React has been designed from the start for gradual adoption, and
you can use as little or as much React as you need
. Perhaps you only want to add some “sprinkles of interactivity” to an existing page. React components are a great way to do that.
The majority of websites aren’t, and don’t need to be, single-page apps. With
a few lines of code and no build tooling
, try React in a small part of your website. You can then either gradually expand its presence, or keep it contained to a few dynamic widgets.
Optional: Try React with JSX (no bundler necessary!)
Add React in One Minute
In this section, we will show how to add a React component to an existing HTML page. You can follow along with your own website, or create an empty HTML file to practice.
There will be no complicated tools or install requirements —
to complete this section, you only need an internet connection, and a minute of your time.
Optional: Download the full example (2KB zipped)
Step 1: Add a DOM Container to the HTML
First, open the HTML page you want to edit. Add an empty
<div>
tag to mark the spot where you want to display something with React. For example:
<!-- ... existing HTML ... -->
<divid="like_button_container"></div> <!-- ... existing HTML ... -->
We gave this
<div>
a unique
id
HTML attribute. This will allow us to find it from the JavaScript code later and display a React component inside of it.
Tip
You can place a “container”
<div>
like this
anywhere
inside the
<body>
tag. You may have as many independent DOM containers on one page as you need. They are usually empty — React will replace any existing content inside DOM containers.
Step 2: Add the Script Tags
Next, add three
<script>
tags to the HTML page right before the closing
</body>
tag:
The first two tags load React. The third one will load your component code.
Step 3: Create a React Component
Create a file called
like_button.js
next to your HTML page.
Open
this starter code
and paste it into the file you created.
Tip
This code defines a React component called
LikeButton
. Don’t worry if you don’t understand it yet — we’ll cover the building blocks of React later in our hands-on tutorial and main concepts guide. For now, let’s just get it showing on the screen!
After
the starter code
, add three lines to the bottom of
like_button.js
:
These three lines of code find the
<div>
we added to our HTML in the first step, create a React app with it, and then display our “Like” button React component inside of it.
That’s It!
There is no step four.
You have just added the first React component to your website.
Check out the next sections for more tips on integrating React.
View the full example source code
Download the full example (2KB zipped)
Tip: Reuse a Component
Commonly, you might want to display React components in multiple places on the HTML page. Here is an example that displays the “Like” button three times and passes some data to it:
View the full example source code
Download the full example (2KB zipped)
Note
This strategy is mostly useful while React-powered parts of the page are isolated from each other. Inside React code, it’s easier to use component composition instead.
Tip: Minify JavaScript for Production
Before deploying your website to production, be mindful that unminified JavaScript can significantly slow down the page for your users.
If you already minify the application scripts,
your site will be production-ready
if you ensure that the deployed HTML loads the versions of React ending in
production.min.js
:
If you don’t have a minification step for your scripts, here’s one way to set it up.
Optional: Try React with JSX
In the examples above, we only relied on features that are natively supported by browsers. This is why we used a JavaScript function call to tell React what to display:
const e = React.createElement;
// Display a "Like" <button> returne( 'button', {onClick:()=>this.setState({liked:true})}, 'Like' );
However, React also offers an option to use JSX instead:
// Display a "Like" <button> return( <buttononClick={()=>this.setState({liked:true})}> Like </button> );
These two code snippets are equivalent. While
JSX is completely optional
, many people find it helpful for writing UI code — both with React and with other libraries.
You can play with JSX using this online converter.
Quickly Try JSX
The quickest way to try JSX in your project is to add this
<script>
tag to your page:
Now you can use JSX in any
<script>
tag by adding
type="text/babel"
attribute to it. Here is an example HTML file with JSX that you can download and play with.
This approach is fine for learning and creating simple demos. However, it makes your website slow and
isn’t suitable for production
. When you’re ready to move forward, remove this new
<script>
tag and the
type="text/babel"
attributes you’ve added. Instead, in the next section you will set up a JSX preprocessor to convert all your
<script>
tags automatically.
Add JSX to a Project
Adding JSX to a project doesn’t require complicated tools like a bundler or a development server. Essentially, adding JSX
is a lot like adding a CSS preprocessor.
The only requirement is to have Node.js installed on your computer.
Go to your project folder in the terminal, and paste these two commands:
Step 1:
Run
npm init -y
(if it fails, here’s a fix)
Step 2:
Run
npm install babel-cli@6 babel-preset-react-app@3
Tip
We’re
using npm here only to install the JSX preprocessor;
you won’t need it for anything else. Both React and the application code can stay as
<script>
tags with no changes.
Congratulations! You just added a
production-ready JSX setup
to your project.
Run JSX Preprocessor
Create a folder called
src
and run this terminal command:
npx
is not a typo — it’s a package runner tool that comes with npm 5.2+.
