/* @license Rollup.js v3.20.2 Fri, 24 Mar 2023 06:17:57 GMT - commit 1517d0360d66893d5cacdbaf7bc9d841c1c38069 https://github.com/rollup/rollup Released under the MIT License. */ 'use strict'; const rollup = require('./rollup.js'); const require$$0$1 = require('fs'); const require$$2 = require('util'); const require$$1 = require('stream'); const require$$0$2 = require('path'); const require$$2$1 = require('os'); const fseventsImporter = require('./fsevents-importer.js'); const require$$0$3 = require('events'); var chokidar = {}; const fs$3 = require$$0$1; const { Readable } = require$$1; const sysPath$3 = require$$0$2; const { promisify: promisify$3 } = require$$2; const picomatch$1 = rollup.picomatchExports; const readdir$1 = promisify$3(fs$3.readdir); const stat$3 = promisify$3(fs$3.stat); const lstat$2 = promisify$3(fs$3.lstat); const realpath$1 = promisify$3(fs$3.realpath); /** * @typedef {Object} EntryInfo * @property {String} path * @property {String} fullPath * @property {fs.Stats=} stats * @property {fs.Dirent=} dirent * @property {String} basename */ const BANG$2 = '!'; const RECURSIVE_ERROR_CODE = 'READDIRP_RECURSIVE_ERROR'; const NORMAL_FLOW_ERRORS = new Set(['ENOENT', 'EPERM', 'EACCES', 'ELOOP', RECURSIVE_ERROR_CODE]); const FILE_TYPE = 'files'; const DIR_TYPE = 'directories'; const FILE_DIR_TYPE = 'files_directories'; const EVERYTHING_TYPE = 'all'; const ALL_TYPES = [FILE_TYPE, DIR_TYPE, FILE_DIR_TYPE, EVERYTHING_TYPE]; const isNormalFlowError = error => NORMAL_FLOW_ERRORS.has(error.code); const [maj, min] = process.versions.node.split('.').slice(0, 2).map(n => Number.parseInt(n, 10)); const wantBigintFsStats = process.platform === 'win32' && (maj > 10 || (maj === 10 && min >= 5)); const normalizeFilter = filter => { if (filter === undefined) return; if (typeof filter === 'function') return filter; if (typeof filter === 'string') { const glob = picomatch$1(filter.trim()); return entry => glob(entry.basename); } if (Array.isArray(filter)) { const positive = []; const negative = []; for (const item of filter) { const trimmed = item.trim(); if (trimmed.charAt(0) === BANG$2) { negative.push(picomatch$1(trimmed.slice(1))); } else { positive.push(picomatch$1(trimmed)); } } if (negative.length > 0) { if (positive.length > 0) { return entry => positive.some(f => f(entry.basename)) && !negative.some(f => f(entry.basename)); } return entry => !negative.some(f => f(entry.basename)); } return entry => positive.some(f => f(entry.basename)); } }; class ReaddirpStream extends Readable { static get defaultOptions() { return { root: '.', /* eslint-disable no-unused-vars */ fileFilter: (path) => true, directoryFilter: (path) => true, /* eslint-enable no-unused-vars */ type: FILE_TYPE, lstat: false, depth: 2147483648, alwaysStat: false }; } constructor(options = {}) { super({ objectMode: true, autoDestroy: true, highWaterMark: options.highWaterMark || 4096 }); const opts = { ...ReaddirpStream.defaultOptions, ...options }; const { root, type } = opts; this._fileFilter = normalizeFilter(opts.fileFilter); this._directoryFilter = normalizeFilter(opts.directoryFilter); const statMethod = opts.lstat ? lstat$2 : stat$3; // Use bigint stats if it's windows and stat() supports options (node 10+). if (wantBigintFsStats) { this._stat = path => statMethod(path, { bigint: true }); } else { this._stat = statMethod; } this._maxDepth = opts.depth; this._wantsDir = [DIR_TYPE, FILE_DIR_TYPE, EVERYTHING_TYPE].includes(type); this._wantsFile = [FILE_TYPE, FILE_DIR_TYPE, EVERYTHING_TYPE].includes(type); this._wantsEverything = type === EVERYTHING_TYPE; this._root = sysPath$3.resolve(root); this._isDirent = ('Dirent' in fs$3) && !opts.alwaysStat; this._statsProp = this._isDirent ? 'dirent' : 'stats'; this._rdOptions = { encoding: 'utf8', withFileTypes: this._isDirent }; // Launch stream with one parent, the root dir. this.parents = [this._exploreDir(root, 1)]; this.reading = false; this.parent = undefined; } async _read(batch) { if (this.reading) return; this.reading = true; try { while (!this.destroyed && batch > 0) { const { path, depth, files = [] } = this.parent || {}; if (files.length > 0) { const slice = files.splice(0, batch).map(dirent => this._formatEntry(dirent, path)); for (const entry of await Promise.all(slice)) { if (this.destroyed) return; const entryType = await this._getEntryType(entry); if (entryType === 'directory' && this._directoryFilter(entry)) { if (depth <= this._maxDepth) { this.parents.push(this._exploreDir(entry.fullPath, depth + 1)); } if (this._wantsDir) { this.push(entry); batch--; } } else if ((entryType === 'file' || this._includeAsFile(entry)) && this._fileFilter(entry)) { if (this._wantsFile) { this.push(entry); batch--; } } } } else { const parent = this.parents.pop(); if (!parent) { this.push(null); break; } this.parent = await parent; if (this.destroyed) return; } } } catch (error) { this.destroy(error); } finally { this.reading = false; } } async _exploreDir(path, depth) { let files; try { files = await readdir$1(path, this._rdOptions); } catch (error) { this._onError(error); } return { files, depth, path }; } async _formatEntry(dirent, path) { let entry; try { const basename = this._isDirent ? dirent.name : dirent; const fullPath = sysPath$3.resolve(sysPath$3.join(path, basename)); entry = { path: sysPath$3.relative(this._root, fullPath), fullPath, basename }; entry[this._statsProp] = this._isDirent ? dirent : await this._stat(fullPath); } catch (err) { this._onError(err); } return entry; } _onError(err) { if (isNormalFlowError(err) && !this.destroyed) { this.emit('warn', err); } else { this.destroy(err); } } async _getEntryType(entry) { // entry may be undefined, because a warning or an error were emitted // and the statsProp is undefined const stats = entry && entry[this._statsProp]; if (!stats) { return; } if (stats.isFile()) { return 'file'; } if (stats.isDirectory()) { return 'directory'; } if (stats && stats.isSymbolicLink()) { const full = entry.fullPath; try { const entryRealPath = await realpath$1(full); const entryRealPathStats = await lstat$2(entryRealPath); if (entryRealPathStats.isFile()) { return 'file'; } if (entryRealPathStats.isDirectory()) { const len = entryRealPath.length; if (full.startsWith(entryRealPath) && full.substr(len, 1) === sysPath$3.sep) { const recursiveError = new Error( `Circular symlink detected: "${full}" points to "${entryRealPath}"` ); recursiveError.code = RECURSIVE_ERROR_CODE; return this._onError(recursiveError); } return 'directory'; } } catch (error) { this._onError(error); } } } _includeAsFile(entry) { const stats = entry && entry[this._statsProp]; return stats && this._wantsEverything && !stats.isDirectory(); } } /** * @typedef {Object} ReaddirpArguments * @property {Function=} fileFilter * @property {Function=} directoryFilter * @property {String=} type * @property {Number=} depth * @property {String=} root * @property {Boolean=} lstat * @property {Boolean=} bigint */ /** * Main function which ends up calling readdirRec and reads all files and directories in given root recursively. * @param {String} root Root directory * @param {ReaddirpArguments=} options Options to specify root (start directory), filters and recursion depth */ const readdirp$1 = (root, options = {}) => { let type = options.entryType || options.type; if (type === 'both') type = FILE_DIR_TYPE; // backwards-compatibility if (type) options.type = type; if (!root) { throw new Error('readdirp: root argument is required. Usage: readdirp(root, options)'); } else if (typeof root !== 'string') { throw new TypeError('readdirp: root argument must be a string. Usage: readdirp(root, options)'); } else if (type && !ALL_TYPES.includes(type)) { throw new Error(`readdirp: Invalid type passed. Use one of ${ALL_TYPES.join(', ')}`); } options.root = root; return new ReaddirpStream(options); }; const readdirpPromise = (root, options = {}) => { return new Promise((resolve, reject) => { const files = []; readdirp$1(root, options) .on('data', entry => files.push(entry)) .on('end', () => resolve(files)) .on('error', error => reject(error)); }); }; readdirp$1.promise = readdirpPromise; readdirp$1.ReaddirpStream = ReaddirpStream; readdirp$1.default = readdirp$1; var readdirp_1 = readdirp$1; var anymatchExports = {}; var anymatch$2 = { get exports(){ return anymatchExports; }, set exports(v){ anymatchExports = v; }, }; /*! * normalize-path * * Copyright (c) 2014-2018, Jon Schlinkert. * Released under the MIT License. */ var normalizePath$2 = function(path, stripTrailing) { if (typeof path !== 'string') { throw new TypeError('expected path to be a string'); } if (path === '\\' || path === '/') return '/'; var len = path.length; if (len <= 1) return path; // ensure that win32 namespaces has two leading slashes, so that the path is // handled properly by the win32 version of path.parse() after being normalized // https://msdn.microsoft.com/library/windows/desktop/aa365247(v=vs.85).aspx#namespaces var prefix = ''; if (len > 4 && path[3] === '\\') { var ch = path[2]; if ((ch === '?' || ch === '.') && path.slice(0, 2) === '\\\\') { path = path.slice(2); prefix = '//'; } } var segs = path.split(/[/\\]+/); if (stripTrailing !== false && segs[segs.length - 1] === '') { segs.pop(); } return prefix + segs.join('/'); }; Object.defineProperty(anymatchExports, "__esModule", { value: true }); const picomatch = rollup.picomatchExports; const normalizePath$1 = normalizePath$2; /** * @typedef {(testString: string) => boolean} AnymatchFn * @typedef {string|RegExp|AnymatchFn} AnymatchPattern * @typedef {AnymatchPattern|AnymatchPattern[]} AnymatchMatcher */ const BANG$1 = '!'; const DEFAULT_OPTIONS = {returnIndex: false}; const arrify$1 = (item) => Array.isArray(item) ? item : [item]; /** * @param {AnymatchPattern} matcher * @param {object} options * @returns {AnymatchFn} */ const createPattern = (matcher, options) => { if (typeof matcher === 'function') { return matcher; } if (typeof matcher === 'string') { const glob = picomatch(matcher, options); return (string) => matcher === string || glob(string); } if (matcher instanceof RegExp) { return (string) => matcher.test(string); } return (string) => false; }; /** * @param {Array} patterns * @param {Array} negPatterns * @param {String|Array} args * @param {Boolean} returnIndex * @returns {boolean|number} */ const matchPatterns = (patterns, negPatterns, args, returnIndex) => { const isList = Array.isArray(args); const _path = isList ? args[0] : args; if (!isList && typeof _path !