I have a constructor function which registers an event handler:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', function () {
alert(this.data);
});
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
However, I'm not able to access the data property of the created object inside the callback. It looks like this does not refer to the object that was created, but to another one.
I also tried to use an object method instead of an anonymous function:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', this.alert);
}
MyConstructor.prototype.alert = function() {
alert(this.name);
};
but it exhibits the same problems.
How can I access the correct object?
What you should know about this
this (aka "the context") is a special keyword inside each function and its value only depends on how the function was called, not how/when/where it was defined. It is not affected by lexical scopes like other variables (except for arrow functions, see below). Here are some examples:
function foo() {
console.log(this);
}
// normal function call
foo(); // `this` will refer to `window`
// as object method
var obj = {bar: foo};
obj.bar(); // `this` will refer to `obj`
// as constructor function
new foo(); // `this` will refer to an object that inherits from `foo.prototype`
To learn more about this, have a look at the MDN documentation.
How to refer to the correct this
Use arrow functions
ECMAScript 6 introduced arrow functions, which can be thought of as lambda functions. They don't have their own this binding. Instead, this is looked up in scope just like a normal variable. That means you don't have to call .bind. That's not the only special behavior they have, please refer to the MDN documentation for more information.
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => alert(this.data));
}
Don't use this
You actually don't want to access this in particular, but the object it refers to. That's why an easy solution is to simply create a new variable that also refers to that object. The variable can have any name, but common ones are self and that.
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function() {
alert(self.data);
});
}
Since self is a normal variable, it obeys lexical scope rules and is accessible inside the callback. This also has the advantage that you can access the this value of the callback itself.
Explicitly set this of the callback - part 1
It might look like you have no control over the value of this because its value is set automatically, but that is actually not the case.
Every function has the method .bind [docs], which returns a new function with this bound to a value. The function has exactly the same behavior as the one you called .bind on, only that this was set by you. No matter how or when that function is called, this will always refer to the passed value.
function MyConstructor(data, transport) {
this.data = data;
var boundFunction = (function() { // parenthesis are not necessary
alert(this.data); // but might improve readability
}).bind(this); // <- here we are calling `.bind()`
transport.on('data', boundFunction);
}
In this case, we are binding the callback's this to the value of MyConstructor's this.
Note: When a binding context for jQuery, use jQuery.proxy [docs] instead. The reason to do this is so that you don't need to store the reference to the function when unbinding an event callback. jQuery handles that internally.
Set this of the callback - part 2
Some functions/methods which accept callbacks also accept a value to which the callback's this should refer to. This is basically the same as binding it yourself, but the function/method does it for you. Array#map [docs] is such a method. Its signature is:
array.map(callback[, thisArg])
The first argument is the callback and the second argument is the value this should refer to. Here is a contrived example:
var arr = [1, 2, 3];
var obj = {multiplier: 42};
var new_arr = arr.map(function(v) {
return v * this.multiplier;
}, obj); // <- here we are passing `obj` as second argument
Note: Whether or not you can pass a value for this is usually mentioned in the documentation of that function/method. For example, jQuery's $.ajax method [docs] describes an option called context:
This object will be made the context of all Ajax-related callbacks.
Common problem: Using object methods as callbacks/event handlers
Another common manifestation of this problem is when an object method is used as callback/event handler. Functions are first-class citizens in JavaScript and the term "method" is just a colloquial term for a function that is a value of an object property. But that function doesn't have a specific link to its "containing" object.
Consider the following example:
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = function() {
console.log(this.data);
};
The function this.method is assigned as click event handler, but if the document.body is clicked, the value logged will be undefined, because inside the event handler, this refers to the document.body, not the instance of Foo.
As already mentioned at the beginning, what this refers to depends on how the function is called, not how it is defined.
If the code was like the following, it might be more obvious that the function doesn't have an implicit reference to the object:
function method() {
console.log(this.data);
}
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = method;
The solution is the same as mentioned above: If available, use .bind to explicitly bind this to a specific value
document.body.onclick = this.method.bind(this);
or explicitly call the function as a "method" of the object, by using an anonymous function as callback / event handler and assign the object (this) to another variable:
var self = this;
document.body.onclick = function() {
self.method();
};
or use an arrow function:
document.body.onclick = () => this.method();
Here are several ways to access the parent context inside a child context -
You can use the bind() function.
Store a reference to context/this inside another variable (see the below example).
Use ES6 Arrow functions.
Alter the code, function design, and architecture - for this you should have command over design patterns in JavaScript.
1. Use the bind() function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', ( function () {
alert(this.data);
}).bind(this) );
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
If you are using Underscore.js - http://underscorejs.org/#bind
transport.on('data', _.bind(function () {
alert(this.data);
}, this));
2. Store a reference to context/this inside another variable
function MyConstructor(data, transport) {
var self = this;
this.data = data;
transport.on('data', function() {
alert(self.data);
});
}
3. Arrow function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
It's all in the "magic" syntax of calling a method:
object.property();
When you get the property from the object and call it in one go, the object will be the context for the method. If you call the same method, but in separate steps, the context is the global scope (window) instead:
var f = object.property;
f();
When you get the reference of a method, it's no longer attached to the object. It's just a reference to a plain function. The same happens when you get the reference to use as a callback:
this.saveNextLevelData(this.setAll);
That's where you would bind the context to the function:
this.saveNextLevelData(this.setAll.bind(this));
If you are using jQuery you should use the $.proxy method instead, as bind is not supported in all browsers:
this.saveNextLevelData($.proxy(this.setAll, this));
You should know about "this" Keyword.
As per my view you can implement "this" in three ways
(Self|Arrow function|Bind Method)
A function's this keyword behaves a little differently in JavaScript compared to other languages.
It also has some differences between strict mode and non-strict mode.
In most cases, the value of this is determined by how a function is called.
It can't be set by assignment during execution, and it may be different each time the function is called.
ES5 introduced the bind() method to set the value of a function's this regardless of how it's called,
And ES2015 introduced arrow functions that don't provide their own this binding (it retains this value of the enclosing lexical context).
Method1: Self - Self is being used to maintain a reference to the original this even as the context is changing. It's a technique often used in event handlers (especially in closures).
Reference: this
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function () {
alert(self.data);
});
}
Method2: Arrow function - An arrow function expression is a syntactically compact alternative to a regular function expression, although without its own bindings to the this, arguments, super, or new.target keywords.
Arrow function expressions are ill-suited as methods, and they cannot be used as constructors.
Reference: Arrow function expressions
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',()=> {
alert(this.data);
});
}
Method 3: Bind - The bind() method creates a new function that, when called, has its this keyword set to the provided value with a given sequence of arguments preceding any provided when the new function is called.
Reference: Function.prototype.bind()
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',(function() {
alert(this.data);
}).bind(this);
The trouble with "context"
The term "context" is sometimes used to refer to the object referenced by this. Its use is inappropriate, because it doesn't fit either semantically or technically with ECMAScript's this.
"Context" means the circumstances surrounding something that adds meaning, or some preceding and following information that gives extra meaning. The term "context" is used in ECMAScript to refer to execution context, which is all the parameters, scope, and this within the scope of some executing code.
This is shown in ECMA-262 section 10.4.2:
Set the ThisBinding to the same value as the ThisBinding of the
calling execution context
Which clearly indicates that this is part of an execution context.
An execution context provides the surrounding information that adds meaning to the code that is being executed. It includes much more information than just the thisBinding.
The value of this isn't "context". It's just one part of an execution context. It's essentially a local variable that can be set by the call to any object and in strict mode, to any value at all.
First, you need to have a clear understanding of scope and behaviour of the this keyword in the context of scope.
this & scope:
There are two types of scope in JavaScript. They are:
Global Scope
Function Scope
In short, global scope refers to the window object. Variables declared in a global scope are accessible from anywhere.
On the other hand, function scope resides inside of a function. A variable declared inside a function cannot be accessed from the outside world normally.
The this keyword in the global scope refers to the window object. this inside a function also refers to the window object. So this will always refer to the window until we find a way to manipulate this to indicate a context of our own choosing.
--------------------------------------------------------------------------------
- -
- Global Scope -
- (globally "this" refers to window object) -
- -
- function outer_function(callback){ -
- -
- // Outer function scope -
- // Inside the outer function, the "this" keyword -
- // refers to window object -
- callback() // "this" inside callback also refers to the window object -
- } -
- -
- function callback_function(){ -
- -
- // Function to be passed as callback -
- -
- // Here "THIS" refers to the window object also -
- } -
- -
- outer_function(callback_function) -
- // Invoke with callback -
- -
--------------------------------------------------------------------------------
Different ways to manipulate this inside callback functions:
Here I have a constructor function called Person. It has a property called name and four method called sayNameVersion1, sayNameVersion2, sayNameVersion3, and sayNameVersion4. All four of them has one specific task. Accept a callback and invoke it. The callback has a specific task which is to log the name property of an instance of Person constructor function.
function Person(name){
this.name = name
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
this.sayNameVersion3 = function(callback){
callback.call(this)
}
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
}
function niceCallback(){
// Function to be used as callback
var parentObject = this
console.log(parentObject)
}
Now let's create an instance from person constructor and invoke different versions of sayNameVersionX (X refers to 1,2,3,4) method with niceCallback to see how many ways we can manipulate the this inside callback to refer to the person instance.
var p1 = new Person('zami') // Create an instance of Person constructor
bind:
What bind do is to create a new function with the this keyword set to the provided value.
sayNameVersion1 and sayNameVersion2 use bind to manipulate this of the callback function.
