86

I need to create a JavaScript Promise that will not resolve until a specific condition is true. Let's say I have a 3rd party library, and I need to wait until a certain data condition exists within that library.

The scenario I am interested in is one where there is no way to know when this condition is satisfied other than by simply polling.

I can create a promise that waits on it - and this code works, but is there a better or more concise approach to this problem?

function ensureFooIsSet() {
    return new Promise(function (resolve, reject) {
        waitForFoo(resolve);
    });
}

function waitForFoo(resolve) {
    if (!lib.foo) {
        setTimeout(waitForFoo.bind(this, resolve), 30);
    } else {
        resolve();
    }
}

Usage:

ensureFooIsSet().then(function(){
    ...
});

I would normally implement a max poll time, but didn't want that to cloud the issue here.

6
  • This looks OK. You don't really need to pollute the external scope with waitForFoo but it's a detail and depends on the rest of the code. Are you using native promises or a specific library ? Commented May 28, 2015 at 11:59
  • agreed - this is just a snippet of overall code. This would use native Promise. I've had this pattern come up a time or two and interested if there's a better way to structure this. Commented May 28, 2015 at 12:04
  • An easier approach would be to Object.observe the library object Commented May 28, 2015 at 12:04
  • @BenjaminGruenbaum, very nice. I was hoping for something like that. Depending on browser requirements, I may not be able to use it, but that's a good tip. Commented May 28, 2015 at 12:10
  • Well, then polyfill it in older browsers. Commented May 28, 2015 at 12:11

6 Answers 6

109

A small variation would be to use a named IIFE so that your code is a little more concise and avoids polluting the external scope:

function ensureFooIsSet() {
    return new Promise(function (resolve, reject) {
        (function waitForFoo(){
            if (lib.foo) return resolve();
            setTimeout(waitForFoo, 30);
        })();
    });
}
3
  • I was wanting to use an IIFE, but did not think about naming it. Commented May 28, 2015 at 12:29
  • 2
    This has dangers of recursion
    – tpae
    Commented Jun 16, 2021 at 2:31
  • 6
    @tpae that's not true. setTimeout isn't recursive, it's asynchronous. You can run this all day and it won't blow the stack, because the stack is cleared before the event loop runs.
    – ggorlen
    Commented Jan 15, 2022 at 23:36
11

Here's a waitFor function that I use quite a bit. You pass it a function, and it checks and waits until the function returns a truthy value, or until it times out.

  • This is a simple version which illustrates what the function does, but you might want to use the full version, added further in the answer
let sleep = ms => new Promise(r => setTimeout(r, ms));
let waitFor = async function waitFor(f){
    while(!f()) await sleep(1000);
    return f();
};

Example usages:

  • wait for an element to exist, then assign it to a variable
let bed = await waitFor(() => document.getElementById('bedId'))
if(!bed) doSomeErrorHandling();
  • wait for a variable to be truthy
await waitFor(() => el.loaded)
  • wait for some test to be true
await waitFor(() => video.currentTime > 21)
  • add a specific timeout to stop waiting
await waitFor(() => video.currentTime > 21, 60*1000)
  • pass it some other test function
if(await waitFor(someTest)) console.log('test passed')
else console.log("test didn't pass after 20 seconds")

Full Version:

This version takes cares of more cases than the simple version, null, undefined, empty array, etc., has a timeout, a frequency can be passed as an argument, and logs to the console what it is doing with some nice colors

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

/**
 * Waits for the test function to return a truthy value
 * example usage:
 *    wait for an element to exist, then save it to a variable
 *        let el = await waitFor(() => document.querySelector('#el_id')))
 *    timeout_ms and frequency are optional parameters
 */
async function waitFor(test, timeout_ms = 20 * 1000, frequency = 200) {
    if (typeof (test) != "function")     throw new Error("test should be a function in waitFor(test, [timeout_ms], [frequency])")
    if (typeof (timeout_ms) != "number") throw new Error("timeout argument should be a number in waitFor(test, [timeout_ms], [frequency])");
    if (typeof (frequency) != "number")  throw new Error("frequency argument should be a number in waitFor(test, [timeout_ms], [frequency])");
    let logPassed = () => console.log('Passed: ', test);
    let logTimedout = () => console.log('%c' + 'Timeout : ' + test, 'color:#cc2900');
    let last = Date.now();
    let logWaiting = () => { 
        if(Date.now() - last > 1000) {
            last = Date.now();
            console.log('%c' + 'waiting for: ' + test, 'color:#809fff'); 
        }
    }

    let endTime = Date.now() + timeout_ms;
    let isNotTruthy = (val) => val === undefined || val === false || val === null || val.length === 0; // for non arrays, length is undefined, so != 0    
    let result = test();
    while (isNotTruthy(result)) {
        if (Date.now() > endTime) {
            logTimedout();
            return false;
        }
        logWaiting();
        await sleep(frequency);
        result = test();
    }
    logPassed();
    return result;
}
0
8

Is there a more concise approach to this problem?

