Top 30 perguntas de entrevista React Native: guia completo 2026
As 30 perguntas mais frequentes em entrevistas de React Native. Respostas detalhadas com exemplos de código para conquistar sua vaga de desenvolvedor mobile.
As entrevistas técnicas de React Native avaliam habilidades de desenvolvimento mobile multiplataforma, particularidades de iOS/Android e padrões de performance. Este guia reúne as 30 perguntas mais frequentes, com respostas detalhadas e exemplos de código para uma preparação eficaz.
Dica de preparação
Estas perguntas vão dos fundamentos até conceitos avançados. Dominar a arquitetura do React Native e entender as diferenças em relação ao React web é essencial para se sair bem na entrevista.
Fundamentos do React Native
1. Qual é a diferença entre React e React Native?
React é uma biblioteca para construir interfaces web, enquanto React Native permite o desenvolvimento de aplicativos móveis nativos para iOS e Android.
A diferença fundamental está no rendering: o React utiliza um Virtual DOM que é traduzido em elementos HTML, enquanto o React Native usa uma ponte que se comunica com componentes nativos em cada plataforma.
jsx
// React (Web) - uses HTML elements
function WebComponent() {
return (
<div className="container">
<span>Web text</span>
<button onClick={handleClick}>Click</button>
</div>
)
}
// React Native - uses native components
import { View, Text, TouchableOpacity, StyleSheet } from 'react-native'
function NativeComponent() {
return (
<View style={styles.container}>
<Text>Native text</Text>
<TouchableOpacity onPress={handlePress}>
<Text>Press</Text>
</TouchableOpacity>
</View>
)
}
const styles = StyleSheet.create({
container: {
flex: 1,
padding: 16
}
})Os componentes do React Native são traduzidos em UIView no iOS e em android.view no Android, entregando performance nativa.
2. Como funciona a arquitetura do React Native?
O React Native utiliza uma arquitetura em três camadas: JavaScript, Bridge (ou JSI na nova arquitetura) e Native.
O código JavaScript roda em uma engine JS (Hermes ou JavaScriptCore). A comunicação com o código nativo passa por serialização JSON na arquitetura antiga ou pelo JSI (JavaScript Interface) na nova arquitetura.
jsx
// Old architecture: asynchronous communication via Bridge
// The Bridge serializes messages as JSON between JS and Native
// New architecture (Fabric + TurboModules)
// JSI enables synchronous direct calls to native modules
// Example TurboModule usage
import { TurboModuleRegistry } from 'react-native'
// Synchronous access to native module
const DeviceInfo = TurboModuleRegistry.get('DeviceInfo')
const deviceName = DeviceInfo.getDeviceName() // Synchronous call
// With Fabric, rendering is smoother
// Components can be created synchronously
// Reducing jank during animationsA nova arquitetura melhora consideravelmente a performance ao eliminar a serialização JSON e ao habilitar chamadas síncronas.
3. O que é o bundler Metro?
Metro é o bundler JavaScript usado pelo React Native. Ele transforma o código-fonte em um bundle otimizado para execução em dispositivos móveis.
O Metro cuida da resolução de módulos, da transformação de código (via Babel) e do hot reloading durante o desenvolvimento.
metro.config.jsjavascript
const { getDefaultConfig } = require('expo/metro-config')
const config = getDefaultConfig(__dirname)
// Custom configuration
config.resolver.assetExts.push('db') // Add extensions
config.resolver.sourceExts.push('cjs') // CommonJS support
// Transformer configuration
config.transformer.babelTransformerPath = require.resolve(
'react-native-svg-transformer'
)
// Production optimizations
config.transformer.minifierConfig = {
keep_classnames: true,
keep_fnames: true,
mangle: {
keep_classnames: true,
keep_fnames: true
}
}
module.exports = configO Metro suporta Fast Refresh, possibilitando alterações instantâneas sem perder o estado da aplicação.
4. Explique o StyleSheet.create e seus benefícios
StyleSheet.create otimiza estilos validando-os e convertendo-os em referências numéricas, reduzindo o overhead da ponte.
jsx
// ❌ Inline styles - recreated on every render
function BadExample() {
return (
<View style={{ flex: 1, padding: 16, backgroundColor: '#fff' }}>
<Text style={{ fontSize: 18, fontWeight: 'bold' }}>Title</Text>
</View>
)
}
// ✅ StyleSheet.create - optimized and validated
const styles = StyleSheet.create({
container: {
flex: 1,
padding: 16,
backgroundColor: '#fff'
},
title: {
fontSize: 18,
fontWeight: 'bold'
},
// Style composition
row: {
flexDirection: 'row',
alignItems: 'center',
gap: 8
}
})
function GoodExample() {
return (
<View style={styles.container}>
<Text style={styles.title}>Title</Text>
{/* Style combination */}
<View style={[styles.row, { marginTop: 10 }]}>
<Text>Content</Text>
</View>
</View>
)
}
// StyleSheet.absoluteFillObject for absolute positioning
const overlayStyles = StyleSheet.create({
overlay: {
...StyleSheet.absoluteFillObject,
backgroundColor: 'rgba(0,0,0,0.5)'
}
})5. Qual é a diferença entre Flexbox web e React Native?
O React Native usa Flexbox, mas com valores padrão diferentes da web, adaptados às interfaces móveis verticais.
jsx
// Key differences from web
const styles = StyleSheet.create({
container: {
// flexDirection: 'column' by default (vs 'row' on web)
// alignItems: 'stretch' by default
flex: 1
},
// React Native Flexbox
row: {
flexDirection: 'row', // Horizontal
justifyContent: 'space-between', // Main axis
alignItems: 'center', // Cross axis
flexWrap: 'wrap', // Line wrapping
gap: 8 // Supported since RN 0.71
},
// Flex grow/shrink
flexItem: {
flex: 1, // Equivalent to flex: 1 1 0
flexGrow: 1, // Grow to fill
flexShrink: 0, // Don't shrink
flexBasis: 100 // Base size
},
// Absolute positioning
absolute: {
position: 'absolute',
top: 0,
left: 0,
right: 0,
bottom: 0
}
})
// Practical example: card with image and content
function Card() {
return (
<View style={cardStyles.container}>
<Image source={{ uri: imageUrl }} style={cardStyles.image} />
<View style={cardStyles.content}>
<Text style={cardStyles.title}>Title</Text>
<Text style={cardStyles.description}>Description</Text>
</View>
</View>
)
}
const cardStyles = StyleSheet.create({
container: {
flexDirection: 'row',
backgroundColor: '#fff',
borderRadius: 8,
overflow: 'hidden'
},
image: {
width: 100,
height: 100
},
content: {
flex: 1, // Takes remaining space
padding: 12,
justifyContent: 'center'
},
title: {
fontSize: 16,
fontWeight: '600'
},
description: {
fontSize: 14,
color: '#666'
}
})Navegação e componentes
6. Como implementar navegação com React Navigation?
O React Navigation é a solução padrão para navegação no React Native. Ele oferece diversos tipos de navegadores adequados aos padrões mobile.
