Interface de navegação com roteiro de decoradores de cena
Este roteiro demonstra como adicionar elementos de interface, como barras de apps e de navegação ou trilhos, que você gostaria de adicionar à cena, em vez do nível de entrada de navegação. Para isso, ele usa a API de decorador de cena.
Como funciona
A classe NavigationScene
A classe NavigationScene é o núcleo deste roteiro. Ela recebe uma Scene, a classe de tamanho da janela atual, um SharedTransitionScope e elementos combináveis para uma barra e um trilho de navegação. Se a classe de tamanho da largura da janela for média ou maior, ela vai renderizar o trilho de navegação na borda inicial da tela com o conteúdo na borda final. Caso contrário, ela vai renderizar a barra de navegação na borda inferior da tela com o conteúdo na parte de cima.
Renderizar elementos de interface compartilhados apenas uma vez
Durante as transições entre cenas, ambas são compostas e renderizadas ao mesmo tempo. Para elementos compartilhados entre cenas, como uma barra ou um trilho de navegação, talvez não seja desejável que eles sejam compostos nas duas cenas.
Por exemplo, os elementos combináveis da barra e do trilho de navegação neste roteiro têm um estado interno que não pode ser elevado (como o estado das animações depois que um item é selecionado). Portanto, é recomendável chamar o elemento combinável fornecido apenas de uma cena por vez.
Para realizar o comportamento desejado, este roteiro combina o conteúdo móvel do Compose e as APIs de elementos compartilhados:
- Ao usar
movableContentOf, ele consegue manter o estado do elemento combinável à medida que ele é movido entre os diferentes ramificações da composição correspondentes a cada cena. - Ao usar as APIs de elementos compartilhados, ele consegue manter a barra/trilho de navegação no lugar enquanto anima o conteúdo das cenas decoradas. Isso é feito usando o modificador
sharedElement, bem como um modificador personalizado,cacheSize, que mantém um marcador de posição do tamanho correto na cena que não chama o elemento combinável de conteúdo móvel.
A classe NavigationSceneDecoratorStrategy
A classe NavigationSceneDecoratorStrategy é responsável por encapsular a cena de entrada em uma NavigationScene. A função rememberNavigationSceneDecoratorStrategy simplifica o processo de criação de uma NavigationSceneDecoratorStrategy processando a criação dos elementos combináveis movableContentOf. Geralmente, a NavigationSceneDecoratorStrategy precisa ser um dos itens finais, se não o único, no parâmetro sceneDecoratorStrategies, para que possa conter todo o outro conteúdo do app.
/* * Copyright 2026 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.example.nav3recipes.navscenedecorator import android.os.Bundle import androidx.activity.ComponentActivity import androidx.activity.compose.setContent import androidx.compose.animation.SharedTransitionLayout import androidx.compose.runtime.remember import androidx.navigation3.runtime.NavKey import androidx.navigation3.runtime.entryProvider import androidx.navigation3.ui.NavDisplay import com.example.nav3recipes.scenes.listdetail.rememberListDetailSceneStrategy import com.example.nav3recipes.ui.setEdgeToEdgeConfig class ResponsiveNavigationSceneDecoratorActivity : ComponentActivity() { override fun onCreate(savedInstanceState: Bundle?) { super.onCreate(savedInstanceState) setEdgeToEdgeConfig() setContent { SharedTransitionLayout { val navigationState = rememberNavigationState( startRoute = RouteA, topLevelRoutes = setOf(RouteA, RouteB, RouteC) ) val navigator = remember(navigationState) { Navigator(navigationState) } val listDetailStrategy = rememberListDetailSceneStrategy<NavKey>() val responsiveNavigationSceneDecoratorStrategy = rememberResponsiveNavigationSceneDecoratorStrategy<NavKey>( navBar = { NavBar(NAV_ITEMS, navigator) }, navRail = { NavRail(NAV_ITEMS, navigator) }, sharedTransitionScope = this ) val entryProvider = entryProvider { featureASection { id -> navigator.navigate(RouteA1(id)) } featureBSection { navigator.navigate(RouteB1) } featureCSection { navigator.navigate(RouteC1) } } NavDisplay( entries = navigationState.toEntries(entryProvider), sceneDecoratorStrategies = listOf(responsiveNavigationSceneDecoratorStrategy), sceneStrategies = listOf(listDetailStrategy), sharedTransitionScope = this, onBack = navigator::goBack ) } } } }