== 'string') { throw new TypeError('anymatch: second argument must be a string: got ' + Object.prototype.toString.call(_path)) } const path = normalizePath$1(_path, false); for (let index = 0; index < negPatterns.length; index++) { const nglob = negPatterns[index]; if (nglob(path)) { return returnIndex ? -1 : false; } } const applied = isList && [path].concat(args.slice(1)); for (let index = 0; index < patterns.length; index++) { const pattern = patterns[index]; if (isList ? pattern(...applied) : pattern(path)) { return returnIndex ? index : true; } } return returnIndex ? -1 : false; }; /** * @param {AnymatchMatcher} matchers * @param {Array|string} testString * @param {object} options * @returns {boolean|number|Function} */ const anymatch$1 = (matchers, testString, options = DEFAULT_OPTIONS) => { if (matchers == null) { throw new TypeError('anymatch: specify first argument'); } const opts = typeof options === 'boolean' ? {returnIndex: options} : options; const returnIndex = opts.returnIndex || false; // Early cache for matchers. const mtchers = arrify$1(matchers); const negatedGlobs = mtchers .filter(item => typeof item === 'string' && item.charAt(0) === BANG$1) .map(item => item.slice(1)) .map(item => picomatch(item, opts)); const patterns = mtchers .filter(item => typeof item !== 'string' || (typeof item === 'string' && item.charAt(0) !== BANG$1)) .map(matcher => createPattern(matcher, opts)); if (testString == null) { return (testString, ri = false) => { const returnIndex = typeof ri === 'boolean' ? ri : false; return matchPatterns(patterns, negatedGlobs, testString, returnIndex); } } return matchPatterns(patterns, negatedGlobs, testString, returnIndex); }; anymatch$1.default = anymatch$1; anymatch$2.exports = anymatch$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 = { '{': '}', '(': ')', '[': ']'}; 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[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[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$2 = 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$1 = isGlob$2; var pathPosixDirname = require$$0$2.posix.dirname; var isWin32 = require$$2$1.platform() === 'win32'; var slash = '/'; var backslash = /\\/g; var enclosure = /[\{\[].*[\}\]]$/; var globby = /(^|[^\\])([\{\[]|\([^\)]+$)/; 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) < 0) { str = str.replace(backslash, slash); } // special case for strings ending in enclosure containing path separator if (enclosure.test(str)) { str += slash; } // preserves full path in case of trailing path separator str += 'a'; // remove path parts that are globby do { str = pathPosixDirname(str); } while (isGlob$1(str) || globby.test(str)); // remove escape chars and return result return str.replace(escaped, '$1'); }; var utils$3 = {}; (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$3)); const utils$2 = utils$3; var stringify$4 = (ast, options = {}) => { let stringify = (node, parent = {}) => { let invalidBlock = options.escapeInvalid && utils$2.isInvalidBrace(parent); let invalidNode = node.invalid === true && options.escapeInvalid === true; let output = ''; if (node.value) { if ((invalidBlock || invalidNode) && utils$2.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; }; /*! * to-regex-range * * Copyright (c) 2015-present, Jon Schlinkert. * Released under the MIT License. */ 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 = { 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; /*! * fill-range * * Copyright (c) 2014-present, Jon Schlinkert. * Licensed under the MIT License. */ const util = require$$2; const toRegexRange = toRegexRange_1; const isObject = 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$3 = (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, { 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.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$3(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, { 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$2 = (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$2(start, end, 1, { transform: step }); } if (isObject(step)) { return fill$2(start, end, 0, step); } let opts = { ...options }; if (opts.capture === true) opts.wrap = true; step = step || opts.step || 1; if (!isNumber(step)) { if (step != null && !isObject(step)) return invalidStep(step, opts); return fill$2(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$2; const fill$1 = fillRange; const utils$1 = utils$3; const compile$1 = (ast, options = {}) => { let walk = (node, parent = {}) => { let invalidBlock = utils$1.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$1.reduce(node.nodes); let range = fill$1(...args, { ...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 = fillRange; const stringify$2 = stringify$4; const utils = utils$3; 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.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.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$2(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.reduce(node.nodes); if (utils.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(...args, options); if (range.length === 0) { range = stringify$2(node, options); } q.push(append(q.pop(), range)); node.nodes = []; return; } let enclose = utils.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.flatten(walk(ast)); }; var expand_1 = expand$1; var constants$1 = { 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$1 = stringify$4; /** * Constants */ const { MAX_LENGTH, CHAR_BACKSLASH, /* \ */ CHAR_BACKTICK, /* ` */ CHAR_COMMA, /* , */ CHAR_DOT, /* . */ CHAR_LEFT_PARENTHESES, /* ( */ CHAR_RIGHT_PARENTHESES, /* ) */ CHAR_LEFT_CURLY_BRACE, /* { */ CHAR_RIGHT_CURLY_BRACE, /* } */ CHAR_LEFT_SQUARE_BRACKET, /* [ */ CHAR_RIGHT_SQUARE_BRACKET, /* ] */ CHAR_DOUBLE_QUOTE, /* " */ CHAR_SINGLE_QUOTE, /* ' */ CHAR_NO_BREAK_SPACE, CHAR_ZERO_WIDTH_NOBREAK_SPACE } = constants$1; /** * parse */ const parse$1 = (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, opts.maxLength) : MAX_LENGTH; 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) { push({ type: 'text', value: '\\' + value }); continue; } /** * Left square bracket: '[' */ if (value === CHAR_LEFT_SQUARE_BRACKET) { brackets++; let next; while (index < length && (next = advance())) { value += next; if (next === CHAR_LEFT_SQUARE_BRACKET) { brackets++; continue; } if (next === CHAR_BACKSLASH) { value += advance(); continue; } if (next === CHAR_RIGHT_SQUARE_BRACKET) { brackets--; if (brackets === 0) { break; } } } push({ type: 'text', value }); continue; } /** * Parentheses */ if (value === CHAR_LEFT_PARENTHESES) { block = push({ type: 'paren', nodes: [] }); stack.push(block); push({ type: 'text', value }); continue; } if (value === CHAR_RIGHT_PARENTHESES) { 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) { 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) { 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 && depth > 0) { if (block.ranges > 0) { block.ranges = 0; let open = block.nodes.shift(); block.nodes = [open, { type: 'text', value: stringify$1(block) }]; } push({ type: 'comma', value }); block.commas++; continue; } /** * Dot: '.' */ if (value === CHAR_DOT && 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 = parse$1; const stringify = stringify$4; const compile = compile_1; const expand = expand_1; const parse = parse_1; /** * 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(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(braces$1.parse(input, options), options); } return stringify(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 binaryExtensionsExports = {}; var binaryExtensions$1 = { get exports(){ return binaryExtensionsExports; }, set exports(v){ binaryExtensionsExports = v; }, }; const require$$0 = [ "3dm", "3ds", "3g2", "3gp", "7z", "a", "aac", "adp", "ai", "aif", "aiff", "alz", "ape", "apk", "appimage", "ar", "arj", "asf", "au", "avi", "bak", "baml", "bh", "bin", "bk", "bmp", "btif", "bz2", "bzip2", "cab", "caf", "cgm", "class", "cmx", "cpio", "cr2", "cur", "dat", "dcm", "deb", "dex", "djvu", "dll", "dmg", "dng", "doc", "docm", "docx", "dot", "dotm", "dra", "DS_Store", "dsk", "dts", "dtshd", "dvb", "dwg", "dxf", "ecelp4800", "ecelp7470", "ecelp9600", "egg", "eol", "eot", "epub", "exe", "f4v", "fbs", "fh", "fla", "flac", "flatpak", "fli", "flv", "fpx", "fst", "fvt", "g3", "gh", "gif", "graffle", "gz", "gzip", "h261", "h263", "h264", "icns", "ico", "ief", "img", "ipa", "iso", "jar", "jpeg", "jpg", "jpgv", "jpm", "jxr", "key", "ktx", "lha", "lib", "lvp", "lz", "lzh", "lzma", "lzo", "m3u", "m4a", "m4v", "mar", "mdi", "mht", "mid", "midi", "mj2", "mka", "mkv", "mmr", "mng", "mobi", "mov", "movie", "mp3", "mp4", "mp4a", "mpeg", "mpg", "mpga", "mxu", "nef", "npx", "numbers", "nupkg", "o", "odp", "ods", "odt", "oga", "ogg", "ogv", "otf", "ott", "pages", "pbm", "pcx", "pdb", "pdf", "pea", "pgm", "pic", "png", "pnm", "pot", "potm", "potx", "ppa", "ppam", "ppm", "pps", "ppsm", "ppsx", "ppt", "pptm", "pptx", "psd", "pya", "pyc", "pyo", "pyv", "qt", "rar", "ras", "raw", "resources", "rgb", "rip", "rlc", "rmf", "rmvb", "rpm", "rtf", "rz", "s3m", "s7z", "scpt", "sgi", "shar", "snap", "sil", "sketch", "slk", "smv", "snk", "so", "stl", "suo", "sub", "swf", "tar", "tbz", "tbz2", "tga", "tgz", "thmx", "tif", "tiff", "tlz", "ttc", "ttf", "txz", "udf", "uvh", "uvi", "uvm", "uvp", "uvs", "uvu", "viv", "vob", "war", "wav", "wax", "wbmp", "wdp", "weba", "webm", "webp", "whl", "wim", "wm", "wma", "wmv", "wmx", "woff", "woff2", "wrm", "wvx", "xbm", "xif", "xla", "xlam", "xls", "xlsb", "xlsm", "xlsx", "xlt", "xltm", "xltx", "xm", "xmind", "xpi", "xpm", "xwd", "xz", "z", "zip", "zipx" ]; (function (module) { module.exports = require$$0; } (binaryExtensions$1)); const path = require$$0$2; const binaryExtensions = binaryExtensionsExports; const extensions = new Set(binaryExtensions); var isBinaryPath$1 = filePath => extensions.has(path.extname(filePath).slice(1).toLowerCase()); var constants = {}; (function (exports) { const {sep} = require$$0$2; const {platform} = process; const os = require$$2$1; exports.EV_ALL = 'all'; exports.EV_READY = 'ready'; exports.EV_ADD = 'add'; exports.EV_CHANGE = 'change'; exports.EV_ADD_DIR = 'addDir'; exports.EV_UNLINK = 'unlink'; exports.EV_UNLINK_DIR = 'unlinkDir'; exports.EV_RAW = 'raw'; exports.EV_ERROR = 'error'; exports.STR_DATA = 'data'; exports.STR_END = 'end'; exports.STR_CLOSE = 'close'; exports.FSEVENT_CREATED = 'created'; exports.FSEVENT_MODIFIED = 'modified'; exports.FSEVENT_DELETED = 'deleted'; exports.FSEVENT_MOVED = 'moved'; exports.FSEVENT_CLONED = 'cloned'; exports.FSEVENT_UNKNOWN = 'unknown'; exports.FSEVENT_TYPE_FILE = 'file'; exports.FSEVENT_TYPE_DIRECTORY = 'directory'; exports.FSEVENT_TYPE_SYMLINK = 'symlink'; exports.KEY_LISTENERS = 'listeners'; exports.KEY_ERR = 'errHandlers'; exports.KEY_RAW = 'rawEmitters'; exports.HANDLER_KEYS = [exports.KEY_LISTENERS, exports.KEY_ERR, exports.KEY_RAW]; exports.DOT_SLASH = `.