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README.md

Redux Thunk

Thunk middleware for Redux. It allows writing functions with logic inside that can interact with a Redux store's dispatch and getState methods.

For complete usage instructions and useful patterns, see the Redux docs Writing Logic with Thunks page.

GitHub Workflow Status npm version npm downloads

Installation and Setup

Redux Toolkit

If you're using our official Redux Toolkit package as recommended, there's nothing to install - RTK's configureStore API already adds the thunk middleware by default:

import { configureStore } from '@reduxjs/toolkit'

import todosReducer from './features/todos/todosSlice'
import filtersReducer from './features/filters/filtersSlice'

const store = configureStore({
  reducer: {
    todos: todosReducer,
    filters: filtersReducer
  }
})

// The thunk middleware was automatically added

Manual Setup

If you're using the basic Redux createStore API and need to set this up manually, first add the redux-thunk package:

npm install redux-thunk

yarn add redux-thunk

The thunk middleware is the default export.

More Details: Importing the thunk middleware

If you're using ES modules:

import thunk from 'redux-thunk' // no changes here 😀

If you use Redux Thunk 2.x in a CommonJS environment, don’t forget to add .default to your import:

- const thunk = require('redux-thunk')
+ const thunk = require('redux-thunk').default

Additionally, since 2.x, we also support a UMD build for use as a global script tag:

const ReduxThunk = window.ReduxThunk

Then, to enable Redux Thunk, use applyMiddleware():

import { createStore, applyMiddleware } from 'redux'
import thunk from 'redux-thunk'
import rootReducer from './reducers/index'

const store = createStore(rootReducer, applyMiddleware(thunk))

Injecting a Custom Argument

Since 2.1.0, Redux Thunk supports injecting a custom argument into the thunk middleware. This is typically useful for cases like using an API service layer that could be swapped out for a mock service in tests.

For Redux Toolkit, the getDefaultMiddleware callback inside of configureStore lets you pass in a custom extraArgument:

import { configureStore } from '@reduxjs/toolkit'
import rootReducer from './reducer'
import { myCustomApiService } from './api'

const store = configureStore({
  reducer: rootReducer,
  middleware: getDefaultMiddleware =>
    getDefaultMiddleware({
      thunk: {
        extraArgument: myCustomApiService
      }
    })
})

// later
function fetchUser(id) {
  // The `extraArgument` is the third arg for thunk functions
  return (dispatch, getState, api) => {
    // you can use api here
  }
}

If you need to pass in multiple values, combine them into a single object:

const store = configureStore({
  reducer: rootReducer,
  middleware: getDefaultMiddleware =>
    getDefaultMiddleware({
      thunk: {
        extraArgument: {
          api: myCustomApiService,
          otherValue: 42
        }
      }
    })
})

// later
function fetchUser(id) {
  return (dispatch, getState, { api, otherValue }) => {
    // you can use api and something else here
  }
}

If you're setting up the store by hand, the default thunk export has an attached thunk.withExtraArgument() function that should be used to generate the correct thunk middleware:

const store = createStore(
  reducer,
  applyMiddleware(thunk.withExtraArgument(api))
)

Why Do I Need This?

With a plain basic Redux store, you can only do simple synchronous updates by dispatching an action. Middleware extends the store's abilities, and lets you write async logic that interacts with the store.

Thunks are the recommended middleware for basic Redux side effects logic, including complex synchronous logic that needs access to the store, and simple async logic like AJAX requests.

For more details on why thunks are useful, see:

You may also want to read the Redux FAQ entry on choosing which async middleware to use.

While the thunk middleware is not directly included with the Redux core library, it is used by default in our @reduxjs/toolkit package.

Motivation

Redux Thunk middleware allows you to write action creators that return a function instead of an action. The thunk can be used to delay the dispatch of an action, or to dispatch only if a certain condition is met. The inner function receives the store methods dispatch and getState as parameters.

An action creator that returns a function to perform asynchronous dispatch:

const INCREMENT_COUNTER = 'INCREMENT_COUNTER'

function increment() {
  return {
    type: INCREMENT_COUNTER
  }
}

function incrementAsync() {
  return dispatch => {
    setTimeout(() => {
      // Yay! Can invoke sync or async actions with `dispatch`
      dispatch(increment())
    }, 1000)
  }
}

An action creator that returns a function to perform conditional dispatch:

function incrementIfOdd() {
  return (dispatch, getState) => {
    const { counter } = getState()

    if (counter % 2 === 0) {
      return
    }

    dispatch(increment())
  }
}

What’s a thunk?!

A thunk is a function that wraps an expression to delay its evaluation.

