'use strict'; var require$$0$6 = require('fs'); var require$$0$8 = require('path'); var require$$0$7 = require('os'); var require$$1$3 = require('tty'); var require$$0$9 = require('assert'); var require$$0$a = require('util'); var require$$0$b = require('stream'); var require$$0$c = require('events'); function _interopDefaultLegacy (e) { return e && typeof e === 'object' && 'default' in e ? e : { 'default': e }; } var require$$0__default = /*#__PURE__*/_interopDefaultLegacy(require$$0$6); var require$$0__default$2 = /*#__PURE__*/_interopDefaultLegacy(require$$0$8); var require$$0__default$1 = /*#__PURE__*/_interopDefaultLegacy(require$$0$7); var require$$1__default = /*#__PURE__*/_interopDefaultLegacy(require$$1$3); var require$$0__default$3 = /*#__PURE__*/_interopDefaultLegacy(require$$0$9); var require$$0__default$4 = /*#__PURE__*/_interopDefaultLegacy(require$$0$a); var require$$0__default$5 = /*#__PURE__*/_interopDefaultLegacy(require$$0$b); var require$$0__default$6 = /*#__PURE__*/_interopDefaultLegacy(require$$0$c); function getDefaultExportFromNamespaceIfPresent (n) { return n && Object.prototype.hasOwnProperty.call(n, 'default') ? n['default'] : n; } var require$$0$5 = require("./package.json"); var lib$6 = {}; var base$1 = {}; /*istanbul ignore start*/ (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); exports["default"] = Diff; /*istanbul ignore end*/ function Diff() {} Diff.prototype = { /*istanbul ignore start*/ /*istanbul ignore end*/ diff: function diff(oldString, newString) { /*istanbul ignore start*/ var /*istanbul ignore end*/ options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; var callback = options.callback; if (typeof options === 'function') { callback = options; options = {}; } this.options = options; var self = this; function done(value) { if (callback) { setTimeout(function () { callback(undefined, value); }, 0); return true; } else { return value; } } // Allow subclasses to massage the input prior to running oldString = this.castInput(oldString); newString = this.castInput(newString); oldString = this.removeEmpty(this.tokenize(oldString)); newString = this.removeEmpty(this.tokenize(newString)); var newLen = newString.length, oldLen = oldString.length; var editLength = 1; var maxEditLength = newLen + oldLen; var bestPath = [{ newPos: -1, components: [] }]; // Seed editLength = 0, i.e. the content starts with the same values var oldPos = this.extractCommon(bestPath[0], newString, oldString, 0); if (bestPath[0].newPos + 1 >= newLen && oldPos + 1 >= oldLen) { // Identity per the equality and tokenizer return done([{ value: this.join(newString), count: newString.length }]); } // Main worker method. checks all permutations of a given edit length for acceptance. function execEditLength() { for (var diagonalPath = -1 * editLength; diagonalPath <= editLength; diagonalPath += 2) { var basePath = /*istanbul ignore start*/ void 0 /*istanbul ignore end*/ ; var addPath = bestPath[diagonalPath - 1], removePath = bestPath[diagonalPath + 1], _oldPos = (removePath ? removePath.newPos : 0) - diagonalPath; if (addPath) { // No one else is going to attempt to use this value, clear it bestPath[diagonalPath - 1] = undefined; } var canAdd = addPath && addPath.newPos + 1 < newLen, canRemove = removePath && 0 <= _oldPos && _oldPos < oldLen; if (!canAdd && !canRemove) { // If this path is a terminal then prune bestPath[diagonalPath] = undefined; continue; } // Select the diagonal that we want to branch from. We select the prior // path whose position in the new string is the farthest from the origin // and does not pass the bounds of the diff graph if (!canAdd || canRemove && addPath.newPos < removePath.newPos) { basePath = clonePath(removePath); self.pushComponent(basePath.components, undefined, true); } else { basePath = addPath; // No need to clone, we've pulled it from the list basePath.newPos++; self.pushComponent(basePath.components, true, undefined); } _oldPos = self.extractCommon(basePath, newString, oldString, diagonalPath); // If we have hit the end of both strings, then we are done if (basePath.newPos + 1 >= newLen && _oldPos + 1 >= oldLen) { return done(buildValues(self, basePath.components, newString, oldString, self.useLongestToken)); } else { // Otherwise track this path as a potential candidate and continue. bestPath[diagonalPath] = basePath; } } editLength++; } // Performs the length of edit iteration. Is a bit fugly as this has to support the // sync and async mode which is never fun. Loops over execEditLength until a value // is produced. if (callback) { (function exec() { setTimeout(function () { // This should not happen, but we want to be safe. /* istanbul ignore next */ if (editLength > maxEditLength) { return callback(); } if (!execEditLength()) { exec(); } }, 0); })(); } else { while (editLength <= maxEditLength) { var ret = execEditLength(); if (ret) { return ret; } } } }, /*istanbul ignore start*/ /*istanbul ignore end*/ pushComponent: function pushComponent(components, added, removed) { var last = components[components.length - 1]; if (last && last.added === added && last.removed === removed) { // We need to clone here as the component clone operation is just // as shallow array clone components[components.length - 1] = { count: last.count + 1, added: added, removed: removed }; } else { components.push({ count: 1, added: added, removed: removed }); } }, /*istanbul ignore start*/ /*istanbul ignore end*/ extractCommon: function extractCommon(basePath, newString, oldString, diagonalPath) { var newLen = newString.length, oldLen = oldString.length, newPos = basePath.newPos, oldPos = newPos - diagonalPath, commonCount = 0; while (newPos + 1 < newLen && oldPos + 1 < oldLen && this.equals(newString[newPos + 1], oldString[oldPos + 1])) { newPos++; oldPos++; commonCount++; } if (commonCount) { basePath.components.push({ count: commonCount }); } basePath.newPos = newPos; return oldPos; }, /*istanbul ignore start*/ /*istanbul ignore end*/ equals: function equals(left, right) { if (this.options.comparator) { return this.options.comparator(left, right); } else { return left === right || this.options.ignoreCase && left.toLowerCase() === right.toLowerCase(); } }, /*istanbul ignore start*/ /*istanbul ignore end*/ removeEmpty: function removeEmpty(array) { var ret = []; for (var i = 0; i < array.length; i++) { if (array[i]) { ret.push(array[i]); } } return ret; }, /*istanbul ignore start*/ /*istanbul ignore end*/ castInput: function castInput(value) { return value; }, /*istanbul ignore start*/ /*istanbul ignore end*/ tokenize: function tokenize(value) { return value.split(''); }, /*istanbul ignore start*/ /*istanbul ignore end*/ join: function join(chars) { return chars.join(''); } }; function buildValues(diff, components, newString, oldString, useLongestToken) { var componentPos = 0, componentLen = components.length, newPos = 0, oldPos = 0; for (; componentPos < componentLen; componentPos++) { var component = components[componentPos]; if (!component.removed) { if (!component.added && useLongestToken) { var value = newString.slice(newPos, newPos + component.count); value = value.map(function (value, i) { var oldValue = oldString[oldPos + i]; return oldValue.length > value.length ? oldValue : value; }); component.value = diff.join(value); } else { component.value = diff.join(newString.slice(newPos, newPos + component.count)); } newPos += component.count; // Common case if (!component.added) { oldPos += component.count; } } else { component.value = diff.join(oldString.slice(oldPos, oldPos + component.count)); oldPos += component.count; // Reverse add and remove so removes are output first to match common convention // The diffing algorithm is tied to add then remove output and this is the simplest // route to get the desired output with minimal overhead. if (componentPos && components[componentPos - 1].added) { var tmp = components[componentPos - 1]; components[componentPos - 1] = components[componentPos]; components[componentPos] = tmp; } } } // Special case handle for when one terminal is ignored (i.e. whitespace). // For this case we merge the terminal into the prior string and drop the change. // This is only available for string mode. var lastComponent = components[componentLen - 1]; if (componentLen > 1 && typeof lastComponent.value === 'string' && (lastComponent.added || lastComponent.removed) && diff.equals('', lastComponent.value)) { components[componentLen - 2].value += lastComponent.value; components.pop(); } return components; } function clonePath(path) { return { newPos: path.newPos, components: path.components.slice(0) }; } })(base$1); var character = {}; /*istanbul ignore start*/ Object.defineProperty(character, "__esModule", { value: true }); character.diffChars = diffChars; character.characterDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base$6 = _interopRequireDefault$8(base$1) /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$8(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ var characterDiff = new /*istanbul ignore start*/ _base$6 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); /*istanbul ignore start*/ character.characterDiff = characterDiff; /*istanbul ignore end*/ function diffChars(oldStr, newStr, options) { return characterDiff.diff(oldStr, newStr, options); } var word = {}; var params = {}; /*istanbul ignore start*/ Object.defineProperty(params, "__esModule", { value: true }); params.generateOptions = generateOptions; /*istanbul ignore end*/ function generateOptions(options, defaults) { if (typeof options === 'function') { defaults.callback = options; } else if (options) { for (var name in options) { /* istanbul ignore else */ if (options.hasOwnProperty(name)) { defaults[name] = options[name]; } } } return defaults; } /*istanbul ignore start*/ Object.defineProperty(word, "__esModule", { value: true }); word.diffWords = diffWords; word.diffWordsWithSpace = diffWordsWithSpace; word.wordDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base$5 = _interopRequireDefault$7(base$1) /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _params$1 = params /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$7(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ // Based on https://en.wikipedia.org/wiki/Latin_script_in_Unicode // // Ranges and exceptions: // Latin-1 Supplement, 0080–00FF // - U+00D7 × Multiplication sign // - U+00F7 ÷ Division sign // Latin Extended-A, 0100–017F // Latin Extended-B, 0180–024F // IPA Extensions, 0250–02AF // Spacing Modifier Letters, 02B0–02FF // - U+02C7 ˇ ˇ Caron // - U+02D8 ˘ ˘ Breve // - U+02D9 ˙ ˙ Dot Above // - U+02DA ˚ ˚ Ring Above // - U+02DB ˛ ˛ Ogonek // - U+02DC ˜ ˜ Small Tilde // - U+02DD ˝ ˝ Double Acute Accent // Latin Extended Additional, 1E00–1EFF var extendedWordChars = /^[A-Za-z\xC0-\u02C6\u02C8-\u02D7\u02DE-\u02FF\u1E00-\u1EFF]+$/; var reWhitespace = /\S/; var wordDiff = new /*istanbul ignore start*/ _base$5 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); /*istanbul ignore start*/ word.wordDiff = wordDiff; /*istanbul ignore end*/ wordDiff.equals = function (left, right) { if (this.options.ignoreCase) { left = left.toLowerCase(); right = right.toLowerCase(); } return left === right || this.options.ignoreWhitespace && !reWhitespace.test(left) && !reWhitespace.test(right); }; wordDiff.tokenize = function (value) { // All whitespace symbols except newline group into one token, each newline - in separate token var tokens = value.split(/([^\S\r\n]+|[()[\]{}'"\r\n]|\b)/); // Join the boundary splits that we do not consider to be boundaries. This is primarily the extended Latin character set. for (var i = 0; i < tokens.length - 1; i++) { // If we have an empty string in the next field and we have only word chars before and after, merge if (!tokens[i + 1] && tokens[i + 2] && extendedWordChars.test(tokens[i]) && extendedWordChars.test(tokens[i + 2])) { tokens[i] += tokens[i + 2]; tokens.splice(i + 1, 2); i--; } } return tokens; }; function diffWords(oldStr, newStr, options) { options = /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _params$1 /*istanbul ignore end*/ . /*istanbul ignore start*/ generateOptions /*istanbul ignore end*/ )(options, { ignoreWhitespace: true }); return wordDiff.diff(oldStr, newStr, options); } function diffWordsWithSpace(oldStr, newStr, options) { return wordDiff.diff(oldStr, newStr, options); } var line$B = {}; /*istanbul ignore start*/ Object.defineProperty(line$B, "__esModule", { value: true }); line$B.diffLines = diffLines; line$B.diffTrimmedLines = diffTrimmedLines; line$B.lineDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base$4 = _interopRequireDefault$6(base$1) /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _params = params /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$6(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ var lineDiff = new /*istanbul ignore start*/ _base$4 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); /*istanbul ignore start*/ line$B.lineDiff = lineDiff; /*istanbul ignore end*/ lineDiff.tokenize = function (value) { var retLines = [], linesAndNewlines = value.split(/(\n|\r\n)/); // Ignore the final empty token that occurs if the string ends with a new line if (!linesAndNewlines[linesAndNewlines.length - 1]) { linesAndNewlines.pop(); } // Merge the content and line separators into single tokens for (var i = 0; i < linesAndNewlines.length; i++) { var line = linesAndNewlines[i]; if (i % 2 && !this.options.newlineIsToken) { retLines[retLines.length - 1] += line; } else { if (this.options.ignoreWhitespace) { line = line.trim(); } retLines.push(line); } } return retLines; }; function diffLines(oldStr, newStr, callback) { return lineDiff.diff(oldStr, newStr, callback); } function diffTrimmedLines(oldStr, newStr, callback) { var options = /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _params /*istanbul ignore end*/ . /*istanbul ignore start*/ generateOptions /*istanbul ignore end*/ )(callback, { ignoreWhitespace: true }); return lineDiff.diff(oldStr, newStr, options); } var sentence = {}; /*istanbul ignore start*/ Object.defineProperty(sentence, "__esModule", { value: true }); sentence.diffSentences = diffSentences; sentence.sentenceDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base$3 = _interopRequireDefault$5(base$1) /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$5(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ var sentenceDiff = new /*istanbul ignore start*/ _base$3 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); /*istanbul ignore start*/ sentence.sentenceDiff = sentenceDiff; /*istanbul ignore end*/ sentenceDiff.tokenize = function (value) { return value.split(/(\S.+?[.!?])(?=\s+|$)/); }; function diffSentences(oldStr, newStr, callback) { return sentenceDiff.diff(oldStr, newStr, callback); } var css$1 = {}; /*istanbul ignore start*/ Object.defineProperty(css$1, "__esModule", { value: true }); css$1.diffCss = diffCss; css$1.cssDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base$2 = _interopRequireDefault$4(base$1) /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$4(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ var cssDiff = new /*istanbul ignore start*/ _base$2 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); /*istanbul ignore start*/ css$1.cssDiff = cssDiff; /*istanbul ignore end*/ cssDiff.tokenize = function (value) { return value.split(/([{}:;,]|\s+)/); }; function diffCss(oldStr, newStr, callback) { return cssDiff.diff(oldStr, newStr, callback); } var check = function (it) { return it && it.Math == Math && it; }; // https://github.com/zloirock/core-js/issues/86#issuecomment-115759028 var global$s = // eslint-disable-next-line es/no-global-this -- safe check(typeof globalThis == 'object' && globalThis) || check(typeof window == 'object' && window) || // eslint-disable-next-line no-restricted-globals -- safe check(typeof self == 'object' && self) || check(typeof global$s == 'object' && global$s) || // eslint-disable-next-line no-new-func -- fallback (function () { return this; })() || Function('return this')(); var objectGetOwnPropertyDescriptor = {}; var fails$8 = function (exec) { try { return !!exec(); } catch (error) { return true; } }; var fails$7 = fails$8; // Detect IE8's incomplete defineProperty implementation var descriptors$1 = !fails$7(function () { // eslint-disable-next-line es/no-object-defineproperty -- required for testing return Object.defineProperty({}, 1, { get: function () { return 7; } })[1] != 7; }); var call$7 = Function.prototype.call; var functionCall = call$7.bind ? call$7.bind(call$7) : function () { return call$7.apply(call$7, arguments); }; var objectPropertyIsEnumerable = {}; var $propertyIsEnumerable = {}.propertyIsEnumerable; // eslint-disable-next-line es/no-object-getownpropertydescriptor -- safe var getOwnPropertyDescriptor$1 = Object.getOwnPropertyDescriptor; // Nashorn ~ JDK8 bug var NASHORN_BUG = getOwnPropertyDescriptor$1 && !$propertyIsEnumerable.call({ 1: 2 }, 1); // `Object.prototype.propertyIsEnumerable` method implementation // https://tc39.es/ecma262/#sec-object.prototype.propertyisenumerable objectPropertyIsEnumerable.f = NASHORN_BUG ? function propertyIsEnumerable(V) { var descriptor = getOwnPropertyDescriptor$1(this, V); return !!descriptor && descriptor.enumerable; } : $propertyIsEnumerable; var createPropertyDescriptor$3 = function (bitmap, value) { return { enumerable: !(bitmap & 1), configurable: !(bitmap & 2), writable: !(bitmap & 4), value: value }; }; var FunctionPrototype$1 = Function.prototype; var bind$4 = FunctionPrototype$1.bind; var call$6 = FunctionPrototype$1.call; var callBind = bind$4 && bind$4.bind(call$6); var functionUncurryThis = bind$4 ? function (fn) { return fn && callBind(call$6, fn); } : function (fn) { return fn && function () { return call$6.apply(fn, arguments); }; }; var uncurryThis$c = functionUncurryThis; var toString$5 = uncurryThis$c({}.toString); var stringSlice = uncurryThis$c(''.slice); var classofRaw$1 = function (it) { return stringSlice(toString$5(it), 8, -1); }; var global$r = global$s; var uncurryThis$b = functionUncurryThis; var fails$6 = fails$8; var classof$5 = classofRaw$1; var Object$4 = global$r.Object; var split = uncurryThis$b(''.split); // fallback for non-array-like ES3 and non-enumerable old V8 strings var indexedObject = fails$6(function () { // throws an error in rhino, see https://github.com/mozilla/rhino/issues/346 // eslint-disable-next-line no-prototype-builtins -- safe return !Object$4('z').propertyIsEnumerable(0); }) ? function (it) { return classof$5(it) == 'String' ? split(it, '') : Object$4(it); } : Object$4; var global$q = global$s; var TypeError$a = global$q.TypeError; // `RequireObjectCoercible` abstract operation // https://tc39.es/ecma262/#sec-requireobjectcoercible var requireObjectCoercible$2 = function (it) { if (it == undefined) throw TypeError$a("Can't call method on " + it); return it; }; // toObject with fallback for non-array-like ES3 strings var IndexedObject = indexedObject; var requireObjectCoercible$1 = requireObjectCoercible$2; var toIndexedObject$4 = function (it) { return IndexedObject(requireObjectCoercible$1(it)); }; // `IsCallable` abstract operation // https://tc39.es/ecma262/#sec-iscallable var isCallable$b = function (argument) { return typeof argument == 'function'; }; var isCallable$a = isCallable$b; var isObject$c = function (it) { return typeof it == 'object' ? it !== null : isCallable$a(it); }; var global$p = global$s; var isCallable$9 = isCallable$b; var aFunction = function (argument) { return isCallable$9(argument) ? argument : undefined; }; var getBuiltIn$5 = function (namespace, method) { return arguments.length < 2 ? aFunction(global$p[namespace]) : global$p[namespace] && global$p[namespace][method]; }; var uncurryThis$a = functionUncurryThis; var objectIsPrototypeOf = uncurryThis$a({}.isPrototypeOf); var getBuiltIn$4 = getBuiltIn$5; var engineUserAgent = getBuiltIn$4('navigator', 'userAgent') || ''; var global$o = global$s; var userAgent$2 = engineUserAgent; var process$3 = global$o.process; var Deno = global$o.Deno; var versions = process$3 && process$3.versions || Deno && Deno.version; var v8$2 = versions && versions.v8; var match$1, version$2; if (v8$2) { match$1 = v8$2.split('.'); // in old Chrome, versions of V8 isn't V8 = Chrome / 10 // but their correct versions are not interesting for us version$2 = match$1[0] > 0 && match$1[0] < 4 ? 1 : +(match$1[0] + match$1[1]); } // BrowserFS NodeJS `process` polyfill incorrectly set `.v8` to `0.0` // so check `userAgent` even if `.v8` exists, but 0 if (!version$2 && userAgent$2) { match$1 = userAgent$2.match(/Edge\/(\d+)/); if (!match$1 || match$1[1] >= 74) { match$1 = userAgent$2.match(/Chrome\/(\d+)/); if (match$1) version$2 = +match$1[1]; } } var engineV8Version = version$2; /* eslint-disable es/no-symbol -- required for testing */ var V8_VERSION = engineV8Version; var fails$5 = fails$8; // eslint-disable-next-line es/no-object-getownpropertysymbols -- required for testing var nativeSymbol = !!Object.getOwnPropertySymbols && !fails$5(function () { var symbol = Symbol(); // Chrome 38 Symbol has incorrect toString conversion // `get-own-property-symbols` polyfill symbols converted to object are not Symbol instances return !String(symbol) || !(Object(symbol) instanceof Symbol) || // Chrome 38-40 symbols are not inherited from DOM collections prototypes to instances !Symbol.sham && V8_VERSION && V8_VERSION < 41; }); /* eslint-disable es/no-symbol -- required for testing */ var NATIVE_SYMBOL$1 = nativeSymbol; var useSymbolAsUid = NATIVE_SYMBOL$1 && !Symbol.sham && typeof Symbol.iterator == 'symbol'; var global$n = global$s; var getBuiltIn$3 = getBuiltIn$5; var isCallable$8 = isCallable$b; var isPrototypeOf$1 = objectIsPrototypeOf; var USE_SYMBOL_AS_UID$1 = useSymbolAsUid; var Object$3 = global$n.Object; var isSymbol$6 = USE_SYMBOL_AS_UID$1 ? function (it) { return typeof it == 'symbol'; } : function (it) { var $Symbol = getBuiltIn$3('Symbol'); return isCallable$8($Symbol) && isPrototypeOf$1($Symbol.prototype, Object$3(it)); }; var global$m = global$s; var String$3 = global$m.String; var tryToString$3 = function (argument) { try { return String$3(argument); } catch (error) { return 'Object'; } }; var global$l = global$s; var isCallable$7 = isCallable$b; var tryToString$2 = tryToString$3; var TypeError$9 = global$l.TypeError; // `Assert: IsCallable(argument) is true` var aCallable$5 = function (argument) { if (isCallable$7(argument)) return argument; throw TypeError$9(tryToString$2(argument) + ' is not a function'); }; var aCallable$4 = aCallable$5; // `GetMethod` abstract operation // https://tc39.es/ecma262/#sec-getmethod var getMethod$3 = function (V, P) { var func = V[P]; return func == null ? undefined : aCallable$4(func); }; var global$k = global$s; var call$5 = functionCall; var isCallable$6 = isCallable$b; var isObject$b = isObject$c; var TypeError$8 = global$k.TypeError; // `OrdinaryToPrimitive` abstract operation // https://tc39.es/ecma262/#sec-ordinarytoprimitive var ordinaryToPrimitive$1 = function (input, pref) { var fn, val; if (pref === 'string' && isCallable$6(fn = input.toString) && !isObject$b(val = call$5(fn, input))) return val; if (isCallable$6(fn = input.valueOf) && !isObject$b(val = call$5(fn, input))) return val; if (pref !== 'string' && isCallable$6(fn = input.toString) && !isObject$b(val = call$5(fn, input))) return val; throw TypeError$8("Can't convert object to primitive value"); }; var shared$3 = {exports: {}}; var global$j = global$s; // eslint-disable-next-line es/no-object-defineproperty -- safe var defineProperty$1 = Object.defineProperty; var setGlobal$3 = function (key, value) { try { defineProperty$1(global$j, key, { value: value, configurable: true, writable: true }); } catch (error) { global$j[key] = value; } return value; }; var global$i = global$s; var setGlobal$2 = setGlobal$3; var SHARED = '__core-js_shared__'; var store$3 = global$i[SHARED] || setGlobal$2(SHARED, {}); var sharedStore = store$3; var store$2 = sharedStore; (shared$3.exports = function (key, value) { return store$2[key] || (store$2[key] = value !== undefined ? value : {}); })('versions', []).push({ version: '3.19.1', mode: 'global', copyright: '© 2021 Denis Pushkarev (zloirock.ru)' }); var global$h = global$s; var requireObjectCoercible = requireObjectCoercible$2; var Object$2 = global$h.Object; // `ToObject` abstract operation // https://tc39.es/ecma262/#sec-toobject var toObject$4 = function (argument) { return Object$2(requireObjectCoercible(argument)); }; var uncurryThis$9 = functionUncurryThis; var toObject$3 = toObject$4; var hasOwnProperty$b = uncurryThis$9({}.hasOwnProperty); // `HasOwnProperty` abstract operation // https://tc39.es/ecma262/#sec-hasownproperty var hasOwnProperty_1 = Object.hasOwn || function hasOwn(it, key) { return hasOwnProperty$b(toObject$3(it), key); }; var uncurryThis$8 = functionUncurryThis; var id = 0; var postfix = Math.random(); var toString$4 = uncurryThis$8(1.0.toString); var uid$3 = function (key) { return 'Symbol(' + (key === undefined ? '' : key) + ')_' + toString$4(++id + postfix, 36); }; var global$g = global$s; var shared$2 = shared$3.exports; var hasOwn$6 = hasOwnProperty_1; var uid$2 = uid$3; var NATIVE_SYMBOL = nativeSymbol; var USE_SYMBOL_AS_UID = useSymbolAsUid; var WellKnownSymbolsStore = shared$2('wks'); var Symbol$6 = global$g.Symbol; var symbolFor = Symbol$6 && Symbol$6['for']; var createWellKnownSymbol = USE_SYMBOL_AS_UID ? Symbol$6 : Symbol$6 && Symbol$6.withoutSetter || uid$2; var wellKnownSymbol$7 = function (name) { if (!hasOwn$6(WellKnownSymbolsStore, name) || !(NATIVE_SYMBOL || typeof WellKnownSymbolsStore[name] == 'string')) { var description = 'Symbol.' + name; if (NATIVE_SYMBOL && hasOwn$6(Symbol$6, name)) { WellKnownSymbolsStore[name] = Symbol$6[name]; } else if (USE_SYMBOL_AS_UID && symbolFor) { WellKnownSymbolsStore[name] = symbolFor(description); } else { WellKnownSymbolsStore[name] = createWellKnownSymbol(description); } } return WellKnownSymbolsStore[name]; }; var global$f = global$s; var call$4 = functionCall; var isObject$a = isObject$c; var isSymbol$5 = isSymbol$6; var getMethod$2 = getMethod$3; var ordinaryToPrimitive = ordinaryToPrimitive$1; var wellKnownSymbol$6 = wellKnownSymbol$7; var TypeError$7 = global$f.TypeError; var TO_PRIMITIVE = wellKnownSymbol$6('toPrimitive'); // `ToPrimitive` abstract operation // https://tc39.es/ecma262/#sec-toprimitive var toPrimitive$1 = function (input, pref) { if (!isObject$a(input) || isSymbol$5(input)) return input; var exoticToPrim = getMethod$2(input, TO_PRIMITIVE); var result; if (exoticToPrim) { if (pref === undefined) pref = 'default'; result = call$4(exoticToPrim, input, pref); if (!isObject$a(result) || isSymbol$5(result)) return result; throw TypeError$7("Can't convert object to primitive value"); } if (pref === undefined) pref = 'number'; return ordinaryToPrimitive(input, pref); }; var toPrimitive = toPrimitive$1; var isSymbol$4 = isSymbol$6; // `ToPropertyKey` abstract operation // https://tc39.es/ecma262/#sec-topropertykey var toPropertyKey$3 = function (argument) { var key = toPrimitive(argument, 'string'); return isSymbol$4(key) ? key : key + ''; }; var global$e = global$s; var isObject$9 = isObject$c; var document$1 = global$e.document; // typeof document.createElement is 'object' in old IE var EXISTS$1 = isObject$9(document$1) && isObject$9(document$1.createElement); var documentCreateElement$1 = function (it) { return EXISTS$1 ? document$1.createElement(it) : {}; }; var DESCRIPTORS$5 = descriptors$1; var fails$4 = fails$8; var createElement = documentCreateElement$1; // Thank's IE8 for his funny defineProperty var ie8DomDefine = !DESCRIPTORS$5 && !fails$4(function () { // eslint-disable-next-line es/no-object-defineproperty -- requied for testing return Object.defineProperty(createElement('div'), 'a', { get: function () { return 7; } }).a != 7; }); var DESCRIPTORS$4 = descriptors$1; var call$3 = functionCall; var propertyIsEnumerableModule = objectPropertyIsEnumerable; var createPropertyDescriptor$2 = createPropertyDescriptor$3; var toIndexedObject$3 = toIndexedObject$4; var toPropertyKey$2 = toPropertyKey$3; var hasOwn$5 = hasOwnProperty_1; var IE8_DOM_DEFINE$1 = ie8DomDefine; // eslint-disable-next-line es/no-object-getownpropertydescriptor -- safe var $getOwnPropertyDescriptor = Object.getOwnPropertyDescriptor; // `Object.getOwnPropertyDescriptor` method // https://tc39.es/ecma262/#sec-object.getownpropertydescriptor objectGetOwnPropertyDescriptor.f = DESCRIPTORS$4 ? $getOwnPropertyDescriptor : function getOwnPropertyDescriptor(O, P) { O = toIndexedObject$3(O); P = toPropertyKey$2(P); if (IE8_DOM_DEFINE$1) try { return $getOwnPropertyDescriptor(O, P); } catch (error) { /* empty */ } if (hasOwn$5(O, P)) return createPropertyDescriptor$2(!call$3(propertyIsEnumerableModule.f, O, P), O[P]); }; var objectDefineProperty = {}; var global$d = global$s; var isObject$8 = isObject$c; var String$2 = global$d.String; var TypeError$6 = global$d.TypeError; // `Assert: Type(argument) is Object` var anObject$7 = function (argument) { if (isObject$8(argument)) return argument; throw TypeError$6(String$2(argument) + ' is not an object'); }; var global$c = global$s; var DESCRIPTORS$3 = descriptors$1; var IE8_DOM_DEFINE = ie8DomDefine; var anObject$6 = anObject$7; var toPropertyKey$1 = toPropertyKey$3; var TypeError$5 = global$c.TypeError; // eslint-disable-next-line es/no-object-defineproperty -- safe var $defineProperty = Object.defineProperty; // `Object.defineProperty` method // https://tc39.es/ecma262/#sec-object.defineproperty objectDefineProperty.f = DESCRIPTORS$3 ? $defineProperty : function defineProperty(O, P, Attributes) { anObject$6(O); P = toPropertyKey$1(P); anObject$6(Attributes); if (IE8_DOM_DEFINE) try { return $defineProperty(O, P, Attributes); } catch (error) { /* empty */ } if ('get' in Attributes || 'set' in Attributes) throw TypeError$5('Accessors not supported'); if ('value' in Attributes) O[P] = Attributes.value; return O; }; var DESCRIPTORS$2 = descriptors$1; var definePropertyModule$4 = objectDefineProperty; var createPropertyDescriptor$1 = createPropertyDescriptor$3; var createNonEnumerableProperty$3 = DESCRIPTORS$2 ? function (object, key, value) { return definePropertyModule$4.f(object, key, createPropertyDescriptor$1(1, value)); } : function (object, key, value) { object[key] = value; return object; }; var redefine$1 = {exports: {}}; var uncurryThis$7 = functionUncurryThis; var isCallable$5 = isCallable$b; var store$1 = sharedStore; var functionToString = uncurryThis$7(Function.toString); // this helper broken in `core-js@3.4.1-3.4.4`, so we can't use `shared` helper if (!isCallable$5(store$1.inspectSource)) { store$1.inspectSource = function (it) { return functionToString(it); }; } var inspectSource$3 = store$1.inspectSource; var global$b = global$s; var isCallable$4 = isCallable$b; var inspectSource$2 = inspectSource$3; var WeakMap$4 = global$b.WeakMap; var nativeWeakMap = isCallable$4(WeakMap$4) && /native code/.test(inspectSource$2(WeakMap$4)); var shared$1 = shared$3.exports; var uid$1 = uid$3; var keys$4 = shared$1('keys'); var sharedKey$2 = function (key) { return keys$4[key] || (keys$4[key] = uid$1(key)); }; var hiddenKeys$4 = {}; var NATIVE_WEAK_MAP = nativeWeakMap; var global$a = global$s; var uncurryThis$6 = functionUncurryThis; var isObject$7 = isObject$c; var createNonEnumerableProperty$2 = createNonEnumerableProperty$3; var hasOwn$4 = hasOwnProperty_1; var shared = sharedStore; var sharedKey$1 = sharedKey$2; var hiddenKeys$3 = hiddenKeys$4; var OBJECT_ALREADY_INITIALIZED = 'Object already initialized'; var TypeError$4 = global$a.TypeError; var WeakMap$3 = global$a.WeakMap; var set$1, get$3, has$1; var enforce = function (it) { return has$1(it) ? get$3(it) : set$1(it, {}); }; var getterFor = function (TYPE) { return function (it) { var state; if (!isObject$7(it) || (state = get$3(it)).type !== TYPE) { throw TypeError$4('Incompatible receiver, ' + TYPE + ' required'); } return state; }; }; if (NATIVE_WEAK_MAP || shared.state) { var store = shared.state || (shared.state = new WeakMap$3()); var wmget = uncurryThis$6(store.get); var wmhas = uncurryThis$6(store.has); var wmset = uncurryThis$6(store.set); set$1 = function (it, metadata) { if (wmhas(store, it)) throw new TypeError$4(OBJECT_ALREADY_INITIALIZED); metadata.facade = it; wmset(store, it, metadata); return metadata; }; get$3 = function (it) { return wmget(store, it) || {}; }; has$1 = function (it) { return wmhas(store, it); }; } else { var STATE = sharedKey$1('state'); hiddenKeys$3[STATE] = true; set$1 = function (it, metadata) { if (hasOwn$4(it, STATE)) throw new TypeError$4(OBJECT_ALREADY_INITIALIZED); metadata.facade = it; createNonEnumerableProperty$2(it, STATE, metadata); return metadata; }; get$3 = function (it) { return hasOwn$4(it, STATE) ? it[STATE] : {}; }; has$1 = function (it) { return hasOwn$4(it, STATE); }; } var internalState = { set: set$1, get: get$3, has: has$1, enforce: enforce, getterFor: getterFor }; var DESCRIPTORS$1 = descriptors$1; var hasOwn$3 = hasOwnProperty_1; var FunctionPrototype = Function.prototype; // eslint-disable-next-line es/no-object-getownpropertydescriptor -- safe var getDescriptor = DESCRIPTORS$1 && Object.getOwnPropertyDescriptor; var EXISTS = hasOwn$3(FunctionPrototype, 'name'); // additional protection from minified / mangled / dropped function names var PROPER = EXISTS && (function something() { /* empty */ }).name === 'something'; var CONFIGURABLE = EXISTS && (!DESCRIPTORS$1 || (DESCRIPTORS$1 && getDescriptor(FunctionPrototype, 'name').configurable)); var functionName = { EXISTS: EXISTS, PROPER: PROPER, CONFIGURABLE: CONFIGURABLE }; var global$9 = global$s; var isCallable$3 = isCallable$b; var hasOwn$2 = hasOwnProperty_1; var createNonEnumerableProperty$1 = createNonEnumerableProperty$3; var setGlobal$1 = setGlobal$3; var inspectSource$1 = inspectSource$3; var InternalStateModule = internalState; var CONFIGURABLE_FUNCTION_NAME = functionName.CONFIGURABLE; var getInternalState = InternalStateModule.get; var enforceInternalState = InternalStateModule.enforce; var TEMPLATE = String(String).split('String'); (redefine$1.exports = function (O, key, value, options) { var unsafe = options ? !!options.unsafe : false; var simple = options ? !!options.enumerable : false; var noTargetGet = options ? !!options.noTargetGet : false; var name = options && options.name !== undefined ? options.name : key; var state; if (isCallable$3(value)) { if (String(name).slice(0, 7) === 'Symbol(') { name = '[' + String(name).replace(/^Symbol\(([^)]*)\)/, '$1') + ']'; } if (!hasOwn$2(value, 'name') || (CONFIGURABLE_FUNCTION_NAME && value.name !== name)) { createNonEnumerableProperty$1(value, 'name', name); } state = enforceInternalState(value); if (!state.source) { state.source = TEMPLATE.join(typeof name == 'string' ? name : ''); } } if (O === global$9) { if (simple) O[key] = value; else setGlobal$1(key, value); return; } else if (!unsafe) { delete O[key]; } else if (!noTargetGet && O[key]) { simple = true; } if (simple) O[key] = value; else createNonEnumerableProperty$1(O, key, value); // add fake Function#toString for correct work wrapped methods / constructors with methods like LoDash isNative })(Function.prototype, 'toString', function toString() { return isCallable$3(this) && getInternalState(this).source || inspectSource$1(this); }); var objectGetOwnPropertyNames = {}; var ceil = Math.ceil; var floor$1 = Math.floor; // `ToIntegerOrInfinity` abstract operation // https://tc39.es/ecma262/#sec-tointegerorinfinity var toIntegerOrInfinity$3 = function (argument) { var number = +argument; // eslint-disable-next-line no-self-compare -- safe return number !== number || number === 0 ? 0 : (number > 0 ? floor$1 : ceil)(number); }; var toIntegerOrInfinity$2 = toIntegerOrInfinity$3; var max = Math.max; var min$1 = Math.min; // Helper for a popular repeating case of the spec: // Let integer be ? ToInteger(index). // If integer < 0, let result be max((length + integer), 0); else let result be min(integer, length). var toAbsoluteIndex$1 = function (index, length) { var integer = toIntegerOrInfinity$2(index); return integer < 0 ? max(integer + length, 0) : min$1(integer, length); }; var toIntegerOrInfinity$1 = toIntegerOrInfinity$3; var min = Math.min; // `ToLength` abstract operation // https://tc39.es/ecma262/#sec-tolength var toLength$1 = function (argument) { return argument > 0 ? min(toIntegerOrInfinity$1(argument), 0x1FFFFFFFFFFFFF) : 0; // 2 ** 53 - 1 == 9007199254740991 }; var toLength = toLength$1; // `LengthOfArrayLike` abstract operation // https://tc39.es/ecma262/#sec-lengthofarraylike var lengthOfArrayLike$6 = function (obj) { return toLength(obj.length); }; var toIndexedObject$2 = toIndexedObject$4; var toAbsoluteIndex = toAbsoluteIndex$1; var lengthOfArrayLike$5 = lengthOfArrayLike$6; // `Array.prototype.{ indexOf, includes }` methods implementation var createMethod = function (IS_INCLUDES) { return function ($this, el, fromIndex) { var O = toIndexedObject$2($this); var length = lengthOfArrayLike$5(O); var index = toAbsoluteIndex(fromIndex, length); var value; // Array#includes uses SameValueZero equality algorithm // eslint-disable-next-line no-self-compare -- NaN check if (IS_INCLUDES && el != el) while (length > index) { value = O[index++]; // eslint-disable-next-line no-self-compare -- NaN check if (value != value) return true; // Array#indexOf ignores holes, Array#includes - not } else for (;length > index; index++) { if ((IS_INCLUDES || index in O) && O[index] === el) return IS_INCLUDES || index || 0; } return !IS_INCLUDES && -1; }; }; var arrayIncludes$2 = { // `Array.prototype.includes` method // https://tc39.es/ecma262/#sec-array.prototype.includes includes: createMethod(true), // `Array.prototype.indexOf` method // https://tc39.es/ecma262/#sec-array.prototype.indexof indexOf: createMethod(false) }; var uncurryThis$5 = functionUncurryThis; var hasOwn$1 = hasOwnProperty_1; var toIndexedObject$1 = toIndexedObject$4; var indexOf = arrayIncludes$2.indexOf; var hiddenKeys$2 = hiddenKeys$4; var push$3 = uncurryThis$5([].push); var objectKeysInternal = function (object, names) { var O = toIndexedObject$1(object); var i = 0; var result = []; var key; for (key in O) !hasOwn$1(hiddenKeys$2, key) && hasOwn$1(O, key) && push$3(result, key); // Don't enum bug & hidden keys while (names.length > i) if (hasOwn$1(O, key = names[i++])) { ~indexOf(result, key) || push$3(result, key); } return result; }; // IE8- don't enum bug keys var enumBugKeys$3 = [ 'constructor', 'hasOwnProperty', 'isPrototypeOf', 'propertyIsEnumerable', 'toLocaleString', 'toString', 'valueOf' ]; var internalObjectKeys$1 = objectKeysInternal; var enumBugKeys$2 = enumBugKeys$3; var hiddenKeys$1 = enumBugKeys$2.concat('length', 'prototype'); // `Object.getOwnPropertyNames` method // https://tc39.es/ecma262/#sec-object.getownpropertynames // eslint-disable-next-line es/no-object-getownpropertynames -- safe objectGetOwnPropertyNames.f = Object.getOwnPropertyNames || function getOwnPropertyNames(O) { return internalObjectKeys$1(O, hiddenKeys$1); }; var objectGetOwnPropertySymbols = {}; // eslint-disable-next-line es/no-object-getownpropertysymbols -- safe objectGetOwnPropertySymbols.f = Object.getOwnPropertySymbols; var getBuiltIn$2 = getBuiltIn$5; var uncurryThis$4 = functionUncurryThis; var getOwnPropertyNamesModule = objectGetOwnPropertyNames; var getOwnPropertySymbolsModule = objectGetOwnPropertySymbols; var anObject$5 = anObject$7; var concat = uncurryThis$4([].concat); // all object keys, includes non-enumerable and symbols var ownKeys$1 = getBuiltIn$2('Reflect', 'ownKeys') || function ownKeys(it) { var keys = getOwnPropertyNamesModule.f(anObject$5(it)); var getOwnPropertySymbols = getOwnPropertySymbolsModule.f; return getOwnPropertySymbols ? concat(keys, getOwnPropertySymbols(it)) : keys; }; var hasOwn = hasOwnProperty_1; var ownKeys = ownKeys$1; var getOwnPropertyDescriptorModule = objectGetOwnPropertyDescriptor; var definePropertyModule$3 = objectDefineProperty; var copyConstructorProperties$1 = function (target, source) { var keys = ownKeys(source); var defineProperty = definePropertyModule$3.f; var getOwnPropertyDescriptor = getOwnPropertyDescriptorModule.f; for (var i = 0; i < keys.length; i++) { var key = keys[i]; if (!hasOwn(target, key)) defineProperty(target, key, getOwnPropertyDescriptor(source, key)); } }; var fails$3 = fails$8; var isCallable$2 = isCallable$b; var replacement = /#|\.prototype\./; var isForced$1 = function (feature, detection) { var value = data$3[normalize$3(feature)]; return value == POLYFILL ? true : value == NATIVE ? false : isCallable$2(detection) ? fails$3(detection) : !!detection; }; var normalize$3 = isForced$1.normalize = function (string) { return String(string).replace(replacement, '.').toLowerCase(); }; var data$3 = isForced$1.data = {}; var NATIVE = isForced$1.NATIVE = 'N'; var POLYFILL = isForced$1.POLYFILL = 'P'; var isForced_1 = isForced$1; var global$8 = global$s; var getOwnPropertyDescriptor = objectGetOwnPropertyDescriptor.f; var createNonEnumerableProperty = createNonEnumerableProperty$3; var redefine = redefine$1.exports; var setGlobal = setGlobal$3; var copyConstructorProperties = copyConstructorProperties$1; var isForced = isForced_1; /* options.target - name of the target object options.global - target is the global object options.stat - export as static methods of target options.proto - export as prototype methods of target options.real - real prototype method for the `pure` version options.forced - export even if the native feature is available options.bind - bind methods to the target, required for the `pure` version options.wrap - wrap constructors to preventing global pollution, required for the `pure` version options.unsafe - use the simple assignment of property instead of delete + defineProperty options.sham - add a flag to not completely full polyfills options.enumerable - export as enumerable property options.noTargetGet - prevent calling a getter on target options.name - the .name of the function if it does not match the key */ var _export = function (options, source) { var TARGET = options.target; var GLOBAL = options.global; var STATIC = options.stat; var FORCED, target, key, targetProperty, sourceProperty, descriptor; if (GLOBAL) { target = global$8; } else if (STATIC) { target = global$8[TARGET] || setGlobal(TARGET, {}); } else { target = (global$8[TARGET] || {}).prototype; } if (target) for (key in source) { sourceProperty = source[key]; if (options.noTargetGet) { descriptor = getOwnPropertyDescriptor(target, key); targetProperty = descriptor && descriptor.value; } else targetProperty = target[key]; FORCED = isForced(GLOBAL ? key : TARGET + (STATIC ? '.' : '#') + key, options.forced); // contained in target if (!FORCED && targetProperty !== undefined) { if (typeof sourceProperty == typeof targetProperty) continue; copyConstructorProperties(sourceProperty, targetProperty); } // add a flag to not completely full polyfills if (options.sham || (targetProperty && targetProperty.sham)) { createNonEnumerableProperty(sourceProperty, 'sham', true); } // extend global redefine(target, key, sourceProperty, options); } }; var wellKnownSymbol$5 = wellKnownSymbol$7; var TO_STRING_TAG$1 = wellKnownSymbol$5('toStringTag'); var test$1 = {}; test$1[TO_STRING_TAG$1] = 'z'; var toStringTagSupport = String(test$1) === '[object z]'; var global$7 = global$s; var TO_STRING_TAG_SUPPORT = toStringTagSupport; var isCallable$1 = isCallable$b; var classofRaw = classofRaw$1; var wellKnownSymbol$4 = wellKnownSymbol$7; var TO_STRING_TAG = wellKnownSymbol$4('toStringTag'); var Object$1 = global$7.Object; // ES3 wrong here var CORRECT_ARGUMENTS = classofRaw(function () { return arguments; }()) == 'Arguments'; // fallback for IE11 Script Access Denied error var tryGet = function (it, key) { try { return it[key]; } catch (error) { /* empty */ } }; // getting tag from ES6+ `Object.prototype.toString` var classof$4 = TO_STRING_TAG_SUPPORT ? classofRaw : function (it) { var O, tag, result; return it === undefined ? 'Undefined' : it === null ? 'Null' // @@toStringTag case : typeof (tag = tryGet(O = Object$1(it), TO_STRING_TAG)) == 'string' ? tag // builtinTag case : CORRECT_ARGUMENTS ? classofRaw(O) // ES3 arguments fallback : (result = classofRaw(O)) == 'Object' && isCallable$1(O.callee) ? 'Arguments' : result; }; var global$6 = global$s; var classof$3 = classof$4; var String$1 = global$6.String; var toString$3 = function (argument) { if (classof$3(argument) === 'Symbol') throw TypeError('Cannot convert a Symbol value to a string'); return String$1(argument); }; var uncurryThis$3 = functionUncurryThis; var arraySlice$1 = uncurryThis$3([].slice); var arraySlice = arraySlice$1; var floor = Math.floor; var mergeSort = function (array, comparefn) { var length = array.length; var middle = floor(length / 2); return length < 8 ? insertionSort(array, comparefn) : merge$3( array, mergeSort(arraySlice(array, 0, middle), comparefn), mergeSort(arraySlice(array, middle), comparefn), comparefn ); }; var insertionSort = function (array, comparefn) { var length = array.length; var i = 1; var element, j; while (i < length) { j = i; element = array[i]; while (j && comparefn(array[j - 1], element) > 0) { array[j] = array[--j]; } if (j !== i++) array[j] = element; } return array; }; var merge$3 = function (array, left, right, comparefn) { var llength = left.length; var rlength = right.length; var lindex = 0; var rindex = 0; while (lindex < llength || rindex < rlength) { array[lindex + rindex] = (lindex < llength && rindex < rlength) ? comparefn(left[lindex], right[rindex]) <= 0 ? left[lindex++] : right[rindex++] : lindex < llength ? left[lindex++] : right[rindex++]; } return array; }; var arraySort = mergeSort; var fails$2 = fails$8; var arrayMethodIsStrict$1 = function (METHOD_NAME, argument) { var method = [][METHOD_NAME]; return !!method && fails$2(function () { // eslint-disable-next-line no-useless-call,no-throw-literal -- required for testing method.call(null, argument || function () { throw 1; }, 1); }); }; var userAgent$1 = engineUserAgent; var firefox = userAgent$1.match(/firefox\/(\d+)/i); var engineFfVersion = !!firefox && +firefox[1]; var UA = engineUserAgent; var engineIsIeOrEdge = /MSIE|Trident/.test(UA); var userAgent = engineUserAgent; var webkit = userAgent.match(/AppleWebKit\/(\d+)\./); var engineWebkitVersion = !!webkit && +webkit[1]; var $$3 = _export; var uncurryThis$2 = functionUncurryThis; var aCallable$3 = aCallable$5; var toObject$2 = toObject$4; var lengthOfArrayLike$4 = lengthOfArrayLike$6; var toString$2 = toString$3; var fails$1 = fails$8; var internalSort = arraySort; var arrayMethodIsStrict = arrayMethodIsStrict$1; var FF = engineFfVersion; var IE_OR_EDGE = engineIsIeOrEdge; var V8 = engineV8Version; var WEBKIT = engineWebkitVersion; var test = []; var un$Sort = uncurryThis$2(test.sort); var push$2 = uncurryThis$2(test.push); // IE8- var FAILS_ON_UNDEFINED = fails$1(function () { test.sort(undefined); }); // V8 bug var FAILS_ON_NULL = fails$1(function () { test.sort(null); }); // Old WebKit var STRICT_METHOD = arrayMethodIsStrict('sort'); var STABLE_SORT = !fails$1(function () { // feature detection can be too slow, so check engines versions if (V8) return V8 < 70; if (FF && FF > 3) return; if (IE_OR_EDGE) return true; if (WEBKIT) return WEBKIT < 603; var result = ''; var code, chr, value, index; // generate an array with more 512 elements (Chakra and old V8 fails only in this case) for (code = 65; code < 76; code++) { chr = String.fromCharCode(code); switch (code) { case 66: case 69: case 70: case 72: value = 3; break; case 68: case 71: value = 4; break; default: value = 2; } for (index = 0; index < 47; index++) { test.push({ k: chr + index, v: value }); } } test.sort(function (a, b) { return b.v - a.v; }); for (index = 0; index < test.length; index++) { chr = test[index].k.charAt(0); if (result.charAt(result.length - 1) !== chr) result += chr; } return result !== 'DGBEFHACIJK'; }); var FORCED = FAILS_ON_UNDEFINED || !FAILS_ON_NULL || !STRICT_METHOD || !STABLE_SORT; var getSortCompare = function (comparefn) { return function (x, y) { if (y === undefined) return -1; if (x === undefined) return 1; if (comparefn !== undefined) return +comparefn(x, y) || 0; return toString$2(x) > toString$2(y) ? 1 : -1; }; }; // `Array.prototype.sort` method // https://tc39.es/ecma262/#sec-array.prototype.sort $$3({ target: 'Array', proto: true, forced: FORCED }, { sort: function sort(comparefn) { if (comparefn !== undefined) aCallable$3(comparefn); var array = toObject$2(this); if (STABLE_SORT) return comparefn === undefined ? un$Sort(array) : un$Sort(array, comparefn); var items = []; var arrayLength = lengthOfArrayLike$4(array); var itemsLength, index; for (index = 0; index < arrayLength; index++) { if (index in array) push$2(items, array[index]); } internalSort(items, getSortCompare(comparefn)); itemsLength = items.length; index = 0; while (index < itemsLength) array[index] = items[index++]; while (index < arrayLength) delete array[index++]; return array; } }); var json = {}; Object.defineProperty(json, "__esModule", { value: true }); json.diffJson = diffJson; json.canonicalize = canonicalize; json.jsonDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base$1 = _interopRequireDefault$3(base$1) /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _line$1 = line$B /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$3(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } function _typeof(obj) { "@babel/helpers - typeof"; if (typeof Symbol === "function" && typeof Symbol.iterator === "symbol") { _typeof = function _typeof(obj) { return typeof obj; }; } else { _typeof = function _typeof(obj) { return obj && typeof Symbol === "function" && obj.constructor === Symbol && obj !== Symbol.prototype ? "symbol" : typeof obj; }; } return _typeof(obj); } /*istanbul ignore end*/ var objectPrototypeToString = Object.prototype.toString; var jsonDiff = new /*istanbul ignore start*/ _base$1 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); // Discriminate between two lines of pretty-printed, serialized JSON where one of them has a // dangling comma and the other doesn't. Turns out including the dangling comma yields the nicest output: /*istanbul ignore start*/ json.jsonDiff = jsonDiff; /*istanbul ignore end*/ jsonDiff.useLongestToken = true; jsonDiff.tokenize = /*istanbul ignore start*/ _line$1 /*istanbul ignore end*/ . /*istanbul ignore start*/ lineDiff /*istanbul ignore end*/ .tokenize; jsonDiff.castInput = function (value) { /*istanbul ignore start*/ var _this$options = /*istanbul ignore end*/ this.options, undefinedReplacement = _this$options.undefinedReplacement, _this$options$stringi = _this$options.stringifyReplacer, stringifyReplacer = _this$options$stringi === void 0 ? function (k, v) /*istanbul ignore start*/ { return ( /*istanbul ignore end*/ typeof v === 'undefined' ? undefinedReplacement : v ); } : _this$options$stringi; return typeof value === 'string' ? value : JSON.stringify(canonicalize(value, null, null, stringifyReplacer), stringifyReplacer, ' '); }; jsonDiff.equals = function (left, right) { return ( /*istanbul ignore start*/ _base$1 /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ].prototype.equals.call(jsonDiff, left.replace(/,([\r\n])/g, '$1'), right.replace(/,([\r\n])/g, '$1')) ); }; function diffJson(oldObj, newObj, options) { return jsonDiff.diff(oldObj, newObj, options); } // This function handles the presence of circular references by bailing out when encountering an // object that is already on the "stack" of items being processed. Accepts an optional replacer function canonicalize(obj, stack, replacementStack, replacer, key) { stack = stack || []; replacementStack = replacementStack || []; if (replacer) { obj = replacer(key, obj); } var i; for (i = 0; i < stack.length; i += 1) { if (stack[i] === obj) { return replacementStack[i]; } } var canonicalizedObj; if ('[object Array]' === objectPrototypeToString.call(obj)) { stack.push(obj); canonicalizedObj = new Array(obj.length); replacementStack.push(canonicalizedObj); for (i = 0; i < obj.length; i += 1) { canonicalizedObj[i] = canonicalize(obj[i], stack, replacementStack, replacer, key); } stack.pop(); replacementStack.pop(); return canonicalizedObj; } if (obj && obj.toJSON) { obj = obj.toJSON(); } if ( /*istanbul ignore start*/ _typeof( /*istanbul ignore end*/ obj) === 'object' && obj !== null) { stack.push(obj); canonicalizedObj = {}; replacementStack.push(canonicalizedObj); var sortedKeys = [], _key; for (_key in obj) { /* istanbul ignore else */ if (obj.hasOwnProperty(_key)) { sortedKeys.push(_key); } } sortedKeys.sort(); for (i = 0; i < sortedKeys.length; i += 1) { _key = sortedKeys[i]; canonicalizedObj[_key] = canonicalize(obj[_key], stack, replacementStack, replacer, _key); } stack.pop(); replacementStack.pop(); } else { canonicalizedObj = obj; } return canonicalizedObj; } var array$6 = {}; /*istanbul ignore start*/ Object.defineProperty(array$6, "__esModule", { value: true }); array$6.diffArrays = diffArrays; array$6.arrayDiff = void 0; /*istanbul ignore end*/ var /*istanbul ignore start*/ _base = _interopRequireDefault$2(base$1) /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$2(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ var arrayDiff = new /*istanbul ignore start*/ _base /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ](); /*istanbul ignore start*/ array$6.arrayDiff = arrayDiff; /*istanbul ignore end*/ arrayDiff.tokenize = function (value) { return value.slice(); }; arrayDiff.join = arrayDiff.removeEmpty = function (value) { return value; }; function diffArrays(oldArr, newArr, callback) { return arrayDiff.diff(oldArr, newArr, callback); } var apply = {}; var parse$e = {}; /*istanbul ignore start*/ Object.defineProperty(parse$e, "__esModule", { value: true }); parse$e.parsePatch = parsePatch; /*istanbul ignore end*/ function parsePatch(uniDiff) { /*istanbul ignore start*/ var /*istanbul ignore end*/ options = arguments.length > 1 && arguments[1] !== undefined ? arguments[1] : {}; var diffstr = uniDiff.split(/\r\n|[\n\v\f\r\x85]/), delimiters = uniDiff.match(/\r\n|[\n\v\f\r\x85]/g) || [], list = [], i = 0; function parseIndex() { var index = {}; list.push(index); // Parse diff metadata while (i < diffstr.length) { var line = diffstr[i]; // File header found, end parsing diff metadata if (/^(\-\-\-|\+\+\+|@@)\s/.test(line)) { break; } // Diff index var header = /^(?:Index:|diff(?: -r \w+)+)\s+(.+?)\s*$/.exec(line); if (header) { index.index = header[1]; } i++; } // Parse file headers if they are defined. Unified diff requires them, but // there's no technical issues to have an isolated hunk without file header parseFileHeader(index); parseFileHeader(index); // Parse hunks index.hunks = []; while (i < diffstr.length) { var _line = diffstr[i]; if (/^(Index:|diff|\-\-\-|\+\+\+)\s/.test(_line)) { break; } else if (/^@@/.test(_line)) { index.hunks.push(parseHunk()); } else if (_line && options.strict) { // Ignore unexpected content unless in strict mode throw new Error('Unknown line ' + (i + 1) + ' ' + JSON.stringify(_line)); } else { i++; } } } // Parses the --- and +++ headers, if none are found, no lines // are consumed. function parseFileHeader(index) { var fileHeader = /^(---|\+\+\+)\s+(.*)$/.exec(diffstr[i]); if (fileHeader) { var keyPrefix = fileHeader[1] === '---' ? 'old' : 'new'; var data = fileHeader[2].split('\t', 2); var fileName = data[0].replace(/\\\\/g, '\\'); if (/^".*"$/.test(fileName)) { fileName = fileName.substr(1, fileName.length - 2); } index[keyPrefix + 'FileName'] = fileName; index[keyPrefix + 'Header'] = (data[1] || '').trim(); i++; } } // Parses a hunk // This assumes that we are at the start of a hunk. function parseHunk() { var chunkHeaderIndex = i, chunkHeaderLine = diffstr[i++], chunkHeader = chunkHeaderLine.split(/@@ -(\d+)(?:,(\d+))? \+(\d+)(?:,(\d+))? @@/); var hunk = { oldStart: +chunkHeader[1], oldLines: typeof chunkHeader[2] === 'undefined' ? 1 : +chunkHeader[2], newStart: +chunkHeader[3], newLines: typeof chunkHeader[4] === 'undefined' ? 1 : +chunkHeader[4], lines: [], linedelimiters: [] }; // Unified Diff Format quirk: If the chunk size is 0, // the first number is one lower than one would expect. // https://www.artima.com/weblogs/viewpost.jsp?thread=164293 if (hunk.oldLines === 0) { hunk.oldStart += 1; } if (hunk.newLines === 0) { hunk.newStart += 1; } var addCount = 0, removeCount = 0; for (; i < diffstr.length; i++) { // Lines starting with '---' could be mistaken for the "remove line" operation // But they could be the header for the next file. Therefore prune such cases out. if (diffstr[i].indexOf('--- ') === 0 && i + 2 < diffstr.length && diffstr[i + 1].indexOf('+++ ') === 0 && diffstr[i + 2].indexOf('@@') === 0) { break; } var operation = diffstr[i].length == 0 && i != diffstr.length - 1 ? ' ' : diffstr[i][0]; if (operation === '+' || operation === '-' || operation === ' ' || operation === '\\') { hunk.lines.push(diffstr[i]); hunk.linedelimiters.push(delimiters[i] || '\n'); if (operation === '+') { addCount++; } else if (operation === '-') { removeCount++; } else if (operation === ' ') { addCount++; removeCount++; } } else { break; } } // Handle the empty block count case if (!addCount && hunk.newLines === 1) { hunk.newLines = 0; } if (!removeCount && hunk.oldLines === 1) { hunk.oldLines = 0; } // Perform optional sanity checking if (options.strict) { if (addCount !== hunk.newLines) { throw new Error('Added line count did not match for hunk at line ' + (chunkHeaderIndex + 1)); } if (removeCount !== hunk.oldLines) { throw new Error('Removed line count did not match for hunk at line ' + (chunkHeaderIndex + 1)); } } return hunk; } while (i < diffstr.length) { parseIndex(); } return list; } var distanceIterator = {}; /*istanbul ignore start*/ (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); exports["default"] = _default; /*istanbul ignore end*/ // Iterator that traverses in the range of [min, max], stepping // by distance from a given start position. I.e. for [0, 4], with // start of 2, this will iterate 2, 3, 1, 4, 0. function /*istanbul ignore start*/ _default /*istanbul ignore end*/ (start, minLine, maxLine) { var wantForward = true, backwardExhausted = false, forwardExhausted = false, localOffset = 1; return function iterator() { if (wantForward && !forwardExhausted) { if (backwardExhausted) { localOffset++; } else { wantForward = false; } // Check if trying to fit beyond text length, and if not, check it fits // after offset location (or desired location on first iteration) if (start + localOffset <= maxLine) { return localOffset; } forwardExhausted = true; } if (!backwardExhausted) { if (!forwardExhausted) { wantForward = true; } // Check if trying to fit before text beginning, and if not, check it fits // before offset location if (minLine <= start - localOffset) { return -localOffset++; } backwardExhausted = true; return iterator(); } // We tried to fit hunk before text beginning and beyond text length, then // hunk can't fit on the text. Return undefined }; } })(distanceIterator); /*istanbul ignore start*/ Object.defineProperty(apply, "__esModule", { value: true }); apply.applyPatch = applyPatch; apply.applyPatches = applyPatches; /*istanbul ignore end*/ var /*istanbul ignore start*/ _parse$1 = parse$e /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _distanceIterator = _interopRequireDefault$1(distanceIterator) /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault$1(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ function applyPatch(source, uniDiff) { /*istanbul ignore start*/ var /*istanbul ignore end*/ options = arguments.length > 2 && arguments[2] !== undefined ? arguments[2] : {}; if (typeof uniDiff === 'string') { uniDiff = /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _parse$1 /*istanbul ignore end*/ . /*istanbul ignore start*/ parsePatch /*istanbul ignore end*/ )(uniDiff); } if (Array.isArray(uniDiff)) { if (uniDiff.length > 1) { throw new Error('applyPatch only works with a single input.'); } uniDiff = uniDiff[0]; } // Apply the diff to the input var lines = source.split(/\r\n|[\n\v\f\r\x85]/), delimiters = source.match(/\r\n|[\n\v\f\r\x85]/g) || [], hunks = uniDiff.hunks, compareLine = options.compareLine || function (lineNumber, line, operation, patchContent) /*istanbul ignore start*/ { return ( /*istanbul ignore end*/ line === patchContent ); }, errorCount = 0, fuzzFactor = options.fuzzFactor || 0, minLine = 0, offset = 0, removeEOFNL, addEOFNL; /** * Checks if the hunk exactly fits on the provided location */ function hunkFits(hunk, toPos) { for (var j = 0; j < hunk.lines.length; j++) { var line = hunk.lines[j], operation = line.length > 0 ? line[0] : ' ', content = line.length > 0 ? line.substr(1) : line; if (operation === ' ' || operation === '-') { // Context sanity check if (!compareLine(toPos + 1, lines[toPos], operation, content)) { errorCount++; if (errorCount > fuzzFactor) { return false; } } toPos++; } } return true; } // Search best fit offsets for each hunk based on the previous ones for (var i = 0; i < hunks.length; i++) { var hunk = hunks[i], maxLine = lines.length - hunk.oldLines, localOffset = 0, toPos = offset + hunk.oldStart - 1; var iterator = /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _distanceIterator /*istanbul ignore end*/ [ /*istanbul ignore start*/ "default" /*istanbul ignore end*/ ])(toPos, minLine, maxLine); for (; localOffset !== undefined; localOffset = iterator()) { if (hunkFits(hunk, toPos + localOffset)) { hunk.offset = offset += localOffset; break; } } if (localOffset === undefined) { return false; } // Set lower text limit to end of the current hunk, so next ones don't try // to fit over already patched text minLine = hunk.offset + hunk.oldStart + hunk.oldLines; } // Apply patch hunks var diffOffset = 0; for (var _i = 0; _i < hunks.length; _i++) { var _hunk = hunks[_i], _toPos = _hunk.oldStart + _hunk.offset + diffOffset - 1; diffOffset += _hunk.newLines - _hunk.oldLines; for (var j = 0; j < _hunk.lines.length; j++) { var line = _hunk.lines[j], operation = line.length > 0 ? line[0] : ' ', content = line.length > 0 ? line.substr(1) : line, delimiter = _hunk.linedelimiters[j]; if (operation === ' ') { _toPos++; } else if (operation === '-') { lines.splice(_toPos, 1); delimiters.splice(_toPos, 1); /* istanbul ignore else */ } else if (operation === '+') { lines.splice(_toPos, 0, content); delimiters.splice(_toPos, 0, delimiter); _toPos++; } else if (operation === '\\') { var previousOperation = _hunk.lines[j - 1] ? _hunk.lines[j - 1][0] : null; if (previousOperation === '+') { removeEOFNL = true; } else if (previousOperation === '-') { addEOFNL = true; } } } } // Handle EOFNL insertion/removal if (removeEOFNL) { while (!lines[lines.length - 1]) { lines.pop(); delimiters.pop(); } } else if (addEOFNL) { lines.push(''); delimiters.push('\n'); } for (var _k = 0; _k < lines.length - 1; _k++) { lines[_k] = lines[_k] + delimiters[_k]; } return lines.join(''); } // Wrapper that supports multiple file patches via callbacks. function applyPatches(uniDiff, options) { if (typeof uniDiff === 'string') { uniDiff = /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _parse$1 /*istanbul ignore end*/ . /*istanbul ignore start*/ parsePatch /*istanbul ignore end*/ )(uniDiff); } var currentIndex = 0; function processIndex() { var index = uniDiff[currentIndex++]; if (!index) { return options.complete(); } options.loadFile(index, function (err, data) { if (err) { return options.complete(err); } var updatedContent = applyPatch(data, index, options); options.patched(index, updatedContent, function (err) { if (err) { return options.complete(err); } processIndex(); }); }); } processIndex(); } var merge$2 = {}; var create$1 = {}; /*istanbul ignore start*/ Object.defineProperty(create$1, "__esModule", { value: true }); create$1.structuredPatch = structuredPatch; create$1.formatPatch = formatPatch; create$1.createTwoFilesPatch = createTwoFilesPatch; create$1.createPatch = createPatch; /*istanbul ignore end*/ var /*istanbul ignore start*/ _line = line$B /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _toConsumableArray$1(arr) { return _arrayWithoutHoles$1(arr) || _iterableToArray$1(arr) || _unsupportedIterableToArray$1(arr) || _nonIterableSpread$1(); } function _nonIterableSpread$1() { throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _unsupportedIterableToArray$1(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray$1(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray$1(o, minLen); } function _iterableToArray$1(iter) { if (typeof Symbol !== "undefined" && Symbol.iterator in Object(iter)) return Array.from(iter); } function _arrayWithoutHoles$1(arr) { if (Array.isArray(arr)) return _arrayLikeToArray$1(arr); } function _arrayLikeToArray$1(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; } /*istanbul ignore end*/ function structuredPatch(oldFileName, newFileName, oldStr, newStr, oldHeader, newHeader, options) { if (!options) { options = {}; } if (typeof options.context === 'undefined') { options.context = 4; } var diff = /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _line /*istanbul ignore end*/ . /*istanbul ignore start*/ diffLines /*istanbul ignore end*/ )(oldStr, newStr, options); diff.push({ value: '', lines: [] }); // Append an empty value to make cleanup easier function contextLines(lines) { return lines.map(function (entry) { return ' ' + entry; }); } var hunks = []; var oldRangeStart = 0, newRangeStart = 0, curRange = [], oldLine = 1, newLine = 1; /*istanbul ignore start*/ var _loop = function _loop( /*istanbul ignore end*/ i) { var current = diff[i], lines = current.lines || current.value.replace(/\n$/, '').split('\n'); current.lines = lines; if (current.added || current.removed) { /*istanbul ignore start*/ var _curRange; /*istanbul ignore end*/ // If we have previous context, start with that if (!oldRangeStart) { var prev = diff[i - 1]; oldRangeStart = oldLine; newRangeStart = newLine; if (prev) { curRange = options.context > 0 ? contextLines(prev.lines.slice(-options.context)) : []; oldRangeStart -= curRange.length; newRangeStart -= curRange.length; } } // Output our changes /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_curRange = /*istanbul ignore end*/ curRange).push.apply( /*istanbul ignore start*/ _curRange /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray$1( /*istanbul ignore end*/ lines.map(function (entry) { return (current.added ? '+' : '-') + entry; }))); // Track the updated file position if (current.added) { newLine += lines.length; } else { oldLine += lines.length; } } else { // Identical context lines. Track line changes if (oldRangeStart) { // Close out any changes that have been output (or join overlapping) if (lines.length <= options.context * 2 && i < diff.length - 2) { /*istanbul ignore start*/ var _curRange2; /*istanbul ignore end*/ // Overlapping /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_curRange2 = /*istanbul ignore end*/ curRange).push.apply( /*istanbul ignore start*/ _curRange2 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray$1( /*istanbul ignore end*/ contextLines(lines))); } else { /*istanbul ignore start*/ var _curRange3; /*istanbul ignore end*/ // end the range and output var contextSize = Math.min(lines.length, options.context); /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_curRange3 = /*istanbul ignore end*/ curRange).push.apply( /*istanbul ignore start*/ _curRange3 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray$1( /*istanbul ignore end*/ contextLines(lines.slice(0, contextSize)))); var hunk = { oldStart: oldRangeStart, oldLines: oldLine - oldRangeStart + contextSize, newStart: newRangeStart, newLines: newLine - newRangeStart + contextSize, lines: curRange }; if (i >= diff.length - 2 && lines.length <= options.context) { // EOF is inside this hunk var oldEOFNewline = /\n$/.test(oldStr); var newEOFNewline = /\n$/.test(newStr); var noNlBeforeAdds = lines.length == 0 && curRange.length > hunk.oldLines; if (!oldEOFNewline && noNlBeforeAdds && oldStr.length > 0) { // special case: old has no eol and no trailing context; no-nl can end up before adds // however, if the old file is empty, do not output the no-nl line curRange.splice(hunk.oldLines, 0, '\\ No newline at end of file'); } if (!oldEOFNewline && !noNlBeforeAdds || !newEOFNewline) { curRange.push('\\ No newline at end of file'); } } hunks.push(hunk); oldRangeStart = 0; newRangeStart = 0; curRange = []; } } oldLine += lines.length; newLine += lines.length; } }; for (var i = 0; i < diff.length; i++) { /*istanbul ignore start*/ _loop( /*istanbul ignore end*/ i); } return { oldFileName: oldFileName, newFileName: newFileName, oldHeader: oldHeader, newHeader: newHeader, hunks: hunks }; } function formatPatch(diff) { var ret = []; if (diff.oldFileName == diff.newFileName) { ret.push('Index: ' + diff.oldFileName); } ret.push('==================================================================='); ret.push('--- ' + diff.oldFileName + (typeof diff.oldHeader === 'undefined' ? '' : '\t' + diff.oldHeader)); ret.push('+++ ' + diff.newFileName + (typeof diff.newHeader === 'undefined' ? '' : '\t' + diff.newHeader)); for (var i = 0; i < diff.hunks.length; i++) { var hunk = diff.hunks[i]; // Unified Diff Format quirk: If the chunk size is 0, // the first number is one lower than one would expect. // https://www.artima.com/weblogs/viewpost.jsp?thread=164293 if (hunk.oldLines === 0) { hunk.oldStart -= 1; } if (hunk.newLines === 0) { hunk.newStart -= 1; } ret.push('@@ -' + hunk.oldStart + ',' + hunk.oldLines + ' +' + hunk.newStart + ',' + hunk.newLines + ' @@'); ret.push.apply(ret, hunk.lines); } return ret.join('\n') + '\n'; } function createTwoFilesPatch(oldFileName, newFileName, oldStr, newStr, oldHeader, newHeader, options) { return formatPatch(structuredPatch(oldFileName, newFileName, oldStr, newStr, oldHeader, newHeader, options)); } function createPatch(fileName, oldStr, newStr, oldHeader, newHeader, options) { return createTwoFilesPatch(fileName, fileName, oldStr, newStr, oldHeader, newHeader, options); } var array$5 = {}; /*istanbul ignore start*/ Object.defineProperty(array$5, "__esModule", { value: true }); array$5.arrayEqual = arrayEqual; array$5.arrayStartsWith = arrayStartsWith; /*istanbul ignore end*/ function arrayEqual(a, b) { if (a.length !== b.length) { return false; } return arrayStartsWith(a, b); } function arrayStartsWith(array, start) { if (start.length > array.length) { return false; } for (var i = 0; i < start.length; i++) { if (start[i] !== array[i]) { return false; } } return true; } /*istanbul ignore start*/ Object.defineProperty(merge$2, "__esModule", { value: true }); merge$2.calcLineCount = calcLineCount; merge$2.merge = merge$1; /*istanbul ignore end*/ var /*istanbul ignore start*/ _create = create$1 /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _parse = parse$e /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _array = array$5 /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _toConsumableArray(arr) { return _arrayWithoutHoles(arr) || _iterableToArray(arr) || _unsupportedIterableToArray(arr) || _nonIterableSpread(); } function _nonIterableSpread() { throw new TypeError("Invalid attempt to spread non-iterable instance.\nIn order to be iterable, non-array objects must have a [Symbol.iterator]() method."); } function _unsupportedIterableToArray(o, minLen) { if (!o) return; if (typeof o === "string") return _arrayLikeToArray(o, minLen); var n = Object.prototype.toString.call(o).slice(8, -1); if (n === "Object" && o.constructor) n = o.constructor.name; if (n === "Map" || n === "Set") return Array.from(o); if (n === "Arguments" || /^(?:Ui|I)nt(?:8|16|32)(?:Clamped)?Array$/.test(n)) return _arrayLikeToArray(o, minLen); } function _iterableToArray(iter) { if (typeof Symbol !== "undefined" && Symbol.iterator in Object(iter)) return Array.from(iter); } function _arrayWithoutHoles(arr) { if (Array.isArray(arr)) return _arrayLikeToArray(arr); } function _arrayLikeToArray(arr, len) { if (len == null || len > arr.length) len = arr.length; for (var i = 0, arr2 = new Array(len); i < len; i++) { arr2[i] = arr[i]; } return arr2; } /*istanbul ignore end*/ function calcLineCount(hunk) { /*istanbul ignore start*/ var _calcOldNewLineCount = /*istanbul ignore end*/ calcOldNewLineCount(hunk.lines), oldLines = _calcOldNewLineCount.oldLines, newLines = _calcOldNewLineCount.newLines; if (oldLines !== undefined) { hunk.oldLines = oldLines; } else { delete hunk.oldLines; } if (newLines !== undefined) { hunk.newLines = newLines; } else { delete hunk.newLines; } } function merge$1(mine, theirs, base) { mine = loadPatch(mine, base); theirs = loadPatch(theirs, base); var ret = {}; // For index we just let it pass through as it doesn't have any necessary meaning. // Leaving sanity checks on this to the API consumer that may know more about the // meaning in their own context. if (mine.index || theirs.index) { ret.index = mine.index || theirs.index; } if (mine.newFileName || theirs.newFileName) { if (!fileNameChanged(mine)) { // No header or no change in ours, use theirs (and ours if theirs does not exist) ret.oldFileName = theirs.oldFileName || mine.oldFileName; ret.newFileName = theirs.newFileName || mine.newFileName; ret.oldHeader = theirs.oldHeader || mine.oldHeader; ret.newHeader = theirs.newHeader || mine.newHeader; } else if (!fileNameChanged(theirs)) { // No header or no change in theirs, use ours ret.oldFileName = mine.oldFileName; ret.newFileName = mine.newFileName; ret.oldHeader = mine.oldHeader; ret.newHeader = mine.newHeader; } else { // Both changed... figure it out ret.oldFileName = selectField(ret, mine.oldFileName, theirs.oldFileName); ret.newFileName = selectField(ret, mine.newFileName, theirs.newFileName); ret.oldHeader = selectField(ret, mine.oldHeader, theirs.oldHeader); ret.newHeader = selectField(ret, mine.newHeader, theirs.newHeader); } } ret.hunks = []; var mineIndex = 0, theirsIndex = 0, mineOffset = 0, theirsOffset = 0; while (mineIndex < mine.hunks.length || theirsIndex < theirs.hunks.length) { var mineCurrent = mine.hunks[mineIndex] || { oldStart: Infinity }, theirsCurrent = theirs.hunks[theirsIndex] || { oldStart: Infinity }; if (hunkBefore(mineCurrent, theirsCurrent)) { // This patch does not overlap with any of the others, yay. ret.hunks.push(cloneHunk(mineCurrent, mineOffset)); mineIndex++; theirsOffset += mineCurrent.newLines - mineCurrent.oldLines; } else if (hunkBefore(theirsCurrent, mineCurrent)) { // This patch does not overlap with any of the others, yay. ret.hunks.push(cloneHunk(theirsCurrent, theirsOffset)); theirsIndex++; mineOffset += theirsCurrent.newLines - theirsCurrent.oldLines; } else { // Overlap, merge as best we can var mergedHunk = { oldStart: Math.min(mineCurrent.oldStart, theirsCurrent.oldStart), oldLines: 0, newStart: Math.min(mineCurrent.newStart + mineOffset, theirsCurrent.oldStart + theirsOffset), newLines: 0, lines: [] }; mergeLines(mergedHunk, mineCurrent.oldStart, mineCurrent.lines, theirsCurrent.oldStart, theirsCurrent.lines); theirsIndex++; mineIndex++; ret.hunks.push(mergedHunk); } } return ret; } function loadPatch(param, base) { if (typeof param === 'string') { if (/^@@/m.test(param) || /^Index:/m.test(param)) { return ( /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _parse /*istanbul ignore end*/ . /*istanbul ignore start*/ parsePatch /*istanbul ignore end*/ )(param)[0] ); } if (!base) { throw new Error('Must provide a base reference or pass in a patch'); } return ( /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _create /*istanbul ignore end*/ . /*istanbul ignore start*/ structuredPatch /*istanbul ignore end*/ )(undefined, undefined, base, param) ); } return param; } function fileNameChanged(patch) { return patch.newFileName && patch.newFileName !== patch.oldFileName; } function selectField(index, mine, theirs) { if (mine === theirs) { return mine; } else { index.conflict = true; return { mine: mine, theirs: theirs }; } } function hunkBefore(test, check) { return test.oldStart < check.oldStart && test.oldStart + test.oldLines < check.oldStart; } function cloneHunk(hunk, offset) { return { oldStart: hunk.oldStart, oldLines: hunk.oldLines, newStart: hunk.newStart + offset, newLines: hunk.newLines, lines: hunk.lines }; } function mergeLines(hunk, mineOffset, mineLines, theirOffset, theirLines) { // This will generally result in a conflicted hunk, but there are cases where the context // is the only overlap where we can successfully merge the content here. var mine = { offset: mineOffset, lines: mineLines, index: 0 }, their = { offset: theirOffset, lines: theirLines, index: 0 }; // Handle any leading content insertLeading(hunk, mine, their); insertLeading(hunk, their, mine); // Now in the overlap content. Scan through and select the best changes from each. while (mine.index < mine.lines.length && their.index < their.lines.length) { var mineCurrent = mine.lines[mine.index], theirCurrent = their.lines[their.index]; if ((mineCurrent[0] === '-' || mineCurrent[0] === '+') && (theirCurrent[0] === '-' || theirCurrent[0] === '+')) { // Both modified ... mutualChange(hunk, mine, their); } else if (mineCurrent[0] === '+' && theirCurrent[0] === ' ') { /*istanbul ignore start*/ var _hunk$lines; /*istanbul ignore end*/ // Mine inserted /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_hunk$lines = /*istanbul ignore end*/ hunk.lines).push.apply( /*istanbul ignore start*/ _hunk$lines /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray( /*istanbul ignore end*/ collectChange(mine))); } else if (theirCurrent[0] === '+' && mineCurrent[0] === ' ') { /*istanbul ignore start*/ var _hunk$lines2; /*istanbul ignore end*/ // Theirs inserted /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_hunk$lines2 = /*istanbul ignore end*/ hunk.lines).push.apply( /*istanbul ignore start*/ _hunk$lines2 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray( /*istanbul ignore end*/ collectChange(their))); } else if (mineCurrent[0] === '-' && theirCurrent[0] === ' ') { // Mine removed or edited removal(hunk, mine, their); } else if (theirCurrent[0] === '-' && mineCurrent[0] === ' ') { // Their removed or edited removal(hunk, their, mine, true); } else if (mineCurrent === theirCurrent) { // Context identity hunk.lines.push(mineCurrent); mine.index++; their.index++; } else { // Context mismatch conflict(hunk, collectChange(mine), collectChange(their)); } } // Now push anything that may be remaining insertTrailing(hunk, mine); insertTrailing(hunk, their); calcLineCount(hunk); } function mutualChange(hunk, mine, their) { var myChanges = collectChange(mine), theirChanges = collectChange(their); if (allRemoves(myChanges) && allRemoves(theirChanges)) { // Special case for remove changes that are supersets of one another if ( /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _array /*istanbul ignore end*/ . /*istanbul ignore start*/ arrayStartsWith /*istanbul ignore end*/ )(myChanges, theirChanges) && skipRemoveSuperset(their, myChanges, myChanges.length - theirChanges.length)) { /*istanbul ignore start*/ var _hunk$lines3; /*istanbul ignore end*/ /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_hunk$lines3 = /*istanbul ignore end*/ hunk.lines).push.apply( /*istanbul ignore start*/ _hunk$lines3 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray( /*istanbul ignore end*/ myChanges)); return; } else if ( /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _array /*istanbul ignore end*/ . /*istanbul ignore start*/ arrayStartsWith /*istanbul ignore end*/ )(theirChanges, myChanges) && skipRemoveSuperset(mine, theirChanges, theirChanges.length - myChanges.length)) { /*istanbul ignore start*/ var _hunk$lines4; /*istanbul ignore end*/ /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_hunk$lines4 = /*istanbul ignore end*/ hunk.lines).push.apply( /*istanbul ignore start*/ _hunk$lines4 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray( /*istanbul ignore end*/ theirChanges)); return; } } else if ( /*istanbul ignore start*/ (/*istanbul ignore end*/ /*istanbul ignore start*/ 0, _array /*istanbul ignore end*/ . /*istanbul ignore start*/ arrayEqual /*istanbul ignore end*/ )(myChanges, theirChanges)) { /*istanbul ignore start*/ var _hunk$lines5; /*istanbul ignore end*/ /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_hunk$lines5 = /*istanbul ignore end*/ hunk.lines).push.apply( /*istanbul ignore start*/ _hunk$lines5 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray( /*istanbul ignore end*/ myChanges)); return; } conflict(hunk, myChanges, theirChanges); } function removal(hunk, mine, their, swap) { var myChanges = collectChange(mine), theirChanges = collectContext(their, myChanges); if (theirChanges.merged) { /*istanbul ignore start*/ var _hunk$lines6; /*istanbul ignore end*/ /*istanbul ignore start*/ /*istanbul ignore end*/ /*istanbul ignore start*/ (_hunk$lines6 = /*istanbul ignore end*/ hunk.lines).push.apply( /*istanbul ignore start*/ _hunk$lines6 /*istanbul ignore end*/ , /*istanbul ignore start*/ _toConsumableArray( /*istanbul ignore end*/ theirChanges.merged)); } else { conflict(hunk, swap ? theirChanges : myChanges, swap ? myChanges : theirChanges); } } function conflict(hunk, mine, their) { hunk.conflict = true; hunk.lines.push({ conflict: true, mine: mine, theirs: their }); } function insertLeading(hunk, insert, their) { while (insert.offset < their.offset && insert.index < insert.lines.length) { var line = insert.lines[insert.index++]; hunk.lines.push(line); insert.offset++; } } function insertTrailing(hunk, insert) { while (insert.index < insert.lines.length) { var line = insert.lines[insert.index++]; hunk.lines.push(line); } } function collectChange(state) { var ret = [], operation = state.lines[state.index][0]; while (state.index < state.lines.length) { var line = state.lines[state.index]; // Group additions that are immediately after subtractions and treat them as one "atomic" modify change. if (operation === '-' && line[0] === '+') { operation = '+'; } if (operation === line[0]) { ret.push(line); state.index++; } else { break; } } return ret; } function collectContext(state, matchChanges) { var changes = [], merged = [], matchIndex = 0, contextChanges = false, conflicted = false; while (matchIndex < matchChanges.length && state.index < state.lines.length) { var change = state.lines[state.index], match = matchChanges[matchIndex]; // Once we've hit our add, then we are done if (match[0] === '+') { break; } contextChanges = contextChanges || change[0] !== ' '; merged.push(match); matchIndex++; // Consume any additions in the other block as a conflict to attempt // to pull in the remaining context after this if (change[0] === '+') { conflicted = true; while (change[0] === '+') { changes.push(change); change = state.lines[++state.index]; } } if (match.substr(1) === change.substr(1)) { changes.push(change); state.index++; } else { conflicted = true; } } if ((matchChanges[matchIndex] || '')[0] === '+' && contextChanges) { conflicted = true; } if (conflicted) { return changes; } while (matchIndex < matchChanges.length) { merged.push(matchChanges[matchIndex++]); } return { merged: merged, changes: changes }; } function allRemoves(changes) { return changes.reduce(function (prev, change) { return prev && change[0] === '-'; }, true); } function skipRemoveSuperset(state, removeChanges, delta) { for (var i = 0; i < delta; i++) { var changeContent = removeChanges[removeChanges.length - delta + i].substr(1); if (state.lines[state.index + i] !== ' ' + changeContent) { return false; } } state.index += delta; return true; } function calcOldNewLineCount(lines) { var oldLines = 0; var newLines = 0; lines.forEach(function (line) { if (typeof line !== 'string') { var myCount = calcOldNewLineCount(line.mine); var theirCount = calcOldNewLineCount(line.theirs); if (oldLines !== undefined) { if (myCount.oldLines === theirCount.oldLines) { oldLines += myCount.oldLines; } else { oldLines = undefined; } } if (newLines !== undefined) { if (myCount.newLines === theirCount.newLines) { newLines += myCount.newLines; } else { newLines = undefined; } } } else { if (newLines !== undefined && (line[0] === '+' || line[0] === ' ')) { newLines++; } if (oldLines !== undefined && (line[0] === '-' || line[0] === ' ')) { oldLines++; } } }); return { oldLines: oldLines, newLines: newLines }; } var dmp = {}; /*istanbul ignore start*/ Object.defineProperty(dmp, "__esModule", { value: true }); dmp.convertChangesToDMP = convertChangesToDMP; /*istanbul ignore end*/ // See: http://code.google.com/p/google-diff-match-patch/wiki/API function convertChangesToDMP(changes) { var ret = [], change, operation; for (var i = 0; i < changes.length; i++) { change = changes[i]; if (change.added) { operation = 1; } else if (change.removed) { operation = -1; } else { operation = 0; } ret.push([operation, change.value]); } return ret; } var xml = {}; /*istanbul ignore start*/ Object.defineProperty(xml, "__esModule", { value: true }); xml.convertChangesToXML = convertChangesToXML; /*istanbul ignore end*/ function convertChangesToXML(changes) { var ret = []; for (var i = 0; i < changes.length; i++) { var change = changes[i]; if (change.added) { ret.push(''); } else if (change.removed) { ret.push(''); } ret.push(escapeHTML(change.value)); if (change.added) { ret.push(''); } else if (change.removed) { ret.push(''); } } return ret.join(''); } function escapeHTML(s) { var n = s; n = n.replace(/&/g, '&'); n = n.replace(//g, '>'); n = n.replace(/"/g, '"'); return n; } /*istanbul ignore start*/ (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); Object.defineProperty(exports, "Diff", { enumerable: true, get: function get() { return _base["default"]; } }); Object.defineProperty(exports, "diffChars", { enumerable: true, get: function get() { return _character.diffChars; } }); Object.defineProperty(exports, "diffWords", { enumerable: true, get: function get() { return _word.diffWords; } }); Object.defineProperty(exports, "diffWordsWithSpace", { enumerable: true, get: function get() { return _word.diffWordsWithSpace; } }); Object.defineProperty(exports, "diffLines", { enumerable: true, get: function get() { return _line.diffLines; } }); Object.defineProperty(exports, "diffTrimmedLines", { enumerable: true, get: function get() { return _line.diffTrimmedLines; } }); Object.defineProperty(exports, "diffSentences", { enumerable: true, get: function get() { return _sentence.diffSentences; } }); Object.defineProperty(exports, "diffCss", { enumerable: true, get: function get() { return _css.diffCss; } }); Object.defineProperty(exports, "diffJson", { enumerable: true, get: function get() { return _json.diffJson; } }); Object.defineProperty(exports, "canonicalize", { enumerable: true, get: function get() { return _json.canonicalize; } }); Object.defineProperty(exports, "diffArrays", { enumerable: true, get: function get() { return _array.diffArrays; } }); Object.defineProperty(exports, "applyPatch", { enumerable: true, get: function get() { return _apply.applyPatch; } }); Object.defineProperty(exports, "applyPatches", { enumerable: true, get: function get() { return _apply.applyPatches; } }); Object.defineProperty(exports, "parsePatch", { enumerable: true, get: function get() { return _parse.parsePatch; } }); Object.defineProperty(exports, "merge", { enumerable: true, get: function get() { return _merge.merge; } }); Object.defineProperty(exports, "structuredPatch", { enumerable: true, get: function get() { return _create.structuredPatch; } }); Object.defineProperty(exports, "createTwoFilesPatch", { enumerable: true, get: function get() { return _create.createTwoFilesPatch; } }); Object.defineProperty(exports, "createPatch", { enumerable: true, get: function get() { return _create.createPatch; } }); Object.defineProperty(exports, "convertChangesToDMP", { enumerable: true, get: function get() { return _dmp.convertChangesToDMP; } }); Object.defineProperty(exports, "convertChangesToXML", { enumerable: true, get: function get() { return _xml.convertChangesToXML; } }); /*istanbul ignore end*/ var /*istanbul ignore start*/ _base = _interopRequireDefault(base$1) /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _character = character /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _word = word /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _line = line$B /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _sentence = sentence /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _css = css$1 /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _json = json /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _array = array$6 /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _apply = apply /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _parse = parse$e /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _merge = merge$2 /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _create = create$1 /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _dmp = dmp /*istanbul ignore end*/ ; var /*istanbul ignore start*/ _xml = xml /*istanbul ignore end*/ ; /*istanbul ignore start*/ function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { "default": obj }; } /*istanbul ignore end*/ })(lib$6); var require$$7$3 = require("./doc.js"); var stringWidth$2 = {exports: {}}; var ansiRegex$1 = ({ onlyFirst = false } = {}) => { const pattern = ['[\\u001B\\u009B][[\\]()#;?]*(?:(?:(?:(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]+)*|[a-zA-Z\\d]+(?:;[-a-zA-Z\\d\\/#&.:=?%@~_]*)*)?\\u0007)', '(?:(?:\\d{1,4}(?:;\\d{0,4})*)?[\\dA-PR-TZcf-ntqry=><~]))'].join('|'); return new RegExp(pattern, onlyFirst ? undefined : 'g'); }; const ansiRegex = ansiRegex$1; var stripAnsi$1 = string => typeof string === 'string' ? string.replace(ansiRegex(), '') : string; var isFullwidthCodePoint$2 = {exports: {}}; /* eslint-disable yoda */ const isFullwidthCodePoint$1 = codePoint => { if (Number.isNaN(codePoint)) { return false; } // Code points are derived from: // http://www.unix.org/Public/UNIDATA/EastAsianWidth.txt if (codePoint >= 0x1100 && (codePoint <= 0x115F || // Hangul Jamo codePoint === 0x2329 || // LEFT-POINTING ANGLE BRACKET codePoint === 0x232A || // RIGHT-POINTING ANGLE BRACKET // CJK Radicals Supplement .. Enclosed CJK Letters and Months 0x2E80 <= codePoint && codePoint <= 0x3247 && codePoint !== 0x303F || // Enclosed CJK Letters and Months .. CJK Unified Ideographs Extension A 0x3250 <= codePoint && codePoint <= 0x4DBF || // CJK Unified Ideographs .. Yi Radicals 0x4E00 <= codePoint && codePoint <= 0xA4C6 || // Hangul Jamo Extended-A 0xA960 <= codePoint && codePoint <= 0xA97C || // Hangul Syllables 0xAC00 <= codePoint && codePoint <= 0xD7A3 || // CJK Compatibility Ideographs 0xF900 <= codePoint && codePoint <= 0xFAFF || // Vertical Forms 0xFE10 <= codePoint && codePoint <= 0xFE19 || // CJK Compatibility Forms .. Small Form Variants 0xFE30 <= codePoint && codePoint <= 0xFE6B || // Halfwidth and Fullwidth Forms 0xFF01 <= codePoint && codePoint <= 0xFF60 || 0xFFE0 <= codePoint && codePoint <= 0xFFE6 || // Kana Supplement 0x1B000 <= codePoint && codePoint <= 0x1B001 || // Enclosed Ideographic Supplement 0x1F200 <= codePoint && codePoint <= 0x1F251 || // CJK Unified Ideographs Extension B .. Tertiary Ideographic Plane 0x20000 <= codePoint && codePoint <= 0x3FFFD)) { return true; } return false; }; isFullwidthCodePoint$2.exports = isFullwidthCodePoint$1; isFullwidthCodePoint$2.exports.default = isFullwidthCodePoint$1; var emojiRegex$1 = function () { // https://mths.be/emoji return /\uD83C\uDFF4\uDB40\uDC67\uDB40\uDC62(?:\uDB40\uDC65\uDB40\uDC6E\uDB40\uDC67|\uDB40\uDC73\uDB40\uDC63\uDB40\uDC74|\uDB40\uDC77\uDB40\uDC6C\uDB40\uDC73)\uDB40\uDC7F|\uD83D\uDC68(?:\uD83C\uDFFC\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68\uD83C\uDFFB|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFF\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB-\uDFFE])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFE\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB-\uDFFD])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFD\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB\uDFFC])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\u200D(?:\u2764\uFE0F\u200D(?:\uD83D\uDC8B\u200D)?\uD83D\uDC68|(?:\uD83D[\uDC68\uDC69])\u200D(?:\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67]))|\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67])|(?:\uD83D[\uDC68\uDC69])\u200D(?:\uD83D[\uDC66\uDC67])|[\u2695\u2696\u2708]\uFE0F|\uD83D[\uDC66\uDC67]|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|(?:\uD83C\uDFFB\u200D[\u2695\u2696\u2708]|\uD83C\uDFFF\u200D[\u2695\u2696\u2708]|\uD83C\uDFFE\u200D[\u2695\u2696\u2708]|\uD83C\uDFFD\u200D[\u2695\u2696\u2708]|\uD83C\uDFFC\u200D[\u2695\u2696\u2708])\uFE0F|\uD83C\uDFFB\u200D(?:\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C[\uDFFB-\uDFFF])|(?:\uD83E\uDDD1\uD83C\uDFFB\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFC\u200D\uD83E\uDD1D\u200D\uD83D\uDC69)\uD83C\uDFFB|\uD83E\uDDD1(?:\uD83C\uDFFF\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1(?:\uD83C[\uDFFB-\uDFFF])|\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1)|(?:\uD83E\uDDD1\uD83C\uDFFE\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFF\u200D\uD83E\uDD1D\u200D(?:\uD83D[\uDC68\uDC69]))(?:\uD83C[\uDFFB-\uDFFE])|(?:\uD83E\uDDD1\uD83C\uDFFC\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFD\u200D\uD83E\uDD1D\u200D\uD83D\uDC69)(?:\uD83C[\uDFFB\uDFFC])|\uD83D\uDC69(?:\uD83C\uDFFE\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB-\uDFFD\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFC\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB\uDFFD-\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFB\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFC-\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFD\u200D(?:\uD83E\uDD1D\u200D\uD83D\uDC68(?:\uD83C[\uDFFB\uDFFC\uDFFE\uDFFF])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\u200D(?:\u2764\uFE0F\u200D(?:\uD83D\uDC8B\u200D(?:\uD83D[\uDC68\uDC69])|\uD83D[\uDC68\uDC69])|\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD])|\uD83C\uDFFF\u200D(?:\uD83C[\uDF3E\uDF73\uDF93\uDFA4\uDFA8\uDFEB\uDFED]|\uD83D[\uDCBB\uDCBC\uDD27\uDD2C\uDE80\uDE92]|\uD83E[\uDDAF-\uDDB3\uDDBC\uDDBD]))|\uD83D\uDC69\u200D\uD83D\uDC69\u200D(?:\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67]))|(?:\uD83E\uDDD1\uD83C\uDFFD\u200D\uD83E\uDD1D\u200D\uD83E\uDDD1|\uD83D\uDC69\uD83C\uDFFE\u200D\uD83E\uDD1D\u200D\uD83D\uDC69)(?:\uD83C[\uDFFB-\uDFFD])|\uD83D\uDC69\u200D\uD83D\uDC66\u200D\uD83D\uDC66|\uD83D\uDC69\u200D\uD83D\uDC69\u200D(?:\uD83D[\uDC66\uDC67])|(?:\uD83D\uDC41\uFE0F\u200D\uD83D\uDDE8|\uD83D\uDC69(?:\uD83C\uDFFF\u200D[\u2695\u2696\u2708]|\uD83C\uDFFE\u200D[\u2695\u2696\u2708]|\uD83C\uDFFC\u200D[\u2695\u2696\u2708]|\uD83C\uDFFB\u200D[\u2695\u2696\u2708]|\uD83C\uDFFD\u200D[\u2695\u2696\u2708]|\u200D[\u2695\u2696\u2708])|(?:(?:\u26F9|\uD83C[\uDFCB\uDFCC]|\uD83D\uDD75)\uFE0F|\uD83D\uDC6F|\uD83E[\uDD3C\uDDDE\uDDDF])\u200D[\u2640\u2642]|(?:\u26F9|\uD83C[\uDFCB\uDFCC]|\uD83D\uDD75)(?:\uD83C[\uDFFB-\uDFFF])\u200D[\u2640\u2642]|(?:\uD83C[\uDFC3\uDFC4\uDFCA]|\uD83D[\uDC6E\uDC71\uDC73\uDC77\uDC81\uDC82\uDC86\uDC87\uDE45-\uDE47\uDE4B\uDE4D\uDE4E\uDEA3\uDEB4-\uDEB6]|\uD83E[\uDD26\uDD37-\uDD39\uDD3D\uDD3E\uDDB8\uDDB9\uDDCD-\uDDCF\uDDD6-\uDDDD])(?:(?:\uD83C[\uDFFB-\uDFFF])\u200D[\u2640\u2642]|\u200D[\u2640\u2642])|\uD83C\uDFF4\u200D\u2620)\uFE0F|\uD83D\uDC69\u200D\uD83D\uDC67\u200D(?:\uD83D[\uDC66\uDC67])|\uD83C\uDFF3\uFE0F\u200D\uD83C\uDF08|\uD83D\uDC15\u200D\uD83E\uDDBA|\uD83D\uDC69\u200D\uD83D\uDC66|\uD83D\uDC69\u200D\uD83D\uDC67|\uD83C\uDDFD\uD83C\uDDF0|\uD83C\uDDF4\uD83C\uDDF2|\uD83C\uDDF6\uD83C\uDDE6|[#\*0-9]\uFE0F\u20E3|\uD83C\uDDE7(?:\uD83C[\uDDE6\uDDE7\uDDE9-\uDDEF\uDDF1-\uDDF4\uDDF6-\uDDF9\uDDFB\uDDFC\uDDFE\uDDFF])|\uD83C\uDDF9(?:\uD83C[\uDDE6\uDDE8\uDDE9\uDDEB-\uDDED\uDDEF-\uDDF4\uDDF7\uDDF9\uDDFB\uDDFC\uDDFF])|\uD83C\uDDEA(?:\uD83C[\uDDE6\uDDE8\uDDEA\uDDEC\uDDED\uDDF7-\uDDFA])|\uD83E\uDDD1(?:\uD83C[\uDFFB-\uDFFF])|\uD83C\uDDF7(?:\uD83C[\uDDEA\uDDF4\uDDF8\uDDFA\uDDFC])|\uD83D\uDC69(?:\uD83C[\uDFFB-\uDFFF])|\uD83C\uDDF2(?:\uD83C[\uDDE6\uDDE8-\uDDED\uDDF0-\uDDFF])|\uD83C\uDDE6(?:\uD83C[\uDDE8-\uDDEC\uDDEE\uDDF1\uDDF2\uDDF4\uDDF6-\uDDFA\uDDFC\uDDFD\uDDFF])|\uD83C\uDDF0(?:\uD83C[\uDDEA\uDDEC-\uDDEE\uDDF2\uDDF3\uDDF5\uDDF7\uDDFC\uDDFE\uDDFF])|\uD83C\uDDED(?:\uD83C[\uDDF0\uDDF2\uDDF3\uDDF7\uDDF9\uDDFA])|\uD83C\uDDE9(?:\uD83C[\uDDEA\uDDEC\uDDEF\uDDF0\uDDF2\uDDF4\uDDFF])|\uD83C\uDDFE(?:\uD83C[\uDDEA\uDDF9])|\uD83C\uDDEC(?:\uD83C[\uDDE6\uDDE7\uDDE9-\uDDEE\uDDF1-\uDDF3\uDDF5-\uDDFA\uDDFC\uDDFE])|\uD83C\uDDF8(?:\uD83C[\uDDE6-\uDDEA\uDDEC-\uDDF4\uDDF7-\uDDF9\uDDFB\uDDFD-\uDDFF])|\uD83C\uDDEB(?:\uD83C[\uDDEE-\uDDF0\uDDF2\uDDF4\uDDF7])|\uD83C\uDDF5(?:\uD83C[\uDDE6\uDDEA-\uDDED\uDDF0-\uDDF3\uDDF7-\uDDF9\uDDFC\uDDFE])|\uD83C\uDDFB(?:\uD83C[\uDDE6\uDDE8\uDDEA\uDDEC\uDDEE\uDDF3\uDDFA])|\uD83C\uDDF3(?:\uD83C[\uDDE6\uDDE8\uDDEA-\uDDEC\uDDEE\uDDF1\uDDF4\uDDF5\uDDF7\uDDFA\uDDFF])|\uD83C\uDDE8(?:\uD83C[\uDDE6\uDDE8\uDDE9\uDDEB-\uDDEE\uDDF0-\uDDF5\uDDF7\uDDFA-\uDDFF])|\uD83C\uDDF1(?:\uD83C[\uDDE6-\uDDE8\uDDEE\uDDF0\uDDF7-\uDDFB\uDDFE])|\uD83C\uDDFF(?:\uD83C[\uDDE6\uDDF2\uDDFC])|\uD83C\uDDFC(?:\uD83C[\uDDEB\uDDF8])|\uD83C\uDDFA(?:\uD83C[\uDDE6\uDDEC\uDDF2\uDDF3\uDDF8\uDDFE\uDDFF])|\uD83C\uDDEE(?:\uD83C[\uDDE8-\uDDEA\uDDF1-\uDDF4\uDDF6-\uDDF9])|\uD83C\uDDEF(?:\uD83C[\uDDEA\uDDF2\uDDF4\uDDF5])|(?:\uD83C[\uDFC3\uDFC4\uDFCA]|\uD83D[\uDC6E\uDC71\uDC73\uDC77\uDC81\uDC82\uDC86\uDC87\uDE45-\uDE47\uDE4B\uDE4D\uDE4E\uDEA3\uDEB4-\uDEB6]|\uD83E[\uDD26\uDD37-\uDD39\uDD3D\uDD3E\uDDB8\uDDB9\uDDCD-\uDDCF\uDDD6-\uDDDD])(?:\uD83C[\uDFFB-\uDFFF])|(?:\u26F9|\uD83C[\uDFCB\uDFCC]|\uD83D\uDD75)(?:\uD83C[\uDFFB-\uDFFF])|(?:[\u261D\u270A-\u270D]|\uD83C[\uDF85\uDFC2\uDFC7]|\uD83D[\uDC42\uDC43\uDC46-\uDC50\uDC66\uDC67\uDC6B-\uDC6D\uDC70\uDC72\uDC74-\uDC76\uDC78\uDC7C\uDC83\uDC85\uDCAA\uDD74\uDD7A\uDD90\uDD95\uDD96\uDE4C\uDE4F\uDEC0\uDECC]|\uD83E[\uDD0F\uDD18-\uDD1C\uDD1E\uDD1F\uDD30-\uDD36\uDDB5\uDDB6\uDDBB\uDDD2-\uDDD5])(?:\uD83C[\uDFFB-\uDFFF])|(?:[\u231A\u231B\u23E9-\u23EC\u23F0\u23F3\u25FD\u25FE\u2614\u2615\u2648-\u2653\u267F\u2693\u26A1\u26AA\u26AB\u26BD\u26BE\u26C4\u26C5\u26CE\u26D4\u26EA\u26F2\u26F3\u26F5\u26FA\u26FD\u2705\u270A\u270B\u2728\u274C\u274E\u2753-\u2755\u2757\u2795-\u2797\u27B0\u27BF\u2B1B\u2B1C\u2B50\u2B55]|\uD83C[\uDC04\uDCCF\uDD8E\uDD91-\uDD9A\uDDE6-\uDDFF\uDE01\uDE1A\uDE2F\uDE32-\uDE36\uDE38-\uDE3A\uDE50\uDE51\uDF00-\uDF20\uDF2D-\uDF35\uDF37-\uDF7C\uDF7E-\uDF93\uDFA0-\uDFCA\uDFCF-\uDFD3\uDFE0-\uDFF0\uDFF4\uDFF8-\uDFFF]|\uD83D[\uDC00-\uDC3E\uDC40\uDC42-\uDCFC\uDCFF-\uDD3D\uDD4B-\uDD4E\uDD50-\uDD67\uDD7A\uDD95\uDD96\uDDA4\uDDFB-\uDE4F\uDE80-\uDEC5\uDECC\uDED0-\uDED2\uDED5\uDEEB\uDEEC\uDEF4-\uDEFA\uDFE0-\uDFEB]|\uD83E[\uDD0D-\uDD3A\uDD3C-\uDD45\uDD47-\uDD71\uDD73-\uDD76\uDD7A-\uDDA2\uDDA5-\uDDAA\uDDAE-\uDDCA\uDDCD-\uDDFF\uDE70-\uDE73\uDE78-\uDE7A\uDE80-\uDE82\uDE90-\uDE95])|(?:[#\*0-9\xA9\xAE\u203C\u2049\u2122\u2139\u2194-\u2199\u21A9\u21AA\u231A\u231B\u2328\u23CF\u23E9-\u23F3\u23F8-\u23FA\u24C2\u25AA\u25AB\u25B6\u25C0\u25FB-\u25FE\u2600-\u2604\u260E\u2611\u2614\u2615\u2618\u261D\u2620\u2622\u2623\u2626\u262A\u262E\u262F\u2638-\u263A\u2640\u2642\u2648-\u2653\u265F\u2660\u2663\u2665\u2666\u2668\u267B\u267E\u267F\u2692-\u2697\u2699\u269B\u269C\u26A0\u26A1\u26AA\u26AB\u26B0\u26B1\u26BD\u26BE\u26C4\u26C5\u26C8\u26CE\u26CF\u26D1\u26D3\u26D4\u26E9\u26EA\u26F0-\u26F5\u26F7-\u26FA\u26FD\u2702\u2705\u2708-\u270D\u270F\u2712\u2714\u2716\u271D\u2721\u2728\u2733\u2734\u2744\u2747\u274C\u274E\u2753-\u2755\u2757\u2763\u2764\u2795-\u2797\u27A1\u27B0\u27BF\u2934\u2935\u2B05-\u2B07\u2B1B\u2B1C\u2B50\u2B55\u3030\u303D\u3297\u3299]|\uD83C[\uDC04\uDCCF\uDD70\uDD71\uDD7E\uDD7F\uDD8E\uDD91-\uDD9A\uDDE6-\uDDFF\uDE01\uDE02\uDE1A\uDE2F\uDE32-\uDE3A\uDE50\uDE51\uDF00-\uDF21\uDF24-\uDF93\uDF96\uDF97\uDF99-\uDF9B\uDF9E-\uDFF0\uDFF3-\uDFF5\uDFF7-\uDFFF]|\uD83D[\uDC00-\uDCFD\uDCFF-\uDD3D\uDD49-\uDD4E\uDD50-\uDD67\uDD6F\uDD70\uDD73-\uDD7A\uDD87\uDD8A-\uDD8D\uDD90\uDD95\uDD96\uDDA4\uDDA5\uDDA8\uDDB1\uDDB2\uDDBC\uDDC2-\uDDC4\uDDD1-\uDDD3\uDDDC-\uDDDE\uDDE1\uDDE3\uDDE8\uDDEF\uDDF3\uDDFA-\uDE4F\uDE80-\uDEC5\uDECB-\uDED2\uDED5\uDEE0-\uDEE5\uDEE9\uDEEB\uDEEC\uDEF0\uDEF3-\uDEFA\uDFE0-\uDFEB]|\uD83E[\uDD0D-\uDD3A\uDD3C-\uDD45\uDD47-\uDD71\uDD73-\uDD76\uDD7A-\uDDA2\uDDA5-\uDDAA\uDDAE-\uDDCA\uDDCD-\uDDFF\uDE70-\uDE73\uDE78-\uDE7A\uDE80-\uDE82\uDE90-\uDE95])\uFE0F|(?:[\u261D\u26F9\u270A-\u270D]|\uD83C[\uDF85\uDFC2-\uDFC4\uDFC7\uDFCA-\uDFCC]|\uD83D[\uDC42\uDC43\uDC46-\uDC50\uDC66-\uDC78\uDC7C\uDC81-\uDC83\uDC85-\uDC87\uDC8F\uDC91\uDCAA\uDD74\uDD75\uDD7A\uDD90\uDD95\uDD96\uDE45-\uDE47\uDE4B-\uDE4F\uDEA3\uDEB4-\uDEB6\uDEC0\uDECC]|\uD83E[\uDD0F\uDD18-\uDD1F\uDD26\uDD30-\uDD39\uDD3C-\uDD3E\uDDB5\uDDB6\uDDB8\uDDB9\uDDBB\uDDCD-\uDDCF\uDDD1-\uDDDD])/g; }; const stripAnsi = stripAnsi$1; const isFullwidthCodePoint = isFullwidthCodePoint$2.exports; const emojiRegex = emojiRegex$1; const stringWidth$1 = string => { if (typeof string !== 'string' || string.length === 0) { return 0; } string = stripAnsi(string); if (string.length === 0) { return 0; } string = string.replace(emojiRegex(), ' '); let width = 0; for (let i = 0; i < string.length; i++) { const code = string.codePointAt(i); // Ignore control characters if (code <= 0x1F || code >= 0x7F && code <= 0x9F) { continue; } // Ignore combining characters if (code >= 0x300 && code <= 0x36F) { continue; } // Surrogates if (code > 0xFFFF) { i++; } width += isFullwidthCodePoint(code) ? 2 : 1; } return width; }; stringWidth$2.exports = stringWidth$1; // TODO: remove this in the next major version stringWidth$2.exports.default = stringWidth$1; var escapeStringRegexp$3 = string => { if (typeof string !== 'string') { throw new TypeError('Expected a string'); } // Escape characters with special meaning either inside or outside character sets. // Use a simple backslash escape when it’s always valid, and a \unnnn escape when the simpler form would be disallowed by Unicode patterns’ stricter grammar. return string.replace(/[|\\{}()[\]^$+*?.]/g, '\\$&').replace(/-/g, '\\x2d'); }; const getLast$p = arr => arr[arr.length - 1]; var getLast_1 = getLast$p; function _objectWithoutPropertiesLoose(source, excluded) { if (source == null) return {}; var target = {}; var sourceKeys = Object.keys(source); var key, i; for (i = 0; i < sourceKeys.length; i++) { key = sourceKeys[i]; if (excluded.indexOf(key) >= 0) continue; target[key] = source[key]; } return target; } function _objectWithoutProperties(source, excluded) { if (source == null) return {}; var target = _objectWithoutPropertiesLoose(source, excluded); var key, i; if (Object.getOwnPropertySymbols) { var sourceSymbolKeys = Object.getOwnPropertySymbols(source); for (i = 0; i < sourceSymbolKeys.length; i++) { key = sourceSymbolKeys[i]; if (excluded.indexOf(key) >= 0) continue; if (!Object.prototype.propertyIsEnumerable.call(source, key)) continue; target[key] = source[key]; } } return target; } var classof$2 = classofRaw$1; // `IsArray` abstract operation // https://tc39.es/ecma262/#sec-isarray // eslint-disable-next-line es/no-array-isarray -- safe var isArray$e = Array.isArray || function isArray(argument) { return classof$2(argument) == 'Array'; }; var uncurryThis$1 = functionUncurryThis; var aCallable$2 = aCallable$5; var bind$3 = uncurryThis$1(uncurryThis$1.bind); // optional / simple context binding var functionBindContext = function (fn, that) { aCallable$2(fn); return that === undefined ? fn : bind$3 ? bind$3(fn, that) : function (/* ...args */) { return fn.apply(that, arguments); }; }; var global$5 = global$s; var isArray$d = isArray$e; var lengthOfArrayLike$3 = lengthOfArrayLike$6; var bind$2 = functionBindContext; var TypeError$3 = global$5.TypeError; // `FlattenIntoArray` abstract operation // https://tc39.github.io/proposal-flatMap/#sec-FlattenIntoArray var flattenIntoArray$2 = function (target, original, source, sourceLen, start, depth, mapper, thisArg) { var targetIndex = start; var sourceIndex = 0; var mapFn = mapper ? bind$2(mapper, thisArg) : false; var element, elementLen; while (sourceIndex < sourceLen) { if (sourceIndex in source) { element = mapFn ? mapFn(source[sourceIndex], sourceIndex, original) : source[sourceIndex]; if (depth > 0 && isArray$d(element)) { elementLen = lengthOfArrayLike$3(element); targetIndex = flattenIntoArray$2(target, original, element, elementLen, targetIndex, depth - 1) - 1; } else { if (targetIndex >= 0x1FFFFFFFFFFFFF) throw TypeError$3('Exceed the acceptable array length'); target[targetIndex] = element; } targetIndex++; } sourceIndex++; } return targetIndex; }; var flattenIntoArray_1 = flattenIntoArray$2; var uncurryThis = functionUncurryThis; var fails = fails$8; var isCallable = isCallable$b; var classof$1 = classof$4; var getBuiltIn$1 = getBuiltIn$5; var inspectSource = inspectSource$3; var noop$3 = function () { /* empty */ }; var empty = []; var construct = getBuiltIn$1('Reflect', 'construct'); var constructorRegExp = /^\s*(?:class|function)\b/; var exec = uncurryThis(constructorRegExp.exec); var INCORRECT_TO_STRING = !constructorRegExp.exec(noop$3); var isConstructorModern = function (argument) { if (!isCallable(argument)) return false; try { construct(noop$3, empty, argument); return true; } catch (error) { return false; } }; var isConstructorLegacy = function (argument) { if (!isCallable(argument)) return false; switch (classof$1(argument)) { case 'AsyncFunction': case 'GeneratorFunction': case 'AsyncGeneratorFunction': return false; // we can't check .prototype since constructors produced by .bind haven't it } return INCORRECT_TO_STRING || !!exec(constructorRegExp, inspectSource(argument)); }; // `IsConstructor` abstract operation // https://tc39.es/ecma262/#sec-isconstructor var isConstructor$1 = !construct || fails(function () { var called; return isConstructorModern(isConstructorModern.call) || !isConstructorModern(Object) || !isConstructorModern(function () { called = true; }) || called; }) ? isConstructorLegacy : isConstructorModern; var global$4 = global$s; var isArray$c = isArray$e; var isConstructor = isConstructor$1; var isObject$6 = isObject$c; var wellKnownSymbol$3 = wellKnownSymbol$7; var SPECIES = wellKnownSymbol$3('species'); var Array$1 = global$4.Array; // a part of `ArraySpeciesCreate` abstract operation // https://tc39.es/ecma262/#sec-arrayspeciescreate var arraySpeciesConstructor$1 = function (originalArray) { var C; if (isArray$c(originalArray)) { C = originalArray.constructor; // cross-realm fallback if (isConstructor(C) && (C === Array$1 || isArray$c(C.prototype))) C = undefined; else if (isObject$6(C)) { C = C[SPECIES]; if (C === null) C = undefined; } } return C === undefined ? Array$1 : C; }; var arraySpeciesConstructor = arraySpeciesConstructor$1; // `ArraySpeciesCreate` abstract operation // https://tc39.es/ecma262/#sec-arrayspeciescreate var arraySpeciesCreate$2 = function (originalArray, length) { return new (arraySpeciesConstructor(originalArray))(length === 0 ? 0 : length); }; var $$2 = _export; var flattenIntoArray$1 = flattenIntoArray_1; var aCallable$1 = aCallable$5; var toObject$1 = toObject$4; var lengthOfArrayLike$2 = lengthOfArrayLike$6; var arraySpeciesCreate$1 = arraySpeciesCreate$2; // `Array.prototype.flatMap` method // https://tc39.es/ecma262/#sec-array.prototype.flatmap $$2({ target: 'Array', proto: true }, { flatMap: function flatMap(callbackfn /* , thisArg */) { var O = toObject$1(this); var sourceLen = lengthOfArrayLike$2(O); var A; aCallable$1(callbackfn); A = arraySpeciesCreate$1(O, 0); A.length = flattenIntoArray$1(A, O, O, sourceLen, 0, 1, callbackfn, arguments.length > 1 ? arguments[1] : undefined); return A; } }); var iterators = {}; var wellKnownSymbol$2 = wellKnownSymbol$7; var Iterators$1 = iterators; var ITERATOR$1 = wellKnownSymbol$2('iterator'); var ArrayPrototype$1 = Array.prototype; // check on default Array iterator var isArrayIteratorMethod$1 = function (it) { return it !== undefined && (Iterators$1.Array === it || ArrayPrototype$1[ITERATOR$1] === it); }; var classof = classof$4; var getMethod$1 = getMethod$3; var Iterators = iterators; var wellKnownSymbol$1 = wellKnownSymbol$7; var ITERATOR = wellKnownSymbol$1('iterator'); var getIteratorMethod$2 = function (it) { if (it != undefined) return getMethod$1(it, ITERATOR) || getMethod$1(it, '@@iterator') || Iterators[classof(it)]; }; var global$3 = global$s; var call$2 = functionCall; var aCallable = aCallable$5; var anObject$4 = anObject$7; var tryToString$1 = tryToString$3; var getIteratorMethod$1 = getIteratorMethod$2; var TypeError$2 = global$3.TypeError; var getIterator$1 = function (argument, usingIterator) { var iteratorMethod = arguments.length < 2 ? getIteratorMethod$1(argument) : usingIterator; if (aCallable(iteratorMethod)) return anObject$4(call$2(iteratorMethod, argument)); throw TypeError$2(tryToString$1(argument) + ' is not iterable'); }; var call$1 = functionCall; var anObject$3 = anObject$7; var getMethod = getMethod$3; var iteratorClose$1 = function (iterator, kind, value) { var innerResult, innerError; anObject$3(iterator); try { innerResult = getMethod(iterator, 'return'); if (!innerResult) { if (kind === 'throw') throw value; return value; } innerResult = call$1(innerResult, iterator); } catch (error) { innerError = true; innerResult = error; } if (kind === 'throw') throw value; if (innerError) throw innerResult; anObject$3(innerResult); return value; }; var global$2 = global$s; var bind$1 = functionBindContext; var call = functionCall; var anObject$2 = anObject$7; var tryToString = tryToString$3; var isArrayIteratorMethod = isArrayIteratorMethod$1; var lengthOfArrayLike$1 = lengthOfArrayLike$6; var isPrototypeOf = objectIsPrototypeOf; var getIterator = getIterator$1; var getIteratorMethod = getIteratorMethod$2; var iteratorClose = iteratorClose$1; var TypeError$1 = global$2.TypeError; var Result = function (stopped, result) { this.stopped = stopped; this.result = result; }; var ResultPrototype = Result.prototype; var iterate$1 = function (iterable, unboundFunction, options) { var that = options && options.that; var AS_ENTRIES = !!(options && options.AS_ENTRIES); var IS_ITERATOR = !!(options && options.IS_ITERATOR); var INTERRUPTED = !!(options && options.INTERRUPTED); var fn = bind$1(unboundFunction, that); var iterator, iterFn, index, length, result, next, step; var stop = function (condition) { if (iterator) iteratorClose(iterator, 'normal', condition); return new Result(true, condition); }; var callFn = function (value) { if (AS_ENTRIES) { anObject$2(value); return INTERRUPTED ? fn(value[0], value[1], stop) : fn(value[0], value[1]); } return INTERRUPTED ? fn(value, stop) : fn(value); }; if (IS_ITERATOR) { iterator = iterable; } else { iterFn = getIteratorMethod(iterable); if (!iterFn) throw TypeError$1(tryToString(iterable) + ' is not iterable'); // optimisation for array iterators if (isArrayIteratorMethod(iterFn)) { for (index = 0, length = lengthOfArrayLike$1(iterable); length > index; index++) { result = callFn(iterable[index]); if (result && isPrototypeOf(ResultPrototype, result)) return result; } return new Result(false); } iterator = getIterator(iterable, iterFn); } next = iterator.next; while (!(step = call(next, iterator)).done) { try { result = callFn(step.value); } catch (error) { iteratorClose(iterator, 'throw', error); } if (typeof result == 'object' && result && isPrototypeOf(ResultPrototype, result)) return result; } return new Result(false); }; var toPropertyKey = toPropertyKey$3; var definePropertyModule$2 = objectDefineProperty; var createPropertyDescriptor = createPropertyDescriptor$3; var createProperty$1 = function (object, key, value) { var propertyKey = toPropertyKey(key); if (propertyKey in object) definePropertyModule$2.f(object, propertyKey, createPropertyDescriptor(0, value)); else object[propertyKey] = value; }; var $$1 = _export; var iterate = iterate$1; var createProperty = createProperty$1; // `Object.fromEntries` method // https://github.com/tc39/proposal-object-from-entries $$1({ target: 'Object', stat: true }, { fromEntries: function fromEntries(iterable) { var obj = {}; iterate(iterable, function (k, v) { createProperty(obj, k, v); }, { AS_ENTRIES: true }); return obj; } }); const debug$1 = typeof process === 'object' && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG) ? (...args) => console.error('SEMVER', ...args) : () => {}; var debug_1 = debug$1; // Not necessarily the package version of this code. const SEMVER_SPEC_VERSION = '2.0.0'; const MAX_LENGTH$3 = 256; const MAX_SAFE_INTEGER$3 = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ 9007199254740991; // Max safe segment length for coercion. const MAX_SAFE_COMPONENT_LENGTH = 16; var constants$7 = { SEMVER_SPEC_VERSION, MAX_LENGTH: MAX_LENGTH$3, MAX_SAFE_INTEGER: MAX_SAFE_INTEGER$3, MAX_SAFE_COMPONENT_LENGTH }; var re$1 = {exports: {}}; (function (module, exports) { const { MAX_SAFE_COMPONENT_LENGTH } = constants$7; const debug = debug_1; exports = module.exports = {}; // The actual regexps go on exports.re const re = exports.re = []; const src = exports.src = []; const t = exports.t = {}; let R = 0; const createToken = (name, value, isGlobal) => { const index = R++; debug(index, value); t[name] = index; src[index] = value; re[index] = new RegExp(value, isGlobal ? 'g' : undefined); }; // The following Regular Expressions can be used for tokenizing, // validating, and parsing SemVer version strings. // ## Numeric Identifier // A single `0`, or a non-zero digit followed by zero or more digits. createToken('NUMERICIDENTIFIER', '0|[1-9]\\d*'); createToken('NUMERICIDENTIFIERLOOSE', '[0-9]+'); // ## Non-numeric Identifier // Zero or more digits, followed by a letter or hyphen, and then zero or // more letters, digits, or hyphens. createToken('NONNUMERICIDENTIFIER', '\\d*[a-zA-Z-][a-zA-Z0-9-]*'); // ## Main Version // Three dot-separated numeric identifiers. createToken('MAINVERSION', `(${src[t.NUMERICIDENTIFIER]})\\.` + `(${src[t.NUMERICIDENTIFIER]})\\.` + `(${src[t.NUMERICIDENTIFIER]})`); createToken('MAINVERSIONLOOSE', `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.` + `(${src[t.NUMERICIDENTIFIERLOOSE]})\\.` + `(${src[t.NUMERICIDENTIFIERLOOSE]})`); // ## Pre-release Version Identifier // A numeric identifier, or a non-numeric identifier. createToken('PRERELEASEIDENTIFIER', `(?:${src[t.NUMERICIDENTIFIER]}|${src[t.NONNUMERICIDENTIFIER]})`); createToken('PRERELEASEIDENTIFIERLOOSE', `(?:${src[t.NUMERICIDENTIFIERLOOSE]}|${src[t.NONNUMERICIDENTIFIER]})`); // ## Pre-release Version // Hyphen, followed by one or more dot-separated pre-release version // identifiers. createToken('PRERELEASE', `(?:-(${src[t.PRERELEASEIDENTIFIER]}(?:\\.${src[t.PRERELEASEIDENTIFIER]})*))`); createToken('PRERELEASELOOSE', `(?:-?(${src[t.PRERELEASEIDENTIFIERLOOSE]}(?:\\.${src[t.PRERELEASEIDENTIFIERLOOSE]})*))`); // ## Build Metadata Identifier // Any combination of digits, letters, or hyphens. createToken('BUILDIDENTIFIER', '[0-9A-Za-z-]+'); // ## Build Metadata // Plus sign, followed by one or more period-separated build metadata // identifiers. createToken('BUILD', `(?:\\+(${src[t.BUILDIDENTIFIER]}(?:\\.${src[t.BUILDIDENTIFIER]})*))`); // ## Full Version String // A main version, followed optionally by a pre-release version and // build metadata. // Note that the only major, minor, patch, and pre-release sections of // the version string are capturing groups. The build metadata is not a // capturing group, because it should not ever be used in version // comparison. createToken('FULLPLAIN', `v?${src[t.MAINVERSION]}${src[t.PRERELEASE]}?${src[t.BUILD]}?`); createToken('FULL', `^${src[t.FULLPLAIN]}$`); // like full, but allows v1.2.3 and =1.2.3, which people do sometimes. // also, 1.0.0alpha1 (prerelease without the hyphen) which is pretty // common in the npm registry. createToken('LOOSEPLAIN', `[v=\\s]*${src[t.MAINVERSIONLOOSE]}${src[t.PRERELEASELOOSE]}?${src[t.BUILD]}?`); createToken('LOOSE', `^${src[t.LOOSEPLAIN]}$`); createToken('GTLT', '((?:<|>)?=?)'); // Something like "2.*" or "1.2.x". // Note that "x.x" is a valid xRange identifer, meaning "any version" // Only the first item is strictly required. createToken('XRANGEIDENTIFIERLOOSE', `${src[t.NUMERICIDENTIFIERLOOSE]}|x|X|\\*`); createToken('XRANGEIDENTIFIER', `${src[t.NUMERICIDENTIFIER]}|x|X|\\*`); createToken('XRANGEPLAIN', `[v=\\s]*(${src[t.XRANGEIDENTIFIER]})` + `(?:\\.(${src[t.XRANGEIDENTIFIER]})` + `(?:\\.(${src[t.XRANGEIDENTIFIER]})` + `(?:${src[t.PRERELEASE]})?${src[t.BUILD]}?` + `)?)?`); createToken('XRANGEPLAINLOOSE', `[v=\\s]*(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:\\.(${src[t.XRANGEIDENTIFIERLOOSE]})` + `(?:${src[t.PRERELEASELOOSE]})?${src[t.BUILD]}?` + `)?)?`); createToken('XRANGE', `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAIN]}$`); createToken('XRANGELOOSE', `^${src[t.GTLT]}\\s*${src[t.XRANGEPLAINLOOSE]}$`); // Coercion. // Extract anything that could conceivably be a part of a valid semver createToken('COERCE', `${'(^|[^\\d])' + '(\\d{1,'}${MAX_SAFE_COMPONENT_LENGTH}})` + `(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?` + `(?:\\.(\\d{1,${MAX_SAFE_COMPONENT_LENGTH}}))?` + `(?:$|[^\\d])`); createToken('COERCERTL', src[t.COERCE], true); // Tilde ranges. // Meaning is "reasonably at or greater than" createToken('LONETILDE', '(?:~>?)'); createToken('TILDETRIM', `(\\s*)${src[t.LONETILDE]}\\s+`, true); exports.tildeTrimReplace = '$1~'; createToken('TILDE', `^${src[t.LONETILDE]}${src[t.XRANGEPLAIN]}$`); createToken('TILDELOOSE', `^${src[t.LONETILDE]}${src[t.XRANGEPLAINLOOSE]}$`); // Caret ranges. // Meaning is "at least and backwards compatible with" createToken('LONECARET', '(?:\\^)'); createToken('CARETTRIM', `(\\s*)${src[t.LONECARET]}\\s+`, true); exports.caretTrimReplace = '$1^'; createToken('CARET', `^${src[t.LONECARET]}${src[t.XRANGEPLAIN]}$`); createToken('CARETLOOSE', `^${src[t.LONECARET]}${src[t.XRANGEPLAINLOOSE]}$`); // A simple gt/lt/eq thing, or just "" to indicate "any version" createToken('COMPARATORLOOSE', `^${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]})$|^$`); createToken('COMPARATOR', `^${src[t.GTLT]}\\s*(${src[t.FULLPLAIN]})$|^$`); // An expression to strip any whitespace between the gtlt and the thing // it modifies, so that `> 1.2.3` ==> `>1.2.3` createToken('COMPARATORTRIM', `(\\s*)${src[t.GTLT]}\\s*(${src[t.LOOSEPLAIN]}|${src[t.XRANGEPLAIN]})`, true); exports.comparatorTrimReplace = '$1$2$3'; // Something like `1.2.3 - 1.2.4` // Note that these all use the loose form, because they'll be // checked against either the strict or loose comparator form // later. createToken('HYPHENRANGE', `^\\s*(${src[t.XRANGEPLAIN]})` + `\\s+-\\s+` + `(${src[t.XRANGEPLAIN]})` + `\\s*$`); createToken('HYPHENRANGELOOSE', `^\\s*(${src[t.XRANGEPLAINLOOSE]})` + `\\s+-\\s+` + `(${src[t.XRANGEPLAINLOOSE]})` + `\\s*$`); // Star ranges basically just allow anything at all. createToken('STAR', '(<|>)?=?\\s*\\*'); // >=0.0.0 is like a star createToken('GTE0', '^\\s*>=\\s*0\.0\.0\\s*$'); createToken('GTE0PRE', '^\\s*>=\\s*0\.0\.0-0\\s*$'); })(re$1, re$1.exports); // obj with keys in a consistent order. const opts$1 = ['includePrerelease', 'loose', 'rtl']; const parseOptions$1 = options => !options ? {} : typeof options !== 'object' ? { loose: true } : opts$1.filter(k => options[k]).reduce((options, k) => { options[k] = true; return options; }, {}); var parseOptions_1 = parseOptions$1; const numeric$1 = /^[0-9]+$/; const compareIdentifiers$1 = (a, b) => { const anum = numeric$1.test(a); const bnum = numeric$1.test(b); if (anum && bnum) { a = +a; b = +b; } return a === b ? 0 : anum && !bnum ? -1 : bnum && !anum ? 1 : a < b ? -1 : 1; }; const rcompareIdentifiers = (a, b) => compareIdentifiers$1(b, a); var identifiers = { compareIdentifiers: compareIdentifiers$1, rcompareIdentifiers }; const debug = debug_1; const { MAX_LENGTH: MAX_LENGTH$2, MAX_SAFE_INTEGER: MAX_SAFE_INTEGER$2 } = constants$7; const { re, t } = re$1.exports; const parseOptions = parseOptions_1; const { compareIdentifiers } = identifiers; class SemVer$1 { constructor(version, options) { options = parseOptions(options); if (version instanceof SemVer$1) { if (version.loose === !!options.loose && version.includePrerelease === !!options.includePrerelease) { return version; } else { version = version.version; } } else if (typeof version !== 'string') { throw new TypeError(`Invalid Version: ${version}`); } if (version.length > MAX_LENGTH$2) { throw new TypeError(`version is longer than ${MAX_LENGTH$2} characters`); } debug('SemVer', version, options); this.options = options; this.loose = !!options.loose; // this isn't actually relevant for versions, but keep it so that we // don't run into trouble passing this.options around. this.includePrerelease = !!options.includePrerelease; const m = version.trim().match(options.loose ? re[t.LOOSE] : re[t.FULL]); if (!m) { throw new TypeError(`Invalid Version: ${version}`); } this.raw = version; // these are actually numbers this.major = +m[1]; this.minor = +m[2]; this.patch = +m[3]; if (this.major > MAX_SAFE_INTEGER$2 || this.major < 0) { throw new TypeError('Invalid major version'); } if (this.minor > MAX_SAFE_INTEGER$2 || this.minor < 0) { throw new TypeError('Invalid minor version'); } if (this.patch > MAX_SAFE_INTEGER$2 || this.patch < 0) { throw new TypeError('Invalid patch version'); } // numberify any prerelease numeric ids if (!m[4]) { this.prerelease = []; } else { this.prerelease = m[4].split('.').map(id => { if (/^[0-9]+$/.test(id)) { const num = +id; if (num >= 0 && num < MAX_SAFE_INTEGER$2) { return num; } } return id; }); } this.build = m[5] ? m[5].split('.') : []; this.format(); } format() { this.version = `${this.major}.${this.minor}.${this.patch}`; if (this.prerelease.length) { this.version += `-${this.prerelease.join('.')}`; } return this.version; } toString() { return this.version; } compare(other) { debug('SemVer.compare', this.version, this.options, other); if (!(other instanceof SemVer$1)) { if (typeof other === 'string' && other === this.version) { return 0; } other = new SemVer$1(other, this.options); } if (other.version === this.version) { return 0; } return this.compareMain(other) || this.comparePre(other); } compareMain(other) { if (!(other instanceof SemVer$1)) { other = new SemVer$1(other, this.options); } return compareIdentifiers(this.major, other.major) || compareIdentifiers(this.minor, other.minor) || compareIdentifiers(this.patch, other.patch); } comparePre(other) { if (!(other instanceof SemVer$1)) { other = new SemVer$1(other, this.options); } // NOT having a prerelease is > having one if (this.prerelease.length && !other.prerelease.length) { return -1; } else if (!this.prerelease.length && other.prerelease.length) { return 1; } else if (!this.prerelease.length && !other.prerelease.length) { return 0; } let i = 0; do { const a = this.prerelease[i]; const b = other.prerelease[i]; debug('prerelease compare', i, a, b); if (a === undefined && b === undefined) { return 0; } else if (b === undefined) { return 1; } else if (a === undefined) { return -1; } else if (a === b) { continue; } else { return compareIdentifiers(a, b); } } while (++i); } compareBuild(other) { if (!(other instanceof SemVer$1)) { other = new SemVer$1(other, this.options); } let i = 0; do { const a = this.build[i]; const b = other.build[i]; debug('prerelease compare', i, a, b); if (a === undefined && b === undefined) { return 0; } else if (b === undefined) { return 1; } else if (a === undefined) { return -1; } else if (a === b) { continue; } else { return compareIdentifiers(a, b); } } while (++i); } // preminor will bump the version up to the next minor release, and immediately // down to pre-release. premajor and prepatch work the same way. inc(release, identifier) { switch (release) { case 'premajor': this.prerelease.length = 0; this.patch = 0; this.minor = 0; this.major++; this.inc('pre', identifier); break; case 'preminor': this.prerelease.length = 0; this.patch = 0; this.minor++; this.inc('pre', identifier); break; case 'prepatch': // If this is already a prerelease, it will bump to the next version // drop any prereleases that might already exist, since they are not // relevant at this point. this.prerelease.length = 0; this.inc('patch', identifier); this.inc('pre', identifier); break; // If the input is a non-prerelease version, this acts the same as // prepatch. case 'prerelease': if (this.prerelease.length === 0) { this.inc('patch', identifier); } this.inc('pre', identifier); break; case 'major': // If this is a pre-major version, bump up to the same major version. // Otherwise increment major. // 1.0.0-5 bumps to 1.0.0 // 1.1.0 bumps to 2.0.0 if (this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0) { this.major++; } this.minor = 0; this.patch = 0; this.prerelease = []; break; case 'minor': // If this is a pre-minor version, bump up to the same minor version. // Otherwise increment minor. // 1.2.0-5 bumps to 1.2.0 // 1.2.1 bumps to 1.3.0 if (this.patch !== 0 || this.prerelease.length === 0) { this.minor++; } this.patch = 0; this.prerelease = []; break; case 'patch': // If this is not a pre-release version, it will increment the patch. // If it is a pre-release it will bump up to the same patch version. // 1.2.0-5 patches to 1.2.0 // 1.2.0 patches to 1.2.1 if (this.prerelease.length === 0) { this.patch++; } this.prerelease = []; break; // This probably shouldn't be used publicly. // 1.0.0 'pre' would become 1.0.0-0 which is the wrong direction. case 'pre': if (this.prerelease.length === 0) { this.prerelease = [0]; } else { let i = this.prerelease.length; while (--i >= 0) { if (typeof this.prerelease[i] === 'number') { this.prerelease[i]++; i = -2; } } if (i === -1) { // didn't increment anything this.prerelease.push(0); } } if (identifier) { // 1.2.0-beta.1 bumps to 1.2.0-beta.2, // 1.2.0-beta.fooblz or 1.2.0-beta bumps to 1.2.0-beta.0 if (this.prerelease[0] === identifier) { if (isNaN(this.prerelease[1])) { this.prerelease = [identifier, 0]; } } else { this.prerelease = [identifier, 0]; } } break; default: throw new Error(`invalid increment argument: ${release}`); } this.format(); this.raw = this.version; return this; } } var semver$3 = SemVer$1; const SemVer = semver$3; const compare$3 = (a, b, loose) => new SemVer(a, loose).compare(new SemVer(b, loose)); var compare_1 = compare$3; const compare$2 = compare_1; const lt = (a, b, loose) => compare$2(a, b, loose) < 0; var lt_1 = lt; const compare$1 = compare_1; const gte$1 = (a, b, loose) => compare$1(a, b, loose) >= 0; var gte_1 = gte$1; var arrayify$1 = (object, keyName) => Object.entries(object).map(([key, value]) => Object.assign({ [keyName]: key }, value)); var lib$5 = {exports: {}}; (function (module, exports) { Object.defineProperty(exports, "__esModule", { value: true }); exports.outdent = void 0; // In the absence of a WeakSet or WeakMap implementation, don't break, but don't cache either. function noop() { var args = []; for (var _i = 0; _i < arguments.length; _i++) { args[_i] = arguments[_i]; } } function createWeakMap() { if (typeof WeakMap !== "undefined") { return new WeakMap(); } else { return fakeSetOrMap(); } } /** * Creates and returns a no-op implementation of a WeakMap / WeakSet that never stores anything. */ function fakeSetOrMap() { return { add: noop, delete: noop, get: noop, set: noop, has: function (k) { return false; } }; } // Safe hasOwnProperty var hop = Object.prototype.hasOwnProperty; var has = function (obj, prop) { return hop.call(obj, prop); }; // Copy all own enumerable properties from source to target function extend(target, source) { for (var prop in source) { if (has(source, prop)) { target[prop] = source[prop]; } } return target; } var reLeadingNewline = /^[ \t]*(?:\r\n|\r|\n)/; var reTrailingNewline = /(?:\r\n|\r|\n)[ \t]*$/; var reStartsWithNewlineOrIsEmpty = /^(?:[\r\n]|$)/; var reDetectIndentation = /(?:\r\n|\r|\n)([ \t]*)(?:[^ \t\r\n]|$)/; var reOnlyWhitespaceWithAtLeastOneNewline = /^[ \t]*[\r\n][ \t\r\n]*$/; function _outdentArray(strings, firstInterpolatedValueSetsIndentationLevel, options) { // If first interpolated value is a reference to outdent, // determine indentation level from the indentation of the interpolated value. var indentationLevel = 0; var match = strings[0].match(reDetectIndentation); if (match) { indentationLevel = match[1].length; } var reSource = "(\\r\\n|\\r|\\n).{0," + indentationLevel + "}"; var reMatchIndent = new RegExp(reSource, "g"); if (firstInterpolatedValueSetsIndentationLevel) { strings = strings.slice(1); } var newline = options.newline, trimLeadingNewline = options.trimLeadingNewline, trimTrailingNewline = options.trimTrailingNewline; var normalizeNewlines = typeof newline === "string"; var l = strings.length; var outdentedStrings = strings.map(function (v, i) { // Remove leading indentation from all lines v = v.replace(reMatchIndent, "$1"); // Trim a leading newline from the first string if (i === 0 && trimLeadingNewline) { v = v.replace(reLeadingNewline, ""); } // Trim a trailing newline from the last string if (i === l - 1 && trimTrailingNewline) { v = v.replace(reTrailingNewline, ""); } // Normalize newlines if (normalizeNewlines) { v = v.replace(/\r\n|\n|\r/g, function (_) { return newline; }); } return v; }); return outdentedStrings; } function concatStringsAndValues(strings, values) { var ret = ""; for (var i = 0, l = strings.length; i < l; i++) { ret += strings[i]; if (i < l - 1) { ret += values[i]; } } return ret; } function isTemplateStringsArray(v) { return has(v, "raw") && has(v, "length"); } /** * It is assumed that opts will not change. If this is a problem, clone your options object and pass the clone to * makeInstance * @param options * @return {outdent} */ function createInstance(options) { /** Cache of pre-processed template literal arrays */ var arrayAutoIndentCache = createWeakMap(); /** * Cache of pre-processed template literal arrays, where first interpolated value is a reference to outdent, * before interpolated values are injected. */ var arrayFirstInterpSetsIndentCache = createWeakMap(); function outdent(stringsOrOptions) { var values = []; for (var _i = 1; _i < arguments.length; _i++) { values[_i - 1] = arguments[_i]; } /* tslint:enable:no-shadowed-variable */ if (isTemplateStringsArray(stringsOrOptions)) { var strings = stringsOrOptions; // Is first interpolated value a reference to outdent, alone on its own line, without any preceding non-whitespace? var firstInterpolatedValueSetsIndentationLevel = (values[0] === outdent || values[0] === defaultOutdent) && reOnlyWhitespaceWithAtLeastOneNewline.test(strings[0]) && reStartsWithNewlineOrIsEmpty.test(strings[1]); // Perform outdentation var cache = firstInterpolatedValueSetsIndentationLevel ? arrayFirstInterpSetsIndentCache : arrayAutoIndentCache; var renderedArray = cache.get(strings); if (!renderedArray) { renderedArray = _outdentArray(strings, firstInterpolatedValueSetsIndentationLevel, options); cache.set(strings, renderedArray); } /** If no interpolated values, skip concatenation step */ if (values.length === 0) { return renderedArray[0]; } /** Concatenate string literals with interpolated values */ var rendered = concatStringsAndValues(renderedArray, firstInterpolatedValueSetsIndentationLevel ? values.slice(1) : values); return rendered; } else { // Create and return a new instance of outdent with the given options return createInstance(extend(extend({}, options), stringsOrOptions || {})); } } var fullOutdent = extend(outdent, { string: function (str) { return _outdentArray([str], false, options)[0]; } }); return fullOutdent; } var defaultOutdent = createInstance({ trimLeadingNewline: true, trimTrailingNewline: true }); exports.outdent = defaultOutdent; // Named exports. Simple and preferred. // import outdent from 'outdent'; exports.default = defaultOutdent; { // In webpack harmony-modules environments, module.exports is read-only, // so we fail gracefully. try { module.exports = defaultOutdent; Object.defineProperty(defaultOutdent, "__esModule", { value: true }); defaultOutdent.default = defaultOutdent; defaultOutdent.outdent = defaultOutdent; } catch (e) {} } })(lib$5, lib$5.exports); const { outdent } = lib$5.exports; const CATEGORY_CONFIG = "Config"; const CATEGORY_EDITOR = "Editor"; const CATEGORY_FORMAT = "Format"; const CATEGORY_OTHER = "Other"; const CATEGORY_OUTPUT = "Output"; const CATEGORY_GLOBAL = "Global"; const CATEGORY_SPECIAL = "Special"; /** * @typedef {Object} OptionInfo * @property {string} [since] - available since version * @property {string} category * @property {'int' | 'boolean' | 'choice' | 'path'} type * @property {boolean} [array] - indicate it's an array of the specified type * @property {OptionValueInfo} [default] * @property {OptionRangeInfo} [range] - for type int * @property {string} description * @property {string} [deprecated] - deprecated since version * @property {OptionRedirectInfo} [redirect] - redirect deprecated option * @property {(value: any) => boolean} [exception] * @property {OptionChoiceInfo[]} [choices] - for type choice * @property {string} [cliName] * @property {string} [cliCategory] * @property {string} [cliDescription] * * @typedef {number | boolean | string} OptionValue * @typedef {OptionValue | [{ value: OptionValue[] }] | Array<{ since: string, value: OptionValue}>} OptionValueInfo * * @typedef {Object} OptionRedirectInfo * @property {string} option * @property {OptionValue} value * * @typedef {Object} OptionRangeInfo * @property {number} start - recommended range start * @property {number} end - recommended range end * @property {number} step - recommended range step * * @typedef {Object} OptionChoiceInfo * @property {boolean | string} value - boolean for the option that is originally boolean type * @property {string} description * @property {string} [since] - undefined if available since the first version of the option * @property {string} [deprecated] - deprecated since version * @property {OptionValueInfo} [redirect] - redirect deprecated value */ /** @type {{ [name: string]: OptionInfo }} */ const options$e = { cursorOffset: { since: "1.4.0", category: CATEGORY_SPECIAL, type: "int", default: -1, range: { start: -1, end: Number.POSITIVE_INFINITY, step: 1 }, description: outdent` Print (to stderr) where a cursor at the given position would move to after formatting. This option cannot be used with --range-start and --range-end. `, cliCategory: CATEGORY_EDITOR }, endOfLine: { since: "1.15.0", category: CATEGORY_GLOBAL, type: "choice", default: [{ since: "1.15.0", value: "auto" }, { since: "2.0.0", value: "lf" }], description: "Which end of line characters to apply.", choices: [{ value: "lf", description: "Line Feed only (\\n), common on Linux and macOS as well as inside git repos" }, { value: "crlf", description: "Carriage Return + Line Feed characters (\\r\\n), common on Windows" }, { value: "cr", description: "Carriage Return character only (\\r), used very rarely" }, { value: "auto", description: outdent` Maintain existing (mixed values within one file are normalised by looking at what's used after the first line) ` }] }, filepath: { since: "1.4.0", category: CATEGORY_SPECIAL, type: "path", description: "Specify the input filepath. This will be used to do parser inference.", cliName: "stdin-filepath", cliCategory: CATEGORY_OTHER, cliDescription: "Path to the file to pretend that stdin comes from." }, insertPragma: { since: "1.8.0", category: CATEGORY_SPECIAL, type: "boolean", default: false, description: "Insert @format pragma into file's first docblock comment.", cliCategory: CATEGORY_OTHER }, parser: { since: "0.0.10", category: CATEGORY_GLOBAL, type: "choice", default: [{ since: "0.0.10", value: "babylon" }, { since: "1.13.0", value: undefined }], description: "Which parser to use.", exception: value => typeof value === "string" || typeof value === "function", choices: [{ value: "flow", description: "Flow" }, { value: "babel", since: "1.16.0", description: "JavaScript" }, { value: "babel-flow", since: "1.16.0", description: "Flow" }, { value: "babel-ts", since: "2.0.0", description: "TypeScript" }, { value: "typescript", since: "1.4.0", description: "TypeScript" }, { value: "espree", since: "2.2.0", description: "JavaScript" }, { value: "meriyah", since: "2.2.0", description: "JavaScript" }, { value: "css", since: "1.7.1", description: "CSS" }, { value: "less", since: "1.7.1", description: "Less" }, { value: "scss", since: "1.7.1", description: "SCSS" }, { value: "json", since: "1.5.0", description: "JSON" }, { value: "json5", since: "1.13.0", description: "JSON5" }, { value: "json-stringify", since: "1.13.0", description: "JSON.stringify" }, { value: "graphql", since: "1.5.0", description: "GraphQL" }, { value: "markdown", since: "1.8.0", description: "Markdown" }, { value: "mdx", since: "1.15.0", description: "MDX" }, { value: "vue", since: "1.10.0", description: "Vue" }, { value: "yaml", since: "1.14.0", description: "YAML" }, { value: "glimmer", since: "2.3.0", description: "Ember / Handlebars" }, { value: "html", since: "1.15.0", description: "HTML" }, { value: "angular", since: "1.15.0", description: "Angular" }, { value: "lwc", since: "1.17.0", description: "Lightning Web Components" }] }, plugins: { since: "1.10.0", type: "path", array: true, default: [{ value: [] }], category: CATEGORY_GLOBAL, description: "Add a plugin. Multiple plugins can be passed as separate `--plugin`s.", exception: value => typeof value === "string" || typeof value === "object", cliName: "plugin", cliCategory: CATEGORY_CONFIG }, pluginSearchDirs: { since: "1.13.0", type: "path", array: true, default: [{ value: [] }], category: CATEGORY_GLOBAL, description: outdent` Custom directory that contains prettier plugins in node_modules subdirectory. Overrides default behavior when plugins are searched relatively to the location of Prettier. Multiple values are accepted. `, exception: value => typeof value === "string" || typeof value === "object", cliName: "plugin-search-dir", cliCategory: CATEGORY_CONFIG }, printWidth: { since: "0.0.0", category: CATEGORY_GLOBAL, type: "int", default: 80, description: "The line length where Prettier will try wrap.", range: { start: 0, end: Number.POSITIVE_INFINITY, step: 1 } }, rangeEnd: { since: "1.4.0", category: CATEGORY_SPECIAL, type: "int", default: Number.POSITIVE_INFINITY, range: { start: 0, end: Number.POSITIVE_INFINITY, step: 1 }, description: outdent` Format code ending at a given character offset (exclusive). The range will extend forwards to the end of the selected statement. This option cannot be used with --cursor-offset. `, cliCategory: CATEGORY_EDITOR }, rangeStart: { since: "1.4.0", category: CATEGORY_SPECIAL, type: "int", default: 0, range: { start: 0, end: Number.POSITIVE_INFINITY, step: 1 }, description: outdent` Format code starting at a given character offset. The range will extend backwards to the start of the first line containing the selected statement. This option cannot be used with --cursor-offset. `, cliCategory: CATEGORY_EDITOR }, requirePragma: { since: "1.7.0", category: CATEGORY_SPECIAL, type: "boolean", default: false, description: outdent` Require either '@prettier' or '@format' to be present in the file's first docblock comment in order for it to be formatted. `, cliCategory: CATEGORY_OTHER }, tabWidth: { type: "int", category: CATEGORY_GLOBAL, default: 2, description: "Number of spaces per indentation level.", range: { start: 0, end: Number.POSITIVE_INFINITY, step: 1 } }, useTabs: { since: "1.0.0", category: CATEGORY_GLOBAL, type: "boolean", default: false, description: "Indent with tabs instead of spaces." }, embeddedLanguageFormatting: { since: "2.1.0", category: CATEGORY_GLOBAL, type: "choice", default: [{ since: "2.1.0", value: "auto" }], description: "Control how Prettier formats quoted code embedded in the file.", choices: [{ value: "auto", description: "Format embedded code if Prettier can automatically identify it." }, { value: "off", description: "Never automatically format embedded code." }] } }; var coreOptions$1 = { CATEGORY_CONFIG, CATEGORY_EDITOR, CATEGORY_FORMAT, CATEGORY_OTHER, CATEGORY_OUTPUT, CATEGORY_GLOBAL, CATEGORY_SPECIAL, options: options$e }; const _excluded$3 = ["cliName", "cliCategory", "cliDescription"]; const semver$2 = { compare: compare_1, lt: lt_1, gte: gte_1 }; const arrayify = arrayify$1; const currentVersion = require$$0$5.version; const coreOptions = coreOptions$1.options; /** * Strings in `plugins` and `pluginSearchDirs` are handled by a wrapped version * of this function created by `withPlugins`. Don't pass them here directly. * @param {object} param0 * @param {(string | object)[]=} param0.plugins Strings are resolved by `withPlugins`. * @param {string[]=} param0.pluginSearchDirs Added by `withPlugins`. * @param {boolean=} param0.showUnreleased * @param {boolean=} param0.showDeprecated * @param {boolean=} param0.showInternal */ function getSupportInfo$3({ plugins = [], showUnreleased = false, showDeprecated = false, showInternal = false } = {}) { // pre-release version is smaller than the normal version in semver, // we need to treat it as the normal one so as to test new features. const version = currentVersion.split("-", 1)[0]; const languages = plugins.flatMap(plugin => plugin.languages || []).filter(filterSince); const options = arrayify(Object.assign({}, ...plugins.map(({ options }) => options), coreOptions), "name").filter(option => filterSince(option) && filterDeprecated(option)).sort((a, b) => a.name === b.name ? 0 : a.name < b.name ? -1 : 1).map(mapInternal).map(option => { option = Object.assign({}, option); if (Array.isArray(option.default)) { option.default = option.default.length === 1 ? option.default[0].value : option.default.filter(filterSince).sort((info1, info2) => semver$2.compare(info2.since, info1.since))[0].value; } if (Array.isArray(option.choices)) { option.choices = option.choices.filter(option => filterSince(option) && filterDeprecated(option)); if (option.name === "parser") { collectParsersFromLanguages(option, languages, plugins); } } const pluginDefaults = Object.fromEntries(plugins.filter(plugin => plugin.defaultOptions && plugin.defaultOptions[option.name] !== undefined).map(plugin => [plugin.name, plugin.defaultOptions[option.name]])); return Object.assign(Object.assign({}, option), {}, { pluginDefaults }); }); return { languages, options }; function filterSince(object) { return showUnreleased || !("since" in object) || object.since && semver$2.gte(version, object.since); } function filterDeprecated(object) { return showDeprecated || !("deprecated" in object) || object.deprecated && semver$2.lt(version, object.deprecated); } function mapInternal(object) { if (showInternal) { return object; } const newObject = _objectWithoutProperties(object, _excluded$3); return newObject; } } function collectParsersFromLanguages(option, languages, plugins) { const existingValues = new Set(option.choices.map(choice => choice.value)); for (const language of languages) { if (language.parsers) { for (const value of language.parsers) { if (!existingValues.has(value)) { existingValues.add(value); const plugin = plugins.find(plugin => plugin.parsers && plugin.parsers[value]); let description = language.name; if (plugin && plugin.name) { description += ` (plugin: ${plugin.name})`; } option.choices.push({ value, description }); } } } } } var support = { getSupportInfo: getSupportInfo$3 }; const stringWidth = stringWidth$2.exports; const escapeStringRegexp$2 = escapeStringRegexp$3; const getLast$o = getLast_1; const { getSupportInfo: getSupportInfo$2 } = support; const notAsciiRegex = /[^\x20-\x7F]/; const getPenultimate$1 = arr => arr[arr.length - 2]; /** * @typedef {{backwards?: boolean}} SkipOptions */ /** * @param {string | RegExp} chars * @returns {(text: string, index: number | false, opts?: SkipOptions) => number | false} */ function skip$1(chars) { return (text, index, opts) => { const backwards = opts && opts.backwards; // Allow `skip` functions to be threaded together without having // to check for failures (did someone say monads?). /* istanbul ignore next */ if (index === false) { return false; } const { length } = text; let cursor = index; while (cursor >= 0 && cursor < length) { const c = text.charAt(cursor); if (chars instanceof RegExp) { if (!chars.test(c)) { return cursor; } } else if (!chars.includes(c)) { return cursor; } backwards ? cursor-- : cursor++; } if (cursor === -1 || cursor === length) { // If we reached the beginning or end of the file, return the // out-of-bounds cursor. It's up to the caller to handle this // correctly. We don't want to indicate `false` though if it // actually skipped valid characters. return cursor; } return false; }; } /** * @type {(text: string, index: number | false, opts?: SkipOptions) => number | false} */ const skipWhitespace$2 = skip$1(/\s/); /** * @type {(text: string, index: number | false, opts?: SkipOptions) => number | false} */ const skipSpaces$2 = skip$1(" \t"); /** * @type {(text: string, index: number | false, opts?: SkipOptions) => number | false} */ const skipToLineEnd$1 = skip$1(",; \t"); /** * @type {(text: string, index: number | false, opts?: SkipOptions) => number | false} */ const skipEverythingButNewLine$2 = skip$1(/[^\n\r]/); /** * @param {string} text * @param {number | false} index * @returns {number | false} */ function skipInlineComment$1(text, index) { /* istanbul ignore next */ if (index === false) { return false; } if (text.charAt(index) === "/" && text.charAt(index + 1) === "*") { for (let i = index + 2; i < text.length; ++i) { if (text.charAt(i) === "*" && text.charAt(i + 1) === "/") { return i + 2; } } } return index; } /** * @param {string} text * @param {number | false} index * @returns {number | false} */ function skipTrailingComment$1(text, index) { /* istanbul ignore next */ if (index === false) { return false; } if (text.charAt(index) === "/" && text.charAt(index + 1) === "/") { return skipEverythingButNewLine$2(text, index); } return index; } // This one doesn't use the above helper function because it wants to // test \r\n in order and `skip` doesn't support ordering and we only // want to skip one newline. It's simple to implement. /** * @param {string} text * @param {number | false} index * @param {SkipOptions=} opts * @returns {number | false} */ function skipNewline$2(text, index, opts) { const backwards = opts && opts.backwards; if (index === false) { return false; } const atIndex = text.charAt(index); if (backwards) { // We already replace `\r\n` with `\n` before parsing /* istanbul ignore next */ if (text.charAt(index - 1) === "\r" && atIndex === "\n") { return index - 2; } if (atIndex === "\n" || atIndex === "\r" || atIndex === "\u2028" || atIndex === "\u2029") { return index - 1; } } else { // We already replace `\r\n` with `\n` before parsing /* istanbul ignore next */ if (atIndex === "\r" && text.charAt(index + 1) === "\n") { return index + 2; } if (atIndex === "\n" || atIndex === "\r" || atIndex === "\u2028" || atIndex === "\u2029") { return index + 1; } } return index; } /** * @param {string} text * @param {number} index * @param {SkipOptions=} opts * @returns {boolean} */ function hasNewline$a(text, index, opts = {}) { const idx = skipSpaces$2(text, opts.backwards ? index - 1 : index, opts); const idx2 = skipNewline$2(text, idx, opts); return idx !== idx2; } /** * @param {string} text * @param {number} start * @param {number} end * @returns {boolean} */ function hasNewlineInRange$5(text, start, end) { for (let i = start; i < end; ++i) { if (text.charAt(i) === "\n") { return true; } } return false; } // Note: this function doesn't ignore leading comments unlike isNextLineEmpty /** * @template N * @param {string} text * @param {N} node * @param {(node: N) => number} locStart */ function isPreviousLineEmpty$3(text, node, locStart) { /** @type {number | false} */ let idx = locStart(node) - 1; idx = skipSpaces$2(text, idx, { backwards: true }); idx = skipNewline$2(text, idx, { backwards: true }); idx = skipSpaces$2(text, idx, { backwards: true }); const idx2 = skipNewline$2(text, idx, { backwards: true }); return idx !== idx2; } /** * @param {string} text * @param {number} index * @returns {boolean} */ function isNextLineEmptyAfterIndex$3(text, index) { /** @type {number | false} */ let oldIdx = null; /** @type {number | false} */ let idx = index; while (idx !== oldIdx) { // We need to skip all the potential trailing inline comments oldIdx = idx; idx = skipToLineEnd$1(text, idx); idx = skipInlineComment$1(text, idx); idx = skipSpaces$2(text, idx); } idx = skipTrailingComment$1(text, idx); idx = skipNewline$2(text, idx); return idx !== false && hasNewline$a(text, idx); } /** * @template N * @param {string} text * @param {N} node * @param {(node: N) => number} locEnd * @returns {boolean} */ function isNextLineEmpty$e(text, node, locEnd) { return isNextLineEmptyAfterIndex$3(text, locEnd(node)); } /** * @param {string} text * @param {number} idx * @returns {number | false} */ function getNextNonSpaceNonCommentCharacterIndexWithStartIndex$1(text, idx) { /** @type {number | false} */ let oldIdx = null; /** @type {number | false} */ let nextIdx = idx; while (nextIdx !== oldIdx) { oldIdx = nextIdx; nextIdx = skipSpaces$2(text, nextIdx); nextIdx = skipInlineComment$1(text, nextIdx); nextIdx = skipTrailingComment$1(text, nextIdx); nextIdx = skipNewline$2(text, nextIdx); } return nextIdx; } /** * @template N * @param {string} text * @param {N} node * @param {(node: N) => number} locEnd * @returns {number | false} */ function getNextNonSpaceNonCommentCharacterIndex$4(text, node, locEnd) { return getNextNonSpaceNonCommentCharacterIndexWithStartIndex$1(text, locEnd(node)); } /** * @template N * @param {string} text * @param {N} node * @param {(node: N) => number} locEnd * @returns {string} */ function getNextNonSpaceNonCommentCharacter$2(text, node, locEnd) { return text.charAt( // @ts-expect-error => TBD: can return false, should we define a fallback? getNextNonSpaceNonCommentCharacterIndex$4(text, node, locEnd)); } // Not using, but it's public utils /* istanbul ignore next */ /** * @param {string} text * @param {number} index * @param {SkipOptions=} opts * @returns {boolean} */ function hasSpaces$1(text, index, opts = {}) { const idx = skipSpaces$2(text, opts.backwards ? index - 1 : index, opts); return idx !== index; } /** * @param {string} value * @param {number} tabWidth * @param {number=} startIndex * @returns {number} */ function getAlignmentSize$2(value, tabWidth, startIndex = 0) { let size = 0; for (let i = startIndex; i < value.length; ++i) { if (value[i] === "\t") { // Tabs behave in a way that they are aligned to the nearest // multiple of tabWidth: // 0 -> 4, 1 -> 4, 2 -> 4, 3 -> 4 // 4 -> 8, 5 -> 8, 6 -> 8, 7 -> 8 ... size = size + tabWidth - size % tabWidth; } else { size++; } } return size; } /** * @param {string} value * @param {number} tabWidth * @returns {number} */ function getIndentSize$2(value, tabWidth) { const lastNewlineIndex = value.lastIndexOf("\n"); if (lastNewlineIndex === -1) { return 0; } return getAlignmentSize$2( // All the leading whitespaces value.slice(lastNewlineIndex + 1).match(/^[\t ]*/)[0], tabWidth); } /** * @typedef {'"' | "'"} Quote */ /** * * @param {string} rawContent * @param {Quote} preferredQuote * @returns {{ quote: Quote, regex: RegExp, escaped: string }} */ function getPreferredQuote$2(rawContent, preferredQuote) { /** @type {{ quote: '"', regex: RegExp, escaped: """ }} */ const double = { quote: '"', regex: /"/g, escaped: """ }; /** @type {{ quote: "'", regex: RegExp, escaped: "'" }} */ const single = { quote: "'", regex: /'/g, escaped: "'" }; const preferred = preferredQuote === "'" ? single : double; const alternate = preferred === single ? double : single; let result = preferred; // If `rawContent` contains at least one of the quote preferred for enclosing // the string, we might want to enclose with the alternate quote instead, to // minimize the number of escaped quotes. if (rawContent.includes(preferred.quote) || rawContent.includes(alternate.quote)) { const numPreferredQuotes = (rawContent.match(preferred.regex) || []).length; const numAlternateQuotes = (rawContent.match(alternate.regex) || []).length; result = numPreferredQuotes > numAlternateQuotes ? alternate : preferred; } return result; } function printString$4(raw, options) { // `rawContent` is the string exactly like it appeared in the input source // code, without its enclosing quotes. const rawContent = raw.slice(1, -1); /** @type {Quote} */ const enclosingQuote = options.parser === "json" || options.parser === "json5" && options.quoteProps === "preserve" && !options.singleQuote ? '"' : options.__isInHtmlAttribute ? "'" : getPreferredQuote$2(rawContent, options.singleQuote ? "'" : '"').quote; // It might sound unnecessary to use `makeString` even if the string already // is enclosed with `enclosingQuote`, but it isn't. The string could contain // unnecessary escapes (such as in `"\'"`). Always using `makeString` makes // sure that we consistently output the minimum amount of escaped quotes. return makeString$1(rawContent, enclosingQuote, !(options.parser === "css" || options.parser === "less" || options.parser === "scss" || options.__embeddedInHtml)); } /** * @param {string} rawContent * @param {Quote} enclosingQuote * @param {boolean=} unescapeUnnecessaryEscapes * @returns {string} */ function makeString$1(rawContent, enclosingQuote, unescapeUnnecessaryEscapes) { const otherQuote = enclosingQuote === '"' ? "'" : '"'; // Matches _any_ escape and unescaped quotes (both single and double). const regex = /\\(.)|(["'])/gs; // Escape and unescape single and double quotes as needed to be able to // enclose `rawContent` with `enclosingQuote`. const newContent = rawContent.replace(regex, (match, escaped, quote) => { // If we matched an escape, and the escaped character is a quote of the // other type than we intend to enclose the string with, there's no need for // it to be escaped, so return it _without_ the backslash. if (escaped === otherQuote) { return escaped; } // If we matched an unescaped quote and it is of the _same_ type as we // intend to enclose the string with, it must be escaped, so return it with // a backslash. if (quote === enclosingQuote) { return "\\" + quote; } if (quote) { return quote; } // Unescape any unnecessarily escaped character. // Adapted from https://github.com/eslint/eslint/blob/de0b4ad7bd820ade41b1f606008bea68683dc11a/lib/rules/no-useless-escape.js#L27 return unescapeUnnecessaryEscapes && /^[^\n\r"'0-7\\bfnrt-vx\u2028\u2029]$/.test(escaped) ? escaped : "\\" + escaped; }); return enclosingQuote + newContent + enclosingQuote; } function printNumber$4(rawNumber) { return rawNumber.toLowerCase() // Remove unnecessary plus and zeroes from scientific notation. .replace(/^([+-]?[\d.]+e)(?:\+|(-))?0*(\d)/, "$1$2$3") // Remove unnecessary scientific notation (1e0). .replace(/^([+-]?[\d.]+)e[+-]?0+$/, "$1") // Make sure numbers always start with a digit. .replace(/^([+-])?\./, "$10.") // Remove extraneous trailing decimal zeroes. .replace(/(\.\d+?)0+(?=e|$)/, "$1") // Remove trailing dot. .replace(/\.(?=e|$)/, ""); } /** * @param {string} str * @param {string} target * @returns {number} */ function getMaxContinuousCount$3(str, target) { const results = str.match(new RegExp(`(${escapeStringRegexp$2(target)})+`, "g")); if (results === null) { return 0; } return results.reduce((maxCount, result) => Math.max(maxCount, result.length / target.length), 0); } function getMinNotPresentContinuousCount$1(str, target) { const matches = str.match(new RegExp(`(${escapeStringRegexp$2(target)})+`, "g")); if (matches === null) { return 0; } const countPresent = new Map(); let max = 0; for (const match of matches) { const count = match.length / target.length; countPresent.set(count, true); if (count > max) { max = count; } } for (let i = 1; i < max; i++) { if (!countPresent.get(i)) { return i; } } return max + 1; } /** * @param {string} text * @returns {number} */ function getStringWidth$5(text) { if (!text) { return 0; } // shortcut to avoid needless string `RegExp`s, replacements, and allocations within `string-width` if (!notAsciiRegex.test(text)) { return text.length; } return stringWidth(text); } function addCommentHelper(node, comment) { const comments = node.comments || (node.comments = []); comments.push(comment); comment.printed = false; comment.nodeDescription = describeNodeForDebugging(node); } function addLeadingComment$3(node, comment) { comment.leading = true; comment.trailing = false; addCommentHelper(node, comment); } function addDanglingComment$3(node, comment, marker) { comment.leading = false; comment.trailing = false; if (marker) { comment.marker = marker; } addCommentHelper(node, comment); } function addTrailingComment$3(node, comment) { comment.leading = false; comment.trailing = true; addCommentHelper(node, comment); } function inferParserByLanguage$2(language, options) { const { languages } = getSupportInfo$2({ plugins: options.plugins }); const matched = languages.find(({ name }) => name.toLowerCase() === language) || languages.find(({ aliases }) => Array.isArray(aliases) && aliases.includes(language)) || languages.find(({ extensions }) => Array.isArray(extensions) && extensions.includes(`.${language}`)); return matched && matched.parsers[0]; } function isFrontMatterNode$5(node) { return node && node.type === "front-matter"; } function getShebang$1(text) { if (!text.startsWith("#!")) { return ""; } const index = text.indexOf("\n"); if (index === -1) { return text; } return text.slice(0, index); } /** * @param {any} object * @returns {object is Array} */ function isNonEmptyArray$k(object) { return Array.isArray(object) && object.length > 0; } /** * @param {string} description * @returns {(node: any) => symbol} */ function createGroupIdMapper$2(description) { const groupIds = new WeakMap(); return function (node) { if (!groupIds.has(node)) { groupIds.set(node, Symbol(description)); } return groupIds.get(node); }; } function describeNodeForDebugging(node) { const nodeType = node.type || node.kind || "(unknown type)"; let nodeName = String(node.name || node.id && (typeof node.id === "object" ? node.id.name : node.id) || node.key && (typeof node.key === "object" ? node.key.name : node.key) || node.value && (typeof node.value === "object" ? "" : String(node.value)) || node.operator || ""); if (nodeName.length > 20) { nodeName = nodeName.slice(0, 19) + "…"; } return nodeType + (nodeName ? " " + nodeName : ""); } var util$8 = { inferParserByLanguage: inferParserByLanguage$2, getStringWidth: getStringWidth$5, getMaxContinuousCount: getMaxContinuousCount$3, getMinNotPresentContinuousCount: getMinNotPresentContinuousCount$1, getPenultimate: getPenultimate$1, getLast: getLast$o, getNextNonSpaceNonCommentCharacterIndexWithStartIndex: getNextNonSpaceNonCommentCharacterIndexWithStartIndex$1, getNextNonSpaceNonCommentCharacterIndex: getNextNonSpaceNonCommentCharacterIndex$4, getNextNonSpaceNonCommentCharacter: getNextNonSpaceNonCommentCharacter$2, skip: skip$1, skipWhitespace: skipWhitespace$2, skipSpaces: skipSpaces$2, skipToLineEnd: skipToLineEnd$1, skipEverythingButNewLine: skipEverythingButNewLine$2, skipInlineComment: skipInlineComment$1, skipTrailingComment: skipTrailingComment$1, skipNewline: skipNewline$2, isNextLineEmptyAfterIndex: isNextLineEmptyAfterIndex$3, isNextLineEmpty: isNextLineEmpty$e, isPreviousLineEmpty: isPreviousLineEmpty$3, hasNewline: hasNewline$a, hasNewlineInRange: hasNewlineInRange$5, hasSpaces: hasSpaces$1, getAlignmentSize: getAlignmentSize$2, getIndentSize: getIndentSize$2, getPreferredQuote: getPreferredQuote$2, printString: printString$4, printNumber: printNumber$4, makeString: makeString$1, addLeadingComment: addLeadingComment$3, addDanglingComment: addDanglingComment$3, addTrailingComment: addTrailingComment$3, isFrontMatterNode: isFrontMatterNode$5, getShebang: getShebang$1, isNonEmptyArray: isNonEmptyArray$k, createGroupIdMapper: createGroupIdMapper$2 }; function guessEndOfLine$1(text) { const index = text.indexOf("\r"); if (index >= 0) { return text.charAt(index + 1) === "\n" ? "crlf" : "cr"; } return "lf"; } function convertEndOfLineToChars$1(value) { switch (value) { case "cr": return "\r"; case "crlf": return "\r\n"; default: return "\n"; } } function countEndOfLineChars$1(text, eol) { let regex; /* istanbul ignore else */ if (eol === "\n") { regex = /\n/g; } else if (eol === "\r") { regex = /\r/g; } else if (eol === "\r\n") { regex = /\r\n/g; } else { throw new Error(`Unexpected "eol" ${JSON.stringify(eol)}.`); } const endOfLines = text.match(regex); return endOfLines ? endOfLines.length : 0; } function normalizeEndOfLine$2(text) { return text.replace(/\r\n?/g, "\n"); } var endOfLine = { guessEndOfLine: guessEndOfLine$1, convertEndOfLineToChars: convertEndOfLineToChars$1, countEndOfLineChars: countEndOfLineChars$1, normalizeEndOfLine: normalizeEndOfLine$2 }; const fs$l = require$$0__default["default"]; /** * @class */ class LineByLine { constructor(file, options) { options = options || {}; if (!options.readChunk) options.readChunk = 1024; if (!options.newLineCharacter) { options.newLineCharacter = 0x0a; //linux line ending } else { options.newLineCharacter = options.newLineCharacter.charCodeAt(0); } if (typeof file === 'number') { this.fd = file; } else { this.fd = fs$l.openSync(file, 'r'); } this.options = options; this.newLineCharacter = options.newLineCharacter; this.reset(); } _searchInBuffer(buffer, hexNeedle) { let found = -1; for (let i = 0; i <= buffer.length; i++) { let b_byte = buffer[i]; if (b_byte === hexNeedle) { found = i; break; } } return found; } reset() { this.eofReached = false; this.linesCache = []; this.fdPosition = 0; } close() { fs$l.closeSync(this.fd); this.fd = null; } _extractLines(buffer) { let line; const lines = []; let bufferPosition = 0; let lastNewLineBufferPosition = 0; while (true) { let bufferPositionValue = buffer[bufferPosition++]; if (bufferPositionValue === this.newLineCharacter) { line = buffer.slice(lastNewLineBufferPosition, bufferPosition); lines.push(line); lastNewLineBufferPosition = bufferPosition; } else if (bufferPositionValue === undefined) { break; } } let leftovers = buffer.slice(lastNewLineBufferPosition, bufferPosition); if (leftovers.length) { lines.push(leftovers); } return lines; } _readChunk(lineLeftovers) { let totalBytesRead = 0; let bytesRead; const buffers = []; do { const readBuffer = new Buffer(this.options.readChunk); bytesRead = fs$l.readSync(this.fd, readBuffer, 0, this.options.readChunk, this.fdPosition); totalBytesRead = totalBytesRead + bytesRead; this.fdPosition = this.fdPosition + bytesRead; buffers.push(readBuffer); } while (bytesRead && this._searchInBuffer(buffers[buffers.length - 1], this.options.newLineCharacter) === -1); let bufferData = Buffer.concat(buffers); if (bytesRead < this.options.readChunk) { this.eofReached = true; bufferData = bufferData.slice(0, totalBytesRead); } if (totalBytesRead) { this.linesCache = this._extractLines(bufferData); if (lineLeftovers) { this.linesCache[0] = Buffer.concat([lineLeftovers, this.linesCache[0]]); } } return totalBytesRead; } next() { if (!this.fd) return false; let line = false; if (this.eofReached && this.linesCache.length === 0) { return line; } let bytesRead; if (!this.linesCache.length) { bytesRead = this._readChunk(); } if (this.linesCache.length) { line = this.linesCache.shift(); const lastLineCharacter = line[line.length - 1]; if (lastLineCharacter !== this.newLineCharacter) { bytesRead = this._readChunk(line); if (bytesRead) { line = this.linesCache.shift(); } } } if (this.eofReached && this.linesCache.length === 0) { this.close(); } if (line && line[line.length - 1] === this.newLineCharacter) { line = line.slice(0, line.length - 1); } return line; } } var readlines$1 = LineByLine; class ConfigError$1 extends Error {} class DebugError extends Error {} class UndefinedParserError$1 extends Error {} class ArgExpansionBailout$3 extends Error {} var errors = { ConfigError: ConfigError$1, DebugError, UndefinedParserError: UndefinedParserError$1, ArgExpansionBailout: ArgExpansionBailout$3 }; var lib$4 = {}; /*! ***************************************************************************** Copyright (c) Microsoft Corporation. Permission to use, copy, modify, and/or distribute this software for any purpose with or without fee is hereby granted. THE SOFTWARE IS PROVIDED "AS IS" AND THE AUTHOR DISCLAIMS ALL WARRANTIES WITH REGARD TO THIS SOFTWARE INCLUDING ALL IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS. IN NO EVENT SHALL THE AUTHOR BE LIABLE FOR ANY SPECIAL, DIRECT, INDIRECT, OR CONSEQUENTIAL DAMAGES OR ANY DAMAGES WHATSOEVER RESULTING FROM LOSS OF USE, DATA OR PROFITS, WHETHER IN AN ACTION OF CONTRACT, NEGLIGENCE OR OTHER TORTIOUS ACTION, ARISING OUT OF OR IN CONNECTION WITH THE USE OR PERFORMANCE OF THIS SOFTWARE. ***************************************************************************** */ /* global Reflect, Promise */ var extendStatics = function (d, b) { extendStatics = Object.setPrototypeOf || { __proto__: [] } instanceof Array && function (d, b) { d.__proto__ = b; } || function (d, b) { for (var p in b) if (b.hasOwnProperty(p)) d[p] = b[p]; }; return extendStatics(d, b); }; function __extends(d, b) { extendStatics(d, b); function __() { this.constructor = d; } d.prototype = b === null ? Object.create(b) : (__.prototype = b.prototype, new __()); } var __assign = function () { __assign = Object.assign || function __assign(t) { for (var s, i = 1, n = arguments.length; i < n; i++) { s = arguments[i]; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p)) t[p] = s[p]; } return t; }; return __assign.apply(this, arguments); }; function __rest(s, e) { var t = {}; for (var p in s) if (Object.prototype.hasOwnProperty.call(s, p) && e.indexOf(p) < 0) t[p] = s[p]; if (s != null && typeof Object.getOwnPropertySymbols === "function") for (var i = 0, p = Object.getOwnPropertySymbols(s); i < p.length; i++) { if (e.indexOf(p[i]) < 0 && Object.prototype.propertyIsEnumerable.call(s, p[i])) t[p[i]] = s[p[i]]; } return t; } function __decorate(decorators, target, key, desc) { var c = arguments.length, r = c < 3 ? target : desc === null ? desc = Object.getOwnPropertyDescriptor(target, key) : desc, d; if (typeof Reflect === "object" && typeof Reflect.decorate === "function") r = Reflect.decorate(decorators, target, key, desc);else for (var i = decorators.length - 1; i >= 0; i--) if (d = decorators[i]) r = (c < 3 ? d(r) : c > 3 ? d(target, key, r) : d(target, key)) || r; return c > 3 && r && Object.defineProperty(target, key, r), r; } function __param(paramIndex, decorator) { return function (target, key) { decorator(target, key, paramIndex); }; } function __metadata(metadataKey, metadataValue) { if (typeof Reflect === "object" && typeof Reflect.metadata === "function") return Reflect.metadata(metadataKey, metadataValue); } function __awaiter$2(thisArg, _arguments, P, generator) { function adopt(value) { return value instanceof P ? value : new P(function (resolve) { resolve(value); }); } return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : adopt(result.value).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); } function __generator$2(thisArg, body) { var _ = { label: 0, sent: function () { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function () { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || op[1] > t[0] && op[1] < t[3])) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } } function __createBinding(o, m, k, k2) { if (k2 === undefined) k2 = k; o[k2] = m[k]; } function __exportStar(m, exports) { for (var p in m) if (p !== "default" && !exports.hasOwnProperty(p)) exports[p] = m[p]; } function __values(o) { var s = typeof Symbol === "function" && Symbol.iterator, m = s && o[s], i = 0; if (m) return m.call(o); if (o && typeof o.length === "number") return { next: function () { if (o && i >= o.length) o = void 0; return { value: o && o[i++], done: !o }; } }; throw new TypeError(s ? 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'{}' : `{ ${keys.map(key => `${exports.apiDescriptor.key(key)}: ${exports.apiDescriptor.value(value[key])}`).join(', ')} }`; }, pair: ({ key, value }) => exports.apiDescriptor.value({ [key]: value }) }; })(api); (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(api, exports); })(descriptors); var handlers = {}; var deprecated = {}; var common$8 = {}; var chalk$3 = {exports: {}}; var matchOperatorsRe$1 = /[|\\{}()[\]^$+*?.]/g; var escapeStringRegexp$1 = function (str) { if (typeof str !== 'string') { throw new TypeError('Expected a string'); } return str.replace(matchOperatorsRe$1, '\\$&'); }; var ansiStyles$2 = {exports: {}}; var conversions$5 = {exports: {}}; var colorName$1 = { "aliceblue": [240, 248, 255], "antiquewhite": [250, 235, 215], "aqua": [0, 255, 255], "aquamarine": [127, 255, 212], "azure": [240, 255, 255], "beige": [245, 245, 220], "bisque": [255, 228, 196], "black": [0, 0, 0], "blanchedalmond": [255, 235, 205], "blue": [0, 0, 255], "blueviolet": [138, 43, 226], "brown": [165, 42, 42], "burlywood": [222, 184, 135], "cadetblue": [95, 158, 160], "chartreuse": [127, 255, 0], "chocolate": [210, 105, 30], "coral": [255, 127, 80], "cornflowerblue": [100, 149, 237], "cornsilk": [255, 248, 220], "crimson": [220, 20, 60], "cyan": [0, 255, 255], "darkblue": [0, 0, 139], "darkcyan": [0, 139, 139], "darkgoldenrod": [184, 134, 11], "darkgray": [169, 169, 169], "darkgreen": [0, 100, 0], "darkgrey": [169, 169, 169], "darkkhaki": [189, 183, 107], "darkmagenta": [139, 0, 139], "darkolivegreen": [85, 107, 47], "darkorange": [255, 140, 0], "darkorchid": [153, 50, 204], "darkred": [139, 0, 0], "darksalmon": [233, 150, 122], "darkseagreen": [143, 188, 143], "darkslateblue": [72, 61, 139], "darkslategray": [47, 79, 79], "darkslategrey": [47, 79, 79], "darkturquoise": [0, 206, 209], "darkviolet": [148, 0, 211], "deeppink": [255, 20, 147], "deepskyblue": [0, 191, 255], "dimgray": [105, 105, 105], "dimgrey": [105, 105, 105], "dodgerblue": [30, 144, 255], "firebrick": [178, 34, 34], "floralwhite": [255, 250, 240], "forestgreen": [34, 139, 34], "fuchsia": [255, 0, 255], "gainsboro": [220, 220, 220], "ghostwhite": [248, 248, 255], "gold": [255, 215, 0], "goldenrod": [218, 165, 32], "gray": [128, 128, 128], "green": [0, 128, 0], "greenyellow": [173, 255, 47], "grey": [128, 128, 128], "honeydew": [240, 255, 240], "hotpink": [255, 105, 180], "indianred": [205, 92, 92], "indigo": [75, 0, 130], "ivory": [255, 255, 240], "khaki": [240, 230, 140], "lavender": [230, 230, 250], "lavenderblush": [255, 240, 245], "lawngreen": [124, 252, 0], "lemonchiffon": [255, 250, 205], "lightblue": [173, 216, 230], "lightcoral": [240, 128, 128], "lightcyan": [224, 255, 255], "lightgoldenrodyellow": [250, 250, 210], "lightgray": [211, 211, 211], "lightgreen": [144, 238, 144], "lightgrey": [211, 211, 211], "lightpink": [255, 182, 193], "lightsalmon": [255, 160, 122], "lightseagreen": [32, 178, 170], "lightskyblue": [135, 206, 250], "lightslategray": [119, 136, 153], "lightslategrey": [119, 136, 153], "lightsteelblue": [176, 196, 222], "lightyellow": [255, 255, 224], "lime": [0, 255, 0], "limegreen": [50, 205, 50], "linen": [250, 240, 230], "magenta": [255, 0, 255], "maroon": [128, 0, 0], "mediumaquamarine": [102, 205, 170], "mediumblue": [0, 0, 205], "mediumorchid": [186, 85, 211], "mediumpurple": [147, 112, 219], "mediumseagreen": [60, 179, 113], "mediumslateblue": [123, 104, 238], "mediumspringgreen": [0, 250, 154], "mediumturquoise": [72, 209, 204], "mediumvioletred": [199, 21, 133], "midnightblue": [25, 25, 112], "mintcream": [245, 255, 250], "mistyrose": [255, 228, 225], "moccasin": [255, 228, 181], "navajowhite": [255, 222, 173], "navy": [0, 0, 128], "oldlace": [253, 245, 230], "olive": [128, 128, 0], "olivedrab": [107, 142, 35], "orange": [255, 165, 0], "orangered": [255, 69, 0], "orchid": [218, 112, 214], "palegoldenrod": [238, 232, 170], "palegreen": [152, 251, 152], "paleturquoise": [175, 238, 238], "palevioletred": [219, 112, 147], "papayawhip": [255, 239, 213], "peachpuff": [255, 218, 185], "peru": [205, 133, 63], "pink": [255, 192, 203], "plum": [221, 160, 221], "powderblue": [176, 224, 230], "purple": [128, 0, 128], "rebeccapurple": [102, 51, 153], "red": [255, 0, 0], "rosybrown": [188, 143, 143], "royalblue": [65, 105, 225], "saddlebrown": [139, 69, 19], "salmon": [250, 128, 114], "sandybrown": [244, 164, 96], "seagreen": [46, 139, 87], "seashell": [255, 245, 238], "sienna": [160, 82, 45], "silver": [192, 192, 192], "skyblue": [135, 206, 235], "slateblue": [106, 90, 205], "slategray": [112, 128, 144], "slategrey": [112, 128, 144], "snow": [255, 250, 250], "springgreen": [0, 255, 127], "steelblue": [70, 130, 180], "tan": [210, 180, 140], "teal": [0, 128, 128], "thistle": [216, 191, 216], "tomato": [255, 99, 71], "turquoise": [64, 224, 208], "violet": [238, 130, 238], "wheat": [245, 222, 179], "white": [255, 255, 255], "whitesmoke": [245, 245, 245], "yellow": [255, 255, 0], "yellowgreen": [154, 205, 50] }; /* MIT license */ var cssKeywords$1 = colorName$1; // NOTE: conversions should only return primitive values (i.e. arrays, or // values that give correct `typeof` results). // do not use box values types (i.e. Number(), String(), etc.) var reverseKeywords$1 = {}; for (var key$1 in cssKeywords$1) { if (cssKeywords$1.hasOwnProperty(key$1)) { reverseKeywords$1[cssKeywords$1[key$1]] = key$1; } } var convert$3 = conversions$5.exports = { rgb: { channels: 3, labels: 'rgb' }, hsl: { channels: 3, labels: 'hsl' }, hsv: { channels: 3, labels: 'hsv' }, hwb: { channels: 3, labels: 'hwb' }, cmyk: { channels: 4, labels: 'cmyk' }, xyz: { channels: 3, labels: 'xyz' }, lab: { channels: 3, labels: 'lab' }, lch: { channels: 3, labels: 'lch' }, hex: { channels: 1, labels: ['hex'] }, keyword: { channels: 1, labels: ['keyword'] }, ansi16: { channels: 1, labels: ['ansi16'] }, ansi256: { channels: 1, labels: ['ansi256'] }, hcg: { channels: 3, labels: ['h', 'c', 'g'] }, apple: { channels: 3, labels: ['r16', 'g16', 'b16'] }, gray: { channels: 1, labels: ['gray'] } }; // hide .channels and .labels properties for (var model in convert$3) { if (convert$3.hasOwnProperty(model)) { if (!('channels' in convert$3[model])) { throw new Error('missing channels property: ' + model); } if (!('labels' in convert$3[model])) { throw new Error('missing channel labels property: ' + model); } if (convert$3[model].labels.length !== convert$3[model].channels) { throw new Error('channel and label counts mismatch: ' + model); } var channels = convert$3[model].channels; var labels = convert$3[model].labels; delete convert$3[model].channels; delete convert$3[model].labels; Object.defineProperty(convert$3[model], 'channels', { value: channels }); Object.defineProperty(convert$3[model], 'labels', { value: labels }); } } convert$3.rgb.hsl = function (rgb) { var r = rgb[0] / 255; var g = rgb[1] / 255; var b = rgb[2] / 255; var min = Math.min(r, g, b); var max = Math.max(r, g, b); var delta = max - min; var h; var s; var l; if (max === min) { h = 0; } else if (r === max) { h = (g - b) / delta; } else if (g === max) { h = 2 + (b - r) / delta; } else if (b === max) { h = 4 + (r - g) / delta; } h = Math.min(h * 60, 360); if (h < 0) { h += 360; } l = (min + max) / 2; if (max === min) { s = 0; } else if (l <= 0.5) { s = delta / (max + min); } else { s = delta / (2 - max - min); } return [h, s * 100, l * 100]; }; convert$3.rgb.hsv = function (rgb) { var rdif; var gdif; var bdif; var h; var s; var r = rgb[0] / 255; var g = rgb[1] / 255; var b = rgb[2] / 255; var v = Math.max(r, g, b); var diff = v - Math.min(r, g, b); var diffc = function (c) { return (v - c) / 6 / diff + 1 / 2; }; if (diff === 0) { h = s = 0; } else { s = diff / v; rdif = diffc(r); gdif = diffc(g); bdif = diffc(b); if (r === v) { h = bdif - gdif; } else if (g === v) { h = 1 / 3 + rdif - bdif; } else if (b === v) { h = 2 / 3 + gdif - rdif; } if (h < 0) { h += 1; } else if (h > 1) { h -= 1; } } return [h * 360, s * 100, v * 100]; }; convert$3.rgb.hwb = function (rgb) { var r = rgb[0]; var g = rgb[1]; var b = rgb[2]; var h = convert$3.rgb.hsl(rgb)[0]; var w = 1 / 255 * Math.min(r, Math.min(g, b)); b = 1 - 1 / 255 * Math.max(r, Math.max(g, b)); return [h, w * 100, b * 100]; }; convert$3.rgb.cmyk = function (rgb) { var r = rgb[0] / 255; var g = rgb[1] / 255; var b = rgb[2] / 255; var c; var m; var y; var k; k = Math.min(1 - r, 1 - g, 1 - b); c = (1 - r - k) / (1 - k) || 0; m = (1 - g - k) / (1 - k) || 0; y = (1 - b - k) / (1 - k) || 0; return [c * 100, m * 100, y * 100, k * 100]; }; /** * See https://en.m.wikipedia.org/wiki/Euclidean_distance#Squared_Euclidean_distance * */ function comparativeDistance$1(x, y) { return Math.pow(x[0] - y[0], 2) + Math.pow(x[1] - y[1], 2) + Math.pow(x[2] - y[2], 2); } convert$3.rgb.keyword = function (rgb) { var reversed = reverseKeywords$1[rgb]; if (reversed) { return reversed; } var currentClosestDistance = Infinity; var currentClosestKeyword; for (var keyword in cssKeywords$1) { if (cssKeywords$1.hasOwnProperty(keyword)) { var value = cssKeywords$1[keyword]; // Compute comparative distance var distance = comparativeDistance$1(rgb, value); // Check if its less, if so set as closest if (distance < currentClosestDistance) { currentClosestDistance = distance; currentClosestKeyword = keyword; } } } return currentClosestKeyword; }; convert$3.keyword.rgb = function (keyword) { return cssKeywords$1[keyword]; }; convert$3.rgb.xyz = function (rgb) { var r = rgb[0] / 255; var g = rgb[1] / 255; var b = rgb[2] / 255; // assume sRGB r = r > 0.04045 ? Math.pow((r + 0.055) / 1.055, 2.4) : r / 12.92; g = g > 0.04045 ? Math.pow((g + 0.055) / 1.055, 2.4) : g / 12.92; b = b > 0.04045 ? Math.pow((b + 0.055) / 1.055, 2.4) : b / 12.92; var x = r * 0.4124 + g * 0.3576 + b * 0.1805; var y = r * 0.2126 + g * 0.7152 + b * 0.0722; var z = r * 0.0193 + g * 0.1192 + b * 0.9505; return [x * 100, y * 100, z * 100]; }; convert$3.rgb.lab = function (rgb) { var xyz = convert$3.rgb.xyz(rgb); var x = xyz[0]; var y = xyz[1]; var z = xyz[2]; var l; var a; var b; x /= 95.047; y /= 100; z /= 108.883; x = x > 0.008856 ? Math.pow(x, 1 / 3) : 7.787 * x + 16 / 116; y = y > 0.008856 ? Math.pow(y, 1 / 3) : 7.787 * y + 16 / 116; z = z > 0.008856 ? Math.pow(z, 1 / 3) : 7.787 * z + 16 / 116; l = 116 * y - 16; a = 500 * (x - y); b = 200 * (y - z); return [l, a, b]; }; convert$3.hsl.rgb = function (hsl) { var h = hsl[0] / 360; var s = hsl[1] / 100; var l = hsl[2] / 100; var t1; var t2; var t3; var rgb; var val; if (s === 0) { val = l * 255; return [val, val, val]; } if (l < 0.5) { t2 = l * (1 + s); } else { t2 = l + s - l * s; } t1 = 2 * l - t2; rgb = [0, 0, 0]; for (var i = 0; i < 3; i++) { t3 = h + 1 / 3 * -(i - 1); if (t3 < 0) { t3++; } if (t3 > 1) { t3--; } if (6 * t3 < 1) { val = t1 + (t2 - t1) * 6 * t3; } else if (2 * t3 < 1) { val = t2; } else if (3 * t3 < 2) { val = t1 + (t2 - t1) * (2 / 3 - t3) * 6; } else { val = t1; } rgb[i] = val * 255; } return rgb; }; convert$3.hsl.hsv = function (hsl) { var h = hsl[0]; var s = hsl[1] / 100; var l = hsl[2] / 100; var smin = s; var lmin = Math.max(l, 0.01); var sv; var v; l *= 2; s *= l <= 1 ? l : 2 - l; smin *= lmin <= 1 ? lmin : 2 - lmin; v = (l + s) / 2; sv = l === 0 ? 2 * smin / (lmin + smin) : 2 * s / (l + s); return [h, sv * 100, v * 100]; }; convert$3.hsv.rgb = function (hsv) { var h = hsv[0] / 60; var s = hsv[1] / 100; var v = hsv[2] / 100; var hi = Math.floor(h) % 6; var f = h - Math.floor(h); var p = 255 * v * (1 - s); var q = 255 * v * (1 - s * f); var t = 255 * v * (1 - s * (1 - f)); v *= 255; switch (hi) { case 0: return [v, t, p]; case 1: return [q, v, p]; case 2: return [p, v, t]; case 3: return [p, q, v]; case 4: return [t, p, v]; case 5: return [v, p, q]; } }; convert$3.hsv.hsl = function (hsv) { var h = hsv[0]; var s = hsv[1] / 100; var v = hsv[2] / 100; var vmin = Math.max(v, 0.01); var lmin; var sl; var l; l = (2 - s) * v; lmin = (2 - s) * vmin; sl = s * vmin; sl /= lmin <= 1 ? lmin : 2 - lmin; sl = sl || 0; l /= 2; return [h, sl * 100, l * 100]; }; // http://dev.w3.org/csswg/css-color/#hwb-to-rgb convert$3.hwb.rgb = function (hwb) { var h = hwb[0] / 360; var wh = hwb[1] / 100; var bl = hwb[2] / 100; var ratio = wh + bl; var i; var v; var f; var n; // wh + bl cant be > 1 if (ratio > 1) { wh /= ratio; bl /= ratio; } i = Math.floor(6 * h); v = 1 - bl; f = 6 * h - i; if ((i & 0x01) !== 0) { f = 1 - f; } n = wh + f * (v - wh); // linear interpolation var r; var g; var b; switch (i) { default: case 6: case 0: r = v; g = n; b = wh; break; case 1: r = n; g = v; b = wh; break; case 2: r = wh; g = v; b = n; break; case 3: r = wh; g = n; b = v; break; case 4: r = n; g = wh; b = v; break; case 5: r = v; g = wh; b = n; break; } return [r * 255, g * 255, b * 255]; }; convert$3.cmyk.rgb = function (cmyk) { var c = cmyk[0] / 100; var m = cmyk[1] / 100; var y = cmyk[2] / 100; var k = cmyk[3] / 100; var r; var g; var b; r = 1 - Math.min(1, c * (1 - k) + k); g = 1 - Math.min(1, m * (1 - k) + k); b = 1 - Math.min(1, y * (1 - k) + k); return [r * 255, g * 255, b * 255]; }; convert$3.xyz.rgb = function (xyz) { var x = xyz[0] / 100; var y = xyz[1] / 100; var z = xyz[2] / 100; var r; var g; var b; r = x * 3.2406 + y * -1.5372 + z * -0.4986; g = x * -0.9689 + y * 1.8758 + z * 0.0415; b = x * 0.0557 + y * -0.2040 + z * 1.0570; // assume sRGB r = r > 0.0031308 ? 1.055 * Math.pow(r, 1.0 / 2.4) - 0.055 : r * 12.92; g = g > 0.0031308 ? 1.055 * Math.pow(g, 1.0 / 2.4) - 0.055 : g * 12.92; b = b > 0.0031308 ? 1.055 * Math.pow(b, 1.0 / 2.4) - 0.055 : b * 12.92; r = Math.min(Math.max(0, r), 1); g = Math.min(Math.max(0, g), 1); b = Math.min(Math.max(0, b), 1); return [r * 255, g * 255, b * 255]; }; convert$3.xyz.lab = function (xyz) { var x = xyz[0]; var y = xyz[1]; var z = xyz[2]; var l; var a; var b; x /= 95.047; y /= 100; z /= 108.883; x = x > 0.008856 ? Math.pow(x, 1 / 3) : 7.787 * x + 16 / 116; y = y > 0.008856 ? Math.pow(y, 1 / 3) : 7.787 * y + 16 / 116; z = z > 0.008856 ? Math.pow(z, 1 / 3) : 7.787 * z + 16 / 116; l = 116 * y - 16; a = 500 * (x - y); b = 200 * (y - z); return [l, a, b]; }; convert$3.lab.xyz = function (lab) { var l = lab[0]; var a = lab[1]; var b = lab[2]; var x; var y; var z; y = (l + 16) / 116; x = a / 500 + y; z = y - b / 200; var y2 = Math.pow(y, 3); var x2 = Math.pow(x, 3); var z2 = Math.pow(z, 3); y = y2 > 0.008856 ? y2 : (y - 16 / 116) / 7.787; x = x2 > 0.008856 ? x2 : (x - 16 / 116) / 7.787; z = z2 > 0.008856 ? z2 : (z - 16 / 116) / 7.787; x *= 95.047; y *= 100; z *= 108.883; return [x, y, z]; }; convert$3.lab.lch = function (lab) { var l = lab[0]; var a = lab[1]; var b = lab[2]; var hr; var h; var c; hr = Math.atan2(b, a); h = hr * 360 / 2 / Math.PI; if (h < 0) { h += 360; } c = Math.sqrt(a * a + b * b); return [l, c, h]; }; convert$3.lch.lab = function (lch) { var l = lch[0]; var c = lch[1]; var h = lch[2]; var a; var b; var hr; hr = h / 360 * 2 * Math.PI; a = c * Math.cos(hr); b = c * Math.sin(hr); return [l, a, b]; }; convert$3.rgb.ansi16 = function (args) { var r = args[0]; var g = args[1]; var b = args[2]; var value = 1 in arguments ? arguments[1] : convert$3.rgb.hsv(args)[2]; // hsv -> ansi16 optimization value = Math.round(value / 50); if (value === 0) { return 30; } var ansi = 30 + (Math.round(b / 255) << 2 | Math.round(g / 255) << 1 | Math.round(r / 255)); if (value === 2) { ansi += 60; } return ansi; }; convert$3.hsv.ansi16 = function (args) { // optimization here; we already know the value and don't need to get // it converted for us. return convert$3.rgb.ansi16(convert$3.hsv.rgb(args), args[2]); }; convert$3.rgb.ansi256 = function (args) { var r = args[0]; var g = args[1]; var b = args[2]; // we use the extended greyscale palette here, with the exception of // black and white. normal palette only has 4 greyscale shades. if (r === g && g === b) { if (r < 8) { return 16; } if (r > 248) { return 231; } return Math.round((r - 8) / 247 * 24) + 232; } var ansi = 16 + 36 * Math.round(r / 255 * 5) + 6 * Math.round(g / 255 * 5) + Math.round(b / 255 * 5); return ansi; }; convert$3.ansi16.rgb = function (args) { var color = args % 10; // handle greyscale if (color === 0 || color === 7) { if (args > 50) { color += 3.5; } color = color / 10.5 * 255; return [color, color, color]; } var mult = (~~(args > 50) + 1) * 0.5; var r = (color & 1) * mult * 255; var g = (color >> 1 & 1) * mult * 255; var b = (color >> 2 & 1) * mult * 255; return [r, g, b]; }; convert$3.ansi256.rgb = function (args) { // handle greyscale if (args >= 232) { var c = (args - 232) * 10 + 8; return [c, c, c]; } args -= 16; var rem; var r = Math.floor(args / 36) / 5 * 255; var g = Math.floor((rem = args % 36) / 6) / 5 * 255; var b = rem % 6 / 5 * 255; return [r, g, b]; }; convert$3.rgb.hex = function (args) { var integer = ((Math.round(args[0]) & 0xFF) << 16) + ((Math.round(args[1]) & 0xFF) << 8) + (Math.round(args[2]) & 0xFF); var string = integer.toString(16).toUpperCase(); return '000000'.substring(string.length) + string; }; convert$3.hex.rgb = function (args) { var match = args.toString(16).match(/[a-f0-9]{6}|[a-f0-9]{3}/i); if (!match) { return [0, 0, 0]; } var colorString = match[0]; if (match[0].length === 3) { colorString = colorString.split('').map(function (char) { return char + char; }).join(''); } var integer = parseInt(colorString, 16); var r = integer >> 16 & 0xFF; var g = integer >> 8 & 0xFF; var b = integer & 0xFF; return [r, g, b]; }; convert$3.rgb.hcg = function (rgb) { var r = rgb[0] / 255; var g = rgb[1] / 255; var b = rgb[2] / 255; var max = Math.max(Math.max(r, g), b); var min = Math.min(Math.min(r, g), b); var chroma = max - min; var grayscale; var hue; if (chroma < 1) { grayscale = min / (1 - chroma); } else { grayscale = 0; } if (chroma <= 0) { hue = 0; } else if (max === r) { hue = (g - b) / chroma % 6; } else if (max === g) { hue = 2 + (b - r) / chroma; } else { hue = 4 + (r - g) / chroma + 4; } hue /= 6; hue %= 1; return [hue * 360, chroma * 100, grayscale * 100]; }; convert$3.hsl.hcg = function (hsl) { var s = hsl[1] / 100; var l = hsl[2] / 100; var c = 1; var f = 0; if (l < 0.5) { c = 2.0 * s * l; } else { c = 2.0 * s * (1.0 - l); } if (c < 1.0) { f = (l - 0.5 * c) / (1.0 - c); } return [hsl[0], c * 100, f * 100]; }; convert$3.hsv.hcg = function (hsv) { var s = hsv[1] / 100; var v = hsv[2] / 100; var c = s * v; var f = 0; if (c < 1.0) { f = (v - c) / (1 - c); } return [hsv[0], c * 100, f * 100]; }; convert$3.hcg.rgb = function (hcg) { var h = hcg[0] / 360; var c = hcg[1] / 100; var g = hcg[2] / 100; if (c === 0.0) { return [g * 255, g * 255, g * 255]; } var pure = [0, 0, 0]; var hi = h % 1 * 6; var v = hi % 1; var w = 1 - v; var mg = 0; switch (Math.floor(hi)) { case 0: pure[0] = 1; pure[1] = v; pure[2] = 0; break; case 1: pure[0] = w; pure[1] = 1; pure[2] = 0; break; case 2: pure[0] = 0; pure[1] = 1; pure[2] = v; break; case 3: pure[0] = 0; pure[1] = w; pure[2] = 1; break; case 4: pure[0] = v; pure[1] = 0; pure[2] = 1; break; default: pure[0] = 1; pure[1] = 0; pure[2] = w; } mg = (1.0 - c) * g; return [(c * pure[0] + mg) * 255, (c * pure[1] + mg) * 255, (c * pure[2] + mg) * 255]; }; convert$3.hcg.hsv = function (hcg) { var c = hcg[1] / 100; var g = hcg[2] / 100; var v = c + g * (1.0 - c); var f = 0; if (v > 0.0) { f = c / v; } return [hcg[0], f * 100, v * 100]; }; convert$3.hcg.hsl = function (hcg) { var c = hcg[1] / 100; var g = hcg[2] / 100; var l = g * (1.0 - c) + 0.5 * c; var s = 0; if (l > 0.0 && l < 0.5) { s = c / (2 * l); } else if (l >= 0.5 && l < 1.0) { s = c / (2 * (1 - l)); } return [hcg[0], s * 100, l * 100]; }; convert$3.hcg.hwb = function (hcg) { var c = hcg[1] / 100; var g = hcg[2] / 100; var v = c + g * (1.0 - c); return [hcg[0], (v - c) * 100, (1 - v) * 100]; }; convert$3.hwb.hcg = function (hwb) { var w = hwb[1] / 100; var b = hwb[2] / 100; var v = 1 - b; var c = v - w; var g = 0; if (c < 1) { g = (v - c) / (1 - c); } return [hwb[0], c * 100, g * 100]; }; convert$3.apple.rgb = function (apple) { return [apple[0] / 65535 * 255, apple[1] / 65535 * 255, apple[2] / 65535 * 255]; }; convert$3.rgb.apple = function (rgb) { return [rgb[0] / 255 * 65535, rgb[1] / 255 * 65535, rgb[2] / 255 * 65535]; }; convert$3.gray.rgb = function (args) { return [args[0] / 100 * 255, args[0] / 100 * 255, args[0] / 100 * 255]; }; convert$3.gray.hsl = convert$3.gray.hsv = function (args) { return [0, 0, args[0]]; }; convert$3.gray.hwb = function (gray) { return [0, 100, gray[0]]; }; convert$3.gray.cmyk = function (gray) { return [0, 0, 0, gray[0]]; }; convert$3.gray.lab = function (gray) { return [gray[0], 0, 0]; }; convert$3.gray.hex = function (gray) { var val = Math.round(gray[0] / 100 * 255) & 0xFF; var integer = (val << 16) + (val << 8) + val; var string = integer.toString(16).toUpperCase(); return '000000'.substring(string.length) + string; }; convert$3.rgb.gray = function (rgb) { var val = (rgb[0] + rgb[1] + rgb[2]) / 3; return [val / 255 * 100]; }; var conversions$4 = conversions$5.exports; /* this function routes a model to all other models. all functions that are routed have a property `.conversion` attached to the returned synthetic function. This property is an array of strings, each with the steps in between the 'from' and 'to' color models (inclusive). conversions that are not possible simply are not included. */ function buildGraph$1() { var graph = {}; // https://jsperf.com/object-keys-vs-for-in-with-closure/3 var models = Object.keys(conversions$4); for (var len = models.length, i = 0; i < len; i++) { graph[models[i]] = { // http://jsperf.com/1-vs-infinity // micro-opt, but this is simple. distance: -1, parent: null }; } return graph; } // https://en.wikipedia.org/wiki/Breadth-first_search function deriveBFS$1(fromModel) { var graph = buildGraph$1(); var queue = [fromModel]; // unshift -> queue -> pop graph[fromModel].distance = 0; while (queue.length) { var current = queue.pop(); var adjacents = Object.keys(conversions$4[current]); for (var len = adjacents.length, i = 0; i < len; i++) { var adjacent = adjacents[i]; var node = graph[adjacent]; if (node.distance === -1) { node.distance = graph[current].distance + 1; node.parent = current; queue.unshift(adjacent); } } } return graph; } function link$2(from, to) { return function (args) { return to(from(args)); }; } function wrapConversion$1(toModel, graph) { var path = [graph[toModel].parent, toModel]; var fn = conversions$4[graph[toModel].parent][toModel]; var cur = graph[toModel].parent; while (graph[cur].parent) { path.unshift(graph[cur].parent); fn = link$2(conversions$4[graph[cur].parent][cur], fn); cur = graph[cur].parent; } fn.conversion = path; return fn; } var route$3 = function (fromModel) { var graph = deriveBFS$1(fromModel); var conversion = {}; var models = Object.keys(graph); for (var len = models.length, i = 0; i < len; i++) { var toModel = models[i]; var node = graph[toModel]; if (node.parent === null) { // no possible conversion, or this node is the source model. continue; } conversion[toModel] = wrapConversion$1(toModel, graph); } return conversion; }; var conversions$3 = conversions$5.exports; var route$2 = route$3; var convert$2 = {}; var models$1 = Object.keys(conversions$3); function wrapRaw$1(fn) { var wrappedFn = function (args) { if (args === undefined || args === null) { return args; } if (arguments.length > 1) { args = Array.prototype.slice.call(arguments); } return fn(args); }; // preserve .conversion property if there is one if ('conversion' in fn) { wrappedFn.conversion = fn.conversion; } return wrappedFn; } function wrapRounded$1(fn) { var wrappedFn = function (args) { if (args === undefined || args === null) { return args; } if (arguments.length > 1) { args = Array.prototype.slice.call(arguments); } var result = fn(args); // we're assuming the result is an array here. // see notice in conversions.js; don't use box types // in conversion functions. if (typeof result === 'object') { for (var len = result.length, i = 0; i < len; i++) { result[i] = Math.round(result[i]); } } return result; }; // preserve .conversion property if there is one if ('conversion' in fn) { wrappedFn.conversion = fn.conversion; } return wrappedFn; } models$1.forEach(function (fromModel) { convert$2[fromModel] = {}; Object.defineProperty(convert$2[fromModel], 'channels', { value: conversions$3[fromModel].channels }); Object.defineProperty(convert$2[fromModel], 'labels', { value: conversions$3[fromModel].labels }); var routes = route$2(fromModel); var routeModels = Object.keys(routes); routeModels.forEach(function (toModel) { var fn = routes[toModel]; convert$2[fromModel][toModel] = wrapRounded$1(fn); convert$2[fromModel][toModel].raw = wrapRaw$1(fn); }); }); var colorConvert$1 = convert$2; (function (module) { const colorConvert = colorConvert$1; const wrapAnsi16 = (fn, offset) => function () { const code = fn.apply(colorConvert, arguments); return `\u001B[${code + offset}m`; }; const wrapAnsi256 = (fn, offset) => function () { const code = fn.apply(colorConvert, arguments); return `\u001B[${38 + offset};5;${code}m`; }; const wrapAnsi16m = (fn, offset) => function () { const rgb = fn.apply(colorConvert, arguments); return `\u001B[${38 + offset};2;${rgb[0]};${rgb[1]};${rgb[2]}m`; }; function assembleStyles() { const codes = new Map(); const styles = { modifier: { reset: [0, 0], // 21 isn't widely supported and 22 does the same thing bold: [1, 22], dim: [2, 22], italic: [3, 23], underline: [4, 24], inverse: [7, 27], hidden: [8, 28], strikethrough: [9, 29] }, color: { black: [30, 39], red: [31, 39], green: [32, 39], yellow: [33, 39], blue: [34, 39], magenta: [35, 39], cyan: [36, 39], white: [37, 39], gray: [90, 39], // Bright color redBright: [91, 39], greenBright: [92, 39], yellowBright: [93, 39], blueBright: [94, 39], magentaBright: [95, 39], cyanBright: [96, 39], whiteBright: [97, 39] }, bgColor: { bgBlack: [40, 49], bgRed: [41, 49], bgGreen: [42, 49], bgYellow: [43, 49], bgBlue: [44, 49], bgMagenta: [45, 49], bgCyan: [46, 49], bgWhite: [47, 49], // Bright color bgBlackBright: [100, 49], bgRedBright: [101, 49], bgGreenBright: [102, 49], bgYellowBright: [103, 49], bgBlueBright: [104, 49], bgMagentaBright: [105, 49], bgCyanBright: [106, 49], bgWhiteBright: [107, 49] } }; // Fix humans styles.color.grey = styles.color.gray; for (const groupName of Object.keys(styles)) { const group = styles[groupName]; for (const styleName of Object.keys(group)) { const style = group[styleName]; styles[styleName] = { open: `\u001B[${style[0]}m`, close: `\u001B[${style[1]}m` }; group[styleName] = styles[styleName]; codes.set(style[0], style[1]); } Object.defineProperty(styles, groupName, { value: group, enumerable: false }); Object.defineProperty(styles, 'codes', { value: codes, enumerable: false }); } const ansi2ansi = n => n; const rgb2rgb = (r, g, b) => [r, g, b]; styles.color.close = '\u001B[39m'; styles.bgColor.close = '\u001B[49m'; styles.color.ansi = { ansi: wrapAnsi16(ansi2ansi, 0) }; styles.color.ansi256 = { ansi256: wrapAnsi256(ansi2ansi, 0) }; styles.color.ansi16m = { rgb: wrapAnsi16m(rgb2rgb, 0) }; styles.bgColor.ansi = { ansi: wrapAnsi16(ansi2ansi, 10) }; styles.bgColor.ansi256 = { ansi256: wrapAnsi256(ansi2ansi, 10) }; styles.bgColor.ansi16m = { rgb: wrapAnsi16m(rgb2rgb, 10) }; for (let key of Object.keys(colorConvert)) { if (typeof colorConvert[key] !