Hooks are a new addition in React 16.8. They let you use state and other React features without writing a class.

The Effect Hook lets you perform side effects in function components:

import React , { useState , useEffect } from 'react' ; function Example ( ) { const [ count , setCount ] = useState ( 0 ) ; useEffect ( ( ) => { document . title = ` You clicked ${ count } times ` ; } ) ; return ( < div > < p > You clicked { count } times </ p > < button onClick = { ( ) => setCount ( count + 1 ) } > Click me </ button > </ div > ) ; }

This snippet is based on the counter example from the previous page, but we added a new feature to it: we set the document title to a custom message including the number of clicks.

Data fetching, setting up a subscription, and manually changing the DOM in React components are all examples of side effects. Whether or not you’re used to calling these operations “side effects” (or just “effects”), you’ve likely performed them in your components before.

Tip If you’re familiar with React class lifecycle methods, you can think of useEffect Hook as componentDidMount , componentDidUpdate , and componentWillUnmount combined.

There are two common kinds of side effects in React components: those that don’t require cleanup, and those that do. Let’s look at this distinction in more detail.

Effects Without Cleanup

Sometimes, we want to run some additional code after React has updated the DOM. Network requests, manual DOM mutations, and logging are common examples of effects that don’t require a cleanup. We say that because we can run them and immediately forget about them. Let’s compare how classes and Hooks let us express such side effects.

Example Using Classes

In React class components, the render method itself shouldn’t cause side effects. It would be too early — we typically want to perform our effects after React has updated the DOM.

This is why in React classes, we put side effects into componentDidMount and componentDidUpdate . Coming back to our example, here is a React counter class component that updates the document title right after React makes changes to the DOM:

class Example extends React . Component { constructor ( props ) { super ( props ) ; this . state = { count : 0 } ; } componentDidMount ( ) { document . title = ` You clicked ${ this . state . count } times ` ; } componentDidUpdate ( ) { document . title = ` You clicked ${ this . state . count } times ` ; } render ( ) { return ( < div > < p > You clicked { this . state . count } times </ p > < button onClick = { ( ) => this . setState ( { count : this . state . count + 1 } ) } > Click me </ button > </ div > ) ; } }

Note how we have to duplicate the code between these two lifecycle methods in class.

This is because in many cases we want to perform the same side effect regardless of whether the component just mounted, or if it has been updated. Conceptually, we want it to happen after every render — but React class components don’t have a method like this. We could extract a separate method but we would still have to call it in two places.

Now let’s see how we can do the same with the useEffect Hook.

Example Using Hooks

We’ve already seen this example at the top of this page, but let’s take a closer look at it:

import React , { useState , useEffect } from 'react' ; function Example ( ) { const [ count , setCount ] = useState ( 0 ) ; useEffect ( ( ) => { document . title = ` You clicked ${ count } times ` ; } ) ; return ( < div > < p > You clicked { count } times </ p > < button onClick = { ( ) => setCount ( count + 1 ) } > Click me </ button > </ div > ) ; }

What does useEffect do? By using this Hook, you tell React that your component needs to do something after render. React will remember the function you passed (we’ll refer to it as our “effect”), and call it later after performing the DOM updates. In this effect, we set the document title, but we could also perform data fetching or call some other imperative API.

Why is useEffect called inside a component? Placing useEffect inside the component lets us access the count state variable (or any props) right from the effect. We don’t need a special API to read it — it’s already in the function scope. Hooks embrace JavaScript closures and avoid introducing React-specific APIs where JavaScript already provides a solution.

Does useEffect run after every render? Yes! By default, it runs both after the first render and after every update. (We will later talk about how to customize this.) Instead of thinking in terms of “mounting” and “updating”, you might find it easier to think that effects happen “after render”. React guarantees the DOM has been updated by the time it runs the effects.

Detailed Explanation

Now that we know more about effects, these lines should make sense:

function Example ( ) { const [ count , setCount ] = useState ( 0 ) ; useEffect ( ( ) => { document . title = ` You clicked ${ count } times ` ; } ) ; }

We declare the count state variable, and then we tell React we need to use an effect. We pass a function to the useEffect Hook. This function we pass is our effect. Inside our effect, we set the document title using the document.title browser API. We can read the latest count inside the effect because it’s in the scope of our function. When React renders our component, it will remember the effect we used, and then run our effect after updating the DOM. This happens for every render, including the first one.

