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Is there a better way to engineer a sleep in JavaScript than the following pausecomp function (taken from here)?

function pausecomp(millis)
  var date = new Date();
  var curDate = null;
  do { curDate = new Date(); }
  while(curDate-date < millis);

This is not a duplicate of Sleep in Javascript; I want a real sleep in the middle of a function, and not a delay before a piece of code executes.

share|improve this question
I think the best practice is use to use setTimeout. May I ask why you want "a real sleep"? –  KClough Jun 4 '09 at 14:43
This is a horrible solution - you're going to be chewing up processing cycles while doing nothing. –  17 of 26 Jun 4 '09 at 14:47
In its defense, I'll say that the pausecomp() function is well-named, as in PAUSE THE ENTIRE FREAKING COMPUTER. –  chaos Jun 4 '09 at 14:58
We're treating this as if busy while loops crash computers which they don't. Computers can and do run multiple processes all the time. That's why I can be on stackoverflow while my code is compiling, because even though VS is churning, I can still do other things. It's not a good solution he's presenting, but its' not the end of the world. –  DevinB Jun 4 '09 at 15:26
I can think of a good reason to use a sleep function in JS. If you're attempting to simulate a slow browser experience then this can be helpful in development. –  nutcracker Apr 23 '11 at 3:37

36 Answers 36

up vote 291 down vote accepted

In JavaScript, I rewrite every function so that it can end as soon as possible. You want the browser back in control so it can make your DOM changes.

Every time I've wanted a sleep in the middle of my function, I refactored to use a setTimeout().


function sleep(millis, callback) {
            { callback(); }
    , millis);

Example of usage:

function foobar_cont(){
sleep(3000, foobar_cont);
share|improve this answer
By way of closure. function foobar(el) { setTimeout(function() { foobar_cont(el); }, 5000); } –  chaos Apr 8 '10 at 3:27
ok, and what if the code is not intended to be used in a webpage? –  Eugenio Miró Jul 22 '10 at 15:23
@EugenioMiró if the code is not intended to be used in a webpage, have the host's object model implement a sleep method. -- I think the question is geared towards the DOM which is exposed to javascript running on web pages. –  BrainSlugs83 Sep 24 '11 at 0:57
@Nosredna yes, we understand how to make async calls, this doesn't help us sleep(). I want my calls to be made in a certain order, and to have the data back in a certain order. I'm 5 levels deep in a for loop. I want to BLOCK execution. A true sleep method would not "slow down the browser", sleep hands control back to the browser and any other threads that want CPU time while it is still blocking. –  BrainSlugs83 Sep 24 '11 at 0:59
this is not an answer to the question. –  TMS Nov 24 '11 at 13:22

For the love of $DEITY please do not make a busy-wait sleep function. setTimeout and setInterval do everything you need.

share|improve this answer
I agree. Wouldn't a real "sleep" freeze up the whole javascript engine... –  Skurmedel Jun 4 '09 at 14:46
Well not quite everything: setInterval does a much better impression of polling. –  annakata Jun 4 '09 at 14:48
+1 for $DEITY in your answer –  barfoon Apr 8 '11 at 20:38
-1 for $DEITY and for not answering the question. Sometimes busy sleep is needed for testing purposes! –  TMS Nov 24 '11 at 13:23
+1 for $DEITY. Political Correctness + Environment Variable jokes = priceless! –  Michael Dec 10 '12 at 14:48

Embrace the asyncronous nature of javascript!

All of the following will return immediately but have a single place for putting code you want to run after something has happened.

The methods I've outlined here are all for different use cases and are roughly ordered in terms of their complexity.

The different things are as follows:

  • Waiting for some condition to become true
  • Waiting for a set of methods to finish (in any order) before calling a single callback
  • Running a series of asyncronous methods with shared state in a particular order before calling a callback


Waiting to see if some condition is true is usedful where there is no accessible callback to tell you when something has finished executing.

