Reusing Logic with Custom Hooks
React comes with several built-in Hooks like useState
, useContext
, and useEffect
. Sometimes, you’ll wish that there was a Hook for some more specific purpose: for example, to fetch data, to keep track of whether the user is online, or to connect to a chat room. You might not find these Hooks in React, but you can create your own Hooks for your application’s needs.
You will learn
- What custom Hooks are, and how to write your own
- How to reuse logic between components
- How to name and structure your custom Hooks
- When and why to extract custom Hooks
Custom Hooks: Sharing logic between components
Imagine you’re developing an app that heavily relies on the network (as most apps do). You want to warn the user if their network connection has accidentally gone off while they were using your app. How would you go about it? It seems like you’ll need two things in your component:
- A piece of state that tracks whether the network is online.
- An Effect that subscribes to the global
online
andoffline
events, and updates that state.
This will keep your component synchronized with the network status. You might start with something like this:
import { useState, useEffect } from 'react'; export default function StatusBar() { const [isOnline, setIsOnline] = useState(true); useEffect(() => { function handleOnline() { setIsOnline(true); } function handleOffline() { setIsOnline(false); } window.addEventListener('online', handleOnline); window.addEventListener('offline', handleOffline); return () => { window.removeEventListener('online', handleOnline); window.removeEventListener('offline', handleOffline); }; }, []); return <h1>{isOnline ? '✅ Online' : '❌ Disconnected'}</h1>; }
Try turning your network on and off, and notice how this StatusBar
updates in response to your actions.
Now imagine you also want to use the same logic in a different component. You want to implement a Save button that will become disabled and show “Reconnecting…” instead of “Save” while the network is off.
To start, you can copy and paste the isOnline
state and the Effect into SaveButton
:
import { useState, useEffect } from 'react'; export default function SaveButton() { const [isOnline, setIsOnline] = useState(true); useEffect(() => { function handleOnline() { setIsOnline(true); } function handleOffline() { setIsOnline(false); } window.addEventListener('online', handleOnline); window.addEventListener('offline', handleOffline); return () => { window.removeEventListener('online', handleOnline); window.removeEventListener('offline', handleOffline); }; }, []); function handleSaveClick() { console.log('✅ Progress saved'); } return ( <button disabled={!isOnline} onClick={handleSaveClick}> {isOnline ? 'Save progress' : 'Reconnecting...'} </button> ); }
Verify that, if you turn off the network, the button will change its appearance.
These two components work fine, but the duplication in logic between them is unfortunate. It seems like even though they have different visual appearance, you want to reuse the logic between them.
Extracting your own custom Hook from a component
Imagine for a moment that, similar to useState
and useEffect
, there was a built-in useOnlineStatus
Hook. Then both of these components could be simplified and you could remove the duplication between them:
function StatusBar() {
const isOnline = useOnlineStatus();
return <h1>{isOnline ? '✅ Online' : '❌ Disconnected'}</h1>;
}
function SaveButton() {
const isOnline = useOnlineStatus();
function handleSaveClick() {
console.log('✅ Progress saved');
}
return (
<button disabled={!isOnline} onClick={handleSaveClick}>
{isOnline ? 'Save progress' : 'Reconnecting...'}
</button>
);
}
Although there is no such built-in Hook, you can write it yourself. Declare a function called useOnlineStatus
and move all the duplicated code into it from the components you wrote earlier:
function useOnlineStatus() {
const [isOnline, setIsOnline] = useState(true);
useEffect(() => {
function handleOnline() {
setIsOnline(true);
}
function handleOffline() {
setIsOnline(false);
}
window.addEventListener('online', handleOnline);
window.addEventListener('offline', handleOffline);
return () => {
window.removeEventListener('online', handleOnline);
window.removeEventListener('offline', handleOffline);
};
}, []);
return isOnline;
}
At the end of the function, return isOnline
. This lets your components read that value:
import { useOnlineStatus } from './useOnlineStatus.js'; function StatusBar() { const isOnline = useOnlineStatus(); return <h1>{isOnline ? '✅ Online' : '❌ Disconnected'}</h1>; } function SaveButton() { const isOnline = useOnlineStatus(); function handleSaveClick() { console.log('✅ Progress saved'); } return ( <button disabled={!isOnline} onClick={handleSaveClick}> {isOnline ? 'Save progress' : 'Reconnecting...'} </button> ); } export default function App() { return ( <> <SaveButton /> <StatusBar /> </> ); }
Verify that switching the network on and off updates both components.