${sep}`; exports.BACK_SLASH_RE = /\\/g; exports.DOUBLE_SLASH_RE = /\/\//; exports.SLASH_OR_BACK_SLASH_RE = /[/\\]/; exports.DOT_RE = /\..*\.(sw[px])$|~$|\.subl.*\.tmp/; exports.REPLACER_RE = /^\.[/\\]/; exports.SLASH = '/'; exports.SLASH_SLASH = '//'; exports.BRACE_START = '{'; exports.BANG = '!'; exports.ONE_DOT = '.'; exports.TWO_DOTS = '..'; exports.STAR = '*'; exports.GLOBSTAR = '**'; exports.ROOT_GLOBSTAR = '/**/*'; exports.SLASH_GLOBSTAR = '/**'; exports.DIR_SUFFIX = 'Dir'; exports.ANYMATCH_OPTS = {dot: true}; exports.STRING_TYPE = 'string'; exports.FUNCTION_TYPE = 'function'; exports.EMPTY_STR = ''; exports.EMPTY_FN = () => {}; exports.IDENTITY_FN = val => val; exports.isWindows = platform === 'win32'; exports.isMacos = platform === 'darwin'; exports.isLinux = platform === 'linux'; exports.isIBMi = os.type() === 'OS400'; } (constants)); const fs$2 = require$$0$1; const sysPath$2 = require$$0$2; const { promisify: promisify$2 } = require$$2; const isBinaryPath = isBinaryPath$1; const { isWindows: isWindows$1, isLinux, EMPTY_FN: EMPTY_FN$2, EMPTY_STR: EMPTY_STR$1, KEY_LISTENERS, KEY_ERR, KEY_RAW, HANDLER_KEYS, EV_CHANGE: EV_CHANGE$2, EV_ADD: EV_ADD$2, EV_ADD_DIR: EV_ADD_DIR$2, EV_ERROR: EV_ERROR$2, STR_DATA: STR_DATA$1, STR_END: STR_END$2, BRACE_START: BRACE_START$1, STAR } = constants; const THROTTLE_MODE_WATCH = 'watch'; const open = promisify$2(fs$2.open); const stat$2 = promisify$2(fs$2.stat); const lstat$1 = promisify$2(fs$2.lstat); const close = promisify$2(fs$2.close); const fsrealpath = promisify$2(fs$2.realpath); const statMethods$1 = { lstat: lstat$1, stat: stat$2 }; // TODO: emit errors properly. Example: EMFILE on Macos. const foreach = (val, fn) => { if (val instanceof Set) { val.forEach(fn); } else { fn(val); } }; const addAndConvert = (main, prop, item) => { let container = main[prop]; if (!(container instanceof Set)) { main[prop] = container = new Set([container]); } container.add(item); }; const clearItem = cont => key => { const set = cont[key]; if (set instanceof Set) { set.clear(); } else { delete cont[key]; } }; const delFromSet = (main, prop, item) => { const container = main[prop]; if (container instanceof Set) { container.delete(item); } else if (container === item) { delete main[prop]; } }; const isEmptySet = (val) => val instanceof Set ? val.size === 0 : !val; /** * @typedef {String} Path */ // fs_watch helpers // object to hold per-process fs_watch instances // (may be shared across chokidar FSWatcher instances) /** * @typedef {Object} FsWatchContainer * @property {Set} listeners * @property {Set} errHandlers * @property {Set} rawEmitters * @property {fs.FSWatcher=} watcher * @property {Boolean=} watcherUnusable */ /** * @type {Map} */ const FsWatchInstances = new Map(); /** * Instantiates the fs_watch interface * @param {String} path to be watched * @param {Object} options to be passed to fs_watch * @param {Function} listener main event handler * @param {Function} errHandler emits info about errors * @param {Function} emitRaw emits raw event data * @returns {fs.FSWatcher} new fsevents instance */ function createFsWatchInstance(path, options, listener, errHandler, emitRaw) { const handleEvent = (rawEvent, evPath) => { listener(path); emitRaw(rawEvent, evPath, {watchedPath: path}); // emit based on events occurring for files from a directory's watcher in // case the file's watcher misses it (and rely on throttling to de-dupe) if (evPath && path !== evPath) { fsWatchBroadcast( sysPath$2.resolve(path, evPath), KEY_LISTENERS, sysPath$2.join(path, evPath) ); } }; try { return fs$2.watch(path, options, handleEvent); } catch (error) { errHandler(error); } } /** * Helper for passing fs_watch event data to a collection of listeners * @param {Path} fullPath absolute path bound to fs_watch instance * @param {String} type listener type * @param {*=} val1 arguments to be passed to listeners * @param {*=} val2 * @param {*=} val3 */ const fsWatchBroadcast = (fullPath, type, val1, val2, val3) => { const cont = FsWatchInstances.get(fullPath); if (!cont) return; foreach(cont[type], (listener) => { listener(val1, val2, val3); }); }; /** * Instantiates the fs_watch interface or binds listeners * to an existing one covering the same file system entry * @param {String} path * @param {String} fullPath absolute path * @param {Object} options to be passed to fs_watch * @param {Object} handlers container for event listener functions */ const setFsWatchListener = (path, fullPath, options, handlers) => { const {listener, errHandler, rawEmitter} = handlers; let cont = FsWatchInstances.get(fullPath); /** @type {fs.FSWatcher=} */ let watcher; if (!options.persistent) { watcher = createFsWatchInstance( path, options, listener, errHandler, rawEmitter ); return watcher.close.bind(watcher); } if (cont) { addAndConvert(cont, KEY_LISTENERS, listener); addAndConvert(cont, KEY_ERR, errHandler); addAndConvert(cont, KEY_RAW, rawEmitter); } else { watcher = createFsWatchInstance( path, options, fsWatchBroadcast.bind(null, fullPath, KEY_LISTENERS), errHandler, // no need to use broadcast here fsWatchBroadcast.bind(null, fullPath, KEY_RAW) ); if (!watcher) return; watcher.on(EV_ERROR$2, async (error) => { const broadcastErr = fsWatchBroadcast.bind(null, fullPath, KEY_ERR); cont.watcherUnusable = true; // documented since Node 10.4.1 // Workaround for https://github.com/joyent/node/issues/4337 if (isWindows$1 && error.code === 'EPERM') { try { const fd = await open(path, 'r'); await close(fd); broadcastErr(error); } catch (err) {} } else { broadcastErr(error); } }); cont = { listeners: listener, errHandlers: errHandler, rawEmitters: rawEmitter, watcher }; FsWatchInstances.set(fullPath, cont); } // const index = cont.listeners.indexOf(listener); // removes this instance's listeners and closes the underlying fs_watch // instance if there are no more listeners left return () => { delFromSet(cont, KEY_LISTENERS, listener); delFromSet(cont, KEY_ERR, errHandler); delFromSet(cont, KEY_RAW, rawEmitter); if (isEmptySet(cont.listeners)) { // Check to protect against issue gh-730. // if (cont.watcherUnusable) { cont.watcher.close(); // } FsWatchInstances.delete(fullPath); HANDLER_KEYS.forEach(clearItem(cont)); cont.watcher = undefined; Object.freeze(cont); } }; }; // fs_watchFile helpers // object to hold per-process fs_watchFile instances // (may be shared across chokidar FSWatcher instances) const FsWatchFileInstances = new Map(); /** * Instantiates the fs_watchFile interface or binds listeners * to an existing one covering the same file system entry * @param {String} path to be watched * @param {String} fullPath absolute path * @param {Object} options options to be passed to fs_watchFile * @param {Object} handlers container for event listener functions * @returns {Function} closer */ const setFsWatchFileListener = (path, fullPath, options, handlers) => { const {listener, rawEmitter} = handlers; let cont = FsWatchFileInstances.get(fullPath); const copts = cont && cont.options; if (copts && (copts.persistent < options.persistent || copts.interval > options.interval)) { fs$2.unwatchFile(fullPath); cont = undefined; } /* eslint-enable no-unused-vars, prefer-destructuring */ if (cont) { addAndConvert(cont, KEY_LISTENERS, listener); addAndConvert(cont, KEY_RAW, rawEmitter); } else { // TODO // listeners.add(listener); // rawEmitters.add(rawEmitter); cont = { listeners: listener, rawEmitters: rawEmitter, options, watcher: fs$2.watchFile(fullPath, options, (curr, prev) => { foreach(cont.rawEmitters, (rawEmitter) => { rawEmitter(EV_CHANGE$2, fullPath, {curr, prev}); }); const currmtime = curr.mtimeMs; if (curr.size !