// Copyright 2014 The Flutter Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. import 'dart:async'; import 'dart:convert'; import 'dart:developer' as developer; import 'package:flutter/foundation.dart'; import 'package:flutter/rendering.dart'; import 'package:flutter/scheduler.dart'; import 'package:flutter/services.dart'; import 'basic.dart'; import 'binding.dart'; import 'focus_manager.dart'; import 'focus_scope.dart'; import 'framework.dart'; import 'overlay.dart'; import 'route_notification_messages.dart'; import 'routes.dart'; import 'ticker_provider.dart'; // Examples can assume: // class MyPage extends Placeholder { MyPage({String title}); } // class MyHomePage extends Placeholder { } // NavigatorState navigator; // BuildContext context; /// Creates a route for the given route settings. /// /// Used by [Navigator.onGenerateRoute]. /// /// See also: /// /// * [Navigator], which is where all the [Route]s end up. typedef RouteFactory = Route<dynamic> Function(RouteSettings settings); /// Creates a route for the given context and route settings. /// /// Used by [CustomBuilderPage.routeBuilder]. typedef RouteBuilder<T> = Route<T> Function(BuildContext context, RouteSettings settings); /// Creates a series of one or more routes. /// /// Used by [Navigator.onGenerateInitialRoutes]. typedef RouteListFactory = List<Route<dynamic>> Function(NavigatorState navigator, String initialRoute); /// Signature for the [Navigator.popUntil] predicate argument. typedef RoutePredicate = bool Function(Route<dynamic> route); /// Signature for a callback that verifies that it's OK to call [Navigator.pop]. /// /// Used by [Form.onWillPop], [ModalRoute.addScopedWillPopCallback], /// [ModalRoute.removeScopedWillPopCallback], and [WillPopScope]. typedef WillPopCallback = Future<bool> Function(); /// Signature for the [Navigator.onPopPage] callback. /// /// This callback must call [Route.didPop] on the specified route and must /// properly update the pages list the next time it is passed into /// [Navigator.pages] so that it no longer includes the corresponding [Page]. /// (Otherwise, the page will be interpreted as a new page to show when the /// [Navigator.pages] list is next updated.) typedef PopPageCallback = bool Function(Route<dynamic> route, dynamic result); /// Indicates whether the current route should be popped. /// /// Used as the return value for [Route.willPop]. /// /// See also: /// /// * [WillPopScope], a widget that hooks into the route's [Route.willPop] /// mechanism. enum RoutePopDisposition { /// Pop the route. /// /// If [Route.willPop] returns [pop] then the back button will actually pop /// the current route. pop, /// Do not pop the route. /// /// If [Route.willPop] returns [doNotPop] then the back button will be ignored. doNotPop, /// Delegate this to the next level of navigation. /// /// If [Route.willPop] returns [bubble] then the back button will be handled /// by the [SystemNavigator], which will usually close the application. bubble, } /// An abstraction for an entry managed by a [Navigator]. /// /// This class defines an abstract interface between the navigator and the /// "routes" that are pushed on and popped off the navigator. Most routes have /// visual affordances, which they place in the navigators [Overlay] using one /// or more [OverlayEntry] objects. /// /// See [Navigator] for more explanation of how to use a [Route] with /// navigation, including code examples. /// /// See [MaterialPageRoute] for a route that replaces the entire screen with a /// platform-adaptive transition. /// /// A route can belong to a page if the [settings] are a subclass of [Page]. A /// page-based route, as opposite to pageless route, is created from /// [Page.createRoute] during [Navigator.pages] updates. The page associated /// with this route may change during the lifetime of the route. If the /// [Navigator] updates the page of this route, it calls [changedInternalState] /// to notify the route that the page has been updated. /// /// The type argument `T` is the route's return type, as used by /// [currentResult], [popped], and [didPop]. The type `void` may be used if the /// route does not return a value. abstract class Route<T> { /// Initialize the [Route]. /// /// If the [settings] are not provided, an empty [RouteSettings] object is /// used instead. Route({ RouteSettings settings }) : _settings = settings ?? const RouteSettings(); /// The navigator that the route is in, if any. NavigatorState get navigator => _navigator; NavigatorState _navigator; /// The settings for this route. /// /// See [RouteSettings] for details. /// /// The settings can change during the route's lifetime. If the settings /// change, the route's overlays will be marked dirty (see /// [changedInternalState]). /// /// If the route is created from a [Page] in the [Navigator.pages] list, then /// this will be a [Page] subclass, and it will be updated each time its /// corresponding [Page] in the [Navigator.pages] has changed. Once the /// [Route] is removed from the history, this value stops updating (and /// remains with its last value). RouteSettings get settings => _settings; RouteSettings _settings; void _updateSettings(RouteSettings newSettings) { assert(newSettings != null); if (_settings != newSettings) { _settings = newSettings; changedInternalState(); } } /// The overlay entries of this route. /// /// These are typically populated by [install]. The [Navigator] is in charge /// of adding them to and removing them from the [Overlay]. /// /// There must be at least one entry in this list after [install] has been /// invoked. /// /// The [Navigator] will take care of keeping the entries together if the /// route is moved in the history. List<OverlayEntry> get overlayEntries => const <OverlayEntry>[]; /// Called when the route is inserted into the navigator. /// /// Uses this to populate [overlayEntries]. There must be at least one entry in /// this list after [install] has been invoked. The [Navigator] will be in charge /// to add them to the [Overlay] or remove them from it by calling /// [OverlayEntry.remove]. @protected @mustCallSuper void install() { } /// Called after [install] when the route is pushed onto the navigator. /// /// The returned value resolves when the push transition is complete. /// /// The [didAdd] method will be called instead of [didPush] when the route /// immediately appears on screen without any push transition. /// /// The [didChangeNext] and [didChangePrevious] methods are typically called /// immediately after this method is called. @protected @mustCallSuper TickerFuture didPush() { return TickerFuture.complete()..then<void>((void _) { navigator?.focusScopeNode?.requestFocus(); }); } /// Called after [install] when the route is added to the navigator. /// /// This method is called instead of [didPush] when the route immediately /// appears on screen without any push transition. /// /// The [didChangeNext] and [didChangePrevious] methods are typically called /// immediately after this method is called. @protected @mustCallSuper void didAdd() { // This TickerFuture serves two purposes. First, we want to make sure // animations triggered by other operations finish before focusing the // navigator. Second, navigator.focusScopeNode might acquire more focused // children in Route.install asynchronously. This TickerFuture will wait for // it to finish first. // // The later case can be found when subclasses manage their own focus scopes. // For example, ModalRoute create a focus scope in its overlay entries. The // focused child can only be attached to navigator after initState which // will be guarded by the asynchronous gap. TickerFuture.complete().then<void>((void _) { navigator.focusScopeNode.requestFocus(); }); } /// Called after [install] when the route replaced another in the navigator. /// /// The [didChangeNext] and [didChangePrevious] methods are typically called /// immediately after this method is called. @protected @mustCallSuper void didReplace(Route<dynamic> oldRoute) { } /// Returns whether calling [Navigator.maybePop] when this [Route] is current /// ([isCurrent]) should do anything. /// /// [Navigator.maybePop] is usually used instead of [pop] to handle the system /// back button. /// /// By default, if a [Route] is the first route in the history (i.e., if /// [isFirst]), it reports that pops should be bubbled /// ([RoutePopDisposition.bubble]). This behavior prevents the user from /// popping the first route off the history and being stranded at a blank /// screen; instead, the larger scope is popped (e.g. the application quits, /// so that the user returns to the previous application). /// /// In other cases, the default behaviour is to accept the pop /// ([RoutePopDisposition.pop]). /// /// The third possible value is [RoutePopDisposition.doNotPop], which causes /// the pop request to be ignored entirely. /// /// See also: /// /// * [Form], which provides a [Form.onWillPop] callback that uses this /// mechanism. /// * [WillPopScope], another widget that provides a way to intercept the /// back button. Future<RoutePopDisposition> willPop() async { return isFirst ? RoutePopDisposition.bubble : RoutePopDisposition.pop; } /// Whether calling [didPop] would return false. bool get willHandlePopInternally => false; /// When this route is popped (see [Navigator.pop]) if the result isn't /// specified or if it's null, this value will be used instead. /// /// This fallback is implemented by [didComplete]. This value is used if the /// argument to that method is null. T get currentResult => null; /// A future that completes when this route is popped off the navigator. /// /// The future completes with the value given to [Navigator.pop], if any, or /// else the value of [currentResult]. See [didComplete] for more discussion /// on this topic. Future<T> get popped => _popCompleter.future; final Completer<T> _popCompleter = Completer<T>(); /// A request was made to pop this route. If the route can handle it /// internally (e.g. because it has its own stack of internal state) then /// return false, otherwise return true (by returning the value of calling /// `super.didPop`). Returning false will prevent the default behavior of /// [NavigatorState.pop]. /// /// When this function returns true, the navigator removes this route from /// the history but does not yet call [dispose]. Instead, it is the route's /// responsibility to call [NavigatorState.finalizeRoute], which will in turn /// call [dispose] on the route. This sequence lets the route perform an /// exit animation (or some other visual effect) after being popped but prior /// to being disposed. /// /// This method should call [didComplete] to resolve the [popped] future (and /// this is all that the default implementation does); routes should not wait /// for their exit animation to complete before doing so. /// /// See [popped], [didComplete], and [currentResult] for a discussion of the /// `result` argument. @mustCallSuper bool didPop(T result) { didComplete(result); return true; } /// The route was popped or is otherwise being removed somewhat gracefully. /// /// This is called by [didPop] and in response to /// [NavigatorState.pushReplacement]. If [didPop] was not called, then the /// [Navigator.finalizeRoute] method must be called immediately, and no exit /// animation will run. /// /// The [popped] future is completed by this method. The `result` argument /// specifies the value that this future is completed with, unless it is null, /// in which case [currentResult] is used instead. /// /// This should be called before the pop animation, if any, takes place, /// though in some cases the animation may be driven by the user before the /// route is committed to being popped; this can in particular happen with the /// iOS-style back gesture. See [Navigator.didStartUserGesture]. @protected @mustCallSuper void didComplete(T result) { _popCompleter.complete(result ?? currentResult); } /// The given route, which was above this one, has been popped off the /// navigator. /// /// This route is now the current route ([isCurrent] is now true), and there /// is no next route. @protected @mustCallSuper void didPopNext(Route<dynamic> nextRoute) { } /// This route's next route has changed to the given new route. /// /// This is called on a route whenever the next route changes for any reason, /// so long as it is in the history, including when a route is first added to /// a [Navigator] (e.g. by [Navigator.push]), except for cases when /// [didPopNext] would be called. /// /// The `nextRoute` argument will be null if there's no new next route (i.e. /// if [isCurrent] is true). @protected @mustCallSuper void didChangeNext(Route<dynamic> nextRoute) { } /// This route's previous route has changed to the given new route. /// /// This is called on a route whenever the previous route changes for any /// reason, so long as it is in the history, except for immediately after the /// route itself has been pushed (in which case [didPush] or [didReplace] will /// be called instead). /// /// The `previousRoute` argument will be null if there's no previous route /// (i.e. if [isFirst] is true). @protected @mustCallSuper void didChangePrevious(Route<dynamic> previousRoute) { } /// Called whenever the internal state of the route has changed. /// /// This should be called whenever [willHandlePopInternally], [didPop], /// [offstage], or other internal state of the route changes value. It is used /// by [ModalRoute], for example, to report the new information via its /// inherited widget to any children of the route. /// /// See also: /// /// * [changedExternalState], which is called when the [Navigator] rebuilds. @protected @mustCallSuper void changedInternalState() { } /// Called whenever the [Navigator] has its widget rebuilt, to indicate that /// the route may wish to rebuild as well. /// /// This is called by the [Navigator] whenever the [NavigatorState]'s /// [widget] changes, for example because the [MaterialApp] has been rebuilt. /// This ensures that routes that directly refer to the state of the widget /// that built the [MaterialApp] will be notified when that widget rebuilds, /// since it would otherwise be difficult to notify the routes that state they /// depend on may have changed. /// /// See also: /// /// * [changedInternalState], the equivalent but for changes to the internal /// state of the route. @protected @mustCallSuper void changedExternalState() { } /// Discards any resources used by the object. /// /// This method should not remove its [overlayEntries] from the [Overlay]. The /// object's owner is in charge of doing that. /// /// After this is called, the object is not in a usable state and should be /// discarded. /// /// This method should only be called by the object's owner; typically the /// [Navigator] owns a route and so will call this method when the route is /// removed, after which the route is no longer referenced by the navigator. @mustCallSuper @protected void dispose() { _navigator = null; } /// Whether this route is the top-most route on the navigator. /// /// If this is true, then [isActive] is also true. bool get isCurrent { if (_navigator == null) return false; final _RouteEntry currentRouteEntry = _navigator._history.lastWhere( _RouteEntry.isPresentPredicate, orElse: () => null, ); if (currentRouteEntry == null) return false; return currentRouteEntry.route == this; } /// Whether this route is the bottom-most route on the navigator. /// /// If this is true, then [Navigator.canPop] will return false if this route's /// [willHandlePopInternally] returns false. /// /// If [isFirst] and [isCurrent] are both true then this is the only route on /// the navigator (and [isActive] will also be true). bool get isFirst { if (_navigator == null) return false; final _RouteEntry currentRouteEntry = _navigator._history.firstWhere( _RouteEntry.isPresentPredicate, orElse: () => null, ); if (currentRouteEntry == null) return false; return currentRouteEntry.route == this; } /// Whether this route is on the navigator. /// /// If the route is not only active, but also the current route (the top-most /// route), then [isCurrent] will also be true. If it is the first route (the /// bottom-most route), then [isFirst] will also be true. /// /// If a higher route is entirely opaque, then the route will be active but not /// rendered. It is even possible for the route to be active but for the stateful /// widgets within the route to not be instantiated. See [ModalRoute.maintainState]. bool get isActive { if (_navigator == null) return false; return _navigator._history.firstWhere( _RouteEntry.isRoutePredicate(this), orElse: () => null, )?.isPresent == true; } } /// Data that might be useful in constructing a [Route]. @immutable class RouteSettings { /// Creates data used to construct routes. const RouteSettings({ this.name, this.arguments, }); /// Creates a copy of this route settings object with the given fields /// replaced with the new values. RouteSettings copyWith({ String name, Object arguments, }) { return RouteSettings( name: name ?? this.name, arguments: arguments ?? this.arguments, ); } /// The name of the route (e.g., "/settings"). /// /// If null, the route is anonymous. final String name; /// The arguments passed to this route. /// /// May be used when building the route, e.g. in [Navigator.onGenerateRoute]. final Object arguments; @override String toString() => '${objectRuntimeType(this, 'RouteSettings')}("$name", $arguments)'; } /// Describes the configuration of a [Route]. /// /// The type argument `T` is the corresponding [Route]'s return type, as /// used by [Route.currentResult], [Route.popped], and [Route.didPop]. /// /// See also: /// /// * [Navigator.pages], which accepts a list of [Page]s and updates its routes /// history. /// * [CustomBuilderPage], a [Page] subclass that provides the API to build a /// customized route. abstract class Page<T> extends RouteSettings { /// Creates a page and initializes [key] for subclasses. /// /// The [arguments] argument must not be null. const Page({ this.key, String name, Object arguments, }) : super(name: name, arguments: arguments); /// The key associated with this page. /// /// This key will be used for comparing pages in [canUpdate]. final LocalKey key; /// Whether this page can be updated with the [other] page. /// /// Two pages are consider updatable if they have same the [runtimeType] and /// [key]. bool canUpdate(Page<dynamic> other) { return other.runtimeType == runtimeType && other.key == key; } /// Creates the [Route] that corresponds to this page. /// /// The created [Route] must have its [Route.settings] property set to this [Page]. Route<T> createRoute(BuildContext context); @override String toString() => '${objectRuntimeType(this, 'Page')}("$name", $key, $arguments)'; } /// A [Page] that builds a customized [Route] based on the [routeBuilder]. /// /// The type argument `T` is the corresponding [Route]'s return type, as /// used by [Route.currentResult], [Route.popped], and [Route.didPop]. class CustomBuilderPage<T> extends Page<T> { /// Creates a page with a custom route builder. /// /// Use [routeBuilder] to specify the route that will be created from this /// page. const CustomBuilderPage({ @required LocalKey key, @required this.routeBuilder, String name, Object arguments, }) : assert(key != null), assert(routeBuilder != null), super(key: key, name: name, arguments: arguments); /// A builder that will be called during [createRoute] to create a [Route]. /// /// The routes returned from this builder must have their settings equal to /// the input `settings`. final RouteBuilder<T> routeBuilder; @override Route<T> createRoute(BuildContext context) { final Route<T> route = routeBuilder(context, this); assert(route.settings == this); return route; } } /// An interface for observing the behavior of a [Navigator]. class NavigatorObserver { /// The navigator that the observer is observing, if any. NavigatorState get navigator => _navigator; NavigatorState _navigator; /// The [Navigator] pushed `route`. /// /// The route immediately below that one, and thus the previously active /// route, is `previousRoute`. void didPush(Route<dynamic> route, Route<dynamic> previousRoute) { } /// The [Navigator] popped `route`. /// /// The route immediately below that one, and thus the newly active /// route, is `previousRoute`. void didPop(Route<dynamic> route, Route<dynamic> previousRoute) { } /// The [Navigator] removed `route`. /// /// If only one route is being removed, then the route immediately below /// that one, if any, is `previousRoute`. /// /// If multiple routes are being removed, then the route below the /// bottommost route being removed, if any, is `previousRoute`, and this /// method will be called once for each removed route, from the topmost route /// to the bottommost route. void didRemove(Route<dynamic> route, Route<dynamic> previousRoute) { } /// The [Navigator] replaced `oldRoute` with `newRoute`. void didReplace({ Route<dynamic> newRoute, Route<dynamic> oldRoute }) { } /// The [Navigator]'s routes are being moved by a user gesture. /// /// For example, this is called when an iOS back gesture starts, and is used /// to disabled hero animations during such interactions. void didStartUserGesture(Route<dynamic> route, Route<dynamic> previousRoute) { } /// User gesture is no longer controlling the [Navigator]. /// /// Paired with an earlier call to [didStartUserGesture]. void didStopUserGesture() { } } /// A [Route] wrapper interface that can be staged for [TransitionDelegate] to /// decide how its underlying [Route] should transition on or off screen. abstract class RouteTransitionRecord { /// Retrieves the wrapped [Route]. Route<dynamic> get route; /// Whether this route is entering the screen. /// /// If this property is true, this route requires an explicit decision on how /// to transition into the screen. Such a decision should be made in the /// [TransitionDelegate.resolve]. bool get isEntering; bool _debugWaitingForExitDecision = false; /// Marks the [route] to be pushed with transition. /// /// During [TransitionDelegate.resolve], this can be called on an entering /// route (where [RouteTransitionRecord.isEntering] is true) in indicate that the /// route should be pushed onto the [Navigator] with an animated transition. void markForPush(); /// Marks the [route] to be added without transition. /// /// During [TransitionDelegate.resolve], this can be called on an entering /// route (where [RouteTransitionRecord.isEntering] is true) in indicate that the /// route should be added onto the [Navigator] without an animated transition. void markForAdd(); /// Marks the [route] to be popped with transition. /// /// During [TransitionDelegate.resolve], this can be called on an exiting /// route to indicate that the route should be popped off the [Navigator] with /// an animated transition. void markForPop([dynamic result]); /// Marks the [route] to be completed without transition. /// /// During [TransitionDelegate.resolve], this can be called on an exiting /// route to indicate that the route should be completed with the provided /// result and removed from the [Navigator] without an animated transition. void markForComplete([dynamic result]); /// Marks the [route] to be removed without transition. /// /// During [TransitionDelegate.resolve], this can be called on an exiting /// route to indicate that the route should be removed from the [Navigator] /// without completing and without an animated transition. void markForRemove(); } /// The delegate that decides how pages added and removed from [Navigator.pages] /// transition in or out of the screen. /// /// This abstract class implements the API to be called by [Navigator] when it /// requires explicit decisions on how the routes transition on or off the screen. /// /// To make route transition decisions, subclass must implement [resolve]. /// /// {@tool sample --template=freeform} /// The following example demonstrates how to implement a subclass that always /// removes or adds routes without animated transitions and puts the removed /// routes at the top of the list. /// /// ```dart imports /// import 'package:flutter/widgets.dart'; /// ``` /// /// ```dart /// class NoAnimationTransitionDelegate extends TransitionDelegate<void> { /// @override /// Iterable<RouteTransitionRecord> resolve({ /// List<RouteTransitionRecord> newPageRouteHistory, /// Map<RouteTransitionRecord, RouteTransitionRecord> locationToExitingPageRoute, /// Map<RouteTransitionRecord, List<RouteTransitionRecord>> pageRouteToPagelessRoutes, /// }) { /// final List<RouteTransitionRecord> results = <RouteTransitionRecord>[]; /// /// for (final RouteTransitionRecord pageRoute in newPageRouteHistory) { /// if (pageRoute.isEntering) { /// pageRoute.markForAdd(); /// } /// results.add(pageRoute); /// /// } /// for (final RouteTransitionRecord exitingPageRoute in locationToExitingPageRoute.values) { /// exitingPageRoute.markForRemove(); /// final List<RouteTransitionRecord> pagelessRoutes = pageRouteToPagelessRoutes[exitingPageRoute]; /// if (pagelessRoutes != null) { /// for (final RouteTransitionRecord pagelessRoute in pagelessRoutes) { /// pagelessRoute.markForRemove(); /// } /// } /// results.add(exitingPageRoute); /// /// } /// return results; /// } /// } /// /// ``` /// {@end-tool} /// /// See also: /// /// * [Navigator.transitionDelegate], which uses this class to make route /// transition decisions. /// * [DefaultTransitionDelegate], which implements the default way to decide /// how routes transition in or out of the screen. abstract class TransitionDelegate<T> { /// Creates a delegate and enables subclass to create a constant class. const TransitionDelegate(); Iterable<RouteTransitionRecord> _transition({ List<RouteTransitionRecord> newPageRouteHistory, Map<RouteTransitionRecord, RouteTransitionRecord> locationToExitingPageRoute, Map<RouteTransitionRecord, List<RouteTransitionRecord>> pageRouteToPagelessRoutes, }) { final Iterable<RouteTransitionRecord> results = resolve( newPageRouteHistory: newPageRouteHistory, locationToExitingPageRoute: locationToExitingPageRoute, pageRouteToPagelessRoutes: pageRouteToPagelessRoutes, ); // Verifies the integrity after the decisions have been made. // // Here are the rules: // - All the entering routes in newPageRouteHistory must either be pushed or // added. // - All the exiting routes in locationToExitingPageRoute must either be // popped, completed or removed. // - All the pageless routes that belong to exiting routes must either be // popped, completed or removed. // - All the entering routes in the result must preserve the same order as // the entering routes in newPageRouteHistory, and the result must contain // all exiting routes. // ex: // // newPageRouteHistory = [A, B, C] // // locationToExitingPageRoute = {A -> D, C -> E} // // results = [A, B ,C ,D ,E] is valid // results = [D, A, B ,C ,E] is also valid because exiting route can be // inserted in any place // // results = [B, A, C ,D ,E] is invalid because B must be after A. // results = [A, B, C ,E] is invalid because results must include D. assert(() { final List<RouteTransitionRecord> resultsToVerify = results.toList(growable: false); final Set<RouteTransitionRecord> exitingPageRoutes = locationToExitingPageRoute.values.toSet(); // Firstly, verifies all exiting routes have been marked. for (final RouteTransitionRecord exitingPageRoute in exitingPageRoutes) { assert(!exitingPageRoute._debugWaitingForExitDecision); if (pageRouteToPagelessRoutes.containsKey(exitingPageRoute)) { for (final RouteTransitionRecord pagelessRoute in pageRouteToPagelessRoutes[exitingPageRoute]) { assert(!pagelessRoute._debugWaitingForExitDecision); } } } // Secondly, verifies the order of results matches the newPageRouteHistory // and contains all the exiting routes. int indexOfNextRouteInNewHistory = 0; for (final _RouteEntry routeEntry in resultsToVerify.cast<_RouteEntry>()) { assert(routeEntry != null); assert(!routeEntry.isEntering && !routeEntry._debugWaitingForExitDecision); if ( indexOfNextRouteInNewHistory >= newPageRouteHistory.length || routeEntry != newPageRouteHistory[indexOfNextRouteInNewHistory] ) { assert(exitingPageRoutes.contains(routeEntry)); exitingPageRoutes.remove(routeEntry); } else { indexOfNextRouteInNewHistory += 1; } } assert( indexOfNextRouteInNewHistory == newPageRouteHistory.length && exitingPageRoutes.isEmpty ); return true; }()); return results; } /// A method that will be called by the [Navigator] to decide how routes /// transition in or out of the screen when [Navigator.pages] is updated. /// /// The `newPageRouteHistory` list contains all page-based routes in the order /// that will be on the [Navigator]'s history stack after this update /// completes. If a route in `newPageRouteHistory` has its /// [RouteTransitionRecord.isEntering] set to true, this route requires explicit /// decision on how it should transition onto the Navigator. To make a /// decision, call [RouteTransitionRecord.markForPush] or /// [RouteTransitionRecord.markForAdd]. /// /// The `locationToExitingPageRoute` contains the pages-based routes that /// are removed from the routes history after page update and require explicit /// decision on how to transition off the screen. This map records page-based /// routes to be removed with the location of the route in the original route /// history before the update. The keys are the locations represented by the /// page-based routes that are directly below the removed routes, and the value /// are the page-based routes to be removed. The location is null if the route /// to be removed is the bottom most route. To make a decision for a removed /// route, call [RouteTransitionRecord.markForPop], /// [RouteTransitionRecord.markForComplete] or /// [RouteTransitionRecord.markForRemove]. /// /// The `pageRouteToPagelessRoutes` records the page-based routes and their /// associated pageless routes. If a page-based route is to be removed, its /// associated pageless routes also require explicit decisions on how to /// transition off the screen. /// /// Once all the decisions have been made, this method must merge the removed /// routes and the `newPageRouteHistory` and return the merged result. The /// order in the result will be the order the [Navigator] uses for updating /// the route history. The return list must preserve the same order of routes /// in `newPageRouteHistory`. The removed routes, however, can be inserted /// into the return list freely as long as all of them are included. /// /// For example, consider the following case. /// /// newPageRouteHistory = [A, B, C] /// /// locationToExitingPageRoute = {A -> D, C -> E} /// /// The following outputs are valid. /// /// result = [A, B ,C ,D ,E] is valid /// result = [D, A, B ,C ,E] is also valid because exiting route can be /// inserted in any place /// /// The following outputs are invalid. /// /// result = [B, A, C ,D ,E] is invalid because B must be after A. /// result = [A, B, C ,E] is invalid because results must include D. /// /// See also: /// /// * [RouteTransitionRecord.markForPush], which makes route enter the screen /// with an animated transition. /// * [RouteTransitionRecord.markForAdd], which makes route enter the screen /// without an animated transition. /// * [RouteTransitionRecord.markForPop], which makes route exit the screen /// with an animated transition. /// * [RouteTransitionRecord.markForRemove], which does not complete the /// route and makes it exit the screen without an animated transition. /// * [RouteTransitionRecord.markForComplete], which completes the route and /// makes it exit the screen without an animated transition. /// * [DefaultTransitionDelegate.resolve], which implements the default way /// to decide how routes transition in or out of the screen. Iterable<RouteTransitionRecord> resolve({ List<RouteTransitionRecord> newPageRouteHistory, Map<RouteTransitionRecord, RouteTransitionRecord> locationToExitingPageRoute, Map<RouteTransitionRecord, List<RouteTransitionRecord>> pageRouteToPagelessRoutes, }); } /// The default implementation of [TransitionDelegate] that the [Navigator] will /// use if its [Navigator.transitionDelegate] is not specified. /// /// This transition delegate follows two rules. Firstly, all the entering routes /// are placed on top of the exiting routes if they are at the same location. /// Secondly, the top most route will always transition with an animated transition. /// All the other routes below will either be completed with /// [Route.currentResult] or added without an animated transition. class DefaultTransitionDelegate<T> extends TransitionDelegate<T> { /// Creates a default transition delegate. const DefaultTransitionDelegate() : super(); @override Iterable<RouteTransitionRecord> resolve({ List<RouteTransitionRecord> newPageRouteHistory, Map<RouteTransitionRecord, RouteTransitionRecord> locationToExitingPageRoute, Map<RouteTransitionRecord, List<RouteTransitionRecord>> pageRouteToPagelessRoutes, }) { final List<RouteTransitionRecord> results = <RouteTransitionRecord>[]; // This method will handle the exiting route and its corresponding pageless // route at this location. It will also recursively check if there is any // other exiting routes above it and handle them accordingly. void handleExitingRoute(RouteTransitionRecord location, bool isLast) { final RouteTransitionRecord exitingPageRoute = locationToExitingPageRoute[location]; if (exitingPageRoute == null) return; assert(exitingPageRoute._debugWaitingForExitDecision); final bool hasPagelessRoute = pageRouteToPagelessRoutes.containsKey(exitingPageRoute); final bool isLastExitingPageRoute = isLast && !locationToExitingPageRoute.containsKey(exitingPageRoute); if (isLastExitingPageRoute && !hasPagelessRoute) { exitingPageRoute.markForPop(exitingPageRoute.route.currentResult); } else { exitingPageRoute.markForComplete(exitingPageRoute.route.currentResult); } results.add(exitingPageRoute); if (hasPagelessRoute) { final List<RouteTransitionRecord> pagelessRoutes = pageRouteToPagelessRoutes[exitingPageRoute]; for (final RouteTransitionRecord pagelessRoute in pagelessRoutes) { assert(pagelessRoute._debugWaitingForExitDecision); if (isLastExitingPageRoute && pagelessRoute == pagelessRoutes.last) { pagelessRoute.markForPop(pagelessRoute.route.currentResult); } else { pagelessRoute.markForComplete(pagelessRoute.route.currentResult); } } } // It is possible there is another exiting route above this exitingPageRoute. handleExitingRoute(exitingPageRoute, isLast); } // Handles exiting route in the beginning of list. handleExitingRoute(null, newPageRouteHistory.isEmpty); for (final RouteTransitionRecord pageRoute in newPageRouteHistory) { final bool isLastIteration = newPageRouteHistory.last == pageRoute; if (pageRoute.isEntering) { if (!locationToExitingPageRoute.containsKey(pageRoute) && isLastIteration) { pageRoute.markForPush(); } else { pageRoute.markForAdd(); } } results.add(pageRoute); handleExitingRoute(pageRoute, isLastIteration); } return results; } } /// A widget that