Recently I've been studying a lot about the functionality and the ways to use the Facebook JavaScript library React.js. When speaking of its differences to the rest of the JavaScript world often the two programming styles declarative and imperative are mentionned.

What's the difference between both?

  • 8 Imperative programming: telling the "machine" how to do something, and as a result what you want to happen will happen. Declarative programming: telling the "machine"1 what you would like to happen, and let the computer figure out how to do it. – rickyduck Nov 11 '15 at 17:31
  • 2
    Tyler McGinnis wrote a long article on this with some good examples. – Ian Dunn Aug 12 '17 at 10:08
up vote 97 down vote accepted

A declarative style, like what react has, allows you to control flow and state in your application by saying "It should look like this". An imperative style turns that around and allows you to control your application by saying "This is what you should do".

The benefit of declarative is that you don't get bogged down in the implementation details of representing the state. You're delegating the organizational component of keeping your application views consistent so you just have to worry about state.

Imagine you have a butler, who is kind of a metaphor for a framework. And you would like to make dinner. In an imperative world, you would tell them step by step how to make dinner. You have to provide these instructions:

Go to kitchen
Open fridge
Remove chicken from fridge
Bring food to table

In a declarative world, you would simply describe what you want

I want a dinner with chicken.

If your butler doesn't know how to make chicken, then you cannot operate in a declarative style. Just like if backbone doesn't know how to mutate itself to do a certain task, you can't just tell it to do that task. React is able to be declarative because it "knows how to make chicken", for example. Compared to backbone, which only knows how to interface with the kitchen.

Being able to describe the state reduces the surface area for bugs dramatically, which is a benefit. On the other hand, you might have less flexibility in how things occur because you're delegating or abstracting away how you implement the state.

Imagine a simple UI component, such as a "Like" button. When you tap it, it turns blue if it was previously grey, and grey if it was previously blue.

The imperative way of doing this would be:

if( user.likes() ) {
    if( hasBlue() ) {
    } else {

Basically, you have to check what is currently on the screen and handle all the changes necessary to redraw it with the current state, including undoing the changes from the previous state. You can imagine how complex this could be in a real-world scenario.

In contrast, the declarative approach would be:

if( this.state.liked ) {
    return <blueLike />;
} else {
    return <greyLike />;

Because the declarative approach separates concerns, this part of it only needs to handle how the UI should look in a sepecific state, and is therefore much simpler to understand.

Imperative Code:

When JavaScript code is written imperatively, we tell JavaScript exactly what to do and how to do it. Think of it as if we're giving JavaScript commands on exactly what steps it should take.

For example, I give you the humble for loop:

const people = ['Amanda', 'Geoff', 'Michael', 'Richard', 'Ryan', 'Tyler']
const excitedPeople = []

for (let i = 0; i < people.length; i++) {
  excitedPeople[i] = people[i] + '!'

This is imperative code, though. We're commanding JavaScript what to do at every single step. We have to give it commands to:

  1. set an initial value for the iterator - (let i = 0)
  2. tell the for loop when it needs to stop - (i < people.length)
  3. get the person at the current position and add an exclamation mark - (people[i] + '!')
  4. store the data in the ith position in the other array - (excitedPeople[i])
  5. increment the i variable by one - (i++)

Declarative Code:

With declarative code, we don't code up all of the steps to get us to the end result. Instead, we declare what we want to be done, and JavaScript will take care of doing it. This explanation is a bit abstract, so let's look at an example. Let's take the imperative for loop code we were just looking at and refactor it to be more declarative.

With the imperative code we were performing all of the steps to get to the end result. What is the end result that we actually want, though? Well, our starting point was just an array of names:

const people = ['Amanda', 'Geoff', 'Michael', 'Richard', 'Ryan', 'Tyler']

The end goal that we want is an array of the same names but where each name ends with an exclamation mark:

["Amanda!", "Geoff!", "Michael!", "Richard!", "Ryan!", "Tyler!"]

To get us from the starting point to the end, we'll just use JavaScript's .map() function to declare what we want done.

const excitedPeople = => name + '!')

That's it! Notice that with this code we haven't:

created an iterator object told the code when it should stop running used the iterator to access a specific item in the people array stored each new string in the excitedPeople array ...all of those steps are taken care of by JavaScript's .map() Array method.

  • This particular example is the one used in the Udacity React Nanodegree... – Huckphin Mar 8 at 3:23

This is great analogy:

*An imperative response: Go out of the north exit of the parking lot and take a left. Get on I-15 south until you get to the Bangerter Highway exit. Take a right off the exit like you’re going to Ikea. Go straight and take a right at the first light. Continue through the next light then take your next left. My house is #298.

A declarative response: My address is 298 West Immutable Alley, Draper Utah 84020*

It is best to compare React (declarative) and JQuery (imperative) to show you the differences.

In React, you only need to describe the final state of your UI in the render() method, without worrying about how to transition from previous UI state to the new UI state. E.g., changing the text of a label from A to B.

render() {
    <Label value={this.state.lastPrice} ... />
    <Label value={this.state.askPrice} ... />

On the other hand, JQuery requires you to transition your UI state imperatively, e.g, selecting the label element and update its text.

update() {

In the real world scenario, there will be much more UI elements to be updated, plus their attributes (e.g., CSS styles, and event listeners), etc. If you do this imperatively using JQuery, it will become complex and tedious; it is easy to forget to update some parts of the UI, or forget to remove old even listeners (memory leak), etc. This is where bugs happen, i.e., UI state and the model state are out of sync.

States out of sync will never happen to React's declarative approach, because we only need to update the model state, and React is responsible to keep the UI and model states in sync.

  • Under the hook, React will updates all changed DOM elements using imperative code.

You may also read my answer for What is the difference between declarative and imperative programming.

PS: from above jQuery example, you may think what if we.put all the DOM manipulations in the update() method, and call it everytime when any of our model state changes, and my UI will never be out of sync. You are correct, and this is effectively what React render() does, the only difference is that jQuery update() will cause many unnecessary DOM manipulations, but React will update only changed DOM elements using its Virtual DOM Diffing Algorithm.

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