) } = (schema == null ? void 0 : schema.name) != CUSTOM_TYPE_NAME && isObject(schema) && schema != Any ? schema : { type: schema }; const isCustomType = (type == null ? void 0 : type.name) === CUSTOM_TYPE_NAME && type.map; const withDefaultValue = defaultValue != null ? type == Function || !isFunction(defaultValue) ? () => defaultValue : defaultValue : null; Object.defineProperty(prototype, prop, { configurable: true, /** * @this {import("dom").AtomicoThisInternal} * @param {any} newValue */ set(newValue) { const oldValue = this[prop]; if (withDefaultValue && type != Boolean && newValue == null) { newValue = withDefaultValue(); } const { error, value } = (isCustomType ? mapValue : filterValue)( type, newValue ); if (error && value != null) { throw new PropError( this, `The value defined for prop '${prop}' must be of type '${type.name}'`, value ); } if (oldValue == value) return; this._props[prop] = value == null ? void 0 : value; this.update(); event && dispatchEvent3(this, event); this.updated.then(() => { if (reflect) { this._ignoreAttr = attr; reflectValue(this, type, attr, this[prop]); this._ignoreAttr = null; } }); }, /** * @this {import("dom").AtomicoThisInternal} */ get() { return this._props[prop]; } }); if (withDefaultValue) values[prop] = withDefaultValue(); attrs[attr] = { prop, type }; } var dispatchEvent3 = (node2, _a) => { var _b = _a, { type, base: base2 = CustomEvent } = _b, eventInit = __objRest(_b, ["type", "base"]); return node2.dispatchEvent(new base2(type, eventInit)); }; var getAttr = (prop) => prop.replace(/([A-Z])/g, "-$1").toLowerCase(); var reflectValue = (host, type, attr, value) => value == null || type == Boolean && !value ? host.removeAttribute(attr) : host.setAttribute( attr, (type == null ? void 0 : type.name) === CUSTOM_TYPE_NAME && (type == null ? void 0 : type.serialize) ? type == null ? void 0 : type.serialize(value) : isObject(value) ? JSON.stringify(value) : type == Boolean ? "" : value ); var transformValue = (type, value) => type == Boolean ? !!TRUE_VALUES[value] : type == Number ? Number(value) : type == String ? value : type == Array || type == Object ? JSON.parse(value) : type.name == CUSTOM_TYPE_NAME ? value : ( // TODO: If when defining reflect the prop can also be of type string? new type(value) ); var mapValue = ({ map: map5 }, value) => { try { return { value: map5(value), error: false }; } catch (e2) { return { value, error: true }; } }; var filterValue = (type, value) => type == null || value == null ? { value, error: false } : type != String && value === "" ? { value: void 0, error: false } : type == Object || type == Array || type == Symbol ? { value, error: {}.toString.call(value) !== `[object ${type.name}]` } : value instanceof type ? { value, error: type == Number && Number.isNaN(value.valueOf()) } : type == String || type == Number || type == Boolean ? { value, error: type == Number ? typeof value != "number" ? true : Number.isNaN(value) : type == String ? typeof value != "string" : typeof value != "boolean" } : { value, error: true }; // node_modules/atomico/src/element/custom-element.js var ID2 = 0; var getHydrateId = (node2) => { var _a; const id = ((_a = (node2 == null ? void 0 : node2.dataset) || {}) == null ? void 0 : _a.hydrate) || ""; if (id) { return id; } else { return "c" + ID2++; } }; var c4 = (component, options2 = HTMLElement) => { const attrs = {}; const values = {}; const withBase = "prototype" in options2 && options2.prototype instanceof Element; const base2 = withBase ? options2 : "base" in options2 ? options2.base : HTMLElement; const { props, styles } = withBase ? component : options2; class AtomicoElement extends base2 { constructor() { super(); this._setup(); this._render = () => component(__spreadValues({}, this._props)); for (const prop in values) this[prop] = values[prop]; } /** * @returns {import("core").Sheets[]} */ static get styles() { return [super.styles, styles]; } async _setup() { if (this._props) return; this._props = {}; let mountParentNode; let unmountParentNode; this.mounted = new Promise( (resolve) => this.mount = () => { resolve(); if (mountParentNode != this.parentNode) { if (unmountParentNode != mountParentNode) { this.unmounted.then(this.update); } else { this.update(); } } mountParentNode = this.parentNode; } ); this.unmounted = new Promise( (resolve) => this.unmount = () => { resolve(); if (mountParentNode != this.parentNode || !this.isConnected) { hooks.cleanEffects(true)()(); unmountParentNode = this.parentNode; mountParentNode = null; } } ); this.symbolId = this.symbolId || Symbol(); this.symbolIdParent = Symbol(); const hooks = createHooks( () => this.update(), this, getHydrateId(this) ); let prevent; let firstRender = true; const hydrate = isHydrate(this); this.update = () => { if (!prevent) { prevent = true; this.updated = (this.updated || this.mounted).then(() => { try { const result = hooks.load(this._render); const cleanUseLayoutEffects = hooks.cleanEffects(); result && //@ts-ignore result.render(this, this.symbolId, hydrate); prevent = false; if (firstRender && !hooks.isSuspense()) { firstRender = false; !hydrate && applyStyles(this); } return cleanUseLayoutEffects(); } finally { prevent = false; } }).then( /** * @param {import("internal/hooks.js").CleanUseEffects} [cleanUseEffect] */ (cleanUseEffect) => { cleanUseEffect && cleanUseEffect(); } ); } return this.updated; }; this.update(); } connectedCallback() { this.mount(); super.connectedCallback && super.connectedCallback(); } disconnectedCallback() { super.disconnectedCallback && super.disconnectedCallback(); this.unmount(); } /** * @this {import("dom").AtomicoThisInternal} * @param {string} attr * @param {(string|null)} oldValue * @param {(string|null)} value */ attributeChangedCallback(attr, oldValue, value) { if (attrs[attr]) { if (attr === this._ignoreAttr || oldValue === value) return; const { prop, type } = attrs[attr]; try { this[prop] = transformValue(type, value); } catch (e2) { throw new ParseError( this, `The value defined as attr '${attr}' cannot be parsed by type '${type.name}'`, value ); } } else { super.attributeChangedCallback(attr, oldValue, value); } } static get props() { return __spreadValues(__spreadValues({}, super.props), props); } static get observedAttributes() { const superAttrs = super.observedAttributes || []; for (const prop in props) { setPrototype(this.prototype, prop, props[prop], attrs, values); } return Object.keys(attrs).concat(superAttrs); } } return AtomicoElement; }; function applyStyles(host) { const { styles } = host.constructor; const { shadowRoot } = host; if (shadowRoot && styles.length) { const sheets = []; flat(styles, (value) => { if (value) { if (value instanceof Element) { shadowRoot.appendChild(value.cloneNode(true)); } else { sheets.push(value); } } }); if (sheets.length) shadowRoot.adoptedStyleSheets = sheets; } } // node_modules/atomico/src/hooks/use-effect.js var createEffect = (type) => (currentEffect, currentArgs) => { useHook( /** * Clean the effect hook * @type {import("internal/hooks.js").CollectorEffect} */ ([collector, args] = []) => { if (args || !args) { if (args && isEqualArray(args, currentArgs)) { collector = collector || true; } else { isFunction(collector) && collector(); collector = null; } } return [collector, currentArgs]; }, /** * @returns {any} */ ([collector, args], unmounted) => { if (unmounted) { isFunction(collector) && collector(); return []; } else { return [collector ? collector : currentEffect(), args]; } }, type ); }; var useLayoutEffect = createEffect(IdLayoutEffect); var useEffect = createEffect(IdEffect); var useInsertionEffect = createEffect(IdInsertionEffect); // node_modules/atomico/src/options.js var ID3 = SymbolFor("atomico/options"); globalThis[ID3] = globalThis[ID3] || { sheet: !!document.adoptedStyleSheets }; var options = globalThis[ID3]; // node_modules/atomico/src/loaded.js var DOMLoaded = new Promise((resolve) => { if (!options.ssr) { if (document.readyState === "loading") { addListener(document, "DOMContentLoaded", resolve); } else { resolve(); } } }); // node_modules/atomico/src/render.js var VAL_FROM_PROPS = { checked: 1, value: 1, selected: 1 }; var PROPS_AS_ATTRS = { list: 1, type: 1, size: 1, form: 1, width: 1, height: 1, src: 1, href: 1, slot: 1 }; var INTERNAL_PROPS = { shadowDom: 1, staticNode: 1, cloneNode: 1, children: 1, key: 1 }; var EMPTY_PROPS = {}; var EMPTY_CHILDREN = []; var Mark2 = class extends Text { }; var ID4 = SymbolFor("atomico/id"); var TYPE = SymbolFor("atomico/type"); var TYPE_NODE = SymbolFor("atomico/ref"); var TYPE_VNODE = SymbolFor("atomico/vnode"); var Fragment2 = () => { }; function RENDER(node2, id, hydrate) { return diff(this, node2, id, hydrate); } var h2 = (type, p4, ...args) => { const props = p4 || EMPTY_PROPS; let { children } = props; children = children != null ? children : args.length ? args : EMPTY_CHILDREN; if (type === Fragment2) { return children; } const raw = type ? type instanceof Node ? 1 : ( //@ts-ignore type.prototype instanceof HTMLElement && 2 ) : 0; if (raw === false && type instanceof Function) { return type( children != EMPTY_CHILDREN ? __spreadValues({ children }, props) : props ); } const render = options.render || RENDER; const vnode = { [TYPE]: TYPE_VNODE, type, props, children, key: props.key, // key for lists by keys // define if the node declares its shadowDom shadow: props.shadowDom, // allows renderings to run only once static: props.staticNode, // defines whether the type is a childNode `1` or a constructor `2` raw, // defines whether to use the second parameter for document.createElement is: props.is, // clone the node if it comes from a reference clone: props.cloneNode, render }; return vnode; }; function diff(newVnode, node2, id = ID4, hydrate, isSvg) { let isNewNode; if (node2 && node2[id] && node2[id].vnode == newVnode || newVnode[TYPE] != TYPE_VNODE) return node2; if (newVnode || !node2) { isSvg = isSvg || newVnode.type == "svg"; isNewNode = newVnode.type != "host" && (newVnode.raw == 1 ? (node2 && newVnode.clone ? node2[TYPE_NODE] : node2) != newVnode.type : newVnode.raw == 2 ? !(node2 instanceof newVnode.type) : node2 ? node2[TYPE_NODE] || node2.localName != newVnode.type : !node2); if (isNewNode && newVnode.type != null) { if (newVnode.raw == 1 && newVnode.clone) { hydrate = true; node2 = newVnode.type.cloneNode(true); node2[TYPE_NODE] = newVnode.type; } else { node2 = newVnode.raw == 1 ? newVnode.type : newVnode.raw == 2 ? new newVnode.type() : isSvg ? document.createElementNS( "http://www.w3.org/2000/svg", newVnode.type ) : document.createElement( newVnode.type, newVnode.is ? { is: newVnode.is } : void 0 ); } } } const oldVNodeStore = node2[id] ? node2[id] : EMPTY_PROPS; const { vnode = EMPTY_PROPS, cycle = 0 } = oldVNodeStore; let { fragment, handlers: handlers2 } = oldVNodeStore; const { children = EMPTY_CHILDREN, props = EMPTY_PROPS } = vnode; handlers2 = isNewNode ? {} : handlers2 || {}; if (newVnode.static && !isNewNode) return node2; newVnode.shadow && !node2.shadowRoot && // @ts-ignore node2.attachShadow(__spreadValues({ mode: "open" }, newVnode.shadow)); newVnode.props != props && diffProps(node2, props, newVnode.props, handlers2, isSvg); if (newVnode.children !== children) { const nextParent = newVnode.shadow ? node2.shadowRoot : node2; fragment = renderChildren( newVnode.children, /** * @todo for hydration use attribute and send childNodes */ fragment, nextParent, id, // add support to foreignObject, children will escape from svg !cycle && hydrate, isSvg && newVnode.type == "foreignObject" ? false : isSvg ); } node2[id] = { vnode: newVnode, handlers: handlers2, fragment, cycle: cycle + 1 }; return node2; } function createFragment(parent, hydrate) { const markStart = new Mark2(""); const markEnd = new Mark2(""); let node2; parent[hydrate ? "prepend" : "append"](markStart); if (hydrate) { let { lastElementChild } = parent; while (lastElementChild) { const { previousElementSibling } = lastElementChild; if (isHydrate(lastElementChild, true) && !isHydrate(previousElementSibling, true)) { node2 = lastElementChild; break; } lastElementChild = previousElementSibling; } } if (node2) { node2.before(markEnd); } else { parent.append(markEnd); } return { markStart, markEnd }; } function renderChildren(children, fragment, parent, id, hydrate, isSvg) { children = children == null ? null : isArray(children) ? children : [children]; const nextFragment = fragment || createFragment(parent, hydrate); const { markStart, markEnd, keyes } = nextFragment; let nextKeyes; const removeNodes = keyes && /* @__PURE__ */ new Set(); let currentNode = markStart; children && flat(children, (child) => { if (typeof child == "object" && !child[TYPE]) { return; } const key = child[TYPE] && child.key; const childKey = keyes && key != null && keyes.get(key); if (currentNode != markEnd && currentNode === childKey) { removeNodes.delete(currentNode); } else { currentNode = currentNode == markEnd ? markEnd : currentNode.nextSibling; } const childNode = keyes ? childKey : currentNode; let nextChildNode = childNode; if (!child[TYPE]) { const text5 = child + ""; if (!(nextChildNode instanceof Text) || nextChildNode instanceof Mark2) { nextChildNode = new Text(text5); } else if (nextChildNode.data != text5) { nextChildNode.data = text5; } } else { nextChildNode = diff(child, childNode, id, hydrate, isSvg); } if (nextChildNode != currentNode) { keyes && removeNodes.delete(nextChildNode); if (!childNode || keyes) { parent.insertBefore(nextChildNode, currentNode); keyes && currentNode != markEnd && removeNodes.add(currentNode); } else if (childNode == markEnd) { parent.insertBefore(nextChildNode, markEnd); } else { parent.replaceChild(nextChildNode, childNode); currentNode = nextChildNode; } } if (key != null) { nextKeyes = nextKeyes || /* @__PURE__ */ new Map(); nextKeyes.set(key, nextChildNode); } }); currentNode = currentNode == markEnd ? markEnd : currentNode.nextSibling; if (fragment && currentNode != markEnd) { while (currentNode != markEnd) { const nodeToRemove = currentNode; currentNode = currentNode.nextSibling; nodeToRemove.remove(); } } removeNodes && removeNodes.forEach((node2) => node2.remove()); nextFragment.keyes = nextKeyes; return nextFragment; } function diffProps(node2, props, nextProps, handlers2, isSvg) { for (const key in props) { !(key in nextProps) && setProperty(node2, key, props[key], null, isSvg, handlers2); } for (const key in nextProps) { setProperty(node2, key, props[key], nextProps[key], isSvg, handlers2); } } function setProperty(node2, key, prevValue, nextValue, isSvg, handlers2) { key = key == "class" && !isSvg ? "className" : key; prevValue = prevValue == null ? null : prevValue; nextValue = nextValue == null ? null : nextValue; if (key in node2 && VAL_FROM_PROPS[key]) { prevValue = node2[key]; } if (nextValue === prevValue || INTERNAL_PROPS[key] || key[0] == "_") return; if (node2.localName === "slot" && key === "assignNode" && "assign" in node2) { node2.assign(nextValue); } else if (key[0] == "o" && key[1] == "n" && (isFunction(nextValue) || isFunction(prevValue))) { setEvent(node2, key.slice(2), nextValue, handlers2); } else if (key == "ref") { if (nextValue) { if (isFunction(nextValue)) { nextValue(node2); } else { nextValue.current = node2; } } } else if (key == "style") { const { style: style2 } = node2; prevValue = prevValue || ""; nextValue = nextValue || ""; const prevIsObject = isObject(prevValue); const nextIsObject = isObject(nextValue); if (prevIsObject) { for (const key2 in prevValue) { if (nextIsObject) { !(key2 in nextValue) && setPropertyStyle(style2, key2, null); } else { break; } } } if (nextIsObject) { for (const key2 in nextValue) { const value = nextValue[key2]; if (prevIsObject && prevValue[key2] === value) continue; setPropertyStyle(style2, key2, value); } } else { style2.cssText = nextValue; } } else { const attr = key[0] == "$" ? key.slice(1) : key; if (attr === key && (!isSvg && !PROPS_AS_ATTRS[key] && key in node2 || isFunction(nextValue) || isFunction(prevValue))) { node2[key] = nextValue == null ? "" : nextValue; } else if (nextValue == null) { node2.removeAttribute(attr); } else { node2.setAttribute( attr, isObject(nextValue) ? JSON.stringify(nextValue) : nextValue ); } } } function setEvent(node2, type, nextHandler, handlers2) { if (!handlers2.handleEvent) { handlers2.handleEvent = (event) => handlers2[event.type].call(node2, event); } if (nextHandler) { if (!handlers2[type]) { const options2 = nextHandler.capture || nextHandler.once || nextHandler.passive ? Object.assign({}, nextHandler) : null; node2.addEventListener(type, handlers2, options2); } handlers2[type] = nextHandler; } else { if (handlers2[type]) { node2.removeEventListener(type, handlers2); delete handlers2[type]; } } } function setPropertyStyle(style2, key, value) { let method = "setProperty"; if (value == null) { method = "removeProperty"; value = null; } if (~key.indexOf("-")) { style2[method](key, value); } else { style2[key] = value; } } // node_modules/atomico/src/context.js var CONTEXT_TEMPLATE = h2("host", { style: "display: contents" }); var CONTEXT_VALUE = "value"; var useProvider = (id, value) => { const host = useHost(); const ref = useRef(); useInsertionEffect( () => addListener( host.current, "ConnectContext", /** * @param {CustomEvent} event */ (event) => { const target = event.composedPath().at(0); if (target !== event.currentTarget && id === event.detail.id) { event.stopPropagation(); event.detail.connect(ref); } } ), [id] ); ref.current = value; }; var createContext = (value) => { const Context = c4( ({ value: value2 }) => { useProvider(Context, value2); return CONTEXT_TEMPLATE; }, { props: { value: { type: Object, value: () => value } } } ); Context[CONTEXT_VALUE] = value; return Context; }; // node_modules/atomico/src/hooks/custom-hooks/use-suspense.js var SuspenseContext = createContext({ /** * * @param {string} type * @param {string} id */ dispatch(type, id) { } }); // node_modules/atomico/src/css.js var SHEETS = {}; function css(template2, ...args) { const cssText = (template2.raw || template2).reduce( (cssText2, part, i2) => cssText2 + part + (args[i2] || ""), "" ); return SHEETS[cssText] = SHEETS[cssText] || createSheet(cssText); } function createSheet(cssText) { if (options.sheet) { const sheet = new CSSStyleSheet(); sheet.replaceSync(cssText); return sheet; } else { const sheet = document.createElement("style"); sheet.textContent = cssText; return sheet; } } // node_modules/atomico/html.js var MODE_SLASH = 0; var MODE_TEXT = 1; var MODE_WHITESPACE = 2; var MODE_TAGNAME = 3; var MODE_COMMENT = 4; var MODE_PROP_SET = 5; var MODE_PROP_APPEND = 6; var CHILD_APPEND = 0; var CHILD_RECURSE = 2; var TAG_SET = 3; var PROPS_ASSIGN = 4; var PROP_SET = MODE_PROP_SET; var PROP_APPEND = MODE_PROP_APPEND; var evaluate = (h5, built, fields, args) => { let tmp; built[0] = 0; for (let i2 = 1; i2 < built.length; i2++) { const type = built[i2++]; const value = built[i2] ? (built[0] |= type ? 1 : 2, fields[built[i2++]]) : built[++i2]; if (type === TAG_SET) { args[0] = value; } else if (type === PROPS_ASSIGN) { args[1] = Object.assign(args[1] || {}, value); } else if (type === PROP_SET) { (args[1] = args[1] || {})[built[++i2]] = value; } else if (type === PROP_APPEND) { args[1][built[++i2]] += value + ""; } else if (type) { tmp = h5.apply(value, evaluate(h5, value, fields, ["", null])); args.push(tmp); if (value[0]) { built[0] |= 2; } else { built[i2 - 2] = CHILD_APPEND; built[i2] = tmp; } } else { args.push(value); } } return args; }; var build = function(statics) { let mode = MODE_TEXT; let buffer = ""; let quote = ""; let current = [0]; let char, propName; const commit = (field) => { if (mode === MODE_TEXT && (field || (buffer = buffer.replace(/^\s*\n\s*|\s*\n\s*$/g, "")))) { { current.push(CHILD_APPEND, field, buffer); } } else if (mode === MODE_TAGNAME && (field || buffer)) { { current.push(TAG_SET, field, buffer); } mode = MODE_WHITESPACE; } else if (mode === MODE_WHITESPACE && buffer === "..." && field) { { current.push(PROPS_ASSIGN, field, 0); } } else if (mode === MODE_WHITESPACE && buffer && !field) { { current.push(PROP_SET, 0, true, buffer); } } else if (mode >= MODE_PROP_SET) { { if (buffer || !field && mode === MODE_PROP_SET) { current.push(mode, 0, buffer, propName); mode = MODE_PROP_APPEND; } if (field) { current.push(mode, field, 0, propName); mode = MODE_PROP_APPEND; } } } buffer = ""; }; for (let i2 = 0; i2 < statics.length; i2++) { if (i2) { if (mode === MODE_TEXT) { commit(); } commit(i2); } for (let j6 = 0; j6 < statics[i2].length; j6++) { char = statics[i2][j6]; if (mode === MODE_TEXT) { if (char === "<") { commit(); { current = [current]; } mode = MODE_TAGNAME; } else { buffer += char; } } else if (mode === MODE_COMMENT) { if (buffer === "--" && char === ">") { mode = MODE_TEXT; buffer = ""; } else { buffer = char + buffer[0]; } } else if (quote) { if (char === quote) { quote = ""; } else { buffer += char; } } else if (char === '"' || char === "'") { quote = char; } else if (char === ">") { commit(); mode = MODE_TEXT; } else if (!mode) ; else if (char === "=") { mode = MODE_PROP_SET; propName = buffer; buffer = ""; } else if (char === "/" && (mode < MODE_PROP_SET || statics[i2][j6 + 1] === ">")) { commit(); if (mode === MODE_TAGNAME) { current = current[0]; } mode = current; { (current = current[0]).push(CHILD_RECURSE, 0, mode); } mode = MODE_SLASH; } else if (char === " " || char === " " || char === "\n" || char === "\r") { commit(); mode = MODE_WHITESPACE; } else { buffer += char; } if (mode === MODE_TAGNAME && buffer === "!--") { mode = MODE_COMMENT; current = current[0]; } } } commit(); return current; }; var CACHE = /* @__PURE__ */ new Map(); function html2(statics) { let tmp = CACHE; tmp = evaluate( h2, tmp.get(statics) || (tmp.set(statics, tmp = build(statics)), tmp), arguments, [] ); return tmp.length > 1 ? tmp : tmp[0]; } // node_modules/@milkdown/utils/node_modules/nanoid/index.browser.js var random = (bytes) => crypto.getRandomValues(new Uint8Array(bytes)); var customRandom = (alphabet, defaultSize, getRandom) => { let mask = (2 << Math.log(alphabet.length - 1) / Math.LN2) - 1; let step = -~(1.6 * mask * defaultSize / alphabet.length); return (size = defaultSize) => { let id = ""; while (true) { let bytes = getRandom(step); let j6 = step; while (j6--) { id += alphabet[bytes[j6] & mask] || ""; if (id.length === size) return id; } } }; }; var customAlphabet = (alphabet, size = 21) => customRandom(alphabet, size, random); // node_modules/@milkdown/utils/lib/index.es.js var J4 = customAlphabet("abcedfghicklmn", 10); function re2(n4, o2) { const r3 = Et(n4), t2 = (e2) => async () => { t2.key = r3, await e2.wait(J3); const a2 = o2(e2); return e2.get(je).create(r3, a2), t2.run = (s2) => e2.get(je).call(n4, s2), () => { e2.get(je).remove(r3); }; }; return t2; } function oe2(n4) { const o2 = (r3) => async () => { await r3.wait(R3); const t2 = n4(r3); return r3.update(ue, (e2) => [...e2, t2]), o2.inputRule = t2, () => { r3.update(ue, (e2) => e2.filter((a2) => a2 !== t2)); }; }; return o2; } function Q3(n4, o2) { const r3 = (t2) => async () => { const e2 = o2(t2); return t2.update(Z2, (a2) => [...a2.filter((s2) => s2[0] !== n4), [n4, e2]]), r3.id = n4, r3.schema = e2, () => { t2.update(Z2, (a2) => a2.filter(([s2]) => s2 !== n4)); }; }; return r3.type = (t2) => { const e2 = t2.get(b2).marks[n4]; if (!e2) throw x(n4); return e2; }, r3; } function W3(n4, o2) { const r3 = (t2) => async () => { const e2 = o2(t2); return t2.update(X, (a2) => [...a2.filter((s2) => s2[0] !== n4), [n4, e2]]), r3.id = n4, r3.schema = e2, () => { t2.update(X, (a2) => a2.filter(([s2]) => s2 !== n4)); }; }; return r3.type = (t2) => { const e2 = t2.get(b2).nodes[n4]; if (!e2) throw M(n4); return e2; }, r3; } function ue2(n4) { let o2; const r3 = (t2) => async () => (await t2.wait(R3), o2 = n4(t2), t2.update(N2, (e2) => [...e2, o2]), () => { t2.update(N2, (e2) => e2.filter((a2) => a2 !== o2)); }); return r3.plugin = () => o2, r3.key = () => o2.spec.key, r3; } function X2(n4) { const o2 = (r3) => async () => { await r3.wait(R3); const t2 = n4(r3), e2 = keymap(t2); return r3.update(N2, (a2) => [...a2, e2]), o2.keymap = t2, () => { r3.update(N2, (a2) => a2.filter((s2) => s2 !== e2)); }; }; return o2; } function le(n4, o2) { const r3 = (t2) => async () => { await t2.wait(R3); const e2 = o2(t2); return n4.type(t2) instanceof NodeType ? t2.update(fe, (a2) => [...a2, [n4.id, e2]]) : t2.update(ye, (a2) => [...a2, [n4.id, e2]]), r3.view = e2, r3.type = n4, () => { n4.type(t2) instanceof NodeType ? t2.update(fe, (a2) => a2.filter((s2) => s2[0] !== n4.id)) : t2.update(ye, (a2) => a2.filter((s2) => s2[0] !== n4.id)); }; }; return r3; } function h3(n4, o2) { const r3 = H(n4, o2), t2 = (e2) => (e2.inject(r3), () => () => { e2.remove(r3); }); return t2.key = r3, t2; } function fe2(n4, o2) { const r3 = h3(o2, n4), t2 = W3(n4, (a2) => a2.get(r3.key)(a2)), e2 = [r3, t2]; return e2.id = t2.id, e2.node = t2, e2.type = (a2) => t2.type(a2), e2.schema = t2.schema, e2.ctx = r3, e2.key = r3.key, e2.extendSchema = (a2) => (s2) => () => { const i2 = s2.get(r3.key), c6 = a2(i2)(s2); s2.update(X, (m3) => [...m3.filter((S8) => S8[0] !== n4), [n4, c6]]), e2.schema = c6; }, e2; } function ye2(n4, o2) { const r3 = h3(o2, n4), t2 = Q3(n4, (a2) => a2.get(r3.key)(a2)), e2 = [r3, t2]; return e2.id = t2.id, e2.mark = t2, e2.type = t2.type, e2.schema = t2.schema, e2.ctx = r3, e2.key = r3.key, e2.extendSchema = (a2) => (s2) => () => { const i2 = s2.get(r3.key), c6 = a2(i2)(s2); s2.update(Z2, (m3) => [...m3.filter((S8) => S8[0] !== n4), [n4, c6]]), e2.schema = c6; }, e2; } function ge2(n4, o2) { const r3 = Object.fromEntries(Object.entries(o2).map(([s2, { shortcuts: i2 }]) => [s2, i2])), t2 = h3(r3, `${n4}Keymap`), e2 = X2((s2) => { const i2 = s2.get(t2.key), u4 = Object.entries(o2).flatMap(([c6, { command: m3 }]) => [i2[c6]].flat().map((V4) => [V4, m3(s2)])); return Object.fromEntries(u4); }), a2 = [t2, e2]; return a2.ctx = t2, a2.shortcuts = e2, a2.key = t2.key, a2.keymap = e2.keymap, a2; } var he = (n4, o2 = () => ({})) => h3(o2, `${n4}Attr`); var we2 = (n4, o2 = () => ({})) => h3(o2, `${n4}Attr`); function ke2(n4, o2, r3) { const t2 = h3(r3 != null ? r3 : {}, n4), e2 = (s2) => async () => { await s2.wait(M4); const u4 = { plugin: o2(s2), options: s2.get(t2.key) }; return s2.update(pe, (c6) => [...c6, u4]), () => { s2.update(pe, (c6) => c6.filter((m3) => m3 !== u4)); }; }, a2 = [t2, e2]; return a2.id = n4, a2.plugin = e2, a2.options = t2, a2; } // node_modules/escape-string-regexp/index.js function escapeStringRegexp(string3) { if (typeof string3 !== "string") { throw new TypeError("Expected a string"); } return string3.replace(/[|\\{}()[\]^$+*?.]/g, "\\$&").replace(/-/g, "\\x2d"); } // node_modules/@sindresorhus/transliterate/replacements.js var replacements = [ // German umlauts ["\xDF", "ss"], ["\u1E9E", "Ss"], ["\xE4", "ae"], ["\xC4", "Ae"], ["\xF6", "oe"], ["\xD6", "Oe"], ["\xFC", "ue"], ["\xDC", "Ue"], // Latin ["\xC0", "A"], ["\xC1", "A"], ["\xC2", "A"], ["\xC3", "A"], ["\xC4", "Ae"], ["\xC5", "A"], ["\xC6", "AE"], ["\xC7", "C"], ["\xC8", "E"], ["\xC9", "E"], ["\xCA", "E"], ["\xCB", "E"], ["\xCC", "I"], ["\xCD", "I"], ["\xCE", "I"], ["\xCF", "I"], ["\xD0", "D"], ["\xD1", "N"], ["\xD2", "O"], ["\xD3", "O"], ["\xD4", "O"], ["\xD5", "O"], ["\xD6", "Oe"], ["\u0150", "O"], ["\xD8", "O"], ["\xD9", "U"], ["\xDA", "U"], ["\xDB", "U"], ["\xDC", "Ue"], ["\u0170", "U"], ["\xDD", "Y"], ["\xDE", "TH"], ["\xDF", "ss"], ["\xE0", "a"], ["\xE1", "a"], ["\xE2", "a"], ["\xE3", "a"], ["\xE4", "ae"], ["\xE5", "a"], ["\xE6", "ae"], ["\xE7", "c"], ["\xE8", "e"], ["\xE9", "e"], ["\xEA", "e"], ["\xEB", "e"], ["\xEC", "i"], ["\xED", "i"], ["\xEE", "i"], ["\xEF", "i"], ["\xF0", "d"], ["\xF1", "n"], ["\xF2", "o"], ["\xF3", "o"], ["\xF4", "o"], ["\xF5", "o"], ["\xF6", "oe"], ["\u0151", "o"], ["\xF8", "o"], ["\xF9", "u"], ["\xFA", "u"], ["\xFB", "u"], ["\xFC", "ue"], ["\u0171", "u"], ["\xFD", "y"], ["\xFE", "th"], ["\xFF", "y"], ["\u1E9E", "SS"], // Vietnamese ["\xE0", "a"], ["\xC0", "A"], ["\xE1", "a"], ["\xC1", "A"], ["\xE2", "a"], ["\xC2", "A"], ["\xE3", "a"], ["\xC3", "A"], ["\xE8", "e"], ["\xC8", "E"], ["\xE9", "e"], ["\xC9", "E"], ["\xEA", "e"], ["\xCA", "E"], ["\xEC", "i"], ["\xCC", "I"], ["\xED", "i"], ["\xCD", "I"], ["\xF2", "o"], ["\xD2", "O"], ["\xF3", "o"], ["\xD3", "O"], ["\xF4", "o"], ["\xD4", "O"], ["\xF5", "o"], ["\xD5", "O"], ["\xF9", "u"], ["\xD9", "U"], ["\xFA", "u"], ["\xDA", "U"], ["\xFD", "y"], ["\xDD", "Y"], ["\u0103", "a"], ["\u0102", "A"], ["\u0110", "D"], ["\u0111", "d"], ["\u0129", "i"], ["\u0128", "I"], ["\u0169", "u"], ["\u0168", "U"], ["\u01A1", "o"], ["\u01A0", "O"], ["\u01B0", "u"], ["\u01AF", "U"], ["\u1EA1", "a"], ["\u1EA0", "A"], ["\u1EA3", "a"], ["\u1EA2", "A"], ["\u1EA5", "a"], ["\u1EA4", "A"], ["\u1EA7", "a"], ["\u1EA6", "A"], ["\u1EA9", "a"], ["\u1EA8", "A"], ["\u1EAB", "a"], ["\u1EAA", "A"], ["\u1EAD", "a"], ["\u1EAC", "A"], ["\u1EAF", "a"], ["\u1EAE", "A"], ["\u1EB1", "a"], ["\u1EB0", "A"], ["\u1EB3", "a"], ["\u1EB2", "A"], ["\u1EB5", "a"], ["\u1EB4", "A"], ["\u1EB7", "a"], ["\u1EB6", "A"], ["\u1EB9", "e"], ["\u1EB8", "E"], ["\u1EBB", "e"], ["\u1EBA", "E"], ["\u1EBD", "e"], ["\u1EBC", "E"], ["\u1EBF", "e"], ["\u1EBE", "E"], ["\u1EC1", "e"], ["\u1EC0", "E"], ["\u1EC3", "e"], ["\u1EC2", "E"], ["\u1EC5", "e"], ["\u1EC4", "E"], ["\u1EC7", "e"], ["\u1EC6", "E"], ["\u1EC9", "i"], ["\u1EC8", "I"], ["\u1ECB", "i"], ["\u1ECA", "I"], ["\u1ECD", "o"], ["\u1ECC", "O"], ["\u1ECF", "o"], ["\u1ECE", "O"], ["\u1ED1", "o"], ["\u1ED0", "O"], ["\u1ED3", "o"], ["\u1ED2", "O"], ["\u1ED5", "o"], ["\u1ED4", "O"], ["\u1ED7", "o"], ["\u1ED6", "O"], ["\u1ED9", "o"], ["\u1ED8", "O"], ["\u1EDB", "o"], ["\u1EDA", "O"], ["\u1EDD", "o"], ["\u1EDC", "O"], ["\u1EDF", "o"], ["\u1EDE", "O"], ["\u1EE1", "o"], ["\u1EE0", "O"], ["\u1EE3", "o"], ["\u1EE2", "O"], ["\u1EE5", "u"], ["\u1EE4", "U"], ["\u1EE7", "u"], ["\u1EE6", "U"], ["\u1EE9", "u"], ["\u1EE8", "U"], ["\u1EEB", "u"], ["\u1EEA", "U"], ["\u1EED", "u"], ["\u1EEC", "U"], ["\u1EEF", "u"], ["\u1EEE", "U"], ["\u1EF1", "u"], ["\u1EF0", "U"], ["\u1EF3", "y"], ["\u1EF2", "Y"], ["\u1EF5", "y"], ["\u1EF4", "Y"], ["\u1EF7", "y"], ["\u1EF6", "Y"], ["\u1EF9", "y"], ["\u1EF8", "Y"], // Arabic ["\u0621", "e"], ["\u0622", "a"], ["\u0623", "a"], ["\u0624", "w"], ["\u0625", "i"], ["\u0626", "y"], ["\u0627", "a"], ["\u0628", "b"], ["\u0629", "t"], ["\u062A", "t"], ["\u062B", "th"], ["\u062C", "j"], ["\u062D", "h"], ["\u062E", "kh"], ["\u062F", "d"], ["\u0630", "dh"], ["\u0631", "r"], ["\u0632", "z"], ["\u0633", "s"], ["\u0634", "sh"], ["\u0635", "s"], ["\u0636", "d"], ["\u0637", "t"], ["\u0638", "z"], ["\u0639", "e"], ["\u063A", "gh"], ["\u0640", "_"], ["\u0641", "f"], ["\u0642", "q"], ["\u0643", "k"], ["\u0644", "l"], ["\u0645", "m"], ["\u0646", "n"], ["\u0647", "h"], ["\u0648", "w"], ["\u0649", "a"], ["\u064A", "y"], ["\u064E\u200E", "a"], ["\u064F", "u"], ["\u0650\u200E", "i"], ["\u0660", "0"], ["\u0661", "1"], ["\u0662", "2"], ["\u0663", "3"], ["\u0664", "4"], ["\u0665", "5"], ["\u0666", "6"], ["\u0667", "7"], ["\u0668", "8"], ["\u0669", "9"], // Persian / Farsi ["\u0686", "ch"], ["\u06A9", "k"], ["\u06AF", "g"], ["\u067E", "p"], ["\u0698", "zh"], ["\u06CC", "y"], ["\u06F0", "0"], ["\u06F1", "1"], ["\u06F2", "2"], ["\u06F3", "3"], ["\u06F4", "4"], ["\u06F5", "5"], ["\u06F6", "6"], ["\u06F7", "7"], ["\u06F8", "8"], ["\u06F9", "9"], // Pashto ["\u067C", "p"], ["\u0681", "z"], ["\u0685", "c"], ["\u0689", "d"], ["\uFEAB", "d"], ["\uFEAD", "r"], ["\u0693", "r"], ["\uFEAF", "z"], ["\u0696", "g"], ["\u069A", "x"], ["\u06AB", "g"], ["\u06BC", "n"], ["\u06C0", "e"], ["\u06D0", "e"], ["\u06CD", "ai"], // Urdu ["\u0679", "t"], ["\u0688", "d"], ["\u0691", "r"], ["\u06BA", "n"], ["\u06C1", "h"], ["\u06BE", "h"], ["\u06D2", "e"], // Russian ["\u0410", "A"], ["\u0430", "a"], ["\u0411", "B"], ["\u0431", "b"], ["\u0412", "V"], ["\u0432", "v"], ["\u0413", "G"], ["\u0433", "g"], ["\u0414", "D"], ["\u0434", "d"], ["\u044A\u0435", "ye"], ["\u042A\u0435", "Ye"], ["\u044A\u0415", "yE"], ["\u042A\u0415", "YE"], ["\u0415", "E"], ["\u0435", "e"], ["\u0401", "Yo"], ["\u0451", "yo"], ["\u0416", "Zh"], ["\u0436", "zh"], ["\u0417", "Z"], ["\u0437", "z"], ["\u0418", "I"], ["\u0438", "i"], ["\u044B\u0439", "iy"], ["\u042B\u0439", "Iy"], ["\u042B\u0419", "IY"], ["\u044B\u0419", "iY"], ["\u0419", "Y"], ["\u0439", "y"], ["\u041A", "K"], ["\u043A", "k"], ["\u041B", "L"], ["\u043B", "l"], ["\u041C", "M"], ["\u043C", "m"], ["\u041D", "N"], ["\u043D", "n"], ["\u041E", "O"], ["\u043E", "o"], ["\u041F", "P"], ["\u043F", "p"], ["\u0420", "R"], ["\u0440", "r"], ["\u0421", "S"], ["\u0441", "s"], ["\u0422", "T"], ["\u0442", "t"], ["\u0423", "U"], ["\u0443", "u"], ["\u0424", "F"], ["\u0444", "f"], ["\u0425", "Kh"], ["\u0445", "kh"], ["\u0426", "Ts"], ["\u0446", "ts"], ["\u0427", "Ch"], ["\u0447", "ch"], ["\u0428", "Sh"], ["\u0448", "sh"], ["\u0429", "Sch"], ["\u0449", "sch"], ["\u042A", ""], ["\u044A", ""], ["\u042B", "Y"], ["\u044B", "y"], ["\u042C", ""], ["\u044C", ""], ["\u042D", "E"], ["\u044D", "e"], ["\u042E", "Yu"], ["\u044E", "yu"], ["\u042F", "Ya"], ["\u044F", "ya"], // Romanian ["\u0103", "a"], ["\u0102", "A"], ["\u0219", "s"], ["\u0218", "S"], ["\u021B", "t"], ["\u021A", "T"], ["\u0163", "t"], ["\u0162", "T"], // Turkish ["\u015F", "s"], ["\u015E", "S"], ["\xE7", "c"], ["\xC7", "C"], ["\u011F", "g"], ["\u011E", "G"], ["\u0131", "i"], ["\u0130", "I"], // Armenian ["\u0561", "a"], ["\u0531", "A"], ["\u0562", "b"], ["\u0532", "B"], ["\u0563", "g"], ["\u0533", "G"], ["\u0564", "d"], ["\u0534", "D"], ["\u0565", "ye"], ["\u0535", "Ye"], ["\u0566", "z"], ["\u0536", "Z"], ["\u0567", "e"], ["\u0537", "E"], ["\u0568", "y"], ["\u0538", "Y"], ["\u0569", "t"], ["\u0539", "T"], ["\u056A", "zh"], ["\u053A", "Zh"], ["\u056B", "i"], ["\u053B", "I"], ["\u056C", "l"], ["\u053C", "L"], ["\u056D", "kh"], ["\u053D", "Kh"], ["\u056E", "ts"], ["\u053E", "Ts"], ["\u056F", "k"], ["\u053F", "K"], ["\u0570", "h"], ["\u0540", "H"], ["\u0571", "dz"], ["\u0541", "Dz"], ["\u0572", "gh"], ["\u0542", "Gh"], ["\u0573", "tch"], ["\u0543", "Tch"], ["\u0574", "m"], ["\u0544", "M"], ["\u0575", "y"], ["\u0545", "Y"], ["\u0576", "n"], ["\u0546", "N"], ["\u0577", "sh"], ["\u0547", "Sh"], ["\u0578", "vo"], ["\u0548", "Vo"], ["\u0579", "ch"], ["\u0549", "Ch"], ["\u057A", "p"], ["\u054A", "P"], ["\u057B", "j"], ["\u054B", "J"], ["\u057C", "r"], ["\u054C", "R"], ["\u057D", "s"], ["\u054D", "S"], ["\u057E", "v"], ["\u054E", "V"], ["\u057F", "t"], ["\u054F", "T"], ["\u0580", "r"], ["\u0550", "R"], ["\u0581", "c"], ["\u0551", "C"], ["\u0578\u0582", "u"], ["\u0548\u0552", "U"], ["\u0548\u0582", "U"], ["\u0583", "p"], ["\u0553", "P"], ["\u0584", "q"], ["\u0554", "Q"], ["\u0585", "o"], ["\u0555", "O"], ["\u0586", "f"], ["\u0556", "F"], ["\u0587", "yev"], // Georgian ["\u10D0", "a"], ["\u10D1", "b"], ["\u10D2", "g"], ["\u10D3", "d"], ["\u10D4", "e"], ["\u10D5", "v"], ["\u10D6", "z"], ["\u10D7", "t"], ["\u10D8", "i"], ["\u10D9", "k"], ["\u10DA", "l"], ["\u10DB", "m"], ["\u10DC", "n"], ["\u10DD", "o"], ["\u10DE", "p"], ["\u10DF", "zh"], ["\u10E0", "r"], ["\u10E1", "s"], ["\u10E2", "t"], ["\u10E3", "u"], ["\u10E4", "ph"], ["\u10E5", "q"], ["\u10E6", "gh"], ["\u10E7", "k"], ["\u10E8", "sh"], ["\u10E9", "ch"], ["\u10EA", "ts"], ["\u10EB", "dz"], ["\u10EC", "ts"], ["\u10ED", "tch"], ["\u10EE", "kh"], ["\u10EF", "j"], ["\u10F0", "h"], // Czech ["\u010D", "c"], ["\u010F", "d"], ["\u011B", "e"], ["\u0148", "n"], ["\u0159", "r"], ["\u0161", "s"], ["\u0165", "t"], ["\u016F", "u"], ["\u017E", "z"], ["\u010C", "C"], ["\u010E", "D"], ["\u011A", "E"], ["\u0147", "N"], ["\u0158", "R"], ["\u0160", "S"], ["\u0164", "T"], ["\u016E", "U"], ["\u017D", "Z"], // Dhivehi ["\u0780", "h"], ["\u0781", "sh"], ["\u0782", "n"], ["\u0783", "r"], ["\u0784", "b"], ["\u0785", "lh"], ["\u0786", "k"], ["\u0787", "a"], ["\u0788", "v"], ["\u0789", "m"], ["\u078A", "f"], ["\u078B", "dh"], ["\u078C", "th"], ["\u078D", "l"], ["\u078E", "g"], ["\u078F", "gn"], ["\u0790", "s"], ["\u0791", "d"], ["\u0792", "z"], ["\u0793", "t"], ["\u0794", "y"], ["\u0795", "p"], ["\u0796", "j"], ["\u0797", "ch"], ["\u0798", "tt"], ["\u0799", "hh"], ["\u079A", "kh"], ["\u079B", "th"], ["\u079C", "z"], ["\u079D", "sh"], ["\u079E", "s"], ["\u079F", "d"], ["\u07A0", "t"], ["\u07A1", "z"], ["\u07A2", "a"], ["\u07A3", "gh"], ["\u07A4", "q"], ["\u07A5", "w"], ["\u07A6", "a"], ["\u07A7", "aa"], ["\u07A8", "i"], ["\u07A9", "ee"], ["\u07AA", "u"], ["\u07AB", "oo"], ["\u07AC", "e"], ["\u07AD", "ey"], ["\u07AE", "o"], ["\u07AF", "oa"], ["\u07B0", ""], // Greek ["\u03B1", "a"], ["\u03B2", "v"], ["\u03B3", "g"], ["\u03B4", "d"], ["\u03B5", "e"], ["\u03B6", "z"], ["\u03B7", "i"], ["\u03B8", "th"], ["\u03B9", "i"], ["\u03BA", "k"], ["\u03BB", "l"], ["\u03BC", "m"], ["\u03BD", "n"], ["\u03BE", "ks"], ["\u03BF", "o"], ["\u03C0", "p"], ["\u03C1", "r"], ["\u03C3", "s"], ["\u03C4", "t"], ["\u03C5", "y"], ["\u03C6", "f"], ["\u03C7", "x"], ["\u03C8", "ps"], ["\u03C9", "o"], ["\u03AC", "a"], ["\u03AD", "e"], ["\u03AF", "i"], ["\u03CC", "o"], ["\u03CD", "y"], ["\u03AE", "i"], ["\u03CE", "o"], ["\u03C2", "s"], ["\u03CA", "i"], ["\u03B0", "y"], ["\u03CB", "y"], ["\u0390", "i"], ["\u0391", "A"], ["\u0392", "B"], ["\u0393", "G"], ["\u0394", "D"], ["\u0395", "E"], ["\u0396", "Z"], ["\u0397", "I"], ["\u0398", "TH"], ["\u0399", "I"], ["\u039A", "K"], ["\u039B", "L"], ["\u039C", "M"], ["\u039D", "N"], ["\u039E", "KS"], ["\u039F", "O"], ["\u03A0", "P"], ["\u03A1", "R"], ["\u03A3", "S"], ["\u03A4", "T"], ["\u03A5", "Y"], ["\u03A6", "F"], ["\u03A7", "X"], ["\u03A8", "PS"], ["\u03A9", "O"], ["\u0386", "A"], ["\u0388", "E"], ["\u038A", "I"], ["\u038C", "O"], ["\u038E", "Y"], ["\u0389", "I"], ["\u038F", "O"], ["\u03AA", "I"], ["\u03AB", "Y"], // Disabled as it conflicts with German and Latin. // Hungarian // ['ä', 'a'], // ['Ä', 'A'], // ['ö', 'o'], // ['Ö', 'O'], // ['ü', 'u'], // ['Ü', 'U'], // ['ű', 'u'], // ['Ű', 'U'], // Latvian ["\u0101", "a"], ["\u0113", "e"], ["\u0123", "g"], ["\u012B", "i"], ["\u0137", "k"], ["\u013C", "l"], ["\u0146", "n"], ["\u016B", "u"], ["\u0100", "A"], ["\u0112", "E"], ["\u0122", "G"], ["\u012A", "I"], ["\u0136", "K"], ["\u013B", "L"], ["\u0145", "N"], ["\u016A", "U"], ["\u010D", "c"], ["\u0161", "s"], ["\u017E", "z"], ["\u010C", "C"], ["\u0160", "S"], ["\u017D", "Z"], // Lithuanian ["\u0105", "a"], ["\u010D", "c"], ["\u0119", "e"], ["\u0117", "e"], ["\u012F", "i"], ["\u0161", "s"], ["\u0173", "u"], ["\u016B", "u"], ["\u017E", "z"], ["\u0104", "A"], ["\u010C", "C"], ["\u0118", "E"], ["\u0116", "E"], ["\u012E", "I"], ["\u0160", "S"], ["\u0172", "U"], ["\u016A", "U"], // Macedonian ["\u040C", "Kj"], ["\u045C", "kj"], ["\u0409", "Lj"], ["\u0459", "lj"], ["\u040A", "Nj"], ["\u045A", "nj"], ["\u0422\u0441", "Ts"], ["\u0442\u0441", "ts"], // Polish ["\u0105", "a"], ["\u0107", "c"], ["\u0119", "e"], ["\u0142", "l"], ["\u0144", "n"], ["\u015B", "s"], ["\u017A", "z"], ["\u017C", "z"], ["\u0104", "A"], ["\u0106", "C"], ["\u0118", "E"], ["\u0141", "L"], ["\u0143", "N"], ["\u015A", "S"], ["\u0179", "Z"], ["\u017B", "Z"], // Disabled as it conflicts with Vietnamese. // Serbian // ['љ', 'lj'], // ['њ', 'nj'], // ['Љ', 'Lj'], // ['Њ', 'Nj'], // ['đ', 'dj'], // ['Đ', 'Dj'], // ['ђ', 'dj'], // ['ј', 'j'], // ['ћ', 'c'], // ['џ', 'dz'], // ['Ђ', 'Dj'], // ['Ј', 'j'], // ['Ћ', 'C'], // ['Џ', 'Dz'], // Disabled as it conflicts with German and Latin. // Slovak // ['ä', 'a'], // ['Ä', 'A'], // ['ľ', 'l'], // ['ĺ', 'l'], // ['ŕ', 'r'], // ['Ľ', 'L'], // ['Ĺ', 'L'], // ['Ŕ', 'R'], // Disabled as it conflicts with German and Latin. // Swedish // ['å', 'o'], // ['Å', 'o'], // ['ä', 'a'], // ['Ä', 'A'], // ['ë', 'e'], // ['Ë', 'E'], // ['ö', 'o'], // ['Ö', 'O'], // Ukrainian ["\u0404", "Ye"], ["\u0406", "I"], ["\u0407", "Yi"], ["\u0490", "G"], ["\u0454", "ye"], ["\u0456", "i"], ["\u0457", "yi"], ["\u0491", "g"], // Dutch ["\u0132", "IJ"], ["\u0133", "ij"], // Danish // ['Æ', 'Ae'], // ['Ø', 'Oe'], // ['Å', 'Aa'], // ['æ', 'ae'], // ['ø', 'oe'], // ['å', 'aa'] // Currencies ["\xA2", "c"], ["\xA5", "Y"], ["\u07FF", "b"], ["\u09F3", "t"], ["\u0AF1", "Bo"], ["\u0E3F", "B"], ["\u20A0", "CE"], ["\u20A1", "C"], ["\u20A2", "Cr"], ["\u20A3", "F"], ["\u20A5", "m"], ["\u20A6", "N"], ["\u20A7", "Pt"], ["\u20A8", "Rs"], ["\u20A9", "W"], ["\u20AB", "s"], ["\u20AC", "E"], ["\u20AD", "K"], ["\u20AE", "T"], ["\u20AF", "Dp"], ["\u20B0", "S"], ["\u20B1", "P"], ["\u20B2", "G"], ["\u20B3", "A"], ["\u20B4", "S"], ["\u20B5", "C"], ["\u20B6", "tt"], ["\u20B7", "S"], ["\u20B8", "T"], ["\u20B9", "R"], ["\u20BA", "L"], ["\u20BD", "P"], ["\u20BF", "B"], ["\uFE69", "$"], ["\uFFE0", "c"], ["\uFFE5", "Y"], ["\uFFE6", "W"], // Latin ["\u{1D400}", "A"], ["\u{1D401}", "B"], ["\u{1D402}", "C"], ["\u{1D403}", "D"], ["\u{1D404}", "E"], ["\u{1D405}", "F"], ["\u{1D406}", "G"], ["\u{1D407}", "H"], ["\u{1D408}", "I"], ["\u{1D409}", "J"], ["\u{1D40A}", "K"], ["\u{1D40B}", "L"], ["\u{1D40C}", "M"], ["\u{1D40D}", "N"], ["\u{1D40E}", "O"], ["\u{1D40F}", "P"], ["\u{1D410}", "Q"], ["\u{1D411}", "R"], ["\u{1D412}", "S"], ["\u{1D413}", "T"], ["\u{1D414}", "U"], ["\u{1D415}", "V"], ["\u{1D416}", "W"], ["\u{1D417}", "X"], ["\u{1D418}", "Y"], ["\u{1D419}", "Z"], ["\u{1D41A}", "a"], ["\u{1D41B}", "b"], ["\u{1D41C}", "c"], ["\u{1D41D}", "d"], ["\u{1D41E}", "e"], ["\u{1D41F}", "f"], ["\u{1D420}", "g"], ["\u{1D421}", "h"], ["\u{1D422}", "i"], ["\u{1D423}", "j"], ["\u{1D424}", "k"], ["\u{1D425}", "l"], ["\u{1D426}", "m"], ["\u{1D427}", "n"], ["\u{1D428}", "o"], ["\u{1D429}", "p"], ["\u{1D42A}", "q"], ["\u{1D42B}", "r"], ["\u{1D42C}", "s"], ["\u{1D42D}", "t"], ["\u{1D42E}", "u"], ["\u{1D42F}", "v"], ["\u{1D430}", "w"], ["\u{1D431}", "x"], ["\u{1D432}", "y"], ["\u{1D433}", "z"], ["\u{1D434}", "A"], ["\u{1D435}", "B"], ["\u{1D436}", "C"], ["\u{1D437}", "D"], ["\u{1D438}", "E"], ["\u{1D439}", "F"], ["\u{1D43A}", "G"], ["\u{1D43B}", "H"], ["\u{1D43C}", "I"], ["\u{1D43D}", "J"], ["\u{1D43E}", "K"], ["\u{1D43F}", "L"], ["\u{1D440}", "M"], ["\u{1D441}", "N"], ["\u{1D442}", "O"], ["\u{1D443}", "P"], ["\u{1D444}", "Q"], ["\u{1D445}", "R"], ["\u{1D446}", "S"], ["\u{1D447}", "T"], ["\u{1D448}", "U"], ["\u{1D449}", "V"], ["\u{1D44A}", "W"], ["\u{1D44B}", "X"], ["\u{1D44C}", "Y"], ["\u{1D44D}", "Z"], ["\u{1D44E}", "a"], ["\u{1D44F}", "b"], ["\u{1D450}", "c"], ["\u{1D451}", "d"], ["\u{1D452}", "e"], ["\u{1D453}", "f"], ["\u{1D454}", "g"], ["\u{1D456}", "i"], ["\u{1D457}", "j"], ["\u{1D458}", "k"], ["\u{1D459}", "l"], ["\u{1D45A}", "m"], ["\u{1D45B}", "n"], ["\u{1D45C}", "o"], ["\u{1D45D}", "p"], ["\u{1D45E}", "q"], ["\u{1D45F}", "r"], ["\u{1D460}", "s"], ["\u{1D461}", "t"], ["\u{1D462}", "u"], ["\u{1D463}", "v"], ["\u{1D464}", "w"], ["\u{1D465}", "x"], ["\u{1D466}", "y"], ["\u{1D467}", "z"], ["\u{1D468}", "A"], ["\u{1D469}", "B"], ["\u{1D46A}", "C"], ["\u{1D46B}", "D"], ["\u{1D46C}", "E"], ["\u{1D46D}", "F"], ["\u{1D46E}", "G"], ["\u{1D46F}", "H"], ["\u{1D470}", "I"], ["\u{1D471}", "J"], ["\u{1D472}", "K"], ["\u{1D473}", "L"], ["\u{1D474}", "M"], ["\u{1D475}", "N"], ["\u{1D476}", "O"], ["\u{1D477}", "P"], ["\u{1D478}", "Q"], ["\u{1D479}", "R"], ["\u{1D47A}", "S"], ["\u{1D47B}", "T"], ["\u{1D47C}", "U"], ["\u{1D47D}", "V"], ["\u{1D47E}", "W"], ["\u{1D47F}", "X"], ["\u{1D480}", "Y"], ["\u{1D481}", "Z"], ["\u{1D482}", "a"], ["\u{1D483}", "b"], ["\u{1D484}", "c"], ["\u{1D485}", "d"], ["\u{1D486}", "e"], ["\u{1D487}", "f"], ["\u{1D488}", "g"], ["\u{1D489}", "h"], ["\u{1D48A}", "i"], ["\u{1D48B}", "j"], ["\u{1D48C}", "k"], ["\u{1D48D}", "l"], ["\u{1D48E}", "m"], ["\u{1D48F}", "n"], ["\u{1D490}", "o"], ["\u{1D491}", "p"], ["\u{1D492}", "q"], ["\u{1D493}", "r"], ["\u{1D494}", "s"], ["\u{1D495}", "t"], ["\u{1D496}", "u"], ["\u{1D497}", "v"], ["\u{1D498}", "w"], ["\u{1D499}", "x"], ["\u{1D49A}", "y"], ["\u{1D49B}", "z"], ["\u{1D49C}", "A"], ["\u{1D49E}", "C"], ["\u{1D49F}", "D"], ["\u{1D4A2}", "g"], ["\u{1D4A5}", "J"], ["\u{1D4A6}", "K"], ["\u{1D4A9}", "N"], ["\u{1D4AA}", "O"], ["\u{1D4AB}", "P"], ["\u{1D4AC}", "Q"], ["\u{1D4AE}", "S"], ["\u{1D4AF}", "T"], ["\u{1D4B0}", "U"], ["\u{1D4B1}", "V"], ["\u{1D4B2}", "W"], ["\u{1D4B3}", "X"], ["\u{1D4B4}", "Y"], ["\u{1D4B5}", "Z"], ["\u{1D4B6}", "a"], ["\u{1D4B7}", "b"], ["\u{1D4B8}", "c"], ["\u{1D4B9}", "d"], ["\u{1D4BB}", "f"], ["\u{1D4BD}", "h"], ["\u{1D4BE}", "i"], ["\u{1D4BF}", "j"], ["\u{1D4C0}", "h"], ["\u{1D4C1}", "l"], ["\u{1D4C2}", "m"], ["\u{1D4C3}", "n"], ["\u{1D4C5}", "p"], ["\u{1D4C6}", "q"], ["\u{1D4C7}", "r"], ["\u{1D4C8}", "s"], ["\u{1D4C9}", "t"], ["\u{1D4CA}", "u"], ["\u{1D4CB}", "v"], ["\u{1D4CC}", "w"], ["\u{1D4CD}", "x"], ["\u{1D4CE}", "y"], ["\u{1D4CF}", "z"], ["\u{1D4D0}", "A"], ["\u{1D4D1}", "B"], ["\u{1D4D2}", "C"], ["\u{1D4D3}", "D"], ["\u{1D4D4}", "E"], ["\u{1D4D5}", "F"], ["\u{1D4D6}", "G"], ["\u{1D4D7}", "H"], ["\u{1D4D8}", "I"], ["\u{1D4D9}", "J"], ["\u{1D4DA}", "K"], ["\u{1D4DB}", "L"], ["\u{1D4DC}", "M"], ["\u{1D4DD}", "N"], ["\u{1D4DE}", "O"], ["\u{1D4DF}", "P"], ["\u{1D4E0}", "Q"], ["\u{1D4E1}", "R"], ["\u{1D4E2}", "S"], ["\u{1D4E3}", "T"], ["\u{1D4E4}", "U"], ["\u{1D4E5}", "V"], ["\u{1D4E6}", "W"], ["\u{1D4E7}", "X"], ["\u{1D4E8}", "Y"], ["\u{1D4E9}", "Z"], ["\u{1D4EA}", "a"], ["\u{1D4EB}", "b"], ["\u{1D4EC}", "c"], ["\u{1D4ED}", "d"], ["\u{1D4EE}", "e"], ["\u{1D4EF}", "f"], ["\u{1D4F0}", "g"], ["\u{1D4F1}", "h"], ["\u{1D4F2}", "i"], ["\u{1D4F3}", "j"], ["\u{1D4F4}", "k"], ["\u{1D4F5}", "l"], ["\u{1D4F6}", "m"], ["\u{1D4F7}", "n"], ["\u{1D4F8}", "o"], ["\u{1D4F9}", "p"], ["\u{1D4FA}", "q"], ["\u{1D4FB}", "r"], ["\u{1D4FC}", "s"], ["\u{1D4FD}", "t"], ["\u{1D4FE}", "u"], ["\u{1D4FF}", "v"], ["\u{1D500}", "w"], ["\u{1D501}", "x"], ["\u{1D502}", "y"], ["\u{1D503}", "z"], ["\u{1D504}", "A"], ["\u{1D505}", "B"], ["\u{1D507}", "D"], ["\u{1D508}", "E"], ["\u{1D509}", "F"], ["\u{1D50A}", "G"], ["\u{1D50D}", "J"], ["\u{1D50E}", "K"], ["\u{1D50F}", "L"], ["\u{1D510}", "M"], ["\u{1D511}", "N"], ["\u{1D512}", "O"], ["\u{1D513}", "P"], ["\u{1D514}", "Q"], ["\u{1D516}", "S"], ["\u{1D517}", "T"], ["\u{1D518}", "U"], ["\u{1D519}", "V"], ["\u{1D51A}", "W"], ["\u{1D51B}", "X"], ["\u{1D51C}", "Y"], ["\u{1D51E}", "a"], ["\u{1D51F}", "b"], ["\u{1D520}", "c"], ["\u{1D521}", "d"], ["\u{1D522}", "e"], ["\u{1D523}", "f"], ["\u{1D524}", "g"], ["\u{1D525}", "h"], ["\u{1D526}", "i"], ["\u{1D527}", "j"], ["\u{1D528}", "k"], ["\u{1D529}", "l"], ["\u{1D52A}", "m"], ["\u{1D52B}", "n"], ["\u{1D52C}", "o"], ["\u{1D52D}", "p"], ["\u{1D52E}", "q"], ["\u{1D52F}", "r"], ["\u{1D530}", "s"], ["\u{1D531}", "t"], ["\u{1D532}", "u"], ["\u{1D533}", "v"], ["\u{1D534}", "w"], ["\u{1D535}", "x"], ["\u{1D536}", "y"], ["\u{1D537}", "z"], ["\u{1D538}", "A"], ["\u{1D539}", "B"], ["\u{1D53B}", "D"], ["\u{1D53C}", "E"], ["\u{1D53D}", "F"], ["\u{1D53E}", "G"], ["\u{1D540}", "I"], ["\u{1D541}", "J"], ["\u{1D542}", "K"], ["\u{1D543}", "L"], ["\u{1D544}", "M"], ["\u{1D546}", "N"], ["\u{1D54A}", "S"], ["\u{1D54B}", "T"], ["\u{1D54C}", "U"], ["\u{1D54D}", "V"], ["\u{1D54E}", "W"], ["\u{1D54F}", "X"], ["\u{1D550}", "Y"], ["\u{1D552}", "a"], ["\u{1D553}", "b"], ["\u{1D554}", "c"], ["\u{1D555}", "d"], ["\u{1D556}", "e"], ["\u{1D557}", "f"], ["\u{1D558}", "g"], ["\u{1D559}", "h"], ["\u{1D55A}", "i"], ["\u{1D55B}", "j"], ["\u{1D55C}", "k"], ["\u{1D55D}", "l"], ["\u{1D55E}", "m"], ["\u{1D55F}", "n"], ["\u{1D560}", "o"], ["\u{1D561}", "p"], ["\u{1D562}", "q"], ["\u{1D563}", "r"], ["\u{1D564}", "s"], ["\u{1D565}", "t"], ["\u{1D566}", "u"], ["\u{1D567}", "v"], ["\u{1D568}", "w"], ["\u{1D569}", "x"], ["\u{1D56A}", "y"], ["\u{1D56B}", "z"], ["\u{1D56C}", "A"], ["\u{1D56D}", "B"], ["\u{1D56E}", "C"], ["\u{1D56F}", "D"], ["\u{1D570}", "E"], ["\u{1D571}", "F"], ["\u{1D572}", "G"], ["\u{1D573}", "H"], ["\u{1D574}", "I"], ["\u{1D575}", "J"], ["\u{1D576}", "K"], ["\u{1D577}", "L"], ["\u{1D578}", "M"], ["\u{1D579}", "N"], ["\u{1D57A}", "O"], ["\u{1D57B}", "P"], ["\u{1D57C}", "Q"], ["\u{1D57D}", "R"], ["\u{1D57E}", "S"], ["\u{1D57F}", "T"], ["\u{1D580}", "U"], ["\u{1D581}", "V"], ["\u{1D582}", "W"], ["\u{1D583}", "X"], ["\u{1D584}", "Y"], ["\u{1D585}", "Z"], ["\u{1D586}", "a"], ["\u{1D587}", "b"], ["\u{1D588}", "c"], ["\u{1D589}", "d"], ["\u{1D58A}", "e"], ["\u{1D58B}", "f"], ["\u{1D58C}", "g"], ["\u{1D58D}", "h"], ["\u{1D58E}", "i"], ["\u{1D58F}", "j"], ["\u{1D590}", "k"], ["\u{1D591}", "l"], ["\u{1D592}", "m"], ["\u{1D593}", "n"], ["\u{1D594}", "o"], ["\u{1D595}", "p"], ["\u{1D596}", "q"], ["\u{1D597}", "r"], ["\u{1D598}", "s"], ["\u{1D599}", "t"], ["\u{1D59A}", "u"], ["\u{1D59B}", "v"], ["\u{1D59C}", "w"], ["\u{1D59D}", "x"], ["\u{1D59E}", "y"], ["\u{1D59F}", "z"], ["\u{1D5A0}", "A"], ["\u{1D5A1}", "B"], ["\u{1D5A2}", "C"], ["\u{1D5A3}", "D"], ["\u{1D5A4}", "E"], ["\u{1D5A5}", "F"], ["\u{1D5A6}", "G"], ["\u{1D5A7}", "H"], ["\u{1D5A8}", "I"], ["\u{1D5A9}", "J"], ["\u{1D5AA}", "K"], ["\u{1D5AB}", "L"], ["\u{1D5AC}", "M"], ["\u{1D5AD}", "N"], ["\u{1D5AE}", "O"], ["\u{1D5AF}", "P"], ["\u{1D5B0}", "Q"], ["\u{1D5B1}", "R"], ["\u{1D5B2}", "S"], ["\u{1D5B3}", "T"], ["\u{1D5B4}", "U"], ["\u{1D5B5}", "V"], ["\u{1D5B6}", "W"], ["\u{1D5B7}", "X"], ["\u{1D5B8}", "Y"], ["\u{1D5B9}", "Z"], ["\u{1D5BA}", "a"], ["\u{1D5BB}", "b"], ["\u{1D5BC}", "c"], ["\u{1D5BD}", "d"], ["\u{1D5BE}", "e"], ["\u{1D5BF}", "f"], ["\u{1D5C0}", "g"], ["\u{1D5C1}", "h"], ["\u{1D5C2}", "i"], ["\u{1D5C3}", "j"], ["\u{1D5C4}", "k"], ["\u{1D5C5}", "l"], ["\u{1D5C6}", "m"], ["\u{1D5C7}", "n"], ["\u{1D5C8}", "o"], ["\u{1D5C9}", "p"], ["\u{1D5CA}", "q"], ["\u{1D5CB}", "r"], ["\u{1D5CC}", "s"], ["\u{1D5CD}", "t"], ["\u{1D5CE}", "u"], ["\u{1D5CF}", "v"], ["\u{1D5D0}", "w"], ["\u{1D5D1}", "x"], ["\u{1D5D2}", "y"], ["\u{1D5D3}", "z"], ["\u{1D5D4}", "A"], ["\u{1D5D5}", "B"], ["\u{1D5D6}", "C"], ["\u{1D5D7}", "D"], ["\u{1D5D8}", "E"], ["\u{1D5D9}", "F"], ["\u{1D5DA}", "G"], ["\u{1D5DB}", "H"], ["\u{1D5DC}", "I"], ["\u{1D5DD}", "J"], ["\u{1D5DE}", "K"], ["\u{1D5DF}", "L"], ["\u{1D5E0}", "M"], ["\u{1D5E1}", "N"], ["\u{1D5E2}", "O"], ["\u{1D5E3}", "P"], ["\u{1D5E4}", "Q"], ["\u{1D5E5}", "R"], ["\u{1D5E6}", "S"], ["\u{1D5E7}", "T"], ["\u{1D5E8}", "U"], ["\u{1D5E9}", "V"], ["\u{1D5EA}", "W"], ["\u{1D5EB}", "X"], ["\u{1D5EC}", "Y"], ["\u{1D5ED}", "Z"], ["\u{1D5EE}", "a"], ["\u{1D5EF}", "b"], ["\u{1D5F0}", "c"], ["\u{1D5F1}", "d"], ["\u{1D5F2}", "e"], ["\u{1D5F3}", "f"], ["\u{1D5F4}", "g"], ["\u{1D5F5}", "h"], ["\u{1D5F6}", "i"], ["\u{1D5F7}", "j"], ["\u{1D5F8}", "k"], ["\u{1D5F9}", "l"], ["\u{1D5FA}", "m"], ["\u{1D5FB}", "n"], ["\u{1D5FC}", "o"], ["\u{1D5FD}", "p"], ["\u{1D5FE}", "q"], ["\u{1D5FF}", "r"], ["\u{1D600}", "s"], ["\u{1D601}", "t"], ["\u{1D602}", "u"], ["\u{1D603}", "v"], ["\u{1D604}", "w"], ["\u{1D605}", "x"], ["\u{1D606}", "y"], ["\u{1D607}", "z"], ["\u{1D608}", "A"], ["\u{1D609}", "B"], ["\u{1D60A}", "C"], ["\u{1D60B}", "D"], ["\u{1D60C}", "E"], ["\u{1D60D}", "F"], ["\u{1D60E}", "G"], ["\u{1D60F}", "H"], ["\u{1D610}", "I"], ["\u{1D611}", "J"], ["\u{1D612}", "K"], ["\u{1D613}", "L"], ["\u{1D614}", "M"], ["\u{1D615}", "N"], ["\u{1D616}", "O"], ["\u{1D617}", "P"], ["\u{1D618}", "Q"], ["\u{1D619}", "R"], ["\u{1D61A}", "S"], ["\u{1D61B}", "T"], ["\u{1D61C}", "U"], ["\u{1D61D}", "V"], ["\u{1D61E}", "W"], ["\u{1D61F}", "X"], ["\u{1D620}", "Y"], ["\u{1D621}", "Z"], ["\u{1D622}", "a"], ["\u{1D623}", "b"], ["\u{1D624}", "c"], ["\u{1D625}", "d"], ["\u{1D626}", "e"], ["\u{1D627}", "f"], ["\u{1D628}", "g"], ["\u{1D629}", "h"], ["\u{1D62A}", "i"], ["\u{1D62B}", "j"], ["\u{1D62C}", "k"], ["\u{1D62D}", "l"], ["\u{1D62E}", "m"], ["\u{1D62F}", "n"], ["\u{1D630}", "o"], ["\u{1D631}", "p"], ["\u{1D632}", "q"], ["\u{1D633}", "r"], ["\u{1D634}", "s"], ["\u{1D635}", "t"], ["\u{1D636}", "u"], ["\u{1D637}", "v"], ["\u{1D638}", "w"], ["\u{1D639}", "x"], ["\u{1D63A}", "y"], ["\u{1D63B}", "z"], ["\u{1D63C}", "A"], ["\u{1D63D}", "B"], ["\u{1D63E}", "C"], ["\u{1D63F}", "D"], ["\u{1D640}", "E"], ["\u{1D641}", "F"], ["\u{1D642}", "G"], ["\u{1D643}", "H"], ["\u{1D644}", "I"], ["\u{1D645}", "J"], ["\u{1D646}", "K"], ["\u{1D647}", "L"], ["\u{1D648}", "M"], ["\u{1D649}", "N"], ["\u{1D64A}", "O"], ["\u{1D64B}", "P"], ["\u{1D64C}", "Q"], ["\u{1D64D}", "R"], ["\u{1D64E}", "S"], ["\u{1D64F}", "T"], ["\u{1D650}", "U"], ["\u{1D651}", "V"], ["\u{1D652}", "W"], ["\u{1D653}", "X"], ["\u{1D654}", "Y"], ["\u{1D655}", "Z"], ["\u{1D656}", "a"], ["\u{1D657}", "b"], ["\u{1D658}", "c"], ["\u{1D659}", "d"], ["\u{1D65A}", "e"], ["\u{1D65B}", "f"], ["\u{1D65C}", "g"], ["\u{1D65D}", "h"], ["\u{1D65E}", "i"], ["\u{1D65F}", "j"], ["\u{1D660}", "k"], ["\u{1D661}", "l"], ["\u{1D662}", "m"], ["\u{1D663}", "n"], ["\u{1D664}", "o"], ["\u{1D665}", "p"], ["\u{1D666}", "q"], ["\u{1D667}", "r"], ["\u{1D668}", "s"], ["\u{1D669}", "t"], ["\u{1D66A}", "u"], ["\u{1D66B}", "v"], ["\u{1D66C}", "w"], ["\u{1D66D}", "x"], ["\u{1D66E}", "y"], ["\u{1D66F}", "z"], ["\u{1D670}", "A"], ["\u{1D671}", "B"], ["\u{1D672}", "C"], ["\u{1D673}", "D"], ["\u{1D674}", "E"], ["\u{1D675}", "F"], ["\u{1D676}", "G"], ["\u{1D677}", "H"], ["\u{1D678}", "I"], ["\u{1D679}", "J"], ["\u{1D67A}", "K"], ["\u{1D67B}", "L"], ["\u{1D67C}", "M"], ["\u{1D67D}", "N"], ["\u{1D67E}", "O"], ["\u{1D67F}", "P"], ["\u{1D680}", "Q"], ["\u{1D681}", "R"], ["\u{1D682}", "S"], ["\u{1D683}", "T"], ["\u{1D684}", "U"], ["\u{1D685}", "V"], ["\u{1D686}", "W"], ["\u{1D687}", "X"], ["\u{1D688}", "Y"], ["\u{1D689}", "Z"], ["\u{1D68A}", "a"], ["\u{1D68B}", "b"], ["\u{1D68C}", "c"], ["\u{1D68D}", "d"], ["\u{1D68E}", "e"], ["\u{1D68F}", "f"], ["\u{1D690}", "g"], ["\u{1D691}", "h"], ["\u{1D692}", "i"], ["\u{1D693}", "j"], ["\u{1D694}", "k"], ["\u{1D695}", "l"], ["\u{1D696}", "m"], ["\u{1D697}", "n"], ["\u{1D698}", "o"], ["\u{1D699}", "p"], ["\u{1D69A}", "q"], ["\u{1D69B}", "r"], ["\u{1D69C}", "s"], ["\u{1D69D}", "t"], ["\u{1D69E}", "u"], ["\u{1D69F}", "v"], ["\u{1D6A0}", "w"], ["\u{1D6A1}", "x"], ["\u{1D6A2}", "y"], ["\u{1D6A3}", "z"], // Dotless letters ["\u{1D6A4}", "l"], ["\u{1D6A5}", "j"], // Greek ["\u{1D6E2}", "A"], ["\u{1D6E3}", "B"], ["\u{1D6E4}", "G"], ["\u{1D6E5}", "D"], ["\u{1D6E6}", "E"], ["\u{1D6E7}", "Z"], ["\u{1D6E8}", "I"], ["\u{1D6E9}", "TH"], ["\u{1D6EA}", "I"], ["\u{1D6EB}", "K"], ["\u{1D6EC}", "L"], ["\u{1D6ED}", "M"], ["\u{1D6EE}", "N"], ["\u{1D6EF}", "KS"], ["\u{1D6F0}", "O"], ["\u{1D6F1}", "P"], ["\u{1D6F2}", "R"], ["\u{1D6F3}", "TH"], ["\u{1D6F4}", "S"], ["\u{1D6F5}", "T"], ["\u{1D6F6}", "Y"], ["\u{1D6F7}", "F"], ["\u{1D6F8}", "x"], ["\u{1D6F9}", "PS"], ["\u{1D6FA}", "O"], ["\u{1D6FB}", "D"], ["\u{1D6FC}", "a"], ["\u{1D6FD}", "b"], ["\u{1D6FE}", "g"], ["\u{1D6FF}", "d"], ["\u{1D700}", "e"], ["\u{1D701}", "z"], ["\u{1D702}", "i"], ["\u{1D703}", "th"], ["\u{1D704}", "i"], ["\u{1D705}", "k"], ["\u{1D706}", "l"], ["\u{1D707}", "m"], ["\u{1D708}", "n"], ["\u{1D709}", "ks"], ["\u{1D70A}", "o"], ["\u{1D70B}", "p"], ["\u{1D70C}", "r"], ["\u{1D70D}", "s"], ["\u{1D70E}", "s"], ["\u{1D70F}", "t"], ["\u{1D710}", "y"], ["\u{1D711}", "f"], ["\u{1D712}", "x"], ["\u{1D713}", "ps"], ["\u{1D714}", "o"], ["\u{1D715}", "d"], ["\u{1D716}", "E"], ["\u{1D717}", "TH"], ["\u{1D718}", "K"], ["\u{1D719}", "f"], ["\u{1D71A}", "r"], ["\u{1D71B}", "p"], ["\u{1D71C}", "A"], ["\u{1D71D}", "V"], ["\u{1D71E}", "G"], ["\u{1D71F}", "D"], ["\u{1D720}", "E"], ["\u{1D721}", "Z"], ["\u{1D722}", "I"], ["\u{1D723}", "TH"], ["\u{1D724}", "I"], ["\u{1D725}", "K"], ["\u{1D726}", "L"], ["\u{1D727}", "M"], ["\u{1D728}", "N"], ["\u{1D729}", "KS"], ["\u{1D72A}", "O"], ["\u{1D72B}", "P"], ["\u{1D72C}", "S"], ["\u{1D72D}", "TH"], ["\u{1D72E}", "S"], ["\u{1D72F}", "T"], ["\u{1D730}", "Y"], ["\u{1D731}", "F"], ["\u{1D732}", "X"], ["\u{1D733}", "PS"], ["\u{1D734}", "O"], ["\u{1D735}", "D"], ["\u{1D736}", "a"], ["\u{1D737}", "v"], ["\u{1D738}", "g"], ["\u{1D739}", "d"], ["\u{1D73A}", "e"], ["\u{1D73B}", "z"], ["\u{1D73C}", "i"], ["\u{1D73D}", "th"], ["\u{1D73E}", "i"], ["\u{1D73F}", "k"], ["\u{1D740}", "l"], ["\u{1D741}", "m"], ["\u{1D742}", "n"], ["\u{1D743}", "ks"], ["\u{1D744}", "o"], ["\u{1D745}", "p"], ["\u{1D746}", "r"], ["\u{1D747}", "s"], ["\u{1D748}", "s"], ["\u{1D749}", "t"], ["\u{1D74A}", "y"], ["\u{1D74B}", "f"], ["\u{1D74C}", "x"], ["\u{1D74D}", "ps"], ["\u{1D74E}", "o"], ["\u{1D74F}", "a"], ["\u{1D750}", "e"], ["\u{1D751}", "i"], ["\u{1D752}", "k"], ["\u{1D753}", "f"], ["\u{1D754}", "r"], ["\u{1D755}", "p"], ["\u{1D756}", "A"], ["\u{1D757}", "B"], ["\u{1D758}", "G"], ["\u{1D759}", "D"], ["\u{1D75A}", "E"], ["\u{1D75B}", "Z"], ["\u{1D75C}", "I"], ["\u{1D75D}", "TH"], ["\u{1D75E}", "I"], ["\u{1D75F}", "K"], ["\u{1D760}", "L"], ["\u{1D761}", "M"], ["\u{1D762}", "N"], ["\u{1D763}", "KS"], ["\u{1D764}", "O"], ["\u{1D765}", "P"], ["\u{1D766}", "R"], ["\u{1D767}", "TH"], ["\u{1D768}", "S"], ["\u{1D769}", "T"], ["\u{1D76A}", "Y"], ["\u{1D76B}", "F"], ["\u{1D76C}", "X"], ["\u{1D76D}", "PS"], ["\u{1D76E}", "O"], ["\u{1D76F}", "D"], ["\u{1D770}", "a"], ["\u{1D771}", "v"], ["\u{1D772}", "g"], ["\u{1D773}", "d"], ["\u{1D774}", "e"], ["\u{1D775}", "z"], ["\u{1D776}", "i"], ["\u{1D777}", "th"], ["\u{1D778}", "i"], ["\u{1D779}", "k"], ["\u{1D77A}", "l"], ["\u{1D77B}", "m"], ["\u{1D77C}", "n"], ["\u{1D77D}", "ks"], ["\u{1D77E}", "o"], ["\u{1D77F}", "p"], ["\u{1D780}", "r"], ["\u{1D781}", "s"], ["\u{1D782}", "s"], ["\u{1D783}", "t"], ["\u{1D784}", "y"], ["\u{1D785}", "f"], ["\u{1D786}", "x"], ["\u{1D787}", "ps"], ["\u{1D788}", "o"], ["\u{1D789}", "a"], ["\u{1D78A}", "e"], ["\u{1D78B}", "i"], ["\u{1D78C}", "k"], ["\u{1D78D}", "f"], ["\u{1D78E}", "r"], ["\u{1D78F}", "p"], ["\u{1D790}", "A"], ["\u{1D791}", "V"], ["\u{1D792}", "G"], ["\u{1D793}", "D"], ["\u{1D794}", "E"], ["\u{1D795}", "Z"], ["\u{1D796}", "I"], ["\u{1D797}", "TH"], ["\u{1D798}", "I"], ["\u{1D799}", "K"], ["\u{1D79A}", "L"], ["\u{1D79B}", "M"], ["\u{1D79C}", "N"], ["\u{1D79D}", "KS"], ["\u{1D79E}", "O"], ["\u{1D79F}", "P"], ["\u{1D7A0}", "S"], ["\u{1D7A1}", "TH"], ["\u{1D7A2}", "S"], ["\u{1D7A3}", "T"], ["\u{1D7A4}", "Y"], ["\u{1D7A5}", "F"], ["\u{1D7A6}", "X"], ["\u{1D7A7}", "PS"], ["\u{1D7A8}", "O"], ["\u{1D7A9}", "D"], ["\u{1D7AA}", "av"], ["\u{1D7AB}", "g"], ["\u{1D7AC}", "d"], ["\u{1D7AD}", "e"], ["\u{1D7AE}", "z"], ["\u{1D7AF}", "i"], ["\u{1D7B0}", "i"], ["\u{1D7B1}", "th"], ["\u{1D7B2}", "i"], ["\u{1D7B3}", "k"], ["\u{1D7B4}", "l"], ["\u{1D7B5}", "m"], ["\u{1D7B6}", "n"], ["\u{1D7B7}", "ks"], ["\u{1D7B8}", "o"], ["\u{1D7B9}", "p"], ["\u{1D7BA}", "r"], ["\u{1D7BB}", "s"], ["\u{1D7BC}", "s"], ["\u{1D7BD}", "t"], ["\u{1D7BE}", "y"], ["\u{1D7BF}", "f"], ["\u{1D7C0}", "x"], ["\u{1D7C1}", "ps"], ["\u{1D7C2}", "o"], ["\u{1D7C3}", "a"], ["\u{1D7C4}", "e"], ["\u{1D7C5}", "i"], ["\u{1D7C6}", "k"], ["\u{1D7C7}", "f"], ["\u{1D7C8}", "r"], ["\u{1D7C9}", "p"], ["\u{1D7CA}", "F"], ["\u{1D7CB}", "f"], ["\u249C", "(a)"], ["\u249D", "(b)"], ["\u249E", "(c)"], ["\u249F", "(d)"], ["\u24A0", "(e)"], ["\u24A1", "(f)"], ["\u24A2", "(g)"], ["\u24A3", "(h)"], ["\u24A4", "(i)"], ["\u24A5", "(j)"], ["\u24A6", "(k)"], ["\u24A7", "(l)"], ["\u24A8", "(m)"], ["\u24A9", "(n)"], ["\u24AA", "(o)"], ["\u24AB", "(p)"], ["\u24AC", "(q)"], ["\u24AD", "(r)"], ["\u24AE", "(s)"], ["\u24AF", "(t)"], ["\u24B0", "(u)"], ["\u24B1", "(v)"], ["\u24B2", "(w)"], ["\u24B3", "(x)"], ["\u24B4", "(y)"], ["\u24B5", "(z)"], ["\u24B6", "(A)"], ["\u24B7", "(B)"], ["\u24B8", "(C)"], ["\u24B9", "(D)"], ["\u24BA", "(E)"], ["\u24BB", "(F)"], ["\u24BC", "(G)"], ["\u24BD", "(H)"], ["\u24BE", "(I)"], ["\u24BF", "(J)"], ["\u24C0", "(K)"], ["\u24C1", "(L)"], ["\u24C3", "(N)"], ["\u24C4", "(O)"], ["\u24C5", "(P)"], ["\u24C6", "(Q)"], ["\u24C7", "(R)"], ["\u24C8", "(S)"], ["\u24C9", "(T)"], ["\u24CA", "(U)"], ["\u24CB", "(V)"], ["\u24CC", "(W)"], ["\u24CD", "(X)"], ["\u24CE", "(Y)"], ["\u24CF", "(Z)"], ["\u24D0", "(a)"], ["\u24D1", "(b)"], ["\u24D2", "(b)"], ["\u24D3", "(c)"], ["\u24D4", "(e)"], ["\u24D5", "(f)"], ["\u24D6", "(g)"], ["\u24D7", "(h)"], ["\u24D8", "(i)"], ["\u24D9", "(j)"], ["\u24DA", "(k)"], ["\u24DB", "(l)"], ["\u24DC", "(m)"], ["\u24DD", "(n)"], ["\u24DE", "(o)"], ["\u24DF", "(p)"], ["\u24E0", "(q)"], ["\u24E1", "(r)"], ["\u24E2", "(s)"], ["\u24E3", "(t)"], ["\u24E4", "(u)"], ["\u24E5", "(v)"], ["\u24E6", "(w)"], ["\u24E7", "(x)"], ["\u24E8", "(y)"], ["\u24E9", "(z)"], // Maltese ["\u010A", "C"], ["\u010B", "c"], ["\u0120", "G"], ["\u0121", "g"], ["\u0126", "H"], ["\u0127", "h"], ["\u017B", "Z"], ["\u017C", "z"], // Numbers ["\u{1D7CE}", "0"], ["\u{1D7CF}", "1"], ["\u{1D7D0}", "2"], ["\u{1D7D1}", "3"], ["\u{1D7D2}", "4"], ["\u{1D7D3}", "5"], ["\u{1D7D4}", "6"], ["\u{1D7D5}", "7"], ["\u{1D7D6}", "8"], ["\u{1D7D7}", "9"], ["\u{1D7D8}", "0"], ["\u{1D7D9}", "1"], ["\u{1D7DA}", "2"], ["\u{1D7DB}", "3"], ["\u{1D7DC}", "4"], ["\u{1D7DD}", "5"], ["\u{1D7DE}", "6"], ["\u{1D7DF}", "7"], ["\u{1D7E0}", "8"], ["\u{1D7E1}", "9"], ["\u{1D7E2}", "0"], ["\u{1D7E3}", "1"], ["\u{1D7E4}", "2"], ["\u{1D7E5}", "3"], ["\u{1D7E6}", "4"], ["\u{1D7E7}", "5"], ["\u{1D7E8}", "6"], ["\u{1D7E9}", "7"], ["\u{1D7EA}", "8"], ["\u{1D7EB}", "9"], ["\u{1D7EC}", "0"], ["\u{1D7ED}", "1"], ["\u{1D7EE}", "2"], ["\u{1D7EF}", "3"], ["\u{1D7F0}", "4"], ["\u{1D7F1}", "5"], ["\u{1D7F2}", "6"], ["\u{1D7F3}", "7"], ["\u{1D7F4}", "8"], ["\u{1D7F5}", "9"], ["\u{1D7F6}", "0"], ["\u{1D7F7}", "1"], ["\u{1D7F8}", "2"], ["\u{1D7F9}", "3"], ["\u{1D7FA}", "4"], ["\u{1D7FB}", "5"], ["\u{1D7FC}", "6"], ["\u{1D7FD}", "7"], ["\u{1D7FE}", "8"], ["\u{1D7FF}", "9"], ["\u2460", "1"], ["\u2461", "2"], ["\u2462", "3"], ["\u2463", "4"], ["\u2464", "5"], ["\u2465", "6"], ["\u2466", "7"], ["\u2467", "8"], ["\u2468", "9"], ["\u2469", "10"], ["\u246A", "11"], ["\u246B", "12"], ["\u246C", "13"], ["\u246D", "14"], ["\u246E", "15"], ["\u246F", "16"], ["\u2470", "17"], ["\u2471", "18"], ["\u2472", "19"], ["\u2473", "20"], ["\u2474", "1"], ["\u2475", "2"], ["\u2476", "3"], ["\u2477", "4"], ["\u2478", "5"], ["\u2479", "6"], ["\u247A", "7"], ["\u247B", "8"], ["\u247C", "9"], ["\u247D", "10"], ["\u247E", "11"], ["\u247F", "12"], ["\u2480", "13"], ["\u2481", "14"], ["\u2482", "15"], ["\u2483", "16"], ["\u2484", "17"], ["\u2485", "18"], ["\u2486", "19"], ["\u2487", "20"], ["\u2488", "1."], ["\u2489", "2."], ["\u248A", "3."], ["\u248B", "4."], ["\u248C", "5."], ["\u248D", "6."], ["\u248E", "7."], ["\u248F", "8."], ["\u2490", "9."], ["\u2491", "10."], ["\u2492", "11."], ["\u2493", "12."], ["\u2494", "13."], ["\u2495", "14."], ["\u2496", "15."], ["\u2497", "16."], ["\u2498", "17."], ["\u2499", "18."], ["\u249A", "19."], ["\u249B", "20."], ["\u24EA", "0"], ["\u24EB", "11"], ["\u24EC", "12"], ["\u24ED", "13"], ["\u24EE", "14"], ["\u24EF", "15"], ["\u24F0", "16"], ["\u24F1", "17"], ["\u24F2", "18"], ["\u24F3", "19"], ["\u24F4", "20"], ["\u24F5", "1"], ["\u24F6", "2"], ["\u24F7", "3"], ["\u24F8", "4"], ["\u24F9", "5"], ["\u24FA", "6"], ["\u24FB", "7"], ["\u24FC", "8"], ["\u24FD", "9"], ["\u24FE", "10"], ["\u24FF", "0"], // Punctuation ["\u{1F670}", "&"], ["\u{1F671}", "&"], ["\u{1F672}", "&"], ["\u{1F673}", "&"], ["\u{1F674}", "&"], ["\u{1F675}", "&"], ["\u{1F676}", '"'], ["\u{1F677}", '"'], ["\u{1F678}", '"'], ["\u203D", "?!"], ["\u{1F679}", "?!"], ["\u{1F67A}", "?!"], ["\u{1F67B}", "?!"], ["\u{1F67C}", "/"], ["\u{1F67D}", "\\"], // Alchemy ["\u{1F707}", "AR"], ["\u{1F708}", "V"], ["\u{1F709}", "V"], ["\u{1F706}", "VR"], ["\u{1F705}", "VF"], ["\u{1F729}", "2"], ["\u{1F72A}", "5"], ["\u{1F761}", "f"], ["\u{1F762}", "W"], ["\u{1F763}", "U"], ["\u{1F767}", "V"], ["\u{1F768}", "T"], ["\u{1F76A}", "V"], ["\u{1F76B}", "MB"], ["\u{1F76C}", "VB"], ["\u{1F772}", "3B"], ["\u{1F773}", "3B"], // Emojis ["\u{1F4AF}", "100"], ["\u{1F519}", "BACK"], ["\u{1F51A}", "END"], ["\u{1F51B}", "ON!"], ["\u{1F51C}", "SOON"], ["\u{1F51D}", "TOP"], ["\u{1F51E}", "18"], ["\u{1F524}", "abc"], ["\u{1F520}", "ABCD"], ["\u{1F521}", "abcd"], ["\u{1F522}", "1234"], ["\u{1F523}", "T&@%"], ["#\uFE0F\u20E3", "#"], ["*\uFE0F\u20E3", "*"], ["0\uFE0F\u20E3", "0"], ["1\uFE0F\u20E3", "1"], ["2\uFE0F\u20E3", "2"], ["3\uFE0F\u20E3", "3"], ["4\uFE0F\u20E3", "4"], ["5\uFE0F\u20E3", "5"], ["6\uFE0F\u20E3", "6"], ["7\uFE0F\u20E3", "7"], ["8\uFE0F\u20E3", "8"], ["9\uFE0F\u20E3", "9"], ["\u{1F51F}", "10"], ["\u{1F170}\uFE0F", "A"], ["\u{1F171}\uFE0F", "B"], ["\u{1F18E}", "AB"], ["\u{1F191}", "CL"], ["\u{1F17E}\uFE0F", "O"], ["\u{1F17F}", "P"], ["\u{1F198}", "SOS"], ["\u{1F172}", "C"], ["\u{1F173}", "D"], ["\u{1F174}", "E"], ["\u{1F175}", "F"], ["\u{1F176}", "G"], ["\u{1F177}", "H"], ["\u{1F178}", "I"], ["\u{1F179}", "J"], ["\u{1F17A}", "K"], ["\u{1F17B}", "L"], ["\u{1F17C}", "M"], ["\u{1F17D}", "N"], ["\u{1F180}", "Q"], ["\u{1F181}", "R"], ["\u{1F182}", "S"], ["\u{1F183}", "T"], ["\u{1F184}", "U"], ["\u{1F185}", "V"], ["\u{1F186}", "W"], ["\u{1F187}", "X"], ["\u{1F188}", "Y"], ["\u{1F189}", "Z"] ]; var replacements_default = replacements; // node_modules/@sindresorhus/transliterate/index.js var doCustomReplacements = (string3, replacements2) => { for (const [key, value] of replacements2) { string3 = string3.replace(new RegExp(escapeStringRegexp(key), "g"), value); } return string3; }; function transliterate(string3, options2) { if (typeof string3 !