== 'object') { continue; } const suite = colorConvert[key]; if (key === 'ansi16') { key = 'ansi'; } if ('ansi16' in suite) { styles.color.ansi[key] = wrapAnsi16(suite.ansi16, 0); styles.bgColor.ansi[key] = wrapAnsi16(suite.ansi16, 10); } if ('ansi256' in suite) { styles.color.ansi256[key] = wrapAnsi256(suite.ansi256, 0); styles.bgColor.ansi256[key] = wrapAnsi256(suite.ansi256, 10); } if ('rgb' in suite) { styles.color.ansi16m[key] = wrapAnsi16m(suite.rgb, 0); styles.bgColor.ansi16m[key] = wrapAnsi16m(suite.rgb, 10); } } return styles; } // Make the export immutable Object.defineProperty(module, 'exports', { enumerable: true, get: assembleStyles }); })(ansiStyles$2); var hasFlag$5 = (flag, argv) => { argv = argv || process.argv; const prefix = flag.startsWith('-') ? '' : flag.length === 1 ? '-' : '--'; const pos = argv.indexOf(prefix + flag); const terminatorPos = argv.indexOf('--'); return pos !== -1 && (terminatorPos === -1 ? true : pos < terminatorPos); }; const os$4 = require$$0__default$1["default"]; const hasFlag$4 = hasFlag$5; const env$2 = process.env; let forceColor$2; if (hasFlag$4('no-color') || hasFlag$4('no-colors') || hasFlag$4('color=false')) { forceColor$2 = false; } else if (hasFlag$4('color') || hasFlag$4('colors') || hasFlag$4('color=true') || hasFlag$4('color=always')) { forceColor$2 = true; } if ('FORCE_COLOR' in env$2) { forceColor$2 = env$2.FORCE_COLOR.length === 0 || parseInt(env$2.FORCE_COLOR, 10) !== 0; } function translateLevel$2(level) { if (level === 0) { return false; } return { level, hasBasic: true, has256: level >= 2, has16m: level >= 3 }; } function supportsColor$2(stream) { if (forceColor$2 === false) { return 0; } if (hasFlag$4('color=16m') || hasFlag$4('color=full') || hasFlag$4('color=truecolor')) { return 3; } if (hasFlag$4('color=256')) { return 2; } if (stream && !stream.isTTY && forceColor$2 !== true) { return 0; } const min = forceColor$2 ? 1 : 0; if (process.platform === 'win32') { // Node.js 7.5.0 is the first version of Node.js to include a patch to // libuv that enables 256 color output on Windows. Anything earlier and it // won't work. However, here we target Node.js 8 at minimum as it is an LTS // release, and Node.js 7 is not. Windows 10 build 10586 is the first Windows // release that supports 256 colors. Windows 10 build 14931 is the first release // that supports 16m/TrueColor. const osRelease = os$4.release().split('.'); if (Number(process.versions.node.split('.')[0]) >= 8 && Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10586) { return Number(osRelease[2]) >= 14931 ? 3 : 2; } return 1; } if ('CI' in env$2) { if (['TRAVIS', 'CIRCLECI', 'APPVEYOR', 'GITLAB_CI'].some(sign => sign in env$2) || env$2.CI_NAME === 'codeship') { return 1; } return min; } if ('TEAMCITY_VERSION' in env$2) { return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env$2.TEAMCITY_VERSION) ? 1 : 0; } if (env$2.COLORTERM === 'truecolor') { return 3; } if ('TERM_PROGRAM' in env$2) { const version = parseInt((env$2.TERM_PROGRAM_VERSION || '').split('.')[0], 10); switch (env$2.TERM_PROGRAM) { case 'iTerm.app': return version >= 3 ? 3 : 2; case 'Apple_Terminal': return 2; // No default } } if (/-256(color)?$/i.test(env$2.TERM)) { return 2; } if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env$2.TERM)) { return 1; } if ('COLORTERM' in env$2) { return 1; } if (env$2.TERM === 'dumb') { return min; } return min; } function getSupportLevel$2(stream) { const level = supportsColor$2(stream); return translateLevel$2(level); } var supportsColor_1$2 = { supportsColor: getSupportLevel$2, stdout: getSupportLevel$2(process.stdout), stderr: getSupportLevel$2(process.stderr) }; const TEMPLATE_REGEX$2 = /(?:\\(u[a-f\d]{4}|x[a-f\d]{2}|.))|(?:\{(~)?(\w+(?:\([^)]*\))?(?:\.\w+(?:\([^)]*\))?)*)(?:[ \t]|(?=\r?\n)))|(\})|((?:.|[\r\n\f])+?)/gi; const STYLE_REGEX$2 = /(?:^|\.)(\w+)(?:\(([^)]*)\))?/g; const STRING_REGEX$3 = /^(['"])((?:\\.|(?!\1)[^\\])*)\1$/; const ESCAPE_REGEX$2 = /\\(u[a-f\d]{4}|x[a-f\d]{2}|.)|([^\\])/gi; const ESCAPES$2 = new Map([['n', '\n'], ['r', '\r'], ['t', '\t'], ['b', '\b'], ['f', '\f'], ['v', '\v'], ['0', '\0'], ['\\', '\\'], ['e', '\u001B'], ['a', '\u0007']]); function unescape$2(c) { if (c[0] === 'u' && c.length === 5 || c[0] === 'x' && c.length === 3) { return String.fromCharCode(parseInt(c.slice(1), 16)); } return ESCAPES$2.get(c) || c; } function parseArguments$2(name, args) { const results = []; const chunks = args.trim().split(/\s*,\s*/g); let matches; for (const chunk of chunks) { if (!isNaN(chunk)) { results.push(Number(chunk)); } else if (matches = chunk.match(STRING_REGEX$3)) { results.push(matches[2].replace(ESCAPE_REGEX$2, (m, escape, chr) => escape ? unescape$2(escape) : chr)); } else { throw new Error(`Invalid Chalk template style argument: ${chunk} (in style '${name}')`); } } return results; } function parseStyle$2(style) { STYLE_REGEX$2.lastIndex = 0; const results = []; let matches; while ((matches = STYLE_REGEX$2.exec(style)) !== null) { const name = matches[1]; if (matches[2]) { const args = parseArguments$2(name, matches[2]); results.push([name].concat(args)); } else { results.push([name]); } } return results; } function buildStyle$2(chalk, styles) { const enabled = {}; for (const layer of styles) { for (const style of layer.styles) { enabled[style[0]] = layer.inverse ? null : style.slice(1); } } let current = chalk; for (const styleName of Object.keys(enabled)) { if (Array.isArray(enabled[styleName])) { if (!(styleName in current)) { throw new Error(`Unknown Chalk style: ${styleName}`); } if (enabled[styleName].length > 0) { current = current[styleName].apply(current, enabled[styleName]); } else { current = current[styleName]; } } } return current; } var templates$2 = (chalk, tmp) => { const styles = []; const chunks = []; let chunk = []; // eslint-disable-next-line max-params tmp.replace(TEMPLATE_REGEX$2, (m, escapeChar, inverse, style, close, chr) => { if (escapeChar) { chunk.push(unescape$2(escapeChar)); } else if (style) { const str = chunk.join(''); chunk = []; chunks.push(styles.length === 0 ? str : buildStyle$2(chalk, styles)(str)); styles.push({ inverse, styles: parseStyle$2(style) }); } else if (close) { if (styles.length === 0) { throw new Error('Found extraneous } in Chalk template literal'); } chunks.push(buildStyle$2(chalk, styles)(chunk.join(''))); chunk = []; styles.pop(); } else { chunk.push(chr); } }); chunks.push(chunk.join('')); if (styles.length > 0) { const errMsg = `Chalk template literal is missing ${styles.length} closing bracket${styles.length === 1 ? '' : 's'} (\`}\`)`; throw new Error(errMsg); } return chunks.join(''); }; (function (module) { const escapeStringRegexp = escapeStringRegexp$1; const ansiStyles = ansiStyles$2.exports; const stdoutColor = supportsColor_1$2.stdout; const template = templates$2; const isSimpleWindowsTerm = process.platform === 'win32' && !(process.env.TERM || '').toLowerCase().startsWith('xterm'); // `supportsColor.level` → `ansiStyles.color[name]` mapping const levelMapping = ['ansi', 'ansi', 'ansi256', 'ansi16m']; // `color-convert` models to exclude from the Chalk API due to conflicts and such const skipModels = new Set(['gray']); const styles = Object.create(null); function applyOptions(obj, options) { options = options || {}; // Detect level if not set manually const scLevel = stdoutColor ? stdoutColor.level : 0; obj.level = options.level === undefined ? scLevel : options.level; obj.enabled = 'enabled' in options ? options.enabled : obj.level > 0; } function Chalk(options) { // We check for this.template here since calling `chalk.constructor()` // by itself will have a `this` of a previously constructed chalk object if (!this || !(this instanceof Chalk) || this.template) { const chalk = {}; applyOptions(chalk, options); chalk.template = function () { const args = [].slice.call(arguments); return chalkTag.apply(null, [chalk.template].concat(args)); }; Object.setPrototypeOf(chalk, Chalk.prototype); Object.setPrototypeOf(chalk.template, chalk); chalk.template.constructor = Chalk; return chalk.template; } applyOptions(this, options); } // Use bright blue on Windows as the normal blue color is illegible if (isSimpleWindowsTerm) { ansiStyles.blue.open = '\u001B[94m'; } for (const key of Object.keys(ansiStyles)) { ansiStyles[key].closeRe = new RegExp(escapeStringRegexp(ansiStyles[key].close), 'g'); styles[key] = { get() { const codes = ansiStyles[key]; return build.call(this, this._styles ? this._styles.concat(codes) : [codes], this._empty, key); } }; } styles.visible = { get() { return build.call(this, this._styles || [], true, 'visible'); } }; ansiStyles.color.closeRe = new RegExp(escapeStringRegexp(ansiStyles.color.close), 'g'); for (const model of Object.keys(ansiStyles.color.ansi)) { if (skipModels.has(model)) { continue; } styles[model] = { get() { const level = this.level; return function () { const open = ansiStyles.color[levelMapping[level]][model].apply(null, arguments); const codes = { open, close: ansiStyles.color.close, closeRe: ansiStyles.color.closeRe }; return build.call(this, this._styles ? this._styles.concat(codes) : [codes], this._empty, model); }; } }; } ansiStyles.bgColor.closeRe = new RegExp(escapeStringRegexp(ansiStyles.bgColor.close), 'g'); for (const model of Object.keys(ansiStyles.bgColor.ansi)) { if (skipModels.has(model)) { continue; } const bgModel = 'bg' + model[0].toUpperCase() + model.slice(1); styles[bgModel] = { get() { const level = this.level; return function () { const open = ansiStyles.bgColor[levelMapping[level]][model].apply(null, arguments); const codes = { open, close: ansiStyles.bgColor.close, closeRe: ansiStyles.bgColor.closeRe }; return build.call(this, this._styles ? this._styles.concat(codes) : [codes], this._empty, model); }; } }; } const proto = Object.defineProperties(() => {}, styles); function build(_styles, _empty, key) { const builder = function () { return applyStyle.apply(builder, arguments); }; builder._styles = _styles; builder._empty = _empty; const self = this; Object.defineProperty(builder, 'level', { enumerable: true, get() { return self.level; }, set(level) { self.level = level; } }); Object.defineProperty(builder, 'enabled', { enumerable: true, get() { return self.enabled; }, set(enabled) { self.enabled = enabled; } }); // See below for fix regarding invisible grey/dim combination on Windows builder.hasGrey = this.hasGrey || key === 'gray' || key === 'grey'; // `__proto__` is used because we must return a function, but there is // no way to create a function with a different prototype builder.__proto__ = proto; // eslint-disable-line no-proto return builder; } function applyStyle() { // Support varags, but simply cast to string in case there's only one arg const args = arguments; const argsLen = args.length; let str = String(arguments[0]); if (argsLen === 0) { return ''; } if (argsLen > 1) { // Don't slice `arguments`, it prevents V8 optimizations for (let a = 1; a < argsLen; a++) { str += ' ' + args[a]; } } if (!this.enabled || this.level <= 0 || !str) { return this._empty ? '' : str; } // Turns out that on Windows dimmed gray text becomes invisible in cmd.exe, // see https://github.com/chalk/chalk/issues/58 // If we're on Windows and we're dealing with a gray color, temporarily make 'dim' a noop. const originalDim = ansiStyles.dim.open; if (isSimpleWindowsTerm && this.hasGrey) { ansiStyles.dim.open = ''; } for (const code of this._styles.slice().reverse()) { // Replace any instances already present with a re-opening code // otherwise only the part of the string until said closing code // will be colored, and the rest will simply be 'plain'. str = code.open + str.replace(code.closeRe, code.open) + code.close; // Close the styling before a linebreak and reopen // after next line to fix a bleed issue on macOS // https://github.com/chalk/chalk/pull/92 str = str.replace(/\r?\n/g, `${code.close}$&${code.open}`); } // Reset the original `dim` if we changed it to work around the Windows dimmed gray issue ansiStyles.dim.open = originalDim; return str; } function chalkTag(chalk, strings) { if (!Array.isArray(strings)) { // If chalk() was called by itself or with a string, // return the string itself as a string. return [].slice.call(arguments, 1).join(' '); } const args = [].slice.call(arguments, 2); const parts = [strings.raw[0]]; for (let i = 1; i < strings.length; i++) { parts.push(String(args[i - 1]).replace(/[{}\\]/g, '\\$&')); parts.push(String(strings.raw[i])); } return template(chalk, parts.join('')); } Object.defineProperties(Chalk.prototype, styles); module.exports = Chalk(); // eslint-disable-line new-cap module.exports.supportsColor = stdoutColor; module.exports.default = module.exports; // For TypeScript })(chalk$3); Object.defineProperty(common$8, "__esModule", { value: true }); const chalk_1$2 = chalk$3.exports; common$8.commonDeprecatedHandler = (keyOrPair, redirectTo, { descriptor }) => { const messages = [`${chalk_1$2.default.yellow(typeof keyOrPair === 'string' ? descriptor.key(keyOrPair) : descriptor.pair(keyOrPair))} is deprecated`]; if (redirectTo) { messages.push(`we now treat it as ${chalk_1$2.default.blue(typeof redirectTo === 'string' ? descriptor.key(redirectTo) : descriptor.pair(redirectTo))}`); } return messages.join('; ') + '.'; }; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(common$8, exports); })(deprecated); var invalid = {}; var common$7 = {}; Object.defineProperty(common$7, "__esModule", { value: true }); const chalk_1$1 = chalk$3.exports; common$7.commonInvalidHandler = (key, value, utils) => [`Invalid ${chalk_1$1.default.red(utils.descriptor.key(key))} value.`, `Expected ${chalk_1$1.default.blue(utils.schemas[key].expected(utils))},`, `but received ${chalk_1$1.default.red(utils.descriptor.value(value))}.`].join(' '); (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(common$7, exports); })(invalid); var unknown = {}; var leven$5 = {}; /* eslint-disable no-nested-ternary */ var arr = []; var charCodeCache$1 = []; var leven$4 = function (a, b) { if (a === b) { return 0; } var swap = a; // Swapping the strings if `a` is longer than `b` so we know which one is the // shortest & which one is the longest if (a.length > b.length) { a = b; b = swap; } var aLen = a.length; var bLen = b.length; if (aLen === 0) { return bLen; } if (bLen === 0) { return aLen; } // Performing suffix trimming: // We can linearly drop suffix common to both strings since they // don't increase distance at all // Note: `~-` is the bitwise way to perform a `- 1` operation while (aLen > 0 && a.charCodeAt(~-aLen) === b.charCodeAt(~-bLen)) { aLen--; bLen--; } if (aLen === 0) { return bLen; } // Performing prefix trimming // We can linearly drop prefix common to both strings since they // don't increase distance at all var start = 0; while (start < aLen && a.charCodeAt(start) === b.charCodeAt(start)) { start++; } aLen -= start; bLen -= start; if (aLen === 0) { return bLen; } var bCharCode; var ret; var tmp; var tmp2; var i = 0; var j = 0; while (i < aLen) { charCodeCache$1[start + i] = a.charCodeAt(start + i); arr[i] = ++i; } while (j < bLen) { bCharCode = b.charCodeAt(start + j); tmp = j++; ret = j; for (i = 0; i < aLen; i++) { tmp2 = bCharCode === charCodeCache$1[start + i] ? tmp : tmp + 1; tmp = arr[i]; ret = arr[i] = tmp > ret ? tmp2 > ret ? ret + 1 : tmp2 : tmp2 > tmp ? tmp + 1 : tmp2; } } return ret; }; Object.defineProperty(leven$5, "__esModule", { value: true }); const chalk_1 = chalk$3.exports; const leven$3 = leven$4; leven$5.levenUnknownHandler = (key, value, { descriptor, logger, schemas }) => { const messages = [`Ignored unknown option ${chalk_1.default.yellow(descriptor.pair({ key, value }))}.`]; const suggestion = Object.keys(schemas).sort().find(knownKey => leven$3(key, knownKey) < 3); if (suggestion) { messages.push(`Did you mean ${chalk_1.default.blue(descriptor.key(suggestion))}?`); } logger.warn(messages.join(' ')); }; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(leven$5, exports); })(unknown); (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(deprecated, exports); tslib_1.__exportStar(invalid, exports); tslib_1.__exportStar(unknown, exports); })(handlers); var schemas = {}; var alias = {}; var schema = {}; Object.defineProperty(schema, "__esModule", { value: true }); const HANDLER_KEYS = ['default', 'expected', 'validate', 'deprecated', 'forward', 'redirect', 'overlap', 'preprocess', 'postprocess']; function createSchema(SchemaConstructor, parameters) { const schema = new SchemaConstructor(parameters); const subSchema = Object.create(schema); for (const handlerKey of HANDLER_KEYS) { if (handlerKey in parameters) { subSchema[handlerKey] = normalizeHandler(parameters[handlerKey], schema, Schema.prototype[handlerKey].length); } } return subSchema; } schema.createSchema = createSchema; class Schema { constructor(parameters) { this.name = parameters.name; } static create(parameters) { // @ts-ignore: https://github.com/Microsoft/TypeScript/issues/5863 return createSchema(this, parameters); } default(_utils) { return undefined; } // istanbul ignore next: this is actually an abstract method but we need a placeholder to get `function.length` expected(_utils) { return 'nothing'; } // istanbul ignore next: this is actually an abstract method but we need a placeholder to get `function.length` validate(_value, _utils) { return false; } deprecated(_value, _utils) { return false; } forward(_value, _utils) { return undefined; } redirect(_value, _utils) { return undefined; } overlap(currentValue, _newValue, _utils) { return currentValue; } preprocess(value, _utils) { return value; } postprocess(value, _utils) { return value; } } schema.Schema = Schema; function normalizeHandler(handler, superSchema, handlerArgumentsLength) { return typeof handler === 'function' ? (...args) => handler(...args.slice(0, handlerArgumentsLength - 1), superSchema, ...args.slice(handlerArgumentsLength - 1)) : () => handler; } Object.defineProperty(alias, "__esModule", { value: true }); const schema_1$6 = schema; class AliasSchema extends schema_1$6.Schema { constructor(parameters) { super(parameters); this._sourceName = parameters.sourceName; } expected(utils) { return utils.schemas[this._sourceName].expected(utils); } validate(value, utils) { return utils.schemas[this._sourceName].validate(value, utils); } redirect(_value, _utils) { return this._sourceName; } } alias.AliasSchema = AliasSchema; var any = {}; Object.defineProperty(any, "__esModule", { value: true }); const schema_1$5 = schema; class AnySchema extends schema_1$5.Schema { expected() { return 'anything'; } validate() { return true; } } any.AnySchema = AnySchema; var array$4 = {}; Object.defineProperty(array$4, "__esModule", { value: true }); const tslib_1 = tslib_es6; const schema_1$4 = schema; class ArraySchema extends schema_1$4.Schema { constructor(_a) { var { valueSchema, name = valueSchema.name } = _a, handlers = tslib_1.__rest(_a, ["valueSchema", "name"]); super(Object.assign({}, handlers, { name })); this._valueSchema = valueSchema; } expected(utils) { return `an array of ${this._valueSchema.expected(utils)}`; } validate(value, utils) { if (!Array.isArray(value)) { return false; } const invalidValues = []; for (const subValue of value) { const subValidateResult = utils.normalizeValidateResult(this._valueSchema.validate(subValue, utils), subValue); if (subValidateResult !== true) { invalidValues.push(subValidateResult.value); } } return invalidValues.length === 0 ? true : { value: invalidValues }; } deprecated(value, utils) { const deprecatedResult = []; for (const subValue of value) { const subDeprecatedResult = utils.normalizeDeprecatedResult(this._valueSchema.deprecated(subValue, utils), subValue); if (subDeprecatedResult !== false) { deprecatedResult.push(...subDeprecatedResult.map(({ value: deprecatedValue }) => ({ value: [deprecatedValue] }))); } } return deprecatedResult; } forward(value, utils) { const forwardResult = []; for (const subValue of value) { const subForwardResult = utils.normalizeForwardResult(this._valueSchema.forward(subValue, utils), subValue); forwardResult.push(...subForwardResult.map(wrapTransferResult)); } return forwardResult; } redirect(value, utils) { const remain = []; const redirect = []; for (const subValue of value) { const subRedirectResult = utils.normalizeRedirectResult(this._valueSchema.redirect(subValue, utils), subValue); if ('remain' in subRedirectResult) { remain.push(subRedirectResult.remain); } redirect.push(...subRedirectResult.redirect.map(wrapTransferResult)); } return remain.length === 0 ? { redirect } : { redirect, remain }; } overlap(currentValue, newValue) { return currentValue.concat(newValue); } } array$4.ArraySchema = ArraySchema; function wrapTransferResult({ from, to }) { return { from: [from], to }; } var boolean = {}; Object.defineProperty(boolean, "__esModule", { value: true }); const schema_1$3 = schema; class BooleanSchema extends schema_1$3.Schema { expected() { return 'true or false'; } validate(value) { return typeof value === 'boolean'; } } boolean.BooleanSchema = BooleanSchema; var choice = {}; var utils$s = {}; Object.defineProperty(utils$s, "__esModule", { value: true }); function recordFromArray(array, mainKey) { const record = Object.create(null); for (const value of array) { const key = value[mainKey]; // istanbul ignore next if (record[key]) { throw new Error(`Duplicate ${mainKey} ${JSON.stringify(key)}`); } // @ts-ignore record[key] = value; } return record; } utils$s.recordFromArray = recordFromArray; function mapFromArray(array, mainKey) { const map = new Map(); for (const value of array) { const key = value[mainKey]; // istanbul ignore next if (map.has(key)) { throw new Error(`Duplicate ${mainKey} ${JSON.stringify(key)}`); } map.set(key, value); } return map; } utils$s.mapFromArray = mapFromArray; function createAutoChecklist() { const map = Object.create(null); return id => { const idString = JSON.stringify(id); if (map[idString]) { return true; } map[idString] = true; return false; }; } utils$s.createAutoChecklist = createAutoChecklist; function partition$2(array, predicate) { const trueArray = []; const falseArray = []; for (const value of array) { if (predicate(value)) { trueArray.push(value); } else { falseArray.push(value); } } return [trueArray, falseArray]; } utils$s.partition = partition$2; function isInt(value) { return value === Math.floor(value); } utils$s.isInt = isInt; function comparePrimitive(a, b) { if (a === b) { return 0; } const typeofA = typeof a; const typeofB = typeof b; const orders = ['undefined', 'object', 'boolean', 'number', 'string']; if (typeofA !== typeofB) { return orders.indexOf(typeofA) - orders.indexOf(typeofB); } if (typeofA !== 'string') { return Number(a) - Number(b); } return a.localeCompare(b); } utils$s.comparePrimitive = comparePrimitive; function normalizeDefaultResult(result) { return result === undefined ? {} : result; } utils$s.normalizeDefaultResult = normalizeDefaultResult; function normalizeValidateResult(result, value) { return result === true ? true : result === false ? { value } : result; } utils$s.normalizeValidateResult = normalizeValidateResult; function normalizeDeprecatedResult(result, value, doNotNormalizeTrue = false) { return result === false ? false : result === true ? doNotNormalizeTrue ? true : [{ value }] : 'value' in result ? [result] : result.length === 0 ? false : result; } utils$s.normalizeDeprecatedResult = normalizeDeprecatedResult; function normalizeTransferResult(result, value) { return typeof result === 'string' || 'key' in result ? { from: value, to: result } : 'from' in result ? { from: result.from, to: result.to } : { from: value, to: result.to }; } utils$s.normalizeTransferResult = normalizeTransferResult; function normalizeForwardResult(result, value) { return result === undefined ? [] : Array.isArray(result) ? result.map(transferResult => normalizeTransferResult(transferResult, value)) : [normalizeTransferResult(result, value)]; } utils$s.normalizeForwardResult = normalizeForwardResult; function normalizeRedirectResult(result, value) { const redirect = normalizeForwardResult(typeof result === 'object' && 'redirect' in result ? result.redirect : result, value); return redirect.length === 0 ? { remain: value, redirect } : typeof result === 'object' && 'remain' in result ? { remain: result.remain, redirect } : { redirect }; } utils$s.normalizeRedirectResult = normalizeRedirectResult; Object.defineProperty(choice, "__esModule", { value: true }); const schema_1$2 = schema; const utils_1$2 = utils$s; class ChoiceSchema extends schema_1$2.Schema { constructor(parameters) { super(parameters); this._choices = utils_1$2.mapFromArray(parameters.choices.map(choice => choice && typeof choice === 'object' ? choice : { value: choice }), 'value'); } expected({ descriptor }) { const choiceValues = Array.from(this._choices.keys()).map(value => this._choices.get(value)).filter(choiceInfo => !choiceInfo.deprecated).map(choiceInfo => choiceInfo.value).sort(utils_1$2.comparePrimitive).map(descriptor.value); const head = choiceValues.slice(0, -2); const tail = choiceValues.slice(-2); return head.concat(tail.join(' or ')).join(', '); } validate(value) { return this._choices.has(value); } deprecated(value) { const choiceInfo = this._choices.get(value); return choiceInfo && choiceInfo.deprecated ? { value } : false; } forward(value) { const choiceInfo = this._choices.get(value); return choiceInfo ? choiceInfo.forward : undefined; } redirect(value) { const choiceInfo = this._choices.get(value); return choiceInfo ? choiceInfo.redirect : undefined; } } choice.ChoiceSchema = ChoiceSchema; var integer = {}; var number = {}; Object.defineProperty(number, "__esModule", { value: true }); const schema_1$1 = schema; class NumberSchema extends schema_1$1.Schema { expected() { return 'a number'; } validate(value, _utils) { return typeof value === 'number'; } } number.NumberSchema = NumberSchema; Object.defineProperty(integer, "__esModule", { value: true }); const utils_1$1 = utils$s; const number_1 = number; class IntegerSchema extends number_1.NumberSchema { expected() { return 'an integer'; } validate(value, utils) { return utils.normalizeValidateResult(super.validate(value, utils), value) === true && utils_1$1.isInt(value); } } integer.IntegerSchema = IntegerSchema; var string$2 = {}; Object.defineProperty(string$2, "__esModule", { value: true }); const schema_1 = schema; class StringSchema extends schema_1.Schema { expected() { return 'a string'; } validate(value) { return typeof value === 'string'; } } string$2.StringSchema = StringSchema; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(alias, exports); tslib_1.__exportStar(any, exports); tslib_1.__exportStar(array$4, exports); tslib_1.__exportStar(boolean, exports); tslib_1.__exportStar(choice, exports); tslib_1.__exportStar(integer, exports); tslib_1.__exportStar(number, exports); tslib_1.__exportStar(string$2, exports); })(schemas); var normalize$2 = {}; var defaults = {}; Object.defineProperty(defaults, "__esModule", { value: true }); const api_1 = api; const common_1 = common$8; const invalid_1 = invalid; const leven_1 = leven$5; defaults.defaultDescriptor = api_1.apiDescriptor; defaults.defaultUnknownHandler = leven_1.levenUnknownHandler; defaults.defaultInvalidHandler = invalid_1.commonInvalidHandler; defaults.defaultDeprecatedHandler = common_1.commonDeprecatedHandler; Object.defineProperty(normalize$2, "__esModule", { value: true }); const defaults_1 = defaults; const utils_1 = utils$s; normalize$2.normalize = (options, schemas, opts) => new Normalizer(schemas, opts).normalize(options); class Normalizer { constructor(schemas, opts) { // istanbul ignore next const { logger = console, descriptor = defaults_1.defaultDescriptor, unknown = defaults_1.defaultUnknownHandler, invalid = defaults_1.defaultInvalidHandler, deprecated = defaults_1.defaultDeprecatedHandler } = opts || {}; this._utils = { descriptor, logger: /* istanbul ignore next */ logger || { warn: () => {} }, schemas: utils_1.recordFromArray(schemas, 'name'), normalizeDefaultResult: utils_1.normalizeDefaultResult, normalizeDeprecatedResult: utils_1.normalizeDeprecatedResult, normalizeForwardResult: utils_1.normalizeForwardResult, normalizeRedirectResult: utils_1.normalizeRedirectResult, normalizeValidateResult: utils_1.normalizeValidateResult }; this._unknownHandler = unknown; this._invalidHandler = invalid; this._deprecatedHandler = deprecated; this.cleanHistory(); } cleanHistory() { this._hasDeprecationWarned = utils_1.createAutoChecklist(); } normalize(options) { const normalized = {}; const restOptionsArray = [options]; const applyNormalization = () => { while (restOptionsArray.length !== 0) { const currentOptions = restOptionsArray.shift(); const transferredOptionsArray = this._applyNormalization(currentOptions, normalized); restOptionsArray.push(...transferredOptionsArray); } }; applyNormalization(); for (const key of Object.keys(this._utils.schemas)) { const schema = this._utils.schemas[key]; if (!(key in normalized)) { const defaultResult = utils_1.normalizeDefaultResult(schema.default(this._utils)); if ('value' in defaultResult) { restOptionsArray.push({ [key]: defaultResult.value }); } } } applyNormalization(); for (const key of Object.keys(this._utils.schemas)) { const schema = this._utils.schemas[key]; if (key in normalized) { normalized[key] = schema.postprocess(normalized[key], this._utils); } } return normalized; } _applyNormalization(options, normalized) { const transferredOptionsArray = []; const [knownOptionNames, unknownOptionNames] = utils_1.partition(Object.keys(options), key => key in this._utils.schemas); for (const key of knownOptionNames) { const schema = this._utils.schemas[key]; const value = schema.preprocess(options[key], this._utils); const validateResult = utils_1.normalizeValidateResult(schema.validate(value, this._utils), value); if (validateResult !== true) { const { value: invalidValue } = validateResult; const errorMessageOrError = this._invalidHandler(key, invalidValue, this._utils); throw typeof errorMessageOrError === 'string' ? new Error(errorMessageOrError) : /* istanbul ignore next*/ errorMessageOrError; } const appendTransferredOptions = ({ from, to }) => { transferredOptionsArray.push(typeof to === 'string' ? { [to]: from } : { [to.key]: to.value }); }; const warnDeprecated = ({ value: currentValue, redirectTo }) => { const deprecatedResult = utils_1.normalizeDeprecatedResult(schema.deprecated(currentValue, this._utils), value, /* doNotNormalizeTrue */ true); if (deprecatedResult === false) { return; } if (deprecatedResult === true) { if (!this._hasDeprecationWarned(key)) { this._utils.logger.warn(this._deprecatedHandler(key, redirectTo, this._utils)); } } else { for (const { value: deprecatedValue } of deprecatedResult) { const pair = { key, value: deprecatedValue }; if (!this._hasDeprecationWarned(pair)) { const redirectToPair = typeof redirectTo === 'string' ? { key: redirectTo, value: deprecatedValue } : redirectTo; this._utils.logger.warn(this._deprecatedHandler(pair, redirectToPair, this._utils)); } } } }; const forwardResult = utils_1.normalizeForwardResult(schema.forward(value, this._utils), value); forwardResult.forEach(appendTransferredOptions); const redirectResult = utils_1.normalizeRedirectResult(schema.redirect(value, this._utils), value); redirectResult.redirect.forEach(appendTransferredOptions); if ('remain' in redirectResult) { const remainingValue = redirectResult.remain; normalized[key] = key in normalized ? schema.overlap(normalized[key], remainingValue, this._utils) : remainingValue; warnDeprecated({ value: remainingValue }); } for (const { from, to } of redirectResult.redirect) { warnDeprecated({ value: from, redirectTo: to }); } } for (const key of unknownOptionNames) { const value = options[key]; const unknownResult = this._unknownHandler(key, value, this._utils); if (unknownResult) { for (const unknownKey of Object.keys(unknownResult)) { const unknownOption = { [unknownKey]: unknownResult[unknownKey] }; if (unknownKey in this._utils.schemas) { transferredOptionsArray.push(unknownOption); } else { Object.assign(normalized, unknownOption); } } } } return transferredOptionsArray; } } normalize$2.Normalizer = Normalizer; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); const tslib_1 = tslib_es6; tslib_1.__exportStar(descriptors, exports); tslib_1.__exportStar(handlers, exports); tslib_1.__exportStar(schemas, exports); tslib_1.__exportStar(normalize$2, exports); tslib_1.__exportStar(schema, exports); })(lib$4); var leven$2 = {exports: {}}; const array$3 = []; const charCodeCache = []; const leven$1 = (left, right) => { if (left === right) { return 0; } const swap = left; // Swapping the strings if `a` is longer than `b` so we know which one is the // shortest & which one is the longest if (left.length > right.length) { left = right; right = swap; } let leftLength = left.length; let rightLength = right.length; // Performing suffix trimming: // We can linearly drop suffix common to both strings since they // don't increase distance at all // Note: `~-` is the bitwise way to perform a `- 1` operation while (leftLength > 0 && left.charCodeAt(~-leftLength) === right.charCodeAt(~-rightLength)) { leftLength--; rightLength--; } // Performing prefix trimming // We can linearly drop prefix common to both strings since they // don't increase distance at all let start = 0; while (start < leftLength && left.charCodeAt(start) === right.charCodeAt(start)) { start++; } leftLength -= start; rightLength -= start; if (leftLength === 0) { return rightLength; } let bCharCode; let result; let temp; let temp2; let i = 0; let j = 0; while (i < leftLength) { charCodeCache[i] = left.charCodeAt(start + i); array$3[i] = ++i; } while (j < rightLength) { bCharCode = right.charCodeAt(start + j); temp = j++; result = j; for (i = 0; i < leftLength; i++) { temp2 = bCharCode === charCodeCache[i] ? temp : temp + 1; temp = array$3[i]; // eslint-disable-next-line no-multi-assign result = array$3[i] = temp > result ? temp2 > result ? result + 1 : temp2 : temp2 > temp ? temp + 1 : temp2; } } return result; }; leven$2.exports = leven$1; // TODO: Remove this for the next major release leven$2.exports.default = leven$1; var ansiStyles$1 = {exports: {}}; var colorName = { "aliceblue": [240, 248, 255], "antiquewhite": [250, 235, 215], "aqua": [0, 255, 255], "aquamarine": [127, 255, 212], "azure": [240, 255, 255], "beige": [245, 245, 220], "bisque": [255, 228, 196], "black": [0, 0, 0], "blanchedalmond": [255, 235, 205], "blue": [0, 0, 255], "blueviolet": [138, 43, 226], "brown": [165, 42, 42], "burlywood": [222, 184, 135], "cadetblue": [95, 158, 160], "chartreuse": [127, 255, 0], "chocolate": [210, 105, 30], "coral": [255, 127, 80], "cornflowerblue": [100, 149, 237], "cornsilk": [255, 248, 220], "crimson": [220, 20, 60], "cyan": [0, 255, 255], "darkblue": [0, 0, 139], "darkcyan": [0, 139, 139], "darkgoldenrod": [184, 134, 11], "darkgray": [169, 169, 169], "darkgreen": [0, 100, 0], "darkgrey": [169, 169, 169], "darkkhaki": [189, 183, 107], "darkmagenta": [139, 0, 139], "darkolivegreen": [85, 107, 47], "darkorange": [255, 140, 0], "darkorchid": [153, 50, 204], "darkred": [139, 0, 0], "darksalmon": [233, 150, 122], "darkseagreen": [143, 188, 143], "darkslateblue": [72, 61, 139], "darkslategray": [47, 79, 79], "darkslategrey": [47, 79, 79], "darkturquoise": [0, 206, 209], "darkviolet": [148, 0, 211], "deeppink": [255, 20, 147], "deepskyblue": [0, 191, 255], "dimgray": [105, 105, 105], "dimgrey": [105, 105, 105], "dodgerblue": [30, 144, 255], "firebrick": [178, 34, 34], "floralwhite": [255, 250, 240], "forestgreen": [34, 139, 34], "fuchsia": [255, 0, 255], "gainsboro": [220, 220, 220], "ghostwhite": [248, 248, 255], "gold": [255, 215, 0], "goldenrod": [218, 165, 32], "gray": [128, 128, 128], "green": [0, 128, 0], "greenyellow": [173, 255, 47], "grey": [128, 128, 128], "honeydew": [240, 255, 240], "hotpink": [255, 105, 180], "indianred": [205, 92, 92], "indigo": [75, 0, 130], "ivory": [255, 255, 240], "khaki": [240, 230, 140], "lavender": [230, 230, 250], "lavenderblush": [255, 240, 245], "lawngreen": [124, 252, 0], "lemonchiffon": [255, 250, 205], "lightblue": [173, 216, 230], "lightcoral": [240, 128, 128], "lightcyan": [224, 255, 255], "lightgoldenrodyellow": [250, 250, 210], "lightgray": [211, 211, 211], "lightgreen": [144, 238, 144], "lightgrey": [211, 211, 211], "lightpink": [255, 182, 193], "lightsalmon": [255, 160, 122], "lightseagreen": [32, 178, 170], "lightskyblue": [135, 206, 250], "lightslategray": [119, 136, 153], "lightslategrey": [119, 136, 153], "lightsteelblue": [176, 196, 222], "lightyellow": [255, 255, 224], "lime": [0, 255, 0], "limegreen": [50, 205, 50], "linen": [250, 240, 230], "magenta": [255, 0, 255], "maroon": [128, 0, 0], "mediumaquamarine": [102, 205, 170], "mediumblue": [0, 0, 205], "mediumorchid": [186, 85, 211], "mediumpurple": [147, 112, 219], "mediumseagreen": [60, 179, 113], "mediumslateblue": [123, 104, 238], "mediumspringgreen": [0, 250, 154], "mediumturquoise": [72, 209, 204], "mediumvioletred": [199, 21, 133], "midnightblue": [25, 25, 112], "mintcream": [245, 255, 250], "mistyrose": [255, 228, 225], "moccasin": [255, 228, 181], "navajowhite": [255, 222, 173], "navy": [0, 0, 128], "oldlace": [253, 245, 230], "olive": [128, 128, 0], "olivedrab": [107, 142, 35], "orange": [255, 165, 0], "orangered": [255, 69, 0], "orchid": [218, 112, 214], "palegoldenrod": [238, 232, 170], "palegreen": [152, 251, 152], "paleturquoise": [175, 238, 238], "palevioletred": [219, 112, 147], "papayawhip": [255, 239, 213], "peachpuff": [255, 218, 185], "peru": [205, 133, 63], "pink": [255, 192, 203], "plum": [221, 160, 221], "powderblue": [176, 224, 230], "purple": [128, 0, 128], "rebeccapurple": [102, 51, 153], "red": [255, 0, 0], "rosybrown": [188, 143, 143], "royalblue": [65, 105, 225], "saddlebrown": [139, 69, 19], "salmon": [250, 128, 114], "sandybrown": [244, 164, 96], "seagreen": [46, 139, 87], "seashell": [255, 245, 238], "sienna": [160, 82, 45], "silver": [192, 192, 192], "skyblue": [135, 206, 235], "slateblue": [106, 90, 205], "slategray": [112, 128, 144], "slategrey": [112, 128, 144], "snow": [255, 250, 250], "springgreen": [0, 255, 127], "steelblue": [70, 130, 180], "tan": [210, 180, 140], "teal": [0, 128, 128], "thistle": [216, 191, 216], "tomato": [255, 99, 71], "turquoise": [64, 224, 208], "violet": [238, 130, 238], "wheat": [245, 222, 179], "white": [255, 255, 255], "whitesmoke": [245, 245, 245], "yellow": [255, 255, 0], "yellowgreen": [154, 205, 50] }; /* MIT license */ /* eslint-disable no-mixed-operators */ const cssKeywords = colorName; // NOTE: conversions should only return primitive values (i.e. arrays, or // values that give correct `typeof` results). // do not use box values types (i.e. Number(), String(), etc.) const reverseKeywords = {}; for (const key of Object.keys(cssKeywords)) { reverseKeywords[cssKeywords[key]] = key; } const convert$1 = { rgb: { channels: 3, labels: 'rgb' }, hsl: { channels: 3, labels: 'hsl' }, hsv: { channels: 3, labels: 'hsv' }, hwb: { channels: 3, labels: 'hwb' }, cmyk: { channels: 4, labels: 'cmyk' }, xyz: { channels: 3, labels: 'xyz' }, lab: { channels: 3, labels: 'lab' }, lch: { channels: 3, labels: 'lch' }, hex: { channels: 1, labels: ['hex'] }, keyword: { channels: 1, labels: ['keyword'] }, ansi16: { channels: 1, labels: ['ansi16'] }, ansi256: { channels: 1, labels: ['ansi256'] }, hcg: { channels: 3, labels: ['h', 'c', 'g'] }, apple: { channels: 3, labels: ['r16', 'g16', 'b16'] }, gray: { channels: 1, labels: ['gray'] } }; var conversions$2 = convert$1; // Hide .channels and .labels properties for (const model of Object.keys(convert$1)) { if (!('channels' in convert$1[model])) { throw new Error('missing channels property: ' + model); } if (!('labels' in convert$1[model])) { throw new Error('missing channel labels property: ' + model); } if (convert$1[model].labels.length !== convert$1[model].channels) { throw new Error('channel and label counts mismatch: ' + model); } const { channels, labels } = convert$1[model]; delete convert$1[model].channels; delete convert$1[model].labels; Object.defineProperty(convert$1[model], 'channels', { value: channels }); Object.defineProperty(convert$1[model], 'labels', { value: labels }); } convert$1.rgb.hsl = function (rgb) { const r = rgb[0] / 255; const g = rgb[1] / 255; const b = rgb[2] / 255; const min = Math.min(r, g, b); const max = Math.max(r, g, b); const delta = max - min; let h; let s; if (max === min) { h = 0; } else if (r === max) { h = (g - b) / delta; } else if (g === max) { h = 2 + (b - r) / delta; } else if (b === max) { h = 4 + (r - g) / delta; } h = Math.min(h * 60, 360); if (h < 0) { h += 360; } const l = (min + max) / 2; if (max === min) { s = 0; } else if (l <= 0.5) { s = delta / (max + min); } else { s = delta / (2 - max - min); } return [h, s * 100, l * 100]; }; convert$1.rgb.hsv = function (rgb) { let rdif; let gdif; let bdif; let h; let s; const r = rgb[0] / 255; const g = rgb[1] / 255; const b = rgb[2] / 255; const v = Math.max(r, g, b); const diff = v - Math.min(r, g, b); const diffc = function (c) { return (v - c) / 6 / diff + 1 / 2; }; if (diff === 0) { h = 0; s = 0; } else { s = diff / v; rdif = diffc(r); gdif = diffc(g); bdif = diffc(b); if (r === v) { h = bdif - gdif; } else if (g === v) { h = 1 / 3 + rdif - bdif; } else if (b === v) { h = 2 / 3 + gdif - rdif; } if (h < 0) { h += 1; } else if (h > 1) { h -= 1; } } return [h * 360, s * 100, v * 100]; }; convert$1.rgb.hwb = function (rgb) { const r = rgb[0]; const g = rgb[1]; let b = rgb[2]; const h = convert$1.rgb.hsl(rgb)[0]; const w = 1 / 255 * Math.min(r, Math.min(g, b)); b = 1 - 1 / 255 * Math.max(r, Math.max(g, b)); return [h, w * 100, b * 100]; }; convert$1.rgb.cmyk = function (rgb) { const r = rgb[0] / 255; const g = rgb[1] / 255; const b = rgb[2] / 255; const k = Math.min(1 - r, 1 - g, 1 - b); const c = (1 - r - k) / (1 - k) || 0; const m = (1 - g - k) / (1 - k) || 0; const y = (1 - b - k) / (1 - k) || 0; return [c * 100, m * 100, y * 100, k * 100]; }; function comparativeDistance(x, y) { /* See https://en.m.wikipedia.org/wiki/Euclidean_distance#Squared_Euclidean_distance */ return (x[0] - y[0]) ** 2 + (x[1] - y[1]) ** 2 + (x[2] - y[2]) ** 2; } convert$1.rgb.keyword = function (rgb) { const reversed = reverseKeywords[rgb]; if (reversed) { return reversed; } let currentClosestDistance = Infinity; let currentClosestKeyword; for (const keyword of Object.keys(cssKeywords)) { const value = cssKeywords[keyword]; // Compute comparative distance const distance = comparativeDistance(rgb, value); // Check if its less, if so set as closest if (distance < currentClosestDistance) { currentClosestDistance = distance; currentClosestKeyword = keyword; } } return currentClosestKeyword; }; convert$1.keyword.rgb = function (keyword) { return cssKeywords[keyword]; }; convert$1.rgb.xyz = function (rgb) { let r = rgb[0] / 255; let g = rgb[1] / 255; let b = rgb[2] / 255; // Assume sRGB r = r > 0.04045 ? ((r + 0.055) / 1.055) ** 2.4 : r / 12.92; g = g > 0.04045 ? ((g + 0.055) / 1.055) ** 2.4 : g / 12.92; b = b > 0.04045 ? ((b + 0.055) / 1.055) ** 2.4 : b / 12.92; const x = r * 0.4124 + g * 0.3576 + b * 0.1805; const y = r * 0.2126 + g * 0.7152 + b * 0.0722; const z = r * 0.0193 + g * 0.1192 + b * 0.9505; return [x * 100, y * 100, z * 100]; }; convert$1.rgb.lab = function (rgb) { const xyz = convert$1.rgb.xyz(rgb); let x = xyz[0]; let y = xyz[1]; let z = xyz[2]; x /= 95.047; y /= 100; z /= 108.883; x = x > 0.008856 ? x ** (1 / 3) : 7.787 * x + 16 / 116; y = y > 0.008856 ? y ** (1 / 3) : 7.787 * y + 16 / 116; z = z > 0.008856 ? z ** (1 / 3) : 7.787 * z + 16 / 116; const l = 116 * y - 16; const a = 500 * (x - y); const b = 200 * (y - z); return [l, a, b]; }; convert$1.hsl.rgb = function (hsl) { const h = hsl[0] / 360; const s = hsl[1] / 100; const l = hsl[2] / 100; let t2; let t3; let val; if (s === 0) { val = l * 255; return [val, val, val]; } if (l < 0.5) { t2 = l * (1 + s); } else { t2 = l + s - l * s; } const t1 = 2 * l - t2; const rgb = [0, 0, 0]; for (let i = 0; i < 3; i++) { t3 = h + 1 / 3 * -(i - 1); if (t3 < 0) { t3++; } if (t3 > 1) { t3--; } if (6 * t3 < 1) { val = t1 + (t2 - t1) * 6 * t3; } else if (2 * t3 < 1) { val = t2; } else if (3 * t3 < 2) { val = t1 + (t2 - t1) * (2 / 3 - t3) * 6; } else { val = t1; } rgb[i] = val * 255; } return rgb; }; convert$1.hsl.hsv = function (hsl) { const h = hsl[0]; let s = hsl[1] / 100; let l = hsl[2] / 100; let smin = s; const lmin = Math.max(l, 0.01); l *= 2; s *= l <= 1 ? l : 2 - l; smin *= lmin <= 1 ? lmin : 2 - lmin; const v = (l + s) / 2; const sv = l === 0 ? 2 * smin / (lmin + smin) : 2 * s / (l + s); return [h, sv * 100, v * 100]; }; convert$1.hsv.rgb = function (hsv) { const h = hsv[0] / 60; const s = hsv[1] / 100; let v = hsv[2] / 100; const hi = Math.floor(h) % 6; const f = h - Math.floor(h); const p = 255 * v * (1 - s); const q = 255 * v * (1 - s * f); const t = 255 * v * (1 - s * (1 - f)); v *= 255; switch (hi) { case 0: return [v, t, p]; case 1: return [q, v, p]; case 2: return [p, v, t]; case 3: return [p, q, v]; case 4: return [t, p, v]; case 5: return [v, p, q]; } }; convert$1.hsv.hsl = function (hsv) { const h = hsv[0]; const s = hsv[1] / 100; const v = hsv[2] / 100; const vmin = Math.max(v, 0.01); let sl; let l; l = (2 - s) * v; const lmin = (2 - s) * vmin; sl = s * vmin; sl /= lmin <= 1 ? lmin : 2 - lmin; sl = sl || 0; l /= 2; return [h, sl * 100, l * 100]; }; // http://dev.w3.org/csswg/css-color/#hwb-to-rgb convert$1.hwb.rgb = function (hwb) { const h = hwb[0] / 360; let wh = hwb[1] / 100; let bl = hwb[2] / 100; const ratio = wh + bl; let f; // Wh + bl cant be > 1 if (ratio > 1) { wh /= ratio; bl /= ratio; } const i = Math.floor(6 * h); const v = 1 - bl; f = 6 * h - i; if ((i & 0x01) !== 0) { f = 1 - f; } const n = wh + f * (v - wh); // Linear interpolation let r; let g; let b; /* eslint-disable max-statements-per-line,no-multi-spaces */ switch (i) { default: case 6: case 0: r = v; g = n; b = wh; break; case 1: r = n; g = v; b = wh; break; case 2: r = wh; g = v; b = n; break; case 3: r = wh; g = n; b = v; break; case 4: r = n; g = wh; b = v; break; case 5: r = v; g = wh; b = n; break; } /* eslint-enable max-statements-per-line,no-multi-spaces */ return [r * 255, g * 255, b * 255]; }; convert$1.cmyk.rgb = function (cmyk) { const c = cmyk[0] / 100; const m = cmyk[1] / 100; const y = cmyk[2] / 100; const k = cmyk[3] / 100; const r = 1 - Math.min(1, c * (1 - k) + k); const g = 1 - Math.min(1, m * (1 - k) + k); const b = 1 - Math.min(1, y * (1 - k) + k); return [r * 255, g * 255, b * 255]; }; convert$1.xyz.rgb = function (xyz) { const x = xyz[0] / 100; const y = xyz[1] / 100; const z = xyz[2] / 100; let r; let g; let b; r = x * 3.2406 + y * -1.5372 + z * -0.4986; g = x * -0.9689 + y * 1.8758 + z * 0.0415; b = x * 0.0557 + y * -0.2040 + z * 1.0570; // Assume sRGB r = r > 0.0031308 ? 1.055 * r ** (1.0 / 2.4) - 0.055 : r * 12.92; g = g > 0.0031308 ? 1.055 * g ** (1.0 / 2.4) - 0.055 : g * 12.92; b = b > 0.0031308 ? 1.055 * b ** (1.0 / 2.4) - 0.055 : b * 12.92; r = Math.min(Math.max(0, r), 1); g = Math.min(Math.max(0, g), 1); b = Math.min(Math.max(0, b), 1); return [r * 255, g * 255, b * 255]; }; convert$1.xyz.lab = function (xyz) { let x = xyz[0]; let y = xyz[1]; let z = xyz[2]; x /= 95.047; y /= 100; z /= 108.883; x = x > 0.008856 ? x ** (1 / 3) : 7.787 * x + 16 / 116; y = y > 0.008856 ? y ** (1 / 3) : 7.787 * y + 16 / 116; z = z > 0.008856 ? z ** (1 / 3) : 7.787 * z + 16 / 116; const l = 116 * y - 16; const a = 500 * (x - y); const b = 200 * (y - z); return [l, a, b]; }; convert$1.lab.xyz = function (lab) { const l = lab[0]; const a = lab[1]; const b = lab[2]; let x; let y; let z; y = (l + 16) / 116; x = a / 500 + y; z = y - b / 200; const y2 = y ** 3; const x2 = x ** 3; const z2 = z ** 3; y = y2 > 0.008856 ? y2 : (y - 16 / 116) / 7.787; x = x2 > 0.008856 ? x2 : (x - 16 / 116) / 7.787; z = z2 > 0.008856 ? z2 : (z - 16 / 116) / 7.787; x *= 95.047; y *= 100; z *= 108.883; return [x, y, z]; }; convert$1.lab.lch = function (lab) { const l = lab[0]; const a = lab[1]; const b = lab[2]; let h; const hr = Math.atan2(b, a); h = hr * 360 / 2 / Math.PI; if (h < 0) { h += 360; } const c = Math.sqrt(a * a + b * b); return [l, c, h]; }; convert$1.lch.lab = function (lch) { const l = lch[0]; const c = lch[1]; const h = lch[2]; const hr = h / 360 * 2 * Math.PI; const a = c * Math.cos(hr); const b = c * Math.sin(hr); return [l, a, b]; }; convert$1.rgb.ansi16 = function (args, saturation = null) { const [r, g, b] = args; let value = saturation === null ? convert$1.rgb.hsv(args)[2] : saturation; // Hsv -> ansi16 optimization value = Math.round(value / 50); if (value === 0) { return 30; } let ansi = 30 + (Math.round(b / 255) << 2 | Math.round(g / 255) << 1 | Math.round(r / 255)); if (value === 2) { ansi += 60; } return ansi; }; convert$1.hsv.ansi16 = function (args) { // Optimization here; we already know the value and don't need to get // it converted for us. return convert$1.rgb.ansi16(convert$1.hsv.rgb(args), args[2]); }; convert$1.rgb.ansi256 = function (args) { const r = args[0]; const g = args[1]; const b = args[2]; // We use the extended greyscale palette here, with the exception of // black and white. normal palette only has 4 greyscale shades. if (r === g && g === b) { if (r < 8) { return 16; } if (r > 248) { return 231; } return Math.round((r - 8) / 247 * 24) + 232; } const ansi = 16 + 36 * Math.round(r / 255 * 5) + 6 * Math.round(g / 255 * 5) + Math.round(b / 255 * 5); return ansi; }; convert$1.ansi16.rgb = function (args) { let color = args % 10; // Handle greyscale if (color === 0 || color === 7) { if (args > 50) { color += 3.5; } color = color / 10.5 * 255; return [color, color, color]; } const mult = (~~(args > 50) + 1) * 0.5; const r = (color & 1) * mult * 255; const g = (color >> 1 & 1) * mult * 255; const b = (color >> 2 & 1) * mult * 255; return [r, g, b]; }; convert$1.ansi256.rgb = function (args) { // Handle greyscale if (args >= 232) { const c = (args - 232) * 10 + 8; return [c, c, c]; } args -= 16; let rem; const r = Math.floor(args / 36) / 5 * 255; const g = Math.floor((rem = args % 36) / 6) / 5 * 255; const b = rem % 6 / 5 * 255; return [r, g, b]; }; convert$1.rgb.hex = function (args) { const integer = ((Math.round(args[0]) & 0xFF) << 16) + ((Math.round(args[1]) & 0xFF) << 8) + (Math.round(args[2]) & 0xFF); const string = integer.toString(16).toUpperCase(); return '000000'.substring(string.length) + string; }; convert$1.hex.rgb = function (args) { const match = args.toString(16).match(/[a-f0-9]{6}|[a-f0-9]{3}/i); if (!match) { return [0, 0, 0]; } let colorString = match[0]; if (match[0].length === 3) { colorString = colorString.split('').map(char => { return char + char; }).join(''); } const integer = parseInt(colorString, 16); const r = integer >> 16 & 0xFF; const g = integer >> 8 & 0xFF; const b = integer & 0xFF; return [r, g, b]; }; convert$1.rgb.hcg = function (rgb) { const r = rgb[0] / 255; const g = rgb[1] / 255; const b = rgb[2] / 255; const max = Math.max(Math.max(r, g), b); const min = Math.min(Math.min(r, g), b); const chroma = max - min; let grayscale; let hue; if (chroma < 1) { grayscale = min / (1 - chroma); } else { grayscale = 0; } if (chroma <= 0) { hue = 0; } else if (max === r) { hue = (g - b) / chroma % 6; } else if (max === g) { hue = 2 + (b - r) / chroma; } else { hue = 4 + (r - g) / chroma; } hue /= 6; hue %= 1; return [hue * 360, chroma * 100, grayscale * 100]; }; convert$1.hsl.hcg = function (hsl) { const s = hsl[1] / 100; const l = hsl[2] / 100; const c = l < 0.5 ? 2.0 * s * l : 2.0 * s * (1.0 - l); let f = 0; if (c < 1.0) { f = (l - 0.5 * c) / (1.0 - c); } return [hsl[0], c * 100, f * 100]; }; convert$1.hsv.hcg = function (hsv) { const s = hsv[1] / 100; const v = hsv[2] / 100; const c = s * v; let f = 0; if (c < 1.0) { f = (v - c) / (1 - c); } return [hsv[0], c * 100, f * 100]; }; convert$1.hcg.rgb = function (hcg) { const h = hcg[0] / 360; const c = hcg[1] / 100; const g = hcg[2] / 100; if (c === 0.0) { return [g * 255, g * 255, g * 255]; } const pure = [0, 0, 0]; const hi = h % 1 * 6; const v = hi % 1; const w = 1 - v; let mg = 0; /* eslint-disable max-statements-per-line */ switch (Math.floor(hi)) { case 0: pure[0] = 1; pure[1] = v; pure[2] = 0; break; case 1: pure[0] = w; pure[1] = 1; pure[2] = 0; break; case 2: pure[0] = 0; pure[1] = 1; pure[2] = v; break; case 3: pure[0] = 0; pure[1] = w; pure[2] = 1; break; case 4: pure[0] = v; pure[1] = 0; pure[2] = 1; break; default: pure[0] = 1; pure[1] = 0; pure[2] = w; } /* eslint-enable max-statements-per-line */ mg = (1.0 - c) * g; return [(c * pure[0] + mg) * 255, (c * pure[1] + mg) * 255, (c * pure[2] + mg) * 255]; }; convert$1.hcg.hsv = function (hcg) { const c = hcg[1] / 100; const g = hcg[2] / 100; const v = c + g * (1.0 - c); let f = 0; if (v > 0.0) { f = c / v; } return [hcg[0], f * 100, v * 100]; }; convert$1.hcg.hsl = function (hcg) { const c = hcg[1] / 100; const g = hcg[2] / 100; const l = g * (1.0 - c) + 0.5 * c; let s = 0; if (l > 0.0 && l < 0.5) { s = c / (2 * l); } else if (l >= 0.5 && l < 1.0) { s = c / (2 * (1 - l)); } return [hcg[0], s * 100, l * 100]; }; convert$1.hcg.hwb = function (hcg) { const c = hcg[1] / 100; const g = hcg[2] / 100; const v = c + g * (1.0 - c); return [hcg[0], (v - c) * 100, (1 - v) * 100]; }; convert$1.hwb.hcg = function (hwb) { const w = hwb[1] / 100; const b = hwb[2] / 100; const v = 1 - b; const c = v - w; let g = 0; if (c < 1) { g = (v - c) / (1 - c); } return [hwb[0], c * 100, g * 100]; }; convert$1.apple.rgb = function (apple) { return [apple[0] / 65535 * 255, apple[1] / 65535 * 255, apple[2] / 65535 * 255]; }; convert$1.rgb.apple = function (rgb) { return [rgb[0] / 255 * 65535, rgb[1] / 255 * 65535, rgb[2] / 255 * 65535]; }; convert$1.gray.rgb = function (args) { return [args[0] / 100 * 255, args[0] / 100 * 255, args[0] / 100 * 255]; }; convert$1.gray.hsl = function (args) { return [0, 0, args[0]]; }; convert$1.gray.hsv = convert$1.gray.hsl; convert$1.gray.hwb = function (gray) { return [0, 100, gray[0]]; }; convert$1.gray.cmyk = function (gray) { return [0, 0, 0, gray[0]]; }; convert$1.gray.lab = function (gray) { return [gray[0], 0, 0]; }; convert$1.gray.hex = function (gray) { const val = Math.round(gray[0] / 100 * 255) & 0xFF; const integer = (val << 16) + (val << 8) + val; const string = integer.toString(16).toUpperCase(); return '000000'.substring(string.length) + string; }; convert$1.rgb.gray = function (rgb) { const val = (rgb[0] + rgb[1] + rgb[2]) / 3; return [val / 255 * 100]; }; const conversions$1 = conversions$2; /* This function routes a model to all other models. all functions that are routed have a property `.conversion` attached to the returned synthetic function. This property is an array of strings, each with the steps in between the 'from' and 'to' color models (inclusive). conversions that are not possible simply are not included. */ function buildGraph() { const graph = {}; // https://jsperf.com/object-keys-vs-for-in-with-closure/3 const models = Object.keys(conversions$1); for (let len = models.length, i = 0; i < len; i++) { graph[models[i]] = { // http://jsperf.com/1-vs-infinity // micro-opt, but this is simple. distance: -1, parent: null }; } return graph; } // https://en.wikipedia.org/wiki/Breadth-first_search function deriveBFS(fromModel) { const graph = buildGraph(); const queue = [fromModel]; // Unshift -> queue -> pop graph[fromModel].distance = 0; while (queue.length) { const current = queue.pop(); const adjacents = Object.keys(conversions$1[current]); for (let len = adjacents.length, i = 0; i < len; i++) { const adjacent = adjacents[i]; const node = graph[adjacent]; if (node.distance === -1) { node.distance = graph[current].distance + 1; node.parent = current; queue.unshift(adjacent); } } } return graph; } function link$1(from, to) { return function (args) { return to(from(args)); }; } function wrapConversion(toModel, graph) { const path = [graph[toModel].parent, toModel]; let fn = conversions$1[graph[toModel].parent][toModel]; let cur = graph[toModel].parent; while (graph[cur].parent) { path.unshift(graph[cur].parent); fn = link$1(conversions$1[graph[cur].parent][cur], fn); cur = graph[cur].parent; } fn.conversion = path; return fn; } var route$1 = function (fromModel) { const graph = deriveBFS(fromModel); const conversion = {}; const models = Object.keys(graph); for (let len = models.length, i = 0; i < len; i++) { const toModel = models[i]; const node = graph[toModel]; if (node.parent === null) { // No possible conversion, or this node is the source model. continue; } conversion[toModel] = wrapConversion(toModel, graph); } return conversion; }; const conversions = conversions$2; const route = route$1; const convert = {}; const models = Object.keys(conversions); function wrapRaw(fn) { const wrappedFn = function (...args) { const arg0 = args[0]; if (arg0 === undefined || arg0 === null) { return arg0; } if (arg0.length > 1) { args = arg0; } return fn(args); }; // Preserve .conversion property if there is one if ('conversion' in fn) { wrappedFn.conversion = fn.conversion; } return wrappedFn; } function wrapRounded(fn) { const wrappedFn = function (...args) { const arg0 = args[0]; if (arg0 === undefined || arg0 === null) { return arg0; } if (arg0.length > 1) { args = arg0; } const result = fn(args); // We're assuming the result is an array here. // see notice in conversions.js; don't use box types // in conversion functions. if (typeof result === 'object') { for (let len = result.length, i = 0; i < len; i++) { result[i] = Math.round(result[i]); } } return result; }; // Preserve .conversion property if there is one if ('conversion' in fn) { wrappedFn.conversion = fn.conversion; } return wrappedFn; } models.forEach(fromModel => { convert[fromModel] = {}; Object.defineProperty(convert[fromModel], 'channels', { value: conversions[fromModel].channels }); Object.defineProperty(convert[fromModel], 'labels', { value: conversions[fromModel].labels }); const routes = route(fromModel); const routeModels = Object.keys(routes); routeModels.forEach(toModel => { const fn = routes[toModel]; convert[fromModel][toModel] = wrapRounded(fn); convert[fromModel][toModel].raw = wrapRaw(fn); }); }); var colorConvert = convert; (function (module) { const wrapAnsi16 = (fn, offset) => (...args) => { const code = fn(...args); return `\u001B[${code + offset}m`; }; const wrapAnsi256 = (fn, offset) => (...args) => { const code = fn(...args); return `\u001B[${38 + offset};5;${code}m`; }; const wrapAnsi16m = (fn, offset) => (...args) => { const rgb = fn(...args); return `\u001B[${38 + offset};2;${rgb[0]};${rgb[1]};${rgb[2]}m`; }; const ansi2ansi = n => n; const rgb2rgb = (r, g, b) => [r, g, b]; const setLazyProperty = (object, property, get) => { Object.defineProperty(object, property, { get: () => { const value = get(); Object.defineProperty(object, property, { value, enumerable: true, configurable: true }); return value; }, enumerable: true, configurable: true }); }; /** @type {typeof import('color-convert')} */ let colorConvert$1; const makeDynamicStyles = (wrap, targetSpace, identity, isBackground) => { if (colorConvert$1 === undefined) { colorConvert$1 = colorConvert; } const offset = isBackground ? 10 : 0; const styles = {}; for (const [sourceSpace, suite] of Object.entries(colorConvert$1)) { const name = sourceSpace === 'ansi16' ? 'ansi' : sourceSpace; if (sourceSpace === targetSpace) { styles[name] = wrap(identity, offset); } else if (typeof suite === 'object') { styles[name] = wrap(suite[targetSpace], offset); } } return styles; }; function assembleStyles() { const codes = new Map(); const styles = { modifier: { reset: [0, 0], // 21 isn't widely supported and 22 does the same thing bold: [1, 22], dim: [2, 22], italic: [3, 23], underline: [4, 24], inverse: [7, 27], hidden: [8, 28], strikethrough: [9, 29] }, color: { black: [30, 39], red: [31, 39], green: [32, 39], yellow: [33, 39], blue: [34, 39], magenta: [35, 39], cyan: [36, 39], white: [37, 39], // Bright color blackBright: [90, 39], redBright: [91, 39], greenBright: [92, 39], yellowBright: [93, 39], blueBright: [94, 39], magentaBright: [95, 39], cyanBright: [96, 39], whiteBright: [97, 39] }, bgColor: { bgBlack: [40, 49], bgRed: [41, 49], bgGreen: [42, 49], bgYellow: [43, 49], bgBlue: [44, 49], bgMagenta: [45, 49], bgCyan: [46, 49], bgWhite: [47, 49], // Bright color bgBlackBright: [100, 49], bgRedBright: [101, 49], bgGreenBright: [102, 49], bgYellowBright: [103, 49], bgBlueBright: [104, 49], bgMagentaBright: [105, 49], bgCyanBright: [106, 49], bgWhiteBright: [107, 49] } }; // Alias bright black as gray (and grey) styles.color.gray = styles.color.blackBright; styles.bgColor.bgGray = styles.bgColor.bgBlackBright; styles.color.grey = styles.color.blackBright; styles.bgColor.bgGrey = styles.bgColor.bgBlackBright; for (const [groupName, group] of Object.entries(styles)) { for (const [styleName, style] of Object.entries(group)) { styles[styleName] = { open: `\u001B[${style[0]}m`, close: `\u001B[${style[1]}m` }; group[styleName] = styles[styleName]; codes.set(style[0], style[1]); } Object.defineProperty(styles, groupName, { value: group, enumerable: false }); } Object.defineProperty(styles, 'codes', { value: codes, enumerable: false }); styles.color.close = '\u001B[39m'; styles.bgColor.close = '\u001B[49m'; setLazyProperty(styles.color, 'ansi', () => makeDynamicStyles(wrapAnsi16, 'ansi16', ansi2ansi, false)); setLazyProperty(styles.color, 'ansi256', () => makeDynamicStyles(wrapAnsi256, 'ansi256', ansi2ansi, false)); setLazyProperty(styles.color, 'ansi16m', () => makeDynamicStyles(wrapAnsi16m, 'rgb', rgb2rgb, false)); setLazyProperty(styles.bgColor, 'ansi', () => makeDynamicStyles(wrapAnsi16, 'ansi16', ansi2ansi, true)); setLazyProperty(styles.bgColor, 'ansi256', () => makeDynamicStyles(wrapAnsi256, 'ansi256', ansi2ansi, true)); setLazyProperty(styles.bgColor, 'ansi16m', () => makeDynamicStyles(wrapAnsi16m, 'rgb', rgb2rgb, true)); return styles; } // Make the export immutable Object.defineProperty(module, 'exports', { enumerable: true, get: assembleStyles }); })(ansiStyles$1); var hasFlag$3 = (flag, argv = process.argv) => { const prefix = flag.startsWith('-') ? '' : flag.length === 1 ? '-' : '--'; const position = argv.indexOf(prefix + flag); const terminatorPosition = argv.indexOf('--'); return position !== -1 && (terminatorPosition === -1 || position < terminatorPosition); }; const os$3 = require$$0__default$1["default"]; const tty$2 = require$$1__default["default"]; const hasFlag$2 = hasFlag$3; const { env: env$1 } = process; let forceColor$1; if (hasFlag$2('no-color') || hasFlag$2('no-colors') || hasFlag$2('color=false') || hasFlag$2('color=never')) { forceColor$1 = 0; } else if (hasFlag$2('color') || hasFlag$2('colors') || hasFlag$2('color=true') || hasFlag$2('color=always')) { forceColor$1 = 1; } if ('FORCE_COLOR' in env$1) { if (env$1.FORCE_COLOR === 'true') { forceColor$1 = 1; } else if (env$1.FORCE_COLOR === 'false') { forceColor$1 = 0; } else { forceColor$1 = env$1.FORCE_COLOR.length === 0 ? 1 : Math.min(parseInt(env$1.FORCE_COLOR, 10), 3); } } function translateLevel$1(level) { if (level === 0) { return false; } return { level, hasBasic: true, has256: level >= 2, has16m: level >= 3 }; } function supportsColor$1(haveStream, streamIsTTY) { if (forceColor$1 === 0) { return 0; } if (hasFlag$2('color=16m') || hasFlag$2('color=full') || hasFlag$2('color=truecolor')) { return 3; } if (hasFlag$2('color=256')) { return 2; } if (haveStream && !streamIsTTY && forceColor$1 === undefined) { return 0; } const min = forceColor$1 || 0; if (env$1.TERM === 'dumb') { return min; } if (process.platform === 'win32') { // Windows 10 build 10586 is the first Windows release that supports 256 colors. // Windows 10 build 14931 is the first release that supports 16m/TrueColor. const osRelease = os$3.release().split('.'); if (Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10586) { return Number(osRelease[2]) >= 14931 ? 3 : 2; } return 1; } if ('CI' in env$1) { if (['TRAVIS', 'CIRCLECI', 'APPVEYOR', 'GITLAB_CI', 'GITHUB_ACTIONS', 'BUILDKITE'].some(sign => sign in env$1) || env$1.CI_NAME === 'codeship') { return 1; } return min; } if ('TEAMCITY_VERSION' in env$1) { return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env$1.TEAMCITY_VERSION) ? 1 : 0; } if (env$1.COLORTERM === 'truecolor') { return 3; } if ('TERM_PROGRAM' in env$1) { const version = parseInt((env$1.TERM_PROGRAM_VERSION || '').split('.')[0], 10); switch (env$1.TERM_PROGRAM) { case 'iTerm.app': return version >= 3 ? 3 : 2; case 'Apple_Terminal': return 2; // No default } } if (/-256(color)?$/i.test(env$1.TERM)) { return 2; } if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env$1.TERM)) { return 1; } if ('COLORTERM' in env$1) { return 1; } return min; } function getSupportLevel$1(stream) { const level = supportsColor$1(stream, stream && stream.isTTY); return translateLevel$1(level); } var supportsColor_1$1 = { supportsColor: getSupportLevel$1, stdout: translateLevel$1(supportsColor$1(true, tty$2.isatty(1))), stderr: translateLevel$1(supportsColor$1(true, tty$2.isatty(2))) }; const stringReplaceAll$1 = (string, substring, replacer) => { let index = string.indexOf(substring); if (index === -1) { return string; } const substringLength = substring.length; let endIndex = 0; let returnValue = ''; do { returnValue += string.substr(endIndex, index - endIndex) + substring + replacer; endIndex = index + substringLength; index = string.indexOf(substring, endIndex); } while (index !== -1); returnValue += string.substr(endIndex); return returnValue; }; const stringEncaseCRLFWithFirstIndex$1 = (string, prefix, postfix, index) => { let endIndex = 0; let returnValue = ''; do { const gotCR = string[index - 1] === '\r'; returnValue += string.substr(endIndex, (gotCR ? index - 1 : index) - endIndex) + prefix + (gotCR ? '\r\n' : '\n') + postfix; endIndex = index + 1; index = string.indexOf('\n', endIndex); } while (index !== -1); returnValue += string.substr(endIndex); return returnValue; }; var util$7 = { stringReplaceAll: stringReplaceAll$1, stringEncaseCRLFWithFirstIndex: stringEncaseCRLFWithFirstIndex$1 }; const TEMPLATE_REGEX$1 = /(?:\\(u(?:[a-f\d]{4}|\{[a-f\d]{1,6}\})|x[a-f\d]{2}|.))|(?:\{(~)?(\w+(?:\([^)]*\))?(?:\.\w+(?:\([^)]*\))?)*)(?:[ \t]|(?=\r?\n)))|(\})|((?:.|[\r\n\f])+?)/gi; const STYLE_REGEX$1 = /(?:^|\.)(\w+)(?:\(([^)]*)\))?/g; const STRING_REGEX$2 = /^(['"])((?:\\.|(?!\1)[^\\])*)\1$/; const ESCAPE_REGEX$1 = /\\(u(?:[a-f\d]{4}|{[a-f\d]{1,6}})|x[a-f\d]{2}|.)|([^\\])/gi; const ESCAPES$1 = new Map([['n', '\n'], ['r', '\r'], ['t', '\t'], ['b', '\b'], ['f', '\f'], ['v', '\v'], ['0', '\0'], ['\\', '\\'], ['e', '\u001B'], ['a', '\u0007']]); function unescape$1(c) { const u = c[0] === 'u'; const bracket = c[1] === '{'; if (u && !bracket && c.length === 5 || c[0] === 'x' && c.length === 3) { return String.fromCharCode(parseInt(c.slice(1), 16)); } if (u && bracket) { return String.fromCodePoint(parseInt(c.slice(2, -1), 16)); } return ESCAPES$1.get(c) || c; } function parseArguments$1(name, arguments_) { const results = []; const chunks = arguments_.trim().split(/\s*,\s*/g); let matches; for (const chunk of chunks) { const number = Number(chunk); if (!Number.isNaN(number)) { results.push(number); } else if (matches = chunk.match(STRING_REGEX$2)) { results.push(matches[2].replace(ESCAPE_REGEX$1, (m, escape, character) => escape ? unescape$1(escape) : character)); } else { throw new Error(`Invalid Chalk template style argument: ${chunk} (in style '${name}')`); } } return results; } function parseStyle$1(style) { STYLE_REGEX$1.lastIndex = 0; const results = []; let matches; while ((matches = STYLE_REGEX$1.exec(style)) !== null) { const name = matches[1]; if (matches[2]) { const args = parseArguments$1(name, matches[2]); results.push([name].concat(args)); } else { results.push([name]); } } return results; } function buildStyle$1(chalk, styles) { const enabled = {}; for (const layer of styles) { for (const style of layer.styles) { enabled[style[0]] = layer.inverse ? null : style.slice(1); } } let current = chalk; for (const [styleName, styles] of Object.entries(enabled)) { if (!Array.isArray(styles)) { continue; } if (!(styleName in current)) { throw new Error(`Unknown Chalk style: ${styleName}`); } current = styles.length > 0 ? current[styleName](...styles) : current[styleName]; } return current; } var templates$1 = (chalk, temporary) => { const styles = []; const chunks = []; let chunk = []; // eslint-disable-next-line max-params temporary.replace(TEMPLATE_REGEX$1, (m, escapeCharacter, inverse, style, close, character) => { if (escapeCharacter) { chunk.push(unescape$1(escapeCharacter)); } else if (style) { const string = chunk.join(''); chunk = []; chunks.push(styles.length === 0 ? string : buildStyle$1(chalk, styles)(string)); styles.push({ inverse, styles: parseStyle$1(style) }); } else if (close) { if (styles.length === 0) { throw new Error('Found extraneous } in Chalk template literal'); } chunks.push(buildStyle$1(chalk, styles)(chunk.join(''))); chunk = []; styles.pop(); } else { chunk.push(character); } }); chunks.push(chunk.join('')); if (styles.length > 0) { const errMessage = `Chalk template literal is missing ${styles.length} closing bracket${styles.length === 1 ? '' : 's'} (\`}\`)`; throw new Error(errMessage); } return chunks.join(''); }; const ansiStyles = ansiStyles$1.exports; const { stdout: stdoutColor, stderr: stderrColor } = supportsColor_1$1; const { stringReplaceAll, stringEncaseCRLFWithFirstIndex } = util$7; const { isArray: isArray$b } = Array; // `supportsColor.level` → `ansiStyles.color[name]` mapping const levelMapping = ['ansi', 'ansi', 'ansi256', 'ansi16m']; const styles = Object.create(null); const applyOptions = (object, options = {}) => { if (options.level && !(Number.isInteger(options.level) && options.level >= 0 && options.level <= 3)) { throw new Error('The `level` option should be an integer from 0 to 3'); } // Detect level if not set manually const colorLevel = stdoutColor ? stdoutColor.level : 0; object.level = options.level === undefined ? colorLevel : options.level; }; class ChalkClass { constructor(options) { // eslint-disable-next-line no-constructor-return return chalkFactory(options); } } const chalkFactory = options => { const chalk = {}; applyOptions(chalk, options); chalk.template = (...arguments_) => chalkTag(chalk.template, ...arguments_); Object.setPrototypeOf(chalk, Chalk.prototype); Object.setPrototypeOf(chalk.template, chalk); chalk.template.constructor = () => { throw new Error('`chalk.constructor()` is deprecated. Use `new chalk.Instance()` instead.'); }; chalk.template.Instance = ChalkClass; return chalk.template; }; function Chalk(options) { return chalkFactory(options); } for (const [styleName, style] of Object.entries(ansiStyles)) { styles[styleName] = { get() { const builder = createBuilder(this, createStyler(style.open, style.close, this._styler), this._isEmpty); Object.defineProperty(this, styleName, { value: builder }); return builder; } }; } styles.visible = { get() { const builder = createBuilder(this, this._styler, true); Object.defineProperty(this, 'visible', { value: builder }); return builder; } }; const usedModels = ['rgb', 'hex', 'keyword', 'hsl', 'hsv', 'hwb', 'ansi', 'ansi256']; for (const model of usedModels) { styles[model] = { get() { const { level } = this; return function (...arguments_) { const styler = createStyler(ansiStyles.color[levelMapping[level]][model](...arguments_), ansiStyles.color.close, this._styler); return createBuilder(this, styler, this._isEmpty); }; } }; } for (const model of usedModels) { const bgModel = 'bg' + model[0].toUpperCase() + model.slice(1); styles[bgModel] = { get() { const { level } = this; return function (...arguments_) { const styler = createStyler(ansiStyles.bgColor[levelMapping[level]][model](...arguments_), ansiStyles.bgColor.close, this._styler); return createBuilder(this, styler, this._isEmpty); }; } }; } const proto = Object.defineProperties(() => {}, Object.assign(Object.assign({}, styles), {}, { level: { enumerable: true, get() { return this._generator.level; }, set(level) { this._generator.level = level; } } })); const createStyler = (open, close, parent) => { let openAll; let closeAll; if (parent === undefined) { openAll = open; closeAll = close; } else { openAll = parent.openAll + open; closeAll = close + parent.closeAll; } return { open, close, openAll, closeAll, parent }; }; const createBuilder = (self, _styler, _isEmpty) => { const builder = (...arguments_) => { if (isArray$b(arguments_[0]) && isArray$b(arguments_[0].raw)) { // Called as a template literal, for example: chalk.red`2 + 3 = {bold ${2+3}}` return applyStyle(builder, chalkTag(builder, ...arguments_)); } // Single argument is hot path, implicit coercion is faster than anything // eslint-disable-next-line no-implicit-coercion return applyStyle(builder, arguments_.length === 1 ? '' + arguments_[0] : arguments_.join(' ')); }; // We alter the prototype because we must return a function, but there is // no way to create a function with a different prototype Object.setPrototypeOf(builder, proto); builder._generator = self; builder._styler = _styler; builder._isEmpty = _isEmpty; return builder; }; const applyStyle = (self, string) => { if (self.level <= 0 || !string) { return self._isEmpty ? '' : string; } let styler = self._styler; if (styler === undefined) { return string; } const { openAll, closeAll } = styler; if (string.indexOf('\u001B') !== -1) { while (styler !== undefined) { // Replace any instances already present with a re-opening code // otherwise only the part of the string until said closing code // will be colored, and the rest will simply be 'plain'. string = stringReplaceAll(string, styler.close, styler.open); styler = styler.parent; } } // We can move both next actions out of loop, because remaining actions in loop won't have // any/visible effect on parts we add here. Close the styling before a linebreak and reopen // after next line to fix a bleed issue on macOS: https://github.com/chalk/chalk/pull/92 const lfIndex = string.indexOf('\n'); if (lfIndex !== -1) { string = stringEncaseCRLFWithFirstIndex(string, closeAll, openAll, lfIndex); } return openAll + string + closeAll; }; let template; const chalkTag = (chalk, ...strings) => { const [firstString] = strings; if (!isArray$b(firstString) || !isArray$b(firstString.raw)) { // If chalk() was called by itself or with a string, // return the string itself as a string. return strings.join(' '); } const arguments_ = strings.slice(1); const parts = [firstString.raw[0]]; for (let i = 1; i < firstString.length; i++) { parts.push(String(arguments_[i - 1]).replace(/[{}\\]/g, '\\$&'), String(firstString.raw[i])); } if (template === undefined) { template = templates$1; } return template(chalk, parts.join('')); }; Object.defineProperties(Chalk.prototype, styles); const chalk$2 = Chalk(); // eslint-disable-line new-cap chalk$2.supportsColor = stdoutColor; chalk$2.stderr = Chalk({ level: stderrColor ? stderrColor.level : 0 }); // eslint-disable-line new-cap chalk$2.stderr.supportsColor = stderrColor; var source$2 = chalk$2; const _excluded$2 = ["_"]; const vnopts = lib$4; const leven = leven$2.exports; const chalk$1 = source$2; const getLast$n = getLast_1; const cliDescriptor = { key: key => key.length === 1 ? `-${key}` : `--${key}`, value: value => vnopts.apiDescriptor.value(value), pair: ({ key, value }) => value === false ? `--no-${key}` : value === true ? cliDescriptor.key(key) : value === "" ? `${cliDescriptor.key(key)} without an argument` : `${cliDescriptor.key(key)}=${value}` }; class FlagSchema extends vnopts.ChoiceSchema { constructor({ name, flags }) { super({ name, choices: flags }); this._flags = [...flags].sort(); } preprocess(value, utils) { if (typeof value === "string" && value.length > 0 && !this._flags.includes(value)) { const suggestion = this._flags.find(flag => leven(flag, value) < 3); if (suggestion) { utils.logger.warn([`Unknown flag ${chalk$1.yellow(utils.descriptor.value(value))},`, `did you mean ${chalk$1.blue(utils.descriptor.value(suggestion))}?`].join(" ")); return suggestion; } } return value; } expected() { return "a flag"; } } let hasDeprecationWarned; function normalizeOptions$5(options, optionInfos, { logger, isCLI = false, passThrough = false } = {}) { const unknown = !passThrough ? (key, value, options) => { // Don't suggest `_` for unknown flags const _options$schemas = options.schemas, schemas = _objectWithoutProperties(_options$schemas, _excluded$2); return vnopts.levenUnknownHandler(key, value, Object.assign(Object.assign({}, options), {}, { schemas })); } : Array.isArray(passThrough) ? (key, value) => !passThrough.includes(key) ? undefined : { [key]: value } : (key, value) => ({ [key]: value }); const descriptor = isCLI ? cliDescriptor : vnopts.apiDescriptor; const schemas = optionInfosToSchemas(optionInfos, { isCLI }); const normalizer = new vnopts.Normalizer(schemas, { logger, unknown, descriptor }); const shouldSuppressDuplicateDeprecationWarnings = logger !== false; if (shouldSuppressDuplicateDeprecationWarnings && hasDeprecationWarned) { normalizer._hasDeprecationWarned = hasDeprecationWarned; } const normalized = normalizer.normalize(options); if (shouldSuppressDuplicateDeprecationWarnings) { hasDeprecationWarned = normalizer._hasDeprecationWarned; } return normalized; } function optionInfosToSchemas(optionInfos, { isCLI }) { const schemas = []; if (isCLI) { schemas.push(vnopts.AnySchema.create({ name: "_" })); } for (const optionInfo of optionInfos) { schemas.push(optionInfoToSchema(optionInfo, { isCLI, optionInfos })); if (optionInfo.alias && isCLI) { schemas.push(vnopts.AliasSchema.create({ name: optionInfo.alias, sourceName: optionInfo.name })); } } return schemas; } function optionInfoToSchema(optionInfo, { isCLI, optionInfos }) { let SchemaConstructor; const parameters = { name: optionInfo.name }; const handlers = {}; switch (optionInfo.type) { case "int": SchemaConstructor = vnopts.IntegerSchema; if (isCLI) { parameters.preprocess = value => Number(value); } break; case "string": SchemaConstructor = vnopts.StringSchema; break; case "choice": SchemaConstructor = vnopts.ChoiceSchema; parameters.choices = optionInfo.choices.map(choiceInfo => typeof choiceInfo === "object" && choiceInfo.redirect ? Object.assign(Object.assign({}, choiceInfo), {}, { redirect: { to: { key: optionInfo.name, value: choiceInfo.redirect } } }) : choiceInfo); break; case "boolean": SchemaConstructor = vnopts.BooleanSchema; break; case "flag": SchemaConstructor = FlagSchema; parameters.flags = optionInfos.flatMap(optionInfo => [optionInfo.alias, optionInfo.description && optionInfo.name, optionInfo.oppositeDescription && `no-${optionInfo.name}`].filter(Boolean)); break; case "path": SchemaConstructor = vnopts.StringSchema; break; default: /* istanbul ignore next */ throw new Error(`Unexpected type ${optionInfo.type}`); } if (optionInfo.exception) { parameters.validate = (value, schema, utils) => optionInfo.exception(value) || schema.validate(value, utils); } else { parameters.validate = (value, schema, utils) => value === undefined || schema.validate(value, utils); } /* istanbul ignore next */ if (optionInfo.redirect) { handlers.redirect = value => !value ? undefined : { to: { key: optionInfo.redirect.option, value: optionInfo.redirect.value } }; } /* istanbul ignore next */ if (optionInfo.deprecated) { handlers.deprecated = true; } // allow CLI overriding, e.g., prettier package.json --tab-width 1 --tab-width 2 if (isCLI && !optionInfo.array) { const originalPreprocess = parameters.preprocess || (x => x); parameters.preprocess = (value, schema, utils) => schema.preprocess(originalPreprocess(Array.isArray(value) ? getLast$n(value) : value), utils); } return optionInfo.array ? vnopts.ArraySchema.create(Object.assign(Object.assign(Object.assign({}, isCLI ? { preprocess: v => Array.isArray(v) ? v : [v] } : {}), handlers), {}, { valueSchema: SchemaConstructor.create(parameters) })) : SchemaConstructor.create(Object.assign(Object.assign({}, parameters), handlers)); } function normalizeApiOptions(options, optionInfos, opts) { return normalizeOptions$5(options, optionInfos, opts); } function normalizeCliOptions(options, optionInfos, opts) { return normalizeOptions$5(options, optionInfos, Object.assign({ isCLI: true }, opts)); } var optionsNormalizer = { normalizeApiOptions, normalizeCliOptions }; const { isNonEmptyArray: isNonEmptyArray$j } = util$8; /** * @typedef {import("./types/estree").Node} Node */ function locStart$s(node, opts) { const { ignoreDecorators } = opts || {}; // Handle nodes with decorators. They should start at the first decorator if (!ignoreDecorators) { const decorators = node.declaration && node.declaration.decorators || node.decorators; if (isNonEmptyArray$j(decorators)) { return locStart$s(decorators[0]); } } return node.range ? node.range[0] : node.start; } function locEnd$r(node) { return node.range ? node.range[1] : node.end; } /** * @param {Node} nodeA * @param {Node} nodeB * @returns {boolean} */ function hasSameLocStart$1(nodeA, nodeB) { return locStart$s(nodeA) === locStart$s(nodeB); } /** * @param {Node} nodeA * @param {Node} nodeB * @returns {boolean} */ function hasSameLocEnd(nodeA, nodeB) { return locEnd$r(nodeA) === locEnd$r(nodeB); } /** * @param {Node} nodeA * @param {Node} nodeB * @returns {boolean} */ function hasSameLoc$1(nodeA, nodeB) { return hasSameLocStart$1(nodeA, nodeB) && hasSameLocEnd(nodeA, nodeB); } var loc$6 = { locStart: locStart$s, locEnd: locEnd$r, hasSameLocStart: hasSameLocStart$1, hasSameLoc: hasSameLoc$1 }; var lib$3 = {}; var lib$2 = {}; var jsTokens = {}; // License: MIT. (See LICENSE.) Object.defineProperty(jsTokens, "__esModule", { value: true }); // This regex comes from regex.coffee, and is inserted here by generate-index.js // (run `npm run build`). jsTokens.default = /((['"])(?:(?!\2|\\).|\\(?:\r\n|[\s\S]))*(\2)?|`(?:[^`\\$]|\\[\s\S]|\$(?!\{)|\$\{(?:[^{}]|\{[^}]*\}?)*\}?)*(`)?)|(\/\/.*)|(\/\*(?:[^*]|\*(?!\/))*(\*\/)?)|(\/(?!\*)(?:\[(?:(?![\]\\]).|\\.)*\]|(?![\/\]\\]).|\\.)+\/(?:(?!\s*(?:\b|[\u0080-\uFFFF$\\'"~({]|[+\-!](?!=)|\.?\d))|[gmiyus]{1,6}\b(?![\u0080-\uFFFF$\\]|\s*(?:[+\-*%&|^<>!=?({]|\/(?![\/*])))))|(0[xX][\da-fA-F]+|0[oO][0-7]+|0[bB][01]+|(?:\d*\.\d+|\d+\.?)(?:[eE][+-]?\d+)?)|((?!\d)(?:(?!\s)[$\w\u0080-\uFFFF]|\\u[\da-fA-F]{4}|\\u\{[\da-fA-F]+\})+)|(--|\+\+|&&|\|\||=>|\.{3}|(?:[+\-\/%&|^]|\*{1,2}|<{1,2}|>{1,3}|!=?|={1,2})=?|[?~.,:;[\](){}])|(\s+)|(^$|[\s\S])/g; jsTokens.matchToToken = function (match) { var token = { type: "invalid", value: match[0], closed: undefined }; if (match[1]) token.type = "string", token.closed = !!(match[3] || match[4]);else if (match[5]) token.type = "comment";else if (match[6]) token.type = "comment", token.closed = !!match[7];else if (match[8]) token.type = "regex";else if (match[9]) token.type = "number";else if (match[10]) token.type = "name";else if (match[11]) token.type = "punctuator";else if (match[12]) token.type = "whitespace"; return token; }; var lib$1 = {}; var identifier = {}; Object.defineProperty(identifier, "__esModule", { value: true }); identifier.isIdentifierStart = isIdentifierStart; identifier.isIdentifierChar = isIdentifierChar; identifier.isIdentifierName = isIdentifierName$1; let nonASCIIidentifierStartChars = "\xaa\xb5\xba\xc0-\xd6\xd8-\xf6\xf8-\u02c1\u02c6-\u02d1\u02e0-\u02e4\u02ec\u02ee\u0370-\u0374\u0376\u0377\u037a-\u037d\u037f\u0386\u0388-\u038a\u038c\u038e-\u03a1\u03a3-\u03f5\u03f7-\u0481\u048a-\u052f\u0531-\u0556\u0559\u0560-\u0588\u05d0-\u05ea\u05ef-\u05f2\u0620-\u064a\u066e\u066f\u0671-\u06d3\u06d5\u06e5\u06e6\u06ee\u06ef\u06fa-\u06fc\u06ff\u0710\u0712-\u072f\u074d-\u07a5\u07b1\u07ca-\u07ea\u07f4\u07f5\u07fa\u0800-\u0815\u081a\u0824\u0828\u0840-\u0858\u0860-\u086a\u0870-\u0887\u0889-\u088e\u08a0-\u08c9\u0904-\u0939\u093d\u0950\u0958-\u0961\u0971-\u0980\u0985-\u098c\u098f\u0990\u0993-\u09a8\u09aa-\u09b0\u09b2\u09b6-\u09b9\u09bd\u09ce\u09dc\u09dd\u09df-\u09e1\u09f0\u09f1\u09fc\u0a05-\u0a0a\u0a0f\u0a10\u0a13-\u0a28\u0a2a-\u0a30\u0a32\u0a33\u0a35\u0a36\u0a38\u0a39\u0a59-\u0a5c\u0a5e\u0a72-\u0a74\u0a85-\u0a8d\u0a8f-\u0a91\u0a93-\u0aa8\u0aaa-\u0ab0\u0ab2\u0ab3\u0ab5-\u0ab9\u0abd\u0ad0\u0ae0\u0ae1\u0af9\u0b05-\u0b0c\u0b0f\u0b10\u0b13-\u0b28\u0b2a-\u0b30\u0b32\u0b33\u0b35-\u0b39\u0b3d\u0b5c\u0b5d\u0b5f-\u0b61\u0b71\u0b83\u0b85-\u0b8a\u0b8e-\u0b90\u0b92-\u0b95\u0b99\u0b9a\u0b9c\u0b9e\u0b9f\u0ba3\u0ba4\u0ba8-\u0baa\u0bae-\u0bb9\u0bd0\u0c05-\u0c0c\u0c0e-\u0c10\u0c12-\u0c28\u0c2a-\u0c39\u0c3d\u0c58-\u0c5a\u0c5d\u0c60\u0c61\u0c80\u0c85-\u0c8c\u0c8e-\u0c90\u0c92-\u0ca8\u0caa-\u0cb3\u0cb5-\u0cb9\u0cbd\u0cdd\u0cde\u0ce0\u0ce1\u0cf1\u0cf2\u0d04-\u0d0c\u0d0e-\u0d10\u0d12-\u0d3a\u0d3d\u0d4e\u0d54-\u0d56\u0d5f-\u0d61\u0d7a-\u0d7f\u0d85-\u0d96\u0d9a-\u0db1\u0db3-\u0dbb\u0dbd\u0dc0-\u0dc6\u0e01-\u0e30\u0e32\u0e33\u0e40-\u0e46\u0e81\u0e82\u0e84\u0e86-\u0e8a\u0e8c-\u0ea3\u0ea5\u0ea7-\u0eb0\u0eb2\u0eb3\u0ebd\u0ec0-\u0ec4\u0ec6\u0edc-\u0edf\u0f00\u0f40-\u0f47\u0f49-\u0f6c\u0f88-\u0f8c\u1000-\u102a\u103f\u1050-\u1055\u105a-\u105d\u1061\u1065\u1066\u106e-\u1070\u1075-\u1081\u108e\u10a0-\u10c5\u10c7\u10cd\u10d0-\u10fa\u10fc-\u1248\u124a-\u124d\u1250-\u1256\u1258\u125a-\u125d\u1260-\u1288\u128a-\u128d\u1290-\u12b0\u12b2-\u12b5\u12b8-\u12be\u12c0\u12c2-\u12c5\u12c8-\u12d6\u12d8-\u1310\u1312-\u1315\u1318-\u135a\u1380-\u138f\u13a0-\u13f5\u13f8-\u13fd\u1401-\u166c\u166f-\u167f\u1681-\u169a\u16a0-\u16ea\u16ee-\u16f8\u1700-\u1711\u171f-\u1731\u1740-\u1751\u1760-\u176c\u176e-\u1770\u1780-\u17b3\u17d7\u17dc\u1820-\u1878\u1880-\u18a8\u18aa\u18b0-\u18f5\u1900-\u191e\u1950-\u196d\u1970-\u1974\u1980-\u19ab\u19b0-\u19c9\u1a00-\u1a16\u1a20-\u1a54\u1aa7\u1b05-\u1b33\u1b45-\u1b4c\u1b83-\u1ba0\u1bae\u1baf\u1bba-\u1be5\u1c00-\u1c23\u1c4d-\u1c4f\u1c5a-\u1c7d\u1c80-\u1c88\u1c90-\u1cba\u1cbd-\u1cbf\u1ce9-\u1cec\u1cee-\u1cf3\u1cf5\u1cf6\u1cfa\u1d00-\u1dbf\u1e00-\u1f15\u1f18-\u1f1d\u1f20-\u1f45\u1f48-\u1f4d\u1f50-\u1f57\u1f59\u1f5b\u1f5d\u1f5f-\u1f7d\u1f80-\u1fb4\u1fb6-\u1fbc\u1fbe\u1fc2-\u1fc4\u1fc6-\u1fcc\u1fd0-\u1fd3\u1fd6-\u1fdb\u1fe0-\u1fec\u1ff2-\u1ff4\u1ff6-\u1ffc\u2071\u207f\u2090-\u209c\u2102\u2107\u210a-\u2113\u2115\u2118-\u211d\u2124\u2126\u2128\u212a-\u2139\u213c-\u213f\u2145-\u2149\u214e\u2160-\u2188\u2c00-\u2ce4\u2ceb-\u2cee\u2cf2\u2cf3\u2d00-\u2d25\u2d27\u2d2d\u2d30-\u2d67\u2d6f\u2d80-\u2d96\u2da0-\u2da6\u2da8-\u2dae\u2db0-\u2db6\u2db8-\u2dbe\u2dc0-\u2dc6\u2dc8-\u2dce\u2dd0-\u2dd6\u2dd8-\u2dde\u3005-\u3007\u3021-\u3029\u3031-\u3035\u3038-\u303c\u3041-\u3096\u309b-\u309f\u30a1-\u30fa\u30fc-\u30ff\u3105-\u312f\u3131-\u318e\u31a0-\u31bf\u31f0-\u31ff\u3400-\u4dbf\u4e00-\ua48c\ua4d0-\ua4fd\ua500-\ua60c\ua610-\ua61f\ua62a\ua62b\ua640-\ua66e\ua67f-\ua69d\ua6a0-\ua6ef\ua717-\ua71f\ua722-\ua788\ua78b-\ua7ca\ua7d0\ua7d1\ua7d3\ua7d5-\ua7d9\ua7f2-\ua801\ua803-\ua805\ua807-\ua80a\ua80c-\ua822\ua840-\ua873\ua882-\ua8b3\ua8f2-\ua8f7\ua8fb\ua8fd\ua8fe\ua90a-\ua925\ua930-\ua946\ua960-\ua97c\ua984-\ua9b2\ua9cf\ua9e0-\ua9e4\ua9e6-\ua9ef\ua9fa-\ua9fe\uaa00-\uaa28\uaa40-\uaa42\uaa44-\uaa4b\uaa60-\uaa76\uaa7a\uaa7e-\uaaaf\uaab1\uaab5\uaab6\uaab9-\uaabd\uaac0\uaac2\uaadb-\uaadd\uaae0-\uaaea\uaaf2-\uaaf4\uab01-\uab06\uab09-\uab0e\uab11-\uab16\uab20-\uab26\uab28-\uab2e\uab30-\uab5a\uab5c-\uab69\uab70-\uabe2\uac00-\ud7a3\ud7b0-\ud7c6\ud7cb-\ud7fb\uf900-\ufa6d\ufa70-\ufad9\ufb00-\ufb06\ufb13-\ufb17\ufb1d\ufb1f-\ufb28\ufb2a-\ufb36\ufb38-\ufb3c\ufb3e\ufb40\ufb41\ufb43\ufb44\ufb46-\ufbb1\ufbd3-\ufd3d\ufd50-\ufd8f\ufd92-\ufdc7\ufdf0-\ufdfb\ufe70-\ufe74\ufe76-\ufefc\uff21-\uff3a\uff41-\uff5a\uff66-\uffbe\uffc2-\uffc7\uffca-\uffcf\uffd2-\uffd7\uffda-\uffdc"; let nonASCIIidentifierChars = "\u200c\u200d\xb7\u0300-\u036f\u0387\u0483-\u0487\u0591-\u05bd\u05bf\u05c1\u05c2\u05c4\u05c5\u05c7\u0610-\u061a\u064b-\u0669\u0670\u06d6-\u06dc\u06df-\u06e4\u06e7\u06e8\u06ea-\u06ed\u06f0-\u06f9\u0711\u0730-\u074a\u07a6-\u07b0\u07c0-\u07c9\u07eb-\u07f3\u07fd\u0816-\u0819\u081b-\u0823\u0825-\u0827\u0829-\u082d\u0859-\u085b\u0898-\u089f\u08ca-\u08e1\u08e3-\u0903\u093a-\u093c\u093e-\u094f\u0951-\u0957\u0962\u0963\u0966-\u096f\u0981-\u0983\u09bc\u09be-\u09c4\u09c7\u09c8\u09cb-\u09cd\u09d7\u09e2\u09e3\u09e6-\u09ef\u09fe\u0a01-\u0a03\u0a3c\u0a3e-\u0a42\u0a47\u0a48\u0a4b-\u0a4d\u0a51\u0a66-\u0a71\u0a75\u0a81-\u0a83\u0abc\u0abe-\u0ac5\u0ac7-\u0ac9\u0acb-\u0acd\u0ae2\u0ae3\u0ae6-\u0aef\u0afa-\u0aff\u0b01-\u0b03\u0b3c\u0b3e-\u0b44\u0b47\u0b48\u0b4b-\u0b4d\u0b55-\u0b57\u0b62\u0b63\u0b66-\u0b6f\u0b82\u0bbe-\u0bc2\u0bc6-\u0bc8\u0bca-\u0bcd\u0bd7\u0be6-\u0bef\u0c00-\u0c04\u0c3c\u0c3e-\u0c44\u0c46-\u0c48\u0c4a-\u0c4d\u0c55\u0c56\u0c62\u0c63\u0c66-\u0c6f\u0c81-\u0c83\u0cbc\u0cbe-\u0cc4\u0cc6-\u0cc8\u0cca-\u0ccd\u0cd5\u0cd6\u0ce2\u0ce3\u0ce6-\u0cef\u0d00-\u0d03\u0d3b\u0d3c\u0d3e-\u0d44\u0d46-\u0d48\u0d4a-\u0d4d\u0d57\u0d62\u0d63\u0d66-\u0d6f\u0d81-\u0d83\u0dca\u0dcf-\u0dd4\u0dd6\u0dd8-\u0ddf\u0de6-\u0def\u0df2\u0df3\u0e31\u0e34-\u0e3a\u0e47-\u0e4e\u0e50-\u0e59\u0eb1\u0eb4-\u0ebc\u0ec8-\u0ecd\u0ed0-\u0ed9\u0f18\u0f19\u0f20-\u0f29\u0f35\u0f37\u0f39\u0f3e\u0f3f\u0f71-\u0f84\u0f86\u0f87\u0f8d-\u0f97\u0f99-\u0fbc\u0fc6\u102b-\u103e\u1040-\u1049\u1056-\u1059\u105e-\u1060\u1062-\u1064\u1067-\u106d\u1071-\u1074\u1082-\u108d\u108f-\u109d\u135d-\u135f\u1369-\u1371\u1712-\u1715\u1732-\u1734\u1752\u1753\u1772\u1773\u17b4-\u17d3\u17dd\u17e0-\u17e9\u180b-\u180d\u180f-\u1819\u18a9\u1920-\u192b\u1930-\u193b\u1946-\u194f\u19d0-\u19da\u1a17-\u1a1b\u1a55-\u1a5e\u1a60-\u1a7c\u1a7f-\u1a89\u1a90-\u1a99\u1ab0-\u1abd\u1abf-\u1ace\u1b00-\u1b04\u1b34-\u1b44\u1b50-\u1b59\u1b6b-\u1b73\u1b80-\u1b82\u1ba1-\u1bad\u1bb0-\u1bb9\u1be6-\u1bf3\u1c24-\u1c37\u1c40-\u1c49\u1c50-\u1c59\u1cd0-\u1cd2\u1cd4-\u1ce8\u1ced\u1cf4\u1cf7-\u1cf9\u1dc0-\u1dff\u203f\u2040\u2054\u20d0-\u20dc\u20e1\u20e5-\u20f0\u2cef-\u2cf1\u2d7f\u2de0-\u2dff\u302a-\u302f\u3099\u309a\ua620-\ua629\ua66f\ua674-\ua67d\ua69e\ua69f\ua6f0\ua6f1\ua802\ua806\ua80b\ua823-\ua827\ua82c\ua880\ua881\ua8b4-\ua8c5\ua8d0-\ua8d9\ua8e0-\ua8f1\ua8ff-\ua909\ua926-\ua92d\ua947-\ua953\ua980-\ua983\ua9b3-\ua9c0\ua9d0-\ua9d9\ua9e5\ua9f0-\ua9f9\uaa29-\uaa36\uaa43\uaa4c\uaa4d\uaa50-\uaa59\uaa7b-\uaa7d\uaab0\uaab2-\uaab4\uaab7\uaab8\uaabe\uaabf\uaac1\uaaeb-\uaaef\uaaf5\uaaf6\uabe3-\uabea\uabec\uabed\uabf0-\uabf9\ufb1e\ufe00-\ufe0f\ufe20-\ufe2f\ufe33\ufe34\ufe4d-\ufe4f\uff10-\uff19\uff3f"; const nonASCIIidentifierStart = new RegExp("[" + nonASCIIidentifierStartChars + "]"); const nonASCIIidentifier = new RegExp("[" + nonASCIIidentifierStartChars + nonASCIIidentifierChars + "]"); nonASCIIidentifierStartChars = nonASCIIidentifierChars = null; const astralIdentifierStartCodes = [0, 11, 2, 25, 2, 18, 2, 1, 2, 14, 3, 13, 35, 122, 70, 52, 268, 28, 4, 48, 48, 31, 14, 29, 6, 37, 11, 29, 3, 35, 5, 7, 2, 4, 43, 157, 19, 35, 5, 35, 5, 39, 9, 51, 13, 10, 2, 14, 2, 6, 2, 1, 2, 10, 2, 14, 2, 6, 2, 1, 68, 310, 10, 21, 11, 7, 25, 5, 2, 41, 2, 8, 70, 5, 3, 0, 2, 43, 2, 1, 4, 0, 3, 22, 11, 22, 10, 30, 66, 18, 2, 1, 11, 21, 11, 25, 71, 55, 7, 1, 65, 0, 16, 3, 2, 2, 2, 28, 43, 28, 4, 28, 36, 7, 2, 27, 28, 53, 11, 21, 11, 18, 14, 17, 111, 72, 56, 50, 14, 50, 14, 35, 349, 41, 7, 1, 79, 28, 11, 0, 9, 21, 43, 17, 47, 20, 28, 22, 13, 52, 58, 1, 3, 0, 14, 44, 33, 24, 27, 35, 30, 0, 3, 0, 9, 34, 4, 0, 13, 47, 15, 3, 22, 0, 2, 0, 36, 17, 2, 24, 85, 6, 2, 0, 2, 3, 2, 14, 2, 9, 8, 46, 39, 7, 3, 1, 3, 21, 2, 6, 2, 1, 2, 4, 4, 0, 19, 0, 13, 4, 159, 52, 19, 3, 21, 2, 31, 47, 21, 1, 2, 0, 185, 46, 42, 3, 37, 47, 21, 0, 60, 42, 14, 0, 72, 26, 38, 6, 186, 43, 117, 63, 32, 7, 3, 0, 3, 7, 2, 1, 2, 23, 16, 0, 2, 0, 95, 7, 3, 38, 17, 0, 2, 0, 29, 0, 11, 39, 8, 0, 22, 0, 12, 45, 20, 0, 19, 72, 264, 8, 2, 36, 18, 0, 50, 29, 113, 6, 2, 1, 2, 37, 22, 0, 26, 5, 2, 1, 2, 31, 15, 0, 328, 18, 190, 0, 80, 921, 103, 110, 18, 195, 2637, 96, 16, 1070, 4050, 582, 8634, 568, 8, 30, 18, 78, 18, 29, 19, 47, 17, 3, 32, 20, 6, 18, 689, 63, 129, 74, 6, 0, 67, 12, 65, 1, 2, 0, 29, 6135, 9, 1237, 43, 8, 8936, 3, 2, 6, 2, 1, 2, 290, 46, 2, 18, 3, 9, 395, 2309, 106, 6, 12, 4, 8, 8, 9, 5991, 84, 2, 70, 2, 1, 3, 0, 3, 1, 3, 3, 2, 11, 2, 0, 2, 6, 2, 64, 2, 3, 3, 7, 2, 6, 2, 27, 2, 3, 2, 4, 2, 0, 4, 6, 2, 339, 3, 24, 2, 24, 2, 30, 2, 24, 2, 30, 2, 24, 2, 30, 2, 24, 2, 30, 2, 24, 2, 7, 1845, 30, 482, 44, 11, 6, 17, 0, 322, 29, 19, 43, 1269, 6, 2, 3, 2, 1, 2, 14, 2, 196, 60, 67, 8, 0, 1205, 3, 2, 26, 2, 1, 2, 0, 3, 0, 2, 9, 2, 3, 2, 0, 2, 0, 7, 0, 5, 0, 2, 0, 2, 0, 2, 2, 2, 1, 2, 0, 3, 0, 2, 0, 2, 0, 2, 0, 2, 0, 2, 1, 2, 0, 3, 3, 2, 6, 2, 3, 2, 3, 2, 0, 2, 9, 2, 16, 6, 2, 2, 4, 2, 16, 4421, 42719, 33, 4152, 8, 221, 3, 5761, 15, 7472, 3104, 541, 1507, 4938]; const astralIdentifierCodes = [509, 0, 227, 0, 150, 4, 294, 9, 1368, 2, 2, 1, 6, 3, 41, 2, 5, 0, 166, 1, 574, 3, 9, 9, 370, 1, 154, 10, 50, 3, 123, 2, 54, 14, 32, 10, 3, 1, 11, 3, 46, 10, 8, 0, 46, 9, 7, 2, 37, 13, 2, 9, 6, 1, 45, 0, 13, 2, 49, 13, 9, 3, 2, 11, 83, 11, 7, 0, 161, 11, 6, 9, 7, 3, 56, 1, 2, 6, 3, 1, 3, 2, 10, 0, 11, 1, 3, 6, 4, 4, 193, 17, 10, 9, 5, 0, 82, 19, 13, 9, 214, 6, 3, 8, 28, 1, 83, 16, 16, 9, 82, 12, 9, 9, 84, 14, 5, 9, 243, 14, 166, 9, 71, 5, 2, 1, 3, 3, 2, 0, 2, 1, 13, 9, 120, 6, 3, 6, 4, 0, 29, 9, 41, 6, 2, 3, 9, 0, 10, 10, 47, 15, 406, 7, 2, 7, 17, 9, 57, 21, 2, 13, 123, 5, 4, 0, 2, 1, 2, 6, 2, 0, 9, 9, 49, 4, 2, 1, 2, 4, 9, 9, 330, 3, 19306, 9, 87, 9, 39, 4, 60, 6, 26, 9, 1014, 0, 2, 54, 8, 3, 82, 0, 12, 1, 19628, 1, 4706, 45, 3, 22, 543, 4, 4, 5, 9, 7, 3, 6, 31, 3, 149, 2, 1418, 49, 513, 54, 5, 49, 9, 0, 15, 0, 23, 4, 2, 14, 1361, 6, 2, 16, 3, 6, 2, 1, 2, 4, 262, 6, 10, 9, 357, 0, 62, 13, 1495, 6, 110, 6, 6, 9, 4759, 9, 787719, 239]; function isInAstralSet(code, set) { let pos = 0x10000; for (let i = 0, length = set.length; i < length; i += 2) { pos += set[i]; if (pos > code) return false; pos += set[i + 1]; if (pos >= code) return true; } return false; } function isIdentifierStart(code) { if (code < 65) return code === 36; if (code <= 90) return true; if (code < 97) return code === 95; if (code <= 122) return true; if (code <= 0xffff) { return code >= 0xaa && nonASCIIidentifierStart.test(String.fromCharCode(code)); } return isInAstralSet(code, astralIdentifierStartCodes); } function isIdentifierChar(code) { if (code < 48) return code === 36; if (code < 58) return true; if (code < 65) return false; if (code <= 90) return true; if (code < 97) return code === 95; if (code <= 122) return true; if (code <= 0xffff) { return code >= 0xaa && nonASCIIidentifier.test(String.fromCharCode(code)); } return isInAstralSet(code, astralIdentifierStartCodes) || isInAstralSet(code, astralIdentifierCodes); } function isIdentifierName$1(name) { let isFirst = true; for (let i = 0; i < name.length; i++) { let cp = name.charCodeAt(i); if ((cp & 0xfc00) === 0xd800 && i + 1 < name.length) { const trail = name.charCodeAt(++i); if ((trail & 0xfc00) === 0xdc00) { cp = 0x10000 + ((cp & 0x3ff) << 10) + (trail & 0x3ff); } } if (isFirst) { isFirst = false; if (!isIdentifierStart(cp)) { return false; } } else if (!isIdentifierChar(cp)) { return false; } } return !isFirst; } var keyword$1 = {}; Object.defineProperty(keyword$1, "__esModule", { value: true }); keyword$1.isReservedWord = isReservedWord; keyword$1.isStrictReservedWord = isStrictReservedWord; keyword$1.isStrictBindOnlyReservedWord = isStrictBindOnlyReservedWord; keyword$1.isStrictBindReservedWord = isStrictBindReservedWord; keyword$1.isKeyword = isKeyword; const reservedWords = { keyword: ["break", "case", "catch", "continue", "debugger", "default", "do", "else", "finally", "for", "function", "if", "return", "switch", "throw", "try", "var", "const", "while", "with", "new", "this", "super", "class", "extends", "export", "import", "null", "true", "false", "in", "instanceof", "typeof", "void", "delete"], strict: ["implements", "interface", "let", "package", "private", "protected", "public", "static", "yield"], strictBind: ["eval", "arguments"] }; const keywords$1 = new Set(reservedWords.keyword); const reservedWordsStrictSet = new Set(reservedWords.strict); const reservedWordsStrictBindSet = new Set(reservedWords.strictBind); function isReservedWord(word, inModule) { return inModule && word === "await" || word === "enum"; } function isStrictReservedWord(word, inModule) { return isReservedWord(word, inModule) || reservedWordsStrictSet.has(word); } function isStrictBindOnlyReservedWord(word) { return reservedWordsStrictBindSet.has(word); } function isStrictBindReservedWord(word, inModule) { return isStrictReservedWord(word, inModule) || isStrictBindOnlyReservedWord(word); } function isKeyword(word) { return keywords$1.has(word); } (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); Object.defineProperty(exports, "isIdentifierName", { enumerable: true, get: function () { return _identifier.isIdentifierName; } }); Object.defineProperty(exports, "isIdentifierChar", { enumerable: true, get: function () { return _identifier.isIdentifierChar; } }); Object.defineProperty(exports, "isIdentifierStart", { enumerable: true, get: function () { return _identifier.isIdentifierStart; } }); Object.defineProperty(exports, "isReservedWord", { enumerable: true, get: function () { return _keyword.isReservedWord; } }); Object.defineProperty(exports, "isStrictBindOnlyReservedWord", { enumerable: true, get: function () { return _keyword.isStrictBindOnlyReservedWord; } }); Object.defineProperty(exports, "isStrictBindReservedWord", { enumerable: true, get: function () { return _keyword.isStrictBindReservedWord; } }); Object.defineProperty(exports, "isStrictReservedWord", { enumerable: true, get: function () { return _keyword.isStrictReservedWord; } }); Object.defineProperty(exports, "isKeyword", { enumerable: true, get: function () { return _keyword.isKeyword; } }); var _identifier = identifier; var _keyword = keyword$1; })(lib$1); var chalk = {exports: {}}; var matchOperatorsRe = /[|\\{}()[\]^$+*?.]/g; var escapeStringRegexp = function (str) { if (typeof str !== 'string') { throw new TypeError('Expected a string'); } return str.replace(matchOperatorsRe, '\\$&'); }; var hasFlag$1 = (flag, argv) => { argv = argv || process.argv; const prefix = flag.startsWith('-') ? '' : flag.length === 1 ? '-' : '--'; const pos = argv.indexOf(prefix + flag); const terminatorPos = argv.indexOf('--'); return pos !== -1 && (terminatorPos === -1 ? true : pos < terminatorPos); }; const os$2 = require$$0__default$1["default"]; const hasFlag = hasFlag$1; const env = process.env; let forceColor; if (hasFlag('no-color') || hasFlag('no-colors') || hasFlag('color=false')) { forceColor = false; } else if (hasFlag('color') || hasFlag('colors') || hasFlag('color=true') || hasFlag('color=always')) { forceColor = true; } if ('FORCE_COLOR' in env) { forceColor = env.FORCE_COLOR.length === 0 || parseInt(env.FORCE_COLOR, 10) !== 0; } function translateLevel(level) { if (level === 0) { return false; } return { level, hasBasic: true, has256: level >= 2, has16m: level >= 3 }; } function supportsColor(stream) { if (forceColor === false) { return 0; } if (hasFlag('color=16m') || hasFlag('color=full') || hasFlag('color=truecolor')) { return 3; } if (hasFlag('color=256')) { return 2; } if (stream && !stream.isTTY && forceColor !== true) { return 0; } const min = forceColor ? 1 : 0; if (process.platform === 'win32') { // Node.js 7.5.0 is the first version of Node.js to include a patch to // libuv that enables 256 color output on Windows. Anything earlier and it // won't work. However, here we target Node.js 8 at minimum as it is an LTS // release, and Node.js 7 is not. Windows 10 build 10586 is the first Windows // release that supports 256 colors. Windows 10 build 14931 is the first release // that supports 16m/TrueColor. const osRelease = os$2.release().split('.'); if (Number(process.versions.node.split('.')[0]) >= 8 && Number(osRelease[0]) >= 10 && Number(osRelease[2]) >= 10586) { return Number(osRelease[2]) >= 14931 ? 3 : 2; } return 1; } if ('CI' in env) { if (['TRAVIS', 'CIRCLECI', 'APPVEYOR', 'GITLAB_CI'].some(sign => sign in env) || env.CI_NAME === 'codeship') { return 1; } return min; } if ('TEAMCITY_VERSION' in env) { return /^(9\.(0*[1-9]\d*)\.|\d{2,}\.)/.test(env.TEAMCITY_VERSION) ? 1 : 0; } if (env.COLORTERM === 'truecolor') { return 3; } if ('TERM_PROGRAM' in env) { const version = parseInt((env.TERM_PROGRAM_VERSION || '').split('.')[0], 10); switch (env.TERM_PROGRAM) { case 'iTerm.app': return version >= 3 ? 3 : 2; case 'Apple_Terminal': return 2; // No default } } if (/-256(color)?$/i.test(env.TERM)) { return 2; } if (/^screen|^xterm|^vt100|^vt220|^rxvt|color|ansi|cygwin|linux/i.test(env.TERM)) { return 1; } if ('COLORTERM' in env) { return 1; } if (env.TERM === 'dumb') { return min; } return min; } function getSupportLevel(stream) { const level = supportsColor(stream); return translateLevel(level); } var supportsColor_1 = { supportsColor: getSupportLevel, stdout: getSupportLevel(process.stdout), stderr: getSupportLevel(process.stderr) }; const TEMPLATE_REGEX = /(?:\\(u[a-f\d]{4}|x[a-f\d]{2}|.))|(?:\{(~)?(\w+(?:\([^)]*\))?(?:\.\w+(?:\([^)]*\))?)*)(?:[ \t]|(?=\r?\n)))|(\})|((?:.|[\r\n\f])+?)/gi; const STYLE_REGEX = /(?:^|\.)(\w+)(?:\(([^)]*)\))?/g; const STRING_REGEX$1 = /^(['"])((?:\\.|(?!\1)[^\\])*)\1$/; const ESCAPE_REGEX = /\\(u[a-f\d]{4}|x[a-f\d]{2}|.)|([^\\])/gi; const ESCAPES = new Map([['n', '\n'], ['r', '\r'], ['t', '\t'], ['b', '\b'], ['f', '\f'], ['v', '\v'], ['0', '\0'], ['\\', '\\'], ['e', '\u001B'], ['a', '\u0007']]); function unescape(c) { if (c[0] === 'u' && c.length === 5 || c[0] === 'x' && c.length === 3) { return String.fromCharCode(parseInt(c.slice(1), 16)); } return ESCAPES.get(c) || c; } function parseArguments(name, args) { const results = []; const chunks = args.trim().split(/\s*,\s*/g); let matches; for (const chunk of chunks) { if (!isNaN(chunk)) { results.push(Number(chunk)); } else if (matches = chunk.match(STRING_REGEX$1)) { results.push(matches[2].replace(ESCAPE_REGEX, (m, escape, chr) => escape ? unescape(escape) : chr)); } else { throw new Error(`Invalid Chalk template style argument: ${chunk} (in style '${name}')`); } } return results; } function parseStyle(style) { STYLE_REGEX.lastIndex = 0; const results = []; let matches; while ((matches = STYLE_REGEX.exec(style)) !== null) { const name = matches[1]; if (matches[2]) { const args = parseArguments(name, matches[2]); results.push([name].concat(args)); } else { results.push([name]); } } return results; } function buildStyle(chalk, styles) { const enabled = {}; for (const layer of styles) { for (const style of layer.styles) { enabled[style[0]] = layer.inverse ? null : style.slice(1); } } let current = chalk; for (const styleName of Object.keys(enabled)) { if (Array.isArray(enabled[styleName])) { if (!(styleName in current)) { throw new Error(`Unknown Chalk style: ${styleName}`); } if (enabled[styleName].length > 0) { current = current[styleName].apply(current, enabled[styleName]); } else { current = current[styleName]; } } } return current; } var templates = (chalk, tmp) => { const styles = []; const chunks = []; let chunk = []; // eslint-disable-next-line max-params tmp.replace(TEMPLATE_REGEX, (m, escapeChar, inverse, style, close, chr) => { if (escapeChar) { chunk.push(unescape(escapeChar)); } else if (style) { const str = chunk.join(''); chunk = []; chunks.push(styles.length === 0 ? str : buildStyle(chalk, styles)(str)); styles.push({ inverse, styles: parseStyle(style) }); } else if (close) { if (styles.length === 0) { throw new Error('Found extraneous } in Chalk template literal'); } chunks.push(buildStyle(chalk, styles)(chunk.join(''))); chunk = []; styles.pop(); } else { chunk.push(chr); } }); chunks.push(chunk.join('')); if (styles.length > 0) { const errMsg = `Chalk template literal is missing ${styles.length} closing bracket${styles.length === 1 ? '' : 's'} (\`}\`)`; throw new Error(errMsg); } return chunks.join(''); }; (function (module) { const escapeStringRegexp$1 = escapeStringRegexp; const ansiStyles = ansiStyles$2.exports; const stdoutColor = supportsColor_1.stdout; const template = templates; const isSimpleWindowsTerm = process.platform === 'win32' && !(process.env.TERM || '').toLowerCase().startsWith('xterm'); // `supportsColor.level` → `ansiStyles.color[name]` mapping const levelMapping = ['ansi', 'ansi', 'ansi256', 'ansi16m']; // `color-convert` models to exclude from the Chalk API due to conflicts and such const skipModels = new Set(['gray']); const styles = Object.create(null); function applyOptions(obj, options) { options = options || {}; // Detect level if not set manually const scLevel = stdoutColor ? stdoutColor.level : 0; obj.level = options.level === undefined ? scLevel : options.level; obj.enabled = 'enabled' in options ? options.enabled : obj.level > 0; } function Chalk(options) { // We check for this.template here since calling `chalk.constructor()` // by itself will have a `this` of a previously constructed chalk object if (!this || !(this instanceof Chalk) || this.template) { const chalk = {}; applyOptions(chalk, options); chalk.template = function () { const args = [].slice.call(arguments); return chalkTag.apply(null, [chalk.template].concat(args)); }; Object.setPrototypeOf(chalk, Chalk.prototype); Object.setPrototypeOf(chalk.template, chalk); chalk.template.constructor = Chalk; return chalk.template; } applyOptions(this, options); } // Use bright blue on Windows as the normal blue color is illegible if (isSimpleWindowsTerm) { ansiStyles.blue.open = '\u001B[94m'; } for (const key of Object.keys(ansiStyles)) { ansiStyles[key].closeRe = new RegExp(escapeStringRegexp$1(ansiStyles[key].close), 'g'); styles[key] = { get() { const codes = ansiStyles[key]; return build.call(this, this._styles ? this._styles.concat(codes) : [codes], this._empty, key); } }; } styles.visible = { get() { return build.call(this, this._styles || [], true, 'visible'); } }; ansiStyles.color.closeRe = new RegExp(escapeStringRegexp$1(ansiStyles.color.close), 'g'); for (const model of Object.keys(ansiStyles.color.ansi)) { if (skipModels.has(model)) { continue; } styles[model] = { get() { const level = this.level; return function () { const open = ansiStyles.color[levelMapping[level]][model].apply(null, arguments); const codes = { open, close: ansiStyles.color.close, closeRe: ansiStyles.color.closeRe }; return build.call(this, this._styles ? this._styles.concat(codes) : [codes], this._empty, model); }; } }; } ansiStyles.bgColor.closeRe = new RegExp(escapeStringRegexp$1(ansiStyles.bgColor.close), 'g'); for (const model of Object.keys(ansiStyles.bgColor.ansi)) { if (skipModels.has(model)) { continue; } const bgModel = 'bg' + model[0].toUpperCase() + model.slice(1); styles[bgModel] = { get() { const level = this.level; return function () { const open = ansiStyles.bgColor[levelMapping[level]][model].apply(null, arguments); const codes = { open, close: ansiStyles.bgColor.close, closeRe: ansiStyles.bgColor.closeRe }; return build.call(this, this._styles ? this._styles.concat(codes) : [codes], this._empty, model); }; } }; } const proto = Object.defineProperties(() => {}, styles); function build(_styles, _empty, key) { const builder = function () { return applyStyle.apply(builder, arguments); }; builder._styles = _styles; builder._empty = _empty; const self = this; Object.defineProperty(builder, 'level', { enumerable: true, get() { return self.level; }, set(level) { self.level = level; } }); Object.defineProperty(builder, 'enabled', { enumerable: true, get() { return self.enabled; }, set(enabled) { self.enabled = enabled; } }); // See below for fix regarding invisible grey/dim combination on Windows builder.hasGrey = this.hasGrey || key === 'gray' || key === 'grey'; // `__proto__` is used because we must return a function, but there is // no way to create a function with a different prototype builder.__proto__ = proto; // eslint-disable-line no-proto return builder; } function applyStyle() { // Support varags, but simply cast to string in case there's only one arg const args = arguments; const argsLen = args.length; let str = String(arguments[0]); if (argsLen === 0) { return ''; } if (argsLen > 1) { // Don't slice `arguments`, it prevents V8 optimizations for (let a = 1; a < argsLen; a++) { str += ' ' + args[a]; } } if (!this.enabled || this.level <= 0 || !str) { return this._empty ? '' : str; } // Turns out that on Windows dimmed gray text becomes invisible in cmd.exe, // see https://github.com/chalk/chalk/issues/58 // If we're on Windows and we're dealing with a gray color, temporarily make 'dim' a noop. const originalDim = ansiStyles.dim.open; if (isSimpleWindowsTerm && this.hasGrey) { ansiStyles.dim.open = ''; } for (const code of this._styles.slice().reverse()) { // Replace any instances already present with a re-opening code // otherwise only the part of the string until said closing code // will be colored, and the rest will simply be 'plain'. str = code.open + str.replace(code.closeRe, code.open) + code.close; // Close the styling before a linebreak and reopen // after next line to fix a bleed issue on macOS // https://github.com/chalk/chalk/pull/92 str = str.replace(/\r?\n/g, `${code.close}$&${code.open}`); } // Reset the original `dim` if we changed it to work around the Windows dimmed gray issue ansiStyles.dim.open = originalDim; return str; } function chalkTag(chalk, strings) { if (!Array.isArray(strings)) { // If chalk() was called by itself or with a string, // return the string itself as a string. return [].slice.call(arguments, 1).join(' '); } const args = [].slice.call(arguments, 2); const parts = [strings.raw[0]]; for (let i = 1; i < strings.length; i++) { parts.push(String(args[i - 1]).replace(/[{}\\]/g, '\\$&')); parts.push(String(strings.raw[i])); } return template(chalk, parts.join('')); } Object.defineProperties(Chalk.prototype, styles); module.exports = Chalk(); // eslint-disable-line new-cap module.exports.supportsColor = stdoutColor; module.exports.default = module.exports; // For TypeScript })(chalk); Object.defineProperty(lib$2, "__esModule", { value: true }); lib$2.default = highlight; lib$2.getChalk = getChalk; lib$2.shouldHighlight = shouldHighlight; var _jsTokens = jsTokens; var _helperValidatorIdentifier = lib$1; var _chalk = chalk.exports; const sometimesKeywords = new Set(["as", "async", "from", "get", "of", "set"]); function getDefs$1(chalk) { return { keyword: chalk.cyan, capitalized: chalk.yellow, jsxIdentifier: chalk.yellow, punctuator: chalk.yellow, number: chalk.magenta, string: chalk.green, regex: chalk.magenta, comment: chalk.grey, invalid: chalk.white.bgRed.bold }; } const NEWLINE$1 = /\r\n|[\n\r\u2028\u2029]/; const BRACKET = /^[()[\]{}]$/; let tokenize; { const JSX_TAG = /^[a-z][\w-]*$/i; const getTokenType = function (token, offset, text) { if (token.type === "name") { if ((0, _helperValidatorIdentifier.isKeyword)(token.value) || (0, _helperValidatorIdentifier.isStrictReservedWord)(token.value, true) || sometimesKeywords.has(token.value)) { return "keyword"; } if (JSX_TAG.test(token.value) && (text[offset - 1] === "<" || text.substr(offset - 2, 2) == " colorize(str)).join("\n"); } else { highlighted += value; } } return highlighted; } function shouldHighlight(options) { return !!_chalk.supportsColor || options.forceColor; } function getChalk(options) { return options.forceColor ? new _chalk.constructor({ enabled: true, level: 1 }) : _chalk; } function highlight(code, options = {}) { if (shouldHighlight(options)) { const chalk = getChalk(options); const defs = getDefs$1(chalk); return highlightTokens(defs, code); } else { return code; } } Object.defineProperty(lib$3, "__esModule", { value: true }); lib$3.codeFrameColumns = codeFrameColumns; lib$3.default = _default; var _highlight = lib$2; let deprecationWarningShown = false; function getDefs(chalk) { return { gutter: chalk.grey, marker: chalk.red.bold, message: chalk.red.bold }; } const NEWLINE = /\r\n|[\n\r\u2028\u2029]/; function getMarkerLines(loc, source, opts) { const startLoc = Object.assign({ column: 0, line: -1 }, loc.start); const endLoc = Object.assign({}, startLoc, loc.end); const { linesAbove = 2, linesBelow = 3 } = opts || {}; const startLine = startLoc.line; const startColumn = startLoc.column; const endLine = endLoc.line; const endColumn = endLoc.column; let start = Math.max(startLine - (linesAbove + 1), 0); let end = Math.min(source.length, endLine + linesBelow); if (startLine === -1) { start = 0; } if (endLine === -1) { end = source.length; } const lineDiff = endLine - startLine; const markerLines = {}; if (lineDiff) { for (let i = 0; i <= lineDiff; i++) { const lineNumber = i + startLine; if (!startColumn) { markerLines[lineNumber] = true; } else if (i === 0) { const sourceLength = source[lineNumber - 1].length; markerLines[lineNumber] = [startColumn, sourceLength - startColumn + 1]; } else if (i === lineDiff) { markerLines[lineNumber] = [0, endColumn]; } else { const sourceLength = source[lineNumber - i].length; markerLines[lineNumber] = [0, sourceLength]; } } } else { if (startColumn === endColumn) { if (startColumn) { markerLines[startLine] = [startColumn, 0]; } else { markerLines[startLine] = true; } } else { markerLines[startLine] = [startColumn, endColumn - startColumn]; } } return { start, end, markerLines }; } function codeFrameColumns(rawLines, loc, opts = {}) { const highlighted = (opts.highlightCode || opts.forceColor) && (0, _highlight.shouldHighlight)(opts); const chalk = (0, _highlight.getChalk)(opts); const defs = getDefs(chalk); const maybeHighlight = (chalkFn, string) => { return highlighted ? chalkFn(string) : string; }; const lines = rawLines.split(NEWLINE); const { start, end, markerLines } = getMarkerLines(loc, lines, opts); const hasColumns = loc.start && typeof loc.start.column === "number"; const numberMaxWidth = String(end).length; const highlightedLines = highlighted ? (0, _highlight.default)(rawLines, opts) : rawLines; let frame = highlightedLines.split(NEWLINE, end).slice(start, end).map((line, index) => { const number = start + 1 + index; const paddedNumber = ` ${number}`.slice(-numberMaxWidth); const gutter = ` ${paddedNumber} |`; const hasMarker = markerLines[number]; const lastMarkerLine = !markerLines[number + 1]; if (hasMarker) { let markerLine = ""; if (Array.isArray(hasMarker)) { const markerSpacing = line.slice(0, Math.max(hasMarker[0] - 1, 0)).replace(/[^\t]/g, " "); const numberOfMarkers = hasMarker[1] || 1; markerLine = ["\n ", maybeHighlight(defs.gutter, gutter.replace(/\d/g, " ")), " ", markerSpacing, maybeHighlight(defs.marker, "^").repeat(numberOfMarkers)].join(""); if (lastMarkerLine && opts.message) { markerLine += " " + maybeHighlight(defs.message, opts.message); } } return [maybeHighlight(defs.marker, ">"), maybeHighlight(defs.gutter, gutter), line.length > 0 ? ` ${line}` : "", markerLine].join(""); } else { return ` ${maybeHighlight(defs.gutter, gutter)}${line.length > 0 ? ` ${line}` : ""}`; } }).join("\n"); if (opts.message && !hasColumns) { frame = `${" ".repeat(numberMaxWidth + 1)}${opts.message}\n${frame}`; } if (highlighted) { return chalk.reset(frame); } else { return frame; } } function _default(rawLines, lineNumber, colNumber, opts = {}) { if (!deprecationWarningShown) { deprecationWarningShown = true; const message = "Passing lineNumber and colNumber is deprecated to @babel/code-frame. Please use `codeFrameColumns`."; if (process.emitWarning) { process.emitWarning(message, "DeprecationWarning"); } else { const deprecationError = new Error(message); deprecationError.name = "DeprecationWarning"; console.warn(new Error(message)); } } colNumber = Math.max(colNumber, 0); const location = { start: { column: colNumber, line: lineNumber } }; return codeFrameColumns(rawLines, location, opts); } const path$q = require$$0__default$2["default"]; const { ConfigError } = errors; const jsLoc = loc$6; const { locStart: locStart$r, locEnd: locEnd$q } = jsLoc; // Use defineProperties()/getOwnPropertyDescriptor() to prevent // triggering the parsers getters. const ownNames = Object.getOwnPropertyNames; const ownDescriptor = Object.getOwnPropertyDescriptor; function getParsers(options) { const parsers = {}; for (const plugin of options.plugins) { // TODO: test this with plugins /* istanbul ignore next */ if (!plugin.parsers) { continue; } for (const name of ownNames(plugin.parsers)) { Object.defineProperty(parsers, name, ownDescriptor(plugin.parsers, name)); } } return parsers; } function resolveParser$1(opts, parsers = getParsers(opts)) { if (typeof opts.parser === "function") { // Custom parser API always works with JavaScript. return { parse: opts.parser, astFormat: "estree", locStart: locStart$r, locEnd: locEnd$q }; } if (typeof opts.parser === "string") { if (Object.prototype.hasOwnProperty.call(parsers, opts.parser)) { return parsers[opts.parser]; } try { return { parse: require(path$q.resolve(process.cwd(), opts.parser)), astFormat: "estree", locStart: locStart$r, locEnd: locEnd$q }; } catch { /* istanbul ignore next */ throw new ConfigError(`Couldn't resolve parser "${opts.parser}"`); } } } function parse$d(text, opts) { const parsers = getParsers(opts); // Create a new object {parserName: parseFn}. Uses defineProperty() to only call // the parsers getters when actually calling the parser `parse` function. const parsersForCustomParserApi = Object.defineProperties({}, Object.fromEntries(Object.keys(parsers).map(parserName => [parserName, { enumerable: true, get() { return parsers[parserName].parse; } }]))); const parser = resolveParser$1(opts, parsers); try { if (parser.preprocess) { text = parser.preprocess(text, opts); } return { text, ast: parser.parse(text, parsersForCustomParserApi, opts) }; } catch (error) { const { loc } = error; if (loc) { const { codeFrameColumns } = lib$3; error.codeFrame = codeFrameColumns(text, loc, { highlightCode: true }); error.message += "\n" + error.codeFrame; throw error; } /* istanbul ignore next */ throw error.stack; } } var parser$2 = { parse: parse$d, resolveParser: resolveParser$1 }; const fs$k = require$$0__default["default"]; const path$p = require$$0__default$2["default"]; const readlines = readlines$1; const { UndefinedParserError } = errors; const { getSupportInfo: getSupportInfo$1 } = support; const normalizer = optionsNormalizer; const { resolveParser } = parser$2; const hiddenDefaults = { astFormat: "estree", printer: {}, originalText: undefined, locStart: null, locEnd: null }; // Copy options and fill in default values. function normalize$1(options, opts = {}) { const rawOptions = Object.assign({}, options); const supportOptions = getSupportInfo$1({ plugins: options.plugins, showUnreleased: true, showDeprecated: true }).options; const defaults = Object.assign(Object.assign({}, hiddenDefaults), Object.fromEntries(supportOptions.filter(optionInfo => optionInfo.default !== undefined).map(option => [option.name, option.default]))); if (!rawOptions.parser) { if (!rawOptions.filepath) { const logger = opts.logger || console; logger.warn("No parser and no filepath given, using 'babel' the parser now " + "but this will throw an error in the future. " + "Please specify a parser or a filepath so one can be inferred."); rawOptions.parser = "babel"; } else { rawOptions.parser = inferParser(rawOptions.filepath, rawOptions.plugins); if (!rawOptions.parser) { throw new UndefinedParserError(`No parser could be inferred for file: ${rawOptions.filepath}`); } } } const parser = resolveParser(normalizer.normalizeApiOptions(rawOptions, [supportOptions.find(x => x.name === "parser")], { passThrough: true, logger: false })); rawOptions.astFormat = parser.astFormat; rawOptions.locEnd = parser.locEnd; rawOptions.locStart = parser.locStart; const plugin = getPlugin(rawOptions); rawOptions.printer = plugin.printers[rawOptions.astFormat]; const pluginDefaults = Object.fromEntries(supportOptions.filter(optionInfo => optionInfo.pluginDefaults && optionInfo.pluginDefaults[plugin.name] !== undefined).map(optionInfo => [optionInfo.name, optionInfo.pluginDefaults[plugin.name]])); const mixedDefaults = Object.assign(Object.assign({}, defaults), pluginDefaults); for (const [k, value] of Object.entries(mixedDefaults)) { if (rawOptions[k] === null || rawOptions[k] === undefined) { rawOptions[k] = value; } } if (rawOptions.parser === "json") { rawOptions.trailingComma = "none"; } return normalizer.normalizeApiOptions(rawOptions, supportOptions, Object.assign({ passThrough: Object.keys(hiddenDefaults) }, opts)); } function getPlugin(options) { const { astFormat } = options; // TODO: test this with plugins /* istanbul ignore next */ if (!astFormat) { throw new Error("getPlugin() requires astFormat to be set"); } const printerPlugin = options.plugins.find(plugin => plugin.printers && plugin.printers[astFormat]); // TODO: test this with plugins /* istanbul ignore next */ if (!printerPlugin) { throw new Error(`Couldn't find plugin for AST format "${astFormat}"`); } return printerPlugin; } function getInterpreter(filepath) { /* istanbul ignore next */ if (typeof filepath !== "string") { return ""; } let fd; try { fd = fs$k.openSync(filepath, "r"); } catch { // istanbul ignore next return ""; } try { const liner = new readlines(fd); const firstLine = liner.next().toString("utf8"); // #!/bin/env node, #!/usr/bin/env node const m1 = firstLine.match(/^#!\/(?:usr\/)?bin\/env\s+(\S+)/); if (m1) { return m1[1]; } // #!/bin/node, #!/usr/bin/node, #!/usr/local/bin/node const m2 = firstLine.match(/^#!\/(?:usr\/(?:local\/)?)?bin\/(\S+)/); if (m2) { return m2[1]; } return ""; } catch { // There are some weird cases where paths are missing, causing Jest // failures. It's unclear what these correspond to in the real world. /* istanbul ignore next */ return ""; } finally { try { // There are some weird cases where paths are missing, causing Jest // failures. It's unclear what these correspond to in the real world. fs$k.closeSync(fd); } catch {// nop } } } function inferParser(filepath, plugins) { const filename = path$p.basename(filepath).toLowerCase(); const languages = getSupportInfo$1({ plugins }).languages.filter(language => language.since !== null); // If the file has no extension, we can try to infer the language from the // interpreter in the shebang line, if any; but since this requires FS access, // do it last. let language = languages.find(language => language.extensions && language.extensions.some(extension => filename.endsWith(extension)) || language.filenames && language.filenames.some(name => name.toLowerCase() === filename)); if (!language && !filename.includes(".")) { const interpreter = getInterpreter(filepath); language = languages.find(language => language.interpreters && language.interpreters.includes(interpreter)); } return language && language.parsers[0]; } var options$d = { normalize: normalize$1, hiddenDefaults, inferParser }; function massageAST$1(ast, options, parent) { if (Array.isArray(ast)) { return ast.map(e => massageAST$1(e, options, parent)).filter(Boolean); } if (!ast || typeof ast !== "object") { return ast; } const cleanFunction = options.printer.massageAstNode; let ignoredProperties; if (cleanFunction && cleanFunction.ignoredProperties) { ignoredProperties = cleanFunction.ignoredProperties; } else { ignoredProperties = new Set(); } const newObj = {}; for (const [key, value] of Object.entries(ast)) { if (!ignoredProperties.has(key) && typeof value !== "function") { newObj[key] = massageAST$1(value, options, ast); } } if (cleanFunction) { const result = cleanFunction(ast, newObj, parent); if (result === null) { return; } if (result) { return result; } } return newObj; } var massageAst = massageAST$1; const assert$6 = require$$0__default$3["default"]; const { builders: { line: line$A, hardline: hardline$C, breakParent: breakParent$a, indent: indent$z, lineSuffix: lineSuffix$1, join: join$v, cursor } } = require$$7$3; const { hasNewline: hasNewline$9, skipNewline: skipNewline$1, skipSpaces: skipSpaces$1, isPreviousLineEmpty: isPreviousLineEmpty$2, addLeadingComment: addLeadingComment$2, addDanglingComment: addDanglingComment$2, addTrailingComment: addTrailingComment$2 } = util$8; const childNodesCache = new WeakMap(); function getSortedChildNodes(node, options, resultArray) { if (!node) { return; } const { printer, locStart, locEnd } = options; if (resultArray) { if (printer.canAttachComment && printer.canAttachComment(node)) { // This reverse insertion sort almost always takes constant // time because we almost always (maybe always?) append the // nodes in order anyway. let i; for (i = resultArray.length - 1; i >= 0; --i) { if (locStart(resultArray[i]) <= locStart(node) && locEnd(resultArray[i]) <= locEnd(node)) { break; } } resultArray.splice(i + 1, 0, node); return; } } else if (childNodesCache.has(node)) { return childNodesCache.get(node); } const childNodes = printer.getCommentChildNodes && printer.getCommentChildNodes(node, options) || typeof node === "object" && Object.entries(node).filter(([key]) => key !== "enclosingNode" && key !== "precedingNode" && key !== "followingNode" && key !== "tokens" && key !== "comments").map(([, value]) => value); if (!childNodes) { return; } if (!resultArray) { resultArray = []; childNodesCache.set(node, resultArray); } for (const childNode of childNodes) { getSortedChildNodes(childNode, options, resultArray); } return resultArray; } // As efficiently as possible, decorate the comment object with // .precedingNode, .enclosingNode, and/or .followingNode properties, at // least one of which is guaranteed to be defined. function decorateComment(node, comment, options, enclosingNode) { const { locStart, locEnd } = options; const commentStart = locStart(comment); const commentEnd = locEnd(comment); const childNodes = getSortedChildNodes(node, options); let precedingNode; let followingNode; // Time to dust off the old binary search robes and wizard hat. let left = 0; let right = childNodes.length; while (left < right) { const middle = left + right >> 1; const child = childNodes[middle]; const start = locStart(child); const end = locEnd(child); // The comment is completely contained by this child node. if (start <= commentStart && commentEnd <= end) { // Abandon the binary search at this level. return decorateComment(child, comment, options, child); } if (end <= commentStart) { // This child node falls completely before the comment. // Because we will never consider this node or any nodes // before it again, this node must be the closest preceding // node we have encountered so far. precedingNode = child; left = middle + 1; continue; } if (commentEnd <= start) { // This child node falls completely after the comment. // Because we will never consider this node or any nodes after // it again, this node must be the closest following node we // have encountered so far. followingNode = child; right = middle; continue; } /* istanbul ignore next */ throw new Error("Comment location overlaps with node location"); } // We don't want comments inside of different expressions inside of the same // template literal to move to another expression. if (enclosingNode && enclosingNode.type === "TemplateLiteral") { const { quasis } = enclosingNode; const commentIndex = findExpressionIndexForComment(quasis, comment, options); if (precedingNode && findExpressionIndexForComment(quasis, precedingNode, options) !== commentIndex) { precedingNode = null; } if (followingNode && findExpressionIndexForComment(quasis, followingNode, options) !== commentIndex) { followingNode = null; } } return { enclosingNode, precedingNode, followingNode }; } const returnFalse$1 = () => false; function attach(comments, ast, text, options) { if (!Array.isArray(comments)) { return; } const tiesToBreak = []; const { locStart, locEnd, printer: { handleComments = {} } } = options; // TODO: Make this as default behavior const { avoidAstMutation, ownLine: handleOwnLineComment = returnFalse$1, endOfLine: handleEndOfLineComment = returnFalse$1, remaining: handleRemainingComment = returnFalse$1 } = handleComments; const decoratedComments = comments.map((comment, index) => Object.assign(Object.assign({}, decorateComment(ast, comment, options)), {}, { comment, text, options, ast, isLastComment: comments.length - 1 === index })); for (const [index, context] of decoratedComments.entries()) { const { comment, precedingNode, enclosingNode, followingNode, text, options, ast, isLastComment } = context; if (options.parser === "json" || options.parser === "json5" || options.parser === "__js_expression" || options.parser === "__vue_expression") { if (locStart(comment) - locStart(ast) <= 0) { addLeadingComment$2(ast, comment); continue; } if (locEnd(comment) - locEnd(ast) >= 0) { addTrailingComment$2(ast, comment); continue; } } let args; if (avoidAstMutation) { args = [context]; } else { comment.enclosingNode = enclosingNode; comment.precedingNode = precedingNode; comment.followingNode = followingNode; args = [comment, text, options, ast, isLastComment]; } if (isOwnLineComment(text, options, decoratedComments, index)) { comment.placement = "ownLine"; // If a comment exists on its own line, prefer a leading comment. // We also need to check if it's the first line of the file. if (handleOwnLineComment(...args)) ; else if (followingNode) { // Always a leading comment. addLeadingComment$2(followingNode, comment); } else if (precedingNode) { addTrailingComment$2(precedingNode, comment); } else if (enclosingNode) { addDanglingComment$2(enclosingNode, comment); } else { // There are no nodes, let's attach it to the root of the ast /* istanbul ignore next */ addDanglingComment$2(ast, comment); } } else if (isEndOfLineComment(text, options, decoratedComments, index)) { comment.placement = "endOfLine"; if (handleEndOfLineComment(...args)) ; else if (precedingNode) { // There is content before this comment on the same line, but // none after it, so prefer a trailing comment of the previous node. addTrailingComment$2(precedingNode, comment); } else if (followingNode) { addLeadingComment$2(followingNode, comment); } else if (enclosingNode) { addDanglingComment$2(enclosingNode, comment); } else { // There are no nodes, let's attach it to the root of the ast /* istanbul ignore next */ addDanglingComment$2(ast, comment); } } else { comment.placement = "remaining"; if (handleRemainingComment(...args)) ; else if (precedingNode && followingNode) { // Otherwise, text exists both before and after the comment on // the same line. If there is both a preceding and following // node, use a tie-breaking algorithm to determine if it should // be attached to the next or previous node. In the last case, // simply attach the right node; const tieCount = tiesToBreak.length; if (tieCount > 0) { const lastTie = tiesToBreak[tieCount - 1]; if (lastTie.followingNode !== followingNode) { breakTies(tiesToBreak, text, options); } } tiesToBreak.push(context); } else if (precedingNode) { addTrailingComment$2(precedingNode, comment); } else if (followingNode) { addLeadingComment$2(followingNode, comment); } else if (enclosingNode) { addDanglingComment$2(enclosingNode, comment); } else { // There are no nodes, let's attach it to the root of the ast /* istanbul ignore next */ addDanglingComment$2(ast, comment); } } } breakTies(tiesToBreak, text, options); if (!avoidAstMutation) { for (const comment of comments) { // These node references were useful for breaking ties, but we // don't need them anymore, and they create cycles in the AST that // may lead to infinite recursion if we don't delete them here. delete comment.precedingNode; delete comment.enclosingNode; delete comment.followingNode; } } } const isAllEmptyAndNoLineBreak = text => !/[\S\n\u2028\u2029]/.test(text); function isOwnLineComment(text, options, decoratedComments, commentIndex) { const { comment, precedingNode } = decoratedComments[commentIndex]; const { locStart, locEnd } = options; let start = locStart(comment); if (precedingNode) { // Find first comment on the same line for (let index = commentIndex - 1; index >= 0; index--) { const { comment, precedingNode: currentCommentPrecedingNode } = decoratedComments[index]; if (currentCommentPrecedingNode !== precedingNode || !isAllEmptyAndNoLineBreak(text.slice(locEnd(comment), start))) { break; } start = locStart(comment); } } return hasNewline$9(text, start, { backwards: true }); } function isEndOfLineComment(text, options, decoratedComments, commentIndex) { const { comment, followingNode } = decoratedComments[commentIndex]; const { locStart, locEnd } = options; let end = locEnd(comment); if (followingNode) { // Find last comment on the same line for (let index = commentIndex + 1; index < decoratedComments.length; index++) { const { comment, followingNode: currentCommentFollowingNode } = decoratedComments[index]; if (currentCommentFollowingNode !== followingNode || !isAllEmptyAndNoLineBreak(text.slice(end, locStart(comment)))) { break; } end = locEnd(comment); } } return hasNewline$9(text, end); } function breakTies(tiesToBreak, text, options) { const tieCount = tiesToBreak.length; if (tieCount === 0) { return; } const { precedingNode, followingNode, enclosingNode } = tiesToBreak[0]; const gapRegExp = options.printer.getGapRegex && options.printer.getGapRegex(enclosingNode) || /^[\s(]*$/; let gapEndPos = options.locStart(followingNode); // Iterate backwards through tiesToBreak, examining the gaps // between the tied comments. In order to qualify as leading, a // comment must be separated from followingNode by an unbroken series of // gaps (or other comments). Gaps should only contain whitespace or open // parentheses. let indexOfFirstLeadingComment; for (indexOfFirstLeadingComment = tieCount; indexOfFirstLeadingComment > 0; --indexOfFirstLeadingComment) { const { comment, precedingNode: currentCommentPrecedingNode, followingNode: currentCommentFollowingNode } = tiesToBreak[indexOfFirstLeadingComment - 1]; assert$6.strictEqual(currentCommentPrecedingNode, precedingNode); assert$6.strictEqual(currentCommentFollowingNode, followingNode); const gap = text.slice(options.locEnd(comment), gapEndPos); if (gapRegExp.test(gap)) { gapEndPos = options.locStart(comment); } else { // The gap string contained something other than whitespace or open // parentheses. break; } } for (const [i, { comment }] of tiesToBreak.entries()) { if (i < indexOfFirstLeadingComment) { addTrailingComment$2(precedingNode, comment); } else { addLeadingComment$2(followingNode, comment); } } for (const node of [precedingNode, followingNode]) { if (node.comments && node.comments.length > 1) { node.comments.sort((a, b) => options.locStart(a) - options.locStart(b)); } } tiesToBreak.length = 0; } function printComment$3(path, options) { const comment = path.getValue(); comment.printed = true; return options.printer.printComment(path, options); } function findExpressionIndexForComment(quasis, comment, options) { const startPos = options.locStart(comment) - 1; for (let i = 1; i < quasis.length; ++i) { if (startPos < options.locStart(quasis[i])) { return i - 1; } } // We haven't found it, it probably means that some of the locations are off. // Let's just return the first one. /* istanbul ignore next */ return 0; } function printLeadingComment(path, options) { const comment = path.getValue(); const parts = [printComment$3(path, options)]; const { printer, originalText, locStart, locEnd } = options; const isBlock = printer.isBlockComment && printer.isBlockComment(comment); // Leading block comments should see if they need to stay on the // same line or not. if (isBlock) { const lineBreak = hasNewline$9(originalText, locEnd(comment)) ? hasNewline$9(originalText, locStart(comment), { backwards: true }) ? hardline$C : line$A : " "; parts.push(lineBreak); } else { parts.push(hardline$C); } const index = skipNewline$1(originalText, skipSpaces$1(originalText, locEnd(comment))); if (index !== false && hasNewline$9(originalText, index)) { parts.push(hardline$C); } return parts; } function printTrailingComment(path, options) { const comment = path.getValue(); const printed = printComment$3(path, options); const { printer, originalText, locStart } = options; const isBlock = printer.isBlockComment && printer.isBlockComment(comment); if (hasNewline$9(originalText, locStart(comment), { backwards: true })) { // This allows comments at the end of nested structures: // { // x: 1, // y: 2 // // A comment // } // Those kinds of comments are almost always leading comments, but // here it doesn't go "outside" the block and turns it into a // trailing comment for `2`. We can simulate the above by checking // if this a comment on its own line; normal trailing comments are // always at the end of another expression. const isLineBeforeEmpty = isPreviousLineEmpty$2(originalText, comment, locStart); return lineSuffix$1([hardline$C, isLineBeforeEmpty ? hardline$C : "", printed]); } let parts = [" ", printed]; // Trailing block comments never need a newline if (!isBlock) { parts = [lineSuffix$1(parts), breakParent$a]; } return parts; } function printDanglingComments$e(path, options, sameIndent, filter) { const parts = []; const node = path.getValue(); if (!node || !node.comments) { return ""; } path.each(() => { const comment = path.getValue(); if (!comment.leading && !comment.trailing && (!filter || filter(comment))) { parts.push(printComment$3(path, options)); } }, "comments"); if (parts.length === 0) { return ""; } if (sameIndent) { return join$v(hardline$C, parts); } return indent$z([hardline$C, join$v(hardline$C, parts)]); } function printCommentsSeparately$1(path, options, ignored) { const value = path.getValue(); if (!value) { return {}; } let comments = value.comments || []; if (ignored) { comments = comments.filter(comment => !ignored.has(comment)); } const isCursorNode = value === options.cursorNode; if (comments.length === 0) { const maybeCursor = isCursorNode ? cursor : ""; return { leading: maybeCursor, trailing: maybeCursor }; } const leadingParts = []; const trailingParts = []; path.each(() => { const comment = path.getValue(); if (ignored && ignored.has(comment)) { return; } const { leading, trailing } = comment; if (leading) { leadingParts.push(printLeadingComment(path, options)); } else if (trailing) { trailingParts.push(printTrailingComment(path, options)); } }, "comments"); if (isCursorNode) { leadingParts.unshift(cursor); trailingParts.push(cursor); } return { leading: leadingParts, trailing: trailingParts }; } function printComments$7(path, doc, options, ignored) { const { leading, trailing } = printCommentsSeparately$1(path, options, ignored); if (!leading && !trailing) { return doc; } return [leading, doc, trailing]; } function ensureAllCommentsPrinted(astComments) { if (!astComments) { return; } for (const comment of astComments) { if (!comment.printed) { throw new Error('Comment "' + comment.value.trim() + '" was not printed. Please report this error!'); } delete comment.printed; } } var comments$4 = { attach, printComments: printComments$7, printCommentsSeparately: printCommentsSeparately$1, printDanglingComments: printDanglingComments$e, getSortedChildNodes, ensureAllCommentsPrinted }; const getLast$m = getLast_1; function getNodeHelper(path, count) { const stackIndex = getNodeStackIndexHelper(path.stack, count); return stackIndex === -1 ? null : path.stack[stackIndex]; } function getNodeStackIndexHelper(stack, count) { for (let i = stack.length - 1; i >= 0; i -= 2) { const value = stack[i]; if (value && !Array.isArray(value) && --count < 0) { return i; } } return -1; } class AstPath$1 { constructor(value) { this.stack = [value]; } // The name of the current property is always the penultimate element of // this.stack, and always a String. getName() { const { stack } = this; const { length } = stack; if (length > 1) { return stack[length - 2]; } // Since the name is always a string, null is a safe sentinel value to // return if we do not know the name of the (root) value. /* istanbul ignore next */ return null; } // The value of the current property is always the final element of // this.stack. getValue() { return getLast$m(this.stack); } getNode(count = 0) { return getNodeHelper(this, count); } getParentNode(count = 0) { return getNodeHelper(this, count + 1); } // Temporarily push properties named by string arguments given after the // callback function onto this.stack, then call the callback with a // reference to this (modified) AstPath object. Note that the stack will // be restored to its original state after the callback is finished, so it // is probably a mistake to retain a reference to the path. call(callback, ...names) { const { stack } = this; const { length } = stack; let value = getLast$m(stack); for (const name of names) { value = value[name]; stack.push(name, value); } const result = callback(this); stack.length = length; return result; } callParent(callback, count = 0) { const stackIndex = getNodeStackIndexHelper(this.stack, count + 1); const parentValues = this.stack.splice(stackIndex + 1); const result = callback(this); this.stack.push(...parentValues); return result; } // Similar to AstPath.prototype.call, except that the value obtained by // accessing this.getValue()[name1][name2]... should be array. The // callback will be called with a reference to this path object for each // element of the array. each(callback, ...names) { const { stack } = this; const { length } = stack; let value = getLast$m(stack); for (const name of names) { value = value[name]; stack.push(name, value); } for (let i = 0; i < value.length; ++i) { stack.push(i, value[i]); callback(this, i, value); stack.length -= 2; } stack.length = length; } // Similar to AstPath.prototype.each, except that the results of the // callback function invocations are stored in an array and returned at // the end of the iteration. map(callback, ...names) { const result = []; this.each((path, index, value) => { result[index] = callback(path, index, value); }, ...names); return result; } /** * @param {() => void} callback * @internal Unstable API. Don't use in plugins for now. */ try(callback) { const { stack } = this; const stackBackup = [...stack]; try { return callback(); } finally { stack.length = 0; stack.push(...stackBackup); } } /** * @param {...( * | ((node: any, name: string | null, number: number | null) => boolean) * | undefined * )} predicates */ match(...predicates) { let stackPointer = this.stack.length - 1; let name = null; let node = this.stack[stackPointer--]; for (const predicate of predicates) { /* istanbul ignore next */ if (node === undefined) { return false; } // skip index/array let number = null; if (typeof name === "number") { number = name; name = this.stack[stackPointer--]; node = this.stack[stackPointer--]; } if (predicate && !predicate(node, name, number)) { return false; } name = this.stack[stackPointer--]; node = this.stack[stackPointer--]; } return true; } /** * Traverses the ancestors of the current node heading toward the tree root * until it finds a node that matches the provided predicate function. Will * return the first matching ancestor. If no such node exists, returns undefined. * @param {(node: any, name: string, number: number | null) => boolean} predicate * @internal Unstable API. Don't use in plugins for now. */ findAncestor(predicate) { let stackPointer = this.stack.length - 1; let name = null; let node = this.stack[stackPointer--]; while (node) { // skip index/array let number = null; if (typeof name === "number") { number = name; name = this.stack[stackPointer--]; node = this.stack[stackPointer--]; } if (name !== null && predicate(node, name, number)) { return node; } name = this.stack[stackPointer--]; node = this.stack[stackPointer--]; } } } var astPath = AstPath$1; const { utils: { stripTrailingHardline } } = require$$7$3; const { normalize } = options$d; const comments$3 = comments$4; function printSubtree(path, print, options, printAstToDoc) { if (options.printer.embed && options.embeddedLanguageFormatting === "auto") { return options.printer.embed(path, print, (text, partialNextOptions, textToDocOptions) => textToDoc(text, partialNextOptions, options, printAstToDoc, textToDocOptions), options); } } function textToDoc(text, partialNextOptions, parentOptions, printAstToDoc, // TODO: remove `stripTrailingHardline` in v3.0.0 { stripTrailingHardline: shouldStripTrailingHardline = false } = {}) { const nextOptions = normalize(Object.assign(Object.assign(Object.assign({}, parentOptions), partialNextOptions), {}, { parentParser: parentOptions.parser, originalText: text }), { passThrough: true }); const result = parser$2.parse(text, nextOptions); const { ast } = result; text = result.text; const astComments = ast.comments; delete ast.comments; comments$3.attach(astComments, ast, text, nextOptions); nextOptions[Symbol.for("comments")] = astComments || []; nextOptions[Symbol.for("tokens")] = ast.tokens || []; const doc = printAstToDoc(ast, nextOptions); comments$3.ensureAllCommentsPrinted(astComments); if (shouldStripTrailingHardline) { // TODO: move this to `stripTrailingHardline` function in `/src/document/doc-utils.js` if (typeof doc === "string") { return doc.replace(/(?:\r?\n)*$/, ""); } return stripTrailingHardline(doc); } /* istanbul ignore next */ return doc; } var multiparser$1 = { printSubtree }; const AstPath = astPath; const { builders: { hardline: hardline$B, addAlignmentToDoc: addAlignmentToDoc$1 }, utils: { propagateBreaks } } = require$$7$3; const { printComments: printComments$6 } = comments$4; const multiparser = multiparser$1; /** * Takes an abstract syntax tree (AST) and recursively converts it to a * document (series of printing primitives). * * This is done by descending down the AST recursively. The recursion * involves two functions that call each other: * * 1. mainPrint(), which is defined as an inner function here. * It basically takes care of node caching. * 2. callPluginPrintFunction(), which checks for some options, and * ultimately calls the print() function provided by the plugin. * * The plugin function will call mainPrint() again for child nodes * of the current node. mainPrint() will do its housekeeping, then call * the plugin function again, and so on. * * All the while, these functions pass a "path" variable around, which * is a stack-like data structure (AstPath) that maintains the current * state of the recursion. It is called "path", because it represents * the path to the current node through the Abstract Syntax Tree. */ function printAstToDoc$1(ast, options, alignmentSize = 0) { const { printer } = options; if (printer.preprocess) { ast = printer.preprocess(ast, options); } const cache = new Map(); const path = new AstPath(ast); let doc = mainPrint(); if (alignmentSize > 0) { // Add a hardline to make the indents take effect // It should be removed in index.js format() doc = addAlignmentToDoc$1([hardline$B, doc], alignmentSize, options.tabWidth); } propagateBreaks(doc); return doc; function mainPrint(selector, args) { if (selector === undefined || selector === path) { return mainPrintInternal(args); } if (Array.isArray(selector)) { return path.call(() => mainPrintInternal(args), ...selector); } return path.call(() => mainPrintInternal(args), selector); } function mainPrintInternal(args) { const value = path.getValue(); const shouldCache = value && typeof value === "object" && args === undefined; if (shouldCache && cache.has(value)) { return cache.get(value); } const doc = callPluginPrintFunction(path, options, mainPrint, args); if (shouldCache) { cache.set(value, doc); } return doc; } } function printPrettierIgnoredNode(node, options) { const { originalText, [Symbol.for("comments")]: comments, locStart, locEnd } = options; const start = locStart(node); const end = locEnd(node); const printedComments = new Set(); for (const comment of comments) { if (locStart(comment) >= start && locEnd(comment) <= end) { comment.printed = true; printedComments.add(comment); } } return { doc: originalText.slice(start, end), printedComments }; } function callPluginPrintFunction(path, options, printPath, args) { const node = path.getValue(); const { printer } = options; let doc; let printedComments; // Escape hatch if (printer.hasPrettierIgnore && printer.hasPrettierIgnore(path)) { ({ doc, printedComments } = printPrettierIgnoredNode(node, options)); } else { if (node) { try { // Potentially switch to a different parser doc = multiparser.printSubtree(path, printPath, options, printAstToDoc$1); } catch (error) { /* istanbul ignore if */ if (process.env.PRETTIER_DEBUG) { throw error; } // Continue with current parser } } if (!doc) { doc = printer.print(path, options, printPath, args); } } // We let JSXElement print its comments itself because it adds () around // UnionTypeAnnotation has to align the child without the comments if (!printer.willPrintOwnComments || !printer.willPrintOwnComments(path, options)) { // printComments will call the plugin print function and check for // comments to print doc = printComments$6(path, doc, options, printedComments); } return doc; } var astToDoc = printAstToDoc$1; const assert$5 = require$$0__default$3["default"]; const comments$2 = comments$4; const isJsonParser = ({ parser }) => parser === "json" || parser === "json5" || parser === "json-stringify"; function findCommonAncestor(startNodeAndParents, endNodeAndParents) { const startNodeAndAncestors = [startNodeAndParents.node, ...startNodeAndParents.parentNodes]; const endNodeAndAncestors = new Set([endNodeAndParents.node, ...endNodeAndParents.parentNodes]); return startNodeAndAncestors.find(node => jsonSourceElements.has(node.type) && endNodeAndAncestors.has(node)); } function dropRootParents(parents) { let lastParentIndex = parents.length - 1; for (;;) { const parent = parents[lastParentIndex]; if (parent && (parent.type === "Program" || parent.type === "File")) { lastParentIndex--; } else { break; } } return parents.slice(0, lastParentIndex + 1); } function findSiblingAncestors(startNodeAndParents, endNodeAndParents, { locStart, locEnd }) { let resultStartNode = startNodeAndParents.node; let resultEndNode = endNodeAndParents.node; if (resultStartNode === resultEndNode) { return { startNode: resultStartNode, endNode: resultEndNode }; } const startNodeStart = locStart(startNodeAndParents.node); for (const endParent of dropRootParents(endNodeAndParents.parentNodes)) { if (locStart(endParent) >= startNodeStart) { resultEndNode = endParent; } else { break; } } const endNodeEnd = locEnd(endNodeAndParents.node); for (const startParent of dropRootParents(startNodeAndParents.parentNodes)) { if (locEnd(startParent) <= endNodeEnd) { resultStartNode = startParent; } else { break; } } return { startNode: resultStartNode, endNode: resultEndNode }; } function findNodeAtOffset(node, offset, options, predicate, parentNodes = [], type) { const { locStart, locEnd } = options; const start = locStart(node); const end = locEnd(node); if (offset > end || offset < start || type === "rangeEnd" && offset === start || type === "rangeStart" && offset === end) { return; } for (const childNode of comments$2.getSortedChildNodes(node, options)) { const childResult = findNodeAtOffset(childNode, offset, options, predicate, [node, ...parentNodes], type); if (childResult) { return childResult; } } if (!predicate || predicate(node, parentNodes[0])) { return { node, parentNodes }; } } // See https://www.ecma-international.org/ecma-262/5.1/#sec-A.5 function isJsSourceElement(type, parentType) { return parentType !== "DeclareExportDeclaration" && type !== "TypeParameterDeclaration" && (type === "Directive" || type === "TypeAlias" || type === "TSExportAssignment" || type.startsWith("Declare") || type.startsWith("TSDeclare") || type.endsWith("Statement") || type.endsWith("Declaration")); } const jsonSourceElements = new Set(["ObjectExpression", "ArrayExpression", "StringLiteral", "NumericLiteral", "BooleanLiteral", "NullLiteral", "UnaryExpression", "TemplateLiteral"]); const graphqlSourceElements = new Set(["OperationDefinition", "FragmentDefinition", "VariableDefinition", "TypeExtensionDefinition", "ObjectTypeDefinition", "FieldDefinition", "DirectiveDefinition", "EnumTypeDefinition", "EnumValueDefinition", "InputValueDefinition", "InputObjectTypeDefinition", "SchemaDefinition", "OperationTypeDefinition", "InterfaceTypeDefinition", "UnionTypeDefinition", "ScalarTypeDefinition"]); function isSourceElement(opts, node, parentNode) { /* istanbul ignore next */ if (!node) { return false; } switch (opts.parser) { case "flow": case "babel": case "babel-flow": case "babel-ts": case "typescript": case "espree": case "meriyah": case "__babel_estree": return isJsSourceElement(node.type, parentNode && parentNode.type); case "json": case "json5": case "json-stringify": return jsonSourceElements.has(node.type); case "graphql": return graphqlSourceElements.has(node.kind); case "vue": return node.tag !== "root"; } return false; } function calculateRange(text, opts, ast) { let { rangeStart: start, rangeEnd: end, locStart, locEnd } = opts; assert$5.ok(end > start); // Contract the range so that it has non-whitespace characters at its endpoints. // This ensures we can format a range that doesn't end on a node. const firstNonWhitespaceCharacterIndex = text.slice(start, end).search(/\S/); const isAllWhitespace = firstNonWhitespaceCharacterIndex === -1; if (!isAllWhitespace) { start += firstNonWhitespaceCharacterIndex; for (; end > start; --end) { if (/\S/.test(text[end - 1])) { break; } } } const startNodeAndParents = findNodeAtOffset(ast, start, opts, (node, parentNode) => isSourceElement(opts, node, parentNode), [], "rangeStart"); const endNodeAndParents = // No need find Node at `end`, it will be the same as `startNodeAndParents` isAllWhitespace ? startNodeAndParents : findNodeAtOffset(ast, end, opts, node => isSourceElement(opts, node), [], "rangeEnd"); if (!startNodeAndParents || !endNodeAndParents) { return { rangeStart: 0, rangeEnd: 0 }; } let startNode; let endNode; if (isJsonParser(opts)) { const commonAncestor = findCommonAncestor(startNodeAndParents, endNodeAndParents); startNode = commonAncestor; endNode = commonAncestor; } else { ({ startNode, endNode } = findSiblingAncestors(startNodeAndParents, endNodeAndParents, opts)); } return { rangeStart: Math.min(locStart(startNode), locStart(endNode)), rangeEnd: Math.max(locEnd(startNode), locEnd(endNode)) }; } var rangeUtil$1 = { calculateRange, findNodeAtOffset }; const diff = lib$6; const { printer: { printDocToString: printDocToString$2 }, debug: { printDocToDebug } } = require$$7$3; const { getAlignmentSize: getAlignmentSize$1 } = util$8; const { guessEndOfLine, convertEndOfLineToChars, countEndOfLineChars, normalizeEndOfLine: normalizeEndOfLine$1 } = endOfLine; const normalizeOptions$4 = options$d.normalize; const massageAST = massageAst; const comments$1 = comments$4; const parser$1 = parser$2; const printAstToDoc = astToDoc; const rangeUtil = rangeUtil$1; const BOM = "\uFEFF"; const CURSOR = Symbol("cursor"); function attachComments(text, ast, opts) { const astComments = ast.comments; if (astComments) { delete ast.comments; comments$1.attach(astComments, ast, text, opts); } opts[Symbol.for("comments")] = astComments || []; opts[Symbol.for("tokens")] = ast.tokens || []; opts.originalText = text; return astComments; } function coreFormat(originalText, opts, addAlignmentSize = 0) { if (!originalText || originalText.trim().length === 0) { return { formatted: "", cursorOffset: -1, comments: [] }; } const { ast, text } = parser$1.parse(originalText, opts); if (opts.cursorOffset >= 0) { const nodeResult = rangeUtil.findNodeAtOffset(ast, opts.cursorOffset, opts); if (nodeResult && nodeResult.node) { opts.cursorNode = nodeResult.node; } } const astComments = attachComments(text, ast, opts); const doc = printAstToDoc(ast, opts, addAlignmentSize); const result = printDocToString$2(doc, opts); comments$1.ensureAllCommentsPrinted(astComments); // Remove extra leading indentation as well as the added indentation after last newline if (addAlignmentSize > 0) { const trimmed = result.formatted.trim(); if (result.cursorNodeStart !== undefined) { result.cursorNodeStart -= result.formatted.indexOf(trimmed); } result.formatted = trimmed + convertEndOfLineToChars(opts.endOfLine); } if (opts.cursorOffset >= 0) { let oldCursorNodeStart; let oldCursorNodeText; let cursorOffsetRelativeToOldCursorNode; let newCursorNodeStart; let newCursorNodeText; if (opts.cursorNode && result.cursorNodeText) { oldCursorNodeStart = opts.locStart(opts.cursorNode); oldCursorNodeText = text.slice(oldCursorNodeStart, opts.locEnd(opts.cursorNode)); cursorOffsetRelativeToOldCursorNode = opts.cursorOffset - oldCursorNodeStart; newCursorNodeStart = result.cursorNodeStart; newCursorNodeText = result.cursorNodeText; } else { oldCursorNodeStart = 0; oldCursorNodeText = text; cursorOffsetRelativeToOldCursorNode = opts.cursorOffset; newCursorNodeStart = 0; newCursorNodeText = result.formatted; } if (oldCursorNodeText === newCursorNodeText) { return { formatted: result.formatted, cursorOffset: newCursorNodeStart + cursorOffsetRelativeToOldCursorNode, comments: astComments }; } // diff old and new cursor node texts, with a special cursor // symbol inserted to find out where it moves to const oldCursorNodeCharArray = [...oldCursorNodeText]; oldCursorNodeCharArray.splice(cursorOffsetRelativeToOldCursorNode, 0, CURSOR); const newCursorNodeCharArray = [...newCursorNodeText]; const cursorNodeDiff = diff.diffArrays(oldCursorNodeCharArray, newCursorNodeCharArray); let cursorOffset = newCursorNodeStart; for (const entry of cursorNodeDiff) { if (entry.removed) { if (entry.value.includes(CURSOR)) { break; } } else { cursorOffset += entry.count; } } return { formatted: result.formatted, cursorOffset, comments: astComments }; } return { formatted: result.formatted, cursorOffset: -1, comments: astComments }; } function formatRange(originalText, opts) { const { ast, text } = parser$1.parse(originalText, opts); const { rangeStart, rangeEnd } = rangeUtil.calculateRange(text, opts, ast); const rangeString = text.slice(rangeStart, rangeEnd); // Try to extend the range backwards to the beginning of the line. // This is so we can detect indentation correctly and restore it. // Use `Math.min` since `lastIndexOf` returns 0 when `rangeStart` is 0 const rangeStart2 = Math.min(rangeStart, text.lastIndexOf("\n", rangeStart) + 1); const indentString = text.slice(rangeStart2, rangeStart).match(/^\s*/)[0]; const alignmentSize = getAlignmentSize$1(indentString, opts.tabWidth); const rangeResult = coreFormat(rangeString, Object.assign(Object.assign({}, opts), {}, { rangeStart: 0, rangeEnd: Number.POSITIVE_INFINITY, // Track the cursor offset only if it's within our range cursorOffset: opts.cursorOffset > rangeStart && opts.cursorOffset <= rangeEnd ? opts.cursorOffset - rangeStart : -1, // Always use `lf` to format, we'll replace it later endOfLine: "lf" }), alignmentSize); // Since the range contracts to avoid trailing whitespace, // we need to remove the newline that was inserted by the `format` call. const rangeTrimmed = rangeResult.formatted.trimEnd(); let { cursorOffset } = opts; if (cursorOffset > rangeEnd) { // handle the case where the cursor was past the end of the range cursorOffset += rangeTrimmed.length - rangeString.length; } else if (rangeResult.cursorOffset >= 0) { // handle the case where the cursor was in the range cursorOffset = rangeResult.cursorOffset + rangeStart; } // keep the cursor as it was if it was before the start of the range let formatted = text.slice(0, rangeStart) + rangeTrimmed + text.slice(rangeEnd); if (opts.endOfLine !== "lf") { const eol = convertEndOfLineToChars(opts.endOfLine); if (cursorOffset >= 0 && eol === "\r\n") { cursorOffset += countEndOfLineChars(formatted.slice(0, cursorOffset), "\n"); } formatted = formatted.replace(/\n/g, eol); } return { formatted, cursorOffset, comments: rangeResult.comments }; } function ensureIndexInText(text, index, defaultValue) { if (typeof index !== "number" || Number.isNaN(index) || index < 0 || index > text.length) { return defaultValue; } return index; } function normalizeIndexes(text, options) { let { cursorOffset, rangeStart, rangeEnd } = options; cursorOffset = ensureIndexInText(text, cursorOffset, -1); rangeStart = ensureIndexInText(text, rangeStart, 0); rangeEnd = ensureIndexInText(text, rangeEnd, text.length); return Object.assign(Object.assign({}, options), {}, { cursorOffset, rangeStart, rangeEnd }); } function normalizeInputAndOptions(text, options) { let { cursorOffset, rangeStart, rangeEnd, endOfLine } = normalizeIndexes(text, options); const hasBOM = text.charAt(0) === BOM; if (hasBOM) { text = text.slice(1); cursorOffset--; rangeStart--; rangeEnd--; } if (endOfLine === "auto") { endOfLine = guessEndOfLine(text); } // get rid of CR/CRLF parsing if (text.includes("\r")) { const countCrlfBefore = index => countEndOfLineChars(text.slice(0, Math.max(index, 0)), "\r\n"); cursorOffset -= countCrlfBefore(cursorOffset); rangeStart -= countCrlfBefore(rangeStart); rangeEnd -= countCrlfBefore(rangeEnd); text = normalizeEndOfLine$1(text); } return { hasBOM, text, options: normalizeIndexes(text, Object.assign(Object.assign({}, options), {}, { cursorOffset, rangeStart, rangeEnd, endOfLine })) }; } function hasPragma$5(text, options) { const selectedParser = parser$1.resolveParser(options); return !selectedParser.hasPragma || selectedParser.hasPragma(text); } function formatWithCursor$1(originalText, originalOptions) { let { hasBOM, text, options } = normalizeInputAndOptions(originalText, normalizeOptions$4(originalOptions)); if (options.rangeStart >= options.rangeEnd && text !== "" || options.requirePragma && !hasPragma$5(text, options)) { return { formatted: originalText, cursorOffset: originalOptions.cursorOffset, comments: [] }; } let result; if (options.rangeStart > 0 || options.rangeEnd < text.length) { result = formatRange(text, options); } else { if (!options.requirePragma && options.insertPragma && options.printer.insertPragma && !hasPragma$5(text, options)) { text = options.printer.insertPragma(text); } result = coreFormat(text, options); } if (hasBOM) { result.formatted = BOM + result.formatted; if (result.cursorOffset >= 0) { result.cursorOffset++; } } return result; } var core$2 = { formatWithCursor: formatWithCursor$1, parse(originalText, originalOptions, massage) { const { text, options } = normalizeInputAndOptions(originalText, normalizeOptions$4(originalOptions)); const parsed = parser$1.parse(text, options); if (massage) { parsed.ast = massageAST(parsed.ast, options); } return parsed; }, formatAST(ast, options) { options = normalizeOptions$4(options); const doc = printAstToDoc(ast, options); return printDocToString$2(doc, options); }, // Doesn't handle shebang for now formatDoc(doc, options) { return formatWithCursor$1(printDocToDebug(doc), Object.assign(Object.assign({}, options), {}, { parser: "__js_expression" })).formatted; }, printToDoc(originalText, options) { options = normalizeOptions$4(options); const { ast, text } = parser$1.parse(originalText, options); attachComments(text, ast, options); return printAstToDoc(ast, options); }, printDocToString(doc, options) { return printDocToString$2(doc, normalizeOptions$4(options)); } }; var concatMap$1 = function (xs, fn) { var res = []; for (var i = 0; i < xs.length; i++) { var x = fn(xs[i], i); if (isArray$a(x)) res.push.apply(res, x);else res.push(x); } return res; }; var isArray$a = Array.isArray || function (xs) { return Object.prototype.toString.call(xs) === '[object Array]'; }; var balancedMatch = balanced$1; function balanced$1(a, b, str) { if (a instanceof RegExp) a = maybeMatch(a, str); if (b instanceof RegExp) b = maybeMatch(b, str); var r = range(a, b, str); return r && { start: r[0], end: r[1], pre: str.slice(0, r[0]), body: str.slice(r[0] + a.length, r[1]), post: str.slice(r[1] + b.length) }; } function maybeMatch(reg, str) { var m = str.match(reg); return m ? m[0] : null; } balanced$1.range = range; function range(a, b, str) { var begs, beg, left, right, result; var ai = str.indexOf(a); var bi = str.indexOf(b, ai + 1); var i = ai; if (ai >= 0 && bi > 0) { if (a === b) { return [ai, bi]; } begs = []; left = str.length; while (i >= 0 && !result) { if (i == ai) { begs.push(i); ai = str.indexOf(a, i + 1); } else if (begs.length == 1) { result = [begs.pop(), bi]; } else { beg = begs.pop(); if (beg < left) { left = beg; right = bi; } bi = str.indexOf(b, i + 1); } i = ai < bi && ai >= 0 ? ai : bi; } if (begs.length) { result = [left, right]; } } return result; } var concatMap = concatMap$1; var balanced = balancedMatch; var braceExpansion = expandTop; var escSlash = '\0SLASH' + Math.random() + '\0'; var escOpen = '\0OPEN' + Math.random() + '\0'; var escClose = '\0CLOSE' + Math.random() + '\0'; var escComma = '\0COMMA' + Math.random() + '\0'; var escPeriod = '\0PERIOD' + Math.random() + '\0'; function numeric(str) { return parseInt(str, 10) == str ? parseInt(str, 10) : str.charCodeAt(0); } function escapeBraces(str) { return str.split('\\\\').join(escSlash).split('\\{').join(escOpen).split('\\}').join(escClose).split('\\,').join(escComma).split('\\.').join(escPeriod); } function unescapeBraces(str) { return str.split(escSlash).join('\\').split(escOpen).join('{').split(escClose).join('}').split(escComma).join(',').split(escPeriod).join('.'); } // Basically just str.split(","), but handling cases // where we have nested braced sections, which should be // treated as individual members, like {a,{b,c},d} function parseCommaParts(str) { if (!str) return ['']; var parts = []; var m = balanced('{', '}', str); if (!m) return str.split(','); var pre = m.pre; var body = m.body; var post = m.post; var p = pre.split(','); p[p.length - 1] += '{' + body + '}'; var postParts = parseCommaParts(post); if (post.length) { p[p.length - 1] += postParts.shift(); p.push.apply(p, postParts); } parts.push.apply(parts, p); return parts; } function expandTop(str) { if (!str) return []; // I don't know why Bash 4.3 does this, but it does. // Anything starting with {} will have the first two bytes preserved // but *only* at the top level, so {},a}b will not expand to anything, // but a{},b}c will be expanded to [a}c,abc]. // One could argue that this is a bug in Bash, but since the goal of // this module is to match Bash's rules, we escape a leading {} if (str.substr(0, 2) === '{}') { str = '\\{\\}' + str.substr(2); } return expand$3(escapeBraces(str), true).map(unescapeBraces); } function embrace(str) { return '{' + str + '}'; } function isPadded(el) { return /^-?0\d/.test(el); } function lte(i, y) { return i <= y; } function gte(i, y) { return i >= y; } function expand$3(str, isTop) { var expansions = []; var m = balanced('{', '}', str); if (!m || /\$$/.test(m.pre)) return [str]; var isNumericSequence = /^-?\d+\.\.-?\d+(?:\.\.-?\d+)?$/.test(m.body); var isAlphaSequence = /^[a-zA-Z]\.\.[a-zA-Z](?:\.\.-?\d+)?$/.test(m.body); var isSequence = isNumericSequence || isAlphaSequence; var isOptions = m.body.indexOf(',') >= 0; if (!isSequence && !isOptions) { // {a},b} if (m.post.match(/,.*\}/)) { str = m.pre + '{' + m.body + escClose + m.post; return expand$3(str); } return [str]; } var n; if (isSequence) { n = m.body.split(/\.\./); } else { n = parseCommaParts(m.body); if (n.length === 1) { // x{{a,b}}y ==> x{a}y x{b}y n = expand$3(n[0], false).map(embrace); if (n.length === 1) { var post = m.post.length ? expand$3(m.post, false) : ['']; return post.map(function (p) { return m.pre + n[0] + p; }); } } } // at this point, n is the parts, and we know it's not a comma set // with a single entry. // no need to expand pre, since it is guaranteed to be free of brace-sets var pre = m.pre; var post = m.post.length ? expand$3(m.post, false) : ['']; var N; if (isSequence) { var x = numeric(n[0]); var y = numeric(n[1]); var width = Math.max(n[0].length, n[1].length); var incr = n.length == 3 ? Math.abs(numeric(n[2])) : 1; var test = lte; var reverse = y < x; if (reverse) { incr *= -1; test = gte; } var pad = n.some(isPadded); N = []; for (var i = x; test(i, y); i += incr) { var c; if (isAlphaSequence) { c = String.fromCharCode(i); if (c === '\\') c = ''; } else { c = String(i); if (pad) { var need = width - c.length; if (need > 0) { var z = new Array(need + 1).join('0'); if (i < 0) c = '-' + z + c.slice(1);else c = z + c; } } } N.push(c); } } else { N = concatMap(n, function (el) { return expand$3(el, false); }); } for (var j = 0; j < N.length; j++) { for (var k = 0; k < post.length; k++) { var expansion = pre + N[j] + post[k]; if (!isTop || isSequence || expansion) expansions.push(expansion); } } return expansions; } var minimatch_1 = minimatch$1; minimatch$1.Minimatch = Minimatch; var path$o = { sep: '/' }; try { path$o = require('path'); } catch (er) {} var GLOBSTAR$1 = minimatch$1.GLOBSTAR = Minimatch.GLOBSTAR = {}; var expand$2 = braceExpansion; var plTypes = { '!': { open: '(?:(?!(?:', close: '))[^/]*?)' }, '?': { open: '(?:', close: ')?' }, '+': { open: '(?:', close: ')+' }, '*': { open: '(?:', close: ')*' }, '@': { open: '(?:', close: ')' } }; // any single thing other than / // don't need to escape / when using new RegExp() var qmark = '[^/]'; // * => any number of characters var star = qmark + '*?'; // ** when dots are allowed. Anything goes, except .. and . // not (^ or / followed by one or two dots followed by $ or /), // followed by anything, any number of times. var twoStarDot = '(?:(?!(?:\\\/|^)(?:\\.{1,2})($|\\\/)).)*?'; // not a ^ or / followed by a dot, // followed by anything, any number of times. var twoStarNoDot = '(?:(?!(?:\\\/|^)\\.).)*?'; // characters that need to be escaped in RegExp. var reSpecials = charSet('().*{}+?[]^$\\!'); // "abc" -> { a:true, b:true, c:true } function charSet(s) { return s.split('').reduce(function (set, c) { set[c] = true; return set; }, {}); } // normalizes slashes. var slashSplit = /\/+/; minimatch$1.filter = filter; function filter(pattern, options) { options = options || {}; return function (p, i, list) { return minimatch$1(p, pattern, options); }; } function ext(a, b) { a = a || {}; b = b || {}; var t = {}; Object.keys(b).forEach(function (k) { t[k] = b[k]; }); Object.keys(a).forEach(function (k) { t[k] = a[k]; }); return t; } minimatch$1.defaults = function (def) { if (!def || !Object.keys(def).length) return minimatch$1; var orig = minimatch$1; var m = function minimatch(p, pattern, options) { return orig.minimatch(p, pattern, ext(def, options)); }; m.Minimatch = function Minimatch(pattern, options) { return new orig.Minimatch(pattern, ext(def, options)); }; return m; }; Minimatch.defaults = function (def) { if (!def || !Object.keys(def).length) return Minimatch; return minimatch$1.defaults(def).Minimatch; }; function minimatch$1(p, pattern, options) { if (typeof pattern !== 'string') { throw new TypeError('glob pattern string required'); } if (!options) options = {}; // shortcut: comments match nothing. if (!options.nocomment && pattern.charAt(0) === '#') { return false; } // "" only matches "" if (pattern.trim() === '') return p === ''; return new Minimatch(pattern, options).match(p); } function Minimatch(pattern, options) { if (!(this instanceof Minimatch)) { return new Minimatch(pattern, options); } if (typeof pattern !== 'string') { throw new TypeError('glob pattern string required'); } if (!options) options = {}; pattern = pattern.trim(); // windows support: need to use /, not \ if (path$o.sep !== '/') { pattern = pattern.split(path$o.sep).join('/'); } this.options = options; this.set = []; this.pattern = pattern; this.regexp = null; this.negate = false; this.comment = false; this.empty = false; // make the set of regexps etc. this.make(); } Minimatch.prototype.debug = function () {}; Minimatch.prototype.make = make; function make() { // don't do it more than once. if (this._made) return; var pattern = this.pattern; var options = this.options; // empty patterns and comments match nothing. if (!options.nocomment && pattern.charAt(0) === '#') { this.comment = true; return; } if (!pattern) { this.empty = true; return; } // step 1: figure out negation, etc. this.parseNegate(); // step 2: expand braces var set = this.globSet = this.braceExpand(); if (options.debug) this.debug = console.error; this.debug(this.pattern, set); // step 3: now we have a set, so turn each one into a series of path-portion // matching patterns. // These will be regexps, except in the case of "**", which is // set to the GLOBSTAR object for globstar behavior, // and will not contain any / characters set = this.globParts = set.map(function (s) { return s.split(slashSplit); }); this.debug(this.pattern, set); // glob --> regexps set = set.map(function (s, si, set) { return s.map(this.parse, this); }, this); this.debug(this.pattern, set); // filter out everything that didn't compile properly. set = set.filter(function (s) { return s.indexOf(false) === -1; }); this.debug(this.pattern, set); this.set = set; } Minimatch.prototype.parseNegate = parseNegate; function parseNegate() { var pattern = this.pattern; var negate = false; var options = this.options; var negateOffset = 0; if (options.nonegate) return; for (var i = 0, l = pattern.length; i < l && pattern.charAt(i) === '!'; i++) { negate = !negate; negateOffset++; } if (negateOffset) this.pattern = pattern.substr(negateOffset); this.negate = negate; } // Brace expansion: // a{b,c}d -> abd acd // a{b,}c -> abc ac // a{0..3}d -> a0d a1d a2d a3d // a{b,c{d,e}f}g -> abg acdfg acefg // a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg // // Invalid sets are not expanded. // a{2..}b -> a{2..}b // a{b}c -> a{b}c minimatch$1.braceExpand = function (pattern, options) { return braceExpand(pattern, options); }; Minimatch.prototype.braceExpand = braceExpand; function braceExpand(pattern, options) { if (!options) { if (this instanceof Minimatch) { options = this.options; } else { options = {}; } } pattern = typeof pattern === 'undefined' ? this.pattern : pattern; if (typeof pattern === 'undefined') { throw new TypeError('undefined pattern'); } if (options.nobrace || !pattern.match(/\{.*\}/)) { // shortcut. no need to expand. return [pattern]; } return expand$2(pattern); } // parse a component of the expanded set. // At this point, no pattern may contain "/" in it // so we're going to return a 2d array, where each entry is the full // pattern, split on '/', and then turned into a regular expression. // A regexp is made at the end which joins each array with an // escaped /, and another full one which joins each regexp with |. // // Following the lead of Bash 4.1, note that "**" only has special meaning // when it is the *only* thing in a path portion. Otherwise, any series // of * is equivalent to a single *. Globstar behavior is enabled by // default, and can be disabled by setting options.noglobstar. Minimatch.prototype.parse = parse$c; var SUBPARSE = {}; function parse$c(pattern, isSub) { if (pattern.length > 1024 * 64) { throw new TypeError('pattern is too long'); } var options = this.options; // shortcuts if (!options.noglobstar && pattern === '**') return GLOBSTAR$1; if (pattern === '') return ''; var re = ''; var hasMagic = !!options.nocase; var escaping = false; // ? => one single character var patternListStack = []; var negativeLists = []; var stateChar; var inClass = false; var reClassStart = -1; var classStart = -1; // . and .. never match anything that doesn't start with ., // even when options.dot is set. var patternStart = pattern.charAt(0) === '.' ? '' // anything // not (start or / followed by . or .. followed by / or end) : options.dot ? '(?!(?:^|\\\/)\\.{1,2}(?:$|\\\/))' : '(?!\\.)'; var self = this; function clearStateChar() { if (stateChar) { // we had some state-tracking character // that wasn't consumed by this pass. switch (stateChar) { case '*': re += star; hasMagic = true; break; case '?': re += qmark; hasMagic = true; break; default: re += '\\' + stateChar; break; } self.debug('clearStateChar %j %j', stateChar, re); stateChar = false; } } for (var i = 0, len = pattern.length, c; i < len && (c = pattern.charAt(i)); i++) { this.debug('%s\t%s %s %j', pattern, i, re, c); // skip over any that are escaped. if (escaping && reSpecials[c]) { re += '\\' + c; escaping = false; continue; } switch (c) { case '/': // completely not allowed, even escaped. // Should already be path-split by now. return false; case '\\': clearStateChar(); escaping = true; continue; // the various stateChar values // for the "extglob" stuff. case '?': case '*': case '+': case '@': case '!': this.debug('%s\t%s %s %j <-- stateChar', pattern, i, re, c); // all of those are literals inside a class, except that // the glob [!a] means [^a] in regexp if (inClass) { this.debug(' in class'); if (c === '!' && i === classStart + 1) c = '^'; re += c; continue; } // if we already have a stateChar, then it means // that there was something like ** or +? in there. // Handle the stateChar, then proceed with this one. self.debug('call clearStateChar %j', stateChar); clearStateChar(); stateChar = c; // if extglob is disabled, then +(asdf|foo) isn't a thing. // just clear the statechar *now*, rather than even diving into // the patternList stuff. if (options.noext) clearStateChar(); continue; case '(': if (inClass) { re += '('; continue; } if (!stateChar) { re += '\\('; continue; } patternListStack.push({ type: stateChar, start: i - 1, reStart: re.length, open: plTypes[stateChar].open, close: plTypes[stateChar].close }); // negation is (?:(?!js)[^/]*) re += stateChar === '!' ? '(?:(?!(?:' : '(?:'; this.debug('plType %j %j', stateChar, re); stateChar = false; continue; case ')': if (inClass || !patternListStack.length) { re += '\\)'; continue; } clearStateChar(); hasMagic = true; var pl = patternListStack.pop(); // negation is (?:(?!js)[^/]*) // The others are (?:) re += pl.close; if (pl.type === '!') { negativeLists.push(pl); } pl.reEnd = re.length; continue; case '|': if (inClass || !patternListStack.length || escaping) { re += '\\|'; escaping = false; continue; } clearStateChar(); re += '|'; continue; // these are mostly the same in regexp and glob case '[': // swallow any state-tracking char before the [ clearStateChar(); if (inClass) { re += '\\' + c; continue; } inClass = true; classStart = i; reClassStart = re.length; re += c; continue; case ']': // a right bracket shall lose its special // meaning and represent itself in // a bracket expression if it occurs // first in the list. -- POSIX.2 2.8.3.2 if (i === classStart + 1 || !inClass) { re += '\\' + c; escaping = false; continue; } // handle the case where we left a class open. // "[z-a]" is valid, equivalent to "\[z-a\]" if (inClass) { // split where the last [ was, make sure we don't have // an invalid re. if so, re-walk the contents of the // would-be class to re-translate any characters that // were passed through as-is // TODO: It would probably be faster to determine this // without a try/catch and a new RegExp, but it's tricky // to do safely. For now, this is safe and works. var cs = pattern.substring(classStart + 1, i); try { RegExp('[' + cs + ']'); } catch (er) { // not a valid class! var sp = this.parse(cs, SUBPARSE); re = re.substr(0, reClassStart) + '\\[' + sp[0] + '\\]'; hasMagic = hasMagic || sp[1]; inClass = false; continue; } } // finish up the class. hasMagic = true; inClass = false; re += c; continue; default: // swallow any state char that wasn't consumed clearStateChar(); if (escaping) { // no need escaping = false; } else if (reSpecials[c] && !(c === '^' && inClass)) { re += '\\'; } re += c; } // switch } // for // handle the case where we left a class open. // "[abc" is valid, equivalent to "\[abc" if (inClass) { // split where the last [ was, and escape it // this is a huge pita. We now have to re-walk // the contents of the would-be class to re-translate // any characters that were passed through as-is cs = pattern.substr(classStart + 1); sp = this.parse(cs, SUBPARSE); re = re.substr(0, reClassStart) + '\\[' + sp[0]; hasMagic = hasMagic || sp[1]; } // handle the case where we had a +( thing at the *end* // of the pattern. // each pattern list stack adds 3 chars, and we need to go through // and escape any | chars that were passed through as-is for the regexp. // Go through and escape them, taking care not to double-escape any // | chars that were already escaped. for (pl = patternListStack.pop(); pl; pl = patternListStack.pop()) { var tail = re.slice(pl.reStart + pl.open.length); this.debug('setting tail', re, pl); // maybe some even number of \, then maybe 1 \, followed by a | tail = tail.replace(/((?:\\{2}){0,64})(\\?)\|/g, function (_, $1, $2) { if (!$2) { // the | isn't already escaped, so escape it. $2 = '\\'; } // need to escape all those slashes *again*, without escaping the // one that we need for escaping the | character. As it works out, // escaping an even number of slashes can be done by simply repeating // it exactly after itself. That's why this trick works. // // I am sorry that you have to see this. return $1 + $1 + $2 + '|'; }); this.debug('tail=%j\n %s', tail, tail, pl, re); var t = pl.type === '*' ? star : pl.type === '?' ? qmark : '\\' + pl.type; hasMagic = true; re = re.slice(0, pl.reStart) + t + '\\(' + tail; } // handle trailing things that only matter at the very end. clearStateChar(); if (escaping) { // trailing \\ re += '\\\\'; } // only need to apply the nodot start if the re starts with // something that could conceivably capture a dot var addPatternStart = false; switch (re.charAt(0)) { case '.': case '[': case '(': addPatternStart = true; } // Hack to work around lack of negative lookbehind in JS // A pattern like: *.!(x).!(y|z) needs to ensure that a name // like 'a.xyz.yz' doesn't match. So, the first negative // lookahead, has to look ALL the way ahead, to the end of // the pattern. for (var n = negativeLists.length - 1; n > -1; n--) { var nl = negativeLists[n]; var nlBefore = re.slice(0, nl.reStart); var nlFirst = re.slice(nl.reStart, nl.reEnd - 8); var nlLast = re.slice(nl.reEnd - 8, nl.reEnd); var nlAfter = re.slice(nl.reEnd); nlLast += nlAfter; // Handle nested stuff like *(*.js|!(*.json)), where open parens // mean that we should *not* include the ) in the bit that is considered // "after" the negated section. var openParensBefore = nlBefore.split('(').length - 1; var cleanAfter = nlAfter; for (i = 0; i < openParensBefore; i++) { cleanAfter = cleanAfter.replace(/\)[+*?]?/, ''); } nlAfter = cleanAfter; var dollar = ''; if (nlAfter === '' && isSub !== SUBPARSE) { dollar = '$'; } var newRe = nlBefore + nlFirst + nlAfter + dollar + nlLast; re = newRe; } // if the re is not "" at this point, then we need to make sure // it doesn't match against an empty path part. // Otherwise a/* will match a/, which it should not. if (re !== '' && hasMagic) { re = '(?=.)' + re; } if (addPatternStart) { re = patternStart + re; } // parsing just a piece of a larger pattern. if (isSub === SUBPARSE) { return [re, hasMagic]; } // skip the regexp for non-magical patterns // unescape anything in it, though, so that it'll be // an exact match against a file etc. if (!hasMagic) { return globUnescape(pattern); } var flags = options.nocase ? 'i' : ''; try { var regExp = new RegExp('^' + re + '$', flags); } catch (er) { // If it was an invalid regular expression, then it can't match // anything. This trick looks for a character after the end of // the string, which is of course impossible, except in multi-line // mode, but it's not a /m regex. return new RegExp('$.'); } regExp._glob = pattern; regExp._src = re; return regExp; } minimatch$1.makeRe = function (pattern, options) { return new Minimatch(pattern, options || {}).makeRe(); }; Minimatch.prototype.makeRe = makeRe$1; function makeRe$1() { if (this.regexp || this.regexp === false) return this.regexp; // at this point, this.set is a 2d array of partial // pattern strings, or "**". // // It's better to use .match(). This function shouldn't // be used, really, but it's pretty convenient sometimes, // when you just want to work with a regex. var set = this.set; if (!set.length) { this.regexp = false; return this.regexp; } var options = this.options; var twoStar = options.noglobstar ? star : options.dot ? twoStarDot : twoStarNoDot; var flags = options.nocase ? 'i' : ''; var re = set.map(function (pattern) { return pattern.map(function (p) { return p === GLOBSTAR$1 ? twoStar : typeof p === 'string' ? regExpEscape(p) : p._src; }).join('\\\/'); }).join('|'); // must match entire pattern // ending in a * or ** will make it less strict. re = '^(?:' + re + ')$'; // can match anything, as long as it's not this. if (this.negate) re = '^(?!' + re + ').*$'; try { this.regexp = new RegExp(re, flags); } catch (ex) { this.regexp = false; } return this.regexp; } minimatch$1.match = function (list, pattern, options) { options = options || {}; var mm = new Minimatch(pattern, options); list = list.filter(function (f) { return mm.match(f); }); if (mm.options.nonull && !list.length) { list.push(pattern); } return list; }; Minimatch.prototype.match = match; function match(f, partial) { this.debug('match', f, this.pattern); // short-circuit in the case of busted things. // comments, etc. if (this.comment) return false; if (this.empty) return f === ''; if (f === '/' && partial) return true; var options = this.options; // windows: need to use /, not \ if (path$o.sep !== '/') { f = f.split(path$o.sep).join('/'); } // treat the test path as a set of pathparts. f = f.split(slashSplit); this.debug(this.pattern, 'split', f); // just ONE of the pattern sets in this.set needs to match // in order for it to be valid. If negating, then just one // match means that we have failed. // Either way, return on the first hit. var set = this.set; this.debug(this.pattern, 'set', set); // Find the basename of the path by looking for the last non-empty segment var filename; var i; for (i = f.length - 1; i >= 0; i--) { filename = f[i]; if (filename) break; } for (i = 0; i < set.length; i++) { var pattern = set[i]; var file = f; if (options.matchBase && pattern.length === 1) { file = [filename]; } var hit = this.matchOne(file, pattern, partial); if (hit) { if (options.flipNegate) return true; return !this.negate; } } // didn't get any hits. this is success if it's a negative // pattern, failure otherwise. if (options.flipNegate) return false; return this.negate; } // set partial to true to test if, for example, // "/a/b" matches the start of "/*/b/*/d" // Partial means, if you run out of file before you run // out of pattern, then that's fine, as long as all // the parts match. Minimatch.prototype.matchOne = function (file, pattern, partial) { var options = this.options; this.debug('matchOne', { 'this': this, file: file, pattern: pattern }); this.debug('matchOne', file.length, pattern.length); for (var fi = 0, pi = 0, fl = file.length, pl = pattern.length; fi < fl && pi < pl; fi++, pi++) { this.debug('matchOne loop'); var p = pattern[pi]; var f = file[fi]; this.debug(pattern, p, f); // should be impossible. // some invalid regexp stuff in the set. if (p === false) return false; if (p === GLOBSTAR$1) { this.debug('GLOBSTAR', [pattern, p, f]); // "**" // a/**/b/**/c would match the following: // a/b/x/y/z/c // a/x/y/z/b/c // a/b/x/b/x/c // a/b/c // To do this, take the rest of the pattern after // the **, and see if it would match the file remainder. // If so, return success. // If not, the ** "swallows" a segment, and try again. // This is recursively awful. // // a/**/b/**/c matching a/b/x/y/z/c // - a matches a // - doublestar // - matchOne(b/x/y/z/c, b/**/c) // - b matches b // - doublestar // - matchOne(x/y/z/c, c) -> no // - matchOne(y/z/c, c) -> no // - matchOne(z/c, c) -> no // - matchOne(c, c) yes, hit var fr = fi; var pr = pi + 1; if (pr === pl) { this.debug('** at the end'); // a ** at the end will just swallow the rest. // We have found a match. // however, it will not swallow /.x, unless // options.dot is set. // . and .. are *never* matched by **, for explosively // exponential reasons. for (; fi < fl; fi++) { if (file[fi] === '.' || file[fi] === '..' || !options.dot && file[fi].charAt(0) === '.') return false; } return true; } // ok, let's see if we can swallow whatever we can. while (fr < fl) { var swallowee = file[fr]; this.debug('\nglobstar while', file, fr, pattern, pr, swallowee); // XXX remove this slice. Just pass the start index. if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) { this.debug('globstar found match!', fr, fl, swallowee); // found a match. return true; } else { // can't swallow "." or ".." ever. // can only swallow ".foo" when explicitly asked. if (swallowee === '.' || swallowee === '..' || !options.dot && swallowee.charAt(0) === '.') { this.debug('dot detected!', file, fr, pattern, pr); break; } // ** swallows a segment, and continue. this.debug('globstar swallow a segment, and continue'); fr++; } } // no match was found. // However, in partial mode, we can't say this is necessarily over. // If there's more *pattern* left, then if (partial) { // ran out of file this.debug('\n>>> no match, partial?', file, fr, pattern, pr); if (fr === fl) return true; } return false; } // something other than ** // non-magic patterns just have to match exactly // patterns with magic have been turned into regexps. var hit; if (typeof p === 'string') { if (options.nocase) { hit = f.toLowerCase() === p.toLowerCase(); } else { hit = f === p; } this.debug('string match', p, f, hit); } else { hit = f.match(p); this.debug('pattern match', p, f, hit); } if (!hit) return false; } // Note: ending in / means that we'll get a final "" // at the end of the pattern. This can only match a // corresponding "" at the end of the file. // If the file ends in /, then it can only match a // a pattern that ends in /, unless the pattern just // doesn't have any more for it. But, a/b/ should *not* // match "a/b/*", even though "" matches against the // [^/]*? pattern, except in partial mode, where it might // simply not be reached yet. // However, a/b/ should still satisfy a/* // now either we fell off the end of the pattern, or we're done. if (fi === fl && pi === pl) { // ran out of pattern and filename at the same time. // an exact hit! return true; } else if (fi === fl) { // ran out of file, but still had pattern left. // this is ok if we're doing the match as part of // a glob fs traversal. return partial; } else if (pi === pl) { // ran out of pattern, still have file left. // this is only acceptable if we're on the very last // empty segment of a file with a trailing slash. // a/* should match a/b/ var emptyFileEnd = fi === fl - 1 && file[fi] === ''; return emptyFileEnd; } // should be unreachable. throw new Error('wtf?'); }; // replace stuff like \* with * function globUnescape(s) { return s.replace(/\\(.)