jsx
// Installing dependencies
// npm install @react-navigation/native @react-navigation/native-stack
// npm install react-native-screens react-native-safe-area-context
import { NavigationContainer } from '@react-navigation/native'
import { createNativeStackNavigator } from '@react-navigation/native-stack'
import { createBottomTabNavigator } from '@react-navigation/bottom-tabs'
// TypeScript typing for navigation params
type RootStackParamList = {
Home: undefined
Profile: { userId: string }
Settings: { section?: string }
}
const Stack = createNativeStackNavigator<RootStackParamList>()
const Tab = createBottomTabNavigator()
// Tab navigation
function TabNavigator() {
return (
<Tab.Navigator
screenOptions={({ route }) => ({
tabBarIcon: ({ focused, color, size }) => {
// Dynamic icon based on tab
const iconName = route.name === 'Home' ? 'home' : 'settings'
return <Icon name={iconName} size={size} color={color} />
},
tabBarActiveTintColor: '#007AFF',
tabBarInactiveTintColor: 'gray'
})}
>
<Tab.Screen name="Home" component={HomeScreen} />
<Tab.Screen name="Settings" component={SettingsScreen} />
</Tab.Navigator>
)
}
// Stack navigation
function App() {
return (
<NavigationContainer>
<Stack.Navigator
initialRouteName="Home"
screenOptions={{
headerStyle: { backgroundColor: '#007AFF' },
headerTintColor: '#fff',
animation: 'slide_from_right' // Native animation
}}
>
<Stack.Screen
name="Home"
component={TabNavigator}
options={{ headerShown: false }}
/>
<Stack.Screen
name="Profile"
component={ProfileScreen}
options={({ route }) => ({
title: `Profile ${route.params.userId}`
})}
/>
</Stack.Navigator>
</NavigationContainer>
)
}7. Como gerenciar listas performáticas com FlatList?
FlatList é otimizada para listas longas com virtualização automática, renderizando apenas os itens visíveis.
jsx
import { FlatList, RefreshControl } from 'react-native'
function ProductList() {
const [products, setProducts] = useState([])
const [refreshing, setRefreshing] = useState(false)
const [loading, setLoading] = useState(false)
// Initial loading
const fetchProducts = async (page = 1) => {
const response = await api.getProducts(page)
return response.data
}
// Pull-to-refresh
const onRefresh = useCallback(async () => {
setRefreshing(true)
const data = await fetchProducts(1)
setProducts(data)
setRefreshing(false)
}, [])
// Infinite pagination
const loadMore = useCallback(async () => {
if (loading) return
setLoading(true)
const nextPage = Math.ceil(products.length / 20) + 1
const data = await fetchProducts(nextPage)
setProducts(prev => [...prev, ...data])
setLoading(false)
}, [products.length, loading])
// Item rendering
const renderItem = useCallback(({ item }) => (
<ProductCard product={item} />
), [])
// Key extraction
const keyExtractor = useCallback((item) => item.id.toString(), [])
// Item separator
const ItemSeparator = useCallback(() => (
<View style={{ height: 12 }} />
), [])
return (
<FlatList
data={products}
renderItem={renderItem}
keyExtractor={keyExtractor}
ItemSeparatorComponent={ItemSeparator}
// Performance optimizations
removeClippedSubviews={true}
maxToRenderPerBatch={10}
updateCellsBatchingPeriod={50}
windowSize={5}
// Pull-to-refresh
refreshControl={
<RefreshControl
refreshing={refreshing}
onRefresh={onRefresh}
tintColor="#007AFF"
/>
}
// Infinite pagination
onEndReached={loadMore}
onEndReachedThreshold={0.5}
ListFooterComponent={loading ? <ActivityIndicator /> : null}
// Empty list
ListEmptyComponent={<EmptyState message="No products" />}
/>
)
}Otimização da FlatList
Memoize sempre renderItem com useCallback e extraia componentes pesados. Convém evitar funções inline em renderItem que causem renders desnecessários.
8. Qual é a diferença entre TouchableOpacity, Pressable e TouchableHighlight?
Esses componentes lidam com interações de toque oferecendo diferentes feedbacks visuais.
jsx
import {
TouchableOpacity,
TouchableHighlight,
Pressable,
StyleSheet
} from 'react-native'
function InteractionExamples() {
return (
<View style={styles.container}>
{/* TouchableOpacity: reduces opacity on touch */}
<TouchableOpacity
activeOpacity={0.7}
onPress={() => console.log('Pressed')}
style={styles.button}
>
<Text>TouchableOpacity</Text>
</TouchableOpacity>
{/* TouchableHighlight: adds background color */}
<TouchableHighlight
underlayColor="#ddd"
onPress={() => console.log('Pressed')}
style={styles.button}
>
<Text>TouchableHighlight</Text>
</TouchableHighlight>
{/* Pressable: modern API with more control */}
<Pressable
onPress={() => console.log('Pressed')}
onLongPress={() => console.log('Long press')}
delayLongPress={500}
style={({ pressed }) => [
styles.button,
pressed && styles.buttonPressed
]}
>
{({ pressed }) => (
<Text style={pressed && styles.textPressed}>
{pressed ? 'Pressed!' : 'Pressable'}
</Text>
)}
</Pressable>
{/* Pressable with hitSlop to enlarge touch area */}
<Pressable
hitSlop={{ top: 10, bottom: 10, left: 10, right: 10 }}
onPress={() => console.log('Pressed')}
style={styles.smallButton}
>
<Text>Small button</Text>
</Pressable>
</View>
)
}
const styles = StyleSheet.create({
container: {
gap: 16,
padding: 20
},
button: {
backgroundColor: '#007AFF',
padding: 16,
borderRadius: 8,
alignItems: 'center'
},
buttonPressed: {
backgroundColor: '#0056b3',
transform: [{ scale: 0.98 }]
},
textPressed: {
color: '#fff'
},
smallButton: {
padding: 8,
backgroundColor: '#eee'
}
})Pressable é recomendado para projetos novos por oferecer mais controle e uma API mais consistente.
9. Como criar animações fluidas?
O React Native fornece várias APIs de animação: Animated (nativa) e Reanimated (mais performática).
jsx
import { Animated, Easing } from 'react-native'
import Reanimated, {
useSharedValue,
useAnimatedStyle,
withSpring,
withTiming
} from 'react-native-reanimated'
// Animation with Animated (native API)
function FadeInView({ children }) {
const fadeAnim = useRef(new Animated.Value(0)).current
useEffect(() => {
Animated.timing(fadeAnim, {
toValue: 1,
duration: 500,
easing: Easing.ease,
useNativeDriver: true // Performant on UI thread
}).start()
}, [])
return (
<Animated.View style={{ opacity: fadeAnim }}>
{children}
</Animated.View>
)
}
// Animation with Reanimated (recommended for complex animations)
function BouncyButton() {
const scale = useSharedValue(1)
const animatedStyle = useAnimatedStyle(() => ({
transform: [{ scale: scale.value }]
}))
const handlePressIn = () => {
scale.value = withSpring(0.95, {
damping: 10,
stiffness: 400
})
}
const handlePressOut = () => {
scale.value = withSpring(1, {
damping: 10,
stiffness: 400
})
}
return (
<Pressable onPressIn={handlePressIn} onPressOut={handlePressOut}>
<Reanimated.View style={[styles.button, animatedStyle]}>
<Text style={styles.buttonText}>Press</Text>
</Reanimated.View>
</Pressable>
)
}
// List animation with LayoutAnimation
import { LayoutAnimation, UIManager, Platform } from 'react-native'
// Enable on Android
if (Platform.OS === 'android') {
UIManager.setLayoutAnimationEnabledExperimental?.(true)
}
function AnimatedList() {
const [items, setItems] = useState([])
const addItem = () => {
// Configure animation before state change
LayoutAnimation.configureNext(LayoutAnimation.Presets.spring)
setItems(prev => [...prev, { id: Date.now() }])
}
const removeItem = (id) => {
LayoutAnimation.configureNext(LayoutAnimation.Presets.easeInEaseOut)
setItems(prev => prev.filter(item => item.id !== id))
}
return (
<View>
<Button title="Add" onPress={addItem} />
{items.map(item => (
<TouchableOpacity key={item.id} onPress={() => removeItem(item.id)}>
<View style={styles.item}>
<Text>Item {item.id}</Text>
</View>
</TouchableOpacity>
))}
</View>
)
}Pronto para mandar bem nas entrevistas de React Native?
