android-jetpack-compose

by expo

Use when building Android UIs with Jetpack Compose, managing state with remember/mutableStateOf, or implementing declarative UI patterns.

npx skills add https://github.com/expo/agent-templates --skill android-jetpack-compose

Android - Jetpack Compose

Modern declarative UI toolkit for building native Android interfaces.

Key Concepts

State Management

Compose provides several ways to manage state:

  • remember: Survives recomposition
  • rememberSaveable: Survives configuration changes
  • mutableStateOf: Creates observable state
  • derivedStateOf: Computed state that updates when dependencies change
@Composable
fun Counter() {
    var count by remember { mutableStateOf(0) }

    Column {
        Text("Count: $count")
        Button(onClick = { count++ }) {
            Text("Increment")
        }
    }
}

// With saveable for configuration changes
@Composable
fun SearchField() {
    var query by rememberSaveable { mutableStateOf("") }

    TextField(
        value = query,
        onValueChange = { query = it },
        placeholder = { Text("Search...") }
    )
}

State Hoisting

Lift state up to make composables stateless and reusable:

// Stateless composable
@Composable
fun NameInput(
    name: String,
    onNameChange: (String) -> Unit,
    modifier: Modifier = Modifier
) {
    TextField(
        value = name,
        onValueChange = onNameChange,
        label = { Text("Name") },
        modifier = modifier
    )
}

// Stateful parent
@Composable
fun UserForm() {
    var name by remember { mutableStateOf("") }

    NameInput(
        name = name,
        onNameChange = { name = it }
    )
}

ViewModel Integration

class UserViewModel : ViewModel() {
    private val _uiState = MutableStateFlow(UserUiState())
    val uiState: StateFlow<UserUiState> = _uiState.asStateFlow()

    fun updateName(name: String) {
        _uiState.update { it.copy(name = name) }
    }

    fun saveUser() {
        viewModelScope.launch {
            _uiState.update { it.copy(isLoading = true) }
            try {
                userRepository.save(_uiState.value.toUser())
                _uiState.update { it.copy(isLoading = false, isSaved = true) }
            } catch (e: Exception) {
                _uiState.update { it.copy(isLoading = false, error = e.message) }
            }
        }
    }
}

@Composable
fun UserScreen(viewModel: UserViewModel = viewModel()) {
    val uiState by viewModel.uiState.collectAsStateWithLifecycle()

    UserContent(
        uiState = uiState,
        onNameChange = viewModel::updateName,
        onSave = viewModel::saveUser
    )
}

Best Practices

Composable Function Guidelines

// Use Modifier as first optional parameter
@Composable
fun CustomCard(
    title: String,
    modifier: Modifier = Modifier,
    onClick: () -> Unit = {}
) {
    Card(
        modifier = modifier.clickable(onClick = onClick)
    ) {
        Text(
            text = title,
            modifier = Modifier.padding(16.dp)
        )
    }
}

// Use slot APIs for flexible content
@Composable
fun CustomScaffold(
    topBar: @Composable () -> Unit = {},
    bottomBar: @Composable () -> Unit = {},
    content: @Composable (PaddingValues) -> Unit
) {
    Scaffold(
        topBar = topBar,
        bottomBar = bottomBar,
        content = content
    )
}

Efficient Recomposition

// Use keys for list items
@Composable
fun UserList(users: List<User>) {
    LazyColumn {
        items(
            items = users,
            key = { it.id }  // Stable key for efficient updates
        ) { user ->
            UserItem(user)
        }
    }
}

// Use derivedStateOf for expensive computations
@Composable
fun FilteredList(items: List<Item>, query: String) {
    val filteredItems by remember(items, query) {
        derivedStateOf {
            items.filter { it.name.contains(query, ignoreCase = true) }
        }
    }

    LazyColumn {
        items(filteredItems) { item ->
            ItemRow(item)
        }
    }
}

Side Effects

// LaunchedEffect for coroutine-based side effects
@Composable
fun UserProfile(userId: String, viewModel: UserViewModel) {
    LaunchedEffect(userId) {
        viewModel.loadUser(userId)
    }

    // UI content
}

// DisposableEffect for cleanup
@Composable
fun LifecycleAwareComponent(lifecycle: Lifecycle) {
    DisposableEffect(lifecycle) {
        val observer = LifecycleEventObserver { _, event ->
            // Handle lifecycle events
        }
        lifecycle.addObserver(observer)

        onDispose {
            lifecycle.removeObserver(observer)
        }
    }
}

// SideEffect for non-suspend side effects
@Composable
fun AnalyticsScreen(screenName: String) {
    SideEffect {
        analytics.logScreenView(screenName)
    }
}

Common Patterns

Navigation with Navigation Compose

@Composable
fun AppNavigation() {
    val navController = rememberNavController()

    NavHost(navController = navController, startDestination = "home") {
        composable("home") {
            HomeScreen(
                onNavigateToDetail = { id ->
                    navController.navigate("detail/$id")
                }
            )
        }
        composable(
            route = "detail/{itemId}",
            arguments = listOf(navArgument("itemId") { type = NavType.StringType })
        ) { backStackEntry ->
            val itemId = backStackEntry.arguments?.getString("itemId")
            DetailScreen(itemId = itemId)
        }
    }
}