/g, '$1'); } function regExpEscape(s) { return s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, '\\$&'); } const copyProperty = (to, from, property, ignoreNonConfigurable) => { // `Function#length` should reflect the parameters of `to` not `from` since we keep its body. // `Function#prototype` is non-writable and non-configurable so can never be modified. if (property === 'length' || property === 'prototype') { return; } // `Function#arguments` and `Function#caller` should not be copied. They were reported to be present in `Reflect.ownKeys` for some devices in React Native (#41), so we explicitly ignore them here. if (property === 'arguments' || property === 'caller') { return; } const toDescriptor = Object.getOwnPropertyDescriptor(to, property); const fromDescriptor = Object.getOwnPropertyDescriptor(from, property); if (!canCopyProperty(toDescriptor, fromDescriptor) && ignoreNonConfigurable) { return; } Object.defineProperty(to, property, fromDescriptor); }; // `Object.defineProperty()` throws if the property exists, is not configurable and either: // - one its descriptors is changed // - it is non-writable and its value is changed const canCopyProperty = function (toDescriptor, fromDescriptor) { return toDescriptor === undefined || toDescriptor.configurable || toDescriptor.writable === fromDescriptor.writable && toDescriptor.enumerable === fromDescriptor.enumerable && toDescriptor.configurable === fromDescriptor.configurable && (toDescriptor.writable || toDescriptor.value === fromDescriptor.value); }; const changePrototype = (to, from) => { const fromPrototype = Object.getPrototypeOf(from); if (fromPrototype === Object.getPrototypeOf(to)) { return; } Object.setPrototypeOf(to, fromPrototype); }; const wrappedToString = (withName, fromBody) => `/* Wrapped ${withName}*/\n${fromBody}`; const toStringDescriptor = Object.getOwnPropertyDescriptor(Function.prototype, 'toString'); const toStringName = Object.getOwnPropertyDescriptor(Function.prototype.toString, 'name'); // We call `from.toString()` early (not lazily) to ensure `from` can be garbage collected. // We use `bind()` instead of a closure for the same reason. // Calling `from.toString()` early also allows caching it in case `to.toString()` is called several times. const changeToString = (to, from, name) => { const withName = name === '' ? '' : `with ${name.trim()}() `; const newToString = wrappedToString.bind(null, withName, from.toString()); // Ensure `to.toString.toString` is non-enumerable and has the same `same` Object.defineProperty(newToString, 'name', toStringName); Object.defineProperty(to, 'toString', Object.assign(Object.assign({}, toStringDescriptor), {}, { value: newToString })); }; const mimicFn$1 = (to, from, { ignoreNonConfigurable = false } = {}) => { const { name } = to; for (const property of Reflect.ownKeys(from)) { copyProperty(to, from, property, ignoreNonConfigurable); } changePrototype(to, from); changeToString(to, from, name); return to; }; var mimicFn_1 = mimicFn$1; var dist$2 = {exports: {}}; var pDefer = () => { const ret = {}; ret.promise = new Promise((resolve, reject) => { ret.resolve = resolve; ret.reject = reject; }); return ret; }; (function (module, exports) { var __awaiter = this && this.__awaiter || function (thisArg, _arguments, P, generator) { return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __importDefault = this && this.__importDefault || function (mod) { return mod && mod.__esModule ? mod : { "default": mod }; }; Object.defineProperty(exports, "__esModule", { value: true }); const p_defer_1 = __importDefault(pDefer); function mapAgeCleaner(map, property = 'maxAge') { let processingKey; let processingTimer; let processingDeferred; const cleanup = () => __awaiter(this, void 0, void 0, function* () { if (processingKey !== undefined) { // If we are already processing an item, we can safely exit return; } const setupTimer = item => __awaiter(this, void 0, void 0, function* () { processingDeferred = p_defer_1.default(); const delay = item[1][property] - Date.now(); if (delay <= 0) { // Remove the item immediately if the delay is equal to or below 0 map.delete(item[0]); processingDeferred.resolve(); return; } // Keep track of the current processed key processingKey = item[0]; processingTimer = setTimeout(() => { // Remove the item when the timeout fires map.delete(item[0]); if (processingDeferred) { processingDeferred.resolve(); } }, delay); // tslint:disable-next-line:strict-type-predicates if (typeof processingTimer.unref === 'function') { // Don't hold up the process from exiting processingTimer.unref(); } return processingDeferred.promise; }); try { for (const entry of map) { yield setupTimer(entry); } } catch (_a) {// Do nothing if an error occurs, this means the timer was cleaned up and we should stop processing } processingKey = undefined; }); const reset = () => { processingKey = undefined; if (processingTimer !== undefined) { clearTimeout(processingTimer); processingTimer = undefined; } if (processingDeferred !== undefined) { // tslint:disable-line:early-exit processingDeferred.reject(undefined); processingDeferred = undefined; } }; const originalSet = map.set.bind(map); map.set = (key, value) => { if (map.has(key)) { // If the key already exist, remove it so we can add it back at the end of the map. map.delete(key); } // Call the original `map.set` const result = originalSet(key, value); // If we are already processing a key and the key added is the current processed key, stop processing it if (processingKey && processingKey === key) { reset(); } // Always run the cleanup method in case it wasn't started yet cleanup(); // tslint:disable-line:no-floating-promises return result; }; cleanup(); // tslint:disable-line:no-floating-promises return map; } exports.default = mapAgeCleaner; // Add support for CJS module.exports = mapAgeCleaner; module.exports.default = mapAgeCleaner; })(dist$2, dist$2.exports); const mimicFn = mimicFn_1; const mapAgeCleaner = dist$2.exports; const decoratorInstanceMap = new WeakMap(); const cacheStore = new WeakMap(); /** [Memoize](https://en.wikipedia.org/wiki/Memoization) functions - An optimization used to speed up consecutive function calls by caching the result of calls with identical input. @param fn - Function to be memoized. @example ``` import mem = require('mem'); let i = 0; const counter = () => ++i; const memoized = mem(counter); memoized('foo'); //=> 1 // Cached as it's the same arguments memoized('foo'); //=> 1 // Not cached anymore as the arguments changed memoized('bar'); //=> 2 memoized('bar'); //=> 2 ``` */ const mem$3 = (fn, { cacheKey, cache = new Map(), maxAge } = {}) => { if (typeof maxAge === 'number') { // TODO: Drop after https://github.com/SamVerschueren/map-age-cleaner/issues/5 // @ts-expect-error mapAgeCleaner(cache); } const memoized = function (...arguments_) { const key = cacheKey ? cacheKey(arguments_) : arguments_[0]; const cacheItem = cache.get(key); if (cacheItem) { return cacheItem.data; } const result = fn.apply(this, arguments_); cache.set(key, { data: result, maxAge: maxAge ? Date.now() + maxAge : Number.POSITIVE_INFINITY }); return result; }; mimicFn(memoized, fn, { ignoreNonConfigurable: true }); cacheStore.set(memoized, cache); return memoized; }; /** @returns A [decorator](https://github.com/tc39/proposal-decorators) to memoize class methods or static class methods. @example ``` import mem = require('mem'); class Example { index = 0 @mem.decorator() counter() { return ++this.index; } } class ExampleWithOptions { index = 0 @mem.decorator({maxAge: 1000}) counter() { return ++this.index; } } ``` */ mem$3.decorator = (options = {}) => (target, propertyKey, descriptor) => { const input = target[propertyKey]; if (typeof input !== 'function') { throw new TypeError('The decorated value must be a function'); } delete descriptor.value; delete descriptor.writable; descriptor.get = function () { if (!decoratorInstanceMap.has(this)) { const value = mem$3(input, options); decoratorInstanceMap.set(this, value); return value; } return decoratorInstanceMap.get(this); }; }; /** Clear all cached data of a memoized function. @param fn - Memoized function. */ mem$3.clear = fn => { const cache = cacheStore.get(fn); if (!cache) { throw new TypeError('Can\'t clear a function that was not memoized!'); } if (typeof cache.clear !== 'function') { throw new TypeError('The cache Map can\'t be cleared!'); } cache.clear(); }; var dist$1 = mem$3; var require$$7$2 = require("./third-party.js"); var tomlParser = {exports: {}}; const ParserEND = 0x110000; class ParserError extends Error { /* istanbul ignore next */ constructor(msg, filename, linenumber) { super('[ParserError] ' + msg, filename, linenumber); this.name = 'ParserError'; this.code = 'ParserError'; if (Error.captureStackTrace) Error.captureStackTrace(this, ParserError); } } class State { constructor(parser) { this.parser = parser; this.buf = ''; this.returned = null; this.result = null; this.resultTable = null; this.resultArr = null; } } class Parser { constructor() { this.pos = 0; this.col = 0; this.line = 0; this.obj = {}; this.ctx = this.obj; this.stack = []; this._buf = ''; this.char = null; this.ii = 0; this.state = new State(this.parseStart); } parse(str) { /* istanbul ignore next */ if (str.length === 0 || str.length == null) return; this._buf = String(str); this.ii = -1; this.char = -1; let getNext; while (getNext === false || this.nextChar()) { getNext = this.runOne(); } this._buf = null; } nextChar() { if (this.char === 0x0A) { ++this.line; this.col = -1; } ++this.ii; this.char = this._buf.codePointAt(this.ii); ++this.pos; ++this.col; return this.haveBuffer(); } haveBuffer() { return this.ii < this._buf.length; } runOne() { return this.state.parser.call(this, this.state.returned); } finish() { this.char = ParserEND; let last; do { last = this.state.parser; this.runOne(); } while (this.state.parser !== last); this.ctx = null; this.state = null; this._buf = null; return this.obj; } next(fn) { /* istanbul ignore next */ if (typeof fn !== 'function') throw new ParserError('Tried to set state to non-existent state: ' + JSON.stringify(fn)); this.state.parser = fn; } goto(fn) { this.next(fn); return this.runOne(); } call(fn, returnWith) { if (returnWith) this.next(returnWith); this.stack.push(this.state); this.state = new State(fn); } callNow(fn, returnWith) { this.call(fn, returnWith); return this.runOne(); } return(value) { /* istanbul ignore next */ if (this.stack.length === 0) throw this.error(new ParserError('Stack underflow')); if (value === undefined) value = this.state.buf; this.state = this.stack.pop(); this.state.returned = value; } returnNow(value) { this.return(value); return this.runOne(); } consume() { /* istanbul ignore next */ if (this.char === ParserEND) throw this.error(new ParserError('Unexpected end-of-buffer')); this.state.buf += this._buf[this.ii]; } error(err) { err.line = this.line; err.col = this.col; err.pos = this.pos; return err; } /* istanbul ignore next */ parseStart() { throw new ParserError('Must declare a parseStart method'); } } Parser.END = ParserEND; Parser.Error = ParserError; var parser = Parser; var createDatetime = value => { const date = new Date(value); /* istanbul ignore if */ if (isNaN(date)) { throw new TypeError('Invalid Datetime'); } else { return date; } }; var formatNum = (d, num) => { num = String(num); while (num.length < d) num = '0' + num; return num; }; const f$2 = formatNum; class FloatingDateTime extends Date { constructor(value) { super(value + 'Z'); this.isFloating = true; } toISOString() { const date = `${this.getUTCFullYear()}-${f$2(2, this.getUTCMonth() + 1)}-${f$2(2, this.getUTCDate())}`; const time = `${f$2(2, this.getUTCHours())}:${f$2(2, this.getUTCMinutes())}:${f$2(2, this.getUTCSeconds())}.${f$2(3, this.getUTCMilliseconds())}`; return `${date}T${time}`; } } var createDatetimeFloat = value => { const date = new FloatingDateTime(value); /* istanbul ignore if */ if (isNaN(date)) { throw new TypeError('Invalid Datetime'); } else { return date; } }; const f$1 = formatNum; const DateTime = global.Date; class Date$1 extends DateTime { constructor(value) { super(value); this.isDate = true; } toISOString() { return `${this.getUTCFullYear()}-${f$1(2, this.getUTCMonth() + 1)}-${f$1(2, this.getUTCDate())}`; } } var createDate$1 = value => { const date = new Date$1(value); /* istanbul ignore if */ if (isNaN(date)) { throw new TypeError('Invalid Datetime'); } else { return date; } }; const f = formatNum; class Time extends Date { constructor(value) { super(`0000-01-01T${value}Z`); this.isTime = true; } toISOString() { return `${f(2, this.getUTCHours())}:${f(2, this.getUTCMinutes())}:${f(2, this.getUTCSeconds())}.${f(3, this.getUTCMilliseconds())}`; } } var createTime$1 = value => { const date = new Time(value); /* istanbul ignore if */ if (isNaN(date)) { throw new TypeError('Invalid Datetime'); } else { return date; } }; /* eslint-disable no-new-wrappers, no-eval, camelcase, operator-linebreak */ tomlParser.exports = makeParserClass(parser); tomlParser.exports.makeParserClass = makeParserClass; class TomlError extends Error { constructor(msg) { super(msg); this.name = 'TomlError'; /* istanbul ignore next */ if (Error.captureStackTrace) Error.captureStackTrace(this, TomlError); this.fromTOML = true; this.wrapped = null; } } TomlError.wrap = err => { const terr = new TomlError(err.message); terr.code = err.code; terr.wrapped = err; return terr; }; tomlParser.exports.TomlError = TomlError; const createDateTime = createDatetime; const createDateTimeFloat = createDatetimeFloat; const createDate = createDate$1; const createTime = createTime$1; const CTRL_I = 0x09; const CTRL_J = 0x0A; const CTRL_M = 0x0D; const CTRL_CHAR_BOUNDARY = 0x1F; // the last non-character in the latin1 region of unicode, except DEL const CHAR_SP = 0x20; const CHAR_QUOT = 0x22; const CHAR_NUM = 0x23; const CHAR_APOS = 0x27; const CHAR_PLUS$1 = 0x2B; const CHAR_COMMA$2 = 0x2C; const CHAR_HYPHEN = 0x2D; const CHAR_PERIOD = 0x2E; const CHAR_0 = 0x30; const CHAR_1 = 0x31; const CHAR_7 = 0x37; const CHAR_9 = 0x39; const CHAR_COLON = 0x3A; const CHAR_EQUALS = 0x3D; const CHAR_A = 0x41; const CHAR_E = 0x45; const CHAR_F = 0x46; const CHAR_T = 0x54; const CHAR_U = 0x55; const CHAR_Z = 0x5A; const CHAR_LOWBAR = 0x5F; const CHAR_a = 0x61; const CHAR_b = 0x62; const CHAR_e = 0x65; const CHAR_f = 0x66; const CHAR_i = 0x69; const CHAR_l = 0x6C; const CHAR_n = 0x6E; const CHAR_o = 0x6F; const CHAR_r = 0x72; const CHAR_s = 0x73; const CHAR_t = 0x74; const CHAR_u = 0x75; const CHAR_x = 0x78; const CHAR_z = 0x7A; const CHAR_LCUB = 0x7B; const CHAR_RCUB = 0x7D; const CHAR_LSQB = 0x5B; const CHAR_BSOL = 0x5C; const CHAR_RSQB = 0x5D; const CHAR_DEL = 0x7F; const SURROGATE_FIRST = 0xD800; const SURROGATE_LAST = 0xDFFF; const escapes = { [CHAR_b]: '\u0008', [CHAR_t]: '\u0009', [CHAR_n]: '\u000A', [CHAR_f]: '\u000C', [CHAR_r]: '\u000D', [CHAR_QUOT]: '\u0022', [CHAR_BSOL]: '\u005C' }; function isDigit(cp) { return cp >= CHAR_0 && cp <= CHAR_9; } function isHexit(cp) { return cp >= CHAR_A && cp <= CHAR_F || cp >= CHAR_a && cp <= CHAR_f || cp >= CHAR_0 && cp <= CHAR_9; } function isBit(cp) { return cp === CHAR_1 || cp === CHAR_0; } function isOctit(cp) { return cp >= CHAR_0 && cp <= CHAR_7; } function isAlphaNumQuoteHyphen(cp) { return cp >= CHAR_A && cp <= CHAR_Z || cp >= CHAR_a && cp <= CHAR_z || cp >= CHAR_0 && cp <= CHAR_9 || cp === CHAR_APOS || cp === CHAR_QUOT || cp === CHAR_LOWBAR || cp === CHAR_HYPHEN; } function isAlphaNumHyphen(cp) { return cp >= CHAR_A && cp <= CHAR_Z || cp >= CHAR_a && cp <= CHAR_z || cp >= CHAR_0 && cp <= CHAR_9 || cp === CHAR_LOWBAR || cp === CHAR_HYPHEN; } const _type = Symbol('type'); const _declared = Symbol('declared'); const hasOwnProperty$a = Object.prototype.hasOwnProperty; const defineProperty = Object.defineProperty; const descriptor = { configurable: true, enumerable: true, writable: true, value: undefined }; function hasKey(obj, key) { if (hasOwnProperty$a.call(obj, key)) return true; if (key === '__proto__') defineProperty(obj, '__proto__', descriptor); return false; } const INLINE_TABLE = Symbol('inline-table'); function InlineTable() { return Object.defineProperties({}, { [_type]: { value: INLINE_TABLE } }); } function isInlineTable(obj) { if (obj === null || typeof obj !== 'object') return false; return obj[_type] === INLINE_TABLE; } const TABLE = Symbol('table'); function Table() { return Object.defineProperties({}, { [_type]: { value: TABLE }, [_declared]: { value: false, writable: true } }); } function isTable(obj) { if (obj === null || typeof obj !== 'object') return false; return obj[_type] === TABLE; } const _contentType = Symbol('content-type'); const INLINE_LIST = Symbol('inline-list'); function InlineList(type) { return Object.defineProperties([], { [_type]: { value: INLINE_LIST }, [_contentType]: { value: type } }); } function isInlineList(obj) { if (obj === null || typeof obj !== 'object') return false; return obj[_type] === INLINE_LIST; } const LIST = Symbol('list'); function List() { return Object.defineProperties([], { [_type]: { value: LIST } }); } function isList(obj) { if (obj === null || typeof obj !== 'object') return false; return obj[_type] === LIST; } // in an eval, to let bundlers not slurp in a util proxy let _custom; try { const utilInspect = require('util').inspect; _custom = utilInspect.custom; } catch (_) { /* eval require not available in transpiled bundle */ } /* istanbul ignore next */ const _inspect = _custom || 'inspect'; class BoxedBigInt { constructor(value) { try { this.value = global.BigInt.asIntN(64, value); } catch (_) { /* istanbul ignore next */ this.value = null; } Object.defineProperty(this, _type, { value: INTEGER }); } isNaN() { return this.value === null; } /* istanbul ignore next */ toString() { return String(this.value); } /* istanbul ignore next */ [_inspect]() { return `[BigInt: ${this.toString()}]}`; } valueOf() { return this.value; } } const INTEGER = Symbol('integer'); function Integer(value) { let num = Number(value); // -0 is a float thing, not an int thing if (Object.is(num, -0)) num = 0; /* istanbul ignore else */ if (global.BigInt && !Number.isSafeInteger(num)) { return new BoxedBigInt(value); } else { /* istanbul ignore next */ return Object.defineProperties(new Number(num), { isNaN: { value: function () { return isNaN(this); } }, [_type]: { value: INTEGER }, [_inspect]: { value: () => `[Integer: ${value}]` } }); } } function isInteger(obj) { if (obj === null || typeof obj !== 'object') return false; return obj[_type] === INTEGER; } const FLOAT = Symbol('float'); function Float(value) { /* istanbul ignore next */ return Object.defineProperties(new Number(value), { [_type]: { value: FLOAT }, [_inspect]: { value: () => `[Float: ${value}]` } }); } function isFloat(obj) { if (obj === null || typeof obj !== 'object') return false; return obj[_type] === FLOAT; } function tomlType(value) { const type = typeof value; if (type === 'object') { /* istanbul ignore if */ if (value === null) return 'null'; if (value instanceof Date) return 'datetime'; /* istanbul ignore else */ if (_type in value) { switch (value[_type]) { case INLINE_TABLE: return 'inline-table'; case INLINE_LIST: return 'inline-list'; /* istanbul ignore next */ case TABLE: return 'table'; /* istanbul ignore next */ case LIST: return 'list'; case FLOAT: return 'float'; case INTEGER: return 'integer'; } } } return type; } function makeParserClass(Parser) { class TOMLParser extends Parser { constructor() { super(); this.ctx = this.obj = Table(); } /* MATCH HELPER */ atEndOfWord() { return this.char === CHAR_NUM || this.char === CTRL_I || this.char === CHAR_SP || this.atEndOfLine(); } atEndOfLine() { return this.char === Parser.END || this.char === CTRL_J || this.char === CTRL_M; } parseStart() { if (this.char === Parser.END) { return null; } else if (this.char === CHAR_LSQB) { return this.call(this.parseTableOrList); } else if (this.char === CHAR_NUM) { return this.call(this.parseComment); } else if (this.char === CTRL_J || this.char === CHAR_SP || this.char === CTRL_I || this.char === CTRL_M) { return null; } else if (isAlphaNumQuoteHyphen(this.char)) { return this.callNow(this.parseAssignStatement); } else { throw this.error(new TomlError(`Unknown character "${this.char}"`)); } } // HELPER, this strips any whitespace and comments to the end of the line // then RETURNS. Last state in a production. parseWhitespaceToEOL() { if (this.char === CHAR_SP || this.char === CTRL_I || this.char === CTRL_M) { return null; } else if (this.char === CHAR_NUM) { return this.goto(this.parseComment); } else if (this.char === Parser.END || this.char === CTRL_J) { return this.return(); } else { throw this.error(new TomlError('Unexpected character, expected only whitespace or comments till end of line')); } } /* ASSIGNMENT: key = value */ parseAssignStatement() { return this.callNow(this.parseAssign, this.recordAssignStatement); } recordAssignStatement(kv) { let target = this.ctx; let finalKey = kv.key.pop(); for (let kw of kv.key) { if (hasKey(target, kw) && (!isTable(target[kw]) || target[kw][_declared])) { throw this.error(new TomlError("Can't redefine existing key")); } target = target[kw] = target[kw] || Table(); } if (hasKey(target, finalKey)) { throw this.error(new TomlError("Can't redefine existing key")); } // unbox our numbers if (isInteger(kv.value) || isFloat(kv.value)) { target[finalKey] = kv.value.valueOf(); } else { target[finalKey] = kv.value; } return this.goto(this.parseWhitespaceToEOL); } /* ASSSIGNMENT expression, key = value possibly inside an inline table */ parseAssign() { return this.callNow(this.parseKeyword, this.recordAssignKeyword); } recordAssignKeyword(key) { if (this.state.resultTable) { this.state.resultTable.push(key); } else { this.state.resultTable = [key]; } return this.goto(this.parseAssignKeywordPreDot); } parseAssignKeywordPreDot() { if (this.char === CHAR_PERIOD) { return this.next(this.parseAssignKeywordPostDot); } else if (this.char !== CHAR_SP && this.char !== CTRL_I) { return this.goto(this.parseAssignEqual); } } parseAssignKeywordPostDot() { if (this.char !== CHAR_SP && this.char !== CTRL_I) { return this.callNow(this.parseKeyword, this.recordAssignKeyword); } } parseAssignEqual() { if (this.char === CHAR_EQUALS) { return this.next(this.parseAssignPreValue); } else { throw this.error(new TomlError('Invalid character, expected "="')); } } parseAssignPreValue() { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else { return this.callNow(this.parseValue, this.recordAssignValue); } } recordAssignValue(value) { return this.returnNow({ key: this.state.resultTable, value: value }); } /* COMMENTS: #...eol */ parseComment() { do { if (this.char === Parser.END || this.char === CTRL_J) { return this.return(); } } while (this.nextChar()); } /* TABLES AND LISTS, [foo] and [[foo]] */ parseTableOrList() { if (this.char === CHAR_LSQB) { this.next(this.parseList); } else { return this.goto(this.parseTable); } } /* TABLE [foo.bar.baz] */ parseTable() { this.ctx = this.obj; return this.goto(this.parseTableNext); } parseTableNext() { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else { return this.callNow(this.parseKeyword, this.parseTableMore); } } parseTableMore(keyword) { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else if (this.char === CHAR_RSQB) { if (hasKey(this.ctx, keyword) && (!isTable(this.ctx[keyword]) || this.ctx[keyword][_declared])) { throw this.error(new TomlError("Can't redefine existing key")); } else { this.ctx = this.ctx[keyword] = this.ctx[keyword] || Table(); this.ctx[_declared] = true; } return this.next(this.parseWhitespaceToEOL); } else if (this.char === CHAR_PERIOD) { if (!hasKey(this.ctx, keyword)) { this.ctx = this.ctx[keyword] = Table(); } else if (isTable(this.ctx[keyword])) { this.ctx = this.ctx[keyword]; } else if (isList(this.ctx[keyword])) { this.ctx = this.ctx[keyword][this.ctx[keyword].length - 1]; } else { throw this.error(new TomlError("Can't redefine existing key")); } return this.next(this.parseTableNext); } else { throw this.error(new TomlError('Unexpected character, expected whitespace, . or ]')); } } /* LIST [[a.b.c]] */ parseList() { this.ctx = this.obj; return this.goto(this.parseListNext); } parseListNext() { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else { return this.callNow(this.parseKeyword, this.parseListMore); } } parseListMore(keyword) { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else if (this.char === CHAR_RSQB) { if (!hasKey(this.ctx, keyword)) { this.ctx[keyword] = List(); } if (isInlineList(this.ctx[keyword])) { throw this.error(new TomlError("Can't extend an inline array")); } else if (isList(this.ctx[keyword])) { const next = Table(); this.ctx[keyword].push(next); this.ctx = next; } else { throw this.error(new TomlError("Can't redefine an existing key")); } return this.next(this.parseListEnd); } else if (this.char === CHAR_PERIOD) { if (!hasKey(this.ctx, keyword)) { this.ctx = this.ctx[keyword] = Table(); } else if (isInlineList(this.ctx[keyword])) { throw this.error(new TomlError("Can't extend an inline array")); } else if (isInlineTable(this.ctx[keyword])) { throw this.error(new TomlError("Can't extend an inline table")); } else if (isList(this.ctx[keyword])) { this.ctx = this.ctx[keyword][this.ctx[keyword].length - 1]; } else if (isTable(this.ctx[keyword])) { this.ctx = this.ctx[keyword]; } else { throw this.error(new TomlError("Can't redefine an existing key")); } return this.next(this.parseListNext); } else { throw this.error(new TomlError('Unexpected character, expected whitespace, . or ]')); } } parseListEnd(keyword) { if (this.char === CHAR_RSQB) { return this.next(this.parseWhitespaceToEOL); } else { throw this.error(new TomlError('Unexpected character, expected whitespace, . or ]')); } } /* VALUE string, number, boolean, inline list, inline object */ parseValue() { if (this.char === Parser.END) { throw this.error(new TomlError('Key without value')); } else if (this.char === CHAR_QUOT) { return this.next(this.parseDoubleString); } if (this.char === CHAR_APOS) { return this.next(this.parseSingleString); } else if (this.char === CHAR_HYPHEN || this.char === CHAR_PLUS$1) { return this.goto(this.parseNumberSign); } else if (this.char === CHAR_i) { return this.next(this.parseInf); } else if (this.char === CHAR_n) { return this.next(this.parseNan); } else if (isDigit(this.char)) { return this.goto(this.parseNumberOrDateTime); } else if (this.char === CHAR_t || this.char === CHAR_f) { return this.goto(this.parseBoolean); } else if (this.char === CHAR_LSQB) { return this.call(this.parseInlineList, this.recordValue); } else if (this.char === CHAR_LCUB) { return this.call(this.parseInlineTable, this.recordValue); } else { throw this.error(new TomlError('Unexpected character, expecting string, number, datetime, boolean, inline array or inline table')); } } recordValue(value) { return this.returnNow(value); } parseInf() { if (this.char === CHAR_n) { return this.next(this.parseInf2); } else { throw this.error(new TomlError('Unexpected character, expected "inf", "+inf" or "-inf"')); } } parseInf2() { if (this.char === CHAR_f) { if (this.state.buf === '-') { return this.return(-Infinity); } else { return this.return(Infinity); } } else { throw this.error(new TomlError('Unexpected character, expected "inf", "+inf" or "-inf"')); } } parseNan() { if (this.char === CHAR_a) { return this.next(this.parseNan2); } else { throw this.error(new TomlError('Unexpected character, expected "nan"')); } } parseNan2() { if (this.char === CHAR_n) { return this.return(NaN); } else { throw this.error(new TomlError('Unexpected character, expected "nan"')); } } /* KEYS, barewords or basic, literal, or dotted */ parseKeyword() { if (this.char === CHAR_QUOT) { return this.next(this.parseBasicString); } else if (this.char === CHAR_APOS) { return this.next(this.parseLiteralString); } else { return this.goto(this.parseBareKey); } } /* KEYS: barewords */ parseBareKey() { do { if (this.char === Parser.END) { throw this.error(new TomlError('Key ended without value')); } else if (isAlphaNumHyphen(this.char)) { this.consume(); } else if (this.state.buf.length === 0) { throw this.error(new TomlError('Empty bare keys are not allowed')); } else { return this.returnNow(); } } while (this.nextChar()); } /* STRINGS, single quoted (literal) */ parseSingleString() { if (this.char === CHAR_APOS) { return this.next(this.parseLiteralMultiStringMaybe); } else { return this.goto(this.parseLiteralString); } } parseLiteralString() { do { if (this.char === CHAR_APOS) { return this.return(); } else if (this.atEndOfLine()) { throw this.error(new TomlError('Unterminated string')); } else if (this.char === CHAR_DEL || this.char <= CTRL_CHAR_BOUNDARY && this.char !== CTRL_I) { throw this.errorControlCharInString(); } else { this.consume(); } } while (this.nextChar()); } parseLiteralMultiStringMaybe() { if (this.char === CHAR_APOS) { return this.next(this.parseLiteralMultiString); } else { return this.returnNow(); } } parseLiteralMultiString() { if (this.char === CTRL_M) { return null; } else if (this.char === CTRL_J) { return this.next(this.parseLiteralMultiStringContent); } else { return this.goto(this.parseLiteralMultiStringContent); } } parseLiteralMultiStringContent() { do { if (this.char === CHAR_APOS) { return this.next(this.parseLiteralMultiEnd); } else if (this.char === Parser.END) { throw this.error(new TomlError('Unterminated multi-line string')); } else if (this.char === CHAR_DEL || this.char <= CTRL_CHAR_BOUNDARY && this.char !== CTRL_I && this.char !== CTRL_J && this.char !== CTRL_M) { throw this.errorControlCharInString(); } else { this.consume(); } } while (this.nextChar()); } parseLiteralMultiEnd() { if (this.char === CHAR_APOS) { return this.next(this.parseLiteralMultiEnd2); } else { this.state.buf += "'"; return this.goto(this.parseLiteralMultiStringContent); } } parseLiteralMultiEnd2() { if (this.char === CHAR_APOS) { return this.return(); } else { this.state.buf += "''"; return this.goto(this.parseLiteralMultiStringContent); } } /* STRINGS double quoted */ parseDoubleString() { if (this.char === CHAR_QUOT) { return this.next(this.parseMultiStringMaybe); } else { return this.goto(this.parseBasicString); } } parseBasicString() { do { if (this.char === CHAR_BSOL) { return this.call(this.parseEscape, this.recordEscapeReplacement); } else if (this.char === CHAR_QUOT) { return this.return(); } else if (this.atEndOfLine()) { throw this.error(new TomlError('Unterminated string')); } else if (this.char === CHAR_DEL || this.char <= CTRL_CHAR_BOUNDARY && this.char !== CTRL_I) { throw this.errorControlCharInString(); } else { this.consume(); } } while (this.nextChar()); } recordEscapeReplacement(replacement) { this.state.buf += replacement; return this.goto(this.parseBasicString); } parseMultiStringMaybe() { if (this.char === CHAR_QUOT) { return this.next(this.parseMultiString); } else { return this.returnNow(); } } parseMultiString() { if (this.char === CTRL_M) { return null; } else if (this.char === CTRL_J) { return this.next(this.parseMultiStringContent); } else { return this.goto(this.parseMultiStringContent); } } parseMultiStringContent() { do { if (this.char === CHAR_BSOL) { return this.call(this.parseMultiEscape, this.recordMultiEscapeReplacement); } else if (this.char === CHAR_QUOT) { return this.next(this.parseMultiEnd); } else if (this.char === Parser.END) { throw this.error(new TomlError('Unterminated multi-line string')); } else if (this.char === CHAR_DEL || this.char <= CTRL_CHAR_BOUNDARY && this.char !== CTRL_I && this.char !== CTRL_J && this.char !== CTRL_M) { throw this.errorControlCharInString(); } else { this.consume(); } } while (this.nextChar()); } errorControlCharInString() { let displayCode = '\\u00'; if (this.char < 16) { displayCode += '0'; } displayCode += this.char.toString(16); return this.error(new TomlError(`Control characters (codes < 0x1f and 0x7f) are not allowed in strings, use ${displayCode} instead`)); } recordMultiEscapeReplacement(replacement) { this.state.buf += replacement; return this.goto(this.parseMultiStringContent); } parseMultiEnd() { if (this.char === CHAR_QUOT) { return this.next(this.parseMultiEnd2); } else { this.state.buf += '"'; return this.goto(this.parseMultiStringContent); } } parseMultiEnd2() { if (this.char === CHAR_QUOT) { return this.return(); } else { this.state.buf += '""'; return this.goto(this.parseMultiStringContent); } } parseMultiEscape() { if (this.char === CTRL_M || this.char === CTRL_J) { return this.next(this.parseMultiTrim); } else if (this.char === CHAR_SP || this.char === CTRL_I) { return this.next(this.parsePreMultiTrim); } else { return this.goto(this.parseEscape); } } parsePreMultiTrim() { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else if (this.char === CTRL_M || this.char === CTRL_J) { return this.next(this.parseMultiTrim); } else { throw this.error(new TomlError("Can't escape whitespace")); } } parseMultiTrim() { // explicitly whitespace here, END should follow the same path as chars if (this.char === CTRL_J || this.char === CHAR_SP || this.char === CTRL_I || this.char === CTRL_M) { return null; } else { return this.returnNow(); } } parseEscape() { if (this.char in escapes) { return this.return(escapes[this.char]); } else if (this.char === CHAR_u) { return this.call(this.parseSmallUnicode, this.parseUnicodeReturn); } else if (this.char === CHAR_U) { return this.call(this.parseLargeUnicode, this.parseUnicodeReturn); } else { throw this.error(new TomlError('Unknown escape character: ' + this.char)); } } parseUnicodeReturn(char) { try { const codePoint = parseInt(char, 16); if (codePoint >= SURROGATE_FIRST && codePoint <= SURROGATE_LAST) { throw this.error(new TomlError('Invalid unicode, character in range 0xD800 - 0xDFFF is reserved')); } return this.returnNow(String.fromCodePoint(codePoint)); } catch (err) { throw this.error(TomlError.wrap(err)); } } parseSmallUnicode() { if (!isHexit(this.char)) { throw this.error(new TomlError('Invalid character in unicode sequence, expected hex')); } else { this.consume(); if (this.state.buf.length >= 4) return this.return(); } } parseLargeUnicode() { if (!isHexit(this.char)) { throw this.error(new TomlError('Invalid character in unicode sequence, expected hex')); } else { this.consume(); if (this.state.buf.length >= 8) return this.return(); } } /* NUMBERS */ parseNumberSign() { this.consume(); return this.next(this.parseMaybeSignedInfOrNan); } parseMaybeSignedInfOrNan() { if (this.char === CHAR_i) { return this.next(this.parseInf); } else if (this.char === CHAR_n) { return this.next(this.parseNan); } else { return this.callNow(this.parseNoUnder, this.parseNumberIntegerStart); } } parseNumberIntegerStart() { if (this.char === CHAR_0) { this.consume(); return this.next(this.parseNumberIntegerExponentOrDecimal); } else { return this.goto(this.parseNumberInteger); } } parseNumberIntegerExponentOrDecimal() { if (this.char === CHAR_PERIOD) { this.consume(); return this.call(this.parseNoUnder, this.parseNumberFloat); } else if (this.char === CHAR_E || this.char === CHAR_e) { this.consume(); return this.next(this.parseNumberExponentSign); } else { return this.returnNow(Integer(this.state.buf)); } } parseNumberInteger() { if (isDigit(this.char)) { this.consume(); } else if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnder); } else if (this.char === CHAR_E || this.char === CHAR_e) { this.consume(); return this.next(this.parseNumberExponentSign); } else if (this.char === CHAR_PERIOD) { this.consume(); return this.call(this.parseNoUnder, this.parseNumberFloat); } else { const result = Integer(this.state.buf); /* istanbul ignore if */ if (result.isNaN()) { throw this.error(new TomlError('Invalid number')); } else { return this.returnNow(result); } } } parseNoUnder() { if (this.char === CHAR_LOWBAR || this.char === CHAR_PERIOD || this.char === CHAR_E || this.char === CHAR_e) { throw this.error(new TomlError('Unexpected character, expected digit')); } else if (this.atEndOfWord()) { throw this.error(new TomlError('Incomplete number')); } return this.returnNow(); } parseNoUnderHexOctBinLiteral() { if (this.char === CHAR_LOWBAR || this.char === CHAR_PERIOD) { throw this.error(new TomlError('Unexpected character, expected digit')); } else if (this.atEndOfWord()) { throw this.error(new TomlError('Incomplete number')); } return this.returnNow(); } parseNumberFloat() { if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnder, this.parseNumberFloat); } else if (isDigit(this.char)) { this.consume(); } else if (this.char === CHAR_E || this.char === CHAR_e) { this.consume(); return this.next(this.parseNumberExponentSign); } else { return this.returnNow(Float(this.state.buf)); } } parseNumberExponentSign() { if (isDigit(this.char)) { return this.goto(this.parseNumberExponent); } else if (this.char === CHAR_HYPHEN || this.char === CHAR_PLUS$1) { this.consume(); this.call(this.parseNoUnder, this.parseNumberExponent); } else { throw this.error(new TomlError('Unexpected character, expected -, + or digit')); } } parseNumberExponent() { if (isDigit(this.char)) { this.consume(); } else if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnder); } else { return this.returnNow(Float(this.state.buf)); } } /* NUMBERS or DATETIMES */ parseNumberOrDateTime() { if (this.char === CHAR_0) { this.consume(); return this.next(this.parseNumberBaseOrDateTime); } else { return this.goto(this.parseNumberOrDateTimeOnly); } } parseNumberOrDateTimeOnly() { // note, if two zeros are in a row then it MUST be a date if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnder, this.parseNumberInteger); } else if (isDigit(this.char)) { this.consume(); if (this.state.buf.length > 4) this.next(this.parseNumberInteger); } else if (this.char === CHAR_E || this.char === CHAR_e) { this.consume(); return this.next(this.parseNumberExponentSign); } else if (this.char === CHAR_PERIOD) { this.consume(); return this.call(this.parseNoUnder, this.parseNumberFloat); } else if (this.char === CHAR_HYPHEN) { return this.goto(this.parseDateTime); } else if (this.char === CHAR_COLON) { return this.goto(this.parseOnlyTimeHour); } else { return this.returnNow(Integer(this.state.buf)); } } parseDateTimeOnly() { if (this.state.buf.length < 4) { if (isDigit(this.char)) { return this.consume(); } else if (this.char === CHAR_COLON) { return this.goto(this.parseOnlyTimeHour); } else { throw this.error(new TomlError('Expected digit while parsing year part of a date')); } } else { if (this.char === CHAR_HYPHEN) { return this.goto(this.parseDateTime); } else { throw this.error(new TomlError('Expected hyphen (-) while parsing year part of date')); } } } parseNumberBaseOrDateTime() { if (this.char === CHAR_b) { this.consume(); return this.call(this.parseNoUnderHexOctBinLiteral, this.parseIntegerBin); } else if (this.char === CHAR_o) { this.consume(); return this.call(this.parseNoUnderHexOctBinLiteral, this.parseIntegerOct); } else if (this.char === CHAR_x) { this.consume(); return this.call(this.parseNoUnderHexOctBinLiteral, this.parseIntegerHex); } else if (this.char === CHAR_PERIOD) { return this.goto(this.parseNumberInteger); } else if (isDigit(this.char)) { return this.goto(this.parseDateTimeOnly); } else { return this.returnNow(Integer(this.state.buf)); } } parseIntegerHex() { if (isHexit(this.char)) { this.consume(); } else if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnderHexOctBinLiteral); } else { const result = Integer(this.state.buf); /* istanbul ignore if */ if (result.isNaN()) { throw this.error(new TomlError('Invalid number')); } else { return this.returnNow(result); } } } parseIntegerOct() { if (isOctit(this.char)) { this.consume(); } else if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnderHexOctBinLiteral); } else { const result = Integer(this.state.buf); /* istanbul ignore if */ if (result.isNaN()) { throw this.error(new TomlError('Invalid number')); } else { return this.returnNow(result); } } } parseIntegerBin() { if (isBit(this.char)) { this.consume(); } else if (this.char === CHAR_LOWBAR) { return this.call(this.parseNoUnderHexOctBinLiteral); } else { const result = Integer(this.state.buf); /* istanbul ignore if */ if (result.isNaN()) { throw this.error(new TomlError('Invalid number')); } else { return this.returnNow(result); } } } /* DATETIME */ parseDateTime() { // we enter here having just consumed the year and about to consume the hyphen if (this.state.buf.length < 4) { throw this.error(new TomlError('Years less than 1000 must be zero padded to four characters')); } this.state.result = this.state.buf; this.state.buf = ''; return this.next(this.parseDateMonth); } parseDateMonth() { if (this.char === CHAR_HYPHEN) { if (this.state.buf.length < 2) { throw this.error(new TomlError('Months less than 10 must be zero padded to two characters')); } this.state.result += '-' + this.state.buf; this.state.buf = ''; return this.next(this.parseDateDay); } else if (isDigit(this.char)) { this.consume(); } else { throw this.error(new TomlError('Incomplete datetime')); } } parseDateDay() { if (this.char === CHAR_T || this.char === CHAR_SP) { if (this.state.buf.length < 2) { throw this.error(new TomlError('Days less than 10 must be zero padded to two characters')); } this.state.result += '-' + this.state.buf; this.state.buf = ''; return this.next(this.parseStartTimeHour); } else if (this.atEndOfWord()) { return this.returnNow(createDate(this.state.result + '-' + this.state.buf)); } else if (isDigit(this.char)) { this.consume(); } else { throw this.error(new TomlError('Incomplete datetime')); } } parseStartTimeHour() { if (this.atEndOfWord()) { return this.returnNow(createDate(this.state.result)); } else { return this.goto(this.parseTimeHour); } } parseTimeHour() { if (this.char === CHAR_COLON) { if (this.state.buf.length < 2) { throw this.error(new TomlError('Hours less than 10 must be zero padded to two characters')); } this.state.result += 'T' + this.state.buf; this.state.buf = ''; return this.next(this.parseTimeMin); } else if (isDigit(this.char)) { this.consume(); } else { throw this.error(new TomlError('Incomplete datetime')); } } parseTimeMin() { if (this.state.buf.length < 2 && isDigit(this.char)) { this.consume(); } else if (this.state.buf.length === 2 && this.char === CHAR_COLON) { this.state.result += ':' + this.state.buf; this.state.buf = ''; return this.next(this.parseTimeSec); } else { throw this.error(new TomlError('Incomplete datetime')); } } parseTimeSec() { if (isDigit(this.char)) { this.consume(); if (this.state.buf.length === 2) { this.state.result += ':' + this.state.buf; this.state.buf = ''; return this.next(this.parseTimeZoneOrFraction); } } else { throw this.error(new TomlError('Incomplete datetime')); } } parseOnlyTimeHour() { /* istanbul ignore else */ if (this.char === CHAR_COLON) { if (this.state.buf.length < 2) { throw this.error(new TomlError('Hours less than 10 must be zero padded to two characters')); } this.state.result = this.state.buf; this.state.buf = ''; return this.next(this.parseOnlyTimeMin); } else { throw this.error(new TomlError('Incomplete time')); } } parseOnlyTimeMin() { if (this.state.buf.length < 2 && isDigit(this.char)) { this.consume(); } else if (this.state.buf.length === 2 && this.char === CHAR_COLON) { this.state.result += ':' + this.state.buf; this.state.buf = ''; return this.next(this.parseOnlyTimeSec); } else { throw this.error(new TomlError('Incomplete time')); } } parseOnlyTimeSec() { if (isDigit(this.char)) { this.consume(); if (this.state.buf.length === 2) { return this.next(this.parseOnlyTimeFractionMaybe); } } else { throw this.error(new TomlError('Incomplete time')); } } parseOnlyTimeFractionMaybe() { this.state.result += ':' + this.state.buf; if (this.char === CHAR_PERIOD) { this.state.buf = ''; this.next(this.parseOnlyTimeFraction); } else { return this.return(createTime(this.state.result)); } } parseOnlyTimeFraction() { if (isDigit(this.char)) { this.consume(); } else if (this.atEndOfWord()) { if (this.state.buf.length === 0) throw this.error(new TomlError('Expected digit in milliseconds')); return this.returnNow(createTime(this.state.result + '.' + this.state.buf)); } else { throw this.error(new TomlError('Unexpected character in datetime, expected period (.), minus (-), plus (+) or Z')); } } parseTimeZoneOrFraction() { if (this.char === CHAR_PERIOD) { this.consume(); this.next(this.parseDateTimeFraction); } else if (this.char === CHAR_HYPHEN || this.char === CHAR_PLUS$1) { this.consume(); this.next(this.parseTimeZoneHour); } else if (this.char === CHAR_Z) { this.consume(); return this.return(createDateTime(this.state.result + this.state.buf)); } else if (this.atEndOfWord()) { return this.returnNow(createDateTimeFloat(this.state.result + this.state.buf)); } else { throw this.error(new TomlError('Unexpected character in datetime, expected period (.), minus (-), plus (+) or Z')); } } parseDateTimeFraction() { if (isDigit(this.char)) { this.consume(); } else if (this.state.buf.length === 1) { throw this.error(new TomlError('Expected digit in milliseconds')); } else if (this.char === CHAR_HYPHEN || this.char === CHAR_PLUS$1) { this.consume(); this.next(this.parseTimeZoneHour); } else if (this.char === CHAR_Z) { this.consume(); return this.return(createDateTime(this.state.result + this.state.buf)); } else if (this.atEndOfWord()) { return this.returnNow(createDateTimeFloat(this.state.result + this.state.buf)); } else { throw this.error(new TomlError('Unexpected character in datetime, expected period (.), minus (-), plus (+) or Z')); } } parseTimeZoneHour() { if (isDigit(this.char)) { this.consume(); // FIXME: No more regexps if (/\d\d$/.test(this.state.buf)) return this.next(this.parseTimeZoneSep); } else { throw this.error(new TomlError('Unexpected character in datetime, expected digit')); } } parseTimeZoneSep() { if (this.char === CHAR_COLON) { this.consume(); this.next(this.parseTimeZoneMin); } else { throw this.error(new TomlError('Unexpected character in datetime, expected colon')); } } parseTimeZoneMin() { if (isDigit(this.char)) { this.consume(); if (/\d\d$/.test(this.state.buf)) return this.return(createDateTime(this.state.result + this.state.buf)); } else { throw this.error(new TomlError('Unexpected character in datetime, expected digit')); } } /* BOOLEAN */ parseBoolean() { /* istanbul ignore else */ if (this.char === CHAR_t) { this.consume(); return this.next(this.parseTrue_r); } else if (this.char === CHAR_f) { this.consume(); return this.next(this.parseFalse_a); } } parseTrue_r() { if (this.char === CHAR_r) { this.consume(); return this.next(this.parseTrue_u); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } parseTrue_u() { if (this.char === CHAR_u) { this.consume(); return this.next(this.parseTrue_e); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } parseTrue_e() { if (this.char === CHAR_e) { return this.return(true); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } parseFalse_a() { if (this.char === CHAR_a) { this.consume(); return this.next(this.parseFalse_l); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } parseFalse_l() { if (this.char === CHAR_l) { this.consume(); return this.next(this.parseFalse_s); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } parseFalse_s() { if (this.char === CHAR_s) { this.consume(); return this.next(this.parseFalse_e); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } parseFalse_e() { if (this.char === CHAR_e) { return this.return(false); } else { throw this.error(new TomlError('Invalid boolean, expected true or false')); } } /* INLINE LISTS */ parseInlineList() { if (this.char === CHAR_SP || this.char === CTRL_I || this.char === CTRL_M || this.char === CTRL_J) { return null; } else if (this.char === Parser.END) { throw this.error(new TomlError('Unterminated inline array')); } else if (this.char === CHAR_NUM) { return this.call(this.parseComment); } else if (this.char === CHAR_RSQB) { return this.return(this.state.resultArr || InlineList()); } else { return this.callNow(this.parseValue, this.recordInlineListValue); } } recordInlineListValue(value) { if (this.state.resultArr) { const listType = this.state.resultArr[_contentType]; const valueType = tomlType(value); if (listType !== valueType) { throw this.error(new TomlError(`Inline lists must be a single type, not a mix of ${listType} and ${valueType}`)); } } else { this.state.resultArr = InlineList(tomlType(value)); } if (isFloat(value) || isInteger(value)) { // unbox now that we've verified they're ok this.state.resultArr.push(value.valueOf()); } else { this.state.resultArr.push(value); } return this.goto(this.parseInlineListNext); } parseInlineListNext() { if (this.char === CHAR_SP || this.char === CTRL_I || this.char === CTRL_M || this.char === CTRL_J) { return null; } else if (this.char === CHAR_NUM) { return this.call(this.parseComment); } else if (this.char === CHAR_COMMA$2) { return this.next(this.parseInlineList); } else if (this.char === CHAR_RSQB) { return this.goto(this.parseInlineList); } else { throw this.error(new TomlError('Invalid character, expected whitespace, comma (,) or close bracket (])')); } } /* INLINE TABLE */ parseInlineTable() { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else if (this.char === Parser.END || this.char === CHAR_NUM || this.char === CTRL_J || this.char === CTRL_M) { throw this.error(new TomlError('Unterminated inline array')); } else if (this.char === CHAR_RCUB) { return this.return(this.state.resultTable || InlineTable()); } else { if (!this.state.resultTable) this.state.resultTable = InlineTable(); return this.callNow(this.parseAssign, this.recordInlineTableValue); } } recordInlineTableValue(kv) { let target = this.state.resultTable; let finalKey = kv.key.pop(); for (let kw of kv.key) { if (hasKey(target, kw) && (!isTable(target[kw]) || target[kw][_declared])) { throw this.error(new TomlError("Can't redefine existing key")); } target = target[kw] = target[kw] || Table(); } if (hasKey(target, finalKey)) { throw this.error(new TomlError("Can't redefine existing key")); } if (isInteger(kv.value) || isFloat(kv.value)) { target[finalKey] = kv.value.valueOf(); } else { target[finalKey] = kv.value; } return this.goto(this.parseInlineTableNext); } parseInlineTableNext() { if (this.char === CHAR_SP || this.char === CTRL_I) { return null; } else if (this.char === Parser.END || this.char === CHAR_NUM || this.char === CTRL_J || this.char === CTRL_M) { throw this.error(new TomlError('Unterminated inline array')); } else if (this.char === CHAR_COMMA$2) { return this.next(this.parseInlineTable); } else if (this.char === CHAR_RCUB) { return this.goto(this.parseInlineTable); } else { throw this.error(new TomlError('Invalid character, expected whitespace, comma (,) or close bracket (])')); } } } return TOMLParser; } var parsePrettyError = prettyError$1; function prettyError$1(err, buf) { /* istanbul ignore if */ if (err.pos == null || err.line == null) return err; let msg = err.message; msg += ` at row ${err.line + 1}, col ${err.col + 1}, pos ${err.pos}:\n`; /* istanbul ignore else */ if (buf && buf.split) { const lines = buf.split(/\n/); const lineNumWidth = String(Math.min(lines.length, err.line + 3)).length; let linePadding = ' '; while (linePadding.length < lineNumWidth) linePadding += ' '; for (let ii = Math.max(0, err.line - 1); ii < Math.min(lines.length, err.line + 2); ++ii) { let lineNum = String(ii + 1); if (lineNum.length < lineNumWidth) lineNum = ' ' + lineNum; if (err.line === ii) { msg += lineNum + '> ' + lines[ii] + '\n'; msg += linePadding + ' '; for (let hh = 0; hh < err.col; ++hh) { msg += ' '; } msg += '^\n'; } else { msg += lineNum + ': ' + lines[ii] + '\n'; } } } err.message = msg + '\n'; return err; } var parseString_1 = parseString$1; const TOMLParser = tomlParser.exports; const prettyError = parsePrettyError; function parseString$1(str) { if (global.Buffer && global.Buffer.isBuffer(str)) { str = str.toString('utf8'); } const parser = new TOMLParser(); try { parser.parse(str); return parser.finish(); } catch (err) { throw prettyError(err, str); } } const parse$b = parseString_1; var loadToml$1 = function (filePath, content) { try { return parse$b(content); } catch (error) { error.message = `TOML Error in ${filePath}:\n${error.message}`; throw error; } }; // This is a generated file. Do not edit. var Space_Separator = /[\u1680\u2000-\u200A\u202F\u205F\u3000]/; var ID_Start = 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var ID_Continue = 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FF3A\uFF3F\uFF41-\uFF5A\uFF66-\uFFBE\uFFC2-\uFFC7\uFFCA-\uFFCF\uFFD2-\uFFD7\uFFDA-\uFFDC]|\uD800[\uDC00-\uDC0B\uDC0D-\uDC26\uDC28-\uDC3A\uDC3C\uDC3D\uDC3F-\uDC4D\uDC50-\uDC5D\uDC80-\uDCFA\uDD40-\uDD74\uDDFD\uDE80-\uDE9C\uDEA0-\uDED0\uDEE0\uDF00-\uDF1F\uDF2D-\uDF4A\uDF50-\uDF7A\uDF80-\uDF9D\uDFA0-\uDFC3\uDFC8-\uDFCF\uDFD1-\uDFD5]|\uD801[\uDC00-\uDC9D\uDCA0-\uDCA9\uDCB0-\uDCD3\uDCD8-\uDCFB\uDD00-\uDD27\uDD30-\uDD63\uDE00-\uDF36\uDF40-\uDF55\uDF60-\uDF67]|\uD802[\uDC00-\uDC05\uDC08\uDC0A-\uDC35\uDC37\uDC38\uDC3C\uDC3F-\uDC55\uDC60-\uDC76\uDC80-\uDC9E\uDCE0-\uDCF2\uDCF4\uDCF5\uDD00-\uDD15\uDD20-\uDD39\uDD80-\uDDB7\uDDBE\uDDBF\uDE00-\uDE03\uDE05\uDE06\uDE0C-\uDE13\uDE15-\uDE17\uDE19-\uDE33\uDE38-\uDE3A\uDE3F\uDE60-\uDE7C\uDE80-\uDE9C\uDEC0-\uDEC7\uDEC9-\uDEE6\uDF00-\uDF35\uDF40-\uDF55\uDF60-\uDF72\uDF80-\uDF91]|\uD803[\uDC00-\uDC48\uDC80-\uDCB2\uDCC0-\uDCF2]|\uD804[\uDC00-\uDC46\uDC66-\uDC6F\uDC7F-\uDCBA\uDCD0-\uDCE8\uDCF0-\uDCF9\uDD00-\uDD34\uDD36-\uDD3F\uDD50-\uDD73\uDD76\uDD80-\uDDC4\uDDCA-\uDDCC\uDDD0-\uDDDA\uDDDC\uDE00-\uDE11\uDE13-\uDE37\uDE3E\uDE80-\uDE86\uDE88\uDE8A-\uDE8D\uDE8F-\uDE9D\uDE9F-\uDEA8\uDEB0-\uDEEA\uDEF0-\uDEF9\uDF00-\uDF03\uDF05-\uDF0C\uDF0F\uDF10\uDF13-\uDF28\uDF2A-\uDF30\uDF32\uDF33\uDF35-\uDF39\uDF3C-\uDF44\uDF47\uDF48\uDF4B-\uDF4D\uDF50\uDF57\uDF5D-\uDF63\uDF66-\uDF6C\uDF70-\uDF74]|\uD805[\uDC00-\uDC4A\uDC50-\uDC59\uDC80-\uDCC5\uDCC7\uDCD0-\uDCD9\uDD80-\uDDB5\uDDB8-\uDDC0\uDDD8-\uDDDD\uDE00-\uDE40\uDE44\uDE50-\uDE59\uDE80-\uDEB7\uDEC0-\uDEC9\uDF00-\uDF19\uDF1D-\uDF2B\uDF30-\uDF39]|\uD806[\uDCA0-\uDCE9\uDCFF\uDE00-\uDE3E\uDE47\uDE50-\uDE83\uDE86-\uDE99\uDEC0-\uDEF8]|\uD807[\uDC00-\uDC08\uDC0A-\uDC36\uDC38-\uDC40\uDC50-\uDC59\uDC72-\uDC8F\uDC92-\uDCA7\uDCA9-\uDCB6\uDD00-\uDD06\uDD08\uDD09\uDD0B-\uDD36\uDD3A\uDD3C\uDD3D\uDD3F-\uDD47\uDD50-\uDD59]|\uD808[\uDC00-\uDF99]|\uD809[\uDC00-\uDC6E\uDC80-\uDD43]|[\uD80C\uD81C-\uD820\uD840-\uD868\uD86A-\uD86C\uD86F-\uD872\uD874-\uD879][\uDC00-\uDFFF]|\uD80D[\uDC00-\uDC2E]|\uD811[\uDC00-\uDE46]|\uD81A[\uDC00-\uDE38\uDE40-\uDE5E\uDE60-\uDE69\uDED0-\uDEED\uDEF0-\uDEF4\uDF00-\uDF36\uDF40-\uDF43\uDF50-\uDF59\uDF63-\uDF77\uDF7D-\uDF8F]|\uD81B[\uDF00-\uDF44\uDF50-\uDF7E\uDF8F-\uDF9F\uDFE0\uDFE1]|\uD821[\uDC00-\uDFEC]|\uD822[\uDC00-\uDEF2]|\uD82C[\uDC00-\uDD1E\uDD70-\uDEFB]|\uD82F[\uDC00-\uDC6A\uDC70-\uDC7C\uDC80-\uDC88\uDC90-\uDC99\uDC9D\uDC9E]|\uD834[\uDD65-\uDD69\uDD6D-\uDD72\uDD7B-\uDD82\uDD85-\uDD8B\uDDAA-\uDDAD\uDE42-\uDE44]|\uD835[\uDC00-\uDC54\uDC56-\uDC9C\uDC9E\uDC9F\uDCA2\uDCA5\uDCA6\uDCA9-\uDCAC\uDCAE-\uDCB9\uDCBB\uDCBD-\uDCC3\uDCC5-\uDD05\uDD07-\uDD0A\uDD0D-\uDD14\uDD16-\uDD1C\uDD1E-\uDD39\uDD3B-\uDD3E\uDD40-\uDD44\uDD46\uDD4A-\uDD50\uDD52-\uDEA5\uDEA8-\uDEC0\uDEC2-\uDEDA\uDEDC-\uDEFA\uDEFC-\uDF14\uDF16-\uDF34\uDF36-\uDF4E\uDF50-\uDF6E\uDF70-\uDF88\uDF8A-\uDFA8\uDFAA-\uDFC2\uDFC4-\uDFCB\uDFCE-\uDFFF]|\uD836[\uDE00-\uDE36\uDE3B-\uDE6C\uDE75\uDE84\uDE9B-\uDE9F\uDEA1-\uDEAF]|\uD838[\uDC00-\uDC06\uDC08-\uDC18\uDC1B-\uDC21\uDC23\uDC24\uDC26-\uDC2A]|\uD83A[\uDC00-\uDCC4\uDCD0-\uDCD6\uDD00-\uDD4A\uDD50-\uDD59]|\uD83B[\uDE00-\uDE03\uDE05-\uDE1F\uDE21\uDE22\uDE24\uDE27\uDE29-\uDE32\uDE34-\uDE37\uDE39\uDE3B\uDE42\uDE47\uDE49\uDE4B\uDE4D-\uDE4F\uDE51\uDE52\uDE54\uDE57\uDE59\uDE5B\uDE5D\uDE5F\uDE61\uDE62\uDE64\uDE67-\uDE6A\uDE6C-\uDE72\uDE74-\uDE77\uDE79-\uDE7C\uDE7E\uDE80-\uDE89\uDE8B-\uDE9B\uDEA1-\uDEA3\uDEA5-\uDEA9\uDEAB-\uDEBB]|\uD869[\uDC00-\uDED6\uDF00-\uDFFF]|\uD86D[\uDC00-\uDF34\uDF40-\uDFFF]|\uD86E[\uDC00-\uDC1D\uDC20-\uDFFF]|\uD873[\uDC00-\uDEA1\uDEB0-\uDFFF]|\uD87A[\uDC00-\uDFE0]|\uD87E[\uDC00-\uDE1D]|\uDB40[\uDD00-\uDDEF]/; var unicode = { Space_Separator: Space_Separator, ID_Start: ID_Start, ID_Continue: ID_Continue }; var util$6 = { isSpaceSeparator(c) { return typeof c === 'string' && unicode.Space_Separator.test(c); }, isIdStartChar(c) { return typeof c === 'string' && (c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c === '$' || c === '_' || unicode.ID_Start.test(c)); }, isIdContinueChar(c) { return typeof c === 'string' && (c >= 'a' && c <= 'z' || c >= 'A' && c <= 'Z' || c >= '0' && c <= '9' || c === '$' || c === '_' || c === '\u200C' || c === '\u200D' || unicode.ID_Continue.test(c)); }, isDigit(c) { return typeof c === 'string' && /[0-9]/.test(c); }, isHexDigit(c) { return typeof c === 'string' && /[0-9A-Fa-f]/.test(c); } }; let source$1; let parseState; let stack; let pos; let line$z; let column; let token; let key; let root$9; var parse$a = function parse(text, reviver) { source$1 = String(text); parseState = 'start'; stack = []; pos = 0; line$z = 1; column = 0; token = undefined; key = undefined; root$9 = undefined; do { token = lex(); // This code is unreachable. // if (!parseStates[parseState]) { // throw invalidParseState() // } parseStates[parseState](); } while (token.type !== 'eof'); if (typeof reviver === 'function') { return internalize({ '': root$9 }, '', reviver); } return root$9; }; function internalize(holder, name, reviver) { const value = holder[name]; if (value != null && typeof value === 'object') { for (const key in value) { const replacement = internalize(value, key, reviver); if (replacement === undefined) { delete value[key]; } else { value[key] = replacement; } } } return reviver.call(holder, name, value); } let lexState; let buffer$2; let doubleQuote; let sign; let c; function lex() { lexState = 'default'; buffer$2 = ''; doubleQuote = false; sign = 1; for (;;) { c = peek(); // This code is unreachable. // if (!lexStates[lexState]) { // throw invalidLexState(lexState) // } const token = lexStates[lexState](); if (token) { return token; } } } function peek() { if (source$1[pos]) { return String.fromCodePoint(source$1.codePointAt(pos)); } } function read$4() { const c = peek(); if (c === '\n') { line$z++; column = 0; } else if (c) { column += c.length; } else { column++; } if (c) { pos += c.length; } return c; } const lexStates = { default() { switch (c) { case '\t': case '\v': case '\f': case ' ': case '\u00A0': case '\uFEFF': case '\n': case '\r': case '\u2028': case '\u2029': read$4(); return; case '/': read$4(); lexState = 'comment'; return; case undefined: read$4(); return newToken('eof'); } if (util$6.isSpaceSeparator(c)) { read$4(); return; } // This code is unreachable. // if (!lexStates[parseState]) { // throw invalidLexState(parseState) // } return lexStates[parseState](); }, comment() { switch (c) { case '*': read$4(); lexState = 'multiLineComment'; return; case '/': read$4(); lexState = 'singleLineComment'; return; } throw invalidChar(read$4()); }, multiLineComment() { switch (c) { case '*': read$4(); lexState = 'multiLineCommentAsterisk'; return; case undefined: throw invalidChar(read$4()); } read$4(); }, multiLineCommentAsterisk() { switch (c) { case '*': read$4(); return; case '/': read$4(); lexState = 'default'; return; case undefined: throw invalidChar(read$4()); } read$4(); lexState = 'multiLineComment'; }, singleLineComment() { switch (c) { case '\n': case '\r': case '\u2028': case '\u2029': read$4(); lexState = 'default'; return; case undefined: read$4(); return newToken('eof'); } read$4(); }, value() { switch (c) { case '{': case '[': return newToken('punctuator', read$4()); case 'n': read$4(); literal$1('ull'); return newToken('null', null); case 't': read$4(); literal$1('rue'); return newToken('boolean', true); case 'f': read$4(); literal$1('alse'); return newToken('boolean', false); case '-': case '+': if (read$4() === '-') { sign = -1; } lexState = 'sign'; return; case '.': buffer$2 = read$4(); lexState = 'decimalPointLeading'; return; case '0': buffer$2 = read$4(); lexState = 'zero'; return; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': buffer$2 = read$4(); lexState = 'decimalInteger'; return; case 'I': read$4(); literal$1('nfinity'); return newToken('numeric', Infinity); case 'N': read$4(); literal$1('aN'); return newToken('numeric', NaN); case '"': case "'": doubleQuote = read$4() === '"'; buffer$2 = ''; lexState = 'string'; return; } throw invalidChar(read$4()); }, identifierNameStartEscape() { if (c !== 'u') { throw invalidChar(read$4()); } read$4(); const u = unicodeEscape(); switch (u) { case '$': case '_': break; default: if (!util$6.isIdStartChar(u)) { throw invalidIdentifier(); } break; } buffer$2 += u; lexState = 'identifierName'; }, identifierName() { switch (c) { case '$': case '_': case '\u200C': case '\u200D': buffer$2 += read$4(); return; case '\\': read$4(); lexState = 'identifierNameEscape'; return; } if (util$6.isIdContinueChar(c)) { buffer$2 += read$4(); return; } return newToken('identifier', buffer$2); }, identifierNameEscape() { if (c !== 'u') { throw invalidChar(read$4()); } read$4(); const u = unicodeEscape(); switch (u) { case '$': case '_': case '\u200C': case '\u200D': break; default: if (!util$6.isIdContinueChar(u)) { throw invalidIdentifier(); } break; } buffer$2 += u; lexState = 'identifierName'; }, sign() { switch (c) { case '.': buffer$2 = read$4(); lexState = 'decimalPointLeading'; return; case '0': buffer$2 = read$4(); lexState = 'zero'; return; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': buffer$2 = read$4(); lexState = 'decimalInteger'; return; case 'I': read$4(); literal$1('nfinity'); return newToken('numeric', sign * Infinity); case 'N': read$4(); literal$1('aN'); return newToken('numeric', NaN); } throw invalidChar(read$4()); }, zero() { switch (c) { case '.': buffer$2 += read$4(); lexState = 'decimalPoint'; return; case 'e': case 'E': buffer$2 += read$4(); lexState = 'decimalExponent'; return; case 'x': case 'X': buffer$2 += read$4(); lexState = 'hexadecimal'; return; } return newToken('numeric', sign * 0); }, decimalInteger() { switch (c) { case '.': buffer$2 += read$4(); lexState = 'decimalPoint'; return; case 'e': case 'E': buffer$2 += read$4(); lexState = 'decimalExponent'; return; } if (util$6.isDigit(c)) { buffer$2 += read$4(); return; } return newToken('numeric', sign * Number(buffer$2)); }, decimalPointLeading() { if (util$6.isDigit(c)) { buffer$2 += read$4(); lexState = 'decimalFraction'; return; } throw invalidChar(read$4()); }, decimalPoint() { switch (c) { case 'e': case 'E': buffer$2 += read$4(); lexState = 'decimalExponent'; return; } if (util$6.isDigit(c)) { buffer$2 += read$4(); lexState = 'decimalFraction'; return; } return newToken('numeric', sign * Number(buffer$2)); }, decimalFraction() { switch (c) { case 'e': case 'E': buffer$2 += read$4(); lexState = 'decimalExponent'; return; } if (util$6.isDigit(c)) { buffer$2 += read$4(); return; } return newToken('numeric', sign * Number(buffer$2)); }, decimalExponent() { switch (c) { case '+': case '-': buffer$2 += read$4(); lexState = 'decimalExponentSign'; return; } if (util$6.isDigit(c)) { buffer$2 += read$4(); lexState = 'decimalExponentInteger'; return; } throw invalidChar(read$4()); }, decimalExponentSign() { if (util$6.isDigit(c)) { buffer$2 += read$4(); lexState = 'decimalExponentInteger'; return; } throw invalidChar(read$4()); }, decimalExponentInteger() { if (util$6.isDigit(c)) { buffer$2 += read$4(); return; } return newToken('numeric', sign * Number(buffer$2)); }, hexadecimal() { if (util$6.isHexDigit(c)) { buffer$2 += read$4(); lexState = 'hexadecimalInteger'; return; } throw invalidChar(read$4()); }, hexadecimalInteger() { if (util$6.isHexDigit(c)) { buffer$2 += read$4(); return; } return newToken('numeric', sign * Number(buffer$2)); }, string() { switch (c) { case '\\': read$4(); buffer$2 += escape$1(); return; case '"': if (doubleQuote) { read$4(); return newToken('string', buffer$2); } buffer$2 += read$4(); return; case "'": if (!doubleQuote) { read$4(); return newToken('string', buffer$2); } buffer$2 += read$4(); return; case '\n': case '\r': throw invalidChar(read$4()); case '\u2028': case '\u2029': separatorChar(c); break; case undefined: throw invalidChar(read$4()); } buffer$2 += read$4(); }, start() { switch (c) { case '{': case '[': return newToken('punctuator', read$4()); // This code is unreachable since the default lexState handles eof. // case undefined: // return newToken('eof') } lexState = 'value'; }, beforePropertyName() { switch (c) { case '$': case '_': buffer$2 = read$4(); lexState = 'identifierName'; return; case '\\': read$4(); lexState = 'identifierNameStartEscape'; return; case '}': return newToken('punctuator', read$4()); case '"': case "'": doubleQuote = read$4() === '"'; lexState = 'string'; return; } if (util$6.isIdStartChar(c)) { buffer$2 += read$4(); lexState = 'identifierName'; return; } throw invalidChar(read$4()); }, afterPropertyName() { if (c === ':') { return newToken('punctuator', read$4()); } throw invalidChar(read$4()); }, beforePropertyValue() { lexState = 'value'; }, afterPropertyValue() { switch (c) { case ',': case '}': return newToken('punctuator', read$4()); } throw invalidChar(read$4()); }, beforeArrayValue() { if (c === ']') { return newToken('punctuator', read$4()); } lexState = 'value'; }, afterArrayValue() { switch (c) { case ',': case ']': return newToken('punctuator', read$4()); } throw invalidChar(read$4()); }, end() { // This code is unreachable since it's handled by the default lexState. // if (c === undefined) { // read() // return newToken('eof') // } throw invalidChar(read$4()); } }; function newToken(type, value) { return { type, value, line: line$z, column }; } function literal$1(s) { for (const c of s) { const p = peek(); if (p !== c) { throw invalidChar(read$4()); } read$4(); } } function escape$1() { const c = peek(); switch (c) { case 'b': read$4(); return '\b'; case 'f': read$4(); return '\f'; case 'n': read$4(); return '\n'; case 'r': read$4(); return '\r'; case 't': read$4(); return '\t'; case 'v': read$4(); return '\v'; case '0': read$4(); if (util$6.isDigit(peek())) { throw invalidChar(read$4()); } return '\0'; case 'x': read$4(); return hexEscape(); case 'u': read$4(); return unicodeEscape(); case '\n': case '\u2028': case '\u2029': read$4(); return ''; case '\r': read$4(); if (peek() === '\n') { read$4(); } return ''; case '1': case '2': case '3': case '4': case '5': case '6': case '7': case '8': case '9': throw invalidChar(read$4()); case undefined: throw invalidChar(read$4()); } return read$4(); } function hexEscape() { let buffer = ''; let c = peek(); if (!util$6.isHexDigit(c)) { throw invalidChar(read$4()); } buffer += read$4(); c = peek(); if (!util$6.isHexDigit(c)) { throw invalidChar(read$4()); } buffer += read$4(); return String.fromCodePoint(parseInt(buffer, 16)); } function unicodeEscape() { let buffer = ''; let count = 4; while (count-- > 0) { const c = peek(); if (!util$6.isHexDigit(c)) { throw invalidChar(read$4()); } buffer += read$4(); } return String.fromCodePoint(parseInt(buffer, 16)); } const parseStates = { start() { if (token.type === 'eof') { throw invalidEOF(); } push$1(); }, beforePropertyName() { switch (token.type) { case 'identifier': case 'string': key = token.value; parseState = 'afterPropertyName'; return; case 'punctuator': // This code is unreachable since it's handled by the lexState. // if (token.value !== '}') { // throw invalidToken() // } pop(); return; case 'eof': throw invalidEOF(); } // This code is unreachable since it's handled by the lexState. // throw invalidToken() }, afterPropertyName() { // This code is unreachable since it's handled by the lexState. // if (token.type !== 'punctuator' || token.value !== ':') { // throw invalidToken() // } if (token.type === 'eof') { throw invalidEOF(); } parseState = 'beforePropertyValue'; }, beforePropertyValue() { if (token.type === 'eof') { throw invalidEOF(); } push$1(); }, beforeArrayValue() { if (token.type === 'eof') { throw invalidEOF(); } if (token.type === 'punctuator' && token.value === ']') { pop(); return; } push$1(); }, afterPropertyValue() { // This code is unreachable since it's handled by the lexState. // if (token.type !== 'punctuator') { // throw invalidToken() // } if (token.type === 'eof') { throw invalidEOF(); } switch (token.value) { case ',': parseState = 'beforePropertyName'; return; case '}': pop(); } // This code is unreachable since it's handled by the lexState. // throw invalidToken() }, afterArrayValue() { // This code is unreachable since it's handled by the lexState. // if (token.type !== 'punctuator') { // throw invalidToken() // } if (token.type === 'eof') { throw invalidEOF(); } switch (token.value) { case ',': parseState = 'beforeArrayValue'; return; case ']': pop(); } // This code is unreachable since it's handled by the lexState. // throw invalidToken() }, end() {// This code is unreachable since it's handled by the lexState. // if (token.type !== 'eof') { // throw invalidToken() // } } }; function push$1() { let value; switch (token.type) { case 'punctuator': switch (token.value) { case '{': value = {}; break; case '[': value = []; break; } break; case 'null': case 'boolean': case 'numeric': case 'string': value = token.value; break; // This code is unreachable. // default: // throw invalidToken() } if (root$9 === undefined) { root$9 = value; } else { const parent = stack[stack.length - 1]; if (Array.isArray(parent)) { parent.push(value); } else { parent[key] = value; } } if (value !== null && typeof value === 'object') { stack.push(value); if (Array.isArray(value)) { parseState = 'beforeArrayValue'; } else { parseState = 'beforePropertyName'; } } else { const current = stack[stack.length - 1]; if (current == null) { parseState = 'end'; } else if (Array.isArray(current)) { parseState = 'afterArrayValue'; } else { parseState = 'afterPropertyValue'; } } } function pop() { stack.pop(); const current = stack[stack.length - 1]; if (current == null) { parseState = 'end'; } else if (Array.isArray(current)) { parseState = 'afterArrayValue'; } else { parseState = 'afterPropertyValue'; } } // This code is unreachable. // function invalidParseState () { // return new Error(`JSON5: invalid parse state '${parseState}'`) // } // This code is unreachable. // function invalidLexState (state) { // return new Error(`JSON5: invalid lex state '${state}'`) // } function invalidChar(c) { if (c === undefined) { return syntaxError$2(`JSON5: invalid end of input at ${line$z}:${column}`); } return syntaxError$2(`JSON5: invalid character '${formatChar(c)}' at ${line$z}:${column}`); } function invalidEOF() { return syntaxError$2(`JSON5: invalid end of input at ${line$z}:${column}`); } // This code is unreachable. // function invalidToken () { // if (token.type === 'eof') { // return syntaxError(`JSON5: invalid end of input at ${line}:${column}`) // } // const c = String.fromCodePoint(token.value.codePointAt(0)) // return syntaxError(`JSON5: invalid character '${formatChar(c)}' at ${line}:${column}`) // } function invalidIdentifier() { column -= 5; return syntaxError$2(`JSON5: invalid identifier character at ${line$z}:${column}`); } function separatorChar(c) { console.warn(`JSON5: '${formatChar(c)}' in strings is not valid ECMAScript; consider escaping`); } function formatChar(c) { const replacements = { "'": "\\'", '"': '\\"', '\\': '\\\\', '\b': '\\b', '\f': '\\f', '\n': '\\n', '\r': '\\r', '\t': '\\t', '\v': '\\v', '\0': '\\0', '\u2028': '\\u2028', '\u2029': '\\u2029' }; if (replacements[c]) { return replacements[c]; } if (c < ' ') { const hexString = c.charCodeAt(0).toString(16); return '\\x' + ('00' + hexString).substring(hexString.length); } return c; } function syntaxError$2(message) { const err = new SyntaxError(message); err.lineNumber = line$z; err.columnNumber = column; return err; } var stringify$6 = function stringify(value, replacer, space) { const stack = []; let indent = ''; let propertyList; let replacerFunc; let gap = ''; let quote; if (replacer != null && typeof replacer === 'object' && !Array.isArray(replacer)) { space = replacer.space; quote = replacer.quote; replacer = replacer.replacer; } if (typeof replacer === 'function') { replacerFunc = replacer; } else if (Array.isArray(replacer)) { propertyList = []; for (const v of replacer) { let item; if (typeof v === 'string') { item = v; } else if (typeof v === 'number' || v instanceof String || v instanceof Number) { item = String(v); } if (item !== undefined && propertyList.indexOf(item) < 0) { propertyList.push(item); } } } if (space instanceof Number) { space = Number(space); } else if (space instanceof String) { space = String(space); } if (typeof space === 'number') { if (space > 0) { space = Math.min(10, Math.floor(space)); gap = ' '.substr(0, space); } } else if (typeof space === 'string') { gap = space.substr(0, 10); } return serializeProperty('', { '': value }); function serializeProperty(key, holder) { let value = holder[key]; if (value != null) { if (typeof value.toJSON5 === 'function') { value = value.toJSON5(key); } else if (typeof value.toJSON === 'function') { value = value.toJSON(key); } } if (replacerFunc) { value = replacerFunc.call(holder, key, value); } if (value instanceof Number) { value = Number(value); } else if (value instanceof String) { value = String(value); } else if (value instanceof Boolean) { value = value.valueOf(); } switch (value) { case null: return 'null'; case true: return 'true'; case false: return 'false'; } if (typeof value === 'string') { return quoteString(value); } if (typeof value === 'number') { return String(value); } if (typeof value === 'object') { return Array.isArray(value) ? serializeArray(value) : serializeObject(value); } return undefined; } function quoteString(value) { const quotes = { "'": 0.1, '"': 0.2 }; const replacements = { "'": "\\'", '"': '\\"', '\\': '\\\\', '\b': '\\b', '\f': '\\f', '\n': '\\n', '\r': '\\r', '\t': '\\t', '\v': '\\v', '\0': '\\0', '\u2028': '\\u2028', '\u2029': '\\u2029' }; let product = ''; for (let i = 0; i < value.length; i++) { const c = value[i]; switch (c) { case "'": case '"': quotes[c]++; product += c; continue; case '\0': if (util$6.isDigit(value[i + 1])) { product += '\\x00'; continue; } } if (replacements[c]) { product += replacements[c]; continue; } if (c < ' ') { let hexString = c.charCodeAt(0).toString(16); product += '\\x' + ('00' + hexString).substring(hexString.length); continue; } product += c; } const quoteChar = quote || Object.keys(quotes).reduce((a, b) => quotes[a] < quotes[b] ? a : b); product = product.replace(new RegExp(quoteChar, 'g'), replacements[quoteChar]); return quoteChar + product + quoteChar; } function serializeObject(value) { if (stack.indexOf(value) >= 0) { throw TypeError('Converting circular structure to JSON5'); } stack.push(value); let stepback = indent; indent = indent + gap; let keys = propertyList || Object.keys(value); let partial = []; for (const key of keys) { const propertyString = serializeProperty(key, value); if (propertyString !== undefined) { let member = serializeKey(key) + ':'; if (gap !== '') { member += ' '; } member += propertyString; partial.push(member); } } let final; if (partial.length === 0) { final = '{}'; } else { let properties; if (gap === '') { properties = partial.join(','); final = '{' + properties + '}'; } else { let separator = ',\n' + indent; properties = partial.join(separator); final = '{\n' + indent + properties + ',\n' + stepback + '}'; } } stack.pop(); indent = stepback; return final; } function serializeKey(key) { if (key.length === 0) { return quoteString(key); } const firstChar = String.fromCodePoint(key.codePointAt(0)); if (!util$6.isIdStartChar(firstChar)) { return quoteString(key); } for (let i = firstChar.length; i < key.length; i++) { if (!util$6.isIdContinueChar(String.fromCodePoint(key.codePointAt(i)))) { return quoteString(key); } } return key; } function serializeArray(value) { if (stack.indexOf(value) >= 0) { throw TypeError('Converting circular structure to JSON5'); } stack.push(value); let stepback = indent; indent = indent + gap; let partial = []; for (let i = 0; i < value.length; i++) { const propertyString = serializeProperty(String(i), value); partial.push(propertyString !== undefined ? propertyString : 'null'); } let final; if (partial.length === 0) { final = '[]'; } else { if (gap === '') { let properties = partial.join(','); final = '[' + properties + ']'; } else { let separator = ',\n' + indent; let properties = partial.join(separator); final = '[\n' + indent + properties + ',\n' + stepback + ']'; } } stack.pop(); indent = stepback; return final; } }; const JSON5 = { parse: parse$a, stringify: stringify$6 }; var lib = JSON5; var dist = /*#__PURE__*/Object.freeze({ __proto__: null, 'default': lib }); var require$$0$4 = /*@__PURE__*/getDefaultExportFromNamespaceIfPresent(dist); const { parse: parse$9 } = require$$0$4; var loadJson5$1 = function (filePath, content) { try { return parse$9(content); } catch (error) { error.message = `JSON5 Error in ${filePath}:\n${error.message}`; throw error; } }; var caller$2 = function () { // see https://code.google.com/p/v8/wiki/JavaScriptStackTraceApi var origPrepareStackTrace = Error.prepareStackTrace; Error.prepareStackTrace = function (_, stack) { return stack; }; var stack = new Error().stack; Error.prepareStackTrace = origPrepareStackTrace; return stack[2].getFileName(); }; var pathParse = {exports: {}}; var isWindows = process.platform === 'win32'; // Regex to split a windows path into into [dir, root, basename, name, ext] var splitWindowsRe = /^(((?:[a-zA-Z]:|[\\\/]{2}[^\\\/]+[\\\/]+[^\\\/]+)?[\\\/]?)(?:[^\\\/]*[\\\/])*)((\.{1,2}|[^\\\/]+?|)(\.[^.\/\\]*|))[\\\/]*$/; var win32 = {}; function win32SplitPath(filename) { return splitWindowsRe.exec(filename).slice(1); } win32.parse = function (pathString) { if (typeof pathString !== 'string') { throw new TypeError("Parameter 'pathString' must be a string, not " + typeof pathString); } var allParts = win32SplitPath(pathString); if (!allParts || allParts.length !== 5) { throw new TypeError("Invalid path '" + pathString + "'"); } return { root: allParts[1], dir: allParts[0] === allParts[1] ? allParts[0] : allParts[0].slice(0, -1), base: allParts[2], ext: allParts[4], name: allParts[3] }; }; // Split a filename into [dir, root, basename, name, ext], unix version // 'root' is just a slash, or nothing. var splitPathRe = /^((\/?)(?:[^\/]*\/)*)((\.{1,2}|[^\/]+?|)(\.[^.\/]*|))[\/]*$/; var posix = {}; function posixSplitPath(filename) { return splitPathRe.exec(filename).slice(1); } posix.parse = function (pathString) { if (typeof pathString !== 'string') { throw new TypeError("Parameter 'pathString' must be a string, not " + typeof pathString); } var allParts = posixSplitPath(pathString); if (!allParts || allParts.length !== 5) { throw new TypeError("Invalid path '" + pathString + "'"); } return { root: allParts[1], dir: allParts[0].slice(0, -1), base: allParts[2], ext: allParts[4], name: allParts[3] }; }; if (isWindows) pathParse.exports = win32.parse;else /* posix */ pathParse.exports = posix.parse; pathParse.exports.posix = posix.parse; pathParse.exports.win32 = win32.parse; var path$n = require$$0__default$2["default"]; var parse$8 = path$n.parse || pathParse.exports; var getNodeModulesDirs = function getNodeModulesDirs(absoluteStart, modules) { var prefix = '/'; if (/^([A-Za-z]:)/.test(absoluteStart)) { prefix = ''; } else if (/^\\\\/.test(absoluteStart)) { prefix = '\\\\'; } var paths = [absoluteStart]; var parsed = parse$8(absoluteStart); while (parsed.dir !== paths[paths.length - 1]) { paths.push(parsed.dir); parsed = parse$8(parsed.dir); } return paths.reduce(function (dirs, aPath) { return dirs.concat(modules.map(function (moduleDir) { return path$n.resolve(prefix, aPath, moduleDir); })); }, []); }; var nodeModulesPaths$2 = function nodeModulesPaths(start, opts, request) { var modules = opts && opts.moduleDirectory ? [].concat(opts.moduleDirectory) : ['node_modules']; if (opts && typeof opts.paths === 'function') { return opts.paths(request, start, function () { return getNodeModulesDirs(start, modules); }, opts); } var dirs = getNodeModulesDirs(start, modules); return opts && opts.paths ? dirs.concat(opts.paths) : dirs; }; var normalizeOptions$3 = function (x, opts) { /** * This file is purposefully a passthrough. It's expected that third-party * environments will override it at runtime in order to inject special logic * into `resolve` (by manipulating the options). One such example is the PnP * code path in Yarn. */ return opts || {}; }; /* eslint no-invalid-this: 1 */ var ERROR_MESSAGE = 'Function.prototype.bind called on incompatible '; var slice$1 = Array.prototype.slice; var toStr = Object.prototype.toString; var funcType = '[object Function]'; var implementation$1 = function bind(that) { var target = this; if (typeof target !== 'function' || toStr.call(target) !== funcType) { throw new TypeError(ERROR_MESSAGE + target); } var args = slice$1.call(arguments, 1); var bound; var binder = function () { if (this instanceof bound) { var result = target.apply(this, args.concat(slice$1.call(arguments))); if (Object(result) === result) { return result; } return this; } else { return target.apply(that, args.concat(slice$1.call(arguments))); } }; var boundLength = Math.max(0, target.length - args.length); var boundArgs = []; for (var i = 0; i < boundLength; i++) { boundArgs.push('$' + i); } bound = Function('binder', 'return function (' + boundArgs.join(',') + '){ return binder.apply(this,arguments); }')(binder); if (target.prototype) { var Empty = function Empty() {}; Empty.prototype = target.prototype; bound.prototype = new Empty(); Empty.prototype = null; } return bound; }; var implementation = implementation$1; var functionBind = Function.prototype.bind || implementation; var bind = functionBind; var src$2 = bind.call(Function.call, Object.prototype.hasOwnProperty); var assert$4 = true; var async_hooks$1 = ">= 8"; var buffer_ieee754$1 = "< 0.9.7"; var buffer$1 = true; var child_process$1 = true; var cluster$1 = true; var console$2 = true; var constants$6 = true; var crypto$1 = true; var _debug_agent$1 = ">= 1 && < 8"; var _debugger$1 = "< 8"; var dgram$1 = true; var diagnostics_channel$1 = [ ">= 14.17 && < 15", ">= 15.1" ]; var dns$1 = true; var domain$1 = ">= 0.7.12"; var events$1 = true; var freelist$1 = "< 6"; var fs$j = true; var _http_agent$1 = ">= 0.11.1"; var _http_client$1 = ">= 0.11.1"; var _http_common$1 = ">= 0.11.1"; var _http_incoming$1 = ">= 0.11.1"; var _http_outgoing$1 = ">= 0.11.1"; var _http_server$1 = ">= 0.11.1"; var http$1 = true; var http2$1 = ">= 8.8"; var https$1 = true; var inspector$1 = ">= 8"; var _linklist$1 = "< 8"; var module$3 = true; var net$1 = true; var os$1 = true; var path$m = true; var perf_hooks$1 = ">= 8.5"; var process$2 = ">= 1"; var punycode$1 = true; var querystring$1 = true; var readline$1 = true; var repl$1 = true; var smalloc$1 = ">= 0.11.5 && < 3"; var _stream_duplex$1 = ">= 0.9.4"; var _stream_transform$1 = ">= 0.9.4"; var _stream_wrap$1 = ">= 1.4.1"; var _stream_passthrough$1 = ">= 0.9.4"; var _stream_readable$1 = ">= 0.9.4"; var _stream_writable$1 = ">= 0.9.4"; var stream$6 = true; var string_decoder$1 = true; var sys$1 = [ ">= 0.6 && < 0.7", ">= 0.8" ]; var timers$1 = true; var _tls_common$1 = ">= 0.11.13"; var _tls_legacy$1 = ">= 0.11.3 && < 10"; var _tls_wrap$1 = ">= 0.11.3"; var tls$1 = true; var trace_events$1 = ">= 10"; var tty$1 = true; var url$1 = true; var util$5 = true; var v8$1 = ">= 1"; var vm$1 = true; var wasi$1 = ">= 13.4 && < 13.5"; var worker_threads$1 = ">= 11.7"; var zlib$1 = true; var require$$1$2 = { assert: assert$4, "node:assert": [ ">= 14.18 && < 15", ">= 16" ], "assert/strict": ">= 15", "node:assert/strict": ">= 16", async_hooks: async_hooks$1, "node:async_hooks": [ ">= 14.18 && < 15", ">= 16" ], buffer_ieee754: buffer_ieee754$1, buffer: buffer$1, "node:buffer": [ ">= 14.18 && < 15", ">= 16" ], child_process: child_process$1, "node:child_process": [ ">= 14.18 && < 15", ">= 16" ], cluster: cluster$1, "node:cluster": [ ">= 14.18 && < 15", ">= 16" ], console: console$2, "node:console": [ ">= 14.18 && < 15", ">= 16" ], constants: constants$6, "node:constants": [ ">= 14.18 && < 15", ">= 16" ], crypto: crypto$1, "node:crypto": [ ">= 14.18 && < 15", ">= 16" ], _debug_agent: _debug_agent$1, _debugger: _debugger$1, dgram: dgram$1, "node:dgram": [ ">= 14.18 && < 15", ">= 16" ], diagnostics_channel: diagnostics_channel$1, "node:diagnostics_channel": [ ">= 14.18 && < 15", ">= 16" ], dns: dns$1, "node:dns": [ ">= 14.18 && < 15", ">= 16" ], "dns/promises": ">= 15", "node:dns/promises": ">= 16", domain: domain$1, "node:domain": [ ">= 14.18 && < 15", ">= 16" ], events: events$1, "node:events": [ ">= 14.18 && < 15", ">= 16" ], freelist: freelist$1, fs: fs$j, "node:fs": [ ">= 14.18 && < 15", ">= 16" ], "fs/promises": [ ">= 10 && < 10.1", ">= 14" ], "node:fs/promises": [ ">= 14.18 && < 15", ">= 16" ], _http_agent: _http_agent$1, "node:_http_agent": [ ">= 14.18 && < 15", ">= 16" ], _http_client: _http_client$1, "node:_http_client": [ ">= 14.18 && < 15", ">= 16" ], _http_common: _http_common$1, "node:_http_common": [ ">= 14.18 && < 15", ">= 16" ], _http_incoming: _http_incoming$1, "node:_http_incoming": [ ">= 14.18 && < 15", ">= 16" ], _http_outgoing: _http_outgoing$1, "node:_http_outgoing": [ ">= 14.18 && < 15", ">= 16" ], _http_server: _http_server$1, "node:_http_server": [ ">= 14.18 && < 15", ">= 16" ], http: http$1, "node:http": [ ">= 14.18 && < 15", ">= 16" ], http2: http2$1, "node:http2": [ ">= 14.18 && < 15", ">= 16" ], https: https$1, "node:https": [ ">= 14.18 && < 15", ">= 16" ], inspector: inspector$1, "node:inspector": [ ">= 14.18 && < 15", ">= 16" ], _linklist: _linklist$1, module: module$3, "node:module": [ ">= 14.18 && < 15", ">= 16" ], net: net$1, "node:net": [ ">= 14.18 && < 15", ">= 16" ], "node-inspect/lib/_inspect": ">= 7.6 && < 12", "node-inspect/lib/internal/inspect_client": ">= 7.6 && < 12", "node-inspect/lib/internal/inspect_repl": ">= 7.6 && < 12", os: os$1, "node:os": [ ">= 14.18 && < 15", ">= 16" ], path: path$m, "node:path": [ ">= 14.18 && < 15", ">= 16" ], "path/posix": ">= 15.3", "node:path/posix": ">= 16", "path/win32": ">= 15.3", "node:path/win32": ">= 16", perf_hooks: perf_hooks$1, "node:perf_hooks": [ ">= 14.18 && < 15", ">= 16" ], process: process$2, "node:process": [ ">= 14.18 && < 15", ">= 16" ], punycode: punycode$1, "node:punycode": [ ">= 14.18 && < 15", ">= 16" ], querystring: querystring$1, "node:querystring": [ ">= 14.18 && < 15", ">= 16" ], readline: readline$1, "node:readline": [ ">= 14.18 && < 15", ">= 16" ], "readline/promises": ">= 17", "node:readline/promises": ">= 17", repl: repl$1, "node:repl": [ ">= 14.18 && < 15", ">= 16" ], smalloc: smalloc$1, _stream_duplex: _stream_duplex$1, "node:_stream_duplex": [ ">= 14.18 && < 15", ">= 16" ], _stream_transform: _stream_transform$1, "node:_stream_transform": [ ">= 14.18 && < 15", ">= 16" ], _stream_wrap: _stream_wrap$1, "node:_stream_wrap": [ ">= 14.18 && < 15", ">= 16" ], _stream_passthrough: _stream_passthrough$1, "node:_stream_passthrough": [ ">= 14.18 && < 15", ">= 16" ], _stream_readable: _stream_readable$1, "node:_stream_readable": [ ">= 14.18 && < 15", ">= 16" ], _stream_writable: _stream_writable$1, "node:_stream_writable": [ ">= 14.18 && < 15", ">= 16" ], stream: stream$6, "node:stream": [ ">= 14.18 && < 15", ">= 16" ], "stream/consumers": ">= 16.7", "node:stream/consumers": ">= 16.7", "stream/promises": ">= 15", "node:stream/promises": ">= 16", "stream/web": ">= 16.5", "node:stream/web": ">= 16.5", string_decoder: string_decoder$1, "node:string_decoder": [ ">= 14.18 && < 15", ">= 16" ], sys: sys$1, "node:sys": [ ">= 14.18 && < 15", ">= 16" ], timers: timers$1, "node:timers": [ ">= 14.18 && < 15", ">= 16" ], "timers/promises": ">= 15", "node:timers/promises": ">= 16", _tls_common: _tls_common$1, "node:_tls_common": [ ">= 14.18 && < 15", ">= 16" ], _tls_legacy: _tls_legacy$1, _tls_wrap: _tls_wrap$1, "node:_tls_wrap": [ ">= 14.18 && < 15", ">= 16" ], tls: tls$1, "node:tls": [ ">= 14.18 && < 15", ">= 16" ], trace_events: trace_events$1, "node:trace_events": [ ">= 14.18 && < 15", ">= 16" ], tty: tty$1, "node:tty": [ ">= 14.18 && < 15", ">= 16" ], url: url$1, "node:url": [ ">= 14.18 && < 15", ">= 16" ], util: util$5, "node:util": [ ">= 14.18 && < 15", ">= 16" ], "util/types": ">= 15.3", "node:util/types": ">= 16", "v8/tools/arguments": ">= 10 && < 12", "v8/tools/codemap": [ ">= 4.4 && < 5", ">= 5.2 && < 12" ], "v8/tools/consarray": [ ">= 4.4 && < 5", ">= 5.2 && < 12" ], "v8/tools/csvparser": [ ">= 4.4 && < 5", ">= 5.2 && < 12" ], "v8/tools/logreader": [ ">= 4.4 && < 5", ">= 5.2 && < 12" ], "v8/tools/profile_view": [ ">= 4.4 && < 5", ">= 5.2 && < 12" ], "v8/tools/splaytree": [ ">= 4.4 && < 5", ">= 5.2 && < 12" ], v8: v8$1, "node:v8": [ ">= 14.18 && < 15", ">= 16" ], vm: vm$1, "node:vm": [ ">= 14.18 && < 15", ">= 16" ], wasi: wasi$1, worker_threads: worker_threads$1, "node:worker_threads": [ ">= 14.18 && < 15", ">= 16" ], zlib: zlib$1, "node:zlib": [ ">= 14.18 && < 15", ">= 16" ] }; var has = src$2; function specifierIncluded$1(current, specifier) { var nodeParts = current.split('.'); var parts = specifier.split(' '); var op = parts.length > 1 ? parts[0] : '='; var versionParts = (parts.length > 1 ? parts[1] : parts[0]).split('.'); for (var i = 0; i < 3; ++i) { var cur = parseInt(nodeParts[i] || 0, 10); var ver = parseInt(versionParts[i] || 0, 10); if (cur === ver) { continue; // eslint-disable-line no-restricted-syntax, no-continue } if (op === '<') { return cur < ver; } if (op === '>=') { return cur >= ver; } return false; } return op === '>='; } function matchesRange$1(current, range) { var specifiers = range.split(/ ?&& ?/); if (specifiers.length === 0) { return false; } for (var i = 0; i < specifiers.length; ++i) { if (!specifierIncluded$1(current, specifiers[i])) { return false; } } return true; } function versionIncluded$1(nodeVersion, specifierValue) { if (typeof specifierValue === 'boolean') { return specifierValue; } var current = typeof nodeVersion === 'undefined' ? process.versions && process.versions.node : nodeVersion; if (typeof current !== 'string') { throw new TypeError(typeof nodeVersion === 'undefined' ? 'Unable to determine current node version' : 'If provided, a valid node version is required'); } if (specifierValue && typeof specifierValue === 'object') { for (var i = 0; i < specifierValue.length; ++i) { if (matchesRange$1(current, specifierValue[i])) { return true; } } return false; } return matchesRange$1(current, specifierValue); } var data$2 = require$$1$2; var isCoreModule$1 = function isCore(x, nodeVersion) { return has(data$2, x) && versionIncluded$1(nodeVersion, data$2[x]); }; var fs$i = require$$0__default["default"]; var path$l = require$$0__default$2["default"]; var caller$1 = caller$2; var nodeModulesPaths$1 = nodeModulesPaths$2; var normalizeOptions$2 = normalizeOptions$3; var isCore$2 = isCoreModule$1; var realpathFS$1 = fs$i.realpath && typeof fs$i.realpath.native === 'function' ? fs$i.realpath.native : fs$i.realpath; var defaultIsFile$1 = function isFile(file, cb) { fs$i.stat(file, function (err, stat) { if (!err) { return cb(null, stat.isFile() || stat.isFIFO()); } if (err.code === 'ENOENT' || err.code === 'ENOTDIR') return cb(null, false); return cb(err); }); }; var defaultIsDir$1 = function isDirectory(dir, cb) { fs$i.stat(dir, function (err, stat) { if (!err) { return cb(null, stat.isDirectory()); } if (err.code === 'ENOENT' || err.code === 'ENOTDIR') return cb(null, false); return cb(err); }); }; var defaultRealpath = function realpath(x, cb) { realpathFS$1(x, function (realpathErr, realPath) { if (realpathErr && realpathErr.code !== 'ENOENT') cb(realpathErr);else cb(null, realpathErr ? x : realPath); }); }; var maybeRealpath = function maybeRealpath(realpath, x, opts, cb) { if (opts && opts.preserveSymlinks === false) { realpath(x, cb); } else { cb(null, x); } }; var defaultReadPackage = function defaultReadPackage(readFile, pkgfile, cb) { readFile(pkgfile, function (readFileErr, body) { if (readFileErr) cb(readFileErr);else { try { var pkg = JSON.parse(body); cb(null, pkg); } catch (jsonErr) { cb(null); } } }); }; var getPackageCandidates$1 = function getPackageCandidates(x, start, opts) { var dirs = nodeModulesPaths$1(start, opts, x); for (var i = 0; i < dirs.length; i++) { dirs[i] = path$l.join(dirs[i], x); } return dirs; }; var async$8 = function resolve(x, options, callback) { var cb = callback; var opts = options; if (typeof options === 'function') { cb = opts; opts = {}; } if (typeof x !== 'string') { var err = new TypeError('Path must be a string.'); return process.nextTick(function () { cb(err); }); } opts = normalizeOptions$2(x, opts); var isFile = opts.isFile || defaultIsFile$1; var isDirectory = opts.isDirectory || defaultIsDir$1; var readFile = opts.readFile || fs$i.readFile; var realpath = opts.realpath || defaultRealpath; var readPackage = opts.readPackage || defaultReadPackage; if (opts.readFile && opts.readPackage) { var conflictErr = new TypeError('`readFile` and `readPackage` are mutually exclusive.'); return process.nextTick(function () { cb(conflictErr); }); } var packageIterator = opts.packageIterator; var extensions = opts.extensions || ['.js']; var includeCoreModules = opts.includeCoreModules !== false; var basedir = opts.basedir || path$l.dirname(caller$1()); var parent = opts.filename || basedir; opts.paths = opts.paths || []; // ensure that `basedir` is an absolute path at this point, resolving against the process' current working directory var absoluteStart = path$l.resolve(basedir); maybeRealpath(realpath, absoluteStart, opts, function (err, realStart) { if (err) cb(err);else init(realStart); }); var res; function init(basedir) { if (/^(?:\.\.?(?:\/|$)|\/|([A-Za-z]:)?[/\\])/.test(x)) { res = path$l.resolve(basedir, x); if (x === '.' || x === '..' || x.slice(-1) === '/') res += '/'; if (/\/$/.test(x) && res === basedir) { loadAsDirectory(res, opts.package, onfile); } else loadAsFile(res, opts.package, onfile); } else if (includeCoreModules && isCore$2(x)) { return cb(null, x); } else loadNodeModules(x, basedir, function (err, n, pkg) { if (err) cb(err);else if (n) { return maybeRealpath(realpath, n, opts, function (err, realN) { if (err) { cb(err); } else { cb(null, realN, pkg); } }); } else { var moduleError = new Error("Cannot find module '" + x + "' from '" + parent + "'"); moduleError.code = 'MODULE_NOT_FOUND'; cb(moduleError); } }); } function onfile(err, m, pkg) { if (err) cb(err);else if (m) cb(null, m, pkg);else loadAsDirectory(res, function (err, d, pkg) { if (err) cb(err);else if (d) { maybeRealpath(realpath, d, opts, function (err, realD) { if (err) { cb(err); } else { cb(null, realD, pkg); } }); } else { var moduleError = new Error("Cannot find module '" + x + "' from '" + parent + "'"); moduleError.code = 'MODULE_NOT_FOUND'; cb(moduleError); } }); } function loadAsFile(x, thePackage, callback) { var loadAsFilePackage = thePackage; var cb = callback; if (typeof loadAsFilePackage === 'function') { cb = loadAsFilePackage; loadAsFilePackage = undefined; } var exts = [''].concat(extensions); load(exts, x, loadAsFilePackage); function load(exts, x, loadPackage) { if (exts.length === 0) return cb(null, undefined, loadPackage); var file = x + exts[0]; var pkg = loadPackage; if (pkg) onpkg(null, pkg);else loadpkg(path$l.dirname(file), onpkg); function onpkg(err, pkg_, dir) { pkg = pkg_; if (err) return cb(err); if (dir && pkg && opts.pathFilter) { var rfile = path$l.relative(dir, file); var rel = rfile.slice(0, rfile.length - exts[0].length); var r = opts.pathFilter(pkg, x, rel); if (r) return load([''].concat(extensions.slice()), path$l.resolve(dir, r), pkg); } isFile(file, onex); } function onex(err, ex) { if (err) return cb(err); if (ex) return cb(null, file, pkg); load(exts.slice(1), x, pkg); } } } function loadpkg(dir, cb) { if (dir === '' || dir === '/') return cb(null); if (process.platform === 'win32' && /^\w:[/\\]*$/.test(dir)) { return cb(null); } if (/[/\\]node_modules[/\\]*$/.test(dir)) return cb(null); maybeRealpath(realpath, dir, opts, function (unwrapErr, pkgdir) { if (unwrapErr) return loadpkg(path$l.dirname(dir), cb); var pkgfile = path$l.join(pkgdir, 'package.json'); isFile(pkgfile, function (err, ex) { // on err, ex is false if (!ex) return loadpkg(path$l.dirname(dir), cb); readPackage(readFile, pkgfile, function (err, pkgParam) { if (err) cb(err); var pkg = pkgParam; if (pkg && opts.packageFilter) { pkg = opts.packageFilter(pkg, pkgfile); } cb(null, pkg, dir); }); }); }); } function loadAsDirectory(x, loadAsDirectoryPackage, callback) { var cb = callback; var fpkg = loadAsDirectoryPackage; if (typeof fpkg === 'function') { cb = fpkg; fpkg = opts.package; } maybeRealpath(realpath, x, opts, function (unwrapErr, pkgdir) { if (unwrapErr) return cb(unwrapErr); var pkgfile = path$l.join(pkgdir, 'package.json'); isFile(pkgfile, function (err, ex) { if (err) return cb(err); if (!ex) return loadAsFile(path$l.join(x, 'index'), fpkg, cb); readPackage(readFile, pkgfile, function (err, pkgParam) { if (err) return cb(err); var pkg = pkgParam; if (pkg && opts.packageFilter) { pkg = opts.packageFilter(pkg, pkgfile); } if (pkg && pkg.main) { if (typeof pkg.main !== 'string') { var mainError = new TypeError('package “' + pkg.name + '” `main` must be a string'); mainError.code = 'INVALID_PACKAGE_MAIN'; return cb(mainError); } if (pkg.main === '.' || pkg.main === './') { pkg.main = 'index'; } loadAsFile(path$l.resolve(x, pkg.main), pkg, function (err, m, pkg) { if (err) return cb(err); if (m) return cb(null, m, pkg); if (!pkg) return loadAsFile(path$l.join(x, 'index'), pkg, cb); var dir = path$l.resolve(x, pkg.main); loadAsDirectory(dir, pkg, function (err, n, pkg) { if (err) return cb(err); if (n) return cb(null, n, pkg); loadAsFile(path$l.join(x, 'index'), pkg, cb); }); }); return; } loadAsFile(path$l.join(x, '/index'), pkg, cb); }); }); }); } function processDirs(cb, dirs) { if (dirs.length === 0) return cb(null, undefined); var dir = dirs[0]; isDirectory(path$l.dirname(dir), isdir); function isdir(err, isdir) { if (err) return cb(err); if (!isdir) return processDirs(cb, dirs.slice(1)); loadAsFile(dir, opts.package, onfile); } function onfile(err, m, pkg) { if (err) return cb(err); if (m) return cb(null, m, pkg); loadAsDirectory(dir, opts.package, ondir); } function ondir(err, n, pkg) { if (err) return cb(err); if (n) return cb(null, n, pkg); processDirs(cb, dirs.slice(1)); } } function loadNodeModules(x, start, cb) { var thunk = function () { return getPackageCandidates$1(x, start, opts); }; processDirs(cb, packageIterator ? packageIterator(x, start, thunk, opts) : thunk()); } }; var assert$3 = true; var async_hooks = ">= 8"; var buffer_ieee754 = "< 0.9.7"; var buffer = true; var child_process = true; var cluster = true; var console$1 = true; var constants$5 = true; var crypto = true; var _debug_agent = ">= 1 && < 8"; var _debugger = "< 8"; var dgram = true; var diagnostics_channel = ">= 15.1"; var dns = true; var domain = ">= 0.7.12"; var events = true; var freelist = "< 6"; var fs$h = true; var _http_agent = ">= 0.11.1"; var _http_client = ">= 0.11.1"; var _http_common = ">= 0.11.1"; var _http_incoming = ">= 0.11.1"; var _http_outgoing = ">= 0.11.1"; var _http_server = ">= 0.11.1"; var http = true; var http2 = ">= 8.8"; var https = true; var inspector = ">= 8.0.0"; var _linklist = "< 8"; var module$2 = true; var net = true; var os = true; var path$k = true; var perf_hooks = ">= 8.5"; var process$1 = ">= 1"; var punycode = true; var querystring = true; var readline = true; var repl = true; var smalloc = ">= 0.11.5 && < 3"; var _stream_duplex = ">= 0.9.4"; var _stream_transform = ">= 0.9.4"; var _stream_wrap = ">= 1.4.1"; var _stream_passthrough = ">= 0.9.4"; var _stream_readable = ">= 0.9.4"; var _stream_writable = ">= 0.9.4"; var stream$5 = true; var string_decoder = true; var sys = [ ">= 0.6 && < 0.7", ">= 0.8" ]; var timers = true; var _tls_common = ">= 0.11.13"; var _tls_legacy = ">= 0.11.3 && < 10"; var _tls_wrap = ">= 0.11.3"; var tls = true; var trace_events = ">= 10"; var tty = true; var url = true; var util$4 = true; var v8 = ">= 1"; var vm = true; var wasi = ">= 13.4 && < 13.5"; var worker_threads = ">= 11.7"; var zlib = true; var require$$0$3 = { assert: assert$3, "assert/strict": ">= 15", async_hooks: async_hooks, buffer_ieee754: buffer_ieee754, buffer: buffer, child_process: child_process, cluster: cluster, console: console$1, constants: constants$5, crypto: crypto, _debug_agent: _debug_agent, _debugger: _debugger, dgram: dgram, diagnostics_channel: diagnostics_channel, dns: dns, "dns/promises": ">= 15", domain: domain, events: events, freelist: freelist, fs: fs$h, "fs/promises": [ ">= 10 && < 10.1", ">= 14" ], _http_agent: _http_agent, _http_client: _http_client, _http_common: _http_common, _http_incoming: _http_incoming, _http_outgoing: _http_outgoing, _http_server: _http_server, http: http, http2: http2, https: https, inspector: inspector, _linklist: _linklist, module: module$2, net: net, "node-inspect/lib/_inspect": ">= 7.6.0 && < 12", "node-inspect/lib/internal/inspect_client": ">= 7.6.0 && < 12", "node-inspect/lib/internal/inspect_repl": ">= 7.6.0 && < 12", os: os, path: path$k, "path/posix": ">= 15.3", "path/win32": ">= 15.3", perf_hooks: perf_hooks, process: process$1, punycode: punycode, querystring: querystring, readline: readline, repl: repl, smalloc: smalloc, _stream_duplex: _stream_duplex, _stream_transform: _stream_transform, _stream_wrap: _stream_wrap, _stream_passthrough: _stream_passthrough, _stream_readable: _stream_readable, _stream_writable: _stream_writable, stream: stream$5, "stream/promises": ">= 15", string_decoder: string_decoder, sys: sys, timers: timers, "timers/promises": ">= 15", _tls_common: _tls_common, _tls_legacy: _tls_legacy, _tls_wrap: _tls_wrap, tls: tls, trace_events: trace_events, tty: tty, url: url, util: util$4, "util/types": ">= 15.3", "v8/tools/arguments": ">= 10 && < 12", "v8/tools/codemap": [ ">= 4.4.0 && < 5", ">= 5.2.0 && < 12" ], "v8/tools/consarray": [ ">= 4.4.0 && < 5", ">= 5.2.0 && < 12" ], "v8/tools/csvparser": [ ">= 4.4.0 && < 5", ">= 5.2.0 && < 12" ], "v8/tools/logreader": [ ">= 4.4.0 && < 5", ">= 5.2.0 && < 12" ], "v8/tools/profile_view": [ ">= 4.4.0 && < 5", ">= 5.2.0 && < 12" ], "v8/tools/splaytree": [ ">= 4.4.0 && < 5", ">= 5.2.0 && < 12" ], v8: v8, vm: vm, wasi: wasi, worker_threads: worker_threads, zlib: zlib }; var current = process.versions && process.versions.node && process.versions.node.split('.') || []; function specifierIncluded(specifier) { var parts = specifier.split(' '); var op = parts.length > 1 ? parts[0] : '='; var versionParts = (parts.length > 1 ? parts[1] : parts[0]).split('.'); for (var i = 0; i < 3; ++i) { var cur = parseInt(current[i] || 0, 10); var ver = parseInt(versionParts[i] || 0, 10); if (cur === ver) { continue; // eslint-disable-line no-restricted-syntax, no-continue } if (op === '<') { return cur < ver; } else if (op === '>=') { return cur >= ver; } else { return false; } } return op === '>='; } function matchesRange(range) { var specifiers = range.split(/ ?&& ?/); if (specifiers.length === 0) { return false; } for (var i = 0; i < specifiers.length; ++i) { if (!specifierIncluded(specifiers[i])) { return false; } } return true; } function versionIncluded(specifierValue) { if (typeof specifierValue === 'boolean') { return specifierValue; } if (specifierValue && typeof specifierValue === 'object') { for (var i = 0; i < specifierValue.length; ++i) { if (matchesRange(specifierValue[i])) { return true; } } return false; } return matchesRange(specifierValue); } var data$1 = require$$0$3; var core$1 = {}; for (var mod in data$1) { // eslint-disable-line no-restricted-syntax if (Object.prototype.hasOwnProperty.call(data$1, mod)) { core$1[mod] = versionIncluded(data$1[mod]); } } var core_1 = core$1; var isCoreModule = isCoreModule$1; var isCore$1 = function isCore(x) { return isCoreModule(x); }; var isCore = isCoreModule$1; var fs$g = require$$0__default["default"]; var path$j = require$$0__default$2["default"]; var caller = caller$2; var nodeModulesPaths = nodeModulesPaths$2; var normalizeOptions$1 = normalizeOptions$3; var realpathFS = fs$g.realpathSync && typeof fs$g.realpathSync.native === 'function' ? fs$g.realpathSync.native : fs$g.realpathSync; var defaultIsFile = function isFile(file) { try { var stat = fs$g.statSync(file); } catch (e) { if (e && (e.code === 'ENOENT' || e.code === 'ENOTDIR')) return false; throw e; } return stat.isFile() || stat.isFIFO(); }; var defaultIsDir = function isDirectory(dir) { try { var stat = fs$g.statSync(dir); } catch (e) { if (e && (e.code === 'ENOENT' || e.code === 'ENOTDIR')) return false; throw e; } return stat.isDirectory(); }; var defaultRealpathSync = function realpathSync(x) { try { return realpathFS(x); } catch (realpathErr) { if (realpathErr.code !== 'ENOENT') { throw realpathErr; } } return x; }; var maybeRealpathSync = function maybeRealpathSync(realpathSync, x, opts) { if (opts && opts.preserveSymlinks === false) { return realpathSync(x); } return x; }; var defaultReadPackageSync = function defaultReadPackageSync(readFileSync, pkgfile) { var body = readFileSync(pkgfile); try { var pkg = JSON.parse(body); return pkg; } catch (jsonErr) {} }; var getPackageCandidates = function getPackageCandidates(x, start, opts) { var dirs = nodeModulesPaths(start, opts, x); for (var i = 0; i < dirs.length; i++) { dirs[i] = path$j.join(dirs[i], x); } return dirs; }; var sync$8 = function resolveSync(x, options) { if (typeof x !== 'string') { throw new TypeError('Path must be a string.'); } var opts = normalizeOptions$1(x, options); var isFile = opts.isFile || defaultIsFile; var readFileSync = opts.readFileSync || fs$g.readFileSync; var isDirectory = opts.isDirectory || defaultIsDir; var realpathSync = opts.realpathSync || defaultRealpathSync; var readPackageSync = opts.readPackageSync || defaultReadPackageSync; if (opts.readFileSync && opts.readPackageSync) { throw new TypeError('`readFileSync` and `readPackageSync` are mutually exclusive.'); } var packageIterator = opts.packageIterator; var extensions = opts.extensions || ['.js']; var includeCoreModules = opts.includeCoreModules !== false; var basedir = opts.basedir || path$j.dirname(caller()); var parent = opts.filename || basedir; opts.paths = opts.paths || []; // ensure that `basedir` is an absolute path at this point, resolving against the process' current working directory var absoluteStart = maybeRealpathSync(realpathSync, path$j.resolve(basedir), opts); if (/^(?:\.\.?(?:\/|$)|\/|([A-Za-z]:)?[/\\])/.test(x)) { var res = path$j.resolve(absoluteStart, x); if (x === '.' || x === '..' || x.slice(-1) === '/') res += '/'; var m = loadAsFileSync(res) || loadAsDirectorySync(res); if (m) return maybeRealpathSync(realpathSync, m, opts); } else if (includeCoreModules && isCore(x)) { return x; } else { var n = loadNodeModulesSync(x, absoluteStart); if (n) return maybeRealpathSync(realpathSync, n, opts); } var err = new Error("Cannot find module '" + x + "' from '" + parent + "'"); err.code = 'MODULE_NOT_FOUND'; throw err; function loadAsFileSync(x) { var pkg = loadpkg(path$j.dirname(x)); if (pkg && pkg.dir && pkg.pkg && opts.pathFilter) { var rfile = path$j.relative(pkg.dir, x); var r = opts.pathFilter(pkg.pkg, x, rfile); if (r) { x = path$j.resolve(pkg.dir, r); // eslint-disable-line no-param-reassign } } if (isFile(x)) { return x; } for (var i = 0; i < extensions.length; i++) { var file = x + extensions[i]; if (isFile(file)) { return file; } } } function loadpkg(dir) { if (dir === '' || dir === '/') return; if (process.platform === 'win32' && /^\w:[/\\]*$/.test(dir)) { return; } if (/[/\\]node_modules[/\\]*$/.test(dir)) return; var pkgfile = path$j.join(maybeRealpathSync(realpathSync, dir, opts), 'package.json'); if (!isFile(pkgfile)) { return loadpkg(path$j.dirname(dir)); } var pkg = readPackageSync(readFileSync, pkgfile); if (pkg && opts.packageFilter) { // v2 will pass pkgfile pkg = opts.packageFilter(pkg, /*pkgfile,*/ dir); // eslint-disable-line spaced-comment } return { pkg: pkg, dir: dir }; } function loadAsDirectorySync(x) { var pkgfile = path$j.join(maybeRealpathSync(realpathSync, x, opts), '/package.json'); if (isFile(pkgfile)) { try { var pkg = readPackageSync(readFileSync, pkgfile); } catch (e) {} if (pkg && opts.packageFilter) { // v2 will pass pkgfile pkg = opts.packageFilter(pkg, /*pkgfile,*/ x); // eslint-disable-line spaced-comment } if (pkg && pkg.main) { if (typeof pkg.main !== 'string') { var mainError = new TypeError('package “' + pkg.name + '” `main` must be a string'); mainError.code = 'INVALID_PACKAGE_MAIN'; throw mainError; } if (pkg.main === '.' || pkg.main === './') { pkg.main = 'index'; } try { var m = loadAsFileSync(path$j.resolve(x, pkg.main)); if (m) return m; var n = loadAsDirectorySync(path$j.resolve(x, pkg.main)); if (n) return n; } catch (e) {} } } return loadAsFileSync(path$j.join(x, '/index')); } function loadNodeModulesSync(x, start) { var thunk = function () { return getPackageCandidates(x, start, opts); }; var dirs = packageIterator ? packageIterator(x, start, thunk, opts) : thunk(); for (var i = 0; i < dirs.length; i++) { var dir = dirs[i]; if (isDirectory(path$j.dirname(dir))) { var m = loadAsFileSync(dir); if (m) return m; var n = loadAsDirectorySync(dir); if (n) return n; } } } }; var async$7 = async$8; async$7.core = core_1; async$7.isCore = isCore$1; async$7.sync = sync$8; var resolve$3 = async$7; let { resolve: resolve$2 } = require; // In the VS Code and Atom extensions `require` is overridden and `require.resolve` doesn't support the 2nd argument. if (resolve$2.length === 1 || process.env.PRETTIER_FALLBACK_RESOLVE) { // @ts-expect-error resolve$2 = (id, options) => { let basedir; if (options && options.paths && options.paths.length === 1) { basedir = options.paths[0]; } return resolve$3.sync(id, { basedir }); }; } var resolve_1 = resolve$2; var src$1 = {}; var semver$1 = {exports: {}}; (function (module, exports) { exports = module.exports = SemVer; var debug; /* istanbul ignore next */ if (typeof process === 'object' && process.env && process.env.NODE_DEBUG && /\bsemver\b/i.test(process.env.NODE_DEBUG)) { debug = function () { var args = Array.prototype.slice.call(arguments, 0); args.unshift('SEMVER'); console.log.apply(console, args); }; } else { debug = function () {}; } // Note: this is the semver.org version of the spec that it implements // Not necessarily the package version of this code. exports.SEMVER_SPEC_VERSION = '2.0.0'; var MAX_LENGTH = 256; var MAX_SAFE_INTEGER = Number.MAX_SAFE_INTEGER || /* istanbul ignore next */ 9007199254740991; // Max safe segment length for coercion. var MAX_SAFE_COMPONENT_LENGTH = 16; // The actual regexps go on exports.re var re = exports.re = []; var src = exports.src = []; var R = 0; // The following Regular Expressions can be used for tokenizing, // validating, and parsing SemVer version strings. // ## Numeric Identifier // A single `0`, or a non-zero digit followed by zero or more digits. var NUMERICIDENTIFIER = R++; src[NUMERICIDENTIFIER] = '0|[1-9]\\d*'; var NUMERICIDENTIFIERLOOSE = R++; src[NUMERICIDENTIFIERLOOSE] = '[0-9]+'; // ## Non-numeric Identifier // Zero or more digits, followed by a letter or hyphen, and then zero or // more letters, digits, or hyphens. var NONNUMERICIDENTIFIER = R++; src[NONNUMERICIDENTIFIER] = '\\d*[a-zA-Z-][a-zA-Z0-9-]*'; // ## Main Version // Three dot-separated numeric identifiers. var MAINVERSION = R++; src[MAINVERSION] = '(' + src[NUMERICIDENTIFIER] + ')\\.' + '(' + src[NUMERICIDENTIFIER] + ')\\.' + '(' + src[NUMERICIDENTIFIER] + ')'; var MAINVERSIONLOOSE = R++; src[MAINVERSIONLOOSE] = '(' + src[NUMERICIDENTIFIERLOOSE] + ')\\.' + '(' + src[NUMERICIDENTIFIERLOOSE] + ')\\.' + '(' + src[NUMERICIDENTIFIERLOOSE] + ')'; // ## Pre-release Version Identifier // A numeric identifier, or a non-numeric identifier. var PRERELEASEIDENTIFIER = R++; src[PRERELEASEIDENTIFIER] = '(?:' + src[NUMERICIDENTIFIER] + '|' + src[NONNUMERICIDENTIFIER] + ')'; var PRERELEASEIDENTIFIERLOOSE = R++; src[PRERELEASEIDENTIFIERLOOSE] = '(?:' + src[NUMERICIDENTIFIERLOOSE] + '|' + src[NONNUMERICIDENTIFIER] + ')'; // ## Pre-release Version // Hyphen, followed by one or more dot-separated pre-release version // identifiers. var PRERELEASE = R++; src[PRERELEASE] = '(?:-(' + src[PRERELEASEIDENTIFIER] + '(?:\\.' + src[PRERELEASEIDENTIFIER] + ')*))'; var PRERELEASELOOSE = R++; src[PRERELEASELOOSE] = '(?:-?(' + src[PRERELEASEIDENTIFIERLOOSE] + '(?:\\.' + src[PRERELEASEIDENTIFIERLOOSE] + ')*))'; // ## Build Metadata Identifier // Any combination of digits, letters, or hyphens. var BUILDIDENTIFIER = R++; src[BUILDIDENTIFIER] = '[0-9A-Za-z-]+'; // ## Build Metadata // Plus sign, followed by one or more period-separated build metadata // identifiers. var BUILD = R++; src[BUILD] = '(?:\\+(' + src[BUILDIDENTIFIER] + '(?:\\.' + src[BUILDIDENTIFIER] + ')*))'; // ## Full Version String // A main version, followed optionally by a pre-release version and // build metadata. // Note that the only major, minor, patch, and pre-release sections of // the version string are capturing groups. The build metadata is not a // capturing group, because it should not ever be used in version // comparison. var FULL = R++; var FULLPLAIN = 'v?' + src[MAINVERSION] + src[PRERELEASE] + '?' + src[BUILD] + '?'; src[FULL] = '^' + FULLPLAIN + '$'; // like full, but allows v1.2.3 and =1.2.3, which people do sometimes. // also, 1.0.0alpha1 (prerelease without the hyphen) which is pretty // common in the npm registry. var LOOSEPLAIN = '[v=\\s]*' + src[MAINVERSIONLOOSE] + src[PRERELEASELOOSE] + '?' + src[BUILD] + '?'; var LOOSE = R++; src[LOOSE] = '^' + LOOSEPLAIN + '$'; var GTLT = R++; src[GTLT] = '((?:<|>)?=?)'; // Something like "2.*" or "1.2.x". // Note that "x.x" is a valid xRange identifer, meaning "any version" // Only the first item is strictly required. var XRANGEIDENTIFIERLOOSE = R++; src[XRANGEIDENTIFIERLOOSE] = src[NUMERICIDENTIFIERLOOSE] + '|x|X|\\*'; var XRANGEIDENTIFIER = R++; src[XRANGEIDENTIFIER] = src[NUMERICIDENTIFIER] + '|x|X|\\*'; var XRANGEPLAIN = R++; src[XRANGEPLAIN] = '[v=\\s]*(' + src[XRANGEIDENTIFIER] + ')' + '(?:\\.(' + src[XRANGEIDENTIFIER] + ')' + '(?:\\.(' + src[XRANGEIDENTIFIER] + ')' + '(?:' + src[PRERELEASE] + ')?' + src[BUILD] + '?' + ')?)?'; var XRANGEPLAINLOOSE = R++; src[XRANGEPLAINLOOSE] = '[v=\\s]*(' + src[XRANGEIDENTIFIERLOOSE] + ')' + '(?:\\.(' + src[XRANGEIDENTIFIERLOOSE] + ')' + '(?:\\.(' + src[XRANGEIDENTIFIERLOOSE] + ')' + '(?:' + src[PRERELEASELOOSE] + ')?' + src[BUILD] + '?' + ')?)?'; var XRANGE = R++; src[XRANGE] = '^' + src[GTLT] + '\\s*' + src[XRANGEPLAIN] + '$'; var XRANGELOOSE = R++; src[XRANGELOOSE] = '^' + src[GTLT] + '\\s*' + src[XRANGEPLAINLOOSE] + '$'; // Coercion. // Extract anything that could conceivably be a part of a valid semver var COERCE = R++; src[COERCE] = '(?:^|[^\\d])' + '(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '})' + '(?:\\.(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '}))?' + '(?:\\.(\\d{1,' + MAX_SAFE_COMPONENT_LENGTH + '}))?' + '(?:$|[^\\d])'; // Tilde ranges. // Meaning is "reasonably at or greater than" var LONETILDE = R++; src[LONETILDE] = '(?:~>?)'; var TILDETRIM = R++; src[TILDETRIM] = '(\\s*)' + src[LONETILDE] + '\\s+'; re[TILDETRIM] = new RegExp(src[TILDETRIM], 'g'); var tildeTrimReplace = '$1~'; var TILDE = R++; src[TILDE] = '^' + src[LONETILDE] + src[XRANGEPLAIN] + '$'; var TILDELOOSE = R++; src[TILDELOOSE] = '^' + src[LONETILDE] + src[XRANGEPLAINLOOSE] + '$'; // Caret ranges. // Meaning is "at least and backwards compatible with" var LONECARET = R++; src[LONECARET] = '(?:\\^)'; var CARETTRIM = R++; src[CARETTRIM] = '(\\s*)' + src[LONECARET] + '\\s+'; re[CARETTRIM] = new RegExp(src[CARETTRIM], 'g'); var caretTrimReplace = '$1^'; var CARET = R++; src[CARET] = '^' + src[LONECARET] + src[XRANGEPLAIN] + '$'; var CARETLOOSE = R++; src[CARETLOOSE] = '^' + src[LONECARET] + src[XRANGEPLAINLOOSE] + '$'; // A simple gt/lt/eq thing, or just "" to indicate "any version" var COMPARATORLOOSE = R++; src[COMPARATORLOOSE] = '^' + src[GTLT] + '\\s*(' + LOOSEPLAIN + ')$|^$'; var COMPARATOR = R++; src[COMPARATOR] = '^' + src[GTLT] + '\\s*(' + FULLPLAIN + ')$|^$'; // An expression to strip any whitespace between the gtlt and the thing // it modifies, so that `> 1.2.3` ==> `>1.2.3` var COMPARATORTRIM = R++; src[COMPARATORTRIM] = '(\\s*)' + src[GTLT] + '\\s*(' + LOOSEPLAIN + '|' + src[XRANGEPLAIN] + ')'; // this one has to use the /g flag re[COMPARATORTRIM] = new RegExp(src[COMPARATORTRIM], 'g'); var comparatorTrimReplace = '$1$2$3'; // Something like `1.2.3 - 1.2.4` // Note that these all use the loose form, because they'll be // checked against either the strict or loose comparator form // later. var HYPHENRANGE = R++; src[HYPHENRANGE] = '^\\s*(' + src[XRANGEPLAIN] + ')' + '\\s+-\\s+' + '(' + src[XRANGEPLAIN] + ')' + '\\s*$'; var HYPHENRANGELOOSE = R++; src[HYPHENRANGELOOSE] = '^\\s*(' + src[XRANGEPLAINLOOSE] + ')' + '\\s+-\\s+' + '(' + src[XRANGEPLAINLOOSE] + ')' + '\\s*$'; // Star ranges basically just allow anything at all. var STAR = R++; src[STAR] = '(<|>)?=?\\s*\\*'; // Compile to actual regexp objects. // All are flag-free, unless they were created above with a flag. for (var i = 0; i < R; i++) { debug(i, src[i]); if (!re[i]) { re[i] = new RegExp(src[i]); } } exports.parse = parse; function parse(version, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false }; } if (version instanceof SemVer) { return version; } if (typeof version !== 'string') { return null; } if (version.length > MAX_LENGTH) { return null; } var r = options.loose ? re[LOOSE] : re[FULL]; if (!r.test(version)) { return null; } try { return new SemVer(version, options); } catch (er) { return null; } } exports.valid = valid; function valid(version, options) { var v = parse(version, options); return v ? v.version : null; } exports.clean = clean; function clean(version, options) { var s = parse(version.trim().replace(/^[=v]+/, ''), options); return s ? s.version : null; } exports.SemVer = SemVer; function SemVer(version, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false }; } if (version instanceof SemVer) { if (version.loose === options.loose) { return version; } else { version = version.version; } } else if (typeof version !== 'string') { throw new TypeError('Invalid Version: ' + version); } if (version.length > MAX_LENGTH) { throw new TypeError('version is longer than ' + MAX_LENGTH + ' characters'); } if (!(this instanceof SemVer)) { return new SemVer(version, options); } debug('SemVer', version, options); this.options = options; this.loose = !!options.loose; var m = version.trim().match(options.loose ? re[LOOSE] : re[FULL]); if (!m) { throw new TypeError('Invalid Version: ' + version); } this.raw = version; // these are actually numbers this.major = +m[1]; this.minor = +m[2]; this.patch = +m[3]; if (this.major > MAX_SAFE_INTEGER || this.major < 0) { throw new TypeError('Invalid major version'); } if (this.minor > MAX_SAFE_INTEGER || this.minor < 0) { throw new TypeError('Invalid minor version'); } if (this.patch > MAX_SAFE_INTEGER || this.patch < 0) { throw new TypeError('Invalid patch version'); } // numberify any prerelease numeric ids if (!m[4]) { this.prerelease = []; } else { this.prerelease = m[4].split('.').map(function (id) { if (/^[0-9]+$/.test(id)) { var num = +id; if (num >= 0 && num < MAX_SAFE_INTEGER) { return num; } } return id; }); } this.build = m[5] ? m[5].split('.') : []; this.format(); } SemVer.prototype.format = function () { this.version = this.major + '.' + this.minor + '.' + this.patch; if (this.prerelease.length) { this.version += '-' + this.prerelease.join('.'); } return this.version; }; SemVer.prototype.toString = function () { return this.version; }; SemVer.prototype.compare = function (other) { debug('SemVer.compare', this.version, this.options, other); if (!(other instanceof SemVer)) { other = new SemVer(other, this.options); } return this.compareMain(other) || this.comparePre(other); }; SemVer.prototype.compareMain = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options); } return compareIdentifiers(this.major, other.major) || compareIdentifiers(this.minor, other.minor) || compareIdentifiers(this.patch, other.patch); }; SemVer.prototype.comparePre = function (other) { if (!(other instanceof SemVer)) { other = new SemVer(other, this.options); } // NOT having a prerelease is > having one if (this.prerelease.length && !other.prerelease.length) { return -1; } else if (!this.prerelease.length && other.prerelease.length) { return 1; } else if (!this.prerelease.length && !other.prerelease.length) { return 0; } var i = 0; do { var a = this.prerelease[i]; var b = other.prerelease[i]; debug('prerelease compare', i, a, b); if (a === undefined && b === undefined) { return 0; } else if (b === undefined) { return 1; } else if (a === undefined) { return -1; } else if (a === b) { continue; } else { return compareIdentifiers(a, b); } } while (++i); }; // preminor will bump the version up to the next minor release, and immediately // down to pre-release. premajor and prepatch work the same way. SemVer.prototype.inc = function (release, identifier) { switch (release) { case 'premajor': this.prerelease.length = 0; this.patch = 0; this.minor = 0; this.major++; this.inc('pre', identifier); break; case 'preminor': this.prerelease.length = 0; this.patch = 0; this.minor++; this.inc('pre', identifier); break; case 'prepatch': // If this is already a prerelease, it will bump to the next version // drop any prereleases that might already exist, since they are not // relevant at this point. this.prerelease.length = 0; this.inc('patch', identifier); this.inc('pre', identifier); break; // If the input is a non-prerelease version, this acts the same as // prepatch. case 'prerelease': if (this.prerelease.length === 0) { this.inc('patch', identifier); } this.inc('pre', identifier); break; case 'major': // If this is a pre-major version, bump up to the same major version. // Otherwise increment major. // 1.0.0-5 bumps to 1.0.0 // 1.1.0 bumps to 2.0.0 if (this.minor !== 0 || this.patch !== 0 || this.prerelease.length === 0) { this.major++; } this.minor = 0; this.patch = 0; this.prerelease = []; break; case 'minor': // If this is a pre-minor version, bump up to the same minor version. // Otherwise increment minor. // 1.2.0-5 bumps to 1.2.0 // 1.2.1 bumps to 1.3.0 if (this.patch !== 0 || this.prerelease.length === 0) { this.minor++; } this.patch = 0; this.prerelease = []; break; case 'patch': // If this is not a pre-release version, it will increment the patch. // If it is a pre-release it will bump up to the same patch version. // 1.2.0-5 patches to 1.2.0 // 1.2.0 patches to 1.2.1 if (this.prerelease.length === 0) { this.patch++; } this.prerelease = []; break; // This probably shouldn't be used publicly. // 1.0.0 "pre" would become 1.0.0-0 which is the wrong direction. case 'pre': if (this.prerelease.length === 0) { this.prerelease = [0]; } else { var i = this.prerelease.length; while (--i >= 0) { if (typeof this.prerelease[i] === 'number') { this.prerelease[i]++; i = -2; } } if (i === -1) { // didn't increment anything this.prerelease.push(0); } } if (identifier) { // 1.2.0-beta.1 bumps to 1.2.0-beta.2, // 1.2.0-beta.fooblz or 1.2.0-beta bumps to 1.2.0-beta.0 if (this.prerelease[0] === identifier) { if (isNaN(this.prerelease[1])) { this.prerelease = [identifier, 0]; } } else { this.prerelease = [identifier, 0]; } } break; default: throw new Error('invalid increment argument: ' + release); } this.format(); this.raw = this.version; return this; }; exports.inc = inc; function inc(version, release, loose, identifier) { if (typeof loose === 'string') { identifier = loose; loose = undefined; } try { return new SemVer(version, loose).inc(release, identifier).version; } catch (er) { return null; } } exports.diff = diff; function diff(version1, version2) { if (eq(version1, version2)) { return null; } else { var v1 = parse(version1); var v2 = parse(version2); var prefix = ''; if (v1.prerelease.length || v2.prerelease.length) { prefix = 'pre'; var defaultResult = 'prerelease'; } for (var key in v1) { if (key === 'major' || key === 'minor' || key === 'patch') { if (v1[key] !== v2[key]) { return prefix + key; } } } return defaultResult; // may be undefined } } exports.compareIdentifiers = compareIdentifiers; var numeric = /^[0-9]+$/; function compareIdentifiers(a, b) { var anum = numeric.test(a); var bnum = numeric.test(b); if (anum && bnum) { a = +a; b = +b; } return a === b ? 0 : anum && !bnum ? -1 : bnum && !anum ? 1 : a < b ? -1 : 1; } exports.rcompareIdentifiers = rcompareIdentifiers; function rcompareIdentifiers(a, b) { return compareIdentifiers(b, a); } exports.major = major; function major(a, loose) { return new SemVer(a, loose).major; } exports.minor = minor; function minor(a, loose) { return new SemVer(a, loose).minor; } exports.patch = patch; function patch(a, loose) { return new SemVer(a, loose).patch; } exports.compare = compare; function compare(a, b, loose) { return new SemVer(a, loose).compare(new SemVer(b, loose)); } exports.compareLoose = compareLoose; function compareLoose(a, b) { return compare(a, b, true); } exports.rcompare = rcompare; function rcompare(a, b, loose) { return compare(b, a, loose); } exports.sort = sort; function sort(list, loose) { return list.sort(function (a, b) { return exports.compare(a, b, loose); }); } exports.rsort = rsort; function rsort(list, loose) { return list.sort(function (a, b) { return exports.rcompare(a, b, loose); }); } exports.gt = gt; function gt(a, b, loose) { return compare(a, b, loose) > 0; } exports.lt = lt; function lt(a, b, loose) { return compare(a, b, loose) < 0; } exports.eq = eq; function eq(a, b, loose) { return compare(a, b, loose) === 0; } exports.neq = neq; function neq(a, b, loose) { return compare(a, b, loose) !== 0; } exports.gte = gte; function gte(a, b, loose) { return compare(a, b, loose) >= 0; } exports.lte = lte; function lte(a, b, loose) { return compare(a, b, loose) <= 0; } exports.cmp = cmp; function cmp(a, op, b, loose) { switch (op) { case '===': if (typeof a === 'object') a = a.version; if (typeof b === 'object') b = b.version; return a === b; case '!==': if (typeof a === 'object') a = a.version; if (typeof b === 'object') b = b.version; return a !== b; case '': case '=': case '==': return eq(a, b, loose); case '!=': return neq(a, b, loose); case '>': return gt(a, b, loose); case '>=': return gte(a, b, loose); case '<': return lt(a, b, loose); case '<=': return lte(a, b, loose); default: throw new TypeError('Invalid operator: ' + op); } } exports.Comparator = Comparator; function Comparator(comp, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false }; } if (comp instanceof Comparator) { if (comp.loose === !!options.loose) { return comp; } else { comp = comp.value; } } if (!(this instanceof Comparator)) { return new Comparator(comp, options); } debug('comparator', comp, options); this.options = options; this.loose = !!options.loose; this.parse(comp); if (this.semver === ANY) { this.value = ''; } else { this.value = this.operator + this.semver.version; } debug('comp', this); } var ANY = {}; Comparator.prototype.parse = function (comp) { var r = this.options.loose ? re[COMPARATORLOOSE] : re[COMPARATOR]; var m = comp.match(r); if (!m) { throw new TypeError('Invalid comparator: ' + comp); } this.operator = m[1]; if (this.operator === '=') { this.operator = ''; } // if it literally is just '>' or '' then allow anything. if (!m[2]) { this.semver = ANY; } else { this.semver = new SemVer(m[2], this.options.loose); } }; Comparator.prototype.toString = function () { return this.value; }; Comparator.prototype.test = function (version) { debug('Comparator.test', version, this.options.loose); if (this.semver === ANY) { return true; } if (typeof version === 'string') { version = new SemVer(version, this.options); } return cmp(version, this.operator, this.semver, this.options); }; Comparator.prototype.intersects = function (comp, options) { if (!(comp instanceof Comparator)) { throw new TypeError('a Comparator is required'); } if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false }; } var rangeTmp; if (this.operator === '') { rangeTmp = new Range(comp.value, options); return satisfies(this.value, rangeTmp, options); } else if (comp.operator === '') { rangeTmp = new Range(this.value, options); return satisfies(comp.semver, rangeTmp, options); } var sameDirectionIncreasing = (this.operator === '>=' || this.operator === '>') && (comp.operator === '>=' || comp.operator === '>'); var sameDirectionDecreasing = (this.operator === '<=' || this.operator === '<') && (comp.operator === '<=' || comp.operator === '<'); var sameSemVer = this.semver.version === comp.semver.version; var differentDirectionsInclusive = (this.operator === '>=' || this.operator === '<=') && (comp.operator === '>=' || comp.operator === '<='); var oppositeDirectionsLessThan = cmp(this.semver, '<', comp.semver, options) && (this.operator === '>=' || this.operator === '>') && (comp.operator === '<=' || comp.operator === '<'); var oppositeDirectionsGreaterThan = cmp(this.semver, '>', comp.semver, options) && (this.operator === '<=' || this.operator === '<') && (comp.operator === '>=' || comp.operator === '>'); return sameDirectionIncreasing || sameDirectionDecreasing || sameSemVer && differentDirectionsInclusive || oppositeDirectionsLessThan || oppositeDirectionsGreaterThan; }; exports.Range = Range; function Range(range, options) { if (!options || typeof options !== 'object') { options = { loose: !!options, includePrerelease: false }; } if (range instanceof Range) { if (range.loose === !!options.loose && range.includePrerelease === !!options.includePrerelease) { return range; } else { return new Range(range.raw, options); } } if (range instanceof Comparator) { return new Range(range.value, options); } if (!(this instanceof Range)) { return new Range(range, options); } this.options = options; this.loose = !!options.loose; this.includePrerelease = !!options.includePrerelease; // First, split based on boolean or || this.raw = range; this.set = range.split(/\s*\|\|\s*/).map(function (range) { return this.parseRange(range.trim()); }, this).filter(function (c) { // throw out any that are not relevant for whatever reason return c.length; }); if (!this.set.length) { throw new TypeError('Invalid SemVer Range: ' + range); } this.format(); } Range.prototype.format = function () { this.range = this.set.map(function (comps) { return comps.join(' ').trim(); }).join('||').trim(); return this.range; }; Range.prototype.toString = function () { return this.range; }; Range.prototype.parseRange = function (range) { var loose = this.options.loose; range = range.trim(); // `1.2.3 - 1.2.4` => `>=1.2.3 <=1.2.4` var hr = loose ? re[HYPHENRANGELOOSE] : re[HYPHENRANGE]; range = range.replace(hr, hyphenReplace); debug('hyphen replace', range); // `> 1.2.3 < 1.2.5` => `>1.2.3 <1.2.5` range = range.replace(re[COMPARATORTRIM], comparatorTrimReplace); debug('comparator trim', range, re[COMPARATORTRIM]); // `~ 1.2.3` => `~1.2.3` range = range.replace(re[TILDETRIM], tildeTrimReplace); // `^ 1.2.3` => `^1.2.3` range = range.replace(re[CARETTRIM], caretTrimReplace); // normalize spaces range = range.split(/\s+/).join(' '); // At this point, the range is completely trimmed and // ready to be split into comparators. var compRe = loose ? re[COMPARATORLOOSE] : re[COMPARATOR]; var set = range.split(' ').map(function (comp) { return parseComparator(comp, this.options); }, this).join(' ').split(/\s+/); if (this.options.loose) { // in loose mode, throw out any that are not valid comparators set = set.filter(function (comp) { return !!comp.match(compRe); }); } set = set.map(function (comp) { return new Comparator(comp, this.options); }, this); return set; }; Range.prototype.intersects = function (range, options) { if (!(range instanceof Range)) { throw new TypeError('a Range is required'); } return this.set.some(function (thisComparators) { return thisComparators.every(function (thisComparator) { return range.set.some(function (rangeComparators) { return rangeComparators.every(function (rangeComparator) { return thisComparator.intersects(rangeComparator, options); }); }); }); }); }; // Mostly just for testing and legacy API reasons exports.toComparators = toComparators; function toComparators(range, options) { return new Range(range, options).set.map(function (comp) { return comp.map(function (c) { return c.value; }).join(' ').trim().split(' '); }); } // comprised of xranges, tildes, stars, and gtlt's at this point. // already replaced the hyphen ranges // turn into a set of JUST comparators. function parseComparator(comp, options) { debug('comp', comp, options); comp = replaceCarets(comp, options); debug('caret', comp); comp = replaceTildes(comp, options); debug('tildes', comp); comp = replaceXRanges(comp, options); debug('xrange', comp); comp = replaceStars(comp, options); debug('stars', comp); return comp; } function isX(id) { return !id || id.toLowerCase() === 'x' || id === '*'; } // ~, ~> --> * (any, kinda silly) // ~2, ~2.x, ~2.x.x, ~>2, ~>2.x ~>2.x.x --> >=2.0.0 <3.0.0 // ~2.0, ~2.0.x, ~>2.0, ~>2.0.x --> >=2.0.0 <2.1.0 // ~1.2, ~1.2.x, ~>1.2, ~>1.2.x --> >=1.2.0 <1.3.0 // ~1.2.3, ~>1.2.3 --> >=1.2.3 <1.3.0 // ~1.2.0, ~>1.2.0 --> >=1.2.0 <1.3.0 function replaceTildes(comp, options) { return comp.trim().split(/\s+/).map(function (comp) { return replaceTilde(comp, options); }).join(' '); } function replaceTilde(comp, options) { var r = options.loose ? re[TILDELOOSE] : re[TILDE]; return comp.replace(r, function (_, M, m, p, pr) { debug('tilde', comp, _, M, m, p, pr); var ret; if (isX(M)) { ret = ''; } else if (isX(m)) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0'; } else if (isX(p)) { // ~1.2 == >=1.2.0 <1.3.0 ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0'; } else if (pr) { debug('replaceTilde pr', pr); ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + (+m + 1) + '.0'; } else { // ~1.2.3 == >=1.2.3 <1.3.0 ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + (+m + 1) + '.0'; } debug('tilde return', ret); return ret; }); } // ^ --> * (any, kinda silly) // ^2, ^2.x, ^2.x.x --> >=2.0.0 <3.0.0 // ^2.0, ^2.0.x --> >=2.0.0 <3.0.0 // ^1.2, ^1.2.x --> >=1.2.0 <2.0.0 // ^1.2.3 --> >=1.2.3 <2.0.0 // ^1.2.0 --> >=1.2.0 <2.0.0 function replaceCarets(comp, options) { return comp.trim().split(/\s+/).map(function (comp) { return replaceCaret(comp, options); }).join(' '); } function replaceCaret(comp, options) { debug('caret', comp, options); var r = options.loose ? re[CARETLOOSE] : re[CARET]; return comp.replace(r, function (_, M, m, p, pr) { debug('caret', comp, _, M, m, p, pr); var ret; if (isX(M)) { ret = ''; } else if (isX(m)) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0'; } else if (isX(p)) { if (M === '0') { ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0'; } else { ret = '>=' + M + '.' + m + '.0 <' + (+M + 1) + '.0.0'; } } else if (pr) { debug('replaceCaret pr', pr); if (M === '0') { if (m === '0') { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + m + '.' + (+p + 1); } else { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + M + '.' + (+m + 1) + '.0'; } } else { ret = '>=' + M + '.' + m + '.' + p + '-' + pr + ' <' + (+M + 1) + '.0.0'; } } else { debug('no pr'); if (M === '0') { if (m === '0') { ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + m + '.' + (+p + 1); } else { ret = '>=' + M + '.' + m + '.' + p + ' <' + M + '.' + (+m + 1) + '.0'; } } else { ret = '>=' + M + '.' + m + '.' + p + ' <' + (+M + 1) + '.0.0'; } } debug('caret return', ret); return ret; }); } function replaceXRanges(comp, options) { debug('replaceXRanges', comp, options); return comp.split(/\s+/).map(function (comp) { return replaceXRange(comp, options); }).join(' '); } function replaceXRange(comp, options) { comp = comp.trim(); var r = options.loose ? re[XRANGELOOSE] : re[XRANGE]; return comp.replace(r, function (ret, gtlt, M, m, p, pr) { debug('xRange', comp, ret, gtlt, M, m, p, pr); var xM = isX(M); var xm = xM || isX(m); var xp = xm || isX(p); var anyX = xp; if (gtlt === '=' && anyX) { gtlt = ''; } if (xM) { if (gtlt === '>' || gtlt === '<') { // nothing is allowed ret = '<0.0.0'; } else { // nothing is forbidden ret = '*'; } } else if (gtlt && anyX) { // we know patch is an x, because we have any x at all. // replace X with 0 if (xm) { m = 0; } p = 0; if (gtlt === '>') { // >1 => >=2.0.0 // >1.2 => >=1.3.0 // >1.2.3 => >= 1.2.4 gtlt = '>='; if (xm) { M = +M + 1; m = 0; p = 0; } else { m = +m + 1; p = 0; } } else if (gtlt === '<=') { // <=0.7.x is actually <0.8.0, since any 0.7.x should // pass. Similarly, <=7.x is actually <8.0.0, etc. gtlt = '<'; if (xm) { M = +M + 1; } else { m = +m + 1; } } ret = gtlt + M + '.' + m + '.' + p; } else if (xm) { ret = '>=' + M + '.0.0 <' + (+M + 1) + '.0.0'; } else if (xp) { ret = '>=' + M + '.' + m + '.0 <' + M + '.' + (+m + 1) + '.0'; } debug('xRange return', ret); return ret; }); } // Because * is AND-ed with everything else in the comparator, // and '' means "any version", just remove the *s entirely. function replaceStars(comp, options) { debug('replaceStars', comp, options); // Looseness is ignored here. star is always as loose as it gets! return comp.trim().replace(re[STAR], ''); } // This function is passed to string.replace(re[HYPHENRANGE]) // M, m, patch, prerelease, build // 1.2 - 3.4.5 => >=1.2.0 <=3.4.5 // 1.2.3 - 3.4 => >=1.2.0 <3.5.0 Any 3.4.x will do // 1.2 - 3.4 => >=1.2.0 <3.5.0 function hyphenReplace($0, from, fM, fm, fp, fpr, fb, to, tM, tm, tp, tpr, tb) { if (isX(fM)) { from = ''; } else if (isX(fm)) { from = '>=' + fM + '.0.0'; } else if (isX(fp)) { from = '>=' + fM + '.' + fm + '.0'; } else { from = '>=' + from; } if (isX(tM)) { to = ''; } else if (isX(tm)) { to = '<' + (+tM + 1) + '.0.0'; } else if (isX(tp)) { to = '<' + tM + '.' + (+tm + 1) + '.0'; } else if (tpr) { to = '<=' + tM + '.' + tm + '.' + tp + '-' + tpr; } else { to = '<=' + to; } return (from + ' ' + to).trim(); } // if ANY of the sets match ALL of its comparators, then pass Range.prototype.test = function (version) { if (!version) { return false; } if (typeof version === 'string') { version = new SemVer(version, this.options); } for (var i = 0; i < this.set.length; i++) { if (testSet(this.set[i], version, this.options)) { return true; } } return false; }; function testSet(set, version, options) { for (var i = 0; i < set.length; i++) { if (!set[i].test(version)) { return false; } } if (version.prerelease.length && !options.includePrerelease) { // Find the set of versions that are allowed to have prereleases // For example, ^1.2.3-pr.1 desugars to >=1.2.3-pr.1 <2.0.0 // That should allow `1.2.3-pr.2` to pass. // However, `1.2.4-alpha.notready` should NOT be allowed, // even though it's within the range set by the comparators. for (i = 0; i < set.length; i++) { debug(set[i].semver); if (set[i].semver === ANY) { continue; } if (set[i].semver.prerelease.length > 0) { var allowed = set[i].semver; if (allowed.major === version.major && allowed.minor === version.minor && allowed.patch === version.patch) { return true; } } } // Version has a -pre, but it's not one of the ones we like. return false; } return true; } exports.satisfies = satisfies; function satisfies(version, range, options) { try { range = new Range(range, options); } catch (er) { return false; } return range.test(version); } exports.maxSatisfying = maxSatisfying; function maxSatisfying(versions, range, options) { var max = null; var maxSV = null; try { var rangeObj = new Range(range, options); } catch (er) { return null; } versions.forEach(function (v) { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!max || maxSV.compare(v) === -1) { // compare(max, v, true) max = v; maxSV = new SemVer(max, options); } } }); return max; } exports.minSatisfying = minSatisfying; function minSatisfying(versions, range, options) { var min = null; var minSV = null; try { var rangeObj = new Range(range, options); } catch (er) { return null; } versions.forEach(function (v) { if (rangeObj.test(v)) { // satisfies(v, range, options) if (!min || minSV.compare(v) === 1) { // compare(min, v, true) min = v; minSV = new SemVer(min, options); } } }); return min; } exports.minVersion = minVersion; function minVersion(range, loose) { range = new Range(range, loose); var minver = new SemVer('0.0.0'); if (range.test(minver)) { return minver; } minver = new SemVer('0.0.0-0'); if (range.test(minver)) { return minver; } minver = null; for (var i = 0; i < range.set.length; ++i) { var comparators = range.set[i]; comparators.forEach(function (comparator) { // Clone to avoid manipulating the comparator's semver object. var compver = new SemVer(comparator.semver.version); switch (comparator.operator) { case '>': if (compver.prerelease.length === 0) { compver.patch++; } else { compver.prerelease.push(0); } compver.raw = compver.format(); /* fallthrough */ case '': case '>=': if (!minver || gt(minver, compver)) { minver = compver; } break; case '<': case '<=': /* Ignore maximum versions */ break; /* istanbul ignore next */ default: throw new Error('Unexpected operation: ' + comparator.operator); } }); } if (minver && range.test(minver)) { return minver; } return null; } exports.validRange = validRange; function validRange(range, options) { try { // Return '*' instead of '' so that truthiness works. // This will throw if it's invalid anyway return new Range(range, options).range || '*'; } catch (er) { return null; } } // Determine if version is less than all the versions possible in the range exports.ltr = ltr; function ltr(version, range, options) { return outside(version, range, '<', options); } // Determine if version is greater than all the versions possible in the range. exports.gtr = gtr; function gtr(version, range, options) { return outside(version, range, '>', options); } exports.outside = outside; function outside(version, range, hilo, options) { version = new SemVer(version, options); range = new Range(range, options); var gtfn, ltefn, ltfn, comp, ecomp; switch (hilo) { case '>': gtfn = gt; ltefn = lte; ltfn = lt; comp = '>'; ecomp = '>='; break; case '<': gtfn = lt; ltefn = gte; ltfn = gt; comp = '<'; ecomp = '<='; break; default: throw new TypeError('Must provide a hilo val of "<" or ">"'); } // If it satisifes the range it is not outside if (satisfies(version, range, options)) { return false; } // From now on, variable terms are as if we're in "gtr" mode. // but note that everything is flipped for the "ltr" function. for (var i = 0; i < range.set.length; ++i) { var comparators = range.set[i]; var high = null; var low = null; comparators.forEach(function (comparator) { if (comparator.semver === ANY) { comparator = new Comparator('>=0.0.0'); } high = high || comparator; low = low || comparator; if (gtfn(comparator.semver, high.semver, options)) { high = comparator; } else if (ltfn(comparator.semver, low.semver, options)) { low = comparator; } }); // If the edge version comparator has a operator then our version // isn't outside it if (high.operator === comp || high.operator === ecomp) { return false; } // If the lowest version comparator has an operator and our version // is less than it then it isn't higher than the range if ((!low.operator || low.operator === comp) && ltefn(version, low.semver)) { return false; } else if (low.operator === ecomp && ltfn(version, low.semver)) { return false; } } return true; } exports.prerelease = prerelease; function prerelease(version, options) { var parsed = parse(version, options); return parsed && parsed.prerelease.length ? parsed.prerelease : null; } exports.intersects = intersects; function intersects(r1, r2, options) { r1 = new Range(r1, options); r2 = new Range(r2, options); return r1.intersects(r2); } exports.coerce = coerce; function coerce(version) { if (version instanceof SemVer) { return version; } if (typeof version !== 'string') { return null; } var match = version.match(re[COERCE]); if (match == null) { return null; } return parse(match[1] + '.' + (match[2] || '0') + '.' + (match[3] || '0')); } })(semver$1, semver$1.exports); var fnmatch$1 = {exports: {}}; var map$1 = {exports: {}}; var hasOwnProperty$9 = Object.prototype.hasOwnProperty; var pseudomap = PseudoMap; function PseudoMap(set) { if (!(this instanceof PseudoMap)) // whyyyyyyy throw new TypeError("Constructor PseudoMap requires 'new'"); this.clear(); if (set) { if (set instanceof PseudoMap || typeof Map === 'function' && set instanceof Map) set.forEach(function (value, key) { this.set(key, value); }, this);else if (Array.isArray(set)) set.forEach(function (kv) { this.set(kv[0], kv[1]); }, this);else throw new TypeError('invalid argument'); } } PseudoMap.prototype.forEach = function (fn, thisp) { thisp = thisp || this; Object.keys(this._data).forEach(function (k) { if (k !== 'size') fn.call(thisp, this._data[k].value, this._data[k].key); }, this); }; PseudoMap.prototype.has = function (k) { return !!find(this._data, k); }; PseudoMap.prototype.get = function (k) { var res = find(this._data, k); return res && res.value; }; PseudoMap.prototype.set = function (k, v) { set(this._data, k, v); }; PseudoMap.prototype.delete = function (k) { var res = find(this._data, k); if (res) { delete this._data[res._index]; this._data.size--; } }; PseudoMap.prototype.clear = function () { var data = Object.create(null); data.size = 0; Object.defineProperty(this, '_data', { value: data, enumerable: false, configurable: true, writable: false }); }; Object.defineProperty(PseudoMap.prototype, 'size', { get: function () { return this._data.size; }, set: function (n) {}, enumerable: true, configurable: true }); PseudoMap.prototype.values = PseudoMap.prototype.keys = PseudoMap.prototype.entries = function () { throw new Error('iterators are not implemented in this version'); }; // Either identical, or both NaN function same(a, b) { return a === b || a !== a && b !== b; } function Entry$1(k, v, i) { this.key = k; this.value = v; this._index = i; } function find(data, k) { for (var i = 0, s = '_' + k, key = s; hasOwnProperty$9.call(data, key); key = s + i++) { if (same(data[key].key, k)) return data[key]; } } function set(data, k, v) { for (var i = 0, s = '_' + k, key = s; hasOwnProperty$9.call(data, key); key = s + i++) { if (same(data[key].key, k)) { data[key].value = v; return; } } data.size++; data[key] = new Entry$1(k, v, key); } if (process.env.npm_package_name === 'pseudomap' && process.env.npm_lifecycle_script === 'test') process.env.TEST_PSEUDOMAP = 'true'; if (typeof Map === 'function' && !process.env.TEST_PSEUDOMAP) { map$1.exports = Map; } else { map$1.exports = pseudomap; } var yallist = Yallist$1; Yallist$1.Node = Node; Yallist$1.create = Yallist$1; function Yallist$1(list) { var self = this; if (!(self instanceof Yallist$1)) { self = new Yallist$1(); } self.tail = null; self.head = null; self.length = 0; if (list && typeof list.forEach === 'function') { list.forEach(function (item) { self.push(item); }); } else if (arguments.length > 0) { for (var i = 0, l = arguments.length; i < l; i++) { self.push(arguments[i]); } } return self; } Yallist$1.prototype.removeNode = function (node) { if (node.list !== this) { throw new Error('removing node which does not belong to this list'); } var next = node.next; var prev = node.prev; if (next) { next.prev = prev; } if (prev) { prev.next = next; } if (node === this.head) { this.head = next; } if (node === this.tail) { this.tail = prev; } node.list.length--; node.next = null; node.prev = null; node.list = null; }; Yallist$1.prototype.unshiftNode = function (node) { if (node === this.head) { return; } if (node.list) { node.list.removeNode(node); } var head = this.head; node.list = this; node.next = head; if (head) { head.prev = node; } this.head = node; if (!this.tail) { this.tail = node; } this.length++; }; Yallist$1.prototype.pushNode = function (node) { if (node === this.tail) { return; } if (node.list) { node.list.removeNode(node); } var tail = this.tail; node.list = this; node.prev = tail; if (tail) { tail.next = node; } this.tail = node; if (!this.head) { this.head = node; } this.length++; }; Yallist$1.prototype.push = function () { for (var i = 0, l = arguments.length; i < l; i++) { push(this, arguments[i]); } return this.length; }; Yallist$1.prototype.unshift = function () { for (var i = 0, l = arguments.length; i < l; i++) { unshift(this, arguments[i]); } return this.length; }; Yallist$1.prototype.pop = function () { if (!this.tail) { return undefined; } var res = this.tail.value; this.tail = this.tail.prev; if (this.tail) { this.tail.next = null; } else { this.head = null; } this.length--; return res; }; Yallist$1.prototype.shift = function () { if (!this.head) { return undefined; } var res = this.head.value; this.head = this.head.next; if (this.head) { this.head.prev = null; } else { this.tail = null; } this.length--; return res; }; Yallist$1.prototype.forEach = function (fn, thisp) { thisp = thisp || this; for (var walker = this.head, i = 0; walker !== null; i++) { fn.call(thisp, walker.value, i, this); walker = walker.next; } }; Yallist$1.prototype.forEachReverse = function (fn, thisp) { thisp = thisp || this; for (var walker = this.tail, i = this.length - 1; walker !== null; i--) { fn.call(thisp, walker.value, i, this); walker = walker.prev; } }; Yallist$1.prototype.get = function (n) { for (var i = 0, walker = this.head; walker !== null && i < n; i++) { // abort out of the list early if we hit a cycle walker = walker.next; } if (i === n && walker !== null) { return walker.value; } }; Yallist$1.prototype.getReverse = function (n) { for (var i = 0, walker = this.tail; walker !== null && i < n; i++) { // abort out of the list early if we hit a cycle walker = walker.prev; } if (i === n && walker !== null) { return walker.value; } }; Yallist$1.prototype.map = function (fn, thisp) { thisp = thisp || this; var res = new Yallist$1(); for (var walker = this.head; walker !== null;) { res.push(fn.call(thisp, walker.value, this)); walker = walker.next; } return res; }; Yallist$1.prototype.mapReverse = function (fn, thisp) { thisp = thisp || this; var res = new Yallist$1(); for (var walker = this.tail; walker !== null;) { res.push(fn.call(thisp, walker.value, this)); walker = walker.prev; } return res; }; Yallist$1.prototype.reduce = function (fn, initial) { var acc; var walker = this.head; if (arguments.length > 1) { acc = initial; } else if (this.head) { walker = this.head.next; acc = this.head.value; } else { throw new TypeError('Reduce of empty list with no initial value'); } for (var i = 0; walker !== null; i++) { acc = fn(acc, walker.value, i); walker = walker.next; } return acc; }; Yallist$1.prototype.reduceReverse = function (fn, initial) { var acc; var walker = this.tail; if (arguments.length > 1) { acc = initial; } else if (this.tail) { walker = this.tail.prev; acc = this.tail.value; } else { throw new TypeError('Reduce of empty list with no initial value'); } for (var i = this.length - 1; walker !== null; i--) { acc = fn(acc, walker.value, i); walker = walker.prev; } return acc; }; Yallist$1.prototype.toArray = function () { var arr = new Array(this.length); for (var i = 0, walker = this.head; walker !== null; i++) { arr[i] = walker.value; walker = walker.next; } return arr; }; Yallist$1.prototype.toArrayReverse = function () { var arr = new Array(this.length); for (var i = 0, walker = this.tail; walker !== null; i++) { arr[i] = walker.value; walker = walker.prev; } return arr; }; Yallist$1.prototype.slice = function (from, to) { to = to || this.length; if (to < 0) { to += this.length; } from = from || 0; if (from < 0) { from += this.length; } var ret = new Yallist$1(); if (to < from || to < 0) { return ret; } if (from < 0) { from = 0; } if (to > this.length) { to = this.length; } for (var i = 0, walker = this.head; walker !== null && i < from; i++) { walker = walker.next; } for (; walker !== null && i < to; i++, walker = walker.next) { ret.push(walker.value); } return ret; }; Yallist$1.prototype.sliceReverse = function (from, to) { to = to || this.length; if (to < 0) { to += this.length; } from = from || 0; if (from < 0) { from += this.length; } var ret = new Yallist$1(); if (to < from || to < 0) { return ret; } if (from < 0) { from = 0; } if (to > this.length) { to = this.length; } for (var i = this.length, walker = this.tail; walker !== null && i > to; i--) { walker = walker.prev; } for (; walker !== null && i > from; i--, walker = walker.prev) { ret.push(walker.value); } return ret; }; Yallist$1.prototype.reverse = function () { var head = this.head; var tail = this.tail; for (var walker = head; walker !== null; walker = walker.prev) { var p = walker.prev; walker.prev = walker.next; walker.next = p; } this.head = tail; this.tail = head; return this; }; function push(self, item) { self.tail = new Node(item, self.tail, null, self); if (!self.head) { self.head = self.tail; } self.length++; } function unshift(self, item) { self.head = new Node(item, null, self.head, self); if (!self.tail) { self.tail = self.head; } self.length++; } function Node(value, prev, next, list) { if (!(this instanceof Node)) { return new Node(value, prev, next, list); } this.list = list; this.value = value; if (prev) { prev.next = this; this.prev = prev; } else { this.prev = null; } if (next) { next.prev = this; this.next = next; } else { this.next = null; } } var lruCache = LRUCache; // This will be a proper iterable 'Map' in engines that support it, // or a fakey-fake PseudoMap in older versions. var Map$5 = map$1.exports; var util$3 = require$$0__default$4["default"]; // A linked list to keep track of recently-used-ness var Yallist = yallist; // use symbols if possible, otherwise just _props var hasSymbol = typeof Symbol === 'function' && process.env._nodeLRUCacheForceNoSymbol !== '1'; var makeSymbol; if (hasSymbol) { makeSymbol = function (key) { return Symbol(key); }; } else { makeSymbol = function (key) { return '_' + key; }; } var MAX = makeSymbol('max'); var LENGTH = makeSymbol('length'); var LENGTH_CALCULATOR = makeSymbol('lengthCalculator'); var ALLOW_STALE = makeSymbol('allowStale'); var MAX_AGE = makeSymbol('maxAge'); var DISPOSE = makeSymbol('dispose'); var NO_DISPOSE_ON_SET = makeSymbol('noDisposeOnSet'); var LRU_LIST = makeSymbol('lruList'); var CACHE = makeSymbol('cache'); function naiveLength() { return 1; } // lruList is a yallist where the head is the youngest // item, and the tail is the oldest. the list contains the Hit // objects as the entries. // Each Hit object has a reference to its Yallist.Node. This // never changes. // // cache is a Map (or PseudoMap) that matches the keys to // the Yallist.Node object. function LRUCache(options) { if (!(this instanceof LRUCache)) { return new LRUCache(options); } if (typeof options === 'number') { options = { max: options }; } if (!options) { options = {}; } var max = this[MAX] = options.max; // Kind of weird to have a default max of Infinity, but oh well. if (!max || !(typeof max === 'number') || max <= 0) { this[MAX] = Infinity; } var lc = options.length || naiveLength; if (typeof lc !== 'function') { lc = naiveLength; } this[LENGTH_CALCULATOR] = lc; this[ALLOW_STALE] = options.stale || false; this[MAX_AGE] = options.maxAge || 0; this[DISPOSE] = options.dispose; this[NO_DISPOSE_ON_SET] = options.noDisposeOnSet || false; this.reset(); } // resize the cache when the max changes. Object.defineProperty(LRUCache.prototype, 'max', { set: function (mL) { if (!mL || !(typeof mL === 'number') || mL <= 0) { mL = Infinity; } this[MAX] = mL; trim(this); }, get: function () { return this[MAX]; }, enumerable: true }); Object.defineProperty(LRUCache.prototype, 'allowStale', { set: function (allowStale) { this[ALLOW_STALE] = !!allowStale; }, get: function () { return this[ALLOW_STALE]; }, enumerable: true }); Object.defineProperty(LRUCache.prototype, 'maxAge', { set: function (mA) { if (!mA || !(typeof mA === 'number') || mA < 0) { mA = 0; } this[MAX_AGE] = mA; trim(this); }, get: function () { return this[MAX_AGE]; }, enumerable: true }); // resize the cache when the lengthCalculator changes. Object.defineProperty(LRUCache.prototype, 'lengthCalculator', { set: function (lC) { if (typeof lC !== 'function') { lC = naiveLength; } if (lC !== this[LENGTH_CALCULATOR]) { this[LENGTH_CALCULATOR] = lC; this[LENGTH] = 0; this[LRU_LIST].forEach(function (hit) { hit.length = this[LENGTH_CALCULATOR](hit.value, hit.key); this[LENGTH] += hit.length; }, this); } trim(this); }, get: function () { return this[LENGTH_CALCULATOR]; }, enumerable: true }); Object.defineProperty(LRUCache.prototype, 'length', { get: function () { return this[LENGTH]; }, enumerable: true }); Object.defineProperty(LRUCache.prototype, 'itemCount', { get: function () { return this[LRU_LIST].length; }, enumerable: true }); LRUCache.prototype.rforEach = function (fn, thisp) { thisp = thisp || this; for (var walker = this[LRU_LIST].tail; walker !== null;) { var prev = walker.prev; forEachStep(this, fn, walker, thisp); walker = prev; } }; function forEachStep(self, fn, node, thisp) { var hit = node.value; if (isStale(self, hit)) { del$1(self, node); if (!self[ALLOW_STALE]) { hit = undefined; } } if (hit) { fn.call(thisp, hit.value, hit.key, self); } } LRUCache.prototype.forEach = function (fn, thisp) { thisp = thisp || this; for (var walker = this[LRU_LIST].head; walker !== null;) { var next = walker.next; forEachStep(this, fn, walker, thisp); walker = next; } }; LRUCache.prototype.keys = function () { return this[LRU_LIST].toArray().map(function (k) { return k.key; }, this); }; LRUCache.prototype.values = function () { return this[LRU_LIST].toArray().map(function (k) { return k.value; }, this); }; LRUCache.prototype.reset = function () { if (this[DISPOSE] && this[LRU_LIST] && this[LRU_LIST].length) { this[LRU_LIST].forEach(function (hit) { this[DISPOSE](hit.key, hit.value); }, this); } this[CACHE] = new Map$5(); // hash of items by key this[LRU_LIST] = new Yallist(); // list of items in order of use recency this[LENGTH] = 0; // length of items in the list }; LRUCache.prototype.dump = function () { return this[LRU_LIST].map(function (hit) { if (!isStale(this, hit)) { return { k: hit.key, v: hit.value, e: hit.now + (hit.maxAge || 0) }; } }, this).toArray().filter(function (h) { return h; }); }; LRUCache.prototype.dumpLru = function () { return this[LRU_LIST]; }; /* istanbul ignore next */ LRUCache.prototype.inspect = function (n, opts) { var str = 'LRUCache {'; var extras = false; var as = this[ALLOW_STALE]; if (as) { str += '\n allowStale: true'; extras = true; } var max = this[MAX]; if (max && max !== Infinity) { if (extras) { str += ','; } str += '\n max: ' + util$3.inspect(max, opts); extras = true; } var maxAge = this[MAX_AGE]; if (maxAge) { if (extras) { str += ','; } str += '\n maxAge: ' + util$3.inspect(maxAge, opts); extras = true; } var lc = this[LENGTH_CALCULATOR]; if (lc && lc !== naiveLength) { if (extras) { str += ','; } str += '\n length: ' + util$3.inspect(this[LENGTH], opts); extras = true; } var didFirst = false; this[LRU_LIST].forEach(function (item) { if (didFirst) { str += ',\n '; } else { if (extras) { str += ',\n'; } didFirst = true; str += '\n '; } var key = util$3.inspect(item.key).split('\n').join('\n '); var val = { value: item.value }; if (item.maxAge !== maxAge) { val.maxAge = item.maxAge; } if (lc !== naiveLength) { val.length = item.length; } if (isStale(this, item)) { val.stale = true; } val = util$3.inspect(val, opts).split('\n').join('\n '); str += key + ' => ' + val; }); if (didFirst || extras) { str += '\n'; } str += '}'; return str; }; LRUCache.prototype.set = function (key, value, maxAge) { maxAge = maxAge || this[MAX_AGE]; var now = maxAge ? Date.now() : 0; var len = this[LENGTH_CALCULATOR](value, key); if (this[CACHE].has(key)) { if (len > this[MAX]) { del$1(this, this[CACHE].get(key)); return false; } var node = this[CACHE].get(key); var item = node.value; // dispose of the old one before overwriting // split out into 2 ifs for better coverage tracking if (this[DISPOSE]) { if (!this[NO_DISPOSE_ON_SET]) { this[DISPOSE](key, item.value); } } item.now = now; item.maxAge = maxAge; item.value = value; this[LENGTH] += len - item.length; item.length = len; this.get(key); trim(this); return true; } var hit = new Entry(key, value, len, now, maxAge); // oversized objects fall out of cache automatically. if (hit.length > this[MAX]) { if (this[DISPOSE]) { this[DISPOSE](key, value); } return false; } this[LENGTH] += hit.length; this[LRU_LIST].unshift(hit); this[CACHE].set(key, this[LRU_LIST].head); trim(this); return true; }; LRUCache.prototype.has = function (key) { if (!this[CACHE].has(key)) return false; var hit = this[CACHE].get(key).value; if (isStale(this, hit)) { return false; } return true; }; LRUCache.prototype.get = function (key) { return get$2(this, key, true); }; LRUCache.prototype.peek = function (key) { return get$2(this, key, false); }; LRUCache.prototype.pop = function () { var node = this[LRU_LIST].tail; if (!node) return null; del$1(this, node); return node.value; }; LRUCache.prototype.del = function (key) { del$1(this, this[CACHE].get(key)); }; LRUCache.prototype.load = function (arr) { // reset the cache this.reset(); var now = Date.now(); // A previous serialized cache has the most recent items first for (var l = arr.length - 1; l >= 0; l--) { var hit = arr[l]; var expiresAt = hit.e || 0; if (expiresAt === 0) { // the item was created without expiration in a non aged cache this.set(hit.k, hit.v); } else { var maxAge = expiresAt - now; // dont add already expired items if (maxAge > 0) { this.set(hit.k, hit.v, maxAge); } } } }; LRUCache.prototype.prune = function () { var self = this; this[CACHE].forEach(function (value, key) { get$2(self, key, false); }); }; function get$2(self, key, doUse) { var node = self[CACHE].get(key); if (node) { var hit = node.value; if (isStale(self, hit)) { del$1(self, node); if (!self[ALLOW_STALE]) hit = undefined; } else { if (doUse) { self[LRU_LIST].unshiftNode(node); } } if (hit) hit = hit.value; } return hit; } function isStale(self, hit) { if (!hit || !hit.maxAge && !self[MAX_AGE]) { return false; } var stale = false; var diff = Date.now() - hit.now; if (hit.maxAge) { stale = diff > hit.maxAge; } else { stale = self[MAX_AGE] && diff > self[MAX_AGE]; } return stale; } function trim(self) { if (self[LENGTH] > self[MAX]) { for (var walker = self[LRU_LIST].tail; self[LENGTH] > self[MAX] && walker !== null;) { // We know that we're about to delete this one, and also // what the next least recently used key will be, so just // go ahead and set it now. var prev = walker.prev; del$1(self, walker); walker = prev; } } } function del$1(self, node) { if (node) { var hit = node.value; if (self[DISPOSE]) { self[DISPOSE](hit.key, hit.value); } self[LENGTH] -= hit.length; self[CACHE].delete(hit.key); self[LRU_LIST].removeNode(node); } } // classy, since V8 prefers predictable objects. function Entry(key, value, length, now, maxAge) { this.key = key; this.value = value; this.length = length; this.now = now; this.maxAge = maxAge || 0; } var sigmund_1 = sigmund; function sigmund(subject, maxSessions) { maxSessions = maxSessions || 10; var notes = []; var analysis = ''; var RE = RegExp; function psychoAnalyze(subject, session) { if (session > maxSessions) return; if (typeof subject === 'function' || typeof subject === 'undefined') { return; } if (typeof subject !== 'object' || !subject || subject instanceof RE) { analysis += subject; return; } if (notes.indexOf(subject) !== -1 || session === maxSessions) return; notes.push(subject); analysis += '{'; Object.keys(subject).forEach(function (issue, _, __) { // pseudo-private values. skip those. if (issue.charAt(0) === '_') return; var to = typeof subject[issue]; if (to === 'function' || to === 'undefined') return; analysis += issue; psychoAnalyze(subject[issue], session + 1); }); } psychoAnalyze(subject, 0); return analysis; } // vim: set softtabstop=4 shiftwidth=4: (function (module, exports) { // Based on minimatch.js by isaacs var platform = typeof process === "object" ? process.platform : "win32"; if (module) module.exports = minimatch;else exports.minimatch = minimatch; minimatch.Minimatch = Minimatch; var LRU = lruCache, cache = minimatch.cache = new LRU({ max: 100 }), GLOBSTAR = minimatch.GLOBSTAR = Minimatch.GLOBSTAR = {}, sigmund = sigmund_1; var path = require$$0__default$2["default"] // any single thing other than / // don't need to escape / when using new RegExp() , qmark = "[^/]" // * => any number of characters , star = qmark + "*?" // ** when dots are allowed. Anything goes, except .. and . // not (^ or / followed by one or two dots followed by $ or /), // followed by anything, any number of times. , twoStarDot = "(?:(?!(?:\\\/|^)(?:\\.{1,2})($|\\\/)).)*?" // not a ^ or / followed by a dot, // followed by anything, any number of times. , twoStarNoDot = "(?:(?!(?:\\\/|^)\\.).)*?" // characters that need to be escaped in RegExp. , reSpecials = charSet("().*{}+?[]^$\\!"); // "abc" -> { a:true, b:true, c:true } function charSet(s) { return s.split("").reduce(function (set, c) { set[c] = true; return set; }, {}); } // normalizes slashes. var slashSplit = /\/+/; minimatch.monkeyPatch = monkeyPatch; function monkeyPatch() { var desc = Object.getOwnPropertyDescriptor(String.prototype, "match"); var orig = desc.value; desc.value = function (p) { if (p instanceof Minimatch) return p.match(this); return orig.call(this, p); }; Object.defineProperty(String.prototype, desc); } minimatch.filter = filter; function filter(pattern, options) { options = options || {}; return function (p, i, list) { return minimatch(p, pattern, options); }; } function ext(a, b) { a = a || {}; b = b || {}; var t = {}; Object.keys(b).forEach(function (k) { t[k] = b[k]; }); Object.keys(a).forEach(function (k) { t[k] = a[k]; }); return t; } minimatch.defaults = function (def) { if (!def || !Object.keys(def).length) return minimatch; var orig = minimatch; var m = function minimatch(p, pattern, options) { return orig.minimatch(p, pattern, ext(def, options)); }; m.Minimatch = function Minimatch(pattern, options) { return new orig.Minimatch(pattern, ext(def, options)); }; return m; }; Minimatch.defaults = function (def) { if (!def || !Object.keys(def).length) return Minimatch; return minimatch.defaults(def).Minimatch; }; function minimatch(p, pattern, options) { if (typeof pattern !== "string") { throw new TypeError("glob pattern string required"); } if (!options) options = {}; // shortcut: comments match nothing. if (!options.nocomment && pattern.charAt(0) === "#") { return false; } // "" only matches "" if (pattern.trim() === "") return p === ""; return new Minimatch(pattern, options).match(p); } function Minimatch(pattern, options) { if (!(this instanceof Minimatch)) { return new Minimatch(pattern, options, cache); } if (typeof pattern !== "string") { throw new TypeError("glob pattern string required"); } if (!options) options = {}; // windows: need to use /, not \ // On other platforms, \ is a valid (albeit bad) filename char. if (platform === "win32") { pattern = pattern.split("\\").join("/"); } // lru storage. // these things aren't particularly big, but walking down the string // and turning it into a regexp can get pretty costly. var cacheKey = pattern + "\n" + sigmund(options); var cached = minimatch.cache.get(cacheKey); if (cached) return cached; minimatch.cache.set(cacheKey, this); this.options = options; this.set = []; this.pattern = pattern; this.regexp = null; this.negate = false; this.comment = false; this.empty = false; // make the set of regexps etc. this.make(); } Minimatch.prototype.make = make; function make() { // don't do it more than once. if (this._made) return; var pattern = this.pattern; var options = this.options; // empty patterns and comments match nothing. if (!options.nocomment && pattern.charAt(0) === "#") { this.comment = true; return; } if (!pattern) { this.empty = true; return; } // step 1: figure out negation, etc. this.parseNegate(); // step 2: expand braces var set = this.globSet = this.braceExpand(); if (options.debug) console.error(this.pattern, set); // step 3: now we have a set, so turn each one into a series of path-portion // matching patterns. // These will be regexps, except in the case of "**", which is // set to the GLOBSTAR object for globstar behavior, // and will not contain any / characters set = this.globParts = set.map(function (s) { return s.split(slashSplit); }); if (options.debug) console.error(this.pattern, set); // glob --> regexps set = set.map(function (s, si, set) { return s.map(this.parse, this); }, this); if (options.debug) console.error(this.pattern, set); // filter out everything that didn't compile properly. set = set.filter(function (s) { return -1 === s.indexOf(false); }); if (options.debug) console.error(this.pattern, set); this.set = set; } Minimatch.prototype.parseNegate = parseNegate; function parseNegate() { var pattern = this.pattern, negate = false, options = this.options, negateOffset = 0; if (options.nonegate) return; for (var i = 0, l = pattern.length; i < l && pattern.charAt(i) === "!"; i++) { negate = !negate; negateOffset++; } if (negateOffset) this.pattern = pattern.substr(negateOffset); this.negate = negate; } // Brace expansion: // a{b,c}d -> abd acd // a{b,}c -> abc ac // a{0..3}d -> a0d a1d a2d a3d // a{b,c{d,e}f}g -> abg acdfg acefg // a{b,c}d{e,f}g -> abdeg acdeg abdeg abdfg // // Invalid sets are not expanded. // a{2..}b -> a{2..}b // a{b}c -> a{b}c minimatch.braceExpand = function (pattern, options) { return new Minimatch(pattern, options).braceExpand(); }; Minimatch.prototype.braceExpand = braceExpand; function braceExpand(pattern, options) { options = options || this.options; pattern = typeof pattern === "undefined" ? this.pattern : pattern; if (typeof pattern === "undefined") { throw new Error("undefined pattern"); } if (options.nobrace || !pattern.match(/\{.*\}/)) { // shortcut. no need to expand. return [pattern]; } var escaping = false; // examples and comments refer to this crazy pattern: // a{b,c{d,e},{f,g}h}x{y,z} // expected: // abxy // abxz // acdxy // acdxz // acexy // acexz // afhxy // afhxz // aghxy // aghxz // everything before the first \{ is just a prefix. // So, we pluck that off, and work with the rest, // and then prepend it to everything we find. if (pattern.charAt(0) !== "{") { // console.error(pattern) var prefix = null; for (var i = 0, l = pattern.length; i < l; i++) { var c = pattern.charAt(i); // console.error(i, c) if (c === "\\") { escaping = !escaping; } else if (c === "{" && !escaping) { prefix = pattern.substr(0, i); break; } } // actually no sets, all { were escaped. if (prefix === null) { // console.error("no sets") return [pattern]; } var tail = braceExpand(pattern.substr(i), options); return tail.map(function (t) { return prefix + t; }); } // now we have something like: // {b,c{d,e},{f,g}h}x{y,z} // walk through the set, expanding each part, until // the set ends. then, we'll expand the suffix. // If the set only has a single member, then'll put the {} back // first, handle numeric sets, since they're easier var numset = pattern.match(/^\{(-?[0-9]+)\.\.(-?[0-9]+)\}/); if (numset) { // console.error("numset", numset[1], numset[2]) var suf = braceExpand(pattern.substr(numset[0].length), options), start = +numset[1], end = +numset[2], inc = start > end ? -1 : 1, set = []; for (var i = start; i != end + inc; i += inc) { // append all the suffixes for (var ii = 0, ll = suf.length; ii < ll; ii++) { set.push(i + suf[ii]); } } return set; } // ok, walk through the set // We hope, somewhat optimistically, that there // will be a } at the end. // If the closing brace isn't found, then the pattern is // interpreted as braceExpand("\\" + pattern) so that // the leading \{ will be interpreted literally. var i = 1 // skip the \{ , depth = 1, set = [], member = "", escaping = false; function addMember() { set.push(member); member = ""; } // console.error("Entering for") FOR: for (i = 1, l = pattern.length; i < l; i++) { var c = pattern.charAt(i); // console.error("", i, c) if (escaping) { escaping = false; member += "\\" + c; } else { switch (c) { case "\\": escaping = true; continue; case "{": depth++; member += "{"; continue; case "}": depth--; // if this closes the actual set, then we're done if (depth === 0) { addMember(); // pluck off the close-brace i++; break FOR; } else { member += c; continue; } case ",": if (depth === 1) { addMember(); } else { member += c; } continue; default: member += c; continue; } // switch } // else } // for // now we've either finished the set, and the suffix is // pattern.substr(i), or we have *not* closed the set, // and need to escape the leading brace if (depth !== 0) { // console.error("didn't close", pattern) return braceExpand("\\" + pattern, options); } // x{y,z} -> ["xy", "xz"] // console.error("set", set) // console.error("suffix", pattern.substr(i)) var suf = braceExpand(pattern.substr(i), options); // ["b", "c{d,e}","{f,g}h"] -> // [["b"], ["cd", "ce"], ["fh", "gh"]] var addBraces = set.length === 1; // console.error("set pre-expanded", set) set = set.map(function (p) { return braceExpand(p, options); }); // console.error("set expanded", set) // [["b"], ["cd", "ce"], ["fh", "gh"]] -> // ["b", "cd", "ce", "fh", "gh"] set = set.reduce(function (l, r) { return l.concat(r); }); if (addBraces) { set = set.map(function (s) { return "{" + s + "}"; }); } // now attach the suffixes. var ret = []; for (var i = 0, l = set.length; i < l; i++) { for (var ii = 0, ll = suf.length; ii < ll; ii++) { ret.push(set[i] + suf[ii]); } } return ret; } // parse a component of the expanded set. // At this point, no pattern may contain "/" in it // so we're going to return a 2d array, where each entry is the full // pattern, split on '/', and then turned into a regular expression. // A regexp is made at the end which joins each array with an // escaped /, and another full one which joins each regexp with |. // // Following the lead of Bash 4.1, note that "**" only has special meaning // when it is the *only* thing in a path portion. Otherwise, any series // of * is equivalent to a single *. Globstar behavior is enabled by // default, and can be disabled by setting options.noglobstar. Minimatch.prototype.parse = parse; var SUBPARSE = {}; function parse(pattern, isSub) { var options = this.options; // shortcuts if (!options.noglobstar && pattern === "**") return GLOBSTAR; if (pattern === "") return ""; var re = "", hasMagic = !!options.nocase, escaping = false // ? => one single character , patternListStack = [], plType, stateChar, inClass = false, reClassStart = -1, classStart = -1 // . and .. never match anything that doesn't start with ., // even when options.dot is set. , patternStart = pattern.charAt(0) === "." ? "" // anything // not (start or / followed by . or .. followed by / or end) : options.dot ? "(?!(?:^|\\\/)\\.{1,2}(?:$|\\\/))" : "(?!\\.)"; function clearStateChar() { if (stateChar) { // we had some state-tracking character // that wasn't consumed by this pass. switch (stateChar) { case "*": re += star; hasMagic = true; break; case "?": re += qmark; hasMagic = true; break; default: re += "\\" + stateChar; break; } stateChar = false; } } for (var i = 0, len = pattern.length, c; i < len && (c = pattern.charAt(i)); i++) { if (options.debug) { console.error("%s\t%s %s %j", pattern, i, re, c); } // skip over any that are escaped. if (escaping && reSpecials[c]) { re += "\\" + c; escaping = false; continue; } switch (c) { case "/": // completely not allowed, even escaped. // Should already be path-split by now. return false; case "\\": clearStateChar(); escaping = true; continue; // the various stateChar values // for the "extglob" stuff. case "?": case "*": case "+": case "@": case "!": if (options.debug) { console.error("%s\t%s %s %j <-- stateChar", pattern, i, re, c); } // all of those are literals inside a class, except that // the glob [!a] means [^a] in regexp if (inClass) { if (c === "!" && i === classStart + 1) c = "^"; re += c; continue; } // if we already have a stateChar, then it means // that there was something like ** or +? in there. // Handle the stateChar, then proceed with this one. clearStateChar(); stateChar = c; // if extglob is disabled, then +(asdf|foo) isn't a thing. // just clear the statechar *now*, rather than even diving into // the patternList stuff. if (options.noext) clearStateChar(); continue; case "(": if (inClass) { re += "("; continue; } if (!stateChar) { re += "\\("; continue; } plType = stateChar; patternListStack.push({ type: plType, start: i - 1, reStart: re.length }); // negation is (?:(?!js)[^/]*) re += stateChar === "!" ? "(?:(?!" : "(?:"; stateChar = false; continue; case ")": if (inClass || !patternListStack.length) { re += "\\)"; continue; } hasMagic = true; re += ")"; plType = patternListStack.pop().type; // negation is (?:(?!js)[^/]*) // The others are (?:) switch (plType) { case "!": re += "[^/]*?)"; break; case "?": case "+": case "*": re += plType; // the default anyway } continue; case "|": if (inClass || !patternListStack.length || escaping) { re += "\\|"; escaping = false; continue; } re += "|"; continue; // these are mostly the same in regexp and glob case "[": // swallow any state-tracking char before the [ clearStateChar(); if (inClass) { re += "\\" + c; continue; } inClass = true; classStart = i; reClassStart = re.length; re += c; continue; case "]": // a right bracket shall lose its special // meaning and represent itself in // a bracket expression if it occurs // first in the list. -- POSIX.2 2.8.3.2 if (i === classStart + 1 || !inClass) { re += "\\" + c; escaping = false; continue; } // finish up the class. hasMagic = true; inClass = false; re += c; continue; default: // swallow any state char that wasn't consumed clearStateChar(); if (escaping) { // no need escaping = false; } else if (reSpecials[c] && !(c === "^" && inClass)) { re += "\\"; } re += c; } // switch } // for // handle the case where we left a class open. // "[abc" is valid, equivalent to "\[abc" if (inClass) { // split where the last [ was, and escape it // this is a huge pita. We now have to re-walk // the contents of the would-be class to re-translate // any characters that were passed through as-is var cs = pattern.substr(classStart + 1), sp = this.parse(cs, SUBPARSE); re = re.substr(0, reClassStart) + "\\[" + sp[0]; hasMagic = hasMagic || sp[1]; } // handle the case where we had a +( thing at the *end* // of the pattern. // each pattern list stack adds 3 chars, and we need to go through // and escape any | chars that were passed through as-is for the regexp. // Go through and escape them, taking care not to double-escape any // | chars that were already escaped. var pl; while (pl = patternListStack.pop()) { var tail = re.slice(pl.reStart + 3); // maybe some even number of \, then maybe 1 \, followed by a | tail = tail.replace(/((?:\\{2})*)(\\?)\|/g, function (_, $1, $2) { if (!$2) { // the | isn't already escaped, so escape it. $2 = "\\"; } // need to escape all those slashes *again*, without escaping the // one that we need for escaping the | character. As it works out, // escaping an even number of slashes can be done by simply repeating // it exactly after itself. That's why this trick works. // // I am sorry that you have to see this. return $1 + $1 + $2 + "|"; }); // console.error("tail=%j\n %s", tail, tail) var t = pl.type === "*" ? star : pl.type === "?" ? qmark : "\\" + pl.type; hasMagic = true; re = re.slice(0, pl.reStart) + t + "\\(" + tail; } // handle trailing things that only matter at the very end. clearStateChar(); if (escaping) { // trailing \\ re += "\\\\"; } // only need to apply the nodot start if the re starts with // something that could conceivably capture a dot var addPatternStart = false; switch (re.charAt(0)) { case ".": case "[": case "(": addPatternStart = true; } // if the re is not "" at this point, then we need to make sure // it doesn't match against an empty path part. // Otherwise a/* will match a/, which it should not. if (re !== "" && hasMagic) re = "(?=.)" + re; if (addPatternStart) re = patternStart + re; // parsing just a piece of a larger pattern. if (isSub === SUBPARSE) { return [re, hasMagic]; } // skip the regexp for non-magical patterns // unescape anything in it, though, so that it'll be // an exact match against a file etc. if (!hasMagic) { return globUnescape(pattern); } var flags = options.nocase ? "i" : "", regExp = new RegExp("^" + re + "$", flags); regExp._glob = pattern; regExp._src = re; return regExp; } minimatch.makeRe = function (pattern, options) { return new Minimatch(pattern, options || {}).makeRe(); }; Minimatch.prototype.makeRe = makeRe; function makeRe() { if (this.regexp || this.regexp === false) return this.regexp; // at this point, this.set is a 2d array of partial // pattern strings, or "**". // // It's better to use .match(). This function shouldn't // be used, really, but it's pretty convenient sometimes, // when you just want to work with a regex. var set = this.set; if (!set.length) return this.regexp = false; var options = this.options; var twoStar = options.noglobstar ? star : options.dot ? twoStarDot : twoStarNoDot, flags = options.nocase ? "i" : ""; var re = set.map(function (pattern) { return pattern.map(function (p) { return p === GLOBSTAR ? twoStar : typeof p === "string" ? regExpEscape(p) : p._src; }).join("\\\/"); }).join("|"); // must match entire pattern // ending in a * or ** will make it less strict. re = "^(?:" + re + ")$"; // can match anything, as long as it's not this. if (this.negate) re = "^(?!" + re + ").*$"; try { return this.regexp = new RegExp(re, flags); } catch (ex) { return this.regexp = false; } } minimatch.match = function (list, pattern, options) { var mm = new Minimatch(pattern, options); list = list.filter(function (f) { return mm.match(f); }); if (options.nonull && !list.length) { list.push(pattern); } return list; }; Minimatch.prototype.match = match; function match(f, partial) { // console.error("match", f, this.pattern) // short-circuit in the case of busted things. // comments, etc. if (this.comment) return false; if (this.empty) return f === ""; if (f === "/" && partial) return true; var options = this.options; // windows: need to use /, not \ // On other platforms, \ is a valid (albeit bad) filename char. if (platform === "win32") { f = f.split("\\").join("/"); } // treat the test path as a set of pathparts. f = f.split(slashSplit); if (options.debug) { console.error(this.pattern, "split", f); } // just ONE of the pattern sets in this.set needs to match // in order for it to be valid. If negating, then just one // match means that we have failed. // Either way, return on the first hit. var set = this.set; // console.error(this.pattern, "set", set) for (var i = 0, l = set.length; i < l; i++) { var pattern = set[i]; var hit = this.matchOne(f, pattern, partial); if (hit) { if (options.flipNegate) return true; return !this.negate; } } // didn't get any hits. this is success if it's a negative // pattern, failure otherwise. if (options.flipNegate) return false; return this.negate; } // set partial to true to test if, for example, // "/a/b" matches the start of "/*/b/*/d" // Partial means, if you run out of file before you run // out of pattern, then that's fine, as long as all // the parts match. Minimatch.prototype.matchOne = function (file, pattern, partial) { var options = this.options; if (options.debug) { console.error("matchOne", { "this": this, file: file, pattern: pattern }); } if (options.matchBase && pattern.length === 1) { file = path.basename(file.join("/")).split("/"); } if (options.debug) { console.error("matchOne", file.length, pattern.length); } for (var fi = 0, pi = 0, fl = file.length, pl = pattern.length; fi < fl && pi < pl; fi++, pi++) { if (options.debug) { console.error("matchOne loop"); } var p = pattern[pi], f = file[fi]; if (options.debug) { console.error(pattern, p, f); } // should be impossible. // some invalid regexp stuff in the set. if (p === false) return false; if (p === GLOBSTAR) { if (options.debug) console.error('GLOBSTAR', [pattern, p, f]); // "**" // a/**/b/**/c would match the following: // a/b/x/y/z/c // a/x/y/z/b/c // a/b/x/b/x/c // a/b/c // To do this, take the rest of the pattern after // the **, and see if it would match the file remainder. // If so, return success. // If not, the ** "swallows" a segment, and try again. // This is recursively awful. // // a/**/b/**/c matching a/b/x/y/z/c // - a matches a // - doublestar // - matchOne(b/x/y/z/c, b/**/c) // - b matches b // - doublestar // - matchOne(x/y/z/c, c) -> no // - matchOne(y/z/c, c) -> no // - matchOne(z/c, c) -> no // - matchOne(c, c) yes, hit var fr = fi, pr = pi + 1; if (pr === pl) { if (options.debug) console.error('** at the end'); // a ** at the end will just swallow the rest. // We have found a match. // however, it will not swallow /.x, unless // options.dot is set. // . and .. are *never* matched by **, for explosively // exponential reasons. for (; fi < fl; fi++) { if (file[fi] === "." || file[fi] === ".." || !options.dot && file[fi].charAt(0) === ".") return false; } return true; } // ok, let's see if we can swallow whatever we can. WHILE: while (fr < fl) { var swallowee = file[fr]; if (options.debug) { console.error('\nglobstar while', file, fr, pattern, pr, swallowee); } // XXX remove this slice. Just pass the start index. if (this.matchOne(file.slice(fr), pattern.slice(pr), partial)) { if (options.debug) console.error('globstar found match!', fr, fl, swallowee); // found a match. return true; } else { // can't swallow "." or ".." ever. // can only swallow ".foo" when explicitly asked. if (swallowee === "." || swallowee === ".." || !options.dot && swallowee.charAt(0) === ".") { if (options.debug) console.error("dot detected!", file, fr, pattern, pr); break WHILE; } // ** swallows a segment, and continue. if (options.debug) console.error('globstar swallow a segment, and continue'); fr++; } } // no match was found. // However, in partial mode, we can't say this is necessarily over. // If there's more *pattern* left, then if (partial) { // ran out of file // console.error("\n>>> no match, partial?", file, fr, pattern, pr) if (fr === fl) return true; } return false; } // something other than ** // non-magic patterns just have to match exactly // patterns with magic have been turned into regexps. var hit; if (typeof p === "string") { if (options.nocase) { hit = f.toLowerCase() === p.toLowerCase(); } else { hit = f === p; } if (options.debug) { console.error("string match", p, f, hit); } } else { hit = f.match(p); if (options.debug) { console.error("pattern match", p, f, hit); } } if (!hit) return false; } // Note: ending in / means that we'll get a final "" // at the end of the pattern. This can only match a // corresponding "" at the end of the file. // If the file ends in /, then it can only match a // a pattern that ends in /, unless the pattern just // doesn't have any more for it. But, a/b/ should *not* // match "a/b/*", even though "" matches against the // [^/]*? pattern, except in partial mode, where it might // simply not be reached yet. // However, a/b/ should still satisfy a/* // now either we fell off the end of the pattern, or we're done. if (fi === fl && pi === pl) { // ran out of pattern and filename at the same time. // an exact hit! return true; } else if (fi === fl) { // ran out of file, but still had pattern left. // this is ok if we're doing the match as part of // a glob fs traversal. return partial; } else if (pi === pl) { // ran out of pattern, still have file left. // this is only acceptable if we're on the very last // empty segment of a file with a trailing slash. // a/* should match a/b/ var emptyFileEnd = fi === fl - 1 && file[fi] === ""; return emptyFileEnd; } // should be unreachable. throw new Error("wtf?"); }; // replace stuff like \* with * function globUnescape(s) { return s.replace(/\\(.)/g, "$1"); } function regExpEscape(s) { return s.replace(/[-[\]{}()*+?.,\\^$|#\s]/g, "\\$&"); } })(fnmatch$1, fnmatch$1.exports); var ini = {}; var __awaiter$1 = undefined && undefined.__awaiter || function (thisArg, _arguments, P, generator) { return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __generator$1 = undefined && undefined.__generator || function (thisArg, body) { var _ = { label: 0, sent: function () { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function () { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || op[1] > t[0] && op[1] < t[3])) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __importStar$1 = undefined && undefined.__importStar || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; Object.defineProperty(ini, "__esModule", { value: true }); var fs$f = __importStar$1(require$$0__default["default"]); /** * define the possible values: * section: [section] * param: key=value * comment: ;this is a comment */ var regex = { section: /^\s*\[(([^#;]|\\#|\\;)+)\]\s*([#;].*)?$/, param: /^\s*([\w\.\-\_]+)\s*[=:]\s*(.*?)\s*([#;].*)?$/, comment: /^\s*[#;].*$/ }; /** * Parses an .ini file * @param file The location of the .ini file */ function parse$7(file) { return __awaiter$1(this, void 0, void 0, function () { return __generator$1(this, function (_a) { return [2 /*return*/ , new Promise(function (resolve, reject) { fs$f.readFile(file, 'utf8', function (err, data) { if (err) { reject(err); return; } resolve(parseString(data)); }); })]; }); }); } ini.parse = parse$7; function parseSync$1(file) { return parseString(fs$f.readFileSync(file, 'utf8')); } ini.parseSync = parseSync$1; function parseString(data) { var sectionBody = {}; var sectionName = null; var value = [[sectionName, sectionBody]]; var lines = data.split(/\r\n|\r|\n/); lines.forEach(function (line) { var match; if (regex.comment.test(line)) { return; } if (regex.param.test(line)) { match = line.match(regex.param); sectionBody[match[1]] = match[2]; } else if (regex.section.test(line)) { match = line.match(regex.section); sectionName = match[1]; sectionBody = {}; value.push([sectionName, sectionBody]); } }); return value; } ini.parseString = parseString; var name$g = "editorconfig"; var version$1 = "0.15.3"; var description = "EditorConfig File Locator and Interpreter for Node.js"; var keywords = [ "editorconfig", "core" ]; var main = "src/index.js"; var contributors = [ "Hong Xu (topbug.net)", "Jed Mao (https://github.com/jedmao/)", "Trey Hunner (http://treyhunner.com)" ]; var directories = { bin: "./bin", lib: "./lib" }; var scripts = { clean: "rimraf dist", prebuild: "npm run clean", build: "tsc", pretest: "npm run lint && npm run build && npm run copy && cmake .", test: "ctest .", "pretest:ci": "npm run pretest", "test:ci": "ctest -VV --output-on-failure .", lint: "npm run eclint && npm run tslint", eclint: "eclint check --indent_size ignore \"src/**\"", tslint: "tslint --project tsconfig.json --exclude package.json", copy: "cpy .npmignore LICENSE README.md CHANGELOG.md dist && cpy bin/* dist/bin && cpy src/lib/fnmatch*.* dist/src/lib", prepub: "npm run lint && npm run build && npm run copy", pub: "npm publish ./dist" }; var repository = { type: "git", url: "git://github.com/editorconfig/editorconfig-core-js.git" }; var bugs = "https://github.com/editorconfig/editorconfig-core-js/issues"; var author = "EditorConfig Team"; var license = "MIT"; var dependencies = { commander: "^2.19.0", "lru-cache": "^4.1.5", semver: "^5.6.0", sigmund: "^1.0.1" }; var devDependencies = { "@types/mocha": "^5.2.6", "@types/node": "^10.12.29", "@types/semver": "^5.5.0", "cpy-cli": "^2.0.0", eclint: "^2.8.1", mocha: "^5.2.0", rimraf: "^2.6.3", should: "^13.2.3", tslint: "^5.13.1", typescript: "^3.3.3333" }; var require$$5$4 = { name: name$g, version: version$1, description: description, keywords: keywords, main: main, contributors: contributors, directories: directories, scripts: scripts, repository: repository, bugs: bugs, author: author, license: license, dependencies: dependencies, devDependencies: devDependencies }; var __awaiter = undefined && undefined.