JavaScript's forEach documentation states that the .forEach
syntax is:
arr.forEach(callback[, thisArg])
What is the usage of thisArg
?
JavaScript's forEach documentation states that the .forEach
syntax is:
arr.forEach(callback[, thisArg])
What is the usage of thisArg
?
The thisArg
can be provided to change the inner this
of the callback function.
Not specifying the thisArg
results in this
referencing the Window
in non strict mode. In strict mode ("use strict";
) it will be undefined
.
If you were confused by the fact, that thisArg
does nothing when using an arrow function:
var myObject = { name: 'myObject' };
[1,2].forEach(item => {
console.log(item); // 1, 2
console.log(this === myObject, this); // false Window {}
}, myObject)
It's because:
arrow functions cannot be bound
In an arrow function, the this
refers to the closest scope's this
all the way up to Window if no scope provides a this
value. It works just like a normal variable lookup until some this
is found.
To better understand this
see this gist or ts playground.
var myObject = { name: 'myObject' };
[1,2].forEach(function(item){
console.log(item); // 1, 2
console.log(this === myObject, this); // true {name: "myObject"}
}, myObject)
If you don't specify myObject
at this point, the this
inside would point to Window
as with the arrow function.
thisArg
refers to context which callback should be called,
basically it is what this
refers to inside callback. For example:
var myObject = { name: 'myObject' };
[1,2].forEach(function(item) {
console.log(item); // 1, 2
console.log(this === myObject); // true
}, myObject)
A this
value is a special object which is related with the execution context
.
An object in which context the execution context is activated
The value of this
is determinate only once when entering the context
And it is not possible to assign a new value to this
in your case, providing thisArg
is like
arr.forEach(callback.bind(thisArg));
forEach
, simplified it for you, asking a seperate optional param
Now, if you run this forEach with out this
arr.forEach(function(item) {
console.log(this === window); //true
console.log(this === arr); //false
});
you get the point!
this
will become the global object only in non-strict mode, in strict mode it would be undefined
. And this == arr
could be true if arr
is the global object and it inherits from Array.prototype
and mode is not strict.
I think these tests will make whole thing clear just test in your browser console
arr=[0];
arr.forEach(function(item) {
console.log(this === window); //true
console.log(this === arr); //false
});
arr.forEach(function(item) {
console.log(this === window); //true
console.log(this === arr); //false
},this);
arr.forEach(function(item) {
console.log(this === window); //false
console.log(this === arr); //true
},arr);
arr.forEach(function(item) {
console.log(this === window); //false
console.log(this === arr); //false
},0);
I use this often in the context of prototypes and functions:
var MyClass = function() {
this.GlobalVar = 3;
}
MyClass.prototype.func1 = function(a) {
return (a == this.GlobalVar);
}
MyClass.prototype.func2 = function(arr) {
arr.forEach(function(item) {
console.log(this.func1(item));
}, this); // use of thisArg
}
MyClass.prototype.func3 = function(arr) {
var that = this;
arr.forEach(function(item) {
console.log(that.func1(item));
}); // also possible without using thisArg
}
MyClass.prototype.func4 = function(arr) {
arr.forEach(function(item) {
console.log(this.func1(item));
}); // implementation raising an error, because this.func1 does not exist in that context
}
var arr = [0, 1, 3, 4, 3, 1];
var myClass = new MyClass();
myClass.func2(arr);
/* prints:
false
false
true
false
true
false
*/
myClass.func3(arr) /* same as func2 */
myClass.func4(arr); /* Fails with
Error: {
"message": "TypeError: this.func1 is not a function",
"filename": "https://stacksnippets.net/js",
"lineno": 35,
"colno": 26
}
*/
Optional. Value to use as this when executing callback.
-if (arguments.length > 1) {T = thisArg;}