Material 3 Theming

@Composable
fun AppTheme(
    darkTheme: Boolean = isSystemInDarkTheme(),
    content: @Composable () -> Unit
) {
    val colorScheme = when {
        darkTheme -> darkColorScheme(
            primary = Purple80,
            secondary = PurpleGrey80,
            tertiary = Pink80
        )
        else -> lightColorScheme(
            primary = Purple40,
            secondary = PurpleGrey40,
            tertiary = Pink40
        )
    }

    MaterialTheme(
        colorScheme = colorScheme,
        typography = Typography,
        content = content
    )
}

// Using theme values
@Composable
fun ThemedCard() {
    Card(
        colors = CardDefaults.cardColors(
            containerColor = MaterialTheme.colorScheme.surfaceVariant
        )
    ) {
        Text(
            text = "Themed content",
            style = MaterialTheme.typography.bodyLarge,
            color = MaterialTheme.colorScheme.onSurfaceVariant
        )
    }
}

Lists and Grids

@Composable
fun ProductGrid(products: List<Product>) {
    LazyVerticalGrid(
        columns = GridCells.Adaptive(minSize = 160.dp),
        contentPadding = PaddingValues(16.dp),
        horizontalArrangement = Arrangement.spacedBy(16.dp),
        verticalArrangement = Arrangement.spacedBy(16.dp)
    ) {
        items(products, key = { it.id }) { product ->
            ProductCard(product)
        }
    }
}

// Sticky headers
@Composable
fun ContactList(contacts: Map<Char, List<Contact>>) {
    LazyColumn {
        contacts.forEach { (initial, contactsForInitial) ->
            stickyHeader {
                Text(
                    text = initial.toString(),
                    modifier = Modifier
                        .fillMaxWidth()
                        .background(MaterialTheme.colorScheme.surface)
                        .padding(16.dp),
                    style = MaterialTheme.typography.titleMedium
                )
            }
            items(contactsForInitial) { contact ->
                ContactItem(contact)
            }
        }
    }
}

Anti-Patterns

Avoid Side Effects in Composition

Bad:

@Composable
fun BadExample(viewModel: ViewModel) {
    viewModel.loadData()  // Called on every recomposition!

    Text("Data loaded")
}

Good:

@Composable
fun GoodExample(viewModel: ViewModel) {
    LaunchedEffect(Unit) {
        viewModel.loadData()
    }

    Text("Data loaded")
}

Don't Read State in Remember Block

Bad:

@Composable
fun BadCounter(initial: Int) {
    // Won't update when initial changes
    var count by remember { mutableStateOf(initial) }
}

Good:

@Composable
fun GoodCounter(initial: Int) {
    var count by remember(initial) { mutableStateOf(initial) }
}

Avoid Heavy Computation During Composition

Bad:

@Composable
fun BadList(items: List<Item>) {
    // Runs on every recomposition
    val sorted = items.sortedBy { it.name }
    LazyColumn { /* ... */ }
}

Good:

@Composable
fun GoodList(items: List<Item>) {
    val sorted by remember(items) {
        derivedStateOf { items.sortedBy { it.name } }
    }
    LazyColumn { /* ... */ }
}

Related Skills

  • android-architecture: MVVM and clean architecture patterns
  • android-kotlin-coroutines: Async operations in Compose

More skills from expo

expo-upgrade
expo
Framework (OSS). Guidelines for upgrading Expo SDK versions and fixing dependency issues
apidevelopmentofficial
expo-data-fetching
expo
Framework (OSS). Use when implementing or debugging ANY network request, API call, or data fetching. Covers fetch API, React Query, SWR, error handling, caching, offline support, and Expo Router data loaders (`useLoaderData`).
official
android-e2e-testing
expo
Test Expo Router features on Android emulators using ADB. Use after implementing native Android features or when verifying UI behavior on Android.
official
expo-dev-client
expo
Build custom Expo development clients for testing native code on physical devices via EAS Build or locally. Only needed when using custom native modules, Apple targets (widgets, app clips), or third-party native code not in Expo Go; try Expo Go first with npx expo start Supports cloud builds with automatic TestFlight submission or local builds on your machine, outputting .ipa (iOS) or .apk / .aab (Android) files Requires eas.json configuration with a development profile that sets...
official
expo-tailwind-setup
expo
Universal Tailwind CSS v4 styling for Expo apps across iOS, Android, and Web. Integrates Tailwind CSS v4 with react-native-css and NativeWind v5 via Metro transformer, eliminating the need for Babel configuration Provides reusable CSS-wrapped component library (View, Text, ScrollView, Pressable, TextInput, Image, Link) that apply className styles to native elements Supports platform-specific styling through CSS media queries, custom theme variables via @theme blocks, and Apple semantic...
official
swiftui-expert-skill
expo
Write, review, or improve SwiftUI code following best practices for state management, view composition, performance, macOS-specific APIs, and iOS 26+ Liquid…
official
eas-update-insights
expo
Check the health of published EAS Updates: crash rates, install/launch counts, unique users, payload size, and the split between embedded and OTA users per…
official
expo-module
expo
Guide for creating and writing Expo native modules and views using the Expo Modules API (Swift, Kotlin, TypeScript). Covers module definition DSL, native…
official