site/node_modules/workerpool/dist/workerpool.js

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/**
* workerpool.js
* https://github.com/josdejong/workerpool
*
* Offload tasks to a pool of workers on node.js and in the browser.
*
* @version 9.1.1
* @date 2024-04-06
*
* @license
* Copyright (C) 2014-2022 Jos de Jong <wjosdejong@gmail.com>
*
* Licensed under the Apache License, Version 2.0 (the "License"); you may not
* use this file except in compliance with the License. You may obtain a copy
* of the License at
*
* http://www.apache.org/licenses/LICENSE-2.0
*
* Unless required by applicable law or agreed to in writing, software
* distributed under the License is distributed on an "AS IS" BASIS, WITHOUT
* WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. See the
* License for the specific language governing permissions and limitations under
* the License.
*/
(function (global, factory) {
typeof exports === 'object' && typeof module !== 'undefined' ? factory(exports) :
typeof define === 'function' && define.amd ? define(['exports'], factory) :
(global = typeof globalThis !== 'undefined' ? globalThis : global || self, factory(global.workerpool = {}));
})(this, (function (exports) { 'use strict';
var src = {};
var environment = {exports: {}};
(function (module) {
// source: https://github.com/flexdinesh/browser-or-node
// source: https://github.com/mozilla/pdf.js/blob/7ea0e40e588864cd938d1836ec61f1928d3877d3/src/shared/util.js#L24
var isNode = function (nodeProcess) {
return typeof nodeProcess !== 'undefined' && nodeProcess.versions != null && nodeProcess.versions.node != null && nodeProcess + '' === '[object process]';
};
module.exports.isNode = isNode;
// determines the JavaScript platform: browser or node
module.exports.platform = typeof process !== 'undefined' && isNode(process) ? 'node' : 'browser';
// determines whether the code is running in main thread or not
// note that in node.js we have to check both worker_thread and child_process
var worker_threads = module.exports.platform === 'node' && require('worker_threads');
module.exports.isMainThread = module.exports.platform === 'node' ? (!worker_threads || worker_threads.isMainThread) && !process.connected : typeof Window !== 'undefined';
// determines the number of cpus available
module.exports.cpus = module.exports.platform === 'browser' ? self.navigator.hardwareConcurrency : require('os').cpus().length;
})(environment);
var environmentExports = environment.exports;
var _Promise$1 = {};
var hasRequired_Promise;
function require_Promise() {
if (hasRequired_Promise) return _Promise$1;
hasRequired_Promise = 1;
/**
* Promise
*
* Inspired by https://gist.github.com/RubaXa/8501359 from RubaXa <trash@rubaxa.org>
* @template T
* @template [E=Error]
* @param {Function} handler Called as handler(resolve: Function, reject: Function)
* @param {Promise} [parent] Parent promise for propagation of cancel and timeout
*/
function Promise(handler, parent) {
var me = this;
if (!(this instanceof Promise)) {
throw new SyntaxError('Constructor must be called with the new operator');
}
if (typeof handler !== 'function') {
throw new SyntaxError('Function parameter handler(resolve, reject) missing');
}
var _onSuccess = [];
var _onFail = [];
// status
/**
* @readonly
*/
this.resolved = false;
/**
* @readonly
*/
this.rejected = false;
/**
* @readonly
*/
this.pending = true;
/**
* Process onSuccess and onFail callbacks: add them to the queue.
* Once the promise is resolved, the function _promise is replace.
* @param {Function} onSuccess
* @param {Function} onFail
* @private
*/
var _process = function (onSuccess, onFail) {
_onSuccess.push(onSuccess);
_onFail.push(onFail);
};
/**
* Add an onSuccess callback and optionally an onFail callback to the Promise
* @template TT
* @template [TE=never]
* @param {(r: T) => TT | PromiseLike<TT>} onSuccess
* @param {(r: E) => TE | PromiseLike<TE>} [onFail]
* @returns {Promise<TT | TE, any>} promise
*/
this.then = function (onSuccess, onFail) {
return new Promise(function (resolve, reject) {
var s = onSuccess ? _then(onSuccess, resolve, reject) : resolve;
var f = onFail ? _then(onFail, resolve, reject) : reject;
_process(s, f);
}, me);
};
/**
* Resolve the promise
* @param {*} result
* @type {Function}
*/
var _resolve = function (result) {
// update status
me.resolved = true;
me.rejected = false;
me.pending = false;
_onSuccess.forEach(function (fn) {
fn(result);
});
_process = function (onSuccess, onFail) {
onSuccess(result);
};
_resolve = _reject = function () {};
return me;
};
/**
* Reject the promise
* @param {Error} error
* @type {Function}
*/
var _reject = function (error) {
// update status
me.resolved = false;
me.rejected = true;
me.pending = false;
_onFail.forEach(function (fn) {
fn(error);
});
_process = function (onSuccess, onFail) {
onFail(error);
};
_resolve = _reject = function () {};
return me;
};
/**
* Cancel the promise. This will reject the promise with a CancellationError
* @returns {this} self
*/
this.cancel = function () {
if (parent) {
parent.cancel();
} else {
_reject(new CancellationError());
}
return me;
};
/**
* Set a timeout for the promise. If the promise is not resolved within
* the time, the promise will be cancelled and a TimeoutError is thrown.
* If the promise is resolved in time, the timeout is removed.
* @param {number} delay Delay in milliseconds
* @returns {this} self
*/
this.timeout = function (delay) {
if (parent) {
parent.timeout(delay);
} else {
var timer = setTimeout(function () {
_reject(new TimeoutError('Promise timed out after ' + delay + ' ms'));
}, delay);
me.always(function () {
clearTimeout(timer);
});
}
return me;
};
// attach handler passing the resolve and reject functions
handler(function (result) {
_resolve(result);
}, function (error) {
_reject(error);
});
}
/**
* Execute given callback, then call resolve/reject based on the returned result
* @param {Function} callback
* @param {Function} resolve
* @param {Function} reject
* @returns {Function}
* @private
*/
function _then(callback, resolve, reject) {
return function (result) {
try {
var res = callback(result);
if (res && typeof res.then === 'function' && typeof res['catch'] === 'function') {
// method returned a promise
res.then(resolve, reject);
} else {
resolve(res);
}
} catch (error) {
reject(error);
}
};
}
/**
* Add an onFail callback to the Promise
* @template TT
* @param {(error: E) => TT | PromiseLike<TT>} onFail
* @returns {Promise<T | TT>} promise
*/
Promise.prototype['catch'] = function (onFail) {
return this.then(null, onFail);
};
// TODO: add support for Promise.catch(Error, callback)
// TODO: add support for Promise.catch(Error, Error, callback)
/**
* Execute given callback when the promise either resolves or rejects.