This is a pretty basic implementation that assumes that the condition will become true at some point. With a few tweaks it could be expanded to be even more useful (eg by setting a call limit). (I only wrote this one yesterday!)

function waitFor(predicate, successCallback) {
    setTimeout(function () {
        var result = predicate();
        if (result !== undefined)
            waitFor(predicate, successCallback);
    }, 100);

calling code:

    beforeEach(function (done) {
        selectListField('A field');

        waitFor(function () {
            var availableOptions = stores.scrapeStore(optionStore);
            if (availableOptions.length !== 0)
                return availableOptions;
        }, done);

Here I'm calling something which loads an extjs 'store' and waiting til the store contains something before continuing (the beforeEach is a jasmine test framework thing).

Wait for several things to complete

Another thing I needed to do was run a single callback after a load of different methods finished. You can do that like this:

createWaitRunner = function (completionCallback) {
    var callback = completionCallback;
    var completionRecord = [];
    var elements = 0;

    function maybeFinish() {
        var done = completionRecord.every(function (element) {
            return element === true

        if (done)

    return {
        getNotifier: function (func) {
            func = func || function (){};

            var index = elements++;
            completionRecord[index] = false;

            return function () {
                completionRecord[index] = true;

calling code:

    var waiter = createWaitRunner(done);

    filterList.bindStore = waiter.getNotifier();
    includeGrid.reconfigure = waiter.getNotifier(function (store) {
        includeStore = store;
    excludeGrid.reconfigure = waiter.getNotifier(function (store) {
        excludeStore = store;

You either just wait for the notifications or can also wrap other functions which use the values passed to the function. When all the methods are called then done will be run.

Running asynchronous methods in order

I've used a different approach when I had a series of asynchronous methods to call in a row (again in tests). This is somewhat similar to something you can get in the Async library - series does about the same thing and I had a little read of that library first to see if it did what I wanted. I think mine has a nicer api for working with tests though (+ it was fun to implement!).

//provides a context for running asyncronous methods syncronously
//the context just provides a way of sharing bits of state
//use run to execute the methods.  These should be methods that take a callback and optionally the context as arguments
//note the callback is provided first so you have the option of just partially applying your function to the arguments you want
//instead of having to wrap even simple functions in another function

//when adding steps you can supply either just a function or a variable name and a function
//if you supply a variable name then the output of the function (which should be passed into the callback) will be written to the context
createSynchronisedRunner = function (doneFunction) {
    var context = {};

    var currentPosition = 0;
    var steps = [];

    //this is the loop. it is triggered again when each method finishes
    var runNext = function () {
        var step = steps[currentPosition];
                       function (output) {

                           if (currentPosition === steps.length)

                       }, context);

    var api = {};

    api.addStep = function (firstArg, secondArg) {
        var assignOutput;
        var func;

        if (secondArg === undefined) {
            assignOutput = function () {
            func = firstArg;
        else {
            var propertyName = firstArg;
            assignOutput = function (output) {
                context[propertyName] = output;
            func = secondArg;

                       func: func,
                       outputHandler: assignOutput

    api.run = function (completedAllCallback) {
        completedAllCallback = completedAllCallback || function(){};

        var lastStep = steps[steps.length - 1];
        var currentHandler = lastStep.outputHandler;
        lastStep.outputHandler = function (output) {


    //this is to support more flexible use where you use a done function in a different scope to initialisation
    //eg the done of a test but create in a beforeEach
    api.setDoneCallback = function (done) {
        doneFunction = done;

    return api;

calling code:

beforeAll(function (done) {
    var runner = createSynchronisedRunner(done);
    runner.addStep('attachmentInformation', testEventService.getAttachmentCalled.partiallyApplyTo('cat eating lots of memory.jpg'));
    runner.addStep('attachment', getAttachment.partiallyApplyTo("cat eating lots of memory.jpg"));
    runner.addStep('noAttachment', getAttachment.partiallyApplyTo("somethingElse.jpg"));
    runner.run(function (context) {
        attachment = context.attachment;
        noAttachment = context.noAttachment;

PartiallyApplyTo here is basically a renamed version of Doug Crockford's implementation of Curry. A lot of the stuff I'm working with takes a callback as the final argument so simple calls can be done like this rather than having to wrap everything with an extra func.

