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JavaScript is known to be single-threaded in all modern browser implementations, but is that specified in any standard or is it just by tradition? Is it totally safe to assume that JavaScript is always single-threaded?

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In the context of browsers, probably. But some programs allow you to treat JS as a top level lang and provide bindings for other C++ libs. For instance, flusspferd (C++ bindings for JS - AWESOME BTW) was doing some stuff with multithreaded JS. It's up to the context. – NG. Apr 29 '10 at 0:35

12 Answers 12

up vote 403 down vote accepted

That's a good question. I'd love to say “yes”. I can't.

JavaScript is usually considered to have a single thread of execution visible to scripts(*), so that when your inline script, event listener or timeout is entered, you remain completely in control until you return from the end of your block or function.

(*: ignoring the question of whether browsers really implement their JS engines using one OS-thread, or whether other limited threads-of-execution are introduced by WebWorkers.)

However, in reality this isn't quite true, in sneaky nasty ways.

The most common case is immediate events. Browsers will fire these right away when your code does something to cause them:

<textarea id="log" rows="20" cols="40"></textarea>
<input id="inp">
<script type="text/javascript">
    var l= document.getElementById('log');
    var i= document.getElementById('inp');
    i.onblur= function() {
        l.value+= 'blur\n';
    setTimeout(function() {
        l.value+= 'log in\n';
        l.value+= 'log out\n';
    }, 100);

Results in log in, blur, log out on all except IE. These events don't just fire because you called focus() directly, they could happen because you called alert(), or opened a pop-up window, or anything else that moves the focus.

This can also result in other events. For example add an i.onchange listener and type something in the input before the focus() call unfocuses it, and the log order is log in, change, blur, log out, except in Opera where it's log in, blur, log out, change and IE where it's (even less explicably) log in, change, log out, blur.

Similarly calling click() on an element that provides it calls the onclick handler immediately in all browsers (at least this is consistent!).

(I'm using the direct on... event handler properties here, but the same happens with addEventListener and attachEvent.)

There's also a bunch of circumstances in which events can fire whilst your code is threaded in, despite you having done nothing to provoke it. An example:

<textarea id="log" rows="20" cols="40"></textarea>
<button id="act">alert</button>
<script type="text/javascript">
    var l= document.getElementById('log');
    document.getElementById('act').onclick= function() {
        l.value+= 'alert in\n';
        l.value+= 'alert out\n';
    window.onresize= function() {
        l.value+= 'resize\n';

Hit alert and you'll get a modal dialogue box. No more script executes until you dismiss that dialogue, yes? Nope. Resize the main window and you will get alert in, resize, alert out in the textarea.

You might think it's impossible to resize a window whilst a modal dialogue box is up, but not so: in Linux, you can resize the window as much as you like; on Windows it's not so easy, but you can do it by changing the screen resolution from a larger to a smaller one where the window doesn't fit, causing it to get resized.

You might think, well, it's only resize (and probably a few more like scroll) that can fire when the user doesn't have active interaction with the browser because script is threaded. And for single windows you might be right. But that all goes to pot as soon as you're doing cross-window scripting. For all browsers other than Safari, which blocks all windows/tabs/frames when any one of them is busy, you can interact with a document from the code of another document, running in a separate thread of execution and causing any related event handlers to fire.

Places where events that you can cause to be generated can be raised whilst script is still threaded:

  • when the modal popups (alert, confirm, prompt) are open, in all browsers but Opera;

  • during showModalDialog on browsers that support it;

  • the “A script on this page may be busy...” dialogue box, even if you choose to let the script continue to run, allows events like resize and blur to fire and be handled even whilst the script is in the middle of a busy-loop, except in Opera.

  • a while ago for me, in IE with the Sun Java Plugin, calling any method on an applet could allow events to fire and script to be re-entered. This was always a timing-sensitive bug, and it's possible Sun have fixed it since (I certainly hope so).

  • probably more. It's been a while since I tested this and browsers have gained complexity since.

In summary, JavaScript appears to most users, most of the time, to have a strict event-driven single thread of execution. In reality, it has no such thing. It is not clear how much of this is simply a bug and how much deliberate design, but if you're writing complex applications, especially cross-window/frame-scripting ones, there is every chance it could bite you — and in intermittent, hard-to-debug ways.

If the worst comes to the worst, you can solve concurrency problems by indirecting all event responses. When an event comes in, drop it in a queue and deal with the queue in order later, in a setInterval function. If you are writing a framework that you intend to be used by complex applications, doing this could be a good move. postMessage will also hopefully soothe the pain of cross-document scripting in the future.

