freifunk-app/node_modules/jest-haste-map/build/index.js

'use strict';

var _child_process;

function _load_child_process() {
  return _child_process = require('child_process');
}

var _package;

function _load_package() {
  return _package = require('../package.json');
}

var _worker;

function _load_worker() {
  return _worker = require('./worker');
}

var _crypto;

function _load_crypto() {
  return _crypto = _interopRequireDefault(require('crypto'));
}

var _events;

function _load_events() {
  return _events = _interopRequireDefault(require('events'));
}

var _get_mock_name;

function _load_get_mock_name() {
  return _get_mock_name = _interopRequireDefault(require('./get_mock_name'));
}

var _get_platform_extension;

function _load_get_platform_extension() {
  return _get_platform_extension = _interopRequireDefault(require('./lib/get_platform_extension'));
}

var _constants;

function _load_constants() {
  return _constants = _interopRequireDefault(require('./constants'));
}

var _haste_fs;

function _load_haste_fs() {
  return _haste_fs = _interopRequireDefault(require('./haste_fs'));
}

var _module_map;

function _load_module_map() {
  return _module_map = _interopRequireDefault(require('./module_map'));
}

var _node;

function _load_node() {
  return _node = _interopRequireDefault(require('./crawlers/node'));
}

var _normalize_path_sep;

function _load_normalize_path_sep() {
  return _normalize_path_sep = _interopRequireDefault(require('./lib/normalize_path_sep'));
}

var _os;

function _load_os() {
  return _os = _interopRequireDefault(require('os'));
}

var _path;

function _load_path() {
  return _path = _interopRequireDefault(require('path'));
}

var _sane;

function _load_sane() {
  return _sane = _interopRequireDefault(require('sane'));
}

var _jestSerializer;

function _load_jestSerializer() {
  return _jestSerializer = _interopRequireDefault(require('jest-serializer'));
}

var _watchman;

function _load_watchman() {
  return _watchman = _interopRequireDefault(require('./crawlers/watchman'));
}

var _watchman_watcher;

function _load_watchman_watcher() {
  return _watchman_watcher = _interopRequireDefault(require('./lib/watchman_watcher'));
}

var _jestWorker;

function _load_jestWorker() {
  return _jestWorker = _interopRequireDefault(require('jest-worker'));
}

function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; }

// eslint-disable-next-line import/no-duplicates

// eslint-disable-next-line import/no-duplicates
const CHANGE_INTERVAL = 30;
// eslint-disable-next-line import/default

// eslint-disable-next-line import/default
/**
 * Copyright (c) 2014-present, Facebook, Inc. All rights reserved.
 *
 * This source code is licensed under the MIT license found in the
 * LICENSE file in the root directory of this source tree.
 *
 * 
 */

const MAX_WAIT_TIME = 240000;
const NODE_MODULES = (_path || _load_path()).default.sep + 'node_modules' + (_path || _load_path()).default.sep;

const canUseWatchman = (() => {
  try {
    (0, (_child_process || _load_child_process()).execSync)('watchman --version', { stdio: ['ignore'] });
    return true;
  } catch (e) {}
  return false;
})();

const escapePathSeparator = string => (_path || _load_path()).default.sep === '\\' ? string.replace(/(\/|\\)/g, '\\\\') : string;

const getWhiteList = list => {
  if (list && list.length) {
    return new RegExp('(' + escapePathSeparator(NODE_MODULES) + '(?:' + list.join('|') + ')(?=$|' + escapePathSeparator((_path || _load_path()).default.sep) + '))', 'g');
  }
  return null;
};