Experienced JavaScript developers might notice that the function passed to useEffect is going to be different on every render. This is intentional. In fact, this is what lets us read the count value from inside the effect without worrying about it getting stale. Every time we re-render, we schedule a different effect, replacing the previous one. In a way, this makes the effects behave more like a part of the render result — each effect “belongs” to a particular render. We will see more clearly why this is useful later on this page.

Tip Unlike componentDidMount or componentDidUpdate , effects scheduled with useEffect don’t block the browser from updating the screen. This makes your app feel more responsive. The majority of effects don’t need to happen synchronously. In the uncommon cases where they do (such as measuring the layout), there is a separate useLayoutEffect Hook with an API identical to useEffect .

Effects with Cleanup

Earlier, we looked at how to express side effects that don’t require any cleanup. However, some effects do. For example, we might want to set up a subscription to some external data source. In that case, it is important to clean up so that we don’t introduce a memory leak! Let’s compare how we can do it with classes and with Hooks.

Example Using Classes

In a React class, you would typically set up a subscription in componentDidMount , and clean it up in componentWillUnmount . For example, let’s say we have a ChatAPI module that lets us subscribe to a friend’s online status. Here’s how we might subscribe and display that status using a class:

class FriendStatus extends React . Component { constructor ( props ) { super ( props ) ; this . state = { isOnline : null } ; this . handleStatusChange = this . handleStatusChange . bind ( this ) ; } componentDidMount ( ) { ChatAPI . subscribeToFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } componentWillUnmount ( ) { ChatAPI . unsubscribeFromFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } handleStatusChange ( status ) { this . setState ( { isOnline : status . isOnline } ) ; } render ( ) { if ( this . state . isOnline === null ) { return 'Loading...' ; } return this . state . isOnline ? 'Online' : 'Offline' ; } }

Notice how componentDidMount and componentWillUnmount need to mirror each other. Lifecycle methods force us to split this logic even though conceptually code in both of them is related to the same effect.

Note Eagle-eyed readers may notice that this example also needs a componentDidUpdate method to be fully correct. We’ll ignore this for now but will come back to it in a later section of this page.

Example Using Hooks

Let’s see how we could write this component with Hooks.

You might be thinking that we’d need a separate effect to perform the cleanup. But code for adding and removing a subscription is so tightly related that useEffect is designed to keep it together. If your effect returns a function, React will run it when it is time to clean up:

import React , { useState , useEffect } from 'react' ; function FriendStatus ( props ) { const [ isOnline , setIsOnline ] = useState ( null ) ; useEffect ( ( ) => { function handleStatusChange ( status ) { setIsOnline ( status . isOnline ) ; } ChatAPI . subscribeToFriendStatus ( props . friend . id , handleStatusChange ) ; return function cleanup ( ) { ChatAPI . unsubscribeFromFriendStatus ( props . friend . id , handleStatusChange ) ; } ; } ) ; if ( isOnline === null ) { return 'Loading...' ; } return isOnline ? 'Online' : 'Offline' ; }

Why did we return a function from our effect? This is the optional cleanup mechanism for effects. Every effect may return a function that cleans up after it. This lets us keep the logic for adding and removing subscriptions close to each other. They’re part of the same effect!

When exactly does React clean up an effect? React performs the cleanup when the component unmounts. However, as we learned earlier, effects run for every render and not just once. This is why React also cleans up effects from the previous render before running the effects next time. We’ll discuss why this helps avoid bugs and how to opt out of this behavior in case it creates performance issues later below.

Note We don’t have to return a named function from the effect. We called it cleanup here to clarify its purpose, but you could return an arrow function or call it something different.

Recap

We’ve learned that useEffect lets us express different kinds of side effects after a component renders. Some effects might require cleanup so they return a function:

useEffect ( ( ) => { function handleStatusChange ( status ) { setIsOnline ( status . isOnline ) ; } ChatAPI . subscribeToFriendStatus ( props . friend . id , handleStatusChange ) ; return ( ) => { ChatAPI . unsubscribeFromFriendStatus ( props . friend . id , handleStatusChange ) ; } ; } ) ;

Other effects might not have a cleanup phase, and don’t return anything.

useEffect ( ( ) => { document . title = ` You clicked ${ count } times ` ; } ) ;

The Effect Hook unifies both use cases with a single API.

