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I have a JavaScript class:

function Person(n){
  // ...
}

Outside of the class, I have the following code:

Person.prototype.shower = function(){ this.dirtFactor=2 }

What does this in the above code refer to? Does it refer to prototype, or to the Person class?

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5 Answers 5

up vote 1 down vote accepted

Okay, basics first: when you write function Person(o) { ... }, you are not declaring a class -- JavaScript does not class based, but object based. This statement simply declares a function (which incidentally, are objects as well).

Next, when you create an object like this:

var mellon = new Person('Mellon');

you are creating an object, whose constructor (of sorts) is Person.

Now, read this carefully: since mellon's constructor is Person, all methods in Person's prototype will be available in the object.

So if you write:

Person.prototype.shower = function(){ this.dirtFactor=2 }  

then the method mellon.shower() will be available.

I recommend going through Mozilla's intro to OOP in Javascript for some details on this topic.


So to answer your question: this refers to the object with which the method shower was invoked. In the above case, it would be mellon.

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The meaning of this depends on how you call the function, not how you define it.

Assuming you do something like:

var bob = new Person('whatever n is');
bob.shower();

Then this will be bob (which will be an instance of Person).

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+1, but to be clear, this refers to whatever was before the . when called. If called without a ., then this defaults to window / global. –  Box9 Mar 1 '11 at 10:41
1  
Which can be proved by replacing the shower function with function() { console.log(this); }. –  kim3er Mar 1 '11 at 10:42
    
@Box9 this refers to the current context. this will refer to the window object (in a browser) by default. The context changes as you add enclosures/functions. –  kim3er Mar 1 '11 at 10:44
    
@kim3er, no, the current context depends solely on how the function is called (as David already mentioned). It is not affected by whether or not it is inside another function. Try (bob.shower)() with your console.log version of shower. –  Box9 Mar 1 '11 at 10:47
    
@Box9 That statement is not at odds with what I said. this defaults to the highest context. The context can however by manipulated using apply and call functions to specify your own context. In you example though, the context is the instantiation of the Person function. This can be tested by using console.log or alike. –  kim3er Mar 1 '11 at 10:52

It refers to the instance of the person

So when you do a
var Mike = new Person();

then this is Mike

Example

<input type="text" id="field" value="Bla" />
<script>
document.getElementById('field').onfocus=function() { 
  alert(this.value)
}
</script>

will alert the value of the field the function is assigned to

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It reffers to a instance of Person class

   var instance = new Person( ... );

   instance.shower(); // Here will be this.dirtFactor assigned to instance.dirtFactor
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This refers to the object upon which shower is called. Specifically, you will eventually end up doing

 p = new Person(n);

This will execute the Person function and create a new, empty object which will be accessible as this in the constructor. That object will then be given a link to Person.prototype and any attribute references that fail on p will look on Person.prototype to see if it's found there.

If it's called on p, using p.shower(), then this will return to p. The point is though that there aren't instances and classes in javascript. Person.prototype is one object and all objects that are constructed by Person will share a reference to it.

Removing prototypes all together, you can just do

 person = {'shower': function () { 
     this.dirtFactor = 2; }
 }

 person.shower();
 console.log(person.dirtFactor);

and you will see that this still refers to the object upon which you called the method.

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