== prev.size || currmtime > prev.mtimeMs || currmtime === 0) { foreach(cont.listeners, (listener) => listener(path, curr)); } }) }; FsWatchFileInstances.set(fullPath, cont); } // const index = cont.listeners.indexOf(listener); // Removes this instance's listeners and closes the underlying fs_watchFile // instance if there are no more listeners left. return () => { delFromSet(cont, KEY_LISTENERS, listener); delFromSet(cont, KEY_RAW, rawEmitter); if (isEmptySet(cont.listeners)) { FsWatchFileInstances.delete(fullPath); fs$2.unwatchFile(fullPath); cont.options = cont.watcher = undefined; Object.freeze(cont); } }; }; /** * @mixin */ let NodeFsHandler$1 = class NodeFsHandler { /** * @param {import("../index").FSWatcher} fsW */ constructor(fsW) { this.fsw = fsW; this._boundHandleError = (error) => fsW._handleError(error); } /** * Watch file for changes with fs_watchFile or fs_watch. * @param {String} path to file or dir * @param {Function} listener on fs change * @returns {Function} closer for the watcher instance */ _watchWithNodeFs(path, listener) { const opts = this.fsw.options; const directory = sysPath$2.dirname(path); const basename = sysPath$2.basename(path); const parent = this.fsw._getWatchedDir(directory); parent.add(basename); const absolutePath = sysPath$2.resolve(path); const options = {persistent: opts.persistent}; if (!listener) listener = EMPTY_FN$2; let closer; if (opts.usePolling) { options.interval = opts.enableBinaryInterval && isBinaryPath(basename) ? opts.binaryInterval : opts.interval; closer = setFsWatchFileListener(path, absolutePath, options, { listener, rawEmitter: this.fsw._emitRaw }); } else { closer = setFsWatchListener(path, absolutePath, options, { listener, errHandler: this._boundHandleError, rawEmitter: this.fsw._emitRaw }); } return closer; } /** * Watch a file and emit add event if warranted. * @param {Path} file Path * @param {fs.Stats} stats result of fs_stat * @param {Boolean} initialAdd was the file added at watch instantiation? * @returns {Function} closer for the watcher instance */ _handleFile(file, stats, initialAdd) { if (this.fsw.closed) { return; } const dirname = sysPath$2.dirname(file); const basename = sysPath$2.basename(file); const parent = this.fsw._getWatchedDir(dirname); // stats is always present let prevStats = stats; // if the file is already being watched, do nothing if (parent.has(basename)) return; const listener = async (path, newStats) => { if (!this.fsw._throttle(THROTTLE_MODE_WATCH, file, 5)) return; if (!newStats || newStats.mtimeMs === 0) { try { const newStats = await stat$2(file); if (this.fsw.closed) return; // Check that change event was not fired because of changed only accessTime. const at = newStats.atimeMs; const mt = newStats.mtimeMs; if (!at || at <= mt || mt !== prevStats.mtimeMs) { this.fsw._emit(EV_CHANGE$2, file, newStats); } if (isLinux && prevStats.ino !== newStats.ino) { this.fsw._closeFile(path); prevStats = newStats; this.fsw._addPathCloser(path, this._watchWithNodeFs(file, listener)); } else { prevStats = newStats; } } catch (error) { // Fix issues where mtime is null but file is still present this.fsw._remove(dirname, basename); } // add is about to be emitted if file not already tracked in parent } else if (parent.has(basename)) { // Check that change event was not fired because of changed only accessTime. const at = newStats.atimeMs; const mt = newStats.mtimeMs; if (!at || at <= mt || mt !== prevStats.mtimeMs) { this.fsw._emit(EV_CHANGE$2, file, newStats); } prevStats = newStats; } }; // kick off the watcher const closer = this._watchWithNodeFs(file, listener); // emit an add event if we're supposed to if (!(initialAdd && this.fsw.options.ignoreInitial) && this.fsw._isntIgnored(file)) { if (!this.fsw._throttle(EV_ADD$2, file, 0)) return; this.fsw._emit(EV_ADD$2, file, stats); } return closer; } /** * Handle symlinks encountered while reading a dir. * @param {Object} entry returned by readdirp * @param {String} directory path of dir being read * @param {String} path of this item * @param {String} item basename of this item * @returns {Promise} true if no more processing is needed for this entry. */ async _handleSymlink(entry, directory, path, item) { if (this.fsw.closed) { return; } const full = entry.fullPath; const dir = this.fsw._getWatchedDir(directory); if (!this.fsw.options.followSymlinks) { // watch symlink directly (don't follow) and detect changes this.fsw._incrReadyCount(); let linkPath; try { linkPath = await fsrealpath(path); } catch (e) { this.fsw._emitReady(); return true; } if (this.fsw.closed) return; if (dir.has(item)) { if (this.fsw._symlinkPaths.get(full) !== linkPath) { this.fsw._symlinkPaths.set(full, linkPath); this.fsw._emit(EV_CHANGE$2, path, entry.stats); } } else { dir.add(item); this.fsw._symlinkPaths.set(full, linkPath); this.fsw._emit(EV_ADD$2, path, entry.stats); } this.fsw._emitReady(); return true; } // don't follow the same symlink more than once if (this.fsw._symlinkPaths.has(full)) { return true; } this.fsw._symlinkPaths.set(full, true); } _handleRead(directory, initialAdd, wh, target, dir, depth, throttler) { // Normalize the directory name on Windows directory = sysPath$2.join(directory, EMPTY_STR$1); if (!wh.hasGlob) { throttler = this.fsw._throttle('readdir', directory, 1000); if (!throttler) return; } const previous = this.fsw._getWatchedDir(wh.path); const current = new Set(); let stream = this.fsw._readdirp(directory, { fileFilter: entry => wh.filterPath(entry), directoryFilter: entry => wh.filterDir(entry), depth: 0 }).on(STR_DATA$1, async (entry) => { if (this.fsw.closed) { stream = undefined; return; } const item = entry.path; let path = sysPath$2.join(directory, item); current.add(item); if (entry.stats.isSymbolicLink() && await this._handleSymlink(entry, directory, path, item)) { return; } if (this.fsw.closed) { stream = undefined; return; } // Files that present in current directory snapshot // but absent in previous are added to watch list and // emit `add` event. if (item === target || !target && !previous.has(item)) { this.fsw._incrReadyCount(); // ensure relativeness of path is preserved in case of watcher reuse path = sysPath$2.join(dir, sysPath$2.relative(dir, path)); this._addToNodeFs(path, initialAdd, wh, depth + 1); } }).on(EV_ERROR$2, this._boundHandleError); return new Promise(resolve => stream.once(STR_END$2, () => { if (this.fsw.closed) { stream = undefined; return; } const wasThrottled = throttler ? throttler.clear() : false; resolve(); // Files that absent in current directory snapshot // but present in previous emit `remove` event // and are removed from @watched[directory]. previous.getChildren().filter((item) => { return item !== directory && !current.has(item) && // in case of intersecting globs; // a path may have been filtered out of this readdir, but // shouldn't be removed because it matches a different glob (!wh.hasGlob || wh.filterPath({ fullPath: sysPath$2.resolve(directory, item) })); }).forEach((item) => { this.fsw._remove(directory, item); }); stream = undefined; // one more time for any missed in case changes came in extremely quickly if (wasThrottled) this._handleRead(directory, false, wh, target, dir, depth, throttler); }) ); } /** * Read directory to add / remove files from `@watched` list and re-read it on change. * @param {String} dir fs path * @param {fs.Stats} stats * @param {Boolean} initialAdd * @param {Number} depth relative to user-supplied path * @param {String} target child path targeted for watch * @param {Object} wh Common watch helpers for this path * @param {String} realpath * @returns {Promise} closer for the watcher instance. */ async _handleDir(dir, stats, initialAdd, depth, target, wh, realpath) { const parentDir = this.fsw._getWatchedDir(sysPath$2.dirname(dir)); const tracked = parentDir.has(sysPath$2.basename(dir)); if (!(initialAdd && this.fsw.options.ignoreInitial) && !target && !tracked) { if (!wh.hasGlob || wh.globFilter(dir)) this.fsw._emit(EV_ADD_DIR$2, dir, stats); } // ensure dir is tracked (harmless if redundant) parentDir.add(sysPath$2.basename(dir)); this.fsw._getWatchedDir(dir); let throttler; let closer; const oDepth = this.fsw.options.depth; if ((oDepth == null || depth <= oDepth) && !this.fsw._symlinkPaths.has(realpath)) { if (!target) { await this._handleRead(dir, initialAdd, wh, target, dir, depth, throttler); if (this.fsw.closed) return; } closer = this._watchWithNodeFs(dir, (dirPath, stats) => { // if current directory is removed, do nothing if (stats && stats.mtimeMs === 0) return; this._handleRead(dirPath, false, wh, target, dir, depth, throttler); }); } return closer; } /** * Handle added file, directory, or glob pattern. * Delegates call to _handleFile / _handleDir after checks. * @param {String} path to file or ir * @param {Boolean} initialAdd was the file added at watch instantiation? * @param {Object} priorWh depth relative to user-supplied path * @param {Number} depth Child path actually targeted for watch * @param {String=} target Child path actually targeted for watch * @returns {Promise} */ async _addToNodeFs(path, initialAdd, priorWh, depth, target) { const ready = this.fsw._emitReady; if (this.fsw._isIgnored(path) || this.fsw.closed) { ready(); return false; } const wh = this.fsw._getWatchHelpers(path, depth); if (!wh.hasGlob && priorWh) { wh.hasGlob = priorWh.hasGlob; wh.globFilter = priorWh.globFilter; wh.filterPath = entry => priorWh.filterPath(entry); wh.filterDir = entry => priorWh.filterDir(entry); } // evaluate what is at the path we're being asked to watch try { const stats = await statMethods$1[wh.statMethod](wh.watchPath); if (this.fsw.closed) return; if (this.fsw._isIgnored(wh.watchPath, stats)) { ready(); return false; } const follow = this.fsw.options.followSymlinks && !path.includes(STAR) && !path.includes(BRACE_START$1); let closer; if (stats.isDirectory()) { const absPath = sysPath$2.resolve(path); const targetPath = follow ? await fsrealpath(path) : path; if (this.fsw.closed) return; closer = await this._handleDir(wh.watchPath, stats, initialAdd, depth, target, wh, targetPath); if (this.fsw.closed) return; // preserve this symlink's target path if (absPath !== targetPath && targetPath !== undefined) { this.fsw._symlinkPaths.set(absPath, targetPath); } } else if (stats.isSymbolicLink()) { const targetPath = follow ? await fsrealpath(path) : path; if (this.fsw.closed) return; const parent = sysPath$2.dirname(wh.watchPath); this.fsw._getWatchedDir(parent).add(wh.watchPath); this.fsw._emit(EV_ADD$2, wh.watchPath, stats); closer = await this._handleDir(parent, stats, initialAdd, depth, path, wh, targetPath); if (this.fsw.closed) return; // preserve this symlink's target path if (targetPath !== undefined) { this.fsw._symlinkPaths.set(sysPath$2.resolve(path), targetPath); } } else { closer = this._handleFile(wh.watchPath, stats, initialAdd); } ready(); this.fsw._addPathCloser(path, closer); return false; } catch (error) { if (this.fsw._handleError(error)) { ready(); return path; } } } }; var nodefsHandler = NodeFsHandler$1; var fseventsHandlerExports = {}; var fseventsHandler = { get exports(){ return fseventsHandlerExports; }, set exports(v){ fseventsHandlerExports = v; }, }; const require$$3 = /*@__PURE__*/rollup.getAugmentedNamespace(fseventsImporter.fseventsImporter); const fs$1 = require$$0$1; const sysPath$1 = require$$0$2; const { promisify: promisify$1 } = require$$2; let fsevents; try { fsevents = require$$3.getFsEvents(); } catch (error) { if (process.env.CHOKIDAR_PRINT_FSEVENTS_REQUIRE_ERROR) console.error(error); } if (fsevents) { // TODO: real check const mtch = process.version.match(/v(\d+)\.