== "string") { throw new TypeError(`Expected a string, got \`${typeof string3}\``); } options2 = __spreadValues({ customReplacements: [] }, options2); const customReplacements = new Map([ ...replacements_default, ...options2.customReplacements ]); string3 = string3.normalize(); string3 = doCustomReplacements(string3, customReplacements); string3 = string3.normalize("NFD").replace(new RegExp("\\p{Diacritic}", "gu"), "").normalize(); return string3; } // node_modules/@sindresorhus/slugify/overridable-replacements.js var overridableReplacements = [ ["&", " and "], ["\u{1F984}", " unicorn "], ["\u2665", " love "] ]; var overridable_replacements_default = overridableReplacements; // node_modules/@sindresorhus/slugify/index.js var decamelize = (string3) => { return string3.replace(/([A-Z]{2,})(\d+)/g, "$1 $2").replace(/([a-z\d]+)([A-Z]{2,})/g, "$1 $2").replace(/([a-z\d])([A-Z])/g, "$1 $2").replace(/([A-Z]+)([A-Z][a-rt-z\d]+)/g, "$1 $2"); }; var removeMootSeparators = (string3, separator) => { const escapedSeparator = escapeStringRegexp(separator); return string3.replace(new RegExp(`${escapedSeparator}{2,}`, "g"), separator).replace(new RegExp(`^${escapedSeparator}|${escapedSeparator}$`, "g"), ""); }; var buildPatternSlug = (options2) => { let negationSetPattern = "a-z\\d"; negationSetPattern += options2.lowercase ? "" : "A-Z"; if (options2.preserveCharacters.length > 0) { for (const character of options2.preserveCharacters) { if (character === options2.separator) { throw new Error(`The separator character \`${options2.separator}\` cannot be included in preserved characters: ${options2.preserveCharacters}`); } negationSetPattern += escapeStringRegexp(character); } } return new RegExp(`[^${negationSetPattern}]+`, "g"); }; function slugify(string3, options2) { if (typeof string3 !== "string") { throw new TypeError(`Expected a string, got \`${typeof string3}\``); } options2 = __spreadValues({ separator: "-", lowercase: true, decamelize: true, customReplacements: [], preserveLeadingUnderscore: false, preserveTrailingDash: false, preserveCharacters: [] }, options2); const shouldPrependUnderscore = options2.preserveLeadingUnderscore && string3.startsWith("_"); const shouldAppendDash = options2.preserveTrailingDash && string3.endsWith("-"); const customReplacements = new Map([ ...overridable_replacements_default, ...options2.customReplacements ]); string3 = transliterate(string3, { customReplacements }); if (options2.decamelize) { string3 = decamelize(string3); } const patternSlug = buildPatternSlug(options2); if (options2.lowercase) { string3 = string3.toLowerCase(); } string3 = string3.replace(/([a-zA-Z\d]+)'([ts])(\s|$)/g, "$1$2$3"); string3 = string3.replace(patternSlug, options2.separator); string3 = string3.replace(/\\/g, ""); if (options2.separator) { string3 = removeMootSeparators(string3, options2.separator); } if (shouldPrependUnderscore) { string3 = `_${string3}`; } if (shouldAppendDash) { string3 = `${string3}-`; } return string3; } // node_modules/prosemirror-schema-list/dist/index.js function splitListItem(itemType, itemAttrs) { return function(state, dispatch) { let { $from, $to, node: node2 } = state.selection; if (node2 && node2.isBlock || $from.depth < 2 || !$from.sameParent($to)) return false; let grandParent = $from.node(-1); if (grandParent.type != itemType) return false; if ($from.parent.content.size == 0 && $from.node(-1).childCount == $from.indexAfter(-1)) { if ($from.depth == 3 || $from.node(-3).type != itemType || $from.index(-2) != $from.node(-2).childCount - 1) return false; if (dispatch) { let wrap3 = Fragment.empty; let depthBefore = $from.index(-1) ? 1 : $from.index(-2) ? 2 : 3; for (let d6 = $from.depth - depthBefore; d6 >= $from.depth - 3; d6--) wrap3 = Fragment.from($from.node(d6).copy(wrap3)); let depthAfter = $from.indexAfter(-1) < $from.node(-2).childCount ? 1 : $from.indexAfter(-2) < $from.node(-3).childCount ? 2 : 3; wrap3 = wrap3.append(Fragment.from(itemType.createAndFill())); let start = $from.before($from.depth - (depthBefore - 1)); let tr2 = state.tr.replace(start, $from.after(-depthAfter), new Slice(wrap3, 4 - depthBefore, 0)); let sel = -1; tr2.doc.nodesBetween(start, tr2.doc.content.size, (node3, pos) => { if (sel > -1) return false; if (node3.isTextblock && node3.content.size == 0) sel = pos + 1; }); if (sel > -1) tr2.setSelection(Selection.near(tr2.doc.resolve(sel))); dispatch(tr2.scrollIntoView()); } return true; } let nextType = $to.pos == $from.end() ? grandParent.contentMatchAt(0).defaultType : null; let tr = state.tr.delete($from.pos, $to.pos); let types = nextType ? [itemAttrs ? { type: itemType, attrs: itemAttrs } : null, { type: nextType }] : void 0; if (!canSplit(tr.doc, $from.pos, 2, types)) return false; if (dispatch) dispatch(tr.split($from.pos, 2, types).scrollIntoView()); return true; }; } function liftListItem(itemType) { return function(state, dispatch) { let { $from, $to } = state.selection; let range = $from.blockRange($to, (node2) => node2.childCount > 0 && node2.firstChild.type == itemType); if (!range) return false; if (!dispatch) return true; if ($from.node(range.depth - 1).type == itemType) return liftToOuterList(state, dispatch, itemType, range); else return liftOutOfList(state, dispatch, range); }; } function liftToOuterList(state, dispatch, itemType, range) { let tr = state.tr, end = range.end, endOfList = range.$to.end(range.depth); if (end < endOfList) { tr.step(new ReplaceAroundStep(end - 1, endOfList, end, endOfList, new Slice(Fragment.from(itemType.create(null, range.parent.copy())), 1, 0), 1, true)); range = new NodeRange(tr.doc.resolve(range.$from.pos), tr.doc.resolve(endOfList), range.depth); } const target = liftTarget(range); if (target == null) return false; tr.lift(range, target); let after = tr.mapping.map(end, -1) - 1; if (canJoin(tr.doc, after)) tr.join(after); dispatch(tr.scrollIntoView()); return true; } function liftOutOfList(state, dispatch, range) { let tr = state.tr, list4 = range.parent; for (let pos = range.end, i2 = range.endIndex - 1, e2 = range.startIndex; i2 > e2; i2--) { pos -= list4.child(i2).nodeSize; tr.delete(pos - 1, pos + 1); } let $start = tr.doc.resolve(range.start), item = $start.nodeAfter; if (tr.mapping.map(range.end) != range.start + $start.nodeAfter.nodeSize) return false; let atStart = range.startIndex == 0, atEnd = range.endIndex == list4.childCount; let parent = $start.node(-1), indexBefore = $start.index(-1); if (!parent.canReplace(indexBefore + (atStart ? 0 : 1), indexBefore + 1, item.content.append(atEnd ? Fragment.empty : Fragment.from(list4)))) return false; let start = $start.pos, end = start + item.nodeSize; tr.step(new ReplaceAroundStep(start - (atStart ? 1 : 0), end + (atEnd ? 1 : 0), start + 1, end - 1, new Slice((atStart ? Fragment.empty : Fragment.from(list4.copy(Fragment.empty))).append(atEnd ? Fragment.empty : Fragment.from(list4.copy(Fragment.empty))), atStart ? 0 : 1, atEnd ? 0 : 1), atStart ? 0 : 1)); dispatch(tr.scrollIntoView()); return true; } function sinkListItem(itemType) { return function(state, dispatch) { let { $from, $to } = state.selection; let range = $from.blockRange($to, (node2) => node2.childCount > 0 && node2.firstChild.type == itemType); if (!range) return false; let startIndex = range.startIndex; if (startIndex == 0) return false; let parent = range.parent, nodeBefore = parent.child(startIndex - 1); if (nodeBefore.type != itemType) return false; if (dispatch) { let nestedBefore = nodeBefore.lastChild && nodeBefore.lastChild.type == parent.type; let inner = Fragment.from(nestedBefore ? itemType.create() : null); let slice = new Slice(Fragment.from(itemType.create(null, Fragment.from(parent.type.create(null, inner)))), nestedBefore ? 3 : 1, 0); let before = range.start, after = range.end; dispatch(state.tr.step(new ReplaceAroundStep(before - (nestedBefore ? 3 : 1), after, before, after, slice, 1, true)).scrollIntoView()); } return true; }; } // node_modules/mdast-util-definitions/lib/index.js function definitions(tree) { const cache = /* @__PURE__ */ new Map(); if (!tree || !tree.type) { throw new Error("mdast-util-definitions expected node"); } visit(tree, "definition", function(definition4) { const id = clean(definition4.identifier); if (id && !cache.get(id)) { cache.set(id, definition4); } }); return definition3; function definition3(identifier) { const id = clean(identifier); return cache.get(id); } } function clean(value) { return String(value || "").toUpperCase(); } // node_modules/remark-inline-links/lib/index.js function remarkInlineLinks() { return function(tree) { const definition3 = definitions(tree); visit(tree, function(node2, index2, parent) { if (node2.type === "definition" && parent !== void 0 && typeof index2 === "number") { parent.children.splice(index2, 1); return [SKIP, index2]; } if (node2.type === "imageReference" || node2.type === "linkReference") { const def = definition3(node2.identifier); if (def && parent && typeof index2 === "number") { parent.children[index2] = node2.type === "imageReference" ? { type: "image", url: def.url, title: def.title, alt: node2.alt } : { type: "link", url: def.url, title: def.title, children: node2.children }; return [SKIP, index2]; } } }); }; } // node_modules/@milkdown/preset-commonmark/lib/index.es.js function at2(t2, e2) { var o2; if (!(e2.childCount >= 1 && ((o2 = e2.lastChild) == null ? void 0 : o2.type.name) === "hardbreak")) { t2.next(e2.content); return; } const a2 = []; e2.content.forEach((s2, l5, i2) => { i2 !== e2.childCount - 1 && a2.push(s2); }), t2.next(Fragment.fromArray(a2)); } function n3(t2, e2) { return Object.assign(t2, { meta: __spreadValues({ package: "@milkdown/preset-commonmark" }, e2) }), t2; } var Z3 = we2("emphasis"); n3(Z3, { displayName: "Attr", group: "Emphasis" }); var R4 = ye2("emphasis", (t2) => ({ attrs: { marker: { default: t2.get(Q2).emphasis || "*" } }, parseDOM: [ { tag: "i" }, { tag: "em" }, { style: "font-style", getAttrs: (e2) => e2 === "italic" } ], toDOM: (e2) => ["em", t2.get(Z3.key)(e2)], parseMarkdown: { match: (e2) => e2.type === "emphasis", runner: (e2, r3, a2) => { e2.openMark(a2, { marker: r3.marker }), e2.next(r3.children), e2.closeMark(a2); } }, toMarkdown: { match: (e2) => e2.type.name === "emphasis", runner: (e2, r3) => { e2.withMark(r3, "emphasis", void 0, { marker: r3.attrs.marker }); } } })); n3(R4.mark, { displayName: "MarkSchema", group: "Emphasis" }); n3(R4.ctx, { displayName: "MarkSchemaCtx", group: "Emphasis" }); var ee2 = re2("ToggleEmphasis", (t2) => () => toggleMark(R4.type(t2))); n3(ee2, { displayName: "Command", group: "Emphasis" }); var nt = oe2((t2) => markRule(/(?:^|[^*])\*([^*]+)\*$/, R4.type(t2), { getAttr: () => ({ marker: "*" }), updateCaptured: ({ fullMatch: e2, start: r3 }) => e2.startsWith("*") ? {} : { fullMatch: e2.slice(1), start: r3 + 1 } })); n3(nt, { displayName: "InputRule|Star", group: "Emphasis" }); var ot2 = oe2((t2) => markRule(/(?:^|[^_])_([^_]+)_$/, R4.type(t2), { getAttr: () => ({ marker: "_" }), updateCaptured: ({ fullMatch: e2, start: r3 }) => e2.startsWith("_") ? {} : { fullMatch: e2.slice(1), start: r3 + 1 } })); n3(ot2, { displayName: "InputRule|Underscore", group: "Emphasis" }); var te2 = ge2("emphasisKeymap", { ToggleEmphasis: { shortcuts: "Mod-i", command: (t2) => { const e2 = t2.get(je); return () => e2.call(ee2.key); } } }); n3(te2.ctx, { displayName: "KeymapCtx", group: "Emphasis" }); n3(te2.shortcuts, { displayName: "Keymap", group: "Emphasis" }); var re3 = we2("strong"); n3(re3, { displayName: "Attr", group: "Strong" }); var $2 = ye2("strong", (t2) => ({ attrs: { marker: { default: t2.get(Q2).strong || "*" } }, parseDOM: [ { tag: "b" }, { tag: "strong" }, { style: "font-style", getAttrs: (e2) => e2 === "bold" } ], toDOM: (e2) => ["strong", t2.get(re3.key)(e2)], parseMarkdown: { match: (e2) => e2.type === "strong", runner: (e2, r3, a2) => { e2.openMark(a2, { marker: r3.marker }), e2.next(r3.children), e2.closeMark(a2); } }, toMarkdown: { match: (e2) => e2.type.name === "strong", runner: (e2, r3) => { e2.withMark(r3, "strong", void 0, { marker: r3.attrs.marker }); } } })); n3($2.mark, { displayName: "MarkSchema", group: "Strong" }); n3($2.ctx, { displayName: "MarkSchemaCtx", group: "Strong" }); var ae2 = re2("ToggleStrong", (t2) => () => toggleMark($2.type(t2))); n3(ae2, { displayName: "Command", group: "Strong" }); var st = oe2((t2) => markRule(/(?:\*\*|__)([^*_]+)(?:\*\*|__)$/, $2.type(t2), { getAttr: (e2) => ({ marker: e2[0].startsWith("*") ? "*" : "_" }) })); n3(st, { displayName: "InputRule", group: "Strong" }); var ne2 = ge2("strongKeymap", { ToggleBold: { shortcuts: ["Mod-b"], command: (t2) => { const e2 = t2.get(je); return () => e2.call(ae2.key); } } }); n3(ne2.ctx, { displayName: "KeymapCtx", group: "Strong" }); n3(ne2.shortcuts, { displayName: "Keymap", group: "Strong" }); var oe3 = we2("inlineCode"); n3(oe3, { displayName: "Attr", group: "InlineCode" }); var x5 = ye2("inlineCode", (t2) => ({ priority: 100, code: true, inclusive: false, parseDOM: [{ tag: "code" }], toDOM: (e2) => ["code", t2.get(oe3.key)(e2)], parseMarkdown: { match: (e2) => e2.type === "inlineCode", runner: (e2, r3, a2) => { e2.openMark(a2), e2.addText(r3.value), e2.closeMark(a2); } }, toMarkdown: { match: (e2) => e2.type.name === "inlineCode", runner: (e2, r3, a2) => { e2.withMark(r3, "inlineCode", a2.text || ""); } } })); n3(x5.mark, { displayName: "MarkSchema", group: "InlineCode" }); n3(x5.ctx, { displayName: "MarkSchemaCtx", group: "InlineCode" }); var se2 = re2("ToggleInlineCode", (t2) => () => (e2, r3) => { const { selection: a2, tr: o2 } = e2; if (a2.empty) return false; const { from: s2, to: l5 } = a2; return e2.doc.rangeHasMark(s2, l5, x5.type(t2)) ? (r3 == null || r3(o2.removeMark(s2, l5, x5.type(t2))), true) : (Object.keys(e2.schema.marks).filter((m3) => m3 !== x5.type.name).map((m3) => e2.schema.marks[m3]).forEach((m3) => { o2.removeMark(s2, l5, m3); }), r3 == null || r3(o2.addMark(s2, l5, x5.type(t2).create())), true); }); n3(se2, { displayName: "Command", group: "InlineCode" }); var lt2 = oe2((t2) => markRule(/(?:\`)([^\`]+)(?:\`)$/, x5.type(t2))); n3(lt2, { displayName: "InputRule", group: "InlineCode" }); var le2 = ge2("inlineCodeKeymap", { ToggleInlineCode: { shortcuts: "Mod-e", command: (t2) => { const e2 = t2.get(je); return () => e2.call(se2.key); } } }); n3(le2.ctx, { displayName: "KeymapCtx", group: "InlineCode" }); n3(le2.shortcuts, { displayName: "Keymap", group: "InlineCode" }); var ie5 = we2("link"); n3(ie5, { displayName: "Attr", group: "Link" }); var B2 = ye2("link", (t2) => ({ attrs: { href: {}, title: { default: null } }, parseDOM: [ { tag: "a[href]", getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { href: e2.getAttribute("href"), title: e2.getAttribute("title") }; } } ], toDOM: (e2) => ["a", __spreadValues(__spreadValues({}, t2.get(ie5.key)(e2)), e2.attrs)], parseMarkdown: { match: (e2) => e2.type === "link", runner: (e2, r3, a2) => { const o2 = r3.url, s2 = r3.title; e2.openMark(a2, { href: o2, title: s2 }), e2.next(r3.children), e2.closeMark(a2); } }, toMarkdown: { match: (e2) => e2.type.name === "link", runner: (e2, r3) => { e2.withMark(r3, "link", void 0, { title: r3.attrs.title, url: r3.attrs.href }); } } })); n3(B2.mark, { displayName: "MarkSchema", group: "Link" }); var it = re2("ToggleLink", (t2) => (e2 = {}) => toggleMark(B2.type(t2), e2)); n3(it, { displayName: "Command", group: "Link" }); var dt2 = re2("UpdateLink", (t2) => (e2 = {}) => (r3, a2) => { if (!a2) return false; let o2, s2 = -1; const { selection: l5 } = r3, { from: i2, to: d6 } = l5; if (r3.doc.nodesBetween(i2, i2 === d6 ? d6 + 1 : d6, (y4, b4) => { if (B2.type(t2).isInSet(y4.marks)) return o2 = y4, s2 = b4, false; }), !o2) return false; const m3 = o2.marks.find(({ type: y4 }) => y4 === B2.type(t2)); if (!m3) return false; const p4 = s2, k4 = s2 + o2.nodeSize, { tr: g5 } = r3, C5 = B2.type(t2).create(__spreadValues(__spreadValues({}, m3.attrs), e2)); return C5 ? (a2( g5.removeMark(p4, k4, m3).addMark(p4, k4, C5).setSelection(new TextSelection(g5.selection.$anchor)).scrollIntoView() ), true) : false; }); n3(dt2, { displayName: "Command", group: "Link" }); var mt2 = W3("doc", () => ({ content: "block+", parseMarkdown: { match: ({ type: t2 }) => t2 === "root", runner: (t2, e2, r3) => { t2.injectRoot(e2, r3); } }, toMarkdown: { match: (t2) => t2.type.name === "doc", runner: (t2, e2) => { t2.openNode("root"), t2.next(e2.content); } } })); n3(mt2, { displayName: "NodeSchema", group: "Doc" }); var de = he("paragraph"); n3(de, { displayName: "Attr", group: "Paragraph" }); var w5 = fe2("paragraph", (t2) => ({ content: "inline*", group: "block", parseDOM: [{ tag: "p" }], toDOM: (e2) => ["p", t2.get(de.key)(e2), 0], parseMarkdown: { match: (e2) => e2.type === "paragraph", runner: (e2, r3, a2) => { e2.openNode(a2), r3.children ? e2.next(r3.children) : e2.addText(r3.value || ""), e2.closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "paragraph", runner: (e2, r3) => { e2.openNode("paragraph"), at2(e2, r3), e2.closeNode(); } } })); n3(w5.node, { displayName: "NodeSchema", group: "Paragraph" }); n3(w5.ctx, { displayName: "NodeSchemaCtx", group: "Paragraph" }); var me2 = re2("TurnIntoText", (t2) => () => setBlockType2(w5.type(t2))); n3(me2, { displayName: "Command", group: "Paragraph" }); var pe2 = ge2("paragraphKeymap", { TurnIntoText: { shortcuts: "Mod-Alt-0", command: (t2) => { const e2 = t2.get(je); return () => e2.call(me2.key); } } }); n3(pe2.ctx, { displayName: "KeymapCtx", group: "Paragraph" }); n3(pe2.shortcuts, { displayName: "Keymap", group: "Paragraph" }); var Dt = Array(6).fill(0).map((t2, e2) => e2 + 1); function _t(t2) { return slugify(t2.textContent); } var j4 = h3(_t, "headingIdGenerator"); n3(j4, { displayName: "Ctx", group: "Heading" }); var ce2 = he("heading"); n3(ce2, { displayName: "Attr", group: "Heading" }); var H4 = fe2("heading", (t2) => { const e2 = t2.get(j4.key); return { content: "inline*", group: "block", defining: true, attrs: { id: { default: "" }, level: { default: 1 } }, parseDOM: Dt.map((r3) => ({ tag: `h${r3}`, getAttrs: (a2) => { if (!(a2 instanceof HTMLElement)) throw S(a2); return { level: r3, id: a2.id }; } })), toDOM: (r3) => [ `h${r3.attrs.level}`, __spreadProps(__spreadValues({}, t2.get(ce2.key)(r3)), { id: r3.attrs.id || e2(r3) }), 0 ], parseMarkdown: { match: ({ type: r3 }) => r3 === "heading", runner: (r3, a2, o2) => { const s2 = a2.depth; r3.openNode(o2, { level: s2 }), r3.next(a2.children), r3.closeNode(); } }, toMarkdown: { match: (r3) => r3.type.name === "heading", runner: (r3, a2) => { r3.openNode("heading", void 0, { depth: a2.attrs.level }), at2(r3, a2), r3.closeNode(); } } }; }); n3(H4.node, { displayName: "NodeSchema", group: "Heading" }); n3(H4.ctx, { displayName: "NodeSchemaCtx", group: "Heading" }); var pt = oe2((t2) => textblockTypeInputRule(new RegExp("^(?#+)\\s$"), H4.type(t2), (e2) => { var l5, i2; const r3 = ((i2 = (l5 = e2.groups) == null ? void 0 : l5.hashes) == null ? void 0 : i2.length) || 0, a2 = t2.get(H3), { $from: o2 } = a2.state.selection, s2 = o2.node(); if (s2.type.name === "heading") { let d6 = Number(s2.attrs.level) + Number(r3); return d6 > 6 && (d6 = 6), { level: d6 }; } return { level: r3 }; })); n3(pt, { displayName: "InputRule", group: "Heading" }); var L4 = re2("WrapInHeading", (t2) => (e2) => (e2 != null ? e2 : e2 = 1, e2 < 1 ? setBlockType2(w5.type(t2)) : setBlockType2(H4.type(t2), { level: e2 }))); n3(L4, { displayName: "Command", group: "Heading" }); var ue3 = re2("DowngradeHeading", (t2) => () => (e2, r3, a2) => { const { $from: o2 } = e2.selection, s2 = o2.node(); if (s2.type !== H4.type(t2) || !e2.selection.empty || o2.parentOffset !== 0) return false; const l5 = s2.attrs.level - 1; return l5 ? (r3 == null || r3( e2.tr.setNodeMarkup(e2.selection.$from.before(), void 0, __spreadProps(__spreadValues({}, s2.attrs), { level: l5 })) ), true) : setBlockType2(w5.type(t2))(e2, r3, a2); }); n3(ue3, { displayName: "Command", group: "Heading" }); var ge3 = ge2("headingKeymap", { TurnIntoH1: { shortcuts: "Mod-Alt-1", command: (t2) => { const e2 = t2.get(je); return () => e2.call(L4.key, 1); } }, TurnIntoH2: { shortcuts: "Mod-Alt-2", command: (t2) => { const e2 = t2.get(je); return () => e2.call(L4.key, 2); } }, TurnIntoH3: { shortcuts: "Mod-Alt-3", command: (t2) => { const e2 = t2.get(je); return () => e2.call(L4.key, 3); } }, TurnIntoH4: { shortcuts: "Mod-Alt-4", command: (t2) => { const e2 = t2.get(je); return () => e2.call(L4.key, 4); } }, TurnIntoH5: { shortcuts: "Mod-Alt-5", command: (t2) => { const e2 = t2.get(je); return () => e2.call(L4.key, 5); } }, TurnIntoH6: { shortcuts: "Mod-Alt-6", command: (t2) => { const e2 = t2.get(je); return () => e2.call(L4.key, 6); } }, DowngradeHeading: { shortcuts: ["Delete", "Backspace"], command: (t2) => { const e2 = t2.get(je); return () => e2.call(ue3.key); } } }); n3(ge3.ctx, { displayName: "KeymapCtx", group: "Heading" }); n3(ge3.shortcuts, { displayName: "Keymap", group: "Heading" }); var ye3 = he("blockquote"); n3(ye3, { displayName: "Attr
", group: "Blockquote" }); var q5 = fe2("blockquote", (t2) => ({ content: "block+", group: "block", defining: true, parseDOM: [{ tag: "blockquote" }], toDOM: (e2) => ["blockquote", t2.get(ye3.key)(e2), 0], parseMarkdown: { match: ({ type: e2 }) => e2 === "blockquote", runner: (e2, r3, a2) => { e2.openNode(a2).next(r3.children).closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "blockquote", runner: (e2, r3) => { e2.openNode("blockquote").next(r3.content).closeNode(); } } })); n3(q5.node, { displayName: "NodeSchema
", group: "Blockquote" }); n3(q5.ctx, { displayName: "NodeSchemaCtx
", group: "Blockquote" }); var ct2 = oe2((t2) => wrappingInputRule(/^\s*>\s$/, q5.type(t2))); n3(ct2, { displayName: "InputRule", group: "Blockquote" }); var ke3 = re2("WrapInBlockquote", (t2) => () => wrapIn(q5.type(t2))); n3(ke3, { displayName: "Command", group: "Blockquote" }); var he2 = ge2("blockquoteKeymap", { WrapInBlockquote: { shortcuts: "Mod-Shift-b", command: (t2) => { const e2 = t2.get(je); return () => e2.call(ke3.key); } } }); n3(he2.ctx, { displayName: "KeymapCtx
", group: "Blockquote" }); n3(he2.shortcuts, { displayName: "Keymap
", group: "Blockquote" }); var fe3 = he("codeBlock", () => ({ pre: {}, code: {} })); n3(fe3, { displayName: "Attr", group: "CodeBlock" }); var W4 = fe2("code_block", (t2) => ({ content: "text*", group: "block", marks: "", defining: true, code: true, attrs: { language: { default: "" } }, parseDOM: [ { tag: "pre", preserveWhitespace: "full", getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { language: e2.dataset.language }; } } ], toDOM: (e2) => { const r3 = t2.get(fe3.key)(e2); return [ "pre", __spreadProps(__spreadValues({}, r3.pre), { "data-language": e2.attrs.language }), ["code", r3.code, 0] ]; }, parseMarkdown: { match: ({ type: e2 }) => e2 === "code", runner: (e2, r3, a2) => { const o2 = r3.lang, s2 = r3.value; e2.openNode(a2, { language: o2 }), s2 && e2.addText(s2), e2.closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "code_block", runner: (e2, r3) => { var a2; e2.addNode("code", void 0, ((a2 = r3.content.firstChild) == null ? void 0 : a2.text) || "", { lang: r3.attrs.language }); } } })); n3(W4.node, { displayName: "NodeSchema", group: "CodeBlock" }); n3(W4.ctx, { displayName: "NodeSchemaCtx", group: "CodeBlock" }); var ut2 = oe2((t2) => textblockTypeInputRule(new RegExp("^```(?[a-z]*)?[\\s\\n]$"), W4.type(t2), (e2) => { var _a; var r3; return { language: (_a = (r3 = e2.groups) == null ? void 0 : r3.language) != null ? _a : "" }; })); n3(ut2, { displayName: "InputRule", group: "CodeBlock" }); var Ne2 = re2("CreateCodeBlock", (t2) => (e2 = "") => setBlockType2(W4.type(t2), { language: e2 })); n3(Ne2, { displayName: "Command", group: "CodeBlock" }); var Et2 = re2("UpdateCodeBlockLanguage", () => ({ pos: t2, language: e2 } = { pos: -1, language: "" }) => (r3, a2) => t2 >= 0 ? (a2 == null || a2(r3.tr.setNodeAttribute(t2, "language", e2)), true) : false); n3(Et2, { displayName: "Command", group: "CodeBlock" }); var Ie2 = ge2("codeBlockKeymap", { CreateCodeBlock: { shortcuts: "Mod-Alt-c", command: (t2) => { const e2 = t2.get(je); return () => e2.call(Ne2.key); } } }); n3(Ie2.ctx, { displayName: "KeymapCtx", group: "CodeBlock" }); n3(Ie2.shortcuts, { displayName: "Keymap", group: "CodeBlock" }); var Ce3 = he("image"); n3(Ce3, { displayName: "Attr", group: "Image" }); var v2 = fe2("image", (t2) => ({ inline: true, group: "inline", selectable: true, draggable: true, marks: "", atom: true, defining: true, isolating: true, attrs: { src: { default: "" }, alt: { default: "" }, title: { default: "" } }, parseDOM: [ { tag: "img[src]", getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { src: e2.getAttribute("src") || "", alt: e2.getAttribute("alt") || "", title: e2.getAttribute("title") || e2.getAttribute("alt") || "" }; } } ], toDOM: (e2) => ["img", __spreadValues(__spreadValues({}, t2.get(Ce3.key)(e2)), e2.attrs)], parseMarkdown: { match: ({ type: e2 }) => e2 === "image", runner: (e2, r3, a2) => { const o2 = r3.url, s2 = r3.alt, l5 = r3.title; e2.addNode(a2, { src: o2, alt: s2, title: l5 }); } }, toMarkdown: { match: (e2) => e2.type.name === "image", runner: (e2, r3) => { e2.addNode("image", void 0, void 0, { title: r3.attrs.title, url: r3.attrs.src, alt: r3.attrs.alt }); } } })); n3(v2.node, { displayName: "NodeSchema", group: "Image" }); n3(v2.ctx, { displayName: "NodeSchemaCtx", group: "Image" }); var gt = re2("InsertImage", (t2) => (e2 = {}) => (r3, a2) => { if (!a2) return true; const { src: o2 = "", alt: s2 = "", title: l5 = "" } = e2, i2 = v2.type(t2).create({ src: o2, alt: s2, title: l5 }); return i2 && a2(r3.tr.replaceSelectionWith(i2).scrollIntoView()), true; }); n3(gt, { displayName: "Command", group: "Image" }); var yt = re2("UpdateImage", (t2) => (e2 = {}) => (r3, a2) => { const o2 = findSelectedNodeOfType(r3.selection, v2.type(t2)); if (!o2) return false; const { node: s2, pos: l5 } = o2, i2 = __spreadValues({}, s2.attrs), { src: d6, alt: m3, title: p4 } = e2; return d6 !== void 0 && (i2.src = d6), m3 !== void 0 && (i2.alt = m3), p4 !== void 0 && (i2.title = p4), a2 == null || a2(r3.tr.setNodeMarkup(l5, void 0, i2).scrollIntoView()), true; }); n3(yt, { displayName: "Command", group: "Image" }); var Pt = oe2((t2) => new InputRule( new RegExp('!\\[(?.*?)]\\((?.*?)\\s*(?="|\\))"?(?[^"]+)?"?\\)'), (e2, r3, a2, o2) => { const [s2, l5, i2 = "", d6] = r3; return s2 ? e2.tr.replaceWith(a2, o2, v2.type(t2).create({ src: i2, alt: l5, title: d6 })) : null; } )); n3(Pt, { displayName: "InputRule<insertImageInputRule>", group: "Image" }); var Me2 = he("hardbreak", (t2) => ({ "data-is-inline": t2.attrs.isInline })); n3(Me2, { displayName: "Attr<hardbreak>", group: "Hardbreak" }); var S6 = fe2("hardbreak", (t2) => ({ inline: true, group: "inline", attrs: { isInline: { default: false } }, selectable: false, parseDOM: [{ tag: "br" }], toDOM: (e2) => ["br", t2.get(Me2.key)(e2)], parseMarkdown: { match: ({ type: e2 }) => e2 === "break", runner: (e2, r3, a2) => { var o2; e2.addNode(a2, { isInline: !!((o2 = r3.data) != null && o2.isInline) }); } }, leafText: () => ` `, toMarkdown: { match: (e2) => e2.type.name === "hardbreak", runner: (e2, r3) => { r3.attrs.isInline ? e2.addNode("text", void 0, ` `) : e2.addNode("break"); } } })); n3(S6.node, { displayName: "NodeSchema<hardbreak>", group: "Hardbreak" }); n3(S6.ctx, { displayName: "NodeSchemaCtx<hardbreak>", group: "Hardbreak" }); var be = re2("InsertHardbreak", (t2) => () => (e2, r3) => { var s2; const { selection: a2, tr: o2 } = e2; if (!(a2 instanceof TextSelection)) return false; if (a2.empty) { const l5 = a2.$from.node(); if (l5.childCount > 0 && ((s2 = l5.lastChild) == null ? void 0 : s2.type.name) === "hardbreak") return r3 == null || r3( o2.replaceRangeWith(a2.to - 1, a2.to, e2.schema.node("paragraph")).setSelection(Selection.near(o2.doc.resolve(a2.to))).scrollIntoView() ), true; } return r3 == null || r3(o2.setMeta("hardbreak", true).replaceSelectionWith(S6.type(t2).create()).scrollIntoView()), true; }); n3(be, { displayName: "Command<insertHardbreakCommand>", group: "Hardbreak" }); var Le = ge2("hardbreakKeymap", { InsertHardbreak: { shortcuts: "Shift-Enter", command: (t2) => { const e2 = t2.get(je); return () => e2.call(be.key); } } }); n3(Le.ctx, { displayName: "KeymapCtx<hardbreak>", group: "Hardbreak" }); n3(Le.shortcuts, { displayName: "Keymap<hardbreak>", group: "Hardbreak" }); var xe = he("hr"); n3(xe, { displayName: "Attr<hr>", group: "Hr" }); var F3 = fe2("hr", (t2) => ({ group: "block", parseDOM: [{ tag: "hr" }], toDOM: (e2) => ["hr", t2.get(xe.key)(e2)], parseMarkdown: { match: ({ type: e2 }) => e2 === "thematicBreak", runner: (e2, r3, a2) => { e2.addNode(a2); } }, toMarkdown: { match: (e2) => e2.type.name === "hr", runner: (e2) => { e2.addNode("thematicBreak"); } } })); n3(F3.node, { displayName: "NodeSchema<hr>", group: "Hr" }); n3(F3.ctx, { displayName: "NodeSchemaCtx<hr>", group: "Hr" }); var kt = oe2((t2) => new InputRule( /^(?:---|___\s|\*\*\*\s)$/, (e2, r3, a2, o2) => { const { tr: s2 } = e2; return r3[0] && s2.replaceWith(a2 - 1, o2, F3.type(t2).create()), s2; } )); n3(kt, { displayName: "InputRule<insertHrInputRule>", group: "Hr" }); var ht2 = re2("InsertHr", (t2) => () => (e2, r3) => { if (!r3) return true; const a2 = w5.node.type(t2).create(), { tr: o2, selection: s2 } = e2, { from: l5 } = s2, i2 = F3.type(t2).create(); if (!i2) return true; const d6 = o2.replaceSelectionWith(i2).insert(l5, a2), m3 = Selection.findFrom(d6.doc.resolve(l5), 1, true); return m3 && r3(d6.setSelection(m3).scrollIntoView()), true; }); n3(ht2, { displayName: "Command<insertHrCommand>", group: "Hr" }); var Se = he("bulletList"); n3(Se, { displayName: "Attr<bulletList>", group: "BulletList" }); var O3 = fe2("bullet_list", (t2) => ({ content: "listItem+", group: "block", attrs: { spread: { default: false } }, parseDOM: [ { tag: "ul", getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { spread: e2.dataset.spread }; } } ], toDOM: (e2) => [ "ul", __spreadProps(__spreadValues({}, t2.get(Se.key)(e2)), { "data-spread": e2.attrs.spread }), 0 ], parseMarkdown: { match: ({ type: e2, ordered: r3 }) => e2 === "list" && !r3, runner: (e2, r3, a2) => { const o2 = r3.spread != null ? `${r3.spread}` : "false"; e2.openNode(a2, { spread: o2 }).next(r3.children).closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "bullet_list", runner: (e2, r3) => { e2.openNode("list", void 0, { ordered: false, spread: r3.attrs.spread === "true" }).next(r3.content).closeNode(); } } })); n3(O3.node, { displayName: "NodeSchema<bulletList>", group: "BulletList" }); n3(O3.ctx, { displayName: "NodeSchemaCtx<bulletList>", group: "BulletList" }); var ft = oe2((t2) => wrappingInputRule(/^\s*([-+*])\s$/, O3.type(t2))); n3(ft, { displayName: "InputRule<wrapInBulletListInputRule>", group: "BulletList" }); var Ae2 = re2("WrapInBulletList", (t2) => () => wrapIn(O3.type(t2))); n3(Ae2, { displayName: "Command<wrapInBulletListCommand>", group: "BulletList" }); var we3 = ge2("bulletListKeymap", { WrapInBulletList: { shortcuts: "Mod-Alt-8", command: (t2) => { const e2 = t2.get(je); return () => e2.call(Ae2.key); } } }); n3(we3.ctx, { displayName: "KeymapCtx<bulletListKeymap>", group: "BulletList" }); n3(we3.shortcuts, { displayName: "Keymap<bulletListKeymap>", group: "BulletList" }); var He = he("orderedList"); n3(He, { displayName: "Attr<orderedList>", group: "OrderedList" }); var T4 = fe2("ordered_list", (t2) => ({ content: "listItem+", group: "block", attrs: { order: { default: 1 }, spread: { default: false } }, parseDOM: [ { tag: "ol", getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { spread: e2.dataset.spread, order: e2.hasAttribute("start") ? Number(e2.getAttribute("start")) : 1 }; } } ], toDOM: (e2) => [ "ol", __spreadProps(__spreadValues(__spreadValues({}, t2.get(He.key)(e2)), e2.attrs.order === 1 ? {} : e2.attrs.order), { "data-spread": e2.attrs.spread }), 0 ], parseMarkdown: { match: ({ type: e2, ordered: r3 }) => e2 === "list" && !!r3, runner: (e2, r3, a2) => { const o2 = r3.spread != null ? `${r3.spread}` : "true"; e2.openNode(a2, { spread: o2 }).next(r3.children).closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "ordered_list", runner: (e2, r3) => { e2.openNode("list", void 0, { ordered: true, start: 1, spread: r3.attrs.spread === "true" }), e2.next(r3.content), e2.closeNode(); } } })); n3(T4.node, { displayName: "NodeSchema<orderedList>", group: "OrderedList" }); n3(T4.ctx, { displayName: "NodeSchemaCtx<orderedList>", group: "OrderedList" }); var Nt = oe2((t2) => wrappingInputRule( /^\s*(\d+)\.