Hooks for fetching, caching and updating asynchronous data in React

Enjoy this library? Try them all! React Table, React Form, React Charts

Quick Features

• Transport/protocol/backend agnostic data fetching (REST, GraphQL, promises, whatever!)
• Auto Caching + Refetching (stale-while-revalidate, Window Refocus, Polling/Realtime)
• Parallel + Dependent Queries
• Mutations + Reactive Query Refetching
• Multi-layer Cache + Automatic Garbage Collection
• Paginated + Cursor-based Queries
• Load-More + Infinite Scroll Queries w/ Scroll Recovery
• Request Cancellation
• React Suspense + Fetch-As-You-Render Query Prefetching
• Dedicated Devtools (React Query Devtools)
• 

Used By

• Google
• PayPal
• Amazon
• Walmart
• Microsoft
• HP
• Major League Baseball Association
• Volvo
• Ocado
• UPC.ch
• EFI.com
• ReactBricks
• Nozzle.io

These analytics are made available via the awesome Scarf package analytics library

Examples

• Basic - CodeSandbox - Source
• Custom Hooks - CodeSandbox - Source
• Auto Refetching / Polling / Realtime - CodeSandbox - Source
• Window Refocus Refetching - CodeSandbox - Source
• Optimistic Updates - CodeSandbox - Source
• Pagination - CodeSandbox - Source
• Load-More & Infinite Scroll - CodeSandbox - Source
• Suspense - CodeSandbox - Source
• Playground (with devtools) - CodeSandbox - Source
• Star Wars (with devtools) - CodeSandbox - Source
• Rick And Morty (with devtools) - CodeSandbox - Source

Sponsors

This library is being built and maintained by me, @tannerlinsley and I am always in need of more support to keep projects like this afloat. If you would like to get premium support, add your logo or name on this README, or simply just contribute to my open source Sponsorship goal, visit my Github Sponsors page!

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Documentation

• Installation
• Defaults to keep in mind
• Queries
  • Query Keys
  • Query Key Variables
  • Optional Variables
  • Using a Query Object instead of parameters
  • Dependent Queries
  • Caching & Invalidation
  • Paginated Queries with usePaginatedQuery
  • Load-More & Infinite-Scroll with useInfiniteQuery
  • Scroll Restoration
  • Manual Querying
  • Retries
  • Retry Delay
  • Prefetching
  • Initial Data
  • Initial Data Function
  • Initial Data from Cache
  • SSR & Initial Data
  • Suspense Mode
  • Fetch-on-render vs Fetch-as-you-render
  • Canceling Query Requests
• Mutations
  • Basic Mutations
  • Mutation Variables
  • Invalidate and Refetch Queries from Mutations
  • Query Updates from Mutations
  • Resetting Mutation State
  • Manually or Optimistically Setting Query Data
  • Optimistic Updates with Automatic Rollback for Failed Mutations
• Displaying Background Fetching Loading States
• Displaying Global Background Fetching Loading State
• Window-Focus Refetching
  • Custom Window Focus Event
  • Ignoring Iframe Focus Events
• Custom Query Key Serializers (Experimental)
• React Query Devtools
• API
  • useQuery
  • usePaginatedQuery
  • useInfiniteQuery
  • useMutation
  • queryCache
  • queryCache.prefetchQuery
  • queryCache.getQueryData
  • queryCache.setQueryData
  • queryCache.refetchQueries
  • queryCache.removeQueries
  • queryCache.getQuery
  • queryCache.getQueries
  • queryCache.isFetching
  • queryCache.subscribe
  • queryCache.clear
  • useIsFetching
  • ReactQueryConfigProvider
  • setConsole
• Contributors ✨

Installation

$ npm i --save react-query
# or 
$ yarn add react-query

React Query uses Scarf to collect anonymized installation analytics. These analytics help support the maintainers of this library. However, if you'd like to opt out, you can do so by setting scarfSettings.enabled = false in your project's package.json. Alternatively, you can set the environment variable SCARF_ANALYTICS=false before you install.