manages a set of child widgets with a stack discipline. /// /// Many apps have a navigator near the top of their widget hierarchy in order /// to display their logical history using an [Overlay] with the most recently /// visited pages visually on top of the older pages. Using this pattern lets /// the navigator visually transition from one page to another by moving the widgets /// around in the overlay. Similarly, the navigator can be used to show a dialog /// by positioning the dialog widget above the current page. /// /// ## Using the Navigator API /// /// Mobile apps typically reveal their contents via full-screen elements /// called "screens" or "pages". In Flutter these elements are called /// routes and they're managed by a [Navigator] widget. The navigator /// manages a stack of [Route] objects and provides two ways for managing /// the stack, the declarative API [Navigator.pages] or imperative API /// [Navigator.push] and [Navigator.pop]. /// /// When your user interface fits this paradigm of a stack, where the user /// should be able to _navigate_ back to an earlier element in the stack, /// the use of routes and the Navigator is appropriate. On certain platforms, /// such as Android, the system UI will provide a back button (outside the /// bounds of your application) that will allow the user to navigate back /// to earlier routes in your application's stack. On platforms that don't /// have this build-in navigation mechanism, the use of an [AppBar] (typically /// used in the [Scaffold.appBar] property) can automatically add a back /// button for user navigation. /// /// ## Using the Pages API /// /// The [Navigator] will convert its [Navigator.pages] into a stack of [Route]s /// if it is provided. A change in [Navigator.pages] will trigger an update to /// the stack of [Route]s. The [Navigator] will update its routes to match the /// new configuration of its [Navigator.pages]. To use this API, one can use /// [CustomBuilderPage] or create a [Page] subclass and defines a list of /// [Page]s for [Navigator.pages]. A [Navigator.onPopPage] callback is also /// required to properly clean up the input pages in case of a pop. /// /// By Default, the [Navigator] will use [DefaultTransitionDelegate] to decide /// how routes transition in or out of the screen. To customize it, define a /// [TransitionDelegate] subclass and provide it to the /// [Navigator.transitionDelegate]. /// /// ### Displaying a full-screen route /// /// Although you can create a navigator directly, it's most common to use the /// navigator created by the [Router] which itself is created and configured by /// a [WidgetsApp] or a [MaterialApp] widget. You can refer to that navigator /// with [Navigator.of]. /// /// A [MaterialApp] is the simplest way to set things up. The [MaterialApp]'s /// home becomes the route at the bottom of the [Navigator]'s stack. It is what /// you see when the app is launched. /// /// ```dart /// void main() { /// runApp(MaterialApp(home: MyAppHome())); /// } /// ``` /// /// To push a new route on the stack you can create an instance of /// [MaterialPageRoute] with a builder function that creates whatever you /// want to appear on the screen. For example: /// /// ```dart /// Navigator.push(context, MaterialPageRoute<void>( /// builder: (BuildContext context) { /// return Scaffold( /// appBar: AppBar(title: Text('My Page')), /// body: Center( /// child: FlatButton( /// child: Text('POP'), /// onPressed: () { /// Navigator.pop(context); /// }, /// ), /// ), /// ); /// }, /// )); /// ``` /// /// The route defines its widget with a builder function instead of a /// child widget because it will be built and rebuilt in different /// contexts depending on when it's pushed and popped. /// /// As you can see, the new route can be popped, revealing the app's home /// page, with the Navigator's pop method: /// /// ```dart /// Navigator.pop(context); /// ``` /// /// It usually isn't necessary to provide a widget that pops the Navigator /// in a route with a [Scaffold] because the Scaffold automatically adds a /// 'back' button to its AppBar. Pressing the back button causes /// [Navigator.pop] to be called. On Android, pressing the system back /// button does the same thing. /// /// ### Using named navigator routes /// /// Mobile apps often manage a large number of routes and it's often /// easiest to refer to them by name. Route names, by convention, /// use a path-like structure (for example, '/a/b/c'). /// The app's home page route is named '/' by default. /// /// The [MaterialApp] can be created /// with a [Map<String, WidgetBuilder>] which maps from a route's name to /// a builder function that will create it. The [MaterialApp] uses this /// map to create a value for its navigator's [onGenerateRoute] callback. /// /// ```dart /// void main() { /// runApp(MaterialApp( /// home: MyAppHome(), // becomes the route named '/' /// routes: <String, WidgetBuilder> { /// '/a': (BuildContext context) => MyPage(title: 'page A'), /// '/b': (BuildContext context) => MyPage(title: 'page B'), /// '/c': (BuildContext context) => MyPage(title: 'page C'), /// }, /// )); /// } /// ``` /// /// To show a route by name: /// /// ```dart /// Navigator.pushNamed(context, '/b'); /// ``` /// /// ### Routes can return a value /// /// When a route is pushed to ask the user for a value, the value can be /// returned via the [pop] method's result parameter. /// /// Methods that push a route return a [Future]. The Future resolves when the /// route is popped and the [Future]'s value is the [pop] method's `result` /// parameter. /// /// For example if we wanted to ask the user to press 'OK' to confirm an /// operation we could `await` the result of [Navigator.push]: /// /// ```dart /// bool value = await Navigator.push(context, MaterialPageRoute<bool>( /// builder: (BuildContext context) { /// return Center( /// child: GestureDetector( /// child: Text('OK'), /// onTap: () { Navigator.pop(context, true); } /// ), /// ); /// } /// )); /// ``` /// /// If the user presses 'OK' then value will be true. If the user backs /// out of the route, for example by pressing the Scaffold's back button, /// the value will be null. /// /// When a route is used to return a value, the route's type parameter must /// match the type of [pop]'s result. That's why we've used /// `MaterialPageRoute<bool>` instead of `MaterialPageRoute<void>` or just /// `MaterialPageRoute`. (If you prefer to not specify the types, though, that's /// fine too.) /// /// ### Popup routes /// /// Routes don't have to obscure the entire screen. [PopupRoute]s cover the /// screen with a [ModalRoute.barrierColor] that can be only partially opaque to /// allow the current screen to show through. Popup routes are "modal" because /// they block input to the widgets below. /// /// There are functions which create and show popup routes. For /// example: [showDialog], [showMenu], and [showModalBottomSheet]. These /// functions return their pushed route's Future as described above. /// Callers can await the returned value to take an action when the /// route is popped, or to discover the route's value. /// /// There are also widgets which create popup routes, like [PopupMenuButton] and /// [DropdownButton]. These widgets create internal subclasses of PopupRoute /// and use the Navigator's push and pop methods to show and dismiss them. /// /// ### Custom routes /// /// You can create your own subclass of one of the widget library route classes /// like [PopupRoute], [ModalRoute], or [PageRoute], to control the animated /// transition employed to show the route, the color and behavior of the route's /// modal barrier, and other aspects of the route. /// /// The [PageRouteBuilder] class makes it possible to define a custom route /// in terms of callbacks. Here's an example that rotates and fades its child /// when the route appears or disappears. This route does not obscure the entire /// screen because it specifies `opaque: false`, just as a popup route does. /// /// ```dart /// Navigator.push(context, PageRouteBuilder( /// opaque: false, /// pageBuilder: (BuildContext context, _, __) { /// return Center(child: Text('My PageRoute')); /// }, /// transitionsBuilder: (___, Animation<double> animation, ____, Widget child) { /// return FadeTransition( /// opacity: animation, /// child: RotationTransition( /// turns: Tween<double>(begin: 0.5, end: 1.0).animate(animation), /// child: child, /// ), /// ); /// } /// )); /// ``` /// /// The page route is built in two parts, the "page" and the /// "transitions". The page becomes a descendant of the child passed to /// the `transitionsBuilder` function. Typically the page is only built once, /// because it doesn't depend on its animation parameters (elided with `_` /// and `__` in this example). The transition is built on every frame /// for its duration. /// /// ### Nesting Navigators /// /// An app can use more than one [Navigator]. Nesting one [Navigator] below /// another [Navigator] can be used to create an "inner journey" such as tabbed /// navigation, user registration, store checkout, or other independent journeys /// that represent a subsection of your overall application. /// /// #### Example /// /// It is standard practice for iOS apps to use tabbed navigation where each /// tab maintains its own navigation history. Therefore, each tab has its own /// [Navigator], creating a kind of "parallel navigation." /// /// In addition to the parallel navigation of the tabs, it is still possible to /// launch full-screen pages that completely cover the tabs. For example: an /// on-boarding flow, or an alert dialog. Therefore, there must exist a "root" /// [Navigator] that sits above the tab navigation. As a result, each of the /// tab's [Navigator]s are actually nested [Navigator]s sitting below a single /// root [Navigator]. /// /// In practice, the nested [Navigator]s for tabbed navigation sit in the /// [WidgetApp] and [CupertinoTabView] widgets and do not need to be explicitly /// created or managed. /// /// {@tool sample --template=freeform} /// The following example demonstrates how a nested [Navigator] can be used to /// present a standalone user registration journey. /// /// Even though this example uses two [Navigator]s to demonstrate nested /// [Navigator]s, a similar result is possible using only a single [Navigator]. /// /// Run this example with `flutter run --route=/signup` to start it with /// the signup flow instead of on the home page. /// /// ```dart imports /// import 'package:flutter/material.dart'; /// ``` /// /// ```dart main /// void main() => runApp(MyApp()); /// ``` /// /// ```dart /// class MyApp extends StatelessWidget { /// @override /// Widget build(BuildContext context) { /// return MaterialApp( /// title: 'Flutter Code Sample for Navigator', /// // MaterialApp contains our top-level Navigator /// initialRoute: '/', /// routes: { /// '/': (BuildContext context) => HomePage(), /// '/signup': (BuildContext context) => SignUpPage(), /// }, /// ); /// } /// } /// /// class HomePage extends StatelessWidget { /// @override /// Widget build(BuildContext context) { /// return DefaultTextStyle( /// style: Theme.of(context).textTheme.headline4, /// child: Container( /// color: Colors.white, /// alignment: Alignment.center, /// child: Text('Home Page'), /// ), /// ); /// } /// } /// /// class CollectPersonalInfoPage extends StatelessWidget { /// @override /// Widget build(BuildContext context) { /// return DefaultTextStyle( /// style: Theme.of(context).textTheme.headline4, /// child: GestureDetector( /// onTap: () { /// // This moves from the personal info page to the credentials page, /// // replacing this page with that