React Development Skill

This skill provides comprehensive guidance for building modern React applications using hooks, components, state management, context, effects, and performance optimization techniques based on official React documentation from react.dev.

When to Use This Skill

Use this skill when:

• Building single-page applications (SPAs) with React

• Creating reusable UI components and component libraries

• Managing complex application state with hooks and context

• Implementing forms, data fetching, and side effects

• Optimizing React application performance

• Building interactive user interfaces with dynamic data

• Migrating class components to functional components with hooks

• Implementing global state management without external libraries

• Creating custom hooks for reusable logic

• Building accessible and performant web applications

Core Concepts

Components

Components are the building blocks of React applications. They let you split the UI into independent, reusable pieces.

Functional Components (Modern Approach):

function Welcome(props) { return <h1>Hello, {props.name}</h1>; }

// Arrow function syntax const Greeting = ({ name, age }) => { return ( <div> <h2>{name}</h2> <p>Age: {age}</p> </div> ); };

Component Composition:

function App() { return ( <div> <Welcome name="Sara" /> <Welcome name="Cahal" /> <Welcome name="Edite" /> </div> ); }

JSX

JSX is a syntax extension for JavaScript that looks similar to HTML. It produces React elements.

JSX Fundamentals:

// Embedding expressions const name = 'Josh Perez'; const element = <h1>Hello, {name}</h1>;

// JSX attributes const image = <img src={user.avatarUrl} alt={user.name} />;

// JSX children const container = ( <div> <h1>Welcome</h1> <p>Get started with React</p> </div> );

// Conditional rendering const greeting = ( <div> {isLoggedIn ? <UserGreeting /> : <GuestGreeting />} </div> );

// Lists and keys const numbers = [1, 2, 3, 4, 5]; const listItems = numbers.map((number) => <li key={number.toString()}>{number}</li> );

Props

Props are arguments passed into React components. They are passed to components via HTML attributes.

Passing and Using Props:

function Product({ name, price, inStock }) { return ( <div className="product"> <h3>{name}</h3> <p>${price}</p> {inStock ? <span>In Stock</span> : <span>Out of Stock</span>} </div> ); }

// Usage <Product name="Laptop" price={999} inStock={true} />

Props with Children:

function Card({ title, children }) { return ( <div className="card"> <h2>{title}</h2> <div className="card-content"> {children} </div> </div> ); }

// Usage <Card title="Welcome"> <p>This is the card content</p> <button>Click me</button> </Card>

Default Props:

function Button({ text = 'Click me', variant = 'primary' }) { return <button className={variant}>{text}</button>; }

State

State is a component's memory. It lets components remember information and respond to user interactions.

Local Component State:

import { useState } from 'react';

function Counter() { const [count, setCount] = useState(0);

return ( <div> <p>Count: {count}</p> <button onClick={() => setCount(count + 1)}>Increment</button> <button onClick={() => setCount(count - 1)}>Decrement</button> <button onClick={() => setCount(0)}>Reset</button> </div> ); }

React Hooks

Hooks let you use state and other React features in functional components.

useState

The useState hook lets you add state to functional components.

Basic Usage:

import { useState } from 'react';

function Form() { const [name, setName] = useState(''); const [email, setEmail] = useState('');

const handleSubmit = (e) => { e.preventDefault(); console.log({ name, email }); };

return ( <form onSubmit={handleSubmit}> <input value={name} onChange={(e) => setName(e.target.value)} placeholder="Name" /> <input value={email} onChange={(e) => setEmail(e.target.value)} placeholder="Email" type="email" /> <button type="submit">Submit</button> </form> ); }

State with Objects:

function UserProfile() { const [user, setUser] = useState({ name: '', age: 0, email: '' });

const updateField = (field, value) => { setUser(prev => ({ ...prev, [field]: value })); };

return ( <div> <input value={user.name} onChange={(e) => updateField('name', e.target.value)} /> <input type="number" value={user.age} onChange={(e) => updateField('age', parseInt(e.target.value))} /> <input type="email" value={user.email} onChange={(e) => updateField('email', e.target.value)} /> </div> ); }

State with Arrays:

function TodoList() { const [todos, setTodos] = useState([]); const [input, setInput] = useState('');

const addTodo = () => { setTodos(prev => [...prev, { id: Date.now(), text: input }]); setInput(''); };

const removeTodo = (id) => { setTodos(prev => prev.filter(todo => todo.id !== id)); };

return ( <div> <input value={input} onChange={(e) => setInput(e.target.value)} /> <button onClick={addTodo}>Add</button> <ul> {todos.map(todo => ( <li key={todo.id}> {todo.text} <button onClick={() => removeTodo(todo.id)}>Delete</button> </li> ))} </ul> </div> ); }

useEffect

The useEffect hook lets you perform side effects in functional components.