Now your components don’t have as much repetitive logic. More importantly, the code inside them describes what they want to do (use the online status!) rather than how to do it (by subscribing to the browser events).
When you extract logic into custom Hooks, you can hide the gnarly details of how you deal with some external system or a browser API. The code of your components expresses your intent, not the implementation.
Hook names always start with use
React applications are built from components. Components are built from Hooks, whether built-in or custom. You’ll likely often use custom Hooks created by others, but occasionally you might write one yourself!
You must follow these naming conventions:
- React component names must start with a capital letter, like
StatusBar
andSaveButton
. React components also need to return something that React knows how to display, like a piece of JSX. - Hook names must start with
use
followed by a capital letter, likeuseState
(built-in) oruseOnlineStatus
(custom, like earlier on the page). Hooks may return arbitrary values.
This convention guarantees that you can always look at a component and know where its state, Effects, and other React features might “hide”. For example, if you see a getColor()
function call inside your component, you can be sure that it can’t possibly contain React state inside because its name doesn’t start with use
. However, a function call like useOnlineStatus()
will most likely contain calls to other Hooks inside!
Deep Dive
No. Functions that don’t call Hooks don’t need to be Hooks.
If your function doesn’t call any Hooks, avoid the use
prefix. Instead, write it as a regular function without the use
prefix. For example, useSorted
below doesn’t call Hooks, so call it getSorted
instead:
// 🔴 Avoid: A Hook that doesn't use Hooks
function useSorted(items) {
return items.slice().sort();
}
// ✅ Good: A regular function that doesn't use Hooks
function getSorted(items) {
return items.slice().sort();
}
This ensures that your code can call this regular function anywhere, including conditions:
function List({ items, shouldSort }) {
let displayedItems = items;
if (shouldSort) {
// ✅ It's ok to call getSorted() conditionally because it's not a Hook
displayedItems = getSorted(items);
}
// ...
}
You should give use
prefix to a function (and thus make it a Hook) if it uses at least one Hook inside of it:
// ✅ Good: A Hook that uses other Hooks
function useAuth() {
return useContext(Auth);
}
Technically, this isn’t enforced by React. In principle, you could make a Hook that doesn’t call other Hooks. This is often confusing and limiting so it’s best to avoid that pattern. However, there may be rare cases where it is helpful. For example, maybe your function doesn’t use any Hooks right now, but you plan to add some Hook calls to it in the future. Then it makes sense to name it with the use
prefix:
// ✅ Good: A Hook that will likely use some other Hooks later
function useAuth() {
// TODO: Replace with this line when authentication is implemented:
// return useContext(Auth);
return TEST_USER;
}
Then components won’t be able to call it conditionally. This will become important when you actually add Hook calls inside. If you don’t plan to use Hooks inside it (now or later), don’t make it a Hook.
Custom Hooks let you share stateful logic, not state itself
In the earlier example, when you turned the network on and off, both components updated together. However, it’s wrong to think that a single isOnline
state variable is shared between them. Look at this code:
function StatusBar() {
const isOnline = useOnlineStatus();
// ...
}
function SaveButton() {
const isOnline = useOnlineStatus();
// ...
}
It works the same way as before you extracted the duplication:
function StatusBar() {
const [isOnline, setIsOnline] = useState(true);
useEffect(() => {
// ...