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@J-P: Personally I don't want to know straight away because it means I have to be careful that my code is re-entrant, that calling my blur code won't affect state that some outer code is relying on. There are too many cases where blurring is an unexpected side-effect to necessarily catch every one. And unfortunately even if you do want it, it's not reliable! IE fires blur after your code returns control to the browser. – bobince Apr 29 '10 at 10:21
Javascript is single threaded. Halting your execution on alert() doesn't mean the event thread stops pumping events. Just means your script is sleeping while the alert is on the screen, but it has to keep pumping events in order to draw the screen. While an alert is up the event pump is running which means it's entirely correct to keep sending out events. At best this demonstrates a cooperative threading that's can happen in javascript, but all of this behavior could be explained by a function simply appending an event to the event pump to be processed at a later point vs. doing it now. – chubbsondubs Dec 28 '10 at 15:12
But, remember cooperative threading is still single threaded. Two things can't happen simultaneously which is what multi-threading allows and injects non-determinism. All of what was described is deterministic, and it's a good reminder about these types of issues. Good job on the analysis @bobince – chubbsondubs Dec 28 '10 at 15:14
Chubbard is right: JavaScript is single threaded. This is not an example of multithreading, but rather synchronous message dispatch in a single thread. Yes, it's possible to pause the stack and have event dispatch continue (e.g. alert()), but the kinds of access problems that occur in true multithreaded environments simply can't happen; for example, you will never have a variable change values on you between a test and an immediately subsequent assignment, because your thread cannot be arbitrarily interrupted. I fear that this response is only going to cause confusion. – Kris Giesing Jul 18 '11 at 4:21
Yes, but given that a blocking function that waits for user input can happen in-between any two statements, you have potentially all the consistency problems that OS-level threads bring you. Whether the JavaScript engine actually runs in multiple OS threads is of little relevance. – bobince Feb 13 '12 at 9:57

I'd say yes - because virtually all existing (at least all non-trivial) javascript code would break if a browser's javascript engine were to run it asynchronously.

Add to that the fact that HTML5 already specifies Web Workers (an explicit, standardized API for multi-threading javascript code) introducing multi-threading into the basic Javascript would be mostly pointless.

(Note to others commenters: Even though setTimeout/setInterval, HTTP-request onload events (XHR), and UI events (click, focus, etc.) provide a crude impression of multi-threadedness - they are still all executed along a single timeline - one at a time - so even if we don't know their execution order beforehand, there's no need to worry about external conditions changing during the execution of an event handler, timed function or XHR callback.)

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I agree. If multi-threading is ever added to Javascript in the browser, it will be via some explicit API (e.g. Web Workers) just like it is with all imperative languages. That's the only way that makes sense. – Dean Harding Apr 29 '10 at 0:53

Yes, although Internet Explorer 9 will compile your Javascript on a separate thread in preparation for execution on the main thread. This doesn't change anything for you as a programmer, though.

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Yes, although you can still suffer some of the issues of concurrent programming (mainly race conditions) when using any of the asynchronous APIs such as setInterval and xmlhttp callbacks.

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hehe - nicely put. :-) – Már Örlygsson Apr 29 '10 at 0:33

Actually, a parent window can communicate with child or sibling windows or frames that have their own execution threads running.

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JavaScript/ECMAScript is designed to live within a host environment. That is, JavaScript doesn't actually do anything unless the host environment decides to parse and execute a given script, and provide environment objects that let JavaScript actually be useful (such as the DOM in browsers).

I think a given function or script block will execute line-by-line and that is guaranteed for JavaScript. However, perhaps a host environment could execute multiple scripts at the same time. Or, a host environment could always provide an object that provides multi-threading. setTimeout and setInterval are examples, or at least pseudo-examples, of a host environment providing a way to do some concurrency (even if it's not exactly concurrency).

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I'm going against the crowd here, but bear with me. A single JS script is intended to be effectively single threaded, but this doesn't mean that it can't be interpreted differently.

Let's say you have the following code...

var list = [];
for (var i = 0; i < 10000; i++) {
  list[i] = i * i;

This is written with the expectation that by the end of the loop, the list must have 10000 entries which are the index squared, but the VM could notice that each iteration of the loop does not affect the other, and reinterpret using two threads.