Defaults to keep in mind

Out of the box, React Query is configured with aggressive but sane defaults. Sometimes these defaults can catch new users off guard or make learning/debugging difficult if they are unknown by the user. Keep them in mind as you continue to learn and use React Query:

• Query results that are currently rendered on the screen will become "stale" immediately after they are resolved and will be refetched automatically in the background when they are rendered or used again. To change this, you can alter the default staleTime for queries to something other than 0 milliseconds.
• Query results that become unused (all instances of the query are unmounted) will still be cached in case they are used again for a default of 5 minutes before they are garbage collected. To change this, you can alter the default cacheTime for queries to something other than 1000 * 60 * 5 milliseconds.
• Stale queries will automatically be refetched in the background when the browser window is refocused by the user. You can disable this using the refetchOnWindowFocus option in queries or the global config.
• Queries that fail will silently and automatically be retried 3 times, with exponential backoff delay before capturing and displaying an error to the UI. To change this, you can alter the default retry and retryDelay options for queries to something other than 3 and the default exponential backoff function.

Queries

To make a new query, call the useQuery hook with at least:

• A unique key for the query
• An asynchronous function (or similar then-able) to resolve the data

import { useQuery } from 'react-query'
 
function App() {
  const info = useQuery('todos', fetchTodoList)
}

The unique key you provide is used internally for refetching, caching, deduping related queries.

The query info returned contains all information about the query and can be easily destructured and used in your component:

function Todos() {
  const { status, data, error } = useQuery('todos', fetchTodoList)
 
  if (status === 'loading') {
    return <span>Loading...</span>
  }
 
  if (status === 'error') {
    return <span>Error: {error.message}</span>
  }
 
  // also status === 'success', but "else" logic works, too
  return (
    <ul>
      {data.map(todo => (
        <li key={todo.id}>{todo.title}</li>
      ))}
    </ul>
  )
}

Query Keys

At its core, React Query manages query caching for you and uses a serializable array or "query key" to do this. Using a query key that is simple and unique to the query's data is very important. In other similar libraries, you'll see the use of URLs and/or GraphQL query template strings to achieve this, but we believe at scale, this becomes prone to typos and errors. To relieve this issue, React Query Keys can be strings or an array with a string and then any number of serializable primitives and/or objects.

String-Only Query Keys

The simplest form of a key is actually not an array, but an individual string. When a string query key is passed, it is converted to an array internally with the string as the only item in the query key. This format is useful for:

• Generic List/Index resources
• Non-hierarchical resources

// A list of todos
useQuery('todos', ...) // queryKey === ['todos']
 
// Something else, whatever!
useQuery('somethingSpecial', ...) // queryKey === ['somethingSpecial']

Array Keys

When a query needs more information to uniquely describe its data, you can use an array with a string and any number of serializable objects to describe it. This is useful for:

• Specific resources
  • It's common to pass an ID, index, or other primitive
• Queries with additional parameters
  • It's common to pass an object of additional options

// An individual todo
useQuery(['todo', 5], ...)
// queryKey === ['todo', 5]
 
// And individual todo in a "preview" format
useQuery(['todo', 5, { preview: true }], ...)
// queryKey === ['todo', 5, { preview: 'true' } }]
 
// A list of todos that are "done"
useQuery(['todos', { type: 'done' }], ...)
// queryKey === ['todos', { type: 'done' }]

Query Keys are serialized deterministically!

This means that no matter the order of keys in objects, all of the following queries would result in the same final query key of ['todos', { page, status }]:

useQuery(['todos', { status, page }], ...)
useQuery(['todos', { page, status }], ...)
useQuery(['todos', { page, status, other: undefined }], ...)

The following query keys, however, are not equal. Array item order matters!

useQuery(['todos', status, page], ...)
useQuery(['todos', page, status], ...)
useQuery(['todos', undefined, page, status], ...)

