From the very beginning, we need to stress that Redux has no relation to React. You can write Redux apps with React, Angular, Ember, jQuery, or vanilla JavaScript.
That said, Redux works especially well with frameworks like React and Deku because they let you describe UI as a function of state, and Redux emits state updates in response to actions.
We will use React to build our simple todo app.
React bindings are not included in Redux by default. You need to install them explicitly:
npm install --save react-redux
If you don’t use npm, you may grab the latest UMD build from unpkg (either a development or a production build). The UMD build exports a global called window.ReactRedux
if you add it to your page via a <script>
tag.
React bindings for Redux embrace the idea of separating presentational and container components. If you’re not familiar with these terms, read about them first, and then come back. They are important, so we’ll wait!
Finished reading the article? Let’s recount their differences:
Presentational Components | Container Components | |
---|---|---|
Purpose | How things look (markup, styles) | How things work (data fetching, state updates) |
Aware of Redux | No | Yes |
To read data | Read data from props | Subscribe to Redux state |
To change data | Invoke callbacks from props | Dispatch Redux actions |
Are written | By hand | Usually generated by React Redux |
Most of the components we’ll write will be presentational, but we’ll need to generate a few container components to connect them to the Redux store.
Technically you could write the container components by hand using store.subscribe()
. We don’t advise you to do this because React Redux makes many performance optimizations that are hard to do by hand. For this reason, rather than write container components, we will generate them using the connect()
function provided by React Redux, as you will see below.
Remember how we designed the shape of the root state object? It’s time we design the UI hierarchy to match it. This is not a Redux-specific task. Thinking in React is a great tutorial that explains the process.
Our design brief is simple. We want to show a list of todo items. On click, a todo item is crossed out as completed. We want to show a field where the user may add a new todo. In the footer, we want to show a toggle to show all, only completed, or only active todos.
I see the following presentational components and their props emerge from this brief:
TodoList
is a list showing visible todos.todos: Array
is an array of todo items with{ id, text, completed }
shape.onTodoClick(id: number)
is a callback to invoke when a todo is clicked.
Todo
is a single todo item.text: string
is the text to show.completed: boolean
is whether todo should appear crossed out.onClick()
is a callback to invoke when a todo is clicked.
Link
is a link with a callback.onClick()
is a callback to invoke when link is clicked.
Footer
is where we let the user change currently visible todos.App
is the root component that renders everything else.
They describe the look but don’t know where the data comes from, or how to change it. They only render what’s given to them. If you migrate from Redux to something else, you’ll be able to keep all these components exactly the same. They have no dependency on Redux.
We will also need some container components to connect the presentational components to Redux. For example, the presentational TodoList
component needs a container like VisibleTodoList
that subscribes to the Redux store and knows how to apply the current visibility filter. To change the visibility filter, we will provide a FilterLink
container component that renders a Link
that dispatches an appropriate action on click:
VisibleTodoList
filters the todos according to the current visibility filter and renders aTodoList
.FilterLink
gets the current visibility filter and renders aLink
.filter: string
is the visibility filter it represents.
Sometimes it’s hard to tell if some component should be a presentational component or a container. For example, sometimes form and function are really coupled together, such as in case of this tiny component:
AddTodo
is an input field with an “Add” button
Technically we could split it into two components but it might be too early at this stage. It’s fine to mix presentation and logic in a component that is very small. As it grows, it will be more obvious how to split it, so we’ll leave it mixed.
Let’s write the components! We begin with the presentational components so we don’t need to think about binding to Redux yet.
These are all normal React components, so we won’t examine them in detail. We write functional stateless components unless we need to use local state or the lifecycle methods. This doesn’t mean that presentational components have to be functions—it’s just easier to define them this way. If and when you need to add local state, lifecycle methods, or performance optimizations, you can convert them to classes.
import React, { PropTypes } from 'react'
const Todo = ({ onClick, completed, text }) => (
<li
onClick={onClick}
style={{
textDecoration: completed ? 'line-through' : 'none'
}}
>
{text}
</li>
)
Todo.propTypes = {
onClick: PropTypes.func.isRequired,
completed: PropTypes.bool.isRequired,
text: PropTypes.string.isRequired
}
export default Todo
import React, { PropTypes } from 'react'
import Todo from './Todo'
const TodoList = ({ todos, onTodoClick }) => (
<ul>
{todos.map(todo =>
<Todo
key={todo.id}
{...todo}
onClick={() => onTodoClick(todo.id)}
/>
)}
</ul>
)
TodoList.propTypes = {
todos: PropTypes.arrayOf(PropTypes.shape({
id: PropTypes.number.isRequired,
completed: PropTypes.bool.isRequired,
text: PropTypes.string.isRequired
}).isRequired).isRequired,
onTodoClick: PropTypes.func.isRequired
}
export default TodoList
import React, { PropTypes } from 'react'
const Link = ({ active, children, onClick }) => {
if (active) {
return <span>{children}</span>
}
return (
<a href="#"
onClick={e => {
e.preventDefault()
onClick()
}}
>
{children}
</a>
)
}
Link.propTypes = {
active: PropTypes.bool.isRequired,
children: PropTypes.node.isRequired,
onClick: PropTypes.func.isRequired
}
export default Link
import React from 'react'
import FilterLink from '../containers/FilterLink'
const Footer = () => (
<p>
Show:
{" "}
<FilterLink filter="SHOW_ALL">
All
</FilterLink>
{", "}
<FilterLink filter="SHOW_ACTIVE">
Active
</FilterLink>
{", "}
<FilterLink filter="SHOW_COMPLETED">
Completed
</FilterLink>
</p>
)
export default Footer
import React from 'react'
import Footer from './Footer'
import AddTodo from '../containers/AddTodo'
import VisibleTodoList from '../containers/VisibleTodoList'
const App = () => (
<div>
<AddTodo />
<VisibleTodoList />
<Footer />
</div>
)
export default App
Now it’s time to hook up those presentational components to Redux by creating some containers. Technically, a container component is just a React component that uses store.subscribe()
to read a part of the Redux state tree and supply props to a presentational component it renders. You could write a container component by hand but React Redux includes many useful optimizations so we suggest to generate container components with connect()
function from the React Redux library.