/* * Copyright 2026 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.example.nav3recipes.navscenedecorator import androidx.compose.animation.EnterExitState import androidx.compose.animation.SharedTransitionScope import androidx.compose.foundation.layout.Box import androidx.compose.foundation.layout.Column import androidx.compose.foundation.layout.Row import androidx.compose.foundation.layout.fillMaxSize import androidx.compose.material3.adaptive.currentWindowAdaptiveInfoV2 import androidx.compose.runtime.Composable import androidx.compose.runtime.getValue import androidx.compose.runtime.movableContentOf import androidx.compose.runtime.remember import androidx.compose.runtime.rememberUpdatedState import androidx.compose.ui.Modifier import androidx.navigation3.scene.Scene import androidx.navigation3.scene.SceneDecoratorStrategy import androidx.navigation3.scene.SceneDecoratorStrategyScope import androidx.navigation3.ui.LocalNavAnimatedContentScope import androidx.window.core.layout.WindowSizeClass data class ResponsiveNavigationScene<T : Any>( private val scene: Scene<T>, private val sharedTransitionScope: SharedTransitionScope, private val windowSizeClass: WindowSizeClass, private val navBarContent: @Composable (() -> Unit), private val navRailContent: @Composable (() -> Unit), ) : Scene<T> by scene { override val key = scene::class to scene.key override val content = @Composable { val animatedContentScope = LocalNavAnimatedContentScope.current val isMovableContentCaller = animatedContentScope.transition.targetState == EnterExitState.Visible with(sharedTransitionScope) { if (windowSizeClass.isWidthAtLeastBreakpoint(WindowSizeClass.WIDTH_DP_MEDIUM_LOWER_BOUND)) { Row(Modifier.fillMaxSize()) { Box( modifier = Modifier .cacheSize(!isMovableContentCaller) .sharedElement( rememberSharedContentState("nav-rail"), animatedContentScope ) ) { if (isMovableContentCaller) { navRailContent() } } Box(modifier = Modifier.weight(1f)) { scene.content() } } } else { Column(Modifier.fillMaxSize()) { Box(modifier = Modifier.weight(1f)) { scene.content() } Box( modifier = Modifier .cacheSize(!isMovableContentCaller) .sharedElement( rememberSharedContentState("nav-bar"), animatedContentScope ) ) { if (isMovableContentCaller) { navBarContent() } } } } } } } @Composable fun <T : Any> rememberResponsiveNavigationSceneDecoratorStrategy( navBar: @Composable () -> Unit, navRail: @Composable () -> Unit, sharedTransitionScope: SharedTransitionScope, windowSizeClass: WindowSizeClass = currentWindowAdaptiveInfoV2().windowSizeClass ): ResponsiveNavigationSceneDecoratorStrategy<T> { val currentNavBar by rememberUpdatedState(navBar) val currentNavRail by rememberUpdatedState(navRail) val movableNavBar = remember { movableContentOf { currentNavBar() } } val movableNavRail = remember { movableContentOf { currentNavRail() } } return remember(windowSizeClass, sharedTransitionScope) { ResponsiveNavigationSceneDecoratorStrategy( windowSizeClass, sharedTransitionScope, movableNavBar, movableNavRail ) } } class ResponsiveNavigationSceneDecoratorStrategy<T : Any>( private val windowSizeClass: WindowSizeClass, private val sharedTransitionScope: SharedTransitionScope, private val navBarContent: @Composable () -> Unit, private val navRailContent: @Composable () -> Unit, ) : SceneDecoratorStrategy<T> { override fun SceneDecoratorStrategyScope<T>.decorateScene(scene: Scene<T>): Scene<T> { return ResponsiveNavigationScene( scene, sharedTransitionScope, windowSizeClass, navBarContent, navRailContent ) } }
