I have target object
function Foo() {
this.someVar = 'some var';
};
Foo.prototype.callback() {
console.log(this);
};
And object, that will call this callback
function Bar(callback) {
this.callback = callback;
};
Bar.prototype.onSomeAction = function() {
this.callback();
};
And initial code
foo = new Foo();
bar = new Bar();
bar.callback = foo.callback;
bar.onSomeAction();
Result: i have logged to console Bar()'s context instead of Foo().
How can i get context of Foo() in the Foo() callback?
PS: I tried closures
Foo.prototype.callback() {
var foo = this;
return function(foo) {
console.log(foo);
};
};
but it does nothing. I have not fully understanding of the closures :(
The reason your original code didn't work is that the value of this inside of a method call is the value of the object it's being called on. That means when you say:
bar.callback = foo.callback;
And then you call:
bar.callback();
The code defined here:
Foo.prototype.callback = function () {
console.log(this);
};
gets called with this being a reference to bar because bar is to the left of the . on the method call. So whenever you assign a function as an object property, calling it on that object will call it with the object as this.
You could also have written:
function callback() {
console.log(this);
}
bar.callback = callback;
bar.callback();
And you would find that this still references bar.
In fact, if you call the plain function callback(); as defined above, you'll find that this is a reference to the global object, usually window in web browsers. That's because all global variables and functions are properties of window, so callback(); is implicitly window.callback();
The fact that the value of this depends on what object is calling a function can be a problem when passing callbacks around, since sometimes you want this to reference the original object the function was a property of. The bind method was design to solve this problem, and Yuri Sulyma gave the right answer:
bar.callback = foo.callback.bind(foo);
However, the way you would do this using closures is to capture an instance of Foo within an anonymous function that calls the correct method on the correct object:
foo = new Foo();
bar = new Bar();
bar.callback = function () {
foo.callback();
};
bar.onSomeAction();
Which is essentially what bind does. In fact, we call write our own naive version of bind using a closure:
Function.prototype.bind = function (obj) {
var fn = this;
return function () {
fn.call(obj);
};
};
call let's you call a function with the value of this explicitly defined. This allows you to "set the context" the function is called in so that it's the same as calling obj.fn() when you call bar.callback(). Since when we call foo.callback.bind(foo);, obj is foo and fn is foo.callback, the result is that calling bar.callback() becomes the same as calling foo.callback().
That's where Dalorzo's answer comes from. He uses call to explicitly set the context.
There's also another function for setting the context called apply that also takes an array representing the arguments for the function as its second argument. This allows us to write a more complete version of bind by taking advantage of the special arguments variable:
Function.prototype.bind = function (obj) {
var fn = this;
return function () {
fn.apply(obj, arguments);
};
};
bar.callback = foo.callback.bind(foo);
You can polyfill Function.prototype.bind() if necessary: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Function/bind#Compatibility
Try using these changes:
Use call to set context:
bar.onSomeAction.call(foo);
And I think your callback function needs to change to:
Foo.prototype.callback=function() {
console.log(this);
};
Related
I'm new to JavaScript so this is possibly a trivial question:
I'm trying to construct an object that stores a mapping from a set of integers to some of its methods, i.e. something like this:
'use strict';
function Foo() {
this.funcs = {
1: this.func1,
2: this.func2,
}
}
Foo.prototype.func1 = function() {
this.prop = 1;
}
Foo.prototype.func2 = function() {
this.prop = 2;
}
I'd then like to be able to call methods of Foo like this:
foo = new Foo();
var func = foo.funcs[1];
func();
But this results in: Cannot set property 'prop' of undefined, i.e. this does not refer to foo.
What's the problem here and is there a better way to implement this?
Your problem is this line:
var func = foo.funcs[1];
JavaScript determines the value of this based on how a function is called. If you use dot notation, such as foo.funcs[1](); then the value of this will associated with the foo object. But when you run func(), that's just a plain function and this will have the default value of undefined.