First thread

for (var i = 0; i < 5000; i++) {
  list[i] = i * i;

Second thread

for (var i = 5000; i < 10000; i++) {
  list[i] = i * i;

I'm simplifying here, because JS arrays are more complicated then dumb chunks of memory, but if these two scripts are able to add entries to the array in a thread-safe way, then by the time both are done executing it'll have the same result as the single-threaded version.

While I'm not aware of any VM detecting parallelizable code like this, it seems likely that it could come into existence in the future for JIT VMs, since it could offer more speed in some situations.

Taking this concept further, it's possible that code could be annotated to let the VM know what to convert to multi-threaded code.

// like "use strict" this enables certain features on compatible VMs.
"use parallel";

var list = [];

// This string, which has no effect on incompatible VMs, enables threading on
// this loop.
"parallel for";
for (var i = 0; i < 10000; i++) {
  list[i] = i * i;

Since Web Workers are coming to Javascript, it's unlikely that this... uglier system will ever come into existence, but I think it's safe to say Javascript is single-threaded by tradition.

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Most language definitions are designed to be effectively single-threaded though, and state that multithreading is permitted as long as the effect is identical. (e.g. UML) – jevon Feb 13 '12 at 3:42
I have to agree with the answer simply because the current ECMAScript makes no provision (although arguably I think the same can be said for C) for concurrent ECMAScript execution contexts. Then, like this answer, I'd argue that any implementation that does have concurrent threads being able to modify a shared state, is an ECMAScript extension. – user2864740 Feb 26 '14 at 21:59

Well, Chrome is multiprocess, and I think every process deals with its own Javascript code, but as far as the code knows, it is "single-threaded".

There is no support whatsoever in Javascript for multi-threading, at least not explicitly, so it does not make a difference.

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Ok this is an old thread but been helpfull, I have been trying to deal with a nexted timeout loop for a slideshow animation with hilarious, hypnotic but unintentional results:

General format:

function do_loop()

do multiple calls to function1 if fucntion2 is done

do multiple calls to function2 if function1 is done

timeout (do_loop)

Where function 1 & 2 are also on timeout loops.

the problem is that any way I try to send information back from function1 or 2 the main do_loop it gets garbled, despite various attempts to kill the timeout process to stop it running away.....

OK what the solution?

In my case interegating the HTML (DOM) for the final change that should occour in calls to function 1 before running the next function did the trick- this effectively checked that all calls to function1 had completed.

Hope this helps anyone else looking at the same problem.

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If you have a new question, please ask it by clicking the Ask Question button. Include a link to this question if it helps provide context. – mikek3332002 Sep 19 '14 at 0:13

@Bobince is providing a really opaque answer.

Riffing off of Már Örlygsson's answer, Javascript is always single-threaded because of this simple fact: Everything in Javascript is executed along a single timeline.

That is the strict definition of a single-threaded programming language.

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I've tried @bobince's example with a slight modifications:

    <textarea id="log" rows="20" cols="40"></textarea>
    <br />
    <button id="act">Run</button>
    <script type="text/javascript">
        let l= document.getElementById('log');
        let b = document.getElementById('act');
        let s = 0;

        b.addEventListener('click', function() {
            l.value += 'click begin\n';

            s = 10;
            let s2 = s;


            s = s + s2;

            l.value += 'click end\n';
            l.value += `result = ${s}, should be ${s2 + s2}\n`;
            l.value += '----------\n';

        window.addEventListener('resize', function() {
            if (s === 10) {
                s = 5;

            l.value+= 'resize\n';

So, when you press Run, close alert popup and do a "single thread", you should see something like this:

click begin
click end
result = 20, should be 20

But if you try to run this in Opera or Firefox stable on Windows and minimize/maximize window with alert popup on screen, then there will be something like this:

click begin
click end
result = 15, should be 20

I don't want to say, that this is "multithreading", but some piece of code had executed in a wrong time with me not expecting this, and now I have a corrupted state. And better to know about this behavior.

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Try to nest two setTimeout functions within each other and they will behave multithreaded (ie; the outer timer won't wait for the inner one to complete before executing its function).

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How do you nest setTimeouts? An example please... – nnnnnn Jul 12 '11 at 4:39
chrome does this the right way, dunno where @James sees it being multithreaded...: setTimeout(function(){setTimeout(function(){console.log('i herd you liek async')}, 0); alert('yo dawg!')}, 0) (for the record, yo dawg should ALWAYS come first, then the console log output) – Tor Valamo Feb 14 '12 at 0:38

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