one. /// Navigator.of(context) /// .pushReplacementNamed('signup/choose_credentials'); /// }, /// child: Container( /// color: Colors.lightBlue, /// alignment: Alignment.center, /// child: Text('Collect Personal Info Page'), /// ), /// ), /// ); /// } /// } /// /// class ChooseCredentialsPage extends StatelessWidget { /// const ChooseCredentialsPage({ /// this.onSignupComplete, /// }); /// /// final VoidCallback onSignupComplete; /// /// @override /// Widget build(BuildContext context) { /// return GestureDetector( /// onTap: onSignupComplete, /// child: DefaultTextStyle( /// style: Theme.of(context).textTheme.headline4, /// child: Container( /// color: Colors.pinkAccent, /// alignment: Alignment.center, /// child: Text('Choose Credentials Page'), /// ), /// ), /// ); /// } /// } /// /// class SignUpPage extends StatelessWidget { /// @override /// Widget build(BuildContext context) { /// // SignUpPage builds its own Navigator which ends up being a nested /// // Navigator in our app. /// return Navigator( /// initialRoute: 'signup/personal_info', /// onGenerateRoute: (RouteSettings settings) { /// WidgetBuilder builder; /// switch (settings.name) { /// case 'signup/personal_info': /// // Assume CollectPersonalInfoPage collects personal info and then /// // navigates to 'signup/choose_credentials'. /// builder = (BuildContext _) => CollectPersonalInfoPage(); /// break; /// case 'signup/choose_credentials': /// // Assume ChooseCredentialsPage collects new credentials and then /// // invokes 'onSignupComplete()'. /// builder = (BuildContext _) => ChooseCredentialsPage( /// onSignupComplete: () { /// // Referencing Navigator.of(context) from here refers to the /// // top level Navigator because SignUpPage is above the /// // nested Navigator that it created. Therefore, this pop() /// // will pop the entire "sign up" journey and return to the /// // "/" route, AKA HomePage. /// Navigator.of(context).pop(); /// }, /// ); /// break; /// default: /// throw Exception('Invalid route: ${settings.name}'); /// } /// return MaterialPageRoute(builder: builder, settings: settings); /// }, /// ); /// } /// } /// ``` /// {@end-tool} /// /// [Navigator.of] operates on the nearest ancestor [Navigator] from the given /// [BuildContext]. Be sure to provide a [BuildContext] below the intended /// [Navigator], especially in large [build] methods where nested [Navigator]s /// are created. The [Builder] widget can be used to access a [BuildContext] at /// a desired location in the widget subtree. class Navigator extends StatefulWidget { /// Creates a widget that maintains a stack-based history of child widgets. /// /// The [onGenerateRoute], [pages], [onGenerateInitialRoutes], /// [transitionDelegate], [observers] arguments must not be null. /// /// If the [pages] is not empty, the [onPopPage] must not be null. const Navigator({ Key key, this.pages = const <Page<dynamic>>[], this.onPopPage, this.initialRoute, this.onGenerateInitialRoutes = Navigator.defaultGenerateInitialRoutes, this.onGenerateRoute, this.onUnknownRoute, this.transitionDelegate = const DefaultTransitionDelegate<dynamic>(), this.observers = const <NavigatorObserver>[], }) : assert(pages != null), assert(onGenerateInitialRoutes != null), assert(transitionDelegate != null), assert(observers != null), super(key: key); /// The list of pages with which to populate the history. /// /// Pages are turned into routes using [Page.createRoute] in a manner /// analogous to how [Widget]s are turned into [Element]s (and [State]s or /// [RenderObject]s) using [Widget.createElement] (and /// [StatefulWidget.createState] or [RenderObjectWidget.createRenderObject]). /// /// When this list is updated, the new list is compared to the previous /// list and the set of routes is updated accordingly. /// /// Some [Route]s do not correspond to [Page] objects, namely, those that are /// added to the history using the [Navigator] API ([push] and friends). A /// [Route] that does not correspond to a [Page] object is called a pageless /// route and is tied to the [Route] that _does_ correspond to a [Page] object /// that is below it in the history. /// /// Pages that are added or removed may be animated as controlled by the /// [transitionDelegate]. If a page is removed that had other pageless routes /// pushed on top of it using [push] and friends, those pageless routes are /// also removed with or without animation as determined by the /// [transitionDelegate]. /// /// To use this API, an [onPopPage] callback must also be provided to properly /// clean up this list if a page has been popped. /// /// If [initialRoute] is non-null when the widget is first created, then /// [onGenerateInitialRoutes] is used to generate routes that are above those /// corresponding to [pages] in the initial history. final List<Page<dynamic>> pages; /// Called when [pop] is invoked but the current [Route] corresponds to a /// [Page] found in the [pages] list. /// /// The `result` argument is the value with which the route is to complete /// (e.g. the value returned from a dialog). /// /// This callback is responsible for calling [Route.didPop] and returning /// whether this pop is successful. /// /// The [Navigator] widget should be rebuilt with a [pages] list that does not /// contain the [Page] for the given [Route]. The next time the [pages] list /// is updated, if the [Page] corresponding to this [Route] is still present, /// it will be interpreted as a new route to display. final PopPageCallback onPopPage; /// The delegate used for deciding how routes transition in or off the screen /// during the [pages] updates. /// /// Defaults to [DefaultTransitionDelegate] if not specified, cannot be null. final TransitionDelegate<dynamic> transitionDelegate; /// The name of the first route to show. /// /// Defaults to [Navigator.defaultRouteName]. /// /// The value is interpreted according to [onGenerateInitialRoutes], which /// defaults to [defaultGenerateInitialRoutes]. final String initialRoute; /// Called to generate a route for a given [RouteSettings]. final RouteFactory onGenerateRoute; /// Called when [onGenerateRoute] fails to generate a route. /// /// This callback is typically used for error handling. For example, this /// callback might always generate a "not found" page that describes the route /// that wasn't found. /// /// Unknown routes can arise either from errors in the app or from external /// requests to push routes, such as from Android intents. final RouteFactory onUnknownRoute; /// A list of observers for this navigator. final List<NavigatorObserver> observers; /// The name for the default route of the application. /// /// See also: /// /// * [dart:ui.Window.defaultRouteName], which reflects the route that the /// application was started with. static const String defaultRouteName = '/'; /// Called when the widget is created to generate the initial list of [Route] /// objects if [initialRoute] is not null. /// /// Defaults to [defaultGenerateInitialRoutes]. /// /// The [NavigatorState] and [initialRoute] will be passed to the callback. /// The callback must return a list of [Route] objects with which the history /// will be primed. final RouteListFactory onGenerateInitialRoutes; /// Push a named route onto the navigator that most tightly encloses the given /// context. /// /// {@template flutter.widgets.navigator.pushNamed} /// The route name will be passed to that navigator's [onGenerateRoute] /// callback. The returned route will be pushed into the navigator. /// /// The new route and the previous route (if any) are notified (see /// [Route.didPush] and [Route.didChangeNext]). If the [Navigator] has any /// [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didPush]). /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the route. /// /// To use [pushNamed], an [onGenerateRoute] callback must be provided, /// {@endtemplate} /// /// {@template flutter.widgets.navigator.pushNamed.arguments} /// The provided `arguments` are passed to the pushed route via /// [RouteSettings.arguments]. Any object can be passed as `arguments` (e.g. a /// [String], [int], or an instance of a custom `MyRouteArguments` class). /// Often, a [Map] is used to pass key-value pairs. /// /// The `arguments` may be used in [Navigator.onGenerateRoute] or /// [Navigator.onUnknownRoute] to construct the route. /// {@endtemplate} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _didPushButton() { /// Navigator.pushNamed(context, '/settings'); /// } /// ``` /// {@end-tool} /// /// {@tool snippet} /// /// The following example shows how to pass additional `arguments` to the /// route: /// /// ```dart /// void _showBerlinWeather() { /// Navigator.pushNamed( /// context, /// '/weather', /// arguments: <String, String>{ /// 'city': 'Berlin', /// 'country': 'Germany', /// }, /// ); /// } /// ``` /// {@end-tool} /// /// {@tool snippet} /// /// The following example shows how to pass a custom Object to the route: /// /// ```dart /// class WeatherRouteArguments { /// WeatherRouteArguments({ this.city, this.country }); /// final String city; /// final String country; /// /// bool get isGermanCapital { /// return country == 'Germany' && city == 'Berlin'; /// } /// } /// /// void _showWeather() { /// Navigator.pushNamed( /// context, /// '/weather', /// arguments: WeatherRouteArguments(city: 'Berlin', country: 'Germany'), /// ); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> pushNamed<T extends Object>( BuildContext context, String routeName, { Object arguments, }) { return Navigator.of(context).pushNamed<T>(routeName, arguments: arguments); } /// Replace the current route of the navigator that most tightly encloses the /// given context by pushing the route named [routeName] and then disposing /// the previous route once the new route has finished animating in. /// /// {@template flutter.widgets.navigator.pushReplacementNamed} /// If non-null, `result` will be used as the result of the route that is /// removed; the future that had been returned from pushing that old route /// will complete with `result`. Routes such as dialogs or popup menus /// typically use this mechanism to return the value selected by the user to /// the widget that created their route. The type of `result`, if provided, /// must match the type argument of the class of the old route (`TO`). /// /// The route name will be passed to the navigator's [onGenerateRoute] /// callback. The returned route will be pushed into the navigator. /// /// The new route and the route below the removed route are notified (see /// [Route.didPush] and [Route.didChangeNext]). If the [Navigator] has any /// [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didReplace]). The removed route is notified once the /// new route has finished animating (see [Route.didComplete]). The removed /// route's exit animation is not run (see [popAndPushNamed] for a variant /// that does animated the removed route). /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the new route, /// and `TO` is the type of the return value of the old route. /// /// To use [pushReplacementNamed], an [onGenerateRoute] callback must be /// provided. /// {@endtemplate} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _switchToBrightness() { /// Navigator.pushReplacementNamed(context, '/settings/brightness'); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> pushReplacementNamed<T extends Object, TO extends Object>( BuildContext context, String routeName, { TO result, Object arguments, }) { return Navigator.of(context).pushReplacementNamed<T, TO>(routeName, arguments: arguments, result: result); } /// Pop the current route off the navigator that most tightly encloses the /// given context and push a named route in its