You are just using The Comma Operator.
This operator only evaluates its operands from left to right, and returns the value from the second one, for example:
(0, 1); // 1
('foo', 'bar'); // 'bar'
In the context of calling a function, the evaluation of the operand will simply get a value, not a reference, this causes that the this
value inside the invoked function point to the global object (or it will be undefined
in the new ECMAScript 5 Strict Mode).
For example:
var foo = 'global.foo';
var obj = {
foo: 'obj.foo',
method: function () {
return this.foo;
}
};
obj.method(); // "obj.foo"
(1, obj.method)(); // "global.foo"
As you can see, the first call, which is a direct call, the this
value inside the method
will properly refer to obj
(returning "obj.foo"
), the second call, the evaluation made by the comma operator will make the this
value to point to the global object (yielding "global.foo"
).
That pattern has been getting quite popular these days, to make indirect calls to eval
, this can be useful under ES5 strict mode, to get a reference to the global object, for example, (imagine you are in a non-browser environment, window
is not available):
(function () {
"use strict";
var global = (function () { return this || (1,eval)("this"); })();
})();
In the above code, the inner anonymous function will execute within a strict mode code unit, that will result on having the this
value as undefined
.
The ||
operator will now take the second operand, the eval
call, which is an indirect call, and it will evaluate the code on the global lexical and variable environment.
But personally, in this case, under strict mode I prefer using the Function
constructor to get the global object:
(function () {
"use strict";
var global = Function('return this')();
})();
Functions that are created with the Function
constructor are strict only if they start with a Use Strict Directive, they don't "inherit" the strictness of the current context as Function Declarations or Function Expressions do.