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I was reading the function definition of bind, but I can't 100% understand the code as written:

if (!Function.prototype.bind) {
    Function.prototype.bind = function(oThis) {
        if (typeof this !== "function") {
            // closest thing possible to the ECMAScript 5 internal IsCallable function
            throw new TypeError("Function.prototype.bind - what is trying to be bound is not callable");

        var aArgs = Array.prototype.slice.call(arguments, 1),
            fToBind = this,
            fNOP = function() {},
            fBound = function() {
                return fToBind.apply(this instanceof fNOP
                                       ? this 
                                       : oThis || window,

        fNOP.prototype = this.prototype;
        fBound.prototype = new fNOP();

        return fBound;

Specifically, I don't get the purpose of fNOP, and I don't understand why fBound's prototype needs to be set. I am also hung up at the fToBind.apply part (I can't figure out what this represents in this context).

Can someone can explain what is going on here?

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I need more Vodka "Smirnoff" to answer this question... –  Clark Kent Jan 10 '12 at 19:55
About halfway down on stage.learn.jquery.com/javascript-101/closures, does that shed any insight? –  j08691 Jan 10 '12 at 20:41
I don't think it will help much, but for reference: Function.prototype.bind specification. –  Felix Kling Jan 10 '12 at 20:52
@Davis It is NOT the definition of bind, it is a partial(!) workaround for older browsers. –  Pumbaa80 Jan 11 '12 at 19:27
Keep in mind that MDN is a wiki, and may be erroneous. This is where the code came from: developer.mozilla.org/index.php?title=en/JavaScript/Reference/… –  Pumbaa80 Jan 11 '12 at 22:29
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3 Answers

Well, one reason fBound's prototype needs to be set is so that the result of calling bind on a function has the same prototype as that function. This is also where fNop seems to come in--it lets you set fBound's prototype using new fNop() without calling the original function which may have side effects.

The call to apply lets you both set this in the function and specify additional arguments. Since bind lets you "curry" arguments to the function, you have to combine both the arguments passed in when the function is bound and the arguments it is called with.

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The intermediary NOP function trick is awesome. –  Ates Goral Jan 10 '12 at 21:03
instead of using fNop, why can't you just say fBound.prototype = this.prototype? I believe it has to do with why the instanceof fNop check is made, and that is the part I cannot reason through –  Davis Dimitriov Jan 10 '12 at 21:03
The point is, bind creates a function. So it's defined just to be consistent with declaring a function, where a new object is assigned to that function's prototype property. I guess we could use fBound.prototype = Object.create(this.prototype) but that wouldn't make much sense, since Object.create is likely not to exist in browsers that don't know about bind. –  Pumbaa80 Jan 11 '12 at 20:39
"the result of calling bind on a function has the same prototype as that function." Actually, it's supposed to have no prototype at all, as defined in ES5 –  Pumbaa80 Jan 19 '12 at 17:33
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It is to make sure

  • (1) the bound function can be used as a constructor, ignoring the binding. (hence the instanceof check)
  • (2) At the same time, you want to make sure that new g() inherits from f's prototype chain. (hence the .prototype = new fNop part)


function f() {
    this.foo = 'bar';
f.prototype = {
    baz: 'yay!'

var g = f.bind({});
var o = new g();
console.log(o.foo); // 'bar' - (1)
console.log(o.baz); // 'yay!' - (2)

At the moment you call new g(), the fBound function is called as a constuctor with a brand new object object (this) that is an instance of fNop.


The ECMAScript5 standard defines a complicated algorithm for binding functions. Amongst others, the following assertions must hold true:

var DateJan2042 = Date.bind(null, 2042, 0);

 /*1*/ console.assert(Function.prototype.bind.length == 1, 'bind should have a length of 1');
 /*2*/ console.assert(typeof DateJan2042 == 'function', 'bind() should return a function');
 /*3*/ console.assert(!DateJan2042.hasOwnProperty('prototype'), 'Bound function must not have a prototype');
 /*4*/ console.assert(DateJan2042.length == Math.max(Date.length - 2, 0), 'Bound function should have a proper length');
 /*5*/ console.assert(typeof DateJan2042() == 'string', 'Function call should return a string');
 /*6*/ console.assert({}.toString.call(new DateJan2042()).indexOf('Date') != -1, 'Constructor call should return a new Date object');
 /*7*/ console.assert(new DateJan2042() instanceof DateJan2042, 'Instanceof check should pass for constructor\'s return value');
 /*8*/ console.assert((new DateJan2042()).getMonth() == 0, 'Constructor should be called with bound arguments');
 /*9*/ console.assert((new DateJan2042(1)).getDate() == 1, 'Constructor should take additional arguments');
/*10*/ console.assert(!/^function *\( *[^ )]/.test(Function.prototype.toString.call(DateJan2042)), 'Bound function should have no formal arguments');

Since a properly bound function is not a real Function object, it's impossible to get it all right using a polyfill (Particularly numbers 2/3, and 4/10), but you can try to implement as much as possible.

The implementation in question tries to solve number 6 and number 7, by hooking into the prototype chain, but that's not enough.

Here is an alternative implementation that works a bit better, but is still not perfect: http://jsfiddle.net/YR6MJ/

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From an earlier comment:

instead of using fNop, why can't you just say fBound.prototype = this.prototype?

As far as I can tell, the primary difference is that when the value of this inside the bound function is an instance of the original function on which bind was invoked, then the value to bind to -- the first argument originally passed to bind -- is ignored.

For example, this code:

function Test(blah) {
    console.log(this.length, blah);

Test.prototype.length = 77;
Test.prototype.fn = Test.bind(['a', 'b', 'c'], "testing");
new Test().fn()

...causes fn to print:

77 testing

In other words, the value of this inside fn is the Test instance on which it was invoked. Your suggestion would supply the bound array to the apply inside bind, so, written that way, the last line of the same code would print:

3 testing

It's not completely clear to me why this is important, but it does highlight that your suggestion would not produce equivalent results.

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That behaviour as a whole seems not to comply with the standards. Once bound, this cannot be overriden (no matter who the invoker is, instanceof the origin or not). So there should be no case where oThis isn't used (making the condition at best unnecessary and at worst non-standard). –  davin Jan 10 '12 at 22:10
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