Well, with that waitForFoo function you don't need an anonymous function in your constructor at all:

function ensureFooIsSet() {
    return new Promise(waitForFoo);
}

To avoid polluting the scope, I would recommend to either wrap both in an IIFE or to move the waitForFoo function inside the ensureFooIsSet scope:

function ensureFooIsSet(timeout) {
    var start = Date.now();
    return new Promise(waitForFoo);
    function waitForFoo(resolve, reject) {
        if (window.lib && window.lib.foo)
            resolve(window.lib.foo);
        else if (timeout && (Date.now() - start) >= timeout)
            reject(new Error("timeout"));
        else
            setTimeout(waitForFoo.bind(this, resolve, reject), 30);
    }
}

Alternatively, to avoid the binding that is needed to pass around resolve and reject you could move it inside the Promise constructor callback like @DenysSéguret suggested.

Is there a better approach?

Like @BenjaminGruenbaum commented, you could watch the .foo property to be assigned, e.g. using a setter:

function waitFor(obj, prop, timeout, expected) {
    if (!obj) return Promise.reject(new TypeError("waitFor expects an object"));
    if (!expected) expected = Boolean;
    var value = obj[prop];
    if (expected(value)) return Promise.resolve(value);
    return new Promise(function(resolve, reject) {
         if (timeout)
             timeout = setTimeout(function() {
                 Object.defineProperty(obj, prop, {value: value, writable:true});
                 reject(new Error("waitFor timed out"));
             }, timeout);
         Object.defineProperty(obj, prop, {
             enumerable: true,
             configurable: true,
             get: function() { return value; },
             set: function(v) {
                 if (expected(v)) {
                     if (timeout) cancelTimeout(timeout);
                     Object.defineProperty(obj, prop, {value: v, writable:true});
                     resolve(v);
                 } else {
                     value = v;
                 }
             }
         });
    });
    // could be shortened a bit using "native" .finally and .timeout Promise methods
}

You can use it like waitFor(lib, "foo", 5000).

4

Here's a utility function using async/await and default ES6 promises. The promiseFunction is an async function (or just a function that returns a promise) that returns a truthy value if the requirement is fulfilled (example below).

const promisePoll = (promiseFunction, { pollIntervalMs = 2000 } = {}) => {
  const startPoll = async resolve => {
    const startTime = new Date()
    const result = await promiseFunction()

    if (result) return resolve()

    const timeUntilNext = Math.max(pollIntervalMs - (new Date() - startTime), 0)
    setTimeout(() => startPoll(resolve), timeUntilNext)
  }

  return new Promise(startPoll)
}

Example usage:

// async function which returns truthy if done
const checkIfOrderDoneAsync = async (orderID) => {
  const order = await axios.get(`/order/${orderID}`)
  return order.isDone
}

// can also use a sync function if you return a resolved promise
const checkIfOrderDoneSync = order => {
  return Promise.resolve(order.isDone)
}

const doStuff = () => {
  await promisePoll(() => checkIfOrderDone(orderID))
  // will wait until the poll result is truthy before
  // continuing to execute code
  somethingElse()
}
0
1
function getReportURL(reportID) {
  return () => viewReportsStatus(reportID)
  .then(res => JSON.parse(res.body).d.url);
}

function pollForUrl(pollFnThatReturnsAPromise, target) {
  if (target) return P.resolve(target);
  return pollFnThatReturnsAPromise().then(someOrNone => pollForUrl(pollFnThatReturnsAPromise, someOrNone));
}

pollForUrl(getReportURL(id), null);
-1

Simple! Wait until a variable has X value. In the example, we wait until zzz = 99.

var zzz=0;
const promise2 = new Promise((resolve, reject) => {
    const loop = () =>{
        zzz == 99   ? resolve(zzz) : setTimeout(loop);
    } 
    loop();
});
promise2.then((value) => {
    alert( "oki:"+value );
});

Your Answer

By clicking “Post Your Answer”, you agree to our terms of service and acknowledge you have read our privacy policy.

Not the answer you're looking for? Browse other questions tagged or ask your own question.