To use connect()
, you need to define a special function called mapStateToProps
that tells how to transform the current Redux store state into the props you want to pass to a presentational component you are wrapping. For example, VisibleTodoList
needs to calculate todos
to pass to the TodoList
, so we define a function that filters the state.todos
according to the state.visibilityFilter
, and use it in its mapStateToProps
:
const getVisibleTodos = (todos, filter) => {
switch (filter) {
case 'SHOW_ALL':
return todos
case 'SHOW_COMPLETED':
return todos.filter(t => t.completed)
case 'SHOW_ACTIVE':
return todos.filter(t => !t.completed)
}
}
const mapStateToProps = (state) => {
return {
todos: getVisibleTodos(state.todos, state.visibilityFilter)
}
}
In addition to reading the state, container components can dispatch actions. In a similar fashion, you can define a function called mapDispatchToProps()
that receives the dispatch()
method and returns callback props that you want to inject into the presentational component. For example, we want the VisibleTodoList
to inject a prop called onTodoClick
into the TodoList
component, and we want onTodoClick
to dispatch a TOGGLE_TODO
action:
const mapDispatchToProps = (dispatch) => {
return {
onTodoClick: (id) => {
dispatch(toggleTodo(id))
}
}
}
Finally, we create the VisibleTodoList
by calling connect()
and passing these two functions:
import { connect } from 'react-redux'
const VisibleTodoList = connect(
mapStateToProps,
mapDispatchToProps
)(TodoList)
export default VisibleTodoList
These are the basics of the React Redux API, but there are a few shortcuts and power options so we encourage you to check out its documentation in detail. In case you are worried about mapStateToProps
creating new objects too often, you might want to learn about computing derived data with reselect.
Find the rest of the container components defined below:
import { connect } from 'react-redux'
import { setVisibilityFilter } from '../actions'
import Link from '../components/Link'
const mapStateToProps = (state, ownProps) => {
return {
active: ownProps.filter === state.visibilityFilter
}
}
const mapDispatchToProps = (dispatch, ownProps) => {
return {
onClick: () => {
dispatch(setVisibilityFilter(ownProps.filter))
}
}
}
const FilterLink = connect(
mapStateToProps,
mapDispatchToProps
)(Link)
export default FilterLink
import { connect } from 'react-redux'
import { toggleTodo } from '../actions'
import TodoList from '../components/TodoList'
const getVisibleTodos = (todos, filter) => {
switch (filter) {
case 'SHOW_ALL':
return todos
case 'SHOW_COMPLETED':
return todos.filter(t => t.completed)
case 'SHOW_ACTIVE':
return todos.filter(t => !t.completed)
}
}
const mapStateToProps = (state) => {
return {
todos: getVisibleTodos(state.todos, state.visibilityFilter)
}
}
const mapDispatchToProps = (dispatch) => {
return {
onTodoClick: (id) => {
dispatch(toggleTodo(id))
}
}
}
const VisibleTodoList = connect(
mapStateToProps,
mapDispatchToProps
)(TodoList)
export default VisibleTodoList
import React from 'react'
import { connect } from 'react-redux'
import { addTodo } from '../actions'
let AddTodo = ({ dispatch }) => {
let input
return (
<div>
<input ref={node => {
input = node
}} />
<button onClick={() => {
dispatch(addTodo(input.value))
input.value = ''
}}>
Add Todo
</button>
</div>
)
}
AddTodo = connect()(AddTodo)
export default AddTodo
All container components need access to the Redux store so they can subscribe to it. One option would be to pass it as a prop to every container component. However it gets tedious, as you have to wire store
even through presentational components just because they happen to render a container deep in the component tree.
The option we recommend is to use a special React Redux component called <Provider>
to magically make the store available to all container components in the application without passing it explicitly. You only need to use it once when you render the root component:
import React from 'react'
import { render } from 'react-dom'
import { Provider } from 'react-redux'
import { createStore } from 'redux'
import todoApp from './reducers'
import App from './components/App'
let store = createStore(todoApp)
render(
<Provider store={store}>
<App />
</Provider>,
document.getElementById('root')
)
Read the complete source code for this tutorial to better internalize the knowledge you have gained. Then, head straight to the advanced tutorial to learn how to handle network requests and routing!