9

As far as I know, there are two options about promise:

Ok, I know what promise.all() does. It runs promises in parallel, and .then gives you the values if both resolved successfully. Here is an example:

Promise.all([
  $.ajax({ url: 'test1.php' }),
  $.ajax({ url: 'test2.php' })
])
.then(([res1, res2]) => {
  // Both requests resolved
})
.catch(error => {
  // Something went wrong
});

But I don't understand what does promise.race() is supposed to do exactly? In other word, what's the difference with not using it? Assume this:

$.ajax({
    url: 'test1.php',
    async: true,
    success: function (data) {
        // This request resolved
    }
});

$.ajax({
    url: 'test2.php',
    async: true,
    success: function (data) {
        // This request resolved
    }
});

See? I haven't used promise.race() and it behaves like promise.race(). Anyway, is there any simple and clean example to show me when exactly should I use promise.race() ?

23

As you see, the race() will return the promise instance which is firstly resolved or rejected:

var p1 = new Promise(function(resolve, reject) { 
    setTimeout(resolve, 500, 'one'); 
});
var p2 = new Promise(function(resolve, reject) { 
    setTimeout(resolve, 100, 'two'); 
});

Promise.race([p1, p2]).then(function(value) {
  console.log(value); // "two"
  // Both resolve, but p2 is faster
});

For a scenes to be used, maybe you want to limit the cost time of a request :

var p = Promise.race([
    fetch('/resource-that-may-take-a-while'),
    new Promise(function (resolve, reject) {
         setTimeout(() => reject(new Error('request timeout')), 5000)
    })
])
p.then(response => console.log(response))
p.catch(error => console.log(error))

With the race() you just need to get the returned promise, you needn't care about which one of the promises in the race([]) firstly returned,

However, without the race, just like your example, you need to care about which one will firstly returned, and called the callback in the both success callback.

  • Thank you .. upvote – Martin AJ Sep 23 '17 at 7:08
  • 8
    However, the fetch method call continues, but the output will be discarded whenever it eventually returns. A timeout should instead cancel the pending request. – Iiridayn Feb 12 '18 at 22:28
  • What difference compared to Promise.any? – Dominic Jun 11 at 10:51
5

I've used it for request batching. We had to batch tens of thousands of records into batches for a long running execution. We could do it in parallel, but didn't want the number of pending requests to get out of hand.

async function batchRequests(options) {
    let query = { offset: 0, limit: options.limit };

    do {
        batch = await model.findAll(query);
        query.offset += options.limit;

        if (batch.length) {
            const promise = doLongRequestForBatch(batch).then(() => {
                // Once complete, pop this promise from our array
                // so that we know we can add another batch in its place
                _.remove(promises, p => p === promise);
            });
            promises.push(promise);

            // Once we hit our concurrency limit, wait for at least one promise to
            // resolve before continuing to batch off requests
            if (promises.length >= options.concurrentBatches) {
                await Promise.race(promises);
            }
        }
    } while (batch.length);

    // Wait for remaining batches to finish
    return Promise.all(promises);
}

batchRequests({ limit: 100, concurrentBatches: 5 });
5

It's a piece to build a timeout system, where:

  1. the request/computation may be canceled by another channel
  2. it will still be used later, but we need an interaction now.

For an example of the second, one might show a spinner "instantly" while still defaulting to show real content if it comes in fast enough. Try running the below a few times - note at least some console message comes "instantly". This might normally be attached to perform operations on a UI.

The key to note is - the result of Promise.race is much less important than the side effects (though, this then is a code smell).

// 300 ms _feels_ "instant", and flickers are bad

function getUserInfo(user) {
  return new Promise((resolve, reject) => {
    // had it at 1500 to be more true-to-life, but 900 is better for testing
    setTimeout(() => resolve("user data!"), Math.floor(900*Math.random()));
  });
}

function showUserInfo(user) {
  return getUserInfo().then(info => {
    console.log("user info:", info);
    return true;
  });
}

function showSpinner() {
  console.log("please wait...")
}

function timeout(delay, result) {
  return new Promise(resolve => {
    setTimeout(() => resolve(result), delay);
  });
}
Promise.race([showUserInfo(), timeout(300)]).then(displayed => {
  if (!displayed) showSpinner();
});

Inspiration credit to a comment by captainkovalsky.