Basic Side Effects:

import { useState, useEffect } from 'react';

function DocumentTitle() { const [count, setCount] = useState(0);

useEffect(() => { document.title = Count: ${count}; }, [count]);

return ( <button onClick={() => setCount(count + 1)}> Clicked {count} times </button> ); }

Data Fetching:

function UserData({ userId }) { const [user, setUser] = useState(null); const [loading, setLoading] = useState(true); const [error, setError] = useState(null);

useEffect(() => { let cancelled = false;

async function fetchUser() {
  try {
    setLoading(true);
    const response = await fetch(`/api/users/${userId}`);
    const data = await response.json();

    if (!cancelled) {
      setUser(data);
      setError(null);
    }
  } catch (err) {
    if (!cancelled) {
      setError(err.message);
    }
  } finally {
    if (!cancelled) {
      setLoading(false);
    }
  }
}

fetchUser();

return () => {
  cancelled = true;
};

}, [userId]);

if (loading) return <div>Loading...</div>; if (error) return <div>Error: {error}</div>;

return <div>{user?.name}</div>; }

Event Listeners and Cleanup:

function WindowSize() { const [size, setSize] = useState({ width: window.innerWidth, height: window.innerHeight });

useEffect(() => { function handleResize() { setSize({ width: window.innerWidth, height: window.innerHeight }); }

window.addEventListener('resize', handleResize);

// Cleanup function
return () => {
  window.removeEventListener('resize', handleResize);
};

}, []); // Empty dependency array = run once on mount

return <div>{size.width} x {size.height}</div>; }

Timers and Intervals:

function Timer() { const [seconds, setSeconds] = useState(0); const [isRunning, setIsRunning] = useState(false);

useEffect(() => { if (!isRunning) return;

const interval = setInterval(() => {
  setSeconds(s => s + 1);
}, 1000);

return () => clearInterval(interval);

}, [isRunning]);

return ( <div> <p>Seconds: {seconds}</p> <button onClick={() => setIsRunning(!isRunning)}> {isRunning ? 'Pause' : 'Start'} </button> <button onClick={() => setSeconds(0)}>Reset</button> </div> ); }

useContext

The useContext hook lets you read and subscribe to context from your component.

Creating and Using Context:

import { createContext, useContext, useState } from 'react';

const ThemeContext = createContext('light');

function App() { const [theme, setTheme] = useState('light');

return ( <ThemeContext.Provider value={theme}> <Toolbar /> <button onClick={() => setTheme(theme === 'light' ? 'dark' : 'light')}> Toggle Theme </button> </ThemeContext.Provider> ); }

function Toolbar() { return ( <div> <ThemedButton /> </div> ); }

function ThemedButton() { const theme = useContext(ThemeContext);

return ( <button className={theme}> I am styled by {theme} theme </button> ); }

Multiple Contexts:

const ThemeContext = createContext('light'); const UserContext = createContext(null);

function App() { const [theme, setTheme] = useState('light'); const [currentUser, setCurrentUser] = useState({ name: 'John', role: 'admin' });

return ( <ThemeContext.Provider value={theme}> <UserContext.Provider value={currentUser}> <Dashboard /> </UserContext.Provider> </ThemeContext.Provider> ); }

function Dashboard() { const theme = useContext(ThemeContext); const user = useContext(UserContext);

return ( <div className={theme}> <h1>Welcome, {user.name}</h1> <p>Role: {user.role}</p> </div> ); }

useReducer

The useReducer hook is an alternative to useState for managing complex state logic.