(\d+)/); if (mtch && mtch[1] && mtch[2]) { const maj = Number.parseInt(mtch[1], 10); const min = Number.parseInt(mtch[2], 10); if (maj === 8 && min < 16) { fsevents = undefined; } } } const { EV_ADD: EV_ADD$1, EV_CHANGE: EV_CHANGE$1, EV_ADD_DIR: EV_ADD_DIR$1, EV_UNLINK: EV_UNLINK$1, EV_ERROR: EV_ERROR$1, STR_DATA, STR_END: STR_END$1, FSEVENT_CREATED, FSEVENT_MODIFIED, FSEVENT_DELETED, FSEVENT_MOVED, // FSEVENT_CLONED, FSEVENT_UNKNOWN, FSEVENT_TYPE_FILE, FSEVENT_TYPE_DIRECTORY, FSEVENT_TYPE_SYMLINK, ROOT_GLOBSTAR, DIR_SUFFIX, DOT_SLASH, FUNCTION_TYPE: FUNCTION_TYPE$1, EMPTY_FN: EMPTY_FN$1, IDENTITY_FN } = constants; const Depth = (value) => isNaN(value) ? {} : {depth: value}; const stat$1 = promisify$1(fs$1.stat); const lstat = promisify$1(fs$1.lstat); const realpath = promisify$1(fs$1.realpath); const statMethods = { stat: stat$1, lstat }; /** * @typedef {String} Path */ /** * @typedef {Object} FsEventsWatchContainer * @property {Set} listeners * @property {Function} rawEmitter * @property {{stop: Function}} watcher */ // fsevents instance helper functions /** * Object to hold per-process fsevents instances (may be shared across chokidar FSWatcher instances) * @type {Map} */ const FSEventsWatchers = new Map(); // Threshold of duplicate path prefixes at which to start // consolidating going forward const consolidateThreshhold = 10; const wrongEventFlags = new Set([ 69888, 70400, 71424, 72704, 73472, 131328, 131840, 262912 ]); /** * Instantiates the fsevents interface * @param {Path} path path to be watched * @param {Function} callback called when fsevents is bound and ready * @returns {{stop: Function}} new fsevents instance */ const createFSEventsInstance = (path, callback) => { const stop = fsevents.watch(path, callback); return {stop}; }; /** * Instantiates the fsevents interface or binds listeners to an existing one covering * the same file tree. * @param {Path} path - to be watched * @param {Path} realPath - real path for symlinks * @param {Function} listener - called when fsevents emits events * @param {Function} rawEmitter - passes data to listeners of the 'raw' event * @returns {Function} closer */ function setFSEventsListener(path, realPath, listener, rawEmitter) { let watchPath = sysPath$1.extname(realPath) ? sysPath$1.dirname(realPath) : realPath; const parentPath = sysPath$1.dirname(watchPath); let cont = FSEventsWatchers.get(watchPath); // If we've accumulated a substantial number of paths that // could have been consolidated by watching one directory // above the current one, create a watcher on the parent // path instead, so that we do consolidate going forward. if (couldConsolidate(parentPath)) { watchPath = parentPath; } const resolvedPath = sysPath$1.resolve(path); const hasSymlink = resolvedPath !== realPath; const filteredListener = (fullPath, flags, info) => { if (hasSymlink) fullPath = fullPath.replace(realPath, resolvedPath); if ( fullPath === resolvedPath || !fullPath.indexOf(resolvedPath + sysPath$1.sep) ) listener(fullPath, flags, info); }; // check if there is already a watcher on a parent path // modifies `watchPath` to the parent path when it finds a match let watchedParent = false; for (const watchedPath of FSEventsWatchers.keys()) { if (realPath.indexOf(sysPath$1.resolve(watchedPath) + sysPath$1.sep) === 0) { watchPath = watchedPath; cont = FSEventsWatchers.get(watchPath); watchedParent = true; break; } } if (cont || watchedParent) { cont.listeners.add(filteredListener); } else { cont = { listeners: new Set([filteredListener]), rawEmitter, watcher: createFSEventsInstance(watchPath, (fullPath, flags) => { if (!cont.listeners.size) return; const info = fsevents.getInfo(fullPath, flags); cont.listeners.forEach(list => { list(fullPath, flags, info); }); cont.rawEmitter(info.event, fullPath, info); }) }; FSEventsWatchers.set(watchPath, cont); } // removes this instance's listeners and closes the underlying fsevents // instance if there are no more listeners left return () => { const lst = cont.listeners; lst.delete(filteredListener); if (!lst.size) { FSEventsWatchers.delete(watchPath); if (cont.watcher) return cont.watcher.stop().then(() => { cont.rawEmitter = cont.watcher = undefined; Object.freeze(cont); }); } }; } // Decide whether or not we should start a new higher-level // parent watcher const couldConsolidate = (path) => { let count = 0; for (const watchPath of FSEventsWatchers.keys()) { if (watchPath.indexOf(path) === 0) { count++; if (count >= consolidateThreshhold) { return true; } } } return false; }; // returns boolean indicating whether fsevents can be used const canUse = () => fsevents && FSEventsWatchers.size < 128; // determines subdirectory traversal levels from root to path const calcDepth = (path, root) => { let i = 0; while (!path.indexOf(root) && (path = sysPath$1.dirname(path)) !== root) i++; return i; }; // returns boolean indicating whether the fsevents' event info has the same type // as the one returned by fs.stat const sameTypes = (info, stats) => ( info.type === FSEVENT_TYPE_DIRECTORY && stats.isDirectory() || info.type === FSEVENT_TYPE_SYMLINK && stats.isSymbolicLink() || info.type === FSEVENT_TYPE_FILE && stats.isFile() ); /** * @mixin */ let FsEventsHandler$1 = class FsEventsHandler { /** * @param {import('../index').FSWatcher} fsw */ constructor(fsw) { this.fsw = fsw; } checkIgnored(path, stats) { const ipaths = this.fsw._ignoredPaths; if (this.fsw._isIgnored(path, stats)) { ipaths.add(path); if (stats && stats.isDirectory()) { ipaths.add(path + ROOT_GLOBSTAR); } return true; } ipaths.delete(path); ipaths.delete(path + ROOT_GLOBSTAR); } addOrChange(path, fullPath, realPath, parent, watchedDir, item, info, opts) { const event = watchedDir.has(item) ? EV_CHANGE$1 : EV_ADD$1; this.handleEvent(event, path, fullPath, realPath, parent, watchedDir, item, info, opts); } async checkExists(path, fullPath, realPath, parent, watchedDir, item, info, opts) { try { const stats = await stat$1(path); if (this.fsw.closed) return; if (sameTypes(info, stats)) { this.addOrChange(path, fullPath, realPath, parent, watchedDir, item, info, opts); } else { this.handleEvent(EV_UNLINK$1, path, fullPath, realPath, parent, watchedDir, item, info, opts); } } catch (error) { if (error.code === 'EACCES') { this.addOrChange(path, fullPath, realPath, parent, watchedDir, item, info, opts); } else { this.handleEvent(EV_UNLINK$1, path, fullPath, realPath, parent, watchedDir, item, info, opts); } } } handleEvent(event, path, fullPath, realPath, parent, watchedDir, item, info, opts) { if (this.fsw.closed || this.checkIgnored(path)) return; if (event === EV_UNLINK$1) { const isDirectory = info.type === FSEVENT_TYPE_DIRECTORY; // suppress unlink events on never before seen files if (isDirectory || watchedDir.has(item)) { this.fsw._remove(parent, item, isDirectory); } } else { if (event === EV_ADD$1) { // track new directories if (info.type === FSEVENT_TYPE_DIRECTORY) this.fsw._getWatchedDir(path); if (info.type === FSEVENT_TYPE_SYMLINK && opts.followSymlinks) { // push symlinks back to the top of the stack to get handled const curDepth = opts.depth === undefined ? undefined : calcDepth(fullPath, realPath) + 1; return this._addToFsEvents(path, false, true, curDepth); } // track new paths // (other than symlinks being followed, which will be tracked soon) this.fsw._getWatchedDir(parent).add(item); } /** * @type {'add'|'addDir'|'unlink'|'unlinkDir'} */ const eventName = info.type === FSEVENT_TYPE_DIRECTORY ? event + DIR_SUFFIX : event; this.fsw._emit(eventName, path); if (eventName === EV_ADD_DIR$1) this._addToFsEvents(path, false, true); } } /** * Handle symlinks encountered during directory scan * @param {String} watchPath - file/dir path to be watched with fsevents * @param {String} realPath - real path (in case of symlinks) * @param {Function} transform - path transformer * @param {Function} globFilter - path filter in case a glob pattern was provided * @returns {Function} closer for the watcher instance */ _watchWithFsEvents(watchPath, realPath, transform, globFilter) { if (this.fsw.closed || this.fsw._isIgnored(watchPath)) return; const opts = this.fsw.options; const watchCallback = async (fullPath, flags, info) => { if (this.fsw.closed) return; if ( opts.depth !== undefined && calcDepth(fullPath, realPath) > opts.depth ) return; const path = transform(sysPath$1.join( watchPath, sysPath$1.relative(watchPath, fullPath) )); if (globFilter && !globFilter(path)) return; // ensure directories are tracked const parent = sysPath$1.dirname(path); const item = sysPath$1.basename(path); const watchedDir = this.fsw._getWatchedDir( info.type === FSEVENT_TYPE_DIRECTORY ? path : parent ); // correct for wrong events emitted if (wrongEventFlags.has(flags) || info.event === FSEVENT_UNKNOWN) { if (typeof opts.ignored === FUNCTION_TYPE$1) { let stats; try { stats = await stat$1(path); } catch (error) {} if (this.fsw.closed) return; if (this.checkIgnored(path, stats)) return; if (sameTypes(info, stats)) { this.addOrChange(path, fullPath, realPath, parent, watchedDir, item, info, opts); } else { this.handleEvent(EV_UNLINK$1, path, fullPath, realPath, parent, watchedDir, item, info, opts); } } else { this.checkExists(path, fullPath, realPath, parent, watchedDir, item, info, opts); } } else { switch (info.event) { case FSEVENT_CREATED: case FSEVENT_MODIFIED: return this.addOrChange(path, fullPath, realPath, parent, watchedDir, item, info, opts); case FSEVENT_DELETED: case FSEVENT_MOVED: return this.checkExists(path, fullPath, realPath, parent, watchedDir, item, info, opts); } } }; const closer = setFSEventsListener( watchPath, realPath, watchCallback, this.fsw._emitRaw ); this.fsw._emitReady(); return closer; } /** * Handle symlinks encountered during directory scan * @param {String} linkPath path to symlink * @param {String} fullPath absolute path to the symlink * @param {Function} transform pre-existing path transformer * @param {Number} curDepth level of subdirectories traversed to where symlink is * @returns {Promise} */ async _handleFsEventsSymlink(linkPath, fullPath, transform, curDepth) { // don't follow the same symlink more than once if (this.fsw.closed || this.fsw._symlinkPaths.has(fullPath)) return; this.fsw._symlinkPaths.set(fullPath, true); this.fsw._incrReadyCount(); try { const linkTarget = await realpath(linkPath); if (this.fsw.closed) return; if (this.fsw._isIgnored(linkTarget)) { return this.fsw._emitReady(); } this.fsw._incrReadyCount(); // add the linkTarget for watching with a wrapper for transform // that causes emitted paths to incorporate the link's path this._addToFsEvents(linkTarget || linkPath, (path) => { let aliasedPath = linkPath; if (linkTarget && linkTarget !