Posted Jun 7, 2015 by Steven Luscher
This is a guest post from Steven Luscher. Steven works on Relay at Facebook – a JavaScript framework for building applications using React and GraphQL. Follow Steven on Instagram, GitHub, and Twitter.
While redesigning Instagram Web from the inside out this year, we enjoyed using a number of ES6+ features to write our React components. Allow me to highlight some of the ways that these new language features can change the way you write a React app, making it easier and more fun than ever.
Classes
By far the most outwardly visible change to how we write React components using ES6+ comes about when we choose to use the class definition syntax. Instead of using the React.createClass
method to define a component, we can define a bonafide ES6 class that extends React.Component
:
class Photo extends React.Component {
render() {
return <img alt={this.props.caption} src={this.props.src} />;
}
}
Right away, you’ll notice a subtle difference – a more terse syntax is available to you when defining classes:
// The ES5 way
var Photo = React.createClass({
handleDoubleTap: function(e) { … },
render: function() { … },
});
// The ES6+ way
class Photo extends React.Component {
handleDoubleTap(e) { … }
render() { … }
}
Notably, we’ve dropped two parentheses and a trailing semicolon, and for each method declared we omit a colon, a function
keyword, and a comma.
All of the lifecycle methods but one can be defined as you would expect when using the new class syntax. The class’ constructor
now assumes the role previously filled by componentWillMount
:
// The ES5 way
var EmbedModal = React.createClass({
componentWillMount: function() { … },
});
// The ES6+ way
class EmbedModal extends React.Component {
constructor(props) {
super(props);
// Operations usually carried out in componentWillMount go here
}
}
Property initializers
In the ES6+ class world, prop types and defaults live as static properties on the class itself. These, as well as the component’s initial state, can be defined using ES7 property initializers:
// The ES5 way
var Video = React.createClass({
getDefaultProps: function() {
return {
autoPlay: false,
maxLoops: 10,
};
},
getInitialState: function() {
return {
loopsRemaining: this.props.maxLoops,
};
},
propTypes: {
autoPlay: React.PropTypes.bool.isRequired,
maxLoops: React.PropTypes.number.isRequired,
posterFrameSrc: React.PropTypes.string.isRequired,
videoSrc: React.PropTypes.string.isRequired,
},
});
// The ES6+ way
class Video extends React.Component {
static defaultProps = {
autoPlay: false,
maxLoops: 10,
}
static propTypes = {
autoPlay: React.PropTypes.bool.isRequired,
maxLoops: React.PropTypes.number.isRequired,
posterFrameSrc: React.PropTypes.string.isRequired,
videoSrc: React.PropTypes.string.isRequired,
}
state = {
loopsRemaining: this.props.maxLoops,
}
}
ES7 property initializers operate inside the class’ constructor, where this
refers to the instance of the class under construction, so the initial state can still be made to depend on this.props
. Notably, we no longer have to define prop defaults and the initial state object in terms of a getter function.
Arrow functions
The React.createClass
method used to perform some extra binding work on your component’s instance methods to make sure that, inside them, the this
keyword would refer to the instance of the component in question.
// Autobinding, brought to you by React.createClass
var PostInfo = React.createClass({
handleOptionsButtonClick: function(e) {
// Here, 'this' refers to the component instance.
this.setState({showOptionsModal: true});
},
});
Since we don’t involve the React.createClass
method when we define components using the ES6+ class syntax, it would seem that we need to manually bind instance methods wherever we want this behavior:
// Manually bind, wherever you need to
class PostInfo extends React.Component {
constructor(props) {
super(props);
// Manually bind this method to the component instance...
this.handleOptionsButtonClick = this.handleOptionsButtonClick.bind(this);
}
handleOptionsButtonClick(e) {
// ...to ensure that 'this' refers to the component instance here.
this.setState({showOptionsModal: true});
}
}
Luckily, by combining two ES6+ features – arrow functions and property initializers – opt-in binding to the component instance becomes a breeze:
class PostInfo extends React.Component {
handleOptionsButtonClick = (e) => {
this.setState({showOptionsModal: true});
}
}
The body of ES6 arrow functions share the same lexical this
as the code that surrounds them, which gets us the desired result because of the way that ES7 property initializers are scoped. Peek under the hood to see why this works.
Dynamic property names & template strings
One of the enhancements to object literals includes the ability to assign to a derived property name. We might have originally done something like this to set a piece of state:
var Form = React.createClass({
onChange: function(inputName, e) {
var stateToSet = {};
stateToSet[inputName + 'Value'] = e.target.value;
this.setState(stateToSet);
},
});
Now, we have the ability to construct objects whose property names are determined by a JavaScript expression at runtime. Here, we use a template string to determine which property to set on state:
class Form extends React.Component {
onChange(inputName, e) {
this.setState({
[`${inputName}Value`]: e.target.value,
});
}
}
Destructuring & spread attributes
Often when composing components, we might want to pass down most of a parent component’s props to a child component, but not all of them. In combining ES6+ destructuring with JSX spread attributes, this becomes possible without ceremony:
class AutoloadingPostsGrid extends React.Component {
render() {
const {
className,
...others // contains all properties of this.props except for className
} = this.props;
return (
<div className={className}>
<PostsGrid {...others} />
<button onClick={this.handleLoadMoreClick}>Load more</button>
</div>
);
}
}
We can combine JSX spread attributes with regular attributes too, taking advantage of a simple precedence rule to implement overrides and defaults. This element will acquire the className
“override” even if there exists a className
property in this.props
:
<div {...this.props} className="override">
…
</div>
This element will regularly have the className
“base” unless there exists a className
property in this.props
to override it:
<div className="base" {...this.props}>
…
</div>
Thanks for reading
I hope that you enjoy using ES6+ language features to write React code as much as we do. Thanks to my colleagues for their contributions to this post, and thanks especially to the Babel team for making the future available to all of us, today.