260

As far as I understand, in ES7/ES2016 putting multiple await's in code will work similar to chaining .then() with promises, meaning that they will execute one after the other rather than in parallerl. So, for example, we have this code:

await someCall();
await anotherCall();

Do I understand it correctly that anotherCall() will be called only when someCall() is completed? What is the most elegant way of calling them in parallel?

I want to use it in Node, so maybe there's a solution with async library?

EDIT: I'm not satisfied with the solution provided in this question: Slowdown due to non-parallel awaiting of promises in async generators, because it uses generators and I'm asking about a more general use case.

  • 1
    @adeneo That is incorrect, Javascript never runs in parallel within its own context. – Blindman67 Feb 24 '16 at 20:42
  • 5
    @Blindman67 - it does, at least the way the OP means, where two async operations are running simultaneously, but not in this case, what I meant to write was that they run in serial, the first await would wait for the first function to complete entirely before executing the second. – adeneo Feb 24 '16 at 20:46
  • 3
    @Blindman67 - it's single threaded, but that limitation doesn't apply to async methods, they can run simultaneously, and return the response when they are done, i.e. what the OP means by "parallell". – adeneo Feb 24 '16 at 20:56
  • 4
    @Blindman67 - I think it's pretty clear what the OP is asking, using the async/await pattern will make the functions run in serial, even if they are async, so the first would completely finish before the second is called etc. The OP is asking how to call both function in parallell, and as they are clearly async, the aim is to run them simultaneously, i.e. in parallell, for instance doing two ajax requests simultaneously, which is not a problem at all in javascript, as most async methods, as you've noted, runs native code, and uses more threads. – adeneo Feb 24 '16 at 21:27
  • 3
    @Bergi this is not a duplicate of the linked question — this is specifically about async/await syntax and native Promises. The linked question is regarding the bluebird library with generators & yield. Conceptually similar perhaps, but not in implementation. – Iest May 10 '17 at 15:19
432

You can await on Promise.all():

await Promise.all([someCall(), anotherCall()]);
  • 46
    Clean but be aware the fast-fail behaviour of Promise.all. If any of the functions throws an error, Promise.all will reject – NoNameProvided Feb 8 '17 at 12:26
  • 8
    You can handle partial results nicely with async/await, see stackoverflow.com/a/42158854/2019689 – NoNameProvided Mar 27 '17 at 12:42
  • 106
    Pro tip: use array destructuring in order to initialise an arbitrary number of results from Promise.all(), like: [result1, result2] = Promise.all([async1(), async2()]); – jonny Feb 10 '18 at 13:19
  • 6
    @jonny Is this subject to fail-fast? Also, does one still need to = await Promise.all? – theUtherSide Jul 12 '18 at 4:51
  • 3
    @theUtherSide You're absolutely right - I neglected to include the await. – jonny Jul 12 '18 at 9:57
83

TL;DR

Use Promise.all for the parallel function calls, the answer behaviors not correctly when the error occurs.


First, execute all the asynchronous calls at once and obtain all the Promise objects. Second, use await on the Promise objects. This way, while you wait for the first Promise to resolve the other asynchronous calls are still progressing. Overall, you will only wait for as long as the slowest asynchronous call. For example:

// Begin first call and store promise without waiting
const someResult = someCall();

// Begin second call and store promise without waiting
const anotherResult = anotherCall();

// Now we await for both results, whose async processes have already been started
const finalResult = [await someResult, await anotherResult];

// At this point all calls have been resolved
// Now when accessing someResult| anotherResult,
// you will have a value instead of a promise

JSbin example: http://jsbin.com/xerifanima/edit?js,console

Caveat: It doesn't matter if the await calls are on the same line or on different lines, so long as the first await call happens after all of the asynchronous calls. See JohnnyHK's comment.