/**
 * HasteMap is a JavaScript implementation of Facebook's haste module system.
 *
 * This implementation is inspired by https://github.com/facebook/node-haste
 * and was built with for high-performance in large code repositories with
 * hundreds of thousands of files. This implementation is scalable and provides
 * predictable performance.
 *
 * Because the haste map creation and synchronization is critical to startup
 * performance and most tasks are blocked by I/O this class makes heavy use of
 * synchronous operations. It uses worker processes for parallelizing file
 * access and metadata extraction.
 *
 * The data structures created by `jest-haste-map` can be used directly from the
 * cache without further processing. The metadata objects in the `files` and
 * `map` objects contain cross-references: a metadata object from one can look
 * up the corresponding metadata object in the other map. Note that in most
 * projects, the number of files will be greater than the number of haste
 * modules one module can refer to many files based on platform extensions.
 *
 * type HasteMap = {
 *   clocks: WatchmanClocks,
 *   files: {[filepath: string]: FileMetaData},
 *   map: {[id: string]: ModuleMapItem},
 *   mocks: {[id: string]: string},
 * }
 *
 * // Watchman clocks are used for query synchronization and file system deltas.
 * type WatchmanClocks = {[filepath: string]: string};
 *
 * type FileMetaData = {
 *   id: ?string, // used to look up module metadata objects in `map`.
 *   mtime: number, // check for outdated files.
 *   visited: boolean, // whether the file has been parsed or not.
 *   dependencies: Array<string>, // all relative dependencies of this file.
 * };
 *
 * // Modules can be targeted to a specific platform based on the file name.
 * // Example: platform.ios.js and Platform.android.js will both map to the same
 * // `Platform` module. The platform should be specified during resolution.
 * type ModuleMapItem = {[platform: string]: ModuleMetaData};
 *
 * //
 * type ModuleMetaData = {
 *   path: string, // the path to look up the file object in `files`.
 *   type: string, // the module type (either `package` or `module`).
 * };
 *
 * Note that the data structures described above are conceptual only. The actual
 * implementation uses arrays and constant keys for metadata storage. Instead of
 * `{id: 'flatMap', mtime: 3421, visited: true, dependencies: []}` the real
 * representation is similar to `['flatMap', 3421, 1, []]` to save storage space
 * and reduce parse and write time of a big JSON blob.
 *
 * The HasteMap is created as follows:
 *  1. read data from the cache or create an empty structure.
 *  2. crawl the file system.
 *     * empty cache: crawl the entire file system.
 *     * cache available:
 *       * if watchman is available: get file system delta changes.
 *       * if watchman is unavailable: crawl the entire file system.
 *     * build metadata objects for every file. This builds the `files` part of
 *       the `HasteMap`.
 *  3. parse and extract metadata from changed files.
 *     * this is done in parallel over worker processes to improve performance.
 *     * the worst case is to parse all files.
 *     * the best case is no file system access and retrieving all data from
 *       the cache.
 *    * the average case is a small number of changed files.
 *  4. serialize the new `HasteMap` in a cache file.
 *     Worker processes can directly access the cache through `HasteMap.read()`.
 *
 */
class HasteMap extends (_events || _load_events()).default {

  constructor(options) {
    super();
    this._options = {
      cacheDirectory: options.cacheDirectory || (_os || _load_os()).default.tmpdir(),
      extensions: options.extensions,
      forceNodeFilesystemAPI: !!options.forceNodeFilesystemAPI,
      hasteImplModulePath: options.hasteImplModulePath,
      ignorePattern: options.ignorePattern,
      maxWorkers: options.maxWorkers,
      mocksPattern: options.mocksPattern ? new RegExp(options.mocksPattern) : null,
      name: options.name,
      platforms: options.platforms,
      resetCache: options.resetCache,
      retainAllFiles: options.retainAllFiles,
      roots: Array.from(new Set(options.roots)),
      throwOnModuleCollision: !!options.throwOnModuleCollision,
      useWatchman: options.useWatchman == null ? true : options.useWatchman,
      watch: !!options.watch
    };
    this._console = options.console || global.console;
    if (!(options.ignorePattern instanceof RegExp)) {
      this._console.warn('jest-haste-map: the `ignorePattern` options as a function is being ' + 'deprecated. Provide a RegExp instead. See https://github.com/facebook/jest/pull/4063.');
    }
    this._cachePath = HasteMap.getCacheFilePath(this._options.cacheDirectory, `haste-map-${this._options.name}`, (_package || _load_package()).version, this._options.roots.join(':'), this._options.extensions.join(':'), this._options.platforms.join(':'), options.mocksPattern || '', options.ignorePattern.toString());
    this._whitelist = getWhiteList(options.providesModuleNodeModules);
    this._buildPromise = null;
    this._watchers = [];
    this._worker = null;
  }