Query Key Variables

To use external props, state, or variables in a query function, it's easiest to pass them as items in your array query keys! All query keys get passed through to your query function as parameters in the order they appear in the array key:

function Todos({ completed }) {
  const { status, data, error } = useQuery(
    ['todos', { status, page }],
    fetchTodoList
  )
}
 
// Access the key, status and page variables in your query function!
function fetchTodoList(key, { status, page }) {
  return new Promise()
  // ...
}

If you send through more items in your query key, they will also be available in your query function:

function Todo({ todoId, preview }) {
  const { status, data, error } = useQuery(
    ['todo', todoId, { preview }],
    fetchTodoById
  )
}
 
// Access status and page in your query function!
function fetchTodoById(key, todoId, { preview }) {
  return new Promise()
  // ...
}

Whenever a query's key changes, the query will automatically update. In the following example, a new query is created whenever todoId changes:

function Todo({ todoId }) {
  const { status, data, error } = useQuery(['todo', todoId], fetchTodo)
}

Optional Variables

In some scenarios, you may find yourself needing to pass extra information to your query that shouldn't (or doesn't need to be) a part of the query key. useQuery, usePaginatedQuery and useInfiniteQuery all support passing an optional array of additional parameters to be passed to your query function:

function Todo({ todoId, preview }) {
  const { status, data, error } = useQuery(
    // These will be used as the query key
    ['todo', todoId],
    // These will get passed directly to our query function
    [
      debug,
      {
        foo: true,
        bar: false,
      },
    ],
    fetchTodoById
  )
}
 
function fetchTodoById(key, todoId, debug, { foo, bar }) {
  return new Promise()
  // ...
}

Using a Query Object instead of parameters

Anywhere the [queryKey, variables, queryFn, config] options are supported throughout React Query's API, you can also use an object to express the same configuration:

import { useQuery } from 'react-query'
 
useQuery({
  queryKey: ['todo', 7],
  queryFn: fetchTodos,
  variables: [],
  config: {},
})

Dependent Queries

React Query makes it easy to make queries that depend on other queries for both:

• Parallel Queries (avoiding waterfalls) and
• Serial Queries (when a piece of data is required for the next query to happen).

To do this, you can use the following 2 approaches:

Pass a falsy query key

If a query isn't ready to be requested yet, just pass a falsy value as the query key or as an item in the query key:

// Get the user
const { data: user } = useQuery(['user', email], getUserByEmail)
 
// Then get the user's projects
const { data: projects } = useQuery(
  // `user` would be `null` at first (falsy),
  // so the query will not execute while the query key is falsy
  user && ['projects', user.id],
  getProjectsByUser
)

Use a query key function that throws an exception

If a function is passed, the query will not execute until the function can be called without throwing:

// Get the user
const { data: user } = useQuery(['user', email])
 
// Then get the user's projects
const { data: projects } = useQuery(
  // This will throw trying to access property `id` of `undefined` until the `user` is available
  () => ['projects', user.id]
)

Caching & Invalidation

React Query caching is automatic out of the box. It uses a stale-while-revalidate in-memory caching strategy together with robust query deduping to always ensure a query's data is only cached when it's needed and only cached once even if that query is used multiple times across your application.

At a glance:

• The cache is keyed on a deterministic hash of your query key.
• By default, query results become stale immediately after a successful fetch. This can be configured using the staleTime option at both the global and query-level.
• Stale queries are automatically refetched whenever their query keys change (this includes variables used in query key tuples), when they are freshly mounted from not having any instances on the page, or when they are refetched via the query cache manually.
• Though a query result may be stale, query results are by default always cached when in use.
• If and when a query is no longer being used, it becomes inactive and by default is cached in the background for 5 minutes. This time can be configured using the cacheTime option at both the global and query-level.
• After a query is inactive for the cacheTime specified (defaults to 5 minutes), the query is deleted and garbage collected.