Update: this answer has a different timing in error handling according to the @bergi's answer, it does NOT throw out the error as the error occurs but after all the promises are executed. I compare the result with @jonny's tip: [result1, result2] = Promise.all([async1(), async2()]), check the following code snippet

const correctAsync500ms = () => {
  return new Promise(resolve => {
    setTimeout(resolve, 500, 'correct500msResult');
  });
};

const correctAsync100ms = () => {
  return new Promise(resolve => {
    setTimeout(resolve, 100, 'correct100msResult');
  });
};

const rejectAsync100ms = () => {
  return new Promise((resolve, reject) => {
    setTimeout(reject, 100, 'reject100msError');
  });
};

const asyncInArray = async (fun1, fun2) => {
  const label = 'test async functions in array';
  try {
    console.time(label);
    const p1 = fun1();
    const p2 = fun2();
    const result = [await p1, await p2];
    console.timeEnd(label);
  } catch (e) {
    console.error('error is', e);
    console.timeEnd(label);
  }
};

const asyncInPromiseAll = async (fun1, fun2) => {
  const label = 'test async functions with Promise.all';
  try {
    console.time(label);
    let [value1, value2] = await Promise.all([fun1(), fun2()]);
    console.timeEnd(label);
  } catch (e) {
    console.error('error is', e);
    console.timeEnd(label);
  }
};

(async () => {
  console.group('async functions without error');
  console.log('async functions without error: start')
  await asyncInArray(correctAsync500ms, correctAsync100ms);
  await asyncInPromiseAll(correctAsync500ms, correctAsync100ms);
  console.groupEnd();

  console.group('async functions with error');
  console.log('async functions with error: start')
  await asyncInArray(correctAsync500ms, rejectAsync100ms);
  await asyncInPromiseAll(correctAsync500ms, rejectAsync100ms);
  console.groupEnd();
})();

  • 11
    This looks like a much nicer option to me than Promise.all — and with destructuring assignment you can even do [someResult, anotherResult] = [await someResult, await anotherResult] if you change const to let. – jawj Aug 25 '17 at 13:26
  • 24
    But this still executes the await statements serially, right? That is, execution pauses until the first await resolves, then moves onto the second. Promise.all executes in parallel. – Andru Aug 26 '17 at 11:56
  • 8
    Thank you @Haven. This should be the accepted answer. – Stefan D Aug 29 '17 at 3:04
  • 84
    This answer is misleading as the fact that both awaits are done in the same line is irrelevant. What matters is that the two async calls are made before either is awaited. – JohnnyHK Oct 16 '17 at 3:09
  • 12
    @Haven this solution is not the same as Promise.all. If each request is a network call, await someResult will need to be resolved before await anotherResult is even started. Conversely, in Promise.all the two await calls can be started before either one is resolved. – Ben Winding Feb 7 '18 at 4:59
66

Update:

The original answer makes it difficult (and in some cases impossible) to correctly handle promise rejections. The correct solution is to use Promise.all:

const [someResult, anotherResult] = await Promise.all([someCall(), anotherCall()]);

Original answer:

Just make sure you call both functions before you await either one:

// Call both functions
const somePromise = someCall();
const anotherPromise = anotherCall();

// Await both promises    
const someResult = await somePromise;
const anotherResult = await anotherPromise;
  • I would add a comments to the code because there's nothing saying that the next dev is going to understand what you're doing OOB. – Jeff Fischer Jan 7 '18 at 17:44
  • 1
    @JeffFischer I added comments which hopefully make it clearer. – Jonathan Potter Jan 7 '18 at 18:49
  • 8
    I feel like this is certainly the most pure answer – Gershom Maes Apr 18 '18 at 15:44
  • 1
    This answer is much more clear than Haven's. It's clear that the function calls will return promise objects, and await will then resolve them into actual values. – user1032613 Sep 5 '18 at 0:46
  • 1
    This appears to work at a cursory glance, but has horrible problems with unhandled rejections. Do not use this! – Bergi Jan 20 at 19:51
6

I've created a gist testing some different ways of resolving promises, with results. It may be helpful to see the options that work.

6

There is another way without Promise.all() to do it in parallel:

First, we have 2 functions to print numbers:

function printNumber1() {
   return new Promise((resolve,reject) => {
      setTimeout(() => {
      console.log("Number1 is done");
      resolve(10);
      },1000);
   });
}

function printNumber2() {
   return new Promise((resolve,reject) => {
      setTimeout(() => {
      console.log("Number2 is done");
      resolve(20);
      },500);
   });
}

This is sequential:

async function oneByOne() {
   const number1 = await printNumber1();
   const number2 = await printNumber2();
} 
//Output: Number1 is done, Number2 is done

This is parallel:

async function inParallel() {
   const promise1 = printNumber1();
   const promise2 = printNumber2();
   const number1 = await promise1;
   const number2 = await promise2;
}
//Output: Number2 is done, Number1 is done
3

The intuitive solution

function wait(ms, data) {
  return new Promise( resolve => setTimeout(resolve, ms, data) );
}