Pratique com nossos simuladores interativos, flashcards e testes tecnicos.
Estado e gerenciamento de dados
10. Como gerenciar estado global no React Native?
Aplicam-se as mesmas soluções do React web: Context API, Redux, Zustand ou MobX.
jsx
// Lightweight solution with Zustand
import { create } from 'zustand'
import { persist, createJSONStorage } from 'zustand/middleware'
import AsyncStorage from '@react-native-async-storage/async-storage'
// Store with persistence
const useAuthStore = create(
persist(
(set, get) => ({
user: null,
token: null,
isAuthenticated: false,
login: async (email, password) => {
const response = await api.login(email, password)
set({
user: response.user,
token: response.token,
isAuthenticated: true
})
},
logout: () => {
set({ user: null, token: null, isAuthenticated: false })
},
updateProfile: (updates) => {
set(state => ({
user: { ...state.user, ...updates }
}))
}
}),
{
name: 'auth-storage',
storage: createJSONStorage(() => AsyncStorage)
}
)
)
// Usage in a component
function ProfileScreen() {
const { user, logout, updateProfile } = useAuthStore()
if (!user) return <LoginPrompt />
return (
<View style={styles.container}>
<Text style={styles.name}>{user.name}</Text>
<Text style={styles.email}>{user.email}</Text>
<TouchableOpacity onPress={logout} style={styles.logoutButton}>
<Text>Logout</Text>
</TouchableOpacity>
</View>
)
}
// Cart store
const useCartStore = create((set, get) => ({
items: [],
addItem: (product) => set(state => {
const existing = state.items.find(i => i.id === product.id)
if (existing) {
return {
items: state.items.map(i =>
i.id === product.id
? { ...i, quantity: i.quantity + 1 }
: i
)
}
}
return { items: [...state.items, { ...product, quantity: 1 }] }
}),
removeItem: (id) => set(state => ({
items: state.items.filter(i => i.id !== id)
})),
getTotal: () => {
return get().items.reduce(
(sum, item) => sum + item.price * item.quantity,
0
)
},
clearCart: () => set({ items: [] })
}))11. Como fazer chamadas de API com gerenciamento de cache?
O React Query (TanStack Query) é a solução recomendada para gerenciar dados do servidor.
jsx
import { QueryClient, QueryClientProvider, useQuery, useMutation } from '@tanstack/react-query'
// Client configuration
const queryClient = new QueryClient({
defaultOptions: {
queries: {
staleTime: 5 * 60 * 1000, // 5 minutes
cacheTime: 30 * 60 * 1000, // 30 minutes
retry: 2,
refetchOnWindowFocus: false // Mobile doesn't have "window focus"
}
}
})
// Provider in App.tsx
function App() {
return (
<QueryClientProvider client={queryClient}>
<NavigationContainer>
<AppNavigator />
</NavigationContainer>
</QueryClientProvider>
)
}
// Custom hook for products
function useProducts(categoryId) {
return useQuery({
queryKey: ['products', categoryId],
queryFn: async () => {
const response = await fetch(`/api/products?category=${categoryId}`)
if (!response.ok) throw new Error('Network error')
return response.json()
},
enabled: !!categoryId // Don't execute if no categoryId
})
}
// Mutation with cache invalidation
function useAddToCart() {
const queryClient = useQueryClient()
return useMutation({
mutationFn: async (product) => {
const response = await fetch('/api/cart', {
method: 'POST',
body: JSON.stringify(product)
})
return response.json()
},
onSuccess: () => {
// Invalidate cart cache to force refetch
queryClient.invalidateQueries({ queryKey: ['cart'] })
},
onError: (error) => {
Alert.alert('Error', error.message)
}
})
}
// Usage in a component
function ProductListScreen({ categoryId }) {
const { data: products, isLoading, error, refetch } = useProducts(categoryId)
const addToCart = useAddToCart()
if (isLoading) return <LoadingSpinner />
if (error) return <ErrorView error={error} onRetry={refetch} />
return (
<FlatList
data={products}
renderItem={({ item }) => (
<ProductCard
product={item}
onAddToCart={() => addToCart.mutate(item)}
isAddingToCart={addToCart.isPending}
/>
)}
refreshing={isLoading}
onRefresh={refetch}
/>
)
}12. Como armazenar dados localmente?
Existem várias opções conforme o tipo de dado: AsyncStorage para dados simples, MMKV para performance e SQLite para dados estruturados.
jsx
// AsyncStorage - simple but slow for large volumes
import AsyncStorage from '@react-native-async-storage/async-storage'
const storage = {
async get(key) {
const value = await AsyncStorage.getItem(key)
return value ? JSON.parse(value) : null
},
async set(key, value) {
await AsyncStorage.setItem(key, JSON.stringify(value))
},
async remove(key) {
await AsyncStorage.removeItem(key)
},
async clear() {
await AsyncStorage.clear()
}
}
// MMKV - very performant (recommended)
import { MMKV } from 'react-native-mmkv'
const mmkv = new MMKV()
const fastStorage = {
get(key) {
const value = mmkv.getString(key)
return value ? JSON.parse(value) : null
},
set(key, value) {
mmkv.set(key, JSON.stringify(value))
},
remove(key) {
mmkv.delete(key)
},
// Primitive type support
getNumber(key) {
return mmkv.getNumber(key)
},
setNumber(key, value) {
mmkv.set(key, value)
},
getBoolean(key) {
return mmkv.getBoolean(key)
}
}
// Hook to use MMKV with React
function useMMKVStorage(key, defaultValue) {
const [value, setValue] = useState(() => {
const stored = fastStorage.get(key)
return stored ?? defaultValue
})
const setStoredValue = useCallback((newValue) => {
setValue(newValue)
fastStorage.set(key, newValue)
}, [key])
return [value, setStoredValue]
}
// Usage
function SettingsScreen() {
const [theme, setTheme] = useMMKVStorage('theme', 'light')
const [notifications, setNotifications] = useMMKVStorage('notifications', true)
return (
<View>
<Switch
value={theme === 'dark'}
onValueChange={(v) => setTheme(v ? 'dark' : 'light')}
/>
<Switch
value={notifications}
onValueChange={setNotifications}
/>
</View>
)
}Dados sensíveis
Para tokens e dados sensíveis, convém usar expo-secure-store ou react-native-keychain, que cifram as informações via Keychain (iOS) e Keystore (Android).
Performance e otimização
13. Como otimizar a performance de uma app React Native?
A otimização cobre vários aspectos: rendering, memória e interações.