}, []);
// ...
}
function SaveButton() {
const [isOnline, setIsOnline] = useState(true);
useEffect(() => {
// ...
}, []);
// ...
}
These are two completely independent state variables and Effects! They happened to have the same value at the same time because you synchronized them with the same external value (whether the network is on).
To better illustrate this, we’ll need a different example. Consider this Form
component:
import { useState } from 'react'; export default function Form() { const [firstName, setFirstName] = useState('Mary'); const [lastName, setLastName] = useState('Poppins'); function handleFirstNameChange(e) { setFirstName(e.target.value); } function handleLastNameChange(e) { setLastName(e.target.value); } return ( <> <label> First name: <input value={firstName} onChange={handleFirstNameChange} /> </label> <label> Last name: <input value={lastName} onChange={handleLastNameChange} /> </label> <p><b>Good morning, {firstName} {lastName}.</b></p> </> ); }
There’s some repetitive logic for each form field:
- There’s a piece of state (
firstName
andlastName
). - There’s a change handler (
handleFirstNameChange
andhandleLastNameChange
). - There’s a piece of JSX that specifies the
value
andonChange
attributes for that input.
You can extract the repetitive logic into this useFormInput
custom Hook:
import { useState } from 'react'; export function useFormInput(initialValue) { const [value, setValue] = useState(initialValue); function handleChange(e) { setValue(e.target.value); } const inputProps = { value: value, onChange: handleChange }; return inputProps; }
Notice that it only declares one state variable called value
.
However, the Form
component calls useFormInput
two times:
function Form() {
const firstNameProps = useFormInput('Mary');
const lastNameProps = useFormInput('Poppins');
// ...
This is why it works like declaring two separate state variables!
Custom Hooks let you share stateful logic but not state itself. Each call to a Hook is completely independent from every other call to the same Hook. This is why the two sandboxes above are completely equivalent. If you’d like, scroll back up and compare them. The behavior before and after extracting a custom Hook is identical.
When you need to share the state itself between multiple components, lift it up and pass it down instead.
Passing reactive values between Hooks
The code inside your custom Hooks will re-run during every re-render of your component. This is why, like components, custom Hooks need to be pure. Think of custom Hooks’ code as part of your component’s body!
Because custom Hooks re-render together with your component, they always receive the latest props and state. To see what this means, consider this chat room example. Change the server URL or the chat room:
import { useState, useEffect } from 'react'; import { createConnection } from './chat.js'; import { showNotification } from './notifications.js'; export default function ChatRoom({ roomId }) { const [serverUrl, setServerUrl] = useState('https://localhost:1234'); useEffect(() => { const options = { serverUrl: serverUrl, roomId: roomId }; const connection = createConnection(options); connection.on('message', (msg) => { showNotification('New message: ' + msg); }); connection.connect(); return () => connection.disconnect(); }, [roomId, serverUrl]); return ( <> <label> Server URL: <input value={serverUrl} onChange={e => setServerUrl(e.target.value)} /> </label> <h1>Welcome to the {roomId} room!</h1> </> ); }
When you change serverUrl
or roomId
, the Effect “reacts” to your changes and re-synchronizes. You can tell by the console messages that the chat re-connects every time that you change your Effect’s dependencies.
Now move the Effect’s code into a custom Hook:
export function useChatRoom({ serverUrl, roomId }) {
useEffect(() => {
const options = {
serverUrl: serverUrl,
roomId: roomId
};
const connection = createConnection(options);
connection.connect();
connection.on('message', (msg) => {
showNotification('New message: ' + msg);
});
return () => connection.disconnect();
}, [roomId, serverUrl]);
}
This lets your ChatRoom
component call your custom Hook without worrying about how it works inside:
export default function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
useChatRoom({
roomId: roomId,
serverUrl: serverUrl
});
return (
<>
<label>
Server URL:
<input value={serverUrl} onChange={e => setServerUrl(e.target.value)} />
</label>
<h1>Welcome to the {roomId} room!</h1>
</>
);
}
This looks much simpler! (But it does the same thing.)
