The Visual Guide To JavaScript Variable Definitions & Scope

(for new JavaScript learners)

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We often talk about scope differences between var, let and const. But even more often I still see learners struggling with fully grasping the idea of how it all works. I think it’s probably because concepts are rarely visualized.

Let’s literally — take a look.

Not all scopes are made alike.

Let’s start with the block scope – the most basic of them all.

A block scope is just {} brackets. They can be placed anywhere in your program. That doesn’t happen often, because usually {} are used together with for-loops, functions, classes, etc. But a plain vanilla scope is still possible:

// Define variable in global scope
var variable = 1;
// Check value of hoisted variable that was created in block scope
console.log(hoisted); // undefined
// Crete a block scope{
var hoisted = 2;
console.log(variable); // 1
}

Block Scope

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All variables defined in Global Scope become available in all block scopes and can be used there.

Variables defined with var inside a block scope are “hoisted” back into the global scope… but the actual value is not hoisted only its definition.

When that happens the value becomes undefined.

Function Scope

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Global variables will propagate into the function scope but variables defined inside a function won’t hoist, even if they are defined using var.

Hints Of The Closure Pattern

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The idea is to protect variables from global scope but still be able to call the function from it. We’ll take a look at this in greater detail in just a moment.

Protecting variables from outside scope helps reduce bugs in the long run. You may not see it right away. But if you stick with this idea, you will avoid causing bugs in the future that don’t really have to happen.

Global Scope

When variables are defined in global scope… there is no difference between var, let and const in terms of scope visibility:

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They all propagate into inner block-level, function-level and event callback scopes:

Keywords let and const limit variable to the scope in which they were defined:

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Variables defined using let and const are not hoisted. Only var is.

In Function Scope

However, when it comes to functions, all variable types, including var remain
limited to their scope:

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You cannot access variables outside of the function scope in which they were
defined regardless of which keyword was used.

Closures

Part of the function closure pattern is a function trapped inside another function. In the next example the inner function returns the counter variable. defined in an outer function. But because add() is a function it never leaks into global scope. You can think of it as a closure container.

The trick? The counter variable is hidden from global scope. But we can still call add() from global scope. In other words counter variable remains private… but… we can access it from global scope as closure’s return value.

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But just a visual concept won’t be enough here. What does a closure actually look like in code? Basically it’s a self-calling function wrapper:

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First an anonymous function is created and called at the same time:

(function(){ … })();

The second parenthesis in (func(){})()execute the function soon after its defined all in a single JavaScript statement. And there we have it.

Why Are We Doing This?

The plus() function is defined by an anonymous function that executes itself. Inside the scope of plus, another anonymous function is created. It increments a private variable counter and returns the result back to global scope.

Take away: Global Scope cannot access nor modify the counter variable at any time. The closure pattern allows its inner function to modify the variable without direct access to it from Global Scope…

The whole point is that Global Scope does not need to know or understand how the code inside add() works. It only cares about receiving the result of add() operation so it can pass it to other functions, etc.

Closures are no longer as popular as they used to be. They were invented in the pre-ES6 era. Their functionality will be replaced in the future when private variables are added to the definitions made with class keyword.

So why did we even bother explaining them?

This is also sometimes called encapsulation — one of the key principles of Object Oriented Programming where inner workings of a class member method are hidden from the environment from which they were called.

This is similar to why let was added to the language. It provides automatic privacy for variables defined within the confines of block-level scope. Variable privacy is a feature you will encounter in many programming languages.

In Local Scope

The let and const keywords conceal variable visibility to the scope in which they were defined and its inner scopes.

Scope visibility differences surface when you start defining variables inside local block-level scope or function-level scope. As we have seen earlier in global scope there is no difference.

In Classes

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Here are the proper places for defining local variables and properties.

In classes variables are defined inside its constructor function or its methods and attached to the object via this property:

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The this Keyword In Class constructor Function

Local Variable Definitions

The constructor and methods are still technically just function scopes.

Here’s how it all might look like in code:

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Dissecting a class: constructor and a method meow(). There is only one constructor that creates the instance of the object. But you can have as many methods as you want. Think of methods as actions your class can do.

For a cat it could be: meow(), eat(), drink(), sleep(). Which actions should your class have? It depends on the purpose and type of the object your class defines.

It’s an abstract model. You are the designer of your class. Go crazy.

Note that because felix object was actually created in global scope, you can access it within the class methods (but not in class constructor, because in constructors the instance of the object is still being instantiated.)

But why use felix inside meow() class when we can simply use this keyword to refer to the same thing? It was just an example.

const

It doesn’t allow you to re-assign a previously defined variable to a new value:

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It’s still possible to change values of a more complex data structure such as Array or objects, even if variable was defined using const. Let’s take a look!

const and Arrays
Changing a value in the const array is still allowed, you just can’t re-assign the object to a different array:

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You just can’t assign a new value to the original variable name. Once array always array. Or once an object always an object:

const and Object Literals
When it comes to object literals, the const only makes the definition constant.

But it doesn’t mean you can’t change values of the properties assigned to a variable that was defined with const:

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Hope this helps someone out there — thanks for reading :-)

Written by

Issues. Every webdev has them. Published author of CSS Visual Dictionary https://amzn.to/2JMWQP3 few others…

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