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
The first one binds this with a callback inside the method itself. And for the second one, the callback is passed with the object bound to it.
p1.sayNameVersion1(niceCallback) // pass simply the callback and bind happens inside the sayNameVersion1 method
p1.sayNameVersion2(niceCallback.bind(p1)) // uses bind before passing callback
call:
The first argument of the call method is used as this inside the function that is invoked with call attached to it.
sayNameVersion3 uses call to manipulate the this to refer to the person object that we created, instead of the window object.
this.sayNameVersion3 = function(callback){
callback.call(this)
}
And it is called like the following:
p1.sayNameVersion3(niceCallback)
apply:
Similar to call, the first argument of apply refers to the object that will be indicated by the this keyword.
sayNameVersion4 uses apply to manipulate this to refer to a person object
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
And it is called like the following. Simply the callback is passed,
p1.sayNameVersion4(niceCallback)
We can not bind this to setTimeout(), as it always executes with the global object (Window). If you want to access the this context in the callback function then by using bind() to the callback function, we can achieve it as:
setTimeout(function(){
this.methodName();
}.bind(this), 2000);
The question revolves around how the this keyword behaves in JavaScript. this behaves differently as below,
The value of this is usually determined by a function execution context.
In the global scope, this refers to the global object (the window object).
If strict mode is enabled for any function then the value of this will be undefined as in strict mode, global object refers to undefined in place of the window object.
The object that is standing before the dot is what the this keyword will be bound to.
We can set the value of this explicitly with call(), bind(), and apply()
When the new keyword is used (a constructor), this is bound to the new object being created.
Arrow functions don’t bind this — instead, this is bound lexically (i.e., based on the original context)
As most of the answers suggest, we can use the arrow function or bind() Method or Self var. I would quote a point about lambdas (arrow function) from Google JavaScript Style Guide
Prefer using arrow functions over f.bind(this), and especially over
goog.bind(f, this). Avoid writing const self = this. Arrow functions
are particularly useful for callbacks, which sometimes pass unexpectedly
additional arguments.
Google clearly recommends using lambdas rather than bind or const self = this
So the best solution would be to use lambdas as below,
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
References:
https://medium.com/tech-tajawal/javascript-this-4-rules-7354abdb274c
arrow-functions-vs-bind
Currently there is another approach possible if classes are used in code.
With support of class fields, it's possible to make it the following way:
class someView {
onSomeInputKeyUp = (event) => {
console.log(this); // This refers to the correct value
// ....
someInitMethod() {
//...
someInput.addEventListener('input', this.onSomeInputKeyUp)
For sure under the hood it's all the old good arrow function that binds context, but in this form it looks much more clear that explicit binding.
Since it's a Stage 3 Proposal, you will need Babel and appropriate Babel plugin to process it as for now (08/2018).
I was facing a problem with Ngx line chart xAxisTickFormatting function which was called from HTML like this: [xAxisTickFormatting]="xFormat".
I was unable to access my component's variable from the function declared. This solution helped me to resolve the issue to find the correct this.
Instead of using the function like this:
xFormat (value): string {
return value.toString() + this.oneComponentVariable; //gives wrong result
}
Use this:
xFormat = (value) => {
// console.log(this);
// now you have access to your component variables
return value + this.oneComponentVariable
}
Another approach, which is the standard way since DOM2 to bind this within the event listener, that let you always remove the listener (among other benefits), is the handleEvent(evt) method from the EventListener interface:
var obj = {
handleEvent(e) {
// always true
console.log(this === obj);
}
};
document.body.addEventListener('click', obj);
Detailed information about using handleEvent can be found here: DOM handleEvent: a cross-platform standard since year 2000
Some other people have touched on how to use the .bind() method, but specifically here is how you can use it with .then() if anyone is having trouble getting them to work together:
someFunction()
.then(function(response) {
//'this' wasn't accessible here before but now it is
}.bind(this))
As mentioned in the comments, an alternative would be to use an arrow function that doesn't have its own 'this' value
someFunction()
.then((response)=>{
//'this' was always accessible here
})
this in JavaScript:
The value of this in JavaScript is 100% determined by how a function is called, and not how it is defined. We can relatively easily find the value of this by the 'left of the dot rule':
When the function is created using the function keyword the value of this is the object left of the dot of the function which is called
If there is no object left of the dot then the value of this inside a function is often the global object (global in Node.js and window in a browser). I wouldn't recommend using the this keyword here because it is less explicit than using something like window!
There exist certain constructs like arrow functions and functions created using the Function.prototype.bind() a function that can fix the value of this. These are exceptions of the rule, but they are really helpful to fix the value of this.
Example in Node.js
module.exports.data = 'module data';
// This outside a function in node refers to module.exports object
console.log(this);
const obj1 = {
data: "obj1 data",
met1: function () {
console.log(this.data);
},
met2: () => {
console.log(this.data);
},
};
const obj2 = {
data: "obj2 data",
test1: function () {
console.log(this.data);
},
test2: function () {
console.log(this.data);
}.bind(obj1),
test3: obj1.met1,
test4: obj1.met2,
};
obj2.test1();
obj2.test2();
obj2.test3();
obj2.test4();
obj1.met1.call(obj2);
Output:
Let me walk you through the outputs one by one (ignoring the first log starting from the second):
this is obj2 because of the left of the dot rule, we can see how test1 is called obj2.test1();. obj2 is left of the dot and thus the this value.
Even though obj2 is left of the dot, test2 is bound to obj1 via the bind() method. The this value is obj1.
obj2 is left of the dot from the function which is called: obj2.test3(). Therefore obj2 will be the value of this.
In this case: obj2.test4() obj2 is left of the dot. However, arrow functions don't have their own this binding. Therefore it will bind to the this value of the outer scope which is the module.exports an object which was logged in the beginning.
We can also specify the value of this by using the call function. Here we can pass in the desired this value as an argument, which is obj2 in this case.
Related
I have a constructor function which registers an event handler:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', function () {
alert(this.data);
});
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
However, I'm not able to access the data property of the created object inside the callback. It looks like this does not refer to the object that was created, but to another one.
I also tried to use an object method instead of an anonymous function:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', this.alert);
}
MyConstructor.prototype.alert = function() {
alert(this.name);
};
but it exhibits the same problems.
How can I access the correct object?
What you should know about this
this (aka "the context") is a special keyword inside each function and its value only depends on how the function was called, not how/when/where it was defined. It is not affected by lexical scopes like other variables (except for arrow functions, see below). Here are some examples:
function foo() {
console.log(this);
}
// normal function call
foo(); // `this` will refer to `window`
// as object method
var obj = {bar: foo};
obj.bar(); // `this` will refer to `obj`
// as constructor function
new foo(); // `this` will refer to an object that inherits from `foo.prototype`
To learn more about this, have a look at the MDN documentation.
How to refer to the correct this
Use arrow functions
ECMAScript 6 introduced arrow functions, which can be thought of as lambda functions. They don't have their own this binding. Instead, this is looked up in scope just like a normal variable. That means you don't have to call .bind. That's not the only special behavior they have, please refer to the MDN documentation for more information.
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => alert(this.data));
}
Don't use this
You actually don't want to access this in particular, but the object it refers to. That's why an easy solution is to simply create a new variable that also refers to that object. The variable can have any name, but common ones are self and that.
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function() {
alert(self.data);
});
}
Since self is a normal variable, it obeys lexical scope rules and is accessible inside the callback. This also has the advantage that you can access the this value of the callback itself.
Explicitly set this of the callback - part 1
It might look like you have no control over the value of this because its value is set automatically, but that is actually not the case.
Every function has the method .bind [docs], which returns a new function with this bound to a value. The function has exactly the same behavior as the one you called .bind on, only that this was set by you. No matter how or when that function is called, this will always refer to the passed value.
function MyConstructor(data, transport) {
this.data = data;
var boundFunction = (function() { // parenthesis are not necessary
alert(this.data); // but might improve readability
}).bind(this); // <- here we are calling `.bind()`
transport.on('data', boundFunction);
}
In this case, we are binding the callback's this to the value of MyConstructor's this.
Note: When a binding context for jQuery, use jQuery.proxy [docs] instead. The reason to do this is so that you don't need to store the reference to the function when unbinding an event callback. jQuery handles that internally.