Notice that the logic still responds to prop and state changes. Try editing the server URL or the selected room:
import { useState } from 'react'; import { useChatRoom } from './useChatRoom.js'; export default function ChatRoom({ roomId }) { const [serverUrl, setServerUrl] = useState('https://localhost:1234'); useChatRoom({ roomId: roomId, serverUrl: serverUrl }); return ( <> <label> Server URL: <input value={serverUrl} onChange={e => setServerUrl(e.target.value)} /> </label> <h1>Welcome to the {roomId} room!</h1> </> ); }
Notice how you’re taking the return value of one Hook:
export default function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
useChatRoom({
roomId: roomId,
serverUrl: serverUrl
});
// ...
and pass it as an input to another Hook:
export default function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
useChatRoom({
roomId: roomId,
serverUrl: serverUrl
});
// ...
Every time your ChatRoom
component re-renders, it passes the latest roomId
and serverUrl
to your Hook. This is why your Effect re-connects to the chat whenever their values are different after a re-render. (If you ever worked with audio or video processing software, chaining Hooks like this might remind you of chaining visual or audio effects. It’s as if the output of useState
“feeds into” the input of the useChatRoom
.)
Passing event handlers to custom Hooks
As you start using useChatRoom
in more components, you might want to let components customize its behavior. For example, currently, the logic for what to do when a message arrives is hardcoded inside the Hook:
export function useChatRoom({ serverUrl, roomId }) {
useEffect(() => {
const options = {
serverUrl: serverUrl,
roomId: roomId
};
const connection = createConnection(options);
connection.connect();
connection.on('message', (msg) => {
showNotification('New message: ' + msg);
});
return () => connection.disconnect();
}, [roomId, serverUrl]);
}
Let’s say you want to move this logic back to your component:
export default function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
useChatRoom({
roomId: roomId,
serverUrl: serverUrl,
onReceiveMessage(msg) {
showNotification('New message: ' + msg);
}
});
// ...
To make this work, change your custom Hook to take onReceiveMessage
as one of its named options:
export function useChatRoom({ serverUrl, roomId, onReceiveMessage }) {
useEffect(() => {
const options = {
serverUrl: serverUrl,
roomId: roomId
};
const connection = createConnection(options);
connection.connect();
connection.on('message', (msg) => {
onReceiveMessage(msg);
});
return () => connection.disconnect();
}, [roomId, serverUrl, onReceiveMessage]); // ✅ All dependencies declared
}
This will work, but there’s one more improvement you can do when your custom Hook accepts event handlers.
Adding a dependency on onReceiveMessage
is not ideal because it will cause the chat to re-connect every time the component re-renders. Wrap this event handler into an Effect Event to remove it from the dependencies:
import { useEffect, useEffectEvent } from 'react';
// ...
export function useChatRoom({ serverUrl, roomId, onReceiveMessage }) {
const onMessage = useEffectEvent(onReceiveMessage);
useEffect(() => {
const options = {
serverUrl: serverUrl,
roomId: roomId
};
const connection = createConnection(options);
connection.connect();
connection.on('message', (msg) => {
onMessage(msg);
});
return () => connection.disconnect();
}, [roomId, serverUrl]); // ✅ All dependencies declared
}
Now the chat won’t re-connect every time that the ChatRoom
component re-renders. Here is a fully working demo of passing an event handler to a custom Hook that you can play with:
import { useState } from 'react'; import { useChatRoom } from './useChatRoom.js'; import { showNotification } from './notifications.js'; export default function ChatRoom({ roomId }) { const [serverUrl, setServerUrl] = useState('https://localhost:1234'); useChatRoom({ roomId: roomId, serverUrl: serverUrl, onReceiveMessage(msg) { showNotification('New message: ' + msg); } }); return ( <> <label> Server URL: <input value={serverUrl} onChange={e => setServerUrl(e.target.value)} /> </label> <h1>Welcome to the {roomId} room!</h1> </> ); }
Notice how you no longer need to know how useChatRoom
works in order to use it. You could add it to any other component, pass any other options, and it would work the same way. That’s the power of custom Hooks.
