This is a collection of simple demos of React.js.
These demos are purposely written in a simple and clear style. You will find no difficulty in following them to learn the powerful library.
- Flux Demo
- Webpack Demos
- React Router Tutorial
- CSS Modules Demos
- React Testing Demo
- A boilerplate for React-Babel-Webpack project
First, copy the repo into your disk.
$ git clone [email protected]:ruanyf/react-demos.git
Then play with the source files under the repo's demo* directories.
<!DOCTYPE html>
<html>
<head>
<meta charset="UTF-8" />
<script src="../build/react.development.js"></script>
<script src="../build/react-dom.development.js"></script>
<script src="../build/babel.min.js"></script>
</head>
<body>
<div id="example"></div>
<script type="text/babel">
// ** Our code goes here! **
</script>
</body>
</html>
- Render JSX
- Use JavaScript in JSX
- Use array in JSX
- Define a component
- this.props.children
- PropTypes
- Finding a DOM node
- this.state
- Form
- Component Lifecycle
- Ajax
- Display value from a Promise
- Server-side rendering
The template syntax in React is called JSX. JSX allows you to use HTML tags in JavaScript code. ReactDOM.render()
is the method which translates JSX into HTML and renders it into the specified DOM node.
ReactDOM.render(
<h1>Hello, world!</h1>,
document.getElementById('example')
);
To actually perform the transformation in the browser, you must use <script type="text/babel">
to indicate JSX code, and include babel.min.js
, which is a browser version of Babel and can be found in the babel-core@6 npm release.
Before v0.14, React used JSTransform.js
to translate <script type="text/jsx">
, but this is now deprecated (more info).
You can also use JavaScript within JSX. Angle brackets (<) symbolize the beginning of HTML syntax, while curly brackets ({
) represent the beginning of JavaScript syntax.
var names = ['Alice', 'Emily', 'Kate'];
ReactDOM.render(
<div>
{
names.map(function (name) {
return <div>Hello, {name}!</div>
})
}
</div>,
document.getElementById('example')
);
If a JavaScript variable is an array, JSX will implicitly concat all members of the array.
var arr = [
<h1>Hello world!</h1>,
<h2>React is awesome</h2>,
];
ReactDOM.render(
<div>{arr}</div>,
document.getElementById('example')
);
class ComponentName extends React.Component
creates a component class, which implements a render method to return a component instance of the class.
Before v16.0, React used React.createClass()
to create a component class, but this is now deprecated (more info).
class HelloMessage extends React.Component {
render() {
return <h1>Hello {this.props.name}</h1>;
}
}
ReactDOM.render(
<HelloMessage name="John" />,
document.getElementById('example')
);
You can use this.props.[attribute]
to access the attributes of a component. Example: this.props.name
of <HelloMessage name="John" />
is John.
Please remember the first letter of the component's name must be capitalized, otherwise, React will throw an error. For instance, HelloMessage
as a component's name is OK, but helloMessage
is not allowed. And a React component should only have one top child node.
// wrong
class HelloMessage extends React.Component {
render() {
return <h1>
Hello {this.props.name}
</h1><p>
some text
</p>;
}
}
// correct
class HelloMessage extends React.Component {
render() {
return <div>
<h1>Hello {this.props.name}</h1>
<p>some text</p>
</div>;
}
}
React uses this.props.children
to access a component's children nodes.
class NotesList extends React.Component {
render() {
return (
<ol>
{
React.Children.map(this.props.children, function (child) {
return <li>{child}</li>;
})
}
</ol>
);
}
}
ReactDOM.render(
<NotesList>
<span>hello</span>
<span>world</span>
</NotesList>,
document.getElementById('example')
);
Please be mindful that the value of this.props.children
has three possibilities. If the component has no child node, the value is undefined
; If it has a single child node, the value will be an object; If it has multiple children nodes, the result is an array. Keep this in mind as you code.
React gave us a utility React.Children
for dealing with the opaque data structure of this.props.children
. You can use React.Children.map
to iterate this.props.children
without worrying if its data type is undefined
or object
. Check official document for more methods React.Children
offers.
Components in React have many specific attributes which are called props
and can be of any type.
Sometimes you need a way to validate these props. You don't want users have the freedom to input anything into your components.