* @template TT
* @param {() => Promise<TT>} fn
* @returns {Promise<TT>} promise
*/
Promise.prototype.always = function (fn) {
return this.then(fn, fn);
};
/**
* Create a promise which resolves when all provided promises are resolved,
* and fails when any of the promises resolves.
* @param {Promise[]} promises
* @returns {Promise<any[], any>} promise
*/
Promise.all = function (promises) {
return new Promise(function (resolve, reject) {
var remaining = promises.length,
results = [];
if (remaining) {
promises.forEach(function (p, i) {
p.then(function (result) {
results[i] = result;
remaining--;
if (remaining == 0) {
resolve(results);
}
}, function (error) {
remaining = 0;
reject(error);
});
});
} else {
resolve(results);
}
});
};
/**
* Create a promise resolver
* @returns {{promise: Promise, resolve: Function, reject: Function}} resolver
*/
Promise.defer = function () {
var resolver = {};
resolver.promise = new Promise(function (resolve, reject) {
resolver.resolve = resolve;
resolver.reject = reject;
});
return resolver;
};
/**
* Create a cancellation error
* @param {String} [message]
* @extends Error
*/
function CancellationError(message) {
this.message = message || 'promise cancelled';
this.stack = new Error().stack;
}
CancellationError.prototype = new Error();
CancellationError.prototype.constructor = Error;
CancellationError.prototype.name = 'CancellationError';
Promise.CancellationError = CancellationError;
/**
* Create a timeout error
* @param {String} [message]
* @extends Error
*/
function TimeoutError(message) {
this.message = message || 'timeout exceeded';
this.stack = new Error().stack;
}
TimeoutError.prototype = new Error();
TimeoutError.prototype.constructor = Error;
TimeoutError.prototype.name = 'TimeoutError';
Promise.TimeoutError = TimeoutError;
_Promise$1.Promise = Promise;
return _Promise$1;
}
var WorkerHandler = {exports: {}};
var validateOptions = {};
/**
* Validate that the object only contains known option names
* - Throws an error when unknown options are detected
* - Throws an error when some of the allowed options are attached
* @param {Object | undefined} options
* @param {string[]} allowedOptionNames
* @param {string} objectName
* @retrun {Object} Returns the original options
*/
var hasRequiredValidateOptions;
function requireValidateOptions() {
if (hasRequiredValidateOptions) return validateOptions;
hasRequiredValidateOptions = 1;
validateOptions.validateOptions = function validateOptions(options, allowedOptionNames, objectName) {
if (!options) {
return;
}
var optionNames = options ? Object.keys(options) : [];
// check for unknown properties
var unknownOptionName = optionNames.find(optionName => !allowedOptionNames.includes(optionName));
if (unknownOptionName) {
throw new Error('Object "' + objectName + '" contains an unknown option "' + unknownOptionName + '"');
}
// check for inherited properties which are not present on the object itself
var illegalOptionName = allowedOptionNames.find(allowedOptionName => {
return Object.prototype[allowedOptionName] && !optionNames.includes(allowedOptionName);
});
if (illegalOptionName) {
throw new Error('Object "' + objectName + '" contains an inherited option "' + illegalOptionName + '" which is ' + 'not defined in the object itself but in its prototype. Only plain objects are allowed. ' + 'Please remove the option from the prototype or override it with a value "undefined".');
}
return options;
};
// source: https://developer.mozilla.org/en-US/docs/Web/API/Worker/Worker
validateOptions.workerOptsNames = ['credentials', 'name', 'type'];
// source: https://nodejs.org/api/child_process.html#child_processforkmodulepath-args-options
validateOptions.forkOptsNames = ['cwd', 'detached', 'env', 'execPath', 'execArgv', 'gid', 'serialization', 'signal', 'killSignal', 'silent', 'stdio', 'uid', 'windowsVerbatimArguments', 'timeout'];
// source: https://nodejs.org/api/worker_threads.html#new-workerfilename-options
validateOptions.workerThreadOptsNames = ['argv', 'env', 'eval', 'execArgv', 'stdin', 'stdout', 'stderr', 'workerData', 'trackUnmanagedFds', 'transferList', 'resourceLimits', 'name'];
return validateOptions;
}
/**
* embeddedWorker.js contains an embedded version of worker.js.
* This file is automatically generated,
* changes made in this file will be overwritten.