Basic Reducer Pattern:

import { useReducer } from 'react';

function counterReducer(state, action) { switch (action.type) { case 'increment': return { count: state.count + 1 }; case 'decrement': return { count: state.count - 1 }; case 'reset': return { count: 0 }; default: throw new Error(Unknown action: ${action.type}); } }

function Counter() { const [state, dispatch] = useReducer(counterReducer, { count: 0 });

return ( <div> <p>Count: {state.count}</p> <button onClick={() => dispatch({ type: 'increment' })}>+</button> <button onClick={() => dispatch({ type: 'decrement' })}>-</button> <button onClick={() => dispatch({ type: 'reset' })}>Reset</button> </div> ); }

Complex State Management (Task List Pattern from Context7):

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); } } }

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} /> </> ); }

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 } ];

useMemo

The useMemo hook lets you cache the result of expensive calculations.

Memoizing Expensive Calculations:

import { useMemo, useState } from 'react';

function ProductList({ products, category }) { const [sortOrder, setSortOrder] = useState('asc');

const filteredAndSortedProducts = useMemo(() => { console.log('Filtering and sorting products...');

const filtered = products.filter(p => p.category === category);

return filtered.sort((a, b) => {
  if (sortOrder === 'asc') {
    return a.price - b.price;
  }
  return b.price - a.price;
});

}, [products, category, sortOrder]);

return ( <div> <button onClick={() => setSortOrder(sortOrder === 'asc' ? 'desc' : 'asc')}> Sort: {sortOrder} </button> <ul> {filteredAndSortedProducts.map(product => ( <li key={product.id}>{product.name} - ${product.price}</li> ))} </ul> </div> ); }

Preventing Object Recreation:

function SearchResults({ query }) { const searchOptions = useMemo(() => ({ query, limit: 10, caseSensitive: false }), [query]);

// searchOptions object only recreated when query changes const results = useSearch(searchOptions);

return <ResultsList results={results} />; }

useCallback

The useCallback hook lets you cache a function definition between re-renders.

Memoizing Event Handlers:

import { useCallback, useState } from 'react';

function ProductPage({ productId }) { const [items, setItems] = useState([]);

const handleAddToCart = useCallback(() => { setItems(prevItems => [...prevItems, productId]); }, [productId]);

return <AddToCartButton onAdd={handleAddToCart} />; }

// Memoized child component const AddToCartButton = memo(({ onAdd }) => { console.log('Button rendered'); return <button onClick={onAdd}>Add to Cart</button>; });

Optimizing Child Components:

function TodoList() { const [todos, setTodos] = useState(initialTodos);

const handleToggle = useCallback((id) => { setTodos(prevTodos => prevTodos.map(todo => todo.id === id ? { ...todo, done: !todo.done } : todo ) ); }, []);

const handleDelete = useCallback((id) => { setTodos(prevTodos => prevTodos.filter(todo => todo.id !== id)); }, []);

return ( <ul> {todos.map(todo => ( <TodoItem key={todo.id} todo={todo} onToggle={handleToggle} onDelete={handleDelete} /> ))} </ul> ); }

useRef

The useRef hook lets you reference a value that's not needed for rendering.

Accessing DOM Elements:

import { useRef } from 'react';

function TextInput() { const inputRef = useRef(null);

function handleClick() { inputRef.current.focus(); }

return ( <> <input ref={inputRef} /> <button onClick={handleClick}>Focus input</button> </> ); }

Storing Mutable Values:

function Stopwatch() { const [time, setTime] = useState(0); const intervalRef = useRef(null);

function handleStart() { intervalRef.current = setInterval(() => { setTime(t => t + 1); }, 10); }

function handleStop() { clearInterval(intervalRef.current); }

return ( <div> <p>Time: {(time / 100).toFixed(2)}s</p> <button onClick={handleStart}>Start</button> <button onClick={handleStop}>Stop</button> </div> ); }

Video Player Control (Context7 Pattern):

import { useRef, useState } from 'react';

function VideoPlayer({ src, isPlaying }) { const ref = useRef(null);

useEffect(() => { if (isPlaying) { ref.current.play(); } else { ref.current.pause(); } }, [isPlaying]);

return <video ref={ref} src={src} loop playsInline />; }

function App() { const [isPlaying, setIsPlaying] = useState(false);

return ( <> <button onClick={() => setIsPlaying(!isPlaying)}> {isPlaying ? 'Pause' : 'Play'} </button> <VideoPlayer isPlaying={isPlaying} src="https://interactive-examples.mdn.mozilla.net/media/cc0-videos/flower.mp4" /> </> ); }