1. Avoid unnecessary re-renders with React.memojsx
const ProductCard = React.memo(function ProductCard({ product, onPress }) {
return (
<TouchableOpacity onPress={() => onPress(product.id)}>
<View style={styles.card}>
<Image source={{ uri: product.image }} style={styles.image} />
<Text style={styles.title}>{product.name}</Text>
<Text style={styles.price}>{product.price}$</Text>
</View>
</TouchableOpacity>
)
}, (prevProps, nextProps) => {
// Custom comparison
return prevProps.product.id === nextProps.product.id
})
// 2. Memoize callbacks
function ProductList({ products }) {
// ❌ New function on every render
// onPress={(id) => handlePress(id)}
// ✅ Stable function
const handlePress = useCallback((id) => {
navigation.navigate('Product', { id })
}, [navigation])
return (
<FlatList
data={products}
renderItem={({ item }) => (
<ProductCard product={item} onPress={handlePress} />
)}
/>
)
}
// 3. Optimize images
import FastImage from 'react-native-fast-image'
function OptimizedImage({ uri }) {
return (
<FastImage
source={{
uri,
priority: FastImage.priority.normal,
cache: FastImage.cacheControl.immutable
}}
style={styles.image}
resizeMode={FastImage.resizeMode.cover}
/>
)
}
// 4. Use InteractionManager for heavy tasks
import { InteractionManager } from 'react-native'
function HeavyScreen() {
const [data, setData] = useState(null)
useEffect(() => {
// Wait for animations to complete
const task = InteractionManager.runAfterInteractions(() => {
const result = performHeavyComputation()
setData(result)
})
return () => task.cancel()
}, [])
return data ? <DataView data={data} /> : <LoadingView />
}
// 5. Lazy loading screens
const HeavyScreen = React.lazy(() => import('./HeavyScreen'))
function Navigator() {
return (
<Stack.Navigator>
<Stack.Screen
name="Heavy"
component={HeavyScreen}
options={{ lazy: true }}
/>
</Stack.Navigator>
)
}14. Como depurar problemas de performance?
O React Native oferece diversas ferramentas para identificar gargalos.
1. Flipper - main debugging tooljsx
// Configuration in android/app/build.gradle and ios/Podfile
// See: https://fbflipper.com/
// 2. Console.time to measure operations
function fetchData() {
console.time('fetchData')
const data = await api.getData()
console.timeEnd('fetchData') // fetchData: 234ms
return data
}
// 3. Performance monitor (shake device → Show Perf Monitor)
// Shows JS and UI FPS
// 4. Hermes profiler for CPU
// Enable in metro.config.js
module.exports = {
transformer: {
hermesParser: true
}
}
// 5. Identify re-renders with why-did-you-render
// Installation: npm install @welldone-software/why-did-you-render
import React from 'react'
if (__DEV__) {
const whyDidYouRender = require('@welldone-software/why-did-you-render')
whyDidYouRender(React, {
trackAllPureComponents: true
})
}
// Mark a component to monitor
ProductCard.whyDidYouRender = true
// 6. Measure mount time
function useComponentTiming(componentName) {
const mountTime = useRef(Date.now())
useEffect(() => {
const duration = Date.now() - mountTime.current
console.log(`${componentName} mounted in ${duration}ms`)
return () => {
console.log(`${componentName} unmounted`)
}
}, [componentName])
}
// Usage
function MyComponent() {
useComponentTiming('MyComponent')
// ...
}15. Como tratar o modo offline?
O suporte offline exige uma estratégia de cache e sincronização.
jsx
import NetInfo from '@react-native-community/netinfo'
// Hook to monitor connectivity
function useNetworkStatus() {
const [isConnected, setIsConnected] = useState(true)
const [connectionType, setConnectionType] = useState(null)
useEffect(() => {
const unsubscribe = NetInfo.addEventListener(state => {
setIsConnected(state.isConnected)
setConnectionType(state.type)
})
return () => unsubscribe()
}, [])
return { isConnected, connectionType }
}
// Service with offline queue
class OfflineQueue {
constructor() {
this.queue = []
this.isProcessing = false
}
async add(action) {
this.queue.push({
id: Date.now(),
action,
timestamp: new Date().toISOString()
})
await this.persist()
}
async persist() {
await AsyncStorage.setItem('offline_queue', JSON.stringify(this.queue))
}
async load() {
const data = await AsyncStorage.getItem('offline_queue')
this.queue = data ? JSON.parse(data) : []
}
async process() {
if (this.isProcessing || this.queue.length === 0) return
this.isProcessing = true
const { isConnected } = await NetInfo.fetch()
if (!isConnected) {
this.isProcessing = false
return
}
while (this.queue.length > 0) {
const item = this.queue[0]
try {
await this.executeAction(item.action)
this.queue.shift()
await this.persist()
} catch (error) {
console.error('Failed to process action:', error)
break
}
}
this.isProcessing = false
}
async executeAction(action) {
switch (action.type) {
case 'CREATE_ORDER':
return api.createOrder(action.payload)
case 'UPDATE_PROFILE':
return api.updateProfile(action.payload)
default:
throw new Error(`Unknown action: ${action.type}`)
}
}
}
const offlineQueue = new OfflineQueue()
// Network status banner component
function NetworkBanner() {
const { isConnected } = useNetworkStatus()
if (isConnected) return null
return (
<View style={styles.banner}>
<Text style={styles.bannerText}>
Offline mode - Changes will be synchronized
</Text>
</View>
)
}Particularidades mobile
16. Como lidar com permissões no iOS e Android?
As permissões funcionam de forma diferente em cada plataforma. Bibliotecas como react-native-permissions unificam a API.
jsx
import { Platform, Alert, Linking } from 'react-native'
import {
check,
request,
PERMISSIONS,
RESULTS,
openSettings
} from 'react-native-permissions'
// Permission configuration per platform
const PERMISSION_TYPES = {
camera: Platform.select({
ios: PERMISSIONS.IOS.CAMERA,
android: PERMISSIONS.ANDROID.CAMERA
}),
photos: Platform.select({
ios: PERMISSIONS.IOS.PHOTO_LIBRARY,
android: PERMISSIONS.ANDROID.READ_MEDIA_IMAGES
}),
location: Platform.select({
ios: PERMISSIONS.IOS.LOCATION_WHEN_IN_USE,
android: PERMISSIONS.ANDROID.ACCESS_FINE_LOCATION
})
}
// Hook to manage permissions
function usePermission(type) {
const [status, setStatus] = useState(RESULTS.UNAVAILABLE)
const permission = PERMISSION_TYPES[type]
useEffect(() => {
check(permission).then(setStatus)
}, [permission])
const requestPermission = useCallback(async () => {
const result = await request(permission)
setStatus(result)
if (result === RESULTS.BLOCKED) {
Alert.alert(
'Permission required',
`This feature requires ${type} access. Do you want to open settings?`,
[
{ text: 'No', style: 'cancel' },
{ text: 'Open', onPress: openSettings }
]
)
}
return result
}, [permission, type])
return {
status,
isGranted: status === RESULTS.GRANTED,
isDenied: status === RESULTS.DENIED,
isBlocked: status === RESULTS.BLOCKED,
requestPermission
}
}
// Usage
function CameraButton() {
const { isGranted, requestPermission } = usePermission('camera')
const handlePress = async () => {
if (!isGranted) {
const result = await requestPermission()
if (result !== RESULTS.GRANTED) return
}
// Open camera
navigation.navigate('Camera')
}
return (
<TouchableOpacity onPress={handlePress}>
<Text>Take a photo</Text>
</TouchableOpacity>
)
}17. Como implementar push notifications?