If you feel like you have a decent grasp on how the Effect Hook works, or if you feel overwhelmed, you can jump to the next page about Rules of Hooks now.

Tips for Using Effects

We’ll continue this page with an in-depth look at some aspects of useEffect that experienced React users will likely be curious about. Don’t feel obligated to dig into them now. You can always come back to this page to learn more details about the Effect Hook.

Tip: Use Multiple Effects to Separate Concerns

One of the problems we outlined in the Motivation for Hooks is that class lifecycle methods often contain unrelated logic, but related logic gets broken up into several methods. Here is a component that combines the counter and the friend status indicator logic from the previous examples:

class FriendStatusWithCounter extends React . Component { constructor ( props ) { super ( props ) ; this . state = { count : 0 , isOnline : null } ; this . handleStatusChange = this . handleStatusChange . bind ( this ) ; } componentDidMount ( ) { document . title = ` You clicked ${ this . state . count } times ` ; ChatAPI . subscribeToFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } componentDidUpdate ( ) { document . title = ` You clicked ${ this . state . count } times ` ; } componentWillUnmount ( ) { ChatAPI . unsubscribeFromFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } handleStatusChange ( status ) { this . setState ( { isOnline : status . isOnline } ) ; }

Note how the logic that sets document.title is split between componentDidMount and componentDidUpdate . The subscription logic is also spread between componentDidMount and componentWillUnmount . And componentDidMount contains code for both tasks.

So, how can Hooks solve this problem? Just like you can use the State Hook more than once, you can also use several effects. This lets us separate unrelated logic into different effects:

function FriendStatusWithCounter ( props ) { const [ count , setCount ] = useState ( 0 ) ; useEffect ( ( ) => { document . title = ` You clicked ${ count } times ` ; } ) ; const [ isOnline , setIsOnline ] = useState ( null ) ; useEffect ( ( ) => { function handleStatusChange ( status ) { setIsOnline ( status . isOnline ) ; } ChatAPI . subscribeToFriendStatus ( props . friend . id , handleStatusChange ) ; return ( ) => { ChatAPI . unsubscribeFromFriendStatus ( props . friend . id , handleStatusChange ) ; } ; } ) ; }

Hooks let us split the code based on what it is doing rather than a lifecycle method name. React will apply every effect used by the component, in the order they were specified.

If you’re used to classes, you might be wondering why the effect cleanup phase happens after every re-render, and not just once during unmounting. Let’s look at a practical example to see why this design helps us create components with fewer bugs.

Earlier on this page, we introduced an example FriendStatus component that displays whether a friend is online or not. Our class reads friend.id from this.props , subscribes to the friend status after the component mounts, and unsubscribes during unmounting:

componentDidMount ( ) { ChatAPI . subscribeToFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } componentWillUnmount ( ) { ChatAPI . unsubscribeFromFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; }

But what happens if the friend prop changes while the component is on the screen? Our component would continue displaying the online status of a different friend. This is a bug. We would also cause a memory leak or crash when unmounting since the unsubscribe call would use the wrong friend ID.

In a class component, we would need to add componentDidUpdate to handle this case:

componentDidMount ( ) { ChatAPI . subscribeToFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } componentDidUpdate ( prevProps ) { ChatAPI . unsubscribeFromFriendStatus ( prevProps . friend . id , this . handleStatusChange ) ; ChatAPI . subscribeToFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; } componentWillUnmount ( ) { ChatAPI . unsubscribeFromFriendStatus ( this . props . friend . id , this . handleStatusChange ) ; }

Forgetting to handle componentDidUpdate properly is a common source of bugs in React applications.

Now consider the version of this component that uses Hooks:

function FriendStatus ( props ) { useEffect ( ( ) => { ChatAPI . subscribeToFriendStatus ( props . friend . id , handleStatusChange ) ; return ( ) => { ChatAPI . unsubscribeFromFriendStatus ( props . friend . id , handleStatusChange ) ; } ; } ) ;

It doesn’t suffer from this bug. (But we also didn’t make any changes to it.)