React has a solution for this and it's called PropTypes.
class MyTitle extends React.Component {
static propTypes = {
title: PropTypes.string.isRequired,
}
render() {
return <h1> {this.props.title} </h1>;
}
}
The above component MyTitle
has a prop of title
. PropTypes tells React that the title is required and its value should be a string.
Now we give Title
a number value.
var data = 123;
ReactDOM.render(
<MyTitle title={data} />,
document.getElementById('example')
);
Here, the prop doesn't pass the validation, and the console will show you an error message:
Warning: Failed propType: Invalid prop `title` of type `number` supplied to `MyTitle`, expected `string`.
Visit official doc for more PropTypes options.
P.S. If you want to give the props a default value, use defaultProps
.
class MyTitle extends React.Component {
constructor(props) {
super(props)
}
static defaultProps = {
title: 'Hello World',
}
render() {
return <h1> {this.props.title} </h1>;
}
}
ReactDOM.render(
<MyTitle />,
document.getElementById('example')
);
React.PropTypes has moved into a different package since React v15.5. (more info).
Sometimes you need to reference a DOM node in a component. React gives you the ref
attribute to attach a DOM node to instance created by React.createRef()
.
class MyComponent extends React.Component {
constructor(props) {
super(props);
this.myTextInput = React.createRef();
this.handleClick = this.handleClick.bind(this)
}
handleClick() {
this.myTextInput.current.focus();
}
render() {
return (
<div>
<input type="text" ref={this.myTextInput} />
<input type="button" value="Focus the text input" onClick={this.handleClick} />
</div>
);
}
}
ReactDOM.render(
<MyComponent />,
document.getElementById('example')
);
Please be mindful that you could do that only after this component has been mounted into the DOM, otherwise you get null
.
React thinks of component as state machines, and uses this.state
to hold component's state, this.setState()
to update this.state
and re-render the component.
class LikeButton extends React.Component {
constructor(props) {
super(props)
this.state = {
liked: false
}
this.handleClick = this.handleClick.bind(this)
}
handleClick(event) {
this.setState({ liked: !this.state.liked });
}
render() {
var text = this.state.liked ? 'like' : 'haven\'t liked';
return (
<p onClick={this.handleClick}>
You {text} this. Click to toggle.
</p>
);
}
}
ReactDOM.render(
<LikeButton />,
document.getElementById('example')
);
You could use component attributes to register event handlers, just like onClick
, onKeyDown
, onCopy
, etc. Official Document has all supported events.
According to React's design philosophy, this.state
describes the state of component and is mutated via user interactions, and this.props
describes the properties of component and is stable and immutable.
Since that, the value
attribute of Form components, such as <input>, <textarea>, and <option>, is unaffected by any user input. If you wanted to access or update the value in response to user input, you could use the onChange event.
class Input extends React.Component {
constructor(props) {
super(props)
this.state = {value: 'Hello!'}
this.handleChange = this.handleChange.bind(this)
}
handleChange(event) {
this.setState({value: event.target.value});
}
render() {
var value = this.state.value;
return (
<div>
<input type="text" value={value} onChange={this.handleChange} />
<p>{value}</p>
</div>
);
}
}
ReactDOM.render(<Input/>, document.getElementById('example'));
More information on official document.
Components have three main parts of their lifecycle: Mounting(being inserted into the DOM), Updating(being re-rendered) and Unmounting(being removed from the DOM). React provides hooks into these lifecycle part. will
methods are called right before something happens, and did
methods which are called right after something happens.
class Hello extends React.Component {
constructor(props) {
super(props)
this.state = {opacity: 1.0};
}
componentDidMount() {
this.timer = setInterval(function () {
var opacity = this.state.opacity;
opacity -= .05;
if (opacity < 0.1) {
opacity = 1.0;
}
this.setState({
opacity: opacity
});
}.bind(this), 100);
}
render() {
return (
<div style={{opacity: this.state.opacity}}>
Hello {this.props.name}
</div>
);
}
}
ReactDOM.render(
<Hello name="world"/>,
document.getElementById('example')
);
The following is a whole list of lifecycle methods.