When to use custom Hooks
You don’t need to extract a custom Hook for every little duplicated bit of code. Some duplication is fine. For example, extracting a useFormInput
Hook to wrap a single useState
call like earlier is probably unnecessary.
However, whenever you write an Effect, consider whether it would be clearer to also wrap it in a custom Hook. You shouldn’t need Effects very often, so if you’re writing one, it means that you need to “step outside React” to synchronize with some external system or to do something that React doesn’t have a built-in API for. Wrapping it into a custom Hook lets you precisely communicate your intent and how the data flows through it.
For example, consider a ShippingForm
component that displays two dropdowns: one shows the list of cities, and another shows the list of areas in the selected city. You might start with some code that looks like this:
function ShippingForm({ country }) {
const [cities, setCities] = useState(null);
// This Effect fetches cities for a country
useEffect(() => {
let ignore = false;
fetch(`/api/cities?country=${country}`)
.then(response => response.json())
.then(json => {
if (!ignore) {
setCities(json);
}
});
return () => {
ignore = true;
};
}, [country]);
const [city, setCity] = useState(null);
const [areas, setAreas] = useState(null);
// This Effect fetches areas for the selected city
useEffect(() => {
if (city) {
let ignore = false;
fetch(`/api/areas?city=${city}`)
.then(response => response.json())
.then(json => {
if (!ignore) {
setAreas(json);
}
});
return () => {
ignore = true;
};
}
}, [city]);
// ...
Although this code is quite repetitive, it’s correct to keep these Effects separate from each other. They synchronize two different things, so you shouldn’t merge them into one Effect. Instead, you can simplify the ShippingForm
component above by extracting the common logic between them into your own useData
Hook:
function useData(url) {
const [data, setData] = useState(null);
useEffect(() => {
if (url) {
let ignore = false;
fetch(url)
.then(response => response.json())
.then(json => {
if (!ignore) {
setData(json);
}
});
return () => {
ignore = true;
};
}
}, [url]);
return data;
}
Now you can replace both Effects in the ShippingForm
components with calls to useData
:
function ShippingForm({ country }) {
const cities = useData(`/api/cities?country=${country}`);
const [city, setCity] = useState(null);
const areas = useData(city ? `/api/areas?city=${city}` : null);
// ...
Extracting a custom Hook makes the data flow explicit. You feed the url
in and you get the data
out. By “hiding” your Effect inside useData
, you also prevent someone working on the ShippingForm
component from adding unnecessary dependencies to it. With time, most of your app’s Effects will be in custom Hooks.
Deep Dive
Start by choosing your custom Hook’s name. If you struggle to pick a clear name, it might mean that your Effect is too coupled to the rest of your component’s logic, and is not yet ready to be extracted.
Ideally, your custom Hook’s name should be clear enough that even a person who doesn’t write code often could have a good guess about what your custom Hook does, what it takes, and what it returns:
- ✅
useData(url)
- ✅
useImpressionLog(eventName, extraData)
- ✅
useChatRoom(options)
When you synchronize with an external system, your custom Hook name may be more technical and use jargon specific to that system. It’s good as long as it would be clear to a person familiar with that system:
- ✅
useMediaQuery(query)
- ✅
useSocket(url)
- ✅
useIntersectionObserver(ref, options)
Keep custom Hooks focused on concrete high-level use cases. Avoid creating and using custom “lifecycle” Hooks that act as alternatives and convenience wrappers for the useEffect
API itself:
- 🔴
useMount(fn)
- 🔴
useEffectOnce(fn)
- 🔴
useUpdateEffect(fn)
For example, this useMount
Hook tries to ensure some code only runs “on mount”:
function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
// 🔴 Avoid: using custom "lifecycle" Hooks
useMount(() => {
const connection = createConnection({ roomId, serverUrl });
connection.connect();
post('/analytics/event', { eventName: 'visit_chat' });
});
// ...