*/
var embeddedWorker;
var hasRequiredEmbeddedWorker;
function requireEmbeddedWorker() {
if (hasRequiredEmbeddedWorker) return embeddedWorker;
hasRequiredEmbeddedWorker = 1;
embeddedWorker = "!function(e,n){\"object\"==typeof exports&&\"undefined\"!=typeof module?module.exports=n():\"function\"==typeof define&&define.amd?define(n):(e=\"undefined\"!=typeof globalThis?globalThis:e||self).worker=n()}(this,(function(){\"use strict\";function e(e){return e&&e.__esModule&&Object.prototype.hasOwnProperty.call(e,\"default\")?e.default:e}var n={};var t=function(e,n){this.message=e,this.transfer=n};return function(e){var n=t,r={exit:function(){}};if(\"undefined\"!=typeof self&&\"function\"==typeof postMessage&&\"function\"==typeof addEventListener)r.on=function(e,n){addEventListener(e,(function(e){n(e.data)}))},r.send=function(e){postMessage(e)};else{if(\"undefined\"==typeof process)throw new Error(\"Script must be executed as a worker\");var o;try{o=require(\"worker_threads\")}catch(e){if(\"object\"!=typeof e||null===e||\"MODULE_NOT_FOUND\"!==e.code)throw e}if(o&&null!==o.parentPort){var i=o.parentPort;r.send=i.postMessage.bind(i),r.on=i.on.bind(i),r.exit=process.exit.bind(process)}else r.on=process.on.bind(process),r.send=function(e){process.send(e)},r.on(\"disconnect\",(function(){process.exit(1)})),r.exit=process.exit.bind(process)}function s(e){return Object.getOwnPropertyNames(e).reduce((function(n,t){return Object.defineProperty(n,t,{value:e[t],enumerable:!0})}),{})}function d(e){return e&&\"function\"==typeof e.then&&\"function\"==typeof e.catch}r.methods={},r.methods.run=function(e,n){var t=new Function(\"return (\"+e+\").apply(null, arguments);\");return t.apply(t,n)},r.methods.methods=function(){return Object.keys(r.methods)},r.terminationHandler=void 0,r.cleanupAndExit=function(e){var n=function(){r.exit(e)};if(!r.terminationHandler)return n();var t=r.terminationHandler(e);d(t)?t.then(n,n):n()};var u=null;r.on(\"message\",(function(e){if(\"__workerpool-terminate__\"===e)return r.cleanupAndExit(0);try{var t=r.methods[e.method];if(!t)throw new Error('Unknown method \"'+e.method+'\"');u=e.id;var o=t.apply(t,e.params);d(o)?o.then((function(t){t instanceof n?r.send({id:e.id,result:t.message,error:null},t.transfer):r.send({id:e.id,result:t,error:null}),u=null})).catch((function(n){r.send({id:e.id,result:null,error:s(n)}),u=null})):(o instanceof n?r.send({id:e.id,result:o.message,error:null},o.transfer):r.send({id:e.id,result:o,error:null}),u=null)}catch(n){r.send({id:e.id,result:null,error:s(n)})}})),r.register=function(e,n){if(e)for(var t in e)e.hasOwnProperty(t)&&(r.methods[t]=e[t]);n&&(r.terminationHandler=n.onTerminate),r.send(\"ready\")},r.emit=function(e){if(u){if(e instanceof n)return void r.send({id:u,isEvent:!0,payload:e.message},e.transfer);r.send({id:u,isEvent:!0,payload:e})}},e.add=r.register,e.emit=r.emit}(n),e(n)}));\n//# sourceMappingURL=worker.min.js.map\n";
return embeddedWorker;
}
var hasRequiredWorkerHandler;
function requireWorkerHandler() {
if (hasRequiredWorkerHandler) return WorkerHandler.exports;
hasRequiredWorkerHandler = 1;
var {
Promise
} = require_Promise();
var environment = environmentExports;
const {
validateOptions,
forkOptsNames,
workerThreadOptsNames,
workerOptsNames
} = requireValidateOptions();
/**
* Special message sent by parent which causes a child process worker to terminate itself.
* Not a "message object"; this string is the entire message.
*/
var TERMINATE_METHOD_ID = '__workerpool-terminate__';
function ensureWorkerThreads() {
var WorkerThreads = tryRequireWorkerThreads();
if (!WorkerThreads) {
throw new Error('WorkerPool: workerType = \'thread\' is not supported, Node >= 11.7.0 required');
}
return WorkerThreads;
}
// check whether Worker is supported by the browser
function ensureWebWorker() {
// Workaround for a bug in PhantomJS (Or QtWebkit): https://github.com/ariya/phantomjs/issues/14534
if (typeof Worker !== 'function' && (typeof Worker !== 'object' || typeof Worker.prototype.constructor !== 'function')) {
throw new Error('WorkerPool: Web Workers not supported');
}
}
function tryRequireWorkerThreads() {
try {
return require('worker_threads');
} catch (error) {
if (typeof error === 'object' && error !== null && error.code === 'MODULE_NOT_FOUND') {
// no worker_threads available (old version of node.js)
return null;
} else {
throw error;
}
}
}
// get the default worker script
function getDefaultWorker() {
if (environment.platform === 'browser') {
// test whether the browser supports all features that we need
if (typeof Blob === 'undefined') {
throw new Error('Blob not supported by the browser');
}
if (!window.URL || typeof window.URL.createObjectURL !== 'function') {
throw new Error('URL.createObjectURL not supported by the browser');
}
// use embedded worker.js
var blob = new Blob([requireEmbeddedWorker()], {
type: 'text/javascript'
});
return window.URL.createObjectURL(blob);
} else {
// use external worker.js in current directory
return __dirname + '/worker.js';
}
}
function setupWorker(script, options) {
if (options.workerType === 'web') {
// browser only
ensureWebWorker();
return setupBrowserWorker(script, options.workerOpts, Worker);
} else if (options.workerType === 'thread') {
// node.js only
WorkerThreads = ensureWorkerThreads();
return setupWorkerThreadWorker(script, WorkerThreads, options);
} else if (options.workerType === 'process' || !options.workerType) {
// node.js only
return setupProcessWorker(script, resolveForkOptions(options), require('child_process'));
} else {
// options.workerType === 'auto' or undefined
if (environment.platform === 'browser') {
ensureWebWorker();
return setupBrowserWorker(script, options.workerOpts, Worker);
} else {
// environment.platform === 'node'
var WorkerThreads = tryRequireWorkerThreads();
if (WorkerThreads) {
return setupWorkerThreadWorker(script, WorkerThreads, options);
} else {
return setupProcessWorker(script, resolveForkOptions(options), require('child_process'));
}
}
}
}
function setupBrowserWorker(script, workerOpts, Worker) {
// validate the options right before creating the worker (not when creating the pool)
validateOptions(workerOpts, workerOptsNames, 'workerOpts');
// create the web worker
var worker = new Worker(script, workerOpts);
worker.isBrowserWorker = true;
// add node.js API to the web worker
worker.on = function (event, callback) {
this.addEventListener(event, function (message) {
callback(message.data);
});
};
worker.send = function (message, transfer) {
this.postMessage(message, transfer);
};
return worker;
}
function setupWorkerThreadWorker(script, WorkerThreads, options) {
// validate the options right before creating the worker thread (not when creating the pool)
validateOptions(options?.workerThreadOpts, workerThreadOptsNames, 'workerThreadOpts');
var worker = new WorkerThreads.Worker(script, {
stdout: options?.emitStdStreams ?? false,
// pipe worker.STDOUT to process.STDOUT if not requested
stderr: options?.emitStdStreams ?? false,
// pipe worker.STDERR to process.STDERR if not requested
...options?.workerThreadOpts
});
worker.isWorkerThread = true;
worker.send = function (message, transfer) {
this.postMessage(message, transfer);
};
worker.kill = function () {
this.terminate();
return true;
};
worker.disconnect = function () {
this.terminate();
};
if (options?.emitStdStreams) {
worker.stdout.on('data', data => worker.emit("stdout", data));
worker.stderr.on('data', data => worker.emit("stderr", data));
}
return worker;
}
function setupProcessWorker(script, options, child_process) {
// validate the options right before creating the child process (not when creating the pool)
validateOptions(options.forkOpts, forkOptsNames, 'forkOpts');
// no WorkerThreads, fallback to sub-process based workers
var worker = child_process.fork(script, options.forkArgs, options.forkOpts);
// ignore transfer argument since it is not supported by process
var send = worker.send;
worker.send = function (message) {
return send.call(worker, message);
};
if (options.emitStdStreams) {
worker.stdout.on('data', data => worker.emit("stdout", data));
worker.stderr.on('data', data => worker.emit("stderr", data));
}
worker.isChildProcess = true;
return worker;
}
// add debug flags to child processes if the node inspector is active
function resolveForkOptions(opts) {
opts = opts || {};
var processExecArgv = process.execArgv.join(' ');
var inspectorActive = processExecArgv.indexOf('--inspect') !== -1;
var debugBrk = processExecArgv.indexOf('--debug-brk') !== -1;
var execArgv = [];
if (inspectorActive) {
execArgv.push('--inspect=' + opts.debugPort);
if (debugBrk) {
execArgv.push('--debug-brk');
}
}
process.execArgv.forEach(function (arg) {
if (arg.indexOf('--max-old-space-size') > -1) {
execArgv.push(arg);
}
});
return Object.assign({}, opts, {
forkArgs: opts.forkArgs,
forkOpts: Object.assign({}, opts.forkOpts, {
execArgv: (opts.forkOpts && opts.forkOpts.execArgv || []).concat(execArgv),
stdio: opts.emitStdStreams ? "pipe" : undefined
})
});
}
/**
* Converts a serialized error to Error
* @param {Object} obj Error that has been serialized and parsed to object
* @return {Error} The equivalent Error.