Hopefully some of the ideas in there might be useful to people.

share|improve this answer

Most of the answers here are misguided or at the very least outdated. There is no reason javascript has to be single threaded, and indeed it isnt't. Today all the mainstream browsers support workers, before this was the case other javascript runtimes like Rhino and Node.js supported multithreading.

'Javascript is single threaded' is not a valid answer. For example running a sleep function within a worker would not block any of the code running in the ui thread.

In newer runtimes supporting gennerators and yield, one could bring similar functionality to the sleep function in a single threaded environment:

// This is based on the latest ES6 drafts.
// js 1.7+ (SpiderMonkey/Firefox 2+) syntax is slightly different

// run code you want to sleep here (ommit star if using js 1.7)
function* main(){
    for (var i = 0; i < 10; i++) {
        // to sleep for 10 milliseconds 10 times in a row
        yield 10;

    yield 5;
    console.log('I just slept 5 milliseconds!');

// resume the given gennerator after ms milliseconds
function resume(ms, gennerator){
        // ommit .value if using js 1.7
        var nextSleep = gennerator.next().value;
        resume(nextSleep, gennerator);
    }, ms);

// initialize gennerator and get first sleep for recursive function
    gennerator = main(),
    firstSleep = gennerator.next().value;

// initialize recursive resume function
resume(firstSleep, gennerator);

This imitation of sleep is different from a true sleep function as it does not block the thread. It is simply sugar on top of javascript's current setTimeout function. This functionality type has been implemented in Task.js and should work today in Firefox.

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If you like an advise to not loss performance . setTimeout is your expected sleep . However , if you wanna a syntax where code is "divided in middle" by sleep, we can do :


then , perpare functions as following :

var fnBeforeSleep=function(){

 //All codes before sleep


var fnAfterSleep=function(){

 //All codes after sleep


Then :


YEP! ٍsyntactically,It is very close to :

share|improve this answer

You can use a closure call setTimeout() with incrementally larger values.

var items = ['item1', 'item2', 'item3'];

function functionToExecute(item) {
  console.log('function executed for item: ' + item);

$.each(items, function (index, item) {
  var timeoutValue = index * 2000;
  setTimeout(function() {
    console.log('waited ' + timeoutValue + ' milliseconds');
  }, timeoutValue);


waited 0 milliseconds
function executed for item: item1
waited 2000 milliseconds
function executed for item: item2
waited 4000 milliseconds
function executed for item: item3 
share|improve this answer

I'm sure there is a million ways to do this one better, but I thought I would give it a try by creating an object:

// execute code consecutively with delays (blocking/non-blocking internally)
function timed_functions() 
this.myfuncs = [];
this.myfuncs_delays = []; // mirrors keys of myfuncs -- values stored are custom delays, or -1 for use default
this.myfuncs_count = 0; // increment by 1 whenever we add a function
this.myfuncs_prev   = -1; // previous index in array
this.myfuncs_cur    = 0; // current index in array
this.myfuncs_next  = 0; // next index in array
this.delay_cur     = 0; // current delay in ms
this.delay_default = 0; // default delay in ms
this.loop = false;      // will this object continue to execute when at end of myfuncs array?
this.finished = false;  // are we there yet?
this.blocking = true;   // wait till code completes before firing timer?
this.destroy = false;   // <advanced> destroy self when finished

this.next_cycle = function() {
var that  = this;
var mytimer = this.delay_default;

if(this.myfuncs_cur > -1)
if(this.myfuncs_delays[this.myfuncs_cur] > -1)
mytimer = this.myfuncs_delays[this.myfuncs_cur];

console.log("fnc:" + this.myfuncs_cur);
console.log("timer:" + mytimer);
console.log("custom delay:" + this.myfuncs_delays[this.myfuncs_cur]);
setTimeout(function() {
// times up! next cycle...