Set this of the callback - part 2
Some functions/methods which accept callbacks also accept a value to which the callback's this should refer to. This is basically the same as binding it yourself, but the function/method does it for you. Array#map [docs] is such a method. Its signature is:
array.map(callback[, thisArg])
The first argument is the callback and the second argument is the value this should refer to. Here is a contrived example:
var arr = [1, 2, 3];
var obj = {multiplier: 42};
var new_arr = arr.map(function(v) {
return v * this.multiplier;
}, obj); // <- here we are passing `obj` as second argument
Note: Whether or not you can pass a value for this is usually mentioned in the documentation of that function/method. For example, jQuery's $.ajax method [docs] describes an option called context:
This object will be made the context of all Ajax-related callbacks.
Common problem: Using object methods as callbacks/event handlers
Another common manifestation of this problem is when an object method is used as callback/event handler. Functions are first-class citizens in JavaScript and the term "method" is just a colloquial term for a function that is a value of an object property. But that function doesn't have a specific link to its "containing" object.
Consider the following example:
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = function() {
console.log(this.data);
};
The function this.method is assigned as click event handler, but if the document.body is clicked, the value logged will be undefined, because inside the event handler, this refers to the document.body, not the instance of Foo.
As already mentioned at the beginning, what this refers to depends on how the function is called, not how it is defined.
If the code was like the following, it might be more obvious that the function doesn't have an implicit reference to the object:
function method() {
console.log(this.data);
}
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = method;
The solution is the same as mentioned above: If available, use .bind to explicitly bind this to a specific value
document.body.onclick = this.method.bind(this);
or explicitly call the function as a "method" of the object, by using an anonymous function as callback / event handler and assign the object (this) to another variable:
var self = this;
document.body.onclick = function() {
self.method();
};
or use an arrow function:
document.body.onclick = () => this.method();
Here are several ways to access the parent context inside a child context -
You can use the bind() function.
Store a reference to context/this inside another variable (see the below example).
Use ES6 Arrow functions.
Alter the code, function design, and architecture - for this you should have command over design patterns in JavaScript.
1. Use the bind() function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', ( function () {
alert(this.data);
}).bind(this) );
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
If you are using Underscore.js - http://underscorejs.org/#bind
transport.on('data', _.bind(function () {
alert(this.data);
}, this));
2. Store a reference to context/this inside another variable
function MyConstructor(data, transport) {
var self = this;
this.data = data;
transport.on('data', function() {
alert(self.data);
});
}
3. Arrow function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
It's all in the "magic" syntax of calling a method:
object.property();
When you get the property from the object and call it in one go, the object will be the context for the method. If you call the same method, but in separate steps, the context is the global scope (window) instead:
var f = object.property;
f();
When you get the reference of a method, it's no longer attached to the object. It's just a reference to a plain function. The same happens when you get the reference to use as a callback:
this.saveNextLevelData(this.setAll);
That's where you would bind the context to the function:
this.saveNextLevelData(this.setAll.bind(this));
If you are using jQuery you should use the $.proxy method instead, as bind is not supported in all browsers:
this.saveNextLevelData($.proxy(this.setAll, this));
You should know about "this" Keyword.
As per my view you can implement "this" in three ways
(Self|Arrow function|Bind Method)
A function's this keyword behaves a little differently in JavaScript compared to other languages.
It also has some differences between strict mode and non-strict mode.
In most cases, the value of this is determined by how a function is called.
It can't be set by assignment during execution, and it may be different each time the function is called.
ES5 introduced the bind() method to set the value of a function's this regardless of how it's called,
And ES2015 introduced arrow functions that don't provide their own this binding (it retains this value of the enclosing lexical context).
Method1: Self - Self is being used to maintain a reference to the original this even as the context is changing. It's a technique often used in event handlers (especially in closures).
Reference: this
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function () {
alert(self.data);
});
}
Method2: Arrow function - An arrow function expression is a syntactically compact alternative to a regular function expression, although without its own bindings to the this, arguments, super, or new.target keywords.
Arrow function expressions are ill-suited as methods, and they cannot be used as constructors.
Reference: Arrow function expressions
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',()=> {
alert(this.data);
});
}
Method 3: Bind - The bind() method creates a new function that, when called, has its this keyword set to the provided value with a given sequence of arguments preceding any provided when the new function is called.
Reference: Function.prototype.bind()
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',(function() {
alert(this.data);
}).bind(this);
The trouble with "context"
The term "context" is sometimes used to refer to the object referenced by this. Its use is inappropriate, because it doesn't fit either semantically or technically with ECMAScript's this.
"Context" means the circumstances surrounding something that adds meaning, or some preceding and following information that gives extra meaning. The term "context" is used in ECMAScript to refer to execution context, which is all the parameters, scope, and this within the scope of some executing code.
This is shown in ECMA-262 section 10.4.2:
Set the ThisBinding to the same value as the ThisBinding of the
calling execution context
Which clearly indicates that this is part of an execution context.
An execution context provides the surrounding information that adds meaning to the code that is being executed. It includes much more information than just the thisBinding.
The value of this isn't "context". It's just one part of an execution context. It's essentially a local variable that can be set by the call to any object and in strict mode, to any value at all.
First, you need to have a clear understanding of scope and behaviour of the this keyword in the context of scope.
this & scope:
There are two types of scope in JavaScript. They are:
Global Scope
Function Scope
In short, global scope refers to the window object. Variables declared in a global scope are accessible from anywhere.
On the other hand, function scope resides inside of a function. A variable declared inside a function cannot be accessed from the outside world normally.
The this keyword in the global scope refers to the window object. this inside a function also refers to the window object. So this will always refer to the window until we find a way to manipulate this to indicate a context of our own choosing.
--------------------------------------------------------------------------------
- -
- Global Scope -
- (globally "this" refers to window object) -
- -
- function outer_function(callback){ -
- -
- // Outer function scope -
- // Inside the outer function, the "this" keyword -
- // refers to window object -
- callback() // "this" inside callback also refers to the window object -
- } -
- -
- function callback_function(){ -
- -
- // Function to be passed as callback -
- -
- // Here "THIS" refers to the window object also -
- } -
- -
- outer_function(callback_function) -
- // Invoke with callback -
- -
--------------------------------------------------------------------------------
Different ways to manipulate this inside callback functions:
Here I have a constructor function called Person. It has a property called name and four method called sayNameVersion1, sayNameVersion2, sayNameVersion3, and sayNameVersion4. All four of them has one specific task. Accept a callback and invoke it. The callback has a specific task which is to log the name property of an instance of Person constructor function.
function Person(name){
this.name = name
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
this.sayNameVersion3 = function(callback){
callback.call(this)
}
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
}
function niceCallback(){
// Function to be used as callback
var parentObject = this
console.log(parentObject)
}
Now let's create an instance from person constructor and invoke different versions of sayNameVersionX (X refers to 1,2,3,4) method with niceCallback to see how many ways we can manipulate the this inside callback to refer to the person instance.
var p1 = new Person('zami') // Create an instance of Person constructor
bind:
What bind do is to create a new function with the this keyword set to the provided value.
sayNameVersion1 and sayNameVersion2 use bind to manipulate this of the callback function.
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
The first one binds this with a callback inside the method itself. And for the second one, the callback is passed with the object bound to it.
p1.sayNameVersion1(niceCallback) // pass simply the callback and bind happens inside the sayNameVersion1 method
p1.sayNameVersion2(niceCallback.bind(p1)) // uses bind before passing callback
call:
The first argument of the call method is used as this inside the function that is invoked with call attached to it.
sayNameVersion3 uses call to manipulate the this to refer to the person object that we created, instead of the window object.
this.sayNameVersion3 = function(callback){
callback.call(this)
}
And it is called like the following:
p1.sayNameVersion3(niceCallback)
apply:
Similar to call, the first argument of apply refers to the object that will be indicated by the this keyword.
sayNameVersion4 uses apply to manipulate this to refer to a person object
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
And it is called like the following. Simply the callback is passed,
p1.sayNameVersion4(niceCallback)
We can not bind this to setTimeout(), as it always executes with the global object (Window). If you want to access the this context in the callback function then by using bind() to the callback function, we can achieve it as:
setTimeout(function(){
this.methodName();
}.bind(this), 2000);
The question revolves around how the this keyword behaves in JavaScript. this behaves differently as below,
The value of this is usually determined by a function execution context.
In the global scope, this refers to the global object (the window object).
If strict mode is enabled for any function then the value of this will be undefined as in strict mode, global object refers to undefined in place of the window object.
The object that is standing before the dot is what the this keyword will be bound to.
We can set the value of this explicitly with call(), bind(), and apply()
When the new keyword is used (a constructor), this is bound to the new object being created.
Arrow functions don’t bind this — instead, this is bound lexically (i.e., based on the original context)
As most of the answers suggest, we can use the arrow function or bind() Method or Self var. I would quote a point about lambdas (arrow function) from Google JavaScript Style Guide
Prefer using arrow functions over f.bind(this), and especially over
goog.bind(f, this). Avoid writing const self = this. Arrow functions
are particularly useful for callbacks, which sometimes pass unexpectedly
additional arguments.