  static getCacheFilePath(tmpdir, name) {
    for (var _len = arguments.length, extra = Array(_len > 2 ? _len - 2 : 0), _key = 2; _key < _len; _key++) {
      extra[_key - 2] = arguments[_key];
    }

    const hash = (_crypto || _load_crypto()).default.createHash('md5').update(name + extra.join(''));
    return (_path || _load_path()).default.join(tmpdir, name.replace(/\W/g, '-') + '-' + hash.digest('hex'));
  }

  build() {
    if (!this._buildPromise) {
      this._buildPromise = this._buildFileMap().then(data => this._buildHasteMap(data)).then(hasteMap => {
        this._persist(hasteMap);
        const hasteFS = new (_haste_fs || _load_haste_fs()).default(hasteMap.files);
        const moduleMap = new (_module_map || _load_module_map()).default({
          duplicates: hasteMap.duplicates,
          map: hasteMap.map,
          mocks: hasteMap.mocks
        });
        const __hasteMapForTest = process.env.NODE_ENV === 'test' && hasteMap || null;
        return this._watch(hasteMap, hasteFS, moduleMap).then(() => ({
          __hasteMapForTest,
          hasteFS,
          moduleMap
        }));
      });
    }
    return this._buildPromise;
  }

  /**
   * 1. read data from the cache or create an empty structure.
   */
  read() {
    let hasteMap;

    try {
      hasteMap = (_jestSerializer || _load_jestSerializer()).default.readFileSync(this._cachePath);
    } catch (err) {
      hasteMap = this._createEmptyMap();
    }

    for (const key in hasteMap) {
      Object.setPrototypeOf(hasteMap[key], null);
    }

    return hasteMap;
  }

  readModuleMap() {
    const data = this.read();
    return new (_module_map || _load_module_map()).default({
      duplicates: data.duplicates,
      map: data.map,
      mocks: data.mocks
    });
  }

  /**
   * 2. crawl the file system.
   */
  _buildFileMap() {
    const read = this._options.resetCache ? this._createEmptyMap : this.read;

    return Promise.resolve().then(() => read.call(this)).catch(() => this._createEmptyMap()).then(cachedHasteMap => {
      const cachedFiles = Object.keys(cachedHasteMap.files).map(filePath => {
        const moduleName = cachedHasteMap.files[filePath][(_constants || _load_constants()).default.ID];
        return { moduleName, path: filePath };
      });
      return this._crawl(cachedHasteMap).then(hasteMap => {
        const deprecatedFiles = cachedFiles.filter(file => {
          const fileData = hasteMap.files[file.path];
          return fileData == null || file.moduleName !== fileData[(_constants || _load_constants()).default.ID];
        });
        return { deprecatedFiles, hasteMap };
      });
    });
  }

  /**
   * 3. parse and extract metadata from changed files.
   */
  _processFile(hasteMap, map, mocks, filePath, workerOptions) {
    const setModule = (id, module) => {
      if (!map[id]) {
        // $FlowFixMe
        map[id] = Object.create(null);
      }
      const moduleMap = map[id];
      const platform = (0, (_get_platform_extension || _load_get_platform_extension()).default)(module[(_constants || _load_constants()).default.PATH], this._options.platforms) || (_constants || _load_constants()).default.GENERIC_PLATFORM;