\s$/, T4.type(t2), (e2) => ({ order: Number(e2[1]) }), (e2, r3) => r3.childCount + r3.attrs.order === Number(e2[1]) )); n3(Nt, { displayName: "InputRule<wrapInOrderedListInputRule>", group: "OrderedList" }); var Be = re2("WrapInOrderedList", (t2) => () => wrapIn(T4.type(t2))); n3(Be, { displayName: "Command<wrapInOrderedListCommand>", group: "OrderedList" }); var Re = ge2("orderedListKeymap", { WrapInOrderedList: { shortcuts: "Mod-Alt-7", command: (t2) => { const e2 = t2.get(je); return () => e2.call(Be.key); } } }); n3(Re.ctx, { displayName: "KeymapCtx<orderedList>", group: "OrderedList" }); n3(Re.shortcuts, { displayName: "Keymap<orderedList>", group: "OrderedList" }); var ve2 = he("listItem"); n3(ve2, { displayName: "Attr<listItem>", group: "ListItem" }); var M5 = fe2("list_item", (t2) => ({ group: "listItem", content: "block+", attrs: { label: { default: "\u2022" }, listType: { default: "bullet" }, spread: { default: "true" } }, defining: true, parseDOM: [ { tag: "li", getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { label: e2.dataset.label, listType: e2.dataset["list-type"], spread: e2.dataset.spread }; } } ], toDOM: (e2) => [ "li", __spreadProps(__spreadValues({}, t2.get(ve2.key)(e2)), { "data-label": e2.attrs.label, "data-list-type": e2.attrs.listType, "data-spread": e2.attrs.spread }), 0 ], parseMarkdown: { match: ({ type: e2 }) => e2 === "listItem", runner: (e2, r3, a2) => { const o2 = r3.label != null ? `${r3.label}.` : "\u2022", s2 = r3.label != null ? "ordered" : "bullet", l5 = r3.spread != null ? `${r3.spread}` : "true"; e2.openNode(a2, { label: o2, listType: s2, spread: l5 }), e2.next(r3.children), e2.closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "list_item", runner: (e2, r3) => { e2.openNode("listItem", void 0, { spread: r3.attrs.spread === "true" }), e2.next(r3.content), e2.closeNode(); } } })); n3(M5.node, { displayName: "NodeSchema<listItem>", group: "ListItem" }); n3(M5.ctx, { displayName: "NodeSchemaCtx<listItem>", group: "ListItem" }); var Oe2 = re2("SinkListItem", (t2) => () => sinkListItem(M5.type(t2))); n3(Oe2, { displayName: "Command<sinkListItemCommand>", group: "ListItem" }); var Te2 = re2("LiftListItem", (t2) => () => liftListItem(M5.type(t2))); n3(Te2, { displayName: "Command<liftListItemCommand>", group: "ListItem" }); var Ke2 = re2("SplitListItem", (t2) => () => splitListItem(M5.type(t2))); n3(Ke2, { displayName: "Command<splitListItemCommand>", group: "ListItem" }); function $t(t2) { return (e2, r3, a2) => { const { selection: o2 } = e2; if (!(o2 instanceof TextSelection)) return false; const { empty: s2, $from: l5 } = o2; if (!s2 || l5.parentOffset !== 0) return false; const i2 = l5.node(-1); return i2.type !== M5.type(t2) || i2.firstChild !== l5.node() || l5.node(-2).childCount > 1 ? false : liftListItem(M5.type(t2))(e2, r3, a2); }; } var De2 = re2("LiftFirstListItem", (t2) => () => $t(t2)); n3(De2, { displayName: "Command<liftFirstListItemCommand>", group: "ListItem" }); var _e2 = ge2("listItemKeymap", { NextListItem: { shortcuts: "Enter", command: (t2) => { const e2 = t2.get(je); return () => e2.call(Ke2.key); } }, SinkListItem: { shortcuts: ["Tab", "Mod-]"], command: (t2) => { const e2 = t2.get(je); return () => e2.call(Oe2.key); } }, LiftListItem: { shortcuts: ["Shift-Tab", "Mod-["], command: (t2) => { const e2 = t2.get(je); return () => e2.call(Te2.key); } }, LiftFirstListItem: { shortcuts: ["Backspace", "Delete"], command: (t2) => { const e2 = t2.get(je); return () => e2.call(De2.key); } } }); n3(_e2.ctx, { displayName: "KeymapCtx<listItem>", group: "ListItem" }); n3(_e2.shortcuts, { displayName: "Keymap<listItem>", group: "ListItem" }); var It = W3("text", () => ({ group: "inline", parseMarkdown: { match: ({ type: t2 }) => t2 === "text", runner: (t2, e2) => { t2.addText(e2.value); } }, toMarkdown: { match: (t2) => t2.type.name === "text", runner: (t2, e2) => { t2.addNode("text", void 0, e2.text); } } })); n3(It, { displayName: "NodeSchema<text>", group: "Text" }); var Ee2 = he("html"); n3(Ee2, { displayName: "Attr<html>", group: "Html" }); var Pe = fe2("html", (t2) => ({ atom: true, group: "inline", inline: true, attrs: { value: { default: "" } }, toDOM: (e2) => { const r3 = document.createElement("span"), a2 = __spreadProps(__spreadValues({}, t2.get(Ee2.key)(e2)), { "data-value": e2.attrs.value, "data-type": "html" }); return r3.textContent = e2.attrs.value, ["span", a2, e2.attrs.value]; }, parseDOM: [{ tag: 'span[data-type="html"]', getAttrs: (e2) => { var _a; return { value: (_a = e2.dataset.value) != null ? _a : "" }; } }], parseMarkdown: { match: ({ type: e2 }) => e2 === "html", runner: (e2, r3, a2) => { e2.addNode(a2, { value: r3.value }); } }, toMarkdown: { match: (e2) => e2.type.name === "html", runner: (e2, r3) => { e2.addNode("html", void 0, r3.attrs.value); } } })); n3(Pe.node, { displayName: "NodeSchema<html>", group: "Html" }); n3(Pe.ctx, { displayName: "NodeSchemaCtx<html>", group: "Html" }); var qt = [ mt2, de, w5, j4, ce2, H4, Me2, S6, ye3, q5, fe3, W4, xe, F3, Ce3, v2, Se, O3, He, T4, ve2, M5, Z3, R4, re3, $2, oe3, x5, ie5, B2, Ee2, Pe, It ].flat(); var Wt = [ ct2, ft, Nt, ut2, kt, pt ].flat(); var Ft = [ nt, ot2, lt2, st ]; var Vt = [ me2, ke3, L4, ue3, Ne2, be, ht2, gt, yt, Be, Ae2, Oe2, Ke2, Te2, De2, ee2, se2, ae2, it, dt2 ]; var Ut = [ he2, Ie2, Le, ge3, _e2, Re, we3, pe2, te2, le2, ne2 ].flat(); var $e = ke2("remarkAddOrderInList", () => () => (t2) => { visit(t2, "list", (e2) => { var _a; if (e2.ordered) { const r3 = (_a = e2.start) != null ? _a : 1; e2.children.forEach((a2, o2) => { a2.label = o2 + r3; }); } }); }); n3($e.plugin, { displayName: "Remark<remarkAddOrderInListPlugin>", group: "Remark" }); n3($e.options, { displayName: "RemarkConfig<remarkAddOrderInListPlugin>", group: "Remark" }); var qe = ke2("remarkLineBreak", () => () => (t2) => { const e2 = /[\t ]*(?:\r?\n|\r)/g; visit(t2, "text", (r3, a2, o2) => { if (!r3.value || typeof r3.value != "string") return; const s2 = []; let l5 = 0; e2.lastIndex = 0; let i2 = e2.exec(r3.value); for (; i2; ) { const m3 = i2.index; l5 !== m3 && s2.push({ type: "text", value: r3.value.slice(l5, m3) }), s2.push({ type: "break", data: { isInline: true } }), l5 = m3 + i2[0].length, i2 = e2.exec(r3.value); } if (s2.length > 0 && o2 && typeof a2 == "number") return l5 < r3.value.length && s2.push({ type: "text", value: r3.value.slice(l5) }), o2.children.splice(a2, 1, ...s2), a2 + s2.length; }); }); n3(qe.plugin, { displayName: "Remark<remarkLineBreak>", group: "Remark" }); n3(qe.options, { displayName: "RemarkConfig<remarkLineBreak>", group: "Remark" }); var We = ke2("remarkInlineLink", () => remarkInlineLinks); n3(We.plugin, { displayName: "Remark<remarkInlineLinkPlugin>", group: "Remark" }); n3(We.options, { displayName: "RemarkConfig<remarkInlineLinkPlugin>", group: "Remark" }); var Gt = (t2) => !!t2.children; var jt = (t2) => t2.type === "html"; function zt(t2, e2) { return r3(t2, 0, null)[0]; function r3(a2, o2, s2) { if (Gt(a2)) { const l5 = []; for (let i2 = 0, d6 = a2.children.length; i2 < d6; i2++) { const m3 = a2.children[i2]; if (m3) { const p4 = r3(m3, i2, a2); if (p4) for (let k4 = 0, g5 = p4.length; k4 < g5; k4++) { const C5 = p4[k4]; C5 && l5.push(C5); } } } a2.children = l5; } return e2(a2, o2, s2); } } var Fe = ke2("remarkHTMLTransformer", () => () => (t2) => { zt(t2, (e2, r3, a2) => jt(e2) ? ((a2 == null ? void 0 : a2.type) === "root" && (e2.children = [__spreadValues({}, e2)], delete e2.value, e2.type = "paragraph"), [e2]) : [e2]); }); n3(Fe.plugin, { displayName: "Remark<remarkHtmlTransformer>", group: "Remark" }); n3(Fe.options, { displayName: "RemarkConfig<remarkHtmlTransformer>", group: "Remark" }); var Ve2 = ke2("remarkMarker", () => () => (t2, e2) => { const r3 = (a2) => e2.value.charAt(a2.position.start.offset); visit(t2, (a2) => ["strong", "emphasis"].includes(a2.type), (a2) => { a2.marker = r3(a2); }); }); n3(Ve2.plugin, { displayName: "Remark<remarkMarker>", group: "Remark" }); n3(Ve2.options, { displayName: "RemarkConfig<remarkMarker>", group: "Remark" }); var Ct = ue2(() => { let t2 = false; const e2 = new PluginKey("MILKDOWN_INLINE_NODES_CURSOR"), r3 = new Plugin({ key: e2, state: { init() { return false; }, apply(a2) { if (!a2.selection.empty) return false; const o2 = a2.selection.$from, s2 = o2.nodeBefore, l5 = o2.nodeAfter; return !!(s2 && l5 && s2.isInline && !s2.isText && l5.isInline && !l5.isText); } }, props: { handleDOMEvents: { compositionend: (a2, o2) => t2 ? (t2 = false, requestAnimationFrame(() => { if (r3.getState(a2.state)) { const l5 = a2.state.selection.from; o2.preventDefault(), a2.dispatch(a2.state.tr.insertText(o2.data || "", l5)); } }), true) : false, compositionstart: (a2) => (r3.getState(a2.state) && (t2 = true), false), beforeinput: (a2, o2) => { if (r3.getState(a2.state) && o2 instanceof InputEvent && o2.data && !t2) { const l5 = a2.state.selection.from; return o2.preventDefault(), a2.dispatch(a2.state.tr.insertText(o2.data || "", l5)), true; } return false; } }, decorations(a2) { if (r3.getState(a2)) { const l5 = a2.selection.$from.pos, i2 = document.createElement("span"), d6 = Decoration.widget(l5, i2, { side: -1 }), m3 = document.createElement("span"), p4 = Decoration.widget(l5, m3); return setTimeout(() => { i2.contentEditable = "true", m3.contentEditable = "true"; }), DecorationSet.create(a2.doc, [d6, p4]); } return DecorationSet.empty; } } }); return r3; }); n3(Ct, { displayName: "Prose<inlineNodesCursorPlugin>", group: "Prose" }); var Mt = ue2((t2) => new Plugin({ key: new PluginKey("MILKDOWN_HARDBREAK_MARKS"), appendTransaction: (e2, r3, a2) => { if (!e2.length) return; const [o2] = e2; if (!o2) return; const [s2] = o2.steps; if (o2.getMeta("hardbreak")) { if (!(s2 instanceof ReplaceStep)) return; const { from: d6 } = s2; return a2.tr.setNodeMarkup(d6, S6.type(t2), void 0, []); } if (s2 instanceof AddMarkStep) { let d6 = a2.tr; const { from: m3, to: p4 } = s2; return a2.doc.nodesBetween(m3, p4, (k4, g5) => { k4.type === S6.type(t2) && (d6 = d6.setNodeMarkup(g5, S6.type(t2), void 0, [])); }), d6; } } })); n3(Mt, { displayName: "Prose<hardbreakClearMarkPlugin>", group: "Prose" }); var Ue = h3(["table", "code_block"], "hardbreakFilterNodes"); n3(Ue, { displayName: "Ctx<hardbreakFilterNodes>", group: "Prose" }); var bt = ue2((t2) => { const e2 = t2.get(Ue.key); return new Plugin({ key: new PluginKey("MILKDOWN_HARDBREAK_FILTER"), filterTransaction: (r3, a2) => { const o2 = r3.getMeta("hardbreak"), [s2] = r3.steps; if (o2 && s2) { const { from: l5 } = s2, i2 = a2.doc.resolve(l5); let d6 = i2.depth, m3 = true; for (; d6 > 0; ) e2.includes(i2.node(d6).type.name) && (m3 = false), d6--; return m3; } return true; } }); }); n3(bt, { displayName: "Prose<hardbreakFilterPlugin>", group: "Prose" }); var Lt = ue2((t2) => { const e2 = new PluginKey("MILKDOWN_HEADING_ID"), r3 = (a2) => { if (a2.composing) return; const o2 = t2.get(j4.key), s2 = a2.state.tr.setMeta("addToHistory", false); let l5 = false; a2.state.doc.descendants((i2, d6) => { if (i2.type === H4.type(t2)) { if (i2.textContent.trim().length === 0) return; const m3 = i2.attrs, p4 = o2(i2); m3.id !== p4 && (l5 = true, s2.setMeta(e2, true).setNodeMarkup(d6, void 0, __spreadProps(__spreadValues({}, m3), { id: p4 }))); } }), l5 && a2.dispatch(s2); }; return new Plugin({ key: e2, view: (a2) => (r3(a2), { update: (o2) => { r3(o2); } }) }); }); n3(Lt, { displayName: "Prose<syncHeadingIdPlugin>", group: "Prose" }); var xt = ue2((t2) => { const e2 = (r3) => { if (r3.composing || !r3.editable) return; const a2 = T4.type(t2), o2 = O3.type(t2), s2 = M5.type(t2), l5 = r3.state, i2 = (p4, k4) => { let g5 = false; const C5 = `${k4 + 1}.`; return p4.label !== C5 && (p4.label = C5, g5 = true), g5; }; let d6 = l5.tr, m3 = false; l5.doc.descendants((p4, k4, g5, C5) => { if (p4.type === o2) { const y4 = p4.maybeChild(0); (y4 == null ? void 0 : y4.type) === s2 && y4.attrs.listType === "ordered" && (m3 = true, d6.setNodeMarkup(k4, a2, { spread: "true" }), p4.descendants((b4, Ge, Qt, St) => { if (b4.type === s2) { const je2 = __spreadValues({}, b4.attrs); i2(je2, St) && (d6 = d6.setNodeMarkup(Ge, void 0, je2)); } return false; })); } else if (p4.type === s2 && (g5 == null ? void 0 : g5.type) === a2) { const y4 = __spreadValues({}, p4.attrs); let b4 = false; y4.listType !== "ordered" && (y4.listType = "ordered", b4 = true), (g5 == null ? void 0 : g5.maybeChild(0)) && (b4 = i2(y4, C5)), b4 && (d6 = d6.setNodeMarkup(k4, void 0, y4), m3 = true); } }), m3 && r3.dispatch(d6.setMeta("addToHistory", false)); }; return new Plugin({ key: new PluginKey("MILKDOWN_KEEP_LIST_ORDER"), view: (r3) => (e2(r3), { update: (a2) => { e2(a2); } }) }); }); n3(xt, { displayName: "Prose<syncListOrderPlugin>", group: "Prose" }); var Jt = [ Mt, Ue, bt, Ct, $e, We, qe, Fe, Ve2, Lt, xt ].flat(); var cr = [qt, Wt, Ft, Vt, Ut, Jt].flat(); // node_modules/clsx/dist/clsx.mjs function r2(e2) { var t2, f3, n4 = ""; if ("string" == typeof e2 || "number" == typeof e2) n4 += e2; else if ("object" == typeof e2) if (Array.isArray(e2)) { var o2 = e2.length; for (t2 = 0; t2 < o2; t2++) e2[t2] && (f3 = r2(e2[t2])) && (n4 && (n4 += " "), n4 += f3); } else for (f3 in e2) e2[f3] && (n4 && (n4 += " "), n4 += f3); return n4; } function clsx() { for (var e2, t2, f3 = 0, n4 = "", o2 = arguments.length; f3 < o2; f3++) (e2 = arguments[f3]) && (t2 = r2(e2)) && (n4 && (n4 += " "), n4 += t2); return n4; } var clsx_default = clsx; // node_modules/@milkdown/components/lib/list-item-block/index.es.js var __defProp2 = Object.defineProperty; var __getOwnPropSymbols2 = Object.getOwnPropertySymbols; var __hasOwnProp2 = Object.prototype.hasOwnProperty; var __propIsEnum2 = Object.prototype.propertyIsEnumerable; var __defNormalProp2 = (obj, key, value) => key in obj ? __defProp2(obj, key, { enumerable: true, configurable: true, writable: true, value }) : obj[key] = value; var __spreadValues2 = (a2, b4) => { for (var prop in b4 || (b4 = {})) if (__hasOwnProp2.call(b4, prop)) __defNormalProp2(a2, prop, b4[prop]); if (__getOwnPropSymbols2) for (var prop of __getOwnPropSymbols2(b4)) { if (__propIsEnum2.call(b4, prop)) __defNormalProp2(a2, prop, b4[prop]); } return a2; }; function withMeta(plugin, meta) { Object.assign(plugin, { meta: __spreadValues2({ package: "@milkdown/components" }, meta) }); return plugin; } var scaleSelector = (selector) => selector.replace(/([^\w\_\-])/g, "\\$1"); var serializeRules = ({ cssText, selectorText }, scopeSelector) => `${selectorText.split(/\s*,\s*/).map((selector) => (selector.startsWith(":") ? selector : ":host " + selector).replace(/(:host)\((.+)\)/, "$1$2").replace(/::slotted\((.+)\)/, ":host > $1").replace(/:host/g, scopeSelector))}${cssText.replace(selectorText, "").replace(/(animation(?:-name){0,1}\s*:\s*)([^;}]+)/g, "$1$2-" + scaleSelector(scopeSelector))}`; function getRules(Sheet, scopeSelector) { const { cssRules } = Sheet; let rules = []; for (let i2 = 0; i2 < cssRules.length; i2++) { const rule = cssRules[i2]; if (rule instanceof CSSStyleRule) { rules.push(serializeRules(rule, scopeSelector)); } else if (rule instanceof CSSKeyframesRule) { const { cssText } = rule; rules.push(cssText.replace(/\s+([^\s{]+)/, " $1-" + scaleSelector(scopeSelector))); } else if (rule instanceof CSSMediaRule) { const { conditionText } = rule; rules.push(`@media ${conditionText}{${getRules(rule, scopeSelector)}}`); } } return rules; } var sandbox; function getSheet(style2) { if (style2 instanceof CSSStyleSheet) { return style2; } if (style2.sheet) { return style2.sheet; } if (!sandbox) { sandbox = document.createElement("iframe"); sandbox.style.display = "none"; document.body.appendChild(sandbox); } const { contentDocument } = sandbox; contentDocument.head.appendChild(style2); const { sheet } = style2; const { cloneNode } = style2; style2.cloneNode = (deep) => { const copy2 = cloneNode.call(style2); const { cssRules } = sheet; for (let i2 = 0; i2 < cssRules.length; i2++) { copy2.textContent += cssRules[i2].cssText; } return copy2; }; return sheet; } var ATTR = "data-sheet"; var ID5 = 0; function useCssLightDom(sheet) { const host = useHost(); useLayoutEffect(() => { const style2 = document.createElement("style"); const { current } = host; if (!current.hasAttribute(ATTR)) { current.setAttribute(ATTR, `${ID5++}`); } current.appendChild(style2); if (style2.sheet) { (Array.isArray(sheet) ? sheet.flat(100) : [sheet]).forEach((target) => { if (!target) return; const sheet2 = getSheet(target); getRules(sheet2, current.localName + `[data-sheet="${current.dataset.sheet}"]`).forEach((rule) => style2.sheet.insertRule(rule, style2.sheet.cssRules.length)); }); } return () => style2.remove(); }, [sheet]); } var style = css` :host > .list-item { display: flex; align-items: start; } :host > .list-item > .children { min-width: 0; flex: 1; } `; var listItemComponent = ({ selected, label, listType, checked, onMount, setAttr, config }) => { const host = useHost(); const contentWrapperRef = useRef(); useCssLightDom(style); useLayoutEffect(() => { const current = contentWrapperRef.current; if (!current) return; const contentDOM = host.current.querySelector("[data-content-dom]"); if (contentDOM) { current.appendChild(contentDOM); onMount == null ? void 0 : onMount(); } }, []); const onClickLabel = () => { if (checked == null) return; setAttr == null ? void 0 : setAttr("checked", !checked); }; return html2`<host> <li class=${clsx_default("list-item", selected && "ProseMirror-selectednode")}> <div class="label-wrapper" onclick=${onClickLabel} contenteditable="false">${config == null ? void 0 : config.renderLabel(label != null ? label : "", listType != null ? listType : "", checked)}</div> <div class="children" ref=${contentWrapperRef}></div> </li> </host>`; }; listItemComponent.props = { label: String, checked: Boolean, listType: String, config: Object, selected: Boolean, setAttr: Function, onMount: Function }; var ListItemElement = c4(listItemComponent); var defaultListItemBlockConfig = { renderLabel: (label, listType, checked) => { if (checked == null) return html2`<span class='label'>${listType === "bullet" ? "\u29BF" : label}</span>`; return html2`<input class='label' type="checkbox" checked=${checked} />`; } }; var listItemBlockConfig = h3(defaultListItemBlockConfig, "listItemBlockConfigCtx"); withMeta(listItemBlockConfig, { displayName: "Config<list-item-block>", group: "ListItemBlock" }); customElements.define("milkdown-list-item-block", ListItemElement); var listItemBlockView = le(M5.node, (ctx) => { return (initialNode, view, getPos) => { const dom = document.createElement("milkdown-list-item-block"); const contentDOM = document.createElement("div"); contentDOM.setAttribute("data-content-dom", "true"); contentDOM.classList.add("content-dom"); const config = ctx.get(listItemBlockConfig.key); const bindAttrs = (node22) => { dom.listType = node22.attrs.listType; dom.label = node22.attrs.label; dom.checked = node22.attrs.checked; }; bindAttrs(initialNode); dom.appendChild(contentDOM); dom.selected = false; dom.setAttr = (attr, value) => { const pos = getPos(); if (pos == null) return; view.dispatch(view.state.tr.setNodeAttribute(pos, attr, value)); }; dom.onMount = () => { var _a; const pos = (_a = getPos()) != null ? _a : 0; const end = pos + initialNode.nodeSize; const { from, to } = view.state.selection; if (view.hasFocus() && pos < from && to < end) { Promise.resolve().then(() => { const p4 = view.state.doc.resolve(pos); view.dispatch(view.state.tr.setSelection(TextSelection.near(p4, 1))); }); } }; let node2 = initialNode; dom.config = config; return { dom, contentDOM, update: (updatedNode) => { if (updatedNode.type !== initialNode.type) return false; if (updatedNode.sameMarkup(node2) && updatedNode.content.eq(node2.content)) return false; node2 = updatedNode; bindAttrs(updatedNode); return true; }, ignoreMutation: (mutation) => { if (!dom || !contentDOM) return true; if (mutation.type === "selection") return false; if (contentDOM === mutation.target && mutation.type === "attributes") return true; if (contentDOM.contains(mutation.target)) return false; return true; }, selectNode: () => { dom.selected = true; }, deselectNode: () => { dom.selected = false; }, destroy: () => { dom.remove(); contentDOM.remove(); } }; }; }); withMeta(listItemBlockView, { displayName: "NodeView<list-item-block>", group: "ListItemBlock" }); var listItemBlockComponent = [ listItemBlockConfig, listItemBlockView ]; // node_modules/prosemirror-tables/dist/index.js var readFromCache; var addToCache; if (typeof WeakMap != "undefined") { let cache = /* @__PURE__ */ new WeakMap(); readFromCache = (key) => cache.get(key); addToCache = (key, value) => { cache.set(key, value); return value; }; } else { const cache = []; const cacheSize = 10; let cachePos = 0; readFromCache = (key) => { for (let i2 = 0; i2 < cache.length; i2 += 2) if (cache[i2] == key) return cache[i2 + 1]; }; addToCache = (key, value) => { if (cachePos == cacheSize) cachePos = 0; cache[cachePos++] = key; return cache[cachePos++] = value; }; } var TableMap = class { constructor(width, height, map5, problems) { this.width = width; this.height = height; this.map = map5; this.problems = problems; } // Find the dimensions of the cell at the given position. findCell(pos) { for (let i2 = 0; i2 < this.map.length; i2++) { const curPos = this.map[i2]; if (curPos != pos) continue; const left = i2 % this.width; const top = i2 / this.width | 0; let right = left + 1; let bottom = top + 1; for (let j6 = 1; right < this.width && this.map[i2 + j6] == curPos; j6++) { right++; } for (let j6 = 1; bottom < this.height && this.map[i2 + this.width * j6] == curPos; j6++) { bottom++; } return { left, top, right, bottom }; } throw new RangeError(`No cell with offset ${pos} found`); } // Find the left side of the cell at the given position. colCount(pos) { for (let i2 = 0; i2 < this.map.length; i2++) { if (this.map[i2] == pos) { return i2 % this.width; } } throw new RangeError(`No cell with offset ${pos} found`); } // Find the next cell in the given direction, starting from the cell // at `pos`, if any. nextCell(pos, axis, dir) { const { left, right, top, bottom } = this.findCell(pos); if (axis == "horiz") { if (dir < 0 ? left == 0 : right == this.width) return null; return this.map[top * this.width + (dir < 0 ? left - 1 : right)]; } else { if (dir < 0 ? top == 0 : bottom == this.height) return null; return this.map[left + this.width * (dir < 0 ? top - 1 : bottom)]; } } // Get the rectangle spanning the two given cells. rectBetween(a2, b4) { const { left: leftA, right: rightA, top: topA, bottom: bottomA } = this.findCell(a2); const { left: leftB, right: rightB, top: topB, bottom: bottomB } = this.findCell(b4); return { left: Math.min(leftA, leftB), top: Math.min(topA, topB), right: Math.max(rightA, rightB), bottom: Math.max(bottomA, bottomB) }; } // Return the position of all cells that have the top left corner in // the given rectangle. cellsInRect(rect) { const result = []; const seen = {}; for (let row = rect.top; row < rect.bottom; row++) { for (let col = rect.left; col < rect.right; col++) { const index2 = row * this.width + col; const pos = this.map[index2]; if (seen[pos]) continue; seen[pos] = true; if (col == rect.left && col && this.map[index2 - 1] == pos || row == rect.top && row && this.map[index2 - this.width] == pos) { continue; } result.push(pos); } } return result; } // Return the position at which the cell at the given row and column // starts, or would start, if a cell started there. positionAt(row, col, table) { for (let i2 = 0, rowStart = 0; ; i2++) { const rowEnd = rowStart + table.child(i2).nodeSize; if (i2 == row) { let index2 = col + row * this.width; const rowEndIndex = (row + 1) * this.width; while (index2 < rowEndIndex && this.map[index2] < rowStart) index2++; return index2 == rowEndIndex ? rowEnd - 1 : this.map[index2]; } rowStart = rowEnd; } } // Find the table map for the given table node. static get(table) { return readFromCache(table) || addToCache(table, computeMap(table)); } }; function computeMap(table) { if (table.type.spec.tableRole != "table") throw new RangeError("Not a table node: " + table.type.name); const width = findWidth(table), height = table.childCount; const map5 = []; let mapPos = 0; let problems = null; const colWidths = []; for (let i2 = 0, e2 = width * height; i2 < e2; i2++) map5[i2] = 0; for (let row = 0, pos = 0; row < height; row++) { const rowNode = table.child(row); pos++; for (let i2 = 0; ; i2++) { while (mapPos < map5.length && map5[mapPos] != 0) mapPos++; if (i2 == rowNode.childCount) break; const cellNode = rowNode.child(i2); const { colspan, rowspan, colwidth } = cellNode.attrs; for (let h5 = 0; h5 < rowspan; h5++) { if (h5 + row >= height) { (problems || (problems = [])).push({ type: "overlong_rowspan", pos, n: rowspan - h5 }); break; } const start = mapPos + h5 * width; for (let w7 = 0; w7 < colspan; w7++) { if (map5[start + w7] == 0) map5[start + w7] = pos; else (problems || (problems = [])).push({ type: "collision", row, pos, n: colspan - w7 }); const colW = colwidth && colwidth[w7]; if (colW) { const widthIndex = (start + w7) % width * 2, prev = colWidths[widthIndex]; if (prev == null || prev != colW && colWidths[widthIndex + 1] == 1) { colWidths[widthIndex] = colW; colWidths[widthIndex + 1] = 1; } else if (prev == colW) { colWidths[widthIndex + 1]++; } } } } mapPos += colspan; pos += cellNode.nodeSize; } const expectedPos = (row + 1) * width; let missing = 0; while (mapPos < expectedPos) if (map5[mapPos++] == 0) missing++; if (missing) (problems || (problems = [])).push({ type: "missing", row, n: missing }); pos++; } const tableMap = new TableMap(width, height, map5, problems); let badWidths = false; for (let i2 = 0; !badWidths && i2 < colWidths.length; i2 += 2) if (colWidths[i2] != null && colWidths[i2 + 1] < height) badWidths = true; if (badWidths) findBadColWidths(tableMap, colWidths, table); return tableMap; } function findWidth(table) { let width = -1; let hasRowSpan = false; for (let row = 0; row < table.childCount; row++) { const rowNode = table.child(row); let rowWidth = 0; if (hasRowSpan) for (let j6 = 0; j6 < row; j6++) { const prevRow = table.child(j6); for (let i2 = 0; i2 < prevRow.childCount; i2++) { const cell = prevRow.child(i2); if (j6 + cell.attrs.rowspan > row) rowWidth += cell.attrs.colspan; } } for (let i2 = 0; i2 < rowNode.childCount; i2++) { const cell = rowNode.child(i2); rowWidth += cell.attrs.colspan; if (cell.attrs.rowspan > 1) hasRowSpan = true; } if (width == -1) width = rowWidth; else if (width != rowWidth) width = Math.max(width, rowWidth); } return width; } function findBadColWidths(map5, colWidths, table) { if (!map5.problems) map5.problems = []; const seen = {}; for (let i2 = 0; i2 < map5.map.length; i2++) { const pos = map5.map[i2]; if (seen[pos]) continue; seen[pos] = true; const node2 = table.nodeAt(pos); if (!node2) { throw new RangeError(`No cell with offset ${pos} found`); } let updated = null; const attrs = node2.attrs; for (let j6 = 0; j6 < attrs.colspan; j6++) { const col = (i2 + j6) % map5.width; const colWidth = colWidths[col * 2]; if (colWidth != null && (!attrs.colwidth || attrs.colwidth[j6] != colWidth)) (updated || (updated = freshColWidth(attrs)))[j6] = colWidth; } if (updated) map5.problems.unshift({ type: "colwidth mismatch", pos, colwidth: updated }); } } function freshColWidth(attrs) { if (attrs.colwidth) return attrs.colwidth.slice(); const result = []; for (let i2 = 0; i2 < attrs.colspan; i2++) result.push(0); return result; } function getCellAttrs(dom, extraAttrs) { if (typeof dom === "string") { return {}; } const widthAttr = dom.getAttribute("data-colwidth"); const widths = widthAttr && /^\d+(,\d+)*$/.test(widthAttr) ? widthAttr.split(",").map((s2) => Number(s2)) : null; const colspan = Number(dom.getAttribute("colspan") || 1); const result = { colspan, rowspan: Number(dom.getAttribute("rowspan") || 1), colwidth: widths && widths.length == colspan ? widths : null }; for (const prop in extraAttrs) { const getter = extraAttrs[prop].getFromDOM; const value = getter && getter(dom); if (value != null) { result[prop] = value; } } return result; } function setCellAttrs(node2, extraAttrs) { const attrs = {}; if (node2.attrs.colspan != 1) attrs.colspan = node2.attrs.colspan; if (node2.attrs.rowspan != 1) attrs.rowspan = node2.attrs.rowspan; if (node2.attrs.colwidth) attrs["data-colwidth"] = node2.attrs.colwidth.join(","); for (const prop in extraAttrs) { const setter = extraAttrs[prop].setDOMAttr; if (setter) setter(node2.attrs[prop], attrs); } return attrs; } function tableNodes(options2) { const extraAttrs = options2.cellAttributes || {}; const cellAttrs = { colspan: { default: 1 }, rowspan: { default: 1 }, colwidth: { default: null } }; for (const prop in extraAttrs) cellAttrs[prop] = { default: extraAttrs[prop].default }; return { table: { content: "table_row+", tableRole: "table", isolating: true, group: options2.tableGroup, parseDOM: [{ tag: "table" }], toDOM() { return ["table", ["tbody", 0]]; } }, table_row: { content: "(table_cell | table_header)*", tableRole: "row", parseDOM: [{ tag: "tr" }], toDOM() { return ["tr", 0]; } }, table_cell: { content: options2.cellContent, attrs: cellAttrs, tableRole: "cell", isolating: true, parseDOM: [ { tag: "td", getAttrs: (dom) => getCellAttrs(dom, extraAttrs) } ], toDOM(node2) { return ["td", setCellAttrs(node2, extraAttrs), 0]; } }, table_header: { content: options2.cellContent, attrs: cellAttrs, tableRole: "header_cell", isolating: true, parseDOM: [ { tag: "th", getAttrs: (dom) => getCellAttrs(dom, extraAttrs) } ], toDOM(node2) { return ["th", setCellAttrs(node2, extraAttrs), 0]; } } }; } function tableNodeTypes(schema) { let result = schema.cached.tableNodeTypes; if (!result) { result = schema.cached.tableNodeTypes = {}; for (const name in schema.nodes) { const type = schema.nodes[name], role = type.spec.tableRole; if (role) result[role] = type; } } return result; } var tableEditingKey = new PluginKey("selectingCells"); function cellAround($pos) { for (let d6 = $pos.depth - 1; d6 > 0; d6--) if ($pos.node(d6).type.spec.tableRole == "row") return $pos.node(0).resolve($pos.before(d6 + 1)); return null; } function isInTable(state) { const $head = state.selection.$head; for (let d6 = $head.depth; d6 > 0; d6--) if ($head.node(d6).type.spec.tableRole == "row") return true; return false; } function selectionCell(state) { const sel = state.selection; if ("$anchorCell" in sel && sel.$anchorCell) { return sel.$anchorCell.pos > sel.$headCell.pos ? sel.$anchorCell : sel.$headCell; } else if ("node" in sel && sel.node && sel.node.type.spec.tableRole == "cell") { return sel.$anchor; } const $cell = cellAround(sel.$head) || cellNear(sel.$head); if ($cell) { return $cell; } throw new RangeError(`No cell found around position ${sel.head}`); } function cellNear($pos) { for (let after = $pos.nodeAfter, pos = $pos.pos; after; after = after.firstChild, pos++) { const role = after.type.spec.tableRole; if (role == "cell" || role == "header_cell") return $pos.doc.resolve(pos); } for (let before = $pos.nodeBefore, pos = $pos.pos; before; before = before.lastChild, pos--) { const role = before.type.spec.tableRole; if (role == "cell" || role == "header_cell") return $pos.doc.resolve(pos - before.nodeSize); } } function pointsAtCell($pos) { return $pos.parent.type.spec.tableRole == "row" && !!$pos.nodeAfter; } function moveCellForward($pos) { return $pos.node(0).resolve($pos.pos + $pos.nodeAfter.nodeSize); } function inSameTable($cellA, $cellB) { return $cellA.depth == $cellB.depth && $cellA.pos >= $cellB.start(-1) && $cellA.pos <= $cellB.end(-1); } function nextCell($pos, axis, dir) { const table = $pos.node(-1); const map5 = TableMap.get(table); const tableStart = $pos.start(-1); const moved = map5.nextCell($pos.pos - tableStart, axis, dir); return moved == null ? null : $pos.node(0).resolve(tableStart + moved); } function removeColSpan(attrs, pos, n4 = 1) { const result = __spreadProps(__spreadValues({}, attrs), { colspan: attrs.colspan - n4 }); if (result.colwidth) { result.colwidth = result.colwidth.slice(); result.colwidth.splice(pos, n4); if (!result.colwidth.some((w7) => w7 > 0)) result.colwidth = null; } return result; } function addColSpan(attrs, pos, n4 = 1) { const result = __spreadProps(__spreadValues({}, attrs), { colspan: attrs.colspan + n4 }); if (result.colwidth) { result.colwidth = result.colwidth.slice(); for (let i2 = 0; i2 < n4; i2++) result.colwidth.splice(pos, 0, 0); } return result; } function columnIsHeader(map5, table, col) { const headerCell = tableNodeTypes(table.type.schema).header_cell; for (let row = 0; row < map5.height; row++) if (table.nodeAt(map5.map[col + row * map5.width]).type != headerCell) return false; return true; } var CellSelection = class _CellSelection extends Selection { // A table selection is identified by its anchor and head cells. The // positions given to this constructor should point _before_ two // cells in the same table. They may be the same, to select a single // cell. constructor($anchorCell, $headCell = $anchorCell) { const table = $anchorCell.node(-1); const map5 = TableMap.get(table); const tableStart = $anchorCell.start(-1); const rect = map5.rectBetween( $anchorCell.pos - tableStart, $headCell.pos - tableStart ); const doc4 = $anchorCell.node(0); const cells = map5.cellsInRect(rect).filter((p4) => p4 != $headCell.pos - tableStart); cells.unshift($headCell.pos - tableStart); const ranges = cells.map((pos) => { const cell = table.nodeAt(pos); if (!cell) { throw RangeError(`No cell with offset ${pos} found`); } const from = tableStart + pos + 1; return new SelectionRange( doc4.resolve(from), doc4.resolve(from + cell.content.size) ); }); super(ranges[0].