State Management Patterns

Local State Pattern

Use local state for component-specific data that doesn't need to be shared.

function LoginForm() { const [formData, setFormData] = useState({ username: '', password: '', rememberMe: false }); const [errors, setErrors] = useState({}); const [isSubmitting, setIsSubmitting] = useState(false);

const handleChange = (field) => (e) => { const value = e.target.type === 'checkbox' ? e.target.checked : e.target.value; setFormData(prev => ({ ...prev, [field]: value })); };

const validate = () => { const newErrors = {}; if (!formData.username) newErrors.username = 'Required'; if (!formData.password) newErrors.password = 'Required'; return newErrors; };

const handleSubmit = async (e) => { e.preventDefault(); const newErrors = validate();

if (Object.keys(newErrors).length > 0) {
  setErrors(newErrors);
  return;
}

setIsSubmitting(true);
try {
  await login(formData);
} catch (error) {
  setErrors({ submit: error.message });
} finally {
  setIsSubmitting(false);
}

};

return ( <form onSubmit={handleSubmit}> <input value={formData.username} onChange={handleChange('username')} placeholder="Username" /> {errors.username && <span>{errors.username}</span>}

  <input
    type="password"
    value={formData.password}
    onChange={handleChange('password')}
    placeholder="Password"
  />
  {errors.password && <span>{errors.password}</span>}

  <label>
    <input
      type="checkbox"
      checked={formData.rememberMe}
      onChange={handleChange('rememberMe')}
    />
    Remember me
  </label>

  <button type="submit" disabled={isSubmitting}>
    {isSubmitting ? 'Logging in...' : 'Log in'}
  </button>

  {errors.submit && <div>{errors.submit}</div>}
</form>

); }

Context API Pattern

Use Context for global or widely-shared state like themes, user authentication, or preferences.

Theme Context with Provider:

import { createContext, useContext, useState } from 'react';

const ThemeContext = createContext(null);

export function ThemeProvider({ children }) { const [theme, setTheme] = useState('light');

const toggleTheme = () => { setTheme(prevTheme => prevTheme === 'light' ? 'dark' : 'light'); };

return ( <ThemeContext.Provider value={{ theme, toggleTheme }}> {children} </ThemeContext.Provider> ); }

export function useTheme() { const context = useContext(ThemeContext); if (!context) { throw new Error('useTheme must be used within ThemeProvider'); } return context; }

// Usage function App() { return ( <ThemeProvider> <Page /> </ThemeProvider> ); }

function Page() { const { theme, toggleTheme } = useTheme();

return ( <div className={page-${theme}}> <button onClick={toggleTheme}>Toggle Theme</button> </div> ); }

Reducer + Context Pattern (Context7 Best Practice)

Combine useReducer with Context for scalable state management.

Task Management with Reducer + Context:

import { createContext, useContext, useReducer } from 'react';

// Context for tasks data const TasksContext = createContext(null);

// Context for dispatch function const TasksDispatchContext = createContext(null);

export function TasksProvider({ children }) { const [tasks, dispatch] = useReducer(tasksReducer, initialTasks);

return ( <TasksContext.Provider value={tasks}> <TasksDispatchContext.Provider value={dispatch}> {children} </TasksDispatchContext.Provider> </TasksContext.Provider> ); }

export function useTasks() { return useContext(TasksContext); }

export function useTasksDispatch() { return useContext(TasksDispatchContext); }

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; } return t; }); } case 'deleted': { return tasks.filter(t => t.id !== action.id); } default: { throw Error('Unknown action: ' + action.type); } } }

const initialTasks = [ { id: 0, text: 'Philosopher's Path', done: true }, { id: 1, text: 'Visit the temple', done: false }, { id: 2, text: 'Drink matcha', done: false } ];