If you see an error message saying “You have mistakenly installed the
babel
package”, you might have missed the previous step. Perform it in the same folder, and then try again.
Don’t wait for it to finish — this command starts an automated watcher for JSX.
If you now create a file called
src/like_button.js
with this
JSX starter code
, the watcher will create a preprocessed
like_button.js
with the plain JavaScript code suitable for the browser. When you edit the source file with JSX, the transform will re-run automatically.
As a bonus, this also lets you use modern JavaScript syntax features like classes without worrying about breaking older browsers. The tool we just used is called Babel, and you can learn more about it from its documentation.
If you notice that you’re getting comfortable with build tools and want them to do more for you, the next section describes some of the most popular and approachable toolchains. If not — those script tags will do just fine!
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Create a New React App – React
Create a New React App
Use an integrated toolchain for the best user and developer experience.
This page describes a few popular React toolchains which help with tasks like:
Scaling to many files and components.
Using third-party libraries from npm.
Detecting common mistakes early.
Live-editing CSS and JS in development.
Optimizing the output for production.
The toolchains recommended on this page
don’t require configuration to get started
.
If you don’t experience the problems described above or don’t feel comfortable using JavaScript tools yet, consider adding React as a plain
<script>
tag on an HTML page, optionally with JSX.
This is also
the easiest way to integrate React into an existing website.
You can always add a larger toolchain if you find it helpful!
Recommended Toolchains
The React team primarily recommends these solutions:
If you’re
learning React
or
creating a new single-page app,
use Create React App.
If you’re building a
server-rendered website with Node.js,
try Next.js.
If you’re building a
static content-oriented website,
try Gatsby.
If you’re building a
component library
or
integrating with an existing codebase
, try More Flexible Toolchains.
Create React App
Create React App is a comfortable environment for
learning React
, and is the best way to start building
a new single-page application
in React.
It sets up your development environment so that you can use the latest JavaScript features, provides a nice developer experience, and optimizes your app for production. You’ll need to have Node >= 14.0.0 and npm >= 5.6 on your machine. To create a project, run:
npx create-react-app my-app cd my-app npm start
Note
npx
on the first line is not a typo — it’s a package runner tool that comes with npm 5.2+.
Create React App doesn’t handle backend logic or databases; it just creates a frontend build pipeline, so you can use it with any backend you want. Under the hood, it uses Babel and webpack, but you don’t need to know anything about them.
When you’re ready to deploy to production, running
npm run build
will create an optimized build of your app in the
build
folder. You can learn more about Create React App from its README and the User Guide.
Next.js
Next.js is a popular and lightweight framework for
static and server‑rendered applications
built with React. It includes
styling and routing solutions
out of the box, and assumes that you’re using Node.js as the server environment.
Learn Next.js from its official guide.
Gatsby
Gatsby is the best way to create
static websites
with React. It lets you use React components, but outputs pre-rendered HTML and CSS to guarantee the fastest load time.
Learn Gatsby from its official guide and a gallery of starter kits.
More Flexible Toolchains
The following toolchains offer more flexibility and choice. We recommend them to more experienced users:
Neutrino
combines the power of webpack with the simplicity of presets, and includes a preset for React apps and React components.
Nx
is a toolkit for full-stack monorepo development, with built-in support for React, Next.js, Express, and more.
Parcel
is a fast, zero configuration web application bundler that works with React.
Razzle
is a server-rendering framework that doesn’t require any configuration, but offers more flexibility than Next.js.
Creating a Toolchain from Scratch
A JavaScript build toolchain typically consists of:
A
package manager
, such as Yarn or npm. It lets you take advantage of a vast ecosystem of third-party packages, and easily install or update them.
A
bundler
, such as webpack or Parcel. It lets you write modular code and bundle it together into small packages to optimize load time.
A
compiler
such as Babel. It lets you write modern JavaScript code that still works in older browsers.
If you prefer to set up your own JavaScript toolchain from scratch, check out this guide that re-creates some of the Create React App functionality.
Don’t forget to ensure your custom toolchain is correctly set up for production.
The versions above are only meant for development, and are not suitable for production. Minified and optimized production versions of React are available at:
This document will be most relevant to developers who work on frameworks, libraries, or developer tooling. Developers who use React primarily to build user-facing applications should not need to worry about our prerelease channels.
Each of React’s release channels is designed for a distinct use case:
Latest
is for stable, semver React releases. It’s what you get when you install React from npm. This is the channel you’re already using today.
Use this for all user-facing React applications.
Next
tracks the main branch of the React source code repository. Think of these as release candidates for the next minor semver release. Use this for integration testing between React and third party projects.
Experimental
includes experimental APIs and features that aren’t available in the stable releases. These also track the main branch, but with additional feature flags turned on. Use this to try out upcoming features before they are released.