Google clearly recommends using lambdas rather than bind or const self = this
So the best solution would be to use lambdas as below,
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
References:
https://medium.com/tech-tajawal/javascript-this-4-rules-7354abdb274c
arrow-functions-vs-bind
Currently there is another approach possible if classes are used in code.
With support of class fields, it's possible to make it the following way:
class someView {
onSomeInputKeyUp = (event) => {
console.log(this); // This refers to the correct value
// ....
someInitMethod() {
//...
someInput.addEventListener('input', this.onSomeInputKeyUp)
For sure under the hood it's all the old good arrow function that binds context, but in this form it looks much more clear that explicit binding.
Since it's a Stage 3 Proposal, you will need Babel and appropriate Babel plugin to process it as for now (08/2018).
I was facing a problem with Ngx line chart xAxisTickFormatting function which was called from HTML like this: [xAxisTickFormatting]="xFormat".
I was unable to access my component's variable from the function declared. This solution helped me to resolve the issue to find the correct this.
Instead of using the function like this:
xFormat (value): string {
return value.toString() + this.oneComponentVariable; //gives wrong result
}
Use this:
xFormat = (value) => {
// console.log(this);
// now you have access to your component variables
return value + this.oneComponentVariable
}
Another approach, which is the standard way since DOM2 to bind this within the event listener, that let you always remove the listener (among other benefits), is the handleEvent(evt) method from the EventListener interface:
var obj = {
handleEvent(e) {
// always true
console.log(this === obj);
}
};
document.body.addEventListener('click', obj);
Detailed information about using handleEvent can be found here: DOM handleEvent: a cross-platform standard since year 2000
Some other people have touched on how to use the .bind() method, but specifically here is how you can use it with .then() if anyone is having trouble getting them to work together:
someFunction()
.then(function(response) {
//'this' wasn't accessible here before but now it is
}.bind(this))
As mentioned in the comments, an alternative would be to use an arrow function that doesn't have its own 'this' value
someFunction()
.then((response)=>{
//'this' was always accessible here
})
this in JavaScript:
The value of this in JavaScript is 100% determined by how a function is called, and not how it is defined. We can relatively easily find the value of this by the 'left of the dot rule':
When the function is created using the function keyword the value of this is the object left of the dot of the function which is called
If there is no object left of the dot then the value of this inside a function is often the global object (global in Node.js and window in a browser). I wouldn't recommend using the this keyword here because it is less explicit than using something like window!
There exist certain constructs like arrow functions and functions created using the Function.prototype.bind() a function that can fix the value of this. These are exceptions of the rule, but they are really helpful to fix the value of this.
Example in Node.js
module.exports.data = 'module data';
// This outside a function in node refers to module.exports object
console.log(this);
const obj1 = {
data: "obj1 data",
met1: function () {
console.log(this.data);
},
met2: () => {
console.log(this.data);
},
};
const obj2 = {
data: "obj2 data",
test1: function () {
console.log(this.data);
},
test2: function () {
console.log(this.data);
}.bind(obj1),
test3: obj1.met1,
test4: obj1.met2,
};
obj2.test1();
obj2.test2();
obj2.test3();
obj2.test4();
obj1.met1.call(obj2);
Output:
Let me walk you through the outputs one by one (ignoring the first log starting from the second):
this is obj2 because of the left of the dot rule, we can see how test1 is called obj2.test1();. obj2 is left of the dot and thus the this value.
Even though obj2 is left of the dot, test2 is bound to obj1 via the bind() method. The this value is obj1.
obj2 is left of the dot from the function which is called: obj2.test3(). Therefore obj2 will be the value of this.
In this case: obj2.test4() obj2 is left of the dot. However, arrow functions don't have their own this binding. Therefore it will bind to the this value of the outer scope which is the module.exports an object which was logged in the beginning.
We can also specify the value of this by using the call function. Here we can pass in the desired this value as an argument, which is obj2 in this case.
I have a constructor function which registers an event handler:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', function () {
alert(this.data);
});
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
However, I'm not able to access the data property of the created object inside the callback. It looks like this does not refer to the object that was created, but to another one.
I also tried to use an object method instead of an anonymous function:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', this.alert);
}
MyConstructor.prototype.alert = function() {
alert(this.name);
};
but it exhibits the same problems.
How can I access the correct object?
What you should know about this
this (aka "the context") is a special keyword inside each function and its value only depends on how the function was called, not how/when/where it was defined. It is not affected by lexical scopes like other variables (except for arrow functions, see below). Here are some examples:
function foo() {
console.log(this);
}
// normal function call
foo(); // `this` will refer to `window`
// as object method
var obj = {bar: foo};
obj.bar(); // `this` will refer to `obj`
// as constructor function
new foo(); // `this` will refer to an object that inherits from `foo.prototype`
To learn more about this, have a look at the MDN documentation.
How to refer to the correct this
Use arrow functions
ECMAScript 6 introduced arrow functions, which can be thought of as lambda functions. They don't have their own this binding. Instead, this is looked up in scope just like a normal variable. That means you don't have to call .bind. That's not the only special behavior they have, please refer to the MDN documentation for more information.
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => alert(this.data));
}
Don't use this
You actually don't want to access this in particular, but the object it refers to. That's why an easy solution is to simply create a new variable that also refers to that object. The variable can have any name, but common ones are self and that.
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function() {
alert(self.data);
});
}
Since self is a normal variable, it obeys lexical scope rules and is accessible inside the callback. This also has the advantage that you can access the this value of the callback itself.
Explicitly set this of the callback - part 1
It might look like you have no control over the value of this because its value is set automatically, but that is actually not the case.
Every function has the method .bind [docs], which returns a new function with this bound to a value. The function has exactly the same behavior as the one you called .bind on, only that this was set by you. No matter how or when that function is called, this will always refer to the passed value.
function MyConstructor(data, transport) {
this.data = data;
var boundFunction = (function() { // parenthesis are not necessary
alert(this.data); // but might improve readability
}).bind(this); // <- here we are calling `.bind()`
transport.on('data', boundFunction);
}
In this case, we are binding the callback's this to the value of MyConstructor's this.
Note: When a binding context for jQuery, use jQuery.proxy [docs] instead. The reason to do this is so that you don't need to store the reference to the function when unbinding an event callback. jQuery handles that internally.
Set this of the callback - part 2
Some functions/methods which accept callbacks also accept a value to which the callback's this should refer to. This is basically the same as binding it yourself, but the function/method does it for you. Array#map [docs] is such a method. Its signature is:
array.map(callback[, thisArg])
The first argument is the callback and the second argument is the value this should refer to. Here is a contrived example:
var arr = [1, 2, 3];
var obj = {multiplier: 42};
var new_arr = arr.map(function(v) {
return v * this.multiplier;
}, obj); // <- here we are passing `obj` as second argument
Note: Whether or not you can pass a value for this is usually mentioned in the documentation of that function/method. For example, jQuery's $.ajax method [docs] describes an option called context:
This object will be made the context of all Ajax-related callbacks.
Common problem: Using object methods as callbacks/event handlers
Another common manifestation of this problem is when an object method is used as callback/event handler. Functions are first-class citizens in JavaScript and the term "method" is just a colloquial term for a function that is a value of an object property. But that function doesn't have a specific link to its "containing" object.
Consider the following example:
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = function() {
console.log(this.data);
};
The function this.method is assigned as click event handler, but if the document.body is clicked, the value logged will be undefined, because inside the event handler, this refers to the document.body, not the instance of Foo.
As already mentioned at the beginning, what this refers to depends on how the function is called, not how it is defined.
If the code was like the following, it might be more obvious that the function doesn't have an implicit reference to the object:
function method() {
console.log(this.data);
}
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = method;
The solution is the same as mentioned above: If available, use .bind to explicitly bind this to a specific value
document.body.onclick = this.method.bind(this);
or explicitly call the function as a "method" of the object, by using an anonymous function as callback / event handler and assign the object (this) to another variable:
var self = this;
document.body.onclick = function() {
self.method();
};
or use an arrow function:
document.body.onclick = () => this.method();
Here are several ways to access the parent context inside a child context -
You can use the bind() function.
Store a reference to context/this inside another variable (see the below example).
Use ES6 Arrow functions.
Alter the code, function design, and architecture - for this you should have command over design patterns in JavaScript.