// Component using the pattern function AddTask() { const [text, setText] = useState(''); const dispatch = useTasksDispatch();

return ( <> <input placeholder="Add task" value={text} onChange={e => setText(e.target.value)} /> <button onClick={() => { setText(''); dispatch({ type: 'added', id: nextId++, text: text, }); }}>Add</button> </> ); }

function TaskList() { const tasks = useTasks(); return ( <ul> {tasks.map(task => ( <Task key={task.id} task={task} /> ))} </ul> ); }

function Task({ task }) { const [isEditing, setIsEditing] = useState(false); const dispatch = useTasksDispatch();

let taskContent; if (isEditing) { taskContent = ( <> <input value={task.text} onChange={e => { dispatch({ type: 'changed', task: { ...task, text: e.target.value } }); }} /> <button onClick={() => setIsEditing(false)}> Save </button> </> ); } else { taskContent = ( <> {task.text} <button onClick={() => setIsEditing(true)}> Edit </button> </> ); }

return ( <label> <input type="checkbox" checked={task.done} onChange={e => { dispatch({ type: 'changed', task: { ...task, done: e.target.checked } }); }} /> {taskContent} <button onClick={() => { dispatch({ type: 'deleted', id: task.id }); }}> Delete </button> </label> ); }

let nextId = 3;

Custom Hooks

Custom hooks let you extract component logic into reusable functions.

Basic Custom Hook

import { useState, useEffect } from 'react';

function useWindowSize() { const [size, setSize] = useState({ width: window.innerWidth, height: window.innerHeight });

useEffect(() => { function handleResize() { setSize({ width: window.innerWidth, height: window.innerHeight }); }

window.addEventListener('resize', handleResize);
return () => window.removeEventListener('resize', handleResize);

}, []);

return size; }

// Usage function Component() { const { width, height } = useWindowSize(); return <div>{width} x {height}</div>; }

Online Status Hook (Context7 Pattern)

import { useState, useEffect } from 'react';

function useOnlineStatus() { const [isOnline, setIsOnline] = useState(true);

useEffect(() => { function handleOnline() { setIsOnline(true); }

function handleOffline() {
  setIsOnline(false);
}

window.addEventListener('online', handleOnline);
window.addEventListener('offline', handleOffline);

return () => {
  window.removeEventListener('online', handleOnline);
  window.removeEventListener('offline', handleOffline);
};

}, []);

return isOnline; }

// Usage function StatusBar() { const isOnline = useOnlineStatus(); return <h1>{isOnline ? '✅ Online' : '❌ Disconnected'}</h1>; }

Form Hook

function useForm(initialValues, onSubmit) { const [values, setValues] = useState(initialValues); const [errors, setErrors] = useState({}); const [isSubmitting, setIsSubmitting] = useState(false);

const handleChange = (name, value) => { setValues(prev => ({ ...prev, [name]: value })); // Clear error when user starts typing if (errors[name]) { setErrors(prev => ({ ...prev, [name]: null })); } };

const handleSubmit = async (e) => { e.preventDefault(); setIsSubmitting(true);

try {
  await onSubmit(values);
} catch (error) {
  setErrors({ submit: error.message });
} finally {
  setIsSubmitting(false);
}

};

const reset = () => { setValues(initialValues); setErrors({}); };

return { values, errors, isSubmitting, handleChange, handleSubmit, setErrors, reset }; }

// Usage function ContactForm() { const { values, errors, isSubmitting, handleChange, handleSubmit } = useForm( { name: '', email: '', message: '' }, async (data) => { await fetch('/api/contact', { method: 'POST', body: JSON.stringify(data) }); } );

return ( <form onSubmit={handleSubmit}> <input value={values.name} onChange={(e) => handleChange('name', e.target.value)} /> {errors.name && <span>{errors.name}</span>}

  <input
    value={values.email}
    onChange={(e) => handleChange('email', e.target.value)}
  />
  {errors.email && <span>{errors.email}</span>}

  <textarea
    value={values.message}
    onChange={(e) => handleChange('message', e.target.value)}
  />
  {errors.message && <span>{errors.message}</span>}

  <button type="submit" disabled={isSubmitting}>
    {isSubmitting ? 'Sending...' : 'Send'}
  </button>
</form>

); }

Fetch Hook

function useFetch(url, options = {}) { const [data, setData] = useState(null); const [loading, setLoading] = useState(true); const [error, setError] = useState(null);

useEffect(() => { let cancelled = false;

async function fetchData() {
  try {
    setLoading(true);
    const response = await fetch(url, options);

    if (!response.ok) {
      throw new Error(`HTTP error! status: ${response.status}`);
    }

    const result = await response.json();

    if (!cancelled) {
      setData(result);
      setError(null);
    }
  } catch (err) {
    if (!cancelled) {
      setError(err.message);
      setData(null);
    }
  } finally {
    if (!cancelled) {
      setLoading(false);
    }
  }
}

fetchData();

return () => {
  cancelled = true;
};