/* * Copyright 2026 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.example.nav3recipes.navscenedecorator import androidx.compose.foundation.background import androidx.compose.foundation.clickable import androidx.compose.foundation.layout.Box import androidx.compose.foundation.layout.Column import androidx.compose.foundation.layout.PaddingValues import androidx.compose.foundation.layout.WindowInsets import androidx.compose.foundation.layout.WindowInsetsSides import androidx.compose.foundation.layout.consumeWindowInsets import androidx.compose.foundation.layout.fillMaxHeight import androidx.compose.foundation.layout.fillMaxSize import androidx.compose.foundation.layout.fillMaxWidth import androidx.compose.foundation.layout.only import androidx.compose.foundation.layout.safeDrawing import androidx.compose.foundation.layout.size import androidx.compose.foundation.lazy.LazyColumn import androidx.compose.foundation.lazy.items import androidx.compose.foundation.shape.RoundedCornerShape import androidx.compose.material.icons.Icons import androidx.compose.material.icons.filled.Camera import androidx.compose.material.icons.filled.Face import androidx.compose.material.icons.filled.Home import androidx.compose.material3.Button import androidx.compose.material3.Icon import androidx.compose.material3.ListItem import androidx.compose.material3.NavigationBar import androidx.compose.material3.NavigationBarItem import androidx.compose.material3.NavigationRail import androidx.compose.material3.NavigationRailItem import androidx.compose.material3.Surface import androidx.compose.material3.Text import androidx.compose.runtime.Composable import androidx.compose.runtime.getValue import androidx.compose.runtime.mutableIntStateOf import androidx.compose.runtime.mutableStateOf import androidx.compose.runtime.remember import androidx.compose.runtime.saveable.rememberSaveable import androidx.compose.runtime.setValue import androidx.compose.ui.Alignment import androidx.compose.ui.Modifier import androidx.compose.ui.draw.clip import androidx.compose.ui.graphics.vector.ImageVector import androidx.compose.ui.unit.dp import androidx.lifecycle.compose.dropUnlessResumed import androidx.navigation3.runtime.EntryProviderScope import androidx.navigation3.runtime.NavKey import com.example.nav3recipes.content.ContentBase import com.example.nav3recipes.content.ContentGreen import com.example.nav3recipes.content.ContentMauve import com.example.nav3recipes.content.ContentOrange import com.example.nav3recipes.content.ContentPurple import com.example.nav3recipes.scenes.listdetail.ListDetailScene import com.example.nav3recipes.ui.theme.colors import kotlinx.serialization.Serializable @Serializable data object RouteA : NavKey @Serializable data class RouteA1(val id: Int) : NavKey @Serializable data object RouteB : NavKey @Serializable data object RouteB1 : NavKey @Serializable data object RouteC : NavKey @Serializable data object RouteC1 : NavKey const val ITEM_COUNT = 20 fun EntryProviderScope<NavKey>.featureASection( onSubRouteClick: (Int) -> Unit, ) { entry<RouteA>( metadata = ListDetailScene.listPane() ) { Surface(modifier = Modifier.fillMaxHeight()) { var contentPadding by remember { mutableStateOf(PaddingValues()) } LazyColumn( modifier = Modifier .fillMaxSize() .onWindowInsetsOverlapChanged(WindowInsets.safeDrawing) { contentPadding = it }, contentPadding = contentPadding ) { items(List(ITEM_COUNT) { it + 1 }) { id -> ListItem( headlineContent = { Text("Item $id") }, leadingContent = { Box( modifier = Modifier .size(24.dp) .clip(RoundedCornerShape(4.dp)) .background(colors[id % colors.size]) ) }, modifier = Modifier .fillMaxWidth() .clickable(onClick = dropUnlessResumed { onSubRouteClick(id) }), ) } } } } entry<RouteA1>( metadata = ListDetailScene.detailPane() ) { key -> ContentBase( "Item ${key.id}", modifier = Modifier.background(colors[key.id % colors.size]) ) { var count by rememberSaveable { mutableIntStateOf(0) } Button(onClick = { count++ }) { Text("Value: $count") } } } } fun EntryProviderScope<NavKey>.featureBSection( onSubRouteClick: () -> Unit, ) { entry<RouteB> { ContentGreen("Route B") { Column( horizontalAlignment = Alignment.CenterHorizontally ) { Button(onClick = dropUnlessResumed { onSubRouteClick() }) { Text("Go to B1") } } } } entry<RouteB1> { ContentPurple("Route B1") { var count by rememberSaveable { mutableIntStateOf(0) } Button(onClick = { count++ }) { Text("Value: $count") } } } } fun EntryProviderScope<NavKey>.featureCSection( onSubRouteClick: () -> Unit, ) { entry<RouteC> { ContentMauve("Route C") { Column(horizontalAlignment = Alignment.CenterHorizontally) { Button(onClick = dropUnlessResumed { onSubRouteClick() }) { Text("Go to C1") } } } } entry<RouteC1> { ContentOrange("Route C1") { var count by rememberSaveable { mutableIntStateOf(0) } Button(onClick = { count++ }) { Text("Value: $count") } } } } data class NavBarItem( val navKey: NavKey, val icon: ImageVector, val description: String ) val NAV_ITEMS = listOf( NavBarItem(RouteA, Icons.Default.Home, "Route A"), NavBarItem(RouteB, Icons.Default.Face, "Route B"), NavBarItem(RouteC, Icons.Default.Camera, "Route C"), ) @Composable fun NavBar(navBarItems: List<NavBarItem>, navigator: Navigator) { NavBar( navBarItems = navBarItems, topLevelRoute = navigator.state.topLevelRoute, onNavItemClick = { navigator.navigate(it) } ) } @Composable fun NavBar(navBarItems: List<NavBarItem>, topLevelRoute: NavKey, onNavItemClick: (NavKey) -> Unit) { NavigationBar(Modifier.consumeWindowInsets(WindowInsets.safeDrawing.only(WindowInsetsSides.Horizontal + WindowInsetsSides.Bottom))) { navBarItems.forEach { item -> NavigationBarItem( selected = item.navKey == topLevelRoute, onClick = { onNavItemClick(item.navKey) }, icon = { Icon( imageVector = item.icon, contentDescription = item.description ) }, label = { Text(item.description) }) } } } @Composable fun NavRail(navRailItems: List<NavBarItem>, navigator: Navigator) { NavRail( navRailItems = navRailItems, topLevelRoute = navigator.state.topLevelRoute, onNavItemClick = { navigator.navigate(it) } ) } @Composable fun NavRail( navRailItems: List<NavBarItem>, topLevelRoute: NavKey, onNavItemClick: (NavKey) -> Unit ) { NavigationRail { navRailItems.forEach { item -> NavigationRailItem( selected = item.navKey == topLevelRoute, onClick = { onNavItemClick(item.navKey) }, icon = { Icon( imageVector = item.icon, contentDescription = item.description ) }, label = { Text(item.description) }) } } }
/* * Copyright 2026 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.example.nav3recipes.navscenedecorator import androidx.compose.foundation.layout.PaddingValues import androidx.compose.foundation.layout.WindowInsets import androidx.compose.runtime.Composable import androidx.compose.ui.Modifier import androidx.compose.ui.layout.LayoutCoordinates import androidx.compose.ui.layout.Measurable import androidx.compose.ui.layout.MeasureResult import androidx.compose.ui.layout.MeasureScope import androidx.compose.ui.layout.boundsInWindow import androidx.compose.ui.node.GlobalPositionAwareModifierNode import androidx.compose.ui.node.LayoutModifierNode import androidx.compose.ui.node.ModifierNodeElement import androidx.compose.ui.node.invalidateMeasurement import androidx.compose.ui.platform.InspectorInfo import androidx.compose.ui.platform.LocalDensity import androidx.compose.ui.platform.LocalLayoutDirection import androidx.compose.ui.platform.LocalWindowInfo import androidx.compose.ui.unit.Constraints import androidx.compose.ui.unit.Density import androidx.compose.ui.unit.IntSize import androidx.compose.ui.unit.LayoutDirection /** * A modifier that caches the measured size of the component and optionally reuses it. For example, * this can be used to maintain the size of an element that contains moveable content. * * @param useCachedSize If true, the modifier will use the previously measured and cached size * (if available) instead of the current size. If false, it measures normally and caches the new size. */ fun Modifier.cacheSize(useCachedSize: Boolean): Modifier = this.then(CacheSizeElement(useCachedSize)) private data class CacheSizeElement( val useCachedSize: Boolean ) : ModifierNodeElement<CacheSizeNode>() { override fun create() = CacheSizeNode(useCachedSize) override fun update(node: CacheSizeNode) { node.useCachedSize = useCachedSize } override fun InspectorInfo.inspectableProperties() { name = "cacheSize" properties["useCachedSize"] = useCachedSize } } private class CacheSizeNode( useCachedSize: Boolean ) : Modifier.Node(), LayoutModifierNode { var useCachedSize: Boolean = useCachedSize set(value) { if (field != value) { field = value invalidateMeasurement() } } private var isSizeCached = false private var cachedSize: IntSize = IntSize.Zero override fun MeasureScope.measure( measurable: Measurable, constraints: Constraints ): MeasureResult { val placeable = measurable.measure(constraints) val currentSize = IntSize(placeable.width, placeable.height) val size = if (useCachedSize && isSizeCached) { cachedSize } else { currentSize } cachedSize = size isSizeCached = true return layout(size.width, size.height) { placeable.placeRelative(0, 0) } } } /** * A modifier that calculates how much the component overlaps with the given [WindowInsets] * and reports the overlap as [PaddingValues]. * * This can be used to dynamically adjust the layout of content that is partially obscured * by system bars or other window insets, such as by using it as the `contentPadding` parameter * for a [androidx.compose.foundation.lazy.LazyColumn] or [androidx.compose.foundation.lazy.LazyRow] * * @param insets The [WindowInsets] to calculate the overlap against. * @param onOverlapChanged A callback invoked whenever the overlap changes, providing the overlap as [PaddingValues]. */ @Composable fun Modifier.onWindowInsetsOverlapChanged( insets: WindowInsets, onOverlapChanged: (PaddingValues) -> Unit ): Modifier { val density = LocalDensity.current val windowInfo = LocalWindowInfo.current val layoutDirection = LocalLayoutDirection.current return this.then( WindowInsetsOverlapElement( insets = insets, density = density, windowHeight = windowInfo.containerSize.height.toFloat(), windowWidth = windowInfo.containerSize.width.toFloat(), layoutDirection = layoutDirection, onOverlapChanged = onOverlapChanged ) ) } private data class WindowInsetsOverlapElement( val insets: WindowInsets, val density: Density, val windowHeight: Float, val windowWidth: Float, val layoutDirection: LayoutDirection, val onOverlapChanged: (PaddingValues) -> Unit ) : ModifierNodeElement<WindowInsetsOverlapNode>() { override fun create() = WindowInsetsOverlapNode( insets, density, windowHeight, windowWidth, layoutDirection, onOverlapChanged ) override fun update(node: WindowInsetsOverlapNode) { node.insets = insets node.density = density node.windowHeight = windowHeight node.windowWidth = windowWidth node.layoutDirection = layoutDirection node.onOverlapChanged = onOverlapChanged // Recalculate padding when modifier properties (like insets) change, // even if the component hasn't moved or changed size (no layout pass). node.calculatePadding() } override fun InspectorInfo.inspectableProperties() { name = "onWindowInsetsOverlapChanged" properties["insets"] = insets } } private class WindowInsetsOverlapNode( var insets: WindowInsets, var density: Density, var windowHeight: Float, var windowWidth: Float, var layoutDirection: LayoutDirection, var onOverlapChanged: (PaddingValues) -> Unit ) : Modifier.Node(), GlobalPositionAwareModifierNode { // Cache the layout coordinates so padding can be recalculated // when insets change without triggering a new global positioning pass. private var lastCoordinates: LayoutCoordinates? = null override fun onGloballyPositioned(coordinates: LayoutCoordinates) { lastCoordinates = coordinates calculatePadding() } fun calculatePadding() { val coordinates = lastCoordinates ?: return val screenRect = coordinates.boundsInWindow() val topOverlap = (insets.getTop(density) - screenRect.top).coerceAtLeast(0f) val bottomOverlap = (screenRect.bottom - (windowHeight - insets.getBottom(density))).coerceAtLeast(0f) val leftOverlap = (insets.getLeft(density, layoutDirection) - screenRect.left).coerceAtLeast(0f) val rightOverlap = (screenRect.right - (windowWidth - insets.getRight(density, layoutDirection))).coerceAtLeast(0f) with(density) { onOverlapChanged( PaddingValues.Absolute( left = leftOverlap.toDp(), top = topOverlap.toDp(), right = rightOverlap.toDp(), bottom = bottomOverlap.toDp() ) ) } } }