*/
function objectToError(obj) {
var temp = new Error('');
var props = Object.keys(obj);
for (var i = 0; i < props.length; i++) {
temp[props[i]] = obj[props[i]];
}
return temp;
}
function handleEmittedStdPayload(handler, payload) {
// TODO: refactor if parallel task execution gets added
if (Object.keys(handler.processing).length !== 1) {
return;
}
var task = Object.values(handler.processing)[0];
if (task.options && typeof task.options.on === 'function') {
task.options.on(payload);
}
}
/**
* A WorkerHandler controls a single worker. This worker can be a child process
* on node.js or a WebWorker in a browser environment.
* @param {String} [script] If no script is provided, a default worker with a
* function run will be created.
* @param {import('./types.js').WorkerPoolOptions} [_options] See docs
* @constructor
*/
function WorkerHandler$1(script, _options) {
var me = this;
var options = _options || {};
this.script = script || getDefaultWorker();
this.worker = setupWorker(this.script, options);
this.debugPort = options.debugPort;
this.forkOpts = options.forkOpts;
this.forkArgs = options.forkArgs;
this.workerOpts = options.workerOpts;
this.workerThreadOpts = options.workerThreadOpts;
this.workerTerminateTimeout = options.workerTerminateTimeout;
// The ready message is only sent if the worker.add method is called (And the default script is not used)
if (!script) {
this.worker.ready = true;
}
// queue for requests that are received before the worker is ready
this.requestQueue = [];
this.worker.on("stdout", function (data) {
handleEmittedStdPayload(me, {
"stdout": data.toString()
});
});
this.worker.on("stderr", function (data) {
handleEmittedStdPayload(me, {
"stderr": data.toString()
});
});
this.worker.on('message', function (response) {
if (me.terminated) {
return;
}
if (typeof response === 'string' && response === 'ready') {
me.worker.ready = true;
dispatchQueuedRequests();
} else {
// find the task from the processing queue, and run the tasks callback
var id = response.id;
var task = me.processing[id];
if (task !== undefined) {
if (response.isEvent) {
if (task.options && typeof task.options.on === 'function') {
task.options.on(response.payload);
}
} else {
// remove the task from the queue
delete me.processing[id];
// test if we need to terminate
if (me.terminating === true) {
// complete worker termination if all tasks are finished
me.terminate();
}
// resolve the task's promise
if (response.error) {
task.resolver.reject(objectToError(response.error));
} else {
task.resolver.resolve(response.result);
}
}
}
}
});
// reject all running tasks on worker error
function onError(error) {
me.terminated = true;
for (var id in me.processing) {
if (me.processing[id] !== undefined) {
me.processing[id].resolver.reject(error);
}
}
me.processing = Object.create(null);
}
// send all queued requests to worker
function dispatchQueuedRequests() {
for (const request of me.requestQueue.splice(0)) {
me.worker.send(request.message, request.transfer);
}
}
var worker = this.worker;
// listen for worker messages error and exit
this.worker.on('error', onError);
this.worker.on('exit', function (exitCode, signalCode) {
var message = 'Workerpool Worker terminated Unexpectedly\n';
message += ' exitCode: `' + exitCode + '`\n';
message += ' signalCode: `' + signalCode + '`\n';
message += ' workerpool.script: `' + me.script + '`\n';
message += ' spawnArgs: `' + worker.spawnargs + '`\n';
message += ' spawnfile: `' + worker.spawnfile + '`\n';
message += ' stdout: `' + worker.stdout + '`\n';
message += ' stderr: `' + worker.stderr + '`\n';
onError(new Error(message));
});
this.processing = Object.create(null); // queue with tasks currently in progress
this.terminating = false;
this.terminated = false;
this.cleaning = false;
this.terminationHandler = null;
this.lastId = 0;
}
/**
* Get a list with methods available on the worker.
* @return {Promise.<String[], Error>} methods
*/
WorkerHandler$1.prototype.methods = function () {
return this.exec('methods');
};
/**
* Execute a method with given parameters on the worker
* @param {String} method
* @param {Array} [params]
* @param {{resolve: Function, reject: Function}} [resolver]
* @param {import('./types.js').ExecOptions} [options]
* @return {Promise.<*, Error>} result
*/
WorkerHandler$1.prototype.exec = function (method, params, resolver, options) {
if (!resolver) {
resolver = Promise.defer();
}
// generate a unique id for the task
var id = ++this.lastId;
// register a new task as being in progress
this.processing[id] = {
id: id,
resolver: resolver,
options: options
};
// build a JSON-RPC request
var request = {
message: {
id: id,
method: method,
params: params
},
transfer: options && options.transfer
};
if (this.terminated) {
resolver.reject(new Error('Worker is terminated'));
} else if (this.worker.ready) {
// send the request to the worker
this.worker.send(request.message, request.transfer);
} else {
this.requestQueue.push(request);
}
// on cancellation, force the worker to terminate
var me = this;
return resolver.promise.catch(function (error) {
if (error instanceof Promise.CancellationError || error instanceof Promise.TimeoutError) {
// remove this task from the queue. It is already rejected (hence this
// catch event), and else it will be rejected again when terminating
delete me.processing[id];
// terminate worker
return me.terminateAndNotify(true).then(function () {
throw error;
}, function (err) {
throw err;
});
} else {
throw error;
}
});
};
/**
* Test whether the worker is processing any tasks or cleaning up before termination.