__awaiter || function (thisArg, _arguments, P, generator) { return new (P || (P = Promise))(function (resolve, reject) { function fulfilled(value) { try { step(generator.next(value)); } catch (e) { reject(e); } } function rejected(value) { try { step(generator["throw"](value)); } catch (e) { reject(e); } } function step(result) { result.done ? resolve(result.value) : new P(function (resolve) { resolve(result.value); }).then(fulfilled, rejected); } step((generator = generator.apply(thisArg, _arguments || [])).next()); }); }; var __generator = undefined && undefined.__generator || function (thisArg, body) { var _ = { label: 0, sent: function () { if (t[0] & 1) throw t[1]; return t[1]; }, trys: [], ops: [] }, f, y, t, g; return g = { next: verb(0), "throw": verb(1), "return": verb(2) }, typeof Symbol === "function" && (g[Symbol.iterator] = function () { return this; }), g; function verb(n) { return function (v) { return step([n, v]); }; } function step(op) { if (f) throw new TypeError("Generator is already executing."); while (_) try { if (f = 1, y && (t = op[0] & 2 ? y["return"] : op[0] ? y["throw"] || ((t = y["return"]) && t.call(y), 0) : y.next) && !(t = t.call(y, op[1])).done) return t; if (y = 0, t) op = [op[0] & 2, t.value]; switch (op[0]) { case 0: case 1: t = op; break; case 4: _.label++; return { value: op[1], done: false }; case 5: _.label++; y = op[1]; op = [0]; continue; case 7: op = _.ops.pop(); _.trys.pop(); continue; default: if (!(t = _.trys, t = t.length > 0 && t[t.length - 1]) && (op[0] === 6 || op[0] === 2)) { _ = 0; continue; } if (op[0] === 3 && (!t || op[1] > t[0] && op[1] < t[3])) { _.label = op[1]; break; } if (op[0] === 6 && _.label < t[1]) { _.label = t[1]; t = op; break; } if (t && _.label < t[2]) { _.label = t[2]; _.ops.push(op); break; } if (t[2]) _.ops.pop(); _.trys.pop(); continue; } op = body.call(thisArg, _); } catch (e) { op = [6, e]; y = 0; } finally { f = t = 0; } if (op[0] & 5) throw op[1]; return { value: op[0] ? op[1] : void 0, done: true }; } }; var __importStar = undefined && undefined.__importStar || function (mod) { if (mod && mod.__esModule) return mod; var result = {}; if (mod != null) for (var k in mod) if (Object.hasOwnProperty.call(mod, k)) result[k] = mod[k]; result["default"] = mod; return result; }; var __importDefault = undefined && undefined.__importDefault || function (mod) { return mod && mod.__esModule ? mod : { "default": mod }; }; Object.defineProperty(src$1, "__esModule", { value: true }); var fs$e = __importStar(require$$0__default["default"]); var path$i = __importStar(require$$0__default$2["default"]); var semver = __importStar(semver$1.exports); var fnmatch_1 = __importDefault(fnmatch$1.exports); var ini_1 = ini; src$1.parseString = ini_1.parseString; var package_json_1 = __importDefault(require$$5$4); var knownProps = { end_of_line: true, indent_style: true, indent_size: true, insert_final_newline: true, trim_trailing_whitespace: true, charset: true }; function fnmatch(filepath, glob) { var matchOptions = { matchBase: true, dot: true, noext: true }; glob = glob.replace(/\*\*/g, '{*,**/**/**}'); return fnmatch_1.default(filepath, glob, matchOptions); } function getConfigFileNames(filepath, options) { var paths = []; do { filepath = path$i.dirname(filepath); paths.push(path$i.join(filepath, options.config)); } while (filepath !== options.root); return paths; } function processMatches(matches, version) { // Set indent_size to 'tab' if indent_size is unspecified and // indent_style is set to 'tab'. if ('indent_style' in matches && matches.indent_style === 'tab' && !('indent_size' in matches) && semver.gte(version, '0.10.0')) { matches.indent_size = 'tab'; } // Set tab_width to indent_size if indent_size is specified and // tab_width is unspecified if ('indent_size' in matches && !('tab_width' in matches) && matches.indent_size !== 'tab') { matches.tab_width = matches.indent_size; } // Set indent_size to tab_width if indent_size is 'tab' if ('indent_size' in matches && 'tab_width' in matches && matches.indent_size === 'tab') { matches.indent_size = matches.tab_width; } return matches; } function processOptions(options, filepath) { if (options === void 0) { options = {}; } return { config: options.config || '.editorconfig', version: options.version || package_json_1.default.version, root: path$i.resolve(options.root || path$i.parse(filepath).root) }; } function buildFullGlob(pathPrefix, glob) { switch (glob.indexOf('/')) { case -1: glob = '**/' + glob; break; case 0: glob = glob.substring(1); break; } return path$i.join(pathPrefix, glob); } function extendProps(props, options) { if (props === void 0) { props = {}; } if (options === void 0) { options = {}; } for (var key in options) { if (options.hasOwnProperty(key)) { var value = options[key]; var key2 = key.toLowerCase(); var value2 = value; if (knownProps[key2]) { value2 = value.toLowerCase(); } try { value2 = JSON.parse(value); } catch (e) {} if (typeof value === 'undefined' || value === null) { // null and undefined are values specific to JSON (no special meaning // in editorconfig) & should just be returned as regular strings. value2 = String(value); } props[key2] = value2; } } return props; } function parseFromConfigs(configs, filepath, options) { return processMatches(configs.reverse().reduce(function (matches, file) { var pathPrefix = path$i.dirname(file.name); file.contents.forEach(function (section) { var glob = section[0]; var options2 = section[1]; if (!glob) { return; } var fullGlob = buildFullGlob(pathPrefix, glob); if (!fnmatch(filepath, fullGlob)) { return; } matches = extendProps(matches, options2); }); return matches; }, {}), options.version); } function getConfigsForFiles(files) { var configs = []; for (var i in files) { if (files.hasOwnProperty(i)) { var file = files[i]; var contents = ini_1.parseString(file.contents); configs.push({ name: file.name, contents: contents }); if ((contents[0][1].root || '').toLowerCase() === 'true') { break; } } } return configs; } function readConfigFiles(filepaths) { return __awaiter(this, void 0, void 0, function () { return __generator(this, function (_a) { return [2 /*return*/ , Promise.all(filepaths.map(function (name) { return new Promise(function (resolve) { fs$e.readFile(name, 'utf8', function (err, data) { resolve({ name: name, contents: err ? '' : data }); }); }); }))]; }); }); } function readConfigFilesSync(filepaths) { var files = []; var file; filepaths.forEach(function (filepath) { try { file = fs$e.readFileSync(filepath, 'utf8'); } catch (e) { file = ''; } files.push({ name: filepath, contents: file }); }); return files; } function opts(filepath, options) { if (options === void 0) { options = {}; } var resolvedFilePath = path$i.resolve(filepath); return [resolvedFilePath, processOptions(options, resolvedFilePath)]; } function parseFromFiles(filepath, files, options) { if (options === void 0) { options = {}; } return __awaiter(this, void 0, void 0, function () { var _a, resolvedFilePath, processedOptions; return __generator(this, function (_b) { _a = opts(filepath, options), resolvedFilePath = _a[0], processedOptions = _a[1]; return [2 /*return*/ , files.then(getConfigsForFiles).then(function (configs) { return parseFromConfigs(configs, resolvedFilePath, processedOptions); })]; }); }); } src$1.parseFromFiles = parseFromFiles; function parseFromFilesSync(filepath, files, options) { if (options === void 0) { options = {}; } var _a = opts(filepath, options), resolvedFilePath = _a[0], processedOptions = _a[1]; return parseFromConfigs(getConfigsForFiles(files), resolvedFilePath, processedOptions); } src$1.parseFromFilesSync = parseFromFilesSync; function parse$6(_filepath, _options) { if (_options === void 0) { _options = {}; } return __awaiter(this, void 0, void 0, function () { var _a, resolvedFilePath, processedOptions, filepaths; return __generator(this, function (_b) { _a = opts(_filepath, _options), resolvedFilePath = _a[0], processedOptions = _a[1]; filepaths = getConfigFileNames(resolvedFilePath, processedOptions); return [2 /*return*/ , readConfigFiles(filepaths).then(getConfigsForFiles).then(function (configs) { return parseFromConfigs(configs, resolvedFilePath, processedOptions); })]; }); }); } src$1.parse = parse$6; function parseSync(_filepath, _options) { if (_options === void 0) { _options = {}; } var _a = opts(_filepath, _options), resolvedFilePath = _a[0], processedOptions = _a[1]; var filepaths = getConfigFileNames(resolvedFilePath, processedOptions); var files = readConfigFilesSync(filepaths); return parseFromConfigs(getConfigsForFiles(files), resolvedFilePath, processedOptions); } src$1.parseSync = parseSync; var editorconfigToPrettier = editorConfigToPrettier$1; function removeUnset(editorConfig) { const result = {}; const keys = Object.keys(editorConfig); for (let i = 0; i < keys.length; i++) { const key = keys[i]; if (editorConfig[key] === "unset") { continue; } result[key] = editorConfig[key]; } return result; } function editorConfigToPrettier$1(editorConfig) { if (!editorConfig) { return null; } editorConfig = removeUnset(editorConfig); if (Object.keys(editorConfig).length === 0) { return null; } const result = {}; if (editorConfig.indent_style) { result.useTabs = editorConfig.indent_style === "tab"; } if (editorConfig.indent_size === "tab") { result.useTabs = true; } if (result.useTabs && editorConfig.tab_width) { result.tabWidth = editorConfig.tab_width; } else if (editorConfig.indent_style === "space" && editorConfig.indent_size && editorConfig.indent_size !== "tab") { result.tabWidth = editorConfig.indent_size; } else if (editorConfig.tab_width !== undefined) { result.tabWidth = editorConfig.tab_width; } if (editorConfig.max_line_length && editorConfig.max_line_length !== "off") { result.printWidth = editorConfig.max_line_length; } if (editorConfig.quote_type === "single") { result.singleQuote = true; } else if (editorConfig.quote_type === "double") { result.singleQuote = false; } if (["cr", "crlf", "lf"].indexOf(editorConfig.end_of_line) !== -1) { result.endOfLine = editorConfig.end_of_line; } if (editorConfig.insert_final_newline === false || editorConfig.insert_final_newline === true) { result.insertFinalNewline = editorConfig.insert_final_newline; } return result; } // https://github.com/kirstein/find-project-root/blob/master/index.js const fs$d = require$$0__default["default"]; const path$h = require$$0__default$2["default"]; const MARKERS = [".git", ".hg"]; const markerExists = directory => MARKERS.some(mark => fs$d.existsSync(path$h.join(directory, mark))); function findProjectRoot$1(directory) { while (!markerExists(directory)) { const parentDirectory = path$h.resolve(directory, ".."); if (parentDirectory === directory) { break; } directory = parentDirectory; } return directory; } var findProjectRoot_1 = findProjectRoot$1; const path$g = require$$0__default$2["default"]; const editorconfig = src$1; const mem$2 = dist$1; const editorConfigToPrettier = editorconfigToPrettier; const findProjectRoot = findProjectRoot_1; const jsonStringifyMem = fn => mem$2(fn, { cacheKey: JSON.stringify }); const maybeParse = (filePath, parse) => filePath && parse(filePath, { root: findProjectRoot(path$g.dirname(path$g.resolve(filePath))) }); const editorconfigAsyncNoCache = async filePath => editorConfigToPrettier(await maybeParse(filePath, editorconfig.parse)); const editorconfigAsyncWithCache = jsonStringifyMem(editorconfigAsyncNoCache); const editorconfigSyncNoCache = filePath => editorConfigToPrettier(maybeParse(filePath, editorconfig.parseSync)); const editorconfigSyncWithCache = jsonStringifyMem(editorconfigSyncNoCache); function getLoadFunction(opts) { if (!opts.editorconfig) { return () => null; } if (opts.sync) { return opts.cache ? editorconfigSyncWithCache : editorconfigSyncNoCache; } return opts.cache ? editorconfigAsyncWithCache : editorconfigAsyncNoCache; } function clearCache$2() { mem$2.clear(editorconfigSyncWithCache); mem$2.clear(editorconfigAsyncWithCache); } var resolveConfigEditorconfig = { getLoadFunction, clearCache: clearCache$2 }; const _excluded$1 = ["overrides"]; const path$f = require$$0__default$2["default"]; const minimatch = minimatch_1; const mem$1 = dist$1; const thirdParty$1 = require$$7$2; const loadToml = loadToml$1; const loadJson5 = loadJson5$1; const resolve$1 = resolve_1; const resolveEditorConfig = resolveConfigEditorconfig; /** * @typedef {import("cosmiconfig/dist/Explorer").Explorer} Explorer * @typedef {{sync: boolean; cache: boolean }} Options */ /** * @type {(opts: Options) => Explorer} */ const getExplorerMemoized = mem$1(opts => { const cosmiconfig = thirdParty$1["cosmiconfig" + (opts.sync ? "Sync" : "")]; const explorer = cosmiconfig("prettier", { cache: opts.cache, transform: result => { if (result && result.config) { if (typeof result.config === "string") { const dir = path$f.dirname(result.filepath); const modulePath = resolve$1(result.config, { paths: [dir] }); result.config = require(modulePath); } if (typeof result.config !== "object") { throw new TypeError("Config is only allowed to be an object, " + `but received ${typeof result.config} in "${result.filepath}"`); } delete result.config.$schema; } return result; }, searchPlaces: ["package.json", ".prettierrc", ".prettierrc.json", ".prettierrc.yaml", ".prettierrc.yml", ".prettierrc.json5", ".prettierrc.js", ".prettierrc.cjs", "prettier.config.js", "prettier.config.cjs", ".prettierrc.toml"], loaders: { ".toml": loadToml, ".json5": loadJson5 } }); return explorer; }, { cacheKey: JSON.stringify }); /** * @param {Options} opts * @return {Explorer} */ function getExplorer(opts) { // Normalize opts before passing to a memoized function opts = Object.assign({ sync: false, cache: false }, opts); return getExplorerMemoized(opts); } function _resolveConfig(filePath, opts, sync) { opts = Object.assign({ useCache: true }, opts); const loadOpts = { cache: Boolean(opts.useCache), sync: Boolean(sync), editorconfig: Boolean(opts.editorconfig) }; const { load, search } = getExplorer(loadOpts); const loadEditorConfig = resolveEditorConfig.getLoadFunction(loadOpts); const arr = [opts.config ? load(opts.config) : search(filePath), loadEditorConfig(filePath)]; const unwrapAndMerge = ([result, editorConfigured]) => { const merged = Object.assign(Object.assign({}, editorConfigured), mergeOverrides(result, filePath)); for (const optionName of ["plugins", "pluginSearchDirs"]) { if (Array.isArray(merged[optionName])) { merged[optionName] = merged[optionName].map(value => typeof value === "string" && value.startsWith(".") // relative path ? path$f.resolve(path$f.dirname(result.filepath), value) : value); } } if (!result && !editorConfigured) { return null; } // We are not using this option delete merged.insertFinalNewline; return merged; }; if (loadOpts.sync) { return unwrapAndMerge(arr); } return Promise.all(arr).then(unwrapAndMerge); } const resolveConfig = (filePath, opts) => _resolveConfig(filePath, opts, false); resolveConfig.sync = (filePath, opts) => _resolveConfig(filePath, opts, true); function clearCache$1() { mem$1.clear(getExplorerMemoized); resolveEditorConfig.clearCache(); } async function resolveConfigFile(filePath) { const { search } = getExplorer({ sync: false }); const result = await search(filePath); return result ? result.filepath : null; } resolveConfigFile.sync = filePath => { const { search } = getExplorer({ sync: true }); const result = search(filePath); return result ? result.filepath : null; }; function mergeOverrides(configResult, filePath) { const { config, filepath: configPath } = configResult || {}; const _ref = config || {}, { overrides } = _ref, options = _objectWithoutProperties(_ref, _excluded$1); if (filePath && overrides) { const relativeFilePath = path$f.relative(path$f.dirname(configPath), filePath); for (const override of overrides) { if (pathMatchesGlobs(relativeFilePath, override.files, override.excludeFiles)) { Object.assign(options, override.options); } } } return options; } // Based on eslint: https://github.com/eslint/eslint/blob/master/lib/config/config-ops.js function pathMatchesGlobs(filePath, patterns, excludedPatterns = []) { const patternList = Array.isArray(patterns) ? patterns : [patterns]; const excludedPatternList = Array.isArray(excludedPatterns) ? excludedPatterns : [excludedPatterns]; const opts = { matchBase: true, dot: true }; return patternList.some(pattern => minimatch(filePath, pattern, opts)) && !excludedPatternList.some(excludedPattern => minimatch(filePath, excludedPattern, opts)); } var resolveConfig_1 = { resolveConfig, resolveConfigFile, clearCache: clearCache$1 }; function make_array(subject) { return Array.isArray(subject) ? subject : [subject]; } const REGEX_BLANK_LINE = /^\s+$/; const REGEX_LEADING_EXCAPED_EXCLAMATION = /^\\!/; const REGEX_LEADING_EXCAPED_HASH = /^\\#/; const SLASH$1 = '/'; const KEY_IGNORE$1 = typeof Symbol !== 'undefined' ? Symbol.for('node-ignore') /* istanbul ignore next */ : 'node-ignore'; const define$1 = (object, key, value) => Object.defineProperty(object, key, { value }); const REGEX_REGEXP_RANGE$1 = /([0-z])-([0-z])/g; // Sanitize the range of a regular expression // The cases are complicated, see test cases for details const sanitizeRange$1 = range => range.replace(REGEX_REGEXP_RANGE$1, (match, from, to) => from.charCodeAt(0) <= to.charCodeAt(0) ? match // Invalid range (out of order) which is ok for gitignore rules but // fatal for JavaScript regular expression, so eliminate it. : ''); // > If the pattern ends with a slash, // > it is removed for the purpose of the following description, // > but it would only find a match with a directory. // > In other words, foo/ will match a directory foo and paths underneath it, // > but will not match a regular file or a symbolic link foo // > (this is consistent with the way how pathspec works in general in Git). // '`foo/`' will not match regular file '`foo`' or symbolic link '`foo`' // -> ignore-rules will not deal with it, because it costs extra `fs.stat` call // you could use option `mark: true` with `glob` // '`foo/`' should not continue with the '`..`' const DEFAULT_REPLACER_PREFIX = [// > Trailing spaces are ignored unless they are quoted with backslash ("\") [// (a\ ) -> (a ) // (a ) -> (a) // (a \ ) -> (a ) /\\?\s+$/, match => match.indexOf('\\') === 0 ? ' ' : ''], // replace (\ ) with ' ' [/\\\s/g, () => ' '], // Escape metacharacters // which is written down by users but means special for regular expressions. // > There are 12 characters with special meanings: // > - the backslash \, // > - the caret ^, // > - the dollar sign $, // > - the period or dot ., // > - the vertical bar or pipe symbol |, // > - the question mark ?, // > - the asterisk or star *, // > - the plus sign +, // > - the opening parenthesis (, // > - the closing parenthesis ), // > - and the opening square bracket [, // > - the opening curly brace {, // > These special characters are often called "metacharacters". [/[\\^$.|*+(){]/g, match => `\\${match}`], [// > [abc] matches any character inside the brackets // > (in this case a, b, or c); /\[([^\]/]*)($|\])/g, (match, p1, p2) => p2 === ']' ? `[${sanitizeRange$1(p1)}]` : `\\${match}`], [// > a question mark (?) matches a single character /(?!\\)\?/g, () => '[^/]'], // leading slash [// > A leading slash matches the beginning of the pathname. // > For example, "/*.c" matches "cat-file.c" but not "mozilla-sha1/sha1.c". // A leading slash matches the beginning of the pathname /^\//, () => '^'], // replace special metacharacter slash after the leading slash [/\//g, () => '\\/'], [// > A leading "**" followed by a slash means match in all directories. // > For example, "**/foo" matches file or directory "foo" anywhere, // > the same as pattern "foo". // > "**/foo/bar" matches file or directory "bar" anywhere that is directly // > under directory "foo". // Notice that the '*'s have been replaced as '\\*' /^\^*\\\*\\\*\\\//, // '**/foo' <-> 'foo' () => '^(?:.*\\/)?']]; const DEFAULT_REPLACER_SUFFIX = [// starting [// there will be no leading '/' // (which has been replaced by section "leading slash") // If starts with '**', adding a '^' to the regular expression also works /^(?=[^^])/, function startingReplacer() { return !/\/(?!$)/.test(this) // > If the pattern does not contain a slash /, // > Git treats it as a shell glob pattern // Actually, if there is only a trailing slash, // git also treats it as a shell glob pattern ? '(?:^|\\/)' // > Otherwise, Git treats the pattern as a shell glob suitable for // > consumption by fnmatch(3) : '^'; }], // two globstars [// Use lookahead assertions so that we could match more than one `'/**'` /\\\/\\\*\\\*(?=\\\/|$)/g, // Zero, one or several directories // should not use '*', or it will be replaced by the next replacer // Check if it is not the last `'/**'` (match, index, str) => index + 6 < str.length // case: /**/ // > A slash followed by two consecutive asterisks then a slash matches // > zero or more directories. // > For example, "a/**/b" matches "a/b", "a/x/b", "a/x/y/b" and so on. // '/**/' ? '(?:\\/[^\\/]+)*' // case: /** // > A trailing `"/**"` matches everything inside. // #21: everything inside but it should not include the current folder : '\\/.+'], // intermediate wildcards [// Never replace escaped '*' // ignore rule '\*' will match the path '*' // 'abc.*/' -> go // 'abc.*' -> skip this rule /(^|[^\\]+)\\\*(?=.+)/g, // '*.js' matches '.js' // '*.js' doesn't match 'abc' (match, p1) => `${p1}[^\\/]*`], // trailing wildcard [/(\^|\\\/)?\\\*$/, (match, p1) => { const prefix = p1 // '\^': // '/*' does not match '' // '/*' does not match everything // '\\\/': // 'abc/*' does not match 'abc/' ? `${p1}[^/]+` // 'a*' matches 'a' // 'a*' matches 'aa' : '[^/]*'; return `${prefix}(?=$|\\/$)`; }], [// unescape /\\\\\\/g, () => '\\']]; const POSITIVE_REPLACERS = [...DEFAULT_REPLACER_PREFIX, // 'f' // matches // - /f(end) // - /f/ // - (start)f(end) // - (start)f/ // doesn't match // - oof // - foo // pseudo: // -> (^|/)f(/|$) // ending [// 'js' will not match 'js.' // 'ab' will not match 'abc' /(?:[^*/])$/, // 'js*' will not match 'a.js' // 'js/' will not match 'a.js' // 'js' will match 'a.js' and 'a.js/' match => `${match}(?=$|\\/)`], ...DEFAULT_REPLACER_SUFFIX]; const NEGATIVE_REPLACERS = [...DEFAULT_REPLACER_PREFIX, // #24, #38 // The MISSING rule of [gitignore docs](https://git-scm.com/docs/gitignore) // A negative pattern without a trailing wildcard should not // re-include the things inside that directory. // eg: // ['node_modules/*', '!node_modules'] // should ignore `node_modules/a.js` [/(?:[^*])$/, match => `${match}(?=$|\\/$)`], ...DEFAULT_REPLACER_SUFFIX]; // A simple cache, because an ignore rule only has only one certain meaning const cache = Object.create(null); // @param {pattern} const make_regex = (pattern, negative, ignorecase) => { const r = cache[pattern]; if (r) { return r; } const replacers = negative ? NEGATIVE_REPLACERS : POSITIVE_REPLACERS; const source = replacers.reduce((prev, current) => prev.replace(current[0], current[1].bind(pattern)), pattern); return cache[pattern] = ignorecase ? new RegExp(source, 'i') : new RegExp(source); }; // > A blank line matches no files, so it can serve as a separator for readability. const checkPattern$1 = pattern => pattern && typeof pattern === 'string' && !REGEX_BLANK_LINE.test(pattern) // > A line starting with # serves as a comment. && pattern.indexOf('#') !== 0; const createRule$1 = (pattern, ignorecase) => { const origin = pattern; let negative = false; // > An optional prefix "!" which negates the pattern; if (pattern.indexOf('!') === 0) { negative = true; pattern = pattern.substr(1); } pattern = pattern // > Put a backslash ("\") in front of the first "!" for patterns that // > begin with a literal "!", for example, `"\!important!.txt"`. .replace(REGEX_LEADING_EXCAPED_EXCLAMATION, '!') // > Put a backslash ("\") in front of the first hash for patterns that // > begin with a hash. .replace(REGEX_LEADING_EXCAPED_HASH, '#'); const regex = make_regex(pattern, negative, ignorecase); return { origin, pattern, negative, regex }; }; class IgnoreBase { constructor({ ignorecase = true } = {}) { this._rules = []; this._ignorecase = ignorecase; define$1(this, KEY_IGNORE$1, true); this._initCache(); } _initCache() { this._cache = Object.create(null); } // @param {Array.|string|Ignore} pattern add(pattern) { this._added = false; if (typeof pattern === 'string') { pattern = pattern.split(/\r?\n/g); } make_array(pattern).forEach(this._addPattern, this); // Some rules have just added to the ignore, // making the behavior changed. if (this._added) { this._initCache(); } return this; } // legacy addPattern(pattern) { return this.add(pattern); } _addPattern(pattern) { // #32 if (pattern && pattern[KEY_IGNORE$1]) { this._rules = this._rules.concat(pattern._rules); this._added = true; return; } if (checkPattern$1(pattern)) { const rule = createRule$1(pattern, this._ignorecase); this._added = true; this._rules.push(rule); } } filter(paths) { return make_array(paths).filter(path => this._filter(path)); } createFilter() { return path => this._filter(path); } ignores(path) { return !this._filter(path); } // @returns `Boolean` true if the `path` is NOT ignored _filter(path, slices) { if (!path) { return false; } if (path in this._cache) { return this._cache[path]; } if (!slices) { // path/to/a.js // ['path', 'to', 'a.js'] slices = path.split(SLASH$1); } slices.pop(); return this._cache[path] = slices.length // > It is not possible to re-include a file if a parent directory of // > that file is excluded. // If the path contains a parent directory, check the parent first ? this._filter(slices.join(SLASH$1) + SLASH$1, slices) && this._test(path) // Or only test the path : this._test(path); } // @returns {Boolean} true if a file is NOT ignored _test(path) { // Explicitly define variable type by setting matched to `0` let matched = 0; this._rules.forEach(rule => { // if matched = true, then we only test negative rules // if matched = false, then we test non-negative rules if (!(matched ^ rule.negative)) { matched = rule.negative ^ rule.regex.test(path); } }); return !matched; } } // Windows // -------------------------------------------------------------- /* istanbul ignore if */ if ( // Detect `process` so that it can run in browsers. typeof process !== 'undefined' && (process.env && process.env.IGNORE_TEST_WIN32 || process.platform === 'win32')) { const filter = IgnoreBase.prototype._filter; /* eslint no-control-regex: "off" */ const make_posix = str => /^\\\\\?\\/.test(str) || /[^\x00-\x80]+/.test(str) ? str : str.replace(/\\/g, '/'); IgnoreBase.prototype._filter = function filterWin32(path, slices) { path = make_posix(path); return filter.call(this, path, slices); }; } var ignore$2 = options => new IgnoreBase(options); const fs$c = require$$0__default["default"]; const fsAsync = fs$c.promises; /** * @param {string} filename * @returns {Promise} */ async function getFileContentOrNull$1(filename) { try { return await fsAsync.readFile(filename, "utf8"); } catch (error) { return handleError(filename, error); } } /** * @param {string} filename * @returns {null | string} */ getFileContentOrNull$1.sync = function (filename) { try { return fs$c.readFileSync(filename, "utf8"); } catch (error) { return handleError(filename, error); } }; function handleError(filename, error) { if (error && error.code === "ENOENT") { return null; } throw new Error(`Unable to read ${filename}: ${error.message}`); } var getFileContentOrNull_1 = getFileContentOrNull$1; const path$e = require$$0__default$2["default"]; const ignore$1 = ignore$2; const getFileContentOrNull = getFileContentOrNull_1; /** * @param {string?} ignorePath * @param {boolean?} withNodeModules */ async function createIgnorer$1(ignorePath, withNodeModules) { const ignoreContent = ignorePath ? await getFileContentOrNull(path$e.resolve(ignorePath)) : null; return _createIgnorer(ignoreContent, withNodeModules); } /** * @param {string?} ignorePath * @param {boolean?} withNodeModules */ createIgnorer$1.sync = function (ignorePath, withNodeModules) { const ignoreContent = !ignorePath ? null : getFileContentOrNull.sync(path$e.resolve(ignorePath)); return _createIgnorer(ignoreContent, withNodeModules); }; /** * @param {null | string} ignoreContent * @param {boolean?} withNodeModules */ function _createIgnorer(ignoreContent, withNodeModules) { const ignorer = ignore$1().add(ignoreContent || ""); if (!withNodeModules) { ignorer.add("node_modules"); } return ignorer; } var createIgnorer_1 = createIgnorer$1; const path$d = require$$0__default$2["default"]; const options$c = options$d; const config$1 = resolveConfig_1; const createIgnorer = createIgnorer_1; /** * @typedef {{ ignorePath?: string, withNodeModules?: boolean, plugins: object }} FileInfoOptions * @typedef {{ ignored: boolean, inferredParser: string | null }} FileInfoResult */ /** * @param {string} filePath * @param {FileInfoOptions} opts * @returns {Promise} * * Please note that prettier.getFileInfo() expects opts.plugins to be an array of paths, * not an object. A transformation from this array to an object is automatically done * internally by the method wrapper. See withPlugins() in index.js. */ async function getFileInfo$1(filePath, opts) { if (typeof filePath !== "string") { throw new TypeError(`expect \`filePath\` to be a string, got \`${typeof filePath}\``); } const ignorer = await createIgnorer(opts.ignorePath, opts.withNodeModules); return _getFileInfo({ ignorer, filePath, plugins: opts.plugins, resolveConfig: opts.resolveConfig, ignorePath: opts.ignorePath, sync: false }); } /** * @param {string} filePath * @param {FileInfoOptions} opts * @returns {FileInfoResult} */ getFileInfo$1.sync = function (filePath, opts) { if (typeof filePath !== "string") { throw new TypeError(`expect \`filePath\` to be a string, got \`${typeof filePath}\``); } const ignorer = createIgnorer.sync(opts.ignorePath, opts.withNodeModules); return _getFileInfo({ ignorer, filePath, plugins: opts.plugins, resolveConfig: opts.resolveConfig, ignorePath: opts.ignorePath, sync: true }); }; function getFileParser(resolvedConfig, filePath, plugins) { if (resolvedConfig && resolvedConfig.parser) { return resolvedConfig.parser; } const inferredParser = options$c.inferParser(filePath, plugins); if (inferredParser) { return inferredParser; } return null; } function _getFileInfo({ ignorer, filePath, plugins, resolveConfig = false, ignorePath, sync = false }) { const normalizedFilePath = normalizeFilePath(filePath, ignorePath); const fileInfo = { ignored: ignorer.ignores(normalizedFilePath), inferredParser: null }; if (fileInfo.ignored) { return fileInfo; } let resolvedConfig; if (resolveConfig) { if (sync) { resolvedConfig = config$1.resolveConfig.sync(filePath); } else { return config$1.resolveConfig(filePath).then(resolvedConfig => { fileInfo.inferredParser = getFileParser(resolvedConfig, filePath, plugins); return fileInfo; }); } } fileInfo.inferredParser = getFileParser(resolvedConfig, filePath, plugins); return fileInfo; } function normalizeFilePath(filePath, ignorePath) { return ignorePath ? path$d.relative(path$d.dirname(ignorePath), filePath) : filePath; } var getFileInfo_1 = getFileInfo$1; const { getMaxContinuousCount: getMaxContinuousCount$2, getStringWidth: getStringWidth$4, getAlignmentSize, getIndentSize: getIndentSize$1, skip, skipWhitespace: skipWhitespace$1, skipSpaces, skipNewline, skipToLineEnd, skipEverythingButNewLine: skipEverythingButNewLine$1, skipInlineComment, skipTrailingComment, hasNewline: hasNewline$8, hasNewlineInRange: hasNewlineInRange$4, hasSpaces, isNextLineEmpty: isNextLineEmpty$d, isNextLineEmptyAfterIndex: isNextLineEmptyAfterIndex$2, isPreviousLineEmpty: isPreviousLineEmpty$1, getNextNonSpaceNonCommentCharacterIndex: getNextNonSpaceNonCommentCharacterIndex$3, makeString, addLeadingComment: addLeadingComment$1, addDanglingComment: addDanglingComment$1, addTrailingComment: addTrailingComment$1 } = util$8; var utilShared = { getMaxContinuousCount: getMaxContinuousCount$2, getStringWidth: getStringWidth$4, getAlignmentSize, getIndentSize: getIndentSize$1, skip, skipWhitespace: skipWhitespace$1, skipSpaces, skipNewline, skipToLineEnd, skipEverythingButNewLine: skipEverythingButNewLine$1, skipInlineComment, skipTrailingComment, hasNewline: hasNewline$8, hasNewlineInRange: hasNewlineInRange$4, hasSpaces, isNextLineEmpty: isNextLineEmpty$d, isNextLineEmptyAfterIndex: isNextLineEmptyAfterIndex$2, isPreviousLineEmpty: isPreviousLineEmpty$1, getNextNonSpaceNonCommentCharacterIndex: getNextNonSpaceNonCommentCharacterIndex$3, makeString, addLeadingComment: addLeadingComment$1, addDanglingComment: addDanglingComment$1, addTrailingComment: addTrailingComment$1 }; /** * Removes all key-value entries from the list cache. * * @private * @name clear * @memberOf ListCache */ function listCacheClear$1() { this.__data__ = []; this.size = 0; } var _listCacheClear = listCacheClear$1; /** * Performs a * [`SameValueZero`](http://ecma-international.org/ecma-262/7.0/#sec-samevaluezero) * comparison between two values to determine if they are equivalent. * * @static * @memberOf _ * @since 4.0.0 * @category Lang * @param {*} value The value to compare. * @param {*} other The other value to compare. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. * @example * * var object = { 'a': 1 }; * var other = { 'a': 1 }; * * _.eq(object, object); * // => true * * _.eq(object, other); * // => false * * _.eq('a', 'a'); * // => true * * _.eq('a', Object('a')); * // => false * * _.eq(NaN, NaN); * // => true */ function eq$2(value, other) { return value === other || value !== value && other !== other; } var eq_1 = eq$2; var eq$1 = eq_1; /** * Gets the index at which the `key` is found in `array` of key-value pairs. * * @private * @param {Array} array The array to inspect. * @param {*} key The key to search for. * @returns {number} Returns the index of the matched value, else `-1`. */ function assocIndexOf$4(array, key) { var length = array.length; while (length--) { if (eq$1(array[length][0], key)) { return length; } } return -1; } var _assocIndexOf = assocIndexOf$4; var assocIndexOf$3 = _assocIndexOf; /** Used for built-in method references. */ var arrayProto = Array.prototype; /** Built-in value references. */ var splice = arrayProto.splice; /** * Removes `key` and its value from the list cache. * * @private * @name delete * @memberOf ListCache * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function listCacheDelete$1(key) { var data = this.__data__, index = assocIndexOf$3(data, key); if (index < 0) { return false; } var lastIndex = data.length - 1; if (index == lastIndex) { data.pop(); } else { splice.call(data, index, 1); } --this.size; return true; } var _listCacheDelete = listCacheDelete$1; var assocIndexOf$2 = _assocIndexOf; /** * Gets the list cache value for `key`. * * @private * @name get * @memberOf ListCache * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function listCacheGet$1(key) { var data = this.__data__, index = assocIndexOf$2(data, key); return index < 0 ? undefined : data[index][1]; } var _listCacheGet = listCacheGet$1; var assocIndexOf$1 = _assocIndexOf; /** * Checks if a list cache value for `key` exists. * * @private * @name has * @memberOf ListCache * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function listCacheHas$1(key) { return assocIndexOf$1(this.__data__, key) > -1; } var _listCacheHas = listCacheHas$1; var assocIndexOf = _assocIndexOf; /** * Sets the list cache `key` to `value`. * * @private * @name set * @memberOf ListCache * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the list cache instance. */ function listCacheSet$1(key, value) { var data = this.__data__, index = assocIndexOf(data, key); if (index < 0) { ++this.size; data.push([key, value]); } else { data[index][1] = value; } return this; } var _listCacheSet = listCacheSet$1; var listCacheClear = _listCacheClear, listCacheDelete = _listCacheDelete, listCacheGet = _listCacheGet, listCacheHas = _listCacheHas, listCacheSet = _listCacheSet; /** * Creates an list cache object. * * @private * @constructor * @param {Array} [entries] The key-value pairs to cache. */ function ListCache$4(entries) { var index = -1, length = entries == null ? 0 : entries.length; this.clear(); while (++index < length) { var entry = entries[index]; this.set(entry[0], entry[1]); } } // Add methods to `ListCache`. ListCache$4.prototype.clear = listCacheClear; ListCache$4.prototype['delete'] = listCacheDelete; ListCache$4.prototype.get = listCacheGet; ListCache$4.prototype.has = listCacheHas; ListCache$4.prototype.set = listCacheSet; var _ListCache = ListCache$4; var ListCache$3 = _ListCache; /** * Removes all key-value entries from the stack. * * @private * @name clear * @memberOf Stack */ function stackClear$1() { this.__data__ = new ListCache$3(); this.size = 0; } var _stackClear = stackClear$1; /** * Removes `key` and its value from the stack. * * @private * @name delete * @memberOf Stack * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function stackDelete$1(key) { var data = this.__data__, result = data['delete'](key); this.size = data.size; return result; } var _stackDelete = stackDelete$1; /** * Gets the stack value for `key`. * * @private * @name get * @memberOf Stack * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function stackGet$1(key) { return this.__data__.get(key); } var _stackGet = stackGet$1; /** * Checks if a stack value for `key` exists. * * @private * @name has * @memberOf Stack * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function stackHas$1(key) { return this.__data__.has(key); } var _stackHas = stackHas$1; /** Detect free variable `global` from Node.js. */ var freeGlobal$1 = typeof global == 'object' && global && global.Object === Object && global; var _freeGlobal = freeGlobal$1; var freeGlobal = _freeGlobal; /** Detect free variable `self`. */ var freeSelf = typeof self == 'object' && self && self.Object === Object && self; /** Used as a reference to the global object. */ var root$8 = freeGlobal || freeSelf || Function('return this')(); var _root = root$8; var root$7 = _root; /** Built-in value references. */ var Symbol$5 = root$7.Symbol; var _Symbol = Symbol$5; var Symbol$4 = _Symbol; /** Used for built-in method references. */ var objectProto$b = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$8 = objectProto$b.hasOwnProperty; /** * Used to resolve the * [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring) * of values. */ var nativeObjectToString$1 = objectProto$b.toString; /** Built-in value references. */ var symToStringTag$1 = Symbol$4 ? Symbol$4.toStringTag : undefined; /** * A specialized version of `baseGetTag` which ignores `Symbol.toStringTag` values. * * @private * @param {*} value The value to query. * @returns {string} Returns the raw `toStringTag`. */ function getRawTag$1(value) { var isOwn = hasOwnProperty$8.call(value, symToStringTag$1), tag = value[symToStringTag$1]; try { value[symToStringTag$1] = undefined; var unmasked = true; } catch (e) {} var result = nativeObjectToString$1.call(value); if (unmasked) { if (isOwn) { value[symToStringTag$1] = tag; } else { delete value[symToStringTag$1]; } } return result; } var _getRawTag = getRawTag$1; /** Used for built-in method references. */ var objectProto$a = Object.prototype; /** * Used to resolve the * [`toStringTag`](http://ecma-international.org/ecma-262/7.0/#sec-object.prototype.tostring) * of values. */ var nativeObjectToString = objectProto$a.toString; /** * Converts `value` to a string using `Object.prototype.toString`. * * @private * @param {*} value The value to convert. * @returns {string} Returns the converted string. */ function objectToString$1(value) { return nativeObjectToString.call(value); } var _objectToString = objectToString$1; var Symbol$3 = _Symbol, getRawTag = _getRawTag, objectToString = _objectToString; /** `Object#toString` result references. */ var nullTag = '[object Null]', undefinedTag = '[object Undefined]'; /** Built-in value references. */ var symToStringTag = Symbol$3 ? Symbol$3.toStringTag : undefined; /** * The base implementation of `getTag` without fallbacks for buggy environments. * * @private * @param {*} value The value to query. * @returns {string} Returns the `toStringTag`. */ function baseGetTag$5(value) { if (value == null) { return value === undefined ? undefinedTag : nullTag; } return symToStringTag && symToStringTag in Object(value) ? getRawTag(value) : objectToString(value); } var _baseGetTag = baseGetTag$5; /** * Checks if `value` is the * [language type](http://www.ecma-international.org/ecma-262/7.0/#sec-ecmascript-language-types) * of `Object`. (e.g. arrays, functions, objects, regexes, `new Number(0)`, and `new String('')`) * * @static * @memberOf _ * @since 0.1.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an object, else `false`. * @example * * _.isObject({}); * // => true * * _.isObject([1, 2, 3]); * // => true * * _.isObject(_.noop); * // => true * * _.isObject(null); * // => false */ function isObject$5(value) { var type = typeof value; return value != null && (type == 'object' || type == 'function'); } var isObject_1 = isObject$5; var baseGetTag$4 = _baseGetTag, isObject$4 = isObject_1; /** `Object#toString` result references. */ var asyncTag = '[object AsyncFunction]', funcTag$1 = '[object Function]', genTag = '[object GeneratorFunction]', proxyTag = '[object Proxy]'; /** * Checks if `value` is classified as a `Function` object. * * @static * @memberOf _ * @since 0.1.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a function, else `false`. * @example * * _.isFunction(_); * // => true * * _.isFunction(/abc/); * // => false */ function isFunction$2(value) { if (!isObject$4(value)) { return false; } // The use of `Object#toString` avoids issues with the `typeof` operator // in Safari 9 which returns 'object' for typed arrays and other constructors. var tag = baseGetTag$4(value); return tag == funcTag$1 || tag == genTag || tag == asyncTag || tag == proxyTag; } var isFunction_1 = isFunction$2; var root$6 = _root; /** Used to detect overreaching core-js shims. */ var coreJsData$1 = root$6['__core-js_shared__']; var _coreJsData = coreJsData$1; var coreJsData = _coreJsData; /** Used to detect methods masquerading as native. */ var maskSrcKey = function () { var uid = /[^.]+$/.exec(coreJsData && coreJsData.keys && coreJsData.keys.IE_PROTO || ''); return uid ? 'Symbol(src)_1.' + uid : ''; }(); /** * Checks if `func` has its source masked. * * @private * @param {Function} func The function to check. * @returns {boolean} Returns `true` if `func` is masked, else `false`. */ function isMasked$1(func) { return !!maskSrcKey && maskSrcKey in func; } var _isMasked = isMasked$1; /** Used for built-in method references. */ var funcProto$1 = Function.prototype; /** Used to resolve the decompiled source of functions. */ var funcToString$1 = funcProto$1.toString; /** * Converts `func` to its source code. * * @private * @param {Function} func The function to convert. * @returns {string} Returns the source code. */ function toSource$2(func) { if (func != null) { try { return funcToString$1.call(func); } catch (e) {} try { return func + ''; } catch (e) {} } return ''; } var _toSource = toSource$2; var isFunction$1 = isFunction_1, isMasked = _isMasked, isObject$3 = isObject_1, toSource$1 = _toSource; /** * Used to match `RegExp` * [syntax characters](http://ecma-international.org/ecma-262/7.0/#sec-patterns). */ var reRegExpChar = /[\\^$.*+?()[\]{}|]/g; /** Used to detect host constructors (Safari). */ var reIsHostCtor = /^\[object .+?Constructor\]$/; /** Used for built-in method references. */ var funcProto = Function.prototype, objectProto$9 = Object.prototype; /** Used to resolve the decompiled source of functions. */ var funcToString = funcProto.toString; /** Used to check objects for own properties. */ var hasOwnProperty$7 = objectProto$9.hasOwnProperty; /** Used to detect if a method is native. */ var reIsNative = RegExp('^' + funcToString.call(hasOwnProperty$7).replace(reRegExpChar, '\\$&').replace(/hasOwnProperty|(function).*?(?=\\\()| for .+?(?=\\\])/g, '$1.*?') + '$'); /** * The base implementation of `_.isNative` without bad shim checks. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a native function, * else `false`. */ function baseIsNative$1(value) { if (!isObject$3(value) || isMasked(value)) { return false; } var pattern = isFunction$1(value) ? reIsNative : reIsHostCtor; return pattern.test(toSource$1(value)); } var _baseIsNative = baseIsNative$1; /** * Gets the value at `key` of `object`. * * @private * @param {Object} [object] The object to query. * @param {string} key The key of the property to get. * @returns {*} Returns the property value. */ function getValue$1(object, key) { return object == null ? undefined : object[key]; } var _getValue = getValue$1; var baseIsNative = _baseIsNative, getValue = _getValue; /** * Gets the native function at `key` of `object`. * * @private * @param {Object} object The object to query. * @param {string} key The key of the method to get. * @returns {*} Returns the function if it's native, else `undefined`. */ function getNative$6(object, key) { var value = getValue(object, key); return baseIsNative(value) ? value : undefined; } var _getNative = getNative$6; var getNative$5 = _getNative, root$5 = _root; /* Built-in method references that are verified to be native. */ var Map$4 = getNative$5(root$5, 'Map'); var _Map = Map$4; var getNative$4 = _getNative; /* Built-in method references that are verified to be native. */ var nativeCreate$4 = getNative$4(Object, 'create'); var _nativeCreate = nativeCreate$4; var nativeCreate$3 = _nativeCreate; /** * Removes all key-value entries from the hash. * * @private * @name clear * @memberOf Hash */ function hashClear$1() { this.__data__ = nativeCreate$3 ? nativeCreate$3(null) : {}; this.size = 0; } var _hashClear = hashClear$1; /** * Removes `key` and its value from the hash. * * @private * @name delete * @memberOf Hash * @param {Object} hash The hash to modify. * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function hashDelete$1(key) { var result = this.has(key) && delete this.__data__[key]; this.size -= result ? 1 : 0; return result; } var _hashDelete = hashDelete$1; var nativeCreate$2 = _nativeCreate; /** Used to stand-in for `undefined` hash values. */ var HASH_UNDEFINED$2 = '__lodash_hash_undefined__'; /** Used for built-in method references. */ var objectProto$8 = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$6 = objectProto$8.hasOwnProperty; /** * Gets the hash value for `key`. * * @private * @name get * @memberOf Hash * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function hashGet$1(key) { var data = this.__data__; if (nativeCreate$2) { var result = data[key]; return result === HASH_UNDEFINED$2 ? undefined : result; } return hasOwnProperty$6.call(data, key) ? data[key] : undefined; } var _hashGet = hashGet$1; var nativeCreate$1 = _nativeCreate; /** Used for built-in method references. */ var objectProto$7 = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$5 = objectProto$7.hasOwnProperty; /** * Checks if a hash value for `key` exists. * * @private * @name has * @memberOf Hash * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function hashHas$1(key) { var data = this.__data__; return nativeCreate$1 ? data[key] !== undefined : hasOwnProperty$5.call(data, key); } var _hashHas = hashHas$1; var nativeCreate = _nativeCreate; /** Used to stand-in for `undefined` hash values. */ var HASH_UNDEFINED$1 = '__lodash_hash_undefined__'; /** * Sets the hash `key` to `value`. * * @private * @name set * @memberOf Hash * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the hash instance. */ function hashSet$1(key, value) { var data = this.__data__; this.size += this.has(key) ? 0 : 1; data[key] = nativeCreate && value === undefined ? HASH_UNDEFINED$1 : value; return this; } var _hashSet = hashSet$1; var hashClear = _hashClear, hashDelete = _hashDelete, hashGet = _hashGet, hashHas = _hashHas, hashSet = _hashSet; /** * Creates a hash object. * * @private * @constructor * @param {Array} [entries] The key-value pairs to cache. */ function Hash$1(entries) { var index = -1, length = entries == null ? 0 : entries.length; this.clear(); while (++index < length) { var entry = entries[index]; this.set(entry[0], entry[1]); } } // Add methods to `Hash`. Hash$1.prototype.clear = hashClear; Hash$1.prototype['delete'] = hashDelete; Hash$1.prototype.get = hashGet; Hash$1.prototype.has = hashHas; Hash$1.prototype.set = hashSet; var _Hash = Hash$1; var Hash = _Hash, ListCache$2 = _ListCache, Map$3 = _Map; /** * Removes all key-value entries from the map. * * @private * @name clear * @memberOf MapCache */ function mapCacheClear$1() { this.size = 0; this.__data__ = { 'hash': new Hash(), 'map': new (Map$3 || ListCache$2)(), 'string': new Hash() }; } var _mapCacheClear = mapCacheClear$1; /** * Checks if `value` is suitable for use as unique object key. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is suitable, else `false`. */ function isKeyable$1(value) { var type = typeof value; return type == 'string' || type == 'number' || type == 'symbol' || type == 'boolean' ? value !== '__proto__' : value === null; } var _isKeyable = isKeyable$1; var isKeyable = _isKeyable; /** * Gets the data for `map`. * * @private * @param {Object} map The map to query. * @param {string} key The reference key. * @returns {*} Returns the map data. */ function getMapData$4(map, key) { var data = map.__data__; return isKeyable(key) ? data[typeof key == 'string' ? 'string' : 'hash'] : data.map; } var _getMapData = getMapData$4; var getMapData$3 = _getMapData; /** * Removes `key` and its value from the map. * * @private * @name delete * @memberOf MapCache * @param {string} key The key of the value to remove. * @returns {boolean} Returns `true` if the entry was removed, else `false`. */ function mapCacheDelete$1(key) { var result = getMapData$3(this, key)['delete'](key); this.size -= result ? 1 : 0; return result; } var _mapCacheDelete = mapCacheDelete$1; var getMapData$2 = _getMapData; /** * Gets the map value for `key`. * * @private * @name get * @memberOf MapCache * @param {string} key The key of the value to get. * @returns {*} Returns the entry value. */ function mapCacheGet$1(key) { return getMapData$2(this, key).get(key); } var _mapCacheGet = mapCacheGet$1; var getMapData$1 = _getMapData; /** * Checks if a map value for `key` exists. * * @private * @name has * @memberOf MapCache * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function mapCacheHas$1(key) { return getMapData$1(this, key).has(key); } var _mapCacheHas = mapCacheHas$1; var getMapData = _getMapData; /** * Sets the map `key` to `value`. * * @private * @name set * @memberOf MapCache * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the map cache instance. */ function mapCacheSet$1(key, value) { var data = getMapData(this, key), size = data.size; data.set(key, value); this.size += data.size == size ? 0 : 1; return this; } var _mapCacheSet = mapCacheSet$1; var mapCacheClear = _mapCacheClear, mapCacheDelete = _mapCacheDelete, mapCacheGet = _mapCacheGet, mapCacheHas = _mapCacheHas, mapCacheSet = _mapCacheSet; /** * Creates a map cache object to store key-value pairs. * * @private * @constructor * @param {Array} [entries] The key-value pairs to cache. */ function MapCache$3(entries) { var index = -1, length = entries == null ? 0 : entries.length; this.clear(); while (++index < length) { var entry = entries[index]; this.set(entry[0], entry[1]); } } // Add methods to `MapCache`. MapCache$3.prototype.clear = mapCacheClear; MapCache$3.prototype['delete'] = mapCacheDelete; MapCache$3.prototype.get = mapCacheGet; MapCache$3.prototype.has = mapCacheHas; MapCache$3.prototype.set = mapCacheSet; var _MapCache = MapCache$3; var ListCache$1 = _ListCache, Map$2 = _Map, MapCache$2 = _MapCache; /** Used as the size to enable large array optimizations. */ var LARGE_ARRAY_SIZE$1 = 200; /** * Sets the stack `key` to `value`. * * @private * @name set * @memberOf Stack * @param {string} key The key of the value to set. * @param {*} value The value to set. * @returns {Object} Returns the stack cache instance. */ function stackSet$1(key, value) { var data = this.__data__; if (data instanceof ListCache$1) { var pairs = data.__data__; if (!Map$2 || pairs.length < LARGE_ARRAY_SIZE$1 - 1) { pairs.push([key, value]); this.size = ++data.size; return this; } data = this.__data__ = new MapCache$2(pairs); } data.set(key, value); this.size = data.size; return this; } var _stackSet = stackSet$1; var ListCache = _ListCache, stackClear = _stackClear, stackDelete = _stackDelete, stackGet = _stackGet, stackHas = _stackHas, stackSet = _stackSet; /** * Creates a stack cache object to store key-value pairs. * * @private * @constructor * @param {Array} [entries] The key-value pairs to cache. */ function Stack$2(entries) { var data = this.__data__ = new ListCache(entries); this.size = data.size; } // Add methods to `Stack`. Stack$2.prototype.clear = stackClear; Stack$2.prototype['delete'] = stackDelete; Stack$2.prototype.get = stackGet; Stack$2.prototype.has = stackHas; Stack$2.prototype.set = stackSet; var _Stack = Stack$2; /** Used to stand-in for `undefined` hash values. */ var HASH_UNDEFINED = '__lodash_hash_undefined__'; /** * Adds `value` to the array cache. * * @private * @name add * @memberOf SetCache * @alias push * @param {*} value The value to cache. * @returns {Object} Returns the cache instance. */ function setCacheAdd$1(value) { this.__data__.set(value, HASH_UNDEFINED); return this; } var _setCacheAdd = setCacheAdd$1; /** * Checks if `value` is in the array cache. * * @private * @name has * @memberOf SetCache * @param {*} value The value to search for. * @returns {number} Returns `true` if `value` is found, else `false`. */ function setCacheHas$1(value) { return this.__data__.has(value); } var _setCacheHas = setCacheHas$1; var MapCache$1 = _MapCache, setCacheAdd = _setCacheAdd, setCacheHas = _setCacheHas; /** * * Creates an array cache object to store unique values. * * @private * @constructor * @param {Array} [values] The values to cache. */ function SetCache$2(values) { var index = -1, length = values == null ? 0 : values.length; this.__data__ = new MapCache$1(); while (++index < length) { this.add(values[index]); } } // Add methods to `SetCache`. SetCache$2.prototype.add = SetCache$2.prototype.push = setCacheAdd; SetCache$2.prototype.has = setCacheHas; var _SetCache = SetCache$2; /** * A specialized version of `_.some` for arrays without support for iteratee * shorthands. * * @private * @param {Array} [array] The array to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {boolean} Returns `true` if any element passes the predicate check, * else `false`. */ function arraySome$1(array, predicate) { var index = -1, length = array == null ? 0 : array.length; while (++index < length) { if (predicate(array[index], index, array)) { return true; } } return false; } var _arraySome = arraySome$1; /** * Checks if a `cache` value for `key` exists. * * @private * @param {Object} cache The cache to query. * @param {string} key The key of the entry to check. * @returns {boolean} Returns `true` if an entry for `key` exists, else `false`. */ function cacheHas$2(cache, key) { return cache.has(key); } var _cacheHas = cacheHas$2; var SetCache$1 = _SetCache, arraySome = _arraySome, cacheHas$1 = _cacheHas; /** Used to compose bitmasks for value comparisons. */ var COMPARE_PARTIAL_FLAG$5 = 1, COMPARE_UNORDERED_FLAG$3 = 2; /** * A specialized version of `baseIsEqualDeep` for arrays with support for * partial deep comparisons. * * @private * @param {Array} array The array to compare. * @param {Array} other The other array to compare. * @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details. * @param {Function} customizer The function to customize comparisons. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Object} stack Tracks traversed `array` and `other` objects. * @returns {boolean} Returns `true` if the arrays are equivalent, else `false`. */ function equalArrays$2(array, other, bitmask, customizer, equalFunc, stack) { var isPartial = bitmask & COMPARE_PARTIAL_FLAG$5, arrLength = array.length, othLength = other.length; if (arrLength != othLength && !(isPartial && othLength > arrLength)) { return false; } // Check that cyclic values are equal. var arrStacked = stack.get(array); var othStacked = stack.get(other); if (arrStacked && othStacked) { return arrStacked == other && othStacked == array; } var index = -1, result = true, seen = bitmask & COMPARE_UNORDERED_FLAG$3 ? new SetCache$1() : undefined; stack.set(array, other); stack.set(other, array); // Ignore non-index properties. while (++index < arrLength) { var arrValue = array[index], othValue = other[index]; if (customizer) { var compared = isPartial ? customizer(othValue, arrValue, index, other, array, stack) : customizer(arrValue, othValue, index, array, other, stack); } if (compared !== undefined) { if (compared) { continue; } result = false; break; } // Recursively compare arrays (susceptible to call stack limits). if (seen) { if (!arraySome(other, function (othValue, othIndex) { if (!cacheHas$1(seen, othIndex) && (arrValue === othValue || equalFunc(arrValue, othValue, bitmask, customizer, stack))) { return seen.push(othIndex); } })) { result = false; break; } } else if (!(arrValue === othValue || equalFunc(arrValue, othValue, bitmask, customizer, stack))) { result = false; break; } } stack['delete'](array); stack['delete'](other); return result; } var _equalArrays = equalArrays$2; var root$4 = _root; /** Built-in value references. */ var Uint8Array$1 = root$4.Uint8Array; var _Uint8Array = Uint8Array$1; /** * Converts `map` to its key-value pairs. * * @private * @param {Object} map The map to convert. * @returns {Array} Returns the key-value pairs. */ function mapToArray$1(map) { var index = -1, result = Array(map.size); map.forEach(function (value, key) { result[++index] = [key, value]; }); return result; } var _mapToArray = mapToArray$1; /** * Converts `set` to an array of its values. * * @private * @param {Object} set The set to convert. * @returns {Array} Returns the values. */ function setToArray$3(set) { var index = -1, result = Array(set.size); set.forEach(function (value) { result[++index] = value; }); return result; } var _setToArray = setToArray$3; var Symbol$2 = _Symbol, Uint8Array = _Uint8Array, eq = eq_1, equalArrays$1 = _equalArrays, mapToArray = _mapToArray, setToArray$2 = _setToArray; /** Used to compose bitmasks for value comparisons. */ var COMPARE_PARTIAL_FLAG$4 = 1, COMPARE_UNORDERED_FLAG$2 = 2; /** `Object#toString` result references. */ var boolTag$1 = '[object Boolean]', dateTag$1 = '[object Date]', errorTag$1 = '[object Error]', mapTag$2 = '[object Map]', numberTag$1 = '[object Number]', regexpTag$1 = '[object RegExp]', setTag$2 = '[object Set]', stringTag$1 = '[object String]', symbolTag$1 = '[object Symbol]'; var arrayBufferTag$1 = '[object ArrayBuffer]', dataViewTag$2 = '[object DataView]'; /** Used to convert symbols to primitives and strings. */ var symbolProto$1 = Symbol$2 ? Symbol$2.prototype : undefined, symbolValueOf = symbolProto$1 ? symbolProto$1.valueOf : undefined; /** * A specialized version of `baseIsEqualDeep` for comparing objects of * the same `toStringTag`. * * **Note:** This function only supports comparing values with tags of * `Boolean`, `Date`, `Error`, `Number`, `RegExp`, or `String`. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {string} tag The `toStringTag` of the objects to compare. * @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details. * @param {Function} customizer The function to customize comparisons. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Object} stack Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function equalByTag$1(object, other, tag, bitmask, customizer, equalFunc, stack) { switch (tag) { case dataViewTag$2: if (object.byteLength != other.byteLength || object.byteOffset != other.byteOffset) { return false; } object = object.buffer; other = other.buffer; case arrayBufferTag$1: if (object.byteLength != other.byteLength || !equalFunc(new Uint8Array(object), new Uint8Array(other))) { return false; } return true; case boolTag$1: case dateTag$1: case numberTag$1: // Coerce booleans to `1` or `0` and dates to milliseconds. // Invalid dates are coerced to `NaN`. return eq(+object, +other); case errorTag$1: return object.name == other.name && object.message == other.message; case regexpTag$1: case stringTag$1: // Coerce regexes to strings and treat strings, primitives and objects, // as equal. See http://www.ecma-international.org/ecma-262/7.0/#sec-regexp.prototype.tostring // for more details. return object == other + ''; case mapTag$2: var convert = mapToArray; case setTag$2: var isPartial = bitmask & COMPARE_PARTIAL_FLAG$4; convert || (convert = setToArray$2); if (object.size != other.size && !isPartial) { return false; } // Assume cyclic values are equal. var stacked = stack.get(object); if (stacked) { return stacked == other; } bitmask |= COMPARE_UNORDERED_FLAG$2; // Recursively compare objects (susceptible to call stack limits). stack.set(object, other); var result = equalArrays$1(convert(object), convert(other), bitmask, customizer, equalFunc, stack); stack['delete'](object); return result; case symbolTag$1: if (symbolValueOf) { return symbolValueOf.call(object) == symbolValueOf.call(other); } } return false; } var _equalByTag = equalByTag$1; /** * Appends the elements of `values` to `array`. * * @private * @param {Array} array The array to modify. * @param {Array} values The values to append. * @returns {Array} Returns `array`. */ function arrayPush$1(array, values) { var index = -1, length = values.length, offset = array.length; while (++index < length) { array[offset + index] = values[index]; } return array; } var _arrayPush = arrayPush$1; /** * Checks if `value` is classified as an `Array` object. * * @static * @memberOf _ * @since 0.1.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an array, else `false`. * @example * * _.isArray([1, 2, 3]); * // => true * * _.isArray(document.body.children); * // => false * * _.isArray('abc'); * // => false * * _.isArray(_.noop); * // => false */ var isArray$9 = Array.isArray; var isArray_1 = isArray$9; var arrayPush = _arrayPush, isArray$8 = isArray_1; /** * The base implementation of `getAllKeys` and `getAllKeysIn` which uses * `keysFunc` and `symbolsFunc` to get the enumerable property names and * symbols of `object`. * * @private * @param {Object} object The object to query. * @param {Function} keysFunc The function to get the keys of `object`. * @param {Function} symbolsFunc The function to get the symbols of `object`. * @returns {Array} Returns the array of property names and symbols. */ function baseGetAllKeys$1(object, keysFunc, symbolsFunc) { var result = keysFunc(object); return isArray$8(object) ? result : arrayPush(result, symbolsFunc(object)); } var _baseGetAllKeys = baseGetAllKeys$1; /** * A specialized version of `_.filter` for arrays without support for * iteratee shorthands. * * @private * @param {Array} [array] The array to iterate over. * @param {Function} predicate The function invoked per iteration. * @returns {Array} Returns the new filtered array. */ function arrayFilter$1(array, predicate) { var index = -1, length = array == null ? 0 : array.length, resIndex = 0, result = []; while (++index < length) { var value = array[index]; if (predicate(value, index, array)) { result[resIndex++] = value; } } return result; } var _arrayFilter = arrayFilter$1; /** * This method returns a new empty array. * * @static * @memberOf _ * @since 4.13.0 * @category Util * @returns {Array} Returns the new empty array. * @example * * var arrays = _.times(2, _.stubArray); * * console.log(arrays); * // => [[], []] * * console.log(arrays[0] === arrays[1]); * // => false */ function stubArray$1() { return []; } var stubArray_1 = stubArray$1; var arrayFilter = _arrayFilter, stubArray = stubArray_1; /** Used for built-in method references. */ var objectProto$6 = Object.prototype; /** Built-in value references. */ var propertyIsEnumerable$1 = objectProto$6.propertyIsEnumerable; /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeGetSymbols = Object.getOwnPropertySymbols; /** * Creates an array of the own enumerable symbols of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the array of symbols. */ var getSymbols$1 = !nativeGetSymbols ? stubArray : function (object) { if (object == null) { return []; } object = Object(object); return arrayFilter(nativeGetSymbols(object), function (symbol) { return propertyIsEnumerable$1.call(object, symbol); }); }; var _getSymbols = getSymbols$1; /** * The base implementation of `_.times` without support for iteratee shorthands * or max array length checks. * * @private * @param {number} n The number of times to invoke `iteratee`. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the array of results. */ function baseTimes$1(n, iteratee) { var index = -1, result = Array(n); while (++index < n) { result[index] = iteratee(index); } return result; } var _baseTimes = baseTimes$1; /** * Checks if `value` is object-like. A value is object-like if it's not `null` * and has a `typeof` result of "object". * * @static * @memberOf _ * @since 4.0.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is object-like, else `false`. * @example * * _.isObjectLike({}); * // => true * * _.isObjectLike([1, 2, 3]); * // => true * * _.isObjectLike(_.noop); * // => false * * _.isObjectLike(null); * // => false */ function isObjectLike$5(value) { return value != null && typeof value == 'object'; } var isObjectLike_1 = isObjectLike$5; var baseGetTag$3 = _baseGetTag, isObjectLike$4 = isObjectLike_1; /** `Object#toString` result references. */ var argsTag$2 = '[object Arguments]'; /** * The base implementation of `_.isArguments`. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an `arguments` object, */ function baseIsArguments$1(value) { return isObjectLike$4(value) && baseGetTag$3(value) == argsTag$2; } var _baseIsArguments = baseIsArguments$1; var baseIsArguments = _baseIsArguments, isObjectLike$3 = isObjectLike_1; /** Used for built-in method references. */ var objectProto$5 = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$4 = objectProto$5.hasOwnProperty; /** Built-in value references. */ var propertyIsEnumerable = objectProto$5.propertyIsEnumerable; /** * Checks if `value` is likely an `arguments` object. * * @static * @memberOf _ * @since 0.1.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is an `arguments` object, * else `false`. * @example * * _.isArguments(function() { return arguments; }()); * // => true * * _.isArguments([1, 2, 3]); * // => false */ var isArguments$2 = baseIsArguments(function () { return arguments; }()) ? baseIsArguments : function (value) { return isObjectLike$3(value) && hasOwnProperty$4.call(value, 'callee') && !propertyIsEnumerable.call(value, 'callee'); }; var isArguments_1 = isArguments$2; var isBuffer$2 = {exports: {}}; /** * This method returns `false`. * * @static * @memberOf _ * @since 4.13.0 * @category Util * @returns {boolean} Returns `false`. * @example * * _.times(2, _.stubFalse); * // => [false, false] */ function stubFalse() { return false; } var stubFalse_1 = stubFalse; (function (module, exports) { var root = _root, stubFalse = stubFalse_1; /** Detect free variable `exports`. */ var freeExports = exports && !exports.nodeType && exports; /** Detect free variable `module`. */ var freeModule = freeExports && 'object' == 'object' && module && !module.nodeType && module; /** Detect the popular CommonJS extension `module.exports`. */ var moduleExports = freeModule && freeModule.exports === freeExports; /** Built-in value references. */ var Buffer = moduleExports ? root.Buffer : undefined; /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeIsBuffer = Buffer ? Buffer.isBuffer : undefined; /** * Checks if `value` is a buffer. * * @static * @memberOf _ * @since 4.3.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a buffer, else `false`. * @example * * _.isBuffer(new Buffer(2)); * // => true * * _.isBuffer(new Uint8Array(2)); * // => false */ var isBuffer = nativeIsBuffer || stubFalse; module.exports = isBuffer; })(isBuffer$2, isBuffer$2.exports); /** Used as references for various `Number` constants. */ var MAX_SAFE_INTEGER$1 = 9007199254740991; /** Used to detect unsigned integer values. */ var reIsUint = /^(?:0|[1-9]\d*)$/; /** * Checks if `value` is a valid array-like index. * * @private * @param {*} value The value to check. * @param {number} [length=MAX_SAFE_INTEGER] The upper bounds of a valid index. * @returns {boolean} Returns `true` if `value` is a valid index, else `false`. */ function isIndex$2(value, length) { var type = typeof value; length = length == null ? MAX_SAFE_INTEGER$1 : length; return !!length && (type == 'number' || type != 'symbol' && reIsUint.test(value)) && value > -1 && value % 1 == 0 && value < length; } var _isIndex = isIndex$2; /** Used as references for various `Number` constants. */ var MAX_SAFE_INTEGER = 9007199254740991; /** * Checks if `value` is a valid array-like length. * * **Note:** This method is loosely based on * [`ToLength`](http://ecma-international.org/ecma-262/7.0/#sec-tolength). * * @static * @memberOf _ * @since 4.0.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a valid length, else `false`. * @example * * _.isLength(3); * // => true * * _.isLength(Number.MIN_VALUE); * // => false * * _.isLength(Infinity); * // => false * * _.isLength('3'); * // => false */ function isLength$3(value) { return typeof value == 'number' && value > -1 && value % 1 == 0 && value <= MAX_SAFE_INTEGER; } var isLength_1 = isLength$3; var baseGetTag$2 = _baseGetTag, isLength$2 = isLength_1, isObjectLike$2 = isObjectLike_1; /** `Object#toString` result references. */ var argsTag$1 = '[object Arguments]', arrayTag$1 = '[object Array]', boolTag = '[object Boolean]', dateTag = '[object Date]', errorTag = '[object Error]', funcTag = '[object Function]', mapTag$1 = '[object Map]', numberTag = '[object Number]', objectTag$2 = '[object Object]', regexpTag = '[object RegExp]', setTag$1 = '[object Set]', stringTag = '[object String]', weakMapTag$1 = '[object WeakMap]'; var arrayBufferTag = '[object ArrayBuffer]', dataViewTag$1 = '[object DataView]', float32Tag = '[object Float32Array]', float64Tag = '[object Float64Array]', int8Tag = '[object Int8Array]', int16Tag = '[object Int16Array]', int32Tag = '[object Int32Array]', uint8Tag = '[object Uint8Array]', uint8ClampedTag = '[object Uint8ClampedArray]', uint16Tag = '[object Uint16Array]', uint32Tag = '[object Uint32Array]'; /** Used to identify `toStringTag` values of typed arrays. */ var typedArrayTags = {}; typedArrayTags[float32Tag] = typedArrayTags[float64Tag] = typedArrayTags[int8Tag] = typedArrayTags[int16Tag] = typedArrayTags[int32Tag] = typedArrayTags[uint8Tag] = typedArrayTags[uint8ClampedTag] = typedArrayTags[uint16Tag] = typedArrayTags[uint32Tag] = true; typedArrayTags[argsTag$1] = typedArrayTags[arrayTag$1] = typedArrayTags[arrayBufferTag] = typedArrayTags[boolTag] = typedArrayTags[dataViewTag$1] = typedArrayTags[dateTag] = typedArrayTags[errorTag] = typedArrayTags[funcTag] = typedArrayTags[mapTag$1] = typedArrayTags[numberTag] = typedArrayTags[objectTag$2] = typedArrayTags[regexpTag] = typedArrayTags[setTag$1] = typedArrayTags[stringTag] = typedArrayTags[weakMapTag$1] = false; /** * The base implementation of `_.isTypedArray` without Node.js optimizations. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a typed array, else `false`. */ function baseIsTypedArray$1(value) { return isObjectLike$2(value) && isLength$2(value.length) && !!typedArrayTags[baseGetTag$2(value)]; } var _baseIsTypedArray = baseIsTypedArray$1; /** * The base implementation of `_.unary` without support for storing metadata. * * @private * @param {Function} func The function to cap arguments for. * @returns {Function} Returns the new capped function. */ function baseUnary$1(func) { return function (value) { return func(value); }; } var _baseUnary = baseUnary$1; var _nodeUtil = {exports: {}}; (function (module, exports) { var freeGlobal = _freeGlobal; /** Detect free variable `exports`. */ var freeExports = exports && !exports.nodeType && exports; /** Detect free variable `module`. */ var freeModule = freeExports && 'object' == 'object' && module && !module.nodeType && module; /** Detect the popular CommonJS extension `module.exports`. */ var moduleExports = freeModule && freeModule.exports === freeExports; /** Detect free variable `process` from Node.js. */ var freeProcess = moduleExports && freeGlobal.process; /** Used to access faster Node.js helpers. */ var nodeUtil = function () { try { // Use `util.types` for Node.js 10+. var types = freeModule && freeModule.require && freeModule.require('util').types; if (types) { return types; } // Legacy `process.binding('util')` for Node.js < 10. return freeProcess && freeProcess.binding && freeProcess.binding('util'); } catch (e) {} }(); module.exports = nodeUtil; })(_nodeUtil, _nodeUtil.exports); var baseIsTypedArray = _baseIsTypedArray, baseUnary = _baseUnary, nodeUtil = _nodeUtil.exports; /* Node.js helper references. */ var nodeIsTypedArray = nodeUtil && nodeUtil.isTypedArray; /** * Checks if `value` is classified as a typed array. * * @static * @memberOf _ * @since 3.0.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a typed array, else `false`. * @example * * _.isTypedArray(new Uint8Array); * // => true * * _.isTypedArray([]); * // => false */ var isTypedArray$2 = nodeIsTypedArray ? baseUnary(nodeIsTypedArray) : baseIsTypedArray; var isTypedArray_1 = isTypedArray$2; var baseTimes = _baseTimes, isArguments$1 = isArguments_1, isArray$7 = isArray_1, isBuffer$1 = isBuffer$2.exports, isIndex$1 = _isIndex, isTypedArray$1 = isTypedArray_1; /** Used for built-in method references. */ var objectProto$4 = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$3 = objectProto$4.hasOwnProperty; /** * Creates an array of the enumerable property names of the array-like `value`. * * @private * @param {*} value The value to query. * @param {boolean} inherited Specify returning inherited property names. * @returns {Array} Returns the array of property names. */ function arrayLikeKeys$1(value, inherited) { var isArr = isArray$7(value), isArg = !isArr && isArguments$1(value), isBuff = !isArr && !isArg && isBuffer$1(value), isType = !isArr && !isArg && !isBuff && isTypedArray$1(value), skipIndexes = isArr || isArg || isBuff || isType, result = skipIndexes ? baseTimes(value.length, String) : [], length = result.length; for (var key in value) { if ((inherited || hasOwnProperty$3.call(value, key)) && !(skipIndexes && ( // Safari 9 has enumerable `arguments.length` in strict mode. key == 'length' || // Node.js 0.10 has enumerable non-index properties on buffers. isBuff && (key == 'offset' || key == 'parent') || // PhantomJS 2 has enumerable non-index properties on typed arrays. isType && (key == 'buffer' || key == 'byteLength' || key == 'byteOffset') || // Skip index properties. isIndex$1(key, length)))) { result.push(key); } } return result; } var _arrayLikeKeys = arrayLikeKeys$1; /** Used for built-in method references. */ var objectProto$3 = Object.prototype; /** * Checks if `value` is likely a prototype object. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a prototype, else `false`. */ function isPrototype$1(value) { var Ctor = value && value.constructor, proto = typeof Ctor == 'function' && Ctor.prototype || objectProto$3; return value === proto; } var _isPrototype = isPrototype$1; /** * Creates a unary function that invokes `func` with its argument transformed. * * @private * @param {Function} func The function to wrap. * @param {Function} transform The argument transform. * @returns {Function} Returns the new function. */ function overArg$1(func, transform) { return function (arg) { return func(transform(arg)); }; } var _overArg = overArg$1; var overArg = _overArg; /* Built-in method references for those with the same name as other `lodash` methods. */ var nativeKeys$1 = overArg(Object.keys, Object); var _nativeKeys = nativeKeys$1; var isPrototype = _isPrototype, nativeKeys = _nativeKeys; /** Used for built-in method references. */ var objectProto$2 = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$2 = objectProto$2.hasOwnProperty; /** * The base implementation of `_.keys` which doesn't treat sparse arrays as dense. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. */ function baseKeys$1(object) { if (!isPrototype(object)) { return nativeKeys(object); } var result = []; for (var key in Object(object)) { if (hasOwnProperty$2.call(object, key) && key != 'constructor') { result.push(key); } } return result; } var _baseKeys = baseKeys$1; var isFunction = isFunction_1, isLength$1 = isLength_1; /** * Checks if `value` is array-like. A value is considered array-like if it's * not a function and has a `value.length` that's an integer greater than or * equal to `0` and less than or equal to `Number.MAX_SAFE_INTEGER`. * * @static * @memberOf _ * @since 4.0.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is array-like, else `false`. * @example * * _.isArrayLike([1, 2, 3]); * // => true * * _.isArrayLike(document.body.children); * // => true * * _.isArrayLike('abc'); * // => true * * _.isArrayLike(_.noop); * // => false */ function isArrayLike$2(value) { return value != null && isLength$1(value.length) && !isFunction(value); } var isArrayLike_1 = isArrayLike$2; var arrayLikeKeys = _arrayLikeKeys, baseKeys = _baseKeys, isArrayLike$1 = isArrayLike_1; /** * Creates an array of the own enumerable property names of `object`. * * **Note:** Non-object values are coerced to objects. See the * [ES spec](http://ecma-international.org/ecma-262/7.0/#sec-object.keys) * for more details. * * @static * @since 0.1.0 * @memberOf _ * @category Object * @param {Object} object The object to query. * @returns {Array} Returns the array of property names. * @example * * function Foo() { * this.a = 1; * this.b = 2; * } * * Foo.prototype.c = 3; * * _.keys(new Foo); * // => ['a', 'b'] (iteration order is not guaranteed) * * _.keys('hi'); * // => ['0', '1'] */ function keys$3(object) { return isArrayLike$1(object) ? arrayLikeKeys(object) : baseKeys(object); } var keys_1 = keys$3; var baseGetAllKeys = _baseGetAllKeys, getSymbols = _getSymbols, keys$2 = keys_1; /** * Creates an array of own enumerable property names and symbols of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the array of property names and symbols. */ function getAllKeys$1(object) { return baseGetAllKeys(object, keys$2, getSymbols); } var _getAllKeys = getAllKeys$1; var getAllKeys = _getAllKeys; /** Used to compose bitmasks for value comparisons. */ var COMPARE_PARTIAL_FLAG$3 = 1; /** Used for built-in method references. */ var objectProto$1 = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty$1 = objectProto$1.hasOwnProperty; /** * A specialized version of `baseIsEqualDeep` for objects with support for * partial deep comparisons. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details. * @param {Function} customizer The function to customize comparisons. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Object} stack Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function equalObjects$1(object, other, bitmask, customizer, equalFunc, stack) { var isPartial = bitmask & COMPARE_PARTIAL_FLAG$3, objProps = getAllKeys(object), objLength = objProps.length, othProps = getAllKeys(other), othLength = othProps.length; if (objLength != othLength && !isPartial) { return false; } var index = objLength; while (index--) { var key = objProps[index]; if (!(isPartial ? key in other : hasOwnProperty$1.call(other, key))) { return false; } } // Check that cyclic values are equal. var objStacked = stack.get(object); var othStacked = stack.get(other); if (objStacked && othStacked) { return objStacked == other && othStacked == object; } var result = true; stack.set(object, other); stack.set(other, object); var skipCtor = isPartial; while (++index < objLength) { key = objProps[index]; var objValue = object[key], othValue = other[key]; if (customizer) { var compared = isPartial ? customizer(othValue, objValue, key, other, object, stack) : customizer(objValue, othValue, key, object, other, stack); } // Recursively compare objects (susceptible to call stack limits). if (!(compared === undefined ? objValue === othValue || equalFunc(objValue, othValue, bitmask, customizer, stack) : compared)) { result = false; break; } skipCtor || (skipCtor = key == 'constructor'); } if (result && !skipCtor) { var objCtor = object.constructor, othCtor = other.constructor; // Non `Object` object instances with different constructors are not equal. if (objCtor != othCtor && 'constructor' in object && 'constructor' in other && !(typeof objCtor == 'function' && objCtor instanceof objCtor && typeof othCtor == 'function' && othCtor instanceof othCtor)) { result = false; } } stack['delete'](object); stack['delete'](other); return result; } var _equalObjects = equalObjects$1; var getNative$3 = _getNative, root$3 = _root; /* Built-in method references that are verified to be native. */ var DataView$1 = getNative$3(root$3, 'DataView'); var _DataView = DataView$1; var getNative$2 = _getNative, root$2 = _root; /* Built-in method references that are verified to be native. */ var Promise$2 = getNative$2(root$2, 'Promise'); var _Promise = Promise$2; var getNative$1 = _getNative, root$1 = _root; /* Built-in method references that are verified to be native. */ var Set$3 = getNative$1(root$1, 'Set'); var _Set = Set$3; var getNative = _getNative, root = _root; /* Built-in method references that are verified to be native. */ var WeakMap$2 = getNative(root, 'WeakMap'); var _WeakMap = WeakMap$2; var DataView = _DataView, Map$1 = _Map, Promise$1 = _Promise, Set$2 = _Set, WeakMap$1 = _WeakMap, baseGetTag$1 = _baseGetTag, toSource = _toSource; /** `Object#toString` result references. */ var mapTag = '[object Map]', objectTag$1 = '[object Object]', promiseTag = '[object Promise]', setTag = '[object Set]', weakMapTag = '[object WeakMap]'; var dataViewTag = '[object DataView]'; /** Used to detect maps, sets, and weakmaps. */ var dataViewCtorString = toSource(DataView), mapCtorString = toSource(Map$1), promiseCtorString = toSource(Promise$1), setCtorString = toSource(Set$2), weakMapCtorString = toSource(WeakMap$1); /** * Gets the `toStringTag` of `value`. * * @private * @param {*} value The value to query. * @returns {string} Returns the `toStringTag`. */ var getTag$1 = baseGetTag$1; // Fallback for data views, maps, sets, and weak maps in IE 11 and promises in Node.js < 6. if (DataView && getTag$1(new DataView(new ArrayBuffer(1))) != dataViewTag || Map$1 && getTag$1(new Map$1()) != mapTag || Promise$1 && getTag$1(Promise$1.resolve()) != promiseTag || Set$2 && getTag$1(new Set$2()) != setTag || WeakMap$1 && getTag$1(new WeakMap$1()) != weakMapTag) { getTag$1 = function (value) { var result = baseGetTag$1(value), Ctor = result == objectTag$1 ? value.constructor : undefined, ctorString = Ctor ? toSource(Ctor) : ''; if (ctorString) { switch (ctorString) { case dataViewCtorString: return dataViewTag; case mapCtorString: return mapTag; case promiseCtorString: return promiseTag; case setCtorString: return setTag; case weakMapCtorString: return weakMapTag; } } return result; }; } var _getTag = getTag$1; var Stack$1 = _Stack, equalArrays = _equalArrays, equalByTag = _equalByTag, equalObjects = _equalObjects, getTag = _getTag, isArray$6 = isArray_1, isBuffer = isBuffer$2.exports, isTypedArray = isTypedArray_1; /** Used to compose bitmasks for value comparisons. */ var COMPARE_PARTIAL_FLAG$2 = 1; /** `Object#toString` result references. */ var argsTag = '[object Arguments]', arrayTag = '[object Array]', objectTag = '[object Object]'; /** Used for built-in method references. */ var objectProto = Object.prototype; /** Used to check objects for own properties. */ var hasOwnProperty = objectProto.hasOwnProperty; /** * A specialized version of `baseIsEqual` for arrays and objects which performs * deep comparisons and tracks traversed objects enabling objects with circular * references to be compared. * * @private * @param {Object} object The object to compare. * @param {Object} other The other object to compare. * @param {number} bitmask The bitmask flags. See `baseIsEqual` for more details. * @param {Function} customizer The function to customize comparisons. * @param {Function} equalFunc The function to determine equivalents of values. * @param {Object} [stack] Tracks traversed `object` and `other` objects. * @returns {boolean} Returns `true` if the objects are equivalent, else `false`. */ function baseIsEqualDeep$1(object, other, bitmask, customizer, equalFunc, stack) { var objIsArr = isArray$6(object), othIsArr = isArray$6(other), objTag = objIsArr ? arrayTag : getTag(object), othTag = othIsArr ? arrayTag : getTag(other); objTag = objTag == argsTag ? objectTag : objTag; othTag = othTag == argsTag ? objectTag : othTag; var objIsObj = objTag == objectTag, othIsObj = othTag == objectTag, isSameTag = objTag == othTag; if (isSameTag && isBuffer(object)) { if (!isBuffer(other)) { return false; } objIsArr = true; objIsObj = false; } if (isSameTag && !objIsObj) { stack || (stack = new Stack$1()); return objIsArr || isTypedArray(object) ? equalArrays(object, other, bitmask, customizer, equalFunc, stack) : equalByTag(object, other, objTag, bitmask, customizer, equalFunc, stack); } if (!(bitmask & COMPARE_PARTIAL_FLAG$2)) { var objIsWrapped = objIsObj && hasOwnProperty.call(object, '__wrapped__'), othIsWrapped = othIsObj && hasOwnProperty.call(other, '__wrapped__'); if (objIsWrapped || othIsWrapped) { var objUnwrapped = objIsWrapped ? object.value() : object, othUnwrapped = othIsWrapped ? other.value() : other; stack || (stack = new Stack$1()); return equalFunc(objUnwrapped, othUnwrapped, bitmask, customizer, stack); } } if (!isSameTag) { return false; } stack || (stack = new Stack$1()); return equalObjects(object, other, bitmask, customizer, equalFunc, stack); } var _baseIsEqualDeep = baseIsEqualDeep$1; var baseIsEqualDeep = _baseIsEqualDeep, isObjectLike$1 = isObjectLike_1; /** * The base implementation of `_.isEqual` which supports partial comparisons * and tracks traversed objects. * * @private * @param {*} value The value to compare. * @param {*} other The other value to compare. * @param {boolean} bitmask The bitmask flags. * 1 - Unordered comparison * 2 - Partial comparison * @param {Function} [customizer] The function to customize comparisons. * @param {Object} [stack] Tracks traversed `value` and `other` objects. * @returns {boolean} Returns `true` if the values are equivalent, else `false`. */ function baseIsEqual$2(value, other, bitmask, customizer, stack) { if (value === other) { return true; } if (value == null || other == null || !isObjectLike$1(value) && !isObjectLike$1(other)) { return value !== value && other !== other; } return baseIsEqualDeep(value, other, bitmask, customizer, baseIsEqual$2, stack); } var _baseIsEqual = baseIsEqual$2; var Stack = _Stack, baseIsEqual$1 = _baseIsEqual; /** Used to compose bitmasks for value comparisons. */ var COMPARE_PARTIAL_FLAG$1 = 1, COMPARE_UNORDERED_FLAG$1 = 2; /** * The base implementation of `_.isMatch` without support for iteratee shorthands. * * @private * @param {Object} object The object to inspect. * @param {Object} source The object of property values to match. * @param {Array} matchData The property names, values, and compare flags to match. * @param {Function} [customizer] The function to customize comparisons. * @returns {boolean} Returns `true` if `object` is a match, else `false`. */ function baseIsMatch$1(object, source, matchData, customizer) { var index = matchData.length, length = index, noCustomizer = !customizer; if (object == null) { return !length; } object = Object(object); while (index--) { var data = matchData[index]; if (noCustomizer && data[2] ? data[1] !== object[data[0]] : !(data[0] in object)) { return false; } } while (++index < length) { data = matchData[index]; var key = data[0], objValue = object[key], srcValue = data[1]; if (noCustomizer && data[2]) { if (objValue === undefined && !(key in object)) { return false; } } else { var stack = new Stack(); if (customizer) { var result = customizer(objValue, srcValue, key, object, source, stack); } if (!(result === undefined ? baseIsEqual$1(srcValue, objValue, COMPARE_PARTIAL_FLAG$1 | COMPARE_UNORDERED_FLAG$1, customizer, stack) : result)) { return false; } } } return true; } var _baseIsMatch = baseIsMatch$1; var isObject$2 = isObject_1; /** * Checks if `value` is suitable for strict equality comparisons, i.e. `===`. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` if suitable for strict * equality comparisons, else `false`. */ function isStrictComparable$2(value) { return value === value && !isObject$2(value); } var _isStrictComparable = isStrictComparable$2; var isStrictComparable$1 = _isStrictComparable, keys$1 = keys_1; /** * Gets the property names, values, and compare flags of `object`. * * @private * @param {Object} object The object to query. * @returns {Array} Returns the match data of `object`. */ function getMatchData$1(object) { var result = keys$1(object), length = result.length; while (length--) { var key = result[length], value = object[key]; result[length] = [key, value, isStrictComparable$1(value)]; } return result; } var _getMatchData = getMatchData$1; /** * A specialized version of `matchesProperty` for source values suitable * for strict equality comparisons, i.e. `===`. * * @private * @param {string} key The key of the property to get. * @param {*} srcValue The value to match. * @returns {Function} Returns the new spec function. */ function matchesStrictComparable$2(key, srcValue) { return function (object) { if (object == null) { return false; } return object[key] === srcValue && (srcValue !== undefined || key in Object(object)); }; } var _matchesStrictComparable = matchesStrictComparable$2; var baseIsMatch = _baseIsMatch, getMatchData = _getMatchData, matchesStrictComparable$1 = _matchesStrictComparable; /** * The base implementation of `_.matches` which doesn't clone `source`. * * @private * @param {Object} source The object of property values to match. * @returns {Function} Returns the new spec function. */ function baseMatches$1(source) { var matchData = getMatchData(source); if (matchData.length == 1 && matchData[0][2]) { return matchesStrictComparable$1(matchData[0][0], matchData[0][1]); } return function (object) { return object === source || baseIsMatch(object, source, matchData); }; } var _baseMatches = baseMatches$1; var baseGetTag = _baseGetTag, isObjectLike = isObjectLike_1; /** `Object#toString` result references. */ var symbolTag = '[object Symbol]'; /** * Checks if `value` is classified as a `Symbol` primitive or object. * * @static * @memberOf _ * @since 4.0.0 * @category Lang * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is a symbol, else `false`. * @example * * _.isSymbol(Symbol.iterator); * // => true * * _.isSymbol('abc'); * // => false */ function isSymbol$3(value) { return typeof value == 'symbol' || isObjectLike(value) && baseGetTag(value) == symbolTag; } var isSymbol_1 = isSymbol$3; var isArray$5 = isArray_1, isSymbol$2 = isSymbol_1; /** Used to match property names within property paths. */ var reIsDeepProp = /\.|\[(?:[^[\]]*|(["'])(?:(?!\1)[^\\]|\\.)*?\1)\]/, reIsPlainProp = /^\w*$/; /** * Checks if `value` is a property name and not a property path. * * @private * @param {*} value The value to check. * @param {Object} [object] The object to query keys on. * @returns {boolean} Returns `true` if `value` is a property name, else `false`. */ function isKey$3(value, object) { if (isArray$5(value)) { return false; } var type = typeof value; if (type == 'number' || type == 'symbol' || type == 'boolean' || value == null || isSymbol$2(value)) { return true; } return reIsPlainProp.test(value) || !reIsDeepProp.test(value) || object != null && value in Object(object); } var _isKey = isKey$3; var MapCache = _MapCache; /** Error message constants. */ var FUNC_ERROR_TEXT = 'Expected a function'; /** * Creates a function that memoizes the result of `func`. If `resolver` is * provided, it determines the cache key for storing the result based on the * arguments provided to the memoized function. By default, the first argument * provided to the memoized function is used as the map cache key. The `func` * is invoked with the `this` binding of the memoized function. * * **Note:** The cache is exposed as the `cache` property on the memoized * function. Its creation may be customized by replacing the `_.memoize.Cache` * constructor with one whose instances implement the * [`Map`](http://ecma-international.org/ecma-262/7.0/#sec-properties-of-the-map-prototype-object) * method interface of `clear`, `delete`, `get`, `has`, and `set`. * * @static * @memberOf _ * @since 0.1.0 * @category Function * @param {Function} func The function to have its output memoized. * @param {Function} [resolver] The function to resolve the cache key. * @returns {Function} Returns the new memoized function. * @example * * var object = { 'a': 1, 'b': 2 }; * var other = { 'c': 3, 'd': 4 }; * * var values = _.memoize(_.values); * values(object); * // => [1, 2] * * values(other); * // => [3, 4] * * object.a = 2; * values(object); * // => [1, 2] * * // Modify the result cache. * values.cache.set(object, ['a', 'b']); * values(object); * // => ['a', 'b'] * * // Replace `_.memoize.Cache`. * _.memoize.Cache = WeakMap; */ function memoize$1(func, resolver) { if (typeof func != 'function' || resolver != null && typeof resolver != 'function') { throw new TypeError(FUNC_ERROR_TEXT); } var memoized = function () { var args = arguments, key = resolver ? resolver.apply(this, args) : args[0], cache = memoized.cache; if (cache.has(key)) { return cache.get(key); } var result = func.apply(this, args); memoized.cache = cache.set(key, result) || cache; return result; }; memoized.cache = new (memoize$1.Cache || MapCache)(); return memoized; } // Expose `MapCache`. memoize$1.Cache = MapCache; var memoize_1 = memoize$1; var memoize = memoize_1; /** Used as the maximum memoize cache size. */ var MAX_MEMOIZE_SIZE = 500; /** * A specialized version of `_.memoize` which clears the memoized function's * cache when it exceeds `MAX_MEMOIZE_SIZE`. * * @private * @param {Function} func The function to have its output memoized. * @returns {Function} Returns the new memoized function. */ function memoizeCapped$1(func) { var result = memoize(func, function (key) { if (cache.size === MAX_MEMOIZE_SIZE) { cache.clear(); } return key; }); var cache = result.cache; return result; } var _memoizeCapped = memoizeCapped$1; var memoizeCapped = _memoizeCapped; /** Used to match property names within property paths. */ var rePropName = /[^.[\]]+|\[(?:(-?\d+(?:\.\d+)?)|(["'])((?:(?!\2)[^\\]|\\.)*?)\2)\]|(?=(?:\.|\[\])(?:\.|\[\]|$))/g; /** Used to match backslashes in property paths. */ var reEscapeChar = /\\(\\)?/g; /** * Converts `string` to a property path array. * * @private * @param {string} string The string to convert. * @returns {Array} Returns the property path array. */ var stringToPath$1 = memoizeCapped(function (string) { var result = []; if (string.charCodeAt(0) === 46 /* . */ ) { result.push(''); } string.replace(rePropName, function (match, number, quote, subString) { result.push(quote ? subString.replace(reEscapeChar, '$1') : number || match); }); return result; }); var _stringToPath = stringToPath$1; /** * A specialized version of `_.map` for arrays without support for iteratee * shorthands. * * @private * @param {Array} [array] The array to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array} Returns the new mapped array. */ function arrayMap$1(array, iteratee) { var index = -1, length = array == null ? 0 : array.length, result = Array(length); while (++index < length) { result[index] = iteratee(array[index], index, array); } return result; } var _arrayMap = arrayMap$1; var Symbol$1 = _Symbol, arrayMap = _arrayMap, isArray$4 = isArray_1, isSymbol$1 = isSymbol_1; /** Used as references for various `Number` constants. */ var INFINITY$2 = 1 / 0; /** Used to convert symbols to primitives and strings. */ var symbolProto = Symbol$1 ? Symbol$1.prototype : undefined, symbolToString = symbolProto ? symbolProto.toString : undefined; /** * The base implementation of `_.toString` which doesn't convert nullish * values to empty strings. * * @private * @param {*} value The value to process. * @returns {string} Returns the string. */ function baseToString$1(value) { // Exit early for strings to avoid a performance hit in some environments. if (typeof value == 'string') { return value; } if (isArray$4(value)) { // Recursively convert values (susceptible to call stack limits). return arrayMap(value, baseToString$1) + ''; } if (isSymbol$1(value)) { return symbolToString ? symbolToString.call(value) : ''; } var result = value + ''; return result == '0' && 1 / value == -INFINITY$2 ? '-0' : result; } var _baseToString = baseToString$1; var baseToString = _baseToString; /** * Converts `value` to a string. An empty string is returned for `null` * and `undefined` values. The sign of `-0` is preserved. * * @static * @memberOf _ * @since 4.0.0 * @category Lang * @param {*} value The value to convert. * @returns {string} Returns the converted string. * @example * * _.toString(null); * // => '' * * _.toString(-0); * // => '-0' * * _.toString([1, 2, 3]); * // => '1,2,3' */ function toString$1(value) { return value == null ? '' : baseToString(value); } var toString_1 = toString$1; var isArray$3 = isArray_1, isKey$2 = _isKey, stringToPath = _stringToPath, toString = toString_1; /** * Casts `value` to a path array if it's not one. * * @private * @param {*} value The value to inspect. * @param {Object} [object] The object to query keys on. * @returns {Array} Returns the cast property path array. */ function castPath$2(value, object) { if (isArray$3(value)) { return value; } return isKey$2(value, object) ? [value] : stringToPath(toString(value)); } var _castPath = castPath$2; var isSymbol = isSymbol_1; /** Used as references for various `Number` constants. */ var INFINITY$1 = 1 / 0; /** * Converts `value` to a string key if it's not a string or symbol. * * @private * @param {*} value The value to inspect. * @returns {string|symbol} Returns the key. */ function toKey$4(value) { if (typeof value == 'string' || isSymbol(value)) { return value; } var result = value + ''; return result == '0' && 1 / value == -INFINITY$1 ? '-0' : result; } var _toKey = toKey$4; var castPath$1 = _castPath, toKey$3 = _toKey; /** * The base implementation of `_.get` without support for default values. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path of the property to get. * @returns {*} Returns the resolved value. */ function baseGet$2(object, path) { path = castPath$1(path, object); var index = 0, length = path.length; while (object != null && index < length) { object = object[toKey$3(path[index++])]; } return index && index == length ? object : undefined; } var _baseGet = baseGet$2; var baseGet$1 = _baseGet; /** * Gets the value at `path` of `object`. If the resolved value is * `undefined`, the `defaultValue` is returned in its place. * * @static * @memberOf _ * @since 3.7.0 * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path of the property to get. * @param {*} [defaultValue] The value returned for `undefined` resolved values. * @returns {*} Returns the resolved value. * @example * * var object = { 'a': [{ 'b': { 'c': 3 } }] }; * * _.get(object, 'a[0].b.c'); * // => 3 * * _.get(object, ['a', '0', 'b', 'c']); * // => 3 * * _.get(object, 'a.b.c', 'default'); * // => 'default' */ function get$1(object, path, defaultValue) { var result = object == null ? undefined : baseGet$1(object, path); return result === undefined ? defaultValue : result; } var get_1 = get$1; /** * The base implementation of `_.hasIn` without support for deep paths. * * @private * @param {Object} [object] The object to query. * @param {Array|string} key The key to check. * @returns {boolean} Returns `true` if `key` exists, else `false`. */ function baseHasIn$1(object, key) { return object != null && key in Object(object); } var _baseHasIn = baseHasIn$1; var castPath = _castPath, isArguments = isArguments_1, isArray$2 = isArray_1, isIndex = _isIndex, isLength = isLength_1, toKey$2 = _toKey; /** * Checks if `path` exists on `object`. * * @private * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @param {Function} hasFunc The function to check properties. * @returns {boolean} Returns `true` if `path` exists, else `false`. */ function hasPath$1(object, path, hasFunc) { path = castPath(path, object); var index = -1, length = path.length, result = false; while (++index < length) { var key = toKey$2(path[index]); if (!(result = object != null && hasFunc(object, key))) { break; } object = object[key]; } if (result || ++index != length) { return result; } length = object == null ? 0 : object.length; return !!length && isLength(length) && isIndex(key, length) && (isArray$2(object) || isArguments(object)); } var _hasPath = hasPath$1; var baseHasIn = _baseHasIn, hasPath = _hasPath; /** * Checks if `path` is a direct or inherited property of `object`. * * @static * @memberOf _ * @since 4.0.0 * @category Object * @param {Object} object The object to query. * @param {Array|string} path The path to check. * @returns {boolean} Returns `true` if `path` exists, else `false`. * @example * * var object = _.create({ 'a': _.create({ 'b': 2 }) }); * * _.hasIn(object, 'a'); * // => true * * _.hasIn(object, 'a.b'); * // => true * * _.hasIn(object, ['a', 'b']); * // => true * * _.hasIn(object, 'b'); * // => false */ function hasIn$1(object, path) { return object != null && hasPath(object, path, baseHasIn); } var hasIn_1 = hasIn$1; var baseIsEqual = _baseIsEqual, get = get_1, hasIn = hasIn_1, isKey$1 = _isKey, isStrictComparable = _isStrictComparable, matchesStrictComparable = _matchesStrictComparable, toKey$1 = _toKey; /** Used to compose bitmasks for value comparisons. */ var COMPARE_PARTIAL_FLAG = 1, COMPARE_UNORDERED_FLAG = 2; /** * The base implementation of `_.matchesProperty` which doesn't clone `srcValue`. * * @private * @param {string} path The path of the property to get. * @param {*} srcValue The value to match. * @returns {Function} Returns the new spec function. */ function baseMatchesProperty$1(path, srcValue) { if (isKey$1(path) && isStrictComparable(srcValue)) { return matchesStrictComparable(toKey$1(path), srcValue); } return function (object) { var objValue = get(object, path); return objValue === undefined && objValue === srcValue ? hasIn(object, path) : baseIsEqual(srcValue, objValue, COMPARE_PARTIAL_FLAG | COMPARE_UNORDERED_FLAG); }; } var _baseMatchesProperty = baseMatchesProperty$1; /** * This method returns the first argument it receives. * * @static * @since 0.1.0 * @memberOf _ * @category Util * @param {*} value Any value. * @returns {*} Returns `value`. * @example * * var object = { 'a': 1 }; * * console.log(_.identity(object) === object); * // => true */ function identity$3(value) { return value; } var identity_1 = identity$3; /** * The base implementation of `_.property` without support for deep paths. * * @private * @param {string} key The key of the property to get. * @returns {Function} Returns the new accessor function. */ function baseProperty$1(key) { return function (object) { return object == null ? undefined : object[key]; }; } var _baseProperty = baseProperty$1; var baseGet = _baseGet; /** * A specialized version of `baseProperty` which supports deep paths. * * @private * @param {Array|string} path The path of the property to get. * @returns {Function} Returns the new accessor function. */ function basePropertyDeep$1(path) { return function (object) { return baseGet(object, path); }; } var _basePropertyDeep = basePropertyDeep$1; var baseProperty = _baseProperty, basePropertyDeep = _basePropertyDeep, isKey = _isKey, toKey = _toKey; /** * Creates a function that returns the value at `path` of a given object. * * @static * @memberOf _ * @since 2.4.0 * @category Util * @param {Array|string} path The path of the property to get. * @returns {Function} Returns the new accessor function. * @example * * var objects = [ * { 'a': { 'b': 2 } }, * { 'a': { 'b': 1 } } * ]; * * _.map(objects, _.property('a.b')); * // => [2, 1] * * _.map(_.sortBy(objects, _.property(['a', 'b'])), 'a.b'); * // => [1, 2] */ function property$2(path) { return isKey(path) ? baseProperty(toKey(path)) : basePropertyDeep(path); } var property_1 = property$2; var baseMatches = _baseMatches, baseMatchesProperty = _baseMatchesProperty, identity$2 = identity_1, isArray$1 = isArray_1, property$1 = property_1; /** * The base implementation of `_.iteratee`. * * @private * @param {*} [value=_.identity] The value to convert to an iteratee. * @returns {Function} Returns the iteratee. */ function baseIteratee$2(value) { // Don't store the `typeof` result in a variable to avoid a JIT bug in Safari 9. // See https://bugs.webkit.org/show_bug.cgi?id=156034 for more details. if (typeof value == 'function') { return value; } if (value == null) { return identity$2; } if (typeof value == 'object') { return isArray$1(value) ? baseMatchesProperty(value[0], value[1]) : baseMatches(value); } return property$1(value); } var _baseIteratee = baseIteratee$2; /** * The base implementation of `_.findIndex` and `_.findLastIndex` without * support for iteratee shorthands. * * @private * @param {Array} array The array to inspect. * @param {Function} predicate The function invoked per iteration. * @param {number} fromIndex The index to search from. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {number} Returns the index of the matched value, else `-1`. */ function baseFindIndex$1(array, predicate, fromIndex, fromRight) { var length = array.length, index = fromIndex + (fromRight ? 1 : -1); while (fromRight ? index-- : ++index < length) { if (predicate(array[index], index, array)) { return index; } } return -1; } var _baseFindIndex = baseFindIndex$1; /** * The base implementation of `_.isNaN` without support for number objects. * * @private * @param {*} value The value to check. * @returns {boolean} Returns `true` if `value` is `NaN`, else `false`. */ function baseIsNaN$1(value) { return value !== value; } var _baseIsNaN = baseIsNaN$1; /** * A specialized version of `_.indexOf` which performs strict equality * comparisons of values, i.e. `===`. * * @private * @param {Array} array The array to inspect. * @param {*} value The value to search for. * @param {number} fromIndex The index to search from. * @returns {number} Returns the index of the matched value, else `-1`. */ function strictIndexOf$1(array, value, fromIndex) { var index = fromIndex - 1, length = array.length; while (++index < length) { if (array[index] === value) { return index; } } return -1; } var _strictIndexOf = strictIndexOf$1; var baseFindIndex = _baseFindIndex, baseIsNaN = _baseIsNaN, strictIndexOf = _strictIndexOf; /** * The base implementation of `_.indexOf` without `fromIndex` bounds checks. * * @private * @param {Array} array The array to inspect. * @param {*} value The value to search for. * @param {number} fromIndex The index to search from. * @returns {number} Returns the index of the matched value, else `-1`. */ function baseIndexOf$1(array, value, fromIndex) { return value === value ? strictIndexOf(array, value, fromIndex) : baseFindIndex(array, baseIsNaN, fromIndex); } var _baseIndexOf = baseIndexOf$1; var baseIndexOf = _baseIndexOf; /** * A specialized version of `_.includes` for arrays without support for * specifying an index to search from. * * @private * @param {Array} [array] The array to inspect. * @param {*} target The value to search for. * @returns {boolean} Returns `true` if `target` is found, else `false`. */ function arrayIncludes$1(array, value) { var length = array == null ? 0 : array.length; return !!length && baseIndexOf(array, value, 0) > -1; } var _arrayIncludes = arrayIncludes$1; /** * This function is like `arrayIncludes` except that it accepts a comparator. * * @private * @param {Array} [array] The array to inspect. * @param {*} target The value to search for. * @param {Function} comparator The comparator invoked per element. * @returns {boolean} Returns `true` if `target` is found, else `false`. */ function arrayIncludesWith$1(array, value, comparator) { var index = -1, length = array == null ? 0 : array.length; while (++index < length) { if (comparator(value, array[index])) { return true; } } return false; } var _arrayIncludesWith = arrayIncludesWith$1; /** * This method returns `undefined`. * * @static * @memberOf _ * @since 2.3.0 * @category Util * @example * * _.times(2, _.noop); * // => [undefined, undefined] */ function noop$2() {// No operation performed. } var noop_1 = noop$2; var Set$1 = _Set, noop$1 = noop_1, setToArray$1 = _setToArray; /** Used as references for various `Number` constants. */ var INFINITY = 1 / 0; /** * Creates a set object of `values`. * * @private * @param {Array} values The values to add to the set. * @returns {Object} Returns the new set. */ var createSet$1 = !(Set$1 && 1 / setToArray$1(new Set$1([, -0]))[1] == INFINITY) ? noop$1 : function (values) { return new Set$1(values); }; var _createSet = createSet$1; var SetCache = _SetCache, arrayIncludes = _arrayIncludes, arrayIncludesWith = _arrayIncludesWith, cacheHas = _cacheHas, createSet = _createSet, setToArray = _setToArray; /** Used as the size to enable large array optimizations. */ var LARGE_ARRAY_SIZE = 200; /** * The base implementation of `_.uniqBy` without support for iteratee shorthands. * * @private * @param {Array} array The array to inspect. * @param {Function} [iteratee] The iteratee invoked per element. * @param {Function} [comparator] The comparator invoked per element. * @returns {Array} Returns the new duplicate free array. */ function baseUniq$1(array, iteratee, comparator) { var index = -1, includes = arrayIncludes, length = array.length, isCommon = true, result = [], seen = result; if (comparator) { isCommon = false; includes = arrayIncludesWith; } else if (length >= LARGE_ARRAY_SIZE) { var set = iteratee ? null : createSet(array); if (set) { return setToArray(set); } isCommon = false; includes = cacheHas; seen = new SetCache(); } else { seen = iteratee ? [] : result; } outer: while (++index < length) { var value = array[index], computed = iteratee ? iteratee(value) : value; value = comparator || value !== 0 ? value : 0; if (isCommon && computed === computed) { var seenIndex = seen.length; while (seenIndex--) { if (seen[seenIndex] === computed) { continue outer; } } if (iteratee) { seen.push(computed); } result.push(value); } else if (!includes(seen, computed, comparator)) { if (seen !== result) { seen.push(computed); } result.push(value); } } return result; } var _baseUniq = baseUniq$1; var baseIteratee$1 = _baseIteratee, baseUniq = _baseUniq; /** * This method is like `_.uniq` except that it accepts `iteratee` which is * invoked for each element in `array` to generate the criterion by which * uniqueness is computed. The order of result values is determined by the * order they occur in the array. The iteratee is invoked with one argument: * (value). * * @static * @memberOf _ * @since 4.0.0 * @category Array * @param {Array} array The array to inspect. * @param {Function} [iteratee=_.identity] The iteratee invoked per element. * @returns {Array} Returns the new duplicate free array. * @example * * _.uniqBy([2.1, 1.2, 2.3], Math.floor); * // => [2.1, 1.2] * * // The `_.property` iteratee shorthand. * _.uniqBy([{ 'x': 1 }, { 'x': 2 }, { 'x': 1 }], 'x'); * // => [{ 'x': 1 }, { 'x': 2 }] */ function uniqBy$1(array, iteratee) { return array && array.length ? baseUniq(array, baseIteratee$1(iteratee)) : []; } var uniqBy_1 = uniqBy$1; /** * A specialized version of `baseAggregator` for arrays. * * @private * @param {Array} [array] The array to iterate over. * @param {Function} setter The function to set `accumulator` values. * @param {Function} iteratee The iteratee to transform keys. * @param {Object} accumulator The initial aggregated object. * @returns {Function} Returns `accumulator`. */ function arrayAggregator$1(array, setter, iteratee, accumulator) { var index = -1, length = array == null ? 0 : array.length; while (++index < length) { var value = array[index]; setter(accumulator, value, iteratee(value), array); } return accumulator; } var _arrayAggregator = arrayAggregator$1; /** * Creates a base function for methods like `_.forIn` and `_.forOwn`. * * @private * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new base function. */ function createBaseFor$1(fromRight) { return function (object, iteratee, keysFunc) { var index = -1, iterable = Object(object), props = keysFunc(object), length = props.length; while (length--) { var key = props[fromRight ? length : ++index]; if (iteratee(iterable[key], key, iterable) === false) { break; } } return object; }; } var _createBaseFor = createBaseFor$1; var createBaseFor = _createBaseFor; /** * The base implementation of `baseForOwn` which iterates over `object` * properties returned by `keysFunc` and invokes `iteratee` for each property. * Iteratee functions may exit iteration early by explicitly returning `false`. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @param {Function} keysFunc The function to get the keys of `object`. * @returns {Object} Returns `object`. */ var baseFor$1 = createBaseFor(); var _baseFor = baseFor$1; var baseFor = _baseFor, keys = keys_1; /** * The base implementation of `_.forOwn` without support for iteratee shorthands. * * @private * @param {Object} object The object to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Object} Returns `object`. */ function baseForOwn$1(object, iteratee) { return object && baseFor(object, iteratee, keys); } var _baseForOwn = baseForOwn$1; var isArrayLike = isArrayLike_1; /** * Creates a `baseEach` or `baseEachRight` function. * * @private * @param {Function} eachFunc The function to iterate over a collection. * @param {boolean} [fromRight] Specify iterating from right to left. * @returns {Function} Returns the new base function. */ function createBaseEach$1(eachFunc, fromRight) { return function (collection, iteratee) { if (collection == null) { return collection; } if (!isArrayLike(collection)) { return eachFunc(collection, iteratee); } var length = collection.length, index = fromRight ? length : -1, iterable = Object(collection); while (fromRight ? index-- : ++index < length) { if (iteratee(iterable[index], index, iterable) === false) { break; } } return collection; }; } var _createBaseEach = createBaseEach$1; var baseForOwn = _baseForOwn, createBaseEach = _createBaseEach; /** * The base implementation of `_.forEach` without support for iteratee shorthands. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} iteratee The function invoked per iteration. * @returns {Array|Object} Returns `collection`. */ var baseEach$1 = createBaseEach(baseForOwn); var _baseEach = baseEach$1; var baseEach = _baseEach; /** * Aggregates elements of `collection` on `accumulator` with keys transformed * by `iteratee` and values set by `setter`. * * @private * @param {Array|Object} collection The collection to iterate over. * @param {Function} setter The function to set `accumulator` values. * @param {Function} iteratee The iteratee to transform keys. * @param {Object} accumulator The initial aggregated object. * @returns {Function} Returns `accumulator`. */ function baseAggregator$1(collection, setter, iteratee, accumulator) { baseEach(collection, function (value, key, collection) { setter(accumulator, value, iteratee(value), collection); }); return accumulator; } var _baseAggregator = baseAggregator$1; var arrayAggregator = _arrayAggregator, baseAggregator = _baseAggregator, baseIteratee = _baseIteratee, isArray = isArray_1; /** * Creates a function like `_.groupBy`. * * @private * @param {Function} setter The function to set accumulator values. * @param {Function} [initializer] The accumulator object initializer. * @returns {Function} Returns the new aggregator function. */ function createAggregator$1(setter, initializer) { return function (collection, iteratee) { var func = isArray(collection) ? arrayAggregator : baseAggregator, accumulator = initializer ? initializer() : {}; return func(collection, setter, baseIteratee(iteratee), accumulator); }; } var _createAggregator = createAggregator$1; var createAggregator = _createAggregator; /** * Creates an array of elements split into two groups, the first of which * contains elements `predicate` returns truthy for, the second of which * contains elements `predicate` returns falsey for. The predicate is * invoked with one argument: (value). * * @static * @memberOf _ * @since 3.0.0 * @category Collection * @param {Array|Object} collection The collection to iterate over. * @param {Function} [predicate=_.identity] The function invoked per iteration. * @returns {Array} Returns the array of grouped elements. * @example * * var users = [ * { 'user': 'barney', 'age': 36, 'active': false }, * { 'user': 'fred', 'age': 40, 'active': true }, * { 'user': 'pebbles', 'age': 1, 'active': false } * ]; * * _.partition(users, function(o) { return o.active; }); * // => objects for [['fred'], ['barney', 'pebbles']] * * // The `_.matches` iteratee shorthand. * _.partition(users, { 'age': 1, 'active': false }); * // => objects for [['pebbles'], ['barney', 'fred']] * * // The `_.matchesProperty` iteratee shorthand. * _.partition(users, ['active', false]); * // => objects for [['barney', 'pebbles'], ['fred']] * * // The `_.property` iteratee shorthand. * _.partition(users, 'active'); * // => objects for [['fred'], ['barney', 'pebbles']] */ var partition$1 = createAggregator(function (result, value, key) { result[key ? 0 : 1].push(value); }, function () { return [[], []]; }); var partition_1 = partition$1; var globby$2 = {exports: {}}; var arrayUnion$1 = (...arguments_) => { return [...new Set([].concat(...arguments_))]; }; /* * merge2 * https://github.com/teambition/merge2 * * Copyright (c) 2014-2020 Teambition * Licensed under the MIT license. */ const Stream = require$$0__default$5["default"]; const PassThrough = Stream.PassThrough; const slice = Array.prototype.slice; var merge2_1 = merge2$2; function merge2$2() { const streamsQueue = []; const args = slice.call(arguments); let merging = false; let options = args[args.length - 1]; if (options && !Array.isArray(options) && options.pipe == null) { args.pop(); } else { options = {}; } const doEnd = options.end !== false; const doPipeError = options.pipeError === true; if (options.objectMode == null) { options.objectMode = true; } if (options.highWaterMark == null) { options.highWaterMark = 64 * 1024; } const mergedStream = PassThrough(options); function addStream() { for (let i = 0, len = arguments.length; i < len; i++) { streamsQueue.push(pauseStreams(arguments[i], options)); } mergeStream(); return this; } function mergeStream() { if (merging) { return; } merging = true; let streams = streamsQueue.shift(); if (!streams) { process.nextTick(endStream); return; } if (!Array.isArray(streams)) { streams = [streams]; } let pipesCount = streams.length + 1; function next() { if (--pipesCount > 0) { return; } merging = false; mergeStream(); } function pipe(stream) { function onend() { stream.removeListener('merge2UnpipeEnd', onend); stream.removeListener('end', onend); if (doPipeError) { stream.removeListener('error', onerror); } next(); } function onerror(err) { mergedStream.emit('error', err); } // skip ended stream if (stream._readableState.endEmitted) { return next(); } stream.on('merge2UnpipeEnd', onend); stream.on('end', onend); if (doPipeError) { stream.on('error', onerror); } stream.pipe(mergedStream, { end: false }); // compatible for old stream stream.resume(); } for (let i = 0; i < streams.length; i++) { pipe(streams[i]); } next(); } function endStream() { merging = false; // emit 'queueDrain' when all streams merged. mergedStream.emit('queueDrain'); if (doEnd) { mergedStream.end(); } } mergedStream.setMaxListeners(0); mergedStream.add = addStream; mergedStream.on('unpipe', function (stream) { stream.emit('merge2UnpipeEnd'); }); if (args.length) { addStream.apply(null, args); } return mergedStream; } // check and pause streams for pipe. function pauseStreams(streams, options) { if (!Array.isArray(streams)) { // Backwards-compat with old-style streams if (!streams._readableState && streams.pipe) { streams = streams.pipe(PassThrough(options)); } if (!streams._readableState || !streams.pause || !streams.pipe) { throw new Error('Only readable stream can be merged.'); } streams.pause(); } else { for (let i = 0, len = streams.length; i < len; i++) { streams[i] = pauseStreams(streams[i], options); } } return streams; } var tasks = {}; var utils$r = {}; var array$2 = {}; Object.defineProperty(array$2, "__esModule", { value: true }); array$2.splitWhen = array$2.flatten = void 0; function flatten(items) { return items.reduce((collection, item) => [].concat(collection, item), []); } array$2.flatten = flatten; function splitWhen(items, predicate) { const result = [[]]; let groupIndex = 0; for (const item of items) { if (predicate(item)) { groupIndex++; result[groupIndex] = []; } else { result[groupIndex].push(item); } } return result; } array$2.splitWhen = splitWhen; var errno$1 = {}; Object.defineProperty(errno$1, "__esModule", { value: true }); errno$1.isEnoentCodeError = void 0; function isEnoentCodeError(error) { return error.code === 'ENOENT'; } errno$1.isEnoentCodeError = isEnoentCodeError; var fs$b = {}; Object.defineProperty(fs$b, "__esModule", { value: true }); fs$b.createDirentFromStats = void 0; class DirentFromStats$1 { constructor(name, stats) { this.name = name; this.isBlockDevice = stats.isBlockDevice.bind(stats); this.isCharacterDevice = stats.isCharacterDevice.bind(stats); this.isDirectory = stats.isDirectory.bind(stats); this.isFIFO = stats.isFIFO.bind(stats); this.isFile = stats.isFile.bind(stats); this.isSocket = stats.isSocket.bind(stats); this.isSymbolicLink = stats.isSymbolicLink.bind(stats); } } function createDirentFromStats$1(name, stats) { return new DirentFromStats$1(name, stats); } fs$b.createDirentFromStats = createDirentFromStats$1; var path$c = {}; Object.defineProperty(path$c, "__esModule", { value: true }); path$c.removeLeadingDotSegment = path$c.escape = path$c.makeAbsolute = path$c.unixify = void 0; const path$b = require$$0__default$2["default"]; const LEADING_DOT_SEGMENT_CHARACTERS_COUNT = 2; // ./ or .\\ const UNESCAPED_GLOB_SYMBOLS_RE = /(\\?)([()*?[\]{|}]|^!|[!+@](?=\())/g; /** * Designed to work only with simple paths: `dir\\file`. */ function unixify(filepath) { return filepath.replace(/\\/g, '/'); } path$c.unixify = unixify; function makeAbsolute(cwd, filepath) { return path$b.resolve(cwd, filepath); } path$c.makeAbsolute = makeAbsolute; function escape(pattern) { return pattern.replace(UNESCAPED_GLOB_SYMBOLS_RE, '\\$2'); } path$c.escape = escape; function removeLeadingDotSegment(entry) { // We do not use `startsWith` because this is 10x slower than current implementation for some cases. // eslint-disable-next-line @typescript-eslint/prefer-string-starts-ends-with if (entry.charAt(0) === '.') { const secondCharactery = entry.charAt(1); if (secondCharactery === '/' || secondCharactery === '\\') { return entry.slice(LEADING_DOT_SEGMENT_CHARACTERS_COUNT); } } return entry; } path$c.removeLeadingDotSegment = removeLeadingDotSegment; var pattern$1 = {}; /*! * is-extglob * * Copyright (c) 2014-2016, Jon Schlinkert. * Licensed under the MIT License. */ var isExtglob$1 = function isExtglob(str) { if (typeof str !== 'string' || str === '') { return false; } var match; while (match = /(\\).|([@?!+*]\(.*\))/g.exec(str)) { if (match[2]) return true; str = str.slice(match.index + match[0].length); } return false; }; /*! * is-glob * * Copyright (c) 2014-2017, Jon Schlinkert. * Released under the MIT License. */ var isExtglob = isExtglob$1; var chars$1 = { '{': '}', '(': ')', '[': ']' }; var strictCheck = function (str) { if (str[0] === '!') { return true; } var index = 0; var pipeIndex = -2; var closeSquareIndex = -2; var closeCurlyIndex = -2; var closeParenIndex = -2; var backSlashIndex = -2; while (index < str.length) { if (str[index] === '*') { return true; } if (str[index + 1] === '?' && /[\].+)]/.test(str[index])) { return true; } if (closeSquareIndex !== -1 && str[index] === '[' && str[index + 1] !== ']') { if (closeSquareIndex < index) { closeSquareIndex = str.indexOf(']', index); } if (closeSquareIndex > index) { if (backSlashIndex === -1 || backSlashIndex > closeSquareIndex) { return true; } backSlashIndex = str.indexOf('\\', index); if (backSlashIndex === -1 || backSlashIndex > closeSquareIndex) { return true; } } } if (closeCurlyIndex !== -1 && str[index] === '{' && str[index + 1] !== '}') { closeCurlyIndex = str.indexOf('}', index); if (closeCurlyIndex > index) { backSlashIndex = str.indexOf('\\', index); if (backSlashIndex === -1 || backSlashIndex > closeCurlyIndex) { return true; } } } if (closeParenIndex !== -1 && str[index] === '(' && str[index + 1] === '?' && /[:!=]/.test(str[index + 2]) && str[index + 3] !== ')') { closeParenIndex = str.indexOf(')', index); if (closeParenIndex > index) { backSlashIndex = str.indexOf('\\', index); if (backSlashIndex === -1 || backSlashIndex > closeParenIndex) { return true; } } } if (pipeIndex !== -1 && str[index] === '(' && str[index + 1] !== '|') { if (pipeIndex < index) { pipeIndex = str.indexOf('|', index); } if (pipeIndex !== -1 && str[pipeIndex + 1] !== ')') { closeParenIndex = str.indexOf(')', pipeIndex); if (closeParenIndex > pipeIndex) { backSlashIndex = str.indexOf('\\', pipeIndex); if (backSlashIndex === -1 || backSlashIndex > closeParenIndex) { return true; } } } } if (str[index] === '\\') { var open = str[index + 1]; index += 2; var close = chars$1[open]; if (close) { var n = str.indexOf(close, index); if (n !== -1) { index = n + 1; } } if (str[index] === '!') { return true; } } else { index++; } } return false; }; var relaxedCheck = function (str) { if (str[0] === '!') { return true; } var index = 0; while (index < str.length) { if (/[*?{}()[\]]/.test(str[index])) { return true; } if (str[index] === '\\') { var open = str[index + 1]; index += 2; var close = chars$1[open]; if (close) { var n = str.indexOf(close, index); if (n !== -1) { index = n + 1; } } if (str[index] === '!') { return true; } } else { index++; } } return false; }; var isGlob$1 = function isGlob(str, options) { if (typeof str !== 'string' || str === '') { return false; } if (isExtglob(str)) { return true; } var check = strictCheck; // optionally relax check if (options && options.strict === false) { check = relaxedCheck; } return check(str); }; var isGlob = isGlob$1; var pathPosixDirname = require$$0__default$2["default"].posix.dirname; var isWin32 = require$$0__default$1["default"].platform() === 'win32'; var slash$2 = '/'; var backslash = /\\/g; var enclosure = /[\{\[].*[\}\]]$/; var globby$1 = /(^|[^\\])([\{\[]|\([^\)]+$)/; var escaped = /\\([\!\*\?\|\[\]\(\)\{\}])/g; /** * @param {string} str * @param {Object} opts * @param {boolean} [opts.flipBackslashes=true] * @returns {string} */ var globParent$1 = function globParent(str, opts) { var options = Object.assign({ flipBackslashes: true }, opts); // flip windows path separators if (options.flipBackslashes && isWin32 && str.indexOf(slash$2) < 0) { str = str.replace(backslash, slash$2); } // special case for strings ending in enclosure containing path separator if (enclosure.test(str)) { str += slash$2; } // preserves full path in case of trailing path separator str += 'a'; // remove path parts that are globby do { str = pathPosixDirname(str); } while (isGlob(str) || globby$1.test(str)); // remove escape chars and return result return str.replace(escaped, '$1'); }; var utils$q = {}; (function (exports) { exports.isInteger = num => { if (typeof num === 'number') { return Number.isInteger(num); } if (typeof num === 'string' && num.trim() !== '') { return Number.isInteger(Number(num)); } return false; }; /** * Find a node of the given type */ exports.find = (node, type) => node.nodes.find(node => node.type === type); /** * Find a node of the given type */ exports.exceedsLimit = (min, max, step = 1, limit) => { if (limit === false) return false; if (!exports.isInteger(min) || !exports.isInteger(max)) return false; return (Number(max) - Number(min)) / Number(step) >= limit; }; /** * Escape the given node with '\\' before node.value */ exports.escapeNode = (block, n = 0, type) => { let node = block.nodes[n]; if (!node) return; if (type && node.type === type || node.type === 'open' || node.type === 'close') { if (node.escaped !== true) { node.value = '\\' + node.value; node.escaped = true; } } }; /** * Returns true if the given brace node should be enclosed in literal braces */ exports.encloseBrace = node => { if (node.type !== 'brace') return false; if (node.commas >> 0 + node.ranges >> 0 === 0) { node.invalid = true; return true; } return false; }; /** * Returns true if a brace node is invalid. */ exports.isInvalidBrace = block => { if (block.type !== 'brace') return false; if (block.invalid === true || block.dollar) return true; if (block.commas >> 0 + block.ranges >> 0 === 0) { block.invalid = true; return true; } if (block.open !== true || block.close !== true) { block.invalid = true; return true; } return false; }; /** * Returns true if a node is an open or close node */ exports.isOpenOrClose = node => { if (node.type === 'open' || node.type === 'close') { return true; } return node.open === true || node.close === true; }; /** * Reduce an array of text nodes. */ exports.reduce = nodes => nodes.reduce((acc, node) => { if (node.type === 'text') acc.push(node.value); if (node.type === 'range') node.type = 'text'; return acc; }, []); /** * Flatten an array */ exports.flatten = (...args) => { const result = []; const flat = arr => { for (let i = 0; i < arr.length; i++) { let ele = arr[i]; Array.isArray(ele) ? flat(ele) : ele !== void 0 && result.push(ele); } return result; }; flat(args); return result; }; })(utils$q); const utils$p = utils$q; var stringify$5 = (ast, options = {}) => { let stringify = (node, parent = {}) => { let invalidBlock = options.escapeInvalid && utils$p.isInvalidBrace(parent); let invalidNode = node.invalid === true && options.escapeInvalid === true; let output = ''; if (node.value) { if ((invalidBlock || invalidNode) && utils$p.isOpenOrClose(node)) { return '\\' + node.value; } return node.value; } if (node.value) { return node.value; } if (node.nodes) { for (let child of node.nodes) { output += stringify(child); } } return output; }; return stringify(ast); }; /*! * is-number * * Copyright (c) 2014-present, Jon Schlinkert. * Released under the MIT License. */ var isNumber$2 = function (num) { if (typeof num === 'number') { return num - num === 0; } if (typeof num === 'string' && num.trim() !== '') { return Number.isFinite ? Number.isFinite(+num) : isFinite(+num); } return false; }; const isNumber$1 = isNumber$2; const toRegexRange$1 = (min, max, options) => { if (isNumber$1(min) === false) { throw new TypeError('toRegexRange: expected the first argument to be a number'); } if (max === void 0 || min === max) { return String(min); } if (isNumber$1(max) === false) { throw new TypeError('toRegexRange: expected the second argument to be a number.'); } let opts = Object.assign({ relaxZeros: true }, options); if (typeof opts.strictZeros === 'boolean') { opts.relaxZeros = opts.strictZeros === false; } let relax = String(opts.relaxZeros); let shorthand = String(opts.shorthand); let capture = String(opts.capture); let wrap = String(opts.wrap); let cacheKey = min + ':' + max + '=' + relax + shorthand + capture + wrap; if (toRegexRange$1.cache.hasOwnProperty(cacheKey)) { return toRegexRange$1.cache[cacheKey].result; } let a = Math.min(min, max); let b = Math.max(min, max); if (Math.abs(a - b) === 1) { let result = min + '|' + max; if (opts.capture) { return `(${result})`; } if (opts.wrap === false) { return result; } return `(?:${result})`; } let isPadded = hasPadding(min) || hasPadding(max); let state = { min, max, a, b }; let positives = []; let negatives = []; if (isPadded) { state.isPadded = isPadded; state.maxLen = String(state.max).length; } if (a < 0) { let newMin = b < 0 ? Math.abs(b) : 1; negatives = splitToPatterns(newMin, Math.abs(a), state, opts); a = state.a = 0; } if (b >= 0) { positives = splitToPatterns(a, b, state, opts); } state.negatives = negatives; state.positives = positives; state.result = collatePatterns(negatives, positives); if (opts.capture === true) { state.result = `(${state.result})`; } else if (opts.wrap !== false && positives.length + negatives.length > 1) { state.result = `(?:${state.result})`; } toRegexRange$1.cache[cacheKey] = state; return state.result; }; function collatePatterns(neg, pos, options) { let onlyNegative = filterPatterns(neg, pos, '-', false) || []; let onlyPositive = filterPatterns(pos, neg, '', false) || []; let intersected = filterPatterns(neg, pos, '-?', true) || []; let subpatterns = onlyNegative.concat(intersected).concat(onlyPositive); return subpatterns.join('|'); } function splitToRanges(min, max) { let nines = 1; let zeros = 1; let stop = countNines(min, nines); let stops = new Set([max]); while (min <= stop && stop <= max) { stops.add(stop); nines += 1; stop = countNines(min, nines); } stop = countZeros(max + 1, zeros) - 1; while (min < stop && stop <= max) { stops.add(stop); zeros += 1; stop = countZeros(max + 1, zeros) - 1; } stops = [...stops]; stops.sort(compare); return stops; } /** * Convert a range to a regex pattern * @param {Number} `start` * @param {Number} `stop` * @return {String} */ function rangeToPattern(start, stop, options) { if (start === stop) { return { pattern: start, count: [], digits: 0 }; } let zipped = zip(start, stop); let digits = zipped.length; let pattern = ''; let count = 0; for (let i = 0; i < digits; i++) { let [startDigit, stopDigit] = zipped[i]; if (startDigit === stopDigit) { pattern += startDigit; } else if (startDigit !== '0' || stopDigit !== '9') { pattern += toCharacterClass(startDigit, stopDigit); } else { count++; } } if (count) { pattern += options.shorthand === true ? '\\d' : '[0-9]'; } return { pattern, count: [count], digits }; } function splitToPatterns(min, max, tok, options) { let ranges = splitToRanges(min, max); let tokens = []; let start = min; let prev; for (let i = 0; i < ranges.length; i++) { let max = ranges[i]; let obj = rangeToPattern(String(start), String(max), options); let zeros = ''; if (!tok.isPadded && prev && prev.pattern === obj.pattern) { if (prev.count.length > 1) { prev.count.pop(); } prev.count.push(obj.count[0]); prev.string = prev.pattern + toQuantifier(prev.count); start = max + 1; continue; } if (tok.isPadded) { zeros = padZeros(max, tok, options); } obj.string = zeros + obj.pattern + toQuantifier(obj.count); tokens.push(obj); start = max + 1; prev = obj; } return tokens; } function filterPatterns(arr, comparison, prefix, intersection, options) { let result = []; for (let ele of arr) { let { string } = ele; // only push if _both_ are negative... if (!intersection && !contains(comparison, 'string', string)) { result.push(prefix + string); } // or _both_ are positive if (intersection && contains(comparison, 'string', string)) { result.push(prefix + string); } } return result; } /** * Zip strings */ function zip(a, b) { let arr = []; for (let i = 0; i < a.length; i++) arr.push([a[i], b[i]]); return arr; } function compare(a, b) { return a > b ? 1 : b > a ? -1 : 0; } function contains(arr, key, val) { return arr.some(ele => ele[key] === val); } function countNines(min, len) { return Number(String(min).slice(0, -len) + '9'.repeat(len)); } function countZeros(integer, zeros) { return integer - integer % Math.pow(10, zeros); } function toQuantifier(digits) { let [start = 0, stop = ''] = digits; if (stop || start > 1) { return `{${start + (stop ? ',' + stop : '')}}`; } return ''; } function toCharacterClass(a, b, options) { return `[${a}${b - a === 1 ? '' : '-'}${b}]`; } function hasPadding(str) { return /^-?(0+)\d/.test(str); } function padZeros(value, tok, options) { if (!tok.isPadded) { return value; } let diff = Math.abs(tok.maxLen - String(value).length); let relax = options.relaxZeros !== false; switch (diff) { case 0: return ''; case 1: return relax ? '0?' : '0'; case 2: return relax ? '0{0,2}' : '00'; default: { return relax ? `0{0,${diff}}` : `0{${diff}}`; } } } /** * Cache */ toRegexRange$1.cache = {}; toRegexRange$1.clearCache = () => toRegexRange$1.cache = {}; /** * Expose `toRegexRange` */ var toRegexRange_1 = toRegexRange$1; const util$2 = require$$0__default$4["default"]; const toRegexRange = toRegexRange_1; const isObject$1 = val => val !== null && typeof val === 'object' && !Array.isArray(val); const transform = toNumber => { return value => toNumber === true ? Number(value) : String(value); }; const isValidValue = value => { return typeof value === 'number' || typeof value === 'string' && value !== ''; }; const isNumber = num => Number.isInteger(+num); const zeros = input => { let value = `${input}`; let index = -1; if (value[0] === '-') value = value.slice(1); if (value === '0') return false; while (value[++index] === '0'); return index > 0; }; const stringify$4 = (start, end, options) => { if (typeof start === 'string' || typeof end === 'string') { return true; } return options.stringify === true; }; const pad = (input, maxLength, toNumber) => { if (maxLength > 0) { let dash = input[0] === '-' ? '-' : ''; if (dash) input = input.slice(1); input = dash + input.padStart(dash ? maxLength - 1 : maxLength, '0'); } if (toNumber === false) { return String(input); } return input; }; const toMaxLen = (input, maxLength) => { let negative = input[0] === '-' ? '-' : ''; if (negative) { input = input.slice(1); maxLength--; } while (input.length < maxLength) input = '0' + input; return negative ? '-' + input : input; }; const toSequence = (parts, options) => { parts.negatives.sort((a, b) => a < b ? -1 : a > b ? 1 : 0); parts.positives.sort((a, b) => a < b ? -1 : a > b ? 1 : 0); let prefix = options.capture ? '' : '?:'; let positives = ''; let negatives = ''; let result; if (parts.positives.length) { positives = parts.positives.join('|'); } if (parts.negatives.length) { negatives = `-(${prefix}${parts.negatives.join('|')})`; } if (positives && negatives) { result = `${positives}|${negatives}`; } else { result = positives || negatives; } if (options.wrap) { return `(${prefix}${result})`; } return result; }; const toRange = (a, b, isNumbers, options) => { if (isNumbers) { return toRegexRange(a, b, Object.assign({ wrap: false }, options)); } let start = String.fromCharCode(a); if (a === b) return start; let stop = String.fromCharCode(b); return `[${start}-${stop}]`; }; const toRegex = (start, end, options) => { if (Array.isArray(start)) { let wrap = options.wrap === true; let prefix = options.capture ? '' : '?:'; return wrap ? `(${prefix}${start.join('|')})` : start.join('|'); } return toRegexRange(start, end, options); }; const rangeError = (...args) => { return new RangeError('Invalid range arguments: ' + util$2.inspect(...args)); }; const invalidRange = (start, end, options) => { if (options.strictRanges === true) throw rangeError([start, end]); return []; }; const invalidStep = (step, options) => { if (options.strictRanges === true) { throw new TypeError(`Expected step "${step}" to be a number`); } return []; }; const fillNumbers = (start, end, step = 1, options = {}) => { let a = Number(start); let b = Number(end); if (!Number.isInteger(a) || !Number.isInteger(b)) { if (options.strictRanges === true) throw rangeError([start, end]); return []; } // fix negative zero if (a === 0) a = 0; if (b === 0) b = 0; let descending = a > b; let startString = String(start); let endString = String(end); let stepString = String(step); step = Math.max(Math.abs(step), 1); let padded = zeros(startString) || zeros(endString) || zeros(stepString); let maxLen = padded ? Math.max(startString.length, endString.length, stepString.length) : 0; let toNumber = padded === false && stringify$4(start, end, options) === false; let format = options.transform || transform(toNumber); if (options.toRegex && step === 1) { return toRange(toMaxLen(start, maxLen), toMaxLen(end, maxLen), true, options); } let parts = { negatives: [], positives: [] }; let push = num => parts[num < 0 ? 'negatives' : 'positives'].push(Math.abs(num)); let range = []; let index = 0; while (descending ? a >= b : a <= b) { if (options.toRegex === true && step > 1) { push(a); } else { range.push(pad(format(a, index), maxLen, toNumber)); } a = descending ? a - step : a + step; index++; } if (options.toRegex === true) { return step > 1 ? toSequence(parts, options) : toRegex(range, null, Object.assign({ wrap: false }, options)); } return range; }; const fillLetters = (start, end, step = 1, options = {}) => { if (!isNumber(start) && start.length > 1 || !isNumber(end) && end.length > 1) { return invalidRange(start, end, options); } let format = options.transform || (val => String.fromCharCode(val)); let a = `${start}`.charCodeAt(0); let b = `${end}`.charCodeAt(0); let descending = a > b; let min = Math.min(a, b); let max = Math.max(a, b); if (options.toRegex && step === 1) { return toRange(min, max, false, options); } let range = []; let index = 0; while (descending ? a >= b : a <= b) { range.push(format(a, index)); a = descending ? a - step : a + step; index++; } if (options.toRegex === true) { return toRegex(range, null, { wrap: false, options }); } return range; }; const fill$b = (start, end, step, options = {}) => { if (end == null && isValidValue(start)) { return [start]; } if (!isValidValue(start) || !isValidValue(end)) { return invalidRange(start, end, options); } if (typeof step === 'function') { return fill$b(start, end, 1, { transform: step }); } if (isObject$1(step)) { return fill$b(start, end, 0, step); } let opts = Object.assign({}, options); if (opts.capture === true) opts.wrap = true; step = step || opts.step || 1; if (!isNumber(step)) { if (step != null && !isObject$1(step)) return invalidStep(step, opts); return fill$b(start, end, 1, step); } if (isNumber(start) && isNumber(end)) { return fillNumbers(start, end, step, opts); } return fillLetters(start, end, Math.max(Math.abs(step), 1), opts); }; var fillRange = fill$b; const fill$a = fillRange; const utils$o = utils$q; const compile$1 = (ast, options = {}) => { let walk = (node, parent = {}) => { let invalidBlock = utils$o.isInvalidBrace(parent); let invalidNode = node.invalid === true && options.escapeInvalid === true; let invalid = invalidBlock === true || invalidNode === true; let prefix = options.escapeInvalid === true ? '\\' : ''; let output = ''; if (node.isOpen === true) { return prefix + node.value; } if (node.isClose === true) { return prefix + node.value; } if (node.type === 'open') { return invalid ? prefix + node.value : '('; } if (node.type === 'close') { return invalid ? prefix + node.value : ')'; } if (node.type === 'comma') { return node.prev.type === 'comma' ? '' : invalid ? node.value : '|'; } if (node.value) { return node.value; } if (node.nodes && node.ranges > 0) { let args = utils$o.reduce(node.nodes); let range = fill$a(...args, Object.assign(Object.assign({}, options), {}, { wrap: false, toRegex: true })); if (range.length !== 0) { return args.length > 1 && range.length > 1 ? `(${range})` : range; } } if (node.nodes) { for (let child of node.nodes) { output += walk(child, node); } } return output; }; return walk(ast); }; var compile_1 = compile$1; const fill$9 = fillRange; const stringify$3 = stringify$5; const utils$n = utils$q; const append = (queue = '', stash = '', enclose = false) => { let result = []; queue = [].concat(queue); stash = [].concat(stash); if (!stash.length) return queue; if (!queue.length) { return enclose ? utils$n.flatten(stash).map(ele => `{${ele}}`) : stash; } for (let item of queue) { if (Array.isArray(item)) { for (let value of item) { result.push(append(value, stash, enclose)); } } else { for (let ele of stash) { if (enclose === true && typeof ele === 'string') ele = `{${ele}}`; result.push(Array.isArray(ele) ? append(item, ele, enclose) : item + ele); } } } return utils$n.flatten(result); }; const expand$1 = (ast, options = {}) => { let rangeLimit = options.rangeLimit === void 0 ? 1000 : options.rangeLimit; let walk = (node, parent = {}) => { node.queue = []; let p = parent; let q = parent.queue; while (p.type !== 'brace' && p.type !== 'root' && p.parent) { p = p.parent; q = p.queue; } if (node.invalid || node.dollar) { q.push(append(q.pop(), stringify$3(node, options))); return; } if (node.type === 'brace' && node.invalid !== true && node.nodes.length === 2) { q.push(append(q.pop(), ['{}'])); return; } if (node.nodes && node.ranges > 0) { let args = utils$n.reduce(node.nodes); if (utils$n.exceedsLimit(...args, options.step, rangeLimit)) { throw new RangeError('expanded array length exceeds range limit. Use options.rangeLimit to increase or disable the limit.'); } let range = fill$9(...args, options); if (range.length === 0) { range = stringify$3(node, options); } q.push(append(q.pop(), range)); node.nodes = []; return; } let enclose = utils$n.encloseBrace(node); let queue = node.queue; let block = node; while (block.type !== 'brace' && block.type !== 'root' && block.parent) { block = block.parent; queue = block.queue; } for (let i = 0; i < node.nodes.length; i++) { let child = node.nodes[i]; if (child.type === 'comma' && node.type === 'brace') { if (i === 1) queue.push(''); queue.push(''); continue; } if (child.type === 'close') { q.push(append(q.pop(), queue, enclose)); continue; } if (child.value && child.type !== 'open') { queue.push(append(queue.pop(), child.value)); continue; } if (child.nodes) { walk(child, node); } } return queue; }; return utils$n.flatten(walk(ast)); }; var expand_1 = expand$1; var constants$4 = { MAX_LENGTH: 1024 * 64, // Digits CHAR_0: '0', /* 0 */ CHAR_9: '9', /* 9 */ // Alphabet chars. CHAR_UPPERCASE_A: 'A', /* A */ CHAR_LOWERCASE_A: 'a', /* a */ CHAR_UPPERCASE_Z: 'Z', /* Z */ CHAR_LOWERCASE_Z: 'z', /* z */ CHAR_LEFT_PARENTHESES: '(', /* ( */ CHAR_RIGHT_PARENTHESES: ')', /* ) */ CHAR_ASTERISK: '*', /* * */ // Non-alphabetic chars. CHAR_AMPERSAND: '&', /* & */ CHAR_AT: '@', /* @ */ CHAR_BACKSLASH: '\\', /* \ */ CHAR_BACKTICK: '`', /* ` */ CHAR_CARRIAGE_RETURN: '\r', /* \r */ CHAR_CIRCUMFLEX_ACCENT: '^', /* ^ */ CHAR_COLON: ':', /* : */ CHAR_COMMA: ',', /* , */ CHAR_DOLLAR: '$', /* . */ CHAR_DOT: '.', /* . */ CHAR_DOUBLE_QUOTE: '"', /* " */ CHAR_EQUAL: '=', /* = */ CHAR_EXCLAMATION_MARK: '!', /* ! */ CHAR_FORM_FEED: '\f', /* \f */ CHAR_FORWARD_SLASH: '/', /* / */ CHAR_HASH: '#', /* # */ CHAR_HYPHEN_MINUS: '-', /* - */ CHAR_LEFT_ANGLE_BRACKET: '<', /* < */ CHAR_LEFT_CURLY_BRACE: '{', /* { */ CHAR_LEFT_SQUARE_BRACKET: '[', /* [ */ CHAR_LINE_FEED: '\n', /* \n */ CHAR_NO_BREAK_SPACE: '\u00A0', /* \u00A0 */ CHAR_PERCENT: '%', /* % */ CHAR_PLUS: '+', /* + */ CHAR_QUESTION_MARK: '?', /* ? */ CHAR_RIGHT_ANGLE_BRACKET: '>', /* > */ CHAR_RIGHT_CURLY_BRACE: '}', /* } */ CHAR_RIGHT_SQUARE_BRACKET: ']', /* ] */ CHAR_SEMICOLON: ';', /* ; */ CHAR_SINGLE_QUOTE: '\'', /* ' */ CHAR_SPACE: ' ', /* */ CHAR_TAB: '\t', /* \t */ CHAR_UNDERSCORE: '_', /* _ */ CHAR_VERTICAL_LINE: '|', /* | */ CHAR_ZERO_WIDTH_NOBREAK_SPACE: '\uFEFF' /* \uFEFF */ }; const stringify$2 = stringify$5; /** * Constants */ const { MAX_LENGTH: MAX_LENGTH$1, CHAR_BACKSLASH, /* \ */ CHAR_BACKTICK, /* ` */ CHAR_COMMA: CHAR_COMMA$1, /* , */ CHAR_DOT: CHAR_DOT$1, /* . */ CHAR_LEFT_PARENTHESES: CHAR_LEFT_PARENTHESES$1, /* ( */ CHAR_RIGHT_PARENTHESES: CHAR_RIGHT_PARENTHESES$1, /* ) */ CHAR_LEFT_CURLY_BRACE: CHAR_LEFT_CURLY_BRACE$1, /* { */ CHAR_RIGHT_CURLY_BRACE: CHAR_RIGHT_CURLY_BRACE$1, /* } */ CHAR_LEFT_SQUARE_BRACKET: CHAR_LEFT_SQUARE_BRACKET$1, /* [ */ CHAR_RIGHT_SQUARE_BRACKET: CHAR_RIGHT_SQUARE_BRACKET$1, /* ] */ CHAR_DOUBLE_QUOTE, /* " */ CHAR_SINGLE_QUOTE, /* ' */ CHAR_NO_BREAK_SPACE, CHAR_ZERO_WIDTH_NOBREAK_SPACE } = constants$4; /** * parse */ const parse$5 = (input, options = {}) => { if (typeof input !== 'string') { throw new TypeError('Expected a string'); } let opts = options || {}; let max = typeof opts.maxLength === 'number' ? Math.min(MAX_LENGTH$1, opts.maxLength) : MAX_LENGTH$1; if (input.length > max) { throw new SyntaxError(`Input length (${input.length}), exceeds max characters (${max})`); } let ast = { type: 'root', input, nodes: [] }; let stack = [ast]; let block = ast; let prev = ast; let brackets = 0; let length = input.length; let index = 0; let depth = 0; let value; /** * Helpers */ const advance = () => input[index++]; const push = node => { if (node.type === 'text' && prev.type === 'dot') { prev.type = 'text'; } if (prev && prev.type === 'text' && node.type === 'text') { prev.value += node.value; return; } block.nodes.push(node); node.parent = block; node.prev = prev; prev = node; return node; }; push({ type: 'bos' }); while (index < length) { block = stack[stack.length - 1]; value = advance(); /** * Invalid chars */ if (value === CHAR_ZERO_WIDTH_NOBREAK_SPACE || value === CHAR_NO_BREAK_SPACE) { continue; } /** * Escaped chars */ if (value === CHAR_BACKSLASH) { push({ type: 'text', value: (options.keepEscaping ? value : '') + advance() }); continue; } /** * Right square bracket (literal): ']' */ if (value === CHAR_RIGHT_SQUARE_BRACKET$1) { push({ type: 'text', value: '\\' + value }); continue; } /** * Left square bracket: '[' */ if (value === CHAR_LEFT_SQUARE_BRACKET$1) { brackets++; let next; while (index < length && (next = advance())) { value += next; if (next === CHAR_LEFT_SQUARE_BRACKET$1) { brackets++; continue; } if (next === CHAR_BACKSLASH) { value += advance(); continue; } if (next === CHAR_RIGHT_SQUARE_BRACKET$1) { brackets--; if (brackets === 0) { break; } } } push({ type: 'text', value }); continue; } /** * Parentheses */ if (value === CHAR_LEFT_PARENTHESES$1) { block = push({ type: 'paren', nodes: [] }); stack.push(block); push({ type: 'text', value }); continue; } if (value === CHAR_RIGHT_PARENTHESES$1) { if (block.type !== 'paren') { push({ type: 'text', value }); continue; } block = stack.pop(); push({ type: 'text', value }); block = stack[stack.length - 1]; continue; } /** * Quotes: '|"|` */ if (value === CHAR_DOUBLE_QUOTE || value === CHAR_SINGLE_QUOTE || value === CHAR_BACKTICK) { let open = value; let next; if (options.keepQuotes !== true) { value = ''; } while (index < length && (next = advance())) { if (next === CHAR_BACKSLASH) { value += next + advance(); continue; } if (next === open) { if (options.keepQuotes === true) value += next; break; } value += next; } push({ type: 'text', value }); continue; } /** * Left curly brace: '{' */ if (value === CHAR_LEFT_CURLY_BRACE$1) { depth++; let dollar = prev.value && prev.value.slice(-1) === '$' || block.dollar === true; let brace = { type: 'brace', open: true, close: false, dollar, depth, commas: 0, ranges: 0, nodes: [] }; block = push(brace); stack.push(block); push({ type: 'open', value }); continue; } /** * Right curly brace: '}' */ if (value === CHAR_RIGHT_CURLY_BRACE$1) { if (block.type !== 'brace') { push({ type: 'text', value }); continue; } let type = 'close'; block = stack.pop(); block.close = true; push({ type, value }); depth--; block = stack[stack.length - 1]; continue; } /** * Comma: ',' */ if (value === CHAR_COMMA$1 && depth > 0) { if (block.ranges > 0) { block.ranges = 0; let open = block.nodes.shift(); block.nodes = [open, { type: 'text', value: stringify$2(block) }]; } push({ type: 'comma', value }); block.commas++; continue; } /** * Dot: '.' */ if (value === CHAR_DOT$1 && depth > 0 && block.commas === 0) { let siblings = block.nodes; if (depth === 0 || siblings.length === 0) { push({ type: 'text', value }); continue; } if (prev.type === 'dot') { block.range = []; prev.value += value; prev.type = 'range'; if (block.nodes.length !== 3 && block.nodes.length !== 5) { block.invalid = true; block.ranges = 0; prev.type = 'text'; continue; } block.ranges++; block.args = []; continue; } if (prev.type === 'range') { siblings.pop(); let before = siblings[siblings.length - 1]; before.value += prev.value + value; prev = before; block.ranges--; continue; } push({ type: 'dot', value }); continue; } /** * Text */ push({ type: 'text', value }); } // Mark imbalanced braces and brackets as invalid do { block = stack.pop(); if (block.type !== 'root') { block.nodes.forEach(node => { if (!node.nodes) { if (node.type === 'open') node.isOpen = true; if (node.type === 'close') node.isClose = true; if (!node.nodes) node.type = 'text'; node.invalid = true; } }); // get the location of the block on parent.nodes (block's siblings) let parent = stack[stack.length - 1]; let index = parent.nodes.indexOf(block); // replace the (invalid) block with it's nodes parent.nodes.splice(index, 1, ...block.nodes); } } while (stack.length > 0); push({ type: 'eos' }); return ast; }; var parse_1$2 = parse$5; const stringify$1 = stringify$5; const compile = compile_1; const expand = expand_1; const parse$4 = parse_1$2; /** * Expand the given pattern or create a regex-compatible string. * * ```js * const braces = require('braces'); * console.log(braces('{a,b,c}', { compile: true })); //=> ['(a|b|c)'] * console.log(braces('{a,b,c}')); //=> ['a', 'b', 'c'] * ``` * @param {String} `str` * @param {Object} `options` * @return {String} * @api public */ const braces$1 = (input, options = {}) => { let output = []; if (Array.isArray(input)) { for (let pattern of input) { let result = braces$1.create(pattern, options); if (Array.isArray(result)) { output.push(...result); } else { output.push(result); } } } else { output = [].concat(braces$1.create(input, options)); } if (options && options.expand === true && options.nodupes === true) { output = [...new Set(output)]; } return output; }; /** * Parse the given `str` with the given `options`. * * ```js * // braces.parse(pattern, [, options]); * const ast = braces.parse('a/{b,c}/d'); * console.log(ast); * ``` * @param {String} pattern Brace pattern to parse * @param {Object} options * @return {Object} Returns an AST * @api public */ braces$1.parse = (input, options = {}) => parse$4(input, options); /** * Creates a braces string from an AST, or an AST node. * * ```js * const braces = require('braces'); * let ast = braces.parse('foo/{a,b}/bar'); * console.log(stringify(ast.nodes[2])); //=> '{a,b}' * ``` * @param {String} `input` Brace pattern or AST. * @param {Object} `options` * @return {Array} Returns an array of expanded values. * @api public */ braces$1.stringify = (input, options = {}) => { if (typeof input === 'string') { return stringify$1(braces$1.parse(input, options), options); } return stringify$1(input, options); }; /** * Compiles a brace pattern into a regex-compatible, optimized string. * This method is called by the main [braces](#braces) function by default. * * ```js * const braces = require('braces'); * console.log(braces.compile('a/{b,c}/d')); * //=> ['a/(b|c)/d'] * ``` * @param {String} `input` Brace pattern or AST. * @param {Object} `options` * @return {Array} Returns an array of expanded values. * @api public */ braces$1.compile = (input, options = {}) => { if (typeof input === 'string') { input = braces$1.parse(input, options); } return compile(input, options); }; /** * Expands a brace pattern into an array. This method is called by the * main [braces](#braces) function when `options.expand` is true. Before * using this method it's recommended that you read the [performance notes](#performance)) * and advantages of using [.compile](#compile) instead. * * ```js * const braces = require('braces'); * console.log(braces.expand('a/{b,c}/d')); * //=> ['a/b/d', 'a/c/d']; * ``` * @param {String} `pattern` Brace pattern * @param {Object} `options` * @return {Array} Returns an array of expanded values. * @api public */ braces$1.expand = (input, options = {}) => { if (typeof input === 'string') { input = braces$1.parse(input, options); } let result = expand(input, options); // filter out empty strings if specified if (options.noempty === true) { result = result.filter(Boolean); } // filter out duplicates if specified if (options.nodupes === true) { result = [...new Set(result)]; } return result; }; /** * Processes a brace pattern and returns either an expanded array * (if `options.expand` is true), a highly optimized regex-compatible string. * This method is called by the main [braces](#braces) function. * * ```js * const braces = require('braces'); * console.log(braces.create('user-{200..300}/project-{a,b,c}-{1..10}')) * //=> 'user-(20[0-9]|2[1-9][0-9]|300)/project-(a|b|c)-([1-9]|10)' * ``` * @param {String} `pattern` Brace pattern * @param {Object} `options` * @return {Array} Returns an array of expanded values. * @api public */ braces$1.create = (input, options = {}) => { if (input === '' || input.length < 3) { return [input]; } return options.expand !== true ? braces$1.compile(input, options) : braces$1.expand(input, options); }; /** * Expose "braces" */ var braces_1 = braces$1; var utils$m = {}; const path$a = require$$0__default$2["default"]; const WIN_SLASH = '\\\\/'; const WIN_NO_SLASH = `[^${WIN_SLASH}]`; /** * Posix glob regex */ const DOT_LITERAL = '\\.'; const PLUS_LITERAL = '\\+'; const QMARK_LITERAL = '\\?'; const SLASH_LITERAL = '\\/'; const ONE_CHAR = '(?=.)'; const QMARK = '[^/]'; const END_ANCHOR = `(?:${SLASH_LITERAL}|$)`; const START_ANCHOR = `(?:^|${SLASH_LITERAL})`; const DOTS_SLASH = `${DOT_LITERAL}{1,2}${END_ANCHOR}`; const NO_DOT = `(?!${DOT_LITERAL})`; const NO_DOTS = `(?!${START_ANCHOR}${DOTS_SLASH})`; const NO_DOT_SLASH = `(?!${DOT_LITERAL}{0,1}${END_ANCHOR})`; const NO_DOTS_SLASH = `(?!${DOTS_SLASH})`; const QMARK_NO_DOT = `[^.${SLASH_LITERAL}]`; const STAR = `${QMARK}*?`; const POSIX_CHARS = { DOT_LITERAL, PLUS_LITERAL, QMARK_LITERAL, SLASH_LITERAL, ONE_CHAR, QMARK, END_ANCHOR, DOTS_SLASH, NO_DOT, NO_DOTS, NO_DOT_SLASH, NO_DOTS_SLASH, QMARK_NO_DOT, STAR, START_ANCHOR }; /** * Windows glob regex */ const WINDOWS_CHARS = Object.assign(Object.assign({}, POSIX_CHARS), {}, { SLASH_LITERAL: `[${WIN_SLASH}]`, QMARK: WIN_NO_SLASH, STAR: `${WIN_NO_SLASH}*?`, DOTS_SLASH: `${DOT_LITERAL}{1,2}(?:[${WIN_SLASH}]|$)`, NO_DOT: `(?!${DOT_LITERAL})`, NO_DOTS: `(?!(?:^|[${WIN_SLASH}])${DOT_LITERAL}{1,2}(?:[${WIN_SLASH}]|$))`, NO_DOT_SLASH: `(?!${DOT_LITERAL}{0,1}(?:[${WIN_SLASH}]|$))`, NO_DOTS_SLASH: `(?!${DOT_LITERAL}{1,2}(?:[${WIN_SLASH}]|$))`, QMARK_NO_DOT: `[^.${WIN_SLASH}]`, START_ANCHOR: `(?:^|[${WIN_SLASH}])`, END_ANCHOR: `(?:[${WIN_SLASH}]|$)` }); /** * POSIX Bracket Regex */ const POSIX_REGEX_SOURCE$1 = { alnum: 'a-zA-Z0-9', alpha: 'a-zA-Z', ascii: '\\x00-\\x7F', blank: ' \\t', cntrl: '\\x00-\\x1F\\x7F', digit: '0-9', graph: '\\x21-\\x7E', lower: 'a-z', print: '\\x20-\\x7E ', punct: '\\-!"#$%&\'()\\*+,./:;<=>?@[\\]^_`{|}~', space: ' \\t\\r\\n\\v\\f', upper: 'A-Z', word: 'A-Za-z0-9_', xdigit: 'A-Fa-f0-9' }; var constants$3 = { MAX_LENGTH: 1024 * 64, POSIX_REGEX_SOURCE: POSIX_REGEX_SOURCE$1, // regular expressions REGEX_BACKSLASH: /\\(?![*+?^${}(|)[\]])/g, REGEX_NON_SPECIAL_CHARS: /^[^@![\].,$*+?^{}()|\\/]+/, REGEX_SPECIAL_CHARS: /[-*+?.^${}(|)[\]]/, REGEX_SPECIAL_CHARS_BACKREF: /(\\?)((\W)(\3*))/g, REGEX_SPECIAL_CHARS_GLOBAL: /([-*+?.^${}(|)[\]])/g, REGEX_REMOVE_BACKSLASH: /(?:\[.*?[^\\]\]|\\(?=.))/g, // Replace globs with equivalent patterns to reduce parsing time. REPLACEMENTS: { '***': '*', '**/**': '**', '**/**/**': '**' }, // Digits CHAR_0: 48, /* 0 */ CHAR_9: 57, /* 9 */ // Alphabet chars. CHAR_UPPERCASE_A: 65, /* A */ CHAR_LOWERCASE_A: 97, /* a */ CHAR_UPPERCASE_Z: 90, /* Z */ CHAR_LOWERCASE_Z: 122, /* z */ CHAR_LEFT_PARENTHESES: 40, /* ( */ CHAR_RIGHT_PARENTHESES: 41, /* ) */ CHAR_ASTERISK: 42, /* * */ // Non-alphabetic chars. CHAR_AMPERSAND: 38, /* & */ CHAR_AT: 64, /* @ */ CHAR_BACKWARD_SLASH: 92, /* \ */ CHAR_CARRIAGE_RETURN: 13, /* \r */ CHAR_CIRCUMFLEX_ACCENT: 94, /* ^ */ CHAR_COLON: 58, /* : */ CHAR_COMMA: 44, /* , */ CHAR_DOT: 46, /* . */ CHAR_DOUBLE_QUOTE: 34, /* " */ CHAR_EQUAL: 61, /* = */ CHAR_EXCLAMATION_MARK: 33, /* ! */ CHAR_FORM_FEED: 12, /* \f */ CHAR_FORWARD_SLASH: 47, /* / */ CHAR_GRAVE_ACCENT: 96, /* ` */ CHAR_HASH: 35, /* # */ CHAR_HYPHEN_MINUS: 45, /* - */ CHAR_LEFT_ANGLE_BRACKET: 60, /* < */ CHAR_LEFT_CURLY_BRACE: 123, /* { */ CHAR_LEFT_SQUARE_BRACKET: 91, /* [ */ CHAR_LINE_FEED: 10, /* \n */ CHAR_NO_BREAK_SPACE: 160, /* \u00A0 */ CHAR_PERCENT: 37, /* % */ CHAR_PLUS: 43, /* + */ CHAR_QUESTION_MARK: 63, /* ? */ CHAR_RIGHT_ANGLE_BRACKET: 62, /* > */ CHAR_RIGHT_CURLY_BRACE: 125, /* } */ CHAR_RIGHT_SQUARE_BRACKET: 93, /* ] */ CHAR_SEMICOLON: 59, /* ; */ CHAR_SINGLE_QUOTE: 39, /* ' */ CHAR_SPACE: 32, /* */ CHAR_TAB: 9, /* \t */ CHAR_UNDERSCORE: 95, /* _ */ CHAR_VERTICAL_LINE: 124, /* | */ CHAR_ZERO_WIDTH_NOBREAK_SPACE: 65279, /* \uFEFF */ SEP: path$a.sep, /** * Create EXTGLOB_CHARS */ extglobChars(chars) { return { '!': { type: 'negate', open: '(?:(?!(?:', close: `))${chars.STAR})` }, '?': { type: 'qmark', open: '(?:', close: ')?' }, '+': { type: 'plus', open: '(?:', close: ')+' }, '*': { type: 'star', open: '(?:', close: ')*' }, '@': { type: 'at', open: '(?:', close: ')' } }; }, /** * Create GLOB_CHARS */ globChars(win32) { return win32 === true ? WINDOWS_CHARS : POSIX_CHARS; } }; (function (exports) { const path = require$$0__default$2["default"]; const win32 = process.platform === 'win32'; const { REGEX_BACKSLASH, REGEX_REMOVE_BACKSLASH, REGEX_SPECIAL_CHARS, REGEX_SPECIAL_CHARS_GLOBAL } = constants$3; exports.isObject = val => val !== null && typeof val === 'object' && !Array.isArray(val); exports.hasRegexChars = str => REGEX_SPECIAL_CHARS.test(str); exports.isRegexChar = str => str.length === 1 && exports.hasRegexChars(str); exports.escapeRegex = str => str.replace(REGEX_SPECIAL_CHARS_GLOBAL, '\\$1'); exports.toPosixSlashes = str => str.replace(REGEX_BACKSLASH, '/'); exports.removeBackslashes = str => { return str.replace(REGEX_REMOVE_BACKSLASH, match => { return match === '\\' ? '' : match; }); }; exports.supportsLookbehinds = () => { const segs = process.version.slice(1).split('.').map(Number); if (segs.length === 3 && segs[0] >= 9 || segs[0] === 8 && segs[1] >= 10) { return true; } return false; }; exports.isWindows = options => { if (options && typeof options.windows === 'boolean') { return options.windows; } return win32 === true || path.sep === '\\'; }; exports.escapeLast = (input, char, lastIdx) => { const idx = input.lastIndexOf(char, lastIdx); if (idx === -1) return input; if (input[idx - 1] === '\\') return exports.escapeLast(input, char, idx - 1); return `${input.slice(0, idx)}\\${input.slice(idx)}`; }; exports.removePrefix = (input, state = {}) => { let output = input; if (output.startsWith('./')) { output = output.slice(2); state.prefix = './'; } return output; }; exports.wrapOutput = (input, state = {}, options = {}) => { const prepend = options.contains ? '' : '^'; const append = options.contains ? '' : '$'; let output = `${prepend}(?:${input})${append}`; if (state.negated === true) { output = `(?:^(?!${output}).*$)`; } return output; }; })(utils$m); const utils$l = utils$m; const { CHAR_ASTERISK, /* * */ CHAR_AT, /* @ */ CHAR_BACKWARD_SLASH, /* \ */ CHAR_COMMA, /* , */ CHAR_DOT, /* . */ CHAR_EXCLAMATION_MARK, /* ! */ CHAR_FORWARD_SLASH, /* / */ CHAR_LEFT_CURLY_BRACE, /* { */ CHAR_LEFT_PARENTHESES, /* ( */ CHAR_LEFT_SQUARE_BRACKET, /* [ */ CHAR_PLUS, /* + */ CHAR_QUESTION_MARK, /* ? */ CHAR_RIGHT_CURLY_BRACE, /* } */ CHAR_RIGHT_PARENTHESES, /* ) */ CHAR_RIGHT_SQUARE_BRACKET /* ] */ } = constants$3; const isPathSeparator = code => { return code === CHAR_FORWARD_SLASH || code === CHAR_BACKWARD_SLASH; }; const depth = token => { if (token.isPrefix !== true) { token.depth = token.isGlobstar ? Infinity : 1; } }; /** * Quickly scans a glob pattern and returns an object with a handful of * useful properties, like `isGlob`, `path` (the leading non-glob, if it exists), * `glob` (the actual pattern), `negated` (true if the path starts with `!` but not * with `!(`) and `negatedExtglob` (true if the path starts with `!(`). * * ```js * const pm = require('picomatch'); * console.log(pm.scan('foo/bar/*.js')); * { isGlob: true, input: 'foo/bar/*.js', base: 'foo/bar', glob: '*.js' } * ``` * @param {String} `str` * @param {Object} `options` * @return {Object} Returns an object with tokens and regex source string. * @api public */ const scan$1 = (input, options) => { const opts = options || {}; const length = input.length - 1; const scanToEnd = opts.parts === true || opts.scanToEnd === true; const slashes = []; const tokens = []; const parts = []; let str = input; let index = -1; let start = 0; let lastIndex = 0; let isBrace = false; let isBracket = false; let isGlob = false; let isExtglob = false; let isGlobstar = false; let braceEscaped = false; let backslashes = false; let negated = false; let negatedExtglob = false; let finished = false; let braces = 0; let prev; let code; let token = { value: '', depth: 0, isGlob: false }; const eos = () => index >= length; const peek = () => str.charCodeAt(index + 1); const advance = () => { prev = code; return str.charCodeAt(++index); }; while (index < length) { code = advance(); let next; if (code === CHAR_BACKWARD_SLASH) { backslashes = token.backslashes = true; code = advance(); if (code === CHAR_LEFT_CURLY_BRACE) { braceEscaped = true; } continue; } if (braceEscaped === true || code === CHAR_LEFT_CURLY_BRACE) { braces++; while (eos() !== true && (code = advance())) { if (code === CHAR_BACKWARD_SLASH) { backslashes = token.backslashes = true; advance(); continue; } if (code === CHAR_LEFT_CURLY_BRACE) { braces++; continue; } if (braceEscaped !== true && code === CHAR_DOT && (code = advance()) === CHAR_DOT) { isBrace = token.isBrace = true; isGlob = token.isGlob = true; finished = true; if (scanToEnd === true) { continue; } break; } if (braceEscaped !== true && code === CHAR_COMMA) { isBrace = token.isBrace = true; isGlob = token.isGlob = true; finished = true; if (scanToEnd === true) { continue; } break; } if (code === CHAR_RIGHT_CURLY_BRACE) { braces--; if (braces === 0) { braceEscaped = false; isBrace = token.isBrace = true; finished = true; break; } } } if (scanToEnd === true) { continue; } break; } if (code === CHAR_FORWARD_SLASH) { slashes.push(index); tokens.push(token); token = { value: '', depth: 0, isGlob: false }; if (finished === true) continue; if (prev === CHAR_DOT && index === start + 1) { start += 2; continue; } lastIndex = index + 1; continue; } if (opts.noext !== true) { const isExtglobChar = code === CHAR_PLUS || code === CHAR_AT || code === CHAR_ASTERISK || code === CHAR_QUESTION_MARK || code === CHAR_EXCLAMATION_MARK; if (isExtglobChar === true && peek() === CHAR_LEFT_PARENTHESES) { isGlob = token.isGlob = true; isExtglob = token.isExtglob = true; finished = true; if (code === CHAR_EXCLAMATION_MARK && index === start) { negatedExtglob = true; } if (scanToEnd === true) { while (eos() !== true && (code = advance())) { if (code === CHAR_BACKWARD_SLASH) { backslashes = token.backslashes = true; code = advance(); continue; } if (code === CHAR_RIGHT_PARENTHESES) { isGlob = token.isGlob = true; finished = true; break; } } continue; } break; } } if (code === CHAR_ASTERISK) { if (prev === CHAR_ASTERISK) isGlobstar = token.isGlobstar = true; isGlob = token.isGlob = true; finished = true; if (scanToEnd === true) { continue; } break; } if (code === CHAR_QUESTION_MARK) { isGlob = token.isGlob = true; finished = true; if (scanToEnd === true) { continue; } break; } if (code === CHAR_LEFT_SQUARE_BRACKET) { while (eos() !== true && (next = advance())) { if (next === CHAR_BACKWARD_SLASH) { backslashes = token.backslashes = true; advance(); continue; } if (next === CHAR_RIGHT_SQUARE_BRACKET) { isBracket = token.isBracket = true; isGlob = token.isGlob = true; finished = true; break; } } if (scanToEnd === true) { continue; } break; } if (opts.nonegate !== true && code === CHAR_EXCLAMATION_MARK && index === start) { negated = token.negated = true; start++; continue; } if (opts.noparen !== true && code === CHAR_LEFT_PARENTHESES) { isGlob = token.isGlob = true; if (scanToEnd === true) { while (eos() !== true && (code = advance())) { if (code === CHAR_LEFT_PARENTHESES) { backslashes = token.backslashes = true; code = advance(); continue; } if (code === CHAR_RIGHT_PARENTHESES) { finished = true; break; } } continue; } break; } if (isGlob === true) { finished = true; if (scanToEnd === true) { continue; } break; } } if (opts.noext === true) { isExtglob = false; isGlob = false; } let base = str; let prefix = ''; let glob = ''; if (start > 0) { prefix = str.slice(0, start); str = str.slice(start); lastIndex -= start; } if (base && isGlob === true && lastIndex > 0) { base = str.slice(0, lastIndex); glob = str.slice(lastIndex); } else if (isGlob === true) { base = ''; glob = str; } else { base = str; } if (base && base !== '' && base !== '/' && base !== str) { if (isPathSeparator(base.charCodeAt(base.length - 1))) { base = base.slice(0, -1); } } if (opts.unescape === true) { if (glob) glob = utils$l.removeBackslashes(glob); if (base && backslashes === true) { base = utils$l.removeBackslashes(base); } } const state = { prefix, input, start, base, glob, isBrace, isBracket, isGlob, isExtglob, isGlobstar, negated, negatedExtglob }; if (opts.tokens === true) { state.maxDepth = 0; if (!isPathSeparator(code)) { tokens.push(token); } state.tokens = tokens; } if (opts.parts === true || opts.tokens === true) { let prevIndex; for (let idx = 0; idx < slashes.length; idx++) { const n = prevIndex ? prevIndex + 1 : start; const i = slashes[idx]; const value = input.slice(n, i); if (opts.tokens) { if (idx === 0 && start !== 0) { tokens[idx].isPrefix = true; tokens[idx].value = prefix; } else { tokens[idx].value = value; } depth(tokens[idx]); state.maxDepth += tokens[idx].depth; } if (idx !== 0 || value !== '') { parts.push(value); } prevIndex = i; } if (prevIndex && prevIndex + 1 < input.length) { const value = input.slice(prevIndex + 1); parts.push(value); if (opts.tokens) { tokens[tokens.length - 1].value = value; depth(tokens[tokens.length - 1]); state.maxDepth += tokens[tokens.length - 1].depth; } } state.slashes = slashes; state.parts = parts; } return state; }; var scan_1 = scan$1; const constants$2 = constants$3; const utils$k = utils$m; /** * Constants */ const { MAX_LENGTH, POSIX_REGEX_SOURCE, REGEX_NON_SPECIAL_CHARS, REGEX_SPECIAL_CHARS_BACKREF, REPLACEMENTS } = constants$2; /** * Helpers */ const expandRange = (args, options) => { if (typeof options.expandRange === 'function') { return options.expandRange(...args, options); } args.sort(); const value = `[${args.join('-')}]`; try { /* eslint-disable-next-line no-new */ new RegExp(value); } catch (ex) { return args.map(v => utils$k.escapeRegex(v)).join('..'); } return value; }; /** * Create the message for a syntax error */ const syntaxError$1 = (type, char) => { return `Missing ${type}: "${char}" - use "\\\\${char}" to match literal characters`; }; /** * Parse the given input string. * @param {String} input * @param {Object} options * @return {Object} */ const parse$3 = (input, options) => { if (typeof input !== 'string') { throw new TypeError('Expected a string'); } input = REPLACEMENTS[input] || input; const opts = Object.assign({}, options); const max = typeof opts.maxLength === 'number' ? Math.min(MAX_LENGTH, opts.maxLength) : MAX_LENGTH; let len = input.length; if (len > max) { throw new SyntaxError(`Input length: ${len}, exceeds maximum allowed length: ${max}`); } const bos = { type: 'bos', value: '', output: opts.prepend || '' }; const tokens = [bos]; const capture = opts.capture ? '' : '?:'; const win32 = utils$k.isWindows(options); // create constants based on platform, for windows or posix const PLATFORM_CHARS = constants$2.globChars(win32); const EXTGLOB_CHARS = constants$2.extglobChars(PLATFORM_CHARS); const { DOT_LITERAL, PLUS_LITERAL, SLASH_LITERAL, ONE_CHAR, DOTS_SLASH, NO_DOT, NO_DOT_SLASH, NO_DOTS_SLASH, QMARK, QMARK_NO_DOT, STAR, START_ANCHOR } = PLATFORM_CHARS; const globstar = opts => { return `(${capture}(?:(?!${START_ANCHOR}${opts.dot ? DOTS_SLASH : DOT_LITERAL}).)*?)`; }; const nodot = opts.dot ? '' : NO_DOT; const qmarkNoDot = opts.dot ? QMARK : QMARK_NO_DOT; let star = opts.bash === true ? globstar(opts) : STAR; if (opts.capture) { star = `(${star})`; } // minimatch options support if (typeof opts.noext === 'boolean') { opts.noextglob = opts.noext; } const state = { input, index: -1, start: 0, dot: opts.dot === true, consumed: '', output: '', prefix: '', backtrack: false, negated: false, brackets: 0, braces: 0, parens: 0, quotes: 0, globstar: false, tokens }; input = utils$k.removePrefix(input, state); len = input.length; const extglobs = []; const braces = []; const stack = []; let prev = bos; let value; /** * Tokenizing helpers */ const eos = () => state.index === len - 1; const peek = state.peek = (n = 1) => input[state.index + n]; const advance = state.advance = () => input[++state.index] || ''; const remaining = () => input.slice(state.index + 1); const consume = (value = '', num = 0) => { state.consumed += value; state.index += num; }; const append = token => { state.output += token.output != null ? token.output : token.value; consume(token.value); }; const negate = () => { let count = 1; while (peek() === '!' && (peek(2) !== '(' || peek(3) === '?')) { advance(); state.start++; count++; } if (count % 2 === 0) { return false; } state.negated = true; state.start++; return true; }; const increment = type => { state[type]++; stack.push(type); }; const decrement = type => { state[type]--; stack.pop(); }; /** * Push tokens onto the tokens array. This helper speeds up * tokenizing by 1) helping us avoid backtracking as much as possible, * and 2) helping us avoid creating extra tokens when consecutive * characters are plain text. This improves performance and simplifies * lookbehinds. */ const push = tok => { if (prev.type === 'globstar') { const isBrace = state.braces > 0 && (tok.type === 'comma' || tok.type === 'brace'); const isExtglob = tok.extglob === true || extglobs.length && (tok.type === 'pipe' || tok.type === 'paren'); if (tok.type !== 'slash' && tok.type !== 'paren' && !isBrace && !isExtglob) { state.output = state.output.slice(0, -prev.output.length); prev.type = 'star'; prev.value = '*'; prev.output = star; state.output += prev.output; } } if (extglobs.length && tok.type !== 'paren') { extglobs[extglobs.length - 1].inner += tok.value; } if (tok.value || tok.output) append(tok); if (prev && prev.type === 'text' && tok.type === 'text') { prev.value += tok.value; prev.output = (prev.output || '') + tok.value; return; } tok.prev = prev; tokens.push(tok); prev = tok; }; const extglobOpen = (type, value) => { const token = Object.assign(Object.assign({}, EXTGLOB_CHARS[value]), {}, { conditions: 1, inner: '' }); token.prev = prev; token.parens = state.parens; token.output = state.output; const output = (opts.capture ? '(' : '') + token.open; increment('parens'); push({ type, value, output: state.output ? '' : ONE_CHAR }); push({ type: 'paren', extglob: true, value: advance(), output }); extglobs.push(token); }; const extglobClose = token => { let output = token.close + (opts.capture ? ')' : ''); let rest; if (token.type === 'negate') { let extglobStar = star; if (token.inner && token.inner.length > 1 && token.inner.includes('/')) { extglobStar = globstar(opts); } if (extglobStar !== star || eos() || /^\)+$/.test(remaining())) { output = token.close = `)$))${extglobStar}`; } if (token.inner.includes('*') && (rest = remaining()) && /^\.[^\\/.]+$/.test(rest)) { output = token.close = `)${rest})${extglobStar})`; } if (token.prev.type === 'bos') { state.negatedExtglob = true; } } push({ type: 'paren', extglob: true, value, output }); decrement('parens'); }; /** * Fast paths */ if (opts.fastpaths !== false && !/(^[*!]|[/()[\]{}"])/.test(input)) { let backslashes = false; let output = input.replace(REGEX_SPECIAL_CHARS_BACKREF, (m, esc, chars, first, rest, index) => { if (first === '\\') { backslashes = true; return m; } if (first === '?') { if (esc) { return esc + first + (rest ? QMARK.repeat(rest.length) : ''); } if (index === 0) { return qmarkNoDot + (rest ? QMARK.repeat(rest.length) : ''); } return QMARK.repeat(chars.length); } if (first === '.') { return DOT_LITERAL.repeat(chars.length); } if (first === '*') { if (esc) { return esc + first + (rest ? star : ''); } return star; } return esc ? m : `\\${m}`; }); if (backslashes === true) { if (opts.unescape === true) { output = output.replace(/\\/g, ''); } else { output = output.replace(/\\+/g, m => { return m.length % 2 === 0 ? '\\\\' : m ? '\\' : ''; }); } } if (output === input && opts.contains === true) { state.output = input; return state; } state.output = utils$k.wrapOutput(output, state, options); return state; } /** * Tokenize input until we reach end-of-string */ while (!eos()) { value = advance(); if (value === '\u0000') { continue; } /** * Escaped characters */ if (value === '\\') { const next = peek(); if (next === '/' && opts.bash !== true) { continue; } if (next === '.' || next === ';') { continue; } if (!next) { value += '\\'; push({ type: 'text', value }); continue; } // collapse slashes to reduce potential for exploits const match = /^\\+/.exec(remaining()); let slashes = 0; if (match && match[0].length > 2) { slashes = match[0].length; state.index += slashes; if (slashes % 2 !== 0) { value += '\\'; } } if (opts.unescape === true) { value = advance(); } else { value += advance(); } if (state.brackets === 0) { push({ type: 'text', value }); continue; } } /** * If we're inside a regex character class, continue * until we reach the closing bracket. */ if (state.brackets > 0 && (value !== ']' || prev.value === '[' || prev.value === '[^')) { if (opts.posix !== false && value === ':') { const inner = prev.value.slice(1); if (inner.includes('[')) { prev.posix = true; if (inner.includes(':')) { const idx = prev.value.lastIndexOf('['); const pre = prev.value.slice(0, idx); const rest = prev.value.slice(idx + 2); const posix = POSIX_REGEX_SOURCE[rest]; if (posix) { prev.value = pre + posix; state.backtrack = true; advance(); if (!bos.output && tokens.indexOf(prev) === 1) { bos.output = ONE_CHAR; } continue; } } } } if (value === '[' && peek() !== ':' || value === '-' && peek() === ']') { value = `\\${value}`; } if (value === ']' && (prev.value === '[' || prev.value === '[^')) { value = `\\${value}`; } if (opts.posix === true && value === '!' && prev.value === '[') { value = '^'; } prev.value += value; append({ value }); continue; } /** * If we're inside a quoted string, continue * until we reach the closing double quote. */ if (state.quotes === 1 && value !== '"') { value = utils$k.escapeRegex(value); prev.value += value; append({ value }); continue; } /** * Double quotes */ if (value === '"') { state.quotes = state.quotes === 1 ? 0 : 1; if (opts.keepQuotes === true) { push({ type: 'text', value }); } continue; } /** * Parentheses */ if (value === '(') { increment('parens'); push({ type: 'paren', value }); continue; } if (value === ')') { if (state.parens === 0 && opts.strictBrackets === true) { throw new SyntaxError(syntaxError$1('opening', '(')); } const extglob = extglobs[extglobs.length - 1]; if (extglob && state.parens === extglob.parens + 1) { extglobClose(extglobs.pop()); continue; } push({ type: 'paren', value, output: state.parens ? ')' : '\\)' }); decrement('parens'); continue; } /** * Square brackets */ if (value === '[') { if (opts.nobracket === true || !remaining().includes(']')) { if (opts.nobracket !== true && opts.strictBrackets === true) { throw new SyntaxError(syntaxError$1('closing', ']')); } value = `\\${value}`; } else { increment('brackets'); } push({ type: 'bracket', value }); continue; } if (value === ']') { if (opts.nobracket === true || prev && prev.type === 'bracket' && prev.value.length === 1) { push({ type: 'text', value, output: `\\${value}` }); continue; } if (state.brackets === 0) { if (opts.strictBrackets === true) { throw new SyntaxError(syntaxError$1('opening', '[')); } push({ type: 'text', value, output: `\\${value}` }); continue; } decrement('brackets'); const prevValue = prev.value.slice(1); if (prev.posix !== true && prevValue[0] === '^' && !prevValue.includes('/')) { value = `/${value}`; } prev.value += value; append({ value }); // when literal brackets are explicitly disabled // assume we should match with a regex character class if (opts.literalBrackets === false || utils$k.hasRegexChars(prevValue)) { continue; } const escaped = utils$k.escapeRegex(prev.value); state.output = state.output.slice(0, -prev.value.length); // when literal brackets are explicitly enabled // assume we should escape the brackets to match literal characters if (opts.literalBrackets === true) { state.output += escaped; prev.value = escaped; continue; } // when the user specifies nothing, try to match both prev.value = `(${capture}${escaped}|${prev.value})`; state.output += prev.value; continue; } /** * Braces */ if (value === '{' && opts.nobrace !== true) { increment('braces'); const open = { type: 'brace', value, output: '(', outputIndex: state.output.length, tokensIndex: state.tokens.length }; braces.push(open); push(open); continue; } if (value === '}') { const brace = braces[braces.length - 1]; if (opts.nobrace === true || !brace) { push({ type: 'text', value, output: value }); continue; } let output = ')'; if (brace.dots === true) { const arr = tokens.slice(); const range = []; for (let i = arr.length - 1; i >= 0; i--) { tokens.pop(); if (arr[i].type === 'brace') { break; } if (arr[i].type !== 'dots') { range.unshift(arr[i].value); } } output = expandRange(range, opts); state.backtrack = true; } if (brace.comma !== true && brace.dots !== true) { const out = state.output.slice(0, brace.outputIndex); const toks = state.tokens.slice(brace.tokensIndex); brace.value = brace.output = '\\{'; value = output = '\\}'; state.output = out; for (const t of toks) { state.output += t.output || t.value; } } push({ type: 'brace', value, output }); decrement('braces'); braces.pop(); continue; } /** * Pipes */ if (value === '|') { if (extglobs.length > 0) { extglobs[extglobs.length - 1].conditions++; } push({ type: 'text', value }); continue; } /** * Commas */ if (value === ',') { let output = value; const brace = braces[braces.length - 1]; if (brace && stack[stack.length - 1] === 'braces') { brace.comma = true; output = '|'; } push({ type: 'comma', value, output }); continue; } /** * Slashes */ if (value === '/') { // if the beginning of the glob is "./", advance the start // to the current index, and don't add the "./" characters // to the state. This greatly simplifies lookbehinds when // checking for BOS characters like "!" and "." (not "./") if (prev.type === 'dot' && state.index === state.start + 1) { state.start = state.index + 1; state.consumed = ''; state.output = ''; tokens.pop(); prev = bos; // reset "prev" to the first token continue; } push({ type: 'slash', value, output: SLASH_LITERAL }); continue; } /** * Dots */ if (value === '.') { if (state.braces > 0 && prev.type === 'dot') { if (prev.value === '.') prev.output = DOT_LITERAL; const brace = braces[braces.length - 1]; prev.type = 'dots'; prev.output += value; prev.value += value; brace.dots = true; continue; } if (state.braces + state.parens === 0 && prev.type !== 'bos' && prev.type !== 'slash') { push({ type: 'text', value, output: DOT_LITERAL }); continue; } push({ type: 'dot', value, output: DOT_LITERAL }); continue; } /** * Question marks */ if (value === '?') { const isGroup = prev && prev.value === '('; if (!isGroup && opts.noextglob !== true && peek() === '(' && peek(2) !== '?') { extglobOpen('qmark', value); continue; } if (prev && prev.type === 'paren') { const next = peek(); let output = value; if (next === '<' && !utils$k.supportsLookbehinds()) { throw new Error('Node.js v10 or higher is required for regex lookbehinds'); } if (prev.value === '(' && !/[!=<:]/.test(next) || next === '<' && !/<([!=]|\w+>)/.test(remaining())) { output = `\\${value}`; } push({ type: 'text', value, output }); continue; } if (opts.dot !== true && (prev.type === 'slash' || prev.type === 'bos')) { push({ type: 'qmark', value, output: QMARK_NO_DOT }); continue; } push({ type: 'qmark', value, output: QMARK }); continue; } /** * Exclamation */ if (value === '!') { if (opts.noextglob !== true && peek() === '(') { if (peek(2) !== '?' || !/[!=<:]/.test(peek(3))) { extglobOpen('negate', value); continue; } } if (opts.nonegate !== true && state.index === 0) { negate(); continue; } } /** * Plus */ if (value === '+') { if (opts.noextglob !== true && peek() === '(' && peek(2) !== '?') { extglobOpen('plus', value); continue; } if (prev && prev.value === '(' || opts.regex === false) { push({ type: 'plus', value, output: PLUS_LITERAL }); continue; } if (prev && (prev.type === 'bracket' || prev.type === 'paren' || prev.type === 'brace') || state.parens > 0) { push({ type: 'plus', value }); continue; } push({ type: 'plus', value: PLUS_LITERAL }); continue; } /** * Plain text */ if (value === '@') { if (opts.noextglob !== true && peek() === '(' && peek(2) !== '?') { push({ type: 'at', extglob: true, value, output: '' }); continue; } push({ type: 'text', value }); continue; } /** * Plain text */ if (value !== '*') { if (value === '$' || value === '^') { value = `\\${value}`; } const match = REGEX_NON_SPECIAL_CHARS.exec(remaining()); if (match) { value += match[0]; state.index += match[0].length; } push({ type: 'text', value }); continue; } /** * Stars */ if (prev && (prev.type === 'globstar' || prev.star === true)) { prev.type = 'star'; prev.star = true; prev.value += value; prev.output = star; state.backtrack = true; state.globstar = true; consume(value); continue; } let rest = remaining(); if (opts.noextglob !== true && /^\([^?]/.test(rest)) { extglobOpen('star', value); continue; } if (prev.type === 'star') { if (opts.noglobstar === true) { consume(value); continue; } const prior = prev.prev; const before = prior.prev; const isStart = prior.type === 'slash' || prior.type === 'bos'; const afterStar = before && (before.type === 'star' || before.type === 'globstar'); if (opts.bash === true && (!isStart || rest[0] && rest[0] !== '/')) { push({ type: 'star', value, output: '' }); continue; } const isBrace = state.braces > 0 && (prior.type === 'comma' || prior.type === 'brace'); const isExtglob = extglobs.length && (prior.type === 'pipe' || prior.type === 'paren'); if (!isStart && prior.type !== 'paren' && !isBrace && !isExtglob) { push({ type: 'star', value, output: '' }); continue; } // strip consecutive `/**/` while (rest.slice(0, 3) === '/**') { const after = input[state.index + 4]; if (after && after !== '/') { break; } rest = rest.slice(3); consume('/**', 3); } if (prior.type === 'bos' && eos()) { prev.type = 'globstar'; prev.value += value; prev.output = globstar(opts); state.output = prev.output; state.globstar = true; consume(value); continue; } if (prior.type === 'slash' && prior.prev.type !== 'bos' && !afterStar && eos()) { state.output = state.output.slice(0, -(prior.output + prev.output).length); prior.output = `(?:${prior.output}`; prev.type = 'globstar'; prev.output = globstar(opts) + (opts.strictSlashes ? ')' : '|$)'); prev.value += value; state.globstar = true; state.output += prior.output + prev.output; consume(value); continue; } if (prior.type === 'slash' && prior.prev.type !== 'bos' && rest[0] === '/') { const end = rest[1] !== void 0 ? '|$' : ''; state.output = state.output.slice(0, -(prior.output + prev.output).length); prior.output = `(?:${prior.output}`; prev.type = 'globstar'; prev.output = `${globstar(opts)}${SLASH_LITERAL}|${SLASH_LITERAL}${end})`; prev.value += value; state.output += prior.output + prev.output; state.globstar = true; consume(value + advance()); push({ type: 'slash', value: '/', output: '' }); continue; } if (prior.type === 'bos' && rest[0] === '/') { prev.type = 'globstar'; prev.value += value; prev.output = `(?:^|${SLASH_LITERAL}|${globstar(opts)}${SLASH_LITERAL})`; state.output = prev.output; state.globstar = true; consume(value + advance()); push({ type: 'slash', value: '/', output: '' }); continue; } // remove single star from output state.output = state.output.slice(0, -prev.output.length); // reset previous token to globstar prev.type = 'globstar'; prev.output = globstar(opts); prev.value += value; // reset output with globstar state.output += prev.output; state.globstar = true; consume(value); continue; } const token = { type: 'star', value, output: star }; if (opts.bash === true) { token.output = '.*?'; if (prev.type === 'bos' || prev.type === 'slash') { token.output = nodot + token.output; } push(token); continue; } if (prev && (prev.type === 'bracket' || prev.type === 'paren') && opts.regex === true) { token.output = value; push(token); continue; } if (state.index === state.start || prev.type === 'slash' || prev.type === 'dot') { if (prev.type === 'dot') { state.output += NO_DOT_SLASH; prev.output += NO_DOT_SLASH; } else if (opts.dot === true) { state.output += NO_DOTS_SLASH; prev.output += NO_DOTS_SLASH; } else { state.output += nodot; prev.output += nodot; } if (peek() !== '*') { state.output += ONE_CHAR; prev.output += ONE_CHAR; } } push(token); } while (state.brackets > 0) { if (opts.strictBrackets === true) throw new SyntaxError(syntaxError$1('closing', ']')); state.output = utils$k.escapeLast(state.output, '['); decrement('brackets'); } while (state.parens > 0) { if (opts.strictBrackets === true) throw new SyntaxError(syntaxError$1('closing', ')')); state.output = utils$k.escapeLast(state.output, '('); decrement('parens'); } while (state.braces > 0) { if (opts.strictBrackets === true) throw new SyntaxError(syntaxError$1('closing', '}')); state.output = utils$k.escapeLast(state.output, '{'); decrement('braces'); } if (opts.strictSlashes !== true && (prev.type === 'star' || prev.type === 'bracket')) { push({ type: 'maybe_slash', value: '', output: `${SLASH_LITERAL}?` }); } // rebuild the output if we had to backtrack at any point if (state.backtrack === true) { state.output = ''; for (const token of state.tokens) { state.output += token.output != null ? token.output : token.value; if (token.suffix) { state.output += token.suffix; } } } return state; }; /** * Fast paths for creating regular expressions for common glob patterns. * This can significantly speed up processing and has very little downside * impact when none of the fast paths match. */ parse$3.fastpaths = (input, options) => { const opts = Object.assign({}, options); const max = typeof opts.maxLength === 'number' ? Math.min(MAX_LENGTH, opts.maxLength) : MAX_LENGTH; const len = input.length; if (len > max) { throw new SyntaxError(`Input length: ${len}, exceeds maximum allowed length: ${max}`); } input = REPLACEMENTS[input] || input; const win32 = utils$k.isWindows(options); // create constants based on platform, for windows or posix const { DOT_LITERAL, SLASH_LITERAL, ONE_CHAR, DOTS_SLASH, NO_DOT, NO_DOTS, NO_DOTS_SLASH, STAR, START_ANCHOR } = constants$2.globChars(win32); const nodot = opts.dot ? NO_DOTS : NO_DOT; const slashDot = opts.dot ? NO_DOTS_SLASH : NO_DOT; const capture = opts.capture ? '' : '?:'; const state = { negated: false, prefix: '' }; let star = opts.bash === true ? '.*?' : STAR; if (opts.capture) { star = `(${star})`; } const globstar = opts => { if (opts.noglobstar === true) return star; return `(${capture}(?:(?!${START_ANCHOR}${opts.dot ? DOTS_SLASH : DOT_LITERAL}).)*?)`; }; const create = str => { switch (str) { case '*': return `${nodot}${ONE_CHAR}${star}`; case '.*': return `${DOT_LITERAL}${ONE_CHAR}${star}`; case '*.*': return `${nodot}${star}${DOT_LITERAL}${ONE_CHAR}${star}`; case '*/*': return `${nodot}${star}${SLASH_LITERAL}${ONE_CHAR}${slashDot}${star}`; case '**': return nodot + globstar(opts); case '**/*': return `(?:${nodot}${globstar(opts)}${SLASH_LITERAL})?