All releases are published to npm, but only Latest uses semantic versioning. Prereleases (those in the Next and Experimental channels) have versions generated from a hash of their contents and the commit date, e.g.
0.0.0-68053d940-20210623
for Next and
0.0.0-experimental-68053d940-20210623
for Experimental.
The only officially supported release channel for user-facing applications is Latest
. Next and Experimental releases are provided for testing purposes only, and we provide no guarantees that behavior won’t change between releases. They do not follow the semver protocol that we use for releases from Latest.
By publishing prereleases to the same registry that we use for stable releases, we are able to take advantage of the many tools that support the npm workflow, like unpkg and CodeSandbox.
Latest Channel
Latest is the channel used for stable React releases. It corresponds to the
latest
tag on npm. It is the recommended channel for all React apps that are shipped to real users.
If you’re not sure which channel you should use, it’s Latest.
If you’re a React developer, this is what you’re already using.
You can expect updates to Latest to be extremely stable. Versions follow the semantic versioning scheme. Learn more about our commitment to stability and incremental migration in our versioning policy.
Next Channel
The Next channel is a prerelease channel that tracks the main branch of the React repository. We use prereleases in the Next channel as release candidates for the Latest channel. You can think of Next as a superset of Latest that is updated more frequently.
The degree of change between the most recent Next release and the most recent Latest release is approximately the same as you would find between two minor semver releases. However,
the Next channel does not conform to semantic versioning.
You should expect occasional breaking changes between successive releases in the Next channel.
Do not use prereleases in user-facing applications.
Releases in Next are published with the
next
tag on npm. Versions are generated from a hash of the build’s contents and the commit date, e.g.
0.0.0-68053d940-20210623
.
Using the Next Channel for Integration Testing
The Next channel is designed to support integration testing between React and other projects.
All changes to React go through extensive internal testing before they are released to the public. However, there are a myriad of environments and configurations used throughout the React ecosystem, and it’s not possible for us to test against every single one.
If you’re the author of a third party React framework, library, developer tool, or similar infrastructure-type project, you can help us keep React stable for your users and the entire React community by periodically running your test suite against the most recent changes. If you’re interested, follow these steps:
Set up a cron job using your preferred continuous integration platform. Cron jobs are supported by both CircleCI and Travis CI.
In the cron job, update your React packages to the most recent React release in the Next channel, using
next
tag on npm. Using the npm cli:
npm update react@next react-dom@next
Or yarn:
yarn upgrade react@next react-dom@next
Run your test suite against the updated packages.
If everything passes, great! You can expect that your project will work with the next minor React release.
If something breaks unexpectedly, please let us know by filing an issue.
A project that uses this workflow is Next.js. (No pun intended! Seriously!) You can refer to their CircleCI configuration as an example.
Experimental Channel
Like Next, the Experimental channel is a prerelease channel that tracks the main branch of the React repository. Unlike Next, Experimental releases include additional features and APIs that are not ready for wider release.
Usually, an update to Next is accompanied by a corresponding update to Experimental. They are based on the same source revision, but are built using a different set of feature flags.
Experimental releases may be significantly different than releases to Next and Latest.
Do not use Experimental releases in user-facing applications.
You should expect frequent breaking changes between releases in the Experimental channel.
Releases in Experimental are published with the
experimental
tag on npm. Versions are generated from a hash of the build’s contents and the commit date, e.g.
0.0.0-experimental-68053d940-20210623
.
What Goes Into an Experimental Release?
Experimental features are ones that are not ready to be released to the wider public, and may change drastically before they are finalized. Some experiments may never be finalized — the reason we have experiments is to test the viability of proposed changes.
For example, if the Experimental channel had existed when we announced Hooks, we would have released Hooks to the Experimental channel weeks before they were available in Latest.
You may find it valuable to run integration tests against Experimental. This is up to you. However, be advised that Experimental is even less stable than Next.
We do not guarantee any stability between Experimental releases.
How Can I Learn More About Experimental Features?
Experimental features may or may not be documented. Usually, experiments aren’t documented until they are close to shipping in Next or Latest.
If a feature is not documented, they may be accompanied by an RFC.
We will post to the React blog when we’re ready to announce new experiments, but that doesn’t mean we will publicize every experiment.
You can always refer to our public GitHub repository’s history for a comprehensive list of changes.
Click the link above to open an online editor. Feel free to make some changes, and see how they affect the output. Most pages in this guide will have editable examples like this one.
How to Read This Guide
In this guide, we will examine the building blocks of React apps: elements and components. Once you master them, you can create complex apps from small reusable pieces.
Tip
This guide is designed for people who prefer
learning concepts step by step
. If you prefer to learn by doing, check out our practical tutorial. You might find this guide and the tutorial complementary to each other.
This is the first chapter in a step-by-step guide about main React concepts. You can find a list of all its chapters in the navigation sidebar. If you’re reading this from a mobile device, you can access the navigation by pressing the button in the bottom right corner of your screen.