* @return {boolean} Returns true if the worker is busy
*/
WorkerHandler$1.prototype.busy = function () {
return this.cleaning || Object.keys(this.processing).length > 0;
};
/**
* Terminate the worker.
* @param {boolean} [force=false] If false (default), the worker is terminated
* after finishing all tasks currently in
* progress. If true, the worker will be
* terminated immediately.
* @param {function} [callback=null] If provided, will be called when process terminates.
*/
WorkerHandler$1.prototype.terminate = function (force, callback) {
var me = this;
if (force) {
// cancel all tasks in progress
for (var id in this.processing) {
if (this.processing[id] !== undefined) {
this.processing[id].resolver.reject(new Error('Worker terminated'));
}
}
this.processing = Object.create(null);
}
if (typeof callback === 'function') {
this.terminationHandler = callback;
}
if (!this.busy()) {
// all tasks are finished. kill the worker
var cleanup = function (err) {
me.terminated = true;
me.cleaning = false;
if (me.worker != null && me.worker.removeAllListeners) {
// removeAllListeners is only available for child_process
me.worker.removeAllListeners('message');
}
me.worker = null;
me.terminating = false;
if (me.terminationHandler) {
me.terminationHandler(err, me);
} else if (err) {
throw err;
}
};
if (this.worker) {
if (typeof this.worker.kill === 'function') {
if (this.worker.killed) {
cleanup(new Error('worker already killed!'));
return;
}
// child process and worker threads
var cleanExitTimeout = setTimeout(function () {
if (me.worker) {
me.worker.kill();
}
}, this.workerTerminateTimeout);
this.worker.once('exit', function () {
clearTimeout(cleanExitTimeout);
if (me.worker) {
me.worker.killed = true;
}
cleanup();
});
if (this.worker.ready) {
this.worker.send(TERMINATE_METHOD_ID);
} else {
this.requestQueue.push({
message: TERMINATE_METHOD_ID
});
}
// mark that the worker is cleaning up resources
// to prevent new tasks from being executed
this.cleaning = true;
return;
} else if (typeof this.worker.terminate === 'function') {
this.worker.terminate(); // web worker
this.worker.killed = true;
} else {
throw new Error('Failed to terminate worker');
}
}
cleanup();
} else {
// we can't terminate immediately, there are still tasks being executed
this.terminating = true;
}
};
/**
* Terminate the worker, returning a Promise that resolves when the termination has been done.
* @param {boolean} [force=false] If false (default), the worker is terminated
* after finishing all tasks currently in
* progress. If true, the worker will be
* terminated immediately.
* @param {number} [timeout] If provided and non-zero, worker termination promise will be rejected
* after timeout if worker process has not been terminated.
* @return {Promise.<WorkerHandler, Error>}
*/
WorkerHandler$1.prototype.terminateAndNotify = function (force, timeout) {
var resolver = Promise.defer();
if (timeout) {
resolver.promise.timeout(timeout);
}
this.terminate(force, function (err, worker) {
if (err) {
resolver.reject(err);
} else {
resolver.resolve(worker);
}
});
return resolver.promise;
};
WorkerHandler.exports = WorkerHandler$1;
WorkerHandler.exports._tryRequireWorkerThreads = tryRequireWorkerThreads;
WorkerHandler.exports._setupProcessWorker = setupProcessWorker;
WorkerHandler.exports._setupBrowserWorker = setupBrowserWorker;
WorkerHandler.exports._setupWorkerThreadWorker = setupWorkerThreadWorker;
WorkerHandler.exports.ensureWorkerThreads = ensureWorkerThreads;
return WorkerHandler.exports;
}
var debugPortAllocator;
var hasRequiredDebugPortAllocator;
function requireDebugPortAllocator() {
if (hasRequiredDebugPortAllocator) return debugPortAllocator;
hasRequiredDebugPortAllocator = 1;
var MAX_PORTS = 65535;
debugPortAllocator = DebugPortAllocator;
function DebugPortAllocator() {
this.ports = Object.create(null);
this.length = 0;
}
DebugPortAllocator.prototype.nextAvailableStartingAt = function (starting) {
while (this.ports[starting] === true) {
starting++;
}
if (starting >= MAX_PORTS) {
throw new Error('WorkerPool debug port limit reached: ' + starting + '>= ' + MAX_PORTS);
}
this.ports[starting] = true;
this.length++;
return starting;
};
DebugPortAllocator.prototype.releasePort = function (port) {
delete this.ports[port];
this.length--;
};
return debugPortAllocator;
}
var Pool_1;
var hasRequiredPool;
function requirePool() {
if (hasRequiredPool) return Pool_1;
hasRequiredPool = 1;
var {
Promise
} = require_Promise();
var WorkerHandler = requireWorkerHandler();
var environment = environmentExports;
var DebugPortAllocator = requireDebugPortAllocator();
var DEBUG_PORT_ALLOCATOR = new DebugPortAllocator();
/**
* A pool to manage workers, which can be created using the function workerpool.pool.