Paginated Queries with usePaginatedQuery

Rendering paginated data is a very common UI pattern to avoid overloading bandwidth or even your UI. React Query exposes a usePaginatedQuery that is very similar to useQuery that helps with this very scenario.

Consider the following example where we would ideally want to increment a pageIndex (or cursor) for a query. If we were to use useQuery, it would technically work fine, but the UI would jump in and out of the success and loading states as different queries are created and destroyed for each page or cursor. By using usePaginatedQuery we get a few new things:

• Instead of data, you should use resolvedData instead. This is the data from the last known successful query result. As new page queries resolve, resolvedData remains available to show the last page's data while a new page is requested. When the new page data is received, resolvedData get's updated to the new page's data.
• If you specifically need the data for the exact page being requested, latestData is available. When the desired page is being requested, latestData will be undefined until the query resolves, then it will get updated with the latest pages data result.

function Todos() {
  const [page, setPage] = React.useState(0)
 
  const fetchProjects = (key, page = 0) => fetch('/api/projects?page=' + page)
 
  const {
    status,
    resolvedData,
    latestData,
    error,
    isFetching,
  } = usePaginatedQuery(['projects', page], fetchProjects)
 
  return (
    <div>
      {status === 'loading' ? (
        <div>Loading...</div>
      ) : status === 'error' ? (
        <div>Error: {error.message}</div>
      ) : (
        // `resolvedData` will either resolve to the latest page's data
        // or if fetching a new page, the last successful page's data
        <div>
          {resolvedData.projects.map(project => (
            <p key={project.id}>{project.name}</p>
          ))}
        </div>
      )}
      <span>Current Page: {page + 1}</span>
      <button
        onClick={() => setPage(old => Math.max(old - 1, 0))}
        disabled={page === 0}
      >
        Previous Page
      </button>{' '}
      <button
        onClick={() =>
          // Here, we use `latestData` so the Next Page
          // button isn't relying on potentially old data
          setPage(old => (!latestData || !latestData.hasMore ? old : old + 1))
        }
        disabled={!latestData || !latestData.hasMore}
      >
        Next Page
      </button>
      {// Since the last page's data potentially sticks around between page requests,
      // we can use `isFetching` to show a background loading
      // indicator since our `status === 'loading'` state won't be triggered
      isFetching ? <span> Loading...</span> : null}{' '}
    </div>
  )
}

Load-More & Infinite-Scroll with useInfiniteQuery

Rendering lists that can additively "load more" data onto an existing set of data or "infinite scroll" is also a very common UI pattern. React Query supports a useful version of useQuery called useInfiniteQuery for querying these types of lists.

When using useInfiniteQuery, you'll notice a few things are different:

• data is now an array of arrays that contain query group results, instead of the query results themselves
• A fetchMore function is now available
• A getFetchMore option is available for both determining if there is more data to load and the information to fetch it. This information is supplied as an additional parameter in the query function (which can optionally be overridden when calling the fetchMore function)
• A canFetchMore boolean is now available and is true if getFetchMore returns a truthy value
• An isFetchingMore boolean is now available to distinguish between a background refresh state and a loading more state

Example

Let's assume we have an API that returns pages of projects 3 at a time based on a cursor index along with a cursor that can be used to fetch the next group of projects

fetch('/api/projects?cursor=0')
// { data: [...], nextCursor: 3}
fetch('/api/projects?cursor=3')
// { data: [...], nextCursor: 6}
fetch('/api/projects?cursor=6')
// { data: [...], nextCursor: 9}
fetch('/api/projects?cursor=9')
// { data: [...] }

With this information, we can create a "Load More" UI by:

• Waiting for useInfiniteQuery to request the first group of data by default
• Returning the information for the next query in getFetchMore
• Calling fetchMore function

