Responding to Events
React lets you add event handlers to your JSX. Event handlers are your own functions that will be triggered in response to interactions like clicking, hovering, focusing form inputs, and so on.
நீங்கள் கற்றுக்கொள்ள போவது
- Different ways to write an event handler
- How to pass event handling logic from a parent component
- How events propagate and how to stop them
Adding event handlers
To add an event handler, you will first define a function and then pass it as a prop to the appropriate JSX tag. For example, here is a button that doesn’t do anything yet:
export default function Button() { return ( <button> I don't do anything </button> ); }
You can make it show a message when a user clicks by following these three steps:
- Declare a function called
handleClick
inside yourButton
component. - Implement the logic inside that function (use
alert
to show the message). - Add
onClick={handleClick}
to the<button>
JSX.
export default function Button() { function handleClick() { alert('You clicked me!'); } return ( <button onClick={handleClick}> Click me </button> ); }
You defined the handleClick
function and then passed it as a prop to <button>
. handleClick
is an event handler. Event handler functions:
- Are usually defined inside your components.
- Have names that start with
handle
, followed by the name of the event.
By convention, it is common to name event handlers as handle
followed by the event name. You’ll often see onClick={handleClick}
, onMouseEnter={handleMouseEnter}
, and so on.
Alternatively, you can define an event handler inline in the JSX:
<button onClick={function handleClick() {
alert('You clicked me!');
}}>
Or, more concisely, using an arrow function:
<button onClick={() => {
alert('You clicked me!');
}}>
All of these styles are equivalent. Inline event handlers are convenient for short functions.
Reading props in event handlers
Because event handlers are declared inside of a component, they have access to the component’s props. Here is a button that, when clicked, shows an alert with its message
prop:
function AlertButton({ message, children }) { return ( <button onClick={() => alert(message)}> {children} </button> ); } export default function Toolbar() { return ( <div> <AlertButton message="Playing!"> Play Movie </AlertButton> <AlertButton message="Uploading!"> Upload Image </AlertButton> </div> ); }
This lets these two buttons show different messages. Try changing the messages passed to them.
Passing event handlers as props
Often you’ll want the parent component to specify a child’s event handler. Consider buttons: depending on where you’re using a Button
component, you might want to execute a different function—perhaps one plays a movie and another uploads an image.
To do this, pass a prop the component receives from its parent as the event handler like so:
function Button({ onClick, children }) { return ( <button onClick={onClick}> {children} </button> ); } function PlayButton({ movieName }) { function handlePlayClick() { alert(`Playing ${movieName}!`); } return ( <Button onClick={handlePlayClick}> Play "{movieName}" </Button> ); } function UploadButton() { return ( <Button onClick={() => alert('Uploading!')}> Upload Image </Button> ); } export default function Toolbar() { return ( <div> <PlayButton movieName="Kiki's Delivery Service" /> <UploadButton /> </div> ); }
Here, the Toolbar
component renders a PlayButton
and an UploadButton
:
PlayButton
passeshandlePlayClick
as theonClick
prop to theButton
inside.UploadButton
passes() => alert('Uploading!')
as theonClick
prop to theButton
inside.
Finally, your Button
component accepts a prop called onClick
. It passes that prop directly to the built-in browser <button>
with onClick={onClick}
. This tells React to call the passed function on click.
If you use a design system, it’s common for components like buttons to contain styling but not specify behavior. Instead, components like PlayButton
and UploadButton
will pass event handlers down.
Naming event handler props
Built-in components like <button>
and <div>
only support browser event names like onClick
. However, when you’re building your own components, you can name their event handler props any way that you like.
By convention, event handler props should start with on
, followed by a capital letter.
For example, the Button
component’s onClick
prop could have been called onSmash
:
function Button({ onSmash, children }) { return ( <button onClick={onSmash}> {children} </button> ); } export default function App() { return ( <div> <Button onSmash={() => alert('Playing!')}> Play Movie </Button> <Button onSmash={() => alert('Uploading!')}> Upload Image </Button> </div> ); }
In this example, <button onClick={onSmash}>
shows that the browser <button>
(lowercase) still needs a prop called onClick
, but the prop name received by your custom Button
component is up to you!
When your component supports multiple interactions, you might name event handler props for app-specific concepts. For example, this Toolbar
component receives onPlayMovie
and onUploadImage
event handlers:
export default function App() { return ( <Toolbar onPlayMovie={() => alert('Playing!')} onUploadImage={() => alert('Uploading!')} /> ); } function Toolbar({ onPlayMovie, onUploadImage }) { return ( <div> <Button onClick={onPlayMovie}> Play Movie </Button> <Button onClick={onUploadImage}> Upload Image </Button> </div> ); } function Button({ onClick, children }) { return ( <button onClick={onClick}> {children} </button> ); }
Notice how the App
component does not need to know what Toolbar
will do with onPlayMovie
or onUploadImage
. That’s an implementation detail of the Toolbar
. Here, Toolbar
passes them down as onClick
handlers to its Button
s, but it could later also trigger them on a keyboard shortcut. Naming props after app-specific interactions like onPlayMovie
gives you the flexibility to change how they’re used later.
Event propagation
Event handlers will also catch events from any children your component might have. We say that an event “bubbles” or “propagates” up the tree: it starts with where the event happened, and then goes up the tree.