It would be worth your time to read the two chapters of You Don't Know JS that discuss this. It should take less than an hour to learn, and you'll be way ahead of most JS programmers once you learn it.
The rules might not make sense until you read the chapter, but they are summarized below:
Determining the this binding for an executing function requires
finding the direct call-site of that function. Once examined, four
rules can be applied to the call-site, in this order of precedence:
Called with new? Use the newly constructed object.
Called with call or apply (or bind)? Use the specified object.
Called with a context object owning the call? Use that context object.
Default: undefined in strict mode, global object otherwise.
Based on the above rules, the code below is the simplest way you could get it to work the way you are expecting it to:
'use strict';
function Foo() {
this.funcs = {
1: this.func1,
2: this.func2,
}
}
Foo.prototype.func1 = function() {
this.prop = 1;
console.log('called func1. this.prop =', this.prop);
}
Foo.prototype.func2 = function() {
this.prop = 2;
console.log('called func2. this.prop =', this.prop);
}
const foo = new Foo();
foo.funcs[1]();
There are a few ways to achieve what you require, however the most robust approach is to bind() each function to the instance of Foo() that is being instantiated.
This can be done by passing this to bind() of each function:
this.func1.bind(this)
Using bind() in this way ensures that this, for func1 and func2 is defined as the instance of Foo(). This in turn ensures that this.prop can be accessed and assigned as expected:
'use strict';
function Foo() {
this.funcs = {
/* Bind the functions to this Foo() instance */
1: this.func1.bind(this),
2: this.func2.bind(this),
}
}
Foo.prototype.func1 = function() {
this.prop = 1;
console.log('called func1. this.prop =', this.prop);
}
Foo.prototype.func2 = function() {
this.prop = 2;
console.log('called func2. this.prop =', this.prop);
}
const foo = new Foo();
var func = foo.funcs[1];
func();
foo.funcs[2]();
Another key thing to note is the bind() based approach above ensures that, if you acquire and call a reference to one of the functions on the funcs field as shown in your original post, that it will work as expected:
/* As per original post - doing this is not possible without .bind() */
var func = foo.funcs[1];
func();
Without the use of bind(), this method of acquiring and calling func will fail due to func not being bound to the instance of Foo.
I'm using angular to develop a web app and I'm trying to use a function's .bind method to assign the this value on a method of one of my controllers. It looks like this:
var welcomeCtrl = function (userManager) {
this.partnerName = userManager.getName('partner');
this.yourName = userManager.getName('you');
this.beginScan = false;
var self = this;
};
welcomeCtrl.prototype.scanThumb = function (callback) {
function doScan() {
alert(this);
alert(this.beginScan);
this.finishedScanning = callback;
this.beginScan = true;
}
doScan.bind(welcomeCtrl)();
};
So what happens is that a directive passes the scanThumb method to a service which executes it, which should then trigger another directive waiting for this.beginScan to be true.
Since its the service that calls the method and it is not called from the welcomCtrl class, I need to bind this back to welcomeCtrl so I use .bind and pass in welcomeCtrl
This should work, when I do alert(this) the welcomeCtrl function definition alerts fine, but when I do alert(this.beginScan) I get Undefined
Am I not understanding how the .bind method works in this circumstance?
Whenever you are using an object's inner function (in this case, welcomeCtrl) this refers to the current object.
Take the following example:
var Foo = function(){
this.thing = 'bar';
}
Foo.prototype.setThing = function(newthing){
//our inner function
function doInnerThing(){
//this is now bound to our current Foo instance
console.log(this);
//setting our current Foo.thing to new value
this.thing = newthing;
};
//fire function, bound to current object scope (Foo)
doInnerThing.bind(this)();
};
Foo.prototype.doThing = function(){
alert(this.thing);
};
var newFoo = new Foo();
var newFoo2 = new Foo();
newFoo.setThing('newFoo');
newFoo.doThing(); //alerts 'newFoo', the overridden value
newFoo2.doThing();//alerts 'bar', the base value
As #Jesse Kernaghan suggested I was simply was passing the uninitiated constructor as the the thisParam. I fixed this by modifying my service to take 2 parameters, a callback, and a thisParam. I had then had to pass in the scope as the thisParam from my directive, and in my service call the callback with a .bind(thisParam) and now everything works.