1. Use the bind() function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', ( function () {
alert(this.data);
}).bind(this) );
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
If you are using Underscore.js - http://underscorejs.org/#bind
transport.on('data', _.bind(function () {
alert(this.data);
}, this));
2. Store a reference to context/this inside another variable
function MyConstructor(data, transport) {
var self = this;
this.data = data;
transport.on('data', function() {
alert(self.data);
});
}
3. Arrow function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
It's all in the "magic" syntax of calling a method:
object.property();
When you get the property from the object and call it in one go, the object will be the context for the method. If you call the same method, but in separate steps, the context is the global scope (window) instead:
var f = object.property;
f();
When you get the reference of a method, it's no longer attached to the object. It's just a reference to a plain function. The same happens when you get the reference to use as a callback:
this.saveNextLevelData(this.setAll);
That's where you would bind the context to the function:
this.saveNextLevelData(this.setAll.bind(this));
If you are using jQuery you should use the $.proxy method instead, as bind is not supported in all browsers:
this.saveNextLevelData($.proxy(this.setAll, this));
You should know about "this" Keyword.
As per my view you can implement "this" in three ways
(Self|Arrow function|Bind Method)
A function's this keyword behaves a little differently in JavaScript compared to other languages.
It also has some differences between strict mode and non-strict mode.
In most cases, the value of this is determined by how a function is called.
It can't be set by assignment during execution, and it may be different each time the function is called.
ES5 introduced the bind() method to set the value of a function's this regardless of how it's called,
And ES2015 introduced arrow functions that don't provide their own this binding (it retains this value of the enclosing lexical context).
Method1: Self - Self is being used to maintain a reference to the original this even as the context is changing. It's a technique often used in event handlers (especially in closures).
Reference: this
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function () {
alert(self.data);
});
}
Method2: Arrow function - An arrow function expression is a syntactically compact alternative to a regular function expression, although without its own bindings to the this, arguments, super, or new.target keywords.
Arrow function expressions are ill-suited as methods, and they cannot be used as constructors.
Reference: Arrow function expressions
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',()=> {
alert(this.data);
});
}
Method 3: Bind - The bind() method creates a new function that, when called, has its this keyword set to the provided value with a given sequence of arguments preceding any provided when the new function is called.
Reference: Function.prototype.bind()
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',(function() {
alert(this.data);
}).bind(this);
The trouble with "context"
The term "context" is sometimes used to refer to the object referenced by this. Its use is inappropriate, because it doesn't fit either semantically or technically with ECMAScript's this.
"Context" means the circumstances surrounding something that adds meaning, or some preceding and following information that gives extra meaning. The term "context" is used in ECMAScript to refer to execution context, which is all the parameters, scope, and this within the scope of some executing code.
This is shown in ECMA-262 section 10.4.2:
Set the ThisBinding to the same value as the ThisBinding of the
calling execution context
Which clearly indicates that this is part of an execution context.
An execution context provides the surrounding information that adds meaning to the code that is being executed. It includes much more information than just the thisBinding.
The value of this isn't "context". It's just one part of an execution context. It's essentially a local variable that can be set by the call to any object and in strict mode, to any value at all.
First, you need to have a clear understanding of scope and behaviour of the this keyword in the context of scope.
this & scope:
There are two types of scope in JavaScript. They are:
Global Scope
Function Scope
In short, global scope refers to the window object. Variables declared in a global scope are accessible from anywhere.
On the other hand, function scope resides inside of a function. A variable declared inside a function cannot be accessed from the outside world normally.
The this keyword in the global scope refers to the window object. this inside a function also refers to the window object. So this will always refer to the window until we find a way to manipulate this to indicate a context of our own choosing.
--------------------------------------------------------------------------------
- -
- Global Scope -
- (globally "this" refers to window object) -
- -
- function outer_function(callback){ -
- -
- // Outer function scope -
- // Inside the outer function, the "this" keyword -
- // refers to window object -
- callback() // "this" inside callback also refers to the window object -
- } -
- -
- function callback_function(){ -
- -
- // Function to be passed as callback -
- -
- // Here "THIS" refers to the window object also -
- } -
- -
- outer_function(callback_function) -
- // Invoke with callback -
- -
--------------------------------------------------------------------------------
Different ways to manipulate this inside callback functions:
Here I have a constructor function called Person. It has a property called name and four method called sayNameVersion1, sayNameVersion2, sayNameVersion3, and sayNameVersion4. All four of them has one specific task. Accept a callback and invoke it. The callback has a specific task which is to log the name property of an instance of Person constructor function.
function Person(name){
this.name = name
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
this.sayNameVersion3 = function(callback){
callback.call(this)
}
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
}
function niceCallback(){
// Function to be used as callback
var parentObject = this
console.log(parentObject)
}
Now let's create an instance from person constructor and invoke different versions of sayNameVersionX (X refers to 1,2,3,4) method with niceCallback to see how many ways we can manipulate the this inside callback to refer to the person instance.
var p1 = new Person('zami') // Create an instance of Person constructor
bind:
What bind do is to create a new function with the this keyword set to the provided value.
sayNameVersion1 and sayNameVersion2 use bind to manipulate this of the callback function.
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
The first one binds this with a callback inside the method itself. And for the second one, the callback is passed with the object bound to it.
p1.sayNameVersion1(niceCallback) // pass simply the callback and bind happens inside the sayNameVersion1 method
p1.sayNameVersion2(niceCallback.bind(p1)) // uses bind before passing callback
call:
The first argument of the call method is used as this inside the function that is invoked with call attached to it.
sayNameVersion3 uses call to manipulate the this to refer to the person object that we created, instead of the window object.
this.sayNameVersion3 = function(callback){
callback.call(this)
}
And it is called like the following:
p1.sayNameVersion3(niceCallback)
apply:
Similar to call, the first argument of apply refers to the object that will be indicated by the this keyword.
sayNameVersion4 uses apply to manipulate this to refer to a person object
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
And it is called like the following. Simply the callback is passed,
p1.sayNameVersion4(niceCallback)
We can not bind this to setTimeout(), as it always executes with the global object (Window). If you want to access the this context in the callback function then by using bind() to the callback function, we can achieve it as:
setTimeout(function(){
this.methodName();
}.bind(this), 2000);
The question revolves around how the this keyword behaves in JavaScript. this behaves differently as below,
The value of this is usually determined by a function execution context.
In the global scope, this refers to the global object (the window object).
If strict mode is enabled for any function then the value of this will be undefined as in strict mode, global object refers to undefined in place of the window object.
The object that is standing before the dot is what the this keyword will be bound to.
We can set the value of this explicitly with call(), bind(), and apply()
When the new keyword is used (a constructor), this is bound to the new object being created.
Arrow functions don’t bind this — instead, this is bound lexically (i.e., based on the original context)
As most of the answers suggest, we can use the arrow function or bind() Method or Self var. I would quote a point about lambdas (arrow function) from Google JavaScript Style Guide
Prefer using arrow functions over f.bind(this), and especially over
goog.bind(f, this). Avoid writing const self = this. Arrow functions
are particularly useful for callbacks, which sometimes pass unexpectedly
additional arguments.
Google clearly recommends using lambdas rather than bind or const self = this
So the best solution would be to use lambdas as below,
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
References:
https://medium.com/tech-tajawal/javascript-this-4-rules-7354abdb274c
arrow-functions-vs-bind
Currently there is another approach possible if classes are used in code.
With support of class fields, it's possible to make it the following way:
class someView {
onSomeInputKeyUp = (event) => {
console.log(this); // This refers to the correct value
// ....
someInitMethod() {
//...
someInput.addEventListener('input', this.onSomeInputKeyUp)
For sure under the hood it's all the old good arrow function that binds context, but in this form it looks much more clear that explicit binding.
Since it's a Stage 3 Proposal, you will need Babel and appropriate Babel plugin to process it as for now (08/2018).
I was facing a problem with Ngx line chart xAxisTickFormatting function which was called from HTML like this: [xAxisTickFormatting]="xFormat".
I was unable to access my component's variable from the function declared. This solution helped me to resolve the issue to find the correct this.
Instead of using the function like this:
xFormat (value): string {
return value.toString() + this.oneComponentVariable; //gives wrong result
}
Use this:
xFormat = (value) => {
// console.log(this);
// now you have access to your component variables
return value + this.oneComponentVariable
}
Another approach, which is the standard way since DOM2 to bind this within the event listener, that let you always remove the listener (among other benefits), is the handleEvent(evt) method from the EventListener interface:
var obj = {
handleEvent(e) {
// always true
console.log(this === obj);
}
};
document.body.addEventListener('click', obj);
Detailed information about using handleEvent can be found here: DOM handleEvent: a cross-platform standard since year 2000
Some other people have touched on how to use the .bind() method, but specifically here is how you can use it with .then() if anyone is having trouble getting them to work together:
someFunction()
.then(function(response) {
//'this' wasn't accessible here before but now it is
}.bind(this))
As mentioned in the comments, an alternative would be to use an arrow function that doesn't have its own 'this' value
someFunction()
.then((response)=>{
//'this' was always accessible here
})
this in JavaScript:
The value of this in JavaScript is 100% determined by how a function is called, and not how it is defined. We can relatively easily find the value of this by the 'left of the dot rule':
When the function is created using the function keyword the value of this is the object left of the dot of the function which is called
If there is no object left of the dot then the value of this inside a function is often the global object (global in Node.js and window in a browser). I wouldn't recommend using the this keyword here because it is less explicit than using something like window!