      const existingModule = moduleMap[platform];
      if (existingModule && existingModule[(_constants || _load_constants()).default.PATH] !== module[(_constants || _load_constants()).default.PATH]) {
        const message = `jest-haste-map: @providesModule naming collision:\n` + `  Duplicate module name: ${id}\n` + `  Paths: ${module[(_constants || _load_constants()).default.PATH]} collides with ` + `${existingModule[(_constants || _load_constants()).default.PATH]}\n\nThis ` + `${this._options.throwOnModuleCollision ? 'error' : 'warning'} ` + `is caused by a @providesModule declaration ` + `with the same name across two different files.`;
        if (this._options.throwOnModuleCollision) {
          throw new Error(message);
        }
        this._console.warn(message);
        // We do NOT want consumers to use a module that is ambiguous.
        delete moduleMap[platform];
        if (Object.keys(moduleMap).length === 1) {
          delete map[id];
        }
        let dupsByPlatform = hasteMap.duplicates[id];
        if (dupsByPlatform == null) {
          dupsByPlatform = hasteMap.duplicates[id] = Object.create(null);
        }
        const dups = dupsByPlatform[platform] = Object.create(null);
        dups[module[(_constants || _load_constants()).default.PATH]] = module[(_constants || _load_constants()).default.TYPE];
        dups[existingModule[(_constants || _load_constants()).default.PATH]] = existingModule[(_constants || _load_constants()).default.TYPE];
        return;
      }

      const dupsByPlatform = hasteMap.duplicates[id];
      if (dupsByPlatform != null) {
        const dups = dupsByPlatform[platform];
        if (dups != null) {
          dups[module[(_constants || _load_constants()).default.PATH]] = module[(_constants || _load_constants()).default.TYPE];
        }
        return;
      }

      moduleMap[platform] = module;
    };

    // If we retain all files in the virtual HasteFS representation, we avoid
    // reading them if they aren't important (node_modules).
    if (this._options.retainAllFiles && this._isNodeModulesDir(filePath)) {
      return null;
    }

    if (this._options.mocksPattern && this._options.mocksPattern.test(filePath)) {
      const mockPath = (0, (_get_mock_name || _load_get_mock_name()).default)(filePath);
      if (mocks[mockPath]) {
        this._console.warn(`jest-haste-map: duplicate manual mock found:\n` + `  Module name: ${mockPath}\n` + `  Duplicate Mock path: ${filePath}\nThis warning ` + `is caused by two manual mock files with the same file name.\n` + `Jest will use the mock file found in: \n` + `${filePath}\n` + ` Please delete one of the following two files: \n ` + `${mocks[mockPath]}\n${filePath}\n\n`);
      }
      mocks[mockPath] = filePath;
    }

    const fileMetadata = hasteMap.files[filePath];
    const moduleMetadata = hasteMap.map[fileMetadata[(_constants || _load_constants()).default.ID]];
    if (fileMetadata[(_constants || _load_constants()).default.VISITED]) {
      if (!fileMetadata[(_constants || _load_constants()).default.ID]) {
        return null;
      }
      if (moduleMetadata != null) {
        const platform = (0, (_get_platform_extension || _load_get_platform_extension()).default)(filePath, this._options.platforms) || (_constants || _load_constants()).default.GENERIC_PLATFORM;
        const module = moduleMetadata[platform];
        if (module == null) {
          return null;
        }
        const modulesByPlatform = map[fileMetadata[(_constants || _load_constants()).default.ID]] || (map[fileMetadata[(_constants || _load_constants()).default.ID]] = {});
        modulesByPlatform[platform] = module;
        return null;
      }
    }

    return this._getWorker(workerOptions).worker({
      filePath,
      hasteImplModulePath: this._options.hasteImplModulePath
    }).then(metadata => {
      // `1` for truthy values instead of `true` to save cache space.
      fileMetadata[(_constants || _load_constants()).default.VISITED] = 1;
      const metadataId = metadata.id;
      const metadataModule = metadata.module;
      if (metadataId && metadataModule) {
        fileMetadata[(_constants || _load_constants()).default.ID] = metadataId;
        setModule(metadataId, metadataModule);
      }
      fileMetadata[(_constants || _load_constants()).default.DEPENDENCIES] = metadata.dependencies || [];
    }, error => {
      if (typeof error !== 'object' || !error.message || !error.stack) {
        error = new Error(error);
        error.stack = ''; // Remove stack for stack-less errors.
      }