*
* @param {String} [script] Optional worker script
* @param {import('./types.js').WorkerPoolOptions} [options] See docs
* @constructor
*/
function Pool(script, options) {
if (typeof script === 'string') {
/** @readonly */
this.script = script || null;
} else {
this.script = null;
options = script;
}
/** @private */
this.workers = []; // queue with all workers
/** @private */
this.tasks = []; // queue with tasks awaiting execution
options = options || {};
/** @readonly */
this.forkArgs = Object.freeze(options.forkArgs || []);
/** @readonly */
this.forkOpts = Object.freeze(options.forkOpts || {});
/** @readonly */
this.workerOpts = Object.freeze(options.workerOpts || {});
/** @readonly */
this.workerThreadOpts = Object.freeze(options.workerThreadOpts || {});
/** @private */
this.debugPortStart = options.debugPortStart || 43210;
/** @readonly @deprecated */
this.nodeWorker = options.nodeWorker;
/** @readonly
* @type {'auto' | 'web' | 'process' | 'thread'}
*/
this.workerType = options.workerType || options.nodeWorker || 'auto';
/** @readonly */
this.maxQueueSize = options.maxQueueSize || Infinity;
/** @readonly */
this.workerTerminateTimeout = options.workerTerminateTimeout || 1000;
/** @readonly */
this.onCreateWorker = options.onCreateWorker || (() => null);
/** @readonly */
this.onTerminateWorker = options.onTerminateWorker || (() => null);
/** @readonly */
this.emitStdStreams = options.emitStdStreams || false;
// configuration
if (options && 'maxWorkers' in options) {
validateMaxWorkers(options.maxWorkers);
/** @readonly */
this.maxWorkers = options.maxWorkers;
} else {
this.maxWorkers = Math.max((environment.cpus || 4) - 1, 1);
}
if (options && 'minWorkers' in options) {
if (options.minWorkers === 'max') {
/** @readonly */
this.minWorkers = this.maxWorkers;
} else {
validateMinWorkers(options.minWorkers);
this.minWorkers = options.minWorkers;
this.maxWorkers = Math.max(this.minWorkers, this.maxWorkers); // in case minWorkers is higher than maxWorkers
}
this._ensureMinWorkers();
}
/** @private */
this._boundNext = this._next.bind(this);
if (this.workerType === 'thread') {
WorkerHandler.ensureWorkerThreads();
}
}
/**
* Execute a function on a worker.
*
* Example usage:
*
* var pool = new Pool()
*
* // call a function available on the worker
* pool.exec('fibonacci', [6])
*
* // offload a function
* function add(a, b) {
* return a + b
* };
* pool.exec(add, [2, 4])
* .then(function (result) {
* console.log(result); // outputs 6
* })
* .catch(function(error) {
* console.log(error);
* });
* @template { (...args: any[]) => any } T
* @param {String | T} method Function name or function.
* If `method` is a string, the corresponding
* method on the worker will be executed
* If `method` is a Function, the function
* will be stringified and executed via the
* workers built-in function `run(fn, args)`.
* @param {Parameters<T> | null} [params] Function arguments applied when calling the function
* @param {import('./types.js').ExecOptions} [options] Options
* @return {Promise<ReturnType<T>>}
*/
Pool.prototype.exec = function (method, params, options) {
// validate type of arguments
if (params && !Array.isArray(params)) {
throw new TypeError('Array expected as argument "params"');
}
if (typeof method === 'string') {
var resolver = Promise.defer();
if (this.tasks.length >= this.maxQueueSize) {
throw new Error('Max queue size of ' + this.maxQueueSize + ' reached');
}
// add a new task to the queue
var tasks = this.tasks;
var task = {
method: method,
params: params,
resolver: resolver,
timeout: null,
options: options
};
tasks.push(task);
// replace the timeout method of the Promise with our own,
// which starts the timer as soon as the task is actually started
var originalTimeout = resolver.promise.timeout;
resolver.promise.timeout = function timeout(delay) {
if (tasks.indexOf(task) !== -1) {
// task is still queued -> start the timer later on
task.timeout = delay;
return resolver.promise;
} else {
// task is already being executed -> start timer immediately
return originalTimeout.call(resolver.promise, delay);
}
};
// trigger task execution
this._next();
return resolver.promise;
} else if (typeof method === 'function') {
// send stringified function and function arguments to worker
return this.exec('run', [String(method), params], options);
} else {
throw new TypeError('Function or string expected as argument "method"');
}
};
/**
* Create a proxy for current worker. Returns an object containing all
* methods available on the worker. All methods return promises resolving the methods result.
* @template { { [k: string]: (...args: any[]) => any } } T
* @return {Promise<import('./types.js').Proxy<T>, Error>} Returns a promise which resolves with a proxy object
*/
Pool.prototype.proxy = function () {
if (arguments.length > 0) {
throw new Error('No arguments expected');
}
var pool = this;
return this.exec('methods').then(function (methods) {
var proxy = {};
methods.forEach(function (method) {
proxy[method] = function () {
return pool.exec(method, Array.prototype.slice.call(arguments));
};
});
return proxy;
});
};
/**
* Creates new array with the results of calling a provided callback function
* on every element in this array.
* @param {Array} array
* @param {function} callback Function taking two arguments:
* `callback(currentValue, index)`
* @return {Promise.<Array>} Returns a promise which resolves with an Array
* containing the results of the callback function
* executed for each of the array elements.
*/
/* TODO: implement map
Pool.prototype.map = function (array, callback) {
};
*/
/**
* Grab the first task from the queue, find a free worker, and assign the
* worker to the task.
* @private
*/
Pool.prototype._next = function () {
if (this.tasks.length > 0) {
// there are tasks in the queue
// find an available worker
var worker = this._getWorker();
if (worker) {
// get the first task from the queue
var me = this;
var task = this.tasks.shift();
// check if the task is still pending (and not cancelled -> promise rejected)
if (task.resolver.promise.pending) {
// send the request to the worker
var promise = worker.exec(task.method, task.params, task.resolver, task.options).then(me._boundNext).catch(function () {
// if the worker crashed and terminated, remove it from the pool
if (worker.terminated) {
return me._removeWorker(worker);
}
}).then(function () {
me._next(); // trigger next task in the queue
});
// start queued timer now
if (typeof task.timeout === 'number') {
promise.timeout(task.timeout);
}
} else {
// The task taken was already complete (either rejected or resolved), so just trigger next task in the queue
me._next();
}
}
}
};
/**
* Get an available worker. If no worker is available and the maximum number
* of workers isn't yet reached, a new worker will be created and returned.
* If no worker is available and the maximum number of workers is reached,
* null will be returned.
*
* @return {WorkerHandler | null} worker
* @private
*/
Pool.prototype._getWorker = function () {
// find a non-busy worker
var workers = this.workers;
for (var i = 0; i < workers.length; i++) {
var worker = workers[i];
if (worker.busy() === false) {
return worker;
}
}
if (workers.length < this.maxWorkers) {
// create a new worker
worker = this._createWorkerHandler();
workers.push(worker);
return worker;
}
return null;
};
/**
* Remove a worker from the pool.
* Attempts to terminate worker if not already terminated, and ensures the minimum
* pool size is met.
* @param {WorkerHandler} worker
* @return {Promise<WorkerHandler>}
* @private
*/
Pool.prototype._removeWorker = function (worker) {
var me = this;
DEBUG_PORT_ALLOCATOR.releasePort(worker.debugPort);
// _removeWorker will call this, but we need it to be removed synchronously
this._removeWorkerFromList(worker);
// If minWorkers set, spin up new workers to replace the crashed ones
this._ensureMinWorkers();
// terminate the worker (if not already terminated)
return new Promise(function (resolve, reject) {
worker.terminate(false, function (err) {
me.onTerminateWorker({
forkArgs: worker.forkArgs,
forkOpts: worker.forkOpts,
workerThreadOpts: worker.workerThreadOpts,
script: worker.script
});
if (err) {
reject(err);
} else {
resolve(worker);
}
});
});
};
/**
* Remove a worker from the pool list.
