Take the 2-minute tour ×
Stack Overflow is a question and answer site for professional and enthusiast programmers. It's 100% free, no registration required.

I'm trying to wrap my head around closures (there's a joke in there somewhere) and I ran across this:

(function () { /* do cool stuff */ })();

How does this work? What's the purpose of putting the function in parens? Why the empty parens afterwards?

share|improve this question

6 Answers 6

up vote 29 down vote accepted

The point of this is that any variables declared in the cool stuff will not be created in global namespace. Any function in javascript will create such a scope. Suppose you have some javascript you want to run. If you do this:

var b = 1; 
// stuff using b

And some other code uses b, it will get your left over value. (Or, even worse, if some other code sets b before your code runs, then tries to get its old value later, you'd have changed it in the meantime.)

On the other hand, if you have this code, which declares and then calls the a function:

function a() { 
     var b = 1;
}

a();

And some other code later on uses b, it will not see your values, since b is local to the function. The problem with this, of course, is that you're still making a global name - "a", in this case. So, we want a function with no name - this is why you get the code you described. It declares a function with no name, and then calls it.

Unfortunately, you can't just say:

function() { ... }()

because this will be parsed as a function declaration statement, and then a syntax error. By wrapping the function declaration in parenthesis, you get a function expression, which can then be called. You call it like any other function expression (like a, above), using the second set of parens. For example, if the function took arguments, you'd pass them there:

(function(a) { ... })(1)
share|improve this answer

That creates a function, calls it, and discards it.

It might be clearer if you look at it like this:

var throwaway = function(){
    // do cool stuff
};
throwaway();

This is done to create a private namespace. Code in the function can have functions and variables without worrying about conflicting with other code loaded in the page.

share|improve this answer
3  
Except, of course, that you conflict with the name of your function. –  Jesse Rusak Mar 10 '09 at 17:00
2  
Uh, yeah. That's why it's normally done with an anonymous function. I just used an named function to show a more familiar form that does the same thing. –  Matthew Marshall Mar 10 '09 at 17:08
    
jder has the better answer, for those coming late to the party. –  Triptych Mar 10 '09 at 17:14
3  
Need to point out that this has NOTHING to do with closures. –  Peter Bailey Mar 10 '09 at 17:17
    
@Peter Bailey - I mean that the variables inside throwaway won't conflict, but the global name "throwaway" could. –  Jesse Rusak Mar 10 '09 at 17:18

i just came across this post recently. This type of function definition & call is called self-invoking functions.

(function(){  //code })();

The code inside the function will be executed immediately upon its definition.

share|improve this answer

The parens around the function make it clear that the function is an expression. The parens after are the call to the function.

Notice that the function does not have a name.

share|improve this answer

That construct means declare an anonymous function and run it immediately. The reason you put your code inside a function body is because the variables you define inside it remain local to the function and not as global variables. However, they will still be visible to the closures defined inside this function.

share|improve this answer

Putting the function declaration inside parens creates an expression which evaluates to the anonymous function within. Therefore, the first parenthetical evaluates to a function.

The "empty parens" at the end invoke the defined function, so "//do cool stuff" executes immediately.

This is a way to execute code on-the-fly while also keeping variables out of the global scope.

What is illustrated here, however, has nothing to do with closures - at least not directly. Closures are about maintaining a lexical scope after a parent function has already exited.

share|improve this answer

Your Answer

 
discard

By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.