There exist certain constructs like arrow functions and functions created using the Function.prototype.bind() a function that can fix the value of this. These are exceptions of the rule, but they are really helpful to fix the value of this.
Example in Node.js
module.exports.data = 'module data';
// This outside a function in node refers to module.exports object
console.log(this);
const obj1 = {
data: "obj1 data",
met1: function () {
console.log(this.data);
},
met2: () => {
console.log(this.data);
},
};
const obj2 = {
data: "obj2 data",
test1: function () {
console.log(this.data);
},
test2: function () {
console.log(this.data);
}.bind(obj1),
test3: obj1.met1,
test4: obj1.met2,
};
obj2.test1();
obj2.test2();
obj2.test3();
obj2.test4();
obj1.met1.call(obj2);
Output:
Let me walk you through the outputs one by one (ignoring the first log starting from the second):
this is obj2 because of the left of the dot rule, we can see how test1 is called obj2.test1();. obj2 is left of the dot and thus the this value.
Even though obj2 is left of the dot, test2 is bound to obj1 via the bind() method. The this value is obj1.
obj2 is left of the dot from the function which is called: obj2.test3(). Therefore obj2 will be the value of this.
In this case: obj2.test4() obj2 is left of the dot. However, arrow functions don't have their own this binding. Therefore it will bind to the this value of the outer scope which is the module.exports an object which was logged in the beginning.
We can also specify the value of this by using the call function. Here we can pass in the desired this value as an argument, which is obj2 in this case.
I've read in several places that the key difference is that this is lexically bound in arrow functions. That's all well and good, but I don't actually know what that means.
I know it means it's unique within the confines of the braces defining the function's body, but I couldn't actually tell you the output of the following code, because I have no idea what this is referring to, unless it's referring to the fat arrow function itself....which doesn't seem useful.
var testFunction = () => {
console.log(this)
};
testFunction();
Arrow functions capture the this value of the enclosing context
function Person(){
this.age = 0;
setInterval(() => {
this.age++; // |this| properly refers to the person object
}, 1000);
}
var p = new Person();
So, to directly answer your question, this inside your arrow function would have the same value as it did right before the arrow function was assigned.
In order to provide the big picture I'm going to explain both, dynamic and lexical binding.
Dynamic Name Binding
this refers to the object the method is called on. This is a regularly to be read sentence on SO. But it is still only a phrase, pretty abstract. Is there a corresponding code pattern to this sentence?
Yes there is:
const o = {
m() { console.log(this) }
}
// the important patterns: applying methods
o.m(); // logs o
o["m"](); // logs o
m is a method because it relies on this. o.m() or o["m"]() means m is applied to o. These patterns are the Javascript translation to our famous phrase.
There is another important code pattern that you should pay attention to:
"use strict";
const o = {
m() { console.log(this) }
}
// m is passed to f as a callback
function f(m) { m() }
// another important pattern: passing methods
f(o.m); // logs undefined
f(o["m"]); // logs undefined
It is very similar to the previous pattern, only the parenthesis are missing. But the consequences are considerable: When you pass m to the function f, you pull outm of its object/context o. It is uprooted now and this refers to nothing (strict mode assumed).
Lexical (or Static) Name Binding
Arrow functions don't have their own this/super/arguments binding. They inherit them from their parent lexical scope:
const toString = Object.prototype.toString;
const o = {
foo: () => console.log("window", toString.call(this)),
bar() {
const baz = () => console.log("o", toString.call(this));
baz();
}
}
o.foo() // logs window [object Window]
o.bar() // logs o [object Object]
Apart from the global scope (Window in browsers) only functions are able to form a scope in Javascript (and {} blocks in ES2015). When the o.foo arrow function is called there is no surrounding function from which baz could inherit its this. Consequently it captures the this binding of the global scope which is bound to the Window object.
When baz is invoked by o.bar, the arrow function is surrounded by o.bar (o.bar forms its parent lexical scope) and can inherit o.bar's this binding. o.bar was called on o and thus its this is bound to o.
Hope this code show could give you clearer idea. Basically, 'this' in arrow function is the current context version of 'this'. See the code:
// 'this' in normal function & arrow function
var this1 = {
number: 123,
logFunction: function () { console.log(this); },
logArrow: () => console.log(this)
};
this1.logFunction(); // Object { number: 123}
this1.logArrow(); // Window
Arrow function this is pointing to the surrounding parent in Es6, means it doesn't scope like anonymous functions in ES5...
It's very useful way to avoid assigning var self to this which is widely used in ES5...
Look at the example below, assigning a function inside an object:
var checkThis = {
normalFunction: function () { console.log(this); },
arrowFunction: () => console.log(this)
};
checkThis.normalFunction(); //Object {}
checkThis.arrowFunction(); //Window {external: Object, chrome: Object, document: document, tmpDebug: "", j: 0…}
You can try to understand it by following the way below
// whatever here it is, function or fat arrow or literally object declare
// in short, a pair of curly braces should be appeared here, eg:
function f() {
// the 'this' here is the 'this' in fat arrow function below, they are
// bind together right here
// if 'this' is meaningful here, eg. this === awesomeObject is true
console.log(this) // [object awesomeObject]
let a = (...param) => {
// 'this is meaningful here too.
console.log(this) // [object awesomeObject]
}
so 'this' in fat arrow function is not bound, means you can not make anything bind to 'this' here, .apply won't, .call won't, .bind won't. 'this' in fat arrow function is bound when you write down the code text in your text editor. 'this' in fat arrow function is literally meaningful here. What your code write here in text editor is what your app run there in repl. What 'this' bound in fat arror will never change unless you change it in text editor.
Sorry for my pool English...
Arrow function never binds with this keyword
var env = "globalOutside";
var checkThis = {env: "insideNewObject", arrowFunc: () => {
console.log("environment: ", this.env);
} }
checkThis.arrowFunc() // expected answer is environment: globalOutside
// Now General function
var env = "globalOutside";
var checkThis = {env: "insideNewObject", generalFunc: function() {
console.log("environment: ", this.env);
} }
checkThis.generalFunc() // expected answer is enviroment: insideNewObject
// Hence proving that arrow function never binds with 'this'
this will always refer to the global object when used inside an arrow function. Use the regular function declaration to refer to the local object. Also, you can use the object name as the context (object.method, not this.method) for it to refer to the local object instead of the global(window).
In another example, if you click the age button below
<script>
var person = {
firstName: 'John',
surname: 'Jones',
dob: new Date('1990-01-01'),
isMarried: false,
age: function() {
return new Date().getFullYear() - this.dob.getFullYear();
}
};
var person2 = {
firstName: 'John',
surname: 'Jones',
dob: new Date('1990-01-01'),
isMarried: false,
age: () => {
return new Date().getFullYear() - this.dob.getFullYear();
}
};
</script>
<input type=button onClick="alert(person2.age());" value="Age">
it will throw an exception like this
×JavaScript error: Uncaught TypeError: Cannot read property
'getFullYear' of undefined on line 18
But if you change person2's this line
return new Date().getFullYear() - this.dob.getFullYear();
to
return new Date().getFullYear() - person2.dob.getFullYear();
it will work because this scope has changed in person2
Differences between arrow functions to regular functions: (taken from w3schools)
With arrow functions there are no binding of this.
In regular functions the this keyword represented the object that called the function, which could be the window, the document, a button or whatever.
With arrow functions the this keyword always represents the object that defined the arrow function.
// Regular Function:
hello = function() {
document.getElementById("demo").innerHTML += this;
}
// The window object calls the function:
window.addEventListener("load", hello);
// A button object calls the function:
document.getElementById("btn").addEventListener("click", hello);
// -------------------------------------------
// Arrow function
hello2 = () => {
document.getElementById("demo2").innerHTML += this;
}
// The window object calls the function:
window.addEventListener("load", hello2);
// A button object calls the function:
document.getElementById("btn2").addEventListener("click", hello2);
<p><i>With a regular function this represents the <b>object that calls the function</b>:</i></p>
<button id='btn'>click me regular function</button>
<p id="demo">Regular function: </p>
<hr>
<p><i>With arrow function this represents the <b>owner of the function(=the window object)</b>:</i></p>
<button id='btn2'>click me arrow function</button>
<p id="demo2">Arrow function: </p>
A related issue:
Came from - Why can't I access `this` within an arrow function?
We know below from here: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Functions/Arrow_functions
Does not have its own bindings to this or super, and should not be used as methods.
Arrow functions establish "this" based on the scope the Arrow function is defined within.
