JavaScript, known as the language of the web, is a lightweight, interpreted programming language used to add interactivity to web pages, applications, and servers. As the language of the web, JavaScript is one of the most popular programming languages used in development. It has various web frameworks that help ease development and enhance productivity.
To make the best use of JavaScript, developers must understand its syntax and semantics, and more importantly, how to properly apply them in development. The this
keyword in JavaScript has been a source of confusion among developers, especially developers learning JavaScript for the first time.
In this blog post, we will learn about this
in JavaScript, how to properly use it, and where to use it.
What is this
in JavaScript?
The JavaScript this
keyword refers to an object where a piece of code is supposed to run. It is mostly used in object methods, where this
refers to the method that executes the current function. When an object is referenced using this
, the value returned depends on how and where the object is being called, not necessarily what has been defined in the object.
We can further explain this
using the âthisâ pronoun in English. Consider this statement: âThere are three balls in the box, but this one is the biggestâ. Now, without an action from the speaker, we cannot know which of the balls is the biggest. If the speaker makes the statement, and then points at or picks up a ball, then we can determine which of the balls is being referred to. Similarly, the manner (action) and execution context in which an object is called will determine the value that will be returned.
Global Execution Context
We already established that the execution context where this
is used will determine the value. A global execution context refers to an environment where code is executed that is not confined by any function, method, or block. Variables defined in the global execution context can be accessed from any part of the codebase.
In the browser, the global execution context is defined using the window
object. All variables and functions defined globally automatically belong to the window
object. We can then access the variables defined using the object. Letâs consider an example:
var bestAITool = "Pieces for Developers"; // defined globally
console.log(window.bestAITool); // Output: Pieces for Developers
Here, we defined the variable bestAITool
globally and then referenced it using the JavaScript window
object. Similarly, any variable declared globally can be accessed using this
. Consider this example:
var bestAITool = "Pieces for Developers"; // defined globally
console.log(this.bestAITool); // Output: Pieces for Developers
In the above code snippet, we can see that the output remains the same when we replace the window
keyword with this
. This is because variables declared globally are automatically attached to the window
object. Note that this applies to the browser only.
In the Node environment, the global object is accessed using the global
keyword, an attempt to access a variable in Node using this
in JavaScript will output an empty object. Consider the example below:
global bestAITool = "Pieces for Developers";
console.log(this.bestAITool); Output: undefined
console.log(global.bestAITool); Output: Pieces for Developers
Here, we see that when we use this
to access a global variable in a Node environment, it does not give the expected output.
Function Execution Context
The function execution context refers to the environment where a function is called or invoked. There are 4 ways a JavaScript function can be invoked which determines how this
behaves. Letâs explore these 4 ways.
Function Invocation
When a function is invoked as a function in non-strict mode, this
keyword references the window
object (if itâs in the browser) or the global
object (in a Node environment). In strict mode, this
is set to undefined. Consider the example below:
function testFunction() {
console.log(this); //
}
testFunction(); // Output: window (in browser)
The testFunction
function in the code snippet above outputs the window object.
Method Invocation
When a function is invoked as a method, the this
JavaScript keyword refers to the particular object that owns the method. Consider the example below:
let bestCopilot = {
tool: "Pieces",
action: function() {
console.log(this.tool); // this refers to the 'tool' object
}
};
bestCopilot.action(); // Output: "Pieces"
In the above code snippet, action
is the method of the bestCopilot
object. When the bestCopilot.action
method is called, this
refers to the bestCopilot
object (because the method is in that object).
Constructor Invocation
Constructor invocation entails calling a function by using the new
keyword. To invoke a function as a constructor, it is preceded with the new
keyword. The new
keyword creates an instance of the function. When a function is invoked as a constructor, the following actions take place:
- A new empty object is created.
-
this
now refers to the newly created object. - The value of
new
becomes the newly constructed object.