}
// 🔴 Avoid: creating custom "lifecycle" Hooks
function useMount(fn) {
useEffect(() => {
fn();
}, []); // 🔴 React Hook useEffect has a missing dependency: 'fn'
}
Custom “lifecycle” Hooks like useMount
don’t fit well into the React paradigm. For example, this code example has a mistake (it doesn’t “react” to roomId
or serverUrl
changes), but the linter won’t warn you about it because the linter only checks direct useEffect
calls. It won’t know about your Hook.
If you’re writing an Effect, start by using the React API directly:
function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
// ✅ Good: two raw Effects separated by purpose
useEffect(() => {
const connection = createConnection({ serverUrl, roomId });
connection.connect();
return () => connection.disconnect();
}, [serverUrl, roomId]);
useEffect(() => {
post('/analytics/event', { eventName: 'visit_chat', roomId });
}, [roomId]);
// ...
}
Then, you can (but don’t have to) extract custom Hooks for different high-level use cases:
function ChatRoom({ roomId }) {
const [serverUrl, setServerUrl] = useState('https://localhost:1234');
// ✅ Great: custom Hooks named after their purpose
useChatRoom({ serverUrl, roomId });
useImpressionLog('visit_chat', { roomId });
// ...
}
A good custom Hook makes the calling code more declarative by constraining what it does. For example, useChatRoom(options)
can only connect to the chat room, while useImpressionLog(eventName, extraData)
can only send an impression log to the analytics. If your custom Hook API doesn’t constrain the use cases and is very abstract, in the long run it’s likely to introduce more problems than it solves.
Custom Hooks help you migrate to better patterns
Effects are an “escape hatch”: you use them when you need to “step outside React” and when there is no better built-in solution for your use case. With time, the React team’s goal is to reduce the number of the Effects in your app to the minimum by providing more specific solutions to more specific problems. Wrapping your Effects in custom Hooks makes it easier to upgrade your code when these solutions become available.
Let’s return to this example:
import { useState, useEffect } from 'react'; export function useOnlineStatus() { const [isOnline, setIsOnline] = useState(true); useEffect(() => { function handleOnline() { setIsOnline(true); } function handleOffline() { setIsOnline(false); } window.addEventListener('online', handleOnline); window.addEventListener('offline', handleOffline); return () => { window.removeEventListener('online', handleOnline); window.removeEventListener('offline', handleOffline); }; }, []); return isOnline; }
In the above example, useOnlineStatus
is implemented with a pair of useState
and useEffect
. However, this isn’t the best possible solution. There is a number of edge cases it doesn’t consider. For example, it assumes that when the component mounts, isOnline
is already true
, but this may be wrong if the network already went offline. You can use the browser navigator.onLine
API to check for that, but using it directly would not work on the server for generating the initial HTML. In short, this code could be improved.
Luckily, React 18 includes a dedicated API called useSyncExternalStore
which takes care of all of these problems for you. Here is how your useOnlineStatus
Hook, rewritten to take advantage of this new API:
import { useSyncExternalStore } from 'react'; function subscribe(callback) { window.addEventListener('online', callback); window.addEventListener('offline', callback); return () => { window.removeEventListener('online', callback); window.removeEventListener('offline', callback); }; } export function useOnlineStatus() { return useSyncExternalStore( subscribe, () => navigator.onLine, // How to get the value on the client () => true // How to get the value on the server ); }
Notice how you didn’t need to change any of the components to make this migration:
function StatusBar() {
const isOnline = useOnlineStatus();
// ...