Note: It's very important you do not call fetchMore with arguments unless you want them to override the fetchMoreInfo data returned from the getFetchMore function. eg. Do not do this: <button onClick={fetchMore} /> as this would send the onClick event to the fetchMore function.

import { useInfiniteQuery } from 'react-query'
 
function Projects() {
  const fetchProjects = (key, cursor = 0) =>
    fetch('/api/projects?cursor=' + cursor)
 
  const {
    status,
    data,
    isFetching,
    isFetchingMore,
    fetchMore,
    canFetchMore,
  } = useInfiniteQuery('projects', fetchProjects, {
    getFetchMore: (lastGroup, allGroups) => lastGroup.nextCursor,
  })
 
  return status === 'loading' ? (
    <p>Loading...</p>
  ) : status === 'error' ? (
    <p>Error: {error.message}</p>
  ) : (
    <>
      {data.map((group, i) => (
        <React.Fragment key={i}>
          {group.projects.map(project => (
            <p key={project.id}>{project.name}</p>
          ))}
        </React.Fragment>
      ))}
      <div>
        <button
          onClick={() => fetchMore()}
          disabled={!canFetchMore || isFetchingMore}
        >
          {isFetchingMore
            ? 'Loading more...'
            : canFetchMore
            ? 'Load More'
            : 'Nothing more to load'}
        </button>
      </div>
      <div>{isFetching && !isFetchingMore ? 'Fetching...' : null}</div>
    </>
  )
}

What happens when an infinite query needs to be refetched?

When an infinite query becomes stale and needs to be refetched, each group is fetched individually and in parallel with the same variables that were originally used to request each group. If an infinite query's results are ever removed from the cache, the pagination restarts at the initial state with only the initial group being requested.

What if I need to pass custom information to my query function?

By default, the info returned from getFetchMore will be supplied to the query function, but in some cases, you may want to override this. You can pass custom variables to the fetchMore function which will override the default info like so:

function Projects() {
  const fetchProjects = (key, cursor = 0) =>
    fetch('/api/projects?cursor=' + cursor)
 
  const {
    status,
    data,
    isFetching,
    isFetchingMore,
    fetchMore,
    canFetchMore,
  } = useInfiniteQuery('projects', fetchProjects, {
    getFetchMore: (lastGroup, allGroups) => lastGroup.nextCursor,
  })
 
  // Pass your own custom fetchMoreInfo
  const skipToCursor50 = () => fetchMore(50)
}

Scroll Restoration

Out of the box, "scroll restoration" for all queries (including paginated and infinite queries) Just Works™️ in React Query. The reason for this is that query results are cached and able to be retrieved synchronously when a query is rendered. As long as your queries are being cached long enough (the default time is 5 minutes) and have not been garbage collected, scroll restoration will work out of the box all the time.

Manual Querying

If you ever want to disable a query from automatically running, you can use the manual = true option. When manual is set to true:

• The query will start in the status === 'success' state
• The query will not automatically fetch on mount
• The query will not automatically refetch due to rerenders, new instances appearing, or changes to its query key or variables.

Pro Tip #1: Because manual queries start in the status === 'success' state, you should consider supplying an initialData option to pre-populate the cache or similarly use a default parameter value when destructuring the query result

Pro Tip #2: Don't use manual for dependent queries. Use Dependent Queries instead!

function Todos() {
  const { status, data, error, refetch, isFetching } = useQuery(
    'todos',
    fetchTodoList,
    {
      manual: true,
      initialData: [],
    }
  )
 
  return (
    <>
      <button onClick={() => refetch()}>Fetch Todos</button>
 
      {status === 'loading' ? (
        <span>Loading...</span>
      ) : status === 'error' ? (
        <span>Error: {error.message}</span>
      ) : (
        // `status === 'success'` will be the initial state, so we need
        // account for our initial data (an empty array)
        <>
          <ul>
            {!data.length
              ? 'No todos yet...'
              : data.map(todo => <li key={todo.id}>{todo.title}</li>)}
          </ul>
          <div>{isFetching ? 'Fetching...' : null}</div>
        </>
      )}
    </>
  )
}

Retries

When a useQuery query fails (the function throws an error), React Query will automatically retry the query if that query's request has not reached the max number of consecutive retries (defaults to 3) or a function is provided to determine if a retry is allowed.