}, mytimer);

this.cycle = function() {

// now check how far we are along our queue.. is this the last function?
if(this.myfuncs_next + 1 > this.myfuncs_count)
this.myfuncs_next = 0;
this.finished = true;

// first check if object isn't finished
return false;

if(this.blocking != true) // blocking disabled
console.log("NOT BLOCKING");

// set prev = current, and current to next, and next to new next
this.myfuncs_prev = this.myfuncs_cur;
this.myfuncs_cur  = this.myfuncs_next;

// execute current slot

if(this.blocking == true)  // blocking enabled

return true;

// adders 
this.add = {

fnc: function(aFunction) { 
// add to the function array
var cur_key = this.that.myfuncs_count++;
this.that.myfuncs[cur_key] = aFunction;
// add to the delay reference array
this.that.myfuncs_delays[cur_key] = -1;
}; // end::this.add

// setters
this.set = {

delay:          function(ms)    {  
var cur_key = this.that.myfuncs_count - 1;
// this will handle the custom delay array this.that.myfunc_delays
// add a custom delay to your function container

console.log("setting custom delay. key: "+ cur_key + " msecs: " + ms);
if(cur_key > -1)
this.that.myfuncs_delays[cur_key] = ms; 

// so now we create an entry on the delay variable

delay_cur:      function(ms)    { this.that.delay_cur = ms;         },
delay_default:  function(ms)    { this.that.delay_default = ms;         },
loop_on:          function()        { this.that.loop = true; }, 
loop_off:         function()        { this.that.loop = false; },
blocking_on:      function()        { this.that.blocking = true; }, 
blocking_off:     function()        { this.that.blocking = false; },

finished:           function(aBool) { this.that.finished = true; }
}; // end::this.set    

// setters
this.get = {

delay_default: function() { return this.that.delay_default; },
delay_cur:     function() { return this.that.delay_cur; }
}; // end::this.get     

} // end:::function timed_functions()

and use like: // // // BEGIN :: TEST // // //

// initialize
var fncTimer = new timed_functions;

// set some defaults
// fncTimer.set.loop_on();
// fncTimer.set.loop_off();

// BEGIN :: ADD FUNCTIONS (they will fire off in order)
fncTimer.add.fnc(function() {
    console.log('plan a (2 secs)');
fncTimer.set.delay(2000); // set custom delay for previously added function

fncTimer.add.fnc(function() {
    console.log('hello world (delay 3 seconds)');

fncTimer.add.fnc(function() {
    console.log('wait 4 seconds...');

fncTimer.add.fnc(function() {
    console.log('wait 2 seconds');

fncTimer.add.fnc(function() {

fncTimer.cycle(); // begin execution 

// // // END :: TEST // // //
share|improve this answer
function sleep(milliseconds) {
  var start = new Date().getTime();
  for (var i = 0; i < 1e7; i++) {
    if ((new Date().getTime() - start) > milliseconds){
share|improve this answer

The short answer is NO, not in javascript by itself. You solution seems to be the only way to not return control back to the environment.

This is necessary if the environment does not support events. They probably wouldn't support the settimeout either.

settimeout is definitely the best way if you are in an event driven environment suchas a browser or node.js.

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I use the multithread HTML5 Worker which will be able to abort an synchronous XMLHttpRequest pointing to an unresponsive URL. This does not block the browser.