Push notifications exigem configuração nativa e um backend para envio.
jsx
import messaging from '@react-native-firebase/messaging'
import notifee, { AndroidImportance } from '@notifee/react-native'
// Notification service
class NotificationService {
async initialize() {
// Request permission (iOS)
const authStatus = await messaging().requestPermission()
const enabled = authStatus === messaging.AuthorizationStatus.AUTHORIZED
if (enabled) {
// Get FCM token
const token = await messaging().getToken()
await this.registerToken(token)
// Listen for token changes
messaging().onTokenRefresh(this.registerToken)
// Create Android channel
await notifee.createChannel({
id: 'default',
name: 'Notifications',
importance: AndroidImportance.HIGH
})
}
return enabled
}
async registerToken(token) {
// Send token to backend
await api.registerPushToken(token)
}
// Setup handlers
setupHandlers() {
// Notification received in foreground
messaging().onMessage(async (remoteMessage) => {
await this.displayNotification(remoteMessage)
})
// Notification tapped (app in background)
messaging().onNotificationOpenedApp((remoteMessage) => {
this.handleNotificationPress(remoteMessage)
})
// App opened from notification (app closed)
messaging()
.getInitialNotification()
.then((remoteMessage) => {
if (remoteMessage) {
this.handleNotificationPress(remoteMessage)
}
})
}
async displayNotification(remoteMessage) {
const { title, body } = remoteMessage.notification
await notifee.displayNotification({
title,
body,
android: {
channelId: 'default',
pressAction: { id: 'default' }
},
data: remoteMessage.data
})
}
handleNotificationPress(remoteMessage) {
const { type, id } = remoteMessage.data
switch (type) {
case 'order':
navigation.navigate('OrderDetail', { orderId: id })
break
case 'message':
navigation.navigate('Chat', { conversationId: id })
break
}
}
}
// Usage in App.tsx
function App() {
useEffect(() => {
const notificationService = new NotificationService()
notificationService.initialize()
notificationService.setupHandlers()
}, [])
return <AppNavigator />
}18. Como tratar deep links?
Deep links permitem abrir o app em uma tela específica a partir de uma URL externa.
jsx
import { Linking } from 'react-native'
import { NavigationContainer } from '@react-navigation/native'
// Deep link configuration
const linking = {
prefixes: ['myapp://', 'https://myapp.com'],
config: {
screens: {
Home: 'home',
Product: {
path: 'product/:id',
parse: {
id: (id) => parseInt(id, 10)
}
},
Profile: 'profile/:userId?',
Settings: {
path: 'settings',
screens: {
Notifications: 'notifications',
Privacy: 'privacy'
}
}
}
},
// Custom function to get initial URL
async getInitialURL() {
// Check if app was opened via deep link
const url = await Linking.getInitialURL()
if (url) return url
// Check notifications
const message = await messaging().getInitialNotification()
if (message?.data?.link) return message.data.link
return null
},
// Subscribe to incoming links
subscribe(listener) {
// Standard deep links
const linkingSubscription = Linking.addEventListener('url', ({ url }) => {
listener(url)
})
// Links from notifications
const unsubscribeNotification = messaging().onNotificationOpenedApp(
(message) => {
const link = message.data?.link
if (link) listener(link)
}
)
return () => {
linkingSubscription.remove()
unsubscribeNotification()
}
}
}
// Usage
function App() {
return (
<NavigationContainer linking={linking} fallback={<LoadingScreen />}>
<Stack.Navigator>
<Stack.Screen name="Home" component={HomeScreen} />
<Stack.Screen name="Product" component={ProductScreen} />
<Stack.Screen name="Profile" component={ProfileScreen} />
</Stack.Navigator>
</NavigationContainer>
)
}
// Testing deep links
// myapp://product/123
// https://myapp.com/profile/user456Pronto para mandar bem nas entrevistas de React Native?
Pratique com nossos simuladores interativos, flashcards e testes tecnicos.
Código nativo e módulos
19. Quando e como escrever código nativo?
Código nativo é necessário para acessar funcionalidades indisponíveis em JavaScript ou para otimizar performance crítica.
jsx
// iOS - Native module in Swift
// ios/MyModule.swift
import Foundation
@objc(MyModule)
class MyModule: NSObject {
@objc
func getDeviceInfo(_ resolve: @escaping RCTPromiseResolveBlock,
rejecter reject: @escaping RCTPromiseRejectBlock) {
let info: [String: Any] = [
"model": UIDevice.current.model,
"systemVersion": UIDevice.current.systemVersion,
"name": UIDevice.current.name
]
resolve(info)
}
@objc
static func requiresMainQueueSetup() -> Bool {
return false
}
}
// ios/MyModule.m (Bridge)
#import <React/RCTBridgeModule.h>
@interface RCT_EXTERN_MODULE(MyModule, NSObject)
RCT_EXTERN_METHOD(getDeviceInfo:(RCTPromiseResolveBlock)resolve
rejecter:(RCTPromiseRejectBlock)reject)
@end
// Android - Native module in Kotlin
// android/app/src/main/java/com/myapp/MyModule.kt
package com.myapp
import com.facebook.react.bridge.*
class MyModule(reactContext: ReactApplicationContext) :
ReactContextBaseJavaModule(reactContext) {
override fun getName() = "MyModule"
@ReactMethod
fun getDeviceInfo(promise: Promise) {
val info = Arguments.createMap().apply {
putString("model", android.os.Build.MODEL)
putString("systemVersion", android.os.Build.VERSION.RELEASE)
putString("manufacturer", android.os.Build.MANUFACTURER)
}
promise.resolve(info)
}
}
// JavaScript - Using native module
import { NativeModules } from 'react-native'
const { MyModule } = NativeModules
async function getDeviceInfo() {
try {
const info = await MyModule.getDeviceInfo()
console.log('Device info:', info)
return info
} catch (error) {
console.error('Error getting device info:', error)
throw error
}
}20. O que é o Expo e quando usá-lo?
O Expo é um framework que simplifica o desenvolvimento em React Native ao gerenciar a configuração nativa.
jsx
// Expo benefits
// - No need for Android Studio or Xcode to start
// - OTA (over-the-air) updates without app stores
// - Rich SDK with preconfigured modules
// - EAS Build for cloud builds
// Creating an Expo project
// npx create-expo-app@latest MyApp
// Using Expo modules
import * as ImagePicker from 'expo-image-picker'
import * as Location from 'expo-location'
import * as Notifications from 'expo-notifications'
async function pickImage() {
// Request permission
const { status } = await ImagePicker.requestMediaLibraryPermissionsAsync()
if (status !== 'granted') {
alert('Permission denied')
return
}
// Open image picker
const result = await ImagePicker.launchImageLibraryAsync({
mediaTypes: ImagePicker.MediaTypeOptions.Images,
allowsEditing: true,
aspect: [4, 3],
quality: 0.8
})
if (!result.canceled) {
return result.assets[0].uri
}
}
// Build configuration
// app.json
{
"expo": {
"name": "MyApp",
"slug": "myapp",
"version": "1.0.0",
"orientation": "portrait",
"icon": "./assets/icon.png",
"splash": {
"image": "./assets/splash.png",
"resizeMode": "contain",
"backgroundColor": "#ffffff"
},
"ios": {
"supportsTablet": true,
"bundleIdentifier": "com.company.myapp"
},
"android": {
"adaptiveIcon": {
"foregroundImage": "./assets/adaptive-icon.png",
"backgroundColor": "#ffffff"
},
"package": "com.company.myapp"
},
"plugins": [
"expo-router",
[
"expo-camera",
{
"cameraPermission": "Allow camera access"
}
]
]
}
}
// When NOT to use Expo
// - Need for complex custom native modules
// - Integration with specific native SDKs
// - Total control over native configuration
// - Very lightweight application (Expo adds weight)21. Como funciona o Hot Reloading?
