As your application grows, it helps to be more intentional about how your state is organized and how the data flows between your components. Redundant or duplicate state is a common source of bugs. In this chapter, youâll learn how to structure your state well, how to keep your state update logic maintainable, and how to share state between distant components.
En este capĂtulo
- How to think about UI changes as state changes
- How to structure state well
- How to âlift state upâ to share it between components
- How to control whether the state gets preserved or reset
- How to consolidate complex state logic in a function
- How to pass information without âprop drillingâ
- How to scale state management as your app grows
Reacting to input with state
With React, you wonât modify the UI from code directly. For example, you wonât write commands like âdisable the buttonâ, âenable the buttonâ, âshow the success messageâ, etc. Instead, you will describe the UI you want to see for the different visual states of your component (âinitial stateâ, âtyping stateâ, âsuccess stateâ), and then trigger the state changes in response to user input. This is similar to how designers think about UI.
Here is a quiz form built using React. Note how it uses the status
state variable to determine whether to enable or disable the submit button, and whether to show the success message instead.
import { useState } from 'react'; export default function Form() { const [answer, setAnswer] = useState(''); const [error, setError] = useState(null); const [status, setStatus] = useState('typing'); if (status === 'success') { return <h1>That's right!</h1> } async function handleSubmit(e) { e.preventDefault(); setStatus('submitting'); try { await submitForm(answer); setStatus('success'); } catch (err) { setStatus('typing'); setError(err); } } function handleTextareaChange(e) { setAnswer(e.target.value); } return ( <> <h2>City quiz</h2> <p> In which city is there a billboard that turns air into drinkable water? </p> <form onSubmit={handleSubmit}> <textarea value={answer} onChange={handleTextareaChange} disabled={status === 'submitting'} /> <br /> <button disabled={ answer.length === 0 || status === 'submitting' }> Submit </button> {error !== null && <p className="Error"> {error.message} </p> } </form> </> ); } function submitForm(answer) { // Pretend it's hitting the network. return new Promise((resolve, reject) => { setTimeout(() => { let shouldError = answer.toLowerCase() !== 'lima' if (shouldError) { reject(new Error('Good guess but a wrong answer. Try again!')); } else { resolve(); } }, 1500); }); }
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Read Reacting to Input with State to learn how to approach interactions with a state-driven mindset.
Lee mĂĄsChoosing the state structure
Structuring state well can make a difference between a component that is pleasant to modify and debug, and one that is a constant source of bugs. The most important principle is that state shouldnât contain redundant or duplicated information. If thereâs some unnecessary state, itâs easy to forget to update it, and introduce bugs!
For example, this form has a redundant fullName
state variable:
import { useState } from 'react'; export default function Form() { const [firstName, setFirstName] = useState(''); const [lastName, setLastName] = useState(''); const [fullName, setFullName] = useState(''); function handleFirstNameChange(e) { setFirstName(e.target.value); setFullName(e.target.value + ' ' + lastName); } function handleLastNameChange(e) { setLastName(e.target.value); setFullName(firstName + ' ' + e.target.value); } return ( <> <h2>Letâs check you in</h2> <label> First name:{' '} <input value={firstName} onChange={handleFirstNameChange} /> </label> <label> Last name:{' '} <input value={lastName} onChange={handleLastNameChange} /> </label> <p> Your ticket will be issued to: <b>{fullName}</b> </p> </> ); }
You can remove it and simplify the code by calculating fullName
while the component is rendering:
import { useState } from 'react'; export default function Form() { const [firstName, setFirstName] = useState(''); const [lastName, setLastName] = useState(''); const fullName = firstName + ' ' + lastName; function handleFirstNameChange(e) { setFirstName(e.target.value); } function handleLastNameChange(e) { setLastName(e.target.value); } return ( <> <h2>Letâs check you in</h2> <label> First name:{' '} <input value={firstName} onChange={handleFirstNameChange} /> </label> <label> Last name:{' '} <input value={lastName} onChange={handleLastNameChange} /> </label> <p> Your ticket will be issued to: <b>{fullName}</b> </p> </> ); }
This might seem like a small change, but many bugs in React apps are fixed this way.
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Read Choosing the State Structure to learn how to design the state shape to avoid bugs.
Lee mĂĄsSharing state between components
Sometimes, you want the state of two components to always change together. To do it, remove state from both of them, move it to their closest common parent, and then pass it down to them via props. This is known as âlifting state upâ, and itâs one of the most common things you will do writing React code.
In this example, only one panel should be active at a time. To achieve this, instead of keeping the active state inside each individual panel, the parent component holds the state and specifies the props for its children.
import { useState } from 'react'; export default function Accordion() { const [activeIndex, setActiveIndex] = useState(0); return ( <> <h2>Almaty, Kazakhstan</h2> <Panel title="About" isActive={activeIndex === 0} onShow={() => setActiveIndex(0)} > With a population of about 2 million, Almaty is Kazakhstan's largest city. From 1929 to 1997, it was its capital city. </Panel> <Panel title="Etymology" isActive={activeIndex === 1} onShow={() => setActiveIndex(1)} > The name comes from <span lang="kk-KZ">Đ°Đ»ĐŒĐ°</span>, the Kazakh word for "apple" and is often translated as "full of apples". In fact, the region surrounding Almaty is thought to be the ancestral home of the apple, and the wild <i lang="la">Malus sieversii</i> is considered a likely candidate for the ancestor of the modern domestic apple. </Panel> </> ); } function Panel({ title, children, isActive, onShow }) { return ( <section className="panel"> <h3>{title}</h3> {isActive ? ( <p>{children}</p> ) : ( <button onClick={onShow}> Show </button> )} </section> ); }
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Read Sharing State Between Components to learn how to lift state up and keep components in sync.