$from, ranges[0].$to, ranges); this.$anchorCell = $anchorCell; this.$headCell = $headCell; } map(doc4, mapping) { const $anchorCell = doc4.resolve(mapping.map(this.$anchorCell.pos)); const $headCell = doc4.resolve(mapping.map(this.$headCell.pos)); if (pointsAtCell($anchorCell) && pointsAtCell($headCell) && inSameTable($anchorCell, $headCell)) { const tableChanged = this.$anchorCell.node(-1) != $anchorCell.node(-1); if (tableChanged && this.isRowSelection()) return _CellSelection.rowSelection($anchorCell, $headCell); else if (tableChanged && this.isColSelection()) return _CellSelection.colSelection($anchorCell, $headCell); else return new _CellSelection($anchorCell, $headCell); } return TextSelection.between($anchorCell, $headCell); } // Returns a rectangular slice of table rows containing the selected // cells. content() { const table = this.$anchorCell.node(-1); const map5 = TableMap.get(table); const tableStart = this.$anchorCell.start(-1); const rect = map5.rectBetween( this.$anchorCell.pos - tableStart, this.$headCell.pos - tableStart ); const seen = {}; const rows = []; for (let row = rect.top; row < rect.bottom; row++) { const rowContent = []; for (let index2 = row * map5.width + rect.left, col = rect.left; col < rect.right; col++, index2++) { const pos = map5.map[index2]; if (seen[pos]) continue; seen[pos] = true; const cellRect = map5.findCell(pos); let cell = table.nodeAt(pos); if (!cell) { throw RangeError(`No cell with offset ${pos} found`); } const extraLeft = rect.left - cellRect.left; const extraRight = cellRect.right - rect.right; if (extraLeft > 0 || extraRight > 0) { let attrs = cell.attrs; if (extraLeft > 0) { attrs = removeColSpan(attrs, 0, extraLeft); } if (extraRight > 0) { attrs = removeColSpan( attrs, attrs.colspan - extraRight, extraRight ); } if (cellRect.left < rect.left) { cell = cell.type.createAndFill(attrs); if (!cell) { throw RangeError( `Could not create cell with attrs ${JSON.stringify(attrs)}` ); } } else { cell = cell.type.create(attrs, cell.content); } } if (cellRect.top < rect.top || cellRect.bottom > rect.bottom) { const attrs = __spreadProps(__spreadValues({}, cell.attrs), { rowspan: Math.min(cellRect.bottom, rect.bottom) - Math.max(cellRect.top, rect.top) }); if (cellRect.top < rect.top) { cell = cell.type.createAndFill(attrs); } else { cell = cell.type.create(attrs, cell.content); } } rowContent.push(cell); } rows.push(table.child(row).copy(Fragment.from(rowContent))); } const fragment = this.isColSelection() && this.isRowSelection() ? table : rows; return new Slice(Fragment.from(fragment), 1, 1); } replace(tr, content3 = Slice.empty) { const mapFrom = tr.steps.length, ranges = this.ranges; for (let i2 = 0; i2 < ranges.length; i2++) { const { $from, $to } = ranges[i2], mapping = tr.mapping.slice(mapFrom); tr.replace( mapping.map($from.pos), mapping.map($to.pos), i2 ? Slice.empty : content3 ); } const sel = Selection.findFrom( tr.doc.resolve(tr.mapping.slice(mapFrom).map(this.to)), -1 ); if (sel) tr.setSelection(sel); } replaceWith(tr, node2) { this.replace(tr, new Slice(Fragment.from(node2), 0, 0)); } forEachCell(f3) { const table = this.$anchorCell.node(-1); const map5 = TableMap.get(table); const tableStart = this.$anchorCell.start(-1); const cells = map5.cellsInRect( map5.rectBetween( this.$anchorCell.pos - tableStart, this.$headCell.pos - tableStart ) ); for (let i2 = 0; i2 < cells.length; i2++) { f3(table.nodeAt(cells[i2]), tableStart + cells[i2]); } } // True if this selection goes all the way from the top to the // bottom of the table. isColSelection() { const anchorTop = this.$anchorCell.index(-1); const headTop = this.$headCell.index(-1); if (Math.min(anchorTop, headTop) > 0) return false; const anchorBottom = anchorTop + this.$anchorCell.nodeAfter.attrs.rowspan; const headBottom = headTop + this.$headCell.nodeAfter.attrs.rowspan; return Math.max(anchorBottom, headBottom) == this.$headCell.node(-1).childCount; } // Returns the smallest column selection that covers the given anchor // and head cell. static colSelection($anchorCell, $headCell = $anchorCell) { const table = $anchorCell.node(-1); const map5 = TableMap.get(table); const tableStart = $anchorCell.start(-1); const anchorRect = map5.findCell($anchorCell.pos - tableStart); const headRect = map5.findCell($headCell.pos - tableStart); const doc4 = $anchorCell.node(0); if (anchorRect.top <= headRect.top) { if (anchorRect.top > 0) $anchorCell = doc4.resolve(tableStart + map5.map[anchorRect.left]); if (headRect.bottom < map5.height) $headCell = doc4.resolve( tableStart + map5.map[map5.width * (map5.height - 1) + headRect.right - 1] ); } else { if (headRect.top > 0) $headCell = doc4.resolve(tableStart + map5.map[headRect.left]); if (anchorRect.bottom < map5.height) $anchorCell = doc4.resolve( tableStart + map5.map[map5.width * (map5.height - 1) + anchorRect.right - 1] ); } return new _CellSelection($anchorCell, $headCell); } // True if this selection goes all the way from the left to the // right of the table. isRowSelection() { const table = this.$anchorCell.node(-1); const map5 = TableMap.get(table); const tableStart = this.$anchorCell.start(-1); const anchorLeft = map5.colCount(this.$anchorCell.pos - tableStart); const headLeft = map5.colCount(this.$headCell.pos - tableStart); if (Math.min(anchorLeft, headLeft) > 0) return false; const anchorRight = anchorLeft + this.$anchorCell.nodeAfter.attrs.colspan; const headRight = headLeft + this.$headCell.nodeAfter.attrs.colspan; return Math.max(anchorRight, headRight) == map5.width; } eq(other) { return other instanceof _CellSelection && other.$anchorCell.pos == this.$anchorCell.pos && other.$headCell.pos == this.$headCell.pos; } // Returns the smallest row selection that covers the given anchor // and head cell. static rowSelection($anchorCell, $headCell = $anchorCell) { const table = $anchorCell.node(-1); const map5 = TableMap.get(table); const tableStart = $anchorCell.start(-1); const anchorRect = map5.findCell($anchorCell.pos - tableStart); const headRect = map5.findCell($headCell.pos - tableStart); const doc4 = $anchorCell.node(0); if (anchorRect.left <= headRect.left) { if (anchorRect.left > 0) $anchorCell = doc4.resolve( tableStart + map5.map[anchorRect.top * map5.width] ); if (headRect.right < map5.width) $headCell = doc4.resolve( tableStart + map5.map[map5.width * (headRect.top + 1) - 1] ); } else { if (headRect.left > 0) $headCell = doc4.resolve(tableStart + map5.map[headRect.top * map5.width]); if (anchorRect.right < map5.width) $anchorCell = doc4.resolve( tableStart + map5.map[map5.width * (anchorRect.top + 1) - 1] ); } return new _CellSelection($anchorCell, $headCell); } toJSON() { return { type: "cell", anchor: this.$anchorCell.pos, head: this.$headCell.pos }; } static fromJSON(doc4, json) { return new _CellSelection(doc4.resolve(json.anchor), doc4.resolve(json.head)); } static create(doc4, anchorCell, headCell = anchorCell) { return new _CellSelection(doc4.resolve(anchorCell), doc4.resolve(headCell)); } getBookmark() { return new CellBookmark(this.$anchorCell.pos, this.$headCell.pos); } }; CellSelection.prototype.visible = false; Selection.jsonID("cell", CellSelection); var CellBookmark = class _CellBookmark { constructor(anchor, head) { this.anchor = anchor; this.head = head; } map(mapping) { return new _CellBookmark(mapping.map(this.anchor), mapping.map(this.head)); } resolve(doc4) { const $anchorCell = doc4.resolve(this.anchor), $headCell = doc4.resolve(this.head); if ($anchorCell.parent.type.spec.tableRole == "row" && $headCell.parent.type.spec.tableRole == "row" && $anchorCell.index() < $anchorCell.parent.childCount && $headCell.index() < $headCell.parent.childCount && inSameTable($anchorCell, $headCell)) return new CellSelection($anchorCell, $headCell); else return Selection.near($headCell, 1); } }; function drawCellSelection(state) { if (!(state.selection instanceof CellSelection)) return null; const cells = []; state.selection.forEachCell((node2, pos) => { cells.push( Decoration.node(pos, pos + node2.nodeSize, { class: "selectedCell" }) ); }); return DecorationSet.create(state.doc, cells); } function isCellBoundarySelection({ $from, $to }) { if ($from.pos == $to.pos || $from.pos < $from.pos - 6) return false; let afterFrom = $from.pos; let beforeTo = $to.pos; let depth = $from.depth; for (; depth >= 0; depth--, afterFrom++) if ($from.after(depth + 1) < $from.end(depth)) break; for (let d6 = $to.depth; d6 >= 0; d6--, beforeTo--) if ($to.before(d6 + 1) > $to.start(d6)) break; return afterFrom == beforeTo && /row|table/.test($from.node(depth).type.spec.tableRole); } function isTextSelectionAcrossCells({ $from, $to }) { let fromCellBoundaryNode; let toCellBoundaryNode; for (let i2 = $from.depth; i2 > 0; i2--) { const node2 = $from.node(i2); if (node2.type.spec.tableRole === "cell" || node2.type.spec.tableRole === "header_cell") { fromCellBoundaryNode = node2; break; } } for (let i2 = $to.depth; i2 > 0; i2--) { const node2 = $to.node(i2); if (node2.type.spec.tableRole === "cell" || node2.type.spec.tableRole === "header_cell") { toCellBoundaryNode = node2; break; } } return fromCellBoundaryNode !== toCellBoundaryNode && $to.parentOffset === 0; } function normalizeSelection(state, tr, allowTableNodeSelection) { const sel = (tr || state).selection; const doc4 = (tr || state).doc; let normalize3; let role; if (sel instanceof NodeSelection && (role = sel.node.type.spec.tableRole)) { if (role == "cell" || role == "header_cell") { normalize3 = CellSelection.create(doc4, sel.from); } else if (role == "row") { const $cell = doc4.resolve(sel.from + 1); normalize3 = CellSelection.rowSelection($cell, $cell); } else if (!allowTableNodeSelection) { const map5 = TableMap.get(sel.node); const start = sel.from + 1; const lastCell = start + map5.map[map5.width * map5.height - 1]; normalize3 = CellSelection.create(doc4, start + 1, lastCell); } } else if (sel instanceof TextSelection && isCellBoundarySelection(sel)) { normalize3 = TextSelection.create(doc4, sel.from); } else if (sel instanceof TextSelection && isTextSelectionAcrossCells(sel)) { normalize3 = TextSelection.create(doc4, sel.$from.start(), sel.$from.end()); } if (normalize3) (tr || (tr = state.tr)).setSelection(normalize3); return tr; } var fixTablesKey = new PluginKey("fix-tables"); function changedDescendants(old, cur, offset, f3) { const oldSize = old.childCount, curSize = cur.childCount; outer: for (let i2 = 0, j6 = 0; i2 < curSize; i2++) { const child = cur.child(i2); for (let scan = j6, e2 = Math.min(oldSize, i2 + 3); scan < e2; scan++) { if (old.child(scan) == child) { j6 = scan + 1; offset += child.nodeSize; continue outer; } } f3(child, offset); if (j6 < oldSize && old.child(j6).sameMarkup(child)) changedDescendants(old.child(j6), child, offset + 1, f3); else child.nodesBetween(0, child.content.size, f3, offset + 1); offset += child.nodeSize; } } function fixTables(state, oldState) { let tr; const check = (node2, pos) => { if (node2.type.spec.tableRole == "table") tr = fixTable(state, node2, pos, tr); }; if (!oldState) state.doc.descendants(check); else if (oldState.doc != state.doc) changedDescendants(oldState.doc, state.doc, 0, check); return tr; } function fixTable(state, table, tablePos, tr) { const map5 = TableMap.get(table); if (!map5.problems) return tr; if (!tr) tr = state.tr; const mustAdd = []; for (let i2 = 0; i2 < map5.height; i2++) mustAdd.push(0); for (let i2 = 0; i2 < map5.problems.length; i2++) { const prob = map5.problems[i2]; if (prob.type == "collision") { const cell = table.nodeAt(prob.pos); if (!cell) continue; const attrs = cell.attrs; for (let j6 = 0; j6 < attrs.rowspan; j6++) mustAdd[prob.row + j6] += prob.n; tr.setNodeMarkup( tr.mapping.map(tablePos + 1 + prob.pos), null, removeColSpan(attrs, attrs.colspan - prob.n, prob.n) ); } else if (prob.type == "missing") { mustAdd[prob.row] += prob.n; } else if (prob.type == "overlong_rowspan") { const cell = table.nodeAt(prob.pos); if (!cell) continue; tr.setNodeMarkup(tr.mapping.map(tablePos + 1 + prob.pos), null, __spreadProps(__spreadValues({}, cell.attrs), { rowspan: cell.attrs.rowspan - prob.n })); } else if (prob.type == "colwidth mismatch") { const cell = table.nodeAt(prob.pos); if (!cell) continue; tr.setNodeMarkup(tr.mapping.map(tablePos + 1 + prob.pos), null, __spreadProps(__spreadValues({}, cell.attrs), { colwidth: prob.colwidth })); } } let first, last; for (let i2 = 0; i2 < mustAdd.length; i2++) if (mustAdd[i2]) { if (first == null) first = i2; last = i2; } for (let i2 = 0, pos = tablePos + 1; i2 < map5.height; i2++) { const row = table.child(i2); const end = pos + row.nodeSize; const add = mustAdd[i2]; if (add > 0) { let role = "cell"; if (row.firstChild) { role = row.firstChild.type.spec.tableRole; } const nodes = []; for (let j6 = 0; j6 < add; j6++) { const node2 = tableNodeTypes(state.schema)[role].createAndFill(); if (node2) nodes.push(node2); } const side = (i2 == 0 || first == i2 - 1) && last == i2 ? pos + 1 : end - 1; tr.insert(tr.mapping.map(side), nodes); } pos = end; } return tr.setMeta(fixTablesKey, { fixTables: true }); } function pastedCells(slice) { if (!slice.size) return null; let { content: content3, openStart, openEnd } = slice; while (content3.childCount == 1 && (openStart > 0 && openEnd > 0 || content3.child(0).type.spec.tableRole == "table")) { openStart--; openEnd--; content3 = content3.child(0).content; } const first = content3.child(0); const role = first.type.spec.tableRole; const schema = first.type.schema, rows = []; if (role == "row") { for (let i2 = 0; i2 < content3.childCount; i2++) { let cells = content3.child(i2).content; const left = i2 ? 0 : Math.max(0, openStart - 1); const right = i2 < content3.childCount - 1 ? 0 : Math.max(0, openEnd - 1); if (left || right) cells = fitSlice( tableNodeTypes(schema).row, new Slice(cells, left, right) ).content; rows.push(cells); } } else if (role == "cell" || role == "header_cell") { rows.push( openStart || openEnd ? fitSlice( tableNodeTypes(schema).row, new Slice(content3, openStart, openEnd) ).content : content3 ); } else { return null; } return ensureRectangular(schema, rows); } function ensureRectangular(schema, rows) { const widths = []; for (let i2 = 0; i2 < rows.length; i2++) { const row = rows[i2]; for (let j6 = row.childCount - 1; j6 >= 0; j6--) { const { rowspan, colspan } = row.child(j6).attrs; for (let r3 = i2; r3 < i2 + rowspan; r3++) widths[r3] = (widths[r3] || 0) + colspan; } } let width = 0; for (let r3 = 0; r3 < widths.length; r3++) width = Math.max(width, widths[r3]); for (let r3 = 0; r3 < widths.length; r3++) { if (r3 >= rows.length) rows.push(Fragment.empty); if (widths[r3] < width) { const empty3 = tableNodeTypes(schema).cell.createAndFill(); const cells = []; for (let i2 = widths[r3]; i2 < width; i2++) { cells.push(empty3); } rows[r3] = rows[r3].append(Fragment.from(cells)); } } return { height: rows.length, width, rows }; } function fitSlice(nodeType, slice) { const node2 = nodeType.createAndFill(); const tr = new Transform(node2).replace(0, node2.content.size, slice); return tr.doc; } function clipCells({ width, height, rows }, newWidth, newHeight) { if (width != newWidth) { const added = []; const newRows = []; for (let row = 0; row < rows.length; row++) { const frag = rows[row], cells = []; for (let col = added[row] || 0, i2 = 0; col < newWidth; i2++) { let cell = frag.child(i2 % frag.childCount); if (col + cell.attrs.colspan > newWidth) cell = cell.type.createChecked( removeColSpan( cell.attrs, cell.attrs.colspan, col + cell.attrs.colspan - newWidth ), cell.content ); cells.push(cell); col += cell.attrs.colspan; for (let j6 = 1; j6 < cell.attrs.rowspan; j6++) added[row + j6] = (added[row + j6] || 0) + cell.attrs.colspan; } newRows.push(Fragment.from(cells)); } rows = newRows; width = newWidth; } if (height != newHeight) { const newRows = []; for (let row = 0, i2 = 0; row < newHeight; row++, i2++) { const cells = [], source = rows[i2 % height]; for (let j6 = 0; j6 < source.childCount; j6++) { let cell = source.child(j6); if (row + cell.attrs.rowspan > newHeight) cell = cell.type.create( __spreadProps(__spreadValues({}, cell.attrs), { rowspan: Math.max(1, newHeight - cell.attrs.rowspan) }), cell.content ); cells.push(cell); } newRows.push(Fragment.from(cells)); } rows = newRows; height = newHeight; } return { width, height, rows }; } function growTable(tr, map5, table, start, width, height, mapFrom) { const schema = tr.doc.type.schema; const types = tableNodeTypes(schema); let empty3; let emptyHead; if (width > map5.width) { for (let row = 0, rowEnd = 0; row < map5.height; row++) { const rowNode = table.child(row); rowEnd += rowNode.nodeSize; const cells = []; let add; if (rowNode.lastChild == null || rowNode.lastChild.type == types.cell) add = empty3 || (empty3 = types.cell.createAndFill()); else add = emptyHead || (emptyHead = types.header_cell.createAndFill()); for (let i2 = map5.width; i2 < width; i2++) cells.push(add); tr.insert(tr.mapping.slice(mapFrom).map(rowEnd - 1 + start), cells); } } if (height > map5.height) { const cells = []; for (let i2 = 0, start2 = (map5.height - 1) * map5.width; i2 < Math.max(map5.width, width); i2++) { const header = i2 >= map5.width ? false : table.nodeAt(map5.map[start2 + i2]).type == types.header_cell; cells.push( header ? emptyHead || (emptyHead = types.header_cell.createAndFill()) : empty3 || (empty3 = types.cell.createAndFill()) ); } const emptyRow = types.row.create(null, Fragment.from(cells)), rows = []; for (let i2 = map5.height; i2 < height; i2++) rows.push(emptyRow); tr.insert(tr.mapping.slice(mapFrom).map(start + table.nodeSize - 2), rows); } return !!(empty3 || emptyHead); } function isolateHorizontal(tr, map5, table, start, left, right, top, mapFrom) { if (top == 0 || top == map5.height) return false; let found2 = false; for (let col = left; col < right; col++) { const index2 = top * map5.width + col, pos = map5.map[index2]; if (map5.map[index2 - map5.width] == pos) { found2 = true; const cell = table.nodeAt(pos); const { top: cellTop, left: cellLeft } = map5.findCell(pos); tr.setNodeMarkup(tr.mapping.slice(mapFrom).map(pos + start), null, __spreadProps(__spreadValues({}, cell.attrs), { rowspan: top - cellTop })); tr.insert( tr.mapping.slice(mapFrom).map(map5.positionAt(top, cellLeft, table)), cell.type.createAndFill(__spreadProps(__spreadValues({}, cell.attrs), { rowspan: cellTop + cell.attrs.rowspan - top })) ); col += cell.attrs.colspan - 1; } } return found2; } function isolateVertical(tr, map5, table, start, top, bottom, left, mapFrom) { if (left == 0 || left == map5.width) return false; let found2 = false; for (let row = top; row < bottom; row++) { const index2 = row * map5.width + left, pos = map5.map[index2]; if (map5.map[index2 - 1] == pos) { found2 = true; const cell = table.nodeAt(pos); const cellLeft = map5.colCount(pos); const updatePos = tr.mapping.slice(mapFrom).map(pos + start); tr.setNodeMarkup( updatePos, null, removeColSpan( cell.attrs, left - cellLeft, cell.attrs.colspan - (left - cellLeft) ) ); tr.insert( updatePos + cell.nodeSize, cell.type.createAndFill( removeColSpan(cell.attrs, 0, left - cellLeft) ) ); row += cell.attrs.rowspan - 1; } } return found2; } function insertCells(state, dispatch, tableStart, rect, cells) { let table = tableStart ? state.doc.nodeAt(tableStart - 1) : state.doc; if (!table) { throw new Error("No table found"); } let map5 = TableMap.get(table); const { top, left } = rect; const right = left + cells.width, bottom = top + cells.height; const tr = state.tr; let mapFrom = 0; function recomp() { table = tableStart ? tr.doc.nodeAt(tableStart - 1) : tr.doc; if (!table) { throw new Error("No table found"); } map5 = TableMap.get(table); mapFrom = tr.mapping.maps.length; } if (growTable(tr, map5, table, tableStart, right, bottom, mapFrom)) recomp(); if (isolateHorizontal(tr, map5, table, tableStart, left, right, top, mapFrom)) recomp(); if (isolateHorizontal(tr, map5, table, tableStart, left, right, bottom, mapFrom)) recomp(); if (isolateVertical(tr, map5, table, tableStart, top, bottom, left, mapFrom)) recomp(); if (isolateVertical(tr, map5, table, tableStart, top, bottom, right, mapFrom)) recomp(); for (let row = top; row < bottom; row++) { const from = map5.positionAt(row, left, table), to = map5.positionAt(row, right, table); tr.replace( tr.mapping.slice(mapFrom).map(from + tableStart), tr.mapping.slice(mapFrom).map(to + tableStart), new Slice(cells.rows[row - top], 0, 0) ); } recomp(); tr.setSelection( new CellSelection( tr.doc.resolve(tableStart + map5.positionAt(top, left, table)), tr.doc.resolve(tableStart + map5.positionAt(bottom - 1, right - 1, table)) ) ); dispatch(tr); } var handleKeyDown = keydownHandler({ ArrowLeft: arrow("horiz", -1), ArrowRight: arrow("horiz", 1), ArrowUp: arrow("vert", -1), ArrowDown: arrow("vert", 1), "Shift-ArrowLeft": shiftArrow("horiz", -1), "Shift-ArrowRight": shiftArrow("horiz", 1), "Shift-ArrowUp": shiftArrow("vert", -1), "Shift-ArrowDown": shiftArrow("vert", 1), Backspace: deleteCellSelection, "Mod-Backspace": deleteCellSelection, Delete: deleteCellSelection, "Mod-Delete": deleteCellSelection }); function maybeSetSelection(state, dispatch, selection) { if (selection.eq(state.selection)) return false; if (dispatch) dispatch(state.tr.setSelection(selection).scrollIntoView()); return true; } function arrow(axis, dir) { return (state, dispatch, view) => { if (!view) return false; const sel = state.selection; if (sel instanceof CellSelection) { return maybeSetSelection( state, dispatch, Selection.near(sel.$headCell, dir) ); } if (axis != "horiz" && !sel.empty) return false; const end = atEndOfCell(view, axis, dir); if (end == null) return false; if (axis == "horiz") { return maybeSetSelection( state, dispatch, Selection.near(state.doc.resolve(sel.head + dir), dir) ); } else { const $cell = state.doc.resolve(end); const $next = nextCell($cell, axis, dir); let newSel; if ($next) newSel = Selection.near($next, 1); else if (dir < 0) newSel = Selection.near(state.doc.resolve($cell.before(-1)), -1); else newSel = Selection.near(state.doc.resolve($cell.after(-1)), 1); return maybeSetSelection(state, dispatch, newSel); } }; } function shiftArrow(axis, dir) { return (state, dispatch, view) => { if (!view) return false; const sel = state.selection; let cellSel; if (sel instanceof CellSelection) { cellSel = sel; } else { const end = atEndOfCell(view, axis, dir); if (end == null) return false; cellSel = new CellSelection(state.doc.resolve(end)); } const $head = nextCell(cellSel.$headCell, axis, dir); if (!$head) return false; return maybeSetSelection( state, dispatch, new CellSelection(cellSel.$anchorCell, $head) ); }; } function deleteCellSelection(state, dispatch) { const sel = state.selection; if (!(sel instanceof CellSelection)) return false; if (dispatch) { const tr = state.tr; const baseContent = tableNodeTypes(state.schema).cell.createAndFill().content; sel.forEachCell((cell, pos) => { if (!cell.content.eq(baseContent)) tr.replace( tr.mapping.map(pos + 1), tr.mapping.map(pos + cell.nodeSize - 1), new Slice(baseContent, 0, 0) ); }); if (tr.docChanged) dispatch(tr); } return true; } function handleTripleClick2(view, pos) { const doc4 = view.state.doc, $cell = cellAround(doc4.resolve(pos)); if (!$cell) return false; view.dispatch(view.state.tr.setSelection(new CellSelection($cell))); return true; } function handlePaste(view, _3, slice) { if (!isInTable(view.state)) return false; let cells = pastedCells(slice); const sel = view.state.selection; if (sel instanceof CellSelection) { if (!cells) cells = { width: 1, height: 1, rows: [ Fragment.from( fitSlice(tableNodeTypes(view.state.schema).cell, slice) ) ] }; const table = sel.$anchorCell.node(-1); const start = sel.$anchorCell.start(-1); const rect = TableMap.get(table).rectBetween( sel.$anchorCell.pos - start, sel.$headCell.pos - start ); cells = clipCells(cells, rect.right - rect.left, rect.bottom - rect.top); insertCells(view.state, view.dispatch, start, rect, cells); return true; } else if (cells) { const $cell = selectionCell(view.state); const start = $cell.start(-1); insertCells( view.state, view.dispatch, start, TableMap.get($cell.node(-1)).findCell($cell.pos - start), cells ); return true; } else { return false; } } function handleMouseDown(view, startEvent) { var _a; if (startEvent.ctrlKey || startEvent.metaKey) return; const startDOMCell = domInCell(view, startEvent.target); let $anchor; if (startEvent.shiftKey && view.state.selection instanceof CellSelection) { setCellSelection(view.state.selection.$anchorCell, startEvent); startEvent.preventDefault(); } else if (startEvent.shiftKey && startDOMCell && ($anchor = cellAround(view.state.selection.$anchor)) != null && ((_a = cellUnderMouse(view, startEvent)) == null ? void 0 : _a.pos) != $anchor.pos) { setCellSelection($anchor, startEvent); startEvent.preventDefault(); } else if (!startDOMCell) { return; } function setCellSelection($anchor2, event) { let $head = cellUnderMouse(view, event); const starting = tableEditingKey.getState(view.state) == null; if (!$head || !inSameTable($anchor2, $head)) { if (starting) $head = $anchor2; else return; } const selection = new CellSelection($anchor2, $head); if (starting || !view.state.selection.eq(selection)) { const tr = view.state.tr.setSelection(selection); if (starting) tr.setMeta(tableEditingKey, $anchor2.pos); view.dispatch(tr); } } function stop() { view.root.removeEventListener("mouseup", stop); view.root.removeEventListener("dragstart", stop); view.root.removeEventListener("mousemove", move); if (tableEditingKey.getState(view.state) != null) view.dispatch(view.state.tr.setMeta(tableEditingKey, -1)); } function move(_event) { const event = _event; const anchor = tableEditingKey.getState(view.state); let $anchor2; if (anchor != null) { $anchor2 = view.state.doc.resolve(anchor); } else if (domInCell(view, event.target) != startDOMCell) { $anchor2 = cellUnderMouse(view, startEvent); if (!$anchor2) return stop(); } if ($anchor2) setCellSelection($anchor2, event); } view.root.addEventListener("mouseup", stop); view.root.addEventListener("dragstart", stop); view.root.addEventListener("mousemove", move); } function atEndOfCell(view, axis, dir) { if (!(view.state.selection instanceof TextSelection)) return null; const { $head } = view.state.selection; for (let d6 = $head.depth - 1; d6 >= 0; d6--) { const parent = $head.node(d6), index2 = dir < 0 ? $head.index(d6) : $head.indexAfter(d6); if (index2 != (dir < 0 ? 0 : parent.childCount)) return null; if (parent.type.spec.tableRole == "cell" || parent.type.spec.tableRole == "header_cell") { const cellPos = $head.before(d6); const dirStr = axis == "vert" ? dir > 0 ? "down" : "up" : dir > 0 ? "right" : "left"; return view.endOfTextblock(dirStr) ? cellPos : null; } } return null; } function domInCell(view, dom) { for (; dom && dom != view.dom; dom = dom.parentNode) { if (dom.nodeName == "TD" || dom.nodeName == "TH") { return dom; } } return null; } function cellUnderMouse(view, event) { const mousePos = view.posAtCoords({ left: event.clientX, top: event.clientY }); if (!mousePos) return null; return mousePos ? cellAround(view.state.doc.resolve(mousePos.pos)) : null; } var TableView = class { constructor(node2, cellMinWidth) { this.node = node2; this.cellMinWidth = cellMinWidth; this.dom = document.createElement("div"); this.dom.className = "tableWrapper"; this.table = this.dom.appendChild(document.createElement("table")); this.colgroup = this.table.appendChild(document.createElement("colgroup")); updateColumnsOnResize(node2, this.colgroup, this.table, cellMinWidth); this.contentDOM = this.table.appendChild(document.createElement("tbody")); } update(node2) { if (node2.type != this.node.type) return false; this.node = node2; updateColumnsOnResize(node2, this.colgroup, this.table, this.cellMinWidth); return true; } ignoreMutation(record) { return record.type == "attributes" && (record.target == this.table || this.colgroup.contains(record.target)); } }; function updateColumnsOnResize(node2, colgroup, table, cellMinWidth, overrideCol, overrideValue) { var _a; let totalWidth = 0; let fixedWidth = true; let nextDOM = colgroup.firstChild; const row = node2.firstChild; if (!row) return; for (let i2 = 0, col = 0; i2 < row.childCount; i2++) { const { colspan, colwidth } = row.child(i2).attrs; for (let j6 = 0; j6 < colspan; j6++, col++) { const hasWidth = overrideCol == col ? overrideValue : colwidth && colwidth[j6]; const cssWidth = hasWidth ? hasWidth + "px" : ""; totalWidth += hasWidth || cellMinWidth; if (!hasWidth) fixedWidth = false; if (!nextDOM) { colgroup.appendChild(document.createElement("col")).style.width = cssWidth; } else { if (nextDOM.style.width != cssWidth) nextDOM.style.width = cssWidth; nextDOM = nextDOM.nextSibling; } } } while (nextDOM) { const after = nextDOM.nextSibling; (_a = nextDOM.parentNode) == null ? void 0 : _a.removeChild(nextDOM); nextDOM = after; } if (fixedWidth) { table.style.width = totalWidth + "px"; table.style.minWidth = ""; } else { table.style.width = ""; table.style.minWidth = totalWidth + "px"; } } var columnResizingPluginKey = new PluginKey( "tableColumnResizing" ); function columnResizing({ handleWidth = 5, cellMinWidth = 25, View = TableView, lastColumnResizable = true } = {}) { const plugin = new Plugin({ key: columnResizingPluginKey, state: { init(_3, state) { plugin.spec.props.nodeViews[tableNodeTypes(state.schema).table.name] = (node2, view) => new View(node2, cellMinWidth, view); return new ResizeState(-1, false); }, apply(tr, prev) { return prev.apply(tr); } }, props: { attributes: (state) => { const pluginState = columnResizingPluginKey.getState(state); return pluginState && pluginState.activeHandle > -1 ? { class: "resize-cursor" } : {}; }, handleDOMEvents: { mousemove: (view, event) => { handleMouseMove( view, event, handleWidth, cellMinWidth, lastColumnResizable ); }, mouseleave: (view) => { handleMouseLeave(view); }, mousedown: (view, event) => { handleMouseDown2(view, event, cellMinWidth); } }, decorations: (state) => { const pluginState = columnResizingPluginKey.getState(state); if (pluginState && pluginState.activeHandle > -1) { return handleDecorations(state, pluginState.activeHandle); } }, nodeViews: {} } }); return plugin; } var ResizeState = class _ResizeState { constructor(activeHandle, dragging) { this.activeHandle = activeHandle; this.dragging = dragging; } apply(tr) { const state = this; const action = tr.getMeta(columnResizingPluginKey); if (action && action.setHandle != null) return new _ResizeState(action.setHandle, false); if (action && action.setDragging !== void 0) return new _ResizeState(state.activeHandle, action.setDragging); if (state.activeHandle > -1 && tr.docChanged) { let handle2 = tr.mapping.map(state.activeHandle, -1); if (!pointsAtCell(tr.doc.resolve(handle2))) { handle2 = -1; } return new _ResizeState(handle2, state.dragging); } return state; } }; function handleMouseMove(view, event, handleWidth, cellMinWidth, lastColumnResizable) { const pluginState = columnResizingPluginKey.getState(view.state); if (!pluginState) return; if (!pluginState.dragging) { const target = domCellAround(event.target); let cell = -1; if (target) { const { left, right } = target.getBoundingClientRect(); if (event.clientX - left <= handleWidth) cell = edgeCell(view, event, "left", handleWidth); else if (right - event.clientX <= handleWidth) cell = edgeCell(view, event, "right", handleWidth); } if (cell != pluginState.activeHandle) { if (!lastColumnResizable && cell !