}, [url, JSON.stringify(options)]);

return { data, loading, error }; }

// Usage function UserProfile({ userId }) { const { data, loading, error } = useFetch(/api/users/${userId});

if (loading) return <div>Loading...</div>; if (error) return <div>Error: {error}</div>;

return <div>{data.name}</div>; }

Local Storage Hook

function useLocalStorage(key, initialValue) { const [storedValue, setStoredValue] = useState(() => { try { const item = window.localStorage.getItem(key); return item ? JSON.parse(item) : initialValue; } catch (error) { console.error(error); return initialValue; } });

const setValue = (value) => { try { const valueToStore = value instanceof Function ? value(storedValue) : value; setStoredValue(valueToStore); window.localStorage.setItem(key, JSON.stringify(valueToStore)); } catch (error) { console.error(error); } };

return [storedValue, setValue]; }

// Usage function Settings() { const [theme, setTheme] = useLocalStorage('theme', 'light'); const [fontSize, setFontSize] = useLocalStorage('fontSize', 16);

return ( <div> <select value={theme} onChange={(e) => setTheme(e.target.value)}> <option value="light">Light</option> <option value="dark">Dark</option> </select>

  <input
    type="number"
    value={fontSize}
    onChange={(e) => setFontSize(parseInt(e.target.value))}
  />
</div>

); }

Performance Optimization

React.memo

Memoize components to prevent unnecessary re-renders.

import { memo } from 'react';

const ExpensiveComponent = memo(function ExpensiveComponent({ data, onAction }) { console.log('Rendering expensive component');

return ( <div> {data.map(item => ( <div key={item.id}>{item.name}</div> ))} <button onClick={onAction}>Action</button> </div> ); });

// With custom comparison const CustomMemoComponent = memo( function Component({ user }) { return <div>{user.name}</div>; }, (prevProps, nextProps) => { // Return true if props are equal (skip re-render) return prevProps.user.id === nextProps.user.id; } );

Lazy Loading

Load components on demand to reduce initial bundle size.

import { lazy, Suspense } from 'react';

const HeavyComponent = lazy(() => import('./HeavyComponent')); const AdminPanel = lazy(() => import('./AdminPanel'));

function App() { return ( <div> <Suspense fallback={<div>Loading...</div>}> <HeavyComponent /> </Suspense> </div> ); }

// Lazy loading with routes function Dashboard() { const [showAdmin, setShowAdmin] = useState(false);

return ( <div> <button onClick={() => setShowAdmin(true)}> Show Admin Panel </button>

  {showAdmin && (
    <Suspense fallback={<Spinner />}>
      <AdminPanel />
    </Suspense>
  )}
</div>

); }

Code Splitting

Split your code into smaller chunks for better performance.

import { lazy, Suspense } from 'react'; import { BrowserRouter, Routes, Route } from 'react-router-dom';

const Home = lazy(() => import('./pages/Home')); const About = lazy(() => import('./pages/About')); const Dashboard = lazy(() => import('./pages/Dashboard'));

function App() { return ( <BrowserRouter> <Suspense fallback={<div>Loading page...</div>}> <Routes> <Route path="/" element={<Home />} /> <Route path="/about" element={<About />} /> <Route path="/dashboard" element={<Dashboard />} /> </Routes> </Suspense> </BrowserRouter> ); }

Virtual Scrolling

Render only visible items in large lists.

function VirtualList({ items, height, itemHeight }) { const [scrollTop, setScrollTop] = useState(0);

const startIndex = Math.floor(scrollTop / itemHeight); const endIndex = Math.min( startIndex + Math.ceil(height / itemHeight), items.length );

const visibleItems = items.slice(startIndex, endIndex);

const offsetY = startIndex * itemHeight; const totalHeight = items.length * itemHeight;

return ( <div style={{ height, overflow: 'auto' }} onScroll={(e) => setScrollTop(e.target.scrollTop)} > <div style={{ height: totalHeight, position: 'relative' }}> <div style={{ transform: translateY(${offsetY}px) }}> {visibleItems.map((item, index) => ( <div key={startIndex + index} style={{ height: itemHeight }} > {item} </div> ))} </div> </div> </div> ); }

Best Practices from Context7 Research

1. Proper Dependency Arrays

Always include all dependencies in useEffect, useMemo, and useCallback.