(async function parallel() {

  // step 1 - initiate all promises
  let task1 = wait(2000, 'parallelTask1').catch(e=>e);
  let task2 = wait(500, 'parallelTask2').catch(e=>e);

  // step 2 - await all promises
  task1 = await task1
  task2 = await task2

  // step 3 - all results are 100% ready
  console.log(task1, task2)

})()

With ES6 you can even do this in step 2

[task1, task2] = [await task1, await task2]


PS: You can also await inside calculations

let five = getAsyncFive()
let ten = getAsyncTen()

let result = await five * await ten


"exception handling"

The .catch(e => e) catches the error and passes it down the chain, allowing the promise to resolve, instead of rejecting.

const wait = (ms, data) => new Promise( resolve => setTimeout(resolve, ms, data) )
const reject = (ms, data) => new Promise( (r, reject) => setTimeout(reject, ms, data) )
const e = e => 'err:' + e
const l = l => (console.log(l), l)

;(async function parallel() {

  let task1 = reject(500, 'parallelTask1').catch(e).then(l)
  let task2 = wait(2000, 'parallelTask2').catch(e).then(l)
  let task3 = reject(1000, 'parallelTask3').catch(e).then(l)
  
  console.log('WAITING')

  task1 = await task1
  task2 = await task2
  task3 = await task3

  console.log('FINISHED', task1, task2, task3)

})()

-5

I vote for:

await Promise.all([someCall(), anotherCall()]);

Be aware of the moment you call functions, it may cause unexpected result:

// Supposing anotherCall() will trigger a request to create a new User

if (callFirst) {
  await someCall();
} else {
  await Promise.all([someCall(), anotherCall()]); // --> create new User here
}

But following always triggers request to create new User

// Supposing anotherCall() will trigger a request to create a new User

const someResult = someCall();
const anotherResult = anotherCall(); // ->> This always creates new User

if (callFirst) {
  await someCall();
} else {
  const finalResult = [await someResult, await anotherResult]
}
  • Since you declare the function outside/before the condition test, and called them. Try wrapping them in else block. – Haven Sep 29 '17 at 13:21
  • @Haven: I mean when you separate the moments you call functions vs await can lead to unexpected results, for example: async HTTP requests. – Hoang Le Anh Tu Dec 3 '17 at 3:41
-7

I create a helper function waitAll, may be it can make it sweeter. It only works in nodejs for now, not in browser chrome.

    //const parallel = async (...items) => {
    const waitAll = async (...items) => {
        //this function does start execution the functions
        //the execution has been started before running this code here
        //instead it collects of the result of execution of the functions

        const temp = [];
        for (const item of items) {
            //this is not
            //temp.push(await item())
            //it does wait for the result in series (not in parallel), but
            //it doesn't affect the parallel execution of those functions
            //because they haven started earlier
            temp.push(await item);
        }
        return temp;
    };

    //the async functions are executed in parallel before passed
    //in the waitAll function

    //const finalResult = await waitAll(someResult(), anotherResult());
    //const finalResult = await parallel(someResult(), anotherResult());
    //or
    const [result1, result2] = await waitAll(someResult(), anotherResult());
    //const [result1, result2] = await parallel(someResult(), anotherResult());

  • 2
    Nope, parallelization isn't happening at all here. The for loop sequentially awaits each promise and adds the result to the array. – Szczepan Hołyszewski Jul 24 '18 at 9:07
  • I understand this seems not working for people. So I tested in node.js and browser. The test is passed in node.js (v10, v11), firefox, it it does not work in browser chrome. The test case is in gist.github.com/fredyang/ea736a7b8293edf7a1a25c39c7d2fbbf – Fred Yang Feb 15 at 18:48
  • 1
    I refuse to believe this. There is nothing in the standard that says different iterations of a for loop can be automagically parallelized; this is not how javascript works. The way the loop code is written, it means this: "await one item (the await expr), THEN push result to temp, THEN take next item (next iteration of the for loop). The "awaiting" for each item is completely confined to a single iteration of the loop. If tests show that there is parallelization, it must be because the transpiler is doing something nonstandard or is flat out buggy. – Szczepan Hołyszewski Feb 19 at 9:20
  • @SzczepanHołyszewski Your confidence of disbieving without running the test case inspire me to do some rename refactory and extra comments. All code are plain old ES6, no transpiling is required. – Fred Yang Feb 21 at 0:55

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