/redux-saga

An alternative side effect model for Redux apps

Primary LanguageJavaScriptMIT LicenseMIT

redux-saga

Join the chat at https://gitter.im/yelouafi/redux-saga npm version

An alternative Side Effects middleware (aka Asynchronous Actions) for Redux applications. Instead of dispatching Thunks which get handled by the redux-thunk middleware, you create Sagas to gather all your Side Effects logic in a central place.

This means application logic lives in 2 places:

  • Reducers are responsible for handling state transitions between actions.
  • Sagas are responsible for orchestrating complex/asynchronous operations.

Sagas are created using Generator functions. If you're not familiar with them you may find some useful links here.

Unlike Thunks which get invoked on every action by Action Creators, Sagas are fired only once at the start of the application (but startup Sagas may fire other Sagas dynamically). They can be seen as Processes running in the background. Sagas watch the actions dispatched to the Store, then decide what to do based on dispatched actions: Either making an asynchronous call (like an AJAX request), dispatching other actions to the Store, or even starting other Sagas dynamically.

In redux-saga all the above tasks are achieved by yielding Effects. Effects are simply JavaScript Objects containing instructions to be executed by the Saga middleware (As an analogy, you can see Redux actions as Objects containing instructions to be executed by the Store). redux-saga provides Effect creators for various tasks like calling an asynchronous function, dispatching an action to the Store, starting a background task or waiting for a future action that satisfies a certain condition.

Using Generators, redux-saga allows you to write your asynchronous code in a simple synchronous style. Just like you can do with async/await functions. But Generators allow some things that aren't possible with async functions.

The fact that Sagas yield plain Objects makes it easy to test all the logic inside your Generator by simply iterating over the yielded Objects and doing simple equality tests.

Furthermore, tasks started in redux-saga can be cancelled at any moment either manually or automatically by putting them in a race with other Effects.

Getting started

Install

$ npm install --save redux-saga

Alternatively, you may use the provided UMD builds directly in the <script> tag of an HTML page. See this section.

Usage Example

Suppose we have an UI to fetch some user data from a remote server when a button is clicked. (For brevity, we'll just show the action triggering code.)

class UserComponent extends React.Component {
  ...
  onSomeButtonClicked() {
    const { userId, dispatch } = this.props
    dispatch({type: 'USER_FETCH_REQUESTED', payload: {userId}})
  }
  ...
}

The Component dispatches a plain Object action to the Store. We'll create a Saga that watches for all USER_FETCH_REQUESTED actions and triggers an API call to fetch the user data.

sagas.js

import { takeEvery, takeLatest } from 'redux-saga'
import { call, put } from 'redux-saga/effects'
import Api from '...'

// worker Saga: will be fired on USER_FETCH_REQUESTED actions
function* fetchUser(action) {
   try {
      const user = yield call(Api.fetchUser, action.payload.userId);
      yield put({type: "USER_FETCH_SUCCEEDED", user: user});
   } catch (e) {
      yield put({type: "USER_FETCH_FAILED", message: e.message});
   }
}

/*
  Starts fetchUser on each dispatched `USER_FETCH_REQUESTED` action.
  Allows concurrent fetches of user.
*/
function* mySaga() {
  yield* takeEvery("USER_FETCH_REQUESTED", fetchUser);
}

/*
  Alternatively you may use takeLatest.

  Does not allow concurrent fetches of user. If "USER_FETCH_REQUESTED" gets
  dispatched while a fetch is already pending, that pending fetch is cancelled
  and only the latest one will be run.
*/
function* mySaga() {
  yield* takeLatest("USER_FETCH_REQUESTED", fetchUser);
}

export default mySaga;

To run our Saga, we'll have to connect it to the Redux Store using the redux-saga middleware.

main.js

import { createStore, applyMiddleware } from 'redux'
import createSagaMiddleware from 'redux-saga'

import reducer from './reducers'
import mySaga from './sagas'

// create the saga middleware
const sagaMiddleware = createSagaMiddleware()
// mount it on the Store
const store = createStore(
  reducer,
  applyMiddleware(sagaMiddleware)
)

// then run the saga
sagaMiddleware.run(mySaga)

// render the application

Documentation

There is also a chinese version of the docs website thanks @superRaytin (You may check the referenced version of redux-saga)

Using umd build in the browser

There is also a umd build of redux-saga available in the dist/ folder. When using the umd build redux-saga is available as ReduxSaga in the window object.

The umd version is useful if you don't use Webpack or Browserify. You can access it directly from npmcdn.

The following builds are available:

Important! If the browser you are targeting doesn't support ES2015 generators, you must provide a valid polyfill, such as the one provided by babel. The polyfill must be imported before redux-saga:

import 'babel-polyfill'
// then
import sagaMiddleware from 'redux-saga'

Building examples from sources

$ git clone https://github.com/yelouafi/redux-saga.git
$ cd redux-saga
$ npm install
$ npm test

Below are the examples ported (so far) from the Redux repos.

Counter examples

There are three counter examples.

counter-vanilla

Demo using vanilla JavaScript and UMD builds. All source is inlined in index.html.

To launch the example, just open index.html in your browser.

Important: your browser must support Generators. Latest versions of Chrome/Firefox/Edge are suitable.

counter

Demo using webpack and high-level API takeEvery.

$ npm run counter

# test sample for the generator
$ npm run test-counter

cancellable-counter

Demo using low-level API to demonstrate task cancellation.

$ npm run cancellable-counter

Shopping Cart example

$ npm run shop

# test sample for the generator
$ npm run test-shop

async example

$ npm run async

# test sample for the generators
$ npm run test-async

real-world example (with webpack hot reloading)

$ npm run real-world

# sorry, no tests yet