// ❌ Bad - missing dependencies useEffect(() => { fetchData(userId); }, []);

// ✅ Good - all dependencies included useEffect(() => { fetchData(userId); }, [userId]);

2. Cleanup Functions

Always cleanup side effects to prevent memory leaks.

useEffect(() => { const subscription = api.subscribe(id);

return () => { subscription.unsubscribe(); }; }, [id]);

3. Separate Concerns

Split context for data and dispatch to optimize re-renders.

// ✅ Good - separate contexts const TasksContext = createContext(null); const TasksDispatchContext = createContext(null);

// Components that only dispatch won't re-render when tasks change function AddTask() { const dispatch = useTasksDispatch(); // No re-render when tasks change // ... }

4. Avoid Inline Object Creation

Use useMemo or useCallback to prevent unnecessary re-renders.

// ❌ Bad - new object on every render <Component style={{ margin: 10 }} />

// ✅ Good - memoized object const style = useMemo(() => ({ margin: 10 }), []); <Component style={style} />

5. State Updater Functions

Use updater functions when new state depends on previous state.

// ❌ Bad - may use stale state setCount(count + 1);

// ✅ Good - uses current state setCount(prevCount => prevCount + 1);

6. Extract Complex Logic

Move complex state logic to reducers or custom hooks.

// ✅ Good - complex logic in reducer function cartReducer(state, action) { switch (action.type) { case 'add_item': // Complex logic here return newState; case 'remove_item': // Complex logic here return newState; default: return state; } }

7. Key Props for Lists

Always provide unique keys for list items.

// ❌ Bad - using index as key {items.map((item, index) => <div key={index}>{item}</div>)}

// ✅ Good - using unique ID {items.map(item => <div key={item.id}>{item.text}</div>)}

8. Controlled Components

Prefer controlled components for form inputs.

function Form() { const [value, setValue] = useState('');

return ( <input value={value} onChange={(e) => setValue(e.target.value)} /> ); }

9. Error Boundaries

Implement error boundaries to catch and handle errors gracefully.

class ErrorBoundary extends React.Component { constructor(props) { super(props); this.state = { hasError: false, error: null }; }

static getDerivedStateFromError(error) { return { hasError: true, error }; }

componentDidCatch(error, errorInfo) { console.error('Error caught:', error, errorInfo); }

render() { if (this.state.hasError) { return <h1>Something went wrong.</h1>; }

return this.props.children;

} }

// Usage <ErrorBoundary> <MyComponent /> </ErrorBoundary>

10. Prop Types or TypeScript

Use PropTypes or TypeScript for type checking.

import PropTypes from 'prop-types';

function User({ name, age, email }) { return <div>{name} ({age})</div>; }

User.propTypes = { name: PropTypes.string.isRequired, age: PropTypes.number.isRequired, email: PropTypes.string };

User.defaultProps = { email: 'no-email@example.com' };

Additional Examples

Example 1: Multi-Step Form

function MultiStepForm() { const [step, setStep] = useState(1); const [formData, setFormData] = useState({ personalInfo: {}, address: {}, preferences: {} });

const updateFormData = (section, data) => { setFormData(prev => ({ ...prev, [section]: { ...prev[section], ...data } })); };

const nextStep = () => setStep(s => s + 1); const prevStep = () => setStep(s => s - 1);

return ( <div> {step === 1 && ( <PersonalInfoStep data={formData.personalInfo} onNext={(data) => { updateFormData('personalInfo', data); nextStep(); }} /> )} {step === 2 && ( <AddressStep data={formData.address} onNext={(data) => { updateFormData('address', data); nextStep(); }} onPrev={prevStep} /> )} {step === 3 && ( <PreferencesStep data={formData.preferences} onSubmit={(data) => { updateFormData('preferences', data); submitForm({ ...formData, preferences: data }); }} onPrev={prevStep} /> )} </div> ); }