You can configure retries both on a global level and an individual query level.

• Setting retry = false will disable retries.
• Setting retry = 6 will retry failing requests 6 times before showing the final error thrown by the function.
• Setting retry = true will infinitely retry failing requests.
• Setting retry = (failureCount, error) => ... allows for custom logic based on why the request failed.

import { useQuery } from 'react-query'
 
// Make specific query retry a certain number of times
const { status, data, error } = useQuery(['todos', 1], fetchTodoListPage, {
  retry: 10, // Will retry failed requests 10 times before displaying an error
})

Retry Delay

By default, retries in React Query do not happen immediately after a request fails. As is standard, a back-off delay is gradually applied to each retry attempt.

The default retryDelay is set to double (starting at 1000ms) with each attempt, but not exceed 30 seconds:

// Configure for all queries
import { ReactQueryConfigProvider } from 'react-query'
 
const queryConfig = {
  retryDelay: attemptIndex => Math.min(1000 * 2 ** attemptIndex, 30000),
}
 
function App() {
  return (
    <ReactQueryConfigProvider config={queryConfig}>
      ...
    </ReactQueryConfigProvider>
  )
}

Though it is not recommended, you can obviously override the retryDelay function/integer in both the Provider and individual query options. If set to an integer instead of a function the delay will always be the same amount of time:

const { status, data, error } = useQuery('todos', fetchTodoList, {
  retryDelay: 1000, // Will always wait 1000ms to retry, regardless of how many retries
})

Prefetching

If you're lucky enough, you may know enough about what your users will do to be able to prefetch the data they need before it's needed! If this is the case, then you're in luck. You can either use the prefetchQuery function to prefetch the results of a query to be placed into the cache:

import { queryCache } from 'react-query'
 
const prefetchTodos = async () => {
  const queryData = await queryCache.prefetchQuery('todos', () =>
    fetch('/todos')
  )
  // The results of this query will be cached like a normal query
}

The next time a useQuery instance is used for a prefetched query, it will use the cached data! If no instances of useQuery appear for a prefetched query, it will be deleted and garbage collected after the time specified in cacheTime.

Alternatively, if you already have the data for your query synchronously available, you can use the Query Cache's setQueryData method to directly add or update a query's cached result

Initial Data

There may be times when you already have the initial data for a query synchronously available in your app. If and when this is the case, you can use the config.initialData option to set the initial data for a query and skip the first round of fetching!

When providing an initialData value that is anything other than undefined:

• The query status will initialize as success instead of loading
• The query's isStale property will initialize as true instead of false
• The query will not automatically fetch until it is invalidated somehow (eg. window refocus, queryCache refetching, etc)

function Todos() {
  const queryInfo = useQuery('todos', () => fetch('/todos'), {
    initialData: initialTodos,
  })
}

Initial Data Function

If the process for accessing a query's initial data is intensive or just not something you want to perform on every render, you can pass a function as the initialData value. This function will be executed only once when the query is initialized, saving you precious memory and CPU:

function Todos() {
  const queryInfo = useQuery('todos', () => fetch('/todos'), {
    initialData: () => {
      return getExpensiveTodos()
    },
  })
}

Initial Data from Cache

In some circumstances, you may be able to provide the initial data for a query from the cached result of another. A good example of this would be searching the cached data from a todos list query for an individual todo item, then using that as the initial data for your individual todo query:

function Todo({ todoId }) {
  const queryInfo = useQuery(['todo', todoId], () => fetch('/todos'), {
    initialData: () => {
      // Use a todo from the 'todos' query as the initial data for this todo query
      return queryCache.getQueryData('todos')?.find(d => d.id === todoId)
    },
  })
}