${slashDot}${ONE_CHAR}${star}`; case '**/*.*': return `(?:${nodot}${globstar(opts)}${SLASH_LITERAL})?${slashDot}${star}${DOT_LITERAL}${ONE_CHAR}${star}`; case '**/.*': return `(?:${nodot}${globstar(opts)}${SLASH_LITERAL})?${DOT_LITERAL}${ONE_CHAR}${star}`; default: { const match = /^(.*?)\.(\w+)$/.exec(str); if (!match) return; const source = create(match[1]); if (!source) return; return source + DOT_LITERAL + match[2]; } } }; const output = utils$k.removePrefix(input, state); let source = create(output); if (source && opts.strictSlashes !== true) { source += `${SLASH_LITERAL}?`; } return source; }; var parse_1$1 = parse$3; const path$9 = require$$0__default$2["default"]; const scan = scan_1; const parse$2 = parse_1$1; const utils$j = utils$m; const constants$1 = constants$3; const isObject = val => val && typeof val === 'object' && !Array.isArray(val); /** * Creates a matcher function from one or more glob patterns. The * returned function takes a string to match as its first argument, * and returns true if the string is a match. The returned matcher * function also takes a boolean as the second argument that, when true, * returns an object with additional information. * * ```js * const picomatch = require('picomatch'); * // picomatch(glob[, options]); * * const isMatch = picomatch('*.!(*a)'); * console.log(isMatch('a.a')); //=> false * console.log(isMatch('a.b')); //=> true * ``` * @name picomatch * @param {String|Array} `globs` One or more glob patterns. * @param {Object=} `options` * @return {Function=} Returns a matcher function. * @api public */ const picomatch$2 = (glob, options, returnState = false) => { if (Array.isArray(glob)) { const fns = glob.map(input => picomatch$2(input, options, returnState)); const arrayMatcher = str => { for (const isMatch of fns) { const state = isMatch(str); if (state) return state; } return false; }; return arrayMatcher; } const isState = isObject(glob) && glob.tokens && glob.input; if (glob === '' || typeof glob !== 'string' && !isState) { throw new TypeError('Expected pattern to be a non-empty string'); } const opts = options || {}; const posix = utils$j.isWindows(options); const regex = isState ? picomatch$2.compileRe(glob, options) : picomatch$2.makeRe(glob, options, false, true); const state = regex.state; delete regex.state; let isIgnored = () => false; if (opts.ignore) { const ignoreOpts = Object.assign(Object.assign({}, options), {}, { ignore: null, onMatch: null, onResult: null }); isIgnored = picomatch$2(opts.ignore, ignoreOpts, returnState); } const matcher = (input, returnObject = false) => { const { isMatch, match, output } = picomatch$2.test(input, regex, options, { glob, posix }); const result = { glob, state, regex, posix, input, output, match, isMatch }; if (typeof opts.onResult === 'function') { opts.onResult(result); } if (isMatch === false) { result.isMatch = false; return returnObject ? result : false; } if (isIgnored(input)) { if (typeof opts.onIgnore === 'function') { opts.onIgnore(result); } result.isMatch = false; return returnObject ? result : false; } if (typeof opts.onMatch === 'function') { opts.onMatch(result); } return returnObject ? result : true; }; if (returnState) { matcher.state = state; } return matcher; }; /** * Test `input` with the given `regex`. This is used by the main * `picomatch()` function to test the input string. * * ```js * const picomatch = require('picomatch'); * // picomatch.test(input, regex[, options]); * * console.log(picomatch.test('foo/bar', /^(?:([^/]*?)\/([^/]*?))$/)); * // { isMatch: true, match: [ 'foo/', 'foo', 'bar' ], output: 'foo/bar' } * ``` * @param {String} `input` String to test. * @param {RegExp} `regex` * @return {Object} Returns an object with matching info. * @api public */ picomatch$2.test = (input, regex, options, { glob, posix } = {}) => { if (typeof input !== 'string') { throw new TypeError('Expected input to be a string'); } if (input === '') { return { isMatch: false, output: '' }; } const opts = options || {}; const format = opts.format || (posix ? utils$j.toPosixSlashes : null); let match = input === glob; let output = match && format ? format(input) : input; if (match === false) { output = format ? format(input) : input; match = output === glob; } if (match === false || opts.capture === true) { if (opts.matchBase === true || opts.basename === true) { match = picomatch$2.matchBase(input, regex, options, posix); } else { match = regex.exec(output); } } return { isMatch: Boolean(match), match, output }; }; /** * Match the basename of a filepath. * * ```js * const picomatch = require('picomatch'); * // picomatch.matchBase(input, glob[, options]); * console.log(picomatch.matchBase('foo/bar.js', '*.js'); // true * ``` * @param {String} `input` String to test. * @param {RegExp|String} `glob` Glob pattern or regex created by [.makeRe](#makeRe). * @return {Boolean} * @api public */ picomatch$2.matchBase = (input, glob, options, posix = utils$j.isWindows(options)) => { const regex = glob instanceof RegExp ? glob : picomatch$2.makeRe(glob, options); return regex.test(path$9.basename(input)); }; /** * Returns true if **any** of the given glob `patterns` match the specified `string`. * * ```js * const picomatch = require('picomatch'); * // picomatch.isMatch(string, patterns[, options]); * * console.log(picomatch.isMatch('a.a', ['b.*', '*.a'])); //=> true * console.log(picomatch.isMatch('a.a', 'b.*')); //=> false * ``` * @param {String|Array} str The string to test. * @param {String|Array} patterns One or more glob patterns to use for matching. * @param {Object} [options] See available [options](#options). * @return {Boolean} Returns true if any patterns match `str` * @api public */ picomatch$2.isMatch = (str, patterns, options) => picomatch$2(patterns, options)(str); /** * Parse a glob pattern to create the source string for a regular * expression. * * ```js * const picomatch = require('picomatch'); * const result = picomatch.parse(pattern[, options]); * ``` * @param {String} `pattern` * @param {Object} `options` * @return {Object} Returns an object with useful properties and output to be used as a regex source string. * @api public */ picomatch$2.parse = (pattern, options) => { if (Array.isArray(pattern)) return pattern.map(p => picomatch$2.parse(p, options)); return parse$2(pattern, Object.assign(Object.assign({}, options), {}, { fastpaths: false })); }; /** * Scan a glob pattern to separate the pattern into segments. * * ```js * const picomatch = require('picomatch'); * // picomatch.scan(input[, options]); * * const result = picomatch.scan('!./foo/*.js'); * console.log(result); * { prefix: '!./', * input: '!./foo/*.js', * start: 3, * base: 'foo', * glob: '*.js', * isBrace: false, * isBracket: false, * isGlob: true, * isExtglob: false, * isGlobstar: false, * negated: true } * ``` * @param {String} `input` Glob pattern to scan. * @param {Object} `options` * @return {Object} Returns an object with * @api public */ picomatch$2.scan = (input, options) => scan(input, options); /** * Compile a regular expression from the `state` object returned by the * [parse()](#parse) method. * * @param {Object} `state` * @param {Object} `options` * @param {Boolean} `returnOutput` Intended for implementors, this argument allows you to return the raw output from the parser. * @param {Boolean} `returnState` Adds the state to a `state` property on the returned regex. Useful for implementors and debugging. * @return {RegExp} * @api public */ picomatch$2.compileRe = (state, options, returnOutput = false, returnState = false) => { if (returnOutput === true) { return state.output; } const opts = options || {}; const prepend = opts.contains ? '' : '^'; const append = opts.contains ? '' : '$'; let source = `${prepend}(?:${state.output})${append}`; if (state && state.negated === true) { source = `^(?!${source}).*$`; } const regex = picomatch$2.toRegex(source, options); if (returnState === true) { regex.state = state; } return regex; }; /** * Create a regular expression from a parsed glob pattern. * * ```js * const picomatch = require('picomatch'); * const state = picomatch.parse('*.js'); * // picomatch.compileRe(state[, options]); * * console.log(picomatch.compileRe(state)); * //=> /^(?:(?!\.)(?=.)[^/]*?\.js)$/ * ``` * @param {String} `state` The object returned from the `.parse` method. * @param {Object} `options` * @param {Boolean} `returnOutput` Implementors may use this argument to return the compiled output, instead of a regular expression. This is not exposed on the options to prevent end-users from mutating the result. * @param {Boolean} `returnState` Implementors may use this argument to return the state from the parsed glob with the returned regular expression. * @return {RegExp} Returns a regex created from the given pattern. * @api public */ picomatch$2.makeRe = (input, options = {}, returnOutput = false, returnState = false) => { if (!input || typeof input !== 'string') { throw new TypeError('Expected a non-empty string'); } let parsed = { negated: false, fastpaths: true }; if (options.fastpaths !== false && (input[0] === '.' || input[0] === '*')) { parsed.output = parse$2.fastpaths(input, options); } if (!parsed.output) { parsed = parse$2(input, options); } return picomatch$2.compileRe(parsed, options, returnOutput, returnState); }; /** * Create a regular expression from the given regex source string. * * ```js * const picomatch = require('picomatch'); * // picomatch.toRegex(source[, options]); * * const { output } = picomatch.parse('*.js'); * console.log(picomatch.toRegex(output)); * //=> /^(?:(?!\.)(?=.)[^/]*?\.js)$/ * ``` * @param {String} `source` Regular expression source string. * @param {Object} `options` * @return {RegExp} * @api public */ picomatch$2.toRegex = (source, options) => { try { const opts = options || {}; return new RegExp(source, opts.flags || (opts.nocase ? 'i' : '')); } catch (err) { if (options && options.debug === true) throw err; return /$^/; } }; /** * Picomatch constants. * @return {Object} */ picomatch$2.constants = constants$1; /** * Expose "picomatch" */ var picomatch_1 = picomatch$2; var picomatch$1 = picomatch_1; const util$1 = require$$0__default$4["default"]; const braces = braces_1; const picomatch = picomatch$1; const utils$i = utils$m; const isEmptyString = val => val === '' || val === './'; /** * Returns an array of strings that match one or more glob patterns. * * ```js * const mm = require('micromatch'); * // mm(list, patterns[, options]); * * console.log(mm(['a.js', 'a.txt'], ['*.js'])); * //=> [ 'a.js' ] * ``` * @param {String|Array} `list` List of strings to match. * @param {String|Array} `patterns` One or more glob patterns to use for matching. * @param {Object} `options` See available [options](#options) * @return {Array} Returns an array of matches * @summary false * @api public */ const micromatch$1 = (list, patterns, options) => { patterns = [].concat(patterns); list = [].concat(list); let omit = new Set(); let keep = new Set(); let items = new Set(); let negatives = 0; let onResult = state => { items.add(state.output); if (options && options.onResult) { options.onResult(state); } }; for (let i = 0; i < patterns.length; i++) { let isMatch = picomatch(String(patterns[i]), Object.assign(Object.assign({}, options), {}, { onResult }), true); let negated = isMatch.state.negated || isMatch.state.negatedExtglob; if (negated) negatives++; for (let item of list) { let matched = isMatch(item, true); let match = negated ? !matched.isMatch : matched.isMatch; if (!match) continue; if (negated) { omit.add(matched.output); } else { omit.delete(matched.output); keep.add(matched.output); } } } let result = negatives === patterns.length ? [...items] : [...keep]; let matches = result.filter(item => !omit.has(item)); if (options && matches.length === 0) { if (options.failglob === true) { throw new Error(`No matches found for "${patterns.join(', ')}"`); } if (options.nonull === true || options.nullglob === true) { return options.unescape ? patterns.map(p => p.replace(/\\/g, '')) : patterns; } } return matches; }; /** * Backwards compatibility */ micromatch$1.match = micromatch$1; /** * Returns a matcher function from the given glob `pattern` and `options`. * The returned function takes a string to match as its only argument and returns * true if the string is a match. * * ```js * const mm = require('micromatch'); * // mm.matcher(pattern[, options]); * * const isMatch = mm.matcher('*.!(*a)'); * console.log(isMatch('a.a')); //=> false * console.log(isMatch('a.b')); //=> true * ``` * @param {String} `pattern` Glob pattern * @param {Object} `options` * @return {Function} Returns a matcher function. * @api public */ micromatch$1.matcher = (pattern, options) => picomatch(pattern, options); /** * Returns true if **any** of the given glob `patterns` match the specified `string`. * * ```js * const mm = require('micromatch'); * // mm.isMatch(string, patterns[, options]); * * console.log(mm.isMatch('a.a', ['b.*', '*.a'])); //=> true * console.log(mm.isMatch('a.a', 'b.*')); //=> false * ``` * @param {String} `str` The string to test. * @param {String|Array} `patterns` One or more glob patterns to use for matching. * @param {Object} `[options]` See available [options](#options). * @return {Boolean} Returns true if any patterns match `str` * @api public */ micromatch$1.isMatch = (str, patterns, options) => picomatch(patterns, options)(str); /** * Backwards compatibility */ micromatch$1.any = micromatch$1.isMatch; /** * Returns a list of strings that _**do not match any**_ of the given `patterns`. * * ```js * const mm = require('micromatch'); * // mm.not(list, patterns[, options]); * * console.log(mm.not(['a.a', 'b.b', 'c.c'], '*.a')); * //=> ['b.b', 'c.c'] * ``` * @param {Array} `list` Array of strings to match. * @param {String|Array} `patterns` One or more glob pattern to use for matching. * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Array} Returns an array of strings that **do not match** the given patterns. * @api public */ micromatch$1.not = (list, patterns, options = {}) => { patterns = [].concat(patterns).map(String); let result = new Set(); let items = []; let onResult = state => { if (options.onResult) options.onResult(state); items.push(state.output); }; let matches = micromatch$1(list, patterns, Object.assign(Object.assign({}, options), {}, { onResult })); for (let item of items) { if (!matches.includes(item)) { result.add(item); } } return [...result]; }; /** * Returns true if the given `string` contains the given pattern. Similar * to [.isMatch](#isMatch) but the pattern can match any part of the string. * * ```js * var mm = require('micromatch'); * // mm.contains(string, pattern[, options]); * * console.log(mm.contains('aa/bb/cc', '*b')); * //=> true * console.log(mm.contains('aa/bb/cc', '*d')); * //=> false * ``` * @param {String} `str` The string to match. * @param {String|Array} `patterns` Glob pattern to use for matching. * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Boolean} Returns true if any of the patterns matches any part of `str`. * @api public */ micromatch$1.contains = (str, pattern, options) => { if (typeof str !== 'string') { throw new TypeError(`Expected a string: "${util$1.inspect(str)}"`); } if (Array.isArray(pattern)) { return pattern.some(p => micromatch$1.contains(str, p, options)); } if (typeof pattern === 'string') { if (isEmptyString(str) || isEmptyString(pattern)) { return false; } if (str.includes(pattern) || str.startsWith('./') && str.slice(2).includes(pattern)) { return true; } } return micromatch$1.isMatch(str, pattern, Object.assign(Object.assign({}, options), {}, { contains: true })); }; /** * Filter the keys of the given object with the given `glob` pattern * and `options`. Does not attempt to match nested keys. If you need this feature, * use [glob-object][] instead. * * ```js * const mm = require('micromatch'); * // mm.matchKeys(object, patterns[, options]); * * const obj = { aa: 'a', ab: 'b', ac: 'c' }; * console.log(mm.matchKeys(obj, '*b')); * //=> { ab: 'b' } * ``` * @param {Object} `object` The object with keys to filter. * @param {String|Array} `patterns` One or more glob patterns to use for matching. * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Object} Returns an object with only keys that match the given patterns. * @api public */ micromatch$1.matchKeys = (obj, patterns, options) => { if (!utils$i.isObject(obj)) { throw new TypeError('Expected the first argument to be an object'); } let keys = micromatch$1(Object.keys(obj), patterns, options); let res = {}; for (let key of keys) res[key] = obj[key]; return res; }; /** * Returns true if some of the strings in the given `list` match any of the given glob `patterns`. * * ```js * const mm = require('micromatch'); * // mm.some(list, patterns[, options]); * * console.log(mm.some(['foo.js', 'bar.js'], ['*.js', '!foo.js'])); * // true * console.log(mm.some(['foo.js'], ['*.js', '!foo.js'])); * // false * ``` * @param {String|Array} `list` The string or array of strings to test. Returns as soon as the first match is found. * @param {String|Array} `patterns` One or more glob patterns to use for matching. * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Boolean} Returns true if any `patterns` matches any of the strings in `list` * @api public */ micromatch$1.some = (list, patterns, options) => { let items = [].concat(list); for (let pattern of [].concat(patterns)) { let isMatch = picomatch(String(pattern), options); if (items.some(item => isMatch(item))) { return true; } } return false; }; /** * Returns true if every string in the given `list` matches * any of the given glob `patterns`. * * ```js * const mm = require('micromatch'); * // mm.every(list, patterns[, options]); * * console.log(mm.every('foo.js', ['foo.js'])); * // true * console.log(mm.every(['foo.js', 'bar.js'], ['*.js'])); * // true * console.log(mm.every(['foo.js', 'bar.js'], ['*.js', '!foo.js'])); * // false * console.log(mm.every(['foo.js'], ['*.js', '!foo.js'])); * // false * ``` * @param {String|Array} `list` The string or array of strings to test. * @param {String|Array} `patterns` One or more glob patterns to use for matching. * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Boolean} Returns true if all `patterns` matches all of the strings in `list` * @api public */ micromatch$1.every = (list, patterns, options) => { let items = [].concat(list); for (let pattern of [].concat(patterns)) { let isMatch = picomatch(String(pattern), options); if (!items.every(item => isMatch(item))) { return false; } } return true; }; /** * Returns true if **all** of the given `patterns` match * the specified string. * * ```js * const mm = require('micromatch'); * // mm.all(string, patterns[, options]); * * console.log(mm.all('foo.js', ['foo.js'])); * // true * * console.log(mm.all('foo.js', ['*.js', '!foo.js'])); * // false * * console.log(mm.all('foo.js', ['*.js', 'foo.js'])); * // true * * console.log(mm.all('foo.js', ['*.js', 'f*', '*o*', '*o.js'])); * // true * ``` * @param {String|Array} `str` The string to test. * @param {String|Array} `patterns` One or more glob patterns to use for matching. * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Boolean} Returns true if any patterns match `str` * @api public */ micromatch$1.all = (str, patterns, options) => { if (typeof str !== 'string') { throw new TypeError(`Expected a string: "${util$1.inspect(str)}"`); } return [].concat(patterns).every(p => picomatch(p, options)(str)); }; /** * Returns an array of matches captured by `pattern` in `string, or `null` if the pattern did not match. * * ```js * const mm = require('micromatch'); * // mm.capture(pattern, string[, options]); * * console.log(mm.capture('test/*.js', 'test/foo.js')); * //=> ['foo'] * console.log(mm.capture('test/*.js', 'foo/bar.css')); * //=> null * ``` * @param {String} `glob` Glob pattern to use for matching. * @param {String} `input` String to match * @param {Object} `options` See available [options](#options) for changing how matches are performed * @return {Array|null} Returns an array of captures if the input matches the glob pattern, otherwise `null`. * @api public */ micromatch$1.capture = (glob, input, options) => { let posix = utils$i.isWindows(options); let regex = picomatch.makeRe(String(glob), Object.assign(Object.assign({}, options), {}, { capture: true })); let match = regex.exec(posix ? utils$i.toPosixSlashes(input) : input); if (match) { return match.slice(1).map(v => v === void 0 ? '' : v); } }; /** * Create a regular expression from the given glob `pattern`. * * ```js * const mm = require('micromatch'); * // mm.makeRe(pattern[, options]); * * console.log(mm.makeRe('*.js')); * //=> /^(?:(\.[\\\/])?(?!\.)(?=.)[^\/]*?\.js)$/ * ``` * @param {String} `pattern` A glob pattern to convert to regex. * @param {Object} `options` * @return {RegExp} Returns a regex created from the given pattern. * @api public */ micromatch$1.makeRe = (...args) => picomatch.makeRe(...args); /** * Scan a glob pattern to separate the pattern into segments. Used * by the [split](#split) method. * * ```js * const mm = require('micromatch'); * const state = mm.scan(pattern[, options]); * ``` * @param {String} `pattern` * @param {Object} `options` * @return {Object} Returns an object with * @api public */ micromatch$1.scan = (...args) => picomatch.scan(...args); /** * Parse a glob pattern to create the source string for a regular * expression. * * ```js * const mm = require('micromatch'); * const state = mm(pattern[, options]); * ``` * @param {String} `glob` * @param {Object} `options` * @return {Object} Returns an object with useful properties and output to be used as regex source string. * @api public */ micromatch$1.parse = (patterns, options) => { let res = []; for (let pattern of [].concat(patterns || [])) { for (let str of braces(String(pattern), options)) { res.push(picomatch.parse(str, options)); } } return res; }; /** * Process the given brace `pattern`. * * ```js * const { braces } = require('micromatch'); * console.log(braces('foo/{a,b,c}/bar')); * //=> [ 'foo/(a|b|c)/bar' ] * * console.log(braces('foo/{a,b,c}/bar', { expand: true })); * //=> [ 'foo/a/bar', 'foo/b/bar', 'foo/c/bar' ] * ``` * @param {String} `pattern` String with brace pattern to process. * @param {Object} `options` Any [options](#options) to change how expansion is performed. See the [braces][] library for all available options. * @return {Array} * @api public */ micromatch$1.braces = (pattern, options) => { if (typeof pattern !== 'string') throw new TypeError('Expected a string'); if (options && options.nobrace === true || !/\{.*\}/.test(pattern)) { return [pattern]; } return braces(pattern, options); }; /** * Expand braces */ micromatch$1.braceExpand = (pattern, options) => { if (typeof pattern !== 'string') throw new TypeError('Expected a string'); return micromatch$1.braces(pattern, Object.assign(Object.assign({}, options), {}, { expand: true })); }; /** * Expose micromatch */ var micromatch_1 = micromatch$1; Object.defineProperty(pattern$1, "__esModule", { value: true }); pattern$1.matchAny = pattern$1.convertPatternsToRe = pattern$1.makeRe = pattern$1.getPatternParts = pattern$1.expandBraceExpansion = pattern$1.expandPatternsWithBraceExpansion = pattern$1.isAffectDepthOfReadingPattern = pattern$1.endsWithSlashGlobStar = pattern$1.hasGlobStar = pattern$1.getBaseDirectory = pattern$1.isPatternRelatedToParentDirectory = pattern$1.getPatternsOutsideCurrentDirectory = pattern$1.getPatternsInsideCurrentDirectory = pattern$1.getPositivePatterns = pattern$1.getNegativePatterns = pattern$1.isPositivePattern = pattern$1.isNegativePattern = pattern$1.convertToNegativePattern = pattern$1.convertToPositivePattern = pattern$1.isDynamicPattern = pattern$1.isStaticPattern = void 0; const path$8 = require$$0__default$2["default"]; const globParent = globParent$1; const micromatch = micromatch_1; const GLOBSTAR = '**'; const ESCAPE_SYMBOL = '\\'; const COMMON_GLOB_SYMBOLS_RE = /[*?]|^!/; const REGEX_CHARACTER_CLASS_SYMBOLS_RE = /\[.*]/; const REGEX_GROUP_SYMBOLS_RE = /(?:^|[^!*+?@])\(.*\|.*\)/; const GLOB_EXTENSION_SYMBOLS_RE = /[!*+?@]\(.*\)/; const BRACE_EXPANSIONS_SYMBOLS_RE = /{.*(?:,|\.\.).*}/; function isStaticPattern(pattern, options = {}) { return !isDynamicPattern(pattern, options); } pattern$1.isStaticPattern = isStaticPattern; function isDynamicPattern(pattern, options = {}) { /** * A special case with an empty string is necessary for matching patterns that start with a forward slash. * An empty string cannot be a dynamic pattern. * For example, the pattern `/lib/*` will be spread into parts: '', 'lib', '*'. */ if (pattern === '') { return false; } /** * When the `caseSensitiveMatch` option is disabled, all patterns must be marked as dynamic, because we cannot check * filepath directly (without read directory). */ if (options.caseSensitiveMatch === false || pattern.includes(ESCAPE_SYMBOL)) { return true; } if (COMMON_GLOB_SYMBOLS_RE.test(pattern) || REGEX_CHARACTER_CLASS_SYMBOLS_RE.test(pattern) || REGEX_GROUP_SYMBOLS_RE.test(pattern)) { return true; } if (options.extglob !== false && GLOB_EXTENSION_SYMBOLS_RE.test(pattern)) { return true; } if (options.braceExpansion !== false && BRACE_EXPANSIONS_SYMBOLS_RE.test(pattern)) { return true; } return false; } pattern$1.isDynamicPattern = isDynamicPattern; function convertToPositivePattern(pattern) { return isNegativePattern(pattern) ? pattern.slice(1) : pattern; } pattern$1.convertToPositivePattern = convertToPositivePattern; function convertToNegativePattern(pattern) { return '!' + pattern; } pattern$1.convertToNegativePattern = convertToNegativePattern; function isNegativePattern(pattern) { return pattern.startsWith('!') && pattern[1] !== '('; } pattern$1.isNegativePattern = isNegativePattern; function isPositivePattern(pattern) { return !isNegativePattern(pattern); } pattern$1.isPositivePattern = isPositivePattern; function getNegativePatterns(patterns) { return patterns.filter(isNegativePattern); } pattern$1.getNegativePatterns = getNegativePatterns; function getPositivePatterns$1(patterns) { return patterns.filter(isPositivePattern); } pattern$1.getPositivePatterns = getPositivePatterns$1; /** * Returns patterns that can be applied inside the current directory. * * @example * // ['./*', '*', 'a/*'] * getPatternsInsideCurrentDirectory(['./*', '*', 'a/*', '../*', './../*']) */ function getPatternsInsideCurrentDirectory(patterns) { return patterns.filter(pattern => !isPatternRelatedToParentDirectory(pattern)); } pattern$1.getPatternsInsideCurrentDirectory = getPatternsInsideCurrentDirectory; /** * Returns patterns to be expanded relative to (outside) the current directory. * * @example * // ['../*', './../*'] * getPatternsInsideCurrentDirectory(['./*', '*', 'a/*', '../*', './../*']) */ function getPatternsOutsideCurrentDirectory(patterns) { return patterns.filter(isPatternRelatedToParentDirectory); } pattern$1.getPatternsOutsideCurrentDirectory = getPatternsOutsideCurrentDirectory; function isPatternRelatedToParentDirectory(pattern) { return pattern.startsWith('..') || pattern.startsWith('./..'); } pattern$1.isPatternRelatedToParentDirectory = isPatternRelatedToParentDirectory; function getBaseDirectory(pattern) { return globParent(pattern, { flipBackslashes: false }); } pattern$1.getBaseDirectory = getBaseDirectory; function hasGlobStar(pattern) { return pattern.includes(GLOBSTAR); } pattern$1.hasGlobStar = hasGlobStar; function endsWithSlashGlobStar(pattern) { return pattern.endsWith('/' + GLOBSTAR); } pattern$1.endsWithSlashGlobStar = endsWithSlashGlobStar; function isAffectDepthOfReadingPattern(pattern) { const basename = path$8.basename(pattern); return endsWithSlashGlobStar(pattern) || isStaticPattern(basename); } pattern$1.isAffectDepthOfReadingPattern = isAffectDepthOfReadingPattern; function expandPatternsWithBraceExpansion(patterns) { return patterns.reduce((collection, pattern) => { return collection.concat(expandBraceExpansion(pattern)); }, []); } pattern$1.expandPatternsWithBraceExpansion = expandPatternsWithBraceExpansion; function expandBraceExpansion(pattern) { return micromatch.braces(pattern, { expand: true, nodupes: true }); } pattern$1.expandBraceExpansion = expandBraceExpansion; function getPatternParts(pattern, options) { let { parts } = micromatch.scan(pattern, Object.assign(Object.assign({}, options), { parts: true })); /** * The scan method returns an empty array in some cases. * See micromatch/picomatch#58 for more details. */ if (parts.length === 0) { parts = [pattern]; } /** * The scan method does not return an empty part for the pattern with a forward slash. * This is another part of micromatch/picomatch#58. */ if (parts[0].startsWith('/')) { parts[0] = parts[0].slice(1); parts.unshift(''); } return parts; } pattern$1.getPatternParts = getPatternParts; function makeRe(pattern, options) { return micromatch.makeRe(pattern, options); } pattern$1.makeRe = makeRe; function convertPatternsToRe(patterns, options) { return patterns.map(pattern => makeRe(pattern, options)); } pattern$1.convertPatternsToRe = convertPatternsToRe; function matchAny(entry, patternsRe) { return patternsRe.some(patternRe => patternRe.test(entry)); } pattern$1.matchAny = matchAny; var stream$4 = {}; Object.defineProperty(stream$4, "__esModule", { value: true }); stream$4.merge = void 0; const merge2$1 = merge2_1; function merge(streams) { const mergedStream = merge2$1(streams); streams.forEach(stream => { stream.once('error', error => mergedStream.emit('error', error)); }); mergedStream.once('close', () => propagateCloseEventToSources(streams)); mergedStream.once('end', () => propagateCloseEventToSources(streams)); return mergedStream; } stream$4.merge = merge; function propagateCloseEventToSources(streams) { streams.forEach(stream => stream.emit('close')); } var string$1 = {}; Object.defineProperty(string$1, "__esModule", { value: true }); string$1.isEmpty = string$1.isString = void 0; function isString$1(input) { return typeof input === 'string'; } string$1.isString = isString$1; function isEmpty(input) { return input === ''; } string$1.isEmpty = isEmpty; Object.defineProperty(utils$r, "__esModule", { value: true }); utils$r.string = utils$r.stream = utils$r.pattern = utils$r.path = utils$r.fs = utils$r.errno = utils$r.array = void 0; const array$1 = array$2; utils$r.array = array$1; const errno = errno$1; utils$r.errno = errno; const fs$a = fs$b; utils$r.fs = fs$a; const path$7 = path$c; utils$r.path = path$7; const pattern = pattern$1; utils$r.pattern = pattern; const stream$3 = stream$4; utils$r.stream = stream$3; const string = string$1; utils$r.string = string; Object.defineProperty(tasks, "__esModule", { value: true }); tasks.convertPatternGroupToTask = tasks.convertPatternGroupsToTasks = tasks.groupPatternsByBaseDirectory = tasks.getNegativePatternsAsPositive = tasks.getPositivePatterns = tasks.convertPatternsToTasks = tasks.generate = void 0; const utils$h = utils$r; function generate(patterns, settings) { const positivePatterns = getPositivePatterns(patterns); const negativePatterns = getNegativePatternsAsPositive(patterns, settings.ignore); const staticPatterns = positivePatterns.filter(pattern => utils$h.pattern.isStaticPattern(pattern, settings)); const dynamicPatterns = positivePatterns.filter(pattern => utils$h.pattern.isDynamicPattern(pattern, settings)); const staticTasks = convertPatternsToTasks(staticPatterns, negativePatterns, /* dynamic */ false); const dynamicTasks = convertPatternsToTasks(dynamicPatterns, negativePatterns, /* dynamic */ true); return staticTasks.concat(dynamicTasks); } tasks.generate = generate; /** * Returns tasks grouped by basic pattern directories. * * Patterns that can be found inside (`./`) and outside (`../`) the current directory are handled separately. * This is necessary because directory traversal starts at the base directory and goes deeper. */ function convertPatternsToTasks(positive, negative, dynamic) { const tasks = []; const patternsOutsideCurrentDirectory = utils$h.pattern.getPatternsOutsideCurrentDirectory(positive); const patternsInsideCurrentDirectory = utils$h.pattern.getPatternsInsideCurrentDirectory(positive); const outsideCurrentDirectoryGroup = groupPatternsByBaseDirectory(patternsOutsideCurrentDirectory); const insideCurrentDirectoryGroup = groupPatternsByBaseDirectory(patternsInsideCurrentDirectory); tasks.push(...convertPatternGroupsToTasks(outsideCurrentDirectoryGroup, negative, dynamic)); /* * For the sake of reducing future accesses to the file system, we merge all tasks within the current directory * into a global task, if at least one pattern refers to the root (`.`). In this case, the global task covers the rest. */ if ('.' in insideCurrentDirectoryGroup) { tasks.push(convertPatternGroupToTask('.', patternsInsideCurrentDirectory, negative, dynamic)); } else { tasks.push(...convertPatternGroupsToTasks(insideCurrentDirectoryGroup, negative, dynamic)); } return tasks; } tasks.convertPatternsToTasks = convertPatternsToTasks; function getPositivePatterns(patterns) { return utils$h.pattern.getPositivePatterns(patterns); } tasks.getPositivePatterns = getPositivePatterns; function getNegativePatternsAsPositive(patterns, ignore) { const negative = utils$h.pattern.getNegativePatterns(patterns).concat(ignore); const positive = negative.map(utils$h.pattern.convertToPositivePattern); return positive; } tasks.getNegativePatternsAsPositive = getNegativePatternsAsPositive; function groupPatternsByBaseDirectory(patterns) { const group = {}; return patterns.reduce((collection, pattern) => { const base = utils$h.pattern.getBaseDirectory(pattern); if (base in collection) { collection[base].push(pattern); } else { collection[base] = [pattern]; } return collection; }, group); } tasks.groupPatternsByBaseDirectory = groupPatternsByBaseDirectory; function convertPatternGroupsToTasks(positive, negative, dynamic) { return Object.keys(positive).map(base => { return convertPatternGroupToTask(base, positive[base], negative, dynamic); }); } tasks.convertPatternGroupsToTasks = convertPatternGroupsToTasks; function convertPatternGroupToTask(base, positive, negative, dynamic) { return { dynamic, positive, negative, base, patterns: [].concat(positive, negative.map(utils$h.pattern.convertToNegativePattern)) }; } tasks.convertPatternGroupToTask = convertPatternGroupToTask; var async$6 = {}; var stream$2 = {}; var out$3 = {}; var async$5 = {}; Object.defineProperty(async$5, "__esModule", { value: true }); async$5.read = void 0; function read$3(path, settings, callback) { settings.fs.lstat(path, (lstatError, lstat) => { if (lstatError !== null) { callFailureCallback$2(callback, lstatError); return; } if (!lstat.isSymbolicLink() || !settings.followSymbolicLink) { callSuccessCallback$2(callback, lstat); return; } settings.fs.stat(path, (statError, stat) => { if (statError !== null) { if (settings.throwErrorOnBrokenSymbolicLink) { callFailureCallback$2(callback, statError); return; } callSuccessCallback$2(callback, lstat); return; } if (settings.markSymbolicLink) { stat.isSymbolicLink = () => true; } callSuccessCallback$2(callback, stat); }); }); } async$5.read = read$3; function callFailureCallback$2(callback, error) { callback(error); } function callSuccessCallback$2(callback, result) { callback(null, result); } var sync$7 = {}; Object.defineProperty(sync$7, "__esModule", { value: true }); sync$7.read = void 0; function read$2(path, settings) { const lstat = settings.fs.lstatSync(path); if (!lstat.isSymbolicLink() || !settings.followSymbolicLink) { return lstat; } try { const stat = settings.fs.statSync(path); if (settings.markSymbolicLink) { stat.isSymbolicLink = () => true; } return stat; } catch (error) { if (!settings.throwErrorOnBrokenSymbolicLink) { return lstat; } throw error; } } sync$7.read = read$2; var settings$3 = {}; var fs$9 = {}; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); exports.createFileSystemAdapter = exports.FILE_SYSTEM_ADAPTER = void 0; const fs = require$$0__default["default"]; exports.FILE_SYSTEM_ADAPTER = { lstat: fs.lstat, stat: fs.stat, lstatSync: fs.lstatSync, statSync: fs.statSync }; function createFileSystemAdapter(fsMethods) { if (fsMethods === undefined) { return exports.FILE_SYSTEM_ADAPTER; } return Object.assign(Object.assign({}, exports.FILE_SYSTEM_ADAPTER), fsMethods); } exports.createFileSystemAdapter = createFileSystemAdapter; })(fs$9); Object.defineProperty(settings$3, "__esModule", { value: true }); const fs$8 = fs$9; class Settings$2 { constructor(_options = {}) { this._options = _options; this.followSymbolicLink = this._getValue(this._options.followSymbolicLink, true); this.fs = fs$8.createFileSystemAdapter(this._options.fs); this.markSymbolicLink = this._getValue(this._options.markSymbolicLink, false); this.throwErrorOnBrokenSymbolicLink = this._getValue(this._options.throwErrorOnBrokenSymbolicLink, true); } _getValue(option, value) { return option !== null && option !== void 0 ? option : value; } } settings$3.default = Settings$2; Object.defineProperty(out$3, "__esModule", { value: true }); out$3.statSync = out$3.stat = out$3.Settings = void 0; const async$4 = async$5; const sync$6 = sync$7; const settings_1$3 = settings$3; out$3.Settings = settings_1$3.default; function stat(path, optionsOrSettingsOrCallback, callback) { if (typeof optionsOrSettingsOrCallback === 'function') { async$4.read(path, getSettings$2(), optionsOrSettingsOrCallback); return; } async$4.read(path, getSettings$2(optionsOrSettingsOrCallback), callback); } out$3.stat = stat; function statSync(path, optionsOrSettings) { const settings = getSettings$2(optionsOrSettings); return sync$6.read(path, settings); } out$3.statSync = statSync; function getSettings$2(settingsOrOptions = {}) { if (settingsOrOptions instanceof settings_1$3.default) { return settingsOrOptions; } return new settings_1$3.default(settingsOrOptions); } var out$2 = {}; var async$3 = {}; var async$2 = {}; var out$1 = {}; var async$1 = {}; /*! queue-microtask. MIT License. Feross Aboukhadijeh */ let promise; var queueMicrotask_1 = typeof queueMicrotask === 'function' ? queueMicrotask.bind(typeof window !== 'undefined' ? window : global) // reuse resolved promise, and allocate it lazily : cb => (promise || (promise = Promise.resolve())).then(cb).catch(err => setTimeout(() => { throw err; }, 0)); /*! run-parallel. MIT License. Feross Aboukhadijeh */ var runParallel_1 = runParallel; const queueMicrotask$1 = queueMicrotask_1; function runParallel(tasks, cb) { let results, pending, keys; let isSync = true; if (Array.isArray(tasks)) { results = []; pending = tasks.length; } else { keys = Object.keys(tasks); results = {}; pending = keys.length; } function done(err) { function end() { if (cb) cb(err, results); cb = null; } if (isSync) queueMicrotask$1(end);else end(); } function each(i, err, result) { results[i] = result; if (--pending === 0 || err) { done(err); } } if (!pending) { // empty done(null); } else if (keys) { // object keys.forEach(function (key) { tasks[key](function (err, result) { each(key, err, result); }); }); } else { // array tasks.forEach(function (task, i) { task(function (err, result) { each(i, err, result); }); }); } isSync = false; } var constants = {}; Object.defineProperty(constants, "__esModule", { value: true }); constants.IS_SUPPORT_READDIR_WITH_FILE_TYPES = void 0; const NODE_PROCESS_VERSION_PARTS = process.versions.node.split('.'); if (NODE_PROCESS_VERSION_PARTS[0] === undefined || NODE_PROCESS_VERSION_PARTS[1] === undefined) { throw new Error(`Unexpected behavior. The 'process.versions.node' variable has invalid value: ${process.versions.node}`); } const MAJOR_VERSION = Number.parseInt(NODE_PROCESS_VERSION_PARTS[0], 10); const MINOR_VERSION = Number.parseInt(NODE_PROCESS_VERSION_PARTS[1], 10); const SUPPORTED_MAJOR_VERSION = 10; const SUPPORTED_MINOR_VERSION = 10; const IS_MATCHED_BY_MAJOR = MAJOR_VERSION > SUPPORTED_MAJOR_VERSION; const IS_MATCHED_BY_MAJOR_AND_MINOR = MAJOR_VERSION === SUPPORTED_MAJOR_VERSION && MINOR_VERSION >= SUPPORTED_MINOR_VERSION; /** * IS `true` for Node.js 10.10 and greater. */ constants.IS_SUPPORT_READDIR_WITH_FILE_TYPES = IS_MATCHED_BY_MAJOR || IS_MATCHED_BY_MAJOR_AND_MINOR; var utils$g = {}; var fs$7 = {}; Object.defineProperty(fs$7, "__esModule", { value: true }); fs$7.createDirentFromStats = void 0; class DirentFromStats { constructor(name, stats) { this.name = name; this.isBlockDevice = stats.isBlockDevice.bind(stats); this.isCharacterDevice = stats.isCharacterDevice.bind(stats); this.isDirectory = stats.isDirectory.bind(stats); this.isFIFO = stats.isFIFO.bind(stats); this.isFile = stats.isFile.bind(stats); this.isSocket = stats.isSocket.bind(stats); this.isSymbolicLink = stats.isSymbolicLink.bind(stats); } } function createDirentFromStats(name, stats) { return new DirentFromStats(name, stats); } fs$7.createDirentFromStats = createDirentFromStats; Object.defineProperty(utils$g, "__esModule", { value: true }); utils$g.fs = void 0; const fs$6 = fs$7; utils$g.fs = fs$6; var common$6 = {}; Object.defineProperty(common$6, "__esModule", { value: true }); common$6.joinPathSegments = void 0; function joinPathSegments$1(a, b, separator) { /** * The correct handling of cases when the first segment is a root (`/`, `C:/`) or UNC path (`//?/C:/`). */ if (a.endsWith(separator)) { return a + b; } return a + separator + b; } common$6.joinPathSegments = joinPathSegments$1; Object.defineProperty(async$1, "__esModule", { value: true }); async$1.readdir = async$1.readdirWithFileTypes = async$1.read = void 0; const fsStat$5 = out$3; const rpl = runParallel_1; const constants_1$1 = constants; const utils$f = utils$g; const common$5 = common$6; function read$1(directory, settings, callback) { if (!settings.stats && constants_1$1.IS_SUPPORT_READDIR_WITH_FILE_TYPES) { readdirWithFileTypes$1(directory, settings, callback); return; } readdir$1(directory, settings, callback); } async$1.read = read$1; function readdirWithFileTypes$1(directory, settings, callback) { settings.fs.readdir(directory, { withFileTypes: true }, (readdirError, dirents) => { if (readdirError !== null) { callFailureCallback$1(callback, readdirError); return; } const entries = dirents.map(dirent => ({ dirent, name: dirent.name, path: common$5.joinPathSegments(directory, dirent.name, settings.pathSegmentSeparator) })); if (!settings.followSymbolicLinks) { callSuccessCallback$1(callback, entries); return; } const tasks = entries.map(entry => makeRplTaskEntry(entry, settings)); rpl(tasks, (rplError, rplEntries) => { if (rplError !== null) { callFailureCallback$1(callback, rplError); return; } callSuccessCallback$1(callback, rplEntries); }); }); } async$1.readdirWithFileTypes = readdirWithFileTypes$1; function makeRplTaskEntry(entry, settings) { return done => { if (!entry.dirent.isSymbolicLink()) { done(null, entry); return; } settings.fs.stat(entry.path, (statError, stats) => { if (statError !== null) { if (settings.throwErrorOnBrokenSymbolicLink) { done(statError); return; } done(null, entry); return; } entry.dirent = utils$f.fs.createDirentFromStats(entry.name, stats); done(null, entry); }); }; } function readdir$1(directory, settings, callback) { settings.fs.readdir(directory, (readdirError, names) => { if (readdirError !== null) { callFailureCallback$1(callback, readdirError); return; } const tasks = names.map(name => { const path = common$5.joinPathSegments(directory, name, settings.pathSegmentSeparator); return done => { fsStat$5.stat(path, settings.fsStatSettings, (error, stats) => { if (error !== null) { done(error); return; } const entry = { name, path, dirent: utils$f.fs.createDirentFromStats(name, stats) }; if (settings.stats) { entry.stats = stats; } done(null, entry); }); }; }); rpl(tasks, (rplError, entries) => { if (rplError !== null) { callFailureCallback$1(callback, rplError); return; } callSuccessCallback$1(callback, entries); }); }); } async$1.readdir = readdir$1; function callFailureCallback$1(callback, error) { callback(error); } function callSuccessCallback$1(callback, result) { callback(null, result); } var sync$5 = {}; Object.defineProperty(sync$5, "__esModule", { value: true }); sync$5.readdir = sync$5.readdirWithFileTypes = sync$5.read = void 0; const fsStat$4 = out$3; const constants_1 = constants; const utils$e = utils$g; const common$4 = common$6; function read(directory, settings) { if (!settings.stats && constants_1.IS_SUPPORT_READDIR_WITH_FILE_TYPES) { return readdirWithFileTypes(directory, settings); } return readdir(directory, settings); } sync$5.read = read; function readdirWithFileTypes(directory, settings) { const dirents = settings.fs.readdirSync(directory, { withFileTypes: true }); return dirents.map(dirent => { const entry = { dirent, name: dirent.name, path: common$4.joinPathSegments(directory, dirent.name, settings.pathSegmentSeparator) }; if (entry.dirent.isSymbolicLink() && settings.followSymbolicLinks) { try { const stats = settings.fs.statSync(entry.path); entry.dirent = utils$e.fs.createDirentFromStats(entry.name, stats); } catch (error) { if (settings.throwErrorOnBrokenSymbolicLink) { throw error; } } } return entry; }); } sync$5.readdirWithFileTypes = readdirWithFileTypes; function readdir(directory, settings) { const names = settings.fs.readdirSync(directory); return names.map(name => { const entryPath = common$4.joinPathSegments(directory, name, settings.pathSegmentSeparator); const stats = fsStat$4.statSync(entryPath, settings.fsStatSettings); const entry = { name, path: entryPath, dirent: utils$e.fs.createDirentFromStats(name, stats) }; if (settings.stats) { entry.stats = stats; } return entry; }); } sync$5.readdir = readdir; var settings$2 = {}; var fs$5 = {}; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); exports.createFileSystemAdapter = exports.FILE_SYSTEM_ADAPTER = void 0; const fs = require$$0__default["default"]; exports.FILE_SYSTEM_ADAPTER = { lstat: fs.lstat, stat: fs.stat, lstatSync: fs.lstatSync, statSync: fs.statSync, readdir: fs.readdir, readdirSync: fs.readdirSync }; function createFileSystemAdapter(fsMethods) { if (fsMethods === undefined) { return exports.FILE_SYSTEM_ADAPTER; } return Object.assign(Object.assign({}, exports.FILE_SYSTEM_ADAPTER), fsMethods); } exports.createFileSystemAdapter = createFileSystemAdapter; })(fs$5); Object.defineProperty(settings$2, "__esModule", { value: true }); const path$6 = require$$0__default$2["default"]; const fsStat$3 = out$3; const fs$4 = fs$5; class Settings$1 { constructor(_options = {}) { this._options = _options; this.followSymbolicLinks = this._getValue(this._options.followSymbolicLinks, false); this.fs = fs$4.createFileSystemAdapter(this._options.fs); this.pathSegmentSeparator = this._getValue(this._options.pathSegmentSeparator, path$6.sep); this.stats = this._getValue(this._options.stats, false); this.throwErrorOnBrokenSymbolicLink = this._getValue(this._options.throwErrorOnBrokenSymbolicLink, true); this.fsStatSettings = new fsStat$3.Settings({ followSymbolicLink: this.followSymbolicLinks, fs: this.fs, throwErrorOnBrokenSymbolicLink: this.throwErrorOnBrokenSymbolicLink }); } _getValue(option, value) { return option !== null && option !== void 0 ? option : value; } } settings$2.default = Settings$1; Object.defineProperty(out$1, "__esModule", { value: true }); out$1.Settings = out$1.scandirSync = out$1.scandir = void 0; const async = async$1; const sync$4 = sync$5; const settings_1$2 = settings$2; out$1.Settings = settings_1$2.default; function scandir(path, optionsOrSettingsOrCallback, callback) { if (typeof optionsOrSettingsOrCallback === 'function') { async.read(path, getSettings$1(), optionsOrSettingsOrCallback); return; } async.read(path, getSettings$1(optionsOrSettingsOrCallback), callback); } out$1.scandir = scandir; function scandirSync(path, optionsOrSettings) { const settings = getSettings$1(optionsOrSettings); return sync$4.read(path, settings); } out$1.scandirSync = scandirSync; function getSettings$1(settingsOrOptions = {}) { if (settingsOrOptions instanceof settings_1$2.default) { return settingsOrOptions; } return new settings_1$2.default(settingsOrOptions); } var queue = {exports: {}}; function reusify$1(Constructor) { var head = new Constructor(); var tail = head; function get() { var current = head; if (current.next) { head = current.next; } else { head = new Constructor(); tail = head; } current.next = null; return current; } function release(obj) { tail.next = obj; tail = obj; } return { get: get, release: release }; } var reusify_1 = reusify$1; /* eslint-disable no-var */ var reusify = reusify_1; function fastqueue(context, worker, concurrency) { if (typeof context === 'function') { concurrency = worker; worker = context; context = null; } if (concurrency < 1) { throw new Error('fastqueue concurrency must be greater than 1'); } var cache = reusify(Task); var queueHead = null; var queueTail = null; var _running = 0; var errorHandler = null; var self = { push: push, drain: noop, saturated: noop, pause: pause, paused: false, concurrency: concurrency, running: running, resume: resume, idle: idle, length: length, getQueue: getQueue, unshift: unshift, empty: noop, kill: kill, killAndDrain: killAndDrain, error: error }; return self; function running() { return _running; } function pause() { self.paused = true; } function length() { var current = queueHead; var counter = 0; while (current) { current = current.next; counter++; } return counter; } function getQueue() { var current = queueHead; var tasks = []; while (current) { tasks.push(current.value); current = current.next; } return tasks; } function resume() { if (!self.paused) return; self.paused = false; for (var i = 0; i < self.concurrency; i++) { _running++; release(); } } function idle() { return _running === 0 && self.length() === 0; } function push(value, done) { var current = cache.get(); current.context = context; current.release = release; current.value = value; current.callback = done || noop; current.errorHandler = errorHandler; if (_running === self.concurrency || self.paused) { if (queueTail) { queueTail.next = current; queueTail = current; } else { queueHead = current; queueTail = current; self.saturated(); } } else { _running++; worker.call(context, current.value, current.worked); } } function unshift(value, done) { var current = cache.get(); current.context = context; current.release = release; current.value = value; current.callback = done || noop; if (_running === self.concurrency || self.paused) { if (queueHead) { current.next = queueHead; queueHead = current; } else { queueHead = current; queueTail = current; self.saturated(); } } else { _running++; worker.call(context, current.value, current.worked); } } function release(holder) { if (holder) { cache.release(holder); } var next = queueHead; if (next) { if (!self.paused) { if (queueTail === queueHead) { queueTail = null; } queueHead = next.next; next.next = null; worker.call(context, next.value, next.worked); if (queueTail === null) { self.empty(); } } else { _running--; } } else if (--_running === 0) { self.drain(); } } function kill() { queueHead = null; queueTail = null; self.drain = noop; } function killAndDrain() { queueHead = null; queueTail = null; self.drain(); self.drain = noop; } function error(handler) { errorHandler = handler; } } function noop() {} function Task() { this.value = null; this.callback = noop; this.next = null; this.release = noop; this.context = null; this.errorHandler = null; var self = this; this.worked = function worked(err, result) { var callback = self.callback; var errorHandler = self.errorHandler; var val = self.value; self.value = null; self.callback = noop; if (self.errorHandler) { errorHandler(err, val); } callback.call(self.context, err, result); self.release(self); }; } function queueAsPromised(context, worker, concurrency) { if (typeof context === 'function') { concurrency = worker; worker = context; context = null; } function asyncWrapper(arg, cb) { worker.call(this, arg).then(function (res) { cb(null, res); }, cb); } var queue = fastqueue(context, asyncWrapper, concurrency); var pushCb = queue.push; var unshiftCb = queue.unshift; queue.push = push; queue.unshift = unshift; queue.drained = drained; return queue; function push(value) { var p = new Promise(function (resolve, reject) { pushCb(value, function (err, result) { if (err) { reject(err); return; } resolve(result); }); }); // Let's fork the promise chain to // make the error bubble up to the user but // not lead to a unhandledRejection p.catch(noop); return p; } function unshift(value) { var p = new Promise(function (resolve, reject) { unshiftCb(value, function (err, result) { if (err) { reject(err); return; } resolve(result); }); }); // Let's fork the promise chain to // make the error bubble up to the user but // not lead to a unhandledRejection p.catch(noop); return p; } function drained() { var previousDrain = queue.drain; var p = new Promise(function (resolve) { queue.drain = function () { previousDrain(); resolve(); }; }); return p; } } queue.exports = fastqueue; queue.exports.promise = queueAsPromised; var common$3 = {}; Object.defineProperty(common$3, "__esModule", { value: true }); common$3.joinPathSegments = common$3.replacePathSegmentSeparator = common$3.isAppliedFilter = common$3.isFatalError = void 0; function isFatalError(settings, error) { if (settings.errorFilter === null) { return true; } return !settings.errorFilter(error); } common$3.isFatalError = isFatalError; function isAppliedFilter(filter, value) { return filter === null || filter(value); } common$3.isAppliedFilter = isAppliedFilter; function replacePathSegmentSeparator(filepath, separator) { return filepath.split(/[/\\]/).join(separator); } common$3.replacePathSegmentSeparator = replacePathSegmentSeparator; function joinPathSegments(a, b, separator) { if (a === '') { return b; } /** * The correct handling of cases when the first segment is a root (`/`, `C:/`) or UNC path (`//?/C:/`). */ if (a.endsWith(separator)) { return a + b; } return a + separator + b; } common$3.joinPathSegments = joinPathSegments; var reader$1 = {}; Object.defineProperty(reader$1, "__esModule", { value: true }); const common$2 = common$3; class Reader$1 { constructor(_root, _settings) { this._root = _root; this._settings = _settings; this._root = common$2.replacePathSegmentSeparator(_root, _settings.pathSegmentSeparator); } } reader$1.default = Reader$1; Object.defineProperty(async$2, "__esModule", { value: true }); const events_1 = require$$0__default$6["default"]; const fsScandir$2 = out$1; const fastq = queue.exports; const common$1 = common$3; const reader_1$3 = reader$1; class AsyncReader extends reader_1$3.default { constructor(_root, _settings) { super(_root, _settings); this._settings = _settings; this._scandir = fsScandir$2.scandir; this._emitter = new events_1.EventEmitter(); this._queue = fastq(this._worker.bind(this), this._settings.concurrency); this._isFatalError = false; this._isDestroyed = false; this._queue.drain = () => { if (!this._isFatalError) { this._emitter.emit('end'); } }; } read() { this._isFatalError = false; this._isDestroyed = false; setImmediate(() => { this._pushToQueue(this._root, this._settings.basePath); }); return this._emitter; } get isDestroyed() { return this._isDestroyed; } destroy() { if (this._isDestroyed) { throw new Error('The reader is already destroyed'); } this._isDestroyed = true; this._queue.killAndDrain(); } onEntry(callback) { this._emitter.on('entry', callback); } onError(callback) { this._emitter.once('error', callback); } onEnd(callback) { this._emitter.once('end', callback); } _pushToQueue(directory, base) { const queueItem = { directory, base }; this._queue.push(queueItem, error => { if (error !== null) { this._handleError(error); } }); } _worker(item, done) { this._scandir(item.directory, this._settings.fsScandirSettings, (error, entries) => { if (error !== null) { done(error, undefined); return; } for (const entry of entries) { this._handleEntry(entry, item.base); } done(null, undefined); }); } _handleError(error) { if (this._isDestroyed || !common$1.isFatalError(this._settings, error)) { return; } this._isFatalError = true; this._isDestroyed = true; this._emitter.emit('error', error); } _handleEntry(entry, base) { if (this._isDestroyed || this._isFatalError) { return; } const fullpath = entry.path; if (base !== undefined) { entry.path = common$1.joinPathSegments(base, entry.name, this._settings.pathSegmentSeparator); } if (common$1.isAppliedFilter(this._settings.entryFilter, entry)) { this._emitEntry(entry); } if (entry.dirent.isDirectory() && common$1.isAppliedFilter(this._settings.deepFilter, entry)) { this._pushToQueue(fullpath, base === undefined ? undefined : entry.path); } } _emitEntry(entry) { this._emitter.emit('entry', entry); } } async$2.default = AsyncReader; Object.defineProperty(async$3, "__esModule", { value: true }); const async_1$3 = async$2; class AsyncProvider { constructor(_root, _settings) { this._root = _root; this._settings = _settings; this._reader = new async_1$3.default(this._root, this._settings); this._storage = []; } read(callback) { this._reader.onError(error => { callFailureCallback(callback, error); }); this._reader.onEntry(entry => { this._storage.push(entry); }); this._reader.onEnd(() => { callSuccessCallback(callback, this._storage); }); this._reader.read(); } } async$3.default = AsyncProvider; function callFailureCallback(callback, error) { callback(error); } function callSuccessCallback(callback, entries) { callback(null, entries); } var stream$1 = {}; Object.defineProperty(stream$1, "__esModule", { value: true }); const stream_1$5 = require$$0__default$5["default"]; const async_1$2 = async$2; class StreamProvider { constructor(_root, _settings) { this._root = _root; this._settings = _settings; this._reader = new async_1$2.default(this._root, this._settings); this._stream = new stream_1$5.Readable({ objectMode: true, read: () => {}, destroy: () => { if (!this._reader.isDestroyed) { this._reader.destroy(); } } }); } read() { this._reader.onError(error => { this._stream.emit('error', error); }); this._reader.onEntry(entry => { this._stream.push(entry); }); this._reader.onEnd(() => { this._stream.push(null); }); this._reader.read(); return this._stream; } } stream$1.default = StreamProvider; var sync$3 = {}; var sync$2 = {}; Object.defineProperty(sync$2, "__esModule", { value: true }); const fsScandir$1 = out$1; const common = common$3; const reader_1$2 = reader$1; class SyncReader extends reader_1$2.default { constructor() { super(...arguments); this._scandir = fsScandir$1.scandirSync; this._storage = []; this._queue = new Set(); } read() { this._pushToQueue(this._root, this._settings.basePath); this._handleQueue(); return this._storage; } _pushToQueue(directory, base) { this._queue.add({ directory, base }); } _handleQueue() { for (const item of this._queue.values()) { this._handleDirectory(item.directory, item.base); } } _handleDirectory(directory, base) { try { const entries = this._scandir(directory, this._settings.fsScandirSettings); for (const entry of entries) { this._handleEntry(entry, base); } } catch (error) { this._handleError(error); } } _handleError(error) { if (!common.isFatalError(this._settings, error)) { return; } throw error; } _handleEntry(entry, base) { const fullpath = entry.path; if (base !== undefined) { entry.path = common.joinPathSegments(base, entry.name, this._settings.pathSegmentSeparator); } if (common.isAppliedFilter(this._settings.entryFilter, entry)) { this._pushToStorage(entry); } if (entry.dirent.isDirectory() && common.isAppliedFilter(this._settings.deepFilter, entry)) { this._pushToQueue(fullpath, base === undefined ? undefined : entry.path); } } _pushToStorage(entry) { this._storage.push(entry); } } sync$2.default = SyncReader; Object.defineProperty(sync$3, "__esModule", { value: true }); const sync_1$3 = sync$2; class SyncProvider { constructor(_root, _settings) { this._root = _root; this._settings = _settings; this._reader = new sync_1$3.default(this._root, this._settings); } read() { return this._reader.read(); } } sync$3.default = SyncProvider; var settings$1 = {}; Object.defineProperty(settings$1, "__esModule", { value: true }); const path$5 = require$$0__default$2["default"]; const fsScandir = out$1; class Settings { constructor(_options = {}) { this._options = _options; this.basePath = this._getValue(this._options.basePath, undefined); this.concurrency = this._getValue(this._options.concurrency, Number.POSITIVE_INFINITY); this.deepFilter = this._getValue(this._options.deepFilter, null); this.entryFilter = this._getValue(this._options.entryFilter, null); this.errorFilter = this._getValue(this._options.errorFilter, null); this.pathSegmentSeparator = this._getValue(this._options.pathSegmentSeparator, path$5.sep); this.fsScandirSettings = new fsScandir.Settings({ followSymbolicLinks: this._options.followSymbolicLinks, fs: this._options.fs, pathSegmentSeparator: this._options.pathSegmentSeparator, stats: this._options.stats, throwErrorOnBrokenSymbolicLink: this._options.throwErrorOnBrokenSymbolicLink }); } _getValue(option, value) { return option !== null && option !== void 0 ? option : value; } } settings$1.default = Settings; Object.defineProperty(out$2, "__esModule", { value: true }); out$2.Settings = out$2.walkStream = out$2.walkSync = out$2.walk = void 0; const async_1$1 = async$3; const stream_1$4 = stream$1; const sync_1$2 = sync$3; const settings_1$1 = settings$1; out$2.Settings = settings_1$1.default; function walk(directory, optionsOrSettingsOrCallback, callback) { if (typeof optionsOrSettingsOrCallback === 'function') { new async_1$1.default(directory, getSettings()).read(optionsOrSettingsOrCallback); return; } new async_1$1.default(directory, getSettings(optionsOrSettingsOrCallback)).read(callback); } out$2.walk = walk; function walkSync(directory, optionsOrSettings) { const settings = getSettings(optionsOrSettings); const provider = new sync_1$2.default(directory, settings); return provider.read(); } out$2.walkSync = walkSync; function walkStream(directory, optionsOrSettings) { const settings = getSettings(optionsOrSettings); const provider = new stream_1$4.default(directory, settings); return provider.read(); } out$2.walkStream = walkStream; function getSettings(settingsOrOptions = {}) { if (settingsOrOptions instanceof settings_1$1.default) { return settingsOrOptions; } return new settings_1$1.default(settingsOrOptions); } var reader = {}; Object.defineProperty(reader, "__esModule", { value: true }); const path$4 = require$$0__default$2["default"]; const fsStat$2 = out$3; const utils$d = utils$r; class Reader { constructor(_settings) { this._settings = _settings; this._fsStatSettings = new fsStat$2.Settings({ followSymbolicLink: this._settings.followSymbolicLinks, fs: this._settings.fs, throwErrorOnBrokenSymbolicLink: this._settings.followSymbolicLinks }); } _getFullEntryPath(filepath) { return path$4.resolve(this._settings.cwd, filepath); } _makeEntry(stats, pattern) { const entry = { name: pattern, path: pattern, dirent: utils$d.fs.createDirentFromStats(pattern, stats) }; if (this._settings.stats) { entry.stats = stats; } return entry; } _isFatalError(error) { return !utils$d.errno.isEnoentCodeError(error) && !this._settings.suppressErrors; } } reader.default = Reader; Object.defineProperty(stream$2, "__esModule", { value: true }); const stream_1$3 = require$$0__default$5["default"]; const fsStat$1 = out$3; const fsWalk$1 = out$2; const reader_1$1 = reader; class ReaderStream extends reader_1$1.default { constructor() { super(...arguments); this._walkStream = fsWalk$1.walkStream; this._stat = fsStat$1.stat; } dynamic(root, options) { return this._walkStream(root, options); } static(patterns, options) { const filepaths = patterns.map(this._getFullEntryPath, this); const stream = new stream_1$3.PassThrough({ objectMode: true }); stream._write = (index, _enc, done) => { return this._getEntry(filepaths[index], patterns[index], options).then(entry => { if (entry !== null && options.entryFilter(entry)) { stream.push(entry); } if (index === filepaths.length - 1) { stream.end(); } done(); }).catch(done); }; for (let i = 0; i < filepaths.length; i++) { stream.write(i); } return stream; } _getEntry(filepath, pattern, options) { return this._getStat(filepath).then(stats => this._makeEntry(stats, pattern)).catch(error => { if (options.errorFilter(error)) { return null; } throw error; }); } _getStat(filepath) { return new Promise((resolve, reject) => { this._stat(filepath, this._fsStatSettings, (error, stats) => { return error === null ? resolve(stats) : reject(error); }); }); } } stream$2.default = ReaderStream; var provider = {}; var deep = {}; var partial = {}; var matcher = {}; Object.defineProperty(matcher, "__esModule", { value: true }); const utils$c = utils$r; class Matcher { constructor(_patterns, _settings, _micromatchOptions) { this._patterns = _patterns; this._settings = _settings; this._micromatchOptions = _micromatchOptions; this._storage = []; this._fillStorage(); } _fillStorage() { /** * The original pattern may include `{,*,**,a/*}`, which will lead to problems with matching (unresolved level). * So, before expand patterns with brace expansion into separated patterns. */ const patterns = utils$c.pattern.expandPatternsWithBraceExpansion(this._patterns); for (const pattern of patterns) { const segments = this._getPatternSegments(pattern); const sections = this._splitSegmentsIntoSections(segments); this._storage.push({ complete: sections.length <= 1, pattern, segments, sections }); } } _getPatternSegments(pattern) { const parts = utils$c.pattern.getPatternParts(pattern, this._micromatchOptions); return parts.map(part => { const dynamic = utils$c.pattern.isDynamicPattern(part, this._settings); if (!dynamic) { return { dynamic: false, pattern: part }; } return { dynamic: true, pattern: part, patternRe: utils$c.pattern.makeRe(part, this._micromatchOptions) }; }); } _splitSegmentsIntoSections(segments) { return utils$c.array.splitWhen(segments, segment => segment.dynamic && utils$c.pattern.hasGlobStar(segment.pattern)); } } matcher.default = Matcher; Object.defineProperty(partial, "__esModule", { value: true }); const matcher_1 = matcher; class PartialMatcher extends matcher_1.default { match(filepath) { const parts = filepath.split('/'); const levels = parts.length; const patterns = this._storage.filter(info => !info.complete || info.segments.length > levels); for (const pattern of patterns) { const section = pattern.sections[0]; /** * In this case, the pattern has a globstar and we must read all directories unconditionally, * but only if the level has reached the end of the first group. * * fixtures/{a,b}/** * ^ true/false ^ always true */ if (!pattern.complete && levels > section.length) { return true; } const match = parts.every((part, index) => { const segment = pattern.segments[index]; if (segment.dynamic && segment.patternRe.test(part)) { return true; } if (!segment.dynamic && segment.pattern === part) { return true; } return false; }); if (match) { return true; } } return false; } } partial.default = PartialMatcher; Object.defineProperty(deep, "__esModule", { value: true }); const utils$b = utils$r; const partial_1 = partial; class DeepFilter { constructor(_settings, _micromatchOptions) { this._settings = _settings; this._micromatchOptions = _micromatchOptions; } getFilter(basePath, positive, negative) { const matcher = this._getMatcher(positive); const negativeRe = this._getNegativePatternsRe(negative); return entry => this._filter(basePath, entry, matcher, negativeRe); } _getMatcher(patterns) { return new partial_1.default(patterns, this._settings, this._micromatchOptions); } _getNegativePatternsRe(patterns) { const affectDepthOfReadingPatterns = patterns.filter(utils$b.pattern.isAffectDepthOfReadingPattern); return utils$b.pattern.convertPatternsToRe(affectDepthOfReadingPatterns, this._micromatchOptions); } _filter(basePath, entry, matcher, negativeRe) { if (this._isSkippedByDeep(basePath, entry.path)) { return false; } if (this._isSkippedSymbolicLink(entry)) { return false; } const filepath = utils$b.path.removeLeadingDotSegment(entry.path); if (this._isSkippedByPositivePatterns(filepath, matcher)) { return false; } return this._isSkippedByNegativePatterns(filepath, negativeRe); } _isSkippedByDeep(basePath, entryPath) { /** * Avoid unnecessary depth calculations when it doesn't matter. */ if (this._settings.deep === Infinity) { return false; } return this._getEntryLevel(basePath, entryPath) >= this._settings.deep; } _getEntryLevel(basePath, entryPath) { const entryPathDepth = entryPath.split('/').length; if (basePath === '') { return entryPathDepth; } const basePathDepth = basePath.split('/').length; return entryPathDepth - basePathDepth; } _isSkippedSymbolicLink(entry) { return !this._settings.followSymbolicLinks && entry.dirent.isSymbolicLink(); } _isSkippedByPositivePatterns(entryPath, matcher) { return !this._settings.baseNameMatch && !matcher.match(entryPath); } _isSkippedByNegativePatterns(entryPath, patternsRe) { return !utils$b.pattern.matchAny(entryPath, patternsRe); } } deep.default = DeepFilter; var entry$1 = {}; Object.defineProperty(entry$1, "__esModule", { value: true }); const utils$a = utils$r; class EntryFilter { constructor(_settings, _micromatchOptions) { this._settings = _settings; this._micromatchOptions = _micromatchOptions; this.index = new Map(); } getFilter(positive, negative) { const positiveRe = utils$a.pattern.convertPatternsToRe(positive, this._micromatchOptions); const negativeRe = utils$a.pattern.convertPatternsToRe(negative, this._micromatchOptions); return entry => this._filter(entry, positiveRe, negativeRe); } _filter(entry, positiveRe, negativeRe) { if (this._settings.unique && this._isDuplicateEntry(entry)) { return false; } if (this._onlyFileFilter(entry) || this._onlyDirectoryFilter(entry)) { return false; } if (this._isSkippedByAbsoluteNegativePatterns(entry.path, negativeRe)) { return false; } const filepath = this._settings.baseNameMatch ? entry.name : entry.path; const isMatched = this._isMatchToPatterns(filepath, positiveRe) && !this._isMatchToPatterns(entry.path, negativeRe); if (this._settings.unique && isMatched) { this._createIndexRecord(entry); } return isMatched; } _isDuplicateEntry(entry) { return this.index.has(entry.path); } _createIndexRecord(entry) { this.index.set(entry.path, undefined); } _onlyFileFilter(entry) { return this._settings.onlyFiles && !entry.dirent.isFile(); } _onlyDirectoryFilter(entry) { return this._settings.onlyDirectories && !entry.dirent.isDirectory(); } _isSkippedByAbsoluteNegativePatterns(entryPath, patternsRe) { if (!this._settings.absolute) { return false; } const fullpath = utils$a.path.makeAbsolute(this._settings.cwd, entryPath); return utils$a.pattern.matchAny(fullpath, patternsRe); } _isMatchToPatterns(entryPath, patternsRe) { const filepath = utils$a.path.removeLeadingDotSegment(entryPath); return utils$a.pattern.matchAny(filepath, patternsRe); } } entry$1.default = EntryFilter; var error$1 = {}; Object.defineProperty(error$1, "__esModule", { value: true }); const utils$9 = utils$r; class ErrorFilter { constructor(_settings) { this._settings = _settings; } getFilter() { return error => this._isNonFatalError(error); } _isNonFatalError(error) { return utils$9.errno.isEnoentCodeError(error) || this._settings.suppressErrors; } } error$1.default = ErrorFilter; var entry = {}; Object.defineProperty(entry, "__esModule", { value: true }); const utils$8 = utils$r; class EntryTransformer { constructor(_settings) { this._settings = _settings; } getTransformer() { return entry => this._transform(entry); } _transform(entry) { let filepath = entry.path; if (this._settings.absolute) { filepath = utils$8.path.makeAbsolute(this._settings.cwd, filepath); filepath = utils$8.path.unixify(filepath); } if (this._settings.markDirectories && entry.dirent.isDirectory()) { filepath += '/'; } if (!this._settings.objectMode) { return filepath; } return Object.assign(Object.assign({}, entry), { path: filepath }); } } entry.default = EntryTransformer; Object.defineProperty(provider, "__esModule", { value: true }); const path$3 = require$$0__default$2["default"]; const deep_1 = deep; const entry_1 = entry$1; const error_1 = error$1; const entry_2 = entry; class Provider { constructor(_settings) { this._settings = _settings; this.errorFilter = new error_1.default(this._settings); this.entryFilter = new entry_1.default(this._settings, this._getMicromatchOptions()); this.deepFilter = new deep_1.default(this._settings, this._getMicromatchOptions()); this.entryTransformer = new entry_2.default(this._settings); } _getRootDirectory(task) { return path$3.resolve(this._settings.cwd, task.base); } _getReaderOptions(task) { const basePath = task.base === '.' ? '' : task.base; return { basePath, pathSegmentSeparator: '/', concurrency: this._settings.concurrency, deepFilter: this.deepFilter.getFilter(basePath, task.positive, task.negative), entryFilter: this.entryFilter.getFilter(task.positive, task.negative), errorFilter: this.errorFilter.getFilter(), followSymbolicLinks: this._settings.followSymbolicLinks, fs: this._settings.fs, stats: this._settings.stats, throwErrorOnBrokenSymbolicLink: this._settings.throwErrorOnBrokenSymbolicLink, transform: this.entryTransformer.getTransformer() }; } _getMicromatchOptions() { return { dot: this._settings.dot, matchBase: this._settings.baseNameMatch, nobrace: !this._settings.braceExpansion, nocase: !this._settings.caseSensitiveMatch, noext: !this._settings.extglob, noglobstar: !this._settings.globstar, posix: true, strictSlashes: false }; } } provider.default = Provider; Object.defineProperty(async$6, "__esModule", { value: true }); const stream_1$2 = stream$2; const provider_1$2 = provider; class ProviderAsync extends provider_1$2.default { constructor() { super(...arguments); this._reader = new stream_1$2.default(this._settings); } read(task) { const root = this._getRootDirectory(task); const options = this._getReaderOptions(task); const entries = []; return new Promise((resolve, reject) => { const stream = this.api(root, task, options); stream.once('error', reject); stream.on('data', entry => entries.push(options.transform(entry))); stream.once('end', () => resolve(entries)); }); } api(root, task, options) { if (task.dynamic) { return this._reader.dynamic(root, options); } return this._reader.static(task.patterns, options); } } async$6.default = ProviderAsync; var stream = {}; Object.defineProperty(stream, "__esModule", { value: true }); const stream_1$1 = require$$0__default$5["default"]; const stream_2 = stream$2; const provider_1$1 = provider; class ProviderStream extends provider_1$1.default { constructor() { super(...arguments); this._reader = new stream_2.default(this._settings); } read(task) { const root = this._getRootDirectory(task); const options = this._getReaderOptions(task); const source = this.api(root, task, options); const destination = new stream_1$1.Readable({ objectMode: true, read: () => {} }); source.once('error', error => destination.emit('error', error)).on('data', entry => destination.emit('data', options.transform(entry))).once('end', () => destination.emit('end')); destination.once('close', () => source.destroy()); return destination; } api(root, task, options) { if (task.dynamic) { return this._reader.dynamic(root, options); } return this._reader.static(task.patterns, options); } } stream.default = ProviderStream; var sync$1 = {}; var sync = {}; Object.defineProperty(sync, "__esModule", { value: true }); const fsStat = out$3; const fsWalk = out$2; const reader_1 = reader; class ReaderSync extends reader_1.default { constructor() { super(...arguments); this._walkSync = fsWalk.walkSync; this._statSync = fsStat.statSync; } dynamic(root, options) { return this._walkSync(root, options); } static(patterns, options) { const entries = []; for (const pattern of patterns) { const filepath = this._getFullEntryPath(pattern); const entry = this._getEntry(filepath, pattern, options); if (entry === null || !options.entryFilter(entry)) { continue; } entries.push(entry); } return entries; } _getEntry(filepath, pattern, options) { try { const stats = this._getStat(filepath); return this._makeEntry(stats, pattern); } catch (error) { if (options.errorFilter(error)) { return null; } throw error; } } _getStat(filepath) { return this._statSync(filepath, this._fsStatSettings); } } sync.default = ReaderSync; Object.defineProperty(sync$1, "__esModule", { value: true }); const sync_1$1 = sync; const provider_1 = provider; class ProviderSync extends provider_1.default { constructor() { super(...arguments); this._reader = new sync_1$1.default(this._settings); } read(task) { const root = this._getRootDirectory(task); const options = this._getReaderOptions(task); const entries = this.api(root, task, options); return entries.map(options.transform); } api(root, task, options) { if (task.dynamic) { return this._reader.dynamic(root, options); } return this._reader.static(task.patterns, options); } } sync$1.default = ProviderSync; var settings = {}; (function (exports) { Object.defineProperty(exports, "__esModule", { value: true }); exports.DEFAULT_FILE_SYSTEM_ADAPTER = void 0; const fs = require$$0__default["default"]; const os = require$$0__default$1["default"]; /** * The `os.cpus` method can return zero. We expect the number of cores to be greater than zero. * https://github.com/nodejs/node/blob/7faeddf23a98c53896f8b574a6e66589e8fb1eb8/lib/os.js#L106-L107 */ const CPU_COUNT = Math.max(os.cpus().length, 1); exports.DEFAULT_FILE_SYSTEM_ADAPTER = { lstat: fs.lstat, lstatSync: fs.lstatSync, stat: fs.stat, statSync: fs.statSync, readdir: fs.readdir, readdirSync: fs.readdirSync }; class Settings { constructor(_options = {}) { this._options = _options; this.absolute = this._getValue(this._options.absolute, false); this.baseNameMatch = this._getValue(this._options.baseNameMatch, false); this.braceExpansion = this._getValue(this._options.braceExpansion, true); this.caseSensitiveMatch = this._getValue(this._options.caseSensitiveMatch, true); this.concurrency = this._getValue(this._options.concurrency, CPU_COUNT); this.cwd = this._getValue(this._options.cwd, process.cwd()); this.deep = this._getValue(this._options.deep, Infinity); this.dot = this._getValue(this._options.dot, false); this.extglob = this._getValue(this._options.extglob, true); this.followSymbolicLinks = this._getValue(this._options.followSymbolicLinks, true); this.fs = this._getFileSystemMethods(this._options.fs); this.globstar = this._getValue(this._options.globstar, true); this.ignore = this._getValue(this._options.ignore, []); this.markDirectories = this._getValue(this._options.markDirectories, false); this.objectMode = this._getValue(this._options.objectMode, false); this.onlyDirectories = this._getValue(this._options.onlyDirectories, false); this.onlyFiles = this._getValue(this._options.onlyFiles, true); this.stats = this._getValue(this._options.stats, false); this.suppressErrors = this._getValue(this._options.suppressErrors, false); this.throwErrorOnBrokenSymbolicLink = this._getValue(this._options.throwErrorOnBrokenSymbolicLink, false); this.unique = this._getValue(this._options.unique, true); if (this.onlyDirectories) { this.onlyFiles = false; } if (this.stats) { this.objectMode = true; } } _getValue(option, value) { return option === undefined ? value : option; } _getFileSystemMethods(methods = {}) { return Object.assign(Object.assign({}, exports.DEFAULT_FILE_SYSTEM_ADAPTER), methods); } } exports.default = Settings; })(settings); const taskManager = tasks; const async_1 = async$6; const stream_1 = stream; const sync_1 = sync$1; const settings_1 = settings; const utils$7 = utils$r; async function FastGlob(source, options) { assertPatternsInput$1(source); const works = getWorks(source, async_1.default, options); const result = await Promise.all(works); return utils$7.array.flatten(result); } // https://github.com/typescript-eslint/typescript-eslint/issues/60 // eslint-disable-next-line no-redeclare (function (FastGlob) { function sync(source, options) { assertPatternsInput$1(source); const works = getWorks(source, sync_1.default, options); return utils$7.array.flatten(works); } FastGlob.sync = sync; function stream(source, options) { assertPatternsInput$1(source); const works = getWorks(source, stream_1.default, options); /** * The stream returned by the provider cannot work with an asynchronous iterator. * To support asynchronous iterators, regardless of the number of tasks, we always multiplex streams. * This affects performance (+25%). I don't see best solution right now. */ return utils$7.stream.merge(works); } FastGlob.stream = stream; function generateTasks(source, options) { assertPatternsInput$1(source); const patterns = [].concat(source); const settings = new settings_1.default(options); return taskManager.generate(patterns, settings); } FastGlob.generateTasks = generateTasks; function isDynamicPattern(source, options) { assertPatternsInput$1(source); const settings = new settings_1.default(options); return utils$7.pattern.isDynamicPattern(source, settings); } FastGlob.isDynamicPattern = isDynamicPattern; function escapePath(source) { assertPatternsInput$1(source); return utils$7.path.escape(source); } FastGlob.escapePath = escapePath; })(FastGlob || (FastGlob = {})); function getWorks(source, _Provider, options) { const patterns = [].concat(source); const settings = new settings_1.default(options); const tasks = taskManager.generate(patterns, settings); const provider = new _Provider(settings); return tasks.map(provider.read, provider); } function assertPatternsInput$1(input) { const source = [].concat(input); const isValidSource = source.every(item => utils$7.string.isString(item) && !utils$7.string.isEmpty(item)); if (!isValidSource) { throw new TypeError('Patterns must be a string (non empty) or an array of strings'); } } var out = FastGlob; var dirGlob$1 = {exports: {}}; var pathType$1 = {}; const { promisify: promisify$1 } = require$$0__default$4["default"]; const fs$3 = require$$0__default["default"]; async function isType(fsStatType, statsMethodName, filePath) { if (typeof filePath !== 'string') { throw new TypeError(`Expected a string, got ${typeof filePath}`); } try { const stats = await promisify$1(fs$3[fsStatType])(filePath); return stats[statsMethodName](); } catch (error) { if (error.code === 'ENOENT') { return false; } throw error; } } function isTypeSync(fsStatType, statsMethodName, filePath) { if (typeof filePath !== 'string') { throw new TypeError(`Expected a string, got ${typeof filePath}`); } try { return fs$3[fsStatType](filePath)[statsMethodName](); } catch (error) { if (error.code === 'ENOENT') { return false; } throw error; } } pathType$1.isFile = isType.bind(null, 'stat', 'isFile'); pathType$1.isDirectory = isType.bind(null, 'stat', 'isDirectory'); pathType$1.isSymlink = isType.bind(null, 'lstat', 'isSymbolicLink'); pathType$1.isFileSync = isTypeSync.bind(null, 'statSync', 'isFile'); pathType$1.isDirectorySync = isTypeSync.bind(null, 'statSync', 'isDirectory'); pathType$1.isSymlinkSync = isTypeSync.bind(null, 'lstatSync', 'isSymbolicLink'); const path$2 = require$$0__default$2["default"]; const pathType = pathType$1; const getExtensions = extensions => extensions.length > 1 ? `{${extensions.join(',')}}` : extensions[0]; const getPath = (filepath, cwd) => { const pth = filepath[0] === '!' ? filepath.slice(1) : filepath; return path$2.isAbsolute(pth) ? pth : path$2.join(cwd, pth); }; const addExtensions = (file, extensions) => { if (path$2.extname(file)) { return `**/${file}`; } return `**/${file}.${getExtensions(extensions)}`; }; const getGlob = (directory, options) => { if (options.files && !Array.isArray(options.files)) { throw new TypeError(`Expected \`files\` to be of type \`Array\` but received type \`${typeof options.files}\``); } if (options.extensions && !Array.isArray(options.extensions)) { throw new TypeError(`Expected \`extensions\` to be of type \`Array\` but received type \`${typeof options.extensions}\``); } if (options.files && options.extensions) { return options.files.map(x => path$2.posix.join(directory, addExtensions(x, options.extensions))); } if (options.files) { return options.files.map(x => path$2.posix.join(directory, `**/${x}`)); } if (options.extensions) { return [path$2.posix.join(directory, `**/*.${getExtensions(options.extensions)}`)]; } return [path$2.posix.join(directory, '**')]; }; dirGlob$1.exports = async (input, options) => { options = Object.assign({ cwd: process.cwd() }, options); if (typeof options.cwd !== 'string') { throw new TypeError(`Expected \`cwd\` to be of type \`string\` but received type \`${typeof options.cwd}\``); } const globs = await Promise.all([].concat(input).map(async x => { const isDirectory = await pathType.isDirectory(getPath(x, options.cwd)); return isDirectory ? getGlob(x, options) : x; })); return [].concat.apply([], globs); // eslint-disable-line prefer-spread }; dirGlob$1.exports.sync = (input, options) => { options = Object.assign({ cwd: process.cwd() }, options); if (typeof options.cwd !== 'string') { throw new TypeError(`Expected \`cwd\` to be of type \`string\` but received type \`${typeof options.cwd}\``); } const globs = [].concat(input).map(x => pathType.isDirectorySync(getPath(x, options.cwd)) ? getGlob(x, options) : x); return [].concat.apply([], globs); // eslint-disable-line prefer-spread }; var gitignore$1 = {exports: {}}; function makeArray(subject) { return Array.isArray(subject) ? subject : [subject]; } const EMPTY = ''; const SPACE = ' '; const ESCAPE = '\\'; const REGEX_TEST_BLANK_LINE = /^\s+$/; const REGEX_REPLACE_LEADING_EXCAPED_EXCLAMATION = /^\\!/; const REGEX_REPLACE_LEADING_EXCAPED_HASH = /^\\#/; const REGEX_SPLITALL_CRLF = /\r?\n/g; // /foo, // ./foo, // ../foo, // . // .. const REGEX_TEST_INVALID_PATH = /^\.*\/|^\.+$/; const SLASH = '/'; const KEY_IGNORE = typeof Symbol !== 'undefined' ? Symbol.for('node-ignore') /* istanbul ignore next */ : 'node-ignore'; const define = (object, key, value) => Object.defineProperty(object, key, { value }); const REGEX_REGEXP_RANGE = /([0-z])-([0-z])/g; // Sanitize the range of a regular expression // The cases are complicated, see test cases for details const sanitizeRange = range => range.replace(REGEX_REGEXP_RANGE, (match, from, to) => from.charCodeAt(0) <= to.charCodeAt(0) ? match // Invalid range (out of order) which is ok for gitignore rules but // fatal for JavaScript regular expression, so eliminate it. : EMPTY); // See fixtures #59 const cleanRangeBackSlash = slashes => { const { length } = slashes; return slashes.slice(0, length - length % 2); }; // > If the pattern ends with a slash, // > it is removed for the purpose of the following description, // > but it would only find a match with a directory. // > In other words, foo/ will match a directory foo and paths underneath it, // > but will not match a regular file or a symbolic link foo // > (this is consistent with the way how pathspec works in general in Git). // '`foo/`' will not match regular file '`foo`' or symbolic link '`foo`' // -> ignore-rules will not deal with it, because it costs extra `fs.stat` call // you could use option `mark: true` with `glob` // '`foo/`' should not continue with the '`..`' const REPLACERS = [// > Trailing spaces are ignored unless they are quoted with backslash ("\") [// (a\ ) -> (a ) // (a ) -> (a) // (a \ ) -> (a ) /\\?\s+$/, match => match.indexOf('\\') === 0 ? SPACE : EMPTY], // replace (\ ) with ' ' [/\\\s/g, () => SPACE], // Escape metacharacters // which is written down by users but means special for regular expressions. // > There are 12 characters with special meanings: // > - the backslash \, // > - the caret ^, // > - the dollar sign $, // > - the period or dot ., // > - the vertical bar or pipe symbol |, // > - the question mark ?, // > - the asterisk or star *, // > - the plus sign +, // > - the opening parenthesis (, // > - the closing parenthesis ), // > - and the opening square bracket [, // > - the opening curly brace {, // > These special characters are often called "metacharacters". [/[\\$.|*+(){^]/g, match => `\\${match}`], [// > a question mark (?) matches a single character /(?!\\)\?/g, () => '[^/]'], // leading slash [// > A leading slash matches the beginning of the pathname. // > For example, "/*.c" matches "cat-file.c" but not "mozilla-sha1/sha1.c". // A leading slash matches the beginning of the pathname /^\//, () => '^'], // replace special metacharacter slash after the leading slash [/\//g, () => '\\/'], [// > A leading "**" followed by a slash means match in all directories. // > For example, "**/foo" matches file or directory "foo" anywhere, // > the same as pattern "foo". // > "**/foo/bar" matches file or directory "bar" anywhere that is directly // > under directory "foo". // Notice that the '*'s have been replaced as '\\*' /^\^*\\\*\\\*\\\//, // '**/foo' <-> 'foo' () => '^(?:.*\\/)?'], // starting [// there will be no leading '/' // (which has been replaced by section "leading slash") // If starts with '**', adding a '^' to the regular expression also works /^(?=[^^])/, function startingReplacer() { // If has a slash `/` at the beginning or middle return !/\/(?!$)/.test(this) // > Prior to 2.22.1 // > If the pattern does not contain a slash /, // > Git treats it as a shell glob pattern // Actually, if there is only a trailing slash, // git also treats it as a shell glob pattern // After 2.22.1 (compatible but clearer) // > If there is a separator at the beginning or middle (or both) // > of the pattern, then the pattern is relative to the directory // > level of the particular .gitignore file itself. // > Otherwise the pattern may also match at any level below // > the .gitignore level. ? '(?:^|\\/)' // > Otherwise, Git treats the pattern as a shell glob suitable for // > consumption by fnmatch(3) : '^'; }], // two globstars [// Use lookahead assertions so that we could match more than one `'/**'` /\\\/\\\*\\\*(?=\\\/|$)/g, // Zero, one or several directories // should not use '*', or it will be replaced by the next replacer // Check if it is not the last `'/**'` (_, index, str) => index + 6 < str.length // case: /**/ // > A slash followed by two consecutive asterisks then a slash matches // > zero or more directories. // > For example, "a/**/b" matches "a/b", "a/x/b", "a/x/y/b" and so on. // '/**/' ? '(?:\\/[^\\/]+)*' // case: /** // > A trailing `"/**"` matches everything inside. // #21: everything inside but it should not include the current folder : '\\/.+'], // intermediate wildcards [// Never replace escaped '*' // ignore rule '\*' will match the path '*' // 'abc.*/' -> go // 'abc.*' -> skip this rule /(^|[^\\]+)\\\*(?=.+)/g, // '*.js' matches '.js' // '*.js' doesn't match 'abc' (_, p1) => `${p1}[^\\/]*`], [// unescape, revert step 3 except for back slash // For example, if a user escape a '\\*', // after step 3, the result will be '\\\\\\*' /\\\\\\(?=[$.|*+(){^])/g, () => ESCAPE], [// '\\\\' -> '\\' /\\\\/g, () => ESCAPE], [// > The range notation, e.g. [a-zA-Z], // > can be used to match one of the characters in a range. // `\` is escaped by step 3 /(\\)?\[([^\]/]*?)(\\*)($|\])/g, (match, leadEscape, range, endEscape, close) => leadEscape === ESCAPE // '\\[bar]' -> '\\\\[bar\\]' ? `\\[${range}${cleanRangeBackSlash(endEscape)}${close}` : close === ']' ? endEscape.length % 2 === 0 // A normal case, and it is a range notation // '[bar]' // '[bar\\\\]' ? `[${sanitizeRange(range)}${endEscape}]` // Invalid range notaton // '[bar\\]' -> '[bar\\\\]' : '[]' : '[]'], // ending [// 'js' will not match 'js.' // 'ab' will not match 'abc' /(?:[^*])$/, // WTF! // https://git-scm.com/docs/gitignore // changes in [2.22.1](https://git-scm.com/docs/gitignore/2.22.1) // which re-fixes #24, #38 // > If there is a separator at the end of the pattern then the pattern // > will only match directories, otherwise the pattern can match both // > files and directories. // 'js*' will not match 'a.js' // 'js/' will not match 'a.js' // 'js' will match 'a.js' and 'a.js/' match => /\/$/.test(match) // foo/ will not match 'foo' ? `${match}$` // foo matches 'foo' and 'foo/' : `${match}(?=$|\\/$)`], // trailing wildcard [/(\^|\\\/)?\\\*$/, (_, p1) => { const prefix = p1 // '\^': // '/*' does not match EMPTY // '/*' does not match everything // '\\\/': // 'abc/*' does not match 'abc/' ? `${p1}[^/]+` // 'a*' matches 'a' // 'a*' matches 'aa' : '[^/]*'; return `${prefix}(?=$|\\/$)`; }]]; // A simple cache, because an ignore rule only has only one certain meaning const regexCache = Object.create(null); // @param {pattern} const makeRegex = (pattern, ignorecase) => { let source = regexCache[pattern]; if (!source) { source = REPLACERS.reduce((prev, current) => prev.replace(current[0], current[1].bind(pattern)), pattern); regexCache[pattern] = source; } return ignorecase ? new RegExp(source, 'i') : new RegExp(source); }; const isString = subject => typeof subject === 'string'; // > A blank line matches no files, so it can serve as a separator for readability. const checkPattern = pattern => pattern && isString(pattern) && !REGEX_TEST_BLANK_LINE.test(pattern) // > A line starting with # serves as a comment. && pattern.indexOf('#') !== 0; const splitPattern = pattern => pattern.split(REGEX_SPLITALL_CRLF); class IgnoreRule { constructor(origin, pattern, negative, regex) { this.origin = origin; this.pattern = pattern; this.negative = negative; this.regex = regex; } } const createRule = (pattern, ignorecase) => { const origin = pattern; let negative = false; // > An optional prefix "!" which negates the pattern; if (pattern.indexOf('!') === 0) { negative = true; pattern = pattern.substr(1); } pattern = pattern // > Put a backslash ("\") in front of the first "!" for patterns that // > begin with a literal "!", for example, `"\!important!.txt"`. .replace(REGEX_REPLACE_LEADING_EXCAPED_EXCLAMATION, '!') // > Put a backslash ("\") in front of the first hash for patterns that // > begin with a hash. .replace(REGEX_REPLACE_LEADING_EXCAPED_HASH, '#'); const regex = makeRegex(pattern, ignorecase); return new IgnoreRule(origin, pattern, negative, regex); }; const throwError = (message, Ctor) => { throw new Ctor(message); }; const checkPath = (path, originalPath, doThrow) => { if (!isString(path)) { return doThrow(`path must be a string, but got \`${originalPath}\``, TypeError); } // We don't know if we should ignore EMPTY, so throw if (!path) { return doThrow(`path must not be empty`, TypeError); } // Check if it is a relative path if (checkPath.isNotRelative(path)) { const r = '`path.relative()`d'; return doThrow(`path should be a ${r} string, but got "${originalPath}"`, RangeError); } return true; }; const isNotRelative = path => REGEX_TEST_INVALID_PATH.test(path); checkPath.isNotRelative = isNotRelative; checkPath.convert = p => p; class Ignore { constructor({ ignorecase = true } = {}) { define(this, KEY_IGNORE, true); this._rules = []; this._ignorecase = ignorecase; this._initCache(); } _initCache() { this._ignoreCache = Object.create(null); this._testCache = Object.create(null); } _addPattern(pattern) { // #32 if (pattern && pattern[KEY_IGNORE]) { this._rules = this._rules.concat(pattern._rules); this._added = true; return; } if (checkPattern(pattern)) { const rule = createRule(pattern, this._ignorecase); this._added = true; this._rules.push(rule); } } // @param {Array | string | Ignore} pattern add(pattern) { this._added = false; makeArray(isString(pattern) ? splitPattern(pattern) : pattern).forEach(this._addPattern, this); // Some rules have just added to the ignore, // making the behavior changed. if (this._added) { this._initCache(); } return this; } // legacy addPattern(pattern) { return this.add(pattern); } // | ignored : unignored // negative | 0:0 | 0:1 | 1:0 | 1:1 // -------- | ------- | ------- | ------- | -------- // 0 | TEST | TEST | SKIP | X // 1 | TESTIF | SKIP | TEST | X // - SKIP: always skip // - TEST: always test // - TESTIF: only test if checkUnignored // - X: that never happen // @param {boolean} whether should check if the path is unignored, // setting `checkUnignored` to `false` could reduce additional // path matching. // @returns {TestResult} true if a file is ignored _testOne(path, checkUnignored) { let ignored = false; let unignored = false; this._rules.forEach(rule => { const { negative } = rule; if (unignored === negative && ignored !== unignored || negative && !ignored && !unignored && !checkUnignored) { return; } const matched = rule.regex.test(path); if (matched) { ignored = !negative; unignored = negative; } }); return { ignored, unignored }; } // @returns {TestResult} _test(originalPath, cache, checkUnignored, slices) { const path = originalPath // Supports nullable path && checkPath.convert(originalPath); checkPath(path, originalPath, throwError); return this._t(path, cache, checkUnignored, slices); } _t(path, cache, checkUnignored, slices) { if (path in cache) { return cache[path]; } if (!slices) { // path/to/a.js // ['path', 'to', 'a.js'] slices = path.split(SLASH); } slices.pop(); // If the path has no parent directory, just test it if (!slices.length) { return cache[path] = this._testOne(path, checkUnignored); } const parent = this._t(slices.join(SLASH) + SLASH, cache, checkUnignored, slices); // If the path contains a parent directory, check the parent first return cache[path] = parent.ignored // > It is not possible to re-include a file if a parent directory of // > that file is excluded. ? parent : this._testOne(path, checkUnignored); } ignores(path) { return this._test(path, this._ignoreCache, false).ignored; } createFilter() { return path => !this.ignores(path); } filter(paths) { return makeArray(paths).filter(this.createFilter()); } // @returns {TestResult} test(path) { return this._test(path, this._testCache, true); } } const factory = options => new Ignore(options); const returnFalse = () => false; const isPathValid = path => checkPath(path && checkPath.convert(path), path, returnFalse); factory.isPathValid = isPathValid; // Fixes typescript factory.default = factory; var ignore = factory; // Windows // -------------------------------------------------------------- /* istanbul ignore if */ if ( // Detect `process` so that it can run in browsers. typeof process !== 'undefined' && (process.env && process.env.IGNORE_TEST_WIN32 || process.platform === 'win32')) { /* eslint no-control-regex: "off" */ const makePosix = str => /^\\\\\?\\/.test(str) || /["<>|\u0000-\u001F]+/u.test(str) ? str : str.replace(/\\/g, '/'); checkPath.convert = makePosix; // 'C:\\foo' <- 'C:\\foo' has been converted to 'C:/' // 'd:\\foo' const REGIX_IS_WINDOWS_PATH_ABSOLUTE = /^[a-z]:\//i; checkPath.isNotRelative = path => REGIX_IS_WINDOWS_PATH_ABSOLUTE.test(path) || isNotRelative(path); } var slash$1 = path => { const isExtendedLengthPath = /^\\\\\?\\/.test(path); const hasNonAscii = /[^\u0000-\u0080]+/.test(path); // eslint-disable-line no-control-regex if (isExtendedLengthPath || hasNonAscii) { return path; } return path.replace(/\\/g, '/'); }; const { promisify } = require$$0__default$4["default"]; const fs$2 = require$$0__default["default"]; const path$1 = require$$0__default$2["default"]; const fastGlob$1 = out; const gitIgnore = ignore; const slash = slash$1; const DEFAULT_IGNORE = ['**/node_modules/**', '**/flow-typed/**', '**/coverage/**', '**/.git']; const readFileP = promisify(fs$2.readFile); const mapGitIgnorePatternTo = base => ignore => { if (ignore.startsWith('!')) { return '!' + path$1.posix.join(base, ignore.slice(1)); } return path$1.posix.join(base, ignore); }; const parseGitIgnore = (content, options) => { const base = slash(path$1.relative(options.cwd, path$1.dirname(options.fileName))); return content.split(/\r?\n/).filter(Boolean).filter(line => !line.startsWith('#')).map(mapGitIgnorePatternTo(base)); }; const reduceIgnore = files => { const ignores = gitIgnore(); for (const file of files) { ignores.add(parseGitIgnore(file.content, { cwd: file.cwd, fileName: file.filePath })); } return ignores; }; const ensureAbsolutePathForCwd = (cwd, p) => { cwd = slash(cwd); if (path$1.isAbsolute(p)) { if (slash(p).startsWith(cwd)) { return p; } throw new Error(`Path ${p} is not in cwd ${cwd}`); } return path$1.join(cwd, p); }; const getIsIgnoredPredecate = (ignores, cwd) => { return p => ignores.ignores(slash(path$1.relative(cwd, ensureAbsolutePathForCwd(cwd, p.path || p)))); }; const getFile = async (file, cwd) => { const filePath = path$1.join(cwd, file); const content = await readFileP(filePath, 'utf8'); return { cwd, filePath, content }; }; const getFileSync = (file, cwd) => { const filePath = path$1.join(cwd, file); const content = fs$2.readFileSync(filePath, 'utf8'); return { cwd, filePath, content }; }; const normalizeOptions = ({ ignore = [], cwd = slash(process.cwd()) } = {}) => { return { ignore, cwd }; }; gitignore$1.exports = async options => { options = normalizeOptions(options); const paths = await fastGlob$1('**/.gitignore', { ignore: DEFAULT_IGNORE.concat(options.ignore), cwd: options.cwd }); const files = await Promise.all(paths.map(file => getFile(file, options.cwd))); const ignores = reduceIgnore(files); return getIsIgnoredPredecate(ignores, options.cwd); }; gitignore$1.exports.sync = options => { options = normalizeOptions(options); const paths = fastGlob$1.sync('**/.gitignore', { ignore: DEFAULT_IGNORE.concat(options.ignore), cwd: options.cwd }); const files = paths.map(file => getFileSync(file, options.cwd)); const ignores = reduceIgnore(files); return getIsIgnoredPredecate(ignores, options.cwd); }; const { Transform } = require$$0__default$5["default"]; class ObjectTransform extends Transform { constructor() { super({ objectMode: true }); } } class FilterStream$1 extends ObjectTransform { constructor(filter) { super(); this._filter = filter; } _transform(data, encoding, callback) { if (this._filter(data)) { this.push(data); } callback(); } } class UniqueStream$1 extends ObjectTransform { constructor() { super(); this._pushed = new Set(); } _transform(data, encoding, callback) { if (!this._pushed.has(data)) { this.push(data); this._pushed.add(data); } callback(); } } var streamUtils = { FilterStream: FilterStream$1, UniqueStream: UniqueStream$1 }; const fs$1 = require$$0__default["default"]; const arrayUnion = arrayUnion$1; const merge2 = merge2_1; const fastGlob = out; const dirGlob = dirGlob$1.exports; const gitignore = gitignore$1.exports; const { FilterStream, UniqueStream } = streamUtils; const DEFAULT_FILTER = () => false; const isNegative = pattern => pattern[0] === '!'; const assertPatternsInput = patterns => { if (!patterns.every(pattern => typeof pattern === 'string')) { throw new TypeError('Patterns must be a string or an array of strings'); } }; const checkCwdOption = (options = {}) => { if (!options.cwd) { return; } let stat; try { stat = fs$1.statSync(options.cwd); } catch { return; } if (!stat.isDirectory()) { throw new Error('The `cwd` option must be a path to a directory'); } }; const getPathString = p => p.stats instanceof fs$1.Stats ? p.path : p; const generateGlobTasks = (patterns, taskOptions) => { patterns = arrayUnion([].concat(patterns)); assertPatternsInput(patterns); checkCwdOption(taskOptions); const globTasks = []; taskOptions = Object.assign({ ignore: [], expandDirectories: true }, taskOptions); for (const [index, pattern] of patterns.entries()) { if (isNegative(pattern)) { continue; } const ignore = patterns.slice(index).filter(pattern => isNegative(pattern)).map(pattern => pattern.slice(1)); const options = Object.assign(Object.assign({}, taskOptions), {}, { ignore: taskOptions.ignore.concat(ignore) }); globTasks.push({ pattern, options }); } return globTasks; }; const globDirs = (task, fn) => { let options = {}; if (task.options.cwd) { options.cwd = task.options.cwd; } if (Array.isArray(task.options.expandDirectories)) { options = Object.assign(Object.assign({}, options), {}, { files: task.options.expandDirectories }); } else if (typeof task.options.expandDirectories === 'object') { options = Object.assign(Object.assign({}, options), task.options.expandDirectories); } return fn(task.pattern, options); }; const getPattern = (task, fn) => task.options.expandDirectories ? globDirs(task, fn) : [task.pattern]; const getFilterSync = options => { return options && options.gitignore ? gitignore.sync({ cwd: options.cwd, ignore: options.ignore }) : DEFAULT_FILTER; }; const globToTask = task => glob => { const { options } = task; if (options.ignore && Array.isArray(options.ignore) && options.expandDirectories) { options.ignore = dirGlob.sync(options.ignore); } return { pattern: glob, options }; }; globby$2.exports = async (patterns, options) => { const globTasks = generateGlobTasks(patterns, options); const getFilter = async () => { return options && options.gitignore ? gitignore({ cwd: options.cwd, ignore: options.ignore }) : DEFAULT_FILTER; }; const getTasks = async () => { const tasks = await Promise.all(globTasks.map(async task => { const globs = await getPattern(task, dirGlob); return Promise.all(globs.map(globToTask(task))); })); return arrayUnion(...tasks); }; const [filter, tasks] = await Promise.all([getFilter(), getTasks()]); const paths = await Promise.all(tasks.map(task => fastGlob(task.pattern, task.options))); return arrayUnion(...paths).filter(path_ => !filter(getPathString(path_))); }; globby$2.exports.sync = (patterns, options) => { const globTasks = generateGlobTasks(patterns, options); const tasks = []; for (const task of globTasks) { const newTask = getPattern(task, dirGlob.sync).map(globToTask(task)); tasks.push(...newTask); } const filter = getFilterSync(options); let matches = []; for (const task of tasks) { matches = arrayUnion(matches, fastGlob.sync(task.pattern, task.options)); } return matches.filter(path_ => !filter(path_)); }; globby$2.exports.stream = (patterns, options) => { const globTasks = generateGlobTasks(patterns, options); const tasks = []; for (const task of globTasks) { const newTask = getPattern(task, dirGlob.sync).map(globToTask(task)); tasks.push(...newTask); } const filter = getFilterSync(options); const filterStream = new FilterStream(p => !filter(p)); const uniqueStream = new UniqueStream(); return merge2(tasks.map(task => fastGlob.stream(task.pattern, task.options))).pipe(filterStream).pipe(uniqueStream); }; globby$2.exports.generateGlobTasks = generateGlobTasks; globby$2.exports.hasMagic = (patterns, options) => [].concat(patterns).some(pattern => fastGlob.isDynamicPattern(pattern, options)); globby$2.exports.gitignore = gitignore; const _excluded = ["languageId"]; var createLanguage$7 = function (linguistData, override) { const { languageId } = linguistData, rest = _objectWithoutProperties(linguistData, _excluded); return Object.assign(Object.assign({ linguistLanguageId: languageId }, rest), override(linguistData)); }; var utils$6 = {}; var ast = {exports: {}}; /* Copyright (C) 2013 Yusuke Suzuki Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS 'AS IS' AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ (function () { function isExpression(node) { if (node == null) { return false; } switch (node.type) { case 'ArrayExpression': case 'AssignmentExpression': case 'BinaryExpression': case 'CallExpression': case 'ConditionalExpression': case 'FunctionExpression': case 'Identifier': case 'Literal': case 'LogicalExpression': case 'MemberExpression': case 'NewExpression': case 'ObjectExpression': case 'SequenceExpression': case 'ThisExpression': case 'UnaryExpression': case 'UpdateExpression': return true; } return false; } function isIterationStatement(node) { if (node == null) { return false; } switch (node.type) { case 'DoWhileStatement': case 'ForInStatement': case 'ForStatement': case 'WhileStatement': return true; } return false; } function isStatement(node) { if (node == null) { return false; } switch (node.type) { case 'BlockStatement': case 'BreakStatement': case 'ContinueStatement': case 'DebuggerStatement': case 'DoWhileStatement': case 'EmptyStatement': case 'ExpressionStatement': case 'ForInStatement': case 'ForStatement': case 'IfStatement': case 'LabeledStatement': case 'ReturnStatement': case 'SwitchStatement': case 'ThrowStatement': case 'TryStatement': case 'VariableDeclaration': case 'WhileStatement': case 'WithStatement': return true; } return false; } function isSourceElement(node) { return isStatement(node) || node != null && node.type === 'FunctionDeclaration'; } function trailingStatement(node) { switch (node.type) { case 'IfStatement': if (node.alternate != null) { return node.alternate; } return node.consequent; case 'LabeledStatement': case 'ForStatement': case 'ForInStatement': case 'WhileStatement': case 'WithStatement': return node.body; } return null; } function isProblematicIfStatement(node) { var current; if (node.type !== 'IfStatement') { return false; } if (node.alternate == null) { return false; } current = node.consequent; do { if (current.type === 'IfStatement') { if (current.alternate == null) { return true; } } current = trailingStatement(current); } while (current); return false; } ast.exports = { isExpression: isExpression, isStatement: isStatement, isIterationStatement: isIterationStatement, isSourceElement: isSourceElement, isProblematicIfStatement: isProblematicIfStatement, trailingStatement: trailingStatement }; })(); var code = {exports: {}}; /* Copyright (C) 2013-2014 Yusuke Suzuki Copyright (C) 2014 Ivan Nikulin Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ (function () { var ES6Regex, ES5Regex, NON_ASCII_WHITESPACES, IDENTIFIER_START, IDENTIFIER_PART, ch; // See `tools/generate-identifier-regex.js`. ES5Regex = { // ECMAScript 5.1/Unicode v9.0.0 NonAsciiIdentifierStart: NonAsciiIdentifierStart: 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// ECMAScript 6/Unicode v9.0.0 NonAsciiIdentifierPart: NonAsciiIdentifierPart: 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}; function isDecimalDigit(ch) { return 0x30 <= ch && ch <= 0x39; // 0..9 } function isHexDigit(ch) { return 0x30 <= ch && ch <= 0x39 || // 0..9 0x61 <= ch && ch <= 0x66 || // a..f 0x41 <= ch && ch <= 0x46; // A..F } function isOctalDigit(ch) { return ch >= 0x30 && ch <= 0x37; // 0..7 } // 7.2 White Space NON_ASCII_WHITESPACES = [0x1680, 0x2000, 0x2001, 0x2002, 0x2003, 0x2004, 0x2005, 0x2006, 0x2007, 0x2008, 0x2009, 0x200A, 0x202F, 0x205F, 0x3000, 0xFEFF]; function isWhiteSpace(ch) { return ch === 0x20 || ch === 0x09 || ch === 0x0B || ch === 0x0C || ch === 0xA0 || ch >= 0x1680 && NON_ASCII_WHITESPACES.indexOf(ch) >= 0; } // 7.3 Line Terminators function isLineTerminator(ch) { return ch === 0x0A || ch === 0x0D || ch === 0x2028 || ch === 0x2029; } // 7.6 Identifier Names and Identifiers function fromCodePoint(cp) { if (cp <= 0xFFFF) { return String.fromCharCode(cp); } var cu1 = String.fromCharCode(Math.floor((cp - 0x10000) / 0x400) + 0xD800); var cu2 = String.fromCharCode((cp - 0x10000) % 0x400 + 0xDC00); return cu1 + cu2; } IDENTIFIER_START = new Array(0x80); for (ch = 0; ch < 0x80; ++ch) { IDENTIFIER_START[ch] = ch >= 0x61 && ch <= 0x7A || // a..z ch >= 0x41 && ch <= 0x5A || // A..Z ch === 0x24 || ch === 0x5F; // $ (dollar) and _ (underscore) } IDENTIFIER_PART = new Array(0x80); for (ch = 0; ch < 0x80; ++ch) { IDENTIFIER_PART[ch] = ch >= 0x61 && ch <= 0x7A || // a..z ch >= 0x41 && ch <= 0x5A || // A..Z ch >= 0x30 && ch <= 0x39 || // 0..9 ch === 0x24 || ch === 0x5F; // $ (dollar) and _ (underscore) } function isIdentifierStartES5(ch) { return ch < 0x80 ? IDENTIFIER_START[ch] : ES5Regex.NonAsciiIdentifierStart.test(fromCodePoint(ch)); } function isIdentifierPartES5(ch) { return ch < 0x80 ? IDENTIFIER_PART[ch] : ES5Regex.NonAsciiIdentifierPart.test(fromCodePoint(ch)); } function isIdentifierStartES6(ch) { return ch < 0x80 ? IDENTIFIER_START[ch] : ES6Regex.NonAsciiIdentifierStart.test(fromCodePoint(ch)); } function isIdentifierPartES6(ch) { return ch < 0x80 ? IDENTIFIER_PART[ch] : ES6Regex.NonAsciiIdentifierPart.test(fromCodePoint(ch)); } code.exports = { isDecimalDigit: isDecimalDigit, isHexDigit: isHexDigit, isOctalDigit: isOctalDigit, isWhiteSpace: isWhiteSpace, isLineTerminator: isLineTerminator, isIdentifierStartES5: isIdentifierStartES5, isIdentifierPartES5: isIdentifierPartES5, isIdentifierStartES6: isIdentifierStartES6, isIdentifierPartES6: isIdentifierPartES6 }; })(); var keyword = {exports: {}}; /* Copyright (C) 2013 Yusuke Suzuki Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ (function () { var code$1 = code.exports; function isStrictModeReservedWordES6(id) { switch (id) { case 'implements': case 'interface': case 'package': case 'private': case 'protected': case 'public': case 'static': case 'let': return true; default: return false; } } function isKeywordES5(id, strict) { // yield should not be treated as keyword under non-strict mode. if (!strict && id === 'yield') { return false; } return isKeywordES6(id, strict); } function isKeywordES6(id, strict) { if (strict && isStrictModeReservedWordES6(id)) { return true; } switch (id.length) { case 2: return id === 'if' || id === 'in' || id === 'do'; case 3: return id === 'var' || id === 'for' || id === 'new' || id === 'try'; case 4: return id === 'this' || id === 'else' || id === 'case' || id === 'void' || id === 'with' || id === 'enum'; case 5: return id === 'while' || id === 'break' || id === 'catch' || id === 'throw' || id === 'const' || id === 'yield' || id === 'class' || id === 'super'; case 6: return id === 'return' || id === 'typeof' || id === 'delete' || id === 'switch' || id === 'export' || id === 'import'; case 7: return id === 'default' || id === 'finally' || id === 'extends'; case 8: return id === 'function' || id === 'continue' || id === 'debugger'; case 10: return id === 'instanceof'; default: return false; } } function isReservedWordES5(id, strict) { return id === 'null' || id === 'true' || id === 'false' || isKeywordES5(id, strict); } function isReservedWordES6(id, strict) { return id === 'null' || id === 'true' || id === 'false' || isKeywordES6(id, strict); } function isRestrictedWord(id) { return id === 'eval' || id === 'arguments'; } function isIdentifierNameES5(id) { var i, iz, ch; if (id.length === 0) { return false; } ch = id.charCodeAt(0); if (!code$1.isIdentifierStartES5(ch)) { return false; } for (i = 1, iz = id.length; i < iz; ++i) { ch = id.charCodeAt(i); if (!code$1.isIdentifierPartES5(ch)) { return false; } } return true; } function decodeUtf16(lead, trail) { return (lead - 0xD800) * 0x400 + (trail - 0xDC00) + 0x10000; } function isIdentifierNameES6(id) { var i, iz, ch, lowCh, check; if (id.length === 0) { return false; } check = code$1.isIdentifierStartES6; for (i = 0, iz = id.length; i < iz; ++i) { ch = id.charCodeAt(i); if (0xD800 <= ch && ch <= 0xDBFF) { ++i; if (i >= iz) { return false; } lowCh = id.charCodeAt(i); if (!(0xDC00 <= lowCh && lowCh <= 0xDFFF)) { return false; } ch = decodeUtf16(ch, lowCh); } if (!check(ch)) { return false; } check = code$1.isIdentifierPartES6; } return true; } function isIdentifierES5(id, strict) { return isIdentifierNameES5(id) && !isReservedWordES5(id, strict); } function isIdentifierES6(id, strict) { return isIdentifierNameES6(id) && !isReservedWordES6(id, strict); } keyword.exports = { isKeywordES5: isKeywordES5, isKeywordES6: isKeywordES6, isReservedWordES5: isReservedWordES5, isReservedWordES6: isReservedWordES6, isRestrictedWord: isRestrictedWord, isIdentifierNameES5: isIdentifierNameES5, isIdentifierNameES6: isIdentifierNameES6, isIdentifierES5: isIdentifierES5, isIdentifierES6: isIdentifierES6 }; })(); /* Copyright (C) 2013 Yusuke Suzuki Redistribution and use in source and binary forms, with or without modification, are permitted provided that the following conditions are met: * Redistributions of source code must retain the above copyright notice, this list of conditions and the following disclaimer. * Redistributions in binary form must reproduce the above copyright notice, this list of conditions and the following disclaimer in the documentation and/or other materials provided with the distribution. THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ (function () { utils$6.ast = ast.exports; utils$6.code = code.exports; utils$6.keyword = keyword.exports; })(); const isIdentifierName = utils$6.keyword.isIdentifierNameES5; const { getLast: getLast$l, hasNewline: hasNewline$7, skipWhitespace, isNonEmptyArray: isNonEmptyArray$i, isNextLineEmptyAfterIndex: isNextLineEmptyAfterIndex$1, getStringWidth: getStringWidth$3 } = util$8; const { locStart: locStart$q, locEnd: locEnd$p, hasSameLocStart } = loc$6; /** * @typedef {import("./types/estree").Node} Node * @typedef {import("./types/estree").TemplateLiteral} TemplateLiteral * @typedef {import("./types/estree").Comment} Comment * @typedef {import("./types/estree").MemberExpression} MemberExpression * @typedef {import("./types/estree").OptionalMemberExpression} OptionalMemberExpression * @typedef {import("./types/estree").CallExpression} CallExpression * @typedef {import("./types/estree").OptionalCallExpression} OptionalCallExpression * @typedef {import("./types/estree").Expression} Expression * @typedef {import("./types/estree").Property} Property * @typedef {import("./types/estree").ObjectTypeProperty} ObjectTypeProperty * @typedef {import("./types/estree").TaggedTemplateExpression} TaggedTemplateExpression * @typedef {import("./types/estree").Literal} Literal * * @typedef {import("../common/ast-path")} AstPath */ // We match any whitespace except line terminators because // Flow annotation comments cannot be split across lines. For example: // // (this /* // : any */).foo = 5; // // is not picked up by Flow (see https://github.com/facebook/flow/issues/7050), so // removing the newline would create a type annotation that the user did not intend // to create. const NON_LINE_TERMINATING_WHITE_SPACE = "(?:(?=.)\\s)"; const FLOW_SHORTHAND_ANNOTATION = new RegExp(`^${NON_LINE_TERMINATING_WHITE_SPACE}*:`); const FLOW_ANNOTATION = new RegExp(`^${NON_LINE_TERMINATING_WHITE_SPACE}*::`); /** * @param {Node} node * @returns {boolean} */ function hasFlowShorthandAnnotationComment$3(node) { // https://flow.org/en/docs/types/comments/ // Syntax example: const r = new (window.Request /*: Class */)(""); return node.extra && node.extra.parenthesized && isNonEmptyArray$i(node.trailingComments) && isBlockComment$5(node.trailingComments[0]) && FLOW_SHORTHAND_ANNOTATION.test(node.trailingComments[0].value); } /** * @param {Comment[]} comments * @returns {boolean} */ function hasFlowAnnotationComment$2(comments) { return isNonEmptyArray$i(comments) && isBlockComment$5(comments[0]) && FLOW_ANNOTATION.test(comments[0].value); } /** * @param {Node} node * @param {(Node) => boolean} fn * @returns {boolean} */ function hasNode$2(node, fn) { if (!node || typeof node !== "object") { return false; } if (Array.isArray(node)) { return node.some(value => hasNode$2(value, fn)); } const result = fn(node); return typeof result === "boolean" ? result : Object.values(node).some(value => hasNode$2(value, fn)); } /** * @param {Node} node * @returns {boolean} */ function hasNakedLeftSide$3(node) { return node.type === "AssignmentExpression" || node.type === "BinaryExpression" || node.type === "LogicalExpression" || node.type === "NGPipeExpression" || node.type === "ConditionalExpression" || isCallExpression$d(node) || isMemberExpression$a(node) || node.type === "SequenceExpression" || node.type === "TaggedTemplateExpression" || node.type === "BindExpression" || node.type === "UpdateExpression" && !node.prefix || node.type === "TSAsExpression" || node.type === "TSNonNullExpression"; } function getLeftSide$1(node) { if (node.expressions) { return node.expressions[0]; } return node.left || node.test || node.callee || node.object || node.tag || node.argument || node.expression; } function getLeftSidePathName$2(path, node) { if (node.expressions) { return ["expressions", 0]; } if (node.left) { return ["left"]; } if (node.test) { return ["test"]; } if (node.object) { return ["object"]; } if (node.callee) { return ["callee"]; } if (node.tag) { return ["tag"]; } if (node.argument) { return ["argument"]; } if (node.expression) { return ["expression"]; } throw new Error("Unexpected node has no left side."); } /** * @param {Comment} comment * @returns {boolean} */ function isBlockComment$5(comment) { return comment.type === "Block" || comment.type === "CommentBlock" || // `meriyah` comment.type === "MultiLine"; } /** * @param {Comment} comment * @returns {boolean} */ function isLineComment$3(comment) { return comment.type === "Line" || comment.type === "CommentLine" || // `meriyah` has `SingleLine`, `HashbangComment`, `HTMLOpen`, and `HTMLClose` comment.type === "SingleLine" || comment.type === "HashbangComment" || comment.type === "HTMLOpen" || comment.type === "HTMLClose"; } const exportDeclarationTypes = new Set(["ExportDefaultDeclaration", "ExportDefaultSpecifier", "DeclareExportDeclaration", "ExportNamedDeclaration", "ExportAllDeclaration"]); /** * @param {Node} node * @returns {boolean} */ function isExportDeclaration(node) { return node && exportDeclarationTypes.has(node.type); } /** * @param {AstPath} path * @returns {Node | null} */ function getParentExportDeclaration$2(path) { const parentNode = path.getParentNode(); if (path.getName() === "declaration" && isExportDeclaration(parentNode)) { return parentNode; } return null; } /** * @param {Node} node * @returns {boolean} */ function isLiteral$3(node) { return node.type === "BooleanLiteral" || node.type === "DirectiveLiteral" || node.type === "Literal" || node.type === "NullLiteral" || node.type === "NumericLiteral" || node.type === "BigIntLiteral" || node.type === "DecimalLiteral" || node.type === "RegExpLiteral" || node.type === "StringLiteral" || node.type === "TemplateLiteral" || node.type === "TSTypeLiteral" || node.type === "JSXText"; } /** * @param {Node} node * @returns {boolean} */ function isNumericLiteral$5(node) { return node.type === "NumericLiteral" || node.type === "Literal" && typeof node.value === "number"; } function isSignedNumericLiteral$2(node) { return node.type === "UnaryExpression" && (node.operator === "+" || node.operator === "-") && isNumericLiteral$5(node.argument); } /** * @param {Node} node * @returns {boolean} */ function isStringLiteral$5(node) { return node.type === "StringLiteral" || node.type === "Literal" && typeof node.value === "string"; } /** * @param {Node} node * @returns {boolean} */ function isObjectType$3(node) { return node.type === "ObjectTypeAnnotation" || node.type === "TSTypeLiteral" || node.type === "TSMappedType"; } /** * @param {Node} node * @returns {boolean} */ function isFunctionOrArrowExpression$1(node) { return node.type === "FunctionExpression" || node.type === "ArrowFunctionExpression"; } /** * @param {Node} node * @returns {boolean} */ function isFunctionOrArrowExpressionWithBody(node) { return node.type === "FunctionExpression" || node.type === "ArrowFunctionExpression" && node.body.type === "BlockStatement"; } /** * @param {Node} node * @returns {boolean} */ function isTemplateLiteral(node) { return node.type === "TemplateLiteral"; } /** * Note: `inject` is used in AngularJS 1.x, `async` in Angular 2+ * example: https://docs.angularjs.org/guide/unit-testing#using-beforeall- * * @param {CallExpression} node * @returns {boolean} */ function isAngularTestWrapper(node) { return isCallExpression$d(node) && node.callee.type === "Identifier" && (node.callee.name === "async" || node.callee.name === "inject" || node.callee.name === "fakeAsync"); } /** * @param {Node} node * @returns {boolean} */ function isJsxNode$7(node) { return node.type === "JSXElement" || node.type === "JSXFragment"; } function isTheOnlyJsxElementInMarkdown$2(options, path) { if (options.parentParser !== "markdown" && options.parentParser !== "mdx") { return false; } const node = path.getNode(); if (!node.expression || !isJsxNode$7(node.expression)) { return false; } const parent = path.getParentNode(); return parent.type === "Program" && parent.body.length === 1; } function isGetterOrSetter$1(node) { return node.kind === "get" || node.kind === "set"; } // TODO: This is a bad hack and we need a better way to distinguish between // arrow functions and otherwise function isFunctionNotation$1(node) { return isGetterOrSetter$1(node) || hasSameLocStart(node, node.value); } // Hack to differentiate between the following two which have the same ast // type T = { method: () => void }; // type T = { method(): void }; /** * @param {Node} node * @returns {boolean} */ function isObjectTypePropertyAFunction$2(node) { return (node.type === "ObjectTypeProperty" || node.type === "ObjectTypeInternalSlot") && node.value.type === "FunctionTypeAnnotation" && !node.static && !isFunctionNotation$1(node); } // Hack to differentiate between the following two which have the same ast // declare function f(a): void; // var f: (a) => void; function isTypeAnnotationAFunction$1(node) { return (node.type === "TypeAnnotation" || node.type === "TSTypeAnnotation") && node.typeAnnotation.type === "FunctionTypeAnnotation" && !node.static && !hasSameLocStart(node, node.typeAnnotation); } const binaryishNodeTypes = new Set(["BinaryExpression", "LogicalExpression", "NGPipeExpression"]); /** * @param {Node} node * @returns {boolean} */ function isBinaryish$5(node) { return binaryishNodeTypes.has(node.type); } /** * @param {Node} node * @returns {boolean} */ function isMemberish$2(node) { return isMemberExpression$a(node) || node.type === "BindExpression" && Boolean(node.object); } const simpleTypeAnnotations = new Set([// `any` "AnyTypeAnnotation", "TSAnyKeyword", // `null` "NullLiteralTypeAnnotation", "TSNullKeyword", // `this` "ThisTypeAnnotation", "TSThisType", // `number` "NumberTypeAnnotation", "TSNumberKeyword", // `void` "VoidTypeAnnotation", "TSVoidKeyword", // `boolean` "BooleanTypeAnnotation", "TSBooleanKeyword", // `bigint` "BigIntTypeAnnotation", "TSBigIntKeyword", // `symbol` "SymbolTypeAnnotation", "TSSymbolKeyword", // `string` "StringTypeAnnotation", "TSStringKeyword", // literals "BooleanLiteralTypeAnnotation", "StringLiteralTypeAnnotation", "BigIntLiteralTypeAnnotation", "NumberLiteralTypeAnnotation", "TSLiteralType", "TSTemplateLiteralType", // flow only, `empty`, `mixed` "EmptyTypeAnnotation", "MixedTypeAnnotation", // typescript only, `never`, `object`, `undefined`, `unknown` "TSNeverKeyword", "TSObjectKeyword", "TSUndefinedKeyword", "TSUnknownKeyword"]); /** * @param {Node} node * @returns {boolean} */ function isSimpleType$2(node) { if (!node) { return false; } if ((node.type === "GenericTypeAnnotation" || node.type === "TSTypeReference") && !node.typeParameters) { return true; } if (simpleTypeAnnotations.has(node.type)) { return true; } return false; } const unitTestRe = /^(?:skip|[fx]?(?:it|describe|test))$/; /** * @param {{callee: MemberExpression | OptionalMemberExpression}} node * @returns {boolean} */ function isSkipOrOnlyBlock(node) { return isMemberExpression$a(node.callee) && node.callee.object.type === "Identifier" && node.callee.property.type === "Identifier" && unitTestRe.test(node.callee.object.name) && (node.callee.property.name === "only" || node.callee.property.name === "skip"); } /** * @param {CallExpression} node * @returns {boolean} */ function isUnitTestSetUp(node) { const unitTestSetUpRe = /^(?:before|after)(?:Each|All)$/; return node.callee.type === "Identifier" && unitTestSetUpRe.test(node.callee.name) && node.arguments.length === 1; } // eg; `describe("some string", (done) => {})` function isTestCall$3(node, parent) { if (node.type !== "CallExpression") { return false; } if (node.arguments.length === 1) { if (isAngularTestWrapper(node) && parent && isTestCall$3(parent)) { return isFunctionOrArrowExpression$1(node.arguments[0]); } if (isUnitTestSetUp(node)) { return isAngularTestWrapper(node.arguments[0]); } } else if (node.arguments.length === 2 || node.arguments.length === 3) { if ((node.callee.type === "Identifier" && unitTestRe.test(node.callee.name) || isSkipOrOnlyBlock(node)) && (isTemplateLiteral(node.arguments[0]) || isStringLiteral$5(node.arguments[0]))) { // it("name", () => { ... }, 2500) if (node.arguments[2] && !isNumericLiteral$5(node.arguments[2])) { return false; } return (node.arguments.length === 2 ? isFunctionOrArrowExpression$1(node.arguments[1]) : isFunctionOrArrowExpressionWithBody(node.arguments[1]) && getFunctionParameters$6(node.arguments[1]).length <= 1) || isAngularTestWrapper(node.arguments[1]); } } return false; } /** * @param {Node} node * @returns {boolean} */ function isCallExpression$d(node) { return node && (node.type === "CallExpression" || node.type === "OptionalCallExpression"); } /** * @param {Node} node * @returns {boolean} */ function isMemberExpression$a(node) { return node && (node.type === "MemberExpression" || node.type === "OptionalMemberExpression"); } /** * * @param {any} node * @returns {boolean} */ function isSimpleTemplateLiteral$1(node) { let expressionsKey = "expressions"; if (node.type === "TSTemplateLiteralType") { expressionsKey = "types"; } const expressions = node[expressionsKey]; if (expressions.length === 0) { return false; } return expressions.every(expr => { // Disallow comments since printDocToString can't print them here if (hasComment$j(expr)) { return false; } // Allow `x` and `this` if (expr.type === "Identifier" || expr.type === "ThisExpression") { return true; } // Allow `a.b.c`, `a.b[c]`, and `this.x.y` if (isMemberExpression$a(expr)) { let head = expr; while (isMemberExpression$a(head)) { if (head.property.type !== "Identifier" && head.property.type !== "Literal" && head.property.type !== "StringLiteral" && head.property.type !== "NumericLiteral") { return false; } head = head.object; if (hasComment$j(head)) { return false; } } if (head.type === "Identifier" || head.type === "ThisExpression") { return true; } return false; } return false; }); } /** * @param {string} tokenNode * @param {string} keyword * @returns {string} */ function getTypeScriptMappedTypeModifier$1(tokenNode, keyword) { if (tokenNode === "+") { return "+" + keyword; } if (tokenNode === "-") { return "-" + keyword; } return keyword; } /** * @param {string} text * @param {Node} typeAnnotation * @returns {boolean} */ function isFlowAnnotationComment$2(text, typeAnnotation) { const start = locStart$q(typeAnnotation); const end = skipWhitespace(text, locEnd$p(typeAnnotation)); return end !== false && text.slice(start, start + 2) === "/*" && text.slice(end, end + 2) === "*/"; } /** * @param {string} text * @param {Node} node * @returns {boolean} */ function hasLeadingOwnLineComment$4(text, node) { if (isJsxNode$7(node)) { return hasNodeIgnoreComment$1(node); } return hasComment$j(node, CommentCheckFlags$g.Leading, comment => hasNewline$7(text, locEnd$p(comment))); } // Note: Quoting/unquoting numbers in TypeScript is not safe. // // let a = { 1: 1, 2: 2 } // let b = { '1': 1, '2': 2 } // // declare let aa: keyof typeof a; // declare let bb: keyof typeof b; // // aa = bb; // ^^ // Type '"1" | "2"' is not assignable to type '1 | 2'. // Type '"1"' is not assignable to type '1 | 2'.(2322) // // And in Flow, you get: // // const x = { // 0: 1 // ^ Non-string literal property keys not supported. [unsupported-syntax] // } // // Angular does not support unquoted numbers in expressions. // // So we play it safe and only unquote numbers for the JavaScript parsers. // (Vue supports unquoted numbers in expressions, but let’s keep it simple.) // // Identifiers can be unquoted in more circumstances, though. function isStringPropSafeToUnquote$1(node, options) { return options.parser !== "json" && isStringLiteral$5(node.key) && rawText$5(node.key).slice(1, -1) === node.key.value && (isIdentifierName(node.key.value) && // With `--strictPropertyInitialization`, TS treats properties with quoted names differently than unquoted ones. // See https://github.com/microsoft/TypeScript/pull/20075 !(options.parser === "babel-ts" && node.type === "ClassProperty" || options.parser === "typescript" && node.type === "PropertyDefinition") || isSimpleNumber$1(node.key.value) && String(Number(node.key.value)) === node.key.value && (options.parser === "babel" || options.parser === "espree" || options.parser === "meriyah" || options.parser === "__babel_estree")); } // Matches “simple” numbers like `123` and `2.5` but not `1_000`, `1e+100` or `0b10`. function isSimpleNumber$1(numberString) { return /^(?:\d+|\d+\.\d+)$/.test(numberString); } /** * @param {Node} node * @param {Node} parentNode * @returns {boolean} */ function isJestEachTemplateLiteral$1(node, parentNode) { /** * describe.each`table`(name, fn) * describe.only.each`table`(name, fn) * describe.skip.each`table`(name, fn) * test.each`table`(name, fn) * test.only.each`table`(name, fn) * test.skip.each`table`(name, fn) * * Ref: https://github.com/facebook/jest/pull/6102 */ const jestEachTriggerRegex = /^[fx]?(?:describe|it|test)$/; return parentNode.type === "TaggedTemplateExpression" && parentNode.quasi === node && parentNode.tag.type === "MemberExpression" && parentNode.tag.property.type === "Identifier" && parentNode.tag.property.name === "each" && (parentNode.tag.object.type === "Identifier" && jestEachTriggerRegex.test(parentNode.tag.object.name) || parentNode.tag.object.type === "MemberExpression" && parentNode.tag.object.property.type === "Identifier" && (parentNode.tag.object.property.name === "only" || parentNode.tag.object.property.name === "skip") && parentNode.tag.object.object.type === "Identifier" && jestEachTriggerRegex.test(parentNode.tag.object.object.name)); } /** * @param {TemplateLiteral} template * @returns {boolean} */ function templateLiteralHasNewLines(template) { return template.quasis.some(quasi => quasi.value.raw.includes("\n")); } /** * @param {TemplateLiteral | TaggedTemplateExpression} node * @param {string} text * @returns {boolean} */ function isTemplateOnItsOwnLine$2(node, text) { return (node.type === "TemplateLiteral" && templateLiteralHasNewLines(node) || node.type === "TaggedTemplateExpression" && templateLiteralHasNewLines(node.quasi)) && !hasNewline$7(text, locStart$q(node), { backwards: true }); } /** * @param {Node} node * @returns {boolean} */ function needsHardlineAfterDanglingComment$2(node) { if (!hasComment$j(node)) { return false; } const lastDanglingComment = getLast$l(getComments$5(node, CommentCheckFlags$g.Dangling)); return lastDanglingComment && !isBlockComment$5(lastDanglingComment); } // Logic to check for args with multiple anonymous functions. For instance, // the following call should be split on multiple lines for readability: // source.pipe(map((x) => x + x), filter((x) => x % 2 === 0)) function isFunctionCompositionArgs$1(args) { if (args.length <= 1) { return false; } let count = 0; for (const arg of args) { if (isFunctionOrArrowExpression$1(arg)) { count += 1; if (count > 1) { return true; } } else if (isCallExpression$d(arg)) { for (const childArg of arg.arguments) { if (isFunctionOrArrowExpression$1(childArg)) { return true; } } } } return false; } // Logic to determine if a call is a “long curried function call”. // See https://github.com/prettier/prettier/issues/1420. // // `connect(a, b, c)(d)` // In the above call expression, the second call is the parent node and the // first call is the current node. /** * @param {AstPath} path * @returns {boolean} */ function isLongCurriedCallExpression$2(path) { const node = path.getValue(); const parent = path.getParentNode(); return isCallExpression$d(node) && isCallExpression$d(parent) && parent.callee === node && node.arguments.length > parent.arguments.length && parent.arguments.length > 0; } /** * @param {any} node * @param {number} depth * @returns {boolean} */ function isSimpleCallArgument$1(node, depth) { if (depth >= 2) { return false; } const isChildSimple = child => isSimpleCallArgument$1(child, depth + 1); const regexpPattern = node.type === "Literal" && "regex" in node && node.regex.pattern || node.type === "RegExpLiteral" && node.pattern; if (regexpPattern && getStringWidth$3(regexpPattern) > 5) { return false; } if (node.type === "Literal" || node.type === "BigIntLiteral" || node.type === "DecimalLiteral" || node.type === "BooleanLiteral" || node.type === "NullLiteral" || node.type === "NumericLiteral" || node.type === "RegExpLiteral" || node.type === "StringLiteral" || node.type === "Identifier" || node.type === "ThisExpression" || node.type === "Super" || node.type === "PrivateName" || node.type === "PrivateIdentifier" || node.type === "ArgumentPlaceholder" || node.type === "Import") { return true; } if (node.type === "TemplateLiteral") { return node.quasis.every(element => !element.value.raw.includes("\n")) && node.expressions.every(isChildSimple); } if (node.type === "ObjectExpression") { return node.properties.every(p => !p.computed && (p.shorthand || p.value && isChildSimple(p.value))); } if (node.type === "ArrayExpression") { return node.elements.every(x => x === null || isChildSimple(x)); } if (isCallLikeExpression$2(node)) { return (node.type === "ImportExpression" || isSimpleCallArgument$1(node.callee, depth)) && getCallArguments$5(node).every(isChildSimple); } if (isMemberExpression$a(node)) { return isSimpleCallArgument$1(node.object, depth) && isSimpleCallArgument$1(node.property, depth); } if (node.type === "UnaryExpression" && (node.operator === "!" || node.operator === "-")) { return isSimpleCallArgument$1(node.argument, depth); } if (node.type === "TSNonNullExpression") { return isSimpleCallArgument$1(node.expression, depth); } return false; } function rawText$5(node) { return node.extra ? node.extra.raw : node.raw; } function identity$1(x) { return x; } function isTSXFile$1(options) { return options.filepath && /\.tsx$/i.test(options.filepath); } /** * @param {any} options * @param {("es5" | "all")} [level] * @returns {boolean} */ function shouldPrintComma$b(options, level = "es5") { return options.trailingComma === "es5" && level === "es5" || options.trailingComma === "all" && (level === "all" || level === "es5"); } /** * Tests if an expression starts with `{`, or (if forbidFunctionClassAndDoExpr * holds) `function`, `class`, or `do {}`. Will be overzealous if there's * already necessary grouping parentheses. * * @param {Node} node * @param {boolean} forbidFunctionClassAndDoExpr * @returns {boolean} */ function startsWithNoLookaheadToken$2(node, forbidFunctionClassAndDoExpr) { node = getLeftMost(node); switch (node.type) { case "FunctionExpression": case "ClassExpression": case "DoExpression": return forbidFunctionClassAndDoExpr; case "ObjectExpression": return true; case "MemberExpression": case "OptionalMemberExpression": return startsWithNoLookaheadToken$2(node.object, forbidFunctionClassAndDoExpr); case "TaggedTemplateExpression": if (node.tag.type === "FunctionExpression") { // IIFEs are always already parenthesized return false; } return startsWithNoLookaheadToken$2(node.tag, forbidFunctionClassAndDoExpr); case "CallExpression": case "OptionalCallExpression": if (node.callee.type === "FunctionExpression") { // IIFEs are always already parenthesized return false; } return startsWithNoLookaheadToken$2(node.callee, forbidFunctionClassAndDoExpr); case "ConditionalExpression": return startsWithNoLookaheadToken$2(node.test, forbidFunctionClassAndDoExpr); case "UpdateExpression": return !node.prefix && startsWithNoLookaheadToken$2(node.argument, forbidFunctionClassAndDoExpr); case "BindExpression": return node.object && startsWithNoLookaheadToken$2(node.object, forbidFunctionClassAndDoExpr); case "SequenceExpression": return startsWithNoLookaheadToken$2(node.expressions[0], forbidFunctionClassAndDoExpr); case "TSAsExpression": case "TSNonNullExpression": return startsWithNoLookaheadToken$2(node.expression, forbidFunctionClassAndDoExpr); default: return false; } } const equalityOperators = { "==": true, "!=": true, "===": true, "!==": true }; const multiplicativeOperators = { "*": true, "/": true, "%": true }; const bitshiftOperators = { ">>": true, ">>>": true, "<<": true }; function shouldFlatten$2(parentOp, nodeOp) { if (getPrecedence$1(nodeOp) !== getPrecedence$1(parentOp)) { return false; } // ** is right-associative // x ** y ** z --> x ** (y ** z) if (parentOp === "**") { return false; } // x == y == z --> (x == y) == z if (equalityOperators[parentOp] && equalityOperators[nodeOp]) { return false; } // x * y % z --> (x * y) % z if (nodeOp === "%" && multiplicativeOperators[parentOp] || parentOp === "%" && multiplicativeOperators[nodeOp]) { return false; } // x * y / z --> (x * y) / z // x / y * z --> (x / y) * z if (nodeOp !== parentOp && multiplicativeOperators[nodeOp] && multiplicativeOperators[parentOp]) { return false; } // x << y << z --> (x << y) << z if (bitshiftOperators[parentOp] && bitshiftOperators[nodeOp]) { return false; } return true; } const PRECEDENCE = {}; for (const [i, tier] of [["|>"], ["??"], ["||"], ["&&"], ["|"], ["^"], ["&"], ["==", "===", "!=", "!=="], ["<", ">", "<=", ">=", "in", "instanceof"], [">>", "<<", ">>>"], ["+", "-"], ["*", "/", "%"], ["**"]].entries()) { for (const op of tier) { PRECEDENCE[op] = i; } } function getPrecedence$1(op) { return PRECEDENCE[op]; } function getLeftMost(node) { while (node.left) { node = node.left; } return node; } function isBitwiseOperator$1(operator) { return Boolean(bitshiftOperators[operator]) || operator === "|" || operator === "^" || operator === "&"; } function hasRestParameter$1(node) { if (node.rest) { return true; } const parameters = getFunctionParameters$6(node); return parameters.length > 0 && getLast$l(parameters).type === "RestElement"; } const functionParametersCache = new WeakMap(); function getFunctionParameters$6(node) { if (functionParametersCache.has(node)) { return functionParametersCache.get(node); } const parameters = []; if (node.this) { parameters.push(node.this); } // `params` vs `parameters` - see https://github.com/babel/babel/issues/9231 if (Array.isArray(node.parameters)) { parameters.push(...node.parameters); } else if (Array.isArray(node.params)) { parameters.push(...node.params); } if (node.rest) { parameters.push(node.rest); } functionParametersCache.set(node, parameters); return parameters; } function iterateFunctionParametersPath$1(path, iteratee) { const node = path.getValue(); let index = 0; const callback = childPath => iteratee(childPath, index++); if (node.this) { path.call(callback, "this"); } if (Array.isArray(node.parameters)) { path.each(callback, "parameters"); } else if (Array.isArray(node.params)) { path.each(callback, "params"); } if (node.rest) { path.call(callback, "rest"); } } const callArgumentsCache = new WeakMap(); function getCallArguments$5(node) { if (callArgumentsCache.has(node)) { return callArgumentsCache.get(node); } let args = node.arguments; if (node.type === "ImportExpression") { args = [node.source]; if (node.attributes) { args.push(node.attributes); } } callArgumentsCache.set(node, args); return args; } function iterateCallArgumentsPath$2(path, iteratee) { const node = path.getValue(); if (node.type === "ImportExpression") { path.call(sourcePath => iteratee(sourcePath, 0), "source"); if (node.attributes) { path.call(sourcePath => iteratee(sourcePath, 1), "attributes"); } } else { path.each(iteratee, "arguments"); } } function isPrettierIgnoreComment$1(comment) { return comment.value.trim() === "prettier-ignore" && !comment.unignore; } function hasNodeIgnoreComment$1(node) { return node && (node.prettierIgnore || hasComment$j(node, CommentCheckFlags$g.PrettierIgnore)); } function hasIgnoreComment$2(path) { const node = path.getValue(); return hasNodeIgnoreComment$1(node); } const CommentCheckFlags$g = { /** Check comment is a leading comment */ Leading: 1 << 1, /** Check comment is a trailing comment */ Trailing: 1 << 2, /** Check comment is a dangling comment */ Dangling: 1 << 3, /** Check comment is a block comment */ Block: 1 << 4, /** Check comment is a line comment */ Line: 1 << 5, /** Check comment is a `prettier-ignore` comment */ PrettierIgnore: 1 << 6, /** Check comment is the first attached comment */ First: 1 << 7, /** Check comment is the last attached comment */ Last: 1 << 8 }; const getCommentTestFunction = (flags, fn) => { if (typeof flags === "function") { fn = flags; flags = 0; } if (flags || fn) { return (comment, index, comments) => !(flags & CommentCheckFlags$g.Leading && !comment.leading || flags & CommentCheckFlags$g.Trailing && !comment.trailing || flags & CommentCheckFlags$g.Dangling && (comment.leading || comment.trailing) || flags & CommentCheckFlags$g.Block && !isBlockComment$5(comment) || flags & CommentCheckFlags$g.Line && !isLineComment$3(comment) || flags & CommentCheckFlags$g.First && index !== 0 || flags & CommentCheckFlags$g.Last && index !== comments.length - 1 || flags & CommentCheckFlags$g.PrettierIgnore && !isPrettierIgnoreComment$1(comment) || fn && !fn(comment)); } }; /** * @param {Node} node * @param {number | function} [flags] * @param {function} [fn] * @returns {boolean} */ function hasComment$j(node, flags, fn) { if (!node || !isNonEmptyArray$i(node.comments)) { return false; } const test = getCommentTestFunction(flags, fn); return test ? node.comments.some(test) : true; } /** * @param {Node} node * @param {number | function} [flags] * @param {function} [fn] * @returns {Comment[]} */ function getComments$5(node, flags, fn) { if (!node || !Array.isArray(node.comments)) { return []; } const test = getCommentTestFunction(flags, fn); return test ? node.comments.filter(test) : node.comments; } /** * @param {Node} node * @returns {boolean} */ const isNextLineEmpty$c = (node, { originalText }) => isNextLineEmptyAfterIndex$1(originalText, locEnd$p(node)); function isCallLikeExpression$2(node) { return isCallExpression$d(node) || node.type === "NewExpression" || node.type === "ImportExpression"; } function isObjectProperty$6(node) { return node && (node.type === "ObjectProperty" || node.type === "Property" && !node.method && node.kind === "init"); } function isEnabledHackPipeline$1(options) { return Boolean(options.__isUsingHackPipeline); } var utils$5 = { getFunctionParameters: getFunctionParameters$6, iterateFunctionParametersPath: iterateFunctionParametersPath$1, getCallArguments: getCallArguments$5, iterateCallArgumentsPath: iterateCallArgumentsPath$2, hasRestParameter: hasRestParameter$1, getLeftSide: getLeftSide$1, getLeftSidePathName: getLeftSidePathName$2, getParentExportDeclaration: getParentExportDeclaration$2, getTypeScriptMappedTypeModifier: getTypeScriptMappedTypeModifier$1, hasFlowAnnotationComment: hasFlowAnnotationComment$2, hasFlowShorthandAnnotationComment: hasFlowShorthandAnnotationComment$3, hasLeadingOwnLineComment: hasLeadingOwnLineComment$4, hasNakedLeftSide: hasNakedLeftSide$3, hasNode: hasNode$2, hasIgnoreComment: hasIgnoreComment$2, hasNodeIgnoreComment: hasNodeIgnoreComment$1, identity: identity$1, isBinaryish: isBinaryish$5, isBlockComment: isBlockComment$5, isCallLikeExpression: isCallLikeExpression$2, isEnabledHackPipeline: isEnabledHackPipeline$1, isLineComment: isLineComment$3, isPrettierIgnoreComment: isPrettierIgnoreComment$1, isCallExpression: isCallExpression$d, isMemberExpression: isMemberExpression$a, isExportDeclaration, isFlowAnnotationComment: isFlowAnnotationComment$2, isFunctionCompositionArgs: isFunctionCompositionArgs$1, isFunctionNotation: isFunctionNotation$1, isFunctionOrArrowExpression: isFunctionOrArrowExpression$1, isGetterOrSetter: isGetterOrSetter$1, isJestEachTemplateLiteral: isJestEachTemplateLiteral$1, isJsxNode: isJsxNode$7, isLiteral: isLiteral$3, isLongCurriedCallExpression: isLongCurriedCallExpression$2, isSimpleCallArgument: isSimpleCallArgument$1, isMemberish: isMemberish$2, isNumericLiteral: isNumericLiteral$5, isSignedNumericLiteral: isSignedNumericLiteral$2, isObjectProperty: isObjectProperty$6, isObjectType: isObjectType$3, isObjectTypePropertyAFunction: isObjectTypePropertyAFunction$2, isSimpleType: isSimpleType$2, isSimpleNumber: isSimpleNumber$1, isSimpleTemplateLiteral: isSimpleTemplateLiteral$1, isStringLiteral: isStringLiteral$5, isStringPropSafeToUnquote: isStringPropSafeToUnquote$1, isTemplateOnItsOwnLine: isTemplateOnItsOwnLine$2, isTestCall: isTestCall$3, isTheOnlyJsxElementInMarkdown: isTheOnlyJsxElementInMarkdown$2, isTSXFile: isTSXFile$1, isTypeAnnotationAFunction: isTypeAnnotationAFunction$1, isNextLineEmpty: isNextLineEmpty$c, needsHardlineAfterDanglingComment: needsHardlineAfterDanglingComment$2, rawText: rawText$5, shouldPrintComma: shouldPrintComma$b, isBitwiseOperator: isBitwiseOperator$1, shouldFlatten: shouldFlatten$2, startsWithNoLookaheadToken: startsWithNoLookaheadToken$2, getPrecedence: getPrecedence$1, hasComment: hasComment$j, getComments: getComments$5, CommentCheckFlags: CommentCheckFlags$g }; const getLast$k = getLast_1; const { getStringWidth: getStringWidth$2, getIndentSize } = util$8; const { builders: { join: join$u, hardline: hardline$A, softline: softline$t, group: group$C, indent: indent$y, align: align$5, lineSuffixBoundary: lineSuffixBoundary$1, addAlignmentToDoc }, printer: { printDocToString: printDocToString$1 }, utils: { mapDoc: mapDoc$3 } } = require$$7$3; const { isBinaryish: isBinaryish$4, isJestEachTemplateLiteral, isSimpleTemplateLiteral, hasComment: hasComment$i, isMemberExpression: isMemberExpression$9 } = utils$5; function printTemplateLiteral$2(path, print, options) { const node = path.getValue(); const isTemplateLiteral = node.type === "TemplateLiteral"; if (isTemplateLiteral && isJestEachTemplateLiteral(node, path.getParentNode())) { const printed = printJestEachTemplateLiteral(path, options, print); if (printed) { return printed; } } let expressionsKey = "expressions"; if (node.type === "TSTemplateLiteralType") { expressionsKey = "types"; } const parts = []; let expressions = path.map(print, expressionsKey); const isSimple = isSimpleTemplateLiteral(node); if (isSimple) { expressions = expressions.map(doc => printDocToString$1(doc, Object.assign(Object.assign({}, options), {}, { printWidth: Number.POSITIVE_INFINITY })).formatted); } parts.push(lineSuffixBoundary$1, "`"); path.each(childPath => { const i = childPath.getName(); parts.push(print()); if (i < expressions.length) { // For a template literal of the following form: // `someQuery { // ${call({ // a, // b, // })} // }` // the expression is on its own line (there is a \n in the previous // quasi literal), therefore we want to indent the JavaScript // expression inside at the beginning of ${ instead of the beginning // of the `. const { tabWidth } = options; const quasi = childPath.getValue(); const indentSize = getIndentSize(quasi.value.raw, tabWidth); let printed = expressions[i]; if (!isSimple) { const expression = node[expressionsKey][i]; // Breaks at the template element boundaries (${ and }) are preferred to breaking // in the middle of a MemberExpression if (hasComment$i(expression) || isMemberExpression$9(expression) || expression.type === "ConditionalExpression" || expression.type === "SequenceExpression" || expression.type === "TSAsExpression" || isBinaryish$4(expression)) { printed = [indent$y([softline$t, printed]), softline$t]; } } const aligned = indentSize === 0 && quasi.value.raw.endsWith("\n") ? align$5(Number.NEGATIVE_INFINITY, printed) : addAlignmentToDoc(printed, indentSize, tabWidth); parts.push(group$C(["${", aligned, lineSuffixBoundary$1, "}"])); } }, "quasis"); parts.push("`"); return parts; } function printJestEachTemplateLiteral(path, options, print) { /** * a | b | expected * ${1} | ${1} | ${2} * ${1} | ${2} | ${3} * ${2} | ${1} | ${3} */ const node = path.getNode(); const headerNames = node.quasis[0].value.raw.trim().split(/\s*\|\s*/); if (headerNames.length > 1 || headerNames.some(headerName => headerName.length > 0)) { options.__inJestEach = true; const expressions = path.map(print, "expressions"); options.__inJestEach = false; const parts = []; const stringifiedExpressions = expressions.map(doc => "${" + printDocToString$1(doc, Object.assign(Object.assign({}, options), {}, { printWidth: Number.POSITIVE_INFINITY, endOfLine: "lf" })).formatted + "}"); const tableBody = [{ hasLineBreak: false, cells: [] }]; for (let i = 1; i < node.quasis.length; i++) { const row = getLast$k(tableBody); const correspondingExpression = stringifiedExpressions[i - 1]; row.cells.push(correspondingExpression); if (correspondingExpression.includes("\n")) { row.hasLineBreak = true; } if (node.quasis[i].value.raw.includes("\n")) { tableBody.push({ hasLineBreak: false, cells: [] }); } } const maxColumnCount = Math.max(headerNames.length, ...tableBody.map(row => row.cells.length)); const maxColumnWidths = Array.from({ length: maxColumnCount }).fill(0); const table = [{ cells: headerNames }, ...tableBody.filter(row => row.cells.length > 0)]; for (const { cells } of table.filter(row => !row.hasLineBreak)) { for (const [index, cell] of cells.entries()) { maxColumnWidths[index] = Math.max(maxColumnWidths[index], getStringWidth$2(cell)); } } parts.push(lineSuffixBoundary$1, "`", indent$y([hardline$A, join$u(hardline$A, table.map(row => join$u(" | ", row.cells.map((cell, index) => row.hasLineBreak ? cell : cell + " ".repeat(maxColumnWidths[index] - getStringWidth$2(cell))))))]), hardline$A, "`"); return parts; } } function printTemplateExpression(path, print) { const node = path.getValue(); let printed = print(); if (hasComment$i(node)) { printed = group$C([indent$y([softline$t, printed]), softline$t]); } return ["${", printed, lineSuffixBoundary$1, "}"]; } function printTemplateExpressions$3(path, print) { return path.map(path => printTemplateExpression(path, print), "expressions"); } function escapeTemplateCharacters$2(doc, raw) { return mapDoc$3(doc, currentDoc => { if (typeof currentDoc === "string") { return raw ? currentDoc.replace(/(\\*)`/g, "$1$1\\`") : uncookTemplateElementValue$1(currentDoc); } return currentDoc; }); } function uncookTemplateElementValue$1(cookedValue) { return cookedValue.replace(/([\\`]|\${)/g, "\\$1"); } var templateLiteral = { printTemplateLiteral: printTemplateLiteral$2, printTemplateExpressions: printTemplateExpressions$3, escapeTemplateCharacters: escapeTemplateCharacters$2, uncookTemplateElementValue: uncookTemplateElementValue$1 }; const { builders: { indent: indent$x, softline: softline$s, literalline: literalline$4, dedentToRoot: dedentToRoot$2 } } = require$$7$3; const { escapeTemplateCharacters: escapeTemplateCharacters$1 } = templateLiteral; function format$3(path, print, textToDoc) { const node = path.getValue(); let text = node.quasis[0].value.raw.replace(/((?:\\\\)*)\\`/g, (_, backslashes) => "\\".repeat(backslashes.length / 2) + "`"); const indentation = getIndentation(text); const hasIndent = indentation !== ""; if (hasIndent) { text = text.replace(new RegExp(`^${indentation}`, "gm"), ""); } const doc = escapeTemplateCharacters$1(textToDoc(text, { parser: "markdown", __inJsTemplate: true }, { stripTrailingHardline: true }), true); return ["`", hasIndent ? indent$x([softline$s, doc]) : [literalline$4, dedentToRoot$2(doc)], softline$s, "`"]; } function getIndentation(str) { const firstMatchedIndent = str.match(/^([^\S\n]*)\S/m); return firstMatchedIndent === null ? "" : firstMatchedIndent[1]; } var markdown = format$3; const { isNonEmptyArray: isNonEmptyArray$h } = util$8; const { builders: { indent: indent$w, hardline: hardline$z, softline: softline$r }, utils: { mapDoc: mapDoc$2, replaceEndOfLine: replaceEndOfLine$1, cleanDoc: cleanDoc$3 } } = require$$7$3; const { printTemplateExpressions: printTemplateExpressions$2 } = templateLiteral; function format$2(path, print, textToDoc) { const node = path.getValue(); // Get full template literal with expressions replaced by placeholders const rawQuasis = node.quasis.map(q => q.value.raw); let placeholderID = 0; const text = rawQuasis.reduce((prevVal, currVal, idx) => idx === 0 ? currVal : prevVal + "@prettier-placeholder-" + placeholderID++ + "-id" + currVal, ""); const doc = textToDoc(text, { parser: "scss" }, { stripTrailingHardline: true }); const expressionDocs = printTemplateExpressions$2(path, print); return transformCssDoc(doc, node, expressionDocs); } function transformCssDoc(quasisDoc, parentNode, expressionDocs) { const isEmpty = parentNode.quasis.length === 1 && !parentNode.quasis[0].value.raw.trim(); if (isEmpty) { return "``"; } const newDoc = replacePlaceholders(quasisDoc, expressionDocs); /* istanbul ignore if */ if (!newDoc) { throw new Error("Couldn't insert all the expressions"); } return ["`", indent$w([hardline$z, newDoc]), softline$r, "`"]; } // Search all the placeholders in the quasisDoc tree // and replace them with the expression docs one by one // returns a new doc with all the placeholders replaced, // or null if it couldn't replace any expression function replacePlaceholders(quasisDoc, expressionDocs) { if (!isNonEmptyArray$h(expressionDocs)) { return quasisDoc; } let replaceCounter = 0; const newDoc = mapDoc$2(cleanDoc$3(quasisDoc), doc => { if (typeof doc !== "string" || !doc.includes("@prettier-placeholder")) { return doc; } // When we have multiple placeholders in one line, like: // ${Child}${Child2}:not(:first-child) return doc.split(/@prettier-placeholder-(\d+)-id/).map((component, idx) => { // The placeholder is always at odd indices if (idx % 2 === 0) { return replaceEndOfLine$1(component); } // The component will always be a number at odd index replaceCounter++; return expressionDocs[component]; }); }); return expressionDocs.length === replaceCounter ? newDoc : null; } var css = format$2; const { builders: { indent: indent$v, join: join$t, hardline: hardline$y } } = require$$7$3; const { escapeTemplateCharacters, printTemplateExpressions: printTemplateExpressions$1 } = templateLiteral; function format$1(path, print, textToDoc) { const node = path.getValue(); const numQuasis = node.quasis.length; if (numQuasis === 1 && node.quasis[0].value.raw.trim() === "") { return "``"; } const expressionDocs = printTemplateExpressions$1(path, print); const parts = []; for (let i = 0; i < numQuasis; i++) { const templateElement = node.quasis[i]; const isFirst = i === 0; const isLast = i === numQuasis - 1; const text = templateElement.value.cooked; const lines = text.split("\n"); const numLines = lines.length; const expressionDoc = expressionDocs[i]; const startsWithBlankLine = numLines > 2 && lines[0].trim() === "" && lines[1].trim() === ""; const endsWithBlankLine = numLines > 2 && lines[numLines - 1].trim() === "" && lines[numLines - 2].trim() === ""; const commentsAndWhitespaceOnly = lines.every(line => /^\s*(?:#[^\n\r]*)?$/.test(line)); // Bail out if an interpolation occurs within a comment. if (!isLast && /#[^\n\r]*$/.test(lines[numLines - 1])) { return null; } let doc = null; if (commentsAndWhitespaceOnly) { doc = printGraphqlComments(lines); } else { doc = textToDoc(text, { parser: "graphql" }, { stripTrailingHardline: true }); } if (doc) { doc = escapeTemplateCharacters(doc, false); if (!isFirst && startsWithBlankLine) { parts.push(""); } parts.push(doc); if (!isLast && endsWithBlankLine) { parts.push(""); } } else if (!isFirst && !isLast && startsWithBlankLine) { parts.push(""); } if (expressionDoc) { parts.push(expressionDoc); } } return ["`", indent$v([hardline$y, join$t(hardline$y, parts)]), hardline$y, "`"]; } function printGraphqlComments(lines) { const parts = []; let seenComment = false; const array = lines.map(textLine => textLine.trim()); for (const [i, textLine] of array.entries()) { // Lines are either whitespace only, or a comment (with potential whitespace // around it). Drop whitespace-only lines. if (textLine === "") { continue; } if (array[i - 1] === "" && seenComment) { // If a non-first comment is preceded by a blank (whitespace only) line, // add in a blank line. parts.push([hardline$y, textLine]); } else { parts.push(textLine); } seenComment = true; } // If `lines` was whitespace only, return `null`. return parts.length === 0 ? null : join$t(hardline$y, parts); } var graphql = format$1; const { builders: { indent: indent$u, line: line$y, hardline: hardline$x, group: group$B }, utils: { mapDoc: mapDoc$1 } } = require$$7$3; const { printTemplateExpressions, uncookTemplateElementValue } = templateLiteral; // The counter is needed to distinguish nested embeds. let htmlTemplateLiteralCounter = 0; function format(path, print, textToDoc, options, { parser }) { const node = path.getValue(); const counter = htmlTemplateLiteralCounter; htmlTemplateLiteralCounter = htmlTemplateLiteralCounter + 1 >>> 0; const composePlaceholder = index => `PRETTIER_HTML_PLACEHOLDER_${index}_${counter}_IN_JS`; const text = node.quasis.map((quasi, index, quasis) => index === quasis.length - 1 ? quasi.value.cooked : quasi.value.cooked + composePlaceholder(index)).join(""); const expressionDocs = printTemplateExpressions(path, print); if (expressionDocs.length === 0 && text.trim().length === 0) { return "``"; } const placeholderRegex = new RegExp(composePlaceholder("(\\d+)"), "g"); let topLevelCount = 0; const doc = textToDoc(text, { parser, __onHtmlRoot(root) { topLevelCount = root.children.length; } }, { stripTrailingHardline: true }); const contentDoc = mapDoc$1(doc, doc => { if (typeof doc !== "string") { return doc; } const parts = []; const components = doc.split(placeholderRegex); for (let i = 0; i < components.length; i++) { let component = components[i]; if (i % 2 === 0) { if (component) { component = uncookTemplateElementValue(component); if (options.__embeddedInHtml) { component = component.replace(/<\/(script)\b/gi, "<\\/$1"); } parts.push(component); } continue; } const placeholderIndex = Number(component); parts.push(expressionDocs[placeholderIndex]); } return parts; }); const leadingWhitespace = /^\s/.test(text) ? " " : ""; const trailingWhitespace = /\s$/.test(text) ? " " : ""; const linebreak = options.htmlWhitespaceSensitivity === "ignore" ? hardline$x : leadingWhitespace && trailingWhitespace ? line$y : null; if (linebreak) { return group$B(["`", indent$u([linebreak, group$B(contentDoc)]), linebreak, "`"]); } return group$B(["`", leadingWhitespace, topLevelCount > 1 ? indent$u(group$B(contentDoc)) : group$B(contentDoc), trailingWhitespace, "`"]); } var html$3 = format; const { hasComment: hasComment$h, CommentCheckFlags: CommentCheckFlags$f, isObjectProperty: isObjectProperty$5 } = utils$5; const formatMarkdown = markdown; const formatCss = css; const formatGraphql = graphql; const formatHtml = html$3; function getLanguage(path) { if (isStyledJsx(path) || isStyledComponents(path) || isCssProp(path) || isAngularComponentStyles(path)) { return "css"; } if (isGraphQL(path)) { return "graphql"; } if (isHtml(path)) { return "html"; } if (isAngularComponentTemplate(path)) { return "angular"; } if (isMarkdown(path)) { return "markdown"; } } function embed$a(path, print, textToDoc, options) { const node = path.getValue(); if (node.type !== "TemplateLiteral" || // Bail out if any of the quasis have an invalid escape sequence // (which would make the `cooked` value be `null`) hasInvalidCookedValue(node)) { return; } const language = getLanguage(path); if (!language) { return; } if (language === "markdown") { return formatMarkdown(path, print, textToDoc); } if (language === "css") { return formatCss(path, print, textToDoc); } if (language === "graphql") { return formatGraphql(path, print, textToDoc); } if (language === "html" || language === "angular") { return formatHtml(path, print, textToDoc, options, { parser: language }); } } /** * md`...` * markdown`...` */ function isMarkdown(path) { const node = path.getValue(); const parent = path.getParentNode(); return parent && parent.type === "TaggedTemplateExpression" && node.quasis.length === 1 && parent.tag.type === "Identifier" && (parent.tag.name === "md" || parent.tag.name === "markdown"); } /** * Template literal in these contexts: * * css`` * css.global`` * css.resolve`` */ function isStyledJsx(path) { const node = path.getValue(); const parent = path.getParentNode(); const parentParent = path.getParentNode(1); return parentParent && node.quasis && parent.type === "JSXExpressionContainer" && parentParent.type === "JSXElement" && parentParent.openingElement.name.name === "style" && parentParent.openingElement.attributes.some(attribute => attribute.name.name === "jsx") || parent && parent.type === "TaggedTemplateExpression" && parent.tag.type === "Identifier" && parent.tag.name === "css" || parent && parent.type === "TaggedTemplateExpression" && parent.tag.type === "MemberExpression" && parent.tag.object.name === "css" && (parent.tag.property.name === "global" || parent.tag.property.name === "resolve"); } /** * Angular Components can have: * - Inline HTML template * - Inline CSS styles * * ...which are both within template literals somewhere * inside of the Component decorator factory. * * E.g. * @Component({ * template: `
...
