182

Everyone is aware of this in javascript, but there are also instances of self encountered in the wild, such as here

So, what is the difference between this and self in JavaScript?

9
  • 3
    And regarding this... Jun 1, 2013 at 18:15
  • 10
    @dystroy: There is one: window.self (=== window). Though the OP probably means a trivial variable name…
    – Bergi
    Jun 1, 2013 at 18:18
  • 3
    @dystroy: Actually I didn't think he could really mean it, but indeed in global scope (and a browser environment) this === self is true :-)
    – Bergi
    Jun 1, 2013 at 18:20
  • 2
    Subjective aside: aliasing this to self is not a great practice nowadays when it's common to have code with many (well, more than one is bad enough) levels of callback nesting, as a consequence of asynchronous programming. Use a more descriptive name instead. Objectively speaking the name this itself carries no information and is only a nonbad choice of name because the lexical context of a class definition qualifies it.
    – millimoose
    Jun 1, 2013 at 18:22
  • 3
    this is a valid and useful question, it should be reopened
    – danza
    Jun 2, 2014 at 18:39

5 Answers 5

189

Unless set elsewhere, the value of self is window because JavaScript lets you access any property x of window as simply x, instead of window.x. Therefore, self is really window.self, which is different to this.

window.self === window; // true

If you're using a function that is executed in the global scope and is not in strict mode, this defaults to window, and therefore

function foo() {
    console.log(
        window.self === window, // is self window?
        window.self === this,   // is self this?
        this === window         // is this window?
    );
}
foo(); // true true true

If you're using a function in a different context, this will refer to that context, but self will still be window.

// invoke foo with context {}
foo.call({}); // true false false

You can find window.self defined in the W3C 2006 working draft for the Window Object here.

1
66

A slight addition to this as people may encounter this in the context of service workers, in which case it means something slightly different.

You might see this in a service worker module:

self.addEventListener('install', function(e) {
  console.log('[ServiceWorker] Install');
});

Here self refers to the WorkerGlobalScope, and this is the standard method for setting event listeners.

From Mozilla docs:

By using self, you can refer to the global scope in a way that will work not only in a window context (self will resolve to window.self) but also in a worker context (self will then resolve to WorkerGlobalScope.self).

1
  • 7
    Thanks ! I was looking for this answer :)
    – Aman Gupta
    May 26, 2020 at 4:46
31

Although I am late here but I came across one example which too can be helpful to understand this further:

var myObject = {
 foo: "bar",
 func: function() {
    var self = this;
    console.log("outer func:  this.foo = " + this.foo);
    console.log("outer func:  self.foo = " + self.foo);
    (function() {
        console.log("inner func:  this.foo = " + this.foo);
        console.log("inner func:  self.foo = " + self.foo);
    }());
  }
};
myObject.func();

O/P

outer func:  this.foo = bar
outer func:  self.foo = bar
inner func:  this.foo = undefined
inner func:  self.foo = bar

Prior to ECMA 5, this in the inner function would refer to the global window object; whereas, as of ECMA 5, this in the inner function would be undefined.

1
  • 1
    this is always defined in its context. What is undefined is this.foo. That's a huge difference and to achieve the behavior you mentioned existed before ECMA 5, arrow functions can be used or as you specified assigning self to be this outside of the inner function and using self inside instead of this, the cleaner way being the arrow function.
    – Dejazmach
    Apr 17, 2020 at 20:45
3

The reference to ECMA 5 needs clarifying.

I assume it means ECMA-262 Edition 5. It should be noted that ECMA-262 (a.k.a. ECMAScript or, less accurately, Javascript) is a general scripting language which has been implemented in Internet Browsers. From the Edition 5.1 standard:

The following steps are performed when control enters the execution context for function code contained in function object F, a caller provided thisArg, and a caller provided argumentsList:

  1. If the function code is strict code, set the ThisBinding to thisArg.
  2. Else if thisArg is null or undefined, set the ThisBinding to the global object.
  3. Else if Type(thisArg) is not Object, set the ThisBinding to ToObject(thisArg).
  4. Else set the ThisBinding to thisArg
  5. ... (not about "this")

The term "global object" refers to whatever object is at the top of the scope chain. For browsers this would be the "window" object but this is an implementation choice (Windows Script Host has an invisible global object but no strict mode so unqualified references access its properties and there is no global "self"). Also, "strict mode" must be explicitly enabled otherwise it is not active (section 14.1 of the standard). As such, an undefined "this" would still resolve to the global object (window) in "ECMA 5" with strict mode not active.

So the answer to the question is:

"this" always refers to the object invoking the function. If the function was not invoked by an object (i.e. not a method call) then "this" (as passed to the function) is "undefined". However, if NOT using strict mode then an undefined "this" is set to the global object (rule 2 above).

"self" has no special syntactic meaning, it is just an identifier. Browsers tend to define window.self (just a property of the global window object) = window. This results in unqualified references to "self" being the same as "window" UNLESS "self" has been redefined within an enclosing scope (such as by "var self = this;" above. Good luck redefining "this".)

So the full explanation of the example above is:

outer func:  this.foo = bar
// "this" refers to the invoking object "myObject"
outer func:  self.foo = bar
// "self" resolves to the variable in the local scope which has been set to "this" so it is also "myObject"
inner func:  this.foo = undefined
// "this" refers to the invoking object (none) and so is replaced by the global object (strict mode must be off). "window" has no foo property so its "value" is undefined.
inner func:  self.foo = bar
// self resolves to the variable in the enclosing scope which is still "myObject"

An interesting variation of the example creates a closure by returning a reference to the inner function.

var myObject = {
 foo: "bar",
 func: function() {
    var self = this;
    console.log("outer func:  this.foo = " + this.foo);
    console.log("outer func:  self.foo = " + self.foo);
    return function() {
        console.log("inner func:  this.foo = " + this.foo);
        console.log("inner func:  self.foo = " + self.foo);
    };
  }
};
var yourObject = {
 foo: "blat",
 func: myObject.func() // function call not function object
};
console.log("----");
yourObject.func();

Producing

outer func:  this.foo = bar
outer func:  self.foo = bar
----
inner func:  this.foo = blat
inner func:  self.foo = bar

Note how the inner function is not called until invoked by yourObject. So this.foo is now yourObject.foo but self still resolves to the variable in the enclosing scope which, at the time the inner function object was returned, was (and in the resulting closure still is) myObject. So, within the inner function, "this" refers to the object calling the inner function while "self" refers to the object which called the outer function to create the reference to the inner function.

To summarize the summary of the summary, "this" is defined by the language standard, "self" is defined by whoever defines it (runtime implementer or end programmer).

1

Find below some combinations of 'window', 'self' and 'this' console outputs in the global scope (browser environment) to see where it is referring to.

console.log( window ); // Window {…}
console.log( self );   // Window {…}
console.log( this );   // Window {…}

console.log( window.window ); // Window {…}
console.log( window.self );   // Window {…}
console.log( window.this );   // undefined  

console.log( self.self );     // Window {…}
console.log( self.window );   // Window {…}
console.log( self.this );     // undefined

console.log( this.this );     // undefined
console.log( this.window );   // Window {…}
console.log( this.self );     // Window {…}

console.log( window.window.window );    // Window {…}
console.log( self.self.self );          // Window {…}
console.log( window.self.window.self ); // Window {…}
console.log( self.window.self.window ); // Window {…}
console.log( this.this );               // undefined

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