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var waitTillSomethingHappens = function(){  
    if(somethingHappened == 1)  
        alert('Something Happened get out of sleep');  
share|improve this answer

only for debug/dev , I post this if it's useful to someone

Interesting stuff, in Firebug ( & probably other js consoles ), nothing happen after hitting enter, only after the sleep duration specified (...)

function sleepFor( sleepDuration ){
    var now = new Date().getTime();
    while(new Date().getTime() < now + sleepDuration){ /* do nothing */ } 

Example of use:

function sleepThenAct(){ sleepFor(2000); console.log("hello js sleep !"); }
share|improve this answer

If you right a sleep function like this

var sleep = function(period, decision, callback){
    var interval = setInterval(function(){
        if (decision()) {
            interval = clearInterval(interval);
    }, period);

and you have a asynchronous function to call multiple times

var xhr = function(url, callback){
    // make ajax request
    // call callback when request fulfills

And you setup your project like this:

var ready = false;

function xhr1(){
    xhr(url1, function(){ ready = true;});  
function xhr2(){
    xhr(url2, function(){ ready = true; }); 
function xhr3(){
    xhr(url3, function(){ ready = true; }); 

Then you can do this:

sleep(100, function(){ return done; }, xhr2);
sleep(100, function(){ return done; }, xhr3);
sleep(100, function(){ return done; }, function(){
    // do more

Instead of endless callback indentation like this:

xhr(url1, function(){
    xhr2(url2, function(){
        xhr3(url3, function(){
            // do more
share|improve this answer

For browsers, I agree that setTimeout and setInterval are the way to go.

But for server-side code, it may require a blocking function (for example, so you can effectively have thread synchronization).

If you're using node.js and meteor, you may have run into the limitations of using setTimeout in a fiber. Here is the code for server-side sleep.

var Fiber = require('fibers');

function sleep(ms) {
    var fiber = Fiber.current;
    setTimeout(function() {
    }, ms);

Fiber(function() {
    console.log('wait... ' + new Date);
    console.log('ok... ' + new Date);
console.log('back in main');

See: https://github.com/laverdet/node-fibers#sleep

share|improve this answer

I think it's perfectly reasonable to want to perform an action, wait, then perform another action. If you are used to writing in multi-threaded languages, you probably have the idea of yielding execution for a set amount of time until your thread wakes up.

The issue here is that JavaScript is a single-thread event-based model. While in a specific case, it might be nice to have the whole engine wait for a few seconds, in general it is bad practice. Suppose I wanted to make use of your functions while writing my own? When I called your method, my methods would all freeze up. If JavaScript could somehow preserve your function's execution context, store it somewhere, then bring it back and continue later, then sleep could happen, but that would basically be threading.

So you are pretty much stuck with what others have suggested -- you'll need to break your code up into multiple functions.

Your question is a bit of a false choice, then. There is no way to sleep in the way you want, nor should you pursue the solution you suggest.

share|improve this answer
+1 for actually explaining why sleeping is technically impossible in JavaScript rather than criticising the poster's intentions. –  Sam Jul 20 '12 at 4:00
I agree. This post is the true gem, and should be up-voted well beyond the current top vote. –  Samuel A. Falvo II Oct 8 '12 at 19:55
+1 This is the correct answer –  marsbard Feb 5 '13 at 18:28
This is not a correct answer at all. If Javascript does not have a sleep function, it is only because ECMAScript does not require it. It is a design choice by the body responsible for the design of Javascript. It could have been made that the Javascript run time waits a given amount of time before running the next line of code, but it was chosen not to. –  didibus Aug 16 '13 at 19:20
A sleep can be perfectly implemented in JavaScript allbeit not with real-time precision. After all it is an event based system. If async calls are completed an event is triggered. I see no reason why the same can't be possible when a sleep() is issued after which control is returned to the browser until the sleeping is over, returning control to the calling function. And yes, I also agree that sometimes sleeping is handy especially when developers BEFORE you screwed up the design so badly that YOU have no other way out besides completely refactoring for which you have no time –  Lawrence Nov 14 '13 at 12:40