Most of the time, this pattern works well, but if the source query you're using to look up the initial data from is old, you may not want to use the data at all and just fetch from the server. To make this decision easier, you can use the queryCache.getQuery method instead to get more information about the source query, including an updatedAt timestamp you can use to decide if the query is "fresh" enough for your needs:

function Todo({ todoId }) {
  const queryInfo = useQuery(['todo', todoId], () => fetch('/todos'), {
    initialData: () => {
      // Get the query object
      const query = queryCache.getQuery('todos')
 
      // If the query exists and has data that is no older than 10 seconds...
      if (query && Date.now() - query.updatedAt <= 10 * 1000) {
        // return the individual todo
        return query.state.data.find(d => d.id === todoId)
      }
 
      // Otherwise, return undefined and let it fetch!
    },
  })
}

SSR & Initial Data

When using SSR (server-side-rendering) with React Query there are a few things to note:

• Query caches are not written to memory during SSR. This is outside of the scope of React Query and easily leads to out-of-sync data when used with frameworks like Next.js or other SSR strategies.
• Queries rendered on the server will by default use the initialData of an unfetched query. This means that by default, data will be set to undefined. To get around this in SSR, you can either pre-seed a query's cache data using the config.initialData option:

const { status, data, error } = useQuery('todos', fetchTodoList, {
  initialData: [{ id: 0, name: 'Implement SSR!' }],
})
 
// data === [{ id: 0, name: 'Implement SSR!'}]

Or, alternatively you can just destructure from undefined in your query results:

const { status, data = [{ id: 0, name: 'Implement SSR!' }], error } = useQuery(
  'todos',
  fetchTodoList
)

The query's state will still reflect that it is stale and has not been fetched yet, and once mounted, it will continue as normal and request a fresh copy of the query result.

Suspense Mode

React Query can also be used with React's new Suspense for Data Fetching API's. To enable this mode, you can set either the global or query level config's suspense option to true.

Global configuration:

// Configure for all queries
import { ReactQueryConfigProvider } from 'react-query'
 
const queryConfig = {
  suspense: true,
}
 
function App() {
  return (
    <ReactQueryConfigProvider config={queryConfig}>
      ...
    </ReactQueryConfigProvider>
  )
}

Query configuration:

import { useQuery } from 'react-query'
 
// Enable for an individual query
useQuery(queryKey, queryFn, { suspense: true })

When using suspense mode, status states and error objects are not needed and are then replaced by usage of the React.Suspense component (including the use of the fallback prop and React error boundaries for catching errors). Please see the Suspense Example for more information on how to set up suspense mode.

In addition to queries behaving differently in suspense mode, mutations also behave a bit differently. By default, instead of supplying the error variable when a mutation fails, it will be thrown during the next render of the component it's used in and propagate to the nearest error boundary, similar to query errors. If you wish to disable this, you can set the useErrorBoundary option to false. If you wish that errors are not thrown at all, you can set the throwOnError option to false as well!

Fetch-on-render vs Fetch-as-you-render

Out of the box, React Query in suspense mode works really well as a Fetch-on-render solution with no additional configuration. However, if you want to take it to the next level and implement a Fetch-as-you-render model, we recommend implementing Prefetching on routing and/or user interactions events to initialize queries before they are needed.

Canceling Query Requests

By default, queries that become inactive before their promises are resolved are simply ignored instead of canceled. Why is this?

• For most applications, ignoring out-of-date queries is sufficient.
• Cancellation APIs may not be available for every query function.
• If cancellation APIs are available, they typically vary in implementation between utilities/libraries (eg. Fetch vs Axios vs XMLHttpRequest).

