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I'm trying to learn JS from online tutorial - http://ejohn.org/apps/learn/#33 , you can test JS code there. I'm trying to understand nesting functions as methods inside of other functions and what "this" keyword is referencing then. Why if I put on above site code from below - it doesn't work? Could someone explain that aspect of JS?

function Ninja(name){
  this.name = name;
  this.changeName = function(newname) {
    this.name = newname;
    this.anotherFunction = function(newname2) {
      this.name2 = newname2;

var ninja = new Ninja("John");
assert( ninja.name == "John", "The name has been set on initialization" );

// ninja.anotherFunction("Luken");
// ninja.changeName.anotherFunction("Luken");
// Why both above functions doesn't work?

assert(ninja.name2, "It works?");

assert( ninja.name == "Bob", "The name was successfully changed." );
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2 Answers 2

up vote 1 down vote accepted

It's fairly simple:

function Ninja(name)
{//this points to Ninja object inside constructor scope
    this.name = name;
    this.changeName = function(newname)
    {//method of Ninja, this points to context object, ie Ninja
        this.name = newname;//accesses the name property of Ninja
        this.anotherFunction = function(newname2)
        {//defines new method for this ==> Ninja object
            this.name2 = newname2;//context object is Ninja
var foo = new Ninja('foobar');
foo.changeName;//function, is defined in constructor
typeof foo.anotherFunction//undefined because it's assigned when the changeName method is called!
foo.anotherFunction('You');//works: changeName was called, and assigned anotherFunction to foo (instance of Ninja)

What happened: simple, by invoking the changeName method, anotherFunction was defined and assigned to this. At that time this referenced the Ninja object, so the method was assigned to the instance of Ninja from which the changeName method was invoked. Prior to calling the changeName method, the anotherFunction method simply didn't exist.

Though this might seem useless or stupid, it does make sense. What you need to remember is that functions/methods are, in essence stand-alone objects. In this code, they just happen to be defined as properties/methods, but they needn't be used as such. Going back to the code above:

bar = {};//some object
foo.name;//Me, nothing has changed, the changeName method was applied to the bar object
bar.name;//You, in the apply call, this pointed to bar, not foo
typeof bar.anotherFunction;//function
//You could even create the anotherFunction globally:
foo.changeName.call();//in global scope
typeof antoherFunction;//function ==> this function is now globally available

The changeName method can be applied to any object, adding a new method, changeing/adding certain properties to that particular instance.

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The value of this is determined at the time the function is invoked, not the time when it is defined. So in your code, you have to different values of this: When ninja.changeName() is called, you don't specify a value for this, so it's either undefined or whatever it might be right now.

The new operator, on the other hand, does set this before it called the function Ninja.

What you need to do is "save" the value of this inside of Ninja so the inner functions continue to use that (instead of whatever random value might be in this at the time they are called). Doing this is more simple than it sounds:

function Ninja(name){
  this.name = name;

  var self = this; // Create a hidden reference to "this" that is only visible in
                   // any functions defined before we return

  self.changeName = function(newname) {
    self.name = newname;
    self.anotherFunction = function(newname2) {
      self.name2 = newname2;

This works because JavaScript keeps a copy of the context (= all reachable variables) around when you define a function.

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As an additional point, changeName will actually define anotherFunction on the Ninja instance every time it is called (if called as a method on Ninja) - it just needs to be called first. So ninja.changeName("Bob"); ninja.anotherFunction("Joe"); would work, but not the other way around. –  Sean Vieira Oct 3 '12 at 13:29
Just a side-note, by using self or that (a closure variable), you could inadvertently expose an instance when borrowing a method some examples in my answer to this question –  Elias Van Ootegem Oct 3 '12 at 13:36

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