== -1) { const $cell = view.state.doc.resolve(cell); const table = $cell.node(-1); const map5 = TableMap.get(table); const tableStart = $cell.start(-1); const col = map5.colCount($cell.pos - tableStart) + $cell.nodeAfter.attrs.colspan - 1; if (col == map5.width - 1) { return; } } updateHandle(view, cell); } } } function handleMouseLeave(view) { const pluginState = columnResizingPluginKey.getState(view.state); if (pluginState && pluginState.activeHandle > -1 && !pluginState.dragging) updateHandle(view, -1); } function handleMouseDown2(view, event, cellMinWidth) { var _a; const win = (_a = view.dom.ownerDocument.defaultView) != null ? _a : window; const pluginState = columnResizingPluginKey.getState(view.state); if (!pluginState || pluginState.activeHandle == -1 || pluginState.dragging) return false; const cell = view.state.doc.nodeAt(pluginState.activeHandle); const width = currentColWidth(view, pluginState.activeHandle, cell.attrs); view.dispatch( view.state.tr.setMeta(columnResizingPluginKey, { setDragging: { startX: event.clientX, startWidth: width } }) ); function finish(event2) { win.removeEventListener("mouseup", finish); win.removeEventListener("mousemove", move); const pluginState2 = columnResizingPluginKey.getState(view.state); if (pluginState2 == null ? void 0 : pluginState2.dragging) { updateColumnWidth( view, pluginState2.activeHandle, draggedWidth(pluginState2.dragging, event2, cellMinWidth) ); view.dispatch( view.state.tr.setMeta(columnResizingPluginKey, { setDragging: null }) ); } } function move(event2) { if (!event2.which) return finish(event2); const pluginState2 = columnResizingPluginKey.getState(view.state); if (!pluginState2) return; if (pluginState2.dragging) { const dragged = draggedWidth(pluginState2.dragging, event2, cellMinWidth); displayColumnWidth(view, pluginState2.activeHandle, dragged, cellMinWidth); } } win.addEventListener("mouseup", finish); win.addEventListener("mousemove", move); event.preventDefault(); return true; } function currentColWidth(view, cellPos, { colspan, colwidth }) { const width = colwidth && colwidth[colwidth.length - 1]; if (width) return width; const dom = view.domAtPos(cellPos); const node2 = dom.node.childNodes[dom.offset]; let domWidth = node2.offsetWidth, parts = colspan; if (colwidth) { for (let i2 = 0; i2 < colspan; i2++) if (colwidth[i2]) { domWidth -= colwidth[i2]; parts--; } } return domWidth / parts; } function domCellAround(target) { while (target && target.nodeName != "TD" && target.nodeName != "TH") target = target.classList && target.classList.contains("ProseMirror") ? null : target.parentNode; return target; } function edgeCell(view, event, side, handleWidth) { const offset = side == "right" ? -handleWidth : handleWidth; const found2 = view.posAtCoords({ left: event.clientX + offset, top: event.clientY }); if (!found2) return -1; const { pos } = found2; const $cell = cellAround(view.state.doc.resolve(pos)); if (!$cell) return -1; if (side == "right") return $cell.pos; const map5 = TableMap.get($cell.node(-1)), start = $cell.start(-1); const index2 = map5.map.indexOf($cell.pos - start); return index2 % map5.width == 0 ? -1 : start + map5.map[index2 - 1]; } function draggedWidth(dragging, event, cellMinWidth) { const offset = event.clientX - dragging.startX; return Math.max(cellMinWidth, dragging.startWidth + offset); } function updateHandle(view, value) { view.dispatch( view.state.tr.setMeta(columnResizingPluginKey, { setHandle: value }) ); } function updateColumnWidth(view, cell, width) { const $cell = view.state.doc.resolve(cell); const table = $cell.node(-1), map5 = TableMap.get(table), start = $cell.start(-1); const col = map5.colCount($cell.pos - start) + $cell.nodeAfter.attrs.colspan - 1; const tr = view.state.tr; for (let row = 0; row < map5.height; row++) { const mapIndex = row * map5.width + col; if (row && map5.map[mapIndex] == map5.map[mapIndex - map5.width]) continue; const pos = map5.map[mapIndex]; const attrs = table.nodeAt(pos).attrs; const index2 = attrs.colspan == 1 ? 0 : col - map5.colCount(pos); if (attrs.colwidth && attrs.colwidth[index2] == width) continue; const colwidth = attrs.colwidth ? attrs.colwidth.slice() : zeroes(attrs.colspan); colwidth[index2] = width; tr.setNodeMarkup(start + pos, null, __spreadProps(__spreadValues({}, attrs), { colwidth })); } if (tr.docChanged) view.dispatch(tr); } function displayColumnWidth(view, cell, width, cellMinWidth) { const $cell = view.state.doc.resolve(cell); const table = $cell.node(-1), start = $cell.start(-1); const col = TableMap.get(table).colCount($cell.pos - start) + $cell.nodeAfter.attrs.colspan - 1; let dom = view.domAtPos($cell.start(-1)).node; while (dom && dom.nodeName != "TABLE") { dom = dom.parentNode; } if (!dom) return; updateColumnsOnResize( table, dom.firstChild, dom, cellMinWidth, col, width ); } function zeroes(n4) { return Array(n4).fill(0); } function handleDecorations(state, cell) { const decorations = []; const $cell = state.doc.resolve(cell); const table = $cell.node(-1); if (!table) { return DecorationSet.empty; } const map5 = TableMap.get(table); const start = $cell.start(-1); const col = map5.colCount($cell.pos - start) + $cell.nodeAfter.attrs.colspan; for (let row = 0; row < map5.height; row++) { const index2 = col + row * map5.width - 1; if ((col == map5.width || map5.map[index2] != map5.map[index2 + 1]) && (row == 0 || map5.map[index2] != map5.map[index2 - map5.width])) { const cellPos = map5.map[index2]; const pos = start + cellPos + table.nodeAt(cellPos).nodeSize - 1; const dom = document.createElement("div"); dom.className = "column-resize-handle"; decorations.push(Decoration.widget(pos, dom)); } } return DecorationSet.create(state.doc, decorations); } function selectedRect(state) { const sel = state.selection; const $pos = selectionCell(state); const table = $pos.node(-1); const tableStart = $pos.start(-1); const map5 = TableMap.get(table); const rect = sel instanceof CellSelection ? map5.rectBetween( sel.$anchorCell.pos - tableStart, sel.$headCell.pos - tableStart ) : map5.findCell($pos.pos - tableStart); return __spreadProps(__spreadValues({}, rect), { tableStart, map: map5, table }); } function addColumn(tr, { map: map5, tableStart, table }, col) { let refColumn = col > 0 ? -1 : 0; if (columnIsHeader(map5, table, col + refColumn)) { refColumn = col == 0 || col == map5.width ? null : 0; } for (let row = 0; row < map5.height; row++) { const index2 = row * map5.width + col; if (col > 0 && col < map5.width && map5.map[index2 - 1] == map5.map[index2]) { const pos = map5.map[index2]; const cell = table.nodeAt(pos); tr.setNodeMarkup( tr.mapping.map(tableStart + pos), null, addColSpan(cell.attrs, col - map5.colCount(pos)) ); row += cell.attrs.rowspan - 1; } else { const type = refColumn == null ? tableNodeTypes(table.type.schema).cell : table.nodeAt(map5.map[index2 + refColumn]).type; const pos = map5.positionAt(row, col, table); tr.insert(tr.mapping.map(tableStart + pos), type.createAndFill()); } } return tr; } function addColumnBefore(state, dispatch) { if (!isInTable(state)) return false; if (dispatch) { const rect = selectedRect(state); dispatch(addColumn(state.tr, rect, rect.left)); } return true; } function addColumnAfter(state, dispatch) { if (!isInTable(state)) return false; if (dispatch) { const rect = selectedRect(state); dispatch(addColumn(state.tr, rect, rect.right)); } return true; } function removeColumn(tr, { map: map5, table, tableStart }, col) { const mapStart = tr.mapping.maps.length; for (let row = 0; row < map5.height; ) { const index2 = row * map5.width + col; const pos = map5.map[index2]; const cell = table.nodeAt(pos); const attrs = cell.attrs; if (col > 0 && map5.map[index2 - 1] == pos || col < map5.width - 1 && map5.map[index2 + 1] == pos) { tr.setNodeMarkup( tr.mapping.slice(mapStart).map(tableStart + pos), null, removeColSpan(attrs, col - map5.colCount(pos)) ); } else { const start = tr.mapping.slice(mapStart).map(tableStart + pos); tr.delete(start, start + cell.nodeSize); } row += attrs.rowspan; } } function deleteColumn(state, dispatch) { if (!isInTable(state)) return false; if (dispatch) { const rect = selectedRect(state); const tr = state.tr; if (rect.left == 0 && rect.right == rect.map.width) return false; for (let i2 = rect.right - 1; ; i2--) { removeColumn(tr, rect, i2); if (i2 == rect.left) break; const table = rect.tableStart ? tr.doc.nodeAt(rect.tableStart - 1) : tr.doc; if (!table) { throw RangeError("No table found"); } rect.table = table; rect.map = TableMap.get(table); } dispatch(tr); } return true; } function removeRow(tr, { map: map5, table, tableStart }, row) { let rowPos = 0; for (let i2 = 0; i2 < row; i2++) rowPos += table.child(i2).nodeSize; const nextRow = rowPos + table.child(row).nodeSize; const mapFrom = tr.mapping.maps.length; tr.delete(rowPos + tableStart, nextRow + tableStart); const seen = /* @__PURE__ */ new Set(); for (let col = 0, index2 = row * map5.width; col < map5.width; col++, index2++) { const pos = map5.map[index2]; if (seen.has(pos)) continue; seen.add(pos); if (row > 0 && pos == map5.map[index2 - map5.width]) { const attrs = table.nodeAt(pos).attrs; tr.setNodeMarkup(tr.mapping.slice(mapFrom).map(pos + tableStart), null, __spreadProps(__spreadValues({}, attrs), { rowspan: attrs.rowspan - 1 })); col += attrs.colspan - 1; } else if (row < map5.height && pos == map5.map[index2 + map5.width]) { const cell = table.nodeAt(pos); const attrs = cell.attrs; const copy2 = cell.type.create( __spreadProps(__spreadValues({}, attrs), { rowspan: cell.attrs.rowspan - 1 }), cell.content ); const newPos = map5.positionAt(row + 1, col, table); tr.insert(tr.mapping.slice(mapFrom).map(tableStart + newPos), copy2); col += attrs.colspan - 1; } } } function deleteRow(state, dispatch) { if (!isInTable(state)) return false; if (dispatch) { const rect = selectedRect(state), tr = state.tr; if (rect.top == 0 && rect.bottom == rect.map.height) return false; for (let i2 = rect.bottom - 1; ; i2--) { removeRow(tr, rect, i2); if (i2 == rect.top) break; const table = rect.tableStart ? tr.doc.nodeAt(rect.tableStart - 1) : tr.doc; if (!table) { throw RangeError("No table found"); } rect.table = table; rect.map = TableMap.get(rect.table); } dispatch(tr); } return true; } function setCellAttr(name, value) { return function(state, dispatch) { if (!isInTable(state)) return false; const $cell = selectionCell(state); if ($cell.nodeAfter.attrs[name] === value) return false; if (dispatch) { const tr = state.tr; if (state.selection instanceof CellSelection) state.selection.forEachCell((node2, pos) => { if (node2.attrs[name] !== value) tr.setNodeMarkup(pos, null, __spreadProps(__spreadValues({}, node2.attrs), { [name]: value })); }); else tr.setNodeMarkup($cell.pos, null, __spreadProps(__spreadValues({}, $cell.nodeAfter.attrs), { [name]: value })); dispatch(tr); } return true; }; } function deprecated_toggleHeader(type) { return function(state, dispatch) { if (!isInTable(state)) return false; if (dispatch) { const types = tableNodeTypes(state.schema); const rect = selectedRect(state), tr = state.tr; const cells = rect.map.cellsInRect( type == "column" ? { left: rect.left, top: 0, right: rect.right, bottom: rect.map.height } : type == "row" ? { left: 0, top: rect.top, right: rect.map.width, bottom: rect.bottom } : rect ); const nodes = cells.map((pos) => rect.table.nodeAt(pos)); for (let i2 = 0; i2 < cells.length; i2++) if (nodes[i2].type == types.header_cell) tr.setNodeMarkup( rect.tableStart + cells[i2], types.cell, nodes[i2].attrs ); if (tr.steps.length == 0) for (let i2 = 0; i2 < cells.length; i2++) tr.setNodeMarkup( rect.tableStart + cells[i2], types.header_cell, nodes[i2].attrs ); dispatch(tr); } return true; }; } function isHeaderEnabledByType(type, rect, types) { const cellPositions = rect.map.cellsInRect({ left: 0, top: 0, right: type == "row" ? rect.map.width : 1, bottom: type == "column" ? rect.map.height : 1 }); for (let i2 = 0; i2 < cellPositions.length; i2++) { const cell = rect.table.nodeAt(cellPositions[i2]); if (cell && cell.type !== types.header_cell) { return false; } } return true; } function toggleHeader(type, options2) { options2 = options2 || { useDeprecatedLogic: false }; if (options2.useDeprecatedLogic) return deprecated_toggleHeader(type); return function(state, dispatch) { if (!isInTable(state)) return false; if (dispatch) { const types = tableNodeTypes(state.schema); const rect = selectedRect(state), tr = state.tr; const isHeaderRowEnabled = isHeaderEnabledByType("row", rect, types); const isHeaderColumnEnabled = isHeaderEnabledByType( "column", rect, types ); const isHeaderEnabled = type === "column" ? isHeaderRowEnabled : type === "row" ? isHeaderColumnEnabled : false; const selectionStartsAt = isHeaderEnabled ? 1 : 0; const cellsRect = type == "column" ? { left: 0, top: selectionStartsAt, right: 1, bottom: rect.map.height } : type == "row" ? { left: selectionStartsAt, top: 0, right: rect.map.width, bottom: 1 } : rect; const newType = type == "column" ? isHeaderColumnEnabled ? types.cell : types.header_cell : type == "row" ? isHeaderRowEnabled ? types.cell : types.header_cell : types.cell; rect.map.cellsInRect(cellsRect).forEach((relativeCellPos) => { const cellPos = relativeCellPos + rect.tableStart; const cell = tr.doc.nodeAt(cellPos); if (cell) { tr.setNodeMarkup(cellPos, newType, cell.attrs); } }); dispatch(tr); } return true; }; } var toggleHeaderRow = toggleHeader("row", { useDeprecatedLogic: true }); var toggleHeaderColumn = toggleHeader("column", { useDeprecatedLogic: true }); var toggleHeaderCell = toggleHeader("cell", { useDeprecatedLogic: true }); function findNextCell($cell, dir) { if (dir < 0) { const before = $cell.nodeBefore; if (before) return $cell.pos - before.nodeSize; for (let row = $cell.index(-1) - 1, rowEnd = $cell.before(); row >= 0; row--) { const rowNode = $cell.node(-1).child(row); const lastChild = rowNode.lastChild; if (lastChild) { return rowEnd - 1 - lastChild.nodeSize; } rowEnd -= rowNode.nodeSize; } } else { if ($cell.index() < $cell.parent.childCount - 1) { return $cell.pos + $cell.nodeAfter.nodeSize; } const table = $cell.node(-1); for (let row = $cell.indexAfter(-1), rowStart = $cell.after(); row < table.childCount; row++) { const rowNode = table.child(row); if (rowNode.childCount) return rowStart + 1; rowStart += rowNode.nodeSize; } } return null; } function goToNextCell(direction) { return function(state, dispatch) { if (!isInTable(state)) return false; const cell = findNextCell(selectionCell(state), direction); if (cell == null) return false; if (dispatch) { const $cell = state.doc.resolve(cell); dispatch( state.tr.setSelection(TextSelection.between($cell, moveCellForward($cell))).scrollIntoView() ); } return true; }; } function deleteTable(state, dispatch) { const $pos = state.selection.$anchor; for (let d6 = $pos.depth; d6 > 0; d6--) { const node2 = $pos.node(d6); if (node2.type.spec.tableRole == "table") { if (dispatch) dispatch( state.tr.delete($pos.before(d6), $pos.after(d6)).scrollIntoView() ); return true; } } return false; } function tableEditing({ allowTableNodeSelection = false } = {}) { return new Plugin({ key: tableEditingKey, // This piece of state is used to remember when a mouse-drag // cell-selection is happening, so that it can continue even as // transactions (which might move its anchor cell) come in. state: { init() { return null; }, apply(tr, cur) { const set = tr.getMeta(tableEditingKey); if (set != null) return set == -1 ? null : set; if (cur == null || !tr.docChanged) return cur; const { deleted, pos } = tr.mapping.mapResult(cur); return deleted ? null : pos; } }, props: { decorations: drawCellSelection, handleDOMEvents: { mousedown: handleMouseDown }, createSelectionBetween(view) { return tableEditingKey.getState(view.state) != null ? view.state.selection : null; }, handleTripleClick: handleTripleClick2, handleKeyDown, handlePaste }, appendTransaction(_3, oldState, state) { return normalizeSelection( state, fixTables(state, oldState), allowTableNodeSelection ); } }); } // node_modules/ccount/index.js function ccount(value, character) { const source = String(value); if (typeof character !== "string") { throw new TypeError("Expected character"); } let count = 0; let index2 = source.indexOf(character); while (index2 !== -1) { count++; index2 = source.indexOf(character, index2 + character.length); } return count; } // node_modules/mdast-util-find-and-replace/lib/index.js function findAndReplace(tree, list4, options2) { const settings = options2 || {}; const ignored = convert(settings.ignore || []); const pairs = toPairs(list4); let pairIndex = -1; while (++pairIndex < pairs.length) { visitParents(tree, "text", visitor); } function visitor(node2, parents) { let index2 = -1; let grandparent; while (++index2 < parents.length) { const parent = parents[index2]; const siblings = grandparent ? grandparent.children : void 0; if (ignored( parent, siblings ? siblings.indexOf(parent) : void 0, grandparent )) { return; } grandparent = parent; } if (grandparent) { return handler(node2, parents); } } function handler(node2, parents) { const parent = parents[parents.length - 1]; const find = pairs[pairIndex][0]; const replace3 = pairs[pairIndex][1]; let start = 0; const siblings = parent.children; const index2 = siblings.indexOf(node2); let change = false; let nodes = []; find.lastIndex = 0; let match = find.exec(node2.value); while (match) { const position2 = match.index; const matchObject = { index: match.index, input: match.input, stack: [...parents, node2] }; let value = replace3(...match, matchObject); if (typeof value === "string") { value = value.length > 0 ? { type: "text", value } : void 0; } if (value === false) { find.lastIndex = position2 + 1; } else { if (start !== position2) { nodes.push({ type: "text", value: node2.value.slice(start, position2) }); } if (Array.isArray(value)) { nodes.push(...value); } else if (value) { nodes.push(value); } start = position2 + match[0].length; change = true; } if (!find.global) { break; } match = find.exec(node2.value); } if (change) { if (start < node2.value.length) { nodes.push({ type: "text", value: node2.value.slice(start) }); } parent.children.splice(index2, 1, ...nodes); } else { nodes = [node2]; } return index2 + nodes.length; } } function toPairs(tupleOrList) { const result = []; if (!Array.isArray(tupleOrList)) { throw new TypeError("Expected find and replace tuple or list of tuples"); } const list4 = !tupleOrList[0] || Array.isArray(tupleOrList[0]) ? tupleOrList : [tupleOrList]; let index2 = -1; while (++index2 < list4.length) { const tuple = list4[index2]; result.push([toExpression(tuple[0]), toFunction(tuple[1])]); } return result; } function toExpression(find) { return typeof find === "string" ? new RegExp(escapeStringRegexp(find), "g") : find; } function toFunction(replace3) { return typeof replace3 === "function" ? replace3 : function() { return replace3; }; } // node_modules/mdast-util-gfm-autolink-literal/lib/index.js var inConstruct = "phrasing"; var notInConstruct = ["autolink", "link", "image", "label"]; function gfmAutolinkLiteralFromMarkdown() { return { transforms: [transformGfmAutolinkLiterals], enter: { literalAutolink: enterLiteralAutolink, literalAutolinkEmail: enterLiteralAutolinkValue, literalAutolinkHttp: enterLiteralAutolinkValue, literalAutolinkWww: enterLiteralAutolinkValue }, exit: { literalAutolink: exitLiteralAutolink, literalAutolinkEmail: exitLiteralAutolinkEmail, literalAutolinkHttp: exitLiteralAutolinkHttp, literalAutolinkWww: exitLiteralAutolinkWww } }; } function gfmAutolinkLiteralToMarkdown() { return { unsafe: [ { character: "@", before: "[+\\-.\\w]", after: "[\\-.\\w]", inConstruct, notInConstruct }, { character: ".", before: "[Ww]", after: "[\\-.\\w]", inConstruct, notInConstruct }, { character: ":", before: "[ps]", after: "\\/", inConstruct, notInConstruct } ] }; } function enterLiteralAutolink(token) { this.enter({ type: "link", title: null, url: "", children: [] }, token); } function enterLiteralAutolinkValue(token) { this.config.enter.autolinkProtocol.call(this, token); } function exitLiteralAutolinkHttp(token) { this.config.exit.autolinkProtocol.call(this, token); } function exitLiteralAutolinkWww(token) { this.config.exit.data.call(this, token); const node2 = this.stack[this.stack.length - 1]; ok2(node2.type === "link"); node2.url = "http://" + this.sliceSerialize(token); } function exitLiteralAutolinkEmail(token) { this.config.exit.autolinkEmail.call(this, token); } function exitLiteralAutolink(token) { this.exit(token); } function transformGfmAutolinkLiterals(tree) { findAndReplace( tree, [ [/(https?:\/\/|www(?=\.))([-.\w]+)([^ \t\r\n]*)/gi, findUrl], [/([-.\w+]+)@([-\w]+(?:\.[-\w]+)+)/g, findEmail] ], { ignore: ["link", "linkReference"] } ); } function findUrl(_3, protocol, domain2, path3, match) { let prefix = ""; if (!previous2(match)) { return false; } if (/^w/i.test(protocol)) { domain2 = protocol + domain2; protocol = ""; prefix = "http://"; } if (!isCorrectDomain(domain2)) { return false; } const parts = splitUrl(domain2 + path3); if (!parts[0]) return false; const result = { type: "link", title: null, url: prefix + protocol + parts[0], children: [{ type: "text", value: protocol + parts[0] }] }; if (parts[1]) { return [result, { type: "text", value: parts[1] }]; } return result; } function findEmail(_3, atext, label, match) { if ( // Not an expected previous character. !previous2(match, true) || // Label ends in not allowed character. /[-\d_]$/.test(label) ) { return false; } return { type: "link", title: null, url: "mailto:" + atext + "@" + label, children: [{ type: "text", value: atext + "@" + label }] }; } function isCorrectDomain(domain2) { const parts = domain2.split("."); if (parts.length < 2 || parts[parts.length - 1] && (/_/.test(parts[parts.length - 1]) || !/[a-zA-Z\d]/.test(parts[parts.length - 1])) || parts[parts.length - 2] && (/_/.test(parts[parts.length - 2]) || !/[a-zA-Z\d]/.test(parts[parts.length - 2]))) { return false; } return true; } function splitUrl(url) { const trailExec = /[!"&'),.:;<>?\]}]+$/.exec(url); if (!trailExec) { return [url, void 0]; } url = url.slice(0, trailExec.index); let trail2 = trailExec[0]; let closingParenIndex = trail2.indexOf(")"); const openingParens = ccount(url, "("); let closingParens = ccount(url, ")"); while (closingParenIndex !== -1 && openingParens > closingParens) { url += trail2.slice(0, closingParenIndex + 1); trail2 = trail2.slice(closingParenIndex + 1); closingParenIndex = trail2.indexOf(")"); closingParens++; } return [url, trail2]; } function previous2(match, email) { const code3 = match.input.charCodeAt(match.index - 1); return (match.index === 0 || unicodeWhitespace(code3) || unicodePunctuation(code3)) && (!email || code3 !== 47); } // node_modules/mdast-util-gfm-footnote/lib/index.js footnoteReference.peek = footnoteReferencePeek; function gfmFootnoteFromMarkdown() { return { enter: { gfmFootnoteDefinition: enterFootnoteDefinition, gfmFootnoteDefinitionLabelString: enterFootnoteDefinitionLabelString, gfmFootnoteCall: enterFootnoteCall, gfmFootnoteCallString: enterFootnoteCallString }, exit: { gfmFootnoteDefinition: exitFootnoteDefinition, gfmFootnoteDefinitionLabelString: exitFootnoteDefinitionLabelString, gfmFootnoteCall: exitFootnoteCall, gfmFootnoteCallString: exitFootnoteCallString } }; } function gfmFootnoteToMarkdown() { return { // This is on by default already. unsafe: [{ character: "[", inConstruct: ["phrasing", "label", "reference"] }], handlers: { footnoteDefinition, footnoteReference } }; } function enterFootnoteDefinition(token) { this.enter( { type: "footnoteDefinition", identifier: "", label: "", children: [] }, token ); } function enterFootnoteDefinitionLabelString() { this.buffer(); } function exitFootnoteDefinitionLabelString(token) { const label = this.resume(); const node2 = this.stack[this.stack.length - 1]; ok2(node2.type === "footnoteDefinition"); node2.label = label; node2.identifier = normalizeIdentifier( this.sliceSerialize(token) ).toLowerCase(); } function exitFootnoteDefinition(token) { this.exit(token); } function enterFootnoteCall(token) { this.enter({ type: "footnoteReference", identifier: "", label: "" }, token); } function enterFootnoteCallString() { this.buffer(); } function exitFootnoteCallString(token) { const label = this.resume(); const node2 = this.stack[this.stack.length - 1]; ok2(node2.type === "footnoteReference"); node2.label = label; node2.identifier = normalizeIdentifier( this.sliceSerialize(token) ).toLowerCase(); } function exitFootnoteCall(token) { this.exit(token); } function footnoteReference(node2, _3, state, info) { const tracker = state.createTracker(info); let value = tracker.move("[^"); const exit3 = state.enter("footnoteReference"); const subexit = state.enter("reference"); value += tracker.move( state.safe(state.associationId(node2), __spreadProps(__spreadValues({}, tracker.current()), { before: value, after: "]" })) ); subexit(); exit3(); value += tracker.move("]"); return value; } function footnoteReferencePeek() { return "["; } function footnoteDefinition(node2, _3, state, info) { const tracker = state.createTracker(info); let value = tracker.move("[^"); const exit3 = state.enter("footnoteDefinition"); const subexit = state.enter("label"); value += tracker.move( state.safe(state.associationId(node2), __spreadProps(__spreadValues({}, tracker.current()), { before: value, after: "]" })) ); subexit(); value += tracker.move( "]:" + (node2.children && node2.children.length > 0 ? " " : "") ); tracker.shift(4); value += tracker.move( state.indentLines(state.containerFlow(node2, tracker.current()), map4) ); exit3(); return value; } function map4(line, index2, blank) { if (index2 === 0) { return line; } return (blank ? "" : " ") + line; } // node_modules/mdast-util-gfm-strikethrough/lib/index.js var constructsWithoutStrikethrough = [ "autolink", "destinationLiteral", "destinationRaw", "reference", "titleQuote", "titleApostrophe" ]; handleDelete.peek = peekDelete; function gfmStrikethroughFromMarkdown() { return { canContainEols: ["delete"], enter: { strikethrough: enterStrikethrough }, exit: { strikethrough: exitStrikethrough } }; } function gfmStrikethroughToMarkdown() { return { unsafe: [ { character: "~", inConstruct: "phrasing", notInConstruct: constructsWithoutStrikethrough } ], handlers: { delete: handleDelete } }; } function enterStrikethrough(token) { this.enter({ type: "delete", children: [] }, token); } function exitStrikethrough(token) { this.exit(token); } function handleDelete(node2, _3, state, info) { const tracker = state.createTracker(info); const exit3 = state.enter("strikethrough"); let value = tracker.move("~~"); value += state.containerPhrasing(node2, __spreadProps(__spreadValues({}, tracker.current()), { before: value, after: "~" })); value += tracker.move("~~"); exit3(); return value; } function peekDelete() { return "~"; } // node_modules/markdown-table/index.js function markdownTable(table, options2 = {}) { const align = (options2.align || []).concat(); const stringLength = options2.stringLength || defaultStringLength; const alignments = []; const cellMatrix = []; const sizeMatrix = []; const longestCellByColumn = []; let mostCellsPerRow = 0; let rowIndex = -1; while (++rowIndex < table.length) { const row2 = []; const sizes2 = []; let columnIndex2 = -1; if (table[rowIndex].length > mostCellsPerRow) { mostCellsPerRow = table[rowIndex].length; } while (++columnIndex2 < table[rowIndex].length) { const cell = serialize(table[rowIndex][columnIndex2]); if (options2.alignDelimiters !== false) { const size = stringLength(cell); sizes2[columnIndex2] = size; if (longestCellByColumn[columnIndex2] === void 0 || size > longestCellByColumn[columnIndex2]) { longestCellByColumn[columnIndex2] = size; } } row2.push(cell); } cellMatrix[rowIndex] = row2; sizeMatrix[rowIndex] = sizes2; } let columnIndex = -1; if (typeof align === "object" && "length" in align) { while (++columnIndex < mostCellsPerRow) { alignments[columnIndex] = toAlignment(align[columnIndex]); } } else { const code3 = toAlignment(align); while (++columnIndex < mostCellsPerRow) { alignments[columnIndex] = code3; } } columnIndex = -1; const row = []; const sizes = []; while (++columnIndex < mostCellsPerRow) { const code3 = alignments[columnIndex]; let before = ""; let after = ""; if (code3 === 99) { before = ":"; after = ":"; } else if (code3 === 108) { before = ":"; } else if (code3 === 114) { after = ":"; } let size = options2.alignDelimiters === false ? 1 : Math.max( 1, longestCellByColumn[columnIndex] - before.length - after.length ); const cell = before + "-".repeat(size) + after; if (options2.alignDelimiters !== false) { size = before.length + size + after.length; if (size > longestCellByColumn[columnIndex]) { longestCellByColumn[columnIndex] = size; } sizes[columnIndex] = size; } row[columnIndex] = cell; } cellMatrix.splice(1, 0, row); sizeMatrix.splice(1, 0, sizes); rowIndex = -1; const lines = []; while (++rowIndex < cellMatrix.length) { const row2 = cellMatrix[rowIndex]; const sizes2 = sizeMatrix[rowIndex]; columnIndex = -1; const line = []; while (++columnIndex < mostCellsPerRow) { const cell = row2[columnIndex] || ""; let before = ""; let after = ""; if (options2.alignDelimiters !== false) { const size = longestCellByColumn[columnIndex] - (sizes2[columnIndex] || 0); const code3 = alignments[columnIndex]; if (code3 === 114) { before = " ".repeat(size); } else if (code3 === 99) { if (size % 2) { before = " ".repeat(size / 2 + 0.5); after = " ".repeat(size / 2 - 0.5); } else { before = " ".repeat(size / 2); after = before; } } else { after = " ".repeat(size); } } if (options2.delimiterStart !== false && !columnIndex) { line.push("|"); } if (options2.padding !== false && // Don’t add the opening space if we’re not aligning and the cell is // empty: there will be a closing space. !(options2.alignDelimiters === false && cell === "") && (options2.delimiterStart !== false || columnIndex)) { line.push(" "); } if (options2.alignDelimiters !== false) { line.push(before); } line.push(cell); if (options2.alignDelimiters !== false) { line.push(after); } if (options2.padding !== false) { line.push(" "); } if (options2.delimiterEnd !== false || columnIndex !== mostCellsPerRow - 1) { line.push("|"); } } lines.push( options2.delimiterEnd === false ? line.join("").replace(/ +$/, "") : line.join("") ); } return lines.join("\n"); } function serialize(value) { return value === null || value === void 0 ? "" : String(value); } function defaultStringLength(value) { return value.length; } function toAlignment(value) { const code3 = typeof value === "string" ? value.codePointAt(0) : 0; return code3 === 67 || code3 === 99 ? 99 : code3 === 76 || code3 === 108 ? 108 : code3 === 82 || code3 === 114 ? 