Can anyone explain me on how hard binding works in javascript?.
function foo() {
console.log(this.a);
}
var obj = {
a: 2
};
var bar = function() {
foo.call(obj);
};
bar(); // 2
setTimeout(bar, 100); //
I am more interested in this function.
var bar = function() {
foo.call(obj);
};
Why do we wrap foo.call(obj) inside another function?. We can use it directly right?.
setTimeout(foo.call(obj), 100); // still results in 2.
The .call (and .apply) methods simply let you manually set the value of this in the function being invoked.
So when you do foo.call(obj), the value of this in foo will be obj.
As to the setTimeout, what you're doing is calling it immediately instead of waiting for 100ms. Change it to 10000, and you'll see more clearly it doesn't wait.
So that's why the function is needed. You need to pass a function to setTimeout, and it will get invoked after the duration you provide.
There's also the .bind() method that creates a new function with its this value permanently bound to the first argument you provide. So that would actually be a hard binding example
setTimeout(foo.bind(obj), 100);
So in that example, a function is returned that will always have obj set as the this value. So now that setTimeout is being passed a function, it will be invoked after the given duration.
You can also bind arguments to the function. All arguments passed to .bind() after the first argument will be permanently bound to the returned function so that any arguments passed to that function will be placed after the bound ones.
You don't need setTimeout to achieve hard binding.
function foo() {
console.log(this.bar);
}
var obj1 = {bar:10};
var obj2 = {bar:5};
var originalFoo = foo;
OriginalFoo now has the reference to foo
Now override foo function and use originalFoo.call to set the this context to always be that of obj1
foo = function() {
originalFoo.call(obj1);
}
foo(); // returns 10
foo.call(obj2); //returns 10 even when obj2 passed as arg
Here's a sample of a simple Javascript class with a public and private method (fiddle: http://jsfiddle.net/gY4mh/).
function Example() {
function privateFunction() {
// "this" is window when called.
console.log(this);
}
this.publicFunction = function() {
privateFunction();
}
}
ex = new Example;
ex.publicFunction();
Calling the private function from the public one results in "this" being the window object. How should I ensure my private methods are called with the class context and not window? Would this be undesirable?
Using closure. Basically any variable declared in function, remains available to functions inside that function :
var Example = (function() {
function Example() {
var self = this; // variable in function Example
function privateFunction() {
// The variable self is available to this function even after Example returns.
console.log(self);
}
self.publicFunction = function() {
privateFunction();
}
}
return Example;
})();
ex = new Example;
ex.publicFunction();
Another approach is to use "apply" to explicitly set what the methods "this" should be bound to.
function Test() {
this.name = 'test';
this.logName = function() {
console.log(this.name);
}
}
var foo = {name: 'foo'};
var test = new Test();
test.logName()
// => test
test.logName.apply(foo, null);
// => foo
Yet another approach is to use "call":
function Test() {
this.name = 'test';
this.logName = function() {
console.log(this.name);
}
}
var foo = {name: 'foo'};
var test = new Test();
test.logName()
// => test
test.logName.call(foo, null);
// => foo
both "apply" and "call" take the object that you want to bind "this" to as the first argument and an array of arguments to pass in to the method you are calling as the second arg.
It is worth understanding how the value of this in javascript is determined in addition to just having someone tell you a code fix. In javascript, this is determined the following ways:
If you call a function via an object property as in object.method(), then this will be set to the object inside the method.
If you call a function directly without any object reference such as function(), then this will be set to either the global object (window in a browser) or in strict mode, it will be set to undefined.