- componentWillMount(): Fired once, before initial rendering occurs. Good place to wire-up message listeners.
this.setState
doesn't work here. - componentDidMount(): Fired once, after initial rendering occurs. Can use
this.getDOMNode()
. - componentWillUpdate(object nextProps, object nextState): Fired after the component's updates are made to the DOM. Can use
this.getDOMNode()
for updates. - componentDidUpdate(object prevProps, object prevState): Invoked immediately after the component's updates are flushed to the DOM. This method is not called for the initial render. Use this as an opportunity to operate on the DOM when the component has been updated.
- componentWillUnmount(): Fired immediately before a component is unmounted from the DOM. Good place to remove message listeners or general clean up.
- componentWillReceiveProps(object nextProps): Fired when a component is receiving new props. You might want to
this.setState
depending on the props. - shouldComponentUpdate(object nextProps, object nextState): Fired before rendering when new props or state are received.
return false
if you know an update isn't needed.
How to get the data of a component from a server or an API provider? The answer is using Ajax to fetch data in the event handler of componentDidMount
. When the server response arrives, store the data with this.setState()
to trigger a re-render of your UI.
class UserGist extends React.Component {
constructor(props) {
super(props)
this.state = {
username: '',
lastGistUrl: ''
};
}
componentDidMount() {
$.get(this.props.source, function(result) {
var lastGist = result[0];
this.setState({
username: lastGist.owner.login,
lastGistUrl: lastGist.html_url
});
}.bind(this));
}
render() {
return (
<div>
{this.state.username}'s last gist is
<a href={this.state.lastGistUrl}>here</a>.
</div>
);
}
}
ReactDOM.render(
<UserGist source="https://api.github.com/users/octocat/gists" />,
document.getElementById('example')
);
This demo is inspired by Nat Pryce's article "Higher Order React Components".
If a React component's data is received asynchronously, we can also use a Promise object as the component's property, as follows.
ReactDOM.render(
<RepoList promise={$.getJSON('https://api.github.com/search/repositories?q=javascript&sort=stars')} />,
document.getElementById('example')
);
The above code takes data from Github's API, and the RepoList
component gets a Promise object as its property.
Now, while the promise is pending, the component displays a loading indicator. When the promise is resolved successfully, the component displays a list of repository information. If the promise is rejected, the component displays an error message.
class RepoList extends React.Component {
constructor(props) {
super(props)
this.state = {
loading: true,
error: null,
data: null
};
}
componentDidMount() {
this.props.promise.then(
value => this.setState({loading: false, data: value}),
error => this.setState({loading: false, error: error}));
}
render() {
if (this.state.loading) {
return <span>Loading...</span>;
}
else if (this.state.error !== null) {
return <span>Error: {this.state.error.message}</span>;
}
else {
var repos = this.state.data.items;
var repoList = repos.map(function (repo, index) {
return (
<li key={index}><a href={repo.html_url}>{repo.name}</a> ({repo.stargazers_count} stars) <br/> {repo.description}</li>
);
});
return (
<main>
<h1>Most Popular JavaScript Projects in Github</h1>
<ol>{repoList}</ol>
</main>
);
}
}
}
This demo is copied from github.com/mhart/react-server-example, but I rewrote it with JSX syntax.
# install the dependencies in demo13 directory
$ npm install
# translate all jsx file in src subdirectory to js file
$ npm run build
# launch http server
$ node server.js
All above demos don't use JSX compilation for clarity. In production environment, ensure to precompile JSX files before putting them online.
First, install the command-line tools Babel.
$ npm install -g babel
Then precompile your JSX files(.jsx) into JavaScript(.js). Compiling the entire src directory and output it to the build directory, you may use the option --out-dir
or -d
.
$ babel src --out-dir build
Put the compiled JS files into HTML.
<!DOCTYPE html>
<html>
<head>
<title>Hello React!</title>
<script src="build/react.js"></script>
<script src="build/react-dom.js"></script>
<!-- No need for Browser.js! -->
</head>
<body>
<div id="example"></div>
<script src="build/helloworld.js"></script>
</body>
</html>
- React's official site
- React's official examples
- React (Virtual) DOM Terminology, by Sebastian Markbåge
- The React Quick Start Guide, by Jack Callister
- Learning React.js: Getting Started and Concepts, by Ken Wheeler
- Getting started with React, by Ryan Clark
- React JS Tutorial and Guide to the Gotchas, by Justin Deal
- React Primer, by Binary Muse
- jQuery versus React.js thinking, by zigomir
BSD licensed