`, * styles: [`h1 { color: blue; }`] * }) */ function isAngularComponentStyles(path) { return path.match(node => node.type === "TemplateLiteral", (node, name) => node.type === "ArrayExpression" && name === "elements", (node, name) => isObjectProperty$5(node) && node.key.type === "Identifier" && node.key.name === "styles" && name === "value", ...angularComponentObjectExpressionPredicates); } function isAngularComponentTemplate(path) { return path.match(node => node.type === "TemplateLiteral", (node, name) => isObjectProperty$5(node) && node.key.type === "Identifier" && node.key.name === "template" && name === "value", ...angularComponentObjectExpressionPredicates); } const angularComponentObjectExpressionPredicates = [(node, name) => node.type === "ObjectExpression" && name === "properties", (node, name) => node.type === "CallExpression" && node.callee.type === "Identifier" && node.callee.name === "Component" && name === "arguments", (node, name) => node.type === "Decorator" && name === "expression"]; /** * styled-components template literals */ function isStyledComponents(path) { const parent = path.getParentNode(); if (!parent || parent.type !== "TaggedTemplateExpression") { return false; } const tag = parent.tag.type === "ParenthesizedExpression" ? parent.tag.expression : parent.tag; switch (tag.type) { case "MemberExpression": return (// styled.foo`` isStyledIdentifier(tag.object) || // Component.extend`` isStyledExtend(tag) ); case "CallExpression": return (// styled(Component)`` isStyledIdentifier(tag.callee) || tag.callee.type === "MemberExpression" && (tag.callee.object.type === "MemberExpression" && ( // styled.foo.attrs({})`` isStyledIdentifier(tag.callee.object.object) || // Component.extend.attrs({})`` isStyledExtend(tag.callee.object)) || // styled(Component).attrs({})`` tag.callee.object.type === "CallExpression" && isStyledIdentifier(tag.callee.object.callee)) ); case "Identifier": // css`` return tag.name === "css"; default: return false; } } /** * JSX element with CSS prop */ function isCssProp(path) { const parent = path.getParentNode(); const parentParent = path.getParentNode(1); return parentParent && parent.type === "JSXExpressionContainer" && parentParent.type === "JSXAttribute" && parentParent.name.type === "JSXIdentifier" && parentParent.name.name === "css"; } function isStyledIdentifier(node) { return node.type === "Identifier" && node.name === "styled"; } function isStyledExtend(node) { return /^[A-Z]/.test(node.object.name) && node.property.name === "extend"; } /* * react-relay and graphql-tag * graphql`...` * graphql.experimental`...` * gql`...` * GraphQL comment block * * This intentionally excludes Relay Classic tags, as Prettier does not * support Relay Classic formatting. */ function isGraphQL(path) { const node = path.getValue(); const parent = path.getParentNode(); return hasLanguageComment(node, "GraphQL") || parent && (parent.type === "TaggedTemplateExpression" && (parent.tag.type === "MemberExpression" && parent.tag.object.name === "graphql" && parent.tag.property.name === "experimental" || parent.tag.type === "Identifier" && (parent.tag.name === "gql" || parent.tag.name === "graphql")) || parent.type === "CallExpression" && parent.callee.type === "Identifier" && parent.callee.name === "graphql"); } function hasLanguageComment(node, languageName) { // This checks for a leading comment that is exactly `/* GraphQL */` // In order to be in line with other implementations of this comment tag // we will not trim the comment value and we will expect exactly one space on // either side of the GraphQL string // Also see ./clean.js return hasComment$h(node, CommentCheckFlags$f.Block | CommentCheckFlags$f.Leading, ({ value }) => value === ` ${languageName} `); } /** * - html`...` * - HTML comment block */ function isHtml(path) { return hasLanguageComment(path.getValue(), "HTML") || path.match(node => node.type === "TemplateLiteral", (node, name) => node.type === "TaggedTemplateExpression" && node.tag.type === "Identifier" && node.tag.name === "html" && name === "quasi"); } function hasInvalidCookedValue({ quasis }) { return quasis.some(({ value: { cooked } }) => cooked === null); } var embed_1$4 = embed$a; const { isBlockComment: isBlockComment$4 } = utils$5; const ignoredProperties$4 = new Set(["range", "raw", "comments", "leadingComments", "trailingComments", "innerComments", "extra", "start", "end", "loc", "flags", "errors", "tokens"]); const removeTemplateElementsValue = node => { for (const templateElement of node.quasis) { delete templateElement.value; } }; function clean$c(ast, newObj, parent) { if (ast.type === "Program") { delete newObj.sourceType; } if (ast.type === "BigIntLiteral" || ast.type === "BigIntLiteralTypeAnnotation") { if (newObj.value) { newObj.value = newObj.value.toLowerCase(); } } if (ast.type === "BigIntLiteral" || ast.type === "Literal") { if (newObj.bigint) { newObj.bigint = newObj.bigint.toLowerCase(); } } if (ast.type === "DecimalLiteral") { newObj.value = Number(newObj.value); } if (ast.type === "Literal" && newObj.decimal) { newObj.decimal = Number(newObj.decimal); } // We remove extra `;` and add them when needed if (ast.type === "EmptyStatement") { return null; } // We move text around, including whitespaces and add {" "} if (ast.type === "JSXText") { return null; } if (ast.type === "JSXExpressionContainer" && (ast.expression.type === "Literal" || ast.expression.type === "StringLiteral") && ast.expression.value === " ") { return null; } // We change {'key': value} into {key: value}. // And {key: value} into {'key': value}. // Also for (some) number keys. if ((ast.type === "Property" || ast.type === "ObjectProperty" || ast.type === "MethodDefinition" || ast.type === "ClassProperty" || ast.type === "ClassMethod" || ast.type === "PropertyDefinition" || ast.type === "TSDeclareMethod" || ast.type === "TSPropertySignature" || ast.type === "ObjectTypeProperty") && typeof ast.key === "object" && ast.key && (ast.key.type === "Literal" || ast.key.type === "NumericLiteral" || ast.key.type === "StringLiteral" || ast.key.type === "Identifier")) { delete newObj.key; } // Remove raw and cooked values from TemplateElement when it's CSS // styled-jsx if (ast.type === "JSXElement" && ast.openingElement.name.name === "style" && ast.openingElement.attributes.some(attr => attr.name.name === "jsx")) { for (const { type, expression } of newObj.children) { if (type === "JSXExpressionContainer" && expression.type === "TemplateLiteral") { removeTemplateElementsValue(expression); } } } // CSS template literals in css prop if (ast.type === "JSXAttribute" && ast.name.name === "css" && ast.value.type === "JSXExpressionContainer" && ast.value.expression.type === "TemplateLiteral") { removeTemplateElementsValue(newObj.value.expression); } // We change quotes if (ast.type === "JSXAttribute" && ast.value && ast.value.type === "Literal" && /["']|"|'/.test(ast.value.value)) { newObj.value.value = newObj.value.value.replace(/["']|"|'/g, '"'); } // Angular Components: Inline HTML template and Inline CSS styles const expression = ast.expression || ast.callee; if (ast.type === "Decorator" && expression.type === "CallExpression" && expression.callee.name === "Component" && expression.arguments.length === 1) { const astProps = ast.expression.arguments[0].properties; for (const [index, prop] of newObj.expression.arguments[0].properties.entries()) { switch (astProps[index].key.name) { case "styles": if (prop.value.type === "ArrayExpression") { removeTemplateElementsValue(prop.value.elements[0]); } break; case "template": if (prop.value.type === "TemplateLiteral") { removeTemplateElementsValue(prop.value); } break; } } } // styled-components, graphql, markdown if (ast.type === "TaggedTemplateExpression" && (ast.tag.type === "MemberExpression" || ast.tag.type === "Identifier" && (ast.tag.name === "gql" || ast.tag.name === "graphql" || ast.tag.name === "css" || ast.tag.name === "md" || ast.tag.name === "markdown" || ast.tag.name === "html") || ast.tag.type === "CallExpression")) { removeTemplateElementsValue(newObj.quasi); } if (ast.type === "TemplateLiteral") { // This checks for a leading comment that is exactly `/* GraphQL */` // In order to be in line with other implementations of this comment tag // we will not trim the comment value and we will expect exactly one space on // either side of the GraphQL string // Also see ./embed.js const hasLanguageComment = ast.leadingComments && ast.leadingComments.some(comment => isBlockComment$4(comment) && ["GraphQL", "HTML"].some(languageName => comment.value === ` ${languageName} `)); if (hasLanguageComment || parent.type === "CallExpression" && parent.callee.name === "graphql" || // TODO: check parser // `flow` and `typescript` don't have `leadingComments` !ast.leadingComments) { removeTemplateElementsValue(newObj); } } if (ast.type === "InterpreterDirective") { newObj.value = newObj.value.trimEnd(); } // Prettier removes degenerate union and intersection types with only one member. if ((ast.type === "TSIntersectionType" || ast.type === "TSUnionType") && ast.types.length === 1) { return newObj.types[0]; } } clean$c.ignoredProperties = ignoredProperties$4; var clean_1$4 = clean$c; var build = {}; var detectNewline$1 = {exports: {}}; const detectNewline = string => { if (typeof string !== 'string') { throw new TypeError('Expected a string'); } const newlines = string.match(/(?:\r?\n)/g) || []; if (newlines.length === 0) { return; } const crlf = newlines.filter(newline => newline === '\r\n').length; const lf = newlines.length - crlf; return crlf > lf ? '\r\n' : '\n'; }; detectNewline$1.exports = detectNewline; detectNewline$1.exports.graceful = string => typeof string === 'string' && detectNewline(string) || '\n'; Object.defineProperty(build, '__esModule', { value: true }); build.extract = extract$1; build.strip = strip$1; build.parse = parse$1; build.parseWithComments = parseWithComments$1; build.print = print$3; function _os() { const data = require$$0__default$1["default"]; _os = function () { return data; }; return data; } function _detectNewline() { const data = _interopRequireDefault(detectNewline$1.exports); _detectNewline = function () { return data; }; return data; } function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /** * Copyright (c) Facebook, Inc. and its affiliates. All Rights Reserved. * * This source code is licensed under the MIT license found in the * LICENSE file in the root directory of this source tree. */ const commentEndRe = /\*\/$/; const commentStartRe = /^\/\*\*/; const docblockRe = /^\s*(\/\*\*?(.|\r?\n)*?\*\/)/; const lineCommentRe = /(^|\s+)\/\/([^\r\n]*)/g; const ltrimNewlineRe = /^(\r?\n)+/; const multilineRe = /(?:^|\r?\n) *(@[^\r\n]*?) *\r?\n *(?![^@\r\n]*\/\/[^]*)([^@\r\n\s][^@\r\n]+?) *\r?\n/g; const propertyRe = /(?:^|\r?\n) *@(\S+) *([^\r\n]*)/g; const stringStartRe = /(\r?\n|^) *\* ?/g; const STRING_ARRAY = []; function extract$1(contents) { const match = contents.match(docblockRe); return match ? match[0].trimLeft() : ''; } function strip$1(contents) { const match = contents.match(docblockRe); return match && match[0] ? contents.substring(match[0].length) : contents; } function parse$1(docblock) { return parseWithComments$1(docblock).pragmas; } function parseWithComments$1(docblock) { const line = (0, _detectNewline().default)(docblock) || _os().EOL; docblock = docblock.replace(commentStartRe, '').replace(commentEndRe, '').replace(stringStartRe, '$1'); // Normalize multi-line directives let prev = ''; while (prev !== docblock) { prev = docblock; docblock = docblock.replace(multilineRe, `${line}$1 $2${line}`); } docblock = docblock.replace(ltrimNewlineRe, '').trimRight(); const result = Object.create(null); const comments = docblock.replace(propertyRe, '').replace(ltrimNewlineRe, '').trimRight(); let match; while (match = propertyRe.exec(docblock)) { // strip linecomments from pragmas const nextPragma = match[2].replace(lineCommentRe, ''); if (typeof result[match[1]] === 'string' || Array.isArray(result[match[1]])) { result[match[1]] = STRING_ARRAY.concat(result[match[1]], nextPragma); } else { result[match[1]] = nextPragma; } } return { comments, pragmas: result }; } function print$3({ comments = '', pragmas = {} }) { const line = (0, _detectNewline().default)(comments) || _os().EOL; const head = '/**'; const start = ' *'; const tail = ' */'; const keys = Object.keys(pragmas); const printedObject = keys.map(key => printKeyValues(key, pragmas[key])).reduce((arr, next) => arr.concat(next), []).map(keyValue => start + ' ' + keyValue + line).join(''); if (!comments) { if (keys.length === 0) { return ''; } if (keys.length === 1 && !Array.isArray(pragmas[keys[0]])) { const value = pragmas[keys[0]]; return `${head} ${printKeyValues(keys[0], value)[0]}${tail}`; } } const printedComments = comments.split(line).map(textLine => `${start} ${textLine}`).join(line) + line; return head + line + (comments ? printedComments : '') + (comments && keys.length ? start + line : '') + printedObject + tail; } function printKeyValues(key, valueOrArray) { return STRING_ARRAY.concat(valueOrArray).map(value => `@${key} ${value}`.trim()); } const { parseWithComments, strip, extract, print: print$2 } = build; const { getShebang } = util$8; const { normalizeEndOfLine } = endOfLine; function parseDocBlock(text) { const shebang = getShebang(text); if (shebang) { text = text.slice(shebang.length + 1); } const docBlock = extract(text); const { pragmas, comments } = parseWithComments(docBlock); return { shebang, text, pragmas, comments }; } function hasPragma$4(text) { const pragmas = Object.keys(parseDocBlock(text).pragmas); return pragmas.includes("prettier") || pragmas.includes("format"); } function insertPragma$a(originalText) { const { shebang, text, pragmas, comments } = parseDocBlock(originalText); const strippedText = strip(text); const docBlock = print$2({ pragmas: Object.assign({ format: "" }, pragmas), comments: comments.trimStart() }); return (shebang ? `${shebang}\n` : "") + // normalise newlines (mitigate use of os.EOL by jest-docblock) normalizeEndOfLine(docBlock) + (strippedText.startsWith("\n") ? "\n" : "\n\n") + strippedText; } var pragma$5 = { hasPragma: hasPragma$4, insertPragma: insertPragma$a }; const { getLast: getLast$j, hasNewline: hasNewline$6, getNextNonSpaceNonCommentCharacterIndexWithStartIndex, getNextNonSpaceNonCommentCharacter: getNextNonSpaceNonCommentCharacter$1, hasNewlineInRange: hasNewlineInRange$3, addLeadingComment, addTrailingComment, addDanglingComment, getNextNonSpaceNonCommentCharacterIndex: getNextNonSpaceNonCommentCharacterIndex$2, isNonEmptyArray: isNonEmptyArray$g } = util$8; const { isBlockComment: isBlockComment$3, getFunctionParameters: getFunctionParameters$5, isPrettierIgnoreComment, isJsxNode: isJsxNode$6, hasFlowShorthandAnnotationComment: hasFlowShorthandAnnotationComment$2, hasFlowAnnotationComment: hasFlowAnnotationComment$1, hasIgnoreComment: hasIgnoreComment$1, isCallLikeExpression: isCallLikeExpression$1, getCallArguments: getCallArguments$4, isCallExpression: isCallExpression$c, isMemberExpression: isMemberExpression$8, isObjectProperty: isObjectProperty$4, getComments: getComments$4, CommentCheckFlags: CommentCheckFlags$e } = utils$5; const { locStart: locStart$p, locEnd: locEnd$o } = loc$6; /** * @typedef {import("./types/estree").Node} Node * @typedef {import("./types/estree").Comment} Comment * @typedef {import("../common/ast-path")} AstPath * * @typedef {Object} CommentContext * @property {Comment} comment * @property {Node} precedingNode * @property {Node} enclosingNode * @property {Node} followingNode * @property {string} text * @property {any} options * @property {Node} ast * @property {boolean} isLastComment */ /** * @param {CommentContext} context * @returns {boolean} */ function handleOwnLineComment(context) { return [handleIgnoreComments, handleLastFunctionArgComments, handleMemberExpressionComments, handleIfStatementComments, handleWhileComments, handleTryStatementComments, handleClassComments, handleImportSpecifierComments, handleForComments, handleUnionTypeComments, handleOnlyComments, handleImportDeclarationComments, handleAssignmentPatternComments, handleMethodNameComments, handleLabeledStatementComments].some(fn => fn(context)); } /** * @param {CommentContext} context * @returns {boolean} */ function handleEndOfLineComment(context) { return [handleClosureTypeCastComments, handleLastFunctionArgComments, handleConditionalExpressionComments, handleImportSpecifierComments, handleIfStatementComments, handleWhileComments, handleTryStatementComments, handleClassComments, handleLabeledStatementComments, handleCallExpressionComments, handlePropertyComments, handleOnlyComments, handleTypeAliasComments, handleVariableDeclaratorComments].some(fn => fn(context)); } /** * @param {CommentContext} context * @returns {boolean} */ function handleRemainingComment(context) { return [handleIgnoreComments, handleIfStatementComments, handleWhileComments, handleObjectPropertyAssignment, handleCommentInEmptyParens, handleMethodNameComments, handleOnlyComments, handleCommentAfterArrowParams, handleFunctionNameComments, handleTSMappedTypeComments, handleBreakAndContinueStatementComments, handleTSFunctionTrailingComments].some(fn => fn(context)); } /** * @param {Node} node * @returns {void} */ function addBlockStatementFirstComment(node, comment) { // @ts-expect-error const firstNonEmptyNode = (node.body || node.properties).find(({ type }) => type !== "EmptyStatement"); if (firstNonEmptyNode) { addLeadingComment(firstNonEmptyNode, comment); } else { addDanglingComment(node, comment); } } /** * @param {Node} node * @returns {void} */ function addBlockOrNotComment(node, comment) { if (node.type === "BlockStatement") { addBlockStatementFirstComment(node, comment); } else { addLeadingComment(node, comment); } } function handleClosureTypeCastComments({ comment, followingNode }) { if (followingNode && isTypeCastComment(comment)) { addLeadingComment(followingNode, comment); return true; } return false; } // There are often comments before the else clause of if statements like // // if (1) { ... } // // comment // else { ... } // // They are being attached as leading comments of the BlockExpression which // is not well printed. What we want is to instead move the comment inside // of the block and make it leadingComment of the first element of the block // or dangling comment of the block if there is nothing inside // // if (1) { ... } // else { // // comment // ... // } function handleIfStatementComments({ comment, precedingNode, enclosingNode, followingNode, text }) { if (!enclosingNode || enclosingNode.type !== "IfStatement" || !followingNode) { return false; } // We unfortunately have no way using the AST or location of nodes to know // if the comment is positioned before the condition parenthesis: // if (a /* comment */) {} // The only workaround I found is to look at the next character to see if // it is a ). const nextCharacter = getNextNonSpaceNonCommentCharacter$1(text, comment, locEnd$o); if (nextCharacter === ")") { addTrailingComment(precedingNode, comment); return true; } // Comments before `else`: // - treat as trailing comments of the consequent, if it's a BlockStatement // - treat as a dangling comment otherwise if (precedingNode === enclosingNode.consequent && followingNode === enclosingNode.alternate) { if (precedingNode.type === "BlockStatement") { addTrailingComment(precedingNode, comment); } else { addDanglingComment(enclosingNode, comment); } return true; } if (followingNode.type === "BlockStatement") { addBlockStatementFirstComment(followingNode, comment); return true; } if (followingNode.type === "IfStatement") { addBlockOrNotComment(followingNode.consequent, comment); return true; } // For comments positioned after the condition parenthesis in an if statement // before the consequent without brackets on, such as // if (a) /* comment */ true, // we look at the next character to see if the following node // is the consequent for the if statement if (enclosingNode.consequent === followingNode) { addLeadingComment(followingNode, comment); return true; } return false; } function handleWhileComments({ comment, precedingNode, enclosingNode, followingNode, text }) { if (!enclosingNode || enclosingNode.type !== "WhileStatement" || !followingNode) { return false; } // We unfortunately have no way using the AST or location of nodes to know // if the comment is positioned before the condition parenthesis: // while (a /* comment */) {} // The only workaround I found is to look at the next character to see if // it is a ). const nextCharacter = getNextNonSpaceNonCommentCharacter$1(text, comment, locEnd$o); if (nextCharacter === ")") { addTrailingComment(precedingNode, comment); return true; } if (followingNode.type === "BlockStatement") { addBlockStatementFirstComment(followingNode, comment); return true; } if (enclosingNode.body === followingNode) { addLeadingComment(followingNode, comment); return true; } return false; } // Same as IfStatement but for TryStatement function handleTryStatementComments({ comment, precedingNode, enclosingNode, followingNode }) { if (!enclosingNode || enclosingNode.type !== "TryStatement" && enclosingNode.type !== "CatchClause" || !followingNode) { return false; } if (enclosingNode.type === "CatchClause" && precedingNode) { addTrailingComment(precedingNode, comment); return true; } if (followingNode.type === "BlockStatement") { addBlockStatementFirstComment(followingNode, comment); return true; } if (followingNode.type === "TryStatement") { addBlockOrNotComment(followingNode.finalizer, comment); return true; } if (followingNode.type === "CatchClause") { addBlockOrNotComment(followingNode.body, comment); return true; } return false; } function handleMemberExpressionComments({ comment, enclosingNode, followingNode }) { if (isMemberExpression$8(enclosingNode) && followingNode && followingNode.type === "Identifier") { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleConditionalExpressionComments({ comment, precedingNode, enclosingNode, followingNode, text }) { const isSameLineAsPrecedingNode = precedingNode && !hasNewlineInRange$3(text, locEnd$o(precedingNode), locStart$p(comment)); if ((!precedingNode || !isSameLineAsPrecedingNode) && enclosingNode && (enclosingNode.type === "ConditionalExpression" || enclosingNode.type === "TSConditionalType") && followingNode) { addLeadingComment(followingNode, comment); return true; } return false; } function handleObjectPropertyAssignment({ comment, precedingNode, enclosingNode }) { if (isObjectProperty$4(enclosingNode) && enclosingNode.shorthand && enclosingNode.key === precedingNode && enclosingNode.value.type === "AssignmentPattern") { addTrailingComment(enclosingNode.value.left, comment); return true; } return false; } function handleClassComments({ comment, precedingNode, enclosingNode, followingNode }) { if (enclosingNode && (enclosingNode.type === "ClassDeclaration" || enclosingNode.type === "ClassExpression" || enclosingNode.type === "DeclareClass" || enclosingNode.type === "DeclareInterface" || enclosingNode.type === "InterfaceDeclaration" || enclosingNode.type === "TSInterfaceDeclaration")) { if (isNonEmptyArray$g(enclosingNode.decorators) && !(followingNode && followingNode.type === "Decorator")) { addTrailingComment(getLast$j(enclosingNode.decorators), comment); return true; } if (enclosingNode.body && followingNode === enclosingNode.body) { addBlockStatementFirstComment(enclosingNode.body, comment); return true; } // Don't add leading comments to `implements`, `extends`, `mixins` to // avoid printing the comment after the keyword. if (followingNode) { for (const prop of ["implements", "extends", "mixins"]) { if (enclosingNode[prop] && followingNode === enclosingNode[prop][0]) { if (precedingNode && (precedingNode === enclosingNode.id || precedingNode === enclosingNode.typeParameters || precedingNode === enclosingNode.superClass)) { addTrailingComment(precedingNode, comment); } else { addDanglingComment(enclosingNode, comment, prop); } return true; } } } } return false; } function handleMethodNameComments({ comment, precedingNode, enclosingNode, text }) { // This is only needed for estree parsers (flow, typescript) to attach // after a method name: // obj = { fn /*comment*/() {} }; if (enclosingNode && precedingNode && ( // "MethodDefinition" is handled in getCommentChildNodes enclosingNode.type === "Property" || enclosingNode.type === "TSDeclareMethod" || enclosingNode.type === "TSAbstractMethodDefinition") && precedingNode.type === "Identifier" && enclosingNode.key === precedingNode && // special Property case: { key: /*comment*/(value) }; // comment should be attached to value instead of key getNextNonSpaceNonCommentCharacter$1(text, precedingNode, locEnd$o) !== ":") { addTrailingComment(precedingNode, comment); return true; } // Print comments between decorators and class methods as a trailing comment // on the decorator node instead of the method node if (precedingNode && enclosingNode && precedingNode.type === "Decorator" && (enclosingNode.type === "ClassMethod" || enclosingNode.type === "ClassProperty" || enclosingNode.type === "PropertyDefinition" || enclosingNode.type === "TSAbstractPropertyDefinition" || enclosingNode.type === "TSAbstractMethodDefinition" || enclosingNode.type === "TSDeclareMethod" || enclosingNode.type === "MethodDefinition")) { addTrailingComment(precedingNode, comment); return true; } return false; } function handleFunctionNameComments({ comment, precedingNode, enclosingNode, text }) { if (getNextNonSpaceNonCommentCharacter$1(text, comment, locEnd$o) !== "(") { return false; } if (precedingNode && enclosingNode && (enclosingNode.type === "FunctionDeclaration" || enclosingNode.type === "FunctionExpression" || enclosingNode.type === "ClassMethod" || enclosingNode.type === "MethodDefinition" || enclosingNode.type === "ObjectMethod")) { addTrailingComment(precedingNode, comment); return true; } return false; } function handleCommentAfterArrowParams({ comment, enclosingNode, text }) { if (!(enclosingNode && enclosingNode.type === "ArrowFunctionExpression")) { return false; } const index = getNextNonSpaceNonCommentCharacterIndex$2(text, comment, locEnd$o); if (index !== false && text.slice(index, index + 2) === "=>") { addDanglingComment(enclosingNode, comment); return true; } return false; } function handleCommentInEmptyParens({ comment, enclosingNode, text }) { if (getNextNonSpaceNonCommentCharacter$1(text, comment, locEnd$o) !== ")") { return false; } // Only add dangling comments to fix the case when no params are present, // i.e. a function without any argument. if (enclosingNode && (isRealFunctionLikeNode(enclosingNode) && getFunctionParameters$5(enclosingNode).length === 0 || isCallLikeExpression$1(enclosingNode) && getCallArguments$4(enclosingNode).length === 0)) { addDanglingComment(enclosingNode, comment); return true; } if (enclosingNode && (enclosingNode.type === "MethodDefinition" || enclosingNode.type === "TSAbstractMethodDefinition") && getFunctionParameters$5(enclosingNode.value).length === 0) { addDanglingComment(enclosingNode.value, comment); return true; } return false; } function handleLastFunctionArgComments({ comment, precedingNode, enclosingNode, followingNode, text }) { // Flow function type definitions if (precedingNode && precedingNode.type === "FunctionTypeParam" && enclosingNode && enclosingNode.type === "FunctionTypeAnnotation" && followingNode && followingNode.type !== "FunctionTypeParam") { addTrailingComment(precedingNode, comment); return true; } // Real functions and TypeScript function type definitions if (precedingNode && (precedingNode.type === "Identifier" || precedingNode.type === "AssignmentPattern") && enclosingNode && isRealFunctionLikeNode(enclosingNode) && getNextNonSpaceNonCommentCharacter$1(text, comment, locEnd$o) === ")") { addTrailingComment(precedingNode, comment); return true; } if (enclosingNode && enclosingNode.type === "FunctionDeclaration" && followingNode && followingNode.type === "BlockStatement") { const functionParamRightParenIndex = (() => { const parameters = getFunctionParameters$5(enclosingNode); if (parameters.length > 0) { return getNextNonSpaceNonCommentCharacterIndexWithStartIndex(text, locEnd$o(getLast$j(parameters))); } const functionParamLeftParenIndex = getNextNonSpaceNonCommentCharacterIndexWithStartIndex(text, locEnd$o(enclosingNode.id)); return functionParamLeftParenIndex !== false && getNextNonSpaceNonCommentCharacterIndexWithStartIndex(text, functionParamLeftParenIndex + 1); })(); if (locStart$p(comment) > functionParamRightParenIndex) { addBlockStatementFirstComment(followingNode, comment); return true; } } return false; } function handleImportSpecifierComments({ comment, enclosingNode }) { if (enclosingNode && enclosingNode.type === "ImportSpecifier") { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleLabeledStatementComments({ comment, enclosingNode }) { if (enclosingNode && enclosingNode.type === "LabeledStatement") { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleBreakAndContinueStatementComments({ comment, enclosingNode }) { if (enclosingNode && (enclosingNode.type === "ContinueStatement" || enclosingNode.type === "BreakStatement") && !enclosingNode.label) { addTrailingComment(enclosingNode, comment); return true; } return false; } function handleCallExpressionComments({ comment, precedingNode, enclosingNode }) { if (isCallExpression$c(enclosingNode) && precedingNode && enclosingNode.callee === precedingNode && enclosingNode.arguments.length > 0) { addLeadingComment(enclosingNode.arguments[0], comment); return true; } return false; } function handleUnionTypeComments({ comment, precedingNode, enclosingNode, followingNode }) { if (enclosingNode && (enclosingNode.type === "UnionTypeAnnotation" || enclosingNode.type === "TSUnionType")) { if (isPrettierIgnoreComment(comment)) { followingNode.prettierIgnore = true; comment.unignore = true; } if (precedingNode) { addTrailingComment(precedingNode, comment); return true; } return false; } if (followingNode && (followingNode.type === "UnionTypeAnnotation" || followingNode.type === "TSUnionType") && isPrettierIgnoreComment(comment)) { followingNode.types[0].prettierIgnore = true; comment.unignore = true; } return false; } function handlePropertyComments({ comment, enclosingNode }) { if (isObjectProperty$4(enclosingNode)) { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleOnlyComments({ comment, enclosingNode, followingNode, ast, isLastComment }) { // With Flow the enclosingNode is undefined so use the AST instead. if (ast && ast.body && ast.body.length === 0) { if (isLastComment) { addDanglingComment(ast, comment); } else { addLeadingComment(ast, comment); } return true; } if (enclosingNode && enclosingNode.type === "Program" && enclosingNode.body.length === 0 && !isNonEmptyArray$g(enclosingNode.directives)) { if (isLastComment) { addDanglingComment(enclosingNode, comment); } else { addLeadingComment(enclosingNode, comment); } return true; } if (followingNode && followingNode.type === "Program" && followingNode.body.length === 0 && enclosingNode && enclosingNode.type === "ModuleExpression") { addDanglingComment(followingNode, comment); return true; } return false; } function handleForComments({ comment, enclosingNode }) { if (enclosingNode && (enclosingNode.type === "ForInStatement" || enclosingNode.type === "ForOfStatement")) { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleImportDeclarationComments({ comment, precedingNode, enclosingNode, text }) { if (precedingNode && precedingNode.type === "ImportSpecifier" && enclosingNode && enclosingNode.type === "ImportDeclaration" && hasNewline$6(text, locEnd$o(comment))) { addTrailingComment(precedingNode, comment); return true; } return false; } function handleAssignmentPatternComments({ comment, enclosingNode }) { if (enclosingNode && enclosingNode.type === "AssignmentPattern") { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleTypeAliasComments({ comment, enclosingNode }) { if (enclosingNode && enclosingNode.type === "TypeAlias") { addLeadingComment(enclosingNode, comment); return true; } return false; } function handleVariableDeclaratorComments({ comment, enclosingNode, followingNode }) { if (enclosingNode && (enclosingNode.type === "VariableDeclarator" || enclosingNode.type === "AssignmentExpression") && followingNode && (followingNode.type === "ObjectExpression" || followingNode.type === "ArrayExpression" || followingNode.type === "TemplateLiteral" || followingNode.type === "TaggedTemplateExpression" || isBlockComment$3(comment))) { addLeadingComment(followingNode, comment); return true; } return false; } function handleTSFunctionTrailingComments({ comment, enclosingNode, followingNode, text }) { if (!followingNode && enclosingNode && (enclosingNode.type === "TSMethodSignature" || enclosingNode.type === "TSDeclareFunction" || enclosingNode.type === "TSAbstractMethodDefinition") && getNextNonSpaceNonCommentCharacter$1(text, comment, locEnd$o) === ";") { addTrailingComment(enclosingNode, comment); return true; } return false; } function handleIgnoreComments({ comment, enclosingNode, followingNode }) { if (isPrettierIgnoreComment(comment) && enclosingNode && enclosingNode.type === "TSMappedType" && followingNode && followingNode.type === "TSTypeParameter" && followingNode.constraint) { enclosingNode.prettierIgnore = true; comment.unignore = true; return true; } } function handleTSMappedTypeComments({ comment, precedingNode, enclosingNode, followingNode }) { if (!enclosingNode || enclosingNode.type !== "TSMappedType") { return false; } if (followingNode && followingNode.type === "TSTypeParameter" && followingNode.name) { addLeadingComment(followingNode.name, comment); return true; } if (precedingNode && precedingNode.type === "TSTypeParameter" && precedingNode.constraint) { addTrailingComment(precedingNode.constraint, comment); return true; } return false; } /** * @param {Node} node * @returns {boolean} */ function isRealFunctionLikeNode(node) { return node.type === "ArrowFunctionExpression" || node.type === "FunctionExpression" || node.type === "FunctionDeclaration" || node.type === "ObjectMethod" || node.type === "ClassMethod" || node.type === "TSDeclareFunction" || node.type === "TSCallSignatureDeclaration" || node.type === "TSConstructSignatureDeclaration" || node.type === "TSMethodSignature" || node.type === "TSConstructorType" || node.type === "TSFunctionType" || node.type === "TSDeclareMethod"; } /** * @param {any} node * @returns {Node[] | void} */ function getCommentChildNodes(node, options) { // Prevent attaching comments to FunctionExpression in this case: // class Foo { // bar() // comment // { // baz(); // } // } if ((options.parser === "typescript" || options.parser === "flow" || options.parser === "espree" || options.parser === "meriyah" || options.parser === "__babel_estree") && node.type === "MethodDefinition" && node.value && node.value.type === "FunctionExpression" && getFunctionParameters$5(node.value).length === 0 && !node.value.returnType && !isNonEmptyArray$g(node.value.typeParameters) && node.value.body) { return [...(node.decorators || []), node.key, node.value.body]; } } /** * @param {Comment} comment * @returns {boolean} */ function isTypeCastComment(comment) { return isBlockComment$3(comment) && comment.value[0] === "*" && // TypeScript expects the type to be enclosed in curly brackets, however // Closure Compiler accepts types in parens and even without any delimiters at all. // That's why we just search for "@type". /@type\b/.test(comment.value); } /** * @param {AstPath} path * @returns {boolean} */ function willPrintOwnComments$1(path /*, options */ ) { const node = path.getValue(); const parent = path.getParentNode(); const hasFlowAnnotations = node => hasFlowAnnotationComment$1(getComments$4(node, CommentCheckFlags$e.Leading)) || hasFlowAnnotationComment$1(getComments$4(node, CommentCheckFlags$e.Trailing)); return (node && (isJsxNode$6(node) || hasFlowShorthandAnnotationComment$2(node) || isCallExpression$c(parent) && hasFlowAnnotations(node)) || parent && (parent.type === "JSXSpreadAttribute" || parent.type === "JSXSpreadChild" || parent.type === "UnionTypeAnnotation" || parent.type === "TSUnionType" || (parent.type === "ClassDeclaration" || parent.type === "ClassExpression") && parent.superClass === node)) && (!hasIgnoreComment$1(path) || parent.type === "UnionTypeAnnotation" || parent.type === "TSUnionType"); } var comments = { handleOwnLineComment, handleEndOfLineComment, handleRemainingComment, isTypeCastComment, getCommentChildNodes, willPrintOwnComments: willPrintOwnComments$1 }; const getLast$i = getLast_1; const { getFunctionParameters: getFunctionParameters$4, getLeftSidePathName: getLeftSidePathName$1, hasFlowShorthandAnnotationComment: hasFlowShorthandAnnotationComment$1, hasNakedLeftSide: hasNakedLeftSide$2, hasNode: hasNode$1, isBitwiseOperator, startsWithNoLookaheadToken: startsWithNoLookaheadToken$1, shouldFlatten: shouldFlatten$1, getPrecedence, isCallExpression: isCallExpression$b, isMemberExpression: isMemberExpression$7, isObjectProperty: isObjectProperty$3 } = utils$5; function needsParens(path, options) { const parent = path.getParentNode(); if (!parent) { return false; } const name = path.getName(); const node = path.getNode(); // to avoid unexpected `}}` in HTML interpolations if (options.__isInHtmlInterpolation && !options.bracketSpacing && endsWithRightBracket(node) && isFollowedByRightBracket(path)) { return true; } // Only statements don't need parentheses. if (isStatement(node)) { return false; } if ( // Preserve parens if we have a Flow annotation comment, unless we're using the Flow // parser. The Flow parser turns Flow comments into type annotation nodes in its // AST, which we handle separately. options.parser !== "flow" && hasFlowShorthandAnnotationComment$1(path.getValue())) { return true; } // Identifiers never need parentheses. if (node.type === "Identifier") { // ...unless those identifiers are embed placeholders. They might be substituted by complex // expressions, so the parens around them should not be dropped. Example (JS-in-HTML-in-JS): // let tpl = html``; // If the inner JS formatter removes the parens, the expression might change its meaning: // f((a + b) / 2) vs f(a + b / 2) if (node.extra && node.extra.parenthesized && /^PRETTIER_HTML_PLACEHOLDER_\d+_\d+_IN_JS$/.test(node.name)) { return true; } // `for (async of []);` is invalid if (name === "left" && node.name === "async" && parent.type === "ForOfStatement" && !parent.await) { return true; } return false; } switch (parent.type) { case "ParenthesizedExpression": return false; case "ClassDeclaration": case "ClassExpression": { // Add parens around the extends clause of a class. It is needed for almost // all expressions. if (name === "superClass" && (node.type === "ArrowFunctionExpression" || node.type === "AssignmentExpression" || node.type === "AwaitExpression" || node.type === "BinaryExpression" || node.type === "ConditionalExpression" || node.type === "LogicalExpression" || node.type === "NewExpression" || node.type === "ObjectExpression" || node.type === "ParenthesizedExpression" || node.type === "SequenceExpression" || node.type === "TaggedTemplateExpression" || node.type === "UnaryExpression" || node.type === "UpdateExpression" || node.type === "YieldExpression" || node.type === "TSNonNullExpression")) { return true; } break; } case "ExportDefaultDeclaration": { return (// `export default function` or `export default class` can't be followed by // anything after. So an expression like `export default (function(){}).toString()` // needs to be followed by a parentheses shouldWrapFunctionForExportDefault(path, options) || // `export default (foo, bar)` also needs parentheses node.type === "SequenceExpression" ); } case "Decorator": { if (name === "expression") { let hasCallExpression = false; let hasMemberExpression = false; let current = node; while (current) { switch (current.type) { case "MemberExpression": hasMemberExpression = true; current = current.object; break; case "CallExpression": if ( /** @(x().y) */ hasMemberExpression || /** @(x().y()) */ hasCallExpression) { return options.parser !== "typescript"; } hasCallExpression = true; current = current.callee; break; case "Identifier": return false; case "TaggedTemplateExpression": // babel-parser cannot parse // @foo`bar` return options.parser !== "typescript"; default: return true; } } return true; } break; } case "ExpressionStatement": { if (startsWithNoLookaheadToken$1(node, /* forbidFunctionClassAndDoExpr */ true)) { return true; } break; } case "ArrowFunctionExpression": { if (name === "body" && node.type !== "SequenceExpression" && // these have parens added anyway startsWithNoLookaheadToken$1(node, /* forbidFunctionClassAndDoExpr */ false)) { return true; } break; } } switch (node.type) { case "UpdateExpression": if (parent.type === "UnaryExpression") { return node.prefix && (node.operator === "++" && parent.operator === "+" || node.operator === "--" && parent.operator === "-"); } // else fallthrough case "UnaryExpression": switch (parent.type) { case "UnaryExpression": return node.operator === parent.operator && (node.operator === "+" || node.operator === "-"); case "BindExpression": return true; case "MemberExpression": case "OptionalMemberExpression": return name === "object"; case "TaggedTemplateExpression": return true; case "NewExpression": case "CallExpression": case "OptionalCallExpression": return name === "callee"; case "BinaryExpression": return name === "left" && parent.operator === "**"; case "TSNonNullExpression": return true; default: return false; } case "BinaryExpression": { if (parent.type === "UpdateExpression") { return true; } // We add parentheses to any `a in b` inside `ForStatement` initializer // https://github.com/prettier/prettier/issues/907#issuecomment-284304321 if (node.operator === "in" && isPathInForStatementInitializer(path)) { return true; } if (node.operator === "|>" && node.extra && node.extra.parenthesized) { const grandParent = path.getParentNode(1); if (grandParent.type === "BinaryExpression" && grandParent.operator === "|>") { return true; } } } // fallthrough case "TSTypeAssertion": case "TSAsExpression": case "LogicalExpression": switch (parent.type) { case "TSAsExpression": // example: foo as unknown as Bar return node.type !== "TSAsExpression"; case "ConditionalExpression": return node.type === "TSAsExpression"; case "CallExpression": case "NewExpression": case "OptionalCallExpression": return name === "callee"; case "ClassExpression": case "ClassDeclaration": return name === "superClass"; case "TSTypeAssertion": case "TaggedTemplateExpression": case "UnaryExpression": case "JSXSpreadAttribute": case "SpreadElement": case "SpreadProperty": case "BindExpression": case "AwaitExpression": case "TSNonNullExpression": case "UpdateExpression": return true; case "MemberExpression": case "OptionalMemberExpression": return name === "object"; case "AssignmentExpression": case "AssignmentPattern": return name === "left" && (node.type === "TSTypeAssertion" || node.type === "TSAsExpression"); case "LogicalExpression": if (node.type === "LogicalExpression") { return parent.operator !== node.operator; } // else fallthrough case "BinaryExpression": { const { operator, type } = node; if (!operator && type !== "TSTypeAssertion") { return true; } const precedence = getPrecedence(operator); const parentOperator = parent.operator; const parentPrecedence = getPrecedence(parentOperator); if (parentPrecedence > precedence) { return true; } if (name === "right" && parentPrecedence === precedence) { return true; } if (parentPrecedence === precedence && !shouldFlatten$1(parentOperator, operator)) { return true; } if (parentPrecedence < precedence && operator === "%") { return parentOperator === "+" || parentOperator === "-"; } // Add parenthesis when working with bitwise operators // It's not strictly needed but helps with code understanding if (isBitwiseOperator(parentOperator)) { return true; } return false; } default: return false; } case "SequenceExpression": switch (parent.type) { case "ReturnStatement": return false; case "ForStatement": // Although parentheses wouldn't hurt around sequence // expressions in the head of for loops, traditional style // dictates that e.g. i++, j++ should not be wrapped with // parentheses. return false; case "ExpressionStatement": return name !== "expression"; case "ArrowFunctionExpression": // We do need parentheses, but SequenceExpressions are handled // specially when printing bodies of arrow functions. return name !== "body"; default: // Otherwise err on the side of overparenthesization, adding // explicit exceptions above if this proves overzealous. return true; } case "YieldExpression": if (parent.type === "UnaryExpression" || parent.type === "AwaitExpression" || parent.type === "TSAsExpression" || parent.type === "TSNonNullExpression") { return true; } // else fallthrough case "AwaitExpression": switch (parent.type) { case "TaggedTemplateExpression": case "UnaryExpression": case "LogicalExpression": case "SpreadElement": case "SpreadProperty": case "TSAsExpression": case "TSNonNullExpression": case "BindExpression": return true; case "MemberExpression": case "OptionalMemberExpression": return name === "object"; case "NewExpression": case "CallExpression": case "OptionalCallExpression": return name === "callee"; case "ConditionalExpression": return name === "test"; case "BinaryExpression": { if (!node.argument && parent.operator === "|>") { return false; } return true; } default: return false; } case "TSConditionalType": if (name === "extendsType" && parent.type === "TSConditionalType") { return true; } // fallthrough case "TSFunctionType": case "TSConstructorType": if (name === "checkType" && parent.type === "TSConditionalType") { return true; } // fallthrough case "TSUnionType": case "TSIntersectionType": if ((parent.type === "TSUnionType" || parent.type === "TSIntersectionType") && parent.types.length > 1 && (!node.types || node.types.length > 1)) { return true; } // fallthrough case "TSInferType": if (node.type === "TSInferType" && parent.type === "TSRestType") { return false; } // fallthrough case "TSTypeOperator": return parent.type === "TSArrayType" || parent.type === "TSOptionalType" || parent.type === "TSRestType" || name === "objectType" && parent.type === "TSIndexedAccessType" || parent.type === "TSTypeOperator" || parent.type === "TSTypeAnnotation" && path.getParentNode(1).type.startsWith("TSJSDoc"); case "ArrayTypeAnnotation": return parent.type === "NullableTypeAnnotation"; case "IntersectionTypeAnnotation": case "UnionTypeAnnotation": return parent.type === "ArrayTypeAnnotation" || parent.type === "NullableTypeAnnotation" || parent.type === "IntersectionTypeAnnotation" || parent.type === "UnionTypeAnnotation" || name === "objectType" && (parent.type === "IndexedAccessType" || parent.type === "OptionalIndexedAccessType"); case "NullableTypeAnnotation": return parent.type === "ArrayTypeAnnotation" || name === "objectType" && (parent.type === "IndexedAccessType" || parent.type === "OptionalIndexedAccessType"); case "FunctionTypeAnnotation": { const ancestor = parent.type === "NullableTypeAnnotation" ? path.getParentNode(1) : parent; return ancestor.type === "UnionTypeAnnotation" || ancestor.type === "IntersectionTypeAnnotation" || ancestor.type === "ArrayTypeAnnotation" || name === "objectType" && (ancestor.type === "IndexedAccessType" || ancestor.type === "OptionalIndexedAccessType") || // We should check ancestor's parent to know whether the parentheses // are really needed, but since ??T doesn't make sense this check // will almost never be true. ancestor.type === "NullableTypeAnnotation" || // See #5283 parent.type === "FunctionTypeParam" && parent.name === null && getFunctionParameters$4(node).some(param => param.typeAnnotation && param.typeAnnotation.type === "NullableTypeAnnotation"); } case "OptionalIndexedAccessType": return name === "objectType" && parent.type === "IndexedAccessType"; case "TypeofTypeAnnotation": return name === "objectType" && (parent.type === "IndexedAccessType" || parent.type === "OptionalIndexedAccessType"); case "StringLiteral": case "NumericLiteral": case "Literal": if (typeof node.value === "string" && parent.type === "ExpressionStatement" && !parent.directive) { // To avoid becoming a directive const grandParent = path.getParentNode(1); return grandParent.type === "Program" || grandParent.type === "BlockStatement"; } return name === "object" && parent.type === "MemberExpression" && typeof node.value === "number"; case "AssignmentExpression": { const grandParent = path.getParentNode(1); if (name === "body" && parent.type === "ArrowFunctionExpression") { return true; } if (name === "key" && (parent.type === "ClassProperty" || parent.type === "PropertyDefinition") && parent.computed) { return false; } if ((name === "init" || name === "update") && parent.type === "ForStatement") { return false; } if (parent.type === "ExpressionStatement") { return node.left.type === "ObjectPattern"; } if (name === "key" && parent.type === "TSPropertySignature") { return false; } if (parent.type === "AssignmentExpression") { return false; } if (parent.type === "SequenceExpression" && grandParent && grandParent.type === "ForStatement" && (grandParent.init === parent || grandParent.update === parent)) { return false; } if (name === "value" && parent.type === "Property" && grandParent && grandParent.type === "ObjectPattern" && grandParent.properties.includes(parent)) { return false; } if (parent.type === "NGChainedExpression") { return false; } return true; } case "ConditionalExpression": switch (parent.type) { case "TaggedTemplateExpression": case "UnaryExpression": case "SpreadElement": case "SpreadProperty": case "BinaryExpression": case "LogicalExpression": case "NGPipeExpression": case "ExportDefaultDeclaration": case "AwaitExpression": case "JSXSpreadAttribute": case "TSTypeAssertion": case "TypeCastExpression": case "TSAsExpression": case "TSNonNullExpression": return true; case "NewExpression": case "CallExpression": case "OptionalCallExpression": return name === "callee"; case "ConditionalExpression": return name === "test"; case "MemberExpression": case "OptionalMemberExpression": return name === "object"; default: return false; } case "FunctionExpression": switch (parent.type) { case "NewExpression": case "CallExpression": case "OptionalCallExpression": // Not always necessary, but it's clearer to the reader if IIFEs are wrapped in parentheses. // Is necessary if it is `expression` of `ExpressionStatement`. return name === "callee"; case "TaggedTemplateExpression": return true; // This is basically a kind of IIFE. default: return false; } case "ArrowFunctionExpression": switch (parent.type) { case "BinaryExpression": return parent.operator !== "|>" || node.extra && node.extra.parenthesized; case "NewExpression": case "CallExpression": case "OptionalCallExpression": return name === "callee"; case "MemberExpression": case "OptionalMemberExpression": return name === "object"; case "TSAsExpression": case "TSNonNullExpression": case "BindExpression": case "TaggedTemplateExpression": case "UnaryExpression": case "LogicalExpression": case "AwaitExpression": case "TSTypeAssertion": return true; case "ConditionalExpression": return name === "test"; default: return false; } case "ClassExpression": switch (parent.type) { case "NewExpression": return name === "callee"; default: return false; } case "OptionalMemberExpression": case "OptionalCallExpression": { const parentParent = path.getParentNode(1); if (name === "object" && parent.type === "MemberExpression" || name === "callee" && (parent.type === "CallExpression" || parent.type === "NewExpression") || parent.type === "TSNonNullExpression" && parentParent.type === "MemberExpression" && parentParent.object === parent) { return true; } } // fallthrough case "CallExpression": case "MemberExpression": case "TaggedTemplateExpression": case "TSNonNullExpression": if (name === "callee" && (parent.type === "BindExpression" || parent.type === "NewExpression")) { let object = node; while (object) { switch (object.type) { case "CallExpression": case "OptionalCallExpression": return true; case "MemberExpression": case "OptionalMemberExpression": case "BindExpression": object = object.object; break; // tagged templates are basically member expressions from a grammar perspective // see https://tc39.github.io/ecma262/#prod-MemberExpression case "TaggedTemplateExpression": object = object.tag; break; case "TSNonNullExpression": object = object.expression; break; default: return false; } } } return false; case "BindExpression": return name === "callee" && (parent.type === "BindExpression" || parent.type === "NewExpression") || name === "object" && isMemberExpression$7(parent); case "NGPipeExpression": if (parent.type === "NGRoot" || parent.type === "NGMicrosyntaxExpression" || parent.type === "ObjectProperty" && // Preserve parens for compatibility with AngularJS expressions !(node.extra && node.extra.parenthesized) || parent.type === "ArrayExpression" || isCallExpression$b(parent) && parent.arguments[name] === node || name === "right" && parent.type === "NGPipeExpression" || name === "property" && parent.type === "MemberExpression" || parent.type === "AssignmentExpression") { return false; } return true; case "JSXFragment": case "JSXElement": return name === "callee" || name === "left" && parent.type === "BinaryExpression" && parent.operator === "<" || parent.type !== "ArrayExpression" && parent.type !== "ArrowFunctionExpression" && parent.type !== "AssignmentExpression" && parent.type !== "AssignmentPattern" && parent.type !== "BinaryExpression" && parent.type !== "NewExpression" && parent.type !== "ConditionalExpression" && parent.type !== "ExpressionStatement" && parent.type !== "JsExpressionRoot" && parent.type !== "JSXAttribute" && parent.type !== "JSXElement" && parent.type !== "JSXExpressionContainer" && parent.type !== "JSXFragment" && parent.type !== "LogicalExpression" && !isCallExpression$b(parent) && !isObjectProperty$3(parent) && parent.type !== "ReturnStatement" && parent.type !== "ThrowStatement" && parent.type !== "TypeCastExpression" && parent.type !== "VariableDeclarator" && parent.type !== "YieldExpression"; case "TypeAnnotation": return name === "returnType" && parent.type === "ArrowFunctionExpression" && includesFunctionTypeInObjectType(node); } return false; } function isStatement(node) { return node.type === "BlockStatement" || node.type === "BreakStatement" || node.type === "ClassBody" || node.type === "ClassDeclaration" || node.type === "ClassMethod" || node.type === "ClassProperty" || node.type === "PropertyDefinition" || node.type === "ClassPrivateProperty" || node.type === "ContinueStatement" || node.type === "DebuggerStatement" || node.type === "DeclareClass" || node.type === "DeclareExportAllDeclaration" || node.type === "DeclareExportDeclaration" || node.type === "DeclareFunction" || node.type === "DeclareInterface" || node.type === "DeclareModule" || node.type === "DeclareModuleExports" || node.type === "DeclareVariable" || node.type === "DoWhileStatement" || node.type === "EnumDeclaration" || node.type === "ExportAllDeclaration" || node.type === "ExportDefaultDeclaration" || node.type === "ExportNamedDeclaration" || node.type === "ExpressionStatement" || node.type === "ForInStatement" || node.type === "ForOfStatement" || node.type === "ForStatement" || node.type === "FunctionDeclaration" || node.type === "IfStatement" || node.type === "ImportDeclaration" || node.type === "InterfaceDeclaration" || node.type === "LabeledStatement" || node.type === "MethodDefinition" || node.type === "ReturnStatement" || node.type === "SwitchStatement" || node.type === "ThrowStatement" || node.type === "TryStatement" || node.type === "TSDeclareFunction" || node.type === "TSEnumDeclaration" || node.type === "TSImportEqualsDeclaration" || node.type === "TSInterfaceDeclaration" || node.type === "TSModuleDeclaration" || node.type === "TSNamespaceExportDeclaration" || node.type === "TypeAlias" || node.type === "VariableDeclaration" || node.type === "WhileStatement" || node.type === "WithStatement"; } function isPathInForStatementInitializer(path) { let i = 0; let node = path.getValue(); while (node) { const parent = path.getParentNode(i++); if (parent && parent.type === "ForStatement" && parent.init === node) { return true; } node = parent; } return false; } function includesFunctionTypeInObjectType(node) { return hasNode$1(node, n1 => n1.type === "ObjectTypeAnnotation" && hasNode$1(n1, n2 => n2.type === "FunctionTypeAnnotation" || undefined) || undefined); } function endsWithRightBracket(node) { switch (node.type) { case "ObjectExpression": return true; default: return false; } } function isFollowedByRightBracket(path) { const node = path.getValue(); const parent = path.getParentNode(); const name = path.getName(); switch (parent.type) { case "NGPipeExpression": if (typeof name === "number" && parent.arguments[name] === node && parent.arguments.length - 1 === name) { return path.callParent(isFollowedByRightBracket); } break; case "ObjectProperty": if (name === "value") { const parentParent = path.getParentNode(1); return getLast$i(parentParent.properties) === parent; } break; case "BinaryExpression": case "LogicalExpression": if (name === "right") { return path.callParent(isFollowedByRightBracket); } break; case "ConditionalExpression": if (name === "alternate") { return path.callParent(isFollowedByRightBracket); } break; case "UnaryExpression": if (parent.prefix) { return path.callParent(isFollowedByRightBracket); } break; } return false; } function shouldWrapFunctionForExportDefault(path, options) { const node = path.getValue(); const parent = path.getParentNode(); if (node.type === "FunctionExpression" || node.type === "ClassExpression") { return parent.type === "ExportDefaultDeclaration" || // in some cases the function is already wrapped // (e.g. `export default (function() {})();`) // in this case we don't need to add extra parens !needsParens(path, options); } if (!hasNakedLeftSide$2(node) || parent.type !== "ExportDefaultDeclaration" && needsParens(path, options)) { return false; } return path.call(childPath => shouldWrapFunctionForExportDefault(childPath, options), ...getLeftSidePathName$1(path, node)); } var needsParens_1 = needsParens; function preprocess$8(ast, options) { switch (options.parser) { case "json": case "json5": case "json-stringify": case "__js_expression": case "__vue_expression": return Object.assign(Object.assign({}, ast), {}, { type: options.parser.startsWith("__") ? "JsExpressionRoot" : "JsonRoot", node: ast, comments: [], rootMarker: options.rootMarker }); default: return ast; } } var printPreprocess$3 = preprocess$8; const { builders: { join: join$s, line: line$x, group: group$A, softline: softline$q, indent: indent$t } } = require$$7$3; function printHtmlBinding$1(path, options, print) { const node = path.getValue(); if (options.__onHtmlBindingRoot && path.getName() === null) { options.__onHtmlBindingRoot(node, options); } if (node.type !== "File") { return; } if (options.__isVueForBindingLeft) { return path.call(functionDeclarationPath => { const printed = join$s([",", line$x], functionDeclarationPath.map(print, "params")); const { params } = functionDeclarationPath.getValue(); if (params.length === 1) { return printed; } return ["(", indent$t([softline$q, group$A(printed)]), softline$q, ")"]; }, "program", "body", 0); } if (options.__isVueBindings) { return path.call(functionDeclarationPath => join$s([",", line$x], functionDeclarationPath.map(print, "params")), "program", "body", 0); } } // based on https://github.com/prettier/prettier/blob/main/src/language-html/syntax-vue.js isVueEventBindingExpression() function isVueEventBindingExpression$3(node) { switch (node.type) { case "MemberExpression": switch (node.property.type) { case "Identifier": case "NumericLiteral": case "StringLiteral": return isVueEventBindingExpression$3(node.object); } return false; case "Identifier": return true; default: return false; } } var htmlBinding = { isVueEventBindingExpression: isVueEventBindingExpression$3, printHtmlBinding: printHtmlBinding$1 }; const { printComments: printComments$5 } = comments$4; const { getLast: getLast$h } = util$8; const { builders: { join: join$r, line: line$w, softline: softline$p, group: group$z, indent: indent$s, align: align$4, ifBreak: ifBreak$m, indentIfBreak: indentIfBreak$3 }, utils: { cleanDoc: cleanDoc$2, getDocParts: getDocParts$6, isConcat: isConcat$1 } } = require$$7$3; const { hasLeadingOwnLineComment: hasLeadingOwnLineComment$3, isBinaryish: isBinaryish$3, isJsxNode: isJsxNode$5, shouldFlatten, hasComment: hasComment$g, CommentCheckFlags: CommentCheckFlags$d, isCallExpression: isCallExpression$a, isMemberExpression: isMemberExpression$6, isObjectProperty: isObjectProperty$2, isEnabledHackPipeline } = utils$5; /** @typedef {import("../../document").Doc} Doc */ let uid = 0; function printBinaryishExpression$2(path, options, print) { const node = path.getValue(); const parent = path.getParentNode(); const parentParent = path.getParentNode(1); const isInsideParenthesis = node !== parent.body && (parent.type === "IfStatement" || parent.type === "WhileStatement" || parent.type === "SwitchStatement" || parent.type === "DoWhileStatement"); const isHackPipeline = isEnabledHackPipeline(options) && node.operator === "|>"; const parts = printBinaryishExpressions(path, print, options, /* isNested */ false, isInsideParenthesis); // if ( // this.hasPlugin("dynamicImports") && this.lookahead().type === tt.parenLeft // ) { // // looks super weird, we want to break the children if the parent breaks // // if ( // this.hasPlugin("dynamicImports") && // this.lookahead().type === tt.parenLeft // ) { if (isInsideParenthesis) { return parts; } if (isHackPipeline) { return group$z(parts); } // Break between the parens in // unaries or in a member or specific call expression, i.e. // // ( // a && // b && // c // ).call() if (isCallExpression$a(parent) && parent.callee === node || parent.type === "UnaryExpression" || isMemberExpression$6(parent) && !parent.computed) { return group$z([indent$s([softline$p, ...parts]), softline$p]); } // Avoid indenting sub-expressions in some cases where the first sub-expression is already // indented accordingly. We should indent sub-expressions where the first case isn't indented. const shouldNotIndent = parent.type === "ReturnStatement" || parent.type === "ThrowStatement" || parent.type === "JSXExpressionContainer" && parentParent.type === "JSXAttribute" || node.operator !== "|" && parent.type === "JsExpressionRoot" || node.type !== "NGPipeExpression" && (parent.type === "NGRoot" && options.parser === "__ng_binding" || parent.type === "NGMicrosyntaxExpression" && parentParent.type === "NGMicrosyntax" && parentParent.body.length === 1) || node === parent.body && parent.type === "ArrowFunctionExpression" || node !== parent.body && parent.type === "ForStatement" || parent.type === "ConditionalExpression" && parentParent.type !== "ReturnStatement" && parentParent.type !== "ThrowStatement" && !isCallExpression$a(parentParent) || parent.type === "TemplateLiteral"; const shouldIndentIfInlining = parent.type === "AssignmentExpression" || parent.type === "VariableDeclarator" || parent.type === "ClassProperty" || parent.type === "PropertyDefinition" || parent.type === "TSAbstractPropertyDefinition" || parent.type === "ClassPrivateProperty" || isObjectProperty$2(parent); const samePrecedenceSubExpression = isBinaryish$3(node.left) && shouldFlatten(node.operator, node.left.operator); if (shouldNotIndent || shouldInlineLogicalExpression$1(node) && !samePrecedenceSubExpression || !shouldInlineLogicalExpression$1(node) && shouldIndentIfInlining) { return group$z(parts); } if (parts.length === 0) { return ""; } // If the right part is a JSX node, we include it in a separate group to // prevent it breaking the whole chain, so we can print the expression like: // // foo && bar && ( // // // // ) const hasJsx = isJsxNode$5(node.right); const firstGroupIndex = parts.findIndex(part => typeof part !== "string" && !Array.isArray(part) && part.type === "group"); // Separate the leftmost expression, possibly with its leading comments. const headParts = parts.slice(0, firstGroupIndex === -1 ? 1 : firstGroupIndex + 1); const rest = parts.slice(headParts.length, hasJsx ? -1 : undefined); const groupId = Symbol("logicalChain-" + ++uid); const chain = group$z([// Don't include the initial expression in the indentation // level. The first item is guaranteed to be the first // left-most expression. ...headParts, indent$s(rest)], { id: groupId }); if (!hasJsx) { return chain; } const jsxPart = getLast$h(parts); return group$z([chain, indentIfBreak$3(jsxPart, { groupId })]); } // For binary expressions to be consistent, we need to group // subsequent operators with the same precedence level under a single // group. Otherwise they will be nested such that some of them break // onto new lines but not all. Operators with the same precedence // level should either all break or not. Because we group them by // precedence level and the AST is structured based on precedence // level, things are naturally broken up correctly, i.e. `&&` is // broken before `+`. function printBinaryishExpressions(path, print, options, isNested, isInsideParenthesis) { const node = path.getValue(); // Simply print the node normally. if (!isBinaryish$3(node)) { return [group$z(print())]; } /** @type{Doc[]} */ let parts = []; // We treat BinaryExpression and LogicalExpression nodes the same. // Put all operators with the same precedence level in the same // group. The reason we only need to do this with the `left` // expression is because given an expression like `1 + 2 - 3`, it // is always parsed like `((1 + 2) - 3)`, meaning the `left` side // is where the rest of the expression will exist. Binary // expressions on the right side mean they have a difference // precedence level and should be treated as a separate group, so // print them normally. (This doesn't hold for the `**` operator, // which is unique in that it is right-associative.) if (shouldFlatten(node.operator, node.left.operator)) { // Flatten them out by recursively calling this function. parts = path.call(left => printBinaryishExpressions(left, print, options, /* isNested */ true, isInsideParenthesis), "left"); } else { parts.push(group$z(print("left"))); } const shouldInline = shouldInlineLogicalExpression$1(node); const lineBeforeOperator = (node.operator === "|>" || node.type === "NGPipeExpression" || node.operator === "|" && options.parser === "__vue_expression") && !hasLeadingOwnLineComment$3(options.originalText, node.right); const operator = node.type === "NGPipeExpression" ? "|" : node.operator; const rightSuffix = node.type === "NGPipeExpression" && node.arguments.length > 0 ? group$z(indent$s([softline$p, ": ", join$r([softline$p, ":", ifBreak$m(" ")], path.map(print, "arguments").map(arg => align$4(2, group$z(arg))))])) : ""; /** @type {Doc} */ let right; if (shouldInline) { right = [operator, " ", print("right"), rightSuffix]; } else { const isHackPipeline = isEnabledHackPipeline(options) && operator === "|>"; const rightContent = isHackPipeline ? path.call(left => printBinaryishExpressions(left, print, options, /* isNested */ true, isInsideParenthesis), "right") : print("right"); right = [lineBeforeOperator ? line$w : "", operator, lineBeforeOperator ? " " : line$w, rightContent, rightSuffix]; } // If there's only a single binary expression, we want to create a group // in order to avoid having a small right part like -1 be on its own line. const parent = path.getParentNode(); const shouldBreak = hasComment$g(node.left, CommentCheckFlags$d.Trailing | CommentCheckFlags$d.Line); const shouldGroup = shouldBreak || !(isInsideParenthesis && node.type === "LogicalExpression") && parent.type !== node.type && node.left.type !== node.type && node.right.type !== node.type; parts.push(lineBeforeOperator ? "" : " ", shouldGroup ? group$z(right, { shouldBreak }) : right); // The root comments are already printed, but we need to manually print // the other ones since we don't call the normal print on BinaryExpression, // only for the left and right parts if (isNested && hasComment$g(node)) { const printed = cleanDoc$2(printComments$5(path, parts, options)); /* istanbul ignore else */ if (isConcat$1(printed) || printed.type === "fill") { return getDocParts$6(printed); } return [printed]; } return parts; } function shouldInlineLogicalExpression$1(node) { if (node.type !== "LogicalExpression") { return false; } if (node.right.type === "ObjectExpression" && node.right.properties.length > 0) { return true; } if (node.right.type === "ArrayExpression" && node.right.elements.length > 0) { return true; } if (isJsxNode$5(node.right)) { return true; } return false; } var binaryish = { printBinaryishExpression: printBinaryishExpression$2, shouldInlineLogicalExpression: shouldInlineLogicalExpression$1 }; const { builders: { join: join$q, line: line$v, group: group$y } } = require$$7$3; const { hasNode, hasComment: hasComment$f, getComments: getComments$3 } = utils$5; const { printBinaryishExpression: printBinaryishExpression$1 } = binaryish; /** @typedef {import("../../common/ast-path")} AstPath */ function printAngular$1(path, options, print) { const node = path.getValue(); // Angular nodes always starts with `NG` if (!node.type.startsWith("NG")) { return; } switch (node.type) { case "NGRoot": return [print("node"), !hasComment$f(node.node) ? "" : " //" + getComments$3(node.node)[0].value.trimEnd()]; case "NGPipeExpression": return printBinaryishExpression$1(path, options, print); case "NGChainedExpression": return group$y(join$q([";", line$v], path.map(childPath => hasNgSideEffect(childPath) ? print() : ["(", print(), ")"], "expressions"))); case "NGEmptyExpression": return ""; case "NGQuotedExpression": return [node.prefix, ": ", node.value.trim()]; case "NGMicrosyntax": return path.map((childPath, index) => [index === 0 ? "" : isNgForOf(childPath.getValue(), index, node) ? " " : [";", line$v], print()], "body"); case "NGMicrosyntaxKey": return /^[$_a-z][\w$]*(?:-[$_a-z][\w$])*$/i.test(node.name) ? node.name : JSON.stringify(node.name); case "NGMicrosyntaxExpression": return [print("expression"), node.alias === null ? "" : [" as ", print("alias")]]; case "NGMicrosyntaxKeyedExpression": { const index = path.getName(); const parentNode = path.getParentNode(); const shouldNotPrintColon = isNgForOf(node, index, parentNode) || (index === 1 && (node.key.name === "then" || node.key.name === "else") || index === 2 && node.key.name === "else" && parentNode.body[index - 1].type === "NGMicrosyntaxKeyedExpression" && parentNode.body[index - 1].key.name === "then") && parentNode.body[0].type === "NGMicrosyntaxExpression"; return [print("key"), shouldNotPrintColon ? " " : ": ", print("expression")]; } case "NGMicrosyntaxLet": return ["let ", print("key"), node.value === null ? "" : [" = ", print("value")]]; case "NGMicrosyntaxAs": return [print("key"), " as ", print("alias")]; default: /* istanbul ignore next */ throw new Error(`Unknown Angular node type: ${JSON.stringify(node.type)}.`); } } function isNgForOf(node, index, parentNode) { return node.type === "NGMicrosyntaxKeyedExpression" && node.key.name === "of" && index === 1 && parentNode.body[0].type === "NGMicrosyntaxLet" && parentNode.body[0].value === null; } /** identify if an angular expression seems to have side effects */ /** * @param {AstPath} path * @returns {boolean} */ function hasNgSideEffect(path) { return hasNode(path.getValue(), node => { switch (node.type) { case undefined: return false; case "CallExpression": case "OptionalCallExpression": case "AssignmentExpression": return true; } }); } var angular = { printAngular: printAngular$1 }; const { printComments: printComments$4, printDanglingComments: printDanglingComments$d } = comments$4; const { builders: { line: line$u, hardline: hardline$w, softline: softline$o, group: group$x, indent: indent$r, conditionalGroup: conditionalGroup$4, fill: fill$8, ifBreak: ifBreak$l, lineSuffixBoundary, join: join$p }, utils: { willBreak: willBreak$5 } } = require$$7$3; const { getLast: getLast$g, getPreferredQuote: getPreferredQuote$1 } = util$8; const { isJsxNode: isJsxNode$4, rawText: rawText$4, isLiteral: isLiteral$2, isCallExpression: isCallExpression$9, isStringLiteral: isStringLiteral$4, isBinaryish: isBinaryish$2, hasComment: hasComment$e, CommentCheckFlags: CommentCheckFlags$c, hasNodeIgnoreComment } = utils$5; const pathNeedsParens$5 = needsParens_1; const { willPrintOwnComments } = comments; const isEmptyStringOrAnyLine = doc => doc === "" || doc === line$u || doc === hardline$w || doc === softline$o; /** * @typedef {import("../../common/ast-path")} AstPath * @typedef {import("../types/estree").Node} Node * @typedef {import("../types/estree").JSXElement} JSXElement */ // JSX expands children from the inside-out, instead of the outside-in. // This is both to break children before attributes, // and to ensure that when children break, their parents do as well. // // Any element that is written without any newlines and fits on a single line // is left that way. // Not only that, any user-written-line containing multiple JSX siblings // should also be kept on one line if possible, // so each user-written-line is wrapped in its own group. // // Elements that contain newlines or don't fit on a single line (recursively) // are fully-split, using hardline and shouldBreak: true. // // To support that case properly, all leading and trailing spaces // are stripped from the list of children, and replaced with a single hardline. function printJsxElementInternal(path, options, print) { const node = path.getValue(); if (node.type === "JSXElement" && isEmptyJsxElement(node)) { return [print("openingElement"), print("closingElement")]; } const openingLines = node.type === "JSXElement" ? print("openingElement") : print("openingFragment"); const closingLines = node.type === "JSXElement" ? print("closingElement") : print("closingFragment"); if (node.children.length === 1 && node.children[0].type === "JSXExpressionContainer" && (node.children[0].expression.type === "TemplateLiteral" || node.children[0].expression.type === "TaggedTemplateExpression")) { return [openingLines, ...path.map(print, "children"), closingLines]; } // Convert `{" "}` to text nodes containing a space. // This makes it easy to turn them into `jsxWhitespace` which // can then print as either a space or `{" "}` when breaking. node.children = node.children.map(child => { if (isJsxWhitespaceExpression(child)) { return { type: "JSXText", value: " ", raw: " " }; } return child; }); const containsTag = node.children.some(isJsxNode$4); const containsMultipleExpressions = node.children.filter(child => child.type === "JSXExpressionContainer").length > 1; const containsMultipleAttributes = node.type === "JSXElement" && node.openingElement.attributes.length > 1; // Record any breaks. Should never go from true to false, only false to true. let forcedBreak = willBreak$5(openingLines) || containsTag || containsMultipleAttributes || containsMultipleExpressions; const isMdxBlock = path.getParentNode().rootMarker === "mdx"; const rawJsxWhitespace = options.singleQuote ? "{' '}" : '{" "}'; const jsxWhitespace = isMdxBlock ? " " : ifBreak$l([rawJsxWhitespace, softline$o], " "); const isFacebookTranslationTag = node.openingElement && node.openingElement.name && node.openingElement.name.name === "fbt"; const children = printJsxChildren(path, options, print, jsxWhitespace, isFacebookTranslationTag); const containsText = node.children.some(child => isMeaningfulJsxText(child)); // We can end up we multiple whitespace elements with empty string // content between them. // We need to remove empty whitespace and softlines before JSX whitespace // to get the correct output. for (let i = children.length - 2; i >= 0; i--) { const isPairOfEmptyStrings = children[i] === "" && children[i + 1] === ""; const isPairOfHardlines = children[i] === hardline$w && children[i + 1] === "" && children[i + 2] === hardline$w; const isLineFollowedByJsxWhitespace = (children[i] === softline$o || children[i] === hardline$w) && children[i + 1] === "" && children[i + 2] === jsxWhitespace; const isJsxWhitespaceFollowedByLine = children[i] === jsxWhitespace && children[i + 1] === "" && (children[i + 2] === softline$o || children[i + 2] === hardline$w); const isDoubleJsxWhitespace = children[i] === jsxWhitespace && children[i + 1] === "" && children[i + 2] === jsxWhitespace; const isPairOfHardOrSoftLines = children[i] === softline$o && children[i + 1] === "" && children[i + 2] === hardline$w || children[i] === hardline$w && children[i + 1] === "" && children[i + 2] === softline$o; if (isPairOfHardlines && containsText || isPairOfEmptyStrings || isLineFollowedByJsxWhitespace || isDoubleJsxWhitespace || isPairOfHardOrSoftLines) { children.splice(i, 2); } else if (isJsxWhitespaceFollowedByLine) { children.splice(i + 1, 2); } } // Trim trailing lines (or empty strings) while (children.length > 0 && isEmptyStringOrAnyLine(getLast$g(children))) { children.pop(); } // Trim leading lines (or empty strings) while (children.length > 1 && isEmptyStringOrAnyLine(children[0]) && isEmptyStringOrAnyLine(children[1])) { children.shift(); children.shift(); } // Tweak how we format children if outputting this element over multiple lines. // Also detect whether we will force this element to output over multiple lines. const multilineChildren = []; for (const [i, child] of children.entries()) { // There are a number of situations where we need to ensure we display // whitespace as `{" "}` when outputting this element over multiple lines. if (child === jsxWhitespace) { if (i === 1 && children[i - 1] === "") { if (children.length === 2) { // Solitary whitespace multilineChildren.push(rawJsxWhitespace); continue; } // Leading whitespace multilineChildren.push([rawJsxWhitespace, hardline$w]); continue; } else if (i === children.length - 1) { // Trailing whitespace multilineChildren.push(rawJsxWhitespace); continue; } else if (children[i - 1] === "" && children[i - 2] === hardline$w) { // Whitespace after line break multilineChildren.push(rawJsxWhitespace); continue; } } multilineChildren.push(child); if (willBreak$5(child)) { forcedBreak = true; } } // If there is text we use `fill` to fit as much onto each line as possible. // When there is no text (just tags and expressions) we use `group` // to output each on a separate line. const content = containsText ? fill$8(multilineChildren) : group$x(multilineChildren, { shouldBreak: true }); if (isMdxBlock) { return content; } const multiLineElem = group$x([openingLines, indent$r([hardline$w, content]), hardline$w, closingLines]); if (forcedBreak) { return multiLineElem; } return conditionalGroup$4([group$x([openingLines, ...children, closingLines]), multiLineElem]); } // JSX Children are strange, mostly for two reasons: // 1. JSX reads newlines into string values, instead of skipping them like JS // 2. up to one whitespace between elements within a line is significant, // but not between lines. // // Leading, trailing, and lone whitespace all need to // turn themselves into the rather ugly `{' '}` when breaking. // // We print JSX using the `fill` doc primitive. // This requires that we give it an array of alternating // content and whitespace elements. // To ensure this we add dummy `""` content elements as needed. function printJsxChildren(path, options, print, jsxWhitespace, isFacebookTranslationTag) { const parts = []; path.each((childPath, i, children) => { const child = childPath.getValue(); if (isLiteral$2(child)) { const text = rawText$4(child); // Contains a non-whitespace character if (isMeaningfulJsxText(child)) { const words = text.split(matchJsxWhitespaceRegex); // Starts with whitespace if (words[0] === "") { parts.push(""); words.shift(); if (/\n/.test(words[0])) { const next = children[i + 1]; parts.push(separatorWithWhitespace(isFacebookTranslationTag, words[1], child, next)); } else { parts.push(jsxWhitespace); } words.shift(); } let endWhitespace; // Ends with whitespace if (getLast$g(words) === "") { words.pop(); endWhitespace = words.pop(); } // This was whitespace only without a new line. if (words.length === 0) { return; } for (const [i, word] of words.entries()) { if (i % 2 === 1) { parts.push(line$u); } else { parts.push(word); } } if (endWhitespace !== undefined) { if (/\n/.test(endWhitespace)) { const next = children[i + 1]; parts.push(separatorWithWhitespace(isFacebookTranslationTag, getLast$g(parts), child, next)); } else { parts.push(jsxWhitespace); } } else { const next = children[i + 1]; parts.push(separatorNoWhitespace(isFacebookTranslationTag, getLast$g(parts), child, next)); } } else if (/\n/.test(text)) { // Keep (up to one) blank line between tags/expressions/text. // Note: We don't keep blank lines between text elements. if (text.match(/\n/g).length > 1) { parts.push("", hardline$w); } } else { parts.push("", jsxWhitespace); } } else { const printedChild = print(); parts.push(printedChild); const next = children[i + 1]; const directlyFollowedByMeaningfulText = next && isMeaningfulJsxText(next); if (directlyFollowedByMeaningfulText) { const firstWord = trimJsxWhitespace(rawText$4(next)).split(matchJsxWhitespaceRegex)[0]; parts.push(separatorNoWhitespace(isFacebookTranslationTag, firstWord, child, next)); } else { parts.push(hardline$w); } } }, "children"); return parts; } function separatorNoWhitespace(isFacebookTranslationTag, child, childNode, nextNode) { if (isFacebookTranslationTag) { return ""; } if (childNode.type === "JSXElement" && !childNode.closingElement || nextNode && nextNode.type === "JSXElement" && !nextNode.closingElement) { return child.length === 1 ? softline$o : hardline$w; } return softline$o; } function separatorWithWhitespace(isFacebookTranslationTag, child, childNode, nextNode) { if (isFacebookTranslationTag) { return hardline$w; } if (child.length === 1) { return childNode.type === "JSXElement" && !childNode.closingElement || nextNode && nextNode.type === "JSXElement" && !nextNode.closingElement ? hardline$w : softline$o; } return hardline$w; } function maybeWrapJsxElementInParens(path, elem, options) { const parent = path.getParentNode(); /* istanbul ignore next */ if (!parent) { return elem; } const NO_WRAP_PARENTS = { ArrayExpression: true, JSXAttribute: true, JSXElement: true, JSXExpressionContainer: true, JSXFragment: true, ExpressionStatement: true, CallExpression: true, OptionalCallExpression: true, ConditionalExpression: true, JsExpressionRoot: true }; if (NO_WRAP_PARENTS[parent.type]) { return elem; } const shouldBreak = path.match(undefined, node => node.type === "ArrowFunctionExpression", isCallExpression$9, node => node.type === "JSXExpressionContainer"); const needsParens = pathNeedsParens$5(path, options); return group$x([needsParens ? "" : ifBreak$l("("), indent$r([softline$o, elem]), softline$o, needsParens ? "" : ifBreak$l(")")], { shouldBreak }); } function printJsxAttribute(path, options, print) { const node = path.getValue(); const parts = []; parts.push(print("name")); if (node.value) { let res; if (isStringLiteral$4(node.value)) { const raw = rawText$4(node.value); // Remove enclosing quotes and unescape // all quotes so we get an accurate preferred quote let final = raw.slice(1, -1).replace(/'/g, "'").replace(/"/g, '"'); const { escaped, quote, regex } = getPreferredQuote$1(final, options.jsxSingleQuote ? "'" : '"'); final = final.replace(regex, escaped); res = [quote, final, quote]; } else { res = print("value"); } parts.push("=", res); } return parts; } function printJsxExpressionContainer(path, options, print) { const node = path.getValue(); const parent = path.getParentNode(0); const shouldInline = node.expression.type === "JSXEmptyExpression" || !hasComment$e(node.expression) && (node.expression.type === "ArrayExpression" || node.expression.type === "ObjectExpression" || node.expression.type === "ArrowFunctionExpression" || isCallExpression$9(node.expression) || node.expression.type === "FunctionExpression" || node.expression.type === "TemplateLiteral" || node.expression.type === "TaggedTemplateExpression" || node.expression.type === "DoExpression" || isJsxNode$4(parent) && (node.expression.type === "ConditionalExpression" || isBinaryish$2(node.expression))); if (shouldInline) { return group$x(["{", print("expression"), lineSuffixBoundary, "}"]); } return group$x(["{", indent$r([softline$o, print("expression")]), softline$o, lineSuffixBoundary, "}"]); } function printJsxOpeningElement(path, options, print) { const node = path.getValue(); const nameHasComments = node.name && hasComment$e(node.name) || node.typeParameters && hasComment$e(node.typeParameters); // Don't break self-closing elements with no attributes and no comments if (node.selfClosing && node.attributes.length === 0 && !nameHasComments) { return ["<", print("name"), print("typeParameters"), " />"]; } // don't break up opening elements with a single long text attribute if (node.attributes && node.attributes.length === 1 && node.attributes[0].value && isStringLiteral$4(node.attributes[0].value) && !node.attributes[0].value.value.includes("\n") && // We should break for the following cases: //
//
!nameHasComments && !hasComment$e(node.attributes[0])) { return group$x(["<", print("name"), print("typeParameters"), " ", ...path.map(print, "attributes"), node.selfClosing ? " />" : ">"]); } const lastAttrHasTrailingComments = node.attributes.length > 0 && hasComment$e(getLast$g(node.attributes), CommentCheckFlags$c.Trailing); const bracketSameLine = // Simple tags (no attributes and no comment in tag name) should be // kept unbroken regardless of `bracketSameLine`. // jsxBracketSameLine is deprecated in favour of bracketSameLine, // but is still needed for backwards compatibility. node.attributes.length === 0 && !nameHasComments || (options.bracketSameLine || options.jsxBracketSameLine) && ( // We should print the bracket in a new line for the following cases: //
//
!nameHasComments || node.attributes.length > 0) && !lastAttrHasTrailingComments; // We should print the opening element expanded if any prop value is a // string literal with newlines const shouldBreak = node.attributes && node.attributes.some(attr => attr.value && isStringLiteral$4(attr.value) && attr.value.value.includes("\n")); return group$x(["<", print("name"), print("typeParameters"), indent$r(path.map(() => [line$u, print()], "attributes")), node.selfClosing ? line$u : bracketSameLine ? ">" : softline$o, node.selfClosing ? "/>" : bracketSameLine ? "" : ">"], { shouldBreak }); } function printJsxClosingElement(path, options, print) { const node = path.getValue(); const parts = []; parts.push(""); return parts; } function printJsxOpeningClosingFragment(path, options /*, print*/ ) { const node = path.getValue(); const nodeHasComment = hasComment$e(node); const hasOwnLineComment = hasComment$e(node, CommentCheckFlags$c.Line); const isOpeningFragment = node.type === "JSXOpeningFragment"; return [isOpeningFragment ? "<" : ""]; } function printJsxElement(path, options, print) { const elem = printComments$4(path, printJsxElementInternal(path, options, print), options); return maybeWrapJsxElementInParens(path, elem, options); } function printJsxEmptyExpression(path, options /*, print*/ ) { const node = path.getValue(); const requiresHardline = hasComment$e(node, CommentCheckFlags$c.Line); return [printDanglingComments$d(path, options, /* sameIndent */ !requiresHardline), requiresHardline ? hardline$w : ""]; } // `JSXSpreadAttribute` and `JSXSpreadChild` function printJsxSpreadAttribute(path, options, print) { const node = path.getValue(); return ["{", path.call(p => { const printed = ["...", print()]; const node = p.getValue(); if (!hasComment$e(node) || !willPrintOwnComments(p)) { return printed; } return [indent$r([softline$o, printComments$4(p, printed, options)]), softline$o]; }, node.type === "JSXSpreadAttribute" ? "argument" : "expression"), "}"]; } function printJsx$1(path, options, print) { const node = path.getValue(); // JSX nodes always starts with `JSX` if (!node.type.startsWith("JSX")) { return; } switch (node.type) { case "JSXAttribute": return printJsxAttribute(path, options, print); case "JSXIdentifier": return String(node.name); case "JSXNamespacedName": return join$p(":", [print("namespace"), print("name")]); case "JSXMemberExpression": return join$p(".", [print("object"), print("property")]); case "JSXSpreadAttribute": return printJsxSpreadAttribute(path, options, print); case "JSXSpreadChild": { // Same as `printJsxSpreadAttribute` const printJsxSpreadChild = printJsxSpreadAttribute; return printJsxSpreadChild(path, options, print); } case "JSXExpressionContainer": return printJsxExpressionContainer(path, options, print); case "JSXFragment": case "JSXElement": return printJsxElement(path, options, print); case "JSXOpeningElement": return printJsxOpeningElement(path, options, print); case "JSXClosingElement": return printJsxClosingElement(path, options, print); case "JSXOpeningFragment": case "JSXClosingFragment": return printJsxOpeningClosingFragment(path, options /*, print*/ ); case "JSXEmptyExpression": return printJsxEmptyExpression(path, options /*, print*/ ); case "JSXText": /* istanbul ignore next */ throw new Error("JSXTest should be handled by JSXElement"); default: /* istanbul ignore next */ throw new Error(`Unknown JSX node type: ${JSON.stringify(node.type)}.`); } } // Only space, newline, carriage return, and tab are treated as whitespace // inside JSX. const jsxWhitespaceChars = " \n\r\t"; const matchJsxWhitespaceRegex = new RegExp("([" + jsxWhitespaceChars + "]+)"); const containsNonJsxWhitespaceRegex = new RegExp("[^" + jsxWhitespaceChars + "]"); const trimJsxWhitespace = text => text.replace(new RegExp("(?:^" + matchJsxWhitespaceRegex.source + "|" + matchJsxWhitespaceRegex.source + "$)"), ""); /** * @param {JSXElement} node * @returns {boolean} */ function isEmptyJsxElement(node) { if (node.children.length === 0) { return true; } if (node.children.length > 1) { return false; } // if there is one text child and does not contain any meaningful text // we can treat the element as empty. const child = node.children[0]; return isLiteral$2(child) && !isMeaningfulJsxText(child); } // Meaningful if it contains non-whitespace characters, // or it contains whitespace without a new line. /** * @param {Node} node * @returns {boolean} */ function isMeaningfulJsxText(node) { return isLiteral$2(node) && (containsNonJsxWhitespaceRegex.test(rawText$4(node)) || !/\n/.test(rawText$4(node))); } // Detect an expression node representing `{" "}` function isJsxWhitespaceExpression(node) { return node.type === "JSXExpressionContainer" && isLiteral$2(node.expression) && node.expression.value === " " && !hasComment$e(node.expression); } /** * @param {AstPath} path * @returns {boolean} */ function hasJsxIgnoreComment$1(path) { const node = path.getValue(); const parent = path.getParentNode(); if (!parent || !node || !isJsxNode$4(node) || !isJsxNode$4(parent)) { return false; } // Lookup the previous sibling, ignoring any empty JSXText elements const index = parent.children.indexOf(node); let prevSibling = null; for (let i = index; i > 0; i--) { const candidate = parent.children[i - 1]; if (candidate.type === "JSXText" && !isMeaningfulJsxText(candidate)) { continue; } prevSibling = candidate; break; } return prevSibling && prevSibling.type === "JSXExpressionContainer" && prevSibling.expression.type === "JSXEmptyExpression" && hasNodeIgnoreComment(prevSibling.expression); } var jsx = { hasJsxIgnoreComment: hasJsxIgnoreComment$1, printJsx: printJsx$1 }; var $ = _export; var flattenIntoArray = flattenIntoArray_1; var toObject = toObject$4; var lengthOfArrayLike = lengthOfArrayLike$6; var toIntegerOrInfinity = toIntegerOrInfinity$3; var arraySpeciesCreate = arraySpeciesCreate$2; // `Array.prototype.flat` method // https://tc39.es/ecma262/#sec-array.prototype.flat $({ target: 'Array', proto: true }, { flat: function flat(/* depthArg = 1 */) { var depthArg = arguments.length ? arguments[0] : undefined; var O = toObject(this); var sourceLen = lengthOfArrayLike(O); var A = arraySpeciesCreate(O, 0); A.length = flattenIntoArray(A, O, O, sourceLen, 0, depthArg === undefined ? 1 : toIntegerOrInfinity(depthArg)); return A; } }); var internalObjectKeys = objectKeysInternal; var enumBugKeys$1 = enumBugKeys$3; // `Object.keys` method // https://tc39.es/ecma262/#sec-object.keys // eslint-disable-next-line es/no-object-keys -- safe var objectKeys$1 = Object.keys || function keys(O) { return internalObjectKeys(O, enumBugKeys$1); }; var DESCRIPTORS = descriptors$1; var definePropertyModule$1 = objectDefineProperty; var anObject$1 = anObject$7; var toIndexedObject = toIndexedObject$4; var objectKeys = objectKeys$1; // `Object.defineProperties` method // https://tc39.es/ecma262/#sec-object.defineproperties // eslint-disable-next-line es/no-object-defineproperties -- safe var objectDefineProperties = DESCRIPTORS ? Object.defineProperties : function defineProperties(O, Properties) { anObject$1(O); var props = toIndexedObject(Properties); var keys = objectKeys(Properties); var length = keys.length; var index = 0; var key; while (length > index) definePropertyModule$1.f(O, key = keys[index++], props[key]); return O; }; var getBuiltIn = getBuiltIn$5; var html$2 = getBuiltIn('document', 'documentElement'); /* global ActiveXObject -- old IE, WSH */ var anObject = anObject$7; var defineProperties = objectDefineProperties; var enumBugKeys = enumBugKeys$3; var hiddenKeys = hiddenKeys$4; var html$1 = html$2; var documentCreateElement = documentCreateElement$1; var sharedKey = sharedKey$2; var GT = '>'; var LT = '<'; var PROTOTYPE = 'prototype'; var SCRIPT = 'script'; var IE_PROTO = sharedKey('IE_PROTO'); var EmptyConstructor = function () { /* empty */ }; var scriptTag = function (content) { return LT + SCRIPT + GT + content + LT + '/' + SCRIPT + GT; }; // Create object with fake `null` prototype: use ActiveX Object with cleared prototype var NullProtoObjectViaActiveX = function (activeXDocument) { activeXDocument.write(scriptTag('')); activeXDocument.close(); var temp = activeXDocument.parentWindow.Object; activeXDocument = null; // avoid memory leak return temp; }; // Create object with fake `null` prototype: use iframe Object with cleared prototype var NullProtoObjectViaIFrame = function () { // Thrash, waste and sodomy: IE GC bug var iframe = documentCreateElement('iframe'); var JS = 'java' + SCRIPT + ':'; var iframeDocument; iframe.style.display = 'none'; html$1.appendChild(iframe); // https://github.com/zloirock/core-js/issues/475 iframe.src = String(JS); iframeDocument = iframe.contentWindow.document; iframeDocument.open(); iframeDocument.write(scriptTag('document.F=Object')); iframeDocument.close(); return iframeDocument.F; }; // Check for document.domain and active x support // No need to use active x approach when document.domain is not set // see https://github.com/es-shims/es5-shim/issues/150 // variation of https://github.com/kitcambridge/es5-shim/commit/4f738ac066346 // avoid IE GC bug var activeXDocument; var NullProtoObject = function () { try { activeXDocument = new ActiveXObject('htmlfile'); } catch (error) { /* ignore */ } NullProtoObject = typeof document != 'undefined' ? document.domain && activeXDocument ? NullProtoObjectViaActiveX(activeXDocument) // old IE : NullProtoObjectViaIFrame() : NullProtoObjectViaActiveX(activeXDocument); // WSH var length = enumBugKeys.length; while (length--) delete NullProtoObject[PROTOTYPE][enumBugKeys[length]]; return NullProtoObject(); }; hiddenKeys[IE_PROTO] = true; // `Object.create` method // https://tc39.es/ecma262/#sec-object.create var objectCreate = Object.create || function create(O, Properties) { var result; if (O !== null) { EmptyConstructor[PROTOTYPE] = anObject(O); result = new EmptyConstructor(); EmptyConstructor[PROTOTYPE] = null; // add "__proto__" for Object.getPrototypeOf polyfill result[IE_PROTO] = O; } else result = NullProtoObject(); return Properties === undefined ? result : defineProperties(result, Properties); }; var wellKnownSymbol = wellKnownSymbol$7; var create = objectCreate; var definePropertyModule = objectDefineProperty; var UNSCOPABLES = wellKnownSymbol('unscopables'); var ArrayPrototype = Array.prototype; // Array.prototype[@@unscopables] // https://tc39.es/ecma262/#sec-array.prototype-@@unscopables if (ArrayPrototype[UNSCOPABLES] == undefined) { definePropertyModule.f(ArrayPrototype, UNSCOPABLES, { configurable: true, value: create(null) }); } // add a key to Array.prototype[@@unscopables] var addToUnscopables$1 = function (key) { ArrayPrototype[UNSCOPABLES][key] = true; }; // this method was added to unscopables after implementation // in popular engines, so it's moved to a separate module var addToUnscopables = addToUnscopables$1; // https://tc39.es/ecma262/#sec-array.prototype-@@unscopables addToUnscopables('flat'); const { isNonEmptyArray: isNonEmptyArray$f } = util$8; const { builders: { indent: indent$q, join: join$o, line: line$t } } = require$$7$3; const { isFlowAnnotationComment: isFlowAnnotationComment$1 } = utils$5; function printOptionalToken$9(path) { const node = path.getValue(); if (!node.optional || // It's an optional computed method parsed by typescript-estree. // "?" is printed in `printMethod`. node.type === "Identifier" && node === path.getParentNode().key) { return ""; } if (node.type === "OptionalCallExpression" || node.type === "OptionalMemberExpression" && node.computed) { return "?."; } return "?"; } function printFunctionTypeParameters$4(path, options, print) { const fun = path.getValue(); if (fun.typeArguments) { return print("typeArguments"); } if (fun.typeParameters) { return print("typeParameters"); } return ""; } function printTypeAnnotation$5(path, options, print) { const node = path.getValue(); if (!node.typeAnnotation) { return ""; } const parentNode = path.getParentNode(); const isDefinite = node.definite || parentNode && parentNode.type === "VariableDeclarator" && parentNode.definite; const isFunctionDeclarationIdentifier = parentNode.type === "DeclareFunction" && parentNode.id === node; if (isFlowAnnotationComment$1(options.originalText, node.typeAnnotation)) { return [" /*: ", print("typeAnnotation"), " */"]; } return [isFunctionDeclarationIdentifier ? "" : isDefinite ? "!: " : ": ", print("typeAnnotation")]; } function printBindExpressionCallee$2(path, options, print) { return ["::", print("callee")]; } function printTypeScriptModifiers$2(path, options, print) { const node = path.getValue(); if (!isNonEmptyArray$f(node.modifiers)) { return ""; } return [join$o(" ", path.map(print, "modifiers")), " "]; } function adjustClause$1(node, clause, forceSpace) { if (node.type === "EmptyStatement") { return ";"; } if (node.type === "BlockStatement" || forceSpace) { return [" ", clause]; } return indent$q([line$t, clause]); } function printRestSpread$2(path, options, print) { return ["...", print("argument"), printTypeAnnotation$5(path, options, print)]; } var misc$1 = { printOptionalToken: printOptionalToken$9, printFunctionTypeParameters: printFunctionTypeParameters$4, printBindExpressionCallee: printBindExpressionCallee$2, printTypeScriptModifiers: printTypeScriptModifiers$2, printTypeAnnotation: printTypeAnnotation$5, printRestSpread: printRestSpread$2, adjustClause: adjustClause$1 }; const { printDanglingComments: printDanglingComments$c } = comments$4; const { builders: { line: line$s, softline: softline$n, hardline: hardline$v, group: group$w, indent: indent$p, ifBreak: ifBreak$k, fill: fill$7 } } = require$$7$3; const { getLast: getLast$f, hasNewline: hasNewline$5 } = util$8; const { shouldPrintComma: shouldPrintComma$a, hasComment: hasComment$d, CommentCheckFlags: CommentCheckFlags$b, isNextLineEmpty: isNextLineEmpty$b, isNumericLiteral: isNumericLiteral$4, isSignedNumericLiteral: isSignedNumericLiteral$1 } = utils$5; const { locStart: locStart$o } = loc$6; const { printOptionalToken: printOptionalToken$8, printTypeAnnotation: printTypeAnnotation$4 } = misc$1; /** @typedef {import("../../document").Doc} Doc */ function printArray$1(path, options, print) { const node = path.getValue(); /** @type{Doc[]} */ const parts = []; const openBracket = node.type === "TupleExpression" ? "#[" : "["; const closeBracket = "]"; if (node.elements.length === 0) { if (!hasComment$d(node, CommentCheckFlags$b.Dangling)) { parts.push(openBracket, closeBracket); } else { parts.push(group$w([openBracket, printDanglingComments$c(path, options), softline$n, closeBracket])); } } else { const lastElem = getLast$f(node.elements); const canHaveTrailingComma = !(lastElem && lastElem.type === "RestElement"); // JavaScript allows you to have empty elements in an array which // changes its length based on the number of commas. The algorithm // is that if the last argument is null, we need to force insert // a comma to ensure JavaScript recognizes it. // [,].length === 1 // [1,].length === 1 // [1,,].length === 2 // // Note that getLast returns null if the array is empty, but // we already check for an empty array just above so we are safe const needsForcedTrailingComma = lastElem === null; const groupId = Symbol("array"); const shouldBreak = !options.__inJestEach && node.elements.length > 1 && node.elements.every((element, i, elements) => { const elementType = element && element.type; if (elementType !== "ArrayExpression" && elementType !== "ObjectExpression") { return false; } const nextElement = elements[i + 1]; if (nextElement && elementType !== nextElement.type) { return false; } const itemsKey = elementType === "ArrayExpression" ? "elements" : "properties"; return element[itemsKey] && element[itemsKey].length > 1; }); const shouldUseConciseFormatting = isConciselyPrintedArray$1(node, options); const trailingComma = !canHaveTrailingComma ? "" : needsForcedTrailingComma ? "," : !shouldPrintComma$a(options) ? "" : shouldUseConciseFormatting ? ifBreak$k(",", "", { groupId }) : ifBreak$k(","); parts.push(group$w([openBracket, indent$p([softline$n, shouldUseConciseFormatting ? printArrayItemsConcisely(path, options, print, trailingComma) : [printArrayItems$3(path, options, "elements", print), trailingComma], printDanglingComments$c(path, options, /* sameIndent */ true)]), softline$n, closeBracket], { shouldBreak, id: groupId })); } parts.push(printOptionalToken$8(path), printTypeAnnotation$4(path, options, print)); return parts; } function isConciselyPrintedArray$1(node, options) { return node.elements.length > 1 && node.elements.every(element => element && (isNumericLiteral$4(element) || isSignedNumericLiteral$1(element) && !hasComment$d(element.argument)) && !hasComment$d(element, CommentCheckFlags$b.Trailing | CommentCheckFlags$b.Line, comment => !hasNewline$5(options.originalText, locStart$o(comment), { backwards: true }))); } function printArrayItems$3(path, options, printPath, print) { const printedElements = []; let separatorParts = []; path.each(childPath => { printedElements.push(separatorParts, group$w(print())); separatorParts = [",", line$s]; if (childPath.getValue() && isNextLineEmpty$b(childPath.getValue(), options)) { separatorParts.push(softline$n); } }, printPath); return printedElements; } function printArrayItemsConcisely(path, options, print, trailingComma) { const parts = []; path.each((childPath, i, elements) => { const isLast = i === elements.length - 1; parts.push([print(), isLast ? trailingComma : ","]); if (!isLast) { parts.push(isNextLineEmpty$b(childPath.getValue(), options) ? [hardline$v, hardline$v] : hasComment$d(elements[i + 1], CommentCheckFlags$b.Leading | CommentCheckFlags$b.Line) ? hardline$v : line$s); } }, "elements"); return fill$7(parts); } var array = { printArray: printArray$1, printArrayItems: printArrayItems$3, isConciselyPrintedArray: isConciselyPrintedArray$1 }; const { printDanglingComments: printDanglingComments$b } = comments$4; const { getLast: getLast$e, getPenultimate } = util$8; const { getFunctionParameters: getFunctionParameters$3, hasComment: hasComment$c, CommentCheckFlags: CommentCheckFlags$a, isFunctionCompositionArgs, isJsxNode: isJsxNode$3, isLongCurriedCallExpression: isLongCurriedCallExpression$1, shouldPrintComma: shouldPrintComma$9, getCallArguments: getCallArguments$3, iterateCallArgumentsPath: iterateCallArgumentsPath$1, isNextLineEmpty: isNextLineEmpty$a, isCallExpression: isCallExpression$8, isStringLiteral: isStringLiteral$3, isObjectProperty: isObjectProperty$1 } = utils$5; const { builders: { line: line$r, hardline: hardline$u, softline: softline$m, group: group$v, indent: indent$o, conditionalGroup: conditionalGroup$3, ifBreak: ifBreak$j, breakParent: breakParent$9 }, utils: { willBreak: willBreak$4 } } = require$$7$3; const { ArgExpansionBailout: ArgExpansionBailout$2 } = errors; const { isConciselyPrintedArray } = array; function printCallArguments$2(path, options, print) { const node = path.getValue(); const isDynamicImport = node.type === "ImportExpression"; const args = getCallArguments$3(node); if (args.length === 0) { return ["(", printDanglingComments$b(path, options, /* sameIndent */ true), ")"]; } // useEffect(() => { ... }, [foo, bar, baz]) if (isReactHookCallWithDepsArray(args)) { return ["(", print(["arguments", 0]), ", ", print(["arguments", 1]), ")"]; } let anyArgEmptyLine = false; let hasEmptyLineFollowingFirstArg = false; const lastArgIndex = args.length - 1; const printedArguments = []; iterateCallArgumentsPath$1(path, (argPath, index) => { const arg = argPath.getNode(); const parts = [print()]; if (index === lastArgIndex) ; else if (isNextLineEmpty$a(arg, options)) { if (index === 0) { hasEmptyLineFollowingFirstArg = true; } anyArgEmptyLine = true; parts.push(",", hardline$u, hardline$u); } else { parts.push(",", line$r); } printedArguments.push(parts); }); const maybeTrailingComma = // Dynamic imports cannot have trailing commas !(isDynamicImport || node.callee && node.callee.type === "Import") && shouldPrintComma$9(options, "all") ? "," : ""; function allArgsBrokenOut() { return group$v(["(", indent$o([line$r, ...printedArguments]), maybeTrailingComma, line$r, ")"], { shouldBreak: true }); } if (anyArgEmptyLine || path.getParentNode().type !== "Decorator" && isFunctionCompositionArgs(args)) { return allArgsBrokenOut(); } const shouldGroupFirst = shouldGroupFirstArg(args); const shouldGroupLast = shouldGroupLastArg(args, options); if (shouldGroupFirst || shouldGroupLast) { if (shouldGroupFirst ? printedArguments.slice(1).some(willBreak$4) : printedArguments.slice(0, -1).some(willBreak$4)) { return allArgsBrokenOut(); } // We want to print the last argument with a special flag let printedExpanded = []; try { path.try(() => { iterateCallArgumentsPath$1(path, (argPath, i) => { if (shouldGroupFirst && i === 0) { printedExpanded = [[print([], { expandFirstArg: true }), printedArguments.length > 1 ? "," : "", hasEmptyLineFollowingFirstArg ? hardline$u : line$r, hasEmptyLineFollowingFirstArg ? hardline$u : ""], ...printedArguments.slice(1)]; } if (shouldGroupLast && i === lastArgIndex) { printedExpanded = [...printedArguments.slice(0, -1), print([], { expandLastArg: true })]; } }); }); } catch (caught) { if (caught instanceof ArgExpansionBailout$2) { return allArgsBrokenOut(); } /* istanbul ignore next */ throw caught; } return [printedArguments.some(willBreak$4) ? breakParent$9 : "", conditionalGroup$3([["(", ...printedExpanded, ")"], shouldGroupFirst ? ["(", group$v(printedExpanded[0], { shouldBreak: true }), ...printedExpanded.slice(1), ")"] : ["(", ...printedArguments.slice(0, -1), group$v(getLast$e(printedExpanded), { shouldBreak: true }), ")"], allArgsBrokenOut()])]; } const contents = ["(", indent$o([softline$m, ...printedArguments]), ifBreak$j(maybeTrailingComma), softline$m, ")"]; if (isLongCurriedCallExpression$1(path)) { // By not wrapping the arguments in a group, the printer prioritizes // breaking up these arguments rather than the args of the parent call. return contents; } return group$v(contents, { shouldBreak: printedArguments.some(willBreak$4) || anyArgEmptyLine }); } function couldGroupArg(arg, arrowChainRecursion = false) { return arg.type === "ObjectExpression" && (arg.properties.length > 0 || hasComment$c(arg)) || arg.type === "ArrayExpression" && (arg.elements.length > 0 || hasComment$c(arg)) || arg.type === "TSTypeAssertion" && couldGroupArg(arg.expression) || arg.type === "TSAsExpression" && couldGroupArg(arg.expression) || arg.type === "FunctionExpression" || arg.type === "ArrowFunctionExpression" && ( // we want to avoid breaking inside composite return types but not simple keywords // https://github.com/prettier/prettier/issues/4070 // export class Thing implements OtherThing { // do: (type: Type) => Provider = memoize( // (type: ObjectType): Provider => {} // ); // } // https://github.com/prettier/prettier/issues/6099 // app.get("/", (req, res): void => { // res.send("Hello World!"); // }); !arg.returnType || !arg.returnType.typeAnnotation || arg.returnType.typeAnnotation.type !== "TSTypeReference" || // https://github.com/prettier/prettier/issues/7542 isNonEmptyBlockStatement(arg.body)) && (arg.body.type === "BlockStatement" || arg.body.type === "ArrowFunctionExpression" && couldGroupArg(arg.body, true) || arg.body.type === "ObjectExpression" || arg.body.type === "ArrayExpression" || !arrowChainRecursion && (isCallExpression$8(arg.body) || arg.body.type === "ConditionalExpression") || isJsxNode$3(arg.body)) || arg.type === "DoExpression" || arg.type === "ModuleExpression"; } function shouldGroupLastArg(args, options) { const lastArg = getLast$e(args); const penultimateArg = getPenultimate(args); return !hasComment$c(lastArg, CommentCheckFlags$a.Leading) && !hasComment$c(lastArg, CommentCheckFlags$a.Trailing) && couldGroupArg(lastArg) && ( // If the last two arguments are of the same type, // disable last element expansion. !penultimateArg || penultimateArg.type !== lastArg.type) && ( // useMemo(() => func(), [foo, bar, baz]) args.length !== 2 || penultimateArg.type !== "ArrowFunctionExpression" || lastArg.type !== "ArrayExpression") && !(args.length > 1 && lastArg.type === "ArrayExpression" && isConciselyPrintedArray(lastArg, options)); } function shouldGroupFirstArg(args) { if (args.length !== 2) { return false; } const [firstArg, secondArg] = args; if (firstArg.type === "ModuleExpression" && isTypeModuleObjectExpression(secondArg)) { return true; } return !hasComment$c(firstArg) && (firstArg.type === "FunctionExpression" || firstArg.type === "ArrowFunctionExpression" && firstArg.body.type === "BlockStatement") && secondArg.type !== "FunctionExpression" && secondArg.type !== "ArrowFunctionExpression" && secondArg.type !== "ConditionalExpression" && !couldGroupArg(secondArg); } function isReactHookCallWithDepsArray(args) { return args.length === 2 && args[0].type === "ArrowFunctionExpression" && getFunctionParameters$3(args[0]).length === 0 && args[0].body.type === "BlockStatement" && args[1].type === "ArrayExpression" && !args.some(arg => hasComment$c(arg)); } function isNonEmptyBlockStatement(node) { return node.type === "BlockStatement" && (node.body.some(node => node.type !== "EmptyStatement") || hasComment$c(node, CommentCheckFlags$a.Dangling)); } // { type: "module" } function isTypeModuleObjectExpression(node) { return node.type === "ObjectExpression" && node.properties.length === 1 && isObjectProperty$1(node.properties[0]) && node.properties[0].key.type === "Identifier" && node.properties[0].key.name === "type" && isStringLiteral$3(node.properties[0].value) && node.properties[0].value.value === "module"; } var callArguments = printCallArguments$2; const { builders: { softline: softline$l, group: group$u, indent: indent$n, label: label$2 } } = require$$7$3; const { isNumericLiteral: isNumericLiteral$3, isMemberExpression: isMemberExpression$5, isCallExpression: isCallExpression$7 } = utils$5; const { printOptionalToken: printOptionalToken$7 } = misc$1; function printMemberExpression$1(path, options, print) { const node = path.getValue(); const parent = path.getParentNode(); let firstNonMemberParent; let i = 0; do { firstNonMemberParent = path.getParentNode(i); i++; } while (firstNonMemberParent && (isMemberExpression$5(firstNonMemberParent) || firstNonMemberParent.type === "TSNonNullExpression")); const objectDoc = print("object"); const lookupDoc = printMemberLookup$1(path, options, print); const shouldInline = firstNonMemberParent && (firstNonMemberParent.type === "NewExpression" || firstNonMemberParent.type === "BindExpression" || firstNonMemberParent.type === "AssignmentExpression" && firstNonMemberParent.left.type !== "Identifier") || node.computed || node.object.type === "Identifier" && node.property.type === "Identifier" && !isMemberExpression$5(parent) || (parent.type === "AssignmentExpression" || parent.type === "VariableDeclarator") && (isCallExpression$7(node.object) && node.object.arguments.length > 0 || node.object.type === "TSNonNullExpression" && isCallExpression$7(node.object.expression) && node.object.expression.arguments.length > 0 || objectDoc.label === "member-chain"); return label$2(objectDoc.label === "member-chain" ? "member-chain" : "member", [objectDoc, shouldInline ? lookupDoc : group$u(indent$n([softline$l, lookupDoc]))]); } function printMemberLookup$1(path, options, print) { const property = print("property"); const node = path.getValue(); const optional = printOptionalToken$7(path); if (!node.computed) { return [optional, ".", property]; } if (!node.property || isNumericLiteral$3(node.property)) { return [optional, "[", property, "]"]; } return group$u([optional, "[", indent$n([softline$l, property]), softline$l, "]"]); } var member = { printMemberExpression: printMemberExpression$1, printMemberLookup: printMemberLookup$1 }; const { printComments: printComments$3 } = comments$4; const { getLast: getLast$d, isNextLineEmptyAfterIndex, getNextNonSpaceNonCommentCharacterIndex: getNextNonSpaceNonCommentCharacterIndex$1 } = util$8; const pathNeedsParens$4 = needsParens_1; const { isCallExpression: isCallExpression$6, isMemberExpression: isMemberExpression$4, isFunctionOrArrowExpression, isLongCurriedCallExpression, isMemberish: isMemberish$1, isNumericLiteral: isNumericLiteral$2, isSimpleCallArgument, hasComment: hasComment$b, CommentCheckFlags: CommentCheckFlags$9, isNextLineEmpty: isNextLineEmpty$9 } = utils$5; const { locEnd: locEnd$n } = loc$6; const { builders: { join: join$n, hardline: hardline$t, group: group$t, indent: indent$m, conditionalGroup: conditionalGroup$2, breakParent: breakParent$8, label: label$1 }, utils: { willBreak: willBreak$3 } } = require$$7$3; const printCallArguments$1 = callArguments; const { printMemberLookup } = member; const { printOptionalToken: printOptionalToken$6, printFunctionTypeParameters: printFunctionTypeParameters$3, printBindExpressionCallee: printBindExpressionCallee$1 } = misc$1; // We detect calls on member expressions specially to format a // common pattern better. The pattern we are looking for is this: // // arr // .map(x => x + 1) // .filter(x => x > 10) // .some(x => x % 2) // // The way it is structured in the AST is via a nested sequence of // MemberExpression and CallExpression. We need to traverse the AST // and make groups out of it to print it in the desired way. function printMemberChain$1(path, options, print) { const parent = path.getParentNode(); const isExpressionStatement = !parent || parent.type === "ExpressionStatement"; // The first phase is to linearize the AST by traversing it down. // // a().b() // has the following AST structure: // CallExpression(MemberExpression(CallExpression(Identifier))) // and we transform it into // [Identifier, CallExpression, MemberExpression, CallExpression] const printedNodes = []; // Here we try to retain one typed empty line after each call expression or // the first group whether it is in parentheses or not function shouldInsertEmptyLineAfter(node) { const { originalText } = options; const nextCharIndex = getNextNonSpaceNonCommentCharacterIndex$1(originalText, node, locEnd$n); const nextChar = originalText.charAt(nextCharIndex); // if it is cut off by a parenthesis, we only account for one typed empty // line after that parenthesis if (nextChar === ")") { return nextCharIndex !== false && isNextLineEmptyAfterIndex(originalText, nextCharIndex + 1); } return isNextLineEmpty$9(node, options); } function rec(path) { const node = path.getValue(); if (isCallExpression$6(node) && (isMemberish$1(node.callee) || isCallExpression$6(node.callee))) { printedNodes.unshift({ node, printed: [printComments$3(path, [printOptionalToken$6(path), printFunctionTypeParameters$3(path, options, print), printCallArguments$1(path, options, print)], options), shouldInsertEmptyLineAfter(node) ? hardline$t : ""] }); path.call(callee => rec(callee), "callee"); } else if (isMemberish$1(node)) { printedNodes.unshift({ node, needsParens: pathNeedsParens$4(path, options), printed: printComments$3(path, isMemberExpression$4(node) ? printMemberLookup(path, options, print) : printBindExpressionCallee$1(path, options, print), options) }); path.call(object => rec(object), "object"); } else if (node.type === "TSNonNullExpression") { printedNodes.unshift({ node, printed: printComments$3(path, "!", options) }); path.call(expression => rec(expression), "expression"); } else { printedNodes.unshift({ node, printed: print() }); } } // Note: the comments of the root node have already been printed, so we // need to extract this first call without printing them as they would // if handled inside of the recursive call. const node = path.getValue(); printedNodes.unshift({ node, printed: [printOptionalToken$6(path), printFunctionTypeParameters$3(path, options, print), printCallArguments$1(path, options, print)] }); if (node.callee) { path.call(callee => rec(callee), "callee"); } // Once we have a linear list of printed nodes, we want to create groups out // of it. // // a().b.c().d().e // will be grouped as // [ // [Identifier, CallExpression], // [MemberExpression, MemberExpression, CallExpression], // [MemberExpression, CallExpression], // [MemberExpression], // ] // so that we can print it as // a() // .b.c() // .d() // .e // The first group is the first node followed by // - as many CallExpression as possible // < fn()()() >.something() // - as many array accessors as possible // < fn()[0][1][2] >.something() // - then, as many MemberExpression as possible but the last one // < this.items >.something() const groups = []; let currentGroup = [printedNodes[0]]; let i = 1; for (; i < printedNodes.length; ++i) { if (printedNodes[i].node.type === "TSNonNullExpression" || isCallExpression$6(printedNodes[i].node) || isMemberExpression$4(printedNodes[i].node) && printedNodes[i].node.computed && isNumericLiteral$2(printedNodes[i].node.property)) { currentGroup.push(printedNodes[i]); } else { break; } } if (!isCallExpression$6(printedNodes[0].node)) { for (; i + 1 < printedNodes.length; ++i) { if (isMemberish$1(printedNodes[i].node) && isMemberish$1(printedNodes[i + 1].node)) { currentGroup.push(printedNodes[i]); } else { break; } } } groups.push(currentGroup); currentGroup = []; // Then, each following group is a sequence of MemberExpression followed by // a sequence of CallExpression. To compute it, we keep adding things to the // group until we has seen a CallExpression in the past and reach a // MemberExpression let hasSeenCallExpression = false; for (; i < printedNodes.length; ++i) { if (hasSeenCallExpression && isMemberish$1(printedNodes[i].node)) { // [0] should be appended at the end of the group instead of the // beginning of the next one if (printedNodes[i].node.computed && isNumericLiteral$2(printedNodes[i].node.property)) { currentGroup.push(printedNodes[i]); continue; } groups.push(currentGroup); currentGroup = []; hasSeenCallExpression = false; } if (isCallExpression$6(printedNodes[i].node) || printedNodes[i].node.type === "ImportExpression") { hasSeenCallExpression = true; } currentGroup.push(printedNodes[i]); if (hasComment$b(printedNodes[i].node, CommentCheckFlags$9.Trailing)) { groups.push(currentGroup); currentGroup = []; hasSeenCallExpression = false; } } if (currentGroup.length > 0) { groups.push(currentGroup); } // There are cases like Object.keys(), Observable.of(), _.values() where // they are the subject of all the chained calls and therefore should // be kept on the same line: // // Object.keys(items) // .filter(x => x) // .map(x => x) // // In order to detect those cases, we use an heuristic: if the first // node is an identifier with the name starting with a capital // letter or just a sequence of _$. The rationale is that they are // likely to be factories. function isFactory(name) { return /^[A-Z]|^[$_]+$/.test(name); } // In case the Identifier is shorter than tab width, we can keep the // first call in a single line, if it's an ExpressionStatement. // // d3.scaleLinear() // .domain([0, 100]) // .range([0, width]); // function isShort(name) { return name.length <= options.tabWidth; } function shouldNotWrap(groups) { const hasComputed = groups[1].length > 0 && groups[1][0].node.computed; if (groups[0].length === 1) { const firstNode = groups[0][0].node; return firstNode.type === "ThisExpression" || firstNode.type === "Identifier" && (isFactory(firstNode.name) || isExpressionStatement && isShort(firstNode.name) || hasComputed); } const lastNode = getLast$d(groups[0]).node; return isMemberExpression$4(lastNode) && lastNode.property.type === "Identifier" && (isFactory(lastNode.property.name) || hasComputed); } const shouldMerge = groups.length >= 2 && !hasComment$b(groups[1][0].node) && shouldNotWrap(groups); function printGroup(printedGroup) { const printed = printedGroup.map(tuple => tuple.printed); // Checks if the last node (i.e. the parent node) needs parens and print // accordingly if (printedGroup.length > 0 && getLast$d(printedGroup).needsParens) { return ["(", ...printed, ")"]; } return printed; } function printIndentedGroup(groups) { /* istanbul ignore next */ if (groups.length === 0) { return ""; } return indent$m(group$t([hardline$t, join$n(hardline$t, groups.map(printGroup))])); } const printedGroups = groups.map(printGroup); const oneLine = printedGroups; const cutoff = shouldMerge ? 3 : 2; const flatGroups = groups.flat(); const nodeHasComment = flatGroups.slice(1, -1).some(node => hasComment$b(node.node, CommentCheckFlags$9.Leading)) || flatGroups.slice(0, -1).some(node => hasComment$b(node.node, CommentCheckFlags$9.Trailing)) || groups[cutoff] && hasComment$b(groups[cutoff][0].node, CommentCheckFlags$9.Leading); // If we only have a single `.`, we shouldn't do anything fancy and just // render everything concatenated together. if (groups.length <= cutoff && !nodeHasComment) { if (isLongCurriedCallExpression(path)) { return oneLine; } return group$t(oneLine); } // Find out the last node in the first group and check if it has an // empty line after const lastNodeBeforeIndent = getLast$d(groups[shouldMerge ? 1 : 0]).node; const shouldHaveEmptyLineBeforeIndent = !isCallExpression$6(lastNodeBeforeIndent) && shouldInsertEmptyLineAfter(lastNodeBeforeIndent); const expanded = [printGroup(groups[0]), shouldMerge ? groups.slice(1, 2).map(printGroup) : "", shouldHaveEmptyLineBeforeIndent ? hardline$t : "", printIndentedGroup(groups.slice(shouldMerge ? 2 : 1))]; const callExpressions = printedNodes.map(({ node }) => node).filter(isCallExpression$6); function lastGroupWillBreakAndOtherCallsHaveFunctionArguments() { const lastGroupNode = getLast$d(getLast$d(groups)).node; const lastGroupDoc = getLast$d(printedGroups); return isCallExpression$6(lastGroupNode) && willBreak$3(lastGroupDoc) && callExpressions.slice(0, -1).some(node => node.arguments.some(isFunctionOrArrowExpression)); } let result; // We don't want to print in one line if at least one of these conditions occurs: // * the chain has comments, // * the chain is an expression statement and all the arguments are literal-like ("fluent configuration" pattern), // * the chain is longer than 2 calls and has non-trivial arguments or more than 2 arguments in any call but the first one, // * any group but the last one has a hard line, // * the last call's arguments have a hard line and other calls have non-trivial arguments. if (nodeHasComment || callExpressions.length > 2 && callExpressions.some(expr => !expr.arguments.every(arg => isSimpleCallArgument(arg, 0))) || printedGroups.slice(0, -1).some(willBreak$3) || lastGroupWillBreakAndOtherCallsHaveFunctionArguments()) { result = group$t(expanded); } else { result = [// We only need to check `oneLine` because if `expanded` is chosen // that means that the parent group has already been broken // naturally willBreak$3(oneLine) || shouldHaveEmptyLineBeforeIndent ? breakParent$8 : "", conditionalGroup$2([oneLine, expanded])]; } return label$1("member-chain", result); } var memberChain = printMemberChain$1; const { builders: { join: join$m, group: group$s } } = require$$7$3; const pathNeedsParens$3 = needsParens_1; const { getCallArguments: getCallArguments$2, hasFlowAnnotationComment, isCallExpression: isCallExpression$5, isMemberish, isStringLiteral: isStringLiteral$2, isTemplateOnItsOwnLine: isTemplateOnItsOwnLine$1, isTestCall: isTestCall$2, iterateCallArgumentsPath } = utils$5; const printMemberChain = memberChain; const printCallArguments = callArguments; const { printOptionalToken: printOptionalToken$5, printFunctionTypeParameters: printFunctionTypeParameters$2 } = misc$1; function printCallExpression$2(path, options, print) { const node = path.getValue(); const parentNode = path.getParentNode(); const isNew = node.type === "NewExpression"; const isDynamicImport = node.type === "ImportExpression"; const optional = printOptionalToken$5(path); const args = getCallArguments$2(node); if ( // Dangling comments are not handled, all these special cases should have arguments #9668 args.length > 0 && ( // We want to keep CommonJS- and AMD-style require calls, and AMD-style // define calls, as a unit. // e.g. `define(["some/lib"], (lib) => {` !isDynamicImport && !isNew && isCommonsJsOrAmdCall(node, parentNode) || // Template literals as single arguments args.length === 1 && isTemplateOnItsOwnLine$1(args[0], options.originalText) || // Keep test declarations on a single line // e.g. `it('long name', () => {` !isNew && isTestCall$2(node, parentNode))) { const printed = []; iterateCallArgumentsPath(path, () => { printed.push(print()); }); return [isNew ? "new " : "", print("callee"), optional, printFunctionTypeParameters$2(path, options, print), "(", join$m(", ", printed), ")"]; } // Inline Flow annotation comments following Identifiers in Call nodes need to // stay with the Identifier. For example: // // foo /*:: */(bar); // // Here, we ensure that such comments stay between the Identifier and the Callee. const isIdentifierWithFlowAnnotation = (options.parser === "babel" || options.parser === "babel-flow") && node.callee && node.callee.type === "Identifier" && hasFlowAnnotationComment(node.callee.trailingComments); if (isIdentifierWithFlowAnnotation) { node.callee.trailingComments[0].printed = true; } // We detect calls on member lookups and possibly print them in a // special chain format. See `printMemberChain` for more info. if (!isDynamicImport && !isNew && isMemberish(node.callee) && !path.call(path => pathNeedsParens$3(path, options), "callee")) { return printMemberChain(path, options, print); } const contents = [isNew ? "new " : "", isDynamicImport ? "import" : print("callee"), optional, isIdentifierWithFlowAnnotation ? `/*:: ${node.callee.trailingComments[0].value.slice(2).trim()} */` : "", printFunctionTypeParameters$2(path, options, print), printCallArguments(path, options, print)]; // We group here when the callee is itself a call expression. // See `isLongCurriedCallExpression` for more info. if (isDynamicImport || isCallExpression$5(node.callee)) { return group$s(contents); } return contents; } function isCommonsJsOrAmdCall(node, parentNode) { if (node.callee.type !== "Identifier") { return false; } if (node.callee.name === "require") { return true; } if (node.callee.name === "define") { const args = getCallArguments$2(node); return parentNode.type === "ExpressionStatement" && (args.length === 1 || args.length === 2 && args[0].type === "ArrayExpression" || args.length === 3 && isStringLiteral$2(args[0]) && args[1].type === "ArrayExpression"); } return false; } var callExpression = { printCallExpression: printCallExpression$2 }; const { isNonEmptyArray: isNonEmptyArray$e, getStringWidth: getStringWidth$1 } = util$8; const { builders: { line: line$q, group: group$r, indent: indent$l, indentIfBreak: indentIfBreak$2 }, utils: { cleanDoc: cleanDoc$1, willBreak: willBreak$2, canBreak } } = require$$7$3; const { hasLeadingOwnLineComment: hasLeadingOwnLineComment$2, isBinaryish: isBinaryish$1, isStringLiteral: isStringLiteral$1, isLiteral: isLiteral$1, isNumericLiteral: isNumericLiteral$1, isCallExpression: isCallExpression$4, isMemberExpression: isMemberExpression$3, getCallArguments: getCallArguments$1, rawText: rawText$3, hasComment: hasComment$a, isSignedNumericLiteral, isObjectProperty } = utils$5; const { shouldInlineLogicalExpression } = binaryish; const { printCallExpression: printCallExpression$1 } = callExpression; function printAssignment$3(path, options, print, leftDoc, operator, rightPropertyName) { const layout = chooseLayout(path, options, print, leftDoc, rightPropertyName); const rightDoc = print(rightPropertyName, { assignmentLayout: layout }); switch (layout) { // First break after operator, then the sides are broken independently on their own lines case "break-after-operator": return group$r([group$r(leftDoc), operator, group$r(indent$l([line$q, rightDoc]))]); // First break right-hand side, then left-hand side case "never-break-after-operator": return group$r([group$r(leftDoc), operator, " ", rightDoc]); // First break right-hand side, then after operator case "fluid": { const groupId = Symbol("assignment"); return group$r([group$r(leftDoc), operator, group$r(indent$l(line$q), { id: groupId }), indentIfBreak$2(rightDoc, { groupId })]); } case "break-lhs": return group$r([leftDoc, operator, " ", group$r(rightDoc)]); // Parts of assignment chains aren't wrapped in groups. // Once one of them breaks, the chain breaks too. case "chain": return [group$r(leftDoc), operator, line$q, rightDoc]; case "chain-tail": return [group$r(leftDoc), operator, indent$l([line$q, rightDoc])]; case "chain-tail-arrow-chain": return [group$r(leftDoc), operator, rightDoc]; case "only-left": return leftDoc; } } function printAssignmentExpression$1(path, options, print) { const node = path.getValue(); return printAssignment$3(path, options, print, print("left"), [" ", node.operator], "right"); } function printVariableDeclarator$1(path, options, print) { return printAssignment$3(path, options, print, print("id"), " =", "init"); } function chooseLayout(path, options, print, leftDoc, rightPropertyName) { const node = path.getValue(); const rightNode = node[rightPropertyName]; if (!rightNode) { return "only-left"; } // Short assignment chains (only 2 segments) are NOT formatted as chains. // 1) a = b = c; (expression statements) // 2) var/let/const a = b = c; const isTail = !isAssignment(rightNode); const shouldUseChainFormatting = path.match(isAssignment, isAssignmentOrVariableDeclarator, node => !isTail || node.type !== "ExpressionStatement" && node.type !== "VariableDeclaration"); if (shouldUseChainFormatting) { return !isTail ? "chain" : rightNode.type === "ArrowFunctionExpression" && rightNode.body.type === "ArrowFunctionExpression" ? "chain-tail-arrow-chain" : "chain-tail"; } const isHeadOfLongChain = !isTail && isAssignment(rightNode.right); if (isHeadOfLongChain || hasLeadingOwnLineComment$2(options.originalText, rightNode)) { return "break-after-operator"; } if (rightNode.type === "CallExpression" && rightNode.callee.name === "require" || // do not put values on a separate line from the key in json options.parser === "json5" || options.parser === "json") { return "never-break-after-operator"; } if (isComplexDestructuring(node) || isComplexTypeAliasParams(node) || hasComplexTypeAnnotation(node) || isArrowFunctionVariableDeclarator$1(node) && canBreak(leftDoc)) { return "break-lhs"; } // wrapping object properties with very short keys usually doesn't add much value const hasShortKey = isObjectPropertyWithShortKey(node, leftDoc, options); if (path.call(() => shouldBreakAfterOperator(path, options, print, hasShortKey), rightPropertyName)) { return "break-after-operator"; } if (hasShortKey || rightNode.type === "TemplateLiteral" || rightNode.type === "TaggedTemplateExpression" || rightNode.type === "BooleanLiteral" || isNumericLiteral$1(rightNode) || rightNode.type === "ClassExpression") { return "never-break-after-operator"; } return "fluid"; } function shouldBreakAfterOperator(path, options, print, hasShortKey) { const rightNode = path.getValue(); if (isBinaryish$1(rightNode) && !shouldInlineLogicalExpression(rightNode)) { return true; } switch (rightNode.type) { case "StringLiteralTypeAnnotation": case "SequenceExpression": return true; case "ConditionalExpression": { const { test } = rightNode; return isBinaryish$1(test) && !shouldInlineLogicalExpression(test); } case "ClassExpression": return isNonEmptyArray$e(rightNode.decorators); } if (hasShortKey) { return false; } let node = rightNode; const propertiesForPath = []; for (;;) { if (node.type === "UnaryExpression") { node = node.argument; propertiesForPath.push("argument"); } else if (node.type === "TSNonNullExpression") { node = node.expression; propertiesForPath.push("expression"); } else { break; } } if (isStringLiteral$1(node) || path.call(() => isPoorlyBreakableMemberOrCallChain(path, options, print), ...propertiesForPath)) { return true; } return false; } // prefer to break destructuring assignment // if it includes default values or non-shorthand properties function isComplexDestructuring(node) { if (isAssignmentOrVariableDeclarator(node)) { const leftNode = node.left || node.id; return leftNode.type === "ObjectPattern" && leftNode.properties.length > 2 && leftNode.properties.some(property => isObjectProperty(property) && (!property.shorthand || property.value && property.value.type === "AssignmentPattern")); } return false; } function isAssignment(node) { return node.type === "AssignmentExpression"; } function isAssignmentOrVariableDeclarator(node) { return isAssignment(node) || node.type === "VariableDeclarator"; } function isComplexTypeAliasParams(node) { const typeParams = getTypeParametersFromTypeAlias(node); if (isNonEmptyArray$e(typeParams)) { const constraintPropertyName = node.type === "TSTypeAliasDeclaration" ? "constraint" : "bound"; if (typeParams.length > 1 && typeParams.some(param => param[constraintPropertyName] || param.default)) { return true; } } return false; } function getTypeParametersFromTypeAlias(node) { if (isTypeAlias(node) && node.typeParameters && node.typeParameters.params) { return node.typeParameters.params; } return null; } function isTypeAlias(node) { return node.type === "TSTypeAliasDeclaration" || node.type === "TypeAlias"; } function hasComplexTypeAnnotation(node) { if (node.type !== "VariableDeclarator") { return false; } const { typeAnnotation } = node.id; if (!typeAnnotation || !typeAnnotation.typeAnnotation) { return false; } const typeParams = getTypeParametersFromTypeReference(typeAnnotation.typeAnnotation); return isNonEmptyArray$e(typeParams) && typeParams.length > 1 && typeParams.some(param => isNonEmptyArray$e(getTypeParametersFromTypeReference(param)) || param.type === "TSConditionalType"); } function isArrowFunctionVariableDeclarator$1(node) { return node.type === "VariableDeclarator" && node.init && node.init.type === "ArrowFunctionExpression"; } function getTypeParametersFromTypeReference(node) { if (isTypeReference(node) && node.typeParameters && node.typeParameters.params) { return node.typeParameters.params; } return null; } function isTypeReference(node) { return node.type === "TSTypeReference" || node.type === "GenericTypeAnnotation"; } /** * A chain with no calls at all or whose calls are all without arguments or with lone short arguments, * excluding chains printed by `printMemberChain` */ function isPoorlyBreakableMemberOrCallChain(path, options, print, deep = false) { const node = path.getValue(); const goDeeper = () => isPoorlyBreakableMemberOrCallChain(path, options, print, true); if (node.type === "TSNonNullExpression") { return path.call(goDeeper, "expression"); } if (isCallExpression$4(node)) { /** @type {any} TODO */ const doc = printCallExpression$1(path, options, print); if (doc.label === "member-chain") { return false; } const args = getCallArguments$1(node); const isPoorlyBreakableCall = args.length === 0 || args.length === 1 && isLoneShortArgument(args[0], options); if (!isPoorlyBreakableCall) { return false; } if (isCallExpressionWithComplexTypeArguments(node, print)) { return false; } return path.call(goDeeper, "callee"); } if (isMemberExpression$3(node)) { return path.call(goDeeper, "object"); } return deep && (node.type === "Identifier" || node.type === "ThisExpression"); } const LONE_SHORT_ARGUMENT_THRESHOLD_RATE = 0.25; function isLoneShortArgument(node, { printWidth }) { if (hasComment$a(node)) { return false; } const threshold = printWidth * LONE_SHORT_ARGUMENT_THRESHOLD_RATE; if (node.type === "ThisExpression" || node.type === "Identifier" && node.name.length <= threshold || isSignedNumericLiteral(node) && !hasComment$a(node.argument)) { return true; } const regexpPattern = node.type === "Literal" && "regex" in node && node.regex.pattern || node.type === "RegExpLiteral" && node.pattern; if (regexpPattern) { return regexpPattern.length <= threshold; } if (isStringLiteral$1(node)) { return rawText$3(node).length <= threshold; } if (node.type === "TemplateLiteral") { return node.expressions.length === 0 && node.quasis[0].value.raw.length <= threshold && !node.quasis[0].value.raw.includes("\n"); } return isLiteral$1(node); } function isObjectPropertyWithShortKey(node, keyDoc, options) { if (!isObjectProperty(node)) { return false; } // TODO: for performance, it might make sense to use a more lightweight // version of cleanDoc, such that it would stop once it detects that // the doc can't be reduced to a string. keyDoc = cleanDoc$1(keyDoc); const MIN_OVERLAP_FOR_BREAK = 3; // ↓↓ - insufficient overlap for a line break // key1: longValue1, // ↓↓↓↓↓↓ - overlap is long enough to break // key2abcd: // longValue2 return typeof keyDoc === "string" && getStringWidth$1(keyDoc) < options.tabWidth + MIN_OVERLAP_FOR_BREAK; } function isCallExpressionWithComplexTypeArguments(node, print) { const typeArgs = getTypeArgumentsFromCallExpression(node); if (isNonEmptyArray$e(typeArgs)) { if (typeArgs.length > 1) { return true; } if (typeArgs.length === 1) { const firstArg = typeArgs[0]; if (firstArg.type === "TSUnionType" || firstArg.type === "UnionTypeAnnotation" || firstArg.type === "TSIntersectionType" || firstArg.type === "IntersectionTypeAnnotation") { return true; } } const typeArgsKeyName = node.typeParameters ? "typeParameters" : "typeArguments"; if (willBreak$2(print(typeArgsKeyName))) { return true; } } return false; } function getTypeArgumentsFromCallExpression(node) { return node.typeParameters && node.typeParameters.params || node.typeArguments && node.typeArguments.params; } var assignment = { printVariableDeclarator: printVariableDeclarator$1, printAssignmentExpression: printAssignmentExpression$1, printAssignment: printAssignment$3, isArrowFunctionVariableDeclarator: isArrowFunctionVariableDeclarator$1 }; const { getNextNonSpaceNonCommentCharacter } = util$8; const { printDanglingComments: printDanglingComments$a } = comments$4; const { builders: { line: line$p, hardline: hardline$s, softline: softline$k, group: group$q, indent: indent$k, ifBreak: ifBreak$i }, utils: { removeLines: removeLines$2, willBreak: willBreak$1 } } = require$$7$3; const { getFunctionParameters: getFunctionParameters$2, iterateFunctionParametersPath, isSimpleType: isSimpleType$1, isTestCall: isTestCall$1, isTypeAnnotationAFunction, isObjectType: isObjectType$2, isObjectTypePropertyAFunction: isObjectTypePropertyAFunction$1, hasRestParameter, shouldPrintComma: shouldPrintComma$8, hasComment: hasComment$9, isNextLineEmpty: isNextLineEmpty$8 } = utils$5; const { locEnd: locEnd$m } = loc$6; const { ArgExpansionBailout: ArgExpansionBailout$1 } = errors; const { printFunctionTypeParameters: printFunctionTypeParameters$1 } = misc$1; function printFunctionParameters$3(path, print, options, expandArg, printTypeParams) { const functionNode = path.getValue(); const parameters = getFunctionParameters$2(functionNode); const typeParams = printTypeParams ? printFunctionTypeParameters$1(path, options, print) : ""; if (parameters.length === 0) { return [typeParams, "(", printDanglingComments$a(path, options, /* sameIndent */ true, comment => getNextNonSpaceNonCommentCharacter(options.originalText, comment, locEnd$m) === ")"), ")"]; } const parent = path.getParentNode(); const isParametersInTestCall = isTestCall$1(parent); const shouldHugParameters = shouldHugFunctionParameters$1(functionNode); const printed = []; iterateFunctionParametersPath(path, (parameterPath, index) => { const isLastParameter = index === parameters.length - 1; if (isLastParameter && functionNode.rest) { printed.push("..."); } printed.push(print()); if (isLastParameter) { return; } printed.push(","); if (isParametersInTestCall || shouldHugParameters) { printed.push(" "); } else if (isNextLineEmpty$8(parameters[index], options)) { printed.push(hardline$s, hardline$s); } else { printed.push(line$p); } }); // If the parent is a call with the first/last argument expansion and this is the // params of the first/last argument, we don't want the arguments to break and instead // want the whole expression to be on a new line. // // Good: Bad: // verylongcall( verylongcall(( // (a, b) => { a, // } b, // ) ) => { // }) if (expandArg) { if (willBreak$1(typeParams) || willBreak$1(printed)) { // Removing lines in this case leads to broken or ugly output throw new ArgExpansionBailout$1(); } return group$q([removeLines$2(typeParams), "(", removeLines$2(printed), ")"]); } // Single object destructuring should hug // // function({ // a, // b, // c // }) {} const hasNotParameterDecorator = parameters.every(node => !node.decorators); if (shouldHugParameters && hasNotParameterDecorator) { return [typeParams, "(", ...printed, ")"]; } // don't break in specs, eg; `it("should maintain parens around done even when long", (done) => {})` if (isParametersInTestCall) { return [typeParams, "(", ...printed, ")"]; } const isFlowShorthandWithOneArg = (isObjectTypePropertyAFunction$1(parent) || isTypeAnnotationAFunction(parent) || parent.type === "TypeAlias" || parent.type === "UnionTypeAnnotation" || parent.type === "TSUnionType" || parent.type === "IntersectionTypeAnnotation" || parent.type === "FunctionTypeAnnotation" && parent.returnType === functionNode) && parameters.length === 1 && parameters[0].name === null && // `type q = (this: string) => void;` functionNode.this !== parameters[0] && parameters[0].typeAnnotation && functionNode.typeParameters === null && isSimpleType$1(parameters[0].typeAnnotation) && !functionNode.rest; if (isFlowShorthandWithOneArg) { if (options.arrowParens === "always") { return ["(", ...printed, ")"]; } return printed; } return [typeParams, "(", indent$k([softline$k, ...printed]), ifBreak$i(!hasRestParameter(functionNode) && shouldPrintComma$8(options, "all") ? "," : ""), softline$k, ")"]; } function shouldHugFunctionParameters$1(node) { if (!node) { return false; } const parameters = getFunctionParameters$2(node); if (parameters.length !== 1) { return false; } const [parameter] = parameters; return !hasComment$9(parameter) && (parameter.type === "ObjectPattern" || parameter.type === "ArrayPattern" || parameter.type === "Identifier" && parameter.typeAnnotation && (parameter.typeAnnotation.type === "TypeAnnotation" || parameter.typeAnnotation.type === "TSTypeAnnotation") && isObjectType$2(parameter.typeAnnotation.typeAnnotation) || parameter.type === "FunctionTypeParam" && isObjectType$2(parameter.typeAnnotation) || parameter.type === "AssignmentPattern" && (parameter.left.type === "ObjectPattern" || parameter.left.type === "ArrayPattern") && (parameter.right.type === "Identifier" || parameter.right.type === "ObjectExpression" && parameter.right.properties.length === 0 || parameter.right.type === "ArrayExpression" && parameter.right.elements.length === 0)); } function getReturnTypeNode(functionNode) { let returnTypeNode; if (functionNode.returnType) { returnTypeNode = functionNode.returnType; if (returnTypeNode.typeAnnotation) { returnTypeNode = returnTypeNode.typeAnnotation; } } else if (functionNode.typeAnnotation) { returnTypeNode = functionNode.typeAnnotation; } return returnTypeNode; } // When parameters are grouped, the return type annotation breaks first. function shouldGroupFunctionParameters$3(functionNode, returnTypeDoc) { const returnTypeNode = getReturnTypeNode(functionNode); if (!returnTypeNode) { return false; } const typeParameters = functionNode.typeParameters && functionNode.typeParameters.params; if (typeParameters) { if (typeParameters.length > 1) { return false; } if (typeParameters.length === 1) { const typeParameter = typeParameters[0]; if (typeParameter.constraint || typeParameter.default) { return false; } } } return getFunctionParameters$2(functionNode).length === 1 && (isObjectType$2(returnTypeNode) || willBreak$1(returnTypeDoc)); } var functionParameters = { printFunctionParameters: printFunctionParameters$3, shouldHugFunctionParameters: shouldHugFunctionParameters$1, shouldGroupFunctionParameters: shouldGroupFunctionParameters$3 }; const { printComments: printComments$2, printDanglingComments: printDanglingComments$9 } = comments$4; const { getLast: getLast$c, isNonEmptyArray: isNonEmptyArray$d } = util$8; const { builders: { group: group$p, join: join$l, line: line$o, softline: softline$j, indent: indent$j, align: align$3, ifBreak: ifBreak$h } } = require$$7$3; const pathNeedsParens$2 = needsParens_1; const { locStart: locStart$n } = loc$6; const { isSimpleType, isObjectType: isObjectType$1, hasLeadingOwnLineComment: hasLeadingOwnLineComment$1, isObjectTypePropertyAFunction, shouldPrintComma: shouldPrintComma$7 } = utils$5; const { printAssignment: printAssignment$2 } = assignment; const { printFunctionParameters: printFunctionParameters$2, shouldGroupFunctionParameters: shouldGroupFunctionParameters$2 } = functionParameters; const { printArrayItems: printArrayItems$2 } = array; function shouldHugType$2(node) { if (isSimpleType(node) || isObjectType$1(node)) { return true; } if (node.type === "UnionTypeAnnotation" || node.type === "TSUnionType") { const voidCount = node.types.filter(node => node.type === "VoidTypeAnnotation" || node.type === "TSVoidKeyword" || node.type === "NullLiteralTypeAnnotation" || node.type === "TSNullKeyword").length; const hasObject = node.types.some(node => node.type === "ObjectTypeAnnotation" || node.type === "TSTypeLiteral" || // This is a bit aggressive but captures Array<{x}> node.type === "GenericTypeAnnotation" || node.type === "TSTypeReference"); if (node.types.length - 1 === voidCount && hasObject) { return true; } } return false; } function printOpaqueType$1(path, options, print) { const semi = options.semi ? ";" : ""; const node = path.getValue(); const parts = []; parts.push("opaque type ", print("id"), print("typeParameters")); if (node.supertype) { parts.push(": ", print("supertype")); } if (node.impltype) { parts.push(" = ", print("impltype")); } parts.push(semi); return parts; } function printTypeAlias$2(path, options, print) { const semi = options.semi ? ";" : ""; const node = path.getValue(); const parts = []; if (node.declare) { parts.push("declare "); } parts.push("type ", print("id"), print("typeParameters")); const rightPropertyName = node.type === "TSTypeAliasDeclaration" ? "typeAnnotation" : "right"; return [printAssignment$2(path, options, print, parts, " =", rightPropertyName), semi]; } // `TSIntersectionType` and `IntersectionTypeAnnotation` function printIntersectionType$2(path, options, print) { const node = path.getValue(); const types = path.map(print, "types"); const result = []; let wasIndented = false; for (let i = 0; i < types.length; ++i) { if (i === 0) { result.push(types[i]); } else if (isObjectType$1(node.types[i - 1]) && isObjectType$1(node.types[i])) { // If both are objects, don't indent result.push([" & ", wasIndented ? indent$j(types[i]) : types[i]]); } else if (!isObjectType$1(node.types[i - 1]) && !isObjectType$1(node.types[i])) { // If no object is involved, go to the next line if it breaks result.push(indent$j([" &", line$o, types[i]])); } else { // If you go from object to non-object or vis-versa, then inline it if (i > 1) { wasIndented = true; } result.push(" & ", i > 1 ? indent$j(types[i]) : types[i]); } } return group$p(result); } // `TSUnionType` and `UnionTypeAnnotation` function printUnionType$2(path, options, print) { const node = path.getValue(); // single-line variation // A | B | C // multi-line variation // | A // | B // | C const parent = path.getParentNode(); // If there's a leading comment, the parent is doing the indentation const shouldIndent = parent.type !== "TypeParameterInstantiation" && parent.type !== "TSTypeParameterInstantiation" && parent.type !== "GenericTypeAnnotation" && parent.type !== "TSTypeReference" && parent.type !== "TSTypeAssertion" && parent.type !== "TupleTypeAnnotation" && parent.type !== "TSTupleType" && !(parent.type === "FunctionTypeParam" && !parent.name && path.getParentNode(1).this !== parent) && !((parent.type === "TypeAlias" || parent.type === "VariableDeclarator" || parent.type === "TSTypeAliasDeclaration") && hasLeadingOwnLineComment$1(options.originalText, node)); // { // a: string // } | null | void // should be inlined and not be printed in the multi-line variant const shouldHug = shouldHugType$2(node); // We want to align the children but without its comment, so it looks like // | child1 // // comment // | child2 const printed = path.map(typePath => { let printedType = print(); if (!shouldHug) { printedType = align$3(2, printedType); } return printComments$2(typePath, printedType, options); }, "types"); if (shouldHug) { return join$l(" | ", printed); } const shouldAddStartLine = shouldIndent && !hasLeadingOwnLineComment$1(options.originalText, node); const code = [ifBreak$h([shouldAddStartLine ? line$o : "", "| "]), join$l([line$o, "| "], printed)]; if (pathNeedsParens$2(path, options)) { return group$p([indent$j(code), softline$j]); } if (parent.type === "TupleTypeAnnotation" && parent.types.length > 1 || parent.type === "TSTupleType" && parent.elementTypes.length > 1) { return group$p([indent$j([ifBreak$h(["(", softline$j]), code]), softline$j, ifBreak$h(")")]); } return group$p(shouldIndent ? indent$j(code) : code); } // `TSFunctionType` and `FunctionTypeAnnotation` function printFunctionType$2(path, options, print) { const node = path.getValue(); const parts = []; // FunctionTypeAnnotation is ambiguous: // declare function foo(a: B): void; OR // var A: (a: B) => void; const parent = path.getParentNode(0); const parentParent = path.getParentNode(1); const parentParentParent = path.getParentNode(2); let isArrowFunctionTypeAnnotation = node.type === "TSFunctionType" || !((parent.type === "ObjectTypeProperty" || parent.type === "ObjectTypeInternalSlot") && !parent.variance && !parent.optional && locStart$n(parent) === locStart$n(node) || parent.type === "ObjectTypeCallProperty" || parentParentParent && parentParentParent.type === "DeclareFunction"); let needsColon = isArrowFunctionTypeAnnotation && (parent.type === "TypeAnnotation" || parent.type === "TSTypeAnnotation"); // Sadly we can't put it inside of AstPath::needsColon because we are // printing ":" as part of the expression and it would put parenthesis // around :( const needsParens = needsColon && isArrowFunctionTypeAnnotation && (parent.type === "TypeAnnotation" || parent.type === "TSTypeAnnotation") && parentParent.type === "ArrowFunctionExpression"; if (isObjectTypePropertyAFunction(parent)) { isArrowFunctionTypeAnnotation = true; needsColon = true; } if (needsParens) { parts.push("("); } const parametersDoc = printFunctionParameters$2(path, print, options, /* expandArg */ false, /* printTypeParams */ true); // The returnType is not wrapped in a TypeAnnotation, so the colon // needs to be added separately. const returnTypeDoc = node.returnType || node.predicate || node.typeAnnotation ? [isArrowFunctionTypeAnnotation ? " => " : ": ", print("returnType"), print("predicate"), print("typeAnnotation")] : ""; const shouldGroupParameters = shouldGroupFunctionParameters$2(node, returnTypeDoc); parts.push(shouldGroupParameters ? group$p(parametersDoc) : parametersDoc); if (returnTypeDoc) { parts.push(returnTypeDoc); } if (needsParens) { parts.push(")"); } return group$p(parts); } // `TSTupleType` and `TupleTypeAnnotation` function printTupleType$2(path, options, print) { const node = path.getValue(); const typesField = node.type === "TSTupleType" ? "elementTypes" : "types"; const types = node[typesField]; const isNonEmptyTuple = isNonEmptyArray$d(types); const hasRest = isNonEmptyTuple && getLast$c(types).type === "TSRestType"; const bracketsDelimiterLine = isNonEmptyTuple ? softline$j : ""; return group$p(["[", indent$j([bracketsDelimiterLine, printArrayItems$2(path, options, typesField, print)]), ifBreak$h(isNonEmptyTuple && shouldPrintComma$7(options, "all") && !hasRest ? "," : ""), printDanglingComments$9(path, options, /* sameIndent */ true), bracketsDelimiterLine, "]"]); } // `TSIndexedAccessType`, `IndexedAccessType`, and `OptionalIndexedAccessType` function printIndexedAccessType$2(path, options, print) { const node = path.getValue(); const leftDelimiter = node.type === "OptionalIndexedAccessType" && node.optional ? "?.[" : "["; return [print("objectType"), leftDelimiter, print("indexType"), "]"]; } var typeAnnotation = { printOpaqueType: printOpaqueType$1, printTypeAlias: printTypeAlias$2, printIntersectionType: printIntersectionType$2, printUnionType: printUnionType$2, printFunctionType: printFunctionType$2, printTupleType: printTupleType$2, printIndexedAccessType: printIndexedAccessType$2, shouldHugType: shouldHugType$2 }; const { printDanglingComments: printDanglingComments$8 } = comments$4; const { builders: { join: join$k, line: line$n, hardline: hardline$r, softline: softline$i, group: group$o, indent: indent$i, ifBreak: ifBreak$g } } = require$$7$3; const { isTestCall, hasComment: hasComment$8, CommentCheckFlags: CommentCheckFlags$8, isTSXFile, shouldPrintComma: shouldPrintComma$6, getFunctionParameters: getFunctionParameters$1, isObjectType } = utils$5; const { createGroupIdMapper: createGroupIdMapper$1 } = util$8; const { shouldHugType: shouldHugType$1 } = typeAnnotation; const { isArrowFunctionVariableDeclarator } = assignment; const getTypeParametersGroupId$2 = createGroupIdMapper$1("typeParameters"); function printTypeParameters$2(path, options, print, paramsKey) { const node = path.getValue(); if (!node[paramsKey]) { return ""; } // for TypeParameterDeclaration typeParameters is a single node if (!Array.isArray(node[paramsKey])) { return print(paramsKey); } const grandparent = path.getNode(2); const isParameterInTestCall = grandparent && isTestCall(grandparent); const isArrowFunctionVariable = path.match(node => !(node[paramsKey].length === 1 && isObjectType(node[paramsKey][0])), undefined, (node, name) => name === "typeAnnotation", node => node.type === "Identifier", isArrowFunctionVariableDeclarator); const shouldInline = !isArrowFunctionVariable && (isParameterInTestCall || node[paramsKey].length === 0 || node[paramsKey].length === 1 && (node[paramsKey][0].type === "NullableTypeAnnotation" || shouldHugType$1(node[paramsKey][0]))); if (shouldInline) { return ["<", join$k(", ", path.map(print, paramsKey)), printDanglingCommentsForInline(path, options), ">"]; } // Keep comma if the file extension is .tsx and // has one type parameter that isn't extend with any types. // Because, otherwise formatted result will be invalid as tsx. const trailingComma = node.type === "TSTypeParameterInstantiation" // https://github.com/microsoft/TypeScript/issues/21984 ? "" : getFunctionParameters$1(node).length === 1 && isTSXFile(options) && !node[paramsKey][0].constraint && path.getParentNode().type === "ArrowFunctionExpression" ? "," : shouldPrintComma$6(options, "all") ? ifBreak$g(",") : ""; return group$o(["<", indent$i([softline$i, join$k([",", line$n], path.map(print, paramsKey))]), trailingComma, softline$i, ">"], { id: getTypeParametersGroupId$2(node) }); } function printDanglingCommentsForInline(path, options) { const node = path.getValue(); if (!hasComment$8(node, CommentCheckFlags$8.Dangling)) { return ""; } const hasOnlyBlockComments = !hasComment$8(node, CommentCheckFlags$8.Line); const printed = printDanglingComments$8(path, options, /* sameIndent */ hasOnlyBlockComments); if (hasOnlyBlockComments) { return printed; } return [printed, hardline$r]; } function printTypeParameter$2(path, options, print) { const node = path.getValue(); const parts = []; const parent = path.getParentNode(); if (parent.type === "TSMappedType") { parts.push("[", print("name")); if (node.constraint) { parts.push(" in ", print("constraint")); } if (parent.nameType) { parts.push(" as ", path.callParent(() => print("nameType"))); } parts.push("]"); return parts; } if (node.variance) { parts.push(print("variance")); } parts.push(print("name")); if (node.bound) { parts.push(": ", print("bound")); } if (node.constraint) { parts.push(" extends ", print("constraint")); } if (node.default) { parts.push(" = ", print("default")); } return parts; } var typeParameters = { printTypeParameter: printTypeParameter$2, printTypeParameters: printTypeParameters$2, getTypeParametersGroupId: getTypeParametersGroupId$2 }; const { printComments: printComments$1 } = comments$4; const { printString: printString$3, printNumber: printNumber$3 } = util$8; const { isNumericLiteral, isSimpleNumber, isStringLiteral, isStringPropSafeToUnquote, rawText: rawText$2 } = utils$5; const { printAssignment: printAssignment$1 } = assignment; const needsQuoteProps = new WeakMap(); function printPropertyKey$4(path, options, print) { const node = path.getNode(); if (node.computed) { return ["[", print("key"), "]"]; } const parent = path.getParentNode(); const { key } = node; // flow has `Identifier` key, other parsers use `PrivateIdentifier` (ESTree) or `PrivateName` if (node.type === "ClassPrivateProperty" && key.type === "Identifier") { return ["#", print("key")]; } if (options.quoteProps === "consistent" && !needsQuoteProps.has(parent)) { const objectHasStringProp = (parent.properties || parent.body || parent.members).some(prop => !prop.computed && prop.key && isStringLiteral(prop.key) && !isStringPropSafeToUnquote(prop, options)); needsQuoteProps.set(parent, objectHasStringProp); } if ((key.type === "Identifier" || isNumericLiteral(key) && isSimpleNumber(printNumber$3(rawText$2(key))) && // Avoid converting 999999999999999999999 to 1e+21, 0.99999999999999999 to 1 and 1.0 to 1. String(key.value) === printNumber$3(rawText$2(key)) && // Quoting number keys is safe in JS and Flow, but not in TypeScript (as // mentioned in `isStringPropSafeToUnquote`). !(options.parser === "typescript" || options.parser === "babel-ts")) && (options.parser === "json" || options.quoteProps === "consistent" && needsQuoteProps.get(parent))) { // a -> "a" // 1 -> "1" // 1.5 -> "1.5" const prop = printString$3(JSON.stringify(key.type === "Identifier" ? key.name : key.value.toString()), options); return path.call(keyPath => printComments$1(keyPath, prop, options), "key"); } if (isStringPropSafeToUnquote(node, options) && (options.quoteProps === "as-needed" || options.quoteProps === "consistent" && !needsQuoteProps.get(parent))) { // 'a' -> a // '1' -> 1 // '1.5' -> 1.5 return path.call(keyPath => printComments$1(keyPath, /^\d/.test(key.value) ? printNumber$3(key.value) : key.value, options), "key"); } return print("key"); } function printProperty$1(path, options, print) { const node = path.getValue(); if (node.shorthand) { return print("value"); } return printAssignment$1(path, options, print, printPropertyKey$4(path, options, print), ":", "value"); } var property = { printProperty: printProperty$1, printPropertyKey: printPropertyKey$4 }; /** @typedef {import("../../document/doc-builders").Doc} Doc */ const assert$2 = require$$0__default$3["default"]; const { printDanglingComments: printDanglingComments$7, printCommentsSeparately } = comments$4; const getLast$b = getLast_1; const { getNextNonSpaceNonCommentCharacterIndex } = util$8; const { builders: { line: line$m, softline: softline$h, group: group$n, indent: indent$h, ifBreak: ifBreak$f, hardline: hardline$q, join: join$j, indentIfBreak: indentIfBreak$1 }, utils: { removeLines: removeLines$1, willBreak } } = require$$7$3; const { ArgExpansionBailout } = errors; const { getFunctionParameters, hasLeadingOwnLineComment, isFlowAnnotationComment, isJsxNode: isJsxNode$2, isTemplateOnItsOwnLine, shouldPrintComma: shouldPrintComma$5, startsWithNoLookaheadToken, isBinaryish, isLineComment: isLineComment$2, hasComment: hasComment$7, getComments: getComments$2, CommentCheckFlags: CommentCheckFlags$7, isCallLikeExpression, isCallExpression: isCallExpression$3, getCallArguments, hasNakedLeftSide: hasNakedLeftSide$1, getLeftSide } = utils$5; const { locEnd: locEnd$l } = loc$6; const { printFunctionParameters: printFunctionParameters$1, shouldGroupFunctionParameters: shouldGroupFunctionParameters$1 } = functionParameters; const { printPropertyKey: printPropertyKey$3 } = property; const { printFunctionTypeParameters } = misc$1; function printFunction$2(path, print, options, args) { const node = path.getValue(); let expandArg = false; if ((node.type === "FunctionDeclaration" || node.type === "FunctionExpression") && args && args.expandLastArg) { const parent = path.getParentNode(); if (isCallExpression$3(parent) && getCallArguments(parent).length > 1) { expandArg = true; } } const parts = []; // For TypeScript the TSDeclareFunction node shares the AST // structure with FunctionDeclaration if (node.type === "TSDeclareFunction" && node.declare) { parts.push("declare "); } if (node.async) { parts.push("async "); } if (node.generator) { parts.push("function* "); } else { parts.push("function "); } if (node.id) { parts.push(print("id")); } const parametersDoc = printFunctionParameters$1(path, print, options, expandArg); const returnTypeDoc = printReturnType(path, print, options); const shouldGroupParameters = shouldGroupFunctionParameters$1(node, returnTypeDoc); parts.push(printFunctionTypeParameters(path, options, print), group$n([shouldGroupParameters ? group$n(parametersDoc) : parametersDoc, returnTypeDoc]), node.body ? " " : "", print("body")); if (options.semi && (node.declare || !node.body)) { parts.push(";"); } return parts; } function printMethod$2(path, options, print) { const node = path.getNode(); const { kind } = node; const value = node.value || node; const parts = []; if (!kind || kind === "init" || kind === "method" || kind === "constructor") { if (value.async) { parts.push("async "); } } else { assert$2.ok(kind === "get" || kind === "set"); parts.push(kind, " "); } // A `getter`/`setter` can't be a generator, but it's recoverable if (value.generator) { parts.push("*"); } parts.push(printPropertyKey$3(path, options, print), node.optional || node.key.optional ? "?" : ""); if (node === value) { parts.push(printMethodInternal$1(path, options, print)); } else if (value.type === "FunctionExpression") { parts.push(path.call(path => printMethodInternal$1(path, options, print), "value")); } else { parts.push(print("value")); } return parts; } function printMethodInternal$1(path, options, print) { const node = path.getNode(); const parametersDoc = printFunctionParameters$1(path, print, options); const returnTypeDoc = printReturnType(path, print, options); const shouldGroupParameters = shouldGroupFunctionParameters$1(node, returnTypeDoc); const parts = [printFunctionTypeParameters(path, options, print), group$n([shouldGroupParameters ? group$n(parametersDoc) : parametersDoc, returnTypeDoc])]; if (node.body) { parts.push(" ", print("body")); } else { parts.push(options.semi ? ";" : ""); } return parts; } function printArrowFunctionSignature(path, options, print, args) { const node = path.getValue(); const parts = []; if (node.async) { parts.push("async "); } if (shouldPrintParamsWithoutParens$1(path, options)) { parts.push(print(["params", 0])); } else { const expandArg = args && (args.expandLastArg || args.expandFirstArg); let returnTypeDoc = printReturnType(path, print, options); if (expandArg) { if (willBreak(returnTypeDoc)) { throw new ArgExpansionBailout(); } returnTypeDoc = group$n(removeLines$1(returnTypeDoc)); } parts.push(group$n([printFunctionParameters$1(path, print, options, expandArg, /* printTypeParams */ true), returnTypeDoc])); } const dangling = printDanglingComments$7(path, options, /* sameIndent */ true, comment => { const nextCharacter = getNextNonSpaceNonCommentCharacterIndex(options.originalText, comment, locEnd$l); return nextCharacter !== false && options.originalText.slice(nextCharacter, nextCharacter + 2) === "=>"; }); if (dangling) { parts.push(" ", dangling); } return parts; } function printArrowChain(path, args, signatures, shouldBreak, bodyDoc, tailNode) { const name = path.getName(); const parent = path.getParentNode(); const isCallee = isCallLikeExpression(parent) && name === "callee"; const isAssignmentRhs = Boolean(args && args.assignmentLayout); const shouldPutBodyOnSeparateLine = tailNode.body.type !== "BlockStatement" && tailNode.body.type !== "ObjectExpression" && tailNode.body.type !== "SequenceExpression"; const shouldBreakBeforeChain = isCallee && shouldPutBodyOnSeparateLine || args && args.assignmentLayout === "chain-tail-arrow-chain"; const groupId = Symbol("arrow-chain"); // We handle sequence expressions as the body of arrows specially, // so that the required parentheses end up on their own lines. if (tailNode.body.type === "SequenceExpression") { bodyDoc = group$n(["(", indent$h([softline$h, bodyDoc]), softline$h, ")"]); } return group$n([group$n(indent$h([isCallee || isAssignmentRhs ? softline$h : "", group$n(join$j([" =>", line$m], signatures), { shouldBreak })]), { id: groupId, shouldBreak: shouldBreakBeforeChain }), " =>", indentIfBreak$1(shouldPutBodyOnSeparateLine ? indent$h([line$m, bodyDoc]) : [" ", bodyDoc], { groupId }), isCallee ? ifBreak$f(softline$h, "", { groupId }) : ""]); } function printArrowFunction$1(path, options, print, args) { let node = path.getValue(); /** @type {Doc[]} */ const signatures = []; const body = []; let chainShouldBreak = false; (function rec() { const doc = printArrowFunctionSignature(path, options, print, args); if (signatures.length === 0) { signatures.push(doc); } else { const { leading, trailing } = printCommentsSeparately(path, options); signatures.push([leading, doc]); body.unshift(trailing); } chainShouldBreak = chainShouldBreak || // Always break the chain if: node.returnType && getFunctionParameters(node).length > 0 || node.typeParameters || getFunctionParameters(node).some(param => param.type !== "Identifier"); if (node.body.type !== "ArrowFunctionExpression" || args && args.expandLastArg) { body.unshift(print("body", args)); } else { node = node.body; path.call(rec, "body"); } })(); if (signatures.length > 1) { return printArrowChain(path, args, signatures, chainShouldBreak, body, node); } const parts = signatures; parts.push(" =>"); // We want to always keep these types of nodes on the same line // as the arrow. if (!hasLeadingOwnLineComment(options.originalText, node.body) && (node.body.type === "ArrayExpression" || node.body.type === "ObjectExpression" || node.body.type === "BlockStatement" || isJsxNode$2(node.body) || isTemplateOnItsOwnLine(node.body, options.originalText) || node.body.type === "ArrowFunctionExpression" || node.body.type === "DoExpression")) { return group$n([...parts, " ", body]); } // We handle sequence expressions as the body of arrows specially, // so that the required parentheses end up on their own lines. if (node.body.type === "SequenceExpression") { return group$n([...parts, group$n([" (", indent$h([softline$h, body]), softline$h, ")"])]); } // if the arrow function is expanded as last argument, we are adding a // level of indentation and need to add a softline to align the closing ) // with the opening (, or if it's inside a JSXExpression (e.g. an attribute) // we should align the expression's closing } with the line with the opening {. const shouldAddSoftLine = (args && args.expandLastArg || path.getParentNode().type === "JSXExpressionContainer") && !hasComment$7(node); const printTrailingComma = args && args.expandLastArg && shouldPrintComma$5(options, "all"); // In order to avoid confusion between // a => a ? a : a // a <= a ? a : a const shouldAddParens = node.body.type === "ConditionalExpression" && !startsWithNoLookaheadToken(node.body, /* forbidFunctionAndClass */ false); return group$n([...parts, group$n([indent$h([line$m, shouldAddParens ? ifBreak$f("", "(") : "", body, shouldAddParens ? ifBreak$f("", ")") : ""]), shouldAddSoftLine ? [ifBreak$f(printTrailingComma ? "," : ""), softline$h] : ""])]); } function canPrintParamsWithoutParens(node) { const parameters = getFunctionParameters(node); return parameters.length === 1 && !node.typeParameters && !hasComment$7(node, CommentCheckFlags$7.Dangling) && parameters[0].type === "Identifier" && !parameters[0].typeAnnotation && !hasComment$7(parameters[0]) && !parameters[0].optional && !node.predicate && !node.returnType; } function shouldPrintParamsWithoutParens$1(path, options) { if (options.arrowParens === "always") { return false; } if (options.arrowParens === "avoid") { const node = path.getValue(); return canPrintParamsWithoutParens(node); } // Fallback default; should be unreachable /* istanbul ignore next */ return false; } /** @returns {Doc} */ function printReturnType(path, print, options) { const node = path.getValue(); const returnType = print("returnType"); if (node.returnType && isFlowAnnotationComment(options.originalText, node.returnType)) { return [" /*: ", returnType, " */"]; } const parts = [returnType]; // prepend colon to TypeScript type annotation if (node.returnType && node.returnType.typeAnnotation) { parts.unshift(": "); } if (node.predicate) { // The return type will already add the colon, but otherwise we // need to do it ourselves parts.push(node.returnType ? " " : ": ", print("predicate")); } return parts; } // `ReturnStatement` and `ThrowStatement` function printReturnOrThrowArgument(path, options, print) { const node = path.getValue(); const semi = options.semi ? ";" : ""; const parts = []; if (node.argument) { if (returnArgumentHasLeadingComment(options, node.argument)) { parts.push([" (", indent$h([hardline$q, print("argument")]), hardline$q, ")"]); } else if (isBinaryish(node.argument) || node.argument.type === "SequenceExpression") { parts.push(group$n([ifBreak$f(" (", " "), indent$h([softline$h, print("argument")]), softline$h, ifBreak$f(")")])); } else { parts.push(" ", print("argument")); } } const comments = getComments$2(node); const lastComment = getLast$b(comments); const isLastCommentLine = lastComment && isLineComment$2(lastComment); if (isLastCommentLine) { parts.push(semi); } if (hasComment$7(node, CommentCheckFlags$7.Dangling)) { parts.push(" ", printDanglingComments$7(path, options, /* sameIndent */ true)); } if (!isLastCommentLine) { parts.push(semi); } return parts; } function printReturnStatement$1(path, options, print) { return ["return", printReturnOrThrowArgument(path, options, print)]; } function printThrowStatement$1(path, options, print) { return ["throw", printReturnOrThrowArgument(path, options, print)]; } // This recurses the return argument, looking for the first token // (the leftmost leaf node) and, if it (or its parents) has any // leadingComments, returns true (so it can be wrapped in parens). function returnArgumentHasLeadingComment(options, argument) { if (hasLeadingOwnLineComment(options.originalText, argument)) { return true; } if (hasNakedLeftSide$1(argument)) { let leftMost = argument; let newLeftMost; while (newLeftMost = getLeftSide(leftMost)) { leftMost = newLeftMost; if (hasLeadingOwnLineComment(options.originalText, leftMost)) { return true; } } } return false; } var _function = { printFunction: printFunction$2, printArrowFunction: printArrowFunction$1, printMethod: printMethod$2, printReturnStatement: printReturnStatement$1, printThrowStatement: printThrowStatement$1, printMethodInternal: printMethodInternal$1, shouldPrintParamsWithoutParens: shouldPrintParamsWithoutParens$1 }; const { isNonEmptyArray: isNonEmptyArray$c, hasNewline: hasNewline$4 } = util$8; const { builders: { line: line$l, hardline: hardline$p, join: join$i, breakParent: breakParent$7, group: group$m } } = require$$7$3; const { locStart: locStart$m, locEnd: locEnd$k } = loc$6; const { getParentExportDeclaration: getParentExportDeclaration$1 } = utils$5; function printClassMemberDecorators$1(path, options, print) { const node = path.getValue(); return group$m([join$i(line$l, path.map(print, "decorators")), hasNewlineBetweenOrAfterDecorators(node, options) ? hardline$p : line$l]); } function printDecoratorsBeforeExport$1(path, options, print) { // Export declarations are responsible for printing any decorators // that logically apply to node.declaration. return [join$i(hardline$p, path.map(print, "declaration", "decorators")), hardline$p]; } function printDecorators$1(path, options, print) { const node = path.getValue(); const { decorators } = node; if (!isNonEmptyArray$c(decorators) || // If the parent node is an export declaration and the decorator // was written before the export, the export will be responsible // for printing the decorators. hasDecoratorsBeforeExport$1(path.getParentNode())) { return; } const shouldBreak = node.type === "ClassExpression" || node.type === "ClassDeclaration" || hasNewlineBetweenOrAfterDecorators(node, options); return [getParentExportDeclaration$1(path) ? hardline$p : shouldBreak ? breakParent$7 : "", join$i(line$l, path.map(print, "decorators")), line$l]; } function hasNewlineBetweenOrAfterDecorators(node, options) { return node.decorators.some(decorator => hasNewline$4(options.originalText, locEnd$k(decorator))); } function hasDecoratorsBeforeExport$1(node) { if (node.type !== "ExportDefaultDeclaration" && node.type !== "ExportNamedDeclaration" && node.type !== "DeclareExportDeclaration") { return false; } const decorators = node.declaration && node.declaration.decorators; return isNonEmptyArray$c(decorators) && locStart$m(node, { ignoreDecorators: true }) > locStart$m(decorators[0]); } var decorators = { printDecorators: printDecorators$1, printClassMemberDecorators: printClassMemberDecorators$1, printDecoratorsBeforeExport: printDecoratorsBeforeExport$1, hasDecoratorsBeforeExport: hasDecoratorsBeforeExport$1 }; const { isNonEmptyArray: isNonEmptyArray$b, createGroupIdMapper } = util$8; const { printComments, printDanglingComments: printDanglingComments$6 } = comments$4; const { builders: { join: join$h, line: line$k, hardline: hardline$o, softline: softline$g, group: group$l, indent: indent$g, ifBreak: ifBreak$e } } = require$$7$3; const { hasComment: hasComment$6, CommentCheckFlags: CommentCheckFlags$6 } = utils$5; const { getTypeParametersGroupId: getTypeParametersGroupId$1 } = typeParameters; const { printMethod: printMethod$1 } = _function; const { printOptionalToken: printOptionalToken$4, printTypeAnnotation: printTypeAnnotation$3 } = misc$1; const { printPropertyKey: printPropertyKey$2 } = property; const { printAssignment } = assignment; const { printClassMemberDecorators } = decorators; function printClass$2(path, options, print) { const node = path.getValue(); const parts = []; if (node.declare) { parts.push("declare "); } if (node.abstract) { parts.push("abstract "); } parts.push("class"); // Keep old behaviour of extends in same line // If there is only on extends and there are not comments const groupMode = node.id && hasComment$6(node.id, CommentCheckFlags$6.Trailing) || node.superClass && hasComment$6(node.superClass) || isNonEmptyArray$b(node.extends) || // DeclareClass isNonEmptyArray$b(node.mixins) || isNonEmptyArray$b(node.implements); const partsGroup = []; const extendsParts = []; if (node.id) { partsGroup.push(" ", print("id")); } partsGroup.push(print("typeParameters")); if (node.superClass) { const printed = ["extends ", printSuperClass(path, options, print), print("superTypeParameters")]; const printedWithComments = path.call(superClass => printComments(superClass, printed, options), "superClass"); if (groupMode) { extendsParts.push(line$k, group$l(printedWithComments)); } else { extendsParts.push(" ", printedWithComments); } } else { extendsParts.push(printList(path, options, print, "extends")); } extendsParts.push(printList(path, options, print, "mixins"), printList(path, options, print, "implements")); if (groupMode) { let printedPartsGroup; if (shouldIndentOnlyHeritageClauses(node)) { printedPartsGroup = [...partsGroup, indent$g(extendsParts)]; } else { printedPartsGroup = indent$g([...partsGroup, extendsParts]); } parts.push(group$l(printedPartsGroup, { id: getHeritageGroupId(node) })); } else { parts.push(...partsGroup, ...extendsParts); } parts.push(" ", print("body")); return parts; } const getHeritageGroupId = createGroupIdMapper("heritageGroup"); function printHardlineAfterHeritage$2(node) { return ifBreak$e(hardline$o, "", { groupId: getHeritageGroupId(node) }); } function hasMultipleHeritage(node) { return ["superClass", "extends", "mixins", "implements"].filter(key => Boolean(node[key])).length > 1; } function shouldIndentOnlyHeritageClauses(node) { return node.typeParameters && !hasComment$6(node.typeParameters, CommentCheckFlags$6.Trailing | CommentCheckFlags$6.Line) && !hasMultipleHeritage(node); } function printList(path, options, print, listName) { const node = path.getValue(); if (!isNonEmptyArray$b(node[listName])) { return ""; } const printedLeadingComments = printDanglingComments$6(path, options, /* sameIndent */ true, ({ marker }) => marker === listName); return [shouldIndentOnlyHeritageClauses(node) ? ifBreak$e(" ", line$k, { groupId: getTypeParametersGroupId$1(node.typeParameters) }) : line$k, printedLeadingComments, printedLeadingComments && hardline$o, listName, group$l(indent$g([line$k, join$h([",", line$k], path.map(print, listName))]))]; } function printSuperClass(path, options, print) { const printed = print("superClass"); const parent = path.getParentNode(); if (parent.type === "AssignmentExpression") { return group$l(ifBreak$e(["(", indent$g([softline$g, printed]), softline$g, ")"], printed)); } return printed; } function printClassMethod$2(path, options, print) { const node = path.getValue(); const parts = []; if (isNonEmptyArray$b(node.decorators)) { parts.push(printClassMemberDecorators(path, options, print)); } if (node.accessibility) { parts.push(node.accessibility + " "); } // "readonly" and "declare" are supported by only "babel-ts" // https://github.com/prettier/prettier/issues/9760 if (node.readonly) { parts.push("readonly "); } if (node.declare) { parts.push("declare "); } if (node.static) { parts.push("static "); } if (node.type === "TSAbstractMethodDefinition" || node.abstract) { parts.push("abstract "); } if (node.override) { parts.push("override "); } parts.push(printMethod$1(path, options, print)); return parts; } function printClassProperty$2(path, options, print) { const node = path.getValue(); const parts = []; const semi = options.semi ? ";" : ""; if (isNonEmptyArray$b(node.decorators)) { parts.push(printClassMemberDecorators(path, options, print)); } if (node.accessibility) { parts.push(node.accessibility + " "); } if (node.declare) { parts.push("declare "); } if (node.static) { parts.push("static "); } if (node.type === "TSAbstractPropertyDefinition" || node.abstract) { parts.push("abstract "); } if (node.override) { parts.push("override "); } if (node.readonly) { parts.push("readonly "); } if (node.variance) { parts.push(print("variance")); } parts.push(printPropertyKey$2(path, options, print), printOptionalToken$4(path), printTypeAnnotation$3(path, options, print)); return [printAssignment(path, options, print, parts, " =", "value"), semi]; } var _class = { printClass: printClass$2, printClassMethod: printClassMethod$2, printClassProperty: printClassProperty$2, printHardlineAfterHeritage: printHardlineAfterHeritage$2 }; const { isNonEmptyArray: isNonEmptyArray$a } = util$8; const { builders: { join: join$g, line: line$j, group: group$k, indent: indent$f, ifBreak: ifBreak$d } } = require$$7$3; const { hasComment: hasComment$5, identity, CommentCheckFlags: CommentCheckFlags$5 } = utils$5; const { getTypeParametersGroupId } = typeParameters; const { printTypeScriptModifiers: printTypeScriptModifiers$1 } = misc$1; function printInterface$2(path, options, print) { const node = path.getValue(); const parts = []; if (node.declare) { parts.push("declare "); } if (node.type === "TSInterfaceDeclaration") { parts.push(node.abstract ? "abstract " : "", printTypeScriptModifiers$1(path, options, print)); } parts.push("interface"); const partsGroup = []; const extendsParts = []; if (node.type !== "InterfaceTypeAnnotation") { partsGroup.push(" ", print("id"), print("typeParameters")); } const shouldIndentOnlyHeritageClauses = node.typeParameters && !hasComment$5(node.typeParameters, CommentCheckFlags$5.Trailing | CommentCheckFlags$5.Line); if (isNonEmptyArray$a(node.extends)) { extendsParts.push(shouldIndentOnlyHeritageClauses ? ifBreak$d(" ", line$j, { groupId: getTypeParametersGroupId(node.typeParameters) }) : line$j, "extends ", (node.extends.length === 1 ? identity : indent$f)(join$g([",", line$j], path.map(print, "extends")))); } if (node.id && hasComment$5(node.id, CommentCheckFlags$5.Trailing) || isNonEmptyArray$a(node.extends)) { if (shouldIndentOnlyHeritageClauses) { parts.push(group$k([...partsGroup, indent$f(extendsParts)])); } else { parts.push(group$k(indent$f([...partsGroup, ...extendsParts]))); } } else { parts.push(...partsGroup, ...extendsParts); } parts.push(" ", print("body")); return group$k(parts); } var _interface = { printInterface: printInterface$2 }; const { isNonEmptyArray: isNonEmptyArray$9 } = util$8; const { builders: { softline: softline$f, group: group$j, indent: indent$e, join: join$f, line: line$i, ifBreak: ifBreak$c, hardline: hardline$n } } = require$$7$3; const { printDanglingComments: printDanglingComments$5 } = comments$4; const { hasComment: hasComment$4, CommentCheckFlags: CommentCheckFlags$4, shouldPrintComma: shouldPrintComma$4, needsHardlineAfterDanglingComment: needsHardlineAfterDanglingComment$1 } = utils$5; const { locStart: locStart$l, hasSameLoc } = loc$6; const { hasDecoratorsBeforeExport, printDecoratorsBeforeExport } = decorators; /** * @typedef {import("../../document").Doc} Doc */ function printImportDeclaration$1(path, options, print) { const node = path.getValue(); const semi = options.semi ? ";" : ""; /** @type{Doc[]} */ const parts = []; const { importKind } = node; parts.push("import"); if (importKind && importKind !== "value") { parts.push(" ", importKind); } parts.push(printModuleSpecifiers(path, options, print), printModuleSource(path, options, print), printImportAssertions(path, options, print), semi); return parts; } function printExportDeclaration$2(path, options, print) { const node = path.getValue(); /** @type{Doc[]} */ const parts = []; // Only print decorators here if they were written before the export, // otherwise they are printed by the node.declaration if (hasDecoratorsBeforeExport(node)) { parts.push(printDecoratorsBeforeExport(path, options, print)); } const { type, exportKind, declaration } = node; parts.push("export"); const isDefaultExport = node.default || type === "ExportDefaultDeclaration"; if (isDefaultExport) { parts.push(" default"); } if (hasComment$4(node, CommentCheckFlags$4.Dangling)) { parts.push(" ", printDanglingComments$5(path, options, /* sameIndent */ true)); if (needsHardlineAfterDanglingComment$1(node)) { parts.push(hardline$n); } } if (declaration) { parts.push(" ", print("declaration")); } else { parts.push(exportKind === "type" ? " type" : "", printModuleSpecifiers(path, options, print), printModuleSource(path, options, print), printImportAssertions(path, options, print)); } if (shouldExportDeclarationPrintSemi(node, options)) { parts.push(";"); } return parts; } function printExportAllDeclaration$2(path, options, print) { const node = path.getValue(); const semi = options.semi ? ";" : ""; /** @type{Doc[]} */ const parts = []; const { exportKind, exported } = node; parts.push("export"); if (exportKind === "type") { parts.push(" type"); } parts.push(" *"); if (exported) { parts.push(" as ", print("exported")); } parts.push(printModuleSource(path, options, print), printImportAssertions(path, options, print), semi); return parts; } function shouldExportDeclarationPrintSemi(node, options) { if (!options.semi) { return false; } const { type, declaration } = node; const isDefaultExport = node.default || type === "ExportDefaultDeclaration"; if (!declaration) { return true; } const { type: declarationType } = declaration; if (isDefaultExport && declarationType !== "ClassDeclaration" && declarationType !== "FunctionDeclaration" && declarationType !== "TSInterfaceDeclaration" && declarationType !== "DeclareClass" && declarationType !== "DeclareFunction" && declarationType !== "TSDeclareFunction" && declarationType !== "EnumDeclaration") { return true; } return false; } function printModuleSource(path, options, print) { const node = path.getValue(); if (!node.source) { return ""; } /** @type{Doc[]} */ const parts = []; if (!shouldNotPrintSpecifiers(node, options)) { parts.push(" from"); } parts.push(" ", print("source")); return parts; } function printModuleSpecifiers(path, options, print) { const node = path.getValue(); if (shouldNotPrintSpecifiers(node, options)) { return ""; } /** @type{Doc[]} */ const parts = [" "]; if (isNonEmptyArray$9(node.specifiers)) { const standaloneSpecifiers = []; const groupedSpecifiers = []; path.each(() => { const specifierType = path.getValue().type; if (specifierType === "ExportNamespaceSpecifier" || specifierType === "ExportDefaultSpecifier" || specifierType === "ImportNamespaceSpecifier" || specifierType === "ImportDefaultSpecifier") { standaloneSpecifiers.push(print()); } else if (specifierType === "ExportSpecifier" || specifierType === "ImportSpecifier") { groupedSpecifiers.push(print()); } else { /* istanbul ignore next */ throw new Error(`Unknown specifier type ${JSON.stringify(specifierType)}`); } }, "specifiers"); parts.push(join$f(", ", standaloneSpecifiers)); if (groupedSpecifiers.length > 0) { if (standaloneSpecifiers.length > 0) { parts.push(", "); } const canBreak = groupedSpecifiers.length > 1 || standaloneSpecifiers.length > 0 || node.specifiers.some(node => hasComment$4(node)); if (canBreak) { parts.push(group$j(["{", indent$e([options.bracketSpacing ? line$i : softline$f, join$f([",", line$i], groupedSpecifiers)]), ifBreak$c(shouldPrintComma$4(options) ? "," : ""), options.bracketSpacing ? line$i : softline$f, "}"])); } else { parts.push(["{", options.bracketSpacing ? " " : "", ...groupedSpecifiers, options.bracketSpacing ? " " : "", "}"]); } } } else { parts.push("{}"); } return parts; } function shouldNotPrintSpecifiers(node, options) { const { type, importKind, source, specifiers } = node; if (type !== "ImportDeclaration" || isNonEmptyArray$9(specifiers) || importKind === "type") { return false; } // TODO: check tokens return !/{\s*}/.test(options.originalText.slice(locStart$l(node), locStart$l(source))); } function printImportAssertions(path, options, print) { const node = path.getNode(); if (isNonEmptyArray$9(node.assertions)) { return [" assert {", options.bracketSpacing ? " " : "", join$f(", ", path.map(print, "assertions")), options.bracketSpacing ? " " : "", "}"]; } return ""; } function printModuleSpecifier$1(path, options, print) { const node = path.getNode(); const { type } = node; /** @type {Doc[]} */ const parts = []; /** @type {"type" | "typeof" | "value"} */ const kind = type === "ImportSpecifier" ? node.importKind : node.exportKind; if (kind && kind !== "value") { parts.push(kind, " "); } const isImport = type.startsWith("Import"); const leftSideProperty = isImport ? "imported" : "local"; const rightSideProperty = isImport ? "local" : "exported"; let left = ""; let right = ""; if (type === "ExportNamespaceSpecifier" || type === "ImportNamespaceSpecifier") { left = "*"; } else if (node[leftSideProperty]) { left = print(leftSideProperty); } if (node[rightSideProperty] && (!node[leftSideProperty] || // import {a as a} from '.' !hasSameLoc(node[leftSideProperty], node[rightSideProperty]))) { right = print(rightSideProperty); } parts.push(left, left && right ? " as " : "", right); return parts; } var module$1 = { printImportDeclaration: printImportDeclaration$1, printExportDeclaration: printExportDeclaration$2, printExportAllDeclaration: printExportAllDeclaration$2, printModuleSpecifier: printModuleSpecifier$1 }; const { printDanglingComments: printDanglingComments$4 } = comments$4; const { builders: { line: line$h, softline: softline$e, group: group$i, indent: indent$d, ifBreak: ifBreak$b, hardline: hardline$m } } = require$$7$3; const { getLast: getLast$a, hasNewlineInRange: hasNewlineInRange$2, hasNewline: hasNewline$3, isNonEmptyArray: isNonEmptyArray$8 } = util$8; const { shouldPrintComma: shouldPrintComma$3, hasComment: hasComment$3, getComments: getComments$1, CommentCheckFlags: CommentCheckFlags$3, isNextLineEmpty: isNextLineEmpty$7 } = utils$5; const { locStart: locStart$k, locEnd: locEnd$j } = loc$6; const { printOptionalToken: printOptionalToken$3, printTypeAnnotation: printTypeAnnotation$2 } = misc$1; const { shouldHugFunctionParameters } = functionParameters; const { shouldHugType } = typeAnnotation; const { printHardlineAfterHeritage: printHardlineAfterHeritage$1 } = _class; /** @typedef {import("../../document").Doc} Doc */ function printObject$3(path, options, print) { const semi = options.semi ? ";" : ""; const node = path.getValue(); let propertiesField; if (node.type === "TSTypeLiteral") { propertiesField = "members"; } else if (node.type === "TSInterfaceBody") { propertiesField = "body"; } else { propertiesField = "properties"; } const isTypeAnnotation = node.type === "ObjectTypeAnnotation"; const fields = [propertiesField]; if (isTypeAnnotation) { fields.push("indexers", "callProperties", "internalSlots"); } const firstProperty = fields.map(field => node[field][0]).sort((a, b) => locStart$k(a) - locStart$k(b))[0]; const parent = path.getParentNode(0); const isFlowInterfaceLikeBody = isTypeAnnotation && parent && (parent.type === "InterfaceDeclaration" || parent.type === "DeclareInterface" || parent.type === "DeclareClass") && path.getName() === "body"; const shouldBreak = node.type === "TSInterfaceBody" || isFlowInterfaceLikeBody || node.type === "ObjectPattern" && parent.type !== "FunctionDeclaration" && parent.type !== "FunctionExpression" && parent.type !== "ArrowFunctionExpression" && parent.type !== "ObjectMethod" && parent.type !== "ClassMethod" && parent.type !== "ClassPrivateMethod" && parent.type !== "AssignmentPattern" && parent.type !== "CatchClause" && node.properties.some(property => property.value && (property.value.type === "ObjectPattern" || property.value.type === "ArrayPattern")) || node.type !== "ObjectPattern" && firstProperty && hasNewlineInRange$2(options.originalText, locStart$k(node), locStart$k(firstProperty)); const separator = isFlowInterfaceLikeBody ? ";" : node.type === "TSInterfaceBody" || node.type === "TSTypeLiteral" ? ifBreak$b(semi, ";") : ","; const leftBrace = node.type === "RecordExpression" ? "#{" : node.exact ? "{|" : "{"; const rightBrace = node.exact ? "|}" : "}"; // Unfortunately, things are grouped together in the ast can be // interleaved in the source code. So we need to reorder them before // printing them. const propsAndLoc = []; for (const field of fields) { path.each(childPath => { const node = childPath.getValue(); propsAndLoc.push({ node, printed: print(), loc: locStart$k(node) }); }, field); } if (fields.length > 1) { propsAndLoc.sort((a, b) => a.loc - b.loc); } /** @type {Doc[]} */ let separatorParts = []; const props = propsAndLoc.map(prop => { const result = [...separatorParts, group$i(prop.printed)]; separatorParts = [separator, line$h]; if ((prop.node.type === "TSPropertySignature" || prop.node.type === "TSMethodSignature" || prop.node.type === "TSConstructSignatureDeclaration") && hasComment$3(prop.node, CommentCheckFlags$3.PrettierIgnore)) { separatorParts.shift(); } if (isNextLineEmpty$7(prop.node, options)) { separatorParts.push(hardline$m); } return result; }); if (node.inexact) { let printed; if (hasComment$3(node, CommentCheckFlags$3.Dangling)) { const hasLineComments = hasComment$3(node, CommentCheckFlags$3.Line); const printedDanglingComments = printDanglingComments$4(path, options, /* sameIndent */ true); printed = [printedDanglingComments, hasLineComments || hasNewline$3(options.originalText, locEnd$j(getLast$a(getComments$1(node)))) ? hardline$m : line$h, "..."]; } else { printed = ["..."]; } props.push([...separatorParts, ...printed]); } const lastElem = getLast$a(node[propertiesField]); const canHaveTrailingSeparator = !(node.inexact || lastElem && lastElem.type === "RestElement" || lastElem && (lastElem.type === "TSPropertySignature" || lastElem.type === "TSCallSignatureDeclaration" || lastElem.type === "TSMethodSignature" || lastElem.type === "TSConstructSignatureDeclaration") && hasComment$3(lastElem, CommentCheckFlags$3.PrettierIgnore)); let content; if (props.length === 0) { if (!hasComment$3(node, CommentCheckFlags$3.Dangling)) { return [leftBrace, rightBrace, printTypeAnnotation$2(path, options, print)]; } content = group$i([leftBrace, printDanglingComments$4(path, options), softline$e, rightBrace, printOptionalToken$3(path), printTypeAnnotation$2(path, options, print)]); } else { content = [isFlowInterfaceLikeBody && isNonEmptyArray$8(node.properties) ? printHardlineAfterHeritage$1(parent) : "", leftBrace, indent$d([options.bracketSpacing ? line$h : softline$e, ...props]), ifBreak$b(canHaveTrailingSeparator && (separator !== "," || shouldPrintComma$3(options)) ? separator : ""), options.bracketSpacing ? line$h : softline$e, rightBrace, printOptionalToken$3(path), printTypeAnnotation$2(path, options, print)]; } // If we inline the object as first argument of the parent, we don't want // to create another group so that the object breaks before the return // type if (path.match(node => node.type === "ObjectPattern" && !node.decorators, (node, name, number) => shouldHugFunctionParameters(node) && (name === "params" || name === "parameters" || name === "this" || name === "rest") && number === 0) || path.match(shouldHugType, (node, name) => name === "typeAnnotation", (node, name) => name === "typeAnnotation", (node, name, number) => shouldHugFunctionParameters(node) && (name === "params" || name === "parameters" || name === "this" || name === "rest") && number === 0) || // Assignment printing logic (printAssignment) is responsible // for adding a group if needed !shouldBreak && path.match(node => node.type === "ObjectPattern", node => node.type === "AssignmentExpression" || node.type === "VariableDeclarator")) { return content; } return group$i(content, { shouldBreak }); } var object$1 = { printObject: printObject$3 }; /** @typedef {import("../../document").Doc} Doc */ const assert$1 = require$$0__default$3["default"]; const { printDanglingComments: printDanglingComments$3 } = comments$4; const { printString: printString$2, printNumber: printNumber$2 } = util$8; const { builders: { hardline: hardline$l, softline: softline$d, group: group$h, indent: indent$c } } = require$$7$3; const { getParentExportDeclaration, isFunctionNotation, isGetterOrSetter, rawText: rawText$1, shouldPrintComma: shouldPrintComma$2 } = utils$5; const { locStart: locStart$j, locEnd: locEnd$i } = loc$6; const { printClass: printClass$1 } = _class; const { printOpaqueType, printTypeAlias: printTypeAlias$1, printIntersectionType: printIntersectionType$1, printUnionType: printUnionType$1, printFunctionType: printFunctionType$1, printTupleType: printTupleType$1, printIndexedAccessType: printIndexedAccessType$1 } = typeAnnotation; const { printInterface: printInterface$1 } = _interface; const { printTypeParameter: printTypeParameter$1, printTypeParameters: printTypeParameters$1 } = typeParameters; const { printExportDeclaration: printExportDeclaration$1, printExportAllDeclaration: printExportAllDeclaration$1 } = module$1; const { printArrayItems: printArrayItems$1 } = array; const { printObject: printObject$2 } = object$1; const { printPropertyKey: printPropertyKey$1 } = property; const { printOptionalToken: printOptionalToken$2, printTypeAnnotation: printTypeAnnotation$1, printRestSpread: printRestSpread$1 } = misc$1; function printFlow$1(path, options, print) { const node = path.getValue(); const semi = options.semi ? ";" : ""; /** @type{Doc[]} */ const parts = []; switch (node.type) { case "DeclareClass": return printFlowDeclaration(path, printClass$1(path, options, print)); case "DeclareFunction": return printFlowDeclaration(path, ["function ", print("id"), node.predicate ? " " : "", print("predicate"), semi]); case "DeclareModule": return printFlowDeclaration(path, ["module ", print("id"), " ", print("body")]); case "DeclareModuleExports": return printFlowDeclaration(path, ["module.exports", ": ", print("typeAnnotation"), semi]); case "DeclareVariable": return printFlowDeclaration(path, ["var ", print("id"), semi]); case "DeclareOpaqueType": return printFlowDeclaration(path, printOpaqueType(path, options, print)); case "DeclareInterface": return printFlowDeclaration(path, printInterface$1(path, options, print)); case "DeclareTypeAlias": return printFlowDeclaration(path, printTypeAlias$1(path, options, print)); case "DeclareExportDeclaration": return printFlowDeclaration(path, printExportDeclaration$1(path, options, print)); case "DeclareExportAllDeclaration": return printFlowDeclaration(path, printExportAllDeclaration$1(path, options, print)); case "OpaqueType": return printOpaqueType(path, options, print); case "TypeAlias": return printTypeAlias$1(path, options, print); case "IntersectionTypeAnnotation": return printIntersectionType$1(path, options, print); case "UnionTypeAnnotation": return printUnionType$1(path, options, print); case "FunctionTypeAnnotation": return printFunctionType$1(path, options, print); case "TupleTypeAnnotation": return printTupleType$1(path, options, print); case "GenericTypeAnnotation": return [print("id"), printTypeParameters$1(path, options, print, "typeParameters")]; case "IndexedAccessType": case "OptionalIndexedAccessType": return printIndexedAccessType$1(path, options, print); // Type Annotations for Facebook Flow, typically stripped out or // transformed away before printing. case "TypeAnnotation": return print("typeAnnotation"); case "TypeParameter": return printTypeParameter$1(path, options, print); case "TypeofTypeAnnotation": return ["typeof ", print("argument")]; case "ExistsTypeAnnotation": return "*"; case "EmptyTypeAnnotation": return "empty"; case "MixedTypeAnnotation": return "mixed"; case "ArrayTypeAnnotation": return [print("elementType"), "[]"]; case "BooleanLiteralTypeAnnotation": return String(node.value); case "EnumDeclaration": return ["enum ", print("id"), " ", print("body")]; case "EnumBooleanBody": case "EnumNumberBody": case "EnumStringBody": case "EnumSymbolBody": { if (node.type === "EnumSymbolBody" || node.explicitType) { let type = null; switch (node.type) { case "EnumBooleanBody": type = "boolean"; break; case "EnumNumberBody": type = "number"; break; case "EnumStringBody": type = "string"; break; case "EnumSymbolBody": type = "symbol"; break; } parts.push("of ", type, " "); } if (node.members.length === 0 && !node.hasUnknownMembers) { parts.push(group$h(["{", printDanglingComments$3(path, options), softline$d, "}"])); } else { const members = node.members.length > 0 ? [hardline$l, printArrayItems$1(path, options, "members", print), node.hasUnknownMembers || shouldPrintComma$2(options) ? "," : ""] : []; parts.push(group$h(["{", indent$c([...members, ...(node.hasUnknownMembers ? [hardline$l, "..."] : [])]), printDanglingComments$3(path, options, /* sameIndent */ true), hardline$l, "}"])); } return parts; } case "EnumBooleanMember": case "EnumNumberMember": case "EnumStringMember": return [print("id"), " = ", typeof node.init === "object" ? print("init") : String(node.init)]; case "EnumDefaultedMember": return print("id"); case "FunctionTypeParam": { const name = node.name ? print("name") : path.getParentNode().this === node ? "this" : ""; return [name, printOptionalToken$2(path), name ? ": " : "", print("typeAnnotation")]; } case "InterfaceDeclaration": case "InterfaceTypeAnnotation": return printInterface$1(path, options, print); case "ClassImplements": case "InterfaceExtends": return [print("id"), print("typeParameters")]; case "NullableTypeAnnotation": return ["?", print("typeAnnotation")]; case "Variance": { const { kind } = node; assert$1.ok(kind === "plus" || kind === "minus"); return kind === "plus" ? "+" : "-"; } case "ObjectTypeCallProperty": if (node.static) { parts.push("static "); } parts.push(print("value")); return parts; case "ObjectTypeIndexer": { return [node.variance ? print("variance") : "", "[", print("id"), node.id ? ": " : "", print("key"), "]: ", print("value")]; } case "ObjectTypeProperty": { let modifier = ""; if (node.proto) { modifier = "proto "; } else if (node.static) { modifier = "static "; } return [modifier, isGetterOrSetter(node) ? node.kind + " " : "", node.variance ? print("variance") : "", printPropertyKey$1(path, options, print), printOptionalToken$2(path), isFunctionNotation(node) ? "" : ": ", print("value")]; } case "ObjectTypeAnnotation": return printObject$2(path, options, print); case "ObjectTypeInternalSlot": return [node.static ? "static " : "", "[[", print("id"), "]]", printOptionalToken$2(path), node.method ? "" : ": ", print("value")]; // Same as `RestElement` case "ObjectTypeSpreadProperty": return printRestSpread$1(path, options, print); case "QualifiedTypeIdentifier": return [print("qualification"), ".", print("id")]; case "StringLiteralTypeAnnotation": return printString$2(rawText$1(node), options); case "NumberLiteralTypeAnnotation": assert$1.strictEqual(typeof node.value, "number"); // fall through case "BigIntLiteralTypeAnnotation": if (node.extra) { return printNumber$2(node.extra.raw); } return printNumber$2(node.raw); case "TypeCastExpression": { return ["(", print("expression"), printTypeAnnotation$1(path, options, print), ")"]; } case "TypeParameterDeclaration": case "TypeParameterInstantiation": { const printed = printTypeParameters$1(path, options, print, "params"); if (options.parser === "flow") { const start = locStart$j(node); const end = locEnd$i(node); const commentStartIndex = options.originalText.lastIndexOf("/*", start); const commentEndIndex = options.originalText.indexOf("*/", end); if (commentStartIndex !== -1 && commentEndIndex !== -1) { const comment = options.originalText.slice(commentStartIndex + 2, commentEndIndex).trim(); if (comment.startsWith("::") && !comment.includes("/*") && !comment.includes("*/")) { return ["/*:: ", printed, " */"]; } } } return printed; } case "InferredPredicate": return "%checks"; // Unhandled types below. If encountered, nodes of these types should // be either left alone or desugared into AST types that are fully // supported by the pretty-printer. case "DeclaredPredicate": return ["%checks(", print("value"), ")"]; case "AnyTypeAnnotation": return "any"; case "BooleanTypeAnnotation": return "boolean"; case "BigIntTypeAnnotation": return "bigint"; case "NullLiteralTypeAnnotation": return "null"; case "NumberTypeAnnotation": return "number"; case "SymbolTypeAnnotation": return "symbol"; case "StringTypeAnnotation": return "string"; case "VoidTypeAnnotation": return "void"; case "ThisTypeAnnotation": return "this"; // These types are unprintable because they serve as abstract // supertypes for other (printable) types. case "Node": case "Printable": case "SourceLocation": case "Position": case "Statement": case "Function": case "Pattern": case "Expression": case "Declaration": case "Specifier": case "NamedSpecifier": case "Comment": case "MemberTypeAnnotation": // Flow case "Type": /* istanbul ignore next */ throw new Error("unprintable type: " + JSON.stringify(node.type)); } } function printFlowDeclaration(path, printed) { const parentExportDecl = getParentExportDeclaration(path); if (parentExportDecl) { assert$1.strictEqual(parentExportDecl.type, "DeclareExportDeclaration"); return printed; } // If the parent node has type DeclareExportDeclaration, then it // will be responsible for printing the "declare" token. Otherwise // it needs to be printed with this non-exported declaration node. return ["declare ", printed]; } var flow = { printFlow: printFlow$1 }; const { hasNewlineInRange: hasNewlineInRange$1 } = util$8; const { isJsxNode: isJsxNode$1, isBlockComment: isBlockComment$2, getComments, isCallExpression: isCallExpression$2, isMemberExpression: isMemberExpression$2 } = utils$5; const { locStart: locStart$i, locEnd: locEnd$h } = loc$6; const { builders: { line: line$g, softline: softline$c, group: group$g, indent: indent$b, align: align$2, ifBreak: ifBreak$a, dedent: dedent$3, breakParent: breakParent$6 } } = require$$7$3; /** * @typedef {import("../../document").Doc} Doc * @typedef {import("../../common/ast-path")} AstPath * * @typedef {any} Options - Prettier options (TBD ...) */ // If we have nested conditional expressions, we want to print them in JSX mode // if there's at least one JSXElement somewhere in the tree. // // A conditional expression chain like this should be printed in normal mode, // because there aren't JSXElements anywhere in it: // // isA ? "A" : isB ? "B" : isC ? "C" : "Unknown"; // // But a conditional expression chain like this should be printed in JSX mode, // because there is a JSXElement in the last ConditionalExpression: // // isA ? "A" : isB ? "B" : isC ? "C" : Unknown; // // This type of ConditionalExpression chain is structured like this in the AST: // // ConditionalExpression { // test: ..., // consequent: ..., // alternate: ConditionalExpression { // test: ..., // consequent: ..., // alternate: ConditionalExpression { // test: ..., // consequent: ..., // alternate: ..., // } // } // } function conditionalExpressionChainContainsJsx(node) { // Given this code: // // // Using a ConditionalExpression as the consequent is uncommon, but should // // be handled. // A ? B : C ? D : E ? F ? G : H : I // // which has this AST: // // ConditionalExpression { // test: Identifier(A), // consequent: Identifier(B), // alternate: ConditionalExpression { // test: Identifier(C), // consequent: Identifier(D), // alternate: ConditionalExpression { // test: Identifier(E), // consequent: ConditionalExpression { // test: Identifier(F), // consequent: Identifier(G), // alternate: Identifier(H), // }, // alternate: Identifier(I), // } // } // } // // We don't care about whether each node was the test, consequent, or alternate // We are only checking if there's any JSXElements inside. const conditionalExpressions = [node]; for (let index = 0; index < conditionalExpressions.length; index++) { const conditionalExpression = conditionalExpressions[index]; for (const property of ["test", "consequent", "alternate"]) { const node = conditionalExpression[property]; if (isJsxNode$1(node)) { return true; } if (node.type === "ConditionalExpression") { conditionalExpressions.push(node); } } } return false; } function printTernaryTest(path, options, print) { const node = path.getValue(); const isConditionalExpression = node.type === "ConditionalExpression"; const alternateNodePropertyName = isConditionalExpression ? "alternate" : "falseType"; const parent = path.getParentNode(); const printed = isConditionalExpression ? print("test") : [print("checkType"), " ", "extends", " ", print("extendsType")]; /** * a * ? b * : multiline * test * node * ^^ align(2) * ? d * : e */ if (parent.type === node.type && parent[alternateNodePropertyName] === node) { return align$2(2, printed); } return printed; } const ancestorNameMap = new Map([["AssignmentExpression", "right"], ["VariableDeclarator", "init"], ["ReturnStatement", "argument"], ["ThrowStatement", "argument"], ["UnaryExpression", "argument"], ["YieldExpression", "argument"]]); function shouldExtraIndentForConditionalExpression(path) { const node = path.getValue(); if (node.type !== "ConditionalExpression") { return false; } let parent; let child = node; for (let ancestorCount = 0; !parent; ancestorCount++) { const node = path.getParentNode(ancestorCount); if (isCallExpression$2(node) && node.callee === child || isMemberExpression$2(node) && node.object === child || node.type === "TSNonNullExpression" && node.expression === child) { child = node; continue; } // Reached chain root if (node.type === "NewExpression" && node.callee === child || node.type === "TSAsExpression" && node.expression === child) { parent = path.getParentNode(ancestorCount + 1); child = node; } else { parent = node; } } // Do not add indent to direct `ConditionalExpression` if (child === node) { return false; } return parent[ancestorNameMap.get(parent.type)] === child; } /** * The following is the shared logic for * ternary operators, namely ConditionalExpression * and TSConditionalType * @param {AstPath} path - The path to the ConditionalExpression/TSConditionalType node. * @param {Options} options - Prettier options * @param {Function} print - Print function to call recursively * @returns {Doc} */ function printTernary$2(path, options, print) { const node = path.getValue(); const isConditionalExpression = node.type === "ConditionalExpression"; const consequentNodePropertyName = isConditionalExpression ? "consequent" : "trueType"; const alternateNodePropertyName = isConditionalExpression ? "alternate" : "falseType"; const testNodePropertyNames = isConditionalExpression ? ["test"] : ["checkType", "extendsType"]; const consequentNode = node[consequentNodePropertyName]; const alternateNode = node[alternateNodePropertyName]; const parts = []; // We print a ConditionalExpression in either "JSX mode" or "normal mode". // See `tests/format/jsx/conditional-expression.js` for more info. let jsxMode = false; const parent = path.getParentNode(); const isParentTest = parent.type === node.type && testNodePropertyNames.some(prop => parent[prop] === node); let forceNoIndent = parent.type === node.type && !isParentTest; // Find the outermost non-ConditionalExpression parent, and the outermost // ConditionalExpression parent. We'll use these to determine if we should // print in JSX mode. let currentParent; let previousParent; let i = 0; do { previousParent = currentParent || node; currentParent = path.getParentNode(i); i++; } while (currentParent && currentParent.type === node.type && testNodePropertyNames.every(prop => currentParent[prop] !== previousParent)); const firstNonConditionalParent = currentParent || parent; const lastConditionalParent = previousParent; if (isConditionalExpression && (isJsxNode$1(node[testNodePropertyNames[0]]) || isJsxNode$1(consequentNode) || isJsxNode$1(alternateNode) || conditionalExpressionChainContainsJsx(lastConditionalParent))) { jsxMode = true; forceNoIndent = true; // Even though they don't need parens, we wrap (almost) everything in // parens when using ?: within JSX, because the parens are analogous to // curly braces in an if statement. const wrap = doc => [ifBreak$a("("), indent$b([softline$c, doc]), softline$c, ifBreak$a(")")]; // The only things we don't wrap are: // * Nested conditional expressions in alternates // * null // * undefined const isNil = node => node.type === "NullLiteral" || node.type === "Literal" && node.value === null || node.type === "Identifier" && node.name === "undefined"; parts.push(" ? ", isNil(consequentNode) ? print(consequentNodePropertyName) : wrap(print(consequentNodePropertyName)), " : ", alternateNode.type === node.type || isNil(alternateNode) ? print(alternateNodePropertyName) : wrap(print(alternateNodePropertyName))); } else { // normal mode const part = [line$g, "? ", consequentNode.type === node.type ? ifBreak$a("", "(") : "", align$2(2, print(consequentNodePropertyName)), consequentNode.type === node.type ? ifBreak$a("", ")") : "", line$g, ": ", alternateNode.type === node.type ? print(alternateNodePropertyName) : align$2(2, print(alternateNodePropertyName))]; parts.push(parent.type !== node.type || parent[alternateNodePropertyName] === node || isParentTest ? part : options.useTabs ? dedent$3(indent$b(part)) : align$2(Math.max(0, options.tabWidth - 2), part)); } // We want a whole chain of ConditionalExpressions to all // break if any of them break. That means we should only group around the // outer-most ConditionalExpression. const comments = [...testNodePropertyNames.map(propertyName => getComments(node[propertyName])), getComments(consequentNode), getComments(alternateNode)].flat(); const shouldBreak = comments.some(comment => isBlockComment$2(comment) && hasNewlineInRange$1(options.originalText, locStart$i(comment), locEnd$h(comment))); const maybeGroup = doc => parent === firstNonConditionalParent ? group$g(doc, { shouldBreak }) : shouldBreak ? [doc, breakParent$6] : doc; // Break the closing paren to keep the chain right after it: // (a // ? b // : c // ).call() const breakClosingParen = !jsxMode && (isMemberExpression$2(parent) || parent.type === "NGPipeExpression" && parent.left === node) && !parent.computed; const shouldExtraIndent = shouldExtraIndentForConditionalExpression(path); const result = maybeGroup([printTernaryTest(path, options, print), forceNoIndent ? parts : indent$b(parts), isConditionalExpression && breakClosingParen && !shouldExtraIndent ? softline$c : ""]); return isParentTest || shouldExtraIndent ? group$g([indent$b([softline$c, result]), softline$c]) : result; } var ternary = { printTernary: printTernary$2 }; const { builders: { hardline: hardline$k } } = require$$7$3; const pathNeedsParens$1 = needsParens_1; const { getLeftSidePathName, hasNakedLeftSide, isJsxNode, isTheOnlyJsxElementInMarkdown: isTheOnlyJsxElementInMarkdown$1, hasComment: hasComment$2, CommentCheckFlags: CommentCheckFlags$2, isNextLineEmpty: isNextLineEmpty$6 } = utils$5; const { shouldPrintParamsWithoutParens } = _function; /** * @typedef {import("../../document").Doc} Doc * @typedef {import("../../common/ast-path")} AstPath */ function printStatementSequence(path, options, print, property) { const node = path.getValue(); const parts = []; const isClassBody = node.type === "ClassBody"; const lastStatement = getLastStatement(node[property]); path.each((path, index, statements) => { const node = path.getValue(); // Skip printing EmptyStatement nodes to avoid leaving stray // semicolons lying around. if (node.type === "EmptyStatement") { return; } const printed = print(); // in no-semi mode, prepend statement with semicolon if it might break ASI // don't prepend the only JSX element in a program with semicolon if (!options.semi && !isClassBody && !isTheOnlyJsxElementInMarkdown$1(options, path) && statementNeedsASIProtection(path, options)) { if (hasComment$2(node, CommentCheckFlags$2.Leading)) { parts.push(print([], { needsSemi: true })); } else { parts.push(";", printed); } } else { parts.push(printed); } if (!options.semi && isClassBody && isClassProperty(node) && // `ClassBody` don't allow `EmptyStatement`, // so we can use `statements` to get next node shouldPrintSemicolonAfterClassProperty(node, statements[index + 1])) { parts.push(";"); } if (node !== lastStatement) { parts.push(hardline$k); if (isNextLineEmpty$6(node, options)) { parts.push(hardline$k); } } }, property); return parts; } function getLastStatement(statements) { for (let i = statements.length - 1; i >= 0; i--) { const statement = statements[i]; if (statement.type !== "EmptyStatement") { return statement; } } } function statementNeedsASIProtection(path, options) { const node = path.getNode(); if (node.type !== "ExpressionStatement") { return false; } return path.call(childPath => expressionNeedsASIProtection(childPath, options), "expression"); } function expressionNeedsASIProtection(path, options) { const node = path.getValue(); switch (node.type) { case "ParenthesizedExpression": case "TypeCastExpression": case "ArrayExpression": case "ArrayPattern": case "TemplateLiteral": case "TemplateElement": case "RegExpLiteral": return true; case "ArrowFunctionExpression": { if (!shouldPrintParamsWithoutParens(path, options)) { return true; } break; } case "UnaryExpression": { const { prefix, operator } = node; if (prefix && (operator === "+" || operator === "-")) { return true; } break; } case "BindExpression": { if (!node.object) { return true; } break; } case "Literal": { if (node.regex) { return true; } break; } default: { if (isJsxNode(node)) { return true; } } } if (pathNeedsParens$1(path, options)) { return true; } if (!hasNakedLeftSide(node)) { return false; } return path.call(childPath => expressionNeedsASIProtection(childPath, options), ...getLeftSidePathName(path, node)); } function printBody$1(path, options, print) { return printStatementSequence(path, options, print, "body"); } function printSwitchCaseConsequent$1(path, options, print) { return printStatementSequence(path, options, print, "consequent"); } const isClassProperty = ({ type }) => type === "ClassProperty" || type === "PropertyDefinition" || type === "ClassPrivateProperty"; /** * @returns {boolean} */ function shouldPrintSemicolonAfterClassProperty(node, nextNode) { const name = node.key && node.key.name; // this isn't actually possible yet with most parsers available today // so isn't properly tested yet. if ((name === "static" || name === "get" || name === "set") && !node.value && !node.typeAnnotation) { return true; } if (!nextNode) { return false; } if (nextNode.static || nextNode.accessibility // TypeScript ) { return false; } if (!nextNode.computed) { const name = nextNode.key && nextNode.key.name; if (name === "in" || name === "instanceof") { return true; } } // Flow variance sigil +/- requires semi if there's no // "declare" or "static" keyword before it. if (isClassProperty(nextNode) && nextNode.variance && !nextNode.static && !nextNode.declare) { return true; } switch (nextNode.type) { case "ClassProperty": case "PropertyDefinition": case "TSAbstractPropertyDefinition": return nextNode.computed; case "MethodDefinition": // Flow case "TSAbstractMethodDefinition": // TypeScript case "ClassMethod": case "ClassPrivateMethod": { // Babel const isAsync = nextNode.value ? nextNode.value.async : nextNode.async; if (isAsync || nextNode.kind === "get" || nextNode.kind === "set") { return false; } const isGenerator = nextNode.value ? nextNode.value.generator : nextNode.generator; if (nextNode.computed || isGenerator) { return true; } return false; } case "TSIndexSignature": return true; } /* istanbul ignore next */ return false; } var statement = { printBody: printBody$1, printSwitchCaseConsequent: printSwitchCaseConsequent$1 }; const { printDanglingComments: printDanglingComments$2 } = comments$4; const { isNonEmptyArray: isNonEmptyArray$7 } = util$8; const { builders: { hardline: hardline$j, indent: indent$a } } = require$$7$3; const { hasComment: hasComment$1, CommentCheckFlags: CommentCheckFlags$1, isNextLineEmpty: isNextLineEmpty$5 } = utils$5; const { printHardlineAfterHeritage } = _class; const { printBody } = statement; /** @typedef {import("../../document").Doc} Doc */ function printBlock$4(path, options, print) { const node = path.getValue(); const parts = []; if (node.type === "StaticBlock") { parts.push("static "); } if (node.type === "ClassBody" && isNonEmptyArray$7(node.body)) { const parent = path.getParentNode(); parts.push(printHardlineAfterHeritage(parent)); } parts.push("{"); const printed = printBlockBody$1(path, options, print); if (printed) { parts.push(indent$a([hardline$j, printed]), hardline$j); } else { const parent = path.getParentNode(); const parentParent = path.getParentNode(1); if (!