      // $FlowFixMe: checking error code is OK if error comes from "fs".
      if (['ENOENT', 'EACCES'].indexOf(error.code) < 0) {
        throw error;
      }

      // If a file cannot be read we remove it from the file list and
      // ignore the failure silently.
      delete hasteMap.files[filePath];
    });
  }

  _buildHasteMap(data) {
    const deprecatedFiles = data.deprecatedFiles,
          hasteMap = data.hasteMap;

    const map = Object.create(null);
    const mocks = Object.create(null);
    const promises = [];

    for (let i = 0; i < deprecatedFiles.length; ++i) {
      const file = deprecatedFiles[i];
      this._recoverDuplicates(hasteMap, file.path, file.moduleName);
    }

    for (const filePath in hasteMap.files) {
      const promise = this._processFile(hasteMap, map, mocks, filePath);
      if (promise) {
        promises.push(promise);
      }
    }

    return Promise.all(promises).then(() => {
      this._cleanup();
      hasteMap.map = map;
      hasteMap.mocks = mocks;
      return hasteMap;
    }).catch(error => {
      this._cleanup();
      return Promise.reject(error);
    });
  }

  _cleanup() {
    const worker = this._worker;

    if (worker && typeof worker.end === 'function') {
      worker.end();
    }

    this._worker = null;
  }

  /**
   * 4. serialize the new `HasteMap` in a cache file.
   */
  _persist(hasteMap) {
    (_jestSerializer || _load_jestSerializer()).default.writeFileSync(this._cachePath, hasteMap);
  }

  /**
   * Creates workers or parses files and extracts metadata in-process.
   */
  _getWorker(options) {
    if (!this._worker) {
      if (options && options.forceInBand || this._options.maxWorkers <= 1) {
        this._worker = { worker: (_worker || _load_worker()).worker };
      } else {
        // $FlowFixMe: assignment of a worker with custom properties.
        this._worker = new (_jestWorker || _load_jestWorker()).default(require.resolve('./worker'), {
          exposedMethods: ['worker'],
          maxRetries: 3,
          numWorkers: this._options.maxWorkers
        });
      }
    }

    return this._worker;
  }

  _crawl(hasteMap) {
    const options = this._options;
    const ignore = this._ignore.bind(this);
    const crawl = canUseWatchman && this._options.useWatchman ? (_watchman || _load_watchman()).default : (_node || _load_node()).default;

    const retry = error => {
      if (crawl === (_watchman || _load_watchman()).default) {
        this._console.warn(`jest-haste-map: Watchman crawl failed. Retrying once with node ` + `crawler.\n` + `  Usually this happens when watchman isn't running. Create an ` + `empty \`.watchmanconfig\` file in your project's root folder or ` + `initialize a git or hg repository in your project.\n` + `  ` + error);
        return (0, (_node || _load_node()).default)({
          data: hasteMap,
          extensions: options.extensions,
          forceNodeFilesystemAPI: options.forceNodeFilesystemAPI,
          ignore,
          roots: options.roots
        }).catch(e => {
          throw new Error(`Crawler retry failed:\n` + `  Original error: ${error.message}\n` + `  Retry error: ${e.message}\n`);
        });
      }

      throw error;
    };

    try {
      return crawl({
        data: hasteMap,
        extensions: options.extensions,
        forceNodeFilesystemAPI: options.forceNodeFilesystemAPI,
        ignore,
        roots: options.roots
      }).catch(retry);
    } catch (error) {
      return retry(error);
    }
  }

  /**
   * Watch mode
   */
  _watch(hasteMap, hasteFS, moduleMap) {
    if (!this._options.watch) {
      return Promise.resolve();
    }