== DOT_SLASH) { aliasedPath = path.replace(linkTarget, linkPath); } else if (path !== DOT_SLASH) { aliasedPath = sysPath$1.join(linkPath, path); } return transform(aliasedPath); }, false, curDepth); } catch(error) { if (this.fsw._handleError(error)) { return this.fsw._emitReady(); } } } /** * * @param {Path} newPath * @param {fs.Stats} stats */ emitAdd(newPath, stats, processPath, opts, forceAdd) { const pp = processPath(newPath); const isDir = stats.isDirectory(); const dirObj = this.fsw._getWatchedDir(sysPath$1.dirname(pp)); const base = sysPath$1.basename(pp); // ensure empty dirs get tracked if (isDir) this.fsw._getWatchedDir(pp); if (dirObj.has(base)) return; dirObj.add(base); if (!opts.ignoreInitial || forceAdd === true) { this.fsw._emit(isDir ? EV_ADD_DIR$1 : EV_ADD$1, pp, stats); } } initWatch(realPath, path, wh, processPath) { if (this.fsw.closed) return; const closer = this._watchWithFsEvents( wh.watchPath, sysPath$1.resolve(realPath || wh.watchPath), processPath, wh.globFilter ); this.fsw._addPathCloser(path, closer); } /** * Handle added path with fsevents * @param {String} path file/dir path or glob pattern * @param {Function|Boolean=} transform converts working path to what the user expects * @param {Boolean=} forceAdd ensure add is emitted * @param {Number=} priorDepth Level of subdirectories already traversed. * @returns {Promise} */ async _addToFsEvents(path, transform, forceAdd, priorDepth) { if (this.fsw.closed) { return; } const opts = this.fsw.options; const processPath = typeof transform === FUNCTION_TYPE$1 ? transform : IDENTITY_FN; const wh = this.fsw._getWatchHelpers(path); // evaluate what is at the path we're being asked to watch try { const stats = await statMethods[wh.statMethod](wh.watchPath); if (this.fsw.closed) return; if (this.fsw._isIgnored(wh.watchPath, stats)) { throw null; } if (stats.isDirectory()) { // emit addDir unless this is a glob parent if (!wh.globFilter) this.emitAdd(processPath(path), stats, processPath, opts, forceAdd); // don't recurse further if it would exceed depth setting if (priorDepth && priorDepth > opts.depth) return; // scan the contents of the dir this.fsw._readdirp(wh.watchPath, { fileFilter: entry => wh.filterPath(entry), directoryFilter: entry => wh.filterDir(entry), ...Depth(opts.depth - (priorDepth || 0)) }).on(STR_DATA, (entry) => { // need to check filterPath on dirs b/c filterDir is less restrictive if (this.fsw.closed) { return; } if (entry.stats.isDirectory() && !wh.filterPath(entry)) return; const joinedPath = sysPath$1.join(wh.watchPath, entry.path); const {fullPath} = entry; if (wh.followSymlinks && entry.stats.isSymbolicLink()) { // preserve the current depth here since it can't be derived from // real paths past the symlink const curDepth = opts.depth === undefined ? undefined : calcDepth(joinedPath, sysPath$1.resolve(wh.watchPath)) + 1; this._handleFsEventsSymlink(joinedPath, fullPath, processPath, curDepth); } else { this.emitAdd(joinedPath, entry.stats, processPath, opts, forceAdd); } }).on(EV_ERROR$1, EMPTY_FN$1).on(STR_END$1, () => { this.fsw._emitReady(); }); } else { this.emitAdd(wh.watchPath, stats, processPath, opts, forceAdd); this.fsw._emitReady(); } } catch (error) { if (!error || this.fsw._handleError(error)) { // TODO: Strange thing: "should not choke on an ignored watch path" will be failed without 2 ready calls -__- this.fsw._emitReady(); this.fsw._emitReady(); } } if (opts.persistent && forceAdd !== true) { if (typeof transform === FUNCTION_TYPE$1) { // realpath has already been resolved this.initWatch(undefined, path, wh, processPath); } else { let realPath; try { realPath = await realpath(wh.watchPath); } catch (e) {} this.initWatch(realPath, path, wh, processPath); } } } }; fseventsHandler.exports = FsEventsHandler$1; fseventsHandlerExports.canUse = canUse; const { EventEmitter } = require$$0$3; const fs = require$$0$1; const sysPath = require$$0$2; const { promisify } = require$$2; const readdirp = readdirp_1; const anymatch = anymatchExports.default; const globParent = globParent$1; const isGlob = isGlob$2; const braces = braces_1; const normalizePath = normalizePath$2; const NodeFsHandler = nodefsHandler; const FsEventsHandler = fseventsHandlerExports; const { EV_ALL, EV_READY, EV_ADD, EV_CHANGE, EV_UNLINK, EV_ADD_DIR, EV_UNLINK_DIR, EV_RAW, EV_ERROR, STR_CLOSE, STR_END, BACK_SLASH_RE, DOUBLE_SLASH_RE, SLASH_OR_BACK_SLASH_RE, DOT_RE, REPLACER_RE, SLASH, SLASH_SLASH, BRACE_START, BANG, ONE_DOT, TWO_DOTS, GLOBSTAR, SLASH_GLOBSTAR, ANYMATCH_OPTS, STRING_TYPE, FUNCTION_TYPE, EMPTY_STR, EMPTY_FN, isWindows, isMacos, isIBMi } = constants; const stat = promisify(fs.stat); const readdir = promisify(fs.readdir); /** * @typedef {String} Path * @typedef {'all'|'add'|'addDir'|'change'|'unlink'|'unlinkDir'|'raw'|'error'|'ready'} EventName * @typedef {'readdir'|'watch'|'add'|'remove'|'change'} ThrottleType */ /** * * @typedef {Object} WatchHelpers * @property {Boolean} followSymlinks * @property {'stat'|'lstat'} statMethod * @property {Path} path * @property {Path} watchPath * @property {Function} entryPath * @property {Boolean} hasGlob * @property {Object} globFilter * @property {Function} filterPath * @property {Function} filterDir */ const arrify = (value = []) => Array.isArray(value) ? value : [value]; const flatten = (list, result = []) => { list.forEach(item => { if (Array.isArray(item)) { flatten(item, result); } else { result.push(item); } }); return result; }; const unifyPaths = (paths_) => { /** * @type {Array} */ const paths = flatten(arrify(paths_)); if (!paths.every(p => typeof p === STRING_TYPE)) { throw new TypeError(`Non-string provided as watch path: ${paths}`); } return paths.map(normalizePathToUnix); }; // If SLASH_SLASH occurs at the beginning of path, it is not replaced // because "//StoragePC/DrivePool/Movies" is a valid network path const toUnix = (string) => { let str = string.replace(BACK_SLASH_RE, SLASH); let prepend = false; if (str.startsWith(SLASH_SLASH)) { prepend = true; } while (str.match(DOUBLE_SLASH_RE)) { str = str.replace(DOUBLE_SLASH_RE, SLASH); } if (prepend) { str = SLASH + str; } return str; }; // Our version of upath.normalize // TODO: this is not equal to path-normalize module - investigate why const normalizePathToUnix = (path) => toUnix(sysPath.normalize(toUnix(path))); const normalizeIgnored = (cwd = EMPTY_STR) => (path) => { if (typeof path !== STRING_TYPE) return path; return normalizePathToUnix(sysPath.isAbsolute(path) ? path : sysPath.join(cwd, path)); }; const getAbsolutePath = (path, cwd) => { if (sysPath.isAbsolute(path)) { return path; } if (path.startsWith(BANG)) { return BANG + sysPath.join(cwd, path.slice(1)); } return sysPath.join(cwd, path); }; const undef = (opts, key) => opts[key] === undefined; /** * Directory entry. * @property {Path} path * @property {Set} items */ class DirEntry { /** * @param {Path} dir * @param {Function} removeWatcher */ constructor(dir, removeWatcher) { this.path = dir; this._removeWatcher = removeWatcher; /** @type {Set} */ this.items = new Set(); } add(item) { const {items} = this; if (!items) return; if (item !== ONE_DOT && item !== TWO_DOTS) items.add(item); } async remove(item) { const {items} = this; if (!items) return; items.delete(item); if (items.size > 0) return; const dir = this.path; try { await readdir(dir); } catch (err) { if (this._removeWatcher) { this._removeWatcher(sysPath.dirname(dir), sysPath.basename(dir)); } } } has(item) { const {items} = this; if (!items) return; return items.has(item); } /** * @returns {Array} */ getChildren() { const {items} = this; if (!items) return; return [...items.values()]; } dispose() { this.items.clear(); delete this.path; delete this._removeWatcher; delete this.items; Object.freeze(this); } } const STAT_METHOD_F = 'stat'; const STAT_METHOD_L = 'lstat'; class WatchHelper { constructor(path, watchPath, follow, fsw) { this.fsw = fsw; this.path = path = path.replace(REPLACER_RE, EMPTY_STR); this.watchPath = watchPath; this.fullWatchPath = sysPath.resolve(watchPath); this.hasGlob = watchPath !