Every chapter in this guide builds on the knowledge introduced in earlier chapters.
You can learn most of React by reading the “Main Concepts” guide chapters in the order they appear in the sidebar.
For example, “Introducing JSX” is the next chapter after this one.
Knowledge Level Assumptions
React is a JavaScript library, and so we’ll assume you have a basic understanding of the JavaScript language.
If you don’t feel very confident, we recommend going through a JavaScript tutorial to check your knowledge level
and enable you to follow along this guide without getting lost. It might take you between 30 minutes and an hour, but as a result you won’t have to feel like you’re learning both React and JavaScript at the same time.
Note
This guide occasionally uses some newer JavaScript syntax in the examples. If you haven’t worked with JavaScript in the last few years, these three points should get you most of the way.
Let’s Get Started!
Keep scrolling down, and you’ll find the link to the next chapter of this guide right before the website footer.
This funny tag syntax is neither a string nor HTML.
It is called JSX, and it is a syntax extension to JavaScript. We recommend using it with React to describe what the UI should look like. JSX may remind you of a template language, but it comes with the full power of JavaScript.
React embraces the fact that rendering logic is inherently coupled with other UI logic: how events are handled, how the state changes over time, and how the data is prepared for display.
Instead of artificially separating
technologies
by putting markup and logic in separate files, React separates
concerns
with loosely coupled units called “components” that contain both. We will come back to components in a further section, but if you’re not yet comfortable putting markup in JS, this talk might convince you otherwise.
React doesn’t require using JSX, but most people find it helpful as a visual aid when working with UI inside the JavaScript code. It also allows React to show more useful error and warning messages.
With that out of the way, let’s get started!
Embedding Expressions in JSX
In the example below, we declare a variable called
name
and then use it inside JSX by wrapping it in curly braces:
const name ='Josh Perez';const element =<h1>Hello, {name}</h1>;
You can put any valid JavaScript expression inside the curly braces in JSX. For example,
2 + 2
,
user.firstName
, or
formatName(user)
are all valid JavaScript expressions.
In the example below, we embed the result of calling a JavaScript function,
formatName(user)
, into an
<h1>
element.
const user ={ firstName:'Harper', lastName:'Perez' };
const element =( <h1> Hello, {formatName(user)}!</h1> );
Try it on CodePen
We split JSX over multiple lines for readability. While it isn’t required, when doing this, we also recommend wrapping it in parentheses to avoid the pitfalls of automatic semicolon insertion.
JSX is an Expression Too
After compilation, JSX expressions become regular JavaScript function calls and evaluate to JavaScript objects.
This means that you can use JSX inside of
if
statements and
for
loops, assign it to variables, accept it as arguments, and return it from functions:
You may use quotes to specify string literals as attributes:
const element =<ahref="https://www.reactjs.org"> link </a>;
You may also use curly braces to embed a JavaScript expression in an attribute:
const element =<imgsrc={user.avatarUrl}></img>;
Don’t put quotes around curly braces when embedding a JavaScript expression in an attribute. You should either use quotes (for string values) or curly braces (for expressions), but not both in the same attribute.
Warning:
Since JSX is closer to JavaScript than to HTML, React DOM uses
camelCase
property naming convention instead of HTML attribute names.
For example,
class
becomes
className
in JSX, and
tabindex
becomes
tabIndex
.
Specifying Children with JSX
If a tag is empty, you may close it immediately with
/>
, like XML:
const element =<imgsrc={user.avatarUrl}/>;
JSX tags may contain children:
const element =( <div> <h1>Hello!</h1> <h2>Good to see you here.</h2> </div> );
JSX Prevents Injection Attacks
It is safe to embed user input in JSX:
const title = response.potentiallyMaliciousInput; // This is safe: const element =<h1>{title}</h1>;
By default, React DOM escapes any values embedded in JSX before rendering them. Thus it ensures that you can never inject anything that’s not explicitly written in your application. Everything is converted to a string before being rendered. This helps prevent XSS (cross-site-scripting) attacks.
JSX Represents Objects
Babel compiles JSX down to
React.createElement()
calls.
These two examples are identical:
const element =( <h1className="greeting"> Hello, world! </h1> );
const element = React.createElement( 'h1', {className:'greeting'}, 'Hello, world!' );
React.createElement()
performs a few checks to help you write bug-free code but essentially it creates an object like this:
// Note: this structure is simplified const element ={ type:'h1', props:{ className:'greeting', children:'Hello, world!' } };
These objects are called “React elements”. You can think of them as descriptions of what you want to see on the screen. React reads these objects and uses them to construct the DOM and keep it up to date.
We will explore rendering React elements to the DOM in the next section.
Tip:
We recommend using the “Babel” language definition for your editor of choice so that both ES6 and JSX code is properly highlighted.