}
function SaveButton() {
const isOnline = useOnlineStatus();
// ...
}
This is another reason for why wrapping Effects in custom Hooks is often beneficial:
- You make the data flow to and from your Effects very explicit.
- You let your components focus on the intent rather than on the exact implementation of your Effects.
- When React adds new features, you can remove those Effects without changing any of your components.
Similar to a design system, you might find it helpful to start extracting common idioms from your app’s components into custom Hooks. This will keep your components’ code focused on the intent, and let you avoid writing raw Effects very often. Many excellent custom Hooks are maintained by the React community.
Deep Dive
We’re still working out the details, but we expect that in the future, you’ll write data fetching like this:
import { use } from 'react'; // Not available yet!
function ShippingForm({ country }) {
const cities = use(fetch(`/api/cities?country=${country}`));
const [city, setCity] = useState(null);
const areas = city ? use(fetch(`/api/areas?city=${city}`)) : null;
// ...
If you use custom Hooks like useData
above in your app, it will require fewer changes to migrate to the eventually recommended approach than if you write raw Effects in every component manually. However, the old approach will still work fine, so if you feel happy writing raw Effects, you can continue to do that.
There is more than one way to do it
Let’s say you want to implement a fade-in animation from scratch using the browser requestAnimationFrame
API. You might start with an Effect that sets up an animation loop. During each frame of the animation, you could change the opacity of the DOM node you hold in a ref until it reaches 1
. Your code might start like this:
import { useState, useEffect, useRef } from 'react'; function Welcome() { const ref = useRef(null); useEffect(() => { const duration = 1000; const node = ref.current; let startTime = performance.now(); let frameId = null; function onFrame(now) { const timePassed = now - startTime; const progress = Math.min(timePassed / duration, 1); onProgress(progress); if (progress < 1) { // We still have more frames to paint frameId = requestAnimationFrame(onFrame); } } function onProgress(progress) { node.style.opacity = progress; } function start() { onProgress(0); startTime = performance.now(); frameId = requestAnimationFrame(onFrame); } function stop() { cancelAnimationFrame(frameId); startTime = null; frameId = null; } start(); return () => stop(); }, []); return ( <h1 className="welcome" ref={ref}> Welcome </h1> ); } export default function App() { const [show, setShow] = useState(false); return ( <> <button onClick={() => setShow(!show)}> {show ? 'Remove' : 'Show'} </button> <hr /> {show && <Welcome />} </> ); }
To make the component more readable, you might extract the logic into a useFadeIn
custom Hook:
import { useState, useEffect, useRef } from 'react'; import { useFadeIn } from './useFadeIn.js'; function Welcome() { const ref = useRef(null); useFadeIn(ref, 1000); return ( <h1 className="welcome" ref={ref}> Welcome </h1> ); } export default function App() { const [show, setShow] = useState(false); return ( <> <button onClick={() => setShow(!show)}> {show ? 'Remove' : 'Show'} </button> <hr /> {show && <Welcome />} </> ); }
You could keep the useFadeIn
code as is, but you could also refactor it more. For example, you could extract the logic for setting up the animation loop out of useFadeIn
into a custom useAnimationLoop
Hook:
import { useState, useEffect } from 'react'; import { experimental_useEffectEvent as useEffectEvent } from 'react'; export function useFadeIn(ref, duration) { const [isRunning, setIsRunning] = useState(true); useAnimationLoop(isRunning, (timePassed) => { const progress = Math.min(timePassed / duration, 1); ref.current.style.opacity = progress; if (progress === 1) { setIsRunning(false); } }); } function useAnimationLoop(isRunning, drawFrame) { const onFrame = useEffectEvent(drawFrame); useEffect(() => { if (!isRunning) { return; } const startTime = performance.now(); let frameId = null; function tick(now) { const timePassed = now - startTime; onFrame(timePassed); frameId = requestAnimationFrame(tick); } tick(); return () => cancelAnimationFrame(frameId); }, [isRunning]); }
However, you didn’t have to do that. As with regular functions, ultimately you decide where to draw the boundaries between different parts of your code. You could also take a very different approach. Instead of keeping the logic in the Effect, you could move most of the imperative logic inside a JavaScript class:
import { useState, useEffect } from 'react'; import { FadeInAnimation } from './animation.js'; export function useFadeIn(ref, duration) { useEffect(() => { const animation = new FadeInAnimation(ref.current); animation.start(duration); return () => { animation.stop(); }; }, [ref, duration]); }
Effects let you connect React to external systems. The more coordination between Effects is needed (for example, to chain multiple animations), the more it makes sense to extract that logic out of Effects and Hooks completely like in the sandbox above. Then, the code you extracted becomes the “external system”. This lets your Effects stay simple because they only need to send messages to the system you’ve moved outside React.