// calculation of 1 + 2 is immediate
// x === 3
let x = 1 + 2

// calculation of 1 + 2 is delayed
// foo can be called later to perform the calculation
// foo is a thunk!
let foo = () => 1 + 2

The term originated as a humorous past-tense version of "think".

Composition

Any return value from the inner function will be available as the return value of dispatch itself. This is convenient for orchestrating an asynchronous control flow with thunk action creators dispatching each other and returning Promises to wait for each other’s completion:

import { createStore, applyMiddleware } from 'redux'
import thunk from 'redux-thunk'
import rootReducer from './reducers'

// Note: this API requires redux@>=3.1.0
const store = createStore(rootReducer, applyMiddleware(thunk))

function fetchSecretSauce() {
  return fetch('https://www.google.com/search?q=secret+sauce')
}

// These are the normal action creators you have seen so far.
// The actions they return can be dispatched without any middleware.
// However, they only express “facts” and not the “async flow”.

function makeASandwich(forPerson, secretSauce) {
  return {
    type: 'MAKE_SANDWICH',
    forPerson,
    secretSauce
  }
}

function apologize(fromPerson, toPerson, error) {
  return {
    type: 'APOLOGIZE',
    fromPerson,
    toPerson,
    error
  }
}

function withdrawMoney(amount) {
  return {
    type: 'WITHDRAW',
    amount
  }
}

// Even without middleware, you can dispatch an action:
store.dispatch(withdrawMoney(100))

// But what do you do when you need to start an asynchronous action,
// such as an API call, or a router transition?

// Meet thunks.
// A thunk in this context is a function that can be dispatched to perform async
// activity and can dispatch actions and read state.
// This is an action creator that returns a thunk:
function makeASandwichWithSecretSauce(forPerson) {
  // We can invert control here by returning a function - the "thunk".
  // When this function is passed to `dispatch`, the thunk middleware will intercept it,
  // and call it with `dispatch` and `getState` as arguments.
  // This gives the thunk function the ability to run some logic, and still interact with the store.
  return function (dispatch) {
    return fetchSecretSauce().then(
      sauce => dispatch(makeASandwich(forPerson, sauce)),
      error => dispatch(apologize('The Sandwich Shop', forPerson, error))
    )
  }
}

// Thunk middleware lets me dispatch thunk async actions
// as if they were actions!

store.dispatch(makeASandwichWithSecretSauce('Me'))

// It even takes care to return the thunk’s return value
// from the dispatch, so I can chain Promises as long as I return them.

store.dispatch(makeASandwichWithSecretSauce('My partner')).then(() => {
  console.log('Done!')
})

// In fact I can write action creators that dispatch
// actions and async actions from other action creators,
// and I can build my control flow with Promises.

function makeSandwichesForEverybody() {
  return function (dispatch, getState) {
    if (!getState().sandwiches.isShopOpen) {
      // You don’t have to return Promises, but it’s a handy convention
      // so the caller can always call .then() on async dispatch result.

      return Promise.resolve()
    }

    // We can dispatch both plain object actions and other thunks,
    // which lets us compose the asynchronous actions in a single flow.

    return dispatch(makeASandwichWithSecretSauce('My Grandma'))
      .then(() =>
        Promise.all([
          dispatch(makeASandwichWithSecretSauce('Me')),
          dispatch(makeASandwichWithSecretSauce('My wife'))
        ])
      )
      .then(() => dispatch(makeASandwichWithSecretSauce('Our kids')))
      .then(() =>
        dispatch(
          getState().myMoney > 42
            ? withdrawMoney(42)
            : apologize('Me', 'The Sandwich Shop')
        )
      )
  }
}

// This is very useful for server side rendering, because I can wait
// until data is available, then synchronously render the app.

store
  .dispatch(makeSandwichesForEverybody())
  .then(() =>
    response.send(ReactDOMServer.renderToString(<MyApp store={store} />))
  )

// I can also dispatch a thunk async action from a component
// any time its props change to load the missing data.

import { connect } from 'react-redux'
import { Component } from 'react'

class SandwichShop extends Component {
  componentDidMount() {
    this.props.dispatch(makeASandwichWithSecretSauce(this.props.forPerson))
  }

  componentDidUpdate(prevProps) {
    if (prevProps.forPerson !== this.props.forPerson) {
      this.props.dispatch(makeASandwichWithSecretSauce(this.props.forPerson))
    }
  }

  render() {
    return <p>{this.props.sandwiches.join('mustard')}</p>
  }
}

export default connect(state => ({
  sandwiches: state.sandwiches
}))(SandwichShop)

License

MIT