Or just create this:

function yourFunction(){

   //do something
   //do something else


function myFunc(){

this will just wait the interval specified and call the function which will just do nothing.

share|improve this answer

I've searched for sleep soluton too(not for real project for now, only tests) and found this article: http://narayanraman.blogspot.com/2005/12/javascript-sleep-or-wait.html And another link with client-side solutions: http://www.devcheater.com/ Looks good. Also when you are calling alert(), your code will be paused too, while alert is shown -- need to find a way to not display alert but get the same effect. :)

share|improve this answer
I agree, lots of people are saying, "No, don't do this in production code!" Yeah, um, I don't want to. I want to do it in throwaway test code, and as a result I don't want to spend a lot of time making an elegant solution. –  user435779 Oct 17 '12 at 15:03

It can be done using Java's sleep method. I've tested it in FF and IE and it doesn't lock the computer, chew up resources, or cause endless server hits. Seems like a clean solution to me.

First you have to get Java loaded up on the page and make its methods available. To do that, I did this:


<script type="text/javascript">

  function load() {
    var appletRef = document.getElementById("app");
    window.java = appletRef.Packages.java;
  } // endfunction


<body onLoad="load()">

<embed id="app" code="java.applet.Applet" type="application/x-java-applet" MAYSCRIPT="true" width="0" height="0" />

Then, all you have to do when you want a painless pause in your JS is:


Where xxx is time in milliseconds. In my case (by way of justification), this was part of back-end order fulfillment at a very small company and I needed to print an invoice that had to be loaded from the server. I did it by loading the invoice (as a webpage) into an iFrame and then printing the iFrame. Of course, I had to wait until the page was fully loaded before I could print, so the JS had to pause. I accomplished this by having the invoice page (in the iFrame) change a hidden form field on the parent page with the onLoad event. And the code on the parent page to print the invoice looked like this (irrelevant parts cut for clarity):

var isReady = eval('document.batchForm.ready');


while (isReady.value==0) {
} // endwhile


So the user pushes the button, the script loads the invoice page, then waits, checking every quarter second to see if the invoice page is finished loading, then pops up the print dialog for the user to send it to the printer. QED.

share|improve this answer
Seems quite monstrous soulution when considering the simple thing author wanted to achieve. –  xaralis Jan 22 '13 at 16:17

Adding my two bits. I needed a busy-wait for testing purposes. I didn't want to split the code as that would be a lot of work, so a simple for did it for me.

for (var i=0;i<1000000;i++){                    

I don't see any downside in doing this and it did the trick for me.

share|improve this answer

Here you go. As the code says, don't be a bad dev and use this on websites. It's a development utility function.

// Basic sleep function based on ms.
function sleep(ms) {
    var unixtime_ms = new Date().getTime();
    while(new Date().getTime() < unixtime_ms + ms) {}
share|improve this answer
That's basically the same thing as the OP had. –  Andrew Barber Nov 3 '12 at 2:16

A good alternative in some situations is to display a top-level message panel to stop user interaction, and then hide it again when you get the result you're waiting for (asynchronously). That allows the browser to get on with background tasks, but pauses the workflow until you've got your result back.

share|improve this answer

If you want to sleep an anonymous function like one you've created as a handler, I recommend the following:

if (!wait_condition)
    setTimeout(arguments.callee, 100, /*comma-separated arguments here*/);
//rest of function

This code says "If the wait condition has not yet been satisfied, call this function again with these arguments." I've used this method to pass in the same arguments to my handlers, effectively making this code a non-polling sleep() (which only works at the start of your function).

share|improve this answer

A method of an object that needs to use a "sleep" method such as the following:

function SomeObject() {
    this.SomeProperty = "xxx";
    return this;
SomeObject.prototype.SomeMethod = function () {

Can almost be translated to:

function SomeObject() {
    this.SomeProperty = "xxx";
    return this;
SomeObject.prototype.SomeMethod = function (arg1) {
    var self = this;
    setTimeout(function () {
    }, 500);

The difference is that the operation of "SomeMethod" returns before the operation "DoSomething2" is executed. The caller of "SomeMethod" cannot depend on this. Since the "Sleep" method does not exists, I use the later method and design my code accordingly.