The examples above assume that the fade-in logic needs to be written in JavaScript. However, this particular fade-in animation is both simpler and much more efficient to implement with a plain CSS Animation:
.welcome { color: white; padding: 50px; text-align: center; font-size: 50px; background-image: radial-gradient(circle, rgba(63,94,251,1) 0%, rgba(252,70,107,1) 100%); animation: fadeIn 1000ms; } @keyframes fadeIn { 0% { opacity: 0; } 100% { opacity: 1; } }
Sometimes, you don’t even need a Hook!
Using A React Custom Hook With Side Effects For Event Handling (e.g. OnClick)
Let’s have another example of custom hooks that handle an OnClick event: When OnClick is triggered, an API request should be sent, and the state should be updated based on the response.
For our custom hook, useApiClient
, we can do something like this:
const useApiClient = (queryData: QueryData | undefined) => {
const apiClient: GraphClient = useContext(MyApiClientContext) as MyApiClient;
const [responseData, setResponseData] = useState<MyReduxState>();
useEffect(() => {
if (queryData) {
apiClient
.sendRequest(...)
.then((responseData) => {
setResponseData(responseData);
})
.catch((error) => {
Sentry.captureException(error);
throw error;
});
}
}, [queryData]);
return responseData;
};
export default useCreateNewGraph;
in this custom hook we are using useEffect
hook API. The change of queryData
caused by external logics will trigger
the useEffect
logic. We can call this hook in component by:
const [queryData, setQueryData] = useState<QueryData>();
const responseData = useApiClient(queryData);
useEffect(() => {
if (responseData) {
...
}
}, [responseData]);
const onClick = () => {
// some logic that someData
setQueryData(someData);
};
return (
<button onClick={onClick}>My Button</button>
);
Recap
- Custom Hooks let you share logic between components.
- Custom Hooks must be named starting with
use
followed by a capital letter. - Custom Hooks only share stateful logic, not state itself.
- You can pass reactive values from one Hook to another, and they stay up-to-date.
- All Hooks re-run every time your component re-renders.
- The code of your custom Hooks should be pure, like your component’s code.
- Wrap event handlers received by custom Hooks into Effect Events.
- Don’t create custom Hooks like
useMount
. Keep their purpose specific. - It’s up to you how and where to choose the boundaries of your code.
Challenge 1 of 5: Extract a useCounter
Hook
This component uses a state variable and an Effect to display a number that increments every second. Extract this logic into a custom Hook called useCounter
. Your goal is to make the Counter
component implementation look exactly like this:
export default function Counter() {
const count = useCounter();
return <h1>Seconds passed: {count}</h1>;
}
You’ll need to write your custom Hook in useCounter.js
and import it into the Counter.js
file.
import { useState, useEffect } from 'react'; export default function Counter() { const [count, setCount] = useState(0); useEffect(() => { const id = setInterval(() => { setCount(c => c + 1); }, 1000); return () => clearInterval(id); }, []); return <h1>Seconds passed: {count}</h1>; }