If you create a new object with the new operator, then the constructor function for that object will be called with the value of this set to the newly created object instance. You can think of this as the same as item 1 above, the object is created and then the constructor method on it is called.
If you call a function with .call() or .apply() as in function.call(xxx), then you can determine exactly what this is set to by what argument you pass to .call() or .apply(). You can read more about .call() here and .apply() here on MDN.
If you use function.bind(xxx) this creates a small stub function that makes sure your function is called with the desired value of this. Internally, this likely just uses .apply(), but it's a shortcut for when you want a single callback function that will have the right value of this when it's called (when you aren't the direct caller of the function).
In a callback function, the caller of the callback function is responsible for determining the desired value of this. For example, in an event handler callback function, the browser generally sets this to be the DOM object that is handling the event.
There's a nice summary of these various methods here on MDN.
So, in your case, you are making a normal function call when you call privateFunction(). So, as expected the value of this is set as in option 2 above.
If you want to explictly set it to the current value of this in your method, then you can do so like this:
var Example = (function() {
function Example() {
function privateFunction() {
// "this" is window when called.
console.log(this);
}
this.publicFunction = function() {
privateFunction.call(this);
}
}
return Example;
})();
ex = new Example;
ex.publicFunction();
Other methods such as using a closure and defined var that = this are best used for the case of callback functions when you are not the caller of the function and thus can't use 1-4. There is no reason to do it that way in your particular case. I would say that using .call() is a better practice. Then, your function can actually use this and can behave like a private method which appears to be the behavior you seek.
I guess most used way to get this done is by simply caching (storing) the value of this in a local context variable
function Example() {
var that = this;
// ...
function privateFunction() {
console.log(that);
}
this.publicFunction = function() {
privateFunction();
}
}
a more convenient way is to invoke Function.prototype.bind to bind a context to a function (forever). However, the only restriction here is that this requires a ES5-ready browser and bound functions are slightly slower.
var privateFunction = function() {
console.log(this);
}.bind(this);
I would say the proper way is to use prototyping since it was after all how Javascript was designed. So:
var Example = function(){
this.prop = 'whatever';
}
Example.prototype.fn_1 = function(){
console.log(this.prop);
return this
}
Example.prototype.fn_2 = function(){
this.prop = 'not whatever';
return this
}
var e = new Example();
e.fn_1() //whatever
e.fn_2().fn_1() //not whatever
Here's a fiddle http://jsfiddle.net/BFm2V/
If you're not using EcmaScript5, I'd recommend using Underscore's (or LoDash's) bind function.
In addition to the other answers given here, if you don't have an ES5-ready browser, you can create your own "permanently-bound function" quite simply with code like so:
function boundFn(thisobj, fn) {
return function() {
fn.apply(thisobj, arguments);
};
}
Then use it like this:
var Example = (function() {
function Example() {
var privateFunction = boundFn(this, function() {
// "this" inside here is the same "this" that was passed to boundFn.
console.log(this);
});
this.publicFunction = function() {
privateFunction();
}
}
return Example;
}()); // I prefer this order of parentheses
Voilà -- this is magically the outer context's this instead of the inner one!
You can even get ES5-like functionality if it's missing in your browser like so (this does nothing if you already have it):
if (!Function.prototype.bind) {
Function.prototype.bind = function (thisobj) {
var that = this;
return function() {
that.apply(thisobj, arguments);
};
}:
}
Then use var yourFunction = function() {}.bind(thisobj); exactly the same way.
ES5-like code that is fully compliant (as possible), checking parameter types and so on, can be found at mozilla Function.prototype.bind. There are some differences that could trip you up if you're doing a few different advanced things with functions, so read up on it at the link if you want to go that route.
I would say assigning self to this is a common technique:
function Example() {
var self = this;
function privateFunction() {
console.log(self);
}
self.publicFunction = function() {
privateFunction();
};
}
Using apply (as others have suggested) also works, though it's a bit more complex in my opinion.