place. /// /// {@template flutter.widgets.navigator.popAndPushNamed} /// The popping of the previous route is handled as per [pop]. /// /// The new route's name will be passed to the navigator's [onGenerateRoute] /// callback. The returned route will be pushed into the navigator. /// /// The new route, the old route, and the route below the old route (if any) /// are all notified (see [Route.didPop], [Route.didComplete], /// [Route.didPopNext], [Route.didPush], and [Route.didChangeNext]). If the /// [Navigator] has any [Navigator.observers], they will be notified as well /// (see [NavigatorObserver.didPop] and [NavigatorObservers.didPush]). The /// animations for the pop and the push are performed simultaneously, so the /// route below may be briefly visible even if both the old route and the new /// route are opaque (see [TransitionRoute.opaque]). /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the new route, /// and `TO` is the return value type of the old route. /// /// To use [popAndPushNamed], an [onGenerateRoute] callback must be provided. /// /// {@endtemplate} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _selectAccessibility() { /// Navigator.popAndPushNamed(context, '/settings/accessibility'); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> popAndPushNamed<T extends Object, TO extends Object>( BuildContext context, String routeName, { TO result, Object arguments, }) { return Navigator.of(context).popAndPushNamed<T, TO>(routeName, arguments: arguments, result: result); } /// Push the route with the given name onto the navigator that most tightly /// encloses the given context, and then remove all the previous routes until /// the `predicate` returns true. /// /// {@template flutter.widgets.navigator.pushNamedAndRemoveUntil} /// The predicate may be applied to the same route more than once if /// [Route.willHandlePopInternally] is true. /// /// To remove routes until a route with a certain name, use the /// [RoutePredicate] returned from [ModalRoute.withName]. /// /// To remove all the routes below the pushed route, use a [RoutePredicate] /// that always returns false (e.g. `(Route<dynamic> route) => false`). /// /// The removed routes are removed without being completed, so this method /// does not take a return value argument. /// /// The new route's name (`routeName`) will be passed to the navigator's /// [onGenerateRoute] callback. The returned route will be pushed into the /// navigator. /// /// The new route and the route below the bottommost removed route (which /// becomes the route below the new route) are notified (see [Route.didPush] /// and [Route.didChangeNext]). If the [Navigator] has any /// [Navigator.observers], they will be notified as well (see /// [NavigatorObservers.didPush] and [NavigatorObservers.didRemove]). The /// removed routes are disposed, without being notified, once the new route /// has finished animating. The futures that had been returned from pushing /// those routes will not complete. /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the new route. /// /// To use [pushNamedAndRemoveUntil], an [onGenerateRoute] callback must be /// provided. /// {@endtemplate} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _resetToCalendar() { /// Navigator.pushNamedAndRemoveUntil(context, '/calendar', ModalRoute.withName('/')); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> pushNamedAndRemoveUntil<T extends Object>( BuildContext context, String newRouteName, RoutePredicate predicate, { Object arguments, }) { return Navigator.of(context).pushNamedAndRemoveUntil<T>(newRouteName, predicate, arguments: arguments); } /// Push the given route onto the navigator that most tightly encloses the /// given context. /// /// {@template flutter.widgets.navigator.push} /// The new route and the previous route (if any) are notified (see /// [Route.didPush] and [Route.didChangeNext]). If the [Navigator] has any /// [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didPush]). /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the route. /// {@endtemplate} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _openMyPage() { /// Navigator.push(context, MaterialPageRoute(builder: (BuildContext context) => MyPage())); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> push<T extends Object>(BuildContext context, Route<T> route) { return Navigator.of(context).push(route); } /// Replace the current route of the navigator that most tightly encloses the /// given context by pushing the given route and then disposing the previous /// route once the new route has finished animating in. /// /// {@template flutter.widgets.navigator.pushReplacement} /// If non-null, `result` will be used as the result of the route that is /// removed; the future that had been returned from pushing that old route will /// complete with `result`. Routes such as dialogs or popup menus typically /// use this mechanism to return the value selected by the user to the widget /// that created their route. The type of `result`, if provided, must match /// the type argument of the class of the old route (`TO`). /// /// The new route and the route below the removed route are notified (see /// [Route.didPush] and [Route.didChangeNext]). If the [Navigator] has any /// [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didReplace]). The removed route is notified once the /// new route has finished animating (see [Route.didComplete]). /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the new route, /// and `TO` is the type of the return value of the old route. /// {@endtemplate} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _completeLogin() { /// Navigator.pushReplacement( /// context, MaterialPageRoute(builder: (BuildContext context) => MyHomePage())); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> pushReplacement<T extends Object, TO extends Object>(BuildContext context, Route<T> newRoute, { TO result }) { return Navigator.of(context).pushReplacement<T, TO>(newRoute, result: result); } /// Push the given route onto the navigator that most tightly encloses the /// given context, and then remove all the previous routes until the /// `predicate` returns true. /// /// {@template flutter.widgets.navigator.pushAndRemoveUntil} /// The predicate may be applied to the same route more than once if /// [Route.willHandlePopInternally] is true. /// /// To remove routes until a route with a certain name, use the /// [RoutePredicate] returned from [ModalRoute.withName]. /// /// To remove all the routes below the pushed route, use a [RoutePredicate] /// that always returns false (e.g. `(Route<dynamic> route) => false`). /// /// The removed routes are removed without being completed, so this method /// does not take a return value argument. /// /// The newly pushed route and its preceding route are notified for /// [Route.didPush]. After removal, the new route and its new preceding route, /// (the route below the bottommost removed route) are notified through /// [Route.didChangeNext]). If the [Navigator] has any [Navigator.observers], /// they will be notified as well (see [NavigatorObservers.didPush] and /// [NavigatorObservers.didRemove]). The removed routes are disposed of and /// notified, once the new route has finished animating. The futures that had /// been returned from pushing those routes will not complete. /// /// Ongoing gestures within the current route are canceled when a new route is /// pushed. /// /// Returns a [Future] that completes to the `result` value passed to [pop] /// when the pushed route is popped off the navigator. /// /// The `T` type argument is the type of the return value of the new route. /// {@endtemplate} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _finishAccountCreation() { /// Navigator.pushAndRemoveUntil( /// context, /// MaterialPageRoute(builder: (BuildContext context) => MyHomePage()), /// ModalRoute.withName('/'), /// ); /// } /// ``` /// {@end-tool} @optionalTypeArgs static Future<T> pushAndRemoveUntil<T extends Object>(BuildContext context, Route<T> newRoute, RoutePredicate predicate) { return Navigator.of(context).pushAndRemoveUntil<T>(newRoute, predicate); } /// Replaces a route on the navigator that most tightly encloses the given /// context with a new route. /// /// {@template flutter.widgets.navigator.replace} /// The old route must not be currently visible, as this method skips the /// animations and therefore the removal would be jarring if it was visible. /// To replace the top-most route, consider [pushReplacement] instead, which /// _does_ animate the new route, and delays removing the old route until the /// new route has finished animating. /// /// The removed route is removed without being completed, so this method does /// not take a return value argument. /// /// The new route, the route below the new route (if any), and the route above /// the new route, are all notified (see [Route.didReplace], /// [Route.didChangeNext], and [Route.didChangePrevious]). If the [Navigator] /// has any [Navigator.observers], they will be notified as well (see /// [NavigatorObservers.didReplace]). The removed route is disposed without /// being notified. The future that had been returned from pushing that routes /// will not complete. /// /// This can be useful in combination with [removeRouteBelow] when building a /// non-linear user experience. /// /// The `T` type argument is the type of the return value of the new route. /// {@endtemplate} /// /// See also: /// /// * [replaceRouteBelow], which is the same but identifies the route to be /// removed by reference to the route above it, rather than directly. @optionalTypeArgs static void replace<T extends Object>(BuildContext context, { @required Route<dynamic> oldRoute, @required Route<T> newRoute }) { return Navigator.of(context).replace<T>(oldRoute: oldRoute, newRoute: newRoute); } /// Replaces a route on the navigator that most tightly encloses the given /// context with a new route. The route to be replaced is the one below the /// given `anchorRoute`. /// /// {@template flutter.widgets.navigator.replaceRouteBelow} /// The old route must not be current visible, as this method skips the /// animations and therefore the removal would be jarring if it was visible. /// To replace the top-most route, consider [pushReplacement] instead, which /// _does_ animate the new route, and delays removing the old route until the /// new route has finished animating. /// /// The removed route is removed without being completed, so this method does /// not take a return value argument. /// /// The new route, the route below the new route (if any), and the route above /// the new route, are all notified (see [Route.didReplace], /// [Route.didChangeNext], and [Route.didChangePrevious]). If the [Navigator] /// has any [Navigator.observers], they will be notified as well (see /// [NavigatorObservers.didReplace]). The removed route is disposed without /// being notified. The future that had been returned from pushing that routes /// will not complete. /// /// The `T` type argument is the type of the return value of the new route. /// {@endtemplate} /// /// See also: /// /// * [replace], which is the same but identifies the route to be removed /// directly. @optionalTypeArgs static void replaceRouteBelow<T extends Object>(BuildContext context, { @required Route<dynamic> anchorRoute, Route<T> newRoute }) { return Navigator.of(context).replaceRouteBelow<T>(anchorRoute: anchorRoute, newRoute: newRoute); } /// Whether the navigator that most tightly encloses the given context can be /// popped. /// /// {@template flutter.widgets.navigator.canPop} /// The initial route cannot be popped off the navigator, which