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My title pretty much sums it all.

Can anyone enlighten me on...

"What is the 'Execution Context' in JavaScript?"

and on how it relates to 'this,' hoisting, prototype chaining, scope and garbage collection?

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You probably need to define Execution Context –  jondavidjohn Feb 21 '12 at 20:38
@jondavidjohn: Execution context has a specific meaning within ECMA-262. –  josh3736 Feb 21 '12 at 20:40
@josh3736 thanks! –  jondavidjohn Feb 21 '12 at 20:44
When all else fails, there is always the language specification to fall back on. –  RobG Jan 23 '14 at 6:25

2 Answers 2

up vote 14 down vote accepted

You're asking about several different concepts that aren't very closely related. I'll try to briefly address each.

Execution context is a concept in the language spec that—in layman's terms—roughly equates to the 'environment' a function executes in; that is, variable scope (and the scope chain, variables in closures from outer scopes), function arguments, and the value of the this object.

The call stack is a collection of execution contexts.

See also this answer and this article.

Scope is literally that: the scope in which a variable can be accessed. Simplistically:

var x;

function a() {
    var y;

x can be accessed from anywhere. When a is invoked, x will be in the outer scope. (Stored in the scope chain.)

In contrast, y can only be accessed by code in a() because it is limited to a's scope. This is what the var keyword does: restricts a variable to the local scope. If we omitted var, y would end up in the global scope, generally considered a bad thing.

Think of hoisting as more of a compile-time thing. In JavaScript, function declarations are "hoisted" to the top of their scope. In other words, they are parsed and evaluated before any other code. (This is opposed to function expressions, which are evaluated inline.) Consider the following:


function a() { }
var b = function() { }

The call to a() will succeed because its declaration was hoisted to the top; a was assigned to automatically before program execution began. The call to b() will fail with a TypeError because b will not be defined until line 4.

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Actually, regarding your bit on hoisting, the b variable declaration will also be hoisted: it'll be declared from the start, but no value will be assigned to it before line 4. Calling b() before line 4 will indeed result in an error, but a different one: we'll be trying to execute undefined, which isn't a function. –  Pioul Feb 9 '14 at 17:31

I suppose a simple example would explain everything.

Note: function.call(object) calls function function in context of object


​<p id="p"></p>​​​​​​​​​​​​​​​​​​​​​​​​

// JavaScript

function helloWorld() {
    alert("HelloWorld: " + this);

var p = document.getElementById("p");
helloWorld();                // HelloWorld: [object DOMWindow]
helloWorld.call(window);     // HelloWorld: [object DOMWindow]
​​​​​​helloWorld.call("String");   // HelloWorld: String // Note: "toString()"
helloWorld.call​​​​(p);          // HelloWorld: [object HTMLParagraphElement]
helloWorld.call(new Date());​​​​ // HelloWorld: Tue Feb 21 2012 21:45:17 GMT+0100 (Central Europe Standard Time)
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This answer is quite unclear....... –  Pacerier May 7 '14 at 4:42

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