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Jack Pritom Soren
Jack Pritom Soren

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JavaScript Variables: Understanding Primitives and Reference Types

Two basic sorts of data are stored in variables in JavaScript: primitives and reference types. Understanding the distinction between these two types is essential for memory management and for regulating the sharing, storing, and altering of data. This article delves into the distinctions, provides real-world examples, and examines methods for efficiently handling both kinds.


1. Primitives vs Reference Types

Primitives

The simplest kinds of data are called primitives. They directly store unchangeable data in the variable. The primitive types that JavaScript supports are as follows:

  • string: "hello"
  • number: 42
  • boolean: true or false
  • null
  • undefined
  • symbol
  • bigint

Key characteristics:

  • Immutable: Their value cannot be altered directly.
  • Stored by value.

Reference Types

On the other hand, reference types store the memory locations of objects. Rather than storing the actual value, variables save a reference to the memory address. Among the examples are:

  • object: { name: 'Alice' }
  • array: [1, 2, 3]
  • function: function() { console.log('hello'); }
  • Date: new Date()

Key characteristics:

  • Mutable: Their contents can be modified.
  • Stored by reference.

2. Primitives and Reference Types in Action

// Primitive Example
let a = 10;
let b = a;
b = 20;
console.log(a); // Output: 10

// Reference Example
let obj1 = { name: 'Alice' };
let obj2 = obj1;
obj2.name = 'Bob';
console.log(obj1.name); // Output: 'Bob'
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Explanation:

  • Primitives: Assigning a to b creates a copy of the value. Changing b does not affect a since they are independent.
  • Reference Types: Both obj1 and obj2 point to the same memory location. Changing the content via obj2 also updates obj1.

3. Visualizing the Concept

  • Primitives: Imagine each variable as its own box containing a value. Copying creates a new box with an independent value.
  • Reference Types: Think of variables as labels pointing to a shared container. All labels referencing the same container are affected by changes made to its content.

4. Mutation vs Assignment

Understanding the difference between mutation and assignment is key when working with reference types.

Mutation: Modifies the contents of the existing object.

let arr = [1, 2, 3];
let arr2 = arr;
arr2.push(4);
console.log(arr); // Output: [1, 2, 3, 4]
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Assignment: Changes the reference to a new object.

let arr = [1, 2, 3];
let arr2 = arr;
arr2 = [4, 5, 6];
console.log(arr); // Output: [1, 2, 3]
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5. Copying Objects and Arrays

Shallow Copy:

To create a separate copy of an object or array, use the spread operator (...) or Object.assign().

let original = { name: 'Alice' };
let copy = { ...original };
copy.name = 'Bob';
console.log(original.name); // Output: 'Alice'
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Deep Copy:

For nested objects, a deep copy is required. A common approach is using JSON.parse(JSON.stringify()).

let nested = { person: { name: 'Alice' } };
let deepCopy = JSON.parse(JSON.stringify(nested));
deepCopy.person.name = 'Bob';
console.log(nested.person.name); // Output: 'Alice'
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6. Pass by Value vs Pass by Reference

Primitives (Pass by Value):

When passing primitives to a function, a copy of the value is passed.

function modifyValue(x) {
  x = 20;
}
let num = 10;
modifyValue(num);
console.log(num); // Output: 10
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Reference Types (Pass by Reference):

When passing reference types, a reference to the memory location is passed.

function modifyObject(obj) {
  obj.name = 'Bob';
}
let person = { name: 'Alice' };
modifyObject(person);
console.log(person.name); // Output: 'Bob'
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7. Primitive Wrapper Types

Even though primitives are immutable, JavaScript temporarily wraps them in objects to allow access to methods and properties.

let str = 'hello';
console.log(str.length); // Output: 5
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Explanation:

The string primitive 'hello' is temporarily wrapped in a String object to access the length property. The wrapper is discarded after the operation.


8. Best Practices

  1. Use const for Reference Types: Declaring objects and arrays with const prevents reassignment but allows mutation of contents.
   const obj = { name: 'Alice' };
   obj.name = 'Bob'; // Allowed
   obj = { age: 25 }; // Error: Assignment to constant variable.
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  1. Avoid Unintended Mutations:
    If you need an independent copy, ensure you create one using the spread operator or deep copy techniques.

  2. Know When to Use Deep Copies:
    For shallow objects, a spread operator is sufficient, but nested structures require deep copies to avoid reference issues.

  3. Leverage Immutability:
    Use libraries like Immutable.js or embrace functional programming techniques to minimize bugs caused by unintended mutations.


9. Common Pitfalls

  1. Confusing Assignment with Mutation:
    Be mindful of whether you’re modifying an object or reassigning a reference.

  2. Modifying Shared References:
    Changes to a shared object can have unintended consequences if other parts of the program also use it.

  3. Assuming All Copies Are Independent:
    Remember that shallow copies do not protect against changes in nested structures.


Conclusion

One of the core ideas of JavaScript is the distinction between primitives and reference types. It affects how you send data to functions, manage variables, and prevent unexpected side effects in your code. You can build more dependable and maintainable JavaScript code by grasping these ideas and using best practices.

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Top comments (3)

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neurabot profile image
Neurabot • Edited

good. do you apply on Visual Sudio ? How do you get results ? I have never used Javascript on Visual Studio.

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tomulrich profile image
Thomas • Edited

Make sure you have installed Node, then you can run scripts in VS Code:

1. Create a JavaScript file like pass-by-value.js

2. Write your JavaScript code in it:

function modifyValue(x) {
  x = 20;
}
let num = 10;
modifyValue(num);
console.log(num);
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3. To run this code via Node, type into the VS Code terminal:

node pass-by-value.js
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neurabot profile image
Neurabot

Right. Thank you too much.