Consider the code snippet below:
function Pieces(feature, purpose) {
this.feature = "code management feature";
this.purpose = "save, search and extract snippets";
this.action = function() {
console.log(`With the Pieces this.feature, you can this.purpose.`);
};
}
// new object with `new` keyword
const pieces1 = new Pieces("Copilot", "get a contextual answer based on your codebase");
pieces1.action(); // Output: "With the Pieces Copilot feature, get a contextual answer based on your codebase"
In the code snippet above, when new Pieces("code management feature", "save, search and extract snippets");
is invoked, a new object is created. The value of this
now points to the newly created object. The properties are also assigned to the object. So, this.company
now refers to the newly created company
property, and this.tool
refers to the newly created tool
property. The output now becomes âWith the Pieces Copilot feature, get a contextual answer based on your codebaseâ, instead of âWith the Pieces code management feature, you can save, search, and extract snippetsâ.
Indirect Invocation
Indirect invocation entails manually setting the values of this
using the call
, apply
, or bind
JavaScript methods. These methods allow you to invoke any function as a method of any object. Letâs explore these methods:
-
call()
: Thecall()
method allows you to explicitly specify the value ofthis
while it invokes the function. It uses a list of arguments as arguments to the function. Consider the example below:
function announcement(feature) {
console.log(`${this.name} is ${feature}`);
}
const company = { name: "Pieces OS" };
announcement.call(company, "open-source"); // Output: Pieces OS is open-source
Here, we explicitly set the value of this
using the call()
method. The company
object was defined and âopen sourceâ was passed as the argument. So this
now refers to the values set by the call
method. The output is âPieces OS is open-sourceâ.
-
apply()
: Theapply()
method is similar to thecall()
method but uses an array of values as arguments. Letâs see how it works:
function announcement(feature) {
console.log(`${this.name} is ${feature}`);
}
const company = { name: "Pieces" };
announcement.apply(company, ["open source"]); // Output: Pieces is open source
Hereâs our previous code snippet but with some slight changes, the method used here is the apply
method so the argument was changed to an array type.
-
bind()
: Thebind()
method creates a new function that sets the value of the function to the provided value when it is called. It creates a new bound function. Consider the code below:
const company = { name: "Pieces" };
function sayHello() {
console.log(`Hello, ${this.name}`);
}
const boundHello = sayHello.bind(company); // Creates a new function with `this` bound to `company`
boundHello(); // Output: "Hello, Pieces"
In the example above, we create a new function boundHello
with the bind()
method which sets this
to the company
object (provided value).
Arrow Functions
Arrow functions primarily do not have this
in their execution context. It can, however, be set lexically. That is, this
in JS uses the value of its surrounding lexical context. The value of this
in an arrow function inherits the value of this
in the closest non-arrow function. Consider the example below:
const company = {
name: "Pieces",
sayHello: function() {
const arrowHello = () => {
console.log(`Hello, ${this.name}`);
};
arrowHello();
}
};
company.sayHello(); // Outputs: "Hello, Pieces"
Here, we see that the arrowHello
arrow function does not have its own this
defined in it but it inherits this
from the sayHello
method, where this
refers to the company
object.
Understanding the this
JavaScript Keyword with Pieces
Got a solid knowledge of the JS this
keyword and canât wait to explore it in development? The this
keyword can be tricky, especially in a large codebase where this
is being used in different execution contexts. Letâs see how it works:
>>>>> gd2md-html alert: inline image link here (to images/image1.gif). Store image on your image server and adjust path/filename/extension if necessary.
(Back to top)(Next alert)
>>>>>
In the demo above, I have a piece of code that uses the this
JavaScript keyword. To be extra sure, I asked Pieces Copilot âHow is this
being used in this contextâ and it gives a complete breakdown of how it is being used in my codebase. Pieces Copilot helps you navigate using this
with an extra bit of confidence by providing contextual solutions specifically for your codebase. The good news is that you can also learn and confidently use other JavaScript concepts with Pieces Copilot as your companion. See also how you can learn C# with the help of Pieces.
Ready to get started? Download the Pieces Desktop Application and then proceed to use the Pieces extensions available on your favorite IDEs.
Conclusion
In this blog post, you have learned about this
in JavaScript, how to use the this
keyword, its global and function execution contexts, how different function invocation styles affect the behavior of the this
keyword, and how you can confidently use the this
keyword with the help of Pieces Copilot. Happy coding!
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