== path; /** @type {object|boolean} */ if (path === EMPTY_STR) this.hasGlob = false; this.globSymlink = this.hasGlob && follow ? undefined : false; this.globFilter = this.hasGlob ? anymatch(path, undefined, ANYMATCH_OPTS) : false; this.dirParts = this.getDirParts(path); this.dirParts.forEach((parts) => { if (parts.length > 1) parts.pop(); }); this.followSymlinks = follow; this.statMethod = follow ? STAT_METHOD_F : STAT_METHOD_L; } checkGlobSymlink(entry) { // only need to resolve once // first entry should always have entry.parentDir === EMPTY_STR if (this.globSymlink === undefined) { this.globSymlink = entry.fullParentDir === this.fullWatchPath ? false : {realPath: entry.fullParentDir, linkPath: this.fullWatchPath}; } if (this.globSymlink) { return entry.fullPath.replace(this.globSymlink.realPath, this.globSymlink.linkPath); } return entry.fullPath; } entryPath(entry) { return sysPath.join(this.watchPath, sysPath.relative(this.watchPath, this.checkGlobSymlink(entry)) ); } filterPath(entry) { const {stats} = entry; if (stats && stats.isSymbolicLink()) return this.filterDir(entry); const resolvedPath = this.entryPath(entry); const matchesGlob = this.hasGlob && typeof this.globFilter === FUNCTION_TYPE ? this.globFilter(resolvedPath) : true; return matchesGlob && this.fsw._isntIgnored(resolvedPath, stats) && this.fsw._hasReadPermissions(stats); } getDirParts(path) { if (!this.hasGlob) return []; const parts = []; const expandedPath = path.includes(BRACE_START) ? braces.expand(path) : [path]; expandedPath.forEach((path) => { parts.push(sysPath.relative(this.watchPath, path).split(SLASH_OR_BACK_SLASH_RE)); }); return parts; } filterDir(entry) { if (this.hasGlob) { const entryParts = this.getDirParts(this.checkGlobSymlink(entry)); let globstar = false; this.unmatchedGlob = !this.dirParts.some((parts) => { return parts.every((part, i) => { if (part === GLOBSTAR) globstar = true; return globstar || !entryParts[0][i] || anymatch(part, entryParts[0][i], ANYMATCH_OPTS); }); }); } return !this.unmatchedGlob && this.fsw._isntIgnored(this.entryPath(entry), entry.stats); } } /** * Watches files & directories for changes. Emitted events: * `add`, `addDir`, `change`, `unlink`, `unlinkDir`, `all`, `error` * * new FSWatcher() * .add(directories) * .on('add', path => log('File', path, 'was added')) */ class FSWatcher extends EventEmitter { // Not indenting methods for history sake; for now. constructor(_opts) { super(); const opts = {}; if (_opts) Object.assign(opts, _opts); // for frozen objects /** @type {Map} */ this._watched = new Map(); /** @type {Map} */ this._closers = new Map(); /** @type {Set} */ this._ignoredPaths = new Set(); /** @type {Map} */ this._throttled = new Map(); /** @type {Map} */ this._symlinkPaths = new Map(); this._streams = new Set(); this.closed = false; // Set up default options. if (undef(opts, 'persistent')) opts.persistent = true; if (undef(opts, 'ignoreInitial')) opts.ignoreInitial = false; if (undef(opts, 'ignorePermissionErrors')) opts.ignorePermissionErrors = false; if (undef(opts, 'interval')) opts.interval = 100; if (undef(opts, 'binaryInterval')) opts.binaryInterval = 300; if (undef(opts, 'disableGlobbing')) opts.disableGlobbing = false; opts.enableBinaryInterval = opts.binaryInterval !== opts.interval; // Enable fsevents on OS X when polling isn't explicitly enabled. if (undef(opts, 'useFsEvents')) opts.useFsEvents = !opts.usePolling; // If we can't use fsevents, ensure the options reflect it's disabled. const canUseFsEvents = FsEventsHandler.canUse(); if (!canUseFsEvents) opts.useFsEvents = false; // Use polling on Mac if not using fsevents. // Other platforms use non-polling fs_watch. if (undef(opts, 'usePolling') && !opts.useFsEvents) { opts.usePolling = isMacos; } // Always default to polling on IBM i because fs.watch() is not available on IBM i. if(isIBMi) { opts.usePolling = true; } // Global override (useful for end-developers that need to force polling for all // instances of chokidar, regardless of usage/dependency depth) const envPoll = process.env.CHOKIDAR_USEPOLLING; if (envPoll !== undefined) { const envLower = envPoll.toLowerCase(); if (envLower === 'false' || envLower === '0') { opts.usePolling = false; } else if (envLower === 'true' || envLower === '1') { opts.usePolling = true; } else { opts.usePolling = !!envLower; } } const envInterval = process.env.CHOKIDAR_INTERVAL; if (envInterval) { opts.interval = Number.parseInt(envInterval, 10); } // Editor atomic write normalization enabled by default with fs.watch if (undef(opts, 'atomic')) opts.atomic = !opts.usePolling && !opts.useFsEvents; if (opts.atomic) this._pendingUnlinks = new Map(); if (undef(opts, 'followSymlinks')) opts.followSymlinks = true; if (undef(opts, 'awaitWriteFinish')) opts.awaitWriteFinish = false; if (opts.awaitWriteFinish === true) opts.awaitWriteFinish = {}; const awf = opts.awaitWriteFinish; if (awf) { if (!awf.stabilityThreshold) awf.stabilityThreshold = 2000; if (!awf.pollInterval) awf.pollInterval = 100; this._pendingWrites = new Map(); } if (opts.ignored) opts.ignored = arrify(opts.ignored); let readyCalls = 0; this._emitReady = () => { readyCalls++; if (readyCalls >= this._readyCount) { this._emitReady = EMPTY_FN; this._readyEmitted = true; // use process.nextTick to allow time for listener to be bound process.nextTick(() => this.emit(EV_READY)); } }; this._emitRaw = (...args) => this.emit(EV_RAW, ...args); this._readyEmitted = false; this.options = opts; // Initialize with proper watcher. if (opts.useFsEvents) { this._fsEventsHandler = new FsEventsHandler(this); } else { this._nodeFsHandler = new NodeFsHandler(this); } // You’re frozen when your heart’s not open. Object.freeze(opts); } // Public methods /** * Adds paths to be watched on an existing FSWatcher instance * @param {Path|Array} paths_ * @param {String=} _origAdd private; for handling non-existent paths to be watched * @param {Boolean=} _internal private; indicates a non-user add * @returns {FSWatcher} for chaining */ add(paths_, _origAdd, _internal) { const {cwd, disableGlobbing} = this.options; this.closed = false; let paths = unifyPaths(paths_); if (cwd) { paths = paths.map((path) => { const absPath = getAbsolutePath(path, cwd); // Check `path` instead of `absPath` because the cwd portion can't be a glob if (disableGlobbing || !isGlob(path)) { return absPath; } return normalizePath(absPath); }); } // set aside negated glob strings paths = paths.filter((path) => { if (path.startsWith(BANG)) { this._ignoredPaths.add(path.slice(1)); return false; } // if a path is being added that was previously ignored, stop ignoring it this._ignoredPaths.delete(path); this._ignoredPaths.delete(path + SLASH_GLOBSTAR); // reset the cached userIgnored anymatch fn // to make ignoredPaths changes effective this._userIgnored = undefined; return true; }); if (this.options.useFsEvents && this._fsEventsHandler) { if (!this._readyCount) this._readyCount = paths.length; if (this.options.persistent) this._readyCount *= 2; paths.forEach((path) => this._fsEventsHandler._addToFsEvents(path)); } else { if (!this._readyCount) this._readyCount = 0; this._readyCount += paths.length; Promise.all( paths.map(async path => { const res = await this._nodeFsHandler._addToNodeFs(path, !_internal, 0, 0, _origAdd); if (res) this._emitReady(); return res; }) ).then(results => { if (this.closed) return; results.filter(item => item).forEach(item => { this.add(sysPath.dirname(item), sysPath.basename(_origAdd || item)); }); }); } return this; } /** * Close watchers or start ignoring events from specified paths. * @param {Path|Array} paths_ - string or array of strings, file/directory paths and/or globs * @returns {FSWatcher} for chaining */ unwatch(paths_) { if (this.closed) return this; const paths = unifyPaths(paths_); const {cwd} = this.options; paths.forEach((path) => { // convert to absolute path unless relative path already matches if (!sysPath.isAbsolute(path) && !this._closers.has(path)) { if (cwd) path = sysPath.join(cwd, path); path = sysPath.resolve(path); } this._closePath(path); this._ignoredPaths.add(path); if (this._watched.has(path)) { this._ignoredPaths.add(path + SLASH_GLOBSTAR); } // reset the cached userIgnored anymatch fn // to make ignoredPaths changes effective this._userIgnored = undefined; }); return this; } /** * Close watchers and remove all listeners from watched paths. * @returns {Promise}. */ close() { if (this.closed) return this._closePromise; this.closed = true; // Memory management. this.removeAllListeners(); const closers = []; this._closers.forEach(closerList => closerList.forEach(closer => { const promise = closer(); if (promise instanceof Promise) closers.push(promise); })); this._streams.forEach(stream => stream.destroy()); this._userIgnored = undefined; this._readyCount = 0; this._readyEmitted = false; this._watched.forEach(dirent => dirent.dispose()); ['closers', 'watched', 'streams', 'symlinkPaths', 'throttled'].forEach(key => { this[`_${key}`].clear(); }); this._closePromise = closers.length ? Promise.all(closers).then(() => undefined) : Promise.resolve(); return this._closePromise; } /** * Expose list of watched paths * @returns {Object} for chaining */ getWatched() { const watchList = {}; this._watched.forEach((entry, dir) => { const key = this.options.cwd ? sysPath.relative(this.options.cwd, dir) : dir; watchList[key || ONE_DOT] = entry.getChildren().sort(); }); return watchList; } emitWithAll(event, args) { this.emit(...args); if (event !== EV_ERROR) this.emit(EV_ALL, ...args); } // Common helpers // -------------- /** * Normalize and emit events. * Calling _emit DOES NOT MEAN emit() would be called! * @param {EventName} event Type of event * @param {Path} path File or directory path * @param {*=} val1 arguments to be passed with event * @param {*=} val2 * @param {*=} val3 * @returns the error if defined, otherwise the value of the FSWatcher instance's `closed` flag */ async _emit(event, path, val1, val2, val3) { if (this.closed) return; const opts = this.options; if (isWindows) path = sysPath.normalize(path); if (opts.cwd) path = sysPath.relative(opts.cwd, path); /** @type Array */ const args = [event, path]; if (val3 !== undefined) args.push(val1, val2, val3); else if (val2 !== undefined) args.push(val1, val2); else if (val1 !== undefined) args.push(val1); const awf = opts.awaitWriteFinish; let pw; if (awf && (pw = this._pendingWrites.get(path))) { pw.lastChange = new Date(); return this; } if (opts.atomic) { if (event === EV_UNLINK) { this._pendingUnlinks.set(path, args); setTimeout(() => { this._pendingUnlinks.forEach((entry, path) => { this.emit(...entry); this.emit(EV_ALL, ...entry); this._pendingUnlinks.delete(path); }); }, typeof opts.atomic === 'number' ? opts.atomic : 100); return this; } if (event === EV_ADD && this._pendingUnlinks.has(path)) { event = args[0] = EV_CHANGE; this._pendingUnlinks.delete(path); } } if (awf && (event === EV_ADD || event === EV_CHANGE) && this._readyEmitted) { const awfEmit = (err, stats) => { if (err) { event = args[0] = EV_ERROR; args[1] = err; this.emitWithAll(event, args); } else if (stats) { // if stats doesn't exist the file must have been deleted if (args.length > 2) { args[2] = stats; } else { args.push(stats); } this.emitWithAll(event, args); } }; this._awaitWriteFinish(path, awf.stabilityThreshold, event, awfEmit); return this; } if (event === EV_CHANGE) { const isThrottled = !this._throttle(EV_CHANGE, path, 50); if (isThrottled) return this; } if (opts.alwaysStat && val1 === undefined && (event === EV_ADD || event === EV_ADD_DIR || event === EV_CHANGE) ) { const fullPath = opts.cwd ? sysPath.join(opts.cwd, path) : path; let stats; try { stats = await stat(fullPath); } catch (err) {} // Suppress event when fs_stat fails, to avoid sending undefined 'stat' if (!stats || this.closed) return; args.push(stats); } this.emitWithAll(event, args); return this; } /** * Common handler for errors * @param {Error} error * @returns {Error|Boolean} The error if defined, otherwise the value of the FSWatcher instance's `closed` flag */ _handleError(error) { const code = error && error.code; if (error && code !