O Hot Reloading (Fast Refresh) permite aplicar mudanças instantaneamente sem perder o estado da aplicação.
jsx
// Fast Refresh preserves hooks state
function Counter() {
const [count, setCount] = useState(0)
// Modify this text and save
// The count state will be preserved
return (
<View>
<Text>Counter: {count}</Text>
<Button title="+1" onPress={() => setCount(c => c + 1)} />
</View>
)
}
// ⚠️ Cases where Fast Refresh does full reload
// 1. Syntax error
// 2. Modifying a class component
// 3. File with mixed non-component exports
// ❌ This file will do full reload because of mixed exports
export const API_URL = 'https://api.example.com'
export function MyComponent() { /* ... */ }
// ✅ Separate into distinct files
// constants.js
export const API_URL = 'https://api.example.com'
// MyComponent.js
export function MyComponent() { /* ... */ }
// Force remount if needed
// Add this comment at top of file:
// @refresh reset
// Metro configuration for Fast Refresh
// metro.config.js
module.exports = {
transformer: {
experimentalImportSupport: false,
inlineRequires: true
}
}Testes e qualidade
22. Como testar uma aplicação React Native?
Os testes em React Native usam Jest com bibliotecas especializadas em rendering e interações.
jsx
// Jest configuration
// jest.config.js
module.exports = {
preset: 'react-native',
setupFilesAfterEnv: ['@testing-library/jest-native/extend-expect'],
transformIgnorePatterns: [
'node_modules/(?!(react-native|@react-native|@react-navigation)/)'
],
moduleNameMapper: {
'\\.(jpg|jpeg|png|gif|webp|svg)$': '<rootDir>/__mocks__/fileMock.js'
}
}
// Component test with React Native Testing Library
import { render, screen, fireEvent, waitFor } from '@testing-library/react-native'
import { ProductCard } from './ProductCard'
describe('ProductCard', () => {
const mockProduct = {
id: '1',
name: 'iPhone 15',
price: 999,
image: 'https://example.com/iphone.jpg'
}
it('renders product information', () => {
render(<ProductCard product={mockProduct} />)
expect(screen.getByText('iPhone 15')).toBeOnTheScreen()
expect(screen.getByText('$999')).toBeOnTheScreen()
})
it('calls onPress when tapped', () => {
const onPress = jest.fn()
render(<ProductCard product={mockProduct} onPress={onPress} />)
fireEvent.press(screen.getByTestId('product-card'))
expect(onPress).toHaveBeenCalledWith('1')
})
it('shows loading state when adding to cart', async () => {
const onAddToCart = jest.fn(() => new Promise(r => setTimeout(r, 100)))
render(<ProductCard product={mockProduct} onAddToCart={onAddToCart} />)
fireEvent.press(screen.getByText('Add to cart'))
expect(screen.getByTestId('loading-indicator')).toBeOnTheScreen()
await waitFor(() => {
expect(screen.queryByTestId('loading-indicator')).not.toBeOnTheScreen()
})
})
})
// Navigation test
import { NavigationContainer } from '@react-navigation/native'
import { createNativeStackNavigator } from '@react-navigation/native-stack'
const Stack = createNativeStackNavigator()
function renderWithNavigation(component, { initialRouteName = 'Test' } = {}) {
return render(
<NavigationContainer>
<Stack.Navigator initialRouteName={initialRouteName}>
<Stack.Screen name="Test" component={component} />
<Stack.Screen name="Detail" component={DetailScreen} />
</Stack.Navigator>
</NavigationContainer>
)
}
// Custom hook test
import { renderHook, act } from '@testing-library/react-native'
import { useCounter } from './useCounter'
test('increments counter', () => {
const { result } = renderHook(() => useCounter(0))
act(() => {
result.current.increment()
})
expect(result.current.count).toBe(1)
})23. Como implementar testes E2E com Detox?
O Detox permite testar a aplicação em simuladores e emuladores reais.
jsx
// Installation
// npm install detox --save-dev
// detox init -r jest
// .detoxrc.js
module.exports = {
testRunner: {
args: {
$0: 'jest',
config: 'e2e/jest.config.js'
},
jest: {
setupTimeout: 120000
}
},
apps: {
'ios.debug': {
type: 'ios.app',
binaryPath: 'ios/build/MyApp.app',
build: 'xcodebuild -workspace ios/MyApp.xcworkspace -scheme MyApp -configuration Debug -sdk iphonesimulator -derivedDataPath ios/build'
},
'android.debug': {
type: 'android.apk',
binaryPath: 'android/app/build/outputs/apk/debug/app-debug.apk',
build: 'cd android && ./gradlew assembleDebug assembleAndroidTest -DtestBuildType=debug'
}
},
devices: {
simulator: {
type: 'ios.simulator',
device: { type: 'iPhone 15' }
},
emulator: {
type: 'android.emulator',
device: { avdName: 'Pixel_5_API_34' }
}
}
}
// e2e/login.test.js
describe('Login Flow', () => {
beforeAll(async () => {
await device.launchApp()
})
beforeEach(async () => {
await device.reloadReactNative()
})
it('should login successfully with valid credentials', async () => {
// Fill the form
await element(by.id('email-input')).typeText('test@example.com')
await element(by.id('password-input')).typeText('password123')
// Submit
await element(by.id('login-button')).tap()
// Verify navigation to dashboard
await waitFor(element(by.text('Welcome')))
.toBeVisible()
.withTimeout(5000)
})
it('should show error with invalid credentials', async () => {
await element(by.id('email-input')).typeText('wrong@example.com')
await element(by.id('password-input')).typeText('wrongpassword')
await element(by.id('login-button')).tap()
await expect(element(by.text('Invalid credentials'))).toBeVisible()
})
it('should navigate to forgot password', async () => {
await element(by.id('forgot-password-link')).tap()
await expect(element(by.text('Reset Password'))).toBeVisible()
})
})
// Detox commands
// detox build --configuration ios.debug
// detox test --configuration ios.debugDeploy e produção
24. Como gerenciar ambientes (dev, staging, prod)?
Gerenciar ambientes exige variáveis de configuração distintas.