    // In watch mode, we'll only warn about module collisions and we'll retain
    // all files, even changes to node_modules.
    this._options.throwOnModuleCollision = false;
    this._options.retainAllFiles = true;

    const Watcher = canUseWatchman && this._options.useWatchman ? (_watchman_watcher || _load_watchman_watcher()).default : (_os || _load_os()).default.platform() === 'darwin' ? (_sane || _load_sane()).default.FSEventsWatcher : (_sane || _load_sane()).default.NodeWatcher;
    const extensions = this._options.extensions;
    const ignorePattern = this._options.ignorePattern;
    let changeQueue = Promise.resolve();
    let eventsQueue = [];
    // We only need to copy the entire haste map once on every "frame".
    let mustCopy = true;

    const createWatcher = root => {
      const watcher = new Watcher(root, {
        dot: false,
        glob: extensions.map(extension => '**/*.' + extension),
        ignored: ignorePattern
      });

      return new Promise((resolve, reject) => {
        const rejectTimeout = setTimeout(() => reject(new Error('Failed to start watch mode.')), MAX_WAIT_TIME);

        watcher.once('ready', () => {
          clearTimeout(rejectTimeout);
          watcher.on('all', onChange);
          resolve(watcher);
        });
      });
    };

    const emitChange = () => {
      if (eventsQueue.length) {
        mustCopy = true;
        this.emit('change', {
          eventsQueue,
          hasteFS: new (_haste_fs || _load_haste_fs()).default(hasteMap.files),
          moduleMap: new (_module_map || _load_module_map()).default({
            duplicates: hasteMap.duplicates,
            map: hasteMap.map,
            mocks: hasteMap.mocks
          })
        });
        eventsQueue = [];
      }
    };

    const onChange = (type, filePath, root, stat) => {
      filePath = (_path || _load_path()).default.join(root, (0, (_normalize_path_sep || _load_normalize_path_sep()).default)(filePath));
      if (this._ignore(filePath) || !extensions.some(extension => filePath.endsWith(extension))) {
        return;
      }

      changeQueue = changeQueue.then(() => {
        // If we get duplicate events for the same file, ignore them.
        if (eventsQueue.find(event => event.type === type && event.filePath === filePath && (!event.stat && !stat || event.stat && stat && event.stat.mtime.getTime() === stat.mtime.getTime()))) {
          return null;
        }

        if (mustCopy) {
          mustCopy = false;
          // $FlowFixMe
          hasteMap = {
            clocks: copy(hasteMap.clocks),
            duplicates: copy(hasteMap.duplicates),
            files: copy(hasteMap.files),
            map: copy(hasteMap.map),
            mocks: copy(hasteMap.mocks)
          };
        }

        const add = () => eventsQueue.push({ filePath, stat, type });

        // Delete the file and all of its metadata.
        const moduleName = hasteMap.files[filePath] && hasteMap.files[filePath][(_constants || _load_constants()).default.ID];
        const platform = (0, (_get_platform_extension || _load_get_platform_extension()).default)(filePath, this._options.platforms) || (_constants || _load_constants()).default.GENERIC_PLATFORM;

        delete hasteMap.files[filePath];
        let moduleMap = hasteMap.map[moduleName];
        if (moduleMap != null) {
          // We are forced to copy the object because jest-haste-map exposes
          // the map as an immutable entity.
          moduleMap = copy(moduleMap);
          delete moduleMap[platform];
          if (Object.keys(moduleMap).length === 0) {
            delete hasteMap.map[moduleName];
          } else {
            // $FlowFixMe
            hasteMap.map[moduleName] = moduleMap;
          }
        }
        if (this._options.mocksPattern && this._options.mocksPattern.test(filePath)) {
          const mockName = (0, (_get_mock_name || _load_get_mock_name()).default)(filePath);
          delete hasteMap.mocks[mockName];
        }

        this._recoverDuplicates(hasteMap, filePath, moduleName);