* @param {WorkerHandler} worker
* @private
*/
Pool.prototype._removeWorkerFromList = function (worker) {
// remove from the list with workers
var index = this.workers.indexOf(worker);
if (index !== -1) {
this.workers.splice(index, 1);
}
};
/**
* Close all active workers. Tasks currently being executed will be finished first.
* @param {boolean} [force=false] If false (default), the workers are terminated
* after finishing all tasks currently in
* progress. If true, the workers will be
* terminated immediately.
* @param {number} [timeout] If provided and non-zero, worker termination promise will be rejected
* after timeout if worker process has not been terminated.
* @return {Promise.<void, Error>}
*/
Pool.prototype.terminate = function (force, timeout) {
var me = this;
// cancel any pending tasks
this.tasks.forEach(function (task) {
task.resolver.reject(new Error('Pool terminated'));
});
this.tasks.length = 0;
var f = function (worker) {
DEBUG_PORT_ALLOCATOR.releasePort(worker.debugPort);
this._removeWorkerFromList(worker);
};
var removeWorker = f.bind(this);
var promises = [];
var workers = this.workers.slice();
workers.forEach(function (worker) {
var termPromise = worker.terminateAndNotify(force, timeout).then(removeWorker).always(function () {
me.onTerminateWorker({
forkArgs: worker.forkArgs,
forkOpts: worker.forkOpts,
workerThreadOpts: worker.workerThreadOpts,
script: worker.script
});
});
promises.push(termPromise);
});
return Promise.all(promises);
};
/**
* Retrieve statistics on tasks and workers.
* @return {{totalWorkers: number, busyWorkers: number, idleWorkers: number, pendingTasks: number, activeTasks: number}} Returns an object with statistics
*/
Pool.prototype.stats = function () {
var totalWorkers = this.workers.length;
var busyWorkers = this.workers.filter(function (worker) {
return worker.busy();
}).length;
return {
totalWorkers: totalWorkers,
busyWorkers: busyWorkers,
idleWorkers: totalWorkers - busyWorkers,
pendingTasks: this.tasks.length,
activeTasks: busyWorkers
};
};
/**
* Ensures that a minimum of minWorkers is up and running
* @private
*/
Pool.prototype._ensureMinWorkers = function () {
if (this.minWorkers) {
for (var i = this.workers.length; i < this.minWorkers; i++) {
this.workers.push(this._createWorkerHandler());
}
}
};
/**
* Helper function to create a new WorkerHandler and pass all options.
* @return {WorkerHandler}
* @private
*/
Pool.prototype._createWorkerHandler = function () {
const overriddenParams = this.onCreateWorker({
forkArgs: this.forkArgs,
forkOpts: this.forkOpts,
workerOpts: this.workerOpts,
workerThreadOpts: this.workerThreadOpts,
script: this.script
}) || {};
return new WorkerHandler(overriddenParams.script || this.script, {
forkArgs: overriddenParams.forkArgs || this.forkArgs,
forkOpts: overriddenParams.forkOpts || this.forkOpts,
workerOpts: overriddenParams.workerOpts || this.workerOpts,
workerThreadOpts: overriddenParams.workerThreadOpts || this.workerThreadOpts,
debugPort: DEBUG_PORT_ALLOCATOR.nextAvailableStartingAt(this.debugPortStart),
workerType: this.workerType,
workerTerminateTimeout: this.workerTerminateTimeout,
emitStdStreams: this.emitStdStreams
});
};
/**
* Ensure that the maxWorkers option is an integer >= 1
* @param {*} maxWorkers
* @returns {boolean} returns true maxWorkers has a valid value
*/
function validateMaxWorkers(maxWorkers) {
if (!isNumber(maxWorkers) || !isInteger(maxWorkers) || maxWorkers < 1) {
throw new TypeError('Option maxWorkers must be an integer number >= 1');
}
}
/**
* Ensure that the minWorkers option is an integer >= 0
* @param {*} minWorkers
* @returns {boolean} returns true when minWorkers has a valid value
*/
function validateMinWorkers(minWorkers) {
if (!isNumber(minWorkers) || !isInteger(minWorkers) || minWorkers < 0) {
throw new TypeError('Option minWorkers must be an integer number >= 0');
}
}
/**
* Test whether a variable is a number
* @param {*} value
* @returns {boolean} returns true when value is a number
*/
function isNumber(value) {
return typeof value === 'number';
}
/**
* Test whether a number is an integer
* @param {number} value
* @returns {boolean} Returns true if value is an integer
*/
function isInteger(value) {
return Math.round(value) == value;
}
Pool_1 = Pool;
return Pool_1;
}
var worker$1 = {};
/**
* The helper class for transferring data from the worker to the main thread.
*
* @param {Object} message The object to deliver to the main thread.
* @param {Object[]} transfer An array of transferable Objects to transfer ownership of.
*/
var transfer;
var hasRequiredTransfer;
function requireTransfer() {
if (hasRequiredTransfer) return transfer;
hasRequiredTransfer = 1;
function Transfer(message, transfer) {
this.message = message;
this.transfer = transfer;
}
transfer = Transfer;
return transfer;
}
/**
* worker must be started as a child process or a web worker.
* It listens for RPC messages from the parent process.
*/
var hasRequiredWorker;
function requireWorker() {
if (hasRequiredWorker) return worker$1;
hasRequiredWorker = 1;
(function (exports) {
var Transfer = requireTransfer();
/**
* Special message sent by parent which causes the worker to terminate itself.
* Not a "message object"; this string is the entire message.