jsx
// Option 1: react-native-config
// .env.development
API_URL=https://dev-api.myapp.com
ANALYTICS_KEY=dev_key
// .env.staging
API_URL=https://staging-api.myapp.com
ANALYTICS_KEY=staging_key
// .env.production
API_URL=https://api.myapp.com
ANALYTICS_KEY=prod_key
// Usage
import Config from 'react-native-config'
const api = {
baseUrl: Config.API_URL,
analyticsKey: Config.ANALYTICS_KEY
}
// Option 2: JavaScript configuration file
// config/index.js
const ENV = {
development: {
apiUrl: 'https://dev-api.myapp.com',
analyticsEnabled: false,
logLevel: 'debug'
},
staging: {
apiUrl: 'https://staging-api.myapp.com',
analyticsEnabled: true,
logLevel: 'info'
},
production: {
apiUrl: 'https://api.myapp.com',
analyticsEnabled: true,
logLevel: 'error'
}
}
const getEnv = () => {
if (__DEV__) return 'development'
// Logic to determine staging vs prod
return 'production'
}
export const config = ENV[getEnv()]
// Option 3: Expo with app.config.js
// app.config.js
export default ({ config }) => {
const env = process.env.APP_ENV || 'development'
const envConfig = {
development: {
apiUrl: 'https://dev-api.myapp.com',
bundleId: 'com.myapp.dev'
},
production: {
apiUrl: 'https://api.myapp.com',
bundleId: 'com.myapp'
}
}
return {
...config,
extra: {
...envConfig[env],
env
},
ios: {
bundleIdentifier: envConfig[env].bundleId
},
android: {
package: envConfig[env].bundleId
}
}
}25. Como publicar nas app stores?
A publicação envolve configuração de build, metadados e a submissão em si.
bash
# Option 1: EAS Build (Expo)
# Installation
npm install -g eas-cli
# Configuration
eas build:configure
# eas.json
{
"cli": {
"version": ">= 5.0.0"
},
"build": {
"development": {
"developmentClient": true,
"distribution": "internal"
},
"preview": {
"distribution": "internal",
"android": {
"buildType": "apk"
}
},
"production": {
"autoIncrement": true
}
},
"submit": {
"production": {
"ios": {
"appleId": "your@email.com",
"ascAppId": "1234567890"
},
"android": {
"serviceAccountKeyPath": "./google-services.json",
"track": "production"
}
}
}
}
# Production build
eas build --platform all --profile production
# Store submission
eas submit --platform all --profile production
# Option 2: Fastlane (React Native CLI)
# Gemfile
source "https://rubygems.org"
gem "fastlane"
# ios/fastlane/Fastfile
default_platform(:ios)
platform :ios do
desc "Deploy to TestFlight"
lane :beta do
increment_build_number(xcodeproj: "MyApp.xcodeproj")
build_app(scheme: "MyApp")
upload_to_testflight
end
desc "Deploy to App Store"
lane :release do
increment_build_number(xcodeproj: "MyApp.xcodeproj")
build_app(scheme: "MyApp")
upload_to_app_store(
skip_screenshots: true,
skip_metadata: true
)
end
end
# android/fastlane/Fastfile
default_platform(:android)
platform :android do
desc "Deploy to Play Store internal"
lane :beta do
gradle(task: "clean bundleRelease")
upload_to_play_store(
track: "internal",
aab: "app/build/outputs/bundle/release/app-release.aab"
)
end
end26. Como implementar atualizações OTA?
As atualizações Over-The-Air permitem distribuir código JavaScript sem passar pelas stores.
jsx
// With Expo Updates
import * as Updates from 'expo-updates'
async function checkForUpdates() {
if (__DEV__) return // Not in development
try {
const update = await Updates.checkForUpdateAsync()
if (update.isAvailable) {
// Download update
await Updates.fetchUpdateAsync()
// Ask user to restart
Alert.alert(
'Update available',
'A new version is available. Restart now?',
[
{ text: 'Later', style: 'cancel' },
{
text: 'Restart',
onPress: () => Updates.reloadAsync()
}
]
)
}
} catch (error) {
console.error('Update check error:', error)
}
}
// Automatic check on startup
function App() {
useEffect(() => {
checkForUpdates()
}, [])
return <AppNavigator />
}
// eas.json configuration for update channels
{
"build": {
"production": {
"channel": "production"
},
"preview": {
"channel": "preview"
}
}
}
// Command to publish an update
// eas update --branch production --message "Bug fix"
// With CodePush (Microsoft)
import codePush from 'react-native-code-push'
const codePushOptions = {
checkFrequency: codePush.CheckFrequency.ON_APP_RESUME,
installMode: codePush.InstallMode.ON_NEXT_RESTART
}
function App() {
return <AppNavigator />
}
export default codePush(codePushOptions)(App)Perguntas avançadas
27. Como otimizar o tempo de inicialização do app?
O tempo de inicialização é crítico para a experiência do usuário.
1. Enable Hermes (optimized JS engine)jsx
// android/app/build.gradle
project.ext.react = [
enableHermes: true
]
// ios/Podfile
:hermes_enabled => true
// 2. Lazy loading screens
const HeavyScreen = React.lazy(() => import('./HeavyScreen'))
// 3. Defer non-critical initializations
import { InteractionManager } from 'react-native'
function App() {
useEffect(() => {
// Execute after first render
InteractionManager.runAfterInteractions(() => {
// Initialize analytics
Analytics.init()
// Prefetch data
prefetchCriticalData()
})
}, [])
return <AppNavigator />
}
// 4. Optimize splash screen
import * as SplashScreen from 'expo-splash-screen'
// Prevent automatic hiding
SplashScreen.preventAutoHideAsync()
function App() {
const [appIsReady, setAppIsReady] = useState(false)
useEffect(() => {
async function prepare() {
try {
// Load critical resources
await Font.loadAsync(customFonts)
await Image.prefetch(criticalImages)
// Restore authentication
await restoreAuth()
} catch (e) {
console.warn(e)
} finally {
setAppIsReady(true)
}
}
prepare()
}, [])
const onLayoutRootView = useCallback(async () => {
if (appIsReady) {
// Hide splash screen
await SplashScreen.hideAsync()
}
}, [appIsReady])
if (!appIsReady) return null
return (
<View style={{ flex: 1 }} onLayout={onLayoutRootView}>
<AppNavigator />
</View>
)
}
// 5. Inline requires to defer imports
// metro.config.js
module.exports = {
transformer: {
inlineRequires: true
}
}
// Manual usage
function loadHeavyModule() {
const HeavyModule = require('./HeavyModule').default
return HeavyModule
}28. Como tratar a segurança em uma app React Native?
A segurança mobile exige várias camadas de proteção.
1. Secure storage for sensitive datajsx
import * as SecureStore from 'expo-secure-store'
// or
import * as Keychain from 'react-native-keychain'
async function saveToken(token) {
await SecureStore.setItemAsync('auth_token', token)
}
async function getToken() {
return await SecureStore.getItemAsync('auth_token')
}
// 2. Certificate pinning for network calls
// android/app/src/main/res/xml/network_security_config.xml
/*
<network-security-config>
<domain-config>
<domain includeSubdomains="true">api.myapp.com</domain>
<pin-set>
<pin digest="SHA-256">AAAAAA...</pin>
<pin digest="SHA-256">BBBBBB...</pin>
</pin-set>
</domain-config>
</network-security-config>
*/
// 3. Jailbreak/root detection
import JailMonkey from 'jail-monkey'
function SecurityCheck() {
useEffect(() => {
if (JailMonkey.isJailBroken()) {
Alert.alert(
'Insecure device',
'This application cannot run on a rooted/jailbroken device'
)
}
}, [])
}
// 4. Code obfuscation
// metro.config.js (for Hermes)
module.exports = {
transformer: {
minifierConfig: {
mangle: true,
output: {
ascii_only: true
}
}
}
}
// 5. Screenshot/recording protection
import { usePreventScreenCapture } from 'expo-screen-capture'
function SensitiveScreen() {
usePreventScreenCapture() // iOS only
return <View>{/* Sensitive data */}</View>
}
// 6. Session timeout
function useSessionTimeout(timeoutMs = 5 * 60 * 1000) {
const lastActivity = useRef(Date.now())
const { logout } = useAuth()
useEffect(() => {
const subscription = AppState.addEventListener('change', (state) => {
if (state === 'active') {
const elapsed = Date.now() - lastActivity.current
if (elapsed > timeoutMs) {
logout()
}
} else {
lastActivity.current = Date.now()
}
})
return () => subscription.remove()
}, [timeoutMs, logout])
}29. Como implementar acessibilidade?