114 : 0; } // node_modules/mdast-util-gfm-table/lib/index.js function gfmTableFromMarkdown() { return { enter: { table: enterTable, tableData: enterCell, tableHeader: enterCell, tableRow: enterRow }, exit: { codeText: exitCodeText, table: exitTable, tableData: exit2, tableHeader: exit2, tableRow: exit2 } }; } function enterTable(token) { const align = token._align; ok2(align, "expected `_align` on table"); this.enter( { type: "table", align: align.map(function(d6) { return d6 === "none" ? null : d6; }), children: [] }, token ); this.data.inTable = true; } function exitTable(token) { this.exit(token); this.data.inTable = void 0; } function enterRow(token) { this.enter({ type: "tableRow", children: [] }, token); } function exit2(token) { this.exit(token); } function enterCell(token) { this.enter({ type: "tableCell", children: [] }, token); } function exitCodeText(token) { let value = this.resume(); if (this.data.inTable) { value = value.replace(/\\([\\|])/g, replace2); } const node2 = this.stack[this.stack.length - 1]; ok2(node2.type === "inlineCode"); node2.value = value; this.exit(token); } function replace2($0, $1) { return $1 === "|" ? $1 : $0; } function gfmTableToMarkdown(options2) { const settings = options2 || {}; const padding = settings.tableCellPadding; const alignDelimiters = settings.tablePipeAlign; const stringLength = settings.stringLength; const around = padding ? " " : "|"; return { unsafe: [ { character: "\r", inConstruct: "tableCell" }, { character: "\n", inConstruct: "tableCell" }, // A pipe, when followed by a tab or space (padding), or a dash or colon // (unpadded delimiter row), could result in a table. { atBreak: true, character: "|", after: "[ :-]" }, // A pipe in a cell must be encoded. { character: "|", inConstruct: "tableCell" }, // A colon must be followed by a dash, in which case it could start a // delimiter row. { atBreak: true, character: ":", after: "-" }, // A delimiter row can also start with a dash, when followed by more // dashes, a colon, or a pipe. // This is a stricter version than the built in check for lists, thematic // breaks, and setex heading underlines though: // <https://github.com/syntax-tree/mdast-util-to-markdown/blob/51a2038/lib/unsafe.js#L57> { atBreak: true, character: "-", after: "[:|-]" } ], handlers: { inlineCode: inlineCodeWithTable, table: handleTable, tableCell: handleTableCell, tableRow: handleTableRow } }; function handleTable(node2, _3, state, info) { return serializeData(handleTableAsData(node2, state, info), node2.align); } function handleTableRow(node2, _3, state, info) { const row = handleTableRowAsData(node2, state, info); const value = serializeData([row]); return value.slice(0, value.indexOf("\n")); } function handleTableCell(node2, _3, state, info) { const exit3 = state.enter("tableCell"); const subexit = state.enter("phrasing"); const value = state.containerPhrasing(node2, __spreadProps(__spreadValues({}, info), { before: around, after: around })); subexit(); exit3(); return value; } function serializeData(matrix, align) { return markdownTable(matrix, { align, // @ts-expect-error: `markdown-table` types should support `null`. alignDelimiters, // @ts-expect-error: `markdown-table` types should support `null`. padding, // @ts-expect-error: `markdown-table` types should support `null`. stringLength }); } function handleTableAsData(node2, state, info) { const children = node2.children; let index2 = -1; const result = []; const subexit = state.enter("table"); while (++index2 < children.length) { result[index2] = handleTableRowAsData(children[index2], state, info); } subexit(); return result; } function handleTableRowAsData(node2, state, info) { const children = node2.children; let index2 = -1; const result = []; const subexit = state.enter("tableRow"); while (++index2 < children.length) { result[index2] = handleTableCell(children[index2], node2, state, info); } subexit(); return result; } function inlineCodeWithTable(node2, parent, state) { let value = handle.inlineCode(node2, parent, state); if (state.stack.includes("tableCell")) { value = value.replace(/\|/g, "\\$&"); } return value; } } // node_modules/mdast-util-gfm-task-list-item/lib/index.js function gfmTaskListItemFromMarkdown() { return { exit: { taskListCheckValueChecked: exitCheck, taskListCheckValueUnchecked: exitCheck, paragraph: exitParagraphWithTaskListItem } }; } function gfmTaskListItemToMarkdown() { return { unsafe: [{ atBreak: true, character: "-", after: "[:|-]" }], handlers: { listItem: listItemWithTaskListItem } }; } function exitCheck(token) { const node2 = this.stack[this.stack.length - 2]; ok2(node2.type === "listItem"); node2.checked = token.type === "taskListCheckValueChecked"; } function exitParagraphWithTaskListItem(token) { const parent = this.stack[this.stack.length - 2]; if (parent && parent.type === "listItem" && typeof parent.checked === "boolean") { const node2 = this.stack[this.stack.length - 1]; ok2(node2.type === "paragraph"); const head = node2.children[0]; if (head && head.type === "text") { const siblings = parent.children; let index2 = -1; let firstParaghraph; while (++index2 < siblings.length) { const sibling = siblings[index2]; if (sibling.type === "paragraph") { firstParaghraph = sibling; break; } } if (firstParaghraph === node2) { head.value = head.value.slice(1); if (head.value.length === 0) { node2.children.shift(); } else if (node2.position && head.position && typeof head.position.start.offset === "number") { head.position.start.column++; head.position.start.offset++; node2.position.start = Object.assign({}, head.position.start); } } } } this.exit(token); } function listItemWithTaskListItem(node2, parent, state, info) { const head = node2.children[0]; const checkable = typeof node2.checked === "boolean" && head && head.type === "paragraph"; const checkbox = "[" + (node2.checked ? "x" : " ") + "] "; const tracker = state.createTracker(info); if (checkable) { tracker.move(checkbox); } let value = handle.listItem(node2, parent, state, __spreadValues(__spreadValues({}, info), tracker.current())); if (checkable) { value = value.replace(/^(?:[*+-]|\d+\.)([\r\n]| {1,3})/, check); } return value; function check($0) { return $0 + checkbox; } } // node_modules/mdast-util-gfm/lib/index.js function gfmFromMarkdown() { return [ gfmAutolinkLiteralFromMarkdown(), gfmFootnoteFromMarkdown(), gfmStrikethroughFromMarkdown(), gfmTableFromMarkdown(), gfmTaskListItemFromMarkdown() ]; } function gfmToMarkdown(options2) { return { extensions: [ gfmAutolinkLiteralToMarkdown(), gfmFootnoteToMarkdown(), gfmStrikethroughToMarkdown(), gfmTableToMarkdown(options2), gfmTaskListItemToMarkdown() ] }; } // node_modules/micromark-extension-gfm-autolink-literal/lib/syntax.js var wwwPrefix = { tokenize: tokenizeWwwPrefix, partial: true }; var domain = { tokenize: tokenizeDomain, partial: true }; var path2 = { tokenize: tokenizePath, partial: true }; var trail = { tokenize: tokenizeTrail, partial: true }; var emailDomainDotTrail = { tokenize: tokenizeEmailDomainDotTrail, partial: true }; var wwwAutolink = { tokenize: tokenizeWwwAutolink, previous: previousWww }; var protocolAutolink = { tokenize: tokenizeProtocolAutolink, previous: previousProtocol }; var emailAutolink = { tokenize: tokenizeEmailAutolink, previous: previousEmail }; var text4 = {}; function gfmAutolinkLiteral() { return { text: text4 }; } var code2 = 48; while (code2 < 123) { text4[code2] = emailAutolink; code2++; if (code2 === 58) code2 = 65; else if (code2 === 91) code2 = 97; } text4[43] = emailAutolink; text4[45] = emailAutolink; text4[46] = emailAutolink; text4[95] = emailAutolink; text4[72] = [emailAutolink, protocolAutolink]; text4[104] = [emailAutolink, protocolAutolink]; text4[87] = [emailAutolink, wwwAutolink]; text4[119] = [emailAutolink, wwwAutolink]; function tokenizeEmailAutolink(effects, ok3, nok) { const self2 = this; let dot; let data; return start; function start(code3) { if (!gfmAtext(code3) || !previousEmail.call(self2, self2.previous) || previousUnbalanced(self2.events)) { return nok(code3); } effects.enter("literalAutolink"); effects.enter("literalAutolinkEmail"); return atext(code3); } function atext(code3) { if (gfmAtext(code3)) { effects.consume(code3); return atext; } if (code3 === 64) { effects.consume(code3); return emailDomain; } return nok(code3); } function emailDomain(code3) { if (code3 === 46) { return effects.check( emailDomainDotTrail, emailDomainAfter, emailDomainDot )(code3); } if (code3 === 45 || code3 === 95 || asciiAlphanumeric(code3)) { data = true; effects.consume(code3); return emailDomain; } return emailDomainAfter(code3); } function emailDomainDot(code3) { effects.consume(code3); dot = true; return emailDomain; } function emailDomainAfter(code3) { if (data && dot && asciiAlpha(self2.previous)) { effects.exit("literalAutolinkEmail"); effects.exit("literalAutolink"); return ok3(code3); } return nok(code3); } } function tokenizeWwwAutolink(effects, ok3, nok) { const self2 = this; return wwwStart; function wwwStart(code3) { if (code3 !== 87 && code3 !== 119 || !previousWww.call(self2, self2.previous) || previousUnbalanced(self2.events)) { return nok(code3); } effects.enter("literalAutolink"); effects.enter("literalAutolinkWww"); return effects.check( wwwPrefix, effects.attempt(domain, effects.attempt(path2, wwwAfter), nok), nok )(code3); } function wwwAfter(code3) { effects.exit("literalAutolinkWww"); effects.exit("literalAutolink"); return ok3(code3); } } function tokenizeProtocolAutolink(effects, ok3, nok) { const self2 = this; let buffer = ""; let seen = false; return protocolStart; function protocolStart(code3) { if ((code3 === 72 || code3 === 104) && previousProtocol.call(self2, self2.previous) && !previousUnbalanced(self2.events)) { effects.enter("literalAutolink"); effects.enter("literalAutolinkHttp"); buffer += String.fromCodePoint(code3); effects.consume(code3); return protocolPrefixInside; } return nok(code3); } function protocolPrefixInside(code3) { if (asciiAlpha(code3) && buffer.length < 5) { buffer += String.fromCodePoint(code3); effects.consume(code3); return protocolPrefixInside; } if (code3 === 58) { const protocol = buffer.toLowerCase(); if (protocol === "http" || protocol === "https") { effects.consume(code3); return protocolSlashesInside; } } return nok(code3); } function protocolSlashesInside(code3) { if (code3 === 47) { effects.consume(code3); if (seen) { return afterProtocol; } seen = true; return protocolSlashesInside; } return nok(code3); } function afterProtocol(code3) { return code3 === null || asciiControl(code3) || markdownLineEndingOrSpace(code3) || unicodeWhitespace(code3) || unicodePunctuation(code3) ? nok(code3) : effects.attempt(domain, effects.attempt(path2, protocolAfter), nok)(code3); } function protocolAfter(code3) { effects.exit("literalAutolinkHttp"); effects.exit("literalAutolink"); return ok3(code3); } } function tokenizeWwwPrefix(effects, ok3, nok) { let size = 0; return wwwPrefixInside; function wwwPrefixInside(code3) { if ((code3 === 87 || code3 === 119) && size < 3) { size++; effects.consume(code3); return wwwPrefixInside; } if (code3 === 46 && size === 3) { effects.consume(code3); return wwwPrefixAfter; } return nok(code3); } function wwwPrefixAfter(code3) { return code3 === null ? nok(code3) : ok3(code3); } } function tokenizeDomain(effects, ok3, nok) { let underscoreInLastSegment; let underscoreInLastLastSegment; let seen; return domainInside; function domainInside(code3) { if (code3 === 46 || code3 === 95) { return effects.check(trail, domainAfter, domainAtPunctuation)(code3); } if (code3 === null || markdownLineEndingOrSpace(code3) || unicodeWhitespace(code3) || code3 !== 45 && unicodePunctuation(code3)) { return domainAfter(code3); } seen = true; effects.consume(code3); return domainInside; } function domainAtPunctuation(code3) { if (code3 === 95) { underscoreInLastSegment = true; } else { underscoreInLastLastSegment = underscoreInLastSegment; underscoreInLastSegment = void 0; } effects.consume(code3); return domainInside; } function domainAfter(code3) { if (underscoreInLastLastSegment || underscoreInLastSegment || !seen) { return nok(code3); } return ok3(code3); } } function tokenizePath(effects, ok3) { let sizeOpen = 0; let sizeClose = 0; return pathInside; function pathInside(code3) { if (code3 === 40) { sizeOpen++; effects.consume(code3); return pathInside; } if (code3 === 41 && sizeClose < sizeOpen) { return pathAtPunctuation(code3); } if (code3 === 33 || code3 === 34 || code3 === 38 || code3 === 39 || code3 === 41 || code3 === 42 || code3 === 44 || code3 === 46 || code3 === 58 || code3 === 59 || code3 === 60 || code3 === 63 || code3 === 93 || code3 === 95 || code3 === 126) { return effects.check(trail, ok3, pathAtPunctuation)(code3); } if (code3 === null || markdownLineEndingOrSpace(code3) || unicodeWhitespace(code3)) { return ok3(code3); } effects.consume(code3); return pathInside; } function pathAtPunctuation(code3) { if (code3 === 41) { sizeClose++; } effects.consume(code3); return pathInside; } } function tokenizeTrail(effects, ok3, nok) { return trail2; function trail2(code3) { if (code3 === 33 || code3 === 34 || code3 === 39 || code3 === 41 || code3 === 42 || code3 === 44 || code3 === 46 || code3 === 58 || code3 === 59 || code3 === 63 || code3 === 95 || code3 === 126) { effects.consume(code3); return trail2; } if (code3 === 38) { effects.consume(code3); return trailCharRefStart; } if (code3 === 93) { effects.consume(code3); return trailBracketAfter; } if ( // `<` is an end. code3 === 60 || // So is whitespace. code3 === null || markdownLineEndingOrSpace(code3) || unicodeWhitespace(code3) ) { return ok3(code3); } return nok(code3); } function trailBracketAfter(code3) { if (code3 === null || code3 === 40 || code3 === 91 || markdownLineEndingOrSpace(code3) || unicodeWhitespace(code3)) { return ok3(code3); } return trail2(code3); } function trailCharRefStart(code3) { return asciiAlpha(code3) ? trailCharRefInside(code3) : nok(code3); } function trailCharRefInside(code3) { if (code3 === 59) { effects.consume(code3); return trail2; } if (asciiAlpha(code3)) { effects.consume(code3); return trailCharRefInside; } return nok(code3); } } function tokenizeEmailDomainDotTrail(effects, ok3, nok) { return start; function start(code3) { effects.consume(code3); return after; } function after(code3) { return asciiAlphanumeric(code3) ? nok(code3) : ok3(code3); } } function previousWww(code3) { return code3 === null || code3 === 40 || code3 === 42 || code3 === 95 || code3 === 91 || code3 === 93 || code3 === 126 || markdownLineEndingOrSpace(code3); } function previousProtocol(code3) { return !asciiAlpha(code3); } function previousEmail(code3) { return !(code3 === 47 || gfmAtext(code3)); } function gfmAtext(code3) { return code3 === 43 || code3 === 45 || code3 === 46 || code3 === 95 || asciiAlphanumeric(code3); } function previousUnbalanced(events) { let index2 = events.length; let result = false; while (index2--) { const token = events[index2][1]; if ((token.type === "labelLink" || token.type === "labelImage") && !token._balanced) { result = true; break; } if (token._gfmAutolinkLiteralWalkedInto) { result = false; break; } } if (events.length > 0 && !result) { events[events.length - 1][1]._gfmAutolinkLiteralWalkedInto = true; } return result; } // node_modules/micromark-extension-gfm-footnote/lib/syntax.js var indent = { tokenize: tokenizeIndent2, partial: true }; function gfmFootnote() { return { document: { [91]: { tokenize: tokenizeDefinitionStart, continuation: { tokenize: tokenizeDefinitionContinuation }, exit: gfmFootnoteDefinitionEnd } }, text: { [91]: { tokenize: tokenizeGfmFootnoteCall }, [93]: { add: "after", tokenize: tokenizePotentialGfmFootnoteCall, resolveTo: resolveToPotentialGfmFootnoteCall } } }; } function tokenizePotentialGfmFootnoteCall(effects, ok3, nok) { const self2 = this; let index2 = self2.events.length; const defined = self2.parser.gfmFootnotes || (self2.parser.gfmFootnotes = []); let labelStart; while (index2--) { const token = self2.events[index2][1]; if (token.type === "labelImage") { labelStart = token; break; } if (token.type === "gfmFootnoteCall" || token.type === "labelLink" || token.type === "label" || token.type === "image" || token.type === "link") { break; } } return start; function start(code3) { if (!labelStart || !labelStart._balanced) { return nok(code3); } const id = normalizeIdentifier( self2.sliceSerialize({ start: labelStart.end, end: self2.now() }) ); if (id.codePointAt(0) !== 94 || !defined.includes(id.slice(1))) { return nok(code3); } effects.enter("gfmFootnoteCallLabelMarker"); effects.consume(code3); effects.exit("gfmFootnoteCallLabelMarker"); return ok3(code3); } } function resolveToPotentialGfmFootnoteCall(events, context) { let index2 = events.length; let labelStart; while (index2--) { if (events[index2][1].type === "labelImage" && events[index2][0] === "enter") { labelStart = events[index2][1]; break; } } events[index2 + 1][1].type = "data"; events[index2 + 3][1].type = "gfmFootnoteCallLabelMarker"; const call = { type: "gfmFootnoteCall", start: Object.assign({}, events[index2 + 3][1].start), end: Object.assign({}, events[events.length - 1][1].end) }; const marker = { type: "gfmFootnoteCallMarker", start: Object.assign({}, events[index2 + 3][1].end), end: Object.assign({}, events[index2 + 3][1].end) }; marker.end.column++; marker.end.offset++; marker.end._bufferIndex++; const string3 = { type: "gfmFootnoteCallString", start: Object.assign({}, marker.end), end: Object.assign({}, events[events.length - 1][1].start) }; const chunk = { type: "chunkString", contentType: "string", start: Object.assign({}, string3.start), end: Object.assign({}, string3.end) }; const replacement = [ // Take the `labelImageMarker` (now `data`, the `!`) events[index2 + 1], events[index2 + 2], ["enter", call, context], // The `[` events[index2 + 3], events[index2 + 4], // The `^`. ["enter", marker, context], ["exit", marker, context], // Everything in between. ["enter", string3, context], ["enter", chunk, context], ["exit", chunk, context], ["exit", string3, context], // The ending (`]`, properly parsed and labelled). events[events.length - 2], events[events.length - 1], ["exit", call, context] ]; events.splice(index2, events.length - index2 + 1, ...replacement); return events; } function tokenizeGfmFootnoteCall(effects, ok3, nok) { const self2 = this; const defined = self2.parser.gfmFootnotes || (self2.parser.gfmFootnotes = []); let size = 0; let data; return start; function start(code3) { effects.enter("gfmFootnoteCall"); effects.enter("gfmFootnoteCallLabelMarker"); effects.consume(code3); effects.exit("gfmFootnoteCallLabelMarker"); return callStart; } function callStart(code3) { if (code3 !== 94) return nok(code3); effects.enter("gfmFootnoteCallMarker"); effects.consume(code3); effects.exit("gfmFootnoteCallMarker"); effects.enter("gfmFootnoteCallString"); effects.enter("chunkString").contentType = "string"; return callData; } function callData(code3) { if ( // Too long. size > 999 || // Closing brace with nothing. code3 === 93 && !data || // Space or tab is not supported by GFM for some reason. // `\n` and `[` not being supported makes sense. code3 === null || code3 === 91 || markdownLineEndingOrSpace(code3) ) { return nok(code3); } if (code3 === 93) { effects.exit("chunkString"); const token = effects.exit("gfmFootnoteCallString"); if (!defined.includes(normalizeIdentifier(self2.sliceSerialize(token)))) { return nok(code3); } effects.enter("gfmFootnoteCallLabelMarker"); effects.consume(code3); effects.exit("gfmFootnoteCallLabelMarker"); effects.exit("gfmFootnoteCall"); return ok3; } if (!markdownLineEndingOrSpace(code3)) { data = true; } size++; effects.consume(code3); return code3 === 92 ? callEscape : callData; } function callEscape(code3) { if (code3 === 91 || code3 === 92 || code3 === 93) { effects.consume(code3); size++; return callData; } return callData(code3); } } function tokenizeDefinitionStart(effects, ok3, nok) { const self2 = this; const defined = self2.parser.gfmFootnotes || (self2.parser.gfmFootnotes = []); let identifier; let size = 0; let data; return start; function start(code3) { effects.enter("gfmFootnoteDefinition")._container = true; effects.enter("gfmFootnoteDefinitionLabel"); effects.enter("gfmFootnoteDefinitionLabelMarker"); effects.consume(code3); effects.exit("gfmFootnoteDefinitionLabelMarker"); return labelAtMarker; } function labelAtMarker(code3) { if (code3 === 94) { effects.enter("gfmFootnoteDefinitionMarker"); effects.consume(code3); effects.exit("gfmFootnoteDefinitionMarker"); effects.enter("gfmFootnoteDefinitionLabelString"); effects.enter("chunkString").contentType = "string"; return labelInside; } return nok(code3); } function labelInside(code3) { if ( // Too long. size > 999 || // Closing brace with nothing. code3 === 93 && !data || // Space or tab is not supported by GFM for some reason. // `\n` and `[` not being supported makes sense. code3 === null || code3 === 91 || markdownLineEndingOrSpace(code3) ) { return nok(code3); } if (code3 === 93) { effects.exit("chunkString"); const token = effects.exit("gfmFootnoteDefinitionLabelString"); identifier = normalizeIdentifier(self2.sliceSerialize(token)); effects.enter("gfmFootnoteDefinitionLabelMarker"); effects.consume(code3); effects.exit("gfmFootnoteDefinitionLabelMarker"); effects.exit("gfmFootnoteDefinitionLabel"); return labelAfter; } if (!markdownLineEndingOrSpace(code3)) { data = true; } size++; effects.consume(code3); return code3 === 92 ? labelEscape : labelInside; } function labelEscape(code3) { if (code3 === 91 || code3 === 92 || code3 === 93) { effects.consume(code3); size++; return labelInside; } return labelInside(code3); } function labelAfter(code3) { if (code3 === 58) { effects.enter("definitionMarker"); effects.consume(code3); effects.exit("definitionMarker"); if (!defined.includes(identifier)) { defined.push(identifier); } return factorySpace( effects, whitespaceAfter, "gfmFootnoteDefinitionWhitespace" ); } return nok(code3); } function whitespaceAfter(code3) { return ok3(code3); } } function tokenizeDefinitionContinuation(effects, ok3, nok) { return effects.check(blankLine, ok3, effects.attempt(indent, ok3, nok)); } function gfmFootnoteDefinitionEnd(effects) { effects.exit("gfmFootnoteDefinition"); } function tokenizeIndent2(effects, ok3, nok) { const self2 = this; return factorySpace( effects, afterPrefix, "gfmFootnoteDefinitionIndent", 4 + 1 ); function afterPrefix(code3) { const tail = self2.events[self2.events.length - 1]; return tail && tail[1].type === "gfmFootnoteDefinitionIndent" && tail[2].sliceSerialize(tail[1], true).length === 4 ? ok3(code3) : nok(code3); } } // node_modules/micromark-extension-gfm-strikethrough/lib/syntax.js function gfmStrikethrough(options2) { const options_ = options2 || {}; let single = options_.singleTilde; const tokenizer = { tokenize: tokenizeStrikethrough, resolveAll: resolveAllStrikethrough }; if (single === null || single === void 0) { single = true; } return { text: { [126]: tokenizer }, insideSpan: { null: [tokenizer] }, attentionMarkers: { null: [126] } }; function resolveAllStrikethrough(events, context) { let index2 = -1; while (++index2 < events.length) { if (events[index2][0] === "enter" && events[index2][1].type === "strikethroughSequenceTemporary" && events[index2][1]._close) { let open = index2; while (open--) { if (events[open][0] === "exit" && events[open][1].type === "strikethroughSequenceTemporary" && events[open][1]._open && // If the sizes are the same: events[index2][1].end.offset - events[index2][1].start.offset === events[open][1].end.offset - events[open][1].start.offset) { events[index2][1].type = "strikethroughSequence"; events[open][1].type = "strikethroughSequence"; const strikethrough = { type: "strikethrough", start: Object.assign({}, events[open][1].start), end: Object.assign({}, events[index2][1].end) }; const text5 = { type: "strikethroughText", start: Object.assign({}, events[open][1].end), end: Object.assign({}, events[index2][1].start) }; const nextEvents = [ ["enter", strikethrough, context], ["enter", events[open][1], context], ["exit", events[open][1], context], ["enter", text5, context] ]; const insideSpan2 = context.parser.constructs.insideSpan.null; if (insideSpan2) { splice( nextEvents, nextEvents.length, 0, resolveAll(insideSpan2, events.slice(open + 1, index2), context) ); } splice(nextEvents, nextEvents.length, 0, [ ["exit", text5, context], ["enter", events[index2][1], context], ["exit", events[index2][1], context], ["exit", strikethrough, context] ]); splice(events, open - 1, index2 - open + 3, nextEvents); index2 = open + nextEvents.length - 2; break; } } } } index2 = -1; while (++index2 < events.length) { if (events[index2][1].type === "strikethroughSequenceTemporary") { events[index2][1].type = "data"; } } return events; } function tokenizeStrikethrough(effects, ok3, nok) { const previous3 = this.previous; const events = this.events; let size = 0; return start; function start(code3) { if (previous3 === 126 && events[events.length - 1][1].type !== "characterEscape") { return nok(code3); } effects.enter("strikethroughSequenceTemporary"); return more(code3); } function more(code3) { const before = classifyCharacter(previous3); if (code3 === 126) { if (size > 1) return nok(code3); effects.consume(code3); size++; return more; } if (size < 2 && !single) return nok(code3); const token = effects.exit("strikethroughSequenceTemporary"); const after = classifyCharacter(code3); token._open = !after || after === 2 && Boolean(before); token._close = !before || before === 2 && Boolean(after); return ok3(code3); } } } // node_modules/micromark-extension-gfm-table/lib/edit-map.js var EditMap = class { /** * Create a new edit map. */ constructor() { this.map = []; } /** * Create an edit: a remove and/or add at a certain place. * * @param {number} index * @param {number} remove * @param {Array<Event>} add * @returns {undefined} */ add(index2, remove, add) { addImpl(this, index2, remove, add); } // To do: add this when moving to `micromark`. // /** // * Create an edit: but insert `add` before existing additions. // * // * @param {number} index // * @param {number} remove // * @param {Array<Event>} add // * @returns {undefined} // */ // addBefore(index, remove, add) { // addImpl(this, index, remove, add, true) // } /** * Done, change the events. * * @param {Array<Event>} events * @returns {undefined} */ consume(events) { this.map.sort(function(a2, b4) { return a2[0] - b4[0]; }); if (this.map.length === 0) { return; } let index2 = this.map.length; const vecs = []; while (index2 > 0) { index2 -= 1; vecs.push( events.slice(this.map[index2][0] + this.map[index2][1]), this.map[index2][2] ); events.length = this.map[index2][0]; } vecs.push([...events]); events.length = 0; let slice = vecs.pop(); while (slice) { events.push(...slice); slice = vecs.pop(); } this.map.length = 0; } }; function addImpl(editMap, at4, remove, add) { let index2 = 0; if (remove === 0 && add.length === 0) { return; } while (index2 < editMap.map.length) { if (editMap.map[index2][0] === at4) { editMap.map[index2][1] += remove; editMap.map[index2][2].push(...add); return; } index2 += 1; } editMap.map.push([at4, remove, add]); } // node_modules/micromark-extension-gfm-table/lib/infer.js function gfmTableAlign(events, index2) { let inDelimiterRow = false; const align = []; while (index2 < events.length) { const event = events[index2]; if (inDelimiterRow) { if (event[0] === "enter") { if (event[1].type === "tableContent") { align.push( events[index2 + 1][1].type === "tableDelimiterMarker" ? "left" : "none" ); } } else if (event[1].type === "tableContent") { if (events[index2 - 1][1].type === "tableDelimiterMarker") { const alignIndex = align.length - 1; align[alignIndex] = align[alignIndex] === "left" ? "center" : "right"; } } else if (event[1].type === "tableDelimiterRow") { break; } } else if (event[0] === "enter" && event[1].type === "tableDelimiterRow") { inDelimiterRow = true; } index2 += 1; } return align; } // node_modules/micromark-extension-gfm-table/lib/syntax.js function gfmTable() { return { flow: { null: { tokenize: tokenizeTable, resolveAll: resolveTable } } }; } function tokenizeTable(effects, ok3, nok) { const self2 = this; let size = 0; let sizeB = 0; let seen; return start; function start(code3) { let index2 = self2.events.length - 1; while (index2 > -1) { const type = self2.events[index2][1].type; if (type === "lineEnding" || // Note: markdown-rs uses `whitespace` instead of `linePrefix` type === "linePrefix") index2--; else break; } const tail = index2 > -1 ? self2.events[index2][1].type : null; const next = tail === "tableHead" || tail === "tableRow" ? bodyRowStart : headRowBefore; if (next === bodyRowStart && self2.parser.lazy[self2.now().line]) { return nok(code3); } return next(code3); } function headRowBefore(code3) { effects.enter("tableHead"); effects.enter("tableRow"); return headRowStart(code3); } function headRowStart(code3) { if (code3 === 124) { return headRowBreak(code3); } seen = true; sizeB += 1; return headRowBreak(code3); } function headRowBreak(code3) { if (code3 === null) { return nok(code3); } if (markdownLineEnding(code3)) { if (sizeB > 1) { sizeB = 0; self2.interrupt = true; effects.exit("tableRow"); effects.enter("lineEnding"); effects.consume(code3); effects.exit("lineEnding"); return headDelimiterStart; } return nok(code3); } if (markdownSpace(code3)) { return factorySpace(effects, headRowBreak, "whitespace")(code3); } sizeB += 1; if (seen) { seen = false; size += 1; } if (code3 === 124) { effects.enter("tableCellDivider"); effects.consume(code3); effects.exit("tableCellDivider"); seen = true; return headRowBreak; } effects.enter("data"); return headRowData(code3); } function headRowData(code3) { if (code3 === null || code3 === 124 || markdownLineEndingOrSpace(code3)) { effects.exit("data"); return headRowBreak(code3); } effects.consume(code3); return code3 === 92 ? headRowEscape : headRowData; } function headRowEscape(code3) { if (code3 === 92 || code3 === 124) { effects.consume(code3); return headRowData; } return headRowData(code3); } function headDelimiterStart(code3) { self2.interrupt = false; if (self2.parser.lazy[self2.now().line]) { return nok(code3); } effects.enter("tableDelimiterRow"); seen = false; if (markdownSpace(code3)) { return factorySpace( effects, headDelimiterBefore, "linePrefix", self2.parser.constructs.disable.null.includes("codeIndented") ? void 0 : 4 )(code3); } return headDelimiterBefore(code3); } function headDelimiterBefore(code3) { if (code3 === 45 || code3 === 58) { return headDelimiterValueBefore(code3); } if (code3 === 124) { seen = true; effects.enter("tableCellDivider"); effects.consume(code3); effects.exit("tableCellDivider"); return headDelimiterCellBefore; } return headDelimiterNok(code3); } function headDelimiterCellBefore(code3) { if (markdownSpace(code3)) { return factorySpace(effects, headDelimiterValueBefore, "whitespace")(code3); } return headDelimiterValueBefore(code3); } function headDelimiterValueBefore(code3) { if (code3 === 58) { sizeB += 1; seen = true; effects.enter("tableDelimiterMarker"); effects.consume(code3); effects.exit("tableDelimiterMarker"); return headDelimiterLeftAlignmentAfter; } if (code3 === 45) { sizeB += 1; return headDelimiterLeftAlignmentAfter(code3); } if (code3 === null || markdownLineEnding(code3)) { return headDelimiterCellAfter(code3); } return headDelimiterNok(code3); } function headDelimiterLeftAlignmentAfter(code3) { if (code3 === 45) { effects.enter("tableDelimiterFiller"); return headDelimiterFiller(code3); } return headDelimiterNok(code3); } function headDelimiterFiller(code3) { if (code3 === 45) { effects.consume(code3); return headDelimiterFiller; } if (code3 === 58) { seen = true; effects.exit("tableDelimiterFiller"); effects.enter("tableDelimiterMarker"); effects.consume(code3); effects.exit("tableDelimiterMarker"); return headDelimiterRightAlignmentAfter; } effects.exit("tableDelimiterFiller"); return headDelimiterRightAlignmentAfter(code3); } function headDelimiterRightAlignmentAfter(code3) { if (markdownSpace(code3)) { return factorySpace(effects, headDelimiterCellAfter, "whitespace")(code3); } return headDelimiterCellAfter(code3); } function headDelimiterCellAfter(code3) { if (code3 === 124) { return headDelimiterBefore(code3); } if (code3 === null || markdownLineEnding(code3)) { if (!seen || size !== sizeB) { return headDelimiterNok(code3); } effects.exit("tableDelimiterRow"); effects.exit("tableHead"); return ok3(code3); } return headDelimiterNok(code3); } function headDelimiterNok(code3) { return nok(code3); } function bodyRowStart(code3) { effects.enter("tableRow"); return bodyRowBreak(code3); } function bodyRowBreak(code3) { if (code3 === 124) { effects.enter("tableCellDivider"); effects.consume(code3); effects.exit("tableCellDivider"); return bodyRowBreak; } if (code3 === null || markdownLineEnding(code3)) { effects.exit("tableRow"); return ok3(code3); } if (markdownSpace(code3)) { return factorySpace(effects, bodyRowBreak, "whitespace")(code3); } effects.enter("data"); return bodyRowData(code3); } function bodyRowData(code3) { if (code3 === null || code3 === 124 || markdownLineEndingOrSpace(code3)) { effects.exit("data"); return bodyRowBreak(code3); } effects.consume(code3); return code3 === 92 ? bodyRowEscape : bodyRowData; } function bodyRowEscape(code3) { if (code3 === 92 || code3 === 124) { effects.consume(code3); return bodyRowData; } return bodyRowData(code3); } } function resolveTable(events, context) { let index2 = -1; let inFirstCellAwaitingPipe = true; let rowKind = 0; let lastCell = [0, 0, 0, 0]; let cell = [0, 0, 0, 0]; let afterHeadAwaitingFirstBodyRow = false; let lastTableEnd = 0; let currentTable; let currentBody; let currentCell; const map5 = new EditMap(); while (++index2 < events.length) { const event = events[index2]; const token = event[1]; if (event[0] === "enter") { if (token.type === "tableHead") { afterHeadAwaitingFirstBodyRow = false; if (lastTableEnd !== 0) { flushTableEnd(map5, context, lastTableEnd, currentTable, currentBody); currentBody = void 0; lastTableEnd = 0; } currentTable = { type: "table", start: Object.assign({}, token.start), // Note: correct end is set later. end: Object.assign({}, token.end) }; map5.add(index2, 0, [["enter", currentTable, context]]); } else if (token.type === "tableRow" || token.type === "tableDelimiterRow") { inFirstCellAwaitingPipe = true; currentCell = void 0; lastCell = [0, 0, 0, 0]; cell = [0, index2 + 1, 0, 0]; if (afterHeadAwaitingFirstBodyRow) { afterHeadAwaitingFirstBodyRow = false; currentBody = { type: "tableBody", start: Object.assign({}, token.start), // Note: correct end is set later. end: Object.assign({}, token.end) }; map5.add(index2, 0, [["enter", currentBody, context]]); } rowKind = token.type === "tableDelimiterRow" ? 