Edit D:\xinhaisoft\crisis_new\api\node_modules\async\auto.js
'use strict'; Object.defineProperty(exports, "__esModule", { value: true }); exports.default = auto; var _once = require('./internal/once'); var _once2 = _interopRequireDefault(_once); var _onlyOnce = require('./internal/onlyOnce'); var _onlyOnce2 = _interopRequireDefault(_onlyOnce); var _wrapAsync = require('./internal/wrapAsync'); var _wrapAsync2 = _interopRequireDefault(_wrapAsync); var _promiseCallback = require('./internal/promiseCallback'); function _interopRequireDefault(obj) { return obj && obj.__esModule ? obj : { default: obj }; } /** * Determines the best order for running the {@link AsyncFunction}s in `tasks`, based on * their requirements. Each function can optionally depend on other functions * being completed first, and each function is run as soon as its requirements * are satisfied. * * If any of the {@link AsyncFunction}s pass an error to their callback, the `auto` sequence * will stop. Further tasks will not execute (so any other functions depending * on it will not run), and the main `callback` is immediately called with the * error. * * {@link AsyncFunction}s also receive an object containing the results of functions which * have completed so far as the first argument, if they have dependencies. If a * task function has no dependencies, it will only be passed a callback. * * @name auto * @static * @memberOf module:ControlFlow * @method * @category Control Flow * @param {Object} tasks - An object. Each of its properties is either a * function or an array of requirements, with the {@link AsyncFunction} itself the last item * in the array. The object's key of a property serves as the name of the task * defined by that property, i.e. can be used when specifying requirements for * other tasks. The function receives one or two arguments: * * a `results` object, containing the results of the previously executed * functions, only passed if the task has any dependencies, * * a `callback(err, result)` function, which must be called when finished, * passing an `error` (which can be `null`) and the result of the function's * execution. * @param {number} [concurrency=Infinity] - An optional `integer` for * determining the maximum number of tasks that can be run in parallel. By * default, as many as possible. * @param {Function} [callback] - An optional callback which is called when all * the tasks have been completed. It receives the `err` argument if any `tasks` * pass an error to their callback. Results are always returned; however, if an * error occurs, no further `tasks` will be performed, and the results object * will only contain partial results. Invoked with (err, results). * @returns {Promise} a promise, if a callback is not passed * @example * * async.auto({ * // this function will just be passed a callback * readData: async.apply(fs.readFile, 'data.txt', 'utf-8'), * showData: ['readData', function(results, cb) { * // results.readData is the file's contents * // ... * }] * }, callback); * * async.auto({ * get_data: function(callback) { * console.log('in get_data'); * // async code to get some data * callback(null, 'data', 'converted to array'); * }, * make_folder: function(callback) { * console.log('in make_folder'); * // async code to create a directory to store a file in * // this is run at the same time as getting the data * callback(null, 'folder'); * }, * write_file: ['get_data', 'make_folder', function(results, callback) { * console.log('in write_file', JSON.stringify(results)); * // once there is some data and the directory exists, * // write the data to a file in the directory * callback(null, 'filename'); * }], * email_link: ['write_file', function(results, callback) { * console.log('in email_link', JSON.stringify(results)); * // once the file is written let's email a link to it... * // results.write_file contains the filename returned by write_file. * callback(null, {'file':results.write_file, 'email':'user@example.com'}); * }] * }, function(err, results) { * console.log('err = ', err); * console.log('results = ', results); * }); */ function auto(tasks, concurrency, callback) { if (typeof concurrency !== 'number') { // concurrency is optional, shift the args. callback = concurrency; concurrency = null; } callback = (0, _once2.default)(callback || (0, _promiseCallback.promiseCallback)()); var numTasks = Object.keys(tasks).length; if (!numTasks) { return callback(null); } if (!concurrency) { concurrency = numTasks; } var results = {}; var runningTasks = 0; var canceled = false; var hasError = false; var listeners = Object.create(null); var readyTasks = []; // for cycle detection: var readyToCheck = []; // tasks that have been identified as reachable // without the possibility of returning to an ancestor task var uncheckedDependencies = {}; Object.keys(tasks).forEach(key => { var task = tasks[key]; if (!Array.isArray(task)) { // no dependencies enqueueTask(key, [task]); readyToCheck.push(key); return; } var dependencies = task.slice(0, task.length - 1); var remainingDependencies = dependencies.length; if (remainingDependencies === 0) { enqueueTask(key, task); readyToCheck.push(key); return; } uncheckedDependencies[key] = remainingDependencies; dependencies.forEach(dependencyName => { if (!tasks[dependencyName]) { throw new Error('async.auto task `' + key + '` has a non-existent dependency `' + dependencyName + '` in ' + dependencies.join(', ')); } addListener(dependencyName, () => { remainingDependencies--; if (remainingDependencies === 0) { enqueueTask(key, task); } }); }); }); checkForDeadlocks(); processQueue(); function enqueueTask(key, task) { readyTasks.push(() => runTask(key, task)); } function processQueue() { if (canceled) return; if (readyTasks.length === 0 && runningTasks === 0) { return callback(null, results); } while (readyTasks.length && runningTasks < concurrency) { var run = readyTasks.shift(); run(); } } function addListener(taskName, fn) { var taskListeners = listeners[taskName]; if (!taskListeners) { taskListeners = listeners[taskName] = []; } taskListeners.push(fn); } function taskComplete(taskName) { var taskListeners = listeners[taskName] || []; taskListeners.forEach(fn => fn()); processQueue(); } function runTask(key, task) { if (hasError) return; var taskCallback = (0, _onlyOnce2.default)((err, ...result) => { runningTasks--; if (err === false) { canceled = true; return; } if (result.length < 2) { [result] = result; } if (err) { var safeResults = {}; Object.keys(results).forEach(rkey => { safeResults[rkey] = results[rkey]; }); safeResults[key] = result; hasError = true; listeners = Object.create(null); if (canceled) return; callback(err, safeResults); } else { results[key] = result; taskComplete(key); } }); runningTasks++; var taskFn = (0, _wrapAsync2.default)(task[task.length - 1]); if (task.length > 1) { taskFn(results, taskCallback); } else { taskFn(taskCallback); } } function checkForDeadlocks() { // Kahn's algorithm // https://en.wikipedia.org/wiki/Topological_sorting#Kahn.27s_algorithm // http://connalle.blogspot.com/2013/10/topological-sortingkahn-algorithm.html var currentTask; var counter = 0; while (readyToCheck.length) { currentTask = readyToCheck.pop(); counter++; getDependents(currentTask).forEach(dependent => { if (--uncheckedDependencies[dependent] === 0) { readyToCheck.push(dependent); } }); } if (counter !== numTasks) { throw new Error('async.auto cannot execute tasks due to a recursive dependency'); } } function getDependents(taskName) { var result = []; Object.keys(tasks).forEach(key => { const task = tasks[key]; if (Array.isArray(task) && task.indexOf(taskName) >= 0) { result.push(key); } }); return result; } return callback[_promiseCallback.PROMISE_SYMBOL]; } module.exports = exports['default'];
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