A acessibilidade é fundamental para tornar o app utilizável por todos.
jsx
import { AccessibilityInfo } from 'react-native'
// 1. Basic accessibility props
function AccessibleButton({ label, onPress, disabled }) {
return (
<TouchableOpacity
onPress={onPress}
disabled={disabled}
accessible={true}
accessibilityLabel={label}
accessibilityRole="button"
accessibilityState={{ disabled }}
accessibilityHint={`Tap to ${label.toLowerCase()}`}
>
<Text>{label}</Text>
</TouchableOpacity>
)
}
// 2. Group elements for screen readers
function ProductCard({ product }) {
return (
<View
accessible={true}
accessibilityLabel={`${product.name}, ${product.price} dollars`}
>
<Image
source={{ uri: product.image }}
accessibilityIgnoresInvertColors={true}
/>
<Text>{product.name}</Text>
<Text>${product.price}</Text>
</View>
)
}
// 3. Announce dynamic changes
function NotificationBadge({ count }) {
useEffect(() => {
if (count > 0) {
AccessibilityInfo.announceForAccessibility(
`${count} new notification${count > 1 ? 's' : ''}`
)
}
}, [count])
return (
<View accessibilityLabel={`${count} notifications`}>
<Text>{count}</Text>
</View>
)
}
// 4. Detect accessibility preferences
function useAccessibilityPreferences() {
const [isScreenReaderEnabled, setIsScreenReaderEnabled] = useState(false)
const [isReduceMotionEnabled, setIsReduceMotionEnabled] = useState(false)
useEffect(() => {
AccessibilityInfo.isScreenReaderEnabled().then(setIsScreenReaderEnabled)
AccessibilityInfo.isReduceMotionEnabled().then(setIsReduceMotionEnabled)
const screenReaderListener = AccessibilityInfo.addEventListener(
'screenReaderChanged',
setIsScreenReaderEnabled
)
const reduceMotionListener = AccessibilityInfo.addEventListener(
'reduceMotionChanged',
setIsReduceMotionEnabled
)
return () => {
screenReaderListener.remove()
reduceMotionListener.remove()
}
}, [])
return { isScreenReaderEnabled, isReduceMotionEnabled }
}
// 5. Adapt animations based on preferences
function AnimatedComponent() {
const { isReduceMotionEnabled } = useAccessibilityPreferences()
const animation = useSharedValue(0)
useEffect(() => {
animation.value = withTiming(1, {
duration: isReduceMotionEnabled ? 0 : 300
})
}, [isReduceMotionEnabled])
return <Animated.View style={animatedStyle} />
}30. Como estruturar um projeto React Native em larga escala?
Uma arquitetura clara facilita a manutenção e a escalabilidade.
text
// Recommended structure
src/
├── app/ # App configuration
│ ├── App.tsx
│ ├── Navigation.tsx
│ └── Providers.tsx
│
├── features/ # Feature modules
│ ├── auth/
│ │ ├── screens/
│ │ │ ├── LoginScreen.tsx
│ │ │ └── RegisterScreen.tsx
│ │ ├── components/
│ │ │ └── AuthForm.tsx
│ │ ├── hooks/
│ │ │ └── useAuth.ts
│ │ ├── services/
│ │ │ └── authService.ts
│ │ └── index.ts # Public export
│ │
│ ├── products/
│ │ ├── screens/
│ │ ├── components/
│ │ ├── hooks/
│ │ └── services/
│ │
│ └── cart/
│ └── ...
│
├── shared/ # Shared code
│ ├── components/
│ │ ├── Button.tsx
│ │ ├── Input.tsx
│ │ └── Card.tsx
│ ├── hooks/
│ │ ├── useDebounce.ts
│ │ └── useNetworkStatus.ts
│ ├── utils/
│ │ ├── format.ts
│ │ └── validation.ts
│ └── types/
│ └── index.ts
│
├── services/ # Global services
│ ├── api/
│ │ ├── client.ts
│ │ └── interceptors.ts
│ ├── storage/
│ │ └── secureStorage.ts
│ └── analytics/
│ └── analytics.ts
│
├── store/ # Global state
│ ├── slices/
│ └── index.ts
│
└── theme/ # Design system
├── colors.ts
├── typography.ts
├── spacing.ts
└── index.tsjsx
// Example feature module organization
// features/products/index.ts
export { ProductListScreen } from './screens/ProductListScreen'
export { ProductDetailScreen } from './screens/ProductDetailScreen'
export { useProducts } from './hooks/useProducts'
export { ProductCard } from './components/ProductCard'
// features/products/hooks/useProducts.ts
import { useQuery } from '@tanstack/react-query'
import { productService } from '../services/productService'
export function useProducts(categoryId?: string) {
return useQuery({
queryKey: ['products', categoryId],
queryFn: () => productService.getProducts(categoryId)
})
}
// features/products/services/productService.ts
import { apiClient } from '@/services/api/client'
import { Product } from '../types'
export const productService = {
async getProducts(categoryId?: string): Promise<Product[]> {
const params = categoryId ? { category: categoryId } : {}
const response = await apiClient.get('/products', { params })
return response.data
},
async getProduct(id: string): Promise<Product> {
const response = await apiClient.get(`/products/${id}`)
return response.data
}
}
// Import alias configuration
// babel.config.js
module.exports = {
presets: ['module:@react-native/babel-preset'],
plugins: [
[
'module-resolver',
{
alias: {
'@': './src',
'@features': './src/features',
'@shared': './src/shared',
'@services': './src/services'
}
}
]
]
}Conclusão
Estas 30 perguntas cobrem o conhecimento essencial de React Native esperado em entrevistas. Pontos-chave para dominar:
- Arquitetura: entender a bridge, o JSI e a nova arquitetura
- Componentes: navegação, listas performáticas, animações
- Estado e dados: Zustand/Redux, React Query, armazenamento local
- Performance: otimização de FlatList, memoização, profiling
- Particularidades mobile: permissões, notificações, deep links
- Testes: Jest, Testing Library, Detox
- Deploy: EAS Build, stores, atualizações OTA
- Segurança e acessibilidade: armazenamento seguro, conformidade WCAG
A preparação para uma entrevista de React Native exige compreender aspectos específicos do mobile que vão além do conhecimento de React web. Praticar com projetos reais e testar em dispositivos físicos consolida esses conceitos.
Comece a praticar!
Teste seus conhecimentos com nossos simuladores de entrevista e testes tecnicos.
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#mobile interview
#react native questions
#javascript
#technical interview
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