*/
var TERMINATE_METHOD_ID = '__workerpool-terminate__';
// var nodeOSPlatform = require('./environment').nodeOSPlatform;
// create a worker API for sending and receiving messages which works both on
// node.js and in the browser
var worker = {
exit: function () {}
};
if (typeof self !== 'undefined' && typeof postMessage === 'function' && typeof addEventListener === 'function') {
// worker in the browser
worker.on = function (event, callback) {
addEventListener(event, function (message) {
callback(message.data);
});
};
worker.send = function (message) {
postMessage(message);
};
} else if (typeof process !== 'undefined') {
// node.js
var WorkerThreads;
try {
WorkerThreads = require('worker_threads');
} catch (error) {
if (typeof error === 'object' && error !== null && error.code === 'MODULE_NOT_FOUND') ; else {
throw error;
}
}
if (WorkerThreads && /* if there is a parentPort, we are in a WorkerThread */
WorkerThreads.parentPort !== null) {
var parentPort = WorkerThreads.parentPort;
worker.send = parentPort.postMessage.bind(parentPort);
worker.on = parentPort.on.bind(parentPort);
worker.exit = process.exit.bind(process);
} else {
worker.on = process.on.bind(process);
// ignore transfer argument since it is not supported by process
worker.send = function (message) {
process.send(message);
};
// register disconnect handler only for subprocess worker to exit when parent is killed unexpectedly
worker.on('disconnect', function () {
process.exit(1);
});
worker.exit = process.exit.bind(process);
}
} else {
throw new Error('Script must be executed as a worker');
}
function convertError(error) {
return Object.getOwnPropertyNames(error).reduce(function (product, name) {
return Object.defineProperty(product, name, {
value: error[name],
enumerable: true
});
}, {});
}
/**
* Test whether a value is a Promise via duck typing.
* @param {*} value
* @returns {boolean} Returns true when given value is an object
* having functions `then` and `catch`.
*/
function isPromise(value) {
return value && typeof value.then === 'function' && typeof value.catch === 'function';
}
// functions available externally
worker.methods = {};
/**
* Execute a function with provided arguments
* @param {String} fn Stringified function
* @param {Array} [args] Function arguments
* @returns {*}
*/
worker.methods.run = function run(fn, args) {
var f = new Function('return (' + fn + ').apply(null, arguments);');
return f.apply(f, args);
};
/**
* Get a list with methods available on this worker
* @return {String[]} methods
*/
worker.methods.methods = function methods() {
return Object.keys(worker.methods);
};
/**
* Custom handler for when the worker is terminated.
*/
worker.terminationHandler = undefined;
/**
* Cleanup and exit the worker.
* @param {Number} code
* @returns
*/
worker.cleanupAndExit = function (code) {
var _exit = function () {
worker.exit(code);
};
if (!worker.terminationHandler) {
return _exit();
}
var result = worker.terminationHandler(code);
if (isPromise(result)) {
result.then(_exit, _exit);
} else {
_exit();
}
};
var currentRequestId = null;
worker.on('message', function (request) {
if (request === TERMINATE_METHOD_ID) {
return worker.cleanupAndExit(0);
}
try {
var method = worker.methods[request.method];
if (method) {
currentRequestId = request.id;
// execute the function
var result = method.apply(method, request.params);
if (isPromise(result)) {
// promise returned, resolve this and then return
result.then(function (result) {
if (result instanceof Transfer) {
worker.send({
id: request.id,
result: result.message,
error: null
}, result.transfer);
} else {
worker.send({
id: request.id,
result: result,
error: null
});
}
currentRequestId = null;
}).catch(function (err) {
worker.send({
id: request.id,
result: null,
error: convertError(err)
});
currentRequestId = null;
});
} else {
// immediate result
if (result instanceof Transfer) {
worker.send({
id: request.id,
result: result.message,
error: null
}, result.transfer);
} else {
worker.send({
id: request.id,
result: result,
error: null
});
}
currentRequestId = null;
}
} else {
throw new Error('Unknown method "' + request.method + '"');
}
} catch (err) {
worker.send({
id: request.id,
result: null,
error: convertError(err)
});
}
});
/**
* Register methods to the worker
* @param {Object} [methods]
* @param {import('./types.js').WorkerRegisterOptions} [options]
*/
worker.register = function (methods, options) {
if (methods) {
for (var name in methods) {
if (methods.hasOwnProperty(name)) {
worker.methods[name] = methods[name];
}
}
}
if (options) {
worker.terminationHandler = options.onTerminate;
}
worker.send('ready');
};
worker.emit = function (payload) {
if (currentRequestId) {
if (payload instanceof Transfer) {
worker.send({
id: currentRequestId,
isEvent: true,
payload: payload.message
}, payload.transfer);
return;
}
worker.send({
id: currentRequestId,
isEvent: true,
payload
});
}
};
{
exports.add = worker.register;
exports.emit = worker.emit;
}
})(worker$1);
return worker$1;
}
const {
platform,
isMainThread,
cpus
} = environmentExports;
/** @typedef {import("./Pool")} Pool */
/** @typedef {import("./types.js").WorkerPoolOptions} WorkerPoolOptions */
/** @typedef {import("./types.js").WorkerRegisterOptions} WorkerRegisterOptions */
/**
* @template { { [k: string]: (...args: any[]) => any } } T
* @typedef {import('./types.js').Proxy<T>} Proxy<T>
*/
/**
* @overload
* Create a new worker pool
* @param {WorkerPoolOptions} [script]
* @returns {Pool} pool
*/
/**
* @overload
* Create a new worker pool
* @param {string} [script]
* @param {WorkerPoolOptions} [options]
* @returns {Pool} pool
*/
function pool(script, options) {
var Pool = requirePool();
return new Pool(script, options);
}
var pool_1 = src.pool = pool;
/**
* Create a worker and optionally register a set of methods to the worker.
* @param {{ [k: string]: (...args: any[]) => any }} [methods]
* @param {WorkerRegisterOptions} [options]
*/
function worker(methods, options) {
var worker = requireWorker();
worker.add(methods, options);
}
var worker_1 = src.worker = worker;
/**
* Sends an event to the parent worker pool.
* @param {any} payload
*/
function workerEmit(payload) {
var worker = requireWorker();
worker.emit(payload);
}
var workerEmit_1 = src.workerEmit = workerEmit;
const {
Promise: Promise$1
} = require_Promise();
var _Promise = src.Promise = Promise$1;
var Transfer = src.Transfer = requireTransfer();
var platform_1 = src.platform = platform;
var isMainThread_1 = src.isMainThread = isMainThread;
var cpus_1 = src.cpus = cpus;
exports.Promise = _Promise;
exports.Transfer = Transfer;
exports.cpus = cpus_1;
exports.default = src;
exports.isMainThread = isMainThread_1;
exports.platform = platform_1;
exports.pool = pool_1;
exports.worker = worker_1;
exports.workerEmit = workerEmit_1;
Object.defineProperty(exports, '__esModule', { value: true });
}));
//# sourceMappingURL=workerpool.js.map