This <div>
contains two buttons. Both the <div>
and each button have their own onClick
handlers. Which handlers do you think will fire when you click a button?
export default function Toolbar() { return ( <div className="Toolbar" onClick={() => { alert('You clicked on the toolbar!'); }}> <button onClick={() => alert('Playing!')}> Play Movie </button> <button onClick={() => alert('Uploading!')}> Upload Image </button> </div> ); }
If you click on either button, its onClick
will run first, followed by the parent <div>
’s onClick
. So two messages will appear. If you click the toolbar itself, only the parent <div>
’s onClick
will run.
Stopping propagation
Event handlers receive an event object as their only argument. By convention, it’s usually called e
, which stands for “event”. You can use this object to read information about the event.
That event object also lets you stop the propagation. If you want to prevent an event from reaching parent components, you need to call e.stopPropagation()
like this Button
component does:
function Button({ onClick, children }) { return ( <button onClick={e => { e.stopPropagation(); onClick(); }}> {children} </button> ); } export default function Toolbar() { return ( <div className="Toolbar" onClick={() => { alert('You clicked on the toolbar!'); }}> <Button onClick={() => alert('Playing!')}> Play Movie </Button> <Button onClick={() => alert('Uploading!')}> Upload Image </Button> </div> ); }
When you click on a button:
- React calls the
onClick
handler passed to<button>
. - That handler, defined in
Button
, does the following:- Calls
e.stopPropagation()
, preventing the event from bubbling further. - Calls the
onClick
function, which is a prop passed from theToolbar
component.
- Calls
- That function, defined in the
Toolbar
component, displays the button’s own alert. - Since the propagation was stopped, the parent
<div>
’sonClick
handler does not run.
As a result of e.stopPropagation()
, clicking on the buttons now only shows a single alert (from the <button>
) rather than the two of them (from the <button>
and the parent toolbar <div>
). Clicking a button is not the same thing as clicking the surrounding toolbar, so stopping the propagation makes sense for this UI.
Deep Dive
In rare cases, you might need to catch all events on child elements, even if they stopped propagation. For example, maybe you want to log every click to analytics, regardless of the propagation logic. You can do this by adding Capture
at the end of the event name:
<div onClickCapture={() => { /* this runs first */ }}>
<button onClick={e => e.stopPropagation()} />
<button onClick={e => e.stopPropagation()} />
</div>
Each event propagates in three phases:
- It travels down, calling all
onClickCapture
handlers. - It runs the clicked element’s
onClick
handler. - It travels upwards, calling all
onClick
handlers.
Capture events are useful for code like routers or analytics, but you probably won’t use them in app code.
Passing handlers as alternative to propagation
Notice how this click handler runs a line of code and then calls the onClick
prop passed by the parent:
function Button({ onClick, children }) {
return (
<button onClick={e => {
e.stopPropagation();
onClick();
}}>
{children}
</button>
);
}
You could add more code to this handler before calling the parent onClick
event handler, too. This pattern provides an alternative to propagation. It lets the child component handle the event, while also letting the parent component specify some additional behavior. Unlike propagation, it’s not automatic. But the benefit of this pattern is that you can clearly follow the whole chain of code that executes as a result of some event.
If you rely on propagation and it’s difficult to trace which handlers execute and why, try this approach instead.
Preventing default behavior
Some browser events have default behavior associated with them. For example, a <form>
submit event, which happens when a button inside of it is clicked, will reload the whole page by default:
export default function Signup() { return ( <form onSubmit={() => alert('Submitting!')}> <input /> <button>Send</button> </form> ); }
You can call e.preventDefault()
on the event object to stop this from happening:
export default function Signup() { return ( <form onSubmit={e => { e.preventDefault(); alert('Submitting!'); }}> <input /> <button>Send</button> </form> ); }
Don’t confuse e.stopPropagation()
and e.preventDefault()
. They are both useful, but are unrelated:
e.stopPropagation()
stops the event handlers attached to the tags above from firing.e.preventDefault()
prevents the default browser behavior for the few events that have it.
Can event handlers have side effects?
Absolutely! Event handlers are the best place for side effects.
Unlike rendering functions, event handlers don’t need to be pure, so it’s a great place to change something—for example, change an input’s value in response to typing, or change a list in response to a button press. However, in order to change some information, you first need some way to store it. In React, this is done by using state, a component’s memory. You will learn all about it on the next page.
Recap
- You can handle events by passing a function as a prop to an element like
<button>
. - Event handlers must be passed, not called!
onClick={handleClick}
, notonClick={handleClick()}
. - You can define an event handler function separately or inline.
- Event handlers are defined inside a component, so they can access props.
- You can declare an event handler in a parent and pass it as a prop to a child.
- You can define your own event handler props with application-specific names.
- Events propagate upwards. Call
e.stopPropagation()
on the first argument to prevent that. - Events may have unwanted default browser behavior. Call
e.preventDefault()
to prevent that. - Explicitly calling an event handler prop from a child handler is a good alternative to propagation.
Challenge 1 of 2: Fix an event handler
Clicking this button is supposed to switch the page background between white and black. However, nothing happens when you click it. Fix the problem. (Don’t worry about the logic inside handleClick
—that part is fine.)
export default function LightSwitch() { function handleClick() { let bodyStyle = document.body.style; if (bodyStyle.backgroundColor === 'black') { bodyStyle.backgroundColor = 'white'; } else { bodyStyle.backgroundColor = 'black'; } } return ( <button onClick={handleClick()}> Toggle the lights </button> ); }