2 : currentBody ? 3 : 1; } else if (rowKind && (token.type === "data" || token.type === "tableDelimiterMarker" || token.type === "tableDelimiterFiller")) { inFirstCellAwaitingPipe = false; if (cell[2] === 0) { if (lastCell[1] !== 0) { cell[0] = cell[1]; currentCell = flushCell( map5, context, lastCell, rowKind, void 0, currentCell ); lastCell = [0, 0, 0, 0]; } cell[2] = index2; } } else if (token.type === "tableCellDivider") { if (inFirstCellAwaitingPipe) { inFirstCellAwaitingPipe = false; } else { if (lastCell[1] !== 0) { cell[0] = cell[1]; currentCell = flushCell( map5, context, lastCell, rowKind, void 0, currentCell ); } lastCell = cell; cell = [lastCell[1], index2, 0, 0]; } } } else if (token.type === "tableHead") { afterHeadAwaitingFirstBodyRow = true; lastTableEnd = index2; } else if (token.type === "tableRow" || token.type === "tableDelimiterRow") { lastTableEnd = index2; if (lastCell[1] !== 0) { cell[0] = cell[1]; currentCell = flushCell( map5, context, lastCell, rowKind, index2, currentCell ); } else if (cell[1] !== 0) { currentCell = flushCell(map5, context, cell, rowKind, index2, currentCell); } rowKind = 0; } else if (rowKind && (token.type === "data" || token.type === "tableDelimiterMarker" || token.type === "tableDelimiterFiller")) { cell[3] = index2; } } if (lastTableEnd !== 0) { flushTableEnd(map5, context, lastTableEnd, currentTable, currentBody); } map5.consume(context.events); index2 = -1; while (++index2 < context.events.length) { const event = context.events[index2]; if (event[0] === "enter" && event[1].type === "table") { event[1]._align = gfmTableAlign(context.events, index2); } } return events; } function flushCell(map5, context, range, rowKind, rowEnd, previousCell) { const groupName = rowKind === 1 ? "tableHeader" : rowKind === 2 ? "tableDelimiter" : "tableData"; const valueName = "tableContent"; if (range[0] !== 0) { previousCell.end = Object.assign({}, getPoint(context.events, range[0])); map5.add(range[0], 0, [["exit", previousCell, context]]); } const now = getPoint(context.events, range[1]); previousCell = { type: groupName, start: Object.assign({}, now), // Note: correct end is set later. end: Object.assign({}, now) }; map5.add(range[1], 0, [["enter", previousCell, context]]); if (range[2] !== 0) { const relatedStart = getPoint(context.events, range[2]); const relatedEnd = getPoint(context.events, range[3]); const valueToken = { type: valueName, start: Object.assign({}, relatedStart), end: Object.assign({}, relatedEnd) }; map5.add(range[2], 0, [["enter", valueToken, context]]); if (rowKind !== 2) { const start = context.events[range[2]]; const end = context.events[range[3]]; start[1].end = Object.assign({}, end[1].end); start[1].type = "chunkText"; start[1].contentType = "text"; if (range[3] > range[2] + 1) { const a2 = range[2] + 1; const b4 = range[3] - range[2] - 1; map5.add(a2, b4, []); } } map5.add(range[3] + 1, 0, [["exit", valueToken, context]]); } if (rowEnd !== void 0) { previousCell.end = Object.assign({}, getPoint(context.events, rowEnd)); map5.add(rowEnd, 0, [["exit", previousCell, context]]); previousCell = void 0; } return previousCell; } function flushTableEnd(map5, context, index2, table, tableBody) { const exits = []; const related = getPoint(context.events, index2); if (tableBody) { tableBody.end = Object.assign({}, related); exits.push(["exit", tableBody, context]); } table.end = Object.assign({}, related); exits.push(["exit", table, context]); map5.add(index2 + 1, 0, exits); } function getPoint(events, index2) { const event = events[index2]; const side = event[0] === "enter" ? "start" : "end"; return event[1][side]; } // node_modules/micromark-extension-gfm-task-list-item/lib/syntax.js var tasklistCheck = { tokenize: tokenizeTasklistCheck }; function gfmTaskListItem() { return { text: { [91]: tasklistCheck } }; } function tokenizeTasklistCheck(effects, ok3, nok) { const self2 = this; return open; function open(code3) { if ( // Exit if there’s stuff before. self2.previous !== null || // Exit if not in the first content that is the first child of a list // item. !self2._gfmTasklistFirstContentOfListItem ) { return nok(code3); } effects.enter("taskListCheck"); effects.enter("taskListCheckMarker"); effects.consume(code3); effects.exit("taskListCheckMarker"); return inside; } function inside(code3) { if (markdownLineEndingOrSpace(code3)) { effects.enter("taskListCheckValueUnchecked"); effects.consume(code3); effects.exit("taskListCheckValueUnchecked"); return close2; } if (code3 === 88 || code3 === 120) { effects.enter("taskListCheckValueChecked"); effects.consume(code3); effects.exit("taskListCheckValueChecked"); return close2; } return nok(code3); } function close2(code3) { if (code3 === 93) { effects.enter("taskListCheckMarker"); effects.consume(code3); effects.exit("taskListCheckMarker"); effects.exit("taskListCheck"); return after; } return nok(code3); } function after(code3) { if (markdownLineEnding(code3)) { return ok3(code3); } if (markdownSpace(code3)) { return effects.check( { tokenize: spaceThenNonSpace }, ok3, nok )(code3); } return nok(code3); } } function spaceThenNonSpace(effects, ok3, nok) { return factorySpace(effects, after, "whitespace"); function after(code3) { return code3 === null ? nok(code3) : ok3(code3); } } // node_modules/micromark-extension-gfm/index.js function gfm(options2) { return combineExtensions([ gfmAutolinkLiteral(), gfmFootnote(), gfmStrikethrough(options2), gfmTable(), gfmTaskListItem() ]); } // node_modules/remark-gfm/lib/index.js var emptyOptions2 = {}; function remarkGfm(options2) { const self2 = ( /** @type {Processor} */ this ); const settings = options2 || emptyOptions2; const data = self2.data(); const micromarkExtensions = data.micromarkExtensions || (data.micromarkExtensions = []); const fromMarkdownExtensions = data.fromMarkdownExtensions || (data.fromMarkdownExtensions = []); const toMarkdownExtensions = data.toMarkdownExtensions || (data.toMarkdownExtensions = []); micromarkExtensions.push(gfm(settings)); fromMarkdownExtensions.push(gfmFromMarkdown()); toMarkdownExtensions.push(gfmToMarkdown(settings)); } // node_modules/@milkdown/preset-gfm/lib/index.es.js function d5(e2, t2) { return Object.assign(e2, { meta: __spreadValues({ package: "@milkdown/preset-gfm" }, t2) }), e2; } var K4 = we2("strike_through"); d5(K4, { displayName: "Attr<strikethrough>", group: "Strikethrough" }); var T5 = ye2("strike_through", (e2) => ({ parseDOM: [ { tag: "del" }, { style: "text-decoration", getAttrs: (t2) => t2 === "line-through" } ], toDOM: (t2) => ["del", e2.get(K4.key)(t2)], parseMarkdown: { match: (t2) => t2.type === "delete", runner: (t2, n4, o2) => { t2.openMark(o2), t2.next(n4.children), t2.closeMark(o2); } }, toMarkdown: { match: (t2) => t2.type.name === "strike_through", runner: (t2, n4) => { t2.withMark(n4, "delete"); } } })); d5(T5.mark, { displayName: "MarkSchema<strikethrough>", group: "Strikethrough" }); d5(T5.ctx, { displayName: "MarkSchemaCtx<strikethrough>", group: "Strikethrough" }); var H5 = re2("ToggleStrikeThrough", (e2) => () => toggleMark(T5.type(e2))); d5(H5, { displayName: "Command<ToggleStrikethrough>", group: "Strikethrough" }); var ae3 = oe2((e2) => markRule(/~([^~]+)~$/, T5.type(e2))); d5(ae3, { displayName: "InputRule<strikethrough>", group: "Strikethrough" }); var L5 = ge2("strikeThroughKeymap", { ToggleStrikethrough: { shortcuts: "Mod-Alt-x", command: (e2) => { const t2 = e2.get(je); return () => t2.call(H5.key); } } }); d5(L5.ctx, { displayName: "KeymapCtx<strikethrough>", group: "Strikethrough" }); d5(L5.shortcuts, { displayName: "Keymap<strikethrough>", group: "Strikethrough" }); function se3(e2, t2 = 3, n4 = 3) { const o2 = Array(n4).fill(0).map(() => M6.type(e2).createAndFill()), l5 = Array(n4).fill(0).map(() => I3.type(e2).createAndFill()), r3 = Array(t2).fill(0).map((s2, c6) => R5.type(e2).create(null, c6 === 0 ? l5 : o2)); return S7.type(e2).create(null, r3); } function w6(e2) { return findParentNode((t2) => t2.type.spec.tableRole === "table")(e2); } function b3(e2, t2) { const n4 = w6(t2); if (!n4) return; const o2 = TableMap.get(n4.node); if (!(e2 < 0 || e2 >= o2.width)) return o2.cellsInRect({ left: e2, right: e2 + 1, top: 0, bottom: o2.height }).map((l5) => { const r3 = n4.node.nodeAt(l5); if (!r3) return; const s2 = l5 + n4.start; return { pos: s2, start: s2 + 1, node: r3 }; }).filter((l5) => l5 != null); } function C4(e2, t2) { const n4 = w6(t2); if (!n4) return; const o2 = TableMap.get(n4.node); if (!(e2 < 0 || e2 >= o2.height)) return o2.cellsInRect({ left: 0, right: o2.width, top: e2, bottom: e2 + 1 }).map((l5) => { const r3 = n4.node.nodeAt(l5); if (!r3) return; const s2 = l5 + n4.start; return { pos: s2, start: s2 + 1, node: r3 }; }).filter((l5) => l5 != null); } function Je(e2) { const t2 = w6(e2); if (!t2) return; const n4 = TableMap.get(t2.node); return n4.cellsInRect({ left: 0, right: n4.width, top: 0, bottom: n4.height }).map((l5) => { const r3 = t2.node.nodeAt(l5), s2 = l5 + t2.start; return { pos: s2, start: s2 + 1, node: r3 }; }); } function Qe(e2) { const t2 = Je(e2.selection); if (t2 && t2[0]) { const n4 = e2.doc.resolve(t2[0].pos), o2 = t2[t2.length - 1]; if (o2) { const l5 = e2.doc.resolve(o2.pos); return cloneTr(e2.setSelection(new CellSelection(l5, n4))); } } return e2; } function ce3(e2, t2, { map: n4, tableStart: o2, table: l5 }, r3) { const s2 = Array(r3).fill(0).reduce((i2, m3, a2) => i2 + l5.child(a2).nodeSize, o2), c6 = Array(n4.width).fill(0).map((i2, m3) => { const a2 = l5.nodeAt(n4.map[m3]); return M6.type(e2).createAndFill({ alignment: a2 == null ? void 0 : a2.attrs.alignment }); }); return t2.insert(s2, R5.type(e2).create(null, c6)), t2; } function ie6(e2) { return (t2) => (n4) => { const o2 = w6(n4.selection), l5 = e2 === "row"; if (o2) { const r3 = TableMap.get(o2.node); if (t2 >= 0 && t2 < (l5 ? r3.height : r3.width)) { const s2 = r3.positionAt( l5 ? t2 : r3.height - 1, l5 ? r3.width - 1 : t2, o2.node ), c6 = n4.doc.resolve(o2.start + s2), i2 = l5 ? CellSelection.rowSelection : CellSelection.colSelection, m3 = r3.positionAt(l5 ? t2 : 0, l5 ? 0 : t2, o2.node), a2 = n4.doc.resolve(o2.start + m3); return cloneTr(n4.setSelection(i2(c6, a2))); } } return n4; }; } var Ye = ie6("row"); var et = ie6("col"); function q6(e2) { return e2[0].map((t2, n4) => e2.map((o2) => o2[n4])); } function de2(e2, t2) { const n4 = [], o2 = TableMap.get(e2); for (let r3 = 0; r3 < o2.height; r3++) { const s2 = e2.child(r3), c6 = []; for (let i2 = 0; i2 < o2.width; i2++) { if (!t2[r3][i2]) continue; const m3 = o2.map[r3 * o2.width + i2], a2 = t2[r3][i2], p4 = e2.nodeAt(m3).type.createChecked( Object.assign({}, a2.attrs), a2.content, a2.marks ); c6.push(p4); } n4.push(s2.type.createChecked(s2.attrs, c6, s2.marks)); } return e2.type.createChecked( e2.attrs, n4, e2.marks ); } function me3(e2) { const t2 = TableMap.get(e2), n4 = []; for (let o2 = 0; o2 < t2.height; o2++) { const l5 = [], r3 = {}; for (let s2 = 0; s2 < t2.width; s2++) { const c6 = t2.map[o2 * t2.width + s2], i2 = e2.nodeAt(c6), m3 = t2.findCell(c6); if (r3[c6] || m3.top !== o2) { l5.push(null); continue; } r3[c6] = true, l5.push(i2); } n4.push(l5); } return n4; } function ue4(e2, t2, n4, o2) { const l5 = t2[0] > n4[0] ? -1 : 1, r3 = e2.splice(t2[0], t2.length), s2 = r3.length % 2 === 0 ? 1 : 0; let c6; return o2 === -1 && l5 === 1 ? c6 = n4[0] - 1 : o2 === 1 && l5 === -1 ? c6 = n4[n4.length - 1] - s2 + 1 : c6 = l5 === -1 ? n4[0] : n4[n4.length - 1] - s2, e2.splice(c6, 0, ...r3), e2; } function tt(e2, t2, n4, o2) { let l5 = q6(me3(e2.node)); return l5 = ue4(l5, t2, n4, o2), l5 = q6(l5), de2(e2.node, l5); } function ot3(e2, t2, n4, o2) { let l5 = me3(e2.node); return l5 = ue4(l5, t2, n4, o2), de2(e2.node, l5); } function J5(e2, t2) { let n4 = e2, o2 = e2; for (let a2 = e2; a2 >= 0; a2--) { const u4 = b3(a2, t2.selection); u4 && u4.forEach((p4) => { const f3 = p4.node.attrs.colspan + a2 - 1; f3 >= n4 && (n4 = a2), f3 > o2 && (o2 = f3); }); } for (let a2 = e2; a2 <= o2; a2++) { const u4 = b3(a2, t2.selection); u4 && u4.forEach((p4) => { const f3 = p4.node.attrs.colspan + a2 - 1; p4.node.attrs.colspan > 1 && f3 > o2 && (o2 = f3); }); } const l5 = []; for (let a2 = n4; a2 <= o2; a2++) { const u4 = b3(a2, t2.selection); u4 && u4.length && l5.push(a2); } n4 = l5[0], o2 = l5[l5.length - 1]; const r3 = b3(n4, t2.selection), s2 = C4(0, t2.selection), c6 = t2.doc.resolve( r3[r3.length - 1].pos ); let i2; for (let a2 = o2; a2 >= n4; a2--) { const u4 = b3(a2, t2.selection); if (u4 && u4.length) { for (let p4 = s2.length - 1; p4 >= 0; p4--) if (s2[p4].pos === u4[0].pos) { i2 = u4[0]; break; } if (i2) break; } } const m3 = t2.doc.resolve(i2.pos); return { $anchor: c6, $head: m3, indexes: l5 }; } function Q4(e2, t2) { let n4 = e2, o2 = e2; for (let a2 = e2; a2 >= 0; a2--) C4(a2, t2.selection).forEach((p4) => { const f3 = p4.node.attrs.rowspan + a2 - 1; f3 >= n4 && (n4 = a2), f3 > o2 && (o2 = f3); }); for (let a2 = e2; a2 <= o2; a2++) C4(a2, t2.selection).forEach((p4) => { const f3 = p4.node.attrs.rowspan + a2 - 1; p4.node.attrs.rowspan > 1 && f3 > o2 && (o2 = f3); }); const l5 = []; for (let a2 = n4; a2 <= o2; a2++) { const u4 = C4(a2, t2.selection); u4 && u4.length && l5.push(a2); } n4 = l5[0], o2 = l5[l5.length - 1]; const r3 = C4(n4, t2.selection), s2 = b3(0, t2.selection), c6 = t2.doc.resolve(r3[r3.length - 1].pos); let i2; for (let a2 = o2; a2 >= n4; a2--) { const u4 = C4(a2, t2.selection); if (u4 && u4.length) { for (let p4 = s2.length - 1; p4 >= 0; p4--) if (s2[p4].pos === u4[0].pos) { i2 = u4[0]; break; } if (i2) break; } } const m3 = t2.doc.resolve(i2.pos); return { $anchor: c6, $head: m3, indexes: l5 }; } function nt2(e2, t2, n4, o2 = true) { const l5 = w6(e2.selection); if (!l5) return e2; const { indexes: r3 } = J5(t2, e2), { indexes: s2 } = J5(n4, e2); if (r3.includes(n4)) return e2; const c6 = tt( l5, r3, s2, 0 ), i2 = cloneTr(e2).replaceWith( l5.pos, l5.pos + l5.node.nodeSize, c6 ); if (!o2) return i2; const m3 = TableMap.get(c6), a2 = l5.start, u4 = n4, p4 = m3.positionAt(m3.height - 1, u4, c6), f3 = i2.doc.resolve(a2 + p4), $3 = CellSelection.colSelection, P4 = m3.positionAt(0, u4, c6), _3 = i2.doc.resolve(a2 + P4); return i2.setSelection($3(f3, _3)); } function lt3(e2, t2, n4, o2 = true) { const l5 = w6(e2.selection); if (!l5) return e2; const { indexes: r3 } = Q4(t2, e2), { indexes: s2 } = Q4(n4, e2); if (r3.includes(n4)) return e2; const c6 = ot3( l5, r3, s2, 0 ), i2 = cloneTr(e2).replaceWith( l5.pos, l5.pos + l5.node.nodeSize, c6 ); if (!o2) return i2; const m3 = TableMap.get(c6), a2 = l5.start, u4 = n4, p4 = m3.positionAt(u4, m3.width - 1, c6), f3 = i2.doc.resolve(a2 + p4), $3 = CellSelection.rowSelection, P4 = m3.positionAt(u4, 0, c6), _3 = i2.doc.resolve(a2 + P4); return i2.setSelection($3(f3, _3)); } var v3 = tableNodes({ tableGroup: "block", cellContent: "paragraph", cellAttributes: { alignment: { default: "left", getFromDOM: (e2) => e2.style.textAlign || "left", setDOMAttr: (e2, t2) => { t2.style = `text-align: ${e2 || "left"}`; } } } }); var S7 = fe2("table", () => __spreadProps(__spreadValues({}, v3.table), { parseMarkdown: { match: (e2) => e2.type === "table", runner: (e2, t2, n4) => { const o2 = t2.align, l5 = t2.children.map((r3, s2) => __spreadProps(__spreadValues({}, r3), { align: o2, isHeader: s2 === 0 })); e2.openNode(n4), e2.next(l5), e2.closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "table", runner: (e2, t2) => { var l5; const n4 = (l5 = t2.content.firstChild) == null ? void 0 : l5.content; if (!n4) return; const o2 = []; n4.forEach((r3) => { o2.push(r3.attrs.alignment); }), e2.openNode("table", void 0, { align: o2 }), e2.next(t2.content), e2.closeNode(); } } })); d5(S7.node, { displayName: "NodeSchema<table>", group: "Table" }); d5(S7.ctx, { displayName: "NodeSchemaCtx<table>", group: "Table" }); var R5 = fe2("table_row", () => __spreadProps(__spreadValues({}, v3.table_row), { parseMarkdown: { match: (e2) => e2.type === "tableRow", runner: (e2, t2, n4) => { const o2 = t2.align, l5 = t2.children.map((r3, s2) => __spreadProps(__spreadValues({}, r3), { align: o2[s2], isHeader: t2.isHeader })); e2.openNode(n4), e2.next(l5), e2.closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "table_row", runner: (e2, t2) => { e2.openNode("tableRow"), e2.next(t2.content), e2.closeNode(); } } })); d5(R5.node, { displayName: "NodeSchema<tableRow>", group: "Table" }); d5(R5.ctx, { displayName: "NodeSchemaCtx<tableRow>", group: "Table" }); var M6 = fe2("table_cell", () => __spreadProps(__spreadValues({}, v3.table_cell), { parseMarkdown: { match: (e2) => e2.type === "tableCell" && !e2.isHeader, runner: (e2, t2, n4) => { const o2 = t2.align; e2.openNode(n4, { alignment: o2 }).openNode(e2.schema.nodes.paragraph).next(t2.children).closeNode().closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "table_cell", runner: (e2, t2) => { e2.openNode("tableCell").next(t2.content).closeNode(); } } })); d5(M6.node, { displayName: "NodeSchema<tableCell>", group: "Table" }); d5(M6.ctx, { displayName: "NodeSchemaCtx<tableCell>", group: "Table" }); var I3 = fe2("table_header", () => __spreadProps(__spreadValues({}, v3.table_header), { parseMarkdown: { match: (e2) => e2.type === "tableCell" && !!e2.isHeader, runner: (e2, t2, n4) => { const o2 = t2.align; e2.openNode(n4, { alignment: o2 }), e2.openNode(e2.schema.nodes.paragraph), e2.next(t2.children), e2.closeNode(), e2.closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === "table_header", runner: (e2, t2) => { e2.openNode("tableCell"), e2.next(t2.content), e2.closeNode(); } } })); d5(I3.node, { displayName: "NodeSchema<tableHeader>", group: "Table" }); d5(I3.ctx, { displayName: "NodeSchemaCtx<tableHeader>", group: "Table" }); var pe3 = oe2((e2) => new InputRule( new RegExp("^\\|(?<col>\\d+)[xX](?<row>\\d+)\\|\\s$"), (t2, n4, o2, l5) => { var i2, m3; const r3 = t2.doc.resolve(o2); if (!r3.node(-1).canReplaceWith(r3.index(-1), r3.indexAfter(-1), S7.type(e2))) return null; const s2 = se3( e2, Number((i2 = n4.groups) == null ? void 0 : i2.row), Number((m3 = n4.groups) == null ? void 0 : m3.col) ), c6 = t2.tr.replaceRangeWith(o2, l5, s2); return c6.setSelection(TextSelection.create(c6.doc, o2 + 3)).scrollIntoView(); } )); d5(pe3, { displayName: "InputRule<insertTableInputRule>", group: "Table" }); var W5 = re2("GoToPrevTableCell", () => () => goToNextCell(-1)); d5(W5, { displayName: "Command<goToPrevTableCellCommand>", group: "Table" }); var G4 = re2("GoToNextTableCell", () => () => goToNextCell(1)); d5(G4, { displayName: "Command<goToNextTableCellCommand>", group: "Table" }); var z4 = re2("BreakTable", (e2) => () => (t2, n4) => { if (!isInTable(t2)) return false; const { $head: o2 } = t2.selection, l5 = o2.after(), r3 = t2.tr.replaceWith(l5, l5, w5.type(e2).createAndFill()); return r3.setSelection(Selection.near(r3.doc.resolve(l5), 1)).scrollIntoView(), n4 == null || n4(r3), true; }); d5(z4, { displayName: "Command<breakTableCommand>", group: "Table" }); var fe4 = re2("InsertTable", (e2) => ({ row: t2, col: n4 } = {}) => (o2, l5) => { const { selection: r3, tr: s2 } = o2, { from: c6 } = r3, i2 = se3(e2, t2, n4), m3 = s2.replaceSelectionWith(i2), a2 = Selection.findFrom(m3.doc.resolve(c6), 1, true); return a2 && m3.setSelection(a2), l5 == null || l5(m3), true; }); d5(fe4, { displayName: "Command<insertTableCommand>", group: "Table" }); var he3 = re2("MoveRow", () => ({ from: e2, to: t2 } = {}) => (n4, o2) => { const { tr: l5 } = n4; return !!(o2 == null ? void 0 : o2(lt3(l5, e2 != null ? e2 : 0, t2 != null ? t2 : 0, true))); }); d5(he3, { displayName: "Command<moveRowCommand>", group: "Table" }); var ge4 = re2("MoveCol", () => ({ from: e2, to: t2 } = {}) => (n4, o2) => { const { tr: l5 } = n4; return !!(o2 == null ? void 0 : o2(nt2(l5, e2 != null ? e2 : 0, t2 != null ? t2 : 0, true))); }); d5(ge4, { displayName: "Command<moveColCommand>", group: "Table" }); var be2 = re2("SelectRow", () => (e2 = 0) => (t2, n4) => { const { tr: o2 } = t2; return !!(n4 == null ? void 0 : n4(Ye(e2)(o2))); }); d5(be2, { displayName: "Command<selectRowCommand>", group: "Table" }); var Ce4 = re2("SelectCol", () => (e2 = 0) => (t2, n4) => { const { tr: o2 } = t2; return !!(n4 == null ? void 0 : n4(et(e2)(o2))); }); d5(Ce4, { displayName: "Command<selectColCommand>", group: "Table" }); var ye4 = re2("SelectTable", () => () => (e2, t2) => { const { tr: n4 } = e2; return !!(t2 == null ? void 0 : t2(Qe(n4))); }); d5(ye4, { displayName: "Command<selectTableCommand>", group: "Table" }); var ke4 = re2("DeleteSelectedCells", () => () => (e2, t2) => { const { selection: n4 } = e2; if (!(n4 instanceof CellSelection)) return false; const o2 = n4.isRowSelection(), l5 = n4.isColSelection(); return o2 && l5 ? deleteTable(e2, t2) : l5 ? deleteColumn(e2, t2) : deleteRow(e2, t2); }); d5(ke4, { displayName: "Command<deleteSelectedCellsCommand>", group: "Table" }); var we4 = re2("AddColBefore", () => () => addColumnBefore); d5(we4, { displayName: "Command<addColBeforeCommand>", group: "Table" }); var Ne3 = re2("AddColAfter", () => () => addColumnAfter); d5(Ne3, { displayName: "Command<addColAfterCommand>", group: "Table" }); var Te3 = re2("AddRowBefore", (e2) => () => (t2, n4) => { if (!isInTable(t2)) return false; if (n4) { const o2 = selectedRect(t2); n4(ce3(e2, t2.tr, o2, o2.top)); } return true; }); d5(Te3, { displayName: "Command<addRowBeforeCommand>", group: "Table" }); var Se2 = re2("AddRowAfter", (e2) => () => (t2, n4) => { if (!isInTable(t2)) return false; if (n4) { const o2 = selectedRect(t2); n4(ce3(e2, t2.tr, o2, o2.bottom)); } return true; }); d5(Se2, { displayName: "Command<addRowAfterCommand>", group: "Table" }); var Re2 = re2("SetAlign", () => (e2 = "left") => setCellAttr("alignment", e2)); d5(Re2, { displayName: "Command<setAlignCommand>", group: "Table" }); var j5 = ge2("tableKeymap", { NextCell: { shortcuts: ["Mod-]", "Tab"], command: (e2) => { const t2 = e2.get(je); return () => t2.call(G4.key); } }, PrevCell: { shortcuts: ["Mod-[", "Shift-Tab"], command: (e2) => { const t2 = e2.get(je); return () => t2.call(W5.key); } }, ExitTable: { shortcuts: ["Mod-Enter"], command: (e2) => { const t2 = e2.get(je); return () => t2.call(z4.key); } } }); d5(j5.ctx, { displayName: "KeymapCtx<table>", group: "Table" }); d5(j5.shortcuts, { displayName: "Keymap<table>", group: "Table" }); var E4 = "footnote_definition"; var Y2 = "footnoteDefinition"; var Z4 = fe2("footnote_definition", () => ({ group: "block", content: "block+", defining: true, attrs: { label: { default: "" } }, parseDOM: [ { tag: `dl[data-type="${E4}"]`, getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { label: e2.dataset.label }; }, contentElement: "dd" } ], toDOM: (e2) => { const t2 = e2.attrs.label; return [ "dl", { // TODO: add a prosemirror plugin to sync label on change "data-label": t2, "data-type": E4 }, ["dt", t2], ["dd", 0] ]; }, parseMarkdown: { match: ({ type: e2 }) => e2 === Y2, runner: (e2, t2, n4) => { e2.openNode(n4, { label: t2.label }).next(t2.children).closeNode(); } }, toMarkdown: { match: (e2) => e2.type.name === E4, runner: (e2, t2) => { e2.openNode(Y2, void 0, { label: t2.attrs.label, identifier: t2.attrs.label }).next(t2.content).closeNode(); } } })); d5(Z4.ctx, { displayName: "NodeSchemaCtx<footnodeDef>", group: "footnote" }); d5(Z4.node, { displayName: "NodeSchema<footnodeDef>", group: "footnote" }); var D3 = "footnote_reference"; var V3 = fe2("footnote_reference", () => ({ group: "inline", inline: true, atom: true, attrs: { label: { default: "" } }, parseDOM: [ { tag: `sup[data-type="${D3}"]`, getAttrs: (e2) => { if (!(e2 instanceof HTMLElement)) throw S(e2); return { label: e2.dataset.label }; } } ], toDOM: (e2) => { const t2 = e2.attrs.label; return [ "sup", { // TODO: add a prosemirror plugin to sync label on change "data-label": t2, "data-type": D3 }, t2 ]; }, parseMarkdown: { match: ({ type: e2 }) => e2 === "footnoteReference", runner: (e2, t2, n4) => { e2.addNode(n4, { label: t2.label }); } }, toMarkdown: { match: (e2) => e2.type.name === D3, runner: (e2, t2) => { e2.addNode("footnoteReference", void 0, void 0, { label: t2.attrs.label, identifier: t2.attrs.label }); } } })); d5(V3.ctx, { displayName: "NodeSchemaCtx<footnodeRef>", group: "footnote" }); d5(V3.node, { displayName: "NodeSchema<footnodeRef>", group: "footnote" }); var Me3 = M5.extendSchema((e2) => (t2) => { const n4 = e2(t2); return __spreadProps(__spreadValues({}, n4), { attrs: __spreadProps(__spreadValues({}, n4.attrs), { checked: { default: null } }), parseDOM: [ { tag: 'li[data-item-type="task"]', getAttrs: (o2) => { if (!(o2 instanceof HTMLElement)) throw S(o2); return { label: o2.dataset.label, listType: o2.dataset["list-type"], spread: o2.dataset.spread, checked: o2.dataset.checked ? o2.dataset.checked === "true" : null }; } }, ...(n4 == null ? void 0 : n4.parseDOM) || [] ], toDOM: (o2) => n4.toDOM && o2.attrs.checked == null ? n4.toDOM(o2) : [ "li", { "data-item-type": "task", "data-label": o2.attrs.label, "data-list-type": o2.attrs.listType, "data-spread": o2.attrs.spread, "data-checked": o2.attrs.checked }, 0 ], parseMarkdown: { match: ({ type: o2 }) => o2 === "listItem", runner: (o2, l5, r3) => { if (l5.checked == null) { n4.parseMarkdown.runner(o2, l5, r3); return; } const s2 = l5.label != null ? `${l5.label}.` : "\u2022", c6 = l5.checked != null ? !!l5.checked : null, i2 = l5.label != null ? "ordered" : "bullet", m3 = l5.spread != null ? `${l5.spread}` : "true"; o2.openNode(r3, { label: s2, listType: i2, spread: m3, checked: c6 }), o2.next(l5.children), o2.closeNode(); } }, toMarkdown: { match: (o2) => o2.type.name === "list_item", runner: (o2, l5) => { if (l5.attrs.checked == null) { n4.toMarkdown.runner(o2, l5); return; } const r3 = l5.attrs.label, s2 = l5.attrs.listType, c6 = l5.attrs.spread === "true", i2 = l5.attrs.checked; o2.openNode("listItem", void 0, { label: r3, listType: s2, spread: c6, checked: i2 }), o2.next(l5.content), o2.closeNode(); } } }); }); d5(Me3, { displayName: "NodeSchema<listItem>", group: "ListItem" }); var Ae3 = oe2(() => new InputRule(new RegExp("^\\[(?<checked>\\s|x)\\]\\s$"), (e2, t2, n4, o2) => { var a2; const l5 = e2.doc.resolve(n4); let r3 = 0, s2 = l5.node(r3); for (; s2 && s2.type.name !== "list_item"; ) r3--, s2 = l5.node(r3); if (!s2 || s2.attrs.checked != null) return null; const c6 = ((a2 = t2.groups) == null ? void 0 : a2.checked) === "x", i2 = l5.before(r3), m3 = e2.tr; return m3.deleteRange(n4, o2).setNodeMarkup(i2, void 0, __spreadProps(__spreadValues({}, s2.attrs), { checked: c6 })), m3; })); d5(Ae3, { displayName: "InputRule<wrapInTaskListInputRule>", group: "ListItem" }); var rt = [ L5, j5 ].flat(); var at3 = [ pe3, Ae3 ]; var st2 = [ ae3 ]; var xe2 = ue2((e2) => { const t2 = new PluginKey("MILKDOWN_AUTO_INSERT_ZERO_SPACE"), n4 = (l5) => l5.type === w5.type(e2), o2 = (l5) => n4(l5) && l5.nodeSize === 2; return new Plugin({ key: t2, props: { handleDOMEvents: { compositionstart(l5) { const { state: r3, dispatch: s2 } = l5, { tr: c6, selection: i2 } = r3, { $from: m3 } = i2; return browser.safari && isInTable(r3) && i2.empty && o2(m3.parent) && s2(c6.insertText("\u2060", m3.start())), false; }, compositionend(l5) { const { state: r3, dispatch: s2 } = l5, { tr: c6, selection: i2 } = r3, { $from: m3 } = i2; return browser.safari && isInTable(r3) && i2.empty && n4(m3.parent) && m3.parent.textContent.startsWith("\u2060") && s2(c6.delete(m3.start(), m3.start() + 1)), false; } } } }); }); d5(xe2, { displayName: "Prose<autoInsertZeroSpaceInTablePlugin>", group: "Prose" }); var ve3 = ue2(() => columnResizing({})); d5(ve3, { displayName: "Prose<columnResizingPlugin>", group: "Prose" }); var Ie3 = ue2(() => tableEditing()); d5(Ie3, { displayName: "Prose<tableEditingPlugin>", group: "Prose" }); var U4 = ke2("remarkGFM", () => remarkGfm); d5(U4.plugin, { displayName: "Remark<remarkGFMPlugin>", group: "Remark" }); d5(U4.options, { displayName: "RemarkConfig<remarkGFMPlugin>", group: "Remark" }); var ct3 = [ xe2, ve3, Ie3, U4 ].flat(); var it2 = [ Me3, S7, R5, I3, M6, Z4, V3, K4, T5 ].flat(); var dt3 = [ G4, W5, z4, fe4, he3, ge4, be2, Ce4, ye4, ke4, Te3, Se2, we4, Ne3, Re2, H5 ]; var wt = [it2, at3, st2, rt, ct3, dt3].flat(); // node_modules/@milkdown/theme-nord/lib/index.es.js function c5(e2) { e2.update(ae, (r3) => { const o2 = r3.attributes; return __spreadProps(__spreadValues({}, r3), { attributes: (n4) => { const t2 = typeof o2 == "function" ? o2(n4) : o2; return __spreadProps(__spreadValues({}, t2), { class: clsx_default("prose dark:prose-invert outline-none", (t2 == null ? void 0 : t2.class) || "", "milkdown-theme-nord") }); } }); }); } // node_modules/@milkdown/plugin-listener/lib/index.es.js var import_lodash = __toESM(require_lodash(), 1); var l4 = class { constructor() { this.beforeMountedListeners = [], this.mountedListeners = [], this.updatedListeners = [], this.markdownUpdatedListeners = [], this.blurListeners = [], this.focusListeners = [], this.destroyListeners = [], this.beforeMount = (s2) => (this.beforeMountedListeners.push(s2), this), this.mounted = (s2) => (this.mountedListeners.push(s2), this), this.updated = (s2) => (this.updatedListeners.push(s2), this); } /// A getter to get all [subscribers](#interface-subscribers). You should not use this method directly. get listeners() { return { beforeMount: this.beforeMountedListeners, mounted: this.mountedListeners, updated: this.updatedListeners, markdownUpdated: this.markdownUpdatedListeners, blur: this.blurListeners, focus: this.focusListeners, destroy: this.destroyListeners }; } /// Subscribe to the markdownUpdated event. /// This event will be triggered after the editor state is updated and **the document is changed**. /// The second parameter is the current markdown and the third parameter is the previous markdown. markdownUpdated(s2) { return this.markdownUpdatedListeners.push(s2), this; } /// Subscribe to the blur event. /// This event will be triggered when the editor is blurred. blur(s2) { return this.blurListeners.push(s2), this; } /// Subscribe to the focus event. /// This event will be triggered when the editor is focused. focus(s2) { return this.focusListeners.push(s2), this; } /// Subscribe to the destroy event. /// This event will be triggered before the editor is destroyed. destroy(s2) { return this.destroyListeners.push(s2), this; } }; var h4 = H(new l4(), "listener"); var M7 = new PluginKey("MILKDOWN_LISTENER"); var U5 = (t2) => (t2.inject(h4, new l4()), async () => { await t2.wait(M4); const s2 = t2.get(h4), { listeners: r3 } = s2; r3.beforeMount.forEach((e2) => e2(t2)), await t2.wait($); const u4 = t2.get(te); let n4 = null, d6 = null; const p4 = new Plugin({ key: M7, view: () => ({ destroy: () => { r3.destroy.forEach((e2) => e2(t2)); } }), props: { handleDOMEvents: { focus: () => (r3.focus.forEach((e2) => e2(t2)), false), blur: () => (r3.blur.forEach((e2) => e2(t2)), false) } }, state: { init: (e2, a2) => { n4 = a2.doc, d6 = u4(a2.doc); }, apply: (e2) => !e2.docChanged || e2.getMeta("addToHistory") === false ? void 0 : (0, import_lodash.default)(() => { const { doc: i2 } = e2; if (r3.updated.length > 0 && n4 && !n4.eq(i2) && r3.updated.forEach((o2) => { o2(t2, i2, n4); }), r3.markdownUpdated.length > 0 && n4 && !n4.eq(i2)) { const o2 = u4(i2); r3.markdownUpdated.forEach((f3) => { f3(t2, o2, d6); }), d6 = o2; } n4 = i2; }, 200)() } }); t2.update(N2, (e2) => e2.concat(p4)), await t2.wait(ne), r3.mounted.forEach((e2) => e2(t2)); }); U5.meta = { package: "@milkdown/plugin-listener", displayName: "Listener" }; // frontend/main.ts function configureListItem(ctx) { ctx.set(listItemBlockConfig.key, { renderLabel: (label, listType, checked) => { if (checked == null) { if (listType === "bullet") { return html2`<span class='label'>•</span>`; } return html2`<span class='label'>${label}</span>`; } else { return html2`<input class='label' type="checkbox" checked=${checked} />`; } } }); } function createEditor(rootId, fieldId, content3) { Oe.make().config((ctx) => { ctx.set(ce, rootId); ctx.set(re, content3); const listener = ctx.get(h4); listener.markdownUpdated((ctx2, markdown, prevMarkdown) => { if (markdown !== prevMarkdown) { console.log(markdown); console.log(fieldId); document.getElementById(fieldId).value = markdown; console.log("updated"); } }); }).config(configureListItem).use(cr).use(wt).use(c5).use(U5).use(listItemBlockComponent).create(); } window.createEditor = createEditor; })();