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Given the following examples, why is outerScopeVar undefined in all cases?

var outerScopeVar;

var img = document.createElement('img');
img.onload = function() {
    outerScopeVar = this.width;
};
img.src = 'lolcat.png';
alert(outerScopeVar);

var outerScopeVar;
setTimeout(function() {
    outerScopeVar = 'Hello Asynchronous World!';
}, 0);
alert(outerScopeVar);

// Example using some jQuery
var outerScopeVar;
$.post('loldog', function(response) {
    outerScopeVar = response;
});
alert(outerScopeVar);

// Node.js example
var outerScopeVar;
fs.readFile('./catdog.html', function(err, data) {
    outerScopeVar = data;
});
console.log(outerScopeVar);

Why does it output "undefined" in all of these examples? I don't want workarounds, I want to know why this is happening.


Note: This is a canonical question for JavaScript asynchronicity. Feel free to improve this question and add more simplified examples which the community can identify with.

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2  
Related Meta discussion - General JavaScript asynchronicity reference for close voting? –  Dukeling May 16 at 0:02
    
@Dukeling thanks, I'm pretty sure that I had commented with that link but there are apparently some missing comments. Also, regarding your edit: I believe having "canonical" and "asynchronicity" in the title helps when searching for this question to mark another question as a dupe. And of course, it also helps in finding this question from Google when looking for asynchronicity explanations. –  Fabrício Matté May 16 at 0:18
    
Putting a bit more of thought, "canonical asynchronicity topic" is a bit heavy on the title, "asynchronous code reference" is simpler and more objective. I also believe most people search for "asynchronous" instead of "asynchronicity". –  Fabrício Matté May 20 at 12:16
    
Some people initialize their variable before the function call. How about changing the title that somehow represents that as well? Like "Why is my variable unaltered after I modify it inside of a function?" ? –  Felix Kling Jul 7 at 8:32
    
@FelixKling great suggestion, thanks. =] –  Fabrício Matté Jul 7 at 17:36

2 Answers 2

up vote 55 down vote accepted
+400

One word answer: asynchronicity.

Forewords

This topic has been iterated at least a couple of thousands times, here, in Stack Overflow. Hence, first off I'd like to point out some extremely useful resources:


The answer to the question at hand

Let's trace the common behavior first. In all examples, the outerScopeVar is modified inside of a function. That function is clearly not executed immediately, it is being assigned or passed as an argument. That is what we call a callback.

Now the question is, when is that callback called?

It depends on the case. Let's try to trace some common behavior again:

  • img.onload may be called sometime in the future, when (and if) the image has successfully loaded.
  • setTimeout may be called sometime in the future, after the delay has expired and the timeout hasn't been cancelled by clearTimeout. Note: even when using 0 as delay, all browsers have a minimum timeout delay cap (specified to be 4ms in the HTML5 spec).
  • jQuery $.post's callback may be called sometime in the future, when (and if) the Ajax request has been completed successfully.
  • Node.js's fs.readFile may be called sometime in the future, when the file has been read successfully or thrown an error.

In all cases, we have a callback which may run sometime in the future. This "sometime in the future" is what we refer to as asynchronous flow.

Asynchronous execution is pushed out of the synchronous flow. That is, asynchronous code will never execute while the synchronous code stack is executing. This is the meaning of JavaScript being single-threaded.

More specifically, when the JS engine is idle -- not executing a stack of (a)synchronous code -- it will poll for events that may have triggered asynchronous callbacks (e.g. expired timeout, received network response) and execute them one after another. This is regarded as Event Loop.

That is, the asynchronous code highlighted in the hand-drawn red shapes may execute only after all the remaining synchronous code in their respective code blocks have executed:

async code highlighted

In short, the callback functions are created synchronously, but executed asynchronously. You just can't rely on the execution of an asynchronous function until you know it has executed, and how to do that?

It is simple, really. The logic that depends on the asynchronous function execution should be started/called from inside this asynchronous function. For example, moving the alerts and console.logs to inside the callback function would output the expected result, because the result is available at that point.

Implementing your own callback logic

Often you need to do more things with the result from an asynchronous function, or do different things with the result depending from where the asynchronous function has been called. Let's tackle a bit more complex example:

var outerScopeVar;
helloCatAsync();
alert(outerScopeVar);

function helloCatAsync() {
    setTimeout(function() {
        outerScopeVar = 'Nya';
    }, Math.random() * 2000);
}

Note: I'm using setTimeout with a random delay as a generic asynchronous function, the same example applies to Ajax, readFile, onload and any other asynchronous flow.

This example clearly suffers from the same issue as the other examples, it is not waiting until the asynchronous function executes.

Let's tackle it implementing a callback system of our own. First off, we get rid of that ugly outerScopeVar which is completely useless in this case. Then we add a parameter which accepts a function argument, our callback. When the asynchronous operation finishes, we call this callback passing the result. The implementation (please read the comments in order):

// 1. Call helloCatAsync passing a callback function,
//    which will be called receiving the result from the async operation
helloCatAsync(function(result) {
    // 5. Received the result from the async function,
    //    now do whatever you want with it:
    alert(result);
});

// 2. The "callback" parameter is a reference to the function which
//    was passed as argument from the helloCatAsync call
function helloCatAsync(callback) {
    // 3. Start async operation:
    setTimeout(function() {
        // 4. Finished async operation,
        //    call the callback passing the result as argument
        callback('Nya');
    }, Math.random() * 2000);
}

Most often in real use cases, the DOM API and most libraries already provide the callback functionality (the helloCatAsync implementation in this demonstrative example). You only need to pass the callback function and understand that it will execute out of the synchronous flow, and restructure your code to accommodate for that.

You will also notice that due to the asynchronous nature, it is impossible to return a value from an asynchronous flow back to the synchronous flow where the callback was defined, as the asynchronous callbacks are executed long after the synchronous code has already finished executing.

Instead of returning a value from an asynchronous callback, you will have to make use of the callback pattern, or... Promises.

Promises

Although there are ways to keep the callback hell at bay with vanilla JS, promises are growing in popularity and are currently being implemented in the DOM standard (see Promise - MDN).

Promises (a.k.a. Futures) provide a more linear, and thus pleasant, reading of asynchronous code, but explaining their entire functionality is out of the scope of this question. Instead, I'll leave these excellent resources for the interested:


More reading material about JavaScript asynchronicity


Note: I've marked this answer as Community Wiki, hence anyone with at least 100 reputation can edit and improve it! Please feel free to improve this answer, or submit a completely new answer if you'd like as well.

I want to turn this question into a canonical topic to answer asynchronicity issues which are unrelated to Ajax (there is How to return the response from an AJAX call? for that), hence this topic needs your help to be as good and helpful as possible!

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Fabrício's answer is spot on; but I wanted to complement his answer with something less technical, which focusses on an analogy to help explain the concept of asynchronicity.


An Analogy...

Yesterday, the work I was doing required some information from a colleague of mine. I rang him up; here's how the conversation went:

Me: Hi Bob, I need to know how we foo'd the bar'd last week. Jim wants a report on it, and you're the only one who knows the details around it.

Bob: Sure thing, but it'll take me around 30 minutes?

Me: That's great Bob. Give me a ring back when you've got the information!

At this point, I hung up the phone. Since I needed information from Bob to complete my report, I left the report and went for a coffee instead, then I caught up on some email. 40 minutes later (Bob is slow), Bob called back and gave me the information I needed. At this point, I resumed my work with my report, as I had all the information I needed.


Imagine if the conversation had gone like this instead;

Me: Hi Bob, I need to know how we foo'd the bar'd last week. Jim want's a report on it, and you're the only one who knows the details around it.

Bob: Sure thing, but it'll take me around 30 minutes?

Me: That's great Bob. I'll wait.

And I sat there and waited. And waited. And waited. For 40 minutes. Doing nothing but waiting. Eventually Bob gave me the information, we hung up, and I completed my report. But I'd lost 40 minutes of productivity.


Welcome to asynchronous vs synchronous behaviour

This is exactly what is happening in all the examples in our question. Loading an image, loading a file off disk, and requesting a page via AJAX are all slow operations (in the context of modern computing).

Rather than waiting for these operations to complete, JavaScript allows you to register a callback, which executes when the operation has completed. In the meantime, the JavaScript engine goes off and does something else. This is called asynchronous behaviour. If JavaScript had waited around, this would have been synchronous behaviour.

Let's map our analogy to one of the examples in the question:

// This is my report. It needs completing
var outerScopeVar;

// This is where I make the phone call to Bob
var img = document.createElement('img');

// This is where I ask him for the information
img.src = 'lolcat.png';

// This is where I ask him to ring me back 
img.onload = function() {
    // And when he rings me back, I will do:
    // complete my report with the information I got now
    outerScopeVar = this.width;
};

// But in the meantime, I go and get some coffee. "alert(outerScopeVar);"
// shouldn't be here; this is what is causing the problem with our code.
// We'll fix that below.
alert(outerScopeVar);

Note I've moved img.src = 'lolcat.png' up a few lines from where it was in the question. This is just so the story makes sense... it'll work perfectly fine where it was!


Back to the original question...

If you look at the code example above, you'll see our alert(outerScopeVar) is in the part of the code which happens immediately. This is why it doesn't show the correct value; because the value hasn't been received yet! It's like giving Jim the empty sheet right after having hung up, before Bob calls me back.

All we need to do, is to move that code into the callback as well;

var outerScopeVar;
var img = document.createElement('img');

img.onload = function() {
    outerScopeVar = this.width;
    alert(outerScopeVar);
};

img.src = 'lolcat.png';

You'll always see a callback being specified as a function, because that's the only* way in JavaScript to define some code, but not execute it until later.

In all of our examples, the function() { /* Do something */ } is the callback; move the code which needs the response of the operation into there!

You'll also notice there's now no need to have outerScopeVar declared as a global variable. Your code can just become:

var img = document.createElement('img');

img.onload = function() {
    var localScopeVar = this.width;
    alert(localScopeVar);
};

img.src = 'lolcat.png';

* Technically you can use eval() as well, but eval() is evil for this purpose


But I've got Jim waiting for me to finish the report. How do I keep him waiting?

You might have something like this at the moment:

function goAndCreateAReportPlease(onWhat) {
    var outerScopeVar;

    var img = document.createElement('img');
    img.onload = function() {
        outerScopeVar = this.width;
    };
    img.src = 'lolcat.png';
    return outerScopeVar;
}

var report = goAndCreateAReportPlease('how did we foo the bar?');
alert(report);

However, we now know that the return outerScopeVar happens immediately; before we've had chance to get the data from Bob. Jim get's an incomplete report, and isn't happy.

Well, Jim doesn't want to wait by my desk for me to finish me report. He asked me to do it, and told me to call him back once it was done.

Sound familiar?

That's right... we need to allow Jim to register a callback, so we can tell him once the report is finished.

function goAndCreateAReportPlease(onWhat, callback) {
    var img = document.createElement('img');

    // Here's where I'm telling Bob to call me back once he's got the information
    img.onload = function() {
        // This is where I complete my report once I've got my information,
        // and then call back Jim once I've done.
        callback(this.width);
    };

    // Here's where I'm telling Bob the information I need.
    img.src = 'lolcat.png';
}

// Jim asks me to create a report. He passes his callback as a second parameter
goAndCreateAReportPlease('how did we foo the bar?', function (report) {
    // This is where I'm ringing him with the report.
    alert(report);
});

// In the meantime, Jim can go and do something else.
share|improve this answer
    
Uh, I now imagine an [event] queue of ringing phones in front of me while still finishing my email :-) –  Bergi May 29 at 15:57
    
Thanks for the awesome answer! Just a few things to note: in your dialogue examples, you're using both "me" and "Matt" to refer to yourself -- at first glance that seems to imply different persons. As for the img.onload's "instant callback", I was considering leaving it outside of the topic's scope as that is mostly a caveat/implementation detail with img.onload than the callback pattern. But it is not bad to have extra info about that regardless. –  Fabrício Matté May 30 at 0:40
    
@FabrícioMatté: Fixed the "me" vs "Matt"; you won't believe how many times I've read through the answer and never noticed that. I'm quite happy to leave the onload out; as you said, it makes the answer shorter, and is an onload problem instead of that of asynchronicity. –  Matt Jun 1 at 17:13

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