(parent.type === "ArrowFunctionExpression" || parent.type === "FunctionExpression" || parent.type === "FunctionDeclaration" || parent.type === "ObjectMethod" || parent.type === "ClassMethod" || parent.type === "ClassPrivateMethod" || parent.type === "ForStatement" || parent.type === "WhileStatement" || parent.type === "DoWhileStatement" || parent.type === "DoExpression" || parent.type === "CatchClause" && !parentParent.finalizer || parent.type === "TSModuleDeclaration" || parent.type === "TSDeclareFunction" || node.type === "StaticBlock" || node.type === "ClassBody")) { parts.push(hardline$j); } } parts.push("}"); return parts; } function printBlockBody$1(path, options, print) { const node = path.getValue(); const nodeHasDirectives = isNonEmptyArray$7(node.directives); const nodeHasBody = node.body.some(node => node.type !== "EmptyStatement"); const nodeHasComment = hasComment$1(node, CommentCheckFlags$1.Dangling); if (!nodeHasDirectives && !nodeHasBody && !nodeHasComment) { return ""; } const parts = []; // Babel 6 if (nodeHasDirectives) { path.each((childPath, index, directives) => { parts.push(print()); if (index < directives.length - 1 || nodeHasBody || nodeHasComment) { parts.push(hardline$j); if (isNextLineEmpty$5(childPath.getValue(), options)) { parts.push(hardline$j); } } }, "directives"); } if (nodeHasBody) { parts.push(printBody(path, options, print)); } if (nodeHasComment) { parts.push(printDanglingComments$2(path, options, /* sameIndent */ true)); } if (node.type === "Program") { const parent = path.getParentNode(); if (!parent || parent.type !== "ModuleExpression") { parts.push(hardline$j); } } return parts; } var block$1 = { printBlock: printBlock$4, printBlockBody: printBlockBody$1 }; const { printDanglingComments: printDanglingComments$1 } = comments$4; const { hasNewlineInRange } = util$8; const { builders: { join: join$e, line: line$f, hardline: hardline$i, softline: softline$b, group: group$f, indent: indent$9, conditionalGroup: conditionalGroup$1, ifBreak: ifBreak$9 } } = require$$7$3; const { isLiteral, getTypeScriptMappedTypeModifier, shouldPrintComma: shouldPrintComma$1, isCallExpression: isCallExpression$1, isMemberExpression: isMemberExpression$1 } = utils$5; const { locStart: locStart$h, locEnd: locEnd$g } = loc$6; const { printOptionalToken: printOptionalToken$1, printTypeScriptModifiers } = misc$1; const { printTernary: printTernary$1 } = ternary; const { printFunctionParameters, shouldGroupFunctionParameters } = functionParameters; const { printTemplateLiteral: printTemplateLiteral$1 } = templateLiteral; const { printArrayItems } = array; const { printObject: printObject$1 } = object$1; const { printClassProperty: printClassProperty$1, printClassMethod: printClassMethod$1 } = _class; const { printTypeParameter, printTypeParameters } = typeParameters; const { printPropertyKey } = property; const { printFunction: printFunction$1, printMethodInternal } = _function; const { printInterface } = _interface; const { printBlock: printBlock$3 } = block$1; const { printTypeAlias, printIntersectionType, printUnionType, printFunctionType, printTupleType, printIndexedAccessType } = typeAnnotation; function printTypescript$1(path, options, print) { const node = path.getValue(); // TypeScript nodes always starts with `TS` if (!node.type.startsWith("TS")) { return; } if (node.type.endsWith("Keyword")) { return node.type.slice(2, -7).toLowerCase(); } const semi = options.semi ? ";" : ""; const parts = []; switch (node.type) { case "TSThisType": return "this"; case "TSTypeAssertion": { const shouldBreakAfterCast = !(node.expression.type === "ArrayExpression" || node.expression.type === "ObjectExpression"); const castGroup = group$f(["<", indent$9([softline$b, print("typeAnnotation")]), softline$b, ">"]); const exprContents = [ifBreak$9("("), indent$9([softline$b, print("expression")]), softline$b, ifBreak$9(")")]; if (shouldBreakAfterCast) { return conditionalGroup$1([[castGroup, print("expression")], [castGroup, group$f(exprContents, { shouldBreak: true })], [castGroup, print("expression")]]); } return group$f([castGroup, print("expression")]); } case "TSDeclareFunction": return printFunction$1(path, print, options); case "TSExportAssignment": return ["export = ", print("expression"), semi]; case "TSModuleBlock": return printBlock$3(path, options, print); case "TSInterfaceBody": case "TSTypeLiteral": return printObject$1(path, options, print); case "TSTypeAliasDeclaration": return printTypeAlias(path, options, print); case "TSQualifiedName": return join$e(".", [print("left"), print("right")]); case "TSAbstractMethodDefinition": case "TSDeclareMethod": return printClassMethod$1(path, options, print); case "TSAbstractPropertyDefinition": return printClassProperty$1(path, options, print); case "TSInterfaceHeritage": case "TSExpressionWithTypeArguments": // Babel AST parts.push(print("expression")); if (node.typeParameters) { parts.push(print("typeParameters")); } return parts; case "TSTemplateLiteralType": return printTemplateLiteral$1(path, print, options); case "TSNamedTupleMember": return [print("label"), node.optional ? "?" : "", ": ", print("elementType")]; case "TSRestType": return ["...", print("typeAnnotation")]; case "TSOptionalType": return [print("typeAnnotation"), "?"]; case "TSInterfaceDeclaration": return printInterface(path, options, print); case "TSClassImplements": return [print("expression"), print("typeParameters")]; case "TSTypeParameterDeclaration": case "TSTypeParameterInstantiation": return printTypeParameters(path, options, print, "params"); case "TSTypeParameter": return printTypeParameter(path, options, print); case "TSAsExpression": { parts.push(print("expression"), " as ", print("typeAnnotation")); const parent = path.getParentNode(); if (isCallExpression$1(parent) && parent.callee === node || isMemberExpression$1(parent) && parent.object === node) { return group$f([indent$9([softline$b, ...parts]), softline$b]); } return parts; } case "TSArrayType": return [print("elementType"), "[]"]; case "TSPropertySignature": { if (node.readonly) { parts.push("readonly "); } parts.push(printPropertyKey(path, options, print), printOptionalToken$1(path)); if (node.typeAnnotation) { parts.push(": ", print("typeAnnotation")); } // This isn't valid semantically, but it's in the AST so we can print it. if (node.initializer) { parts.push(" = ", print("initializer")); } return parts; } case "TSParameterProperty": if (node.accessibility) { parts.push(node.accessibility + " "); } if (node.export) { parts.push("export "); } if (node.static) { parts.push("static "); } if (node.override) { parts.push("override "); } if (node.readonly) { parts.push("readonly "); } parts.push(print("parameter")); return parts; case "TSTypeQuery": return ["typeof ", print("exprName")]; case "TSIndexSignature": { const parent = path.getParentNode(); // The typescript parser accepts multiple parameters here. If you're // using them, it makes sense to have a trailing comma. But if you // aren't, this is more like a computed property name than an array. // So we leave off the trailing comma when there's just one parameter. const trailingComma = node.parameters.length > 1 ? ifBreak$9(shouldPrintComma$1(options) ? "," : "") : ""; const parametersGroup = group$f([indent$9([softline$b, join$e([", ", softline$b], path.map(print, "parameters"))]), trailingComma, softline$b]); return [node.export ? "export " : "", node.accessibility ? [node.accessibility, " "] : "", node.static ? "static " : "", node.readonly ? "readonly " : "", node.declare ? "declare " : "", "[", node.parameters ? parametersGroup : "", node.typeAnnotation ? "]: " : "]", node.typeAnnotation ? print("typeAnnotation") : "", parent.type === "ClassBody" ? semi : ""]; } case "TSTypePredicate": return [node.asserts ? "asserts " : "", print("parameterName"), node.typeAnnotation ? [" is ", print("typeAnnotation")] : ""]; case "TSNonNullExpression": return [print("expression"), "!"]; case "TSImportType": return [!node.isTypeOf ? "" : "typeof ", "import(", print(node.parameter ? "parameter" : "argument"), ")", !node.qualifier ? "" : [".", print("qualifier")], printTypeParameters(path, options, print, "typeParameters")]; case "TSLiteralType": return print("literal"); case "TSIndexedAccessType": return printIndexedAccessType(path, options, print); case "TSConstructSignatureDeclaration": case "TSCallSignatureDeclaration": case "TSConstructorType": { if (node.type === "TSConstructorType" && node.abstract) { parts.push("abstract "); } if (node.type !== "TSCallSignatureDeclaration") { parts.push("new "); } parts.push(group$f(printFunctionParameters(path, print, options, /* expandArg */ false, /* printTypeParams */ true))); if (node.returnType || node.typeAnnotation) { const isType = node.type === "TSConstructorType"; parts.push(isType ? " => " : ": ", print("returnType"), print("typeAnnotation")); } return parts; } case "TSTypeOperator": return [node.operator, " ", print("typeAnnotation")]; case "TSMappedType": { const shouldBreak = hasNewlineInRange(options.originalText, locStart$h(node), locEnd$g(node)); return group$f(["{", indent$9([options.bracketSpacing ? line$f : softline$b, node.readonly ? [getTypeScriptMappedTypeModifier(node.readonly, "readonly"), " "] : "", printTypeScriptModifiers(path, options, print), print("typeParameter"), node.optional ? getTypeScriptMappedTypeModifier(node.optional, "?") : "", node.typeAnnotation ? ": " : "", print("typeAnnotation"), ifBreak$9(semi)]), printDanglingComments$1(path, options, /* sameIndent */ true), options.bracketSpacing ? line$f : softline$b, "}"], { shouldBreak }); } case "TSMethodSignature": { const kind = node.kind && node.kind !== "method" ? `${node.kind} ` : ""; parts.push(node.accessibility ? [node.accessibility, " "] : "", kind, node.export ? "export " : "", node.static ? "static " : "", node.readonly ? "readonly " : "", // "abstract" and "declare" are supported by only "babel-ts" // https://github.com/prettier/prettier/issues/9760 node.abstract ? "abstract " : "", node.declare ? "declare " : "", node.computed ? "[" : "", print("key"), node.computed ? "]" : "", printOptionalToken$1(path)); const parametersDoc = printFunctionParameters(path, print, options, /* expandArg */ false, /* printTypeParams */ true); const returnTypePropertyName = node.returnType ? "returnType" : "typeAnnotation"; const returnTypeNode = node[returnTypePropertyName]; const returnTypeDoc = returnTypeNode ? print(returnTypePropertyName) : ""; const shouldGroupParameters = shouldGroupFunctionParameters(node, returnTypeDoc); parts.push(shouldGroupParameters ? group$f(parametersDoc) : parametersDoc); if (returnTypeNode) { parts.push(": ", group$f(returnTypeDoc)); } return group$f(parts); } case "TSNamespaceExportDeclaration": parts.push("export as namespace ", print("id")); if (options.semi) { parts.push(";"); } return group$f(parts); case "TSEnumDeclaration": if (node.declare) { parts.push("declare "); } if (node.modifiers) { parts.push(printTypeScriptModifiers(path, options, print)); } if (node.const) { parts.push("const "); } parts.push("enum ", print("id"), " "); if (node.members.length === 0) { parts.push(group$f(["{", printDanglingComments$1(path, options), softline$b, "}"])); } else { parts.push(group$f(["{", indent$9([hardline$i, printArrayItems(path, options, "members", print), shouldPrintComma$1(options, "es5") ? "," : ""]), printDanglingComments$1(path, options, /* sameIndent */ true), hardline$i, "}"])); } return parts; case "TSEnumMember": parts.push(print("id")); if (node.initializer) { parts.push(" = ", print("initializer")); } return parts; case "TSImportEqualsDeclaration": if (node.isExport) { parts.push("export "); } parts.push("import "); if (node.importKind && node.importKind !== "value") { parts.push(node.importKind, " "); } parts.push(print("id"), " = ", print("moduleReference")); if (options.semi) { parts.push(";"); } return group$f(parts); case "TSExternalModuleReference": return ["require(", print("expression"), ")"]; case "TSModuleDeclaration": { const parent = path.getParentNode(); const isExternalModule = isLiteral(node.id); const parentIsDeclaration = parent.type === "TSModuleDeclaration"; const bodyIsDeclaration = node.body && node.body.type === "TSModuleDeclaration"; if (parentIsDeclaration) { parts.push("."); } else { if (node.declare) { parts.push("declare "); } parts.push(printTypeScriptModifiers(path, options, print)); const textBetweenNodeAndItsId = options.originalText.slice(locStart$h(node), locStart$h(node.id)); // Global declaration looks like this: // (declare)? global { ... } const isGlobalDeclaration = node.id.type === "Identifier" && node.id.name === "global" && !/namespace|module/.test(textBetweenNodeAndItsId); if (!isGlobalDeclaration) { parts.push(isExternalModule || /(?:^|\s)module(?:\s|$)/.test(textBetweenNodeAndItsId) ? "module " : "namespace "); } } parts.push(print("id")); if (bodyIsDeclaration) { parts.push(print("body")); } else if (node.body) { parts.push(" ", group$f(print("body"))); } else { parts.push(semi); } return parts; } case "TSConditionalType": return printTernary$1(path, options, print); case "TSInferType": return ["infer", " ", print("typeParameter")]; case "TSIntersectionType": return printIntersectionType(path, options, print); case "TSUnionType": return printUnionType(path, options, print); case "TSFunctionType": return printFunctionType(path, options, print); case "TSTupleType": return printTupleType(path, options, print); case "TSTypeReference": return [print("typeName"), printTypeParameters(path, options, print, "typeParameters")]; case "TSTypeAnnotation": return print("typeAnnotation"); case "TSEmptyBodyFunctionExpression": return printMethodInternal(path, options, print); // These are not valid TypeScript. Printing them just for the sake of error recovery. case "TSJSDocAllType": return "*"; case "TSJSDocUnknownType": return "?"; case "TSJSDocNullableType": return ["?", print("typeAnnotation")]; case "TSJSDocNonNullableType": return ["!", print("typeAnnotation")]; default: /* istanbul ignore next */ throw new Error(`Unknown TypeScript node type: ${JSON.stringify(node.type)}.`); } } var typescript = { printTypescript: printTypescript$1 }; const { hasNewline: hasNewline$2 } = util$8; const { builders: { join: join$d, hardline: hardline$h }, utils: { replaceTextEndOfLine: replaceTextEndOfLine$a } } = require$$7$3; const { isLineComment: isLineComment$1, isBlockComment: isBlockComment$1 } = utils$5; const { locStart: locStart$g, locEnd: locEnd$f } = loc$6; function printComment$2(commentPath, options) { const comment = commentPath.getValue(); if (isLineComment$1(comment)) { // Supports `//`, `#!`, `` return options.originalText.slice(locStart$g(comment), locEnd$f(comment)).trimEnd(); } if (isBlockComment$1(comment)) { if (isIndentableBlockComment(comment)) { const printed = printIndentableBlockComment(comment); // We need to prevent an edge case of a previous trailing comment // printed as a `lineSuffix` which causes the comments to be // interleaved. See https://github.com/prettier/prettier/issues/4412 if (comment.trailing && !hasNewline$2(options.originalText, locStart$g(comment), { backwards: true })) { return [hardline$h, printed]; } return printed; } const commentEnd = locEnd$f(comment); const isInsideFlowComment = options.originalText.slice(commentEnd - 3, commentEnd) === "*-/"; return ["/*", replaceTextEndOfLine$a(comment.value), isInsideFlowComment ? "*-/" : "*/"]; } /* istanbul ignore next */ throw new Error("Not a comment: " + JSON.stringify(comment)); } function isIndentableBlockComment(comment) { // If the comment has multiple lines and every line starts with a star // we can fix the indentation of each line. The stars in the `/*` and // `*/` delimiters are not included in the comment value, so add them // back first. const lines = `*${comment.value}*`.split("\n"); return lines.length > 1 && lines.every(line => line.trim()[0] === "*"); } function printIndentableBlockComment(comment) { const lines = comment.value.split("\n"); return ["/*", join$d(hardline$h, lines.map((line, index) => index === 0 ? line.trimEnd() : " " + (index < lines.length - 1 ? line.trim() : line.trimStart()))), "*/"]; } var comment = { printComment: printComment$2 }; const { printString: printString$1, printNumber: printNumber$1 } = util$8; function printLiteral$1(path, options /*, print*/ ) { const node = path.getNode(); switch (node.type) { case "RegExpLiteral": // Babel 6 Literal split return printRegex(node); case "BigIntLiteral": // babel: node.extra.raw, flow: node.bigint return printBigInt(node.bigint || node.extra.raw); case "NumericLiteral": // Babel 6 Literal split return printNumber$1(node.extra.raw); case "StringLiteral": // Babel 6 Literal split return printString$1(node.extra.raw, options); case "NullLiteral": // Babel 6 Literal split return "null"; case "BooleanLiteral": // Babel 6 Literal split return String(node.value); case "DecimalLiteral": return printNumber$1(node.value) + "m"; case "Literal": { if (node.regex) { return printRegex(node.regex); } if (node.bigint) { return printBigInt(node.raw); } if (node.decimal) { return printNumber$1(node.decimal) + "m"; } const { value } = node; if (typeof value === "number") { return printNumber$1(node.raw); } if (typeof value === "string") { return printString$1(node.raw, options); } return String(value); } } } function printBigInt(raw) { return raw.toLowerCase(); } function printRegex({ pattern, flags }) { flags = [...flags].sort().join(""); return `/${pattern}/${flags}`; } var literal = { printLiteral: printLiteral$1 }; /** @typedef {import("../document").Doc} Doc */ // TODO(azz): anything that imports from main shouldn't be in a `language-*` dir. const { printDanglingComments } = comments$4; const { hasNewline: hasNewline$1 } = util$8; const { builders: { join: join$c, line: line$e, hardline: hardline$g, softline: softline$a, group: group$e, indent: indent$8 }, utils: { replaceTextEndOfLine: replaceTextEndOfLine$9 } } = require$$7$3; const embed$9 = embed_1$4; const clean$b = clean_1$4; const { insertPragma: insertPragma$9 } = pragma$5; const handleComments = comments; const pathNeedsParens = needsParens_1; const preprocess$7 = printPreprocess$3; const { hasFlowShorthandAnnotationComment, hasComment, CommentCheckFlags, isTheOnlyJsxElementInMarkdown, isBlockComment, isLineComment, isNextLineEmpty: isNextLineEmpty$4, needsHardlineAfterDanglingComment, rawText, hasIgnoreComment, isCallExpression, isMemberExpression } = utils$5; const { locStart: locStart$f, locEnd: locEnd$e } = loc$6; const { printHtmlBinding, isVueEventBindingExpression: isVueEventBindingExpression$2 } = htmlBinding; const { printAngular } = angular; const { printJsx, hasJsxIgnoreComment } = jsx; const { printFlow } = flow; const { printTypescript } = typescript; const { printOptionalToken, printBindExpressionCallee, printTypeAnnotation, adjustClause, printRestSpread } = misc$1; const { printImportDeclaration, printExportDeclaration, printExportAllDeclaration, printModuleSpecifier } = module$1; const { printTernary } = ternary; const { printTemplateLiteral } = templateLiteral; const { printArray } = array; const { printObject } = object$1; const { printClass, printClassMethod, printClassProperty } = _class; const { printProperty } = property; const { printFunction, printArrowFunction, printMethod, printReturnStatement, printThrowStatement } = _function; const { printCallExpression } = callExpression; const { printVariableDeclarator, printAssignmentExpression } = assignment; const { printBinaryishExpression } = binaryish; const { printSwitchCaseConsequent } = statement; const { printMemberExpression } = member; const { printBlock: printBlock$2, printBlockBody } = block$1; const { printComment: printComment$1 } = comment; const { printLiteral } = literal; const { printDecorators } = decorators; function genericPrint$6(path, options, print, args) { const printed = printPathNoParens(path, options, print, args); if (!printed) { return ""; } const node = path.getValue(); const { type } = node; // Their decorators are handled themselves, and they can't have parentheses if (type === "ClassMethod" || type === "ClassPrivateMethod" || type === "ClassProperty" || type === "PropertyDefinition" || type === "TSAbstractPropertyDefinition" || type === "ClassPrivateProperty" || type === "MethodDefinition" || type === "TSAbstractMethodDefinition" || type === "TSDeclareMethod") { return printed; } const printedDecorators = printDecorators(path, options, print); // Nodes with decorators can't have parentheses and don't need leading semicolons if (printedDecorators) { return group$e([...printedDecorators, printed]); } const needsParens = pathNeedsParens(path, options); if (!needsParens) { return args && args.needsSemi ? [";", printed] : printed; } const parts = [args && args.needsSemi ? ";(" : "(", printed]; if (hasFlowShorthandAnnotationComment(node)) { const [comment] = node.trailingComments; parts.push(" /*", comment.value.trimStart(), "*/"); comment.printed = true; } parts.push(")"); return parts; } function printPathNoParens(path, options, print, args) { const node = path.getValue(); const semi = options.semi ? ";" : ""; if (!node) { return ""; } if (typeof node === "string") { return node; } for (const printer of [printLiteral, printHtmlBinding, printAngular, printJsx, printFlow, printTypescript]) { const printed = printer(path, options, print); if (typeof printed !== "undefined") { return printed; } } /** @type{Doc[]} */ let parts = []; switch (node.type) { case "JsExpressionRoot": return print("node"); case "JsonRoot": return [print("node"), hardline$g]; case "File": // Print @babel/parser's InterpreterDirective here so that // leading comments on the `Program` node get printed after the hashbang. if (node.program && node.program.interpreter) { parts.push(print(["program", "interpreter"])); } parts.push(print("program")); return parts; case "Program": return printBlockBody(path, options, print); // Babel extension. case "EmptyStatement": return ""; case "ExpressionStatement": // Detect Flow and TypeScript directives if (node.directive) { return [printDirective(node.expression, options), semi]; } if (options.parser === "__vue_event_binding") { const parent = path.getParentNode(); if (parent.type === "Program" && parent.body.length === 1 && parent.body[0] === node) { return [print("expression"), isVueEventBindingExpression$2(node.expression) ? ";" : ""]; } } // Do not append semicolon after the only JSX element in a program return [print("expression"), isTheOnlyJsxElementInMarkdown(options, path) ? "" : semi]; // Babel non-standard node. Used for Closure-style type casts. See postprocess.js. case "ParenthesizedExpression": { const shouldHug = !hasComment(node.expression) && (node.expression.type === "ObjectExpression" || node.expression.type === "ArrayExpression"); if (shouldHug) { return ["(", print("expression"), ")"]; } return group$e(["(", indent$8([softline$a, print("expression")]), softline$a, ")"]); } case "AssignmentExpression": return printAssignmentExpression(path, options, print); case "VariableDeclarator": return printVariableDeclarator(path, options, print); case "BinaryExpression": case "LogicalExpression": return printBinaryishExpression(path, options, print); case "AssignmentPattern": return [print("left"), " = ", print("right")]; case "OptionalMemberExpression": case "MemberExpression": { return printMemberExpression(path, options, print); } case "MetaProperty": return [print("meta"), ".", print("property")]; case "BindExpression": if (node.object) { parts.push(print("object")); } parts.push(group$e(indent$8([softline$a, printBindExpressionCallee(path, options, print)]))); return parts; case "Identifier": { return [node.name, printOptionalToken(path), printTypeAnnotation(path, options, print)]; } case "V8IntrinsicIdentifier": return ["%", node.name]; case "SpreadElement": case "SpreadElementPattern": case "SpreadProperty": case "SpreadPropertyPattern": case "RestElement": return printRestSpread(path, options, print); case "FunctionDeclaration": case "FunctionExpression": return printFunction(path, print, options, args); case "ArrowFunctionExpression": return printArrowFunction(path, options, print, args); case "YieldExpression": parts.push("yield"); if (node.delegate) { parts.push("*"); } if (node.argument) { parts.push(" ", print("argument")); } return parts; case "AwaitExpression": { parts.push("await"); if (node.argument) { parts.push(" ", print("argument")); const parent = path.getParentNode(); if (isCallExpression(parent) && parent.callee === node || isMemberExpression(parent) && parent.object === node) { parts = [indent$8([softline$a, ...parts]), softline$a]; const parentAwaitOrBlock = path.findAncestor(node => node.type === "AwaitExpression" || node.type === "BlockStatement"); if (!parentAwaitOrBlock || parentAwaitOrBlock.type !== "AwaitExpression") { return group$e(parts); } } } return parts; } case "ExportDefaultDeclaration": case "ExportNamedDeclaration": return printExportDeclaration(path, options, print); case "ExportAllDeclaration": return printExportAllDeclaration(path, options, print); case "ImportDeclaration": return printImportDeclaration(path, options, print); case "ImportSpecifier": case "ExportSpecifier": case "ImportNamespaceSpecifier": case "ExportNamespaceSpecifier": case "ImportDefaultSpecifier": case "ExportDefaultSpecifier": return printModuleSpecifier(path, options, print); case "ImportAttribute": return [print("key"), ": ", print("value")]; case "Import": return "import"; case "BlockStatement": case "StaticBlock": case "ClassBody": return printBlock$2(path, options, print); case "ThrowStatement": return printThrowStatement(path, options, print); case "ReturnStatement": return printReturnStatement(path, options, print); case "NewExpression": case "ImportExpression": case "OptionalCallExpression": case "CallExpression": return printCallExpression(path, options, print); case "ObjectExpression": case "ObjectPattern": case "RecordExpression": return printObject(path, options, print); // Babel 6 case "ObjectProperty": // Non-standard AST node type. case "Property": if (node.method || node.kind === "get" || node.kind === "set") { return printMethod(path, options, print); } return printProperty(path, options, print); case "ObjectMethod": return printMethod(path, options, print); case "Decorator": return ["@", print("expression")]; case "ArrayExpression": case "ArrayPattern": case "TupleExpression": return printArray(path, options, print); case "SequenceExpression": { const parent = path.getParentNode(0); if (parent.type === "ExpressionStatement" || parent.type === "ForStatement") { // For ExpressionStatements and for-loop heads, which are among // the few places a SequenceExpression appears unparenthesized, we want // to indent expressions after the first. const parts = []; path.each((expressionPath, index) => { if (index === 0) { parts.push(print()); } else { parts.push(",", indent$8([line$e, print()])); } }, "expressions"); return group$e(parts); } return group$e(join$c([",", line$e], path.map(print, "expressions"))); } case "ThisExpression": return "this"; case "Super": return "super"; case "Directive": return [print("value"), semi]; // Babel 6 case "DirectiveLiteral": return printDirective(node, options); case "UnaryExpression": parts.push(node.operator); if (/[a-z]$/.test(node.operator)) { parts.push(" "); } if (hasComment(node.argument)) { parts.push(group$e(["(", indent$8([softline$a, print("argument")]), softline$a, ")"])); } else { parts.push(print("argument")); } return parts; case "UpdateExpression": parts.push(print("argument"), node.operator); if (node.prefix) { parts.reverse(); } return parts; case "ConditionalExpression": return printTernary(path, options, print); case "VariableDeclaration": { const printed = path.map(print, "declarations"); // We generally want to terminate all variable declarations with a // semicolon, except when they in the () part of for loops. const parentNode = path.getParentNode(); const isParentForLoop = parentNode.type === "ForStatement" || parentNode.type === "ForInStatement" || parentNode.type === "ForOfStatement"; const hasValue = node.declarations.some(decl => decl.init); let firstVariable; if (printed.length === 1 && !hasComment(node.declarations[0])) { firstVariable = printed[0]; } else if (printed.length > 0) { // Indent first var to comply with eslint one-var rule firstVariable = indent$8(printed[0]); } parts = [node.declare ? "declare " : "", node.kind, firstVariable ? [" ", firstVariable] : "", indent$8(printed.slice(1).map(p => [",", hasValue && !isParentForLoop ? hardline$g : line$e, p]))]; if (!(isParentForLoop && parentNode.body !== node)) { parts.push(semi); } return group$e(parts); } case "WithStatement": return group$e(["with (", print("object"), ")", adjustClause(node.body, print("body"))]); case "IfStatement": { const con = adjustClause(node.consequent, print("consequent")); const opening = group$e(["if (", group$e([indent$8([softline$a, print("test")]), softline$a]), ")", con]); parts.push(opening); if (node.alternate) { const commentOnOwnLine = hasComment(node.consequent, CommentCheckFlags.Trailing | CommentCheckFlags.Line) || needsHardlineAfterDanglingComment(node); const elseOnSameLine = node.consequent.type === "BlockStatement" && !commentOnOwnLine; parts.push(elseOnSameLine ? " " : hardline$g); if (hasComment(node, CommentCheckFlags.Dangling)) { parts.push(printDanglingComments(path, options, true), commentOnOwnLine ? hardline$g : " "); } parts.push("else", group$e(adjustClause(node.alternate, print("alternate"), node.alternate.type === "IfStatement"))); } return parts; } case "ForStatement": { const body = adjustClause(node.body, print("body")); // We want to keep dangling comments above the loop to stay consistent. // Any comment positioned between the for statement and the parentheses // is going to be printed before the statement. const dangling = printDanglingComments(path, options, /* sameLine */ true); const printedComments = dangling ? [dangling, softline$a] : ""; if (!node.init && !node.test && !node.update) { return [printedComments, group$e(["for (;;)", body])]; } return [printedComments, group$e(["for (", group$e([indent$8([softline$a, print("init"), ";", line$e, print("test"), ";", line$e, print("update")]), softline$a]), ")", body])]; } case "WhileStatement": return group$e(["while (", group$e([indent$8([softline$a, print("test")]), softline$a]), ")", adjustClause(node.body, print("body"))]); case "ForInStatement": return group$e(["for (", print("left"), " in ", print("right"), ")", adjustClause(node.body, print("body"))]); case "ForOfStatement": return group$e(["for", node.await ? " await" : "", " (", print("left"), " of ", print("right"), ")", adjustClause(node.body, print("body"))]); case "DoWhileStatement": { const clause = adjustClause(node.body, print("body")); const doBody = group$e(["do", clause]); parts = [doBody]; if (node.body.type === "BlockStatement") { parts.push(" "); } else { parts.push(hardline$g); } parts.push("while (", group$e([indent$8([softline$a, print("test")]), softline$a]), ")", semi); return parts; } case "DoExpression": return [node.async ? "async " : "", "do ", print("body")]; case "BreakStatement": parts.push("break"); if (node.label) { parts.push(" ", print("label")); } parts.push(semi); return parts; case "ContinueStatement": parts.push("continue"); if (node.label) { parts.push(" ", print("label")); } parts.push(semi); return parts; case "LabeledStatement": if (node.body.type === "EmptyStatement") { return [print("label"), ":;"]; } return [print("label"), ": ", print("body")]; case "TryStatement": return ["try ", print("block"), node.handler ? [" ", print("handler")] : "", node.finalizer ? [" finally ", print("finalizer")] : ""]; case "CatchClause": if (node.param) { const parameterHasComments = hasComment(node.param, comment => !isBlockComment(comment) || comment.leading && hasNewline$1(options.originalText, locEnd$e(comment)) || comment.trailing && hasNewline$1(options.originalText, locStart$f(comment), { backwards: true })); const param = print("param"); return ["catch ", parameterHasComments ? ["(", indent$8([softline$a, param]), softline$a, ") "] : ["(", param, ") "], print("body")]; } return ["catch ", print("body")]; // Note: ignoring n.lexical because it has no printing consequences. case "SwitchStatement": return [group$e(["switch (", indent$8([softline$a, print("discriminant")]), softline$a, ")"]), " {", node.cases.length > 0 ? indent$8([hardline$g, join$c(hardline$g, path.map((casePath, index, cases) => { const caseNode = casePath.getValue(); return [print(), index !== cases.length - 1 && isNextLineEmpty$4(caseNode, options) ? hardline$g : ""]; }, "cases"))]) : "", hardline$g, "}"]; case "SwitchCase": { if (node.test) { parts.push("case ", print("test"), ":"); } else { parts.push("default:"); } const consequent = node.consequent.filter(node => node.type !== "EmptyStatement"); if (consequent.length > 0) { const cons = printSwitchCaseConsequent(path, options, print); parts.push(consequent.length === 1 && consequent[0].type === "BlockStatement" ? [" ", cons] : indent$8([hardline$g, cons])); } return parts; } // JSX extensions below. case "DebuggerStatement": return ["debugger", semi]; case "ClassDeclaration": case "ClassExpression": return printClass(path, options, print); case "ClassMethod": case "ClassPrivateMethod": case "MethodDefinition": return printClassMethod(path, options, print); case "ClassProperty": case "PropertyDefinition": case "ClassPrivateProperty": return printClassProperty(path, options, print); case "TemplateElement": return replaceTextEndOfLine$9(node.value.raw); case "TemplateLiteral": return printTemplateLiteral(path, print, options); case "TaggedTemplateExpression": return [print("tag"), print("typeParameters"), print("quasi")]; case "PrivateIdentifier": return ["#", print("name")]; case "PrivateName": return ["#", print("id")]; case "InterpreterDirective": parts.push("#!", node.value, hardline$g); if (isNextLineEmpty$4(node, options)) { parts.push(hardline$g); } return parts; // For hack-style pipeline case "TopicReference": return "%"; case "ArgumentPlaceholder": return "?"; case "ModuleExpression": { parts.push("module {"); const printed = print("body"); if (printed) { parts.push(indent$8([hardline$g, printed]), hardline$g); } parts.push("}"); return parts; } default: /* istanbul ignore next */ throw new Error("unknown type: " + JSON.stringify(node.type)); } } function printDirective(node, options) { const raw = rawText(node); const rawContent = raw.slice(1, -1); // Check for the alternate quote, to determine if we're allowed to swap // the quotes on a DirectiveLiteral. if (rawContent.includes('"') || rawContent.includes("'")) { return raw; } const enclosingQuote = options.singleQuote ? "'" : '"'; // Directives are exact code unit sequences, which means that you can't // change the escape sequences they use. // See https://github.com/prettier/prettier/issues/1555 // and https://tc39.github.io/ecma262/#directive-prologue return enclosingQuote + rawContent + enclosingQuote; } function canAttachComment$1(node) { return node.type && !isBlockComment(node) && !isLineComment(node) && node.type !== "EmptyStatement" && node.type !== "TemplateElement" && node.type !== "Import" && // `babel-ts` don't have similar node for `class Foo { bar() /* bat */; }` node.type !== "TSEmptyBodyFunctionExpression"; } var printerEstree = { preprocess: preprocess$7, print: genericPrint$6, embed: embed$9, insertPragma: insertPragma$9, massageAstNode: clean$b, hasPrettierIgnore(path) { return hasIgnoreComment(path) || hasJsxIgnoreComment(path); }, willPrintOwnComments: handleComments.willPrintOwnComments, canAttachComment: canAttachComment$1, printComment: printComment$1, isBlockComment, handleComments: { // TODO: Make this as default behavior avoidAstMutation: true, ownLine: handleComments.handleOwnLineComment, endOfLine: handleComments.handleEndOfLineComment, remaining: handleComments.handleRemainingComment }, getCommentChildNodes: handleComments.getCommentChildNodes }; const { builders: { hardline: hardline$f, indent: indent$7, join: join$b } } = require$$7$3; const preprocess$6 = printPreprocess$3; function genericPrint$5(path, options, print) { const node = path.getValue(); switch (node.type) { case "JsonRoot": return [print("node"), hardline$f]; case "ArrayExpression": { if (node.elements.length === 0) { return "[]"; } const printed = path.map(() => path.getValue() === null ? "null" : print(), "elements"); return ["[", indent$7([hardline$f, join$b([",", hardline$f], printed)]), hardline$f, "]"]; } case "ObjectExpression": return node.properties.length === 0 ? "{}" : ["{", indent$7([hardline$f, join$b([",", hardline$f], path.map(print, "properties"))]), hardline$f, "}"]; case "ObjectProperty": return [print("key"), ": ", print("value")]; case "UnaryExpression": return [node.operator === "+" ? "" : node.operator, print("argument")]; case "NullLiteral": return "null"; case "BooleanLiteral": return node.value ? "true" : "false"; case "StringLiteral": case "NumericLiteral": return JSON.stringify(node.value); case "Identifier": { const parent = path.getParentNode(); if (parent && parent.type === "ObjectProperty" && parent.key === node) { return JSON.stringify(node.name); } return node.name; } case "TemplateLiteral": // There is only one `TemplateElement` return print(["quasis", 0]); case "TemplateElement": return JSON.stringify(node.value.cooked); default: /* istanbul ignore next */ throw new Error("unknown type: " + JSON.stringify(node.type)); } } const ignoredProperties$3 = new Set(["start", "end", "extra", "loc", "comments", "leadingComments", "trailingComments", "innerComments", "errors", "range", "tokens"]); function clean$a(node, newNode /*, parent*/ ) { const { type } = node; // We print quoted key if (type === "ObjectProperty" && node.key.type === "Identifier") { newNode.key = { type: "StringLiteral", value: node.key.name }; return; } if (type === "UnaryExpression" && node.operator === "+") { return newNode.argument; } // We print holes in array as `null` if (type === "ArrayExpression") { for (const [index, element] of node.elements.entries()) { if (element === null) { newNode.elements.splice(index, 0, { type: "NullLiteral" }); } } return; } // We print `TemplateLiteral` as string if (type === "TemplateLiteral") { return { type: "StringLiteral", value: node.quasis[0].value.cooked }; } } clean$a.ignoredProperties = ignoredProperties$3; var printerEstreeJson = { preprocess: preprocess$6, print: genericPrint$5, massageAstNode: clean$a }; const CATEGORY_COMMON = "Common"; // format based on https://github.com/prettier/prettier/blob/main/src/main/core-options.js var commonOptions$6 = { bracketSpacing: { since: "0.0.0", category: CATEGORY_COMMON, type: "boolean", default: true, description: "Print spaces between brackets.", oppositeDescription: "Do not print spaces between brackets." }, singleQuote: { since: "0.0.0", category: CATEGORY_COMMON, type: "boolean", default: false, description: "Use single quotes instead of double quotes." }, proseWrap: { since: "1.8.2", category: CATEGORY_COMMON, type: "choice", default: [{ since: "1.8.2", value: true }, { since: "1.9.0", value: "preserve" }], description: "How to wrap prose.", choices: [{ since: "1.9.0", value: "always", description: "Wrap prose if it exceeds the print width." }, { since: "1.9.0", value: "never", description: "Do not wrap prose." }, { since: "1.9.0", value: "preserve", description: "Wrap prose as-is." }] }, bracketSameLine: { since: "2.4.0", category: CATEGORY_COMMON, type: "boolean", default: false, description: "Put > of opening tags on the last line instead of on a new line." } }; const commonOptions$5 = commonOptions$6; const CATEGORY_JAVASCRIPT = "JavaScript"; // format based on https://github.com/prettier/prettier/blob/main/src/main/core-options.js var options$b = { arrowParens: { since: "1.9.0", category: CATEGORY_JAVASCRIPT, type: "choice", default: [{ since: "1.9.0", value: "avoid" }, { since: "2.0.0", value: "always" }], description: "Include parentheses around a sole arrow function parameter.", choices: [{ value: "always", description: "Always include parens. Example: `(x) => x`" }, { value: "avoid", description: "Omit parens when possible. Example: `x => x`" }] }, bracketSameLine: commonOptions$5.bracketSameLine, bracketSpacing: commonOptions$5.bracketSpacing, jsxBracketSameLine: { since: "0.17.0", category: CATEGORY_JAVASCRIPT, type: "boolean", description: "Put > on the last line instead of at a new line.", deprecated: "2.4.0" }, semi: { since: "1.0.0", category: CATEGORY_JAVASCRIPT, type: "boolean", default: true, description: "Print semicolons.", oppositeDescription: "Do not print semicolons, except at the beginning of lines which may need them." }, singleQuote: commonOptions$5.singleQuote, jsxSingleQuote: { since: "1.15.0", category: CATEGORY_JAVASCRIPT, type: "boolean", default: false, description: "Use single quotes in JSX." }, quoteProps: { since: "1.17.0", category: CATEGORY_JAVASCRIPT, type: "choice", default: "as-needed", description: "Change when properties in objects are quoted.", choices: [{ value: "as-needed", description: "Only add quotes around object properties where required." }, { value: "consistent", description: "If at least one property in an object requires quotes, quote all properties." }, { value: "preserve", description: "Respect the input use of quotes in object properties." }] }, trailingComma: { since: "0.0.0", category: CATEGORY_JAVASCRIPT, type: "choice", default: [{ since: "0.0.0", value: false }, { since: "0.19.0", value: "none" }, { since: "2.0.0", value: "es5" }], description: "Print trailing commas wherever possible when multi-line.", choices: [{ value: "es5", description: "Trailing commas where valid in ES5 (objects, arrays, etc.)" }, { value: "none", description: "No trailing commas." }, { value: "all", description: "Trailing commas wherever possible (including function arguments)." }] } }; var require$$0$2 = require("./parser-babel.js"); var require$$1$1 = require("./parser-flow.js"); var require$$2$1 = require("./parser-typescript.js"); var require$$3$1 = require("./parser-angular.js"); var require$$4$6 = require("./parser-espree.js"); var require$$5$3 = require("./parser-meriyah.js"); var parsers$d = { // JS - Babel get babel() { return require$$0$2.parsers.babel; }, get "babel-flow"() { return require$$0$2.parsers["babel-flow"]; }, get "babel-ts"() { return require$$0$2.parsers["babel-ts"]; }, get json() { return require$$0$2.parsers.json; }, get json5() { return require$$0$2.parsers.json5; }, get "json-stringify"() { return require$$0$2.parsers["json-stringify"]; }, get __js_expression() { return require$$0$2.parsers.__js_expression; }, get __vue_expression() { return require$$0$2.parsers.__vue_expression; }, get __vue_event_binding() { return require$$0$2.parsers.__vue_event_binding; }, // JS - Flow get flow() { return require$$1$1.parsers.flow; }, // JS - TypeScript get typescript() { return require$$2$1.parsers.typescript; }, // JS - Angular Action get __ng_action() { return require$$3$1.parsers.__ng_action; }, // JS - Angular Binding get __ng_binding() { return require$$3$1.parsers.__ng_binding; }, // JS - Angular Interpolation get __ng_interpolation() { return require$$3$1.parsers.__ng_interpolation; }, // JS - Angular Directive get __ng_directive() { return require$$3$1.parsers.__ng_directive; }, // JS - espree get espree() { return require$$4$6.parsers.espree; }, // JS - meriyah get meriyah() { return require$$5$3.parsers.meriyah; }, // JS - Babel Estree get __babel_estree() { return require$$0$2.parsers.__babel_estree; } }; var name$f = "JavaScript"; var type$f = "programming"; var tmScope$f = "source.js"; var aceMode$f = "javascript"; var codemirrorMode$b = "javascript"; var codemirrorMimeType$b = "text/javascript"; var color$a = "#f1e05a"; var aliases$6 = [ "js", "node" ]; var extensions$f = [ ".js", "._js", ".bones", ".cjs", ".es", ".es6", ".frag", ".gs", ".jake", ".jsb", ".jscad", ".jsfl", ".jsm", ".jss", ".jsx", ".mjs", ".njs", ".pac", ".sjs", ".ssjs", ".xsjs", ".xsjslib" ]; var filenames$4 = [ "Jakefile" ]; var interpreters$1 = [ "chakra", "d8", "gjs", "js", "node", "nodejs", "qjs", "rhino", "v8", "v8-shell" ]; var languageId$f = 183; var require$$5$2 = { name: name$f, type: type$f, tmScope: tmScope$f, aceMode: aceMode$f, codemirrorMode: codemirrorMode$b, codemirrorMimeType: codemirrorMimeType$b, color: color$a, aliases: aliases$6, extensions: extensions$f, filenames: filenames$4, interpreters: interpreters$1, languageId: languageId$f }; var name$e = "TypeScript"; var type$e = "programming"; var color$9 = "#2b7489"; var aliases$5 = [ "ts" ]; var interpreters = [ "deno", "ts-node" ]; var extensions$e = [ ".ts" ]; var tmScope$e = "source.ts"; var aceMode$e = "typescript"; var codemirrorMode$a = "javascript"; var codemirrorMimeType$a = "application/typescript"; var languageId$e = 378; var require$$6$1 = { name: name$e, type: type$e, color: color$9, aliases: aliases$5, interpreters: interpreters, extensions: extensions$e, tmScope: tmScope$e, aceMode: aceMode$e, codemirrorMode: codemirrorMode$a, codemirrorMimeType: codemirrorMimeType$a, languageId: languageId$e }; var name$d = "TSX"; var type$d = "programming"; var group$d = "TypeScript"; var extensions$d = [ ".tsx" ]; var tmScope$d = "source.tsx"; var aceMode$d = "javascript"; var codemirrorMode$9 = "jsx"; var codemirrorMimeType$9 = "text/jsx"; var languageId$d = 94901924; var require$$7$1 = { name: name$d, type: type$d, group: group$d, extensions: extensions$d, tmScope: tmScope$d, aceMode: aceMode$d, codemirrorMode: codemirrorMode$9, codemirrorMimeType: codemirrorMimeType$9, languageId: languageId$d }; var name$c = "JSON"; var type$c = "data"; var tmScope$c = "source.json"; var aceMode$c = "json"; var codemirrorMode$8 = "javascript"; var codemirrorMimeType$8 = "application/json"; var extensions$c = [ ".json", ".avsc", ".geojson", ".gltf", ".har", ".ice", ".JSON-tmLanguage", ".jsonl", ".mcmeta", ".tfstate", ".tfstate.backup", ".topojson", ".webapp", ".webmanifest", ".yy", ".yyp" ]; var filenames$3 = [ ".arcconfig", ".htmlhintrc", ".imgbotconfig", ".tern-config", ".tern-project", ".watchmanconfig", "Pipfile.lock", "composer.lock", "mcmod.info" ]; var languageId$c = 174; var require$$8 = { name: name$c, type: type$c, tmScope: tmScope$c, aceMode: aceMode$c, codemirrorMode: codemirrorMode$8, codemirrorMimeType: codemirrorMimeType$8, extensions: extensions$c, filenames: filenames$3, languageId: languageId$c }; var name$b = "JSON with Comments"; var type$b = "data"; var group$c = "JSON"; var tmScope$b = "source.js"; var aceMode$b = "javascript"; var codemirrorMode$7 = "javascript"; var codemirrorMimeType$7 = "text/javascript"; var aliases$4 = [ "jsonc" ]; var extensions$b = [ ".jsonc", ".sublime-build", ".sublime-commands", ".sublime-completions", ".sublime-keymap", ".sublime-macro", ".sublime-menu", ".sublime-mousemap", ".sublime-project", ".sublime-settings", ".sublime-theme", ".sublime-workspace", ".sublime_metrics", ".sublime_session" ]; var filenames$2 = [ ".babelrc", ".eslintrc.json", ".jscsrc", ".jshintrc", ".jslintrc", "api-extractor.json", "devcontainer.json", "jsconfig.json", "language-configuration.json", "tsconfig.json", "tslint.json" ]; var languageId$b = 423; var require$$9 = { name: name$b, type: type$b, group: group$c, tmScope: tmScope$b, aceMode: aceMode$b, codemirrorMode: codemirrorMode$7, codemirrorMimeType: codemirrorMimeType$7, aliases: aliases$4, extensions: extensions$b, filenames: filenames$2, languageId: languageId$b }; var name$a = "JSON5"; var type$a = "data"; var extensions$a = [ ".json5" ]; var tmScope$a = "source.js"; var aceMode$a = "javascript"; var codemirrorMode$6 = "javascript"; var codemirrorMimeType$6 = "application/json"; var languageId$a = 175; var require$$10 = { name: name$a, type: type$a, extensions: extensions$a, tmScope: tmScope$a, aceMode: aceMode$a, codemirrorMode: codemirrorMode$6, codemirrorMimeType: codemirrorMimeType$6, languageId: languageId$a }; const createLanguage$6 = createLanguage$7; const estreePrinter = printerEstree; const estreeJsonPrinter = printerEstreeJson; const options$a = options$b; const parsers$c = parsers$d; const languages$7 = [createLanguage$6(require$$5$2, data => ({ since: "0.0.0", parsers: ["babel", "espree", "meriyah", "babel-flow", "babel-ts", "flow", "typescript"], vscodeLanguageIds: ["javascript", "mongo"], interpreters: [...data.interpreters, // https://github.com/google/zx "zx"], extensions: [...data.extensions.filter(extension => extension !== ".jsx"), // WeiXin Script (Weixin Mini Programs) // https://developers.weixin.qq.com/miniprogram/en/dev/framework/view/wxs/ ".wxs"] })), createLanguage$6(require$$5$2, () => ({ name: "Flow", since: "0.0.0", parsers: ["flow", "babel-flow"], vscodeLanguageIds: ["javascript"], aliases: [], filenames: [], extensions: [".js.flow"] })), createLanguage$6(require$$5$2, () => ({ name: "JSX", since: "0.0.0", parsers: ["babel", "babel-flow", "babel-ts", "flow", "typescript", "espree", "meriyah"], vscodeLanguageIds: ["javascriptreact"], aliases: undefined, filenames: undefined, extensions: [".jsx"], group: "JavaScript", interpreters: undefined, tmScope: "source.js.jsx", aceMode: "javascript", codemirrorMode: "jsx", codemirrorMimeType: "text/jsx", color: undefined })), createLanguage$6(require$$6$1, data => ({ since: "1.4.0", parsers: ["typescript", "babel-ts"], vscodeLanguageIds: ["typescript"], extensions: [...data.extensions, ".mts", ".cts"] })), createLanguage$6(require$$7$1, () => ({ since: "1.4.0", parsers: ["typescript", "babel-ts"], vscodeLanguageIds: ["typescriptreact"] })), createLanguage$6(require$$8, () => ({ name: "JSON.stringify", since: "1.13.0", parsers: ["json-stringify"], vscodeLanguageIds: ["json"], extensions: [], // .json file defaults to json instead of json-stringify filenames: ["package.json", "package-lock.json", "composer.json"] })), createLanguage$6(require$$8, data => ({ since: "1.5.0", parsers: ["json"], vscodeLanguageIds: ["json"], extensions: data.extensions.filter(extension => extension !== ".jsonl") })), createLanguage$6(require$$9, data => ({ since: "1.5.0", parsers: ["json"], vscodeLanguageIds: ["jsonc"], filenames: [...data.filenames, ".eslintrc"] })), createLanguage$6(require$$10, () => ({ since: "1.13.0", parsers: ["json5"], vscodeLanguageIds: ["json5"] }))]; const printers$5 = { estree: estreePrinter, "estree-json": estreeJsonPrinter }; var languageJs = { languages: languages$7, options: options$a, printers: printers$5, parsers: parsers$c }; const { isFrontMatterNode: isFrontMatterNode$4 } = util$8; const getLast$9 = getLast_1; const ignoredProperties$2 = new Set(["raw", // front-matter "raws", "sourceIndex", "source", "before", "after", "trailingComma"]); function clean$9(ast, newObj, parent) { if (isFrontMatterNode$4(ast) && ast.lang === "yaml") { delete newObj.value; } if (ast.type === "css-comment" && parent.type === "css-root" && parent.nodes.length > 0) { // --insert-pragma // first non-front-matter comment if (parent.nodes[0] === ast || isFrontMatterNode$4(parent.nodes[0]) && parent.nodes[1] === ast) { /** * something * * @format */ delete newObj.text; // standalone pragma if (/^\*\s*@(?:format|prettier)\s*$/.test(ast.text)) { return null; } } // Last comment is not parsed, when omitting semicolon, #8675 if (parent.type === "css-root" && getLast$9(parent.nodes) === ast) { return null; } } if (ast.type === "value-root") { delete newObj.text; } if (ast.type === "media-query" || ast.type === "media-query-list" || ast.type === "media-feature-expression") { delete newObj.value; } if (ast.type === "css-rule") { delete newObj.params; } if (ast.type === "selector-combinator") { newObj.value = newObj.value.replace(/\s+/g, " "); } if (ast.type === "media-feature") { newObj.value = newObj.value.replace(/ /g, ""); } if (ast.type === "value-word" && (ast.isColor && ast.isHex || ["initial", "inherit", "unset", "revert"].includes(newObj.value.replace().toLowerCase())) || ast.type === "media-feature" || ast.type === "selector-root-invalid" || ast.type === "selector-pseudo") { newObj.value = newObj.value.toLowerCase(); } if (ast.type === "css-decl") { newObj.prop = newObj.prop.toLowerCase(); } if (ast.type === "css-atrule" || ast.type === "css-import") { newObj.name = newObj.name.toLowerCase(); } if (ast.type === "value-number") { newObj.unit = newObj.unit.toLowerCase(); } if ((ast.type === "media-feature" || ast.type === "media-keyword" || ast.type === "media-type" || ast.type === "media-unknown" || ast.type === "media-url" || ast.type === "media-value" || ast.type === "selector-attribute" || ast.type === "selector-string" || ast.type === "selector-class" || ast.type === "selector-combinator" || ast.type === "value-string") && newObj.value) { newObj.value = cleanCSSStrings(newObj.value); } if (ast.type === "selector-attribute") { newObj.attribute = newObj.attribute.trim(); if (newObj.namespace) { if (typeof newObj.namespace === "string") { newObj.namespace = newObj.namespace.trim(); if (newObj.namespace.length === 0) { newObj.namespace = true; } } } if (newObj.value) { newObj.value = newObj.value.trim().replace(/^["']|["']$/g, ""); delete newObj.quoted; } } if ((ast.type === "media-value" || ast.type === "media-type" || ast.type === "value-number" || ast.type === "selector-root-invalid" || ast.type === "selector-class" || ast.type === "selector-combinator" || ast.type === "selector-tag") && newObj.value) { newObj.value = newObj.value.replace(/([\d+.Ee-]+)([A-Za-z]*)/g, (match, numStr, unit) => { const num = Number(numStr); return Number.isNaN(num) ? match : num + unit.toLowerCase(); }); } if (ast.type === "selector-tag") { const lowercasedValue = ast.value.toLowerCase(); if (["from", "to"].includes(lowercasedValue)) { newObj.value = lowercasedValue; } } // Workaround when `postcss-values-parser` parse `not`, `and` or `or` keywords as `value-func` if (ast.type === "css-atrule" && ast.name.toLowerCase() === "supports") { delete newObj.value; } // Workaround for SCSS nested properties if (ast.type === "selector-unknown") { delete newObj.value; } } clean$9.ignoredProperties = ignoredProperties$2; function cleanCSSStrings(value) { return value.replace(/'/g, '"').replace(/\\([^\dA-Fa-f])/g, "$1"); } var clean_1$3 = clean$9; const { builders: { hardline: hardline$e, markAsRoot: markAsRoot$3 } } = require$$7$3; function print$1(node, textToDoc) { if (node.lang === "yaml") { const value = node.value.trim(); const doc = value ? textToDoc(value, { parser: "yaml" }, { stripTrailingHardline: true }) : ""; return markAsRoot$3([node.startDelimiter, hardline$e, doc, doc ? hardline$e : "", node.endDelimiter]); } } var print_1 = print$1; const { builders: { hardline: hardline$d } } = require$$7$3; const printFrontMatter$2 = print_1; function embed$8(path, print, textToDoc /*, options */ ) { const node = path.getValue(); if (node.type === "front-matter") { const doc = printFrontMatter$2(node, textToDoc); return doc ? [doc, hardline$d] : ""; } } var embed_1$3 = embed$8; const frontMatterRegex = new RegExp("^(?-{3}|\\+{3})" + // trailing spaces after delimiters are allowed "(?[^\\n]*)" + "\\n(?:|(?.*?)\\n)" + // In some markdown processors such as pandoc, // "..." can be used as the end delimiter for YAML front-matter. // Adding `\.{3}` make the regex matches `+++\n...`, but we'll exclude it later "(?\\k|\\.{3})" + "[^\\S\\n]*(?:\\n|$)", "s"); function parse(text) { const match = text.match(frontMatterRegex); if (!match) { return { content: text }; } const { startDelimiter, language, value = "", endDelimiter } = match.groups; let lang = language.trim() || "yaml"; if (startDelimiter === "+++") { lang = "toml"; } // Only allow yaml to parse with a different end delimiter if (lang !== "yaml" && startDelimiter !== endDelimiter) { return { content: text }; } const [raw] = match; const frontMatter = { type: "front-matter", lang, value, startDelimiter, endDelimiter, raw: raw.replace(/\n$/, "") }; return { frontMatter, content: raw.replace(/[^\n]/g, " ") + text.slice(raw.length) }; } var parse_1 = parse; const jsPragma = pragma$5; const parseFrontMatter$1 = parse_1; function hasPragma$3(text) { return jsPragma.hasPragma(parseFrontMatter$1(text).content); } function insertPragma$8(text) { const { frontMatter, content } = parseFrontMatter$1(text); return (frontMatter ? frontMatter.raw + "\n\n" : "") + jsPragma.insertPragma(content); } var pragma$4 = { hasPragma: hasPragma$3, insertPragma: insertPragma$8 }; const { isNonEmptyArray: isNonEmptyArray$6 } = util$8; const colorAdjusterFunctions = new Set(["red", "green", "blue", "alpha", "a", "rgb", "hue", "h", "saturation", "s", "lightness", "l", "whiteness", "w", "blackness", "b", "tint", "shade", "blend", "blenda", "contrast", "hsl", "hsla", "hwb", "hwba"]); const moduleRuleNames = new Set(["import", "use", "forward"]); function getAncestorCounter$1(path, typeOrTypes) { const types = Array.isArray(typeOrTypes) ? typeOrTypes : [typeOrTypes]; let counter = -1; let ancestorNode; while (ancestorNode = path.getParentNode(++counter)) { if (types.includes(ancestorNode.type)) { return counter; } } return -1; } function getAncestorNode$2(path, typeOrTypes) { const counter = getAncestorCounter$1(path, typeOrTypes); return counter === -1 ? null : path.getParentNode(counter); } function getPropOfDeclNode$1(path) { const declAncestorNode = getAncestorNode$2(path, "css-decl"); return declAncestorNode && declAncestorNode.prop && declAncestorNode.prop.toLowerCase(); } function hasSCSSInterpolation(groupList) { if (isNonEmptyArray$6(groupList)) { for (let i = groupList.length - 1; i > 0; i--) { // If we find `#{`, return true. if (groupList[i].type === "word" && groupList[i].value === "{" && groupList[i - 1].type === "word" && groupList[i - 1].value.endsWith("#")) { return true; } } } return false; } function hasStringOrFunction(groupList) { if (isNonEmptyArray$6(groupList)) { for (let i = 0; i < groupList.length; i++) { if (groupList[i].type === "string" || groupList[i].type === "func") { return true; } } } return false; } function isSCSS$1(parser, text) { const hasExplicitParserChoice = parser === "less" || parser === "scss"; const IS_POSSIBLY_SCSS = /(?:\w\s*:\s*[^:}]+|#){|@import[^\n]+(?:url|,)/; return hasExplicitParserChoice ? parser === "scss" : IS_POSSIBLY_SCSS.test(text); } function isSCSSVariable(node) { return Boolean(node && node.type === "word" && node.value.startsWith("$")); } function isWideKeywords$1(value) { return ["initial", "inherit", "unset", "revert"].includes(value.toLowerCase()); } function isKeyframeAtRuleKeywords$1(path, value) { const atRuleAncestorNode = getAncestorNode$2(path, "css-atrule"); return atRuleAncestorNode && atRuleAncestorNode.name && atRuleAncestorNode.name.toLowerCase().endsWith("keyframes") && ["from", "to"].includes(value.toLowerCase()); } function maybeToLowerCase$1(value) { return value.includes("$") || value.includes("@") || value.includes("#") || value.startsWith("%") || value.startsWith("--") || value.startsWith(":--") || value.includes("(") && value.includes(")") ? value : value.toLowerCase(); } function insideValueFunctionNode$1(path, functionName) { const funcAncestorNode = getAncestorNode$2(path, "value-func"); return funcAncestorNode && funcAncestorNode.value && funcAncestorNode.value.toLowerCase() === functionName; } function insideICSSRuleNode$1(path) { const ruleAncestorNode = getAncestorNode$2(path, "css-rule"); return ruleAncestorNode && ruleAncestorNode.raws && ruleAncestorNode.raws.selector && (ruleAncestorNode.raws.selector.startsWith(":import") || ruleAncestorNode.raws.selector.startsWith(":export")); } function insideAtRuleNode$1(path, atRuleNameOrAtRuleNames) { const atRuleNames = Array.isArray(atRuleNameOrAtRuleNames) ? atRuleNameOrAtRuleNames : [atRuleNameOrAtRuleNames]; const atRuleAncestorNode = getAncestorNode$2(path, "css-atrule"); return atRuleAncestorNode && atRuleNames.includes(atRuleAncestorNode.name.toLowerCase()); } function insideURLFunctionInImportAtRuleNode$1(path) { const node = path.getValue(); const atRuleAncestorNode = getAncestorNode$2(path, "css-atrule"); return atRuleAncestorNode && atRuleAncestorNode.name === "import" && node.groups[0].value === "url" && node.groups.length === 2; } function isURLFunctionNode$1(node) { return node.type === "value-func" && node.value.toLowerCase() === "url"; } function isLastNode$1(path, node) { const parentNode = path.getParentNode(); /* istanbul ignore next */ if (!parentNode) { return false; } const { nodes } = parentNode; return nodes && nodes.indexOf(node) === nodes.length - 1; } function isDetachedRulesetDeclarationNode$1(node) { // If a Less file ends up being parsed with the SCSS parser, Less // variable declarations will be parsed as atrules with names ending // with a colon, so keep the original case then. /* istanbul ignore next */ if (!node.selector) { return false; } return typeof node.selector === "string" && /^@.+:.*$/.test(node.selector) || node.selector.value && /^@.+:.*$/.test(node.selector.value); } function isForKeywordNode$1(node) { return node.type === "value-word" && ["from", "through", "end"].includes(node.value); } function isIfElseKeywordNode$1(node) { return node.type === "value-word" && ["and", "or", "not"].includes(node.value); } function isEachKeywordNode$1(node) { return node.type === "value-word" && node.value === "in"; } function isMultiplicationNode$1(node) { return node.type === "value-operator" && node.value === "*"; } function isDivisionNode$1(node) { return node.type === "value-operator" && node.value === "/"; } function isAdditionNode$1(node) { return node.type === "value-operator" && node.value === "+"; } function isSubtractionNode$1(node) { return node.type === "value-operator" && node.value === "-"; } function isModuloNode(node) { return node.type === "value-operator" && node.value === "%"; } function isMathOperatorNode$1(node) { return isMultiplicationNode$1(node) || isDivisionNode$1(node) || isAdditionNode$1(node) || isSubtractionNode$1(node) || isModuloNode(node); } function isEqualityOperatorNode$1(node) { return node.type === "value-word" && ["==", "!="].includes(node.value); } function isRelationalOperatorNode$1(node) { return node.type === "value-word" && ["<", ">", "<=", ">="].includes(node.value); } function isSCSSControlDirectiveNode$1(node) { return node.type === "css-atrule" && ["if", "else", "for", "each", "while"].includes(node.name); } function isSCSSNestedPropertyNode(node) { /* istanbul ignore next */ if (!node.selector) { return false; } return node.selector.replace(/\/\*.*?\*\//, "").replace(/\/\/.*?\n/, "").trim().endsWith(":"); } function isDetachedRulesetCallNode$1(node) { return node.raws && node.raws.params && /^\(\s*\)$/.test(node.raws.params); } function isTemplatePlaceholderNode$1(node) { return node.name.startsWith("prettier-placeholder"); } function isTemplatePropNode$1(node) { return node.prop.startsWith("@prettier-placeholder"); } function isPostcssSimpleVarNode$1(currentNode, nextNode) { return currentNode.value === "$$" && currentNode.type === "value-func" && nextNode && nextNode.type === "value-word" && !nextNode.raws.before; } function hasComposesNode$1(node) { return node.value && node.value.type === "value-root" && node.value.group && node.value.group.type === "value-value" && node.prop.toLowerCase() === "composes"; } function hasParensAroundNode$1(node) { return node.value && node.value.group && node.value.group.group && node.value.group.group.type === "value-paren_group" && node.value.group.group.open !== null && node.value.group.group.close !== null; } function hasEmptyRawBefore$1(node) { return node.raws && node.raws.before === ""; } function isKeyValuePairNode$1(node) { return node.type === "value-comma_group" && node.groups && node.groups[1] && node.groups[1].type === "value-colon"; } function isKeyValuePairInParenGroupNode(node) { return node.type === "value-paren_group" && node.groups && node.groups[0] && isKeyValuePairNode$1(node.groups[0]); } function isSCSSMapItemNode$1(path) { const node = path.getValue(); // Ignore empty item (i.e. `$key: ()`) if (node.groups.length === 0) { return false; } const parentParentNode = path.getParentNode(1); // Check open parens contain key/value pair (i.e. `(key: value)` and `(key: (value, other-value)`) if (!isKeyValuePairInParenGroupNode(node) && !(parentParentNode && isKeyValuePairInParenGroupNode(parentParentNode))) { return false; } const declNode = getAncestorNode$2(path, "css-decl"); // SCSS map declaration (i.e. `$map: (key: value, other-key: other-value)`) if (declNode && declNode.prop && declNode.prop.startsWith("$")) { return true; } // List as value of key inside SCSS map (i.e. `$map: (key: (value other-value other-other-value))`) if (isKeyValuePairInParenGroupNode(parentParentNode)) { return true; } // SCSS Map is argument of function (i.e. `func((key: value, other-key: other-value))`) if (parentParentNode.type === "value-func") { return true; } return false; } function isInlineValueCommentNode$1(node) { return node.type === "value-comment" && node.inline; } function isHashNode$1(node) { return node.type === "value-word" && node.value === "#"; } function isLeftCurlyBraceNode$1(node) { return node.type === "value-word" && node.value === "{"; } function isRightCurlyBraceNode$1(node) { return node.type === "value-word" && node.value === "}"; } function isWordNode$1(node) { return ["value-word", "value-atword"].includes(node.type); } function isColonNode$1(node) { return node && node.type === "value-colon"; } function isKeyInValuePairNode$1(node, parentNode) { if (!isKeyValuePairNode$1(parentNode)) { return false; } const { groups } = parentNode; const index = groups.indexOf(node); if (index === -1) { return false; } return isColonNode$1(groups[index + 1]); } function isMediaAndSupportsKeywords$1(node) { return node.value && ["not", "and", "or"].includes(node.value.toLowerCase()); } function isColorAdjusterFuncNode$1(node) { if (node.type !== "value-func") { return false; } return colorAdjusterFunctions.has(node.value.toLowerCase()); } // TODO: only check `less` when we don't use `less` to parse `css` function isLessParser$1(options) { return options.parser === "css" || options.parser === "less"; } function lastLineHasInlineComment$1(text) { return /\/\//.test(text.split(/[\n\r]/).pop()); } function stringifyNode(node) { if (node.groups) { const open = node.open && node.open.value ? node.open.value : ""; const groups = node.groups.reduce((previousValue, currentValue, index) => previousValue + stringifyNode(currentValue) + (node.groups[0].type === "comma_group" && index !== node.groups.length - 1 ? "," : ""), ""); const close = node.close && node.close.value ? node.close.value : ""; return open + groups + close; } const before = node.raws && node.raws.before ? node.raws.before : ""; const quote = node.raws && node.raws.quote ? node.raws.quote : ""; const atword = node.type === "atword" ? "@" : ""; const value = node.value ? node.value : ""; const unit = node.unit ? node.unit : ""; const group = node.group ? stringifyNode(node.group) : ""; const after = node.raws && node.raws.after ? node.raws.after : ""; return before + quote + atword + value + quote + unit + group + after; } function isAtWordPlaceholderNode$1(node) { return node && node.type === "value-atword" && node.value.startsWith("prettier-placeholder-"); } function isModuleRuleName(name) { return moduleRuleNames.has(name); } function isConfigurationNode$1(node, parentNode) { if (!node.open || node.open.value !== "(" || !node.close || node.close.value !== ")" || node.groups.some(group => group.type !== "value-comma_group")) { return false; } if (parentNode.type === "value-comma_group") { const prevIdx = parentNode.groups.indexOf(node) - 1; const maybeWithNode = parentNode.groups[prevIdx]; if (maybeWithNode && maybeWithNode.type === "value-word" && maybeWithNode.value === "with") { return true; } } return false; } function isParenGroupNode$1(node) { return node.type === "value-paren_group" && node.open && node.open.value === "(" && node.close && node.close.value === ")"; } var utils$4 = { getAncestorCounter: getAncestorCounter$1, getAncestorNode: getAncestorNode$2, getPropOfDeclNode: getPropOfDeclNode$1, hasSCSSInterpolation, hasStringOrFunction, maybeToLowerCase: maybeToLowerCase$1, insideValueFunctionNode: insideValueFunctionNode$1, insideICSSRuleNode: insideICSSRuleNode$1, insideAtRuleNode: insideAtRuleNode$1, insideURLFunctionInImportAtRuleNode: insideURLFunctionInImportAtRuleNode$1, isKeyframeAtRuleKeywords: isKeyframeAtRuleKeywords$1, isWideKeywords: isWideKeywords$1, isSCSS: isSCSS$1, isSCSSVariable, isLastNode: isLastNode$1, isLessParser: isLessParser$1, isSCSSControlDirectiveNode: isSCSSControlDirectiveNode$1, isDetachedRulesetDeclarationNode: isDetachedRulesetDeclarationNode$1, isRelationalOperatorNode: isRelationalOperatorNode$1, isEqualityOperatorNode: isEqualityOperatorNode$1, isMultiplicationNode: isMultiplicationNode$1, isDivisionNode: isDivisionNode$1, isAdditionNode: isAdditionNode$1, isSubtractionNode: isSubtractionNode$1, isModuloNode, isMathOperatorNode: isMathOperatorNode$1, isEachKeywordNode: isEachKeywordNode$1, isForKeywordNode: isForKeywordNode$1, isURLFunctionNode: isURLFunctionNode$1, isIfElseKeywordNode: isIfElseKeywordNode$1, hasComposesNode: hasComposesNode$1, hasParensAroundNode: hasParensAroundNode$1, hasEmptyRawBefore: hasEmptyRawBefore$1, isSCSSNestedPropertyNode, isDetachedRulesetCallNode: isDetachedRulesetCallNode$1, isTemplatePlaceholderNode: isTemplatePlaceholderNode$1, isTemplatePropNode: isTemplatePropNode$1, isPostcssSimpleVarNode: isPostcssSimpleVarNode$1, isKeyValuePairNode: isKeyValuePairNode$1, isKeyValuePairInParenGroupNode, isKeyInValuePairNode: isKeyInValuePairNode$1, isSCSSMapItemNode: isSCSSMapItemNode$1, isInlineValueCommentNode: isInlineValueCommentNode$1, isHashNode: isHashNode$1, isLeftCurlyBraceNode: isLeftCurlyBraceNode$1, isRightCurlyBraceNode: isRightCurlyBraceNode$1, isWordNode: isWordNode$1, isColonNode: isColonNode$1, isMediaAndSupportsKeywords: isMediaAndSupportsKeywords$1, isColorAdjusterFuncNode: isColorAdjusterFuncNode$1, lastLineHasInlineComment: lastLineHasInlineComment$1, stringifyNode, isAtWordPlaceholderNode: isAtWordPlaceholderNode$1, isModuleRuleName, isConfigurationNode: isConfigurationNode$1, isParenGroupNode: isParenGroupNode$1 }; var lineColumnToIndex$1 = function (lineColumn, text) { let index = 0; for (let i = 0; i < lineColumn.line - 1; ++i) { index = text.indexOf("\n", index) + 1; } return index + lineColumn.column; }; const lineColumnToIndex = lineColumnToIndex$1; const { getLast: getLast$8, skipEverythingButNewLine } = util$8; function calculateLocStart(node, text) { // value-* nodes have this if (typeof node.sourceIndex === "number") { return node.sourceIndex; } return node.source ? lineColumnToIndex(node.source.start, text) - 1 : null; } function calculateLocEnd(node, text) { if (node.type === "css-comment" && node.inline) { return skipEverythingButNewLine(text, node.source.startOffset); } const endNode = node.nodes && getLast$8(node.nodes); if (endNode && node.source && !node.source.end) { node = endNode; } if (node.source && node.source.end) { return lineColumnToIndex(node.source.end, text); } return null; } function calculateLoc(node, text) { if (node.source) { node.source.startOffset = calculateLocStart(node, text); node.source.endOffset = calculateLocEnd(node, text); } for (const key in node) { const child = node[key]; if (key === "source" || !child || typeof child !== "object") { continue; } if (child.type === "value-root" || child.type === "value-unknown") { calculateValueNodeLoc(child, getValueRootOffset(node), child.text || child.value); } else { calculateLoc(child, text); } } } function calculateValueNodeLoc(node, rootOffset, text) { if (node.source) { node.source.startOffset = calculateLocStart(node, text) + rootOffset; node.source.endOffset = calculateLocEnd(node, text) + rootOffset; } for (const key in node) { const child = node[key]; if (key === "source" || !child || typeof child !== "object") { continue; } calculateValueNodeLoc(child, rootOffset, text); } } function getValueRootOffset(node) { let result = node.source.startOffset; if (typeof node.prop === "string") { result += node.prop.length; } if (node.type === "css-atrule" && typeof node.name === "string") { result += 1 + node.name.length + node.raws.afterName.match(/^\s*:?\s*/)[0].length; } if (node.type !== "css-atrule" && node.raws && typeof node.raws.between === "string") { result += node.raws.between.length; } return result; } /** * Workaround for a bug: quotes and asterisks in inline comments corrupt loc data of subsequent nodes. * This function replaces the quotes and asterisks with spaces. Later, when the comments are printed, * their content is extracted from the original text. * - https://github.com/prettier/prettier/issues/7780 * - https://github.com/shellscape/postcss-less/issues/145 * - https://github.com/prettier/prettier/issues/8130 * @param text {string} */ function replaceQuotesInInlineComments(text) { /** @typedef { 'initial' | 'single-quotes' | 'double-quotes' | 'url' | 'comment-block' | 'comment-inline' } State */ /** @type {State} */ let state = "initial"; /** @type {State} */ let stateToReturnFromQuotes = "initial"; let inlineCommentStartIndex; let inlineCommentContainsQuotes = false; const inlineCommentsToReplace = []; for (let i = 0; i < text.length; i++) { const c = text[i]; switch (state) { case "initial": if (c === "'") { state = "single-quotes"; continue; } if (c === '"') { state = "double-quotes"; continue; } if ((c === "u" || c === "U") && text.slice(i, i + 4).toLowerCase() === "url(") { state = "url"; i += 3; continue; } if (c === "*" && text[i - 1] === "/") { state = "comment-block"; continue; } if (c === "/" && text[i - 1] === "/") { state = "comment-inline"; inlineCommentStartIndex = i - 1; continue; } continue; case "single-quotes": if (c === "'" && text[i - 1] !== "\\") { state = stateToReturnFromQuotes; stateToReturnFromQuotes = "initial"; } if (c === "\n" || c === "\r") { return text; // invalid input } continue; case "double-quotes": if (c === '"' && text[i - 1] !== "\\") { state = stateToReturnFromQuotes; stateToReturnFromQuotes = "initial"; } if (c === "\n" || c === "\r") { return text; // invalid input } continue; case "url": if (c === ")") { state = "initial"; } if (c === "\n" || c === "\r") { return text; // invalid input } if (c === "'") { state = "single-quotes"; stateToReturnFromQuotes = "url"; continue; } if (c === '"') { state = "double-quotes"; stateToReturnFromQuotes = "url"; continue; } continue; case "comment-block": if (c === "/" && text[i - 1] === "*") { state = "initial"; } continue; case "comment-inline": if (c === '"' || c === "'" || c === "*") { inlineCommentContainsQuotes = true; } if (c === "\n" || c === "\r") { if (inlineCommentContainsQuotes) { inlineCommentsToReplace.push([inlineCommentStartIndex, i]); } state = "initial"; inlineCommentContainsQuotes = false; } continue; } } for (const [start, end] of inlineCommentsToReplace) { text = text.slice(0, start) + text.slice(start, end).replace(/["'*]/g, " ") + text.slice(end); } return text; } function locStart$e(node) { return node.source.startOffset; } function locEnd$d(node) { return node.source.endOffset; } var loc$5 = { locStart: locStart$e, locEnd: locEnd$d, calculateLoc, replaceQuotesInInlineComments }; const getLast$7 = getLast_1; const { printNumber, printString, hasNewline, isFrontMatterNode: isFrontMatterNode$3, isNextLineEmpty: isNextLineEmpty$3, isNonEmptyArray: isNonEmptyArray$5 } = util$8; const { builders: { join: join$a, line: line$d, hardline: hardline$c, softline: softline$9, group: group$b, fill: fill$6, indent: indent$6, dedent: dedent$2, ifBreak: ifBreak$8, breakParent: breakParent$5 }, utils: { removeLines, getDocParts: getDocParts$5 } } = require$$7$3; const clean$8 = clean_1$3; const embed$7 = embed_1$3; const { insertPragma: insertPragma$7 } = pragma$4; const { getAncestorNode: getAncestorNode$1, getPropOfDeclNode, maybeToLowerCase, insideValueFunctionNode, insideICSSRuleNode, insideAtRuleNode, insideURLFunctionInImportAtRuleNode, isKeyframeAtRuleKeywords, isWideKeywords, isSCSS, isLastNode, isLessParser, isSCSSControlDirectiveNode, isDetachedRulesetDeclarationNode, isRelationalOperatorNode, isEqualityOperatorNode, isMultiplicationNode, isDivisionNode, isAdditionNode, isSubtractionNode, isMathOperatorNode, isEachKeywordNode, isForKeywordNode, isURLFunctionNode, isIfElseKeywordNode, hasComposesNode, hasParensAroundNode, hasEmptyRawBefore, isKeyValuePairNode, isKeyInValuePairNode, isDetachedRulesetCallNode, isTemplatePlaceholderNode, isTemplatePropNode, isPostcssSimpleVarNode, isSCSSMapItemNode, isInlineValueCommentNode, isHashNode, isLeftCurlyBraceNode, isRightCurlyBraceNode, isWordNode, isColonNode, isMediaAndSupportsKeywords, isColorAdjusterFuncNode, lastLineHasInlineComment, isAtWordPlaceholderNode, isConfigurationNode, isParenGroupNode } = utils$4; const { locStart: locStart$d, locEnd: locEnd$c } = loc$5; function shouldPrintComma(options) { return options.trailingComma === "es5" || options.trailingComma === "all"; } function genericPrint$4(path, options, print) { const node = path.getValue(); /* istanbul ignore if */ if (!node) { return ""; } if (typeof node === "string") { return node; } switch (node.type) { case "front-matter": return [node.raw, hardline$c]; case "css-root": { const nodes = printNodeSequence(path, options, print); const after = node.raws.after.trim(); return [nodes, after ? ` ${after}` : "", getDocParts$5(nodes).length > 0 ? hardline$c : ""]; } case "css-comment": { const isInlineComment = node.inline || node.raws.inline; const text = options.originalText.slice(locStart$d(node), locEnd$c(node)); return isInlineComment ? text.trimEnd() : text; } case "css-rule": { return [print("selector"), node.important ? " !important" : "", node.nodes ? [node.selector && node.selector.type === "selector-unknown" && lastLineHasInlineComment(node.selector.value) ? line$d : " ", "{", node.nodes.length > 0 ? indent$6([hardline$c, printNodeSequence(path, options, print)]) : "", hardline$c, "}", isDetachedRulesetDeclarationNode(node) ? ";" : ""] : ";"]; } case "css-decl": { const parentNode = path.getParentNode(); const { between: rawBetween } = node.raws; const trimmedBetween = rawBetween.trim(); const isColon = trimmedBetween === ":"; let value = hasComposesNode(node) ? removeLines(print("value")) : print("value"); if (!isColon && lastLineHasInlineComment(trimmedBetween)) { value = indent$6([hardline$c, dedent$2(value)]); } return [node.raws.before.replace(/[\s;]/g, ""), insideICSSRuleNode(path) ? node.prop : maybeToLowerCase(node.prop), trimmedBetween.startsWith("//") ? " " : "", trimmedBetween, node.extend ? "" : " ", isLessParser(options) && node.extend && node.selector ? ["extend(", print("selector"), ")"] : "", value, node.raws.important ? node.raws.important.replace(/\s*!\s*important/i, " !important") : node.important ? " !important" : "", node.raws.scssDefault ? node.raws.scssDefault.replace(/\s*!default/i, " !default") : node.scssDefault ? " !default" : "", node.raws.scssGlobal ? node.raws.scssGlobal.replace(/\s*!global/i, " !global") : node.scssGlobal ? " !global" : "", node.nodes ? [" {", indent$6([softline$9, printNodeSequence(path, options, print)]), softline$9, "}"] : isTemplatePropNode(node) && !parentNode.raws.semicolon && options.originalText[locEnd$c(node) - 1] !== ";" ? "" : options.__isHTMLStyleAttribute && isLastNode(path, node) ? ifBreak$8(";") : ";"]; } case "css-atrule": { const parentNode = path.getParentNode(); const isTemplatePlaceholderNodeWithoutSemiColon = isTemplatePlaceholderNode(node) && !parentNode.raws.semicolon && options.originalText[locEnd$c(node) - 1] !== ";"; if (isLessParser(options)) { if (node.mixin) { return [print("selector"), node.important ? " !important" : "", isTemplatePlaceholderNodeWithoutSemiColon ? "" : ";"]; } if (node.function) { return [node.name, print("params"), isTemplatePlaceholderNodeWithoutSemiColon ? "" : ";"]; } if (node.variable) { return ["@", node.name, ": ", node.value ? print("value") : "", node.raws.between.trim() ? node.raws.between.trim() + " " : "", node.nodes ? ["{", indent$6([node.nodes.length > 0 ? softline$9 : "", printNodeSequence(path, options, print)]), softline$9, "}"] : "", isTemplatePlaceholderNodeWithoutSemiColon ? "" : ";"]; } } return ["@", // If a Less file ends up being parsed with the SCSS parser, Less // variable declarations will be parsed as at-rules with names ending // with a colon, so keep the original case then. isDetachedRulesetCallNode(node) || node.name.endsWith(":") ? node.name : maybeToLowerCase(node.name), node.params ? [isDetachedRulesetCallNode(node) ? "" : isTemplatePlaceholderNode(node) ? node.raws.afterName === "" ? "" : node.name.endsWith(":") ? " " : /^\s*\n\s*\n/.test(node.raws.afterName) ? [hardline$c, hardline$c] : /^\s*\n/.test(node.raws.afterName) ? hardline$c : " " : " ", print("params")] : "", node.selector ? indent$6([" ", print("selector")]) : "", node.value ? group$b([" ", print("value"), isSCSSControlDirectiveNode(node) ? hasParensAroundNode(node) ? " " : line$d : ""]) : node.name === "else" ? " " : "", node.nodes ? [isSCSSControlDirectiveNode(node) ? "" : node.selector && !node.selector.nodes && typeof node.selector.value === "string" && lastLineHasInlineComment(node.selector.value) || !node.selector && typeof node.params === "string" && lastLineHasInlineComment(node.params) ? line$d : " ", "{", indent$6([node.nodes.length > 0 ? softline$9 : "", printNodeSequence(path, options, print)]), softline$9, "}"] : isTemplatePlaceholderNodeWithoutSemiColon ? "" : ";"]; } // postcss-media-query-parser case "media-query-list": { const parts = []; path.each(childPath => { const node = childPath.getValue(); if (node.type === "media-query" && node.value === "") { return; } parts.push(print()); }, "nodes"); return group$b(indent$6(join$a(line$d, parts))); } case "media-query": { return [join$a(" ", path.map(print, "nodes")), isLastNode(path, node) ? "" : ","]; } case "media-type": { return adjustNumbers(adjustStrings(node.value, options)); } case "media-feature-expression": { if (!node.nodes) { return node.value; } return ["(", ...path.map(print, "nodes"), ")"]; } case "media-feature": { return maybeToLowerCase(adjustStrings(node.value.replace(/ +/g, " "), options)); } case "media-colon": { return [node.value, " "]; } case "media-value": { return adjustNumbers(adjustStrings(node.value, options)); } case "media-keyword": { return adjustStrings(node.value, options); } case "media-url": { return adjustStrings(node.value.replace(/^url\(\s+/gi, "url(").replace(/\s+\)$/g, ")"), options); } case "media-unknown": { return node.value; } // postcss-selector-parser case "selector-root": { return group$b([insideAtRuleNode(path, "custom-selector") ? [getAncestorNode$1(path, "css-atrule").customSelector, line$d] : "", join$a([",", insideAtRuleNode(path, ["extend", "custom-selector", "nest"]) ? line$d : hardline$c], path.map(print, "nodes"))]); } case "selector-selector": { return group$b(indent$6(path.map(print, "nodes"))); } case "selector-comment": { return node.value; } case "selector-string": { return adjustStrings(node.value, options); } case "selector-tag": { const parentNode = path.getParentNode(); const index = parentNode && parentNode.nodes.indexOf(node); const prevNode = index && parentNode.nodes[index - 1]; return [node.namespace ? [node.namespace === true ? "" : node.namespace.trim(), "|"] : "", prevNode.type === "selector-nesting" ? node.value : adjustNumbers(isKeyframeAtRuleKeywords(path, node.value) ? node.value.toLowerCase() : node.value)]; } case "selector-id": { return ["#", node.value]; } case "selector-class": { return [".", adjustNumbers(adjustStrings(node.value, options))]; } case "selector-attribute": { return ["[", node.namespace ? [node.namespace === true ? "" : node.namespace.trim(), "|"] : "", node.attribute.trim(), node.operator ? node.operator : "", node.value ? quoteAttributeValue(adjustStrings(node.value.trim(), options), options) : "", node.insensitive ? " i" : "", "]"]; } case "selector-combinator": { if (node.value === "+" || node.value === ">" || node.value === "~" || node.value === ">>>") { const parentNode = path.getParentNode(); const leading = parentNode.type === "selector-selector" && parentNode.nodes[0] === node ? "" : line$d; return [leading, node.value, isLastNode(path, node) ? "" : " "]; } const leading = node.value.trim().startsWith("(") ? line$d : ""; const value = adjustNumbers(adjustStrings(node.value.trim(), options)) || line$d; return [leading, value]; } case "selector-universal": { return [node.namespace ? [node.namespace === true ? "" : node.namespace.trim(), "|"] : "", node.value]; } case "selector-pseudo": { return [maybeToLowerCase(node.value), isNonEmptyArray$5(node.nodes) ? ["(", join$a(", ", path.map(print, "nodes")), ")"] : ""]; } case "selector-nesting": { return node.value; } case "selector-unknown": { const ruleAncestorNode = getAncestorNode$1(path, "css-rule"); // Nested SCSS property if (ruleAncestorNode && ruleAncestorNode.isSCSSNesterProperty) { return adjustNumbers(adjustStrings(maybeToLowerCase(node.value), options)); } // originalText has to be used for Less, see replaceQuotesInInlineComments in loc.js const parentNode = path.getParentNode(); if (parentNode.raws && parentNode.raws.selector) { const start = locStart$d(parentNode); const end = start + parentNode.raws.selector.length; return options.originalText.slice(start, end).trim(); } // Same reason above const grandParent = path.getParentNode(1); if (parentNode.type === "value-paren_group" && grandParent && grandParent.type === "value-func" && grandParent.value === "selector") { const start = locStart$d(parentNode.open) + 1; const end = locEnd$c(parentNode.close) - 1; const selector = options.originalText.slice(start, end).trim(); return lastLineHasInlineComment(selector) ? [breakParent$5, selector] : selector; } return node.value; } // postcss-values-parser case "value-value": case "value-root": { return print("group"); } case "value-comment": { return options.originalText.slice(locStart$d(node), locEnd$c(node)); } case "value-comma_group": { const parentNode = path.getParentNode(); const parentParentNode = path.getParentNode(1); const declAncestorProp = getPropOfDeclNode(path); const isGridValue = declAncestorProp && parentNode.type === "value-value" && (declAncestorProp === "grid" || declAncestorProp.startsWith("grid-template")); const atRuleAncestorNode = getAncestorNode$1(path, "css-atrule"); const isControlDirective = atRuleAncestorNode && isSCSSControlDirectiveNode(atRuleAncestorNode); const hasInlineComment = node.groups.some(node => isInlineValueCommentNode(node)); const printed = path.map(print, "groups"); const parts = []; const insideURLFunction = insideValueFunctionNode(path, "url"); let insideSCSSInterpolationInString = false; let didBreak = false; for (let i = 0; i < node.groups.length; ++i) { parts.push(printed[i]); const iPrevNode = node.groups[i - 1]; const iNode = node.groups[i]; const iNextNode = node.groups[i + 1]; const iNextNextNode = node.groups[i + 2]; if (insideURLFunction) { if (iNextNode && isAdditionNode(iNextNode) || isAdditionNode(iNode)) { parts.push(" "); } continue; } // Ignore SCSS @forward wildcard suffix if (insideAtRuleNode(path, "forward") && iNode.type === "value-word" && iNode.value && iPrevNode !== undefined && iPrevNode.type === "value-word" && iPrevNode.value === "as" && iNextNode.type === "value-operator" && iNextNode.value === "*") { continue; } // Ignore after latest node (i.e. before semicolon) if (!iNextNode) { continue; } // styled.div` background: var(--${one}); ` if (iNode.type === "value-word" && iNode.value.endsWith("-") && isAtWordPlaceholderNode(iNextNode)) { continue; } // Ignore spaces before/after string interpolation (i.e. `"#{my-fn("_")}"`) const isStartSCSSInterpolationInString = iNode.type === "value-string" && iNode.value.startsWith("#{"); const isEndingSCSSInterpolationInString = insideSCSSInterpolationInString && iNextNode.type === "value-string" && iNextNode.value.endsWith("}"); if (isStartSCSSInterpolationInString || isEndingSCSSInterpolationInString) { insideSCSSInterpolationInString = !insideSCSSInterpolationInString; continue; } if (insideSCSSInterpolationInString) { continue; } // Ignore colon (i.e. `:`) if (isColonNode(iNode) || isColonNode(iNextNode)) { continue; } // Ignore `@` in Less (i.e. `@@var;`) if (iNode.type === "value-atword" && iNode.value === "") { continue; } // Ignore `~` in Less (i.e. `content: ~"^//* some horrible but needed css hack";`) if (iNode.value === "~") { continue; } // Ignore escape `\` if (iNode.value && iNode.value.includes("\\") && iNextNode && iNextNode.type !== "value-comment") { continue; } // Ignore escaped `/` if (iPrevNode && iPrevNode.value && iPrevNode.value.indexOf("\\") === iPrevNode.value.length - 1 && iNode.type === "value-operator" && iNode.value === "/") { continue; } // Ignore `\` (i.e. `$variable: \@small;`) if (iNode.value === "\\") { continue; } // Ignore `$$` (i.e. `background-color: $$(style)Color;`) if (isPostcssSimpleVarNode(iNode, iNextNode)) { continue; } // Ignore spaces after `#` and after `{` and before `}` in SCSS interpolation (i.e. `#{variable}`) if (isHashNode(iNode) || isLeftCurlyBraceNode(iNode) || isRightCurlyBraceNode(iNextNode) || isLeftCurlyBraceNode(iNextNode) && hasEmptyRawBefore(iNextNode) || isRightCurlyBraceNode(iNode) && hasEmptyRawBefore(iNextNode)) { continue; } // Ignore css variables and interpolation in SCSS (i.e. `--#{$var}`) if (iNode.value === "--" && isHashNode(iNextNode)) { continue; } // Formatting math operations const isMathOperator = isMathOperatorNode(iNode); const isNextMathOperator = isMathOperatorNode(iNextNode); // Print spaces before and after math operators beside SCSS interpolation as is // (i.e. `#{$var}+5`, `#{$var} +5`, `#{$var}+ 5`, `#{$var} + 5`) // (i.e. `5+#{$var}`, `5 +#{$var}`, `5+ #{$var}`, `5 + #{$var}`) if ((isMathOperator && isHashNode(iNextNode) || isNextMathOperator && isRightCurlyBraceNode(iNode)) && hasEmptyRawBefore(iNextNode)) { continue; } // absolute paths are only parsed as one token if they are part of url(/abs/path) call // but if you have custom -fb-url(/abs/path/) then it is parsed as "division /" and rest // of the path. We don't want to put a space after that first division in this case. if (!iPrevNode && isDivisionNode(iNode)) { continue; } // Print spaces before and after addition and subtraction math operators as is in `calc` function // due to the fact that it is not valid syntax // (i.e. `calc(1px+1px)`, `calc(1px+ 1px)`, `calc(1px +1px)`, `calc(1px + 1px)`) if (insideValueFunctionNode(path, "calc") && (isAdditionNode(iNode) || isAdditionNode(iNextNode) || isSubtractionNode(iNode) || isSubtractionNode(iNextNode)) && hasEmptyRawBefore(iNextNode)) { continue; } // Print spaces after `+` and `-` in color adjuster functions as is (e.g. `color(red l(+ 20%))`) // Adjusters with signed numbers (e.g. `color(red l(+20%))`) output as-is. const isColorAdjusterNode = (isAdditionNode(iNode) || isSubtractionNode(iNode)) && i === 0 && (iNextNode.type === "value-number" || iNextNode.isHex) && parentParentNode && isColorAdjusterFuncNode(parentParentNode) && !hasEmptyRawBefore(iNextNode); const requireSpaceBeforeOperator = iNextNextNode && iNextNextNode.type === "value-func" || iNextNextNode && isWordNode(iNextNextNode) || iNode.type === "value-func" || isWordNode(iNode); const requireSpaceAfterOperator = iNextNode.type === "value-func" || isWordNode(iNextNode) || iPrevNode && iPrevNode.type === "value-func" || iPrevNode && isWordNode(iPrevNode); // Formatting `/`, `+`, `-` sign if (!(isMultiplicationNode(iNextNode) || isMultiplicationNode(iNode)) && !insideValueFunctionNode(path, "calc") && !isColorAdjusterNode && (isDivisionNode(iNextNode) && !requireSpaceBeforeOperator || isDivisionNode(iNode) && !requireSpaceAfterOperator || isAdditionNode(iNextNode) && !requireSpaceBeforeOperator || isAdditionNode(iNode) && !requireSpaceAfterOperator || isSubtractionNode(iNextNode) || isSubtractionNode(iNode)) && (hasEmptyRawBefore(iNextNode) || isMathOperator && (!iPrevNode || iPrevNode && isMathOperatorNode(iPrevNode)))) { continue; } // Add `hardline` after inline comment (i.e. `// comment\n foo: bar;`) if (isInlineValueCommentNode(iNode)) { if (parentNode.type === "value-paren_group") { parts.push(dedent$2(hardline$c)); continue; } parts.push(hardline$c); continue; } // Handle keywords in SCSS control directive if (isControlDirective && (isEqualityOperatorNode(iNextNode) || isRelationalOperatorNode(iNextNode) || isIfElseKeywordNode(iNextNode) || isEachKeywordNode(iNode) || isForKeywordNode(iNode))) { parts.push(" "); continue; } // At-rule `namespace` should be in one line if (atRuleAncestorNode && atRuleAncestorNode.name.toLowerCase() === "namespace") { parts.push(" "); continue; } // Formatting `grid` property if (isGridValue) { if (iNode.source && iNextNode.source && iNode.source.start.line !== iNextNode.source.start.line) { parts.push(hardline$c); didBreak = true; } else { parts.push(" "); } continue; } // Add `space` before next math operation // Note: `grip` property have `/` delimiter and it is not math operation, so // `grid` property handles above if (isNextMathOperator) { parts.push(" "); continue; } // allow function(returns-list($list)...) if (iNextNode && iNextNode.value === "...") { continue; } if (isAtWordPlaceholderNode(iNode) && isAtWordPlaceholderNode(iNextNode) && locEnd$c(iNode) === locStart$d(iNextNode)) { continue; } if (isAtWordPlaceholderNode(iNode) && isParenGroupNode(iNextNode) && locEnd$c(iNode) === locStart$d(iNextNode.open)) { parts.push(softline$9); continue; } if (iNode.value === "with" && isParenGroupNode(iNextNode)) { parts.push(" "); continue; } // Be default all values go through `line` parts.push(line$d); } if (hasInlineComment) { parts.push(breakParent$5); } if (didBreak) { parts.unshift(hardline$c); } if (isControlDirective) { return group$b(indent$6(parts)); } // Indent is not needed for import url when url is very long // and node has two groups // when type is value-comma_group // example @import url("verylongurl") projection,tv if (insideURLFunctionInImportAtRuleNode(path)) { return group$b(fill$6(parts)); } return group$b(indent$6(fill$6(parts))); } case "value-paren_group": { const parentNode = path.getParentNode(); if (parentNode && isURLFunctionNode(parentNode) && (node.groups.length === 1 || node.groups.length > 0 && node.groups[0].type === "value-comma_group" && node.groups[0].groups.length > 0 && node.groups[0].groups[0].type === "value-word" && node.groups[0].groups[0].value.startsWith("data:"))) { return [node.open ? print("open") : "", join$a(",", path.map(print, "groups")), node.close ? print("close") : ""]; } if (!node.open) { const printed = path.map(print, "groups"); const res = []; for (let i = 0; i < printed.length; i++) { if (i !== 0) { res.push([",", line$d]); } res.push(printed[i]); } return group$b(indent$6(fill$6(res))); } const isSCSSMapItem = isSCSSMapItemNode(path); const lastItem = getLast$7(node.groups); const isLastItemComment = lastItem && lastItem.type === "value-comment"; const isKey = isKeyInValuePairNode(node, parentNode); const isConfiguration = isConfigurationNode(node, parentNode); const shouldBreak = isConfiguration || isSCSSMapItem && !isKey; const shouldDedent = isConfiguration || isKey; const printed = group$b([node.open ? print("open") : "", indent$6([softline$9, join$a([",", line$d], path.map(childPath => { const node = childPath.getValue(); const printed = print(); // Key/Value pair in open paren already indented if (isKeyValuePairNode(node) && node.type === "value-comma_group" && node.groups && node.groups[0].type !== "value-paren_group" && node.groups[2] && node.groups[2].type === "value-paren_group") { const parts = getDocParts$5(printed.contents.contents); parts[1] = group$b(parts[1]); return group$b(dedent$2(printed)); } return printed; }, "groups"))]), ifBreak$8(!isLastItemComment && isSCSS(options.parser, options.originalText) && isSCSSMapItem && shouldPrintComma(options) ? "," : ""), softline$9, node.close ? print("close") : ""], { shouldBreak }); return shouldDedent ? dedent$2(printed) : printed; } case "value-func": { return [node.value, insideAtRuleNode(path, "supports") && isMediaAndSupportsKeywords(node) ? " " : "", print("group")]; } case "value-paren": { return node.value; } case "value-number": { return [printCssNumber(node.value), maybeToLowerCase(node.unit)]; } case "value-operator": { return node.value; } case "value-word": { if (node.isColor && node.isHex || isWideKeywords(node.value)) { return node.value.toLowerCase(); } return node.value; } case "value-colon": { const parentNode = path.getParentNode(); const index = parentNode && parentNode.groups.indexOf(node); const prevNode = index && parentNode.groups[index - 1]; return [node.value, // Don't add spaces on escaped colon `:`, e.g: grid-template-rows: [row-1-00\:00] auto; prevNode && typeof prevNode.value === "string" && getLast$7(prevNode.value) === "\\" || // Don't add spaces on `:` in `url` function (i.e. `url(fbglyph: cross-outline, fig-white)`) insideValueFunctionNode(path, "url") ? "" : line$d]; } // TODO: confirm this code is dead /* istanbul ignore next */ case "value-comma": { return [node.value, " "]; } case "value-string": { return printString(node.raws.quote + node.value + node.raws.quote, options); } case "value-atword": { return ["@", node.value]; } case "value-unicode-range": { return node.value; } case "value-unknown": { return node.value; } default: /* istanbul ignore next */ throw new Error(`Unknown postcss type ${JSON.stringify(node.type)}`); } } function printNodeSequence(path, options, print) { const parts = []; path.each((pathChild, i, nodes) => { const prevNode = nodes[i - 1]; if (prevNode && prevNode.type === "css-comment" && prevNode.text.trim() === "prettier-ignore") { const childNode = pathChild.getValue(); parts.push(options.originalText.slice(locStart$d(childNode), locEnd$c(childNode))); } else { parts.push(print()); } if (i !== nodes.length - 1) { if (nodes[i + 1].type === "css-comment" && !hasNewline(options.originalText, locStart$d(nodes[i + 1]), { backwards: true }) && !isFrontMatterNode$3(nodes[i]) || nodes[i + 1].type === "css-atrule" && nodes[i + 1].name === "else" && nodes[i].type !== "css-comment") { parts.push(" "); } else { parts.push(options.__isHTMLStyleAttribute ? line$d : hardline$c); if (isNextLineEmpty$3(options.originalText, pathChild.getValue(), locEnd$c) && !isFrontMatterNode$3(nodes[i])) { parts.push(hardline$c); } } } }, "nodes"); return parts; } const STRING_REGEX = /(["'])(?:(?!\1)[^\\]|\\.)*\1/gs; const NUMBER_REGEX = /(?:\d*\.\d+|\d+\.?)(?:[Ee][+-]?\d+)?/g; const STANDARD_UNIT_REGEX = /[A-Za-z]+/g; const WORD_PART_REGEX = /[$@]?[A-Z_a-z\u0080-\uFFFF][\w\u0080-\uFFFF-]*/g; const ADJUST_NUMBERS_REGEX = new RegExp(STRING_REGEX.source + "|" + `(${WORD_PART_REGEX.source})?` + `(${NUMBER_REGEX.source})` + `(${STANDARD_UNIT_REGEX.source})?`, "g"); function adjustStrings(value, options) { return value.replace(STRING_REGEX, match => printString(match, options)); } function quoteAttributeValue(value, options) { const quote = options.singleQuote ? "'" : '"'; return value.includes('"') || value.includes("'") ? value : quote + value + quote; } function adjustNumbers(value) { return value.replace(ADJUST_NUMBERS_REGEX, (match, quote, wordPart, number, unit) => !wordPart && number ? printCssNumber(number) + maybeToLowerCase(unit || "") : match); } function printCssNumber(rawNumber) { return printNumber(rawNumber) // Remove trailing `.0`. .replace(/\.0(?=$|e)/, ""); } var printerPostcss = { print: genericPrint$4, embed: embed$7, insertPragma: insertPragma$7, massageAstNode: clean$8 }; const commonOptions$4 = commonOptions$6; // format based on https://github.com/prettier/prettier/blob/main/src/main/core-options.js var options$9 = { singleQuote: commonOptions$4.singleQuote }; var parsers$b = { // TODO: switch these to just `postcss` and use `language` instead. get css() { return require("./parser-postcss.js").parsers.css; }, get less() { return require("./parser-postcss.js").parsers.less; }, get scss() { return require("./parser-postcss.js").parsers.scss; } }; var name$9 = "CSS"; var type$9 = "markup"; var tmScope$9 = "source.css"; var aceMode$9 = "css"; var codemirrorMode$5 = "css"; var codemirrorMimeType$5 = "text/css"; var color$8 = "#563d7c"; var extensions$9 = [ ".css" ]; var languageId$9 = 50; var require$$4$5 = { name: name$9, type: type$9, tmScope: tmScope$9, aceMode: aceMode$9, codemirrorMode: codemirrorMode$5, codemirrorMimeType: codemirrorMimeType$5, color: color$8, extensions: extensions$9, languageId: languageId$9 }; var name$8 = "PostCSS"; var type$8 = "markup"; var tmScope$8 = "source.postcss"; var group$a = "CSS"; var extensions$8 = [ ".pcss", ".postcss" ]; var aceMode$8 = "text"; var languageId$8 = 262764437; var require$$5$1 = { name: name$8, type: type$8, tmScope: tmScope$8, group: group$a, extensions: extensions$8, aceMode: aceMode$8, languageId: languageId$8 }; var name$7 = "Less"; var type$7 = "markup"; var color$7 = "#1d365d"; var extensions$7 = [ ".less" ]; var tmScope$7 = "source.css.less"; var aceMode$7 = "less"; var codemirrorMode$4 = "css"; var codemirrorMimeType$4 = "text/css"; var languageId$7 = 198; var require$$6 = { name: name$7, type: type$7, color: color$7, extensions: extensions$7, tmScope: tmScope$7, aceMode: aceMode$7, codemirrorMode: codemirrorMode$4, codemirrorMimeType: codemirrorMimeType$4, languageId: languageId$7 }; var name$6 = "SCSS"; var type$6 = "markup"; var color$6 = "#c6538c"; var tmScope$6 = "source.css.scss"; var aceMode$6 = "scss"; var codemirrorMode$3 = "css"; var codemirrorMimeType$3 = "text/x-scss"; var extensions$6 = [ ".scss" ]; var languageId$6 = 329; var require$$7 = { name: name$6, type: type$6, color: color$6, tmScope: tmScope$6, aceMode: aceMode$6, codemirrorMode: codemirrorMode$3, codemirrorMimeType: codemirrorMimeType$3, extensions: extensions$6, languageId: languageId$6 }; const createLanguage$5 = createLanguage$7; const printer$5 = printerPostcss; const options$8 = options$9; const parsers$a = parsers$b; const languages$6 = [createLanguage$5(require$$4$5, data => ({ since: "1.4.0", parsers: ["css"], vscodeLanguageIds: ["css"], extensions: [...data.extensions, // `WeiXin Style Sheets`(Weixin Mini Programs) // https://developers.weixin.qq.com/miniprogram/en/dev/framework/view/wxs/ ".wxss"] })), createLanguage$5(require$$5$1, () => ({ since: "1.4.0", parsers: ["css"], vscodeLanguageIds: ["postcss"] })), createLanguage$5(require$$6, () => ({ since: "1.4.0", parsers: ["less"], vscodeLanguageIds: ["less"] })), createLanguage$5(require$$7, () => ({ since: "1.4.0", parsers: ["scss"], vscodeLanguageIds: ["scss"] }))]; const printers$4 = { postcss: printer$5 }; var languageCss = { languages: languages$6, options: options$8, printers: printers$4, parsers: parsers$a }; function locStart$c(node) { return node.loc.start.offset; } function locEnd$b(node) { return node.loc.end.offset; } var loc$4 = { locStart: locStart$c, locEnd: locEnd$b }; function clean$7(ast, newNode /*, parent*/ ) { // (Glimmer/HTML) ignore TextNode if (ast.type === "TextNode") { const trimmed = ast.chars.trim(); if (!trimmed) { return null; } newNode.chars = trimmed.replace(/[\t\n\f\r ]+/g, " "); } // `class` is reformatted if (ast.type === "AttrNode" && ast.name.toLowerCase() === "class") { delete newNode.value; } } clean$7.ignoredProperties = new Set(["loc", "selfClosing"]); var clean_1$2 = clean$7; var require$$0$1 = [ "area", "base", "basefont", "bgsound", "br", "col", "command", "embed", "frame", "hr", "image", "img", "input", "isindex", "keygen", "link", "menuitem", "meta", "nextid", "param", "source", "track", "wbr" ]; const htmlVoidElements = require$$0$1; const getLast$6 = getLast_1; function isLastNodeOfSiblings$1(path) { const node = path.getValue(); const parentNode = path.getParentNode(0); if (isParentOfSomeType$1(path, ["ElementNode"]) && getLast$6(parentNode.children) === node) { return true; } if (isParentOfSomeType$1(path, ["Block"]) && getLast$6(parentNode.body) === node) { return true; } return false; } function isUppercase(string) { return string.toUpperCase() === string; } function isGlimmerComponent(node) { return isNodeOfSomeType$1(node, ["ElementNode"]) && typeof node.tag === "string" && node.tag[0] !== ":" && (isUppercase(node.tag[0]) || node.tag.includes(".")); } const voidTags = new Set(htmlVoidElements); function isVoid$1(node) { return isGlimmerComponent(node) && node.children.every(node => isWhitespaceNode$1(node)) || voidTags.has(node.tag); } function isWhitespaceNode$1(node) { return isNodeOfSomeType$1(node, ["TextNode"]) && !/\S/.test(node.chars); } function isNodeOfSomeType$1(node, types) { return node && types.includes(node.type); } function isParentOfSomeType$1(path, types) { const parentNode = path.getParentNode(0); return isNodeOfSomeType$1(parentNode, types); } function isPreviousNodeOfSomeType$1(path, types) { const previousNode = getPreviousNode$1(path); return isNodeOfSomeType$1(previousNode, types); } function isNextNodeOfSomeType$1(path, types) { const nextNode = getNextNode$1(path); return isNodeOfSomeType$1(nextNode, types); } function getSiblingNode(path, offset) { const node = path.getValue(); const parentNode = path.getParentNode(0) || {}; const children = parentNode.children || parentNode.body || parentNode.parts || []; const index = children.indexOf(node); return index !== -1 && children[index + offset]; } function getPreviousNode$1(path, lookBack = 1) { return getSiblingNode(path, -lookBack); } function getNextNode$1(path) { return getSiblingNode(path, 1); } function isPrettierIgnoreNode(node) { return isNodeOfSomeType$1(node, ["MustacheCommentStatement"]) && typeof node.value === "string" && node.value.trim() === "prettier-ignore"; } function hasPrettierIgnore$8(path) { const node = path.getValue(); const previousPreviousNode = getPreviousNode$1(path, 2); return isPrettierIgnoreNode(node) || isPrettierIgnoreNode(previousPreviousNode); } var utils$3 = { getNextNode: getNextNode$1, getPreviousNode: getPreviousNode$1, hasPrettierIgnore: hasPrettierIgnore$8, isLastNodeOfSiblings: isLastNodeOfSiblings$1, isNextNodeOfSomeType: isNextNodeOfSomeType$1, isNodeOfSomeType: isNodeOfSomeType$1, isParentOfSomeType: isParentOfSomeType$1, isPreviousNodeOfSomeType: isPreviousNodeOfSomeType$1, isVoid: isVoid$1, isWhitespaceNode: isWhitespaceNode$1 }; const { builders: { dedent: dedent$1, fill: fill$5, group: group$9, hardline: hardline$b, ifBreak: ifBreak$7, indent: indent$5, join: join$9, line: line$c, softline: softline$8 }, utils: { getDocParts: getDocParts$4, replaceTextEndOfLine: replaceTextEndOfLine$8 } } = require$$7$3; const { getPreferredQuote, isNonEmptyArray: isNonEmptyArray$4 } = util$8; const { locStart: locStart$b, locEnd: locEnd$a } = loc$4; const clean$6 = clean_1$2; const { getNextNode, getPreviousNode, hasPrettierIgnore: hasPrettierIgnore$7, isLastNodeOfSiblings, isNextNodeOfSomeType, isNodeOfSomeType, isParentOfSomeType, isPreviousNodeOfSomeType, isVoid, isWhitespaceNode } = utils$3; const NEWLINES_TO_PRESERVE_MAX = 2; // Formatter based on @glimmerjs/syntax's built-in test formatter: // https://github.com/glimmerjs/glimmer-vm/blob/master/packages/%40glimmer/syntax/lib/generation/print.ts function print(path, options, print) { const node = path.getValue(); /* istanbul ignore if*/ if (!node) { return ""; } if (hasPrettierIgnore$7(path)) { return options.originalText.slice(locStart$b(node), locEnd$a(node)); } const favoriteQuote = options.singleQuote ? "'" : '"'; switch (node.type) { case "Block": case "Program": case "Template": { return group$9(path.map(print, "body")); } case "ElementNode": { const startingTag = group$9(printStartingTag(path, print)); const escapeNextElementNode = options.htmlWhitespaceSensitivity === "ignore" && isNextNodeOfSomeType(path, ["ElementNode"]) ? softline$8 : ""; if (isVoid(node)) { return [startingTag, escapeNextElementNode]; } const endingTag = [""]; if (node.children.length === 0) { return [startingTag, indent$5(endingTag), escapeNextElementNode]; } if (options.htmlWhitespaceSensitivity === "ignore") { return [startingTag, indent$5(printChildren$5(path, options, print)), hardline$b, indent$5(endingTag), escapeNextElementNode]; } return [startingTag, indent$5(group$9(printChildren$5(path, options, print))), indent$5(endingTag), escapeNextElementNode]; } case "BlockStatement": { const pp = path.getParentNode(1); const isElseIf = pp && pp.inverse && pp.inverse.body.length === 1 && pp.inverse.body[0] === node && pp.inverse.body[0].path.parts[0] === "if"; if (isElseIf) { return [printElseIfBlock(path, print), printProgram(path, print, options), printInverse(path, print, options)]; } return [printOpenBlock(path, print), group$9([printProgram(path, print, options), printInverse(path, print, options), printCloseBlock(path, print, options)])]; } case "ElementModifierStatement": { return group$9(["{{", printPathAndParams(path, print), "}}"]); } case "MustacheStatement": { return group$9([printOpeningMustache(node), printPathAndParams(path, print), printClosingMustache(node)]); } case "SubExpression": { return group$9(["(", printSubExpressionPathAndParams(path, print), softline$8, ")"]); } case "AttrNode": { const isText = node.value.type === "TextNode"; const isEmptyText = isText && node.value.chars === ""; // If the text is empty and the value's loc start and end offsets are the // same, there is no value for this AttrNode and it should be printed // without the `=""`. Example: `` -> `` if (isEmptyText && locStart$b(node.value) === locEnd$a(node.value)) { return node.name; } // Let's assume quotes inside the content of text nodes are already // properly escaped with entities, otherwise the parse wouldn't have parsed them. const quote = isText ? getPreferredQuote(node.value.chars, favoriteQuote).quote : node.value.type === "ConcatStatement" ? getPreferredQuote(node.value.parts.filter(part => part.type === "TextNode").map(part => part.chars).join(""), favoriteQuote).quote : ""; const valueDoc = print("value"); return [node.name, "=", quote, node.name === "class" && quote ? group$9(indent$5(valueDoc)) : valueDoc, quote]; } case "ConcatStatement": { return path.map(print, "parts"); } case "Hash": { return join$9(line$c, path.map(print, "pairs")); } case "HashPair": { return [node.key, "=", print("value")]; } case "TextNode": { /* if `{{my-component}}` (or any text containing "{{") * makes it to the TextNode, it means it was escaped, * so let's print it escaped, ie.; `\{{my-component}}` */ let text = node.chars.replace(/{{/g, "\\{{"); const attrName = getCurrentAttributeName(path); if (attrName) { // TODO: format style and srcset attributes if (attrName === "class") { const formattedClasses = text.trim().split(/\s+/).join(" "); let leadingSpace = false; let trailingSpace = false; if (isParentOfSomeType(path, ["ConcatStatement"])) { if (isPreviousNodeOfSomeType(path, ["MustacheStatement"]) && /^\s/.test(text)) { leadingSpace = true; } if (isNextNodeOfSomeType(path, ["MustacheStatement"]) && /\s$/.test(text) && formattedClasses !== "") { trailingSpace = true; } } return [leadingSpace ? line$c : "", formattedClasses, trailingSpace ? line$c : ""]; } return replaceTextEndOfLine$8(text); } const whitespacesOnlyRE = /^[\t\n\f\r ]*$/; const isWhitespaceOnly = whitespacesOnlyRE.test(text); const isFirstElement = !getPreviousNode(path); const isLastElement = !getNextNode(path); if (options.htmlWhitespaceSensitivity !== "ignore") { // https://infra.spec.whatwg.org/#ascii-whitespace const leadingWhitespacesRE = /^[\t\n\f\r ]*/; const trailingWhitespacesRE = /[\t\n\f\r ]*$/; // let's remove the file's final newline // https://github.com/ember-cli/ember-new-output/blob/1a04c67ddd02ccb35e0ff41bb5cbce34b31173ef/.editorconfig#L16 const shouldTrimTrailingNewlines = isLastElement && isParentOfSomeType(path, ["Template"]); const shouldTrimLeadingNewlines = isFirstElement && isParentOfSomeType(path, ["Template"]); if (isWhitespaceOnly) { if (shouldTrimLeadingNewlines || shouldTrimTrailingNewlines) { return ""; } let breaks = [line$c]; const newlines = countNewLines(text); if (newlines) { breaks = generateHardlines(newlines); } if (isLastNodeOfSiblings(path)) { breaks = breaks.map(newline => dedent$1(newline)); } return breaks; } const [lead] = text.match(leadingWhitespacesRE); const [tail] = text.match(trailingWhitespacesRE); let leadBreaks = []; if (lead) { leadBreaks = [line$c]; const leadingNewlines = countNewLines(lead); if (leadingNewlines) { leadBreaks = generateHardlines(leadingNewlines); } text = text.replace(leadingWhitespacesRE, ""); } let trailBreaks = []; if (tail) { if (!shouldTrimTrailingNewlines) { trailBreaks = [line$c]; const trailingNewlines = countNewLines(tail); if (trailingNewlines) { trailBreaks = generateHardlines(trailingNewlines); } if (isLastNodeOfSiblings(path)) { trailBreaks = trailBreaks.map(hardline => dedent$1(hardline)); } } text = text.replace(trailingWhitespacesRE, ""); } return [...leadBreaks, fill$5(getTextValueParts$3(text)), ...trailBreaks]; } const lineBreaksCount = countNewLines(text); let leadingLineBreaksCount = countLeadingNewLines(text); let trailingLineBreaksCount = countTrailingNewLines(text); if ((isFirstElement || isLastElement) && isWhitespaceOnly && isParentOfSomeType(path, ["Block", "ElementNode", "Template"])) { return ""; } if (isWhitespaceOnly && lineBreaksCount) { leadingLineBreaksCount = Math.min(lineBreaksCount, NEWLINES_TO_PRESERVE_MAX); trailingLineBreaksCount = 0; } else { if (isNextNodeOfSomeType(path, ["BlockStatement", "ElementNode"])) { trailingLineBreaksCount = Math.max(trailingLineBreaksCount, 1); } if (isPreviousNodeOfSomeType(path, ["BlockStatement", "ElementNode"])) { leadingLineBreaksCount = Math.max(leadingLineBreaksCount, 1); } } let leadingSpace = ""; let trailingSpace = ""; if (trailingLineBreaksCount === 0 && isNextNodeOfSomeType(path, ["MustacheStatement"])) { trailingSpace = " "; } if (leadingLineBreaksCount === 0 && isPreviousNodeOfSomeType(path, ["MustacheStatement"])) { leadingSpace = " "; } if (isFirstElement) { leadingLineBreaksCount = 0; leadingSpace = ""; } if (isLastElement) { trailingLineBreaksCount = 0; trailingSpace = ""; } text = text.replace(/^[\t\n\f\r ]+/g, leadingSpace).replace(/[\t\n\f\r ]+$/, trailingSpace); return [...generateHardlines(leadingLineBreaksCount), fill$5(getTextValueParts$3(text)), ...generateHardlines(trailingLineBreaksCount)]; } case "MustacheCommentStatement": { const start = locStart$b(node); const end = locEnd$a(node); // Starts with `{{~` const isLeftWhiteSpaceSensitive = options.originalText.charAt(start + 2) === "~"; // Ends with `{{~` const isRightWhitespaceSensitive = options.originalText.charAt(end - 3) === "~"; const dashes = node.value.includes("}}") ? "--" : ""; return ["{{", isLeftWhiteSpaceSensitive ? "~" : "", "!", dashes, node.value, dashes, isRightWhitespaceSensitive ? "~" : "", "}}"]; } case "PathExpression": { return node.original; } case "BooleanLiteral": { return String(node.value); } case "CommentStatement": { return [""]; } case "StringLiteral": { if (needsOppositeQuote(path)) { const printFavoriteQuote = !options.singleQuote ? "'" : '"'; return printStringLiteral(node.value, printFavoriteQuote); } return printStringLiteral(node.value, favoriteQuote); } case "NumberLiteral": { return String(node.value); } case "UndefinedLiteral": { return "undefined"; } case "NullLiteral": { return "null"; } /* istanbul ignore next */ default: throw new Error("unknown glimmer type: " + JSON.stringify(node.type)); } } /* ElementNode print helpers */ function sortByLoc(a, b) { return locStart$b(a) - locStart$b(b); } function printStartingTag(path, print) { const node = path.getValue(); const types = ["attributes", "modifiers", "comments"].filter(property => isNonEmptyArray$4(node[property])); const attributes = types.flatMap(type => node[type]).sort(sortByLoc); for (const attributeType of types) { path.each(attributePath => { const index = attributes.indexOf(attributePath.getValue()); attributes.splice(index, 1, [line$c, print()]); }, attributeType); } if (isNonEmptyArray$4(node.blockParams)) { attributes.push(line$c, printBlockParams(node)); } return ["<", node.tag, indent$5(attributes), printStartingTagEndMarker(node)]; } function printChildren$5(path, options, print) { const node = path.getValue(); const isEmpty = node.children.every(node => isWhitespaceNode(node)); if (options.htmlWhitespaceSensitivity === "ignore" && isEmpty) { return ""; } return path.map((childPath, childIndex) => { const printedChild = print(); if (childIndex === 0 && options.htmlWhitespaceSensitivity === "ignore") { return [softline$8, printedChild]; } return printedChild; }, "children"); } function printStartingTagEndMarker(node) { if (isVoid(node)) { return ifBreak$7([softline$8, "/>"], [" />", softline$8]); } return ifBreak$7([softline$8, ">"], ">"); } /* MustacheStatement print helpers */ function printOpeningMustache(node) { const mustache = node.escaped === false ? "{{{" : "{{"; const strip = node.strip && node.strip.open ? "~" : ""; return [mustache, strip]; } function printClosingMustache(node) { const mustache = node.escaped === false ? "}}}" : "}}"; const strip = node.strip && node.strip.close ? "~" : ""; return [strip, mustache]; } /* BlockStatement print helpers */ function printOpeningBlockOpeningMustache(node) { const opening = printOpeningMustache(node); const strip = node.openStrip.open ? "~" : ""; return [opening, strip, "#"]; } function printOpeningBlockClosingMustache(node) { const closing = printClosingMustache(node); const strip = node.openStrip.close ? "~" : ""; return [strip, closing]; } function printClosingBlockOpeningMustache(node) { const opening = printOpeningMustache(node); const strip = node.closeStrip.open ? "~" : ""; return [opening, strip, "/"]; } function printClosingBlockClosingMustache(node) { const closing = printClosingMustache(node); const strip = node.closeStrip.close ? "~" : ""; return [strip, closing]; } function printInverseBlockOpeningMustache(node) { const opening = printOpeningMustache(node); const strip = node.inverseStrip.open ? "~" : ""; return [opening, strip]; } function printInverseBlockClosingMustache(node) { const closing = printClosingMustache(node); const strip = node.inverseStrip.close ? "~" : ""; return [strip, closing]; } function printOpenBlock(path, print) { const node = path.getValue(); const openingMustache = printOpeningBlockOpeningMustache(node); const closingMustache = printOpeningBlockClosingMustache(node); const attributes = [printPath(path, print)]; const params = printParams(path, print); if (params) { attributes.push(line$c, params); } if (isNonEmptyArray$4(node.program.blockParams)) { const block = printBlockParams(node.program); attributes.push(line$c, block); } return group$9([openingMustache, indent$5(attributes), softline$8, closingMustache]); } function printElseBlock(node, options) { return [options.htmlWhitespaceSensitivity === "ignore" ? hardline$b : "", printInverseBlockOpeningMustache(node), "else", printInverseBlockClosingMustache(node)]; } function printElseIfBlock(path, print) { const parentNode = path.getParentNode(1); return [printInverseBlockOpeningMustache(parentNode), "else if ", printParams(path, print), printInverseBlockClosingMustache(parentNode)]; } function printCloseBlock(path, print, options) { const node = path.getValue(); if (options.htmlWhitespaceSensitivity === "ignore") { const escape = blockStatementHasOnlyWhitespaceInProgram(node) ? softline$8 : hardline$b; return [escape, printClosingBlockOpeningMustache(node), print("path"), printClosingBlockClosingMustache(node)]; } return [printClosingBlockOpeningMustache(node), print("path"), printClosingBlockClosingMustache(node)]; } function blockStatementHasOnlyWhitespaceInProgram(node) { return isNodeOfSomeType(node, ["BlockStatement"]) && node.program.body.every(node => isWhitespaceNode(node)); } function blockStatementHasElseIf(node) { return blockStatementHasElse(node) && node.inverse.body.length === 1 && isNodeOfSomeType(node.inverse.body[0], ["BlockStatement"]) && node.inverse.body[0].path.parts[0] === "if"; } function blockStatementHasElse(node) { return isNodeOfSomeType(node, ["BlockStatement"]) && node.inverse; } function printProgram(path, print, options) { const node = path.getValue(); if (blockStatementHasOnlyWhitespaceInProgram(node)) { return ""; } const program = print("program"); if (options.htmlWhitespaceSensitivity === "ignore") { return indent$5([hardline$b, program]); } return indent$5(program); } function printInverse(path, print, options) { const node = path.getValue(); const inverse = print("inverse"); const printed = options.htmlWhitespaceSensitivity === "ignore" ? [hardline$b, inverse] : inverse; if (blockStatementHasElseIf(node)) { return printed; } if (blockStatementHasElse(node)) { return [printElseBlock(node, options), indent$5(printed)]; } return ""; } /* TextNode print helpers */ function getTextValueParts$3(value) { return getDocParts$4(join$9(line$c, splitByHtmlWhitespace$1(value))); } function splitByHtmlWhitespace$1(string) { return string.split(/[\t\n\f\r ]+/); } function getCurrentAttributeName(path) { for (let depth = 0; depth < 2; depth++) { const parentNode = path.getParentNode(depth); if (parentNode && parentNode.type === "AttrNode") { return parentNode.name.toLowerCase(); } } } function countNewLines(string) { /* istanbul ignore next */ string = typeof string === "string" ? string : ""; return string.split("\n").length - 1; } function countLeadingNewLines(string) { /* istanbul ignore next */ string = typeof string === "string" ? string : ""; const newLines = (string.match(/^([^\S\n\r]*[\n\r])+/g) || [])[0] || ""; return countNewLines(newLines); } function countTrailingNewLines(string) { /* istanbul ignore next */ string = typeof string === "string" ? string : ""; const newLines = (string.match(/([\n\r][^\S\n\r]*)+$/g) || [])[0] || ""; return countNewLines(newLines); } function generateHardlines(number = 0) { return Array.from({ length: Math.min(number, NEWLINES_TO_PRESERVE_MAX) }).fill(hardline$b); } /* StringLiteral print helpers */ /** @typedef {import("../common/util").Quote} Quote */ /** * Prints a string literal with the correct surrounding quotes based on * `options.singleQuote` and the number of escaped quotes contained in * the string literal. This function is the glimmer equivalent of `printString` * in `common/util`, but has differences because of the way escaped characters * are treated in hbs string literals. * @param {string} stringLiteral - the string literal value * @param {Quote} favoriteQuote - the user's preferred quote: `'` or `"` */ function printStringLiteral(stringLiteral, favoriteQuote) { const { quote, regex } = getPreferredQuote(stringLiteral, favoriteQuote); return [quote, stringLiteral.replace(regex, `\\${quote}`), quote]; } function needsOppositeQuote(path) { let index = 0; let parentNode = path.getParentNode(index); while (parentNode && isNodeOfSomeType(parentNode, ["SubExpression"])) { index++; parentNode = path.getParentNode(index); } if (parentNode && isNodeOfSomeType(path.getParentNode(index + 1), ["ConcatStatement"]) && isNodeOfSomeType(path.getParentNode(index + 2), ["AttrNode"])) { return true; } return false; } /* SubExpression print helpers */ function printSubExpressionPathAndParams(path, print) { const p = printPath(path, print); const params = printParams(path, print); if (!params) { return p; } return indent$5([p, line$c, group$9(params)]); } /* misc. print helpers */ function printPathAndParams(path, print) { const p = printPath(path, print); const params = printParams(path, print); if (!params) { return p; } return [indent$5([p, line$c, params]), softline$8]; } function printPath(path, print) { return print("path"); } function printParams(path, print) { const node = path.getValue(); const parts = []; if (node.params.length > 0) { const params = path.map(print, "params"); parts.push(...params); } if (node.hash && node.hash.pairs.length > 0) { const hash = print("hash"); parts.push(hash); } if (parts.length === 0) { return ""; } return join$9(line$c, parts); } function printBlockParams(node) { return ["as |", node.blockParams.join(" "), "|"]; } var printerGlimmer = { print, massageAstNode: clean$6 }; var parsers$9 = { get glimmer() { return require("./parser-glimmer.js").parsers.glimmer; } }; var name$5 = "Handlebars"; var type$5 = "markup"; var color$5 = "#f7931e"; var aliases$3 = [ "hbs", "htmlbars" ]; var extensions$5 = [ ".handlebars", ".hbs" ]; var tmScope$5 = "text.html.handlebars"; var aceMode$5 = "handlebars"; var languageId$5 = 155; var require$$3 = { name: name$5, type: type$5, color: color$5, aliases: aliases$3, extensions: extensions$5, tmScope: tmScope$5, aceMode: aceMode$5, languageId: languageId$5 }; const createLanguage$4 = createLanguage$7; const printer$4 = printerGlimmer; const parsers$8 = parsers$9; const languages$5 = [createLanguage$4(require$$3, () => ({ since: "2.3.0", parsers: ["glimmer"], vscodeLanguageIds: ["handlebars"] }))]; const printers$3 = { glimmer: printer$4 }; var languageHandlebars = { languages: languages$5, printers: printers$3, parsers: parsers$8 }; function hasPragma$2(text) { return /^\s*#[^\S\n]*@(?:format|prettier)\s*(?:\n|$)/.test(text); } function insertPragma$6(text) { return "# @format\n\n" + text; } var pragma$3 = { hasPragma: hasPragma$2, insertPragma: insertPragma$6 }; function locStart$a(node) { if (typeof node.start === "number") { return node.start; } return node.loc && node.loc.start; } function locEnd$9(node) { if (typeof node.end === "number") { return node.end; } return node.loc && node.loc.end; } var loc$3 = { locStart: locStart$a, locEnd: locEnd$9 }; const { builders: { join: join$8, hardline: hardline$a, line: line$b, softline: softline$7, group: group$8, indent: indent$4, ifBreak: ifBreak$6 } } = require$$7$3; const { isNextLineEmpty: isNextLineEmpty$2, isNonEmptyArray: isNonEmptyArray$3 } = util$8; const { insertPragma: insertPragma$5 } = pragma$3; const { locStart: locStart$9, locEnd: locEnd$8 } = loc$3; function genericPrint$3(path, options, print) { const node = path.getValue(); if (!node) { return ""; } if (typeof node === "string") { return node; } switch (node.kind) { case "Document": { const parts = []; path.each((pathChild, index, definitions) => { parts.push(print()); if (index !== definitions.length - 1) { parts.push(hardline$a); if (isNextLineEmpty$2(options.originalText, pathChild.getValue(), locEnd$8)) { parts.push(hardline$a); } } }, "definitions"); return [...parts, hardline$a]; } case "OperationDefinition": { const hasOperation = options.originalText[locStart$9(node)] !== "{"; const hasName = Boolean(node.name); return [hasOperation ? node.operation : "", hasOperation && hasName ? [" ", print("name")] : "", hasOperation && !hasName && isNonEmptyArray$3(node.variableDefinitions) ? " " : "", isNonEmptyArray$3(node.variableDefinitions) ? group$8(["(", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.map(print, "variableDefinitions"))]), softline$7, ")"]) : "", printDirectives(path, print, node), node.selectionSet ? !hasOperation && !hasName ? "" : " " : "", print("selectionSet")]; } case "FragmentDefinition": { return ["fragment ", print("name"), isNonEmptyArray$3(node.variableDefinitions) ? group$8(["(", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.map(print, "variableDefinitions"))]), softline$7, ")"]) : "", " on ", print("typeCondition"), printDirectives(path, print, node), " ", print("selectionSet")]; } case "SelectionSet": { return ["{", indent$4([hardline$a, join$8(hardline$a, path.call(selectionsPath => printSequence(selectionsPath, options, print), "selections"))]), hardline$a, "}"]; } case "Field": { return group$8([node.alias ? [print("alias"), ": "] : "", print("name"), node.arguments.length > 0 ? group$8(["(", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.call(argsPath => printSequence(argsPath, options, print), "arguments"))]), softline$7, ")"]) : "", printDirectives(path, print, node), node.selectionSet ? " " : "", print("selectionSet")]); } case "Name": { return node.value; } case "StringValue": { if (node.block) { return ['"""', hardline$a, join$8(hardline$a, node.value.replace(/"""/g, "\\$&").split("\n")), hardline$a, '"""']; } return ['"', node.value.replace(/["\\]/g, "\\$&").replace(/\n/g, "\\n"), '"']; } case "IntValue": case "FloatValue": case "EnumValue": { return node.value; } case "BooleanValue": { return node.value ? "true" : "false"; } case "NullValue": { return "null"; } case "Variable": { return ["$", print("name")]; } case "ListValue": { return group$8(["[", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.map(print, "values"))]), softline$7, "]"]); } case "ObjectValue": { return group$8(["{", options.bracketSpacing && node.fields.length > 0 ? " " : "", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.map(print, "fields"))]), softline$7, ifBreak$6("", options.bracketSpacing && node.fields.length > 0 ? " " : ""), "}"]); } case "ObjectField": case "Argument": { return [print("name"), ": ", print("value")]; } case "Directive": { return ["@", print("name"), node.arguments.length > 0 ? group$8(["(", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.call(argsPath => printSequence(argsPath, options, print), "arguments"))]), softline$7, ")"]) : ""]; } case "NamedType": { return print("name"); } case "VariableDefinition": { return [print("variable"), ": ", print("type"), node.defaultValue ? [" = ", print("defaultValue")] : "", printDirectives(path, print, node)]; } case "ObjectTypeExtension": case "ObjectTypeDefinition": { return [print("description"), node.description ? hardline$a : "", node.kind === "ObjectTypeExtension" ? "extend " : "", "type ", print("name"), node.interfaces.length > 0 ? [" implements ", ...printInterfaces(path, options, print)] : "", printDirectives(path, print, node), node.fields.length > 0 ? [" {", indent$4([hardline$a, join$8(hardline$a, path.call(fieldsPath => printSequence(fieldsPath, options, print), "fields"))]), hardline$a, "}"] : ""]; } case "FieldDefinition": { return [print("description"), node.description ? hardline$a : "", print("name"), node.arguments.length > 0 ? group$8(["(", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.call(argsPath => printSequence(argsPath, options, print), "arguments"))]), softline$7, ")"]) : "", ": ", print("type"), printDirectives(path, print, node)]; } case "DirectiveDefinition": { return [print("description"), node.description ? hardline$a : "", "directive ", "@", print("name"), node.arguments.length > 0 ? group$8(["(", indent$4([softline$7, join$8([ifBreak$6("", ", "), softline$7], path.call(argsPath => printSequence(argsPath, options, print), "arguments"))]), softline$7, ")"]) : "", node.repeatable ? " repeatable" : "", " on ", join$8(" | ", path.map(print, "locations"))]; } case "EnumTypeExtension": case "EnumTypeDefinition": { return [print("description"), node.description ? hardline$a : "", node.kind === "EnumTypeExtension" ? "extend " : "", "enum ", print("name"), printDirectives(path, print, node), node.values.length > 0 ? [" {", indent$4([hardline$a, join$8(hardline$a, path.call(valuesPath => printSequence(valuesPath, options, print), "values"))]), hardline$a, "}"] : ""]; } case "EnumValueDefinition": { return [print("description"), node.description ? hardline$a : "", print("name"), printDirectives(path, print, node)]; } case "InputValueDefinition": { return [print("description"), node.description ? node.description.block ? hardline$a : line$b : "", print("name"), ": ", print("type"), node.defaultValue ? [" = ", print("defaultValue")] : "", printDirectives(path, print, node)]; } case "InputObjectTypeExtension": case "InputObjectTypeDefinition": { return [print("description"), node.description ? hardline$a : "", node.kind === "InputObjectTypeExtension" ? "extend " : "", "input ", print("name"), printDirectives(path, print, node), node.fields.length > 0 ? [" {", indent$4([hardline$a, join$8(hardline$a, path.call(fieldsPath => printSequence(fieldsPath, options, print), "fields"))]), hardline$a, "}"] : ""]; } case "SchemaDefinition": { return ["schema", printDirectives(path, print, node), " {", node.operationTypes.length > 0 ? indent$4([hardline$a, join$8(hardline$a, path.call(opsPath => printSequence(opsPath, options, print), "operationTypes"))]) : "", hardline$a, "}"]; } case "OperationTypeDefinition": { return [print("operation"), ": ", print("type")]; } case "InterfaceTypeExtension": case "InterfaceTypeDefinition": { return [print("description"), node.description ? hardline$a : "", node.kind === "InterfaceTypeExtension" ? "extend " : "", "interface ", print("name"), node.interfaces.length > 0 ? [" implements ", ...printInterfaces(path, options, print)] : "", printDirectives(path, print, node), node.fields.length > 0 ? [" {", indent$4([hardline$a, join$8(hardline$a, path.call(fieldsPath => printSequence(fieldsPath, options, print), "fields"))]), hardline$a, "}"] : ""]; } case "FragmentSpread": { return ["...", print("name"), printDirectives(path, print, node)]; } case "InlineFragment": { return ["...", node.typeCondition ? [" on ", print("typeCondition")] : "", printDirectives(path, print, node), " ", print("selectionSet")]; } case "UnionTypeExtension": case "UnionTypeDefinition": { return group$8([print("description"), node.description ? hardline$a : "", group$8([node.kind === "UnionTypeExtension" ? "extend " : "", "union ", print("name"), printDirectives(path, print, node), node.types.length > 0 ? [" =", ifBreak$6("", " "), indent$4([ifBreak$6([line$b, " "]), join$8([line$b, "| "], path.map(print, "types"))])] : ""])]); } case "ScalarTypeExtension": case "ScalarTypeDefinition": { return [print("description"), node.description ? hardline$a : "", node.kind === "ScalarTypeExtension" ? "extend " : "", "scalar ", print("name"), printDirectives(path, print, node)]; } case "NonNullType": { return [print("type"), "!"]; } case "ListType": { return ["[", print("type"), "]"]; } default: /* istanbul ignore next */ throw new Error("unknown graphql type: " + JSON.stringify(node.kind)); } } function printDirectives(path, print, node) { if (node.directives.length === 0) { return ""; } const printed = join$8(line$b, path.map(print, "directives")); if (node.kind === "FragmentDefinition" || node.kind === "OperationDefinition") { return group$8([line$b, printed]); } return [" ", group$8(indent$4([softline$7, printed]))]; } function printSequence(sequencePath, options, print) { const count = sequencePath.getValue().length; return sequencePath.map((path, i) => { const printed = print(); if (isNextLineEmpty$2(options.originalText, path.getValue(), locEnd$8) && i < count - 1) { return [printed, hardline$a]; } return printed; }); } function canAttachComment(node) { return node.kind && node.kind !== "Comment"; } function printComment(commentPath) { const comment = commentPath.getValue(); if (comment.kind === "Comment") { return "#" + comment.value.trimEnd(); } /* istanbul ignore next */ throw new Error("Not a comment: " + JSON.stringify(comment)); } function printInterfaces(path, options, print) { const node = path.getNode(); const parts = []; const { interfaces } = node; const printed = path.map(node => print(node), "interfaces"); for (let index = 0; index < interfaces.length; index++) { const interfaceNode = interfaces[index]; parts.push(printed[index]); const nextInterfaceNode = interfaces[index + 1]; if (nextInterfaceNode) { const textBetween = options.originalText.slice(interfaceNode.loc.end, nextInterfaceNode.loc.start); const hasComment = textBetween.includes("#"); const separator = textBetween.replace(/#.*/g, "").trim(); parts.push(separator === "," ? "," : " &", hasComment ? line$b : " "); } } return parts; } function /*node, newNode , parent*/ clean$5() {} clean$5.ignoredProperties = new Set(["loc", "comments"]); function hasPrettierIgnore$6(path) { const node = path.getValue(); return node && Array.isArray(node.comments) && node.comments.some(comment => comment.value.trim() === "prettier-ignore"); } var printerGraphql = { print: genericPrint$3, massageAstNode: clean$5, hasPrettierIgnore: hasPrettierIgnore$6, insertPragma: insertPragma$5, printComment, canAttachComment }; const commonOptions$3 = commonOptions$6; // format based on https://github.com/prettier/prettier/blob/main/src/main/core-options.js var options$7 = { bracketSpacing: commonOptions$3.bracketSpacing }; var parsers$7 = { get graphql() { return require("./parser-graphql.js").parsers.graphql; } }; var name$4 = "GraphQL"; var type$4 = "data"; var color$4 = "#e10098"; var extensions$4 = [ ".graphql", ".gql", ".graphqls" ]; var tmScope$4 = "source.graphql"; var aceMode$4 = "text"; var languageId$4 = 139; var require$$4$4 = { name: name$4, type: type$4, color: color$4, extensions: extensions$4, tmScope: tmScope$4, aceMode: aceMode$4, languageId: languageId$4 }; const createLanguage$3 = createLanguage$7; const printer$3 = printerGraphql; const options$6 = options$7; const parsers$6 = parsers$7; const languages$4 = [createLanguage$3(require$$4$4, () => ({ since: "1.5.0", parsers: ["graphql"], vscodeLanguageIds: ["graphql"] }))]; const printers$2 = { graphql: printer$3 }; var languageGraphql = { languages: languages$4, options: options$6, printers: printers$2, parsers: parsers$6 }; function locStart$8(node) { return node.position.start.offset; } function locEnd$7(node) { return node.position.end.offset; } var loc$2 = { locStart: locStart$8, locEnd: locEnd$7 }; var require$$2 = { "cjkPattern": "(?:[\\u02ea-\\u02eb\\u1100-\\u11ff\\u2e80-\\u2e99\\u2e9b-\\u2ef3\\u2f00-\\u2fd5\\u2ff0-\\u303f\\u3041-\\u3096\\u3099-\\u309f\\u30a1-\\u30fa\\u30fc-\\u30ff\\u3105-\\u312f\\u3131-\\u318e\\u3190-\\u3191\\u3196-\\u31ba\\u31c0-\\u31e3\\u31f0-\\u321e\\u322a-\\u3247\\u3260-\\u327e\\u328a-\\u32b0\\u32c0-\\u32cb\\u32d0-\\u3370\\u337b-\\u337f\\u33e0-\\u33fe\\u3400-\\u4db5\\u4e00-\\u9fef\\ua960-\\ua97c\\uac00-\\ud7a3\\ud7b0-\\ud7c6\\ud7cb-\\ud7fb\\uf900-\\ufa6d\\ufa70-\\ufad9\\ufe10-\\ufe1f\\ufe30-\\ufe6f\\uff00-\\uffef]|[\\ud840-\\ud868\\ud86a-\\ud86c\\ud86f-\\ud872\\ud874-\\ud879][\\udc00-\\udfff]|\\ud82c[\\udc00-\\udd1e\\udd50-\\udd52\\udd64-\\udd67]|\\ud83c[\\ude00\\ude50-\\ude51]|\\ud869[\\udc00-\\uded6\\udf00-\\udfff]|\\ud86d[\\udc00-\\udf34\\udf40-\\udfff]|\\ud86e[\\udc00-\\udc1d\\udc20-\\udfff]|\\ud873[\\udc00-\\udea1\\udeb0-\\udfff]|\\ud87a[\\udc00-\\udfe0]|\\ud87e[\\udc00-\\ude1d])(?:[\\ufe00-\\ufe0f]|\\udb40[\\udd00-\\uddef])?", "kPattern": "[\\u1100-\\u11ff\\u3001-\\u3003\\u3008-\\u3011\\u3013-\\u301f\\u302e-\\u3030\\u3037\\u30fb\\u3131-\\u318e\\u3200-\\u321e\\u3260-\\u327e\\ua960-\\ua97c\\uac00-\\ud7a3\\ud7b0-\\ud7c6\\ud7cb-\\ud7fb\\ufe45-\\ufe46\\uff61-\\uff65\\uffa0-\\uffbe\\uffc2-\\uffc7\\uffca-\\uffcf\\uffd2-\\uffd7\\uffda-\\uffdc]", "punctuationPattern": "[\\u0021-\\u002f\\u003a-\\u0040\\u005b-\\u0060\\u007b-\\u007e\\u00a1\\u00a7\\u00ab\\u00b6-\\u00b7\\u00bb\\u00bf\\u037e\\u0387\\u055a-\\u055f\\u0589-\\u058a\\u05be\\u05c0\\u05c3\\u05c6\\u05f3-\\u05f4\\u0609-\\u060a\\u060c-\\u060d\\u061b\\u061e-\\u061f\\u066a-\\u066d\\u06d4\\u0700-\\u070d\\u07f7-\\u07f9\\u0830-\\u083e\\u085e\\u0964-\\u0965\\u0970\\u09fd\\u0a76\\u0af0\\u0c77\\u0c84\\u0df4\\u0e4f\\u0e5a-\\u0e5b\\u0f04-\\u0f12\\u0f14\\u0f3a-\\u0f3d\\u0f85\\u0fd0-\\u0fd4\\u0fd9-\\u0fda\\u104a-\\u104f\\u10fb\\u1360-\\u1368\\u1400\\u166e\\u169b-\\u169c\\u16eb-\\u16ed\\u1735-\\u1736\\u17d4-\\u17d6\\u17d8-\\u17da\\u1800-\\u180a\\u1944-\\u1945\\u1a1e-\\u1a1f\\u1aa0-\\u1aa6\\u1aa8-\\u1aad\\u1b5a-\\u1b60\\u1bfc-\\u1bff\\u1c3b-\\u1c3f\\u1c7e-\\u1c7f\\u1cc0-\\u1cc7\\u1cd3\\u2010-\\u2027\\u2030-\\u2043\\u2045-\\u2051\\u2053-\\u205e\\u207d-\\u207e\\u208d-\\u208e\\u2308-\\u230b\\u2329-\\u232a\\u2768-\\u2775\\u27c5-\\u27c6\\u27e6-\\u27ef\\u2983-\\u2998\\u29d8-\\u29db\\u29fc-\\u29fd\\u2cf9-\\u2cfc\\u2cfe-\\u2cff\\u2d70\\u2e00-\\u2e2e\\u2e30-\\u2e4f\\u3001-\\u3003\\u3008-\\u3011\\u3014-\\u301f\\u3030\\u303d\\u30a0\\u30fb\\ua4fe-\\ua4ff\\ua60d-\\ua60f\\ua673\\ua67e\\ua6f2-\\ua6f7\\ua874-\\ua877\\ua8ce-\\ua8cf\\ua8f8-\\ua8fa\\ua8fc\\ua92e-\\ua92f\\ua95f\\ua9c1-\\ua9cd\\ua9de-\\ua9df\\uaa5c-\\uaa5f\\uaade-\\uaadf\\uaaf0-\\uaaf1\\uabeb\\ufd3e-\\ufd3f\\ufe10-\\ufe19\\ufe30-\\ufe52\\ufe54-\\ufe61\\ufe63\\ufe68\\ufe6a-\\ufe6b\\uff01-\\uff03\\uff05-\\uff0a\\uff0c-\\uff0f\\uff1a-\\uff1b\\uff1f-\\uff20\\uff3b-\\uff3d\\uff3f\\uff5b\\uff5d\\uff5f-\\uff65]|\\ud800[\\udd00-\\udd02\\udf9f\\udfd0]|\\ud801[\\udd6f]|\\ud802[\\udc57\\udd1f\\udd3f\\ude50-\\ude58\\ude7f\\udef0-\\udef6\\udf39-\\udf3f\\udf99-\\udf9c]|\\ud803[\\udf55-\\udf59]|\\ud804[\\udc47-\\udc4d\\udcbb-\\udcbc\\udcbe-\\udcc1\\udd40-\\udd43\\udd74-\\udd75\\uddc5-\\uddc8\\uddcd\\udddb\\udddd-\\udddf\\ude38-\\ude3d\\udea9]|\\ud805[\\udc4b-\\udc4f\\udc5b\\udc5d\\udcc6\\uddc1-\\uddd7\\ude41-\\ude43\\ude60-\\ude6c\\udf3c-\\udf3e]|\\ud806[\\udc3b\\udde2\\ude3f-\\ude46\\ude9a-\\ude9c\\ude9e-\\udea2]|\\ud807[\\udc41-\\udc45\\udc70-\\udc71\\udef7-\\udef8\\udfff]|\\ud809[\\udc70-\\udc74]|\\ud81a[\\ude6e-\\ude6f\\udef5\\udf37-\\udf3b\\udf44]|\\ud81b[\\ude97-\\ude9a\\udfe2]|\\ud82f[\\udc9f]|\\ud836[\\ude87-\\ude8b]|\\ud83a[\\udd5e-\\udd5f]" }; const { getLast: getLast$5 } = util$8; const { locStart: locStart$7, locEnd: locEnd$6 } = loc$2; const { cjkPattern, kPattern, punctuationPattern: punctuationPattern$1 } = require$$2; const INLINE_NODE_TYPES$1 = ["liquidNode", "inlineCode", "emphasis", "esComment", "strong", "delete", "wikiLink", "link", "linkReference", "image", "imageReference", "footnote", "footnoteReference", "sentence", "whitespace", "word", "break", "inlineMath"]; const INLINE_NODE_WRAPPER_TYPES$1 = [...INLINE_NODE_TYPES$1, "tableCell", "paragraph", "heading"]; const kRegex = new RegExp(kPattern); const punctuationRegex = new RegExp(punctuationPattern$1); /** * split text into whitespaces and words * @param {string} text */ function splitText$2(text, options) { const KIND_NON_CJK = "non-cjk"; const KIND_CJ_LETTER = "cj-letter"; const KIND_K_LETTER = "k-letter"; const KIND_CJK_PUNCTUATION = "cjk-punctuation"; /** @type {Array<{ type: "whitespace", value: " " | "\n" | "" } | { type: "word", value: string }>} */ const nodes = []; const tokens = (options.proseWrap === "preserve" ? text : text.replace(new RegExp(`(${cjkPattern})\n(${cjkPattern})`, "g"), "$1$2")).split(/([\t\n ]+)/); for (const [index, token] of tokens.entries()) { // whitespace if (index % 2 === 1) { nodes.push({ type: "whitespace", value: /\n/.test(token) ? "\n" : " " }); continue; } // word separated by whitespace if ((index === 0 || index === tokens.length - 1) && token === "") { continue; } const innerTokens = token.split(new RegExp(`(${cjkPattern})`)); for (const [innerIndex, innerToken] of innerTokens.entries()) { if ((innerIndex === 0 || innerIndex === innerTokens.length - 1) && innerToken === "") { continue; } // non-CJK word if (innerIndex % 2 === 0) { if (innerToken !== "") { appendNode({ type: "word", value: innerToken, kind: KIND_NON_CJK, hasLeadingPunctuation: punctuationRegex.test(innerToken[0]), hasTrailingPunctuation: punctuationRegex.test(getLast$5(innerToken)) }); } continue; } // CJK character appendNode(punctuationRegex.test(innerToken) ? { type: "word", value: innerToken, kind: KIND_CJK_PUNCTUATION, hasLeadingPunctuation: true, hasTrailingPunctuation: true } : { type: "word", value: innerToken, kind: kRegex.test(innerToken) ? KIND_K_LETTER : KIND_CJ_LETTER, hasLeadingPunctuation: false, hasTrailingPunctuation: false }); } } return nodes; function appendNode(node) { const lastNode = getLast$5(nodes); if (lastNode && lastNode.type === "word") { if (lastNode.kind === KIND_NON_CJK && node.kind === KIND_CJ_LETTER && !lastNode.hasTrailingPunctuation || lastNode.kind === KIND_CJ_LETTER && node.kind === KIND_NON_CJK && !node.hasLeadingPunctuation) { nodes.push({ type: "whitespace", value: " " }); } else if (!isBetween(KIND_NON_CJK, KIND_CJK_PUNCTUATION) && // disallow leading/trailing full-width whitespace ![lastNode.value, node.value].some(value => /\u3000/.test(value))) { nodes.push({ type: "whitespace", value: "" }); } } nodes.push(node); function isBetween(kind1, kind2) { return lastNode.kind === kind1 && node.kind === kind2 || lastNode.kind === kind2 && node.kind === kind1; } } } function getOrderedListItemInfo$1(orderListItem, originalText) { const [, numberText, marker, leadingSpaces] = originalText.slice(orderListItem.position.start.offset, orderListItem.position.end.offset).match(/^\s*(\d+)(\.|\))(\s*)/); return { numberText, marker, leadingSpaces }; } function hasGitDiffFriendlyOrderedList$1(node, options) { if (!node.ordered) { return false; } if (node.children.length < 2) { return false; } const firstNumber = Number(getOrderedListItemInfo$1(node.children[0], options.originalText).numberText); const secondNumber = Number(getOrderedListItemInfo$1(node.children[1], options.originalText).numberText); if (firstNumber === 0 && node.children.length > 2) { const thirdNumber = Number(getOrderedListItemInfo$1(node.children[2], options.originalText).numberText); return secondNumber === 1 && thirdNumber === 1; } return secondNumber === 1; } // The final new line should not include in value // https://github.com/remarkjs/remark/issues/512 function getFencedCodeBlockValue$2(node, originalText) { const { value } = node; if (node.position.end.offset === originalText.length && value.endsWith("\n") && // Code block has no end mark originalText.endsWith("\n")) { return value.slice(0, -1); } return value; } function mapAst$1(ast, handler) { return function preorder(node, index, parentStack) { const newNode = Object.assign({}, handler(node, index, parentStack)); if (newNode.children) { newNode.children = newNode.children.map((child, index) => preorder(child, index, [newNode, ...parentStack])); } return newNode; }(ast, null, []); } function isAutolink$1(node) { if (!node || node.type !== "link" || node.children.length !== 1) { return false; } const child = node.children[0]; return child && locStart$7(node) === locStart$7(child) && locEnd$6(node) === locEnd$6(child); } var utils$2 = { mapAst: mapAst$1, splitText: splitText$2, punctuationPattern: punctuationPattern$1, getFencedCodeBlockValue: getFencedCodeBlockValue$2, getOrderedListItemInfo: getOrderedListItemInfo$1, hasGitDiffFriendlyOrderedList: hasGitDiffFriendlyOrderedList$1, INLINE_NODE_TYPES: INLINE_NODE_TYPES$1, INLINE_NODE_WRAPPER_TYPES: INLINE_NODE_WRAPPER_TYPES$1, isAutolink: isAutolink$1 }; const { inferParserByLanguage: inferParserByLanguage$1, getMaxContinuousCount: getMaxContinuousCount$1 } = util$8; const { builders: { hardline: hardline$9, markAsRoot: markAsRoot$2 }, utils: { replaceEndOfLine } } = require$$7$3; const printFrontMatter$1 = print_1; const { getFencedCodeBlockValue: getFencedCodeBlockValue$1 } = utils$2; function embed$6(path, print, textToDoc, options) { const node = path.getValue(); if (node.type === "code" && node.lang !== null) { const parser = inferParserByLanguage$1(node.lang, options); if (parser) { const styleUnit = options.__inJsTemplate ? "~" : "`"; const style = styleUnit.repeat(Math.max(3, getMaxContinuousCount$1(node.value, styleUnit) + 1)); const newOptions = { parser }; if (node.lang === "tsx") { newOptions.filepath = "dummy.tsx"; } const doc = textToDoc(getFencedCodeBlockValue$1(node, options.originalText), newOptions, { stripTrailingHardline: true }); return markAsRoot$2([style, node.lang, node.meta ? " " + node.meta : "", hardline$9, replaceEndOfLine(doc), hardline$9, style]); } } switch (node.type) { case "front-matter": return printFrontMatter$1(node, textToDoc); // MDX case "importExport": return [textToDoc(node.value, { parser: "babel" }, { stripTrailingHardline: true }), hardline$9]; case "jsx": return textToDoc(`<$>${node.value}`, { parser: "__js_expression", rootMarker: "mdx" }, { stripTrailingHardline: true }); } return null; } var embed_1$2 = embed$6; const parseFrontMatter = parse_1; const pragmas = ["format", "prettier"]; function startWithPragma$1(text) { const pragma = `@(${pragmas.join("|")})`; const regex = new RegExp([``, `{\\s*\\/\\*\\s*${pragma}\\s*\\*\\/\\s*}`, ``].join("|"), "m"); const matched = text.match(regex); return matched && matched.index === 0; } var pragma$2 = { startWithPragma: startWithPragma$1, hasPragma: text => startWithPragma$1(parseFrontMatter(text).content.trimStart()), insertPragma: text => { const extracted = parseFrontMatter(text); const pragma = ``; return extracted.frontMatter ? `${extracted.frontMatter.raw}\n\n${pragma}\n\n${extracted.content}` : `${pragma}\n\n${extracted.content}`; } }; const getLast$4 = getLast_1; const { getOrderedListItemInfo, mapAst, splitText: splitText$1 } = utils$2; // 0x0 ~ 0x10ffff const isSingleCharRegex = /^.$/su; function preprocess$5(ast, options) { ast = restoreUnescapedCharacter(ast, options); ast = mergeContinuousTexts(ast); ast = transformInlineCode(ast); ast = transformIndentedCodeblockAndMarkItsParentList(ast, options); ast = markAlignedList(ast, options); ast = splitTextIntoSentences(ast, options); ast = transformImportExport(ast); ast = mergeContinuousImportExport(ast); return ast; } function transformImportExport(ast) { return mapAst(ast, node => { if (node.type !== "import" && node.type !== "export") { return node; } return Object.assign(Object.assign({}, node), {}, { type: "importExport" }); }); } function transformInlineCode(ast) { return mapAst(ast, node => { if (node.type !== "inlineCode") { return node; } return Object.assign(Object.assign({}, node), {}, { value: node.value.replace(/\s+/g, " ") }); }); } function restoreUnescapedCharacter(ast, options) { return mapAst(ast, node => node.type !== "text" || node.value === "*" || node.value === "_" || // handle these cases in printer !isSingleCharRegex.test(node.value) || node.position.end.offset - node.position.start.offset === node.value.length ? node : Object.assign(Object.assign({}, node), {}, { value: options.originalText.slice(node.position.start.offset, node.position.end.offset) })); } function mergeContinuousImportExport(ast) { return mergeChildren(ast, (prevNode, node) => prevNode.type === "importExport" && node.type === "importExport", (prevNode, node) => ({ type: "importExport", value: prevNode.value + "\n\n" + node.value, position: { start: prevNode.position.start, end: node.position.end } })); } function mergeChildren(ast, shouldMerge, mergeNode) { return mapAst(ast, node => { if (!node.children) { return node; } const children = node.children.reduce((current, child) => { const lastChild = getLast$4(current); if (lastChild && shouldMerge(lastChild, child)) { current.splice(-1, 1, mergeNode(lastChild, child)); } else { current.push(child); } return current; }, []); return Object.assign(Object.assign({}, node), {}, { children }); }); } function mergeContinuousTexts(ast) { return mergeChildren(ast, (prevNode, node) => prevNode.type === "text" && node.type === "text", (prevNode, node) => ({ type: "text", value: prevNode.value + node.value, position: { start: prevNode.position.start, end: node.position.end } })); } function splitTextIntoSentences(ast, options) { return mapAst(ast, (node, index, [parentNode]) => { if (node.type !== "text") { return node; } let { value } = node; if (parentNode.type === "paragraph") { if (index === 0) { value = value.trimStart(); } if (index === parentNode.children.length - 1) { value = value.trimEnd(); } } return { type: "sentence", position: node.position, children: splitText$1(value, options) }; }); } function transformIndentedCodeblockAndMarkItsParentList(ast, options) { return mapAst(ast, (node, index, parentStack) => { if (node.type === "code") { // the first char may point to `\n`, e.g. `\n\t\tbar`, just ignore it const isIndented = /^\n?(?: {4,}|\t)/.test(options.originalText.slice(node.position.start.offset, node.position.end.offset)); node.isIndented = isIndented; if (isIndented) { for (let i = 0; i < parentStack.length; i++) { const parent = parentStack[i]; // no need to check checked items if (parent.hasIndentedCodeblock) { break; } if (parent.type === "list") { parent.hasIndentedCodeblock = true; } } } } return node; }); } function markAlignedList(ast, options) { return mapAst(ast, (node, index, parentStack) => { if (node.type === "list" && node.children.length > 0) { // if one of its parents is not aligned, it's not possible to be aligned in sub-lists for (let i = 0; i < parentStack.length; i++) { const parent = parentStack[i]; if (parent.type === "list" && !parent.isAligned) { node.isAligned = false; return node; } } node.isAligned = isAligned(node); } return node; }); function getListItemStart(listItem) { return listItem.children.length === 0 ? -1 : listItem.children[0].position.start.column - 1; } function isAligned(list) { if (!list.ordered) { /** * - 123 * - 123 */ return true; } const [firstItem, secondItem] = list.children; const firstInfo = getOrderedListItemInfo(firstItem, options.originalText); if (firstInfo.leadingSpaces.length > 1) { /** * 1. 123 * * 1. 123 * 1. 123 */ return true; } const firstStart = getListItemStart(firstItem); if (firstStart === -1) { /** * 1. * * 1. * 1. */ return false; } if (list.children.length === 1) { /** * aligned: * * 11. 123 * * not aligned: * * 1. 123 */ return firstStart % options.tabWidth === 0; } const secondStart = getListItemStart(secondItem); if (firstStart !== secondStart) { /** * 11. 123 * 1. 123 * * 1. 123 * 11. 123 */ return false; } if (firstStart % options.tabWidth === 0) { /** * 11. 123 * 12. 123 */ return true; } /** * aligned: * * 11. 123 * 1. 123 * * not aligned: * * 1. 123 * 2. 123 */ const secondInfo = getOrderedListItemInfo(secondItem, options.originalText); return secondInfo.leadingSpaces.length > 1; } } var printPreprocess$2 = preprocess$5; const { isFrontMatterNode: isFrontMatterNode$2 } = util$8; const { startWithPragma } = pragma$2; const ignoredProperties$1 = new Set(["position", "raw" // front-matter ]); function clean$4(ast, newObj, parent) { // for codeblock if (ast.type === "front-matter" || ast.type === "code" || ast.type === "yaml" || ast.type === "import" || ast.type === "export" || ast.type === "jsx") { delete newObj.value; } if (ast.type === "list") { delete newObj.isAligned; } if (ast.type === "list" || ast.type === "listItem") { delete newObj.spread; delete newObj.loose; } // texts can be splitted or merged if (ast.type === "text") { return null; } if (ast.type === "inlineCode") { newObj.value = ast.value.replace(/[\t\n ]+/g, " "); } if (ast.type === "wikiLink") { newObj.value = ast.value.trim().replace(/[\t\n]+/g, " "); } if (ast.type === "definition" || ast.type === "linkReference") { newObj.label = ast.label.trim().replace(/[\t\n ]+/g, " ").toLowerCase(); } if ((ast.type === "definition" || ast.type === "link" || ast.type === "image") && ast.title) { newObj.title = ast.title.replace(/\\(["')])/g, "$1"); } // for insert pragma if (parent && parent.type === "root" && parent.children.length > 0 && (parent.children[0] === ast || isFrontMatterNode$2(parent.children[0]) && parent.children[1] === ast) && ast.type === "html" && startWithPragma(ast.value)) { return null; } } clean$4.ignoredProperties = ignoredProperties$1; var clean_1$1 = clean$4; const { getLast: getLast$3, getMinNotPresentContinuousCount, getMaxContinuousCount, getStringWidth, isNonEmptyArray: isNonEmptyArray$2 } = util$8; const { builders: { breakParent: breakParent$4, join: join$7, line: line$a, literalline: literalline$3, markAsRoot: markAsRoot$1, hardline: hardline$8, softline: softline$6, ifBreak: ifBreak$5, fill: fill$4, align: align$1, indent: indent$3, group: group$7, hardlineWithoutBreakParent }, utils: { normalizeDoc, replaceTextEndOfLine: replaceTextEndOfLine$7 }, printer: { printDocToString } } = require$$7$3; const embed$5 = embed_1$2; const { insertPragma: insertPragma$4 } = pragma$2; const { locStart: locStart$6, locEnd: locEnd$5 } = loc$2; const preprocess$4 = printPreprocess$2; const clean$3 = clean_1$1; const { getFencedCodeBlockValue, hasGitDiffFriendlyOrderedList, splitText, punctuationPattern, INLINE_NODE_TYPES, INLINE_NODE_WRAPPER_TYPES, isAutolink } = utils$2; /** * @typedef {import("../document").Doc} Doc */ const TRAILING_HARDLINE_NODES = new Set(["importExport"]); const SINGLE_LINE_NODE_TYPES = ["heading", "tableCell", "link", "wikiLink"]; const SIBLING_NODE_TYPES = new Set(["listItem", "definition", "footnoteDefinition"]); function genericPrint$2(path, options, print) { const node = path.getValue(); if (shouldRemainTheSameContent(path)) { return splitText(options.originalText.slice(node.position.start.offset, node.position.end.offset), options).map(node => node.type === "word" ? node.value : node.value === "" ? "" : printLine(path, node.value, options)); } switch (node.type) { case "front-matter": return options.originalText.slice(node.position.start.offset, node.position.end.offset); case "root": if (node.children.length === 0) { return ""; } return [normalizeDoc(printRoot(path, options, print)), !TRAILING_HARDLINE_NODES.has(getLastDescendantNode$2(node).type) ? hardline$8 : ""]; case "paragraph": return printChildren$4(path, options, print, { postprocessor: fill$4 }); case "sentence": return printChildren$4(path, options, print); case "word": { let escapedValue = node.value.replace(/\*/g, "\\$&") // escape all `*` .replace(new RegExp([`(^|${punctuationPattern})(_+)`, `(_+)(${punctuationPattern}|$)`].join("|"), "g"), (_, text1, underscore1, underscore2, text2) => (underscore1 ? `${text1}${underscore1}` : `${underscore2}${text2}`).replace(/_/g, "\\_")); // escape all `_` except concating with non-punctuation, e.g. `1_2_3` is not considered emphasis const isFirstSentence = (node, name, index) => node.type === "sentence" && index === 0; const isLastChildAutolink = (node, name, index) => isAutolink(node.children[index - 1]); if (escapedValue !== node.value && (path.match(undefined, isFirstSentence, isLastChildAutolink) || path.match(undefined, isFirstSentence, (node, name, index) => node.type === "emphasis" && index === 0, isLastChildAutolink))) { // backslash is parsed as part of autolinks, so we need to remove it escapedValue = escapedValue.replace(/^(\\?[*_])+/, prefix => prefix.replace(/\\/g, "")); } return escapedValue; } case "whitespace": { const parentNode = path.getParentNode(); const index = parentNode.children.indexOf(node); const nextNode = parentNode.children[index + 1]; const proseWrap = // leading char that may cause different syntax nextNode && /^>|^(?:[*+-]|#{1,6}|\d+[).])$/.test(nextNode.value) ? "never" : options.proseWrap; return printLine(path, node.value, { proseWrap }); } case "emphasis": { let style; if (isAutolink(node.children[0])) { style = options.originalText[node.position.start.offset]; } else { const parentNode = path.getParentNode(); const index = parentNode.children.indexOf(node); const prevNode = parentNode.children[index - 1]; const nextNode = parentNode.children[index + 1]; const hasPrevOrNextWord = // `1*2*3` is considered emphasis but `1_2_3` is not prevNode && prevNode.type === "sentence" && prevNode.children.length > 0 && getLast$3(prevNode.children).type === "word" && !getLast$3(prevNode.children).hasTrailingPunctuation || nextNode && nextNode.type === "sentence" && nextNode.children.length > 0 && nextNode.children[0].type === "word" && !nextNode.children[0].hasLeadingPunctuation; style = hasPrevOrNextWord || getAncestorNode(path, "emphasis") ? "*" : "_"; } return [style, printChildren$4(path, options, print), style]; } case "strong": return ["**", printChildren$4(path, options, print), "**"]; case "delete": return ["~~", printChildren$4(path, options, print), "~~"]; case "inlineCode": { const backtickCount = getMinNotPresentContinuousCount(node.value, "`"); const style = "`".repeat(backtickCount || 1); const gap = backtickCount && !/^\s/.test(node.value) ? " " : ""; return [style, gap, node.value, gap, style]; } case "wikiLink": { let contents = ""; if (options.proseWrap === "preserve") { contents = node.value; } else { contents = node.value.replace(/[\t\n]+/g, " "); } return ["[[", contents, "]]"]; } case "link": switch (options.originalText[node.position.start.offset]) { case "<": { const mailto = "mailto:"; const url = // is parsed as { url: "mailto:hello@example.com" } node.url.startsWith(mailto) && options.originalText.slice(node.position.start.offset + 1, node.position.start.offset + 1 + mailto.length) !== mailto ? node.url.slice(mailto.length) : node.url; return ["<", url, ">"]; } case "[": return ["[", printChildren$4(path, options, print), "](", printUrl(node.url, ")"), printTitle(node.title, options), ")"]; default: return options.originalText.slice(node.position.start.offset, node.position.end.offset); } case "image": return ["![", node.alt || "", "](", printUrl(node.url, ")"), printTitle(node.title, options), ")"]; case "blockquote": return ["> ", align$1("> ", printChildren$4(path, options, print))]; case "heading": return ["#".repeat(node.depth) + " ", printChildren$4(path, options, print)]; case "code": { if (node.isIndented) { // indented code block const alignment = " ".repeat(4); return align$1(alignment, [alignment, ...replaceTextEndOfLine$7(node.value, hardline$8)]); } // fenced code block const styleUnit = options.__inJsTemplate ? "~" : "`"; const style = styleUnit.repeat(Math.max(3, getMaxContinuousCount(node.value, styleUnit) + 1)); return [style, node.lang || "", node.meta ? " " + node.meta : "", hardline$8, ...replaceTextEndOfLine$7(getFencedCodeBlockValue(node, options.originalText), hardline$8), hardline$8, style]; } case "html": { const parentNode = path.getParentNode(); const value = parentNode.type === "root" && getLast$3(parentNode.children) === node ? node.value.trimEnd() : node.value; const isHtmlComment = /^$/s.test(value); return replaceTextEndOfLine$7(value, // @ts-expect-error isHtmlComment ? hardline$8 : markAsRoot$1(literalline$3)); } case "list": { const nthSiblingIndex = getNthListSiblingIndex(node, path.getParentNode()); const isGitDiffFriendlyOrderedList = hasGitDiffFriendlyOrderedList(node, options); return printChildren$4(path, options, print, { processor: (childPath, index) => { const prefix = getPrefix(); const childNode = childPath.getValue(); if (childNode.children.length === 2 && childNode.children[1].type === "html" && childNode.children[0].position.start.column !== childNode.children[1].position.start.column) { return [prefix, printListItem(childPath, options, print, prefix)]; } return [prefix, align$1(" ".repeat(prefix.length), printListItem(childPath, options, print, prefix))]; function getPrefix() { const rawPrefix = node.ordered ? (index === 0 ? node.start : isGitDiffFriendlyOrderedList ? 1 : node.start + index) + (nthSiblingIndex % 2 === 0 ? ". " : ") ") : nthSiblingIndex % 2 === 0 ? "- " : "* "; return node.isAligned || /* workaround for https://github.com/remarkjs/remark/issues/315 */ node.hasIndentedCodeblock ? alignListPrefix(rawPrefix, options) : rawPrefix; } } }); } case "thematicBreak": { const counter = getAncestorCounter(path, "list"); if (counter === -1) { return "---"; } const nthSiblingIndex = getNthListSiblingIndex(path.getParentNode(counter), path.getParentNode(counter + 1)); return nthSiblingIndex % 2 === 0 ? "***" : "---"; } case "linkReference": return ["[", printChildren$4(path, options, print), "]", node.referenceType === "full" ? ["[", node.identifier, "]"] : node.referenceType === "collapsed" ? "[]" : ""]; case "imageReference": switch (node.referenceType) { case "full": return ["![", node.alt || "", "][", node.identifier, "]"]; default: return ["![", node.alt, "]", node.referenceType === "collapsed" ? "[]" : ""]; } case "definition": { const lineOrSpace = options.proseWrap === "always" ? line$a : " "; return group$7(["[", node.identifier, "]:", indent$3([lineOrSpace, printUrl(node.url), node.title === null ? "" : [lineOrSpace, printTitle(node.title, options, false)]])]); } // `footnote` requires `.use(footnotes, {inlineNotes: true})`, we are not using this option // https://github.com/remarkjs/remark-footnotes#optionsinlinenotes /* istanbul ignore next */ case "footnote": return ["[^", printChildren$4(path, options, print), "]"]; case "footnoteReference": return ["[^", node.identifier, "]"]; case "footnoteDefinition": { const nextNode = path.getParentNode().children[path.getName() + 1]; const shouldInlineFootnote = node.children.length === 1 && node.children[0].type === "paragraph" && (options.proseWrap === "never" || options.proseWrap === "preserve" && node.children[0].position.start.line === node.children[0].position.end.line); return ["[^", node.identifier, "]: ", shouldInlineFootnote ? printChildren$4(path, options, print) : group$7([align$1(" ".repeat(4), printChildren$4(path, options, print, { processor: (childPath, index) => index === 0 ? group$7([softline$6, print()]) : print() })), nextNode && nextNode.type === "footnoteDefinition" ? softline$6 : ""])]; } case "table": return printTable(path, options, print); case "tableCell": return printChildren$4(path, options, print); case "break": return /\s/.test(options.originalText[node.position.start.offset]) ? [" ", markAsRoot$1(literalline$3)] : ["\\", hardline$8]; case "liquidNode": return replaceTextEndOfLine$7(node.value, hardline$8); // MDX // fallback to the original text if multiparser failed // or `embeddedLanguageFormatting: "off"` case "importExport": return [node.value, hardline$8]; case "esComment": return ["{/* ", node.value, " */}"]; case "jsx": return node.value; case "math": return ["$$", hardline$8, node.value ? [...replaceTextEndOfLine$7(node.value, hardline$8), hardline$8] : "", "$$"]; case "inlineMath": { // remark-math trims content but we don't want to remove whitespaces // since it's very possible that it's recognized as math accidentally return options.originalText.slice(locStart$6(node), locEnd$5(node)); } case "tableRow": // handled in "table" case "listItem": // handled in "list" default: /* istanbul ignore next */ throw new Error(`Unknown markdown type ${JSON.stringify(node.type)}`); } } function printListItem(path, options, print, listPrefix) { const node = path.getValue(); const prefix = node.checked === null ? "" : node.checked ? "[x] " : "[ ] "; return [prefix, printChildren$4(path, options, print, { processor: (childPath, index) => { if (index === 0 && childPath.getValue().type !== "list") { return align$1(" ".repeat(prefix.length), print()); } const alignment = " ".repeat(clamp(options.tabWidth - listPrefix.length, 0, 3) // 4+ will cause indented code block ); return [alignment, align$1(alignment, print())]; } })]; } function alignListPrefix(prefix, options) { const additionalSpaces = getAdditionalSpaces(); return prefix + " ".repeat(additionalSpaces >= 4 ? 0 : additionalSpaces // 4+ will cause indented code block ); function getAdditionalSpaces() { const restSpaces = prefix.length % options.tabWidth; return restSpaces === 0 ? 0 : options.tabWidth - restSpaces; } } function getNthListSiblingIndex(node, parentNode) { return getNthSiblingIndex(node, parentNode, siblingNode => siblingNode.ordered === node.ordered); } function getNthSiblingIndex(node, parentNode, condition) { let index = -1; for (const childNode of parentNode.children) { if (childNode.type === node.type && condition(childNode)) { index++; } else { index = -1; } if (childNode === node) { return index; } } } function getAncestorCounter(path, typeOrTypes) { const types = Array.isArray(typeOrTypes) ? typeOrTypes : [typeOrTypes]; let counter = -1; let ancestorNode; while (ancestorNode = path.getParentNode(++counter)) { if (types.includes(ancestorNode.type)) { return counter; } } return -1; } function getAncestorNode(path, typeOrTypes) { const counter = getAncestorCounter(path, typeOrTypes); return counter === -1 ? null : path.getParentNode(counter); } function printLine(path, value, options) { if (options.proseWrap === "preserve" && value === "\n") { return hardline$8; } const isBreakable = options.proseWrap === "always" && !getAncestorNode(path, SINGLE_LINE_NODE_TYPES); return value !== "" ? isBreakable ? line$a : " " : isBreakable ? softline$6 : ""; } function printTable(path, options, print) { const node = path.getValue(); const columnMaxWidths = []; // { [rowIndex: number]: { [columnIndex: number]: {text: string, width: number} } } const contents = path.map(rowPath => rowPath.map((cellPath, columnIndex) => { const text = printDocToString(print(), options).formatted; const width = getStringWidth(text); columnMaxWidths[columnIndex] = Math.max(columnMaxWidths[columnIndex] || 3, // minimum width = 3 (---, :--, :-:, --:) width); return { text, width }; }, "children"), "children"); const alignedTable = printTableContents( /* isCompact */ false); if (options.proseWrap !== "never") { return [breakParent$4, alignedTable]; } // Only if the --prose-wrap never is set and it exceeds the print width. const compactTable = printTableContents( /* isCompact */ true); return [breakParent$4, group$7(ifBreak$5(compactTable, alignedTable))]; function printTableContents(isCompact) { /** @type{Doc[]} */ const parts = [printRow(contents[0], isCompact), printAlign(isCompact)]; if (contents.length > 1) { parts.push(join$7(hardlineWithoutBreakParent, contents.slice(1).map(rowContents => printRow(rowContents, isCompact)))); } return join$7(hardlineWithoutBreakParent, parts); } function printAlign(isCompact) { const align = columnMaxWidths.map((width, index) => { const align = node.align[index]; const first = align === "center" || align === "left" ? ":" : "-"; const last = align === "center" || align === "right" ? ":" : "-"; const middle = isCompact ? "-" : "-".repeat(width - 2); return `${first}${middle}${last}`; }); return `| ${align.join(" | ")} |`; } function printRow(rowContents, isCompact) { const columns = rowContents.map(({ text, width }, columnIndex) => { if (isCompact) { return text; } const spaces = columnMaxWidths[columnIndex] - width; const align = node.align[columnIndex]; let before = 0; if (align === "right") { before = spaces; } else if (align === "center") { before = Math.floor(spaces / 2); } const after = spaces - before; return `${" ".repeat(before)}${text}${" ".repeat(after)}`; }); return `| ${columns.join(" | ")} |`; } } function printRoot(path, options, print) { /** @typedef {{ index: number, offset: number }} IgnorePosition */ /** @type {Array<{start: IgnorePosition, end: IgnorePosition}>} */ const ignoreRanges = []; /** @type {IgnorePosition | null} */ let ignoreStart = null; const { children } = path.getValue(); for (const [index, childNode] of children.entries()) { switch (isPrettierIgnore$2(childNode)) { case "start": if (ignoreStart === null) { ignoreStart = { index, offset: childNode.position.end.offset }; } break; case "end": if (ignoreStart !== null) { ignoreRanges.push({ start: ignoreStart, end: { index, offset: childNode.position.start.offset } }); ignoreStart = null; } break; } } return printChildren$4(path, options, print, { processor: (childPath, index) => { if (ignoreRanges.length > 0) { const ignoreRange = ignoreRanges[0]; if (index === ignoreRange.start.index) { return [children[ignoreRange.start.index].value, options.originalText.slice(ignoreRange.start.offset, ignoreRange.end.offset), children[ignoreRange.end.index].value]; } if (ignoreRange.start.index < index && index < ignoreRange.end.index) { return false; } if (index === ignoreRange.end.index) { ignoreRanges.shift(); return false; } } return print(); } }); } function printChildren$4(path, options, print, events = {}) { const { postprocessor } = events; const processor = events.processor || (() => print()); const node = path.getValue(); const parts = []; let lastChildNode; path.each((childPath, index) => { const childNode = childPath.getValue(); const result = processor(childPath, index); if (result !== false) { const data = { parts, prevNode: lastChildNode, parentNode: node, options }; if (shouldPrePrintHardline(childNode, data)) { parts.push(hardline$8); // Can't find a case to pass `shouldPrePrintTripleHardline` /* istanbul ignore next */ if (lastChildNode && TRAILING_HARDLINE_NODES.has(lastChildNode.type)) { if (shouldPrePrintTripleHardline(childNode, data)) { parts.push(hardline$8); } } else { if (shouldPrePrintDoubleHardline(childNode, data) || shouldPrePrintTripleHardline(childNode, data)) { parts.push(hardline$8); } if (shouldPrePrintTripleHardline(childNode, data)) { parts.push(hardline$8); } } } parts.push(result); lastChildNode = childNode; } }, "children"); return postprocessor ? postprocessor(parts) : parts; } function getLastDescendantNode$2(node) { let current = node; while (isNonEmptyArray$2(current.children)) { current = getLast$3(current.children); } return current; } /** @return {false | 'next' | 'start' | 'end'} */ function isPrettierIgnore$2(node) { let match; if (node.type === "html") { match = node.value.match(/^$/); } else { let comment; if (node.type === "esComment") { comment = node; } else if (node.type === "paragraph" && node.children.length === 1 && node.children[0].type === "esComment") { comment = node.children[0]; } if (comment) { match = comment.value.match(/^prettier-ignore(?:-(start|end))?$/); } } return match ? match[1] ? match[1] : "next" : false; } function shouldPrePrintHardline(node, data) { const isFirstNode = data.parts.length === 0; const isInlineNode = INLINE_NODE_TYPES.includes(node.type); const isInlineHTML = node.type === "html" && INLINE_NODE_WRAPPER_TYPES.includes(data.parentNode.type); return !isFirstNode && !isInlineNode && !isInlineHTML; } function shouldPrePrintDoubleHardline(node, data) { const isSequence = (data.prevNode && data.prevNode.type) === node.type; const isSiblingNode = isSequence && SIBLING_NODE_TYPES.has(node.type); const isInTightListItem = data.parentNode.type === "listItem" && !data.parentNode.loose; const isPrevNodeLooseListItem = data.prevNode && data.prevNode.type === "listItem" && data.prevNode.loose; const isPrevNodePrettierIgnore = isPrettierIgnore$2(data.prevNode) === "next"; const isBlockHtmlWithoutBlankLineBetweenPrevHtml = node.type === "html" && data.prevNode && data.prevNode.type === "html" && data.prevNode.position.end.line + 1 === node.position.start.line; const isHtmlDirectAfterListItem = node.type === "html" && data.parentNode.type === "listItem" && data.prevNode && data.prevNode.type === "paragraph" && data.prevNode.position.end.line + 1 === node.position.start.line; return isPrevNodeLooseListItem || !(isSiblingNode || isInTightListItem || isPrevNodePrettierIgnore || isBlockHtmlWithoutBlankLineBetweenPrevHtml || isHtmlDirectAfterListItem); } function shouldPrePrintTripleHardline(node, data) { const isPrevNodeList = data.prevNode && data.prevNode.type === "list"; const isIndentedCode = node.type === "code" && node.isIndented; return isPrevNodeList && isIndentedCode; } function shouldRemainTheSameContent(path) { const ancestorNode = getAncestorNode(path, ["linkReference", "imageReference"]); return ancestorNode && (ancestorNode.type !== "linkReference" || ancestorNode.referenceType !== "full"); } /** * @param {string} url * @param {string[] | string} [dangerousCharOrChars] * @returns {string} */ function printUrl(url, dangerousCharOrChars = []) { const dangerousChars = [" ", ...(Array.isArray(dangerousCharOrChars) ? dangerousCharOrChars : [dangerousCharOrChars])]; return new RegExp(dangerousChars.map(x => `\\${x}`).join("|")).test(url) ? `<${url}>` : url; } function printTitle(title, options, printSpace = true) { if (!title) { return ""; } if (printSpace) { return " " + printTitle(title, options, false); } // title is escaped after `remark-parse` v7 title = title.replace(/\\(["')])/g, "$1"); if (title.includes('"') && title.includes("'") && !title.includes(")")) { return `(${title})`; // avoid escaped quotes } // faster than using RegExps: https://jsperf.com/performance-of-match-vs-split const singleCount = title.split("'").length - 1; const doubleCount = title.split('"').length - 1; const quote = singleCount > doubleCount ? '"' : doubleCount > singleCount ? "'" : options.singleQuote ? "'" : '"'; title = title.replace(/\\/, "\\\\"); title = title.replace(new RegExp(`(${quote})`, "g"), "\\$1"); return `${quote}${title}${quote}`; } function clamp(value, min, max) { return value < min ? min : value > max ? max : value; } function hasPrettierIgnore$5(path) { const index = Number(path.getName()); if (index === 0) { return false; } const prevNode = path.getParentNode().children[index - 1]; return isPrettierIgnore$2(prevNode) === "next"; } var printerMarkdown = { preprocess: preprocess$4, print: genericPrint$2, embed: embed$5, massageAstNode: clean$3, hasPrettierIgnore: hasPrettierIgnore$5, insertPragma: insertPragma$4 }; const commonOptions$2 = commonOptions$6; // format based on https://github.com/prettier/prettier/blob/main/src/main/core-options.js var options$5 = { proseWrap: commonOptions$2.proseWrap, singleQuote: commonOptions$2.singleQuote }; var parsers$5 = { /* istanbul ignore next */ get remark() { return require("./parser-markdown.js").parsers.remark; }, get markdown() { return require("./parser-markdown.js").parsers.remark; }, get mdx() { return require("./parser-markdown.js").parsers.mdx; } }; var name$3 = "Markdown"; var type$3 = "prose"; var color$3 = "#083fa1"; var aliases$2 = [ "pandoc" ]; var aceMode$3 = "markdown"; var codemirrorMode$2 = "gfm"; var codemirrorMimeType$2 = "text/x-gfm"; var wrap = true; var extensions$3 = [ ".md", ".markdown", ".mdown", ".mdwn", ".mdx", ".mkd", ".mkdn", ".mkdown", ".ronn", ".scd", ".workbook" ]; var filenames$1 = [ "contents.lr" ]; var tmScope$3 = "source.gfm"; var languageId$3 = 222; var require$$4$3 = { name: name$3, type: type$3, color: color$3, aliases: aliases$2, aceMode: aceMode$3, codemirrorMode: codemirrorMode$2, codemirrorMimeType: codemirrorMimeType$2, wrap: wrap, extensions: extensions$3, filenames: filenames$1, tmScope: tmScope$3, languageId: languageId$3 }; const createLanguage$2 = createLanguage$7; const printer$2 = printerMarkdown; const options$4 = options$5; const parsers$4 = parsers$5; const languages$3 = [createLanguage$2(require$$4$3, data => ({ since: "1.8.0", parsers: ["markdown"], vscodeLanguageIds: ["markdown"], filenames: [...data.filenames, "README"], extensions: data.extensions.filter(extension => extension !== ".mdx") })), createLanguage$2(require$$4$3, () => ({ name: "MDX", since: "1.15.0", parsers: ["mdx"], vscodeLanguageIds: ["mdx"], filenames: [], extensions: [".mdx"] }))]; const printers$1 = { mdast: printer$2 }; var languageMarkdown = { languages: languages$3, options: options$4, printers: printers$1, parsers: parsers$4 }; const { isFrontMatterNode: isFrontMatterNode$1 } = util$8; const ignoredProperties = new Set(["sourceSpan", "startSourceSpan", "endSourceSpan", "nameSpan", "valueSpan"]); function clean$2(ast, newNode) { if (ast.type === "text" || ast.type === "comment") { return null; } // may be formatted by multiparser if (isFrontMatterNode$1(ast) || ast.type === "yaml" || ast.type === "toml") { return null; } if (ast.type === "attribute") { delete newNode.value; } if (ast.type === "docType") { delete newNode.value; } } clean$2.ignoredProperties = ignoredProperties; var clean_1 = clean$2; var require$$0 = [ "a", "abbr", "acronym", "address", "applet", "area", "article", "aside", "audio", "b", "base", "basefont", "bdi", "bdo", "bgsound", "big", "blink", "blockquote", "body", "br", "button", "canvas", "caption", "center", "cite", "code", "col", "colgroup", "command", "content", "data", "datalist", "dd", "del", "details", "dfn", "dialog", "dir", "div", "dl", "dt", "element", "em", "embed", "fieldset", "figcaption", "figure", "font", "footer", "form", "frame", "frameset", "h1", "h2", "h3", "h4", "h5", "h6", "head", "header", "hgroup", "hr", "html", "i", "iframe", "image", "img", "input", "ins", "isindex", "kbd", "keygen", "label", "legend", "li", "link", "listing", "main", "map", "mark", "marquee", "math", "menu", "menuitem", "meta", "meter", "multicol", "nav", "nextid", "nobr", "noembed", "noframes", "noscript", "object", "ol", "optgroup", "option", "output", "p", "param", "picture", "plaintext", "pre", "progress", "q", "rb", "rbc", "rp", "rt", "rtc", "ruby", "s", "samp", "script", "section", "select", "shadow", "slot", "small", "source", "spacer", "span", "strike", "strong", "style", "sub", "summary", "sup", "svg", "table", "tbody", "td", "template", "textarea", "tfoot", "th", "thead", "time", "title", "tr", "track", "tt", "u", "ul", "var", "video", "wbr", "xmp" ]; var a = [ "accesskey", "charset", "coords", "download", "href", "hreflang", "name", "ping", "referrerpolicy", "rel", "rev", "shape", "tabindex", "target", "type" ]; var abbr = [ "title" ]; var applet = [ "align", "alt", "archive", "code", "codebase", "height", "hspace", "name", "object", "vspace", "width" ]; var area = [ "accesskey", "alt", "coords", "download", "href", "hreflang", "nohref", "ping", "referrerpolicy", "rel", "shape", "tabindex", "target", "type" ]; var audio = [ "autoplay", "controls", "crossorigin", "loop", "muted", "preload", "src" ]; var base = [ "href", "target" ]; var basefont = [ "color", "face", "size" ]; var bdo = [ "dir" ]; var blockquote = [ "cite" ]; var body = [ "alink", "background", "bgcolor", "link", "text", "vlink" ]; var br = [ "clear" ]; var button = [ "accesskey", "autofocus", "disabled", "form", "formaction", "formenctype", "formmethod", "formnovalidate", "formtarget", "name", "tabindex", "type", "value" ]; var canvas = [ "height", "width" ]; var caption = [ "align" ]; var col = [ "align", "char", "charoff", "span", "valign", "width" ]; var colgroup = [ "align", "char", "charoff", "span", "valign", "width" ]; var data = [ "value" ]; var del = [ "cite", "datetime" ]; var details = [ "open" ]; var dfn = [ "title" ]; var dialog = [ "open" ]; var dir = [ "compact" ]; var div = [ "align" ]; var dl = [ "compact" ]; var embed$4 = [ "height", "src", "type", "width" ]; var fieldset = [ "disabled", "form", "name" ]; var font = [ "color", "face", "size" ]; var form = [ "accept", "accept-charset", "action", "autocomplete", "enctype", "method", "name", "novalidate", "target" ]; var frame = [ "frameborder", "longdesc", "marginheight", "marginwidth", "name", "noresize", "scrolling", "src" ]; var frameset = [ "cols", "rows" ]; var h1 = [ "align" ]; var h2 = [ "align" ]; var h3 = [ "align" ]; var h4 = [ "align" ]; var h5 = [ "align" ]; var h6 = [ "align" ]; var head = [ "profile" ]; var hr = [ "align", "noshade", "size", "width" ]; var html = [ "manifest", "version" ]; var iframe = [ "align", "allow", "allowfullscreen", "allowpaymentrequest", "allowusermedia", "frameborder", "height", "loading", "longdesc", "marginheight", "marginwidth", "name", "referrerpolicy", "sandbox", "scrolling", "src", "srcdoc", "width" ]; var img = [ "align", "alt", "border", "crossorigin", "decoding", "height", "hspace", "ismap", "loading", "longdesc", "name", "referrerpolicy", "sizes", "src", "srcset", "usemap", "vspace", "width" ]; var input = [ "accept", "accesskey", "align", "alt", "autocomplete", "autofocus", "checked", "dirname", "disabled", "form", "formaction", "formenctype", "formmethod", "formnovalidate", "formtarget", "height", "ismap", "list", "max", "maxlength", "min", "minlength", "multiple", "name", "pattern", "placeholder", "readonly", "required", "size", "src", "step", "tabindex", "title", "type", "usemap", "value", "width" ]; var ins = [ "cite", "datetime" ]; var isindex = [ "prompt" ]; var label = [ "accesskey", "for", "form" ]; var legend = [ "accesskey", "align" ]; var li = [ "type", "value" ]; var link = [ "as", "charset", "color", "crossorigin", "disabled", "href", "hreflang", "imagesizes", "imagesrcset", "integrity", "media", "nonce", "referrerpolicy", "rel", "rev", "sizes", "target", "title", "type" ]; var map = [ "name" ]; var menu = [ "compact" ]; var meta = [ "charset", "content", "http-equiv", "name", "scheme" ]; var meter = [ "high", "low", "max", "min", "optimum", "value" ]; var object = [ "align", "archive", "border", "classid", "codebase", "codetype", "data", "declare", "form", "height", "hspace", "name", "standby", "tabindex", "type", "typemustmatch", "usemap", "vspace", "width" ]; var ol = [ "compact", "reversed", "start", "type" ]; var optgroup = [ "disabled", "label" ]; var option = [ "disabled", "label", "selected", "value" ]; var output = [ "for", "form", "name" ]; var p = [ "align" ]; var param = [ "name", "type", "value", "valuetype" ]; var pre = [ "width" ]; var progress = [ "max", "value" ]; var q = [ "cite" ]; var script = [ "async", "charset", "crossorigin", "defer", "integrity", "language", "nomodule", "nonce", "referrerpolicy", "src", "type" ]; var select = [ "autocomplete", "autofocus", "disabled", "form", "multiple", "name", "required", "size", "tabindex" ]; var slot = [ "name" ]; var source = [ "media", "sizes", "src", "srcset", "type" ]; var style = [ "media", "nonce", "title", "type" ]; var table = [ "align", "bgcolor", "border", "cellpadding", "cellspacing", "frame", "rules", "summary", "width" ]; var tbody = [ "align", "char", "charoff", "valign" ]; var td = [ "abbr", "align", "axis", "bgcolor", "char", "charoff", "colspan", "headers", "height", "nowrap", "rowspan", "scope", "valign", "width" ]; var textarea = [ "accesskey", "autocomplete", "autofocus", "cols", "dirname", "disabled", "form", "maxlength", "minlength", "name", "placeholder", "readonly", "required", "rows", "tabindex", "wrap" ]; var tfoot = [ "align", "char", "charoff", "valign" ]; var th = [ "abbr", "align", "axis", "bgcolor", "char", "charoff", "colspan", "headers", "height", "nowrap", "rowspan", "scope", "valign", "width" ]; var thead = [ "align", "char", "charoff", "valign" ]; var time = [ "datetime" ]; var tr = [ "align", "bgcolor", "char", "charoff", "valign" ]; var track = [ "default", "kind", "label", "src", "srclang" ]; var ul = [ "compact", "type" ]; var video = [ "autoplay", "controls", "crossorigin", "height", "loop", "muted", "playsinline", "poster", "preload", "src", "width" ]; var require$$1 = { "*": [ "accesskey", "autocapitalize", "autofocus", "class", "contenteditable", "dir", "draggable", "enterkeyhint", "hidden", "id", "inputmode", "is", "itemid", "itemprop", "itemref", "itemscope", "itemtype", "lang", "nonce", "slot", "spellcheck", "style", "tabindex", "title", "translate" ], a: a, abbr: abbr, applet: applet, area: area, audio: audio, base: base, basefont: basefont, bdo: bdo, blockquote: blockquote, body: body, br: br, button: button, canvas: canvas, caption: caption, col: col, colgroup: colgroup, data: data, del: del, details: details, dfn: dfn, dialog: dialog, dir: dir, div: div, dl: dl, embed: embed$4, fieldset: fieldset, font: font, form: form, frame: frame, frameset: frameset, h1: h1, h2: h2, h3: h3, h4: h4, h5: h5, h6: h6, head: head, hr: hr, html: html, iframe: iframe, img: img, input: input, ins: ins, isindex: isindex, label: label, legend: legend, li: li, link: link, map: map, menu: menu, meta: meta, meter: meter, object: object, ol: ol, optgroup: optgroup, option: option, output: output, p: p, param: param, pre: pre, progress: progress, q: q, script: script, select: select, slot: slot, source: source, style: style, table: table, tbody: tbody, td: td, textarea: textarea, tfoot: tfoot, th: th, thead: thead, time: time, tr: tr, track: track, ul: ul, video: video }; var require$$4$2 = { "CSS_DISPLAY_TAGS": { "area": "none", "base": "none", "basefont": "none", "datalist": "none", "head": "none", "link": "none", "meta": "none", "noembed": "none", "noframes": "none", "param": "block", "rp": "none", "script": "block", "source": "block", "style": "none", "template": "inline", "track": "block", "title": "none", "html": "block", "body": "block", "address": "block", "blockquote": "block", "center": "block", "div": "block", "figure": "block", "figcaption": "block", "footer": "block", "form": "block", "header": "block", "hr": "block", "legend": "block", "listing": "block", "main": "block", "p": "block", "plaintext": "block", "pre": "block", "xmp": "block", "slot": "contents", "ruby": "ruby", "rt": "ruby-text", "article": "block", "aside": "block", "h1": "block", "h2": "block", "h3": "block", "h4": "block", "h5": "block", "h6": "block", "hgroup": "block", "nav": "block", "section": "block", "dir": "block", "dd": "block", "dl": "block", "dt": "block", "ol": "block", "ul": "block", "li": "list-item", "table": "table", "caption": "table-caption", "colgroup": "table-column-group", "col": "table-column", "thead": "table-header-group", "tbody": "table-row-group", "tfoot": "table-footer-group", "tr": "table-row", "td": "table-cell", "th": "table-cell", "fieldset": "block", "button": "inline-block", "details": "block", "summary": "block", "dialog": "block", "meter": "inline-block", "progress": "inline-block", "object": "inline-block", "video": "inline-block", "audio": "inline-block", "select": "inline-block", "option": "block", "optgroup": "block" }, "CSS_DISPLAY_DEFAULT": "inline", "CSS_WHITE_SPACE_TAGS": { "listing": "pre", "plaintext": "pre", "pre": "pre", "xmp": "pre", "nobr": "nowrap", "table": "initial", "textarea": "pre-wrap" }, "CSS_WHITE_SPACE_DEFAULT": "normal" }; /** * @typedef {import("../common/ast-path")} AstPath */ const htmlTagNames = require$$0; const htmlElementAttributes = require$$1; const { inferParserByLanguage, isFrontMatterNode } = util$8; const { builders: { line: line$9, hardline: hardline$7, join: join$6 }, utils: { getDocParts: getDocParts$3, replaceTextEndOfLine: replaceTextEndOfLine$6 } } = require$$7$3; const { CSS_DISPLAY_TAGS, CSS_DISPLAY_DEFAULT, CSS_WHITE_SPACE_TAGS, CSS_WHITE_SPACE_DEFAULT } = require$$4$2; const HTML_TAGS = arrayToMap(htmlTagNames); const HTML_ELEMENT_ATTRIBUTES = mapObject(htmlElementAttributes, arrayToMap); // https://infra.spec.whatwg.org/#ascii-whitespace const HTML_WHITESPACE = new Set(["\t", "\n", "\f", "\r", " "]); const htmlTrimStart = string => string.replace(/^[\t\n\f\r ]+/, ""); const htmlTrimEnd = string => string.replace(/[\t\n\f\r ]+$/, ""); const htmlTrim$1 = string => htmlTrimStart(htmlTrimEnd(string)); const htmlTrimLeadingBlankLines = string => string.replace(/^[\t\f\r ]*?\n/g, ""); const htmlTrimPreserveIndentation$1 = string => htmlTrimLeadingBlankLines(htmlTrimEnd(string)); const splitByHtmlWhitespace = string => string.split(/[\t\n\f\r ]+/); const getLeadingHtmlWhitespace = string => string.match(/^[\t\n\f\r ]*/)[0]; const getLeadingAndTrailingHtmlWhitespace$1 = string => { const [, leadingWhitespace, text, trailingWhitespace] = string.match(/^([\t\n\f\r ]*)(.*?)([\t\n\f\r ]*)$/s); return { leadingWhitespace, trailingWhitespace, text }; }; const hasHtmlWhitespace$1 = string => /[\t\n\f\r ]/.test(string); function arrayToMap(array) { const map = Object.create(null); for (const value of array) { map[value] = true; } return map; } function mapObject(object, fn) { const newObject = Object.create(null); for (const [key, value] of Object.entries(object)) { newObject[key] = fn(value, key); } return newObject; } function shouldPreserveContent$2(node, options) { // unterminated node in ie conditional comment // e.g. if (node.type === "ieConditionalComment" && node.lastChild && !node.lastChild.isSelfClosing && !node.lastChild.endSourceSpan) { return true; } // incomplete html in ie conditional comment // e.g. if (node.type === "ieConditionalComment" && !node.complete) { return true; } // TODO: handle non-text children in