An example of the first:

function timeout(delay) {
  let cancel;
  const wait = new Promise(resolve => {
    const timer = setTimeout(() => resolve(false), delay);
    cancel = () => {
      clearTimeout(timer);
      resolve(true);
    };
  });
  wait.cancel = cancel;
  return wait;
}


function doWork() {
  const workFactor = Math.floor(600*Math.random());
  const work = timeout(workFactor);
  
  const result = work.then(canceled => {
    if (canceled)
      console.log('Work canceled');
    else
      console.log('Work done in', workFactor, 'ms');
    return !canceled;
  });
  result.cancel = work.cancel;
  return result;
}

function attemptWork() {
  const work = doWork();
  return Promise.race([work, timeout(300)])
    .then(done => {
      if (!done)
        work.cancel();
      return (done ? 'Work complete!' : 'I gave up');
  });
}

attemptWork().then(console.log);

You can see from this one that the timeout's console.log is never executed when the timeout hits first. It should fail/succeed about half/half, for testing convenience.

  • Excellent examples, @Iiridayn. About the first one, though, I am curious why you chose to treat your timeout as an exception wasting your catch block executing setSpinner(), instead of treating it as temporary state as in var delayedSpinner = (ms) => new Promise((resolve, reject) => setTimeout(resolve, ms, 'please wait...')); Promise.race([showUserInfo(), delayedSpinner(300)]). That way, you can still properly handle exceptions from showUserInfo and not silently drop them, displaying your spinner forever. – Jay Allen Aug 23 '18 at 5:17
  • @JayAllen I didn't want to bother with canceling the timeout or checking a shared state before showing the spinner. I've updated it to resolve a boolean (console.log returns undefined which is falsey) so you can use it in production code with fewer modifications :P. – Iiridayn Aug 24 '18 at 22:29
3

Here's an easy example to understand the use of promise.race():

Imagine you need to fetch some data from a server and if the data takes too long to load (say 15 seconds) you want to show an error.

You would call promise.race() with two promises, the first being your ajax request and the second being a simple setTimeout(() => resolve("ERROR"), 15000)

  • 2
    why wouldn't you use a timeout setting on your network call? – Jaromanda X Sep 23 '17 at 6:46
  • @JaromandaX is right. In your example, using timeout in the ajax request would be better. Thank you anyway, upvote – Martin AJ Sep 23 '17 at 7:09
1

Summary:

Promise.race is a JS built in function that accepts an iterable of Promises (e.g. Array) as an argument. This function then asynchronously returns a Promise as soon as one in of the Promises passed in the iterable is either resolved or rejected.

Example 1:

var promise1 = new Promise((resolve, reject) => {
    setTimeout(() => resolve('Promise-one'), 500);
});

var promise2 = new Promise((resolve, reject) => {
    setTimeout(() => resolve('Promise-two'), 100);
});

Promise.race([promise1, promise2]).then((value) => {
  console.log(value);
  // Both resolve, but promise2 is faster than promise 1
});

In this example first an array of Promises is passed in Promise.race. Both of the promises resolve but promise1 resolves faster. Therefore the promise is resolved with the value of promise1, which is the string 'Promise-one'.

Example 2:

const promise1 = new Promise((resolve, reject) => {
    setTimeout(() => resolve('succes'), 2000);
});

const promise2 = new Promise((resolve, reject) => {
    setTimeout(() => reject('err'), 1000);
});

Promise.race([promise1, promise2])
  .then((value) => {
  console.log(value);
}).catch((value) => {
  console.log('error: ' + value);
});

In this second example the second promise rejects faster than the first promise can resolve. Therefore Promise.race will return a rejected promise with the value of 'err' which was the value that Promise2 rejected with.

The key point to understand is that Promice.race takes an iterable of Promises and returns a Promise based on the first resolved or rejected promise in that iterable (with the corresponding resolve() or reject() values).

  • One correction on your second sentence: "This function immediately returns a Promise which is evaluated asynchronously and, once the stack is empty, yields the value of the first Promise in the iterable to resolve or reject". It definitely evaluates all of the Promises in the iterable in parallel (asynchronously) and will not resolve/reject to a value until the iterable's stack is empty. – Jay Allen Aug 23 '18 at 5:36
  • setTimeout(() => resolve('Promise-two'), 1000); Here the timeout should have been 100 instead of 1000 for promise two to resolve faster. Confused me for a while there – acesmndr Oct 26 '18 at 5:18
  • Sorry for the error, updated it. Thanks for pointing it out! – Willem van der Veen Oct 27 '18 at 10:01
1

Let's take an sample workaround of Promise.race like below.

const race = (promises) => {
    return new Promise((resolve, reject) => {
        return promises.forEach(f => f.then(resolve).catch(reject));
    })
};

You can see race function executes all promises, but whomever finishes first will resolve/reject with wrapper Promise.

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