/* * Copyright 2026 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.example.nav3recipes.navscenedecorator import androidx.compose.runtime.Composable import androidx.compose.runtime.MutableState import androidx.compose.runtime.getValue import androidx.compose.runtime.mutableStateOf import androidx.compose.runtime.remember import androidx.compose.runtime.saveable.rememberSerializable import androidx.compose.runtime.setValue import androidx.compose.runtime.snapshots.SnapshotStateList import androidx.compose.runtime.toMutableStateList import androidx.navigation3.runtime.NavBackStack import androidx.navigation3.runtime.NavEntry import androidx.navigation3.runtime.NavKey import androidx.navigation3.runtime.rememberDecoratedNavEntries import androidx.navigation3.runtime.rememberSaveableStateHolderNavEntryDecorator import androidx.navigation3.runtime.serialization.NavKeySerializer import androidx.savedstate.compose.serialization.serializers.MutableStateSerializer import com.example.nav3recipes.conditional.rememberNavBackStack /** * Create a navigation state that persists config changes and process death. */ @Composable fun rememberNavigationState( startRoute: NavKey, topLevelRoutes: Set<NavKey> ): NavigationState { val topLevelRoute = rememberSerializable( startRoute, topLevelRoutes, serializer = MutableStateSerializer(NavKeySerializer()) ) { mutableStateOf(startRoute) } val backStacks = topLevelRoutes.associateWith { key -> rememberNavBackStack(key) } return remember(startRoute, topLevelRoutes) { NavigationState( startRoute = startRoute, topLevelRoute = topLevelRoute, backStacks = backStacks ) } } /** * State holder for navigation state. * * @param startRoute - the start route. The user will exit the app through this route. * @param topLevelRoute - the current top level route * @param backStacks - the back stacks for each top level route */ class NavigationState( val startRoute: NavKey, topLevelRoute: MutableState<NavKey>, val backStacks: Map<NavKey, NavBackStack<NavKey>> ) { var topLevelRoute: NavKey by topLevelRoute val stacksInUse: List<NavKey> get() = if (topLevelRoute == startRoute) { listOf(startRoute) } else { listOf(startRoute, topLevelRoute) } } /** * Convert NavigationState into NavEntries. */ @Composable fun NavigationState.toEntries( entryProvider: (NavKey) -> NavEntry<NavKey> ): SnapshotStateList<NavEntry<NavKey>> { val decoratedEntries = backStacks.mapValues { (_, stack) -> val decorators = listOf( rememberSaveableStateHolderNavEntryDecorator<NavKey>(), ) rememberDecoratedNavEntries( backStack = stack, entryDecorators = decorators, entryProvider = entryProvider ) } return stacksInUse.flatMap { decoratedEntries[it] ?: emptyList() }.toMutableStateList() }
/* * Copyright 2026 The Android Open Source Project * * Licensed under the Apache License, Version 2.0 (the "License"); * you may not use this file except in compliance with the License. * You may obtain a copy of the License at * * http://www.apache.org/licenses/LICENSE-2.0 * * Unless required by applicable law or agreed to in writing, software * distributed under the License is distributed on an "AS IS" BASIS, * WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. * See the License for the specific language governing permissions and * limitations under the License. */ package com.example.nav3recipes.navscenedecorator import androidx.navigation3.runtime.NavKey class Navigator(val state: NavigationState) { fun navigate(route: NavKey) { if (route in state.backStacks.keys) { // This is a top level route, just switch to it state.topLevelRoute = route } else { if (route is RouteA1) { state.backStacks[state.topLevelRoute]?.removeAll { it is RouteA1 } } state.backStacks[state.topLevelRoute]?.add(route) } } fun goBack() { val currentStack = state.backStacks[state.topLevelRoute] ?: error("Stack for ${state.topLevelRoute} not found") val currentRoute = currentStack.last() // If we're at the base of the current route, go back to the start route stack. if (currentRoute == state.topLevelRoute) { state.topLevelRoute = state.startRoute } else { currentStack.removeLastOrNull() } } }