  if (isPreLikeNode$1(node) && node.children.some(child => child.type !== "text" && child.type !== "interpolation")) {
    return true;
  }

  if (isVueNonHtmlBlock$1(node, options) && !isScriptLikeTag$2(node) && node.type !== "interpolation") {
    return true;
  }

  return false;
}

function hasPrettierIgnore$4(node) {
  /* istanbul ignore next */
  if (node.type === "attribute") {
    return false;
  }
  /* istanbul ignore next */


  if (!node.parent) {
    return false;
  }

  if (typeof node.index !== "number" || node.index === 0) {
    return false;
  }

  const prevNode = node.parent.children[node.index - 1];
  return isPrettierIgnore$1(prevNode);
}

function isPrettierIgnore$1(node) {
  return node.type === "comment" && node.value.trim() === "prettier-ignore";
}
/** there's no opening/closing tag or it's considered not breakable */


function isTextLikeNode$2(node) {
  return node.type === "text" || node.type === "comment";
}

function isScriptLikeTag$2(node) {
  return node.type === "element" && (node.fullName === "script" || node.fullName === "style" || node.fullName === "svg:style" || isUnknownNamespace(node) && (node.name === "script" || node.name === "style"));
}

function canHaveInterpolation$1(node) {
  return node.children && !isScriptLikeTag$2(node);
}

function isWhitespaceSensitiveNode$1(node) {
  return isScriptLikeTag$2(node) || node.type === "interpolation" || isIndentationSensitiveNode$1(node);
}

function isIndentationSensitiveNode$1(node) {
  return getNodeCssStyleWhiteSpace(node).startsWith("pre");
}

function isLeadingSpaceSensitiveNode$1(node, options) {
  const isLeadingSpaceSensitive = _isLeadingSpaceSensitiveNode();

  if (isLeadingSpaceSensitive && !node.prev && node.parent && node.parent.tagDefinition && node.parent.tagDefinition.ignoreFirstLf) {
    return node.type === "interpolation";
  }

  return isLeadingSpaceSensitive;

  function _isLeadingSpaceSensitiveNode() {
    if (isFrontMatterNode(node)) {
      return false;
    }

    if ((node.type === "text" || node.type === "interpolation") && node.prev && (node.prev.type === "text" || node.prev.type === "interpolation")) {
      return true;
    }

    if (!node.parent || node.parent.cssDisplay === "none") {
      return false;
    }

    if (isPreLikeNode$1(node.parent)) {
      return true;
    }

    if (!node.prev && (node.parent.type === "root" || isPreLikeNode$1(node) && node.parent || isScriptLikeTag$2(node.parent) || isVueCustomBlock$1(node.parent, options) || !isFirstChildLeadingSpaceSensitiveCssDisplay(node.parent.cssDisplay))) {
      return false;
    }

    if (node.prev && !isNextLeadingSpaceSensitiveCssDisplay(node.prev.cssDisplay)) {
      return false;
    }

    return true;
  }
}

function isTrailingSpaceSensitiveNode$1(node, options) {
  if (isFrontMatterNode(node)) {
    return false;
  }

  if ((node.type === "text" || node.type === "interpolation") && node.next && (node.next.type === "text" || node.next.type === "interpolation")) {
    return true;
  }

  if (!node.parent || node.parent.cssDisplay === "none") {
    return false;
  }

  if (isPreLikeNode$1(node.parent)) {
    return true;
  }

  if (!node.next && (node.parent.type === "root" || isPreLikeNode$1(node) && node.parent || isScriptLikeTag$2(node.parent) || isVueCustomBlock$1(node.parent, options) || !isLastChildTrailingSpaceSensitiveCssDisplay(node.parent.cssDisplay))) {
    return false;
  }

  if (node.next && !isPrevTrailingSpaceSensitiveCssDisplay(node.next.cssDisplay)) {
    return false;
  }

  return true;
}

function isDanglingSpaceSensitiveNode$1(node) {
  return isDanglingSpaceSensitiveCssDisplay(node.cssDisplay) && !isScriptLikeTag$2(node);
}

function forceNextEmptyLine$1(node) {
  return isFrontMatterNode(node) || node.next && node.sourceSpan.end && node.sourceSpan.end.line + 1 < node.next.sourceSpan.start.line;
}
/** firstChild leadingSpaces and lastChild trailingSpaces */


function forceBreakContent$1(node) {
  return forceBreakChildren$1(node) || node.type === "element" && node.children.length > 0 && (["body", "script", "style"].includes(node.name) || node.children.some(child => hasNonTextChild(child))) || node.firstChild && node.firstChild === node.lastChild && node.firstChild.type !== "text" && hasLeadingLineBreak(node.firstChild) && (!node.lastChild.isTrailingSpaceSensitive || hasTrailingLineBreak(node.lastChild));
}
/** spaces between children */


function forceBreakChildren$1(node) {
  return node.type === "element" && node.children.length > 0 && (["html", "head", "ul", "ol", "select"].includes(node.name) || node.cssDisplay.startsWith("table") && node.cssDisplay !== "table-cell");
}

function preferHardlineAsLeadingSpaces$1(node) {
  return preferHardlineAsSurroundingSpaces(node) || node.prev && preferHardlineAsTrailingSpaces(node.prev) || hasSurroundingLineBreak(node);
}

function preferHardlineAsTrailingSpaces(node) {
  return preferHardlineAsSurroundingSpaces(node) || node.type === "element" && node.fullName === "br" || hasSurroundingLineBreak(node);
}

function hasSurroundingLineBreak(node) {
  return hasLeadingLineBreak(node) && hasTrailingLineBreak(node);
}

function hasLeadingLineBreak(node) {
  return node.hasLeadingSpaces && (node.prev ? node.prev.sourceSpan.end.line < node.sourceSpan.start.line : node.parent.type === "root" || node.parent.startSourceSpan.end.line < node.sourceSpan.start.line);
}

function hasTrailingLineBreak(node) {
  return node.hasTrailingSpaces && (node.next ? node.next.sourceSpan.start.line > node.sourceSpan.end.line : node.parent.type === "root" || node.parent.endSourceSpan && node.parent.endSourceSpan.start.line > node.sourceSpan.end.line);
}

function preferHardlineAsSurroundingSpaces(node) {
  switch (node.type) {
    case "ieConditionalComment":
    case "comment":
    case "directive":
      return true;

    case "element":
      return ["script", "select"].includes(node.name);
  }

  return false;
}

function getLastDescendant$1(node) {
  return node.lastChild ? getLastDescendant$1(node.lastChild) : node;
}

function hasNonTextChild(node) {
  return node.children && node.children.some(child => child.type !== "text");
}

function _inferScriptParser(node) {
  const {
    type,
    lang
  } = node.attrMap;

  if (type === "module" || type === "text/javascript" || type === "text/babel" || type === "application/javascript" || lang === "jsx") {
    return "babel";
  }

  if (type === "application/x-typescript" || lang === "ts" || lang === "tsx") {
    return "typescript";
  }

  if (type === "text/markdown") {
    return "markdown";
  }

  if (type === "text/html") {
    return "html";
  }

  if (type && (type.endsWith("json") || type.endsWith("importmap"))) {
    return "json";
  }

  if (type === "text/x-handlebars-template") {
    return "glimmer";
  }
}

function inferStyleParser(node) {
  const {
    lang
  } = node.attrMap;

  if (!lang || lang === "postcss" || lang === "css") {
    return "css";
  }

  if (lang === "scss") {
    return "scss";
  }

  if (lang === "less") {
    return "less";
  }
}

function inferScriptParser$1(node, options) {
  if (node.name === "script" && !node.attrMap.src) {
    if (!node.attrMap.lang && !node.attrMap.type) {
      return "babel";
    }

    return _inferScriptParser(node);
  }

  if (node.name === "style") {
    return inferStyleParser(node);
  }

  if (options && isVueNonHtmlBlock$1(node, options)) {
    return _inferScriptParser(node) || !("src" in node.attrMap) && inferParserByLanguage(node.attrMap.lang, options);
  }
}

function isBlockLikeCssDisplay(cssDisplay) {
  return cssDisplay === "block" || cssDisplay === "list-item" || cssDisplay.startsWith("table");
}

function isFirstChildLeadingSpaceSensitiveCssDisplay(cssDisplay) {
  return !isBlockLikeCssDisplay(cssDisplay) && cssDisplay !== "inline-block";
}

function isLastChildTrailingSpaceSensitiveCssDisplay(cssDisplay) {
  return !isBlockLikeCssDisplay(cssDisplay) && cssDisplay !== "inline-block";
}

function isPrevTrailingSpaceSensitiveCssDisplay(cssDisplay) {
  return !isBlockLikeCssDisplay(cssDisplay);
}

function isNextLeadingSpaceSensitiveCssDisplay(cssDisplay) {
  return !isBlockLikeCssDisplay(cssDisplay);
}

function isDanglingSpaceSensitiveCssDisplay(cssDisplay) {
  return !isBlockLikeCssDisplay(cssDisplay) && cssDisplay !== "inline-block";
}

function isPreLikeNode$1(node) {
  return getNodeCssStyleWhiteSpace(node).startsWith("pre");
}
/**
 * @param {AstPath} path
 * @param {(any) => boolean} predicate
 */


function countParents$1(path, predicate) {
  let counter = 0;

  for (let i = path.stack.length - 1; i >= 0; i--) {
    const value = path.stack[i];

    if (value && typeof value === "object" && !Array.isArray(value) && predicate(value)) {
      counter++;
    }
  }

  return counter;
}

function hasParent(node, fn) {
  let current = node;

  while (current) {
    if (fn(current)) {
      return true;
    }

    current = current.parent;
  }

  return false;
}

function getNodeCssStyleDisplay$1(node, options) {
  if (node.prev && node.prev.type === "comment") {
    // 
    const match = node.prev.value.match(/^\s*display:\s*([a-z]+)\s*$/);

    if (match) {
      return match[1];
    }
  }

  let isInSvgForeignObject = false;

  if (node.type === "element" && node.namespace === "svg") {
    if (hasParent(node, parent => parent.fullName === "svg:foreignObject")) {
      isInSvgForeignObject = true;
    } else {
      return node.name === "svg" ? "inline-block" : "block";
    }
  }

  switch (options.htmlWhitespaceSensitivity) {
    case "strict":
      return "inline";

    case "ignore":
      return "block";

    default:
      {
        // See https://github.com/prettier/prettier/issues/8151
        if (options.parser === "vue" && node.parent && node.parent.type === "root") {
          return "block";
        }

        return node.type === "element" && (!node.namespace || isInSvgForeignObject || isUnknownNamespace(node)) && CSS_DISPLAY_TAGS[node.name] || CSS_DISPLAY_DEFAULT;
      }
  }
}

function isUnknownNamespace(node) {
  return node.type === "element" && !node.hasExplicitNamespace && !["html", "svg"].includes(node.namespace);
}

function getNodeCssStyleWhiteSpace(node) {
  return node.type === "element" && (!node.namespace || isUnknownNamespace(node)) && CSS_WHITE_SPACE_TAGS[node.name] || CSS_WHITE_SPACE_DEFAULT;
}

function getMinIndentation(text) {
  let minIndentation = Number.POSITIVE_INFINITY;

  for (const lineText of text.split("\n")) {
    if (lineText.length === 0) {
      continue;
    }

    if (!HTML_WHITESPACE.has(lineText[0])) {
      return 0;
    }

    const indentation = getLeadingHtmlWhitespace(lineText).length;

    if (lineText.length === indentation) {
      continue;
    }

    if (indentation < minIndentation) {
      minIndentation = indentation;
    }
  }

  return minIndentation === Number.POSITIVE_INFINITY ? 0 : minIndentation;
}

function dedentString$1(text, minIndent = getMinIndentation(text)) {
  return minIndent === 0 ? text : text.split("\n").map(lineText => lineText.slice(minIndent)).join("\n");
}

function countChars$1(text, char) {
  let counter = 0;

  for (let i = 0; i < text.length; i++) {
    if (text[i] === char) {
      counter++;
    }
  }

  return counter;
}

function unescapeQuoteEntities$2(text) {
  return text.replace(/'/g, "'").replace(/"/g, '"');
} // top-level elements (excluding