implies that /// this function returns true only if popping the navigator would not remove /// the initial route. /// /// If there is no [Navigator] in scope, returns false. /// {@endtemplate} /// /// See also: /// /// * [Route.isFirst], which returns true for routes for which [canPop] /// returns false. static bool canPop(BuildContext context) { final NavigatorState navigator = Navigator.of(context, nullOk: true); return navigator != null && navigator.canPop(); } /// Consults the current route's [Route.willPop] method, and acts accordingly, /// potentially popping the route as a result; returns whether the pop request /// should be considered handled. /// /// {@template flutter.widgets.navigator.maybePop} /// If [Route.willPop] returns [RoutePopDisposition.pop], then the [pop] /// method is called, and this method returns true, indicating that it handled /// the pop request. /// /// If [Route.willPop] returns [RoutePopDisposition.doNotPop], then this /// method returns true, but does not do anything beyond that. /// /// If [Route.willPop] returns [RoutePopDisposition.bubble], then this method /// returns false, and the caller is responsible for sending the request to /// the containing scope (e.g. by closing the application). /// /// This method is typically called for a user-initiated [pop]. For example on /// Android it's called by the binding for the system's back button. /// /// The `T` type argument is the type of the return value of the current /// route. (Typically this isn't known; consider specifying `dynamic` or /// `Null`.) /// {@endtemplate} /// /// See also: /// /// * [Form], which provides an `onWillPop` callback that enables the form /// to veto a [pop] initiated by the app's back button. /// * [ModalRoute], which provides a `scopedWillPopCallback` that can be used /// to define the route's `willPop` method. @optionalTypeArgs static Future<bool> maybePop<T extends Object>(BuildContext context, [ T result ]) { return Navigator.of(context).maybePop<T>(result); } /// Pop the top-most route off the navigator that most tightly encloses the /// given context. /// /// {@template flutter.widgets.navigator.pop} /// The current route's [Route.didPop] method is called first. If that method /// returns false, then the route remains in the [Navigator]'s history (the /// route is expected to have popped some internal state; see e.g. /// [LocalHistoryRoute]). Otherwise, the rest of this description applies. /// /// If non-null, `result` will be used as the result of the route that is /// popped; the future that had been returned from pushing the popped route /// will complete with `result`. Routes such as dialogs or popup menus /// typically use this mechanism to return the value selected by the user to /// the widget that created their route. The type of `result`, if provided, /// must match the type argument of the class of the popped route (`T`). /// /// The popped route and the route below it are notified (see [Route.didPop], /// [Route.didComplete], and [Route.didPopNext]). If the [Navigator] has any /// [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didPop]). /// /// The `T` type argument is the type of the return value of the popped route. /// /// The type of `result`, if provided, must match the type argument of the /// class of the popped route (`T`). /// {@endtemplate} /// /// {@tool snippet} /// /// Typical usage for closing a route is as follows: /// /// ```dart /// void _close() { /// Navigator.pop(context); /// } /// ``` /// {@end-tool} /// /// A dialog box might be closed with a result: /// /// ```dart /// void _accept() { /// Navigator.pop(context, true); // dialog returns true /// } /// ``` @optionalTypeArgs static void pop<T extends Object>(BuildContext context, [ T result ]) { Navigator.of(context).pop<T>(result); } /// Calls [pop] repeatedly on the navigator that most tightly encloses the /// given context until the predicate returns true. /// /// {@template flutter.widgets.navigator.popUntil} /// The predicate may be applied to the same route more than once if /// [Route.willHandlePopInternally] is true. /// /// To pop until a route with a certain name, use the [RoutePredicate] /// returned from [ModalRoute.withName]. /// /// The routes are closed with null as their `return` value. /// /// See [pop] for more details of the semantics of popping a route. /// {@endtemplate} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _logout() { /// Navigator.popUntil(context, ModalRoute.withName('/login')); /// } /// ``` /// {@end-tool} static void popUntil(BuildContext context, RoutePredicate predicate) { Navigator.of(context).popUntil(predicate); } /// Immediately remove `route` from the navigator that most tightly encloses /// the given context, and [Route.dispose] it. /// /// {@template flutter.widgets.navigator.removeRoute} /// The removed route is removed without being completed, so this method does /// not take a return value argument. No animations are run as a result of /// this method call. /// /// The routes below and above the removed route are notified (see /// [Route.didChangeNext] and [Route.didChangePrevious]). If the [Navigator] /// has any [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didRemove]). The removed route is disposed without /// being notified. The future that had been returned from pushing that routes /// will not complete. /// /// The given `route` must be in the history; this method will throw an /// exception if it is not. /// /// Ongoing gestures within the current route are canceled. /// {@endtemplate} /// /// This method is used, for example, to instantly dismiss dropdown menus that /// are up when the screen's orientation changes. static void removeRoute(BuildContext context, Route<dynamic> route) { return Navigator.of(context).removeRoute(route); } /// Immediately remove a route from the navigator that most tightly encloses /// the given context, and [Route.dispose] it. The route to be removed is the /// one below the given `anchorRoute`. /// /// {@template flutter.widgets.navigator.removeRouteBelow} /// The removed route is removed without being completed, so this method does /// not take a return value argument. No animations are run as a result of /// this method call. /// /// The routes below and above the removed route are notified (see /// [Route.didChangeNext] and [Route.didChangePrevious]). If the [Navigator] /// has any [Navigator.observers], they will be notified as well (see /// [NavigatorObserver.didRemove]). The removed route is disposed without /// being notified. The future that had been returned from pushing that routes /// will not complete. /// /// The given `anchorRoute` must be in the history and must have a route below /// it; this method will throw an exception if it is not or does not. /// /// Ongoing gestures within the current route are canceled. /// {@endtemplate} static void removeRouteBelow(BuildContext context, Route<dynamic> anchorRoute) { return Navigator.of(context).removeRouteBelow(anchorRoute); } /// The state from the closest instance of this class that encloses the given context. /// /// Typical usage is as follows: /// /// ```dart /// Navigator.of(context) /// ..pop() /// ..pop() /// ..pushNamed('/settings'); /// ``` /// /// If `rootNavigator` is set to true, the state from the furthest instance of /// this class is given instead. Useful for pushing contents above all subsequent /// instances of [Navigator]. static NavigatorState of( BuildContext context, { bool rootNavigator = false, bool nullOk = false, }) { final NavigatorState navigator = rootNavigator ? context.findRootAncestorStateOfType<NavigatorState>() : context.findAncestorStateOfType<NavigatorState>(); assert(() { if (navigator == null && !nullOk) { throw FlutterError( 'Navigator operation requested with a context that does not include a Navigator.\n' 'The context used to push or pop routes from the Navigator must be that of a ' 'widget that is a descendant of a Navigator widget.' ); } return true; }()); return navigator; } /// Turn a route name into a set of [Route] objects. /// /// This is the default value of [onGenerateInitialRoutes], which is used if /// [initialRoute] is not null. /// /// If this string contains any `/` characters, then the string is split on /// those characters and substrings from the start of the string up to each /// such character are, in turn, used as routes to push. /// /// For example, if the route `/stocks/HOOLI` was used as the [initialRoute], /// then the [Navigator] would push the following routes on startup: `/`, /// `/stocks`, `/stocks/HOOLI`. This enables deep linking while allowing the /// application to maintain a predictable route history. static List<Route<dynamic>> defaultGenerateInitialRoutes(NavigatorState navigator, String initialRouteName) { final List<Route<dynamic>> result = <Route<dynamic>>[]; if (initialRouteName.startsWith('/') && initialRouteName.length > 1) { initialRouteName = initialRouteName.substring(1); // strip leading '/' assert(Navigator.defaultRouteName == '/'); List<String> debugRouteNames; assert(() { debugRouteNames = <String>[ Navigator.defaultRouteName ]; return true; }()); result.add(navigator._routeNamed<dynamic>(Navigator.defaultRouteName, arguments: null, allowNull: true)); final List<String> routeParts = initialRouteName.split('/'); if (initialRouteName.isNotEmpty) { String routeName = ''; for (final String part in routeParts) { routeName += '/$part'; assert(() { debugRouteNames.add(routeName); return true; }()); result.add(navigator._routeNamed<dynamic>(routeName, arguments: null, allowNull: true)); } } if (result.last == null) { assert(() { FlutterError.reportError( FlutterErrorDetails( exception: 'Could not navigate to initial route.\n' 'The requested route name was: "/$initialRouteName"\n' 'There was no corresponding route in the app, and therefore the initial route specified will be ' 'ignored and "${Navigator.defaultRouteName}" will be used instead.' ), ); return true; }()); result.clear(); } } else if (initialRouteName != Navigator.defaultRouteName) { // If initialRouteName wasn't '/', then we try to get it with allowNull:true, so that if that fails, // we fall back to '/' (without allowNull:true, see below). result.add(navigator._routeNamed<dynamic>(initialRouteName, arguments: null, allowNull: true)); } // Null route might be a result of gap in initialRouteName // // For example, routes = ['A', 'A/B/C'], and initialRouteName = 'A/B/C' // This should result in result = ['A', null,'A/B/C'] where 'A/B' produces // the null. In this case, we want to filter out the null and return // result = ['A', 'A/B/C']. result.removeWhere((Route<dynamic> route) => route == null); if (result.isEmpty) result.add(navigator._routeNamed<dynamic>(Navigator.defaultRouteName, arguments: null)); return result; } @override NavigatorState createState() => NavigatorState(); } // The _RouteLifecycle state machine (only goes down): // // [creation of a _RouteEntry] // | // + // |\ // | \ // | staging // | / // |/ // +-+----------+--+-------+ // / | | | // / | | | // / | | | // / | | | // / | | | // pushReplace push* add* replace* // \ | | | // \ | | / // +--pushing# adding / // \ / / // \ / / // idle--+-----+ // / \ // / \ // pop* remove* // / \ // / removing# // popping# | // | | // [finalizeRoute] | // \ | // dispose* // | // | // disposed // | // | // [_RouteEntry garbage collected] // (terminal state) // // * These states are transient; as soon as _flushHistoryUpdates is run the // route entry will exit that state. // # These states await futures or other events, then transition automatically. enum _RouteLifecycle { staging, // we will wait for transition delegate to decide what to do with