        // If the file was added or changed,
        // parse it and update the haste map.
        if (type === 'add' || type === 'change') {
          const fileMetadata = ['', stat.mtime.getTime(), 0, []];
          hasteMap.files[filePath] = fileMetadata;
          const promise = this._processFile(hasteMap, hasteMap.map, hasteMap.mocks, filePath, {
            forceInBand: true
          });
          // Cleanup
          this._cleanup();
          if (promise) {
            return promise.then(add);
          } else {
            // If a file in node_modules has changed,
            // emit an event regardless.
            add();
          }
        } else {
          add();
        }
        return null;
      }).catch(error => {
        this._console.error(`jest-haste-map: watch error:\n  ${error.stack}\n`);
      });
    };

    this._changeInterval = setInterval(emitChange, CHANGE_INTERVAL);
    return Promise.all(this._options.roots.map(createWatcher)).then(watchers => {
      this._watchers = watchers;
    });
  }

  /**
   * This function should be called when the file under `filePath` is removed
   * or changed. When that happens, we want to figure out if that file was
   * part of a group of files that had the same ID. If it was, we want to
   * remove it from the group. Furthermore, if there is only one file
   * remaining in the group, then we want to restore that single file as the
   * correct resolution for its ID, and cleanup the duplicates index.
   */
  _recoverDuplicates(hasteMap, filePath, moduleName) {
    let dupsByPlatform = hasteMap.duplicates[moduleName];
    if (dupsByPlatform == null) {
      return;
    }
    const platform = (0, (_get_platform_extension || _load_get_platform_extension()).default)(filePath, this._options.platforms) || (_constants || _load_constants()).default.GENERIC_PLATFORM;
    let dups = dupsByPlatform[platform];
    if (dups == null) {
      return;
    }
    dupsByPlatform = hasteMap.duplicates[moduleName] = copy(dupsByPlatform);
    dups = dupsByPlatform[platform] = copy(dups);
    const dedupType = dups[filePath];
    delete dups[filePath];
    const filePaths = Object.keys(dups);
    if (filePaths.length > 1) {
      return;
    }
    let dedupMap = hasteMap.map[moduleName];
    if (dedupMap == null) {
      dedupMap = hasteMap.map[moduleName] = Object.create(null);
    }
    dedupMap[platform] = [filePaths[0], dedupType];
    delete dupsByPlatform[platform];
    if (Object.keys(dupsByPlatform).length === 0) {
      delete hasteMap.duplicates[moduleName];
    }
  }

  end() {
    clearInterval(this._changeInterval);
    if (!this._watchers.length) {
      return Promise.resolve();
    }

    return Promise.all(this._watchers.map(watcher => new Promise(resolve => watcher.close(resolve)))).then(() => {
      this._watchers = [];
    });
  }

  /**
   * Helpers
   */
  _ignore(filePath) {
    const ignorePattern = this._options.ignorePattern;
    const ignoreMatched = ignorePattern instanceof RegExp ? ignorePattern.test(filePath) : ignorePattern(filePath);

    return ignoreMatched || !this._options.retainAllFiles && this._isNodeModulesDir(filePath);
  }

  _isNodeModulesDir(filePath) {
    if (!filePath.includes(NODE_MODULES)) {
      return false;
    }

    if (this._whitelist) {
      const whitelist = this._whitelist;
      const match = whitelist.exec(filePath);
      const matchEndIndex = whitelist.lastIndex;
      whitelist.lastIndex = 0;

      if (!match) {
        return true;
      }

      const filePathInPackage = filePath.substr(matchEndIndex);
      return filePathInPackage.startsWith(NODE_MODULES);
    }

    return true;
  }

  _createEmptyMap() {
    // $FlowFixMe
    return {
      clocks: Object.create(null),
      duplicates: Object.create(null),
      files: Object.create(null),
      map: Object.create(null),
      mocks: Object.create(null)
    };
  }

}

const copy = object => Object.assign(Object.create(null), object);

HasteMap.H = (_constants || _load_constants()).default;
HasteMap.ModuleMap = (_module_map || _load_module_map()).default;

module.exports = HasteMap;