== 'ENOENT' && code !== 'ENOTDIR' && (!this.options.ignorePermissionErrors || (code !== 'EPERM' && code !== 'EACCES')) ) { this.emit(EV_ERROR, error); } return error || this.closed; } /** * Helper utility for throttling * @param {ThrottleType} actionType type being throttled * @param {Path} path being acted upon * @param {Number} timeout duration of time to suppress duplicate actions * @returns {Object|false} tracking object or false if action should be suppressed */ _throttle(actionType, path, timeout) { if (!this._throttled.has(actionType)) { this._throttled.set(actionType, new Map()); } /** @type {Map} */ const action = this._throttled.get(actionType); /** @type {Object} */ const actionPath = action.get(path); if (actionPath) { actionPath.count++; return false; } let timeoutObject; const clear = () => { const item = action.get(path); const count = item ? item.count : 0; action.delete(path); clearTimeout(timeoutObject); if (item) clearTimeout(item.timeoutObject); return count; }; timeoutObject = setTimeout(clear, timeout); const thr = {timeoutObject, clear, count: 0}; action.set(path, thr); return thr; } _incrReadyCount() { return this._readyCount++; } /** * Awaits write operation to finish. * Polls a newly created file for size variations. When files size does not change for 'threshold' milliseconds calls callback. * @param {Path} path being acted upon * @param {Number} threshold Time in milliseconds a file size must be fixed before acknowledging write OP is finished * @param {EventName} event * @param {Function} awfEmit Callback to be called when ready for event to be emitted. */ _awaitWriteFinish(path, threshold, event, awfEmit) { let timeoutHandler; let fullPath = path; if (this.options.cwd && !sysPath.isAbsolute(path)) { fullPath = sysPath.join(this.options.cwd, path); } const now = new Date(); const awaitWriteFinish = (prevStat) => { fs.stat(fullPath, (err, curStat) => { if (err || !this._pendingWrites.has(path)) { if (err && err.code !== 'ENOENT') awfEmit(err); return; } const now = Number(new Date()); if (prevStat && curStat.size !== prevStat.size) { this._pendingWrites.get(path).lastChange = now; } const pw = this._pendingWrites.get(path); const df = now - pw.lastChange; if (df >= threshold) { this._pendingWrites.delete(path); awfEmit(undefined, curStat); } else { timeoutHandler = setTimeout( awaitWriteFinish, this.options.awaitWriteFinish.pollInterval, curStat ); } }); }; if (!this._pendingWrites.has(path)) { this._pendingWrites.set(path, { lastChange: now, cancelWait: () => { this._pendingWrites.delete(path); clearTimeout(timeoutHandler); return event; } }); timeoutHandler = setTimeout( awaitWriteFinish, this.options.awaitWriteFinish.pollInterval ); } } _getGlobIgnored() { return [...this._ignoredPaths.values()]; } /** * Determines whether user has asked to ignore this path. * @param {Path} path filepath or dir * @param {fs.Stats=} stats result of fs.stat * @returns {Boolean} */ _isIgnored(path, stats) { if (this.options.atomic && DOT_RE.test(path)) return true; if (!this._userIgnored) { const {cwd} = this.options; const ign = this.options.ignored; const ignored = ign && ign.map(normalizeIgnored(cwd)); const paths = arrify(ignored) .filter((path) => typeof path === STRING_TYPE && !isGlob(path)) .map((path) => path + SLASH_GLOBSTAR); const list = this._getGlobIgnored().map(normalizeIgnored(cwd)).concat(ignored, paths); this._userIgnored = anymatch(list, undefined, ANYMATCH_OPTS); } return this._userIgnored([path, stats]); } _isntIgnored(path, stat) { return !this._isIgnored(path, stat); } /** * Provides a set of common helpers and properties relating to symlink and glob handling. * @param {Path} path file, directory, or glob pattern being watched * @param {Number=} depth at any depth > 0, this isn't a glob * @returns {WatchHelper} object containing helpers for this path */ _getWatchHelpers(path, depth) { const watchPath = depth || this.options.disableGlobbing || !isGlob(path) ? path : globParent(path); const follow = this.options.followSymlinks; return new WatchHelper(path, watchPath, follow, this); } // Directory helpers // ----------------- /** * Provides directory tracking objects * @param {String} directory path of the directory * @returns {DirEntry} the directory's tracking object */ _getWatchedDir(directory) { if (!this._boundRemove) this._boundRemove = this._remove.bind(this); const dir = sysPath.resolve(directory); if (!this._watched.has(dir)) this._watched.set(dir, new DirEntry(dir, this._boundRemove)); return this._watched.get(dir); } // File helpers // ------------ /** * Check for read permissions. * Based on this answer on SO: https://stackoverflow.com/a/11781404/1358405 * @param {fs.Stats} stats - object, result of fs_stat * @returns {Boolean} indicates whether the file can be read */ _hasReadPermissions(stats) { if (this.options.ignorePermissionErrors) return true; // stats.mode may be bigint const md = stats && Number.parseInt(stats.mode, 10); const st = md & 0o777; const it = Number.parseInt(st.toString(8)[0], 10); return Boolean(4 & it); } /** * Handles emitting unlink events for * files and directories, and via recursion, for * files and directories within directories that are unlinked * @param {String} directory within which the following item is located * @param {String} item base path of item/directory * @returns {void} */ _remove(directory, item, isDirectory) { // if what is being deleted is a directory, get that directory's paths // for recursive deleting and cleaning of watched object // if it is not a directory, nestedDirectoryChildren will be empty array const path = sysPath.join(directory, item); const fullPath = sysPath.resolve(path); isDirectory = isDirectory != null ? isDirectory : this._watched.has(path) || this._watched.has(fullPath); // prevent duplicate handling in case of arriving here nearly simultaneously // via multiple paths (such as _handleFile and _handleDir) if (!this._throttle('remove', path, 100)) return; // if the only watched file is removed, watch for its return if (!isDirectory && !this.options.useFsEvents && this._watched.size === 1) { this.add(directory, item, true); } // This will create a new entry in the watched object in either case // so we got to do the directory check beforehand const wp = this._getWatchedDir(path); const nestedDirectoryChildren = wp.getChildren(); // Recursively remove children directories / files. nestedDirectoryChildren.forEach(nested => this._remove(path, nested)); // Check if item was on the watched list and remove it const parent = this._getWatchedDir(directory); const wasTracked = parent.has(item); parent.remove(item); // Fixes issue #1042 -> Relative paths were detected and added as symlinks // (https://github.com/paulmillr/chokidar/blob/e1753ddbc9571bdc33b4a4af172d52cb6e611c10/lib/nodefs-handler.js#L612), // but never removed from the map in case the path was deleted. // This leads to an incorrect state if the path was recreated: // https://github.com/paulmillr/chokidar/blob/e1753ddbc9571bdc33b4a4af172d52cb6e611c10/lib/nodefs-handler.js#L553 if (this._symlinkPaths.has(fullPath)) { this._symlinkPaths.delete(fullPath); } // If we wait for this file to be fully written, cancel the wait. let relPath = path; if (this.options.cwd) relPath = sysPath.relative(this.options.cwd, path); if (this.options.awaitWriteFinish && this._pendingWrites.has(relPath)) { const event = this._pendingWrites.get(relPath).cancelWait(); if (event === EV_ADD) return; } // The Entry will either be a directory that just got removed // or a bogus entry to a file, in either case we have to remove it this._watched.delete(path); this._watched.delete(fullPath); const eventName = isDirectory ? EV_UNLINK_DIR : EV_UNLINK; if (wasTracked && !this._isIgnored(path)) this._emit(eventName, path); // Avoid conflicts if we later create another file with the same name if (!this.options.useFsEvents) { this._closePath(path); } } /** * Closes all watchers for a path * @param {Path} path */ _closePath(path) { this._closeFile(path); const dir = sysPath.dirname(path); this._getWatchedDir(dir).remove(sysPath.basename(path)); } /** * Closes only file-specific watchers * @param {Path} path */ _closeFile(path) { const closers = this._closers.get(path); if (!closers) return; closers.forEach(closer => closer()); this._closers.delete(path); } /** * * @param {Path} path * @param {Function} closer */ _addPathCloser(path, closer) { if (!closer) return; let list = this._closers.get(path); if (!list) { list = []; this._closers.set(path, list); } list.push(closer); } _readdirp(root, opts) { if (this.closed) return; const options = {type: EV_ALL, alwaysStat: true, lstat: true, ...opts}; let stream = readdirp(root, options); this._streams.add(stream); stream.once(STR_CLOSE, () => { stream = undefined; }); stream.once(STR_END, () => { if (stream) { this._streams.delete(stream); stream = undefined; } }); return stream; } } // Export FSWatcher class chokidar.FSWatcher = FSWatcher; /** * Instantiates watcher with paths to be tracked. * @param {String|Array} paths file/directory paths and/or globs * @param {Object=} options chokidar opts * @returns an instance of FSWatcher for chaining. */ const watch = (paths, options) => { const watcher = new FSWatcher(options); watcher.add(paths); return watcher; }; chokidar.watch = watch; exports.chokidar = chokidar; //# sourceMappingURL=index.js.map