In the browser, running in the global scope, this
is always window
in your example
var obj1;
var obj2;
function x() {
obj1 = this; // window
}
function y() {
obj2 = this; // window
}
x();
y();
console.log(obj1 === obj2); // window === window = true
console.log(obj1 === this); // window === window = true
This is not how it works in Node. In Node.js all modules (script files) are executed in their own closure while browsers execute all script files directly within the global scope.
In other words, in just about any file running in Node, this
will just be an empty object, as Node wraps the code in an anonymous function that is called immediately, and you’d access the global scope within that context with GLOBAL
instead.
This is also mentioned in the Globals documentation:
Some of these objects aren’t actually in the global scope but in the module scope – this will be noted.
However, when calling a function without a specific context in Node.js, it will normally be defaulted to the global object – The same GLOBAL
mentioned earlier, as it’s execution context.
So outside the functions, this
is an empty object, as the code is wrapped in a function by Node, to create it’s own execution context for every module (script file), while inside the functions, because they are called with no specified execution context, this
is the Node GLOBAL
object
In Node.js you’d get
var obj1;
var obj2;
function x() {
obj1 = this; // GLOBAL
}
function y() {
obj2 = this; // GLOBAL
}
x();
y();
console.log(obj1 === obj2); // GLOBAL === GLOBAL = true
console.log(obj1 === this); // GLOBAL === {} = false
Where the last this
is indeed an empty object, as explained above
For completeness, it’s worth noting that in strict mode, you’d get the same result in a browser (true, false
) as in Node, but that’s because the variables are just the opposite of what they are in Node
"use strict"
var obj1;
var obj2;
function x() {
obj1 = this; // undefined
}
function y() {
obj2 = this; // undefined
}
x();
y();
console.log(obj1 === obj2); // undefined === undefined = true
console.log(obj1 === this); // undefined === window = false
This is because the value passed as this
to a function in strict mode is not forced into being an object (a.k.a. “boxed”).
For a normal function in non-strict mode, this
is always an object, and it’s always the global object if called with an undefined
or null
this-value, i.e. without a specific execution context.
Not only is automatic boxing a performance cost, but exposing the global object in browsers is a security hazard, because the global object provides access to functionality that “secure” JavaScript environments must restrict.
Thus for a strict mode function, the specified this
is not boxed into an object, and if unspecified, this
will be undefined
inside functions, as shown above, but this
will still be the window in the global scope.
The same thing happens in strict-mode in Node.js, where this
inside the functions is no longer GLOBAL
but undefined
, and this
outside the functions will still be the same empty object, and the end result will still be true, false
, but the value of this
will be different in strict-mode in Node.js as well.