There is no special code for handling updates because useEffect handles them by default. It cleans up the previous effects before applying the next effects. To illustrate this, here is a sequence of subscribe and unsubscribe calls that this component could produce over time:

ChatAPI . subscribeToFriendStatus ( 100 , handleStatusChange ) ; ChatAPI . unsubscribeFromFriendStatus ( 100 , handleStatusChange ) ; ChatAPI . subscribeToFriendStatus ( 200 , handleStatusChange ) ; ChatAPI . unsubscribeFromFriendStatus ( 200 , handleStatusChange ) ; ChatAPI . subscribeToFriendStatus ( 300 , handleStatusChange ) ; ChatAPI . unsubscribeFromFriendStatus ( 300 , handleStatusChange ) ;

This behavior ensures consistency by default and prevents bugs that are common in class components due to missing update logic.

Tip: Optimizing Performance by Skipping Effects

In some cases, cleaning up or applying the effect after every render might create a performance problem. In class components, we can solve this by writing an extra comparison with prevProps or prevState inside componentDidUpdate :

componentDidUpdate ( prevProps , prevState ) { if ( prevState . count !== this . state . count ) { document . title = ` You clicked ${ this . state . count } times ` ; } }

This requirement is common enough that it is built into the useEffect Hook API. You can tell React to skip applying an effect if certain values haven’t changed between re-renders. To do so, pass an array as an optional second argument to useEffect :

useEffect ( ( ) => { document . title = ` You clicked ${ count } times ` ; } , [ count ] ) ;

In the example above, we pass [count] as the second argument. What does this mean? If the count is 5 , and then our component re-renders with count still equal to 5 , React will compare [5] from the previous render and [5] from the next render. Because all items in the array are the same ( 5 === 5 ), React would skip the effect. That’s our optimization.

When we render with count updated to 6 , React will compare the items in the [5] array from the previous render to items in the [6] array from the next render. This time, React will re-apply the effect because 5 !== 6 . If there are multiple items in the array, React will re-run the effect even if just one of them is different.

This also works for effects that have a cleanup phase:

useEffect ( ( ) => { function handleStatusChange ( status ) { setIsOnline ( status . isOnline ) ; } ChatAPI . subscribeToFriendStatus ( props . friend . id , handleStatusChange ) ; return ( ) => { ChatAPI . unsubscribeFromFriendStatus ( props . friend . id , handleStatusChange ) ; } ; } , [ props . friend . id ] ) ;

In the future, the second argument might get added automatically by a build-time transformation.

Note If you use this optimization, make sure the array includes all values from the component scope (such as props and state) that change over time and that are used by the effect. Otherwise, your code will reference stale values from previous renders. Learn more about how to deal with functions and what to do when the array changes too often. If you want to run an effect and clean it up only once (on mount and unmount), you can pass an empty array ( [] ) as a second argument. This tells React that your effect doesn’t depend on any values from props or state, so it never needs to re-run. This isn’t handled as a special case — it follows directly from how the dependencies array always works. If you pass an empty array ( [] ), the props and state inside the effect will always have their initial values. While passing [] as the second argument is closer to the familiar componentDidMount and componentWillUnmount mental model, there are usually better solutions to avoid re-running effects too often. Also, don’t forget that React defers running useEffect until after the browser has painted, so doing extra work is less of a problem. We recommend using the exhaustive-deps rule as part of our eslint-plugin-react-hooks package. It warns when dependencies are specified incorrectly and suggests a fix.

Next Steps

Congratulations! This was a long page, but hopefully by the end most of your questions about effects were answered. You’ve learned both the State Hook and the Effect Hook, and there is a lot you can do with both of them combined. They cover most of the use cases for classes — and where they don’t, you might find the additional Hooks helpful.

We’re also starting to see how Hooks solve problems outlined in Motivation. We’ve seen how effect cleanup avoids duplication in componentDidUpdate and componentWillUnmount , brings related code closer together, and helps us avoid bugs. We’ve also seen how we can separate effects by their purpose, which is something we couldn’t do in classes at all.