I hope this helps.

share|improve this answer

Code taken from this link will not freeze comp. But it works only on ff.

 * Netscape compatible WaitForDelay function.
 * You can use it as an alternative to Thread.Sleep() in any major programming language
 * that support it while JavaScript it self doesn't have any built-in function to do such a thing.
 * parameters:
 * (Number) delay in millisecond
function nsWaitForDelay(delay) {
  * Just uncomment this code if you're building an extention for Firefox.
  * Since FF3, we'll have to ask for user permission to execute XPCOM objects.

// Get the current thread.
var thread = Components.classes["@mozilla.org/thread-manager;1"].getService(Components.interfaces.nsIThreadManager).currentThread;

// Create an inner property to be used later as a notifier.
this.delayed = true;

/* Call JavaScript setTimeout function
  * to execute this.delayed = false
  * after it finish.
setTimeout("this.delayed = false;", delay);

  * Keep looping until this.delayed = false
while (this.delayed) {
  * This code will not freeze your browser as it's documented in here:
  * https://developer.mozilla.org/en/Code_snippets/Threads#Waiting_for_a_background_task_to_complete
share|improve this answer

I know this is a bit of an old question, but if (like me) you're using Javascript with Rhino, you can use...

catch (e)
   * This will happen if the sleep is woken up - you might want to check
   * if enough time has passed and sleep again if not - depending on how
   * important the sleep time is to you.
share|improve this answer

First of all - setTimeout and setInterval is what should be used, because of javascript's callback-ish nature. If you want to use sleep() it's the control flow or the architecture of your code that is incorrect.

Having said that I suppose I still can help with two implementation of a sleep.

  1. faking synchronous run off the top of my head:

    //a module to do taht //dual-license: MIT or WTF [you can use it anyhow and leave my nickname in a comment if you want to]
    var _=(function(){
     var queue=[];
     var play=function(){
       var go=queue.shift();
     return {

    [making playback automatic should also be possible]

    //your code
    //your code
    //this triggers the simulation
  2. real synchronous run

I gave it a lot of thought one day and the only idea I had for a true sleep in javascript is technical.

a sleep function would have to be a synchronous AJAX call with a timeout set to the sleep value. That's all and an only way to have a real sleep()

share|improve this answer

Better solution to make things look like what most people want is to use an anonymous function:

var a = 'foo';
//lots of code
setTimeout(function(){  //Beginning of code that should run AFTER the timeout
    //lots more code
},5000);  // put the timeout here

This is probably the closest you'll get to something that simply does what you want.

Note, if you need multiple sleeps this can get ugly in a hurry and you might actually need to rethink your design.

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I can understand the purpose of a sleep function if you have to deal with synchronous execution. The setInterval and setTimeout functions create a parallel execution thread which returns the execution sequence back to the main program, which is ineffective if you have to wait for a given result. Of course one may use events and handlers, but in some cases is not what is intended.

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One scenario where you might want a sleep() function rather than using setTimeout() is if you have a function responding to a user click that will ultimately end up opening a new i.e. popup window and you have initiated some processing that requires a short period to complete before the popup is displayed. Moving the open window into a closure means that it typically gets blocked by the browser.

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For the specific case of wanting to space out a set of calls being executed by a loop, you can use something like the code below with prototype. Without prototype, you can substitute the delay function with setTimeout.

function itemHandler(item)

var itemSet = ['a','b','c'];

// Each call to itemHandler will execute
// 1 second apart
for(var i=0; i<itemSet.length; i++)
    var secondsUntilExecution = i;
    itemHandler.delay(secondsUntilExecution, item)
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