But don't worry! If your queries are high-bandwidth or potentially very expensive to download, React Query exposes a generic way to cancel query requests using a cancellation token or other related API. To integrate with this feature, attach a cancel function to the promise returned by your query that implements your request cancellation. When a query becomes out-of-date or inactive, this promise.cancel function will be called (if available):

Using axios:

import { CancelToken } from 'axios'
 
const query = useQuery('todos', () => {
  // Create a new CancelToken source for this request
  const source = CancelToken.source()
 
  const promise = axios.get('/todos', {
    // Pass the source token to your request
    cancelToken: source.token,
  })
 
  // Cancel the request if React Query calls the `promise.cancel` method
  promise.cancel = () => {
    source.cancel('Query was cancelled by React Query')
  }
 
  return promise
})

Using fetch:

const query = useQuery('todos', () => {
  // Create a new AbortController instance for this request
  const controller = new AbortController()
  // Get the abortController's signal
  const signal = controller.signal
 
  const promise = fetch('/todos', {
    method: 'get',
    // Pass the signal to your request
    signal,
  })
 
  // Cancel the request if React Query calls the `promise.cancel` method
  promise.cancel = controller.abort
 
  return promise
})

Mutations

Unlike queries, mutations are typically used to create/update/delete data or perform server side-effects. For this purpose, React Query exports a useMutation hook.

Basic Mutations

Assuming the server implements a ping mutation, that returns "pong" string, here's an example of the most basic mutation:

const PingPong = () => {
  const [mutate, { status, data, error }] = useMutation(pingMutation)
 
  const onPing = async () => {
    try {
      const data = await mutate()
      console.log(data)
      // { ping: 'pong' }
    } catch {
      // Uh oh, something went wrong
    }
  }
  return <button onClick={onPing}>Ping</button>
}

Mutations without variables are not that useful, so let's add some variables to closer match reality.

Mutation Variables

To pass variables to your mutate function, call mutate with an object.

// Notice how the fetcher function receives an object containing
// all possible variables
const createTodo = ({ title }) => {
  /* trigger an http request */
}
 
const CreateTodo = () => {
  const [title, setTitle] = useState('')
  const [mutate] = useMutation(createTodo)
 
  const onCreateTodo = async e => {
    // Prevent the form from refreshing the page
    e.preventDefault()
 
    try {
      await mutate({ title })
      // Todo was successfully created
    } catch (error) {
      // Uh oh, something went wrong
    }
  }
 
  return (
    <form onSubmit={onCreateTodo}>
      <input
        type="text"
        value={title}
        onChange={e => setTitle(e.target.value)}
      />
      <br />
      <button type="submit">Create Todo</button>
    </form>
  )
}

Even with just variables, mutations aren't all that special, but when used with the onSuccess option, the Query Cache's refetchQueries method method and the Query Cache's setQueryData method, mutations become a very powerful tool.

Invalidate and Refetch Queries from Mutations

When a mutation succeeds, it's likely that other queries in your application need to update. Where other libraries that use normalized caches would attempt to update local queries with the new data imperatively, React Query helps you to avoid the manual labor that comes with maintaining normalized caches and instead prescribes atomic updates and refetching instead of direct cache manipulation.

For example, assume we have a mutation to post a new todo:

const [mutate] = useMutation(postTodo)

When a successful postTodo mutation happens, we likely want all todos queries to get refetched to show the new todo item. To do this, you can use useMutation's onSuccess options and the queryCache's refetchQueries:

import { useMutation, queryCache } from 'react-query'
 
// When this mutation succeeds, refetch any queries with the `todos` or `reminders` query key
const [mutate] = useMutation(addTodo, {
  onSuccess: () => {
    queryCache.refetchQueries('todos')
    queryCache.refetchQueries('reminders')
  },
})
 
mutate(todo)
 
// The 3 queries below will be refetched when the mutation above succeeds
const todoListQuery = useQuery('todos', fetchTodoList)
const todoListQuery = useQuery(['todos', { page: 1 }], fetchTodoList)
const remindersQuery = useQuery('reminders', fetchReminders)