Had a issue with this using arrow functions, so created a class (can be function), and class variable is accessed in arrow function, thereby achieved smaller functions using arrow functions without function keyword:
class MyClassOrFunction {
values = [];
size = () => this.values.length;
isEmpty = () => this.size() === 0;
}
let obj = new MyClassOrFunction();
obj.size(); // function call here
You can also have a getter like this, that does not have function keyword, but a bit longer due to return statement, also can access other member functions:
class MyClassOrFunction {
values = [];
size = () => this.values.length;
get length() { return this.size(); }
}
let obj = new MyClassOrFunction();
obj.length; // NOTE: no function call here
I have a constructor function which registers an event handler:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', function () {
alert(this.data);
});
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
However, I'm not able to access the data property of the created object inside the callback. It looks like this does not refer to the object that was created, but to another one.
I also tried to use an object method instead of an anonymous function:
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', this.alert);
}
MyConstructor.prototype.alert = function() {
alert(this.name);
};
but it exhibits the same problems.
How can I access the correct object?
What you should know about this
this (aka "the context") is a special keyword inside each function and its value only depends on how the function was called, not how/when/where it was defined. It is not affected by lexical scopes like other variables (except for arrow functions, see below). Here are some examples:
function foo() {
console.log(this);
}
// normal function call
foo(); // `this` will refer to `window`
// as object method
var obj = {bar: foo};
obj.bar(); // `this` will refer to `obj`
// as constructor function
new foo(); // `this` will refer to an object that inherits from `foo.prototype`
To learn more about this, have a look at the MDN documentation.
How to refer to the correct this
Use arrow functions
ECMAScript 6 introduced arrow functions, which can be thought of as lambda functions. They don't have their own this binding. Instead, this is looked up in scope just like a normal variable. That means you don't have to call .bind. That's not the only special behavior they have, please refer to the MDN documentation for more information.
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => alert(this.data));
}
Don't use this
You actually don't want to access this in particular, but the object it refers to. That's why an easy solution is to simply create a new variable that also refers to that object. The variable can have any name, but common ones are self and that.
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function() {
alert(self.data);
});
}
Since self is a normal variable, it obeys lexical scope rules and is accessible inside the callback. This also has the advantage that you can access the this value of the callback itself.
Explicitly set this of the callback - part 1
It might look like you have no control over the value of this because its value is set automatically, but that is actually not the case.
Every function has the method .bind [docs], which returns a new function with this bound to a value. The function has exactly the same behavior as the one you called .bind on, only that this was set by you. No matter how or when that function is called, this will always refer to the passed value.
function MyConstructor(data, transport) {
this.data = data;
var boundFunction = (function() { // parenthesis are not necessary
alert(this.data); // but might improve readability
}).bind(this); // <- here we are calling `.bind()`
transport.on('data', boundFunction);
}
In this case, we are binding the callback's this to the value of MyConstructor's this.
Note: When a binding context for jQuery, use jQuery.proxy [docs] instead. The reason to do this is so that you don't need to store the reference to the function when unbinding an event callback. jQuery handles that internally.
Set this of the callback - part 2
Some functions/methods which accept callbacks also accept a value to which the callback's this should refer to. This is basically the same as binding it yourself, but the function/method does it for you. Array#map [docs] is such a method. Its signature is:
array.map(callback[, thisArg])
The first argument is the callback and the second argument is the value this should refer to. Here is a contrived example:
var arr = [1, 2, 3];
var obj = {multiplier: 42};
var new_arr = arr.map(function(v) {
return v * this.multiplier;
}, obj); // <- here we are passing `obj` as second argument
Note: Whether or not you can pass a value for this is usually mentioned in the documentation of that function/method. For example, jQuery's $.ajax method [docs] describes an option called context:
This object will be made the context of all Ajax-related callbacks.
Common problem: Using object methods as callbacks/event handlers
Another common manifestation of this problem is when an object method is used as callback/event handler. Functions are first-class citizens in JavaScript and the term "method" is just a colloquial term for a function that is a value of an object property. But that function doesn't have a specific link to its "containing" object.
Consider the following example:
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = function() {
console.log(this.data);
};
The function this.method is assigned as click event handler, but if the document.body is clicked, the value logged will be undefined, because inside the event handler, this refers to the document.body, not the instance of Foo.
As already mentioned at the beginning, what this refers to depends on how the function is called, not how it is defined.
If the code was like the following, it might be more obvious that the function doesn't have an implicit reference to the object:
function method() {
console.log(this.data);
}
function Foo() {
this.data = 42,
document.body.onclick = this.method;
}
Foo.prototype.method = method;
The solution is the same as mentioned above: If available, use .bind to explicitly bind this to a specific value
document.body.onclick = this.method.bind(this);
or explicitly call the function as a "method" of the object, by using an anonymous function as callback / event handler and assign the object (this) to another variable:
var self = this;
document.body.onclick = function() {
self.method();
};
or use an arrow function:
document.body.onclick = () => this.method();
Here are several ways to access the parent context inside a child context -
You can use the bind() function.
Store a reference to context/this inside another variable (see the below example).
Use ES6 Arrow functions.
Alter the code, function design, and architecture - for this you should have command over design patterns in JavaScript.
1. Use the bind() function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', ( function () {
alert(this.data);
}).bind(this) );
}
// Mock transport object
var transport = {
on: function(event, callback) {
setTimeout(callback, 1000);
}
};
// called as
var obj = new MyConstructor('foo', transport);
If you are using Underscore.js - http://underscorejs.org/#bind
transport.on('data', _.bind(function () {
alert(this.data);
}, this));
2. Store a reference to context/this inside another variable
function MyConstructor(data, transport) {
var self = this;
this.data = data;
transport.on('data', function() {
alert(self.data);
});
}
3. Arrow function
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
It's all in the "magic" syntax of calling a method:
object.property();
When you get the property from the object and call it in one go, the object will be the context for the method. If you call the same method, but in separate steps, the context is the global scope (window) instead:
var f = object.property;
f();
When you get the reference of a method, it's no longer attached to the object. It's just a reference to a plain function. The same happens when you get the reference to use as a callback:
this.saveNextLevelData(this.setAll);
That's where you would bind the context to the function:
this.saveNextLevelData(this.setAll.bind(this));
If you are using jQuery you should use the $.proxy method instead, as bind is not supported in all browsers:
this.saveNextLevelData($.proxy(this.setAll, this));
You should know about "this" Keyword.
As per my view you can implement "this" in three ways
(Self|Arrow function|Bind Method)
A function's this keyword behaves a little differently in JavaScript compared to other languages.
It also has some differences between strict mode and non-strict mode.
In most cases, the value of this is determined by how a function is called.
It can't be set by assignment during execution, and it may be different each time the function is called.
ES5 introduced the bind() method to set the value of a function's this regardless of how it's called,
And ES2015 introduced arrow functions that don't provide their own this binding (it retains this value of the enclosing lexical context).
Method1: Self - Self is being used to maintain a reference to the original this even as the context is changing. It's a technique often used in event handlers (especially in closures).
Reference: this
function MyConstructor(data, transport) {
this.data = data;
var self = this;
transport.on('data', function () {
alert(self.data);
});
}
Method2: Arrow function - An arrow function expression is a syntactically compact alternative to a regular function expression, although without its own bindings to the this, arguments, super, or new.target keywords.
Arrow function expressions are ill-suited as methods, and they cannot be used as constructors.
Reference: Arrow function expressions
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',()=> {
alert(this.data);
});
}
Method 3: Bind - The bind() method creates a new function that, when called, has its this keyword set to the provided value with a given sequence of arguments preceding any provided when the new function is called.
Reference: Function.prototype.bind()
function MyConstructor(data, transport) {
this.data = data;
transport.on('data',(function() {
alert(this.data);
}).bind(this);
The trouble with "context"
The term "context" is sometimes used to refer to the object referenced by this. Its use is inappropriate, because it doesn't fit either semantically or technically with ECMAScript's this.
"Context" means the circumstances surrounding something that adds meaning, or some preceding and following information that gives extra meaning. The term "context" is used in ECMAScript to refer to execution context, which is all the parameters, scope, and this within the scope of some executing code.
This is shown in ECMA-262 section 10.4.2:
Set the ThisBinding to the same value as the ThisBinding of the
calling execution context
Which clearly indicates that this is part of an execution context.
An execution context provides the surrounding information that adds meaning to the code that is being executed. It includes much more information than just the thisBinding.
The value of this isn't "context". It's just one part of an execution context. It's essentially a local variable that can be set by the call to any object and in strict mode, to any value at all.
First, you need to have a clear understanding of scope and behaviour of the this keyword in the context of scope.
this & scope:
There are two types of scope in JavaScript. They are:
Global Scope
Function Scope
In short, global scope refers to the window object. Variables declared in a global scope are accessible from anywhere.
On the other hand, function scope resides inside of a function. A variable declared inside a function cannot be accessed from the outside world normally.
The this keyword in the global scope refers to the window object. this inside a function also refers to the window object. So this will always refer to the window until we find a way to manipulate this to indicate a context of our own choosing.