Example 2: Infinite Scroll

function InfiniteScroll() { const [items, setItems] = useState([]); const [page, setPage] = useState(1); const [loading, setLoading] = useState(false); const [hasMore, setHasMore] = useState(true);

const loadMore = useCallback(async () => { if (loading || !hasMore) return;

setLoading(true);
try {
  const newItems = await fetchItems(page);
  setItems(prev => [...prev, ...newItems]);
  setHasMore(newItems.length > 0);
  setPage(p => p + 1);
} finally {
  setLoading(false);
}

}, [page, loading, hasMore]);

useEffect(() => { const handleScroll = () => { if ( window.innerHeight + window.scrollY >= document.documentElement.scrollHeight - 500 ) { loadMore(); } };

window.addEventListener('scroll', handleScroll);
return () => window.removeEventListener('scroll', handleScroll);

}, [loadMore]);

return ( <div> {items.map(item => <Item key={item.id} data={item} />)} {loading && <div>Loading...</div>} {!hasMore && <div>No more items</div>} </div> ); }

Example 3: Debounced Search

function useDebounce(value, delay) { const [debouncedValue, setDebouncedValue] = useState(value);

useEffect(() => { const handler = setTimeout(() => { setDebouncedValue(value); }, delay);

return () => {
  clearTimeout(handler);
};

}, [value, delay]);

return debouncedValue; }

function SearchComponent() { const [searchTerm, setSearchTerm] = useState(''); const debouncedSearchTerm = useDebounce(searchTerm, 500); const [results, setResults] = useState([]);

useEffect(() => { if (debouncedSearchTerm) { searchAPI(debouncedSearchTerm).then(setResults); } else { setResults([]); } }, [debouncedSearchTerm]);

return ( <div> <input value={searchTerm} onChange={(e) => setSearchTerm(e.target.value)} placeholder="Search..." /> <ul> {results.map(result => ( <li key={result.id}>{result.title}</li> ))} </ul> </div> ); }

Example 4: Modal with Portal

import { createPortal } from 'react-dom';

function Modal({ isOpen, onClose, children }) { if (!isOpen) return null;

return createPortal( <div className="modal-overlay" onClick={onClose}> <div className="modal-content" onClick={(e) => e.stopPropagation()}> <button className="close-button" onClick={onClose}>×</button> {children} </div> </div>, document.body ); }

// Usage function App() { const [isModalOpen, setIsModalOpen] = useState(false);

return ( <div> <button onClick={() => setIsModalOpen(true)}>Open Modal</button> <Modal isOpen={isModalOpen} onClose={() => setIsModalOpen(false)}> <h2>Modal Content</h2> <p>This is a modal dialog</p> </Modal> </div> ); }

Example 5: Drag and Drop

function DragDropList() { const [items, setItems] = useState([ { id: 1, text: 'Item 1' }, { id: 2, text: 'Item 2' }, { id: 3, text: 'Item 3' } ]);

const [draggedItem, setDraggedItem] = useState(null);

const handleDragStart = (item) => { setDraggedItem(item); };

const handleDragOver = (e) => { e.preventDefault(); };

const handleDrop = (targetItem) => { if (!draggedItem || draggedItem.id === targetItem.id) return;

const draggedIndex = items.findIndex(i => i.id === draggedItem.id);
const targetIndex = items.findIndex(i => i.id === targetItem.id);

const newItems = [...items];
newItems.splice(draggedIndex, 1);
newItems.splice(targetIndex, 0, draggedItem);

setItems(newItems);
setDraggedItem(null);

};

return ( <ul> {items.map(item => ( <li key={item.id} draggable onDragStart={() => handleDragStart(item)} onDragOver={handleDragOver} onDrop={() => handleDrop(item)} > {item.text} </li> ))} </ul> ); }

Summary

This React development skill covers:

• Core Concepts: Components, JSX, Props, State

• Essential Hooks: useState, useEffect, useContext, useReducer, useMemo, useCallback, useRef

• State Management: Local state, Context API, Reducer + Context pattern

• Custom Hooks: Reusable logic extraction patterns

• Performance: Memoization, lazy loading, code splitting, virtual scrolling

• Best Practices: From Context7 research including proper dependencies, cleanup, separation of concerns

• Real-world Examples: Forms, infinite scroll, search, modals, drag-and-drop

The patterns and examples are based on official React documentation (Trust Score: 10) and represent modern React development practices focusing on functional components and hooks.