/p-queue

Promise queue with concurrency control

Primary LanguageJavaScriptMIT LicenseMIT

p-queue Build Status

Promise queue with concurrency control

Useful for rate-limiting async operations. For example, when interacting with a REST API or when doing CPU/memory intensive tasks.

Install

$ npm install --save p-queue

Usage

Here we run only one promise at the time. For example, set concurrency to 4 to run four promises at the time.

const PQueue = require('p-queue');
const got = require('got');

const queue = new PQueue({concurrency: 1});

queue.add(() => got('sindresorhus.com')).then(() => {
	console.log('Done: sindresorhus.com');
});

queue.add(() => got('ava.li')).then(() => {
	console.log('Done: ava.li');
});

getUnicornTask().then(task => queue.add(task)).then(() => {
	console.log('Done: Unicorn task');
});

API

PQueue([options])

Returns a new queue instance.

options

Type: Object

concurrency

Type: number
Default: Infinity
Minimum: 1

Concurrency limit.

queueClass

Type: Function

Class with a enqueue and dequeue method, and a size getter. See the Custom QueueClass section.

queue

PQueue instance.

.add(fn, [options])

Returns the promise returned by calling fn.

fn

Type: Function

Promise-returning/async function.

options

Type: Object

priority

Type: number
Default: 0

Priority of operation. Operations with greater priority will be scheduled first.

.onEmpty()

Returns a promise that settles when the queue becomes empty.

Can be called multiple times. Useful if you for example add additional items at a later time.

.size

Size of the queue.

.pending

Number of pending promises.

Advanced example

A more advanced example to help you understand the flow.

const delay = require('delay');
const PQueue = require('p-queue');

const queue = new PQueue({concurrency: 1});

delay(200).then(() => {
	console.log(`8. Pending promises: ${queue.pending}`);
	//=> '8. Pending promises: 0'

	queue.add(() => Promise.resolve('πŸ™')).then(console.log.bind(null, '11. Resolved'));

	console.log('9. Added πŸ™');

	console.log(`10. Pending promises: ${queue.pending}`);
	//=> '10. Pending promises: 1'

	queue.onEmpty().then(() => {
		console.log('12. Queue is empty again');
	});
});

queue.add(() => Promise.resolve('πŸ¦„')).then(console.log.bind(null, '5. Resolved'));
console.log('1. Added πŸ¦„');

queue.add(() => Promise.resolve('🐴')).then(console.log.bind(null, '6. Resolved'));
console.log('2. Added 🐴');

queue.onEmpty().then(() => {
	console.log('7. Queue is empty');
});

console.log(`3. Queue size: ${queue.size}`);
//=> '3. Queue size: 1`
console.log(`4. Pending promises: ${queue.pending}`);
//=> '4. Pending promises: 1'
$ node example.js
1. Added πŸ¦„
2. Added 🐴
3. Queue size: 1
4. Pending promises: 1
5. Resolved πŸ¦„
6. Resolved 🐴
7. Queue is empty
8. Pending promises: 0
9. Added πŸ™
10. Pending promises: 1
11. Resolved πŸ™
12. Queue is empty again

Custom QueueClass

For implementing more complex scheduling policies, you can provide a QueueClass in the options:

class QueueClass {
	constructor() {
		this._queue = [];
	}
	enqueue(run, options) {
		this._queue.push(run);
	}
	dequeue() {
		return this._queue.shift();
	}
	get size() {
		return this._queue.length;
	}
}

p-queue will call corresponding methods to put and get operations from this queue.

Related

  • p-limit - Run multiple promise-returning & async functions with limited concurrency
  • p-throttle - Throttle promise-returning & async functions
  • p-debounce - Debounce promise-returning & async functions
  • p-all - Run promise-returning & async functions concurrently with optional limited concurrency
  • More…

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License

MIT Β© Sindre Sorhus