--------------------------------------------------------------------------------
- -
- Global Scope -
- (globally "this" refers to window object) -
- -
- function outer_function(callback){ -
- -
- // Outer function scope -
- // Inside the outer function, the "this" keyword -
- // refers to window object -
- callback() // "this" inside callback also refers to the window object -
- } -
- -
- function callback_function(){ -
- -
- // Function to be passed as callback -
- -
- // Here "THIS" refers to the window object also -
- } -
- -
- outer_function(callback_function) -
- // Invoke with callback -
- -
--------------------------------------------------------------------------------
Different ways to manipulate this inside callback functions:
Here I have a constructor function called Person. It has a property called name and four method called sayNameVersion1, sayNameVersion2, sayNameVersion3, and sayNameVersion4. All four of them has one specific task. Accept a callback and invoke it. The callback has a specific task which is to log the name property of an instance of Person constructor function.
function Person(name){
this.name = name
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
this.sayNameVersion3 = function(callback){
callback.call(this)
}
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
}
function niceCallback(){
// Function to be used as callback
var parentObject = this
console.log(parentObject)
}
Now let's create an instance from person constructor and invoke different versions of sayNameVersionX (X refers to 1,2,3,4) method with niceCallback to see how many ways we can manipulate the this inside callback to refer to the person instance.
var p1 = new Person('zami') // Create an instance of Person constructor
bind:
What bind do is to create a new function with the this keyword set to the provided value.
sayNameVersion1 and sayNameVersion2 use bind to manipulate this of the callback function.
this.sayNameVersion1 = function(callback){
callback.bind(this)()
}
this.sayNameVersion2 = function(callback){
callback()
}
The first one binds this with a callback inside the method itself. And for the second one, the callback is passed with the object bound to it.
p1.sayNameVersion1(niceCallback) // pass simply the callback and bind happens inside the sayNameVersion1 method
p1.sayNameVersion2(niceCallback.bind(p1)) // uses bind before passing callback
call:
The first argument of the call method is used as this inside the function that is invoked with call attached to it.
sayNameVersion3 uses call to manipulate the this to refer to the person object that we created, instead of the window object.
this.sayNameVersion3 = function(callback){
callback.call(this)
}
And it is called like the following:
p1.sayNameVersion3(niceCallback)
apply:
Similar to call, the first argument of apply refers to the object that will be indicated by the this keyword.
sayNameVersion4 uses apply to manipulate this to refer to a person object
this.sayNameVersion4 = function(callback){
callback.apply(this)
}
And it is called like the following. Simply the callback is passed,
p1.sayNameVersion4(niceCallback)
We can not bind this to setTimeout(), as it always executes with the global object (Window). If you want to access the this context in the callback function then by using bind() to the callback function, we can achieve it as:
setTimeout(function(){
this.methodName();
}.bind(this), 2000);
The question revolves around how the this keyword behaves in JavaScript. this behaves differently as below,
The value of this is usually determined by a function execution context.
In the global scope, this refers to the global object (the window object).
If strict mode is enabled for any function then the value of this will be undefined as in strict mode, global object refers to undefined in place of the window object.
The object that is standing before the dot is what the this keyword will be bound to.
We can set the value of this explicitly with call(), bind(), and apply()
When the new keyword is used (a constructor), this is bound to the new object being created.
Arrow functions don’t bind this — instead, this is bound lexically (i.e., based on the original context)
As most of the answers suggest, we can use the arrow function or bind() Method or Self var. I would quote a point about lambdas (arrow function) from Google JavaScript Style Guide
Prefer using arrow functions over f.bind(this), and especially over
goog.bind(f, this). Avoid writing const self = this. Arrow functions
are particularly useful for callbacks, which sometimes pass unexpectedly
additional arguments.
Google clearly recommends using lambdas rather than bind or const self = this
So the best solution would be to use lambdas as below,
function MyConstructor(data, transport) {
this.data = data;
transport.on('data', () => {
alert(this.data);
});
}
References:
https://medium.com/tech-tajawal/javascript-this-4-rules-7354abdb274c
arrow-functions-vs-bind
Currently there is another approach possible if classes are used in code.
With support of class fields, it's possible to make it the following way:
class someView {
onSomeInputKeyUp = (event) => {
console.log(this); // This refers to the correct value
// ....
someInitMethod() {
//...
someInput.addEventListener('input', this.onSomeInputKeyUp)
For sure under the hood it's all the old good arrow function that binds context, but in this form it looks much more clear that explicit binding.
Since it's a Stage 3 Proposal, you will need Babel and appropriate Babel plugin to process it as for now (08/2018).
I was facing a problem with Ngx line chart xAxisTickFormatting function which was called from HTML like this: [xAxisTickFormatting]="xFormat".
I was unable to access my component's variable from the function declared. This solution helped me to resolve the issue to find the correct this.
Instead of using the function like this:
xFormat (value): string {
return value.toString() + this.oneComponentVariable; //gives wrong result
}
Use this:
xFormat = (value) => {
// console.log(this);
// now you have access to your component variables
return value + this.oneComponentVariable
}
Another approach, which is the standard way since DOM2 to bind this within the event listener, that let you always remove the listener (among other benefits), is the handleEvent(evt) method from the EventListener interface:
var obj = {
handleEvent(e) {
// always true
console.log(this === obj);
}
};
document.body.addEventListener('click', obj);
Detailed information about using handleEvent can be found here: DOM handleEvent: a cross-platform standard since year 2000
Some other people have touched on how to use the .bind() method, but specifically here is how you can use it with .then() if anyone is having trouble getting them to work together:
someFunction()
.then(function(response) {
//'this' wasn't accessible here before but now it is
}.bind(this))
As mentioned in the comments, an alternative would be to use an arrow function that doesn't have its own 'this' value
someFunction()
.then((response)=>{
//'this' was always accessible here
})
this in JavaScript:
The value of this in JavaScript is 100% determined by how a function is called, and not how it is defined. We can relatively easily find the value of this by the 'left of the dot rule':
When the function is created using the function keyword the value of this is the object left of the dot of the function which is called
If there is no object left of the dot then the value of this inside a function is often the global object (global in Node.js and window in a browser). I wouldn't recommend using the this keyword here because it is less explicit than using something like window!
There exist certain constructs like arrow functions and functions created using the Function.prototype.bind() a function that can fix the value of this. These are exceptions of the rule, but they are really helpful to fix the value of this.
Example in Node.js
module.exports.data = 'module data';
// This outside a function in node refers to module.exports object
console.log(this);
const obj1 = {
data: "obj1 data",
met1: function () {
console.log(this.data);
},
met2: () => {
console.log(this.data);
},
};
const obj2 = {
data: "obj2 data",
test1: function () {
console.log(this.data);
},
test2: function () {
console.log(this.data);
}.bind(obj1),
test3: obj1.met1,
test4: obj1.met2,
};
obj2.test1();
obj2.test2();
obj2.test3();
obj2.test4();
obj1.met1.call(obj2);
Output:
Let me walk you through the outputs one by one (ignoring the first log starting from the second):
this is obj2 because of the left of the dot rule, we can see how test1 is called obj2.test1();. obj2 is left of the dot and thus the this value.
Even though obj2 is left of the dot, test2 is bound to obj1 via the bind() method. The this value is obj1.
obj2 is left of the dot from the function which is called: obj2.test3(). Therefore obj2 will be the value of this.
In this case: obj2.test4() obj2 is left of the dot. However, arrow functions don't have their own this binding. Therefore it will bind to the this value of the outer scope which is the module.exports an object which was logged in the beginning.
We can also specify the value of this by using the call function. Here we can pass in the desired this value as an argument, which is obj2 in this case.
I have a product service with a method that returns an Observable from json data.
product.service.ts....
getProducts(): Observable<IProductData[]> {
return this._http.get(this._productUrl)
.map((response: Response) => <IProductData[]> response.json())
.catch(this.handleError);
}
In my component I subscribe to the serivce and call the getProducts() method returning the Observable IProductData[].
mycomponent.ts ..
productData: IProductData[];
ngOnInit(): void {
this._productService.getProductsObservable()
.subscribe(
productData => this.productData = <IProductData[]>productData,
error => this.errorMessage = <any>error,
function() { console.log(this.productData ) }
);
}
When I review the onCompleted console.log this.productData is undefined!
I want to use this data to setup the fields in my component. When/how can I be sure that the data has been returned?
If I output this.productData on a button click event the data has been populated, but I want to do this on init.
Any suggestions or advice would be much appreciated.
cheers
You are not using an arrow function in the final block so your this is local to the complete function that you pass in.
In addition to appearances there are actual semantic differences between () => {} and function() {}
Read here: https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Functions/Arrow_functions
...Until arrow functions, every new function defined its own this value (a new object in case of a constructor, undefined in strict mode function calls, the context object if the function is called as an "object method", etc.). This proved to be annoying with an object-oriented style of programming.
In ECMAScript 3/5, this issue was fixed by assigning the value in this to a variable that could be closed over.
An arrow function does not create its own this context; rather, it captures the this value of the enclosing context...