Lee mĂĄsPreserving and resetting state
When you re-render a component, React needs to decide which parts of the tree to keep (and update), and which parts to discard or re-create from scratch. In most cases, Reactâs automatic behavior works well enough. By default, React preserves the parts of the tree that âmatch upâ with the previously rendered component tree.
However, sometimes this is not what you want. For example, in this app, typing a message and then switching the recipient does not reset the input. This can make the user accidentally send a message to the wrong person:
import { useState } from 'react'; import Chat from './Chat.js'; import ContactList from './ContactList.js'; export default function Messenger() { const [to, setTo] = useState(contacts[0]); return ( <div> <ContactList contacts={contacts} selectedContact={to} onSelect={contact => setTo(contact)} /> <Chat contact={to} /> </div> ) } const contacts = [ { name: 'Taylor', email: 'taylor@mail.com' }, { name: 'Alice', email: 'alice@mail.com' }, { name: 'Bob', email: 'bob@mail.com' } ];
React lets you override the default behavior, and force a component to reset its state by passing it a different key
, like <Chat key={email} />
. This tells React that if the recipient is different, it should be considered a different Chat
component that needs to be re-created from scratch with the new data (and UI like inputs). Now switching between the recipients always resets the input fieldâeven though you render the same component.
import { useState } from 'react'; import Chat from './Chat.js'; import ContactList from './ContactList.js'; export default function Messenger() { const [to, setTo] = useState(contacts[0]); return ( <div> <ContactList contacts={contacts} selectedContact={to} onSelect={contact => setTo(contact)} /> <Chat key={to.email} contact={to} /> </div> ) } const contacts = [ { name: 'Taylor', email: 'taylor@mail.com' }, { name: 'Alice', email: 'alice@mail.com' }, { name: 'Bob', email: 'bob@mail.com' } ];
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Read Preserving and Resetting State to learn the lifetime of state and how to control it.
Lee mĂĄsExtracting state logic into a reducer
Components with many state updates spread across many event handlers can get overwhelming. For these cases, you can consolidate all the state update logic outside your component in a single function, called âreducerâ. Your event handlers become concise because they only specify the user âactionsâ. At the bottom of the file, the reducer function specifies how the state should update in response to each action!
import { useReducer } from 'react'; import AddTask from './AddTask.js'; import TaskList from './TaskList.js'; export default function TaskApp() { const [tasks, dispatch] = useReducer( tasksReducer, initialTasks ); function handleAddTask(text) { dispatch({ type: 'added', id: nextId++, text: text, }); } function handleChangeTask(task) { dispatch({ type: 'changed', task: task }); } function handleDeleteTask(taskId) { dispatch({ type: 'deleted', id: taskId }); } return ( <> <h1>Prague itinerary</h1> <AddTask onAddTask={handleAddTask} /> <TaskList tasks={tasks} onChangeTask={handleChangeTask} onDeleteTask={handleDeleteTask} /> </> ); } function tasksReducer(tasks, action) { switch (action.type) { case 'added': { return [...tasks, { id: action.id, text: action.text, done: false }]; } case 'changed': { return tasks.map(t => { if (t.id === action.task.id) { return action.task; } else { return t; } }); } case 'deleted': { return tasks.filter(t => t.id !== action.id); } default: { throw Error('Unknown action: ' + action.type); } } } let nextId = 3; const initialTasks = [ { id: 0, text: 'Visit Kafka Museum', done: true }, { id: 1, text: 'Watch a puppet show', done: false }, { id: 2, text: 'Lennon Wall pic', done: false } ];
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Read Extracting State Logic into a Reducer to learn how to consolidate logic in the reducer function.
Lee mĂĄsPassing data deeply with context
Usually, you will pass information from a parent component to a child component via props. But passing props can become inconvenient if you need to pass some prop through many components, or if many components need the same information. Context lets the parent component make some information available to any component in the tree below itâno matter how deep it isâwithout passing it explicitly through props.
Here, the Heading
component determines its heading level by âaskingâ the closest Section
for its level. Each Section
tracks its own level by asking the parent Section
and adding one to it. Every Section
provides information to all components below it without passing propsâit does that through context.
import Heading from './Heading.js'; import Section from './Section.js'; export default function Page() { return ( <Section> <Heading>Title</Heading> <Section> <Heading>Heading</Heading> <Heading>Heading</Heading> <Heading>Heading</Heading> <Section> <Heading>Sub-heading</Heading> <Heading>Sub-heading</Heading> <Heading>Sub-heading</Heading> <Section> <Heading>Sub-sub-heading</Heading> <Heading>Sub-sub-heading</Heading> <Heading>Sub-sub-heading</Heading> </Section> </Section> </Section> </Section> ); }
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Read Passing Data Deeply with Context to learn about using context as an alternative to passing props.
Lee mĂĄsScaling up with reducer and context
Reducers let you consolidate a componentâs state update logic. Context lets you pass information deep down to other components. You can combine reducers and context together to manage state of a complex screen.
With this approach, a parent component with complex state manages it with a reducer. Other components anywhere deep in the tree can read its state via context. They can also dispatch actions to update that state.
import AddTask from './AddTask.js'; import TaskList from './TaskList.js'; import { TasksProvider } from './TasksContext.js'; export default function TaskApp() { return ( <TasksProvider> <h1>Day off in Kyoto</h1> <AddTask /> <TaskList /> </TasksProvider> ); }
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Read Scaling Up with Reducer and Context to learn how state management scales in a growing app.
Lee mĂĄsWhatâs next?
Head over to Reacting to Input with State to start reading this chapter page by page!
Or, if youâre already familiar with these topics, why not read about Escape Hatches?