this route. // // routes that are present: // add, // we'll want to run install, didAdd, etc; a route created by onGenerateInitialRoutes or by the initial widget.pages adding, // we'll want to run install, didAdd, etc; a route created by onGenerateInitialRoutes or by the initial widget.pages // routes that are ready for transition. push, // we'll want to run install, didPush, etc; a route added via push() and friends pushReplace, // we'll want to run install, didPush, etc; a route added via pushReplace() and friends pushing, // we're waiting for the future from didPush to complete replace, // we'll want to run install, didReplace, etc; a route added via replace() and friends idle, // route is being harmless // // routes that are not present: // // routes that should be included in route announcement and should still listen to transition changes. pop, // we'll want to call didPop remove, // we'll want to run didReplace/didRemove etc // routes should not be included in route announcement but should still listen to transition changes. popping, // we're waiting for the route to call finalizeRoute to switch to dispose removing, // we are waiting for subsequent routes to be done animating, then will switch to dispose // routes that are completely removed from the navigator and overlay. dispose, // we will dispose the route momentarily disposed, // we have disposed the route } typedef _RouteEntryPredicate = bool Function(_RouteEntry entry); class _RouteEntry extends RouteTransitionRecord { _RouteEntry( this.route, { @required _RouteLifecycle initialState, }) : assert(route != null), assert(initialState != null), assert( initialState == _RouteLifecycle.staging || initialState == _RouteLifecycle.add || initialState == _RouteLifecycle.push || initialState == _RouteLifecycle.pushReplace || initialState == _RouteLifecycle.replace ), currentState = initialState; @override final Route<dynamic> route; _RouteLifecycle currentState; Route<dynamic> lastAnnouncedPreviousRoute; // last argument to Route.didChangePrevious Route<dynamic> lastAnnouncedPoppedNextRoute; // last argument to Route.didPopNext Route<dynamic> lastAnnouncedNextRoute; // last argument to Route.didChangeNext bool get hasPage => route.settings is Page; bool canUpdateFrom(Page<dynamic> page) { if (currentState.index > _RouteLifecycle.idle.index) return false; if (!hasPage) return false; final Page<dynamic> routePage = route.settings as Page<dynamic>; return page.canUpdate(routePage); } void handleAdd({ @required NavigatorState navigator}) { assert(currentState == _RouteLifecycle.add); assert(navigator != null); assert(navigator._debugLocked); assert(route._navigator == null); route._navigator = navigator; route.install(); assert(route.overlayEntries.isNotEmpty); currentState = _RouteLifecycle.adding; } void handlePush({ @required NavigatorState navigator, @required bool isNewFirst, @required Route<dynamic> previous, @required Route<dynamic> previousPresent }) { assert(currentState == _RouteLifecycle.push || currentState == _RouteLifecycle.pushReplace || currentState == _RouteLifecycle.replace); assert(navigator != null); assert(navigator._debugLocked); assert(route._navigator == null); final _RouteLifecycle previousState = currentState; route._navigator = navigator; route.install(); assert(route.overlayEntries.isNotEmpty); if (currentState == _RouteLifecycle.push || currentState == _RouteLifecycle.pushReplace) { final TickerFuture routeFuture = route.didPush(); currentState = _RouteLifecycle.pushing; routeFuture.whenCompleteOrCancel(() { if (currentState == _RouteLifecycle.pushing) { currentState = _RouteLifecycle.idle; assert(!navigator._debugLocked); assert(() { navigator._debugLocked = true; return true; }()); navigator._flushHistoryUpdates(); assert(() { navigator._debugLocked = false; return true; }()); } }); } else { assert(currentState == _RouteLifecycle.replace); route.didReplace(previous); currentState = _RouteLifecycle.idle; } if (isNewFirst) { route.didChangeNext(null); } if (previousState == _RouteLifecycle.replace || previousState == _RouteLifecycle.pushReplace) { for (final NavigatorObserver observer in navigator.widget.observers) observer.didReplace(newRoute: route, oldRoute: previous); } else { assert(previousState == _RouteLifecycle.push); for (final NavigatorObserver observer in navigator.widget.observers) observer.didPush(route, previousPresent); } } void handleDidPopNext(Route<dynamic> poppedRoute) { route.didPopNext(poppedRoute); lastAnnouncedPoppedNextRoute = poppedRoute; } void handlePop({ @required NavigatorState navigator, @required Route<dynamic> previousPresent }) { assert(navigator != null); assert(navigator._debugLocked); assert(route._navigator == navigator); currentState = _RouteLifecycle.popping; for (final NavigatorObserver observer in navigator.widget.observers) observer.didPop(route, previousPresent); } void handleRemoval({ @required NavigatorState navigator, @required Route<dynamic> previousPresent }) { assert(navigator != null); assert(navigator._debugLocked); assert(route._navigator == navigator); currentState = _RouteLifecycle.removing; if (_reportRemovalToObserver) { for (final NavigatorObserver observer in navigator.widget.observers) observer.didRemove(route, previousPresent); } } bool doingPop = false; void didAdd({ @required NavigatorState navigator, @required bool isNewFirst, @required Route<dynamic> previous, @required Route<dynamic> previousPresent }) { route.didAdd(); currentState = _RouteLifecycle.idle; if (isNewFirst) { route.didChangeNext(null); } for (final NavigatorObserver observer in navigator.widget.observers) observer.didPush(route, previousPresent); } void pop<T>(T result) { assert(isPresent); doingPop = true; if (route.didPop(result) && doingPop) { currentState = _RouteLifecycle.pop; } doingPop = false; } bool _reportRemovalToObserver = true; // Route is removed without being completed. void remove({ bool isReplaced = false }) { assert( !hasPage || _debugWaitingForExitDecision, 'A page-based route cannot be completed using imperative api, provide a ' 'new list without the corresponding Page to Navigator.pages instead. ' ); if (currentState.index >= _RouteLifecycle.remove.index) return; assert(isPresent); _reportRemovalToObserver = !isReplaced; currentState = _RouteLifecycle.remove; } // Route completes with `result` and is removed. void complete<T>(T result, { bool isReplaced = false }) { assert( !hasPage || _debugWaitingForExitDecision, 'A page-based route cannot be completed using imperative api, provide a ' 'new list without the corresponding Page to Navigator.pages instead. ' ); if (currentState.index >= _RouteLifecycle.remove.index) return; assert(isPresent); _reportRemovalToObserver = !isReplaced; route.didComplete(result); assert(route._popCompleter.isCompleted); // implies didComplete was called currentState = _RouteLifecycle.remove; } void finalize() { assert(currentState.index < _RouteLifecycle.dispose.index); currentState = _RouteLifecycle.dispose; } void dispose() { assert(currentState.index < _RouteLifecycle.disposed.index); route.dispose(); currentState = _RouteLifecycle.disposed; } bool get willBePresent { return currentState.index <= _RouteLifecycle.idle.index && currentState.index >= _RouteLifecycle.add.index; } bool get isPresent { return currentState.index <= _RouteLifecycle.remove.index && currentState.index >= _RouteLifecycle.add.index; } bool get suitableForAnnouncement { return currentState.index <= _RouteLifecycle.removing.index && currentState.index >= _RouteLifecycle.push.index; } bool get suitableForTransitionAnimation { return currentState.index <= _RouteLifecycle.remove.index && currentState.index >= _RouteLifecycle.push.index; } bool shouldAnnounceChangeToNext(Route<dynamic> nextRoute) { assert(nextRoute != lastAnnouncedNextRoute); // Do not announce if `next` changes from a just popped route to null. We // already announced this change by calling didPopNext. return !( nextRoute == null && lastAnnouncedPoppedNextRoute != null && lastAnnouncedPoppedNextRoute == lastAnnouncedNextRoute ); } static final _RouteEntryPredicate isPresentPredicate = (_RouteEntry entry) => entry.isPresent; static final _RouteEntryPredicate suitableForTransitionAnimationPredicate = (_RouteEntry entry) => entry.suitableForTransitionAnimation; static final _RouteEntryPredicate willBePresentPredicate = (_RouteEntry entry) => entry.willBePresent; static _RouteEntryPredicate isRoutePredicate(Route<dynamic> route) { return (_RouteEntry entry) => entry.route == route; } @override bool get isEntering => currentState == _RouteLifecycle.staging; @override void markForPush() { assert( isEntering && !_debugWaitingForExitDecision, 'This route cannot be marked for push. Either a decision has already been ' 'made or it does not require an explicit decision on how to transition in.' ); currentState = _RouteLifecycle.push; } @override void markForAdd() { assert( isEntering && !_debugWaitingForExitDecision, 'This route cannot be marked for add. Either a decision has already been ' 'made or it does not require an explicit decision on how to transition in.' ); currentState = _RouteLifecycle.add; } @override void markForPop([dynamic result]) { assert( !isEntering && _debugWaitingForExitDecision, 'This route cannot be marked for pop. Either a decision has already been ' 'made or it does not require an explicit decision on how to transition out.' ); pop<dynamic>(result); _debugWaitingForExitDecision = false; } @override void markForComplete([dynamic result]) { assert( !isEntering && _debugWaitingForExitDecision, 'This route cannot be marked for complete. Either a decision has already ' 'been made or it does not require an explicit decision on how to transition ' 'out.' ); complete<dynamic>(result); _debugWaitingForExitDecision = false; } @override void markForRemove() { assert( !isEntering && _debugWaitingForExitDecision, 'This route cannot be marked for remove. Either a decision has already ' 'been made or it does not require an explicit decision on how to transition ' 'out.' ); remove(); _debugWaitingForExitDecision = false; } } /// The state for a [Navigator] widget. class NavigatorState extends State<Navigator> with TickerProviderStateMixin { final GlobalKey<OverlayState> _overlayKey = GlobalKey<OverlayState>(); List<_RouteEntry> _history = <_RouteEntry>[]; /// The [FocusScopeNode] for the [FocusScope] that encloses the routes. final FocusScopeNode focusScopeNode = FocusScopeNode(debugLabel: 'Navigator Scope'); bool _debugLocked = false; // used to prevent re-entrant calls to push, pop, and friends @override void initState() { super.initState(); assert( widget.pages.isEmpty || widget.onPopPage != null, 'The Navigator.onPopPage must be provided to use the Navigator.pages API', ); for (final NavigatorObserver observer in widget.observers) { assert(observer.navigator == null); observer._navigator = this; } String initialRoute = widget.initialRoute; if (widget.pages.isNotEmpty) { _history.addAll( widget.pages.map((Page<dynamic> page) => _RouteEntry( page.createRoute(context), initialState: _RouteLifecycle.add, )) ); } else { // If there is no page provided, we will need to provide default route // to initialize the navigator. initialRoute = initialRoute ?? Navigator.defaultRouteName; } if (initialRoute != null) { _history.addAll( widget.onGenerateInitialRoutes( this, widget.initialRoute ?? Navigator.defaultRouteName ).map((Route<dynamic> route) => _RouteEntry( route, initialState: _RouteLifecycle.add, ), ), ); } assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); } @override void didUpdateWidget(Navigator oldWidget) { super.didUpdateWidget(oldWidget); assert( widget.pages.isEmpty || widget.onPopPage != null, 'