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Consider this:

window.onload = function () {

var myObj = {
    init: function () {
        console.log("init: Let's call the callMe method...");

        //callMe is not defined...

        //Works fine!

    callMe: function () {

Since the init function gets called this way (myObj.init), I expect this to be myObj in the init function. And if that is the case, why the callMe function fails? How am I supposed to call the callMe function without using the this context in the init body? (Actually, it's too annoying to call the object methods using this over and over again through the functions. So what's the point of having a single object?)

I would like to know how can I fix this so that the callMe method gets called using the first invocation in the code above?

share|improve this question
JavaScript is not like "other languages" because it's scripting language thus has some basic limitations. Object in JavaScript is not really an object, it's more like array that can have functions as its items. Want proof? So, I fear you'll have to follow Mr. Crowder's advice and just get used to typing this –  Shadow Wizard Dec 13 '10 at 13:08
@Shadow Wizard: You example is misleading. Objects are not arrays. Arrays are objects! –  Felix Kling Dec 13 '10 at 13:26
@Shadow Wizard: "Object in JavaScript is not really an object" Sure it is. All that fiddle shows is that arrays in JavaScript are objects. (Which they are. In fact, they're not arrays, but that's neither here nor there...) JavaScript's objects are true objects. They're just incredibly open and flexible ones. –  T.J. Crowder Dec 13 '10 at 13:27
@Felix, @T.J. Thanks, I stand corrected.. they are objects but as the this issue demonstrates, different objects than in languages like C# or Java where the this is not required. –  Shadow Wizard Dec 13 '10 at 13:42

2 Answers 2

up vote 8 down vote accepted

this is never implicit in JavaScript as it is in some other languages. Although there are ways to do it, like this using the with statement:

init: function () {
    console.log("init: Let's call the callMe method...");

    // Make `this` implicit (SEE BELOW, not recommended)
    with (this) {
        // Works
},'s generally a bad idea. Douglas Crockford probably wrote one of the better descriptions of why it's a bad idea, which you can find here. Basically, using with makes it nearly impossible to tell what the code's going to do (and slows the code down, if you do anything else in that with statement that doesn't come from the this object).

This isn't the only way that JavaScript's this is not the same as it is in some other languages. In JavaScript, this is defined entirely by how a function is called, not where the function is defined. When you do this.callMe() (or the equivalent this["callMe"](), or of course foo.callMe(), etc.), two things happen: The function reference is retrieved from the property, and the function is called in a special way to set this to be the object that property came from. If you don't call a function through a property that way, the call doesn't set any particular this value and you get the default (which is the global object; window on browsers). It's the act of making the call that sets what this is. I've explored this in depth in a couple of articles on my blog, here and here.

This (no pun) can be made even clearer if you look at JavaScript's call and apply functions, which are available on all function objects. If I do this:{});'ll call the callMe function with a blank object ({}) as this.

So basically, just get used to typing this. :-) It's still useful to have properties and methods associated with an object, even without the syntactic convenience (and confusion!) of an implicit this.

share|improve this answer
Very nice explanation! with is really evil (and i never used it). +1! –  jwueller Dec 13 '10 at 13:01
Well, so what's the point of grouping those methods into a given object if I've to type this over and over again? Actually, the typing isn't the problem. The problem is that I've to watch for the closures and some other areas. So it ends up having a "me" local variable pointing to this, and then calling the member methods (or whatever they are called under JS) on the "me" context. This actually increases the code size and makes it complicated. I'm really wondered if it's not addressed by a given framework yet... –  J Rattz Dec 13 '10 at 13:11
@J Rattz: I think there's a lot of value in organizing data into objects, even if you have to specify the object expressly. Yes, with closures and such, you do have to assign to a var the closure closes over (I see self used a lot; me is good; perhaps t?), but the flexibility that JavaScript's functions provide more than makes up for it in my book. In terms of code size, throw a minifier or even the Closure Compiler at it. (Of course, that doesn't help if you're already doing that.) :-) –  T.J. Crowder Dec 13 '10 at 13:24
@J Rattz: (I don't mean to pummel you with information. :-) ) Re "I'm really wondered if it's not addressed by a given framework yet" The thing is, it would be expensive at runtime. You'd basically have to make each function a wrapper around a function that then called the original with a particular this value. In fact, the two popular frameworks jQuery and Prototype both offer features for that here and here. But using a closure directly, as you suggested, is much more efficient. –  T.J. Crowder Dec 13 '10 at 13:32
@T.J. Crowder: –  jwueller Dec 13 '10 at 13:45

You can also use the module pattern, which captures all private variables inside a closure, so you are free to use them without this, as they're in the same scope. You then pick and choose which methods/variables you want to make public:

var myObj = (function () {
   var init = function () {
      callMe(); // This now works

   var callMe = function () {

   // Now choose your public methods (they can even be renamed):
   return {
      init: init, // Same name
      callMyName: callMe // Different name
}) ();


myObj.init(); // Works
myObj.callMyName(); // Works
myObj.callMe(); // Error
share|improve this answer
Yeah, for his specific example, since it's just a single object and not a constructor function, that would work. It doesn't generalize well once you're doing the constructor function, though, because you end up replicating functions (in memory, not in the source) for every instance, which starts being expensive -- you lose the prototypical benefit. (Don't get me wrong, I love the module pattern and use it all the time to let my "classes" [constructor functions] share data and have private functions available to instances. I just don't do it at the instance level.) –  T.J. Crowder Dec 13 '10 at 13:21
@T.J Crowder: I'm not pummeled, but I'm confused a little bit when I saw the box9's answer, the "module pattern". I'm just trying to figure it out once and forever. So, it'd be highly appreciated if you tell me how does the context gets resolved by the JS Engine. Is it all because of the myObj.init() line that the JS Engine decides what context it's going to be used? Please explain this more. Really thanks. I actually thought that calling myFunc function without specifying its context simply means calling it on the window object, but obviously, I was wrong. Would you please explain this more? –  J Rattz Dec 13 '10 at 13:52
@J Rattz: No problem. :-) This post on my blog may help; I go into scope in there a fair bit. Scope in JavaScript is object-oriented. When you call a function, an object is created for that call, which has properties on it for all of that function's arguments, var s, and contained function declarations. That object is put at the top of the "scope chain", so a free reference to a symbol (callMe, for instance) will be checked against that object first. If there's a matching property...(cont'd) –  T.J. Crowder Dec 13 '10 at 14:31
@J Rattz: (continuing) ...that property value is used; if there's no matching property, the next scope object in the chain (the one for the call to the containing context) is checked; and so on. At the global execution context, this scope object is the window object (which is unusual; all of the others are completely anonymous). The key here is that the scope object (more properly the variable object for the execution context for the call to the function) is per call. In box9's example above, there's an anonymous wrapper function that creates an execution context...(cont'd) –  T.J. Crowder Dec 13 '10 at 14:35
@J Rattz: (continuing) ...and therefore a variable object (scope object) which contains both init and callMe. Then he returns an object which has a reference to init (in its init property) and callMe (in its callMyName property). Since both of those are closures over the scope object created by the call to the anonymous function, they both have access to the variable callMe contained by that scope object -- but nothing else does, it's entirely private. The scope object for that call lives as long as you retain a reference to the object the call returned. HTH! –  T.J. Crowder Dec 13 '10 at 14:38

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