It might be beyond the scope of this question, but I would also recommend considering a different approach to JavaScript where you actually don't use the this keyword at all. A former colleague of mine at ThoughtWorks, Pete Hodgson, wrote a really helpful article, Class-less JavaScript, explaining one way to do this.
I am creating an AJAX API for a web service and I want to be able to call jQuery-like accessors.
jQuery seems to be able to execute 'jQuery' as a function, but also use it to directly access the object that is the result of the function EG:
jQuery();
jQuery.each({});
This is the trick that I can't seem to pull off:
myAPI('foo'); //output: 'foo'
myAPI('foo').changeBar(); //output: 'foo' 1
myAPI.changeBar(); //Error: not a function
I have seen the answers to similar questions, which are helpful, but don't really answer my question.
#8734115 - Really interesting, but you can't access the methods that were set by f.prototype.
#2953314 - Uses Multiple operations to create object instead of a single function.
here is my code:
(function(window) {
var h = function(foo) {
// The h object is actually just the init constructor 'enhanced'
return new h.fn.init(foo);
};
/**
* Methods defined at protoype.
*/
h.fn = h.prototype = {
constructor: h,
init: function(foo) {
console.log(foo);
return this;
},
splice : function () {},
length : 0,
bar : 0,
changeBar : function() {
this.bar++;
return this.bar;
}
};
h.fn.init.prototype = h.fn;
//Publish
window.myAPI =h;
}( window));
I'm sure I'm missing something simple :(
What jQuery is doing there is using jQuery as both a function and as a pseudo-namespace. That is, you can call jQuery: var divs = jQuery("div"); and you can use properties on it, e.g.: jQuery.each(...);.
This is possible because in JavaScript, functions are first-class objects, and so you can add arbitrary properties to them:
function foo() {
alert("Foo!");
}
foo.bar = function() {
alert("Bar!");
};
foo(); // "Foo!"
foo.bar(); // "Bar!"
That's literally all there is to it.
Within the call to bar, this will be the foo function (because this is determined entirely by how a function is called, not where it's defined). jQuery doesn't use this to refer to itself (usually it uses this to refer to DOM elements, sometimes to other things like array elements; when referring to itself, since it's a single thing, it just uses jQuery).
Now, you might want to ensure that your functions have proper names (whereas the function I assigned to bar above is anonymous — the property has a name, but the function does not). In that case, you might get into the module pattern:
var foo = (function() {
function foo() {
alert("Foo!");
}
function foo_bar() {
alert("Bar!");
}
foo.bar = foo_bar;
return foo;
})();
foo(); // "Foo!"
foo.bar(); // "Bar!"
That pattern also has the advantage that you can have private data and functions held within the scoping function (the big anonymous function that wraps everything else) that only your code can use.
var foo = (function() {
function foo() {
reallyPrivate("Foo!");
}
function foo_bar() {
reallyPrivate("Bar!");
}
function reallyPrivate(msg) {
alert(msg);
}
foo.bar = foo_bar;
return foo;
})();
foo(); // "Foo!"
foo.bar(); // "Bar!"
reallyPrivate("Hi"); // Error, `reallyPrivate` is undefined outside of the scoping function
In your code, you're assigning things to the prototype property of the function. That only comes into play when the function is called as a constructor function (e.g., via new). When you do that, the object created by new receives the function's prototype property as its underlying prototype. But that's a completely different thing, unrelated to what jQuery does where it's both a function and a pseudo-namespace.
You do not need any of that weirdness, to use stuff like $.each
you just attach functions to the function object instead
of the prototype object:
function Constructor() {
if (!(this instanceof Constructor)) {
return new Constructor();
}
}
Constructor.prototype = {
each: function() {
return "instance method";
}
};
Constructor.each = function() {
return "static method";
};
var a = Constructor();
a.each(); //"instance method"
Constructor.each(); //"static method"