So What is Hoisting Then?

During compile phase, just microseconds before your code is executed, it is scanned for function and variable declarations. All these functions and variable declarations are added to the memory inside a JavaScript data structure called Lexical Environment. So that they can be used even before they are actually declared in the source code.

What is a Lexical Environment?

A lexical environment is a data structure that holds identifier-variable mapping. (here identifier refers to the name of variables/functions, and the variable is the reference to actual object [including function object] or primitive value).

This is what a lexical environment conceptually look like:

LexicalEnvironment = {

Identifier: <value>,

Identifier: <function object>

}

So in short, a lexical environment is a place where variables and functions live during the program execution.

If you want to know more about lexical environments, you can read my previous article here.

Now that we know what hoisting actually is, let’s take a look at how hoisting happens for function and variable ( var , let and const ) declarations.

Hoisting Function Declaration:

helloWorld(); // prints 'Hello World!' to the console function helloWorld(){

console.log('Hello World!');

}

As we already know that function declarations are added to the memory during the compile stage, so we are able to access it in our code before the actual function declaration.

So the lexical environment for the above code will look something like this:

lexicalEnvironment = {

helloWorld: < func >

}

So when the JavaScript engine encounters a call to helloWorld() , it will look into the lexical environment, finds the function and will be able to execute it.

Hoisting Function Expressions

Only function declarations are hoisted in JavaScript, function expressions are not hoisted. For example: this code won’t work.

helloWorld(); // TypeError: helloWorld is not a function var helloWorld = function(){

console.log('Hello World!');

}

As JavaScript only hoist declarations, not initializations (assignments), so the helloWorld will be treated as a variable, not as a function. Because helloWorld is a var variable, so the engine will assign is the undefined value during hoisting.

So this code will work.

var helloWorld = function(){

console.log('Hello World!'); prints 'Hello World!'

} helloWorld();

Hoisting var variables:

Let’s look at some examples to understand hoisting in case of var variables.

console.log(a); // outputs 'undefined'

var a = 3;

We expected 3 but instead got undefined . Why?

Remember JavaScript only hoist declarations, not initializations. That is, during compile time, JavaScript only stores function and variable declarations in the memory, not their assignments (value).

But why undefined ?

When JavaScript engine finds a var variable declaration during the compile phase, it will add that variable to the lexical environment and initialize it with undefined and later during the execution when it reaches the line where the actual assignment is done in the code, it will assign that value to the variable.

So the initial lexical environment for the above code will look something like this:

lexicalEnvironment = {

a: undefined

}

That’s why we got undefined instead of 3 . And when the engine reaches the line (during execution) where the actual assignment is done, it will update the value of the variable in its lexical environment. So the lexical environment after the assignment will look like this:

lexicalEnvironment = {

a: 3

}

Hoisting let and const variables:

Let’s first take a look at some examples:

console.log(a);

let a = 3;

Output:

ReferenceError: a is not defined

So are let and const variables not hoisted?

The answer is a bit more complicated than that. All declarations (function, var, let, const and class) are hoisted in JavaScript, while the var declarations are initialized with undefined , but let and const declarations remain uninitialized.

They will only get initialized when their lexical binding (assignment) is evaluated during runtime by the JavaScript engine. This means you can’t access the variable before the engine evaluates its value at the place it was declared in the source code. This is what we call “Temporal Dead Zone”, A time span between variable creation and its initialization where they can’t be accessed.

If the JavaScript engine still can’t find the value of let or const variables at the line where they were declared, it will assign them the value of undefined or return an error (in case of const ).

Let’s look at some more example:

let a;

console.log(a); // outputs undefined

a = 5;

Here during the compile phase, the JavaScript engine encounters the variable a and stores it in the lexical environment, but because it’s a let variable, the engine does not initialize it with any value. So during the compile phase, the lexical environment will look like this:

lexicalEnvironment = {

a: <uninitialized>

}

Now if we try to access the variable before it is declared, the JavaScript engine will try to fetch the value of the variable from the lexical environment, because the variable is uninitialized, it will throw a reference error.

During the execution, when the engine reaches the line where the variable was declared, it will try to evaluate its binding (value), because the variable has no value associated with it, it will assign it undefined .

So the lexical environment will look like this after execution of the first line:

lexicalEnvironment = {

a: undefined

}

And undefined will be logged to the console and after that 5 will be assigned to it and the lexical environment will be updated to contain the value of a to 5 from undefined .

Note — We can reference the let and const variables in the code (eg. function body ) even before they are declared, as long as that code is not executed before the variable declaration.

For example, This code is perfectly valid.

function foo () {

console.log(a);

} let a = 20;

foo(); // This is perfectly valid

But this will generate a reference error.

function foo() {

console.log(a); // ReferenceError: a is not defined

}

foo(); // This is not valid

let a = 20;

Hoisting Class Declaration

Just as let and const declarations, classes in JavaScript are also hoisted, and just as let or const declarations, they remain uninitialized until evaluation. So they are also affected by the “Temporal Dead Zone”. For example:

let peter = new Person('Peter', 25); // ReferenceError: Person is

// not defined

console.log(peter); class Person {

constructor(name, age) {

this.name = name;

this.age = age;

}

}

So to access the classes, you have to declare them first. For example:

class Person {

constructor(name, age) {

this.name = name;

this.age = age;

}

} let peter = new Person('Peter', 25);

console.log(peter);

// Person { name: 'Peter', age: 25 }

So again during the compile phase, the lexical environment for the above code will look like this:

lexicalEnvironment = {

Person: <uninitialized>

}

And when the engine has evaluated the class statement, it will initialize the class with the value.

lexicalEnvironment = {

Person: <Person object>

}

Hoisting Class Expressions

Just as function expressions, class expressions are also not hoisted. For example, this code won’t work.

let peter = new Person('Peter', 25); // ReferenceError: Person is

// not defined

console.log(peter); let Person = class {

constructor(name, age) {

this.name = name;

this.age = age;

}

}

The correct way to do it is like this:

let Person = class {

constructor(name, age) {

this.name = name;

this.age = age;

}

} let peter = new Person('Peter', 25);

console.log(peter);

// Person { name: 'Peter', age: 25 }

Conclusion

So now we know that during hoisting our code is not physically moved by the JavaScript engine. Having a proper understanding of the hoisting mechanism will help you avoid any future bugs and confusion arising due to hoisting. To avoid possible side effects of hoisting like undefined variables or reference error, always try to declare the variables at the top of their respective scopes and also always try to initialize variables when you declare them.

That’s it and if you found this article helpful, please click the clap 👏button below a few times to show your support and if you have any doubt, feel free to comment below! I’d be happy to help😃