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I'm trying to understand the difference between foo.bar() and var fn = foo.bar; fn();

I've put together a little example, but I dont totally understand why the failing ones actually fail.

var Dog = function() {
    this.bark = "Arf";

Dog.prototype.woof = function() {
    $('ul').append('<li>'+ this.bark +'</li>');

var dog = new Dog();

// works, obviously

// works

var fnWoof = dog.woof;

// works
setTimeout(function() {
}, 0);

setTimeout(dog.woof, 0);

Which produces:

  • Arf
  • Arf
  • undefined
  • Arf
  • undefined

On JSFiddle: http://jsfiddle.net/D6Vdg/1/

So it appears that snapping off a function causes it to remove it's context. Ok. But why then does (dog.woof)(); work?

It's all just a bit confusing figuring out whats going on here. There are obviously some core semantics I'm just not getting.

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+1, I would have said (dog.woof)(); will fail. wtf –  goat Jan 10 '11 at 1:42
My only guess is some bizarre on the fly "optimization" of the "compiler". But I don't know anywhere near enough about javascript runtimes to understand it. –  Alex Wayne Jan 10 '11 at 1:45
I think the answer is really simple. (xxx) returns the result of the expression inside. Since the expression is dog.woof the call operator () operates on that. You could do (dog.undefined || dog.nothing || dog.woof)() and it would work too. –  Hemlock Jan 10 '11 at 1:57
@Hemlock, fail as in lose its implied object, in the same way var fnWoof = dog.woof; loses its implied object. –  goat Jan 10 '11 at 2:07
@chris Yeah, I got that. The context isn't lost in that case, it just returns the result of the expression, context and all. –  Hemlock Jan 10 '11 at 2:14

4 Answers 4

up vote 5 down vote accepted

The problem is with context and the this keyword.

Functions don't inherently "belong" to an object. For example, I can create a cat object and copy the woof function over:

var cat = {
    bark: "meow",
    woof = Dog.prototype.woof

Now cat.woof will give me "meow". Because of this flexibility of functions to be copied and re-assigned, var fnWoof = dog.woof; disassociates fnWoof from dog - it has no context. Therefore the context, and the this keyword, defaults to window. Since window doesn't have a bark property, you get undefined.

If you give window a bark property:

window.bark = "Arf";

Then your code will work (although erroneously):

fnWoof(); // "Arf"

To make it work as expected, you can pass in the context explicity:

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+1, here is a jsFiddle update showing the use of 'call' jsfiddle.net/subhaze/D6Vdg/4 –  subhaze Jan 10 '11 at 2:01
So how does this get mapped the right instance in the invocations that work? In ruby terms, is this always set to the receiver object that you are calling the method on? I guess is it the dot notation anyobj.anyfn() the makes this = anyobj inside anyfn()? And therefore, anyobj.anyfn() is simply syntax sugar for anyobj.anyfn.call(anyobj). And without a "receiver" it defauls to window, making it window.anyfn.call(window). Do I have that right? –  Alex Wayne Jan 10 '11 at 2:08
@Squeegy, yes that's exactly right and a very nice way to put it. Although, without the receiver, it defaults to someFn.call(window), or whatever the reference is –  Box9 Jan 10 '11 at 2:11
Thanks, this helps. I didn't realize it was the dot syntax that assigns this. I assumed it was some magic with promotype and new. This makes far more sense. Thanks. –  Alex Wayne Jan 10 '11 at 2:19

dog.woof has to be run in the context of an instance of Dog because it depends on this.bark, as you seem to understnad

Dog.prototype.woof2 = function() {$('ul').append('<li>'+ 'arf' +'</li>'); }; 

If you replace those failing woof with woof2 it could run anywhere

As for the case (dog.woof)(); vs var fnWoof = dog.woof; fnWoof(); it is kind of counterintuitive. The difference is the assignment. The first case still runs it as belonging to dog, whereas the second does not. It is assignment time that takes woofand puts it into a different constant, not merely accessing it.

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In foo.bar(), the function is called with the value of foo as the value of this. With var fn = foo.bar; fn(); the function is called with null as the value of this which is automatically coerced to the global object when this is evaluated.

The relevant portion of the spec is below. See especially 7. If it's a property reference (i.e. an expression like a.b or a[b]), then thisValue becomes the base of the property reference.

11.2.3 Function Calls

The production CallExpression : MemberExpression Arguments is evaluated as follows:

  1. List item
  2. Let ref be the result of evaluating MemberExpression.
  3. Let func be GetValue(ref).
  4. Let argList be the result of evaluating Arguments, producing an internal list of argument values (see 11.2.4).
  5. If Type(func) is not Object, throw a TypeError exception.
  6. If IsCallable(func) is false, throw a TypeError exception.
  7. If Type(ref) is Reference, then

a. If IsPropertyReference(ref) is true, then Let thisValue be GetBase(ref).

b. Else, the base of ref is an Environment Record so Let thisValue be the result of calling the ImplicitThisValue concrete method of GetBase(ref).

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This is a particularly confusing bit of code for a number of reasons that I'll try to explain.

First... the setTimeOut method is a bit of a PITA as explained here: http://ifhere.org/javascript

The issue you're having with the setTimeout(dog.woof, 0); is because of setTimeOut, not your code (well not entirely your code).

The main issue tho is that the dog.woof is getting executed, it's the value of bark that is undefined and the reason it's undefined is because you are passing the function itself as the parameter, not the function as it is attached to the variable dog.

in both:

var fnWoof = dog.woof;


setTimeout(dog.woof, 500);

you are passing the function definition as opposed to the instantiated object and it's associated function.

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