function foo(x) {
var tmp = 3;
function bar(y) {
alert(x + y + (++tmp)); // will alert 16
}
bar(10);
}
foo(2);
This will always alert 16, because bar can access the
x
which was defined as an argument to foo, and it can also access tmp
from foo.That is a closure. A function doesn't have to return in order to be called a closure. Simply accessing variables outside of your immediate lexical scope creates a closure.
function foo(x) {
var tmp = 3;
return function (y) {
alert(x + y + (++tmp)); // will also alert 16
}
}
var bar = foo(2); // bar is now a closure.
bar(10);
The above function will also alert 16, because bar
can still refer to x
and tmp, even though it is no longer directly inside the scope.However, since
tmp
is still hanging around inside bar's closure, it is also being incremented. It will be incremented each time you call bar.The simplest example of a closure is this:
var a = 10;
function test() {
console.log(a); // will output 10
console.log(b); // will output 6
}
var b = 6;
test();
When a JavaScript function is invoked, a new execution context is created. Together with the function arguments and the parent object, this execution context also receives all the variables declared outside of it (in the above example, both 'a' and 'b').It is possible to create more than one closure function, either by returning a list of them or by setting them to global variables. All of these will refer to the same
x
and the same tmp, they don't make their own copies.Here the number
x
is a literal number. As with other literals in JavaScript, when foo
is called, the number x is copied into foo
as its argument x.On the other hand, JavaScript always uses references when dealing with Objects. If say, you called
foo
with an Object, the closure it returns will reference that original Object!function foo(x) {
var tmp = 3;
return function (y) {
alert(x + y + tmp);
x.memb = x.memb ? x.memb + 1 : 1;
alert(x.memb);
}
}
var age = new Number(2);
var bar = foo(age); // bar is now a closure referencing age.
bar(10);
As expected, each call to bar(10) will increment x.memb. What might not be expected, is that x is simply referring to the same object as the age variable! After a couple of calls to bar, age.memb will be 2! This referencing is the basis for memory leaks with HTML objects.
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