In JavaScript, Lexical Scope and Closures are used to manage variables and functions. But sometimes these two topics can be confusing😕. In this post, you’ll learn about closures and lexical scope with code examples.
Let’s jump right into it!🚀
Lexical Scope
Lexical scope refers to determining the scope of variables and functions at compile time, based on where they are declared within the code.
When you define a function inside another function, the inner function can see and use the variables of the outer function but the outer function can’t see and use the variables of the inner function.
For example:
function outerFunc() {
let outerVar = 'I am a variable inside outer function.';
function innerFunc() {
console.log(outerVar);
}
return innerFunc;
}
outerFunc(); // Output: I am a variable inside outer function.
Now, let’s understand this example.
- You have a function
outerFunc
and inside this function, you have a variableouterVar
. - Inside the
outerFunc
function, there’s another functioninnerFunc
and thisinnerFunc
can access theouterVar
variable because it’s defined in the outer function. This connection is possible due to lexical scope, which allows inner functions to reach out and use variables from their outer functions. - When you call
outerFunc
then it will return theinnerFunc
. - Now, when you later invoke
innerFunc()
(which was returned byouterFunc
), it still remembers and can access theouterVar
from its parent function. - So, the output you get is
I am a variable inside outer function
. - This shows how the inner function maintains access to variables from its original scope, even when called outside the outer function. That’s possible because of lexical scope.
Closures
A closure is a function having access to the parent scope, even after the parent function has closed (definition from w3schools).
To put it simply, when an inner function has access to its outer function’s (parent scope) variables, even after the outer function (parent function) has finished executing, then this is a closure.
For example:
function outerFunc() {
let outerVar = 'I am a variable inside outer function.';
function innerFunc() {
console.log(outerVar);
}
return innerFunc;
}
const closureFunc = outerFunc();
closureFunc(); // Output: I am a variable inside outer function.
Now, let’s understand this example.
- You have a function
outerFunc
and inside this function, you have a variableouterVar
. - Inside the
outerFunc
function, there’s another functioninnerFunc
and thisinnerFunc
can access theouterVar
variable from its outer functionouterFunc
due to lexical scope. - When you call
outerFunc
then it will return theinnerFunc
. - Then, you are storing the result of
outerFunc()
toclosureFunc
variable byconst closureFunc = outerFunc();
.
Now, closureFunc
is essentially innerFunc
because when you call outerFunc
then it returns the innerFunc
.
But closureFunc
remembers the environment in which it was created and has access to outerVar
.
- Finally, on
closureFunc()
, you’re outside the originalouterFunc
but it still knows aboutouterVar
. So, the output is:I am a variable inside the outer function
.
Summary
Lexical Scope
Think of lexical scope like a set of rules that determine where in your code variables and functions live. If a function is inside another function, the inner function can use the outer function’s stuff, but the outer function can’t use the inner function’s stuff.
Closure
A closure is like a memory superpower for functions. Even after a function is done doing its thing, if it had an inner function, that inner function can still remember and use the things from its parent function.
These concepts might take time to grasp fully, but with practice and exploration, you’ll gradually master closures and lexical scope to write more efficient JavaScript code.
That’s all for today.
I hope it was helpful.
Thanks for reading.
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Top comments (1)
ALL functions have access to their surrounding scope - closures are not a special kind of function that has this property. In fact, closures aren't even functions...
Misconceptions About Closures
Jon Randy 🎖️ ・ Sep 27 '23