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Could someone explain, why do we use callback in JavaScript? I found examples, but they could be implemented by using the normal functions. What is the advantage of using it? I got answers to "how" to use it and not "why and when" do we need to use it.

Typically, I found it being used in AJAX. on the httpRequest.onreadystatechange. Is this similar to Java's multi-threading? How and where is the listener for the response? Is asyncronous programming akin to multi-threading?

In the following code, how is the flow of control:

function some_function(arg1, arg2, callback) {
  var my_number = Math.ceil(Math.random() * (arg1 - arg2) + arg2);
some_function(5, 15, function(num) {
   console.log("callback called! " + num);

From the JQuery website:

The special thing about a callback is that functions that appear after the "parent" can execute before the callback executes" (ref: http://docs.jquery.com/Tutorials:How_jQuery_Works)

Could someone explain me this line with an example?

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A similar question has been asked here and a well explained answer too stackoverflow.com/questions/5485495/… –  user879006 Aug 15 '11 at 20:35
"but they could be implemented by using the normal functions" Please show me an asynchronous AJAX handler that handles the HTTP response without a callback function. –  Lightness Races in Orbit Aug 15 '11 at 20:37
@Tomalak Geret'kal: I think u misunderstood me. When I said "Typically, I found it being used in AJAX", I meant I found examples of AJAX that were using callback. I wanted other examples, besides AJAX where callbacks were needed. Also, in AJAX, how does the listening process goes on? –  Harke Aug 15 '11 at 20:55
Also, in AJAX, how does the listening process goes on? How is the request being listened in parallel with the user making another request? (the link does not explain this). –  Harke Aug 15 '11 at 21:03

6 Answers 6

up vote 8 down vote accepted

The main browser process is a single threaded event loop. If you execute a long-running operation within a single-threaded event loop, the process "blocks". This is bad because the process stops processing other events while waiting for your operation to complete. 'alert' is one of the few blocking browser methods: if you call alert('test'), you can no longer click links, perform ajax queries, or interact with the browser UI.

In order to prevent blocking on long-running operations, the XMLHttpRequest provides an asynchronous interface. You pass it a callback to run after the operation is complete, and while it is processing it cedes control back to the main event loop instead of blocking.

There's no reason to use a callback unless you want to bind something to an event handler, or your operation is potentially blocking and therefore requires an asynchronous programming interface.

This is an excellent video discussing more about the event loop used in the browser, as well as on the server side in node.js.

EDIT: that convoluted line from the jQuery documentation just means that the callback executes asynchronously as control is ceded back to the main event loop.

parent_function(function () { console.log('Callback'); });
parent_doesnt_block(); // <-- function appears after "parent"
// Maybe we get 'Callback' in the console here? or maybe later...
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Not quite like multithreading...

You use a callback anytime you need to wait on something external to your primary JS code. In a browser this is used a ton for AJAX, and in node.js it's used for every single thing that calls out to the system (file access, networks access, database requests, etc).

Let's say you want to fire an ajax request everytime a user clicks a button. Now lets say that ajax request takes 10 seconds to complete. The user then clicks 10 of these buttons before those 10 seconds are up. This would repeatedly call a function like this:

var clicked = function() {
  doAjax('/some/path.json', function(result) {

This runs code in the JS engine for only long enough to make the request. Then it idles while it waits. Other JS can run at this point, the UI is totally fluid and interactive, everything is awesome. Then suddenly, all 10 of those requests resolve at once. And then our callback is invoked 10 times like magic.

This works because every time we call clicked() we are creating a new function object, and passing it to the doAjax() function. So there are 10 unique callback function objects hanging out in memory, each one bound to a specific request by the doAjax() function. When a request returns, it finds the associated callback object and calls it.

The huge advantage here is that, although javascript is single threaded, you never tie up that thread with waiting. If you JS thread is busy, it should only ever be because it's actively running code. So even though JS is single threaded, it's trivial for your code to implicitly hold the state of any number of any kind of asynchronous tasks.

The synchronous method of callbacks are used for a different purpose usually. Like listeners or delegates. Like telling object A to callback when it's data changes. While not strictly asynchronous, you usually aren't calling that callback immediately. Instead it will be called later in response to some sort of user action of event.

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Callbacks allow single-threaded operations (Javascript is single-threaded) to execute asynchronously.

The most obvious example is AJAX calls, where you have a callback that executes after the AJAX request is done. The AJAX request can take a while, and if it were a normal function call, the whole page would be frozen (can't scroll, can't select text, etc) while the request loads.

This is achieved through either setTimeout or setInterval which enqueues a function to be called at a later time, while allowing other code to execute in between. So when you're waiting for that AJAX call to finish, other code (which includes the browser updating) is allowed to execute.

Since you want examples other than AJAX, the other common usage for the async nature is for animations. Callbacks are required for animations because it needs to allow the UI to draw.

Say you wanted to animate a div 100px to the right over 5 seconds. Your first instinct might say create a loop and sleep in between. But there is no sleep in Javascript, and even if there was, it would just freeze the UI because nothing can happen while it's sleeping.

Instead you need do something along the lines of increment the position by 10, then call setTimeout for 500 ms with a callback to execute the next frame. This would probably be done recursively.

An additional use would be just simply to pass functions as parameters, although I'm not sure if the term "callback" is appropriate for that use case. That is the way you've used it in your example, some_function can be reused with a variety of functions used as callbacks, so sort of injecting code.

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Oh.. so this seems similar to the JAVA multi-threading. –  Harke Aug 15 '11 at 21:07
@Harke it's used for similar purposes, however callbacks are less error prone than multi-threading. For instance you can never have race conditions or deadlocks in Javascript (although you can have infinite loops, which to the user is the same as a deadlock, but from a programmer standpoint is easier to debug). –  Davy8 Aug 15 '11 at 21:17
The disadvantage of callbacks is that it requires a different mode of thinking than some programmers are used to (to be fair, so does correct multi-threading). You do also lose access to a proper stack trace when using callbacks because they're executed async. –  Davy8 Aug 15 '11 at 21:20

Because the javascript being executed is Asynchronous, therefore if you just put any old function after making the asynchronous request, it will likely be called before the original request completes. The original request will return as soon as it BEGINS (is sent out), not completes.

If you need to do something with the result of the asynchronous request, or chain together requests, etc you will need a callback to ensure the next step doesn't begin before the previous step is finished.

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Callbacks are used all over the place in JS, particularly in jQuery.

One place you need to use a callback is anywhere the language doesn't give you coordination. Coordination means code doesn't execute until the data it needs is ready. Synchronous calls are coordinated; the call doesn't return until the sub-computation is finished. Asynchronous calls don't give you coordination, so you need a callback.

  • Event-driven computation can be uncoordinated, so event handlers are callbacks:

    <input id="a" /> <button id='add'>+</button> <input id="b" /> = <span id="c"></span>
    <script type="text/javascript">
          function() {
              $('#c').text(parseInt($('#a').val()) + parseInt($('#b').val()));

    In JS specifically, coordination for event dispatch (e.g. the DOM dispatchEvent, jQuery trigger and IE fireEvent methods) is left unspecified (except for nested DOM events, which are synchronous). If you trigger an event, the handlers may be deferred and execution immediately return to whatever is after the trigger. Event handlers are usually called synchronously, but they don't need to be.

  • JQuery effects usually take a callback to execute once they finish. Animation functions are asynchronous so that they don't block the rest of the script.

Callbacks are also useful for functions that define the outer part of some computation, but leave an inner part undefined. Here are some examples:

  • You can use callbacks to filter collections:

    // get odd items
    $([0,1,2,3,4,5,6,7,8,9]).filter(function (i) {return this % 2;})
    // or:
    $.grep([0,1,2,3,4,5,6,7,8,9], function (x, i) {return x % 2;});
  • Array.sort takes a callback so you can define how elements are compared.

    [{name: 'foo', id: 1}, {name: 'bar', id: 5}, {name: 'baz', id: 3}]
        .sort(function (a,b) { 
            return a.name.localeCompare(b.name); 

Some of jQuery's DOM manipulation methods (such as append, prepend and wrap take a callback to construct an element based on context provided by the jQuery method. You could view the callback as providing an inner portion of a computation or as a matter of coordination: when the outer computation is started, the needed data to build the new DOM elements isn't available; the callback finishes the sub-computations to create the elements when the data becomes available.

setTimeout and setInterval both take callbacks to execute after a delay.

Starting with version 1.5, jQuery offers deferred objects as a way of managing multiple callbacks, with various execution dependencies between the callbacks.

A callback is very similar to a "continuation", which basically means "the rest of the computation". The difference is that a continuation represents the entirety of the rest of the computation while a callback represents the rest of a sub-computation. Continuations are part of a whole style of programming known as "continuation passing style" (CPS). With continuations, you can create all sorts of interesting control structures. For example, continuations can be used to implement exceptions and coroutines.

Depending on the features of the language engine (in particular, you need tail call optimization), CPS can offer a more efficient approach. Some control structures (such as coroutines) require tail calls, otherwise you'll get a stack overflow*.

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* Everyone must now do a shot. –  outis Aug 15 '11 at 22:02

Is asyncronous programming akin to multi-threading?


Javascript's asynch model provides a way to do work "in the background".

Suppose you have a long-running calculation. This might be hard to imagine for a simple js demo, but imagine a long decompression routine, or a long-running path finding algorithm in a game, etc. some numerical calculation that takes more than a second.

Doing the calculation by directly invoking the function will work, but it will suspend the browser UI for the duration of the calculation. Running things asynchronously means the browser UI remains responsive, as the calculation continues running on a background thread. When the calc completes, according to the asynch programming pattern, the function invokes the callback function, notifying the application layer that the calculation is complete.

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This is incorrect, Javascript is single-threaded so if you have a computationally intensive algorithm there's no way to do it "in the background". You can however break the calculation into chunks and call setTimeout(0, function () { /*next chunk of code */}); which would yield to the UI but isn't the same as simply throwing a calculation onto a background thread. –  Davy8 Aug 15 '11 at 20:53
Here's an example that illustrates why this answer is incorrect. Using a setTimeout with a 10ms duration it asynchronously invokes a long_running_calc function that will take 5000ms to complete. Immediately after, it invokes another quick function in a setTimeout that delays the execution for 1000ms. The second function doesn't run after 1000ms, but instead it blocked until the long_running_calc is complete. This is due to the single-threaded nature of JavaScript. Web Workers are the only way to operate on a different thread. –  user113716 Aug 15 '11 at 21:02
What you're describing is only possible with HTML5 web-workers, otherwise all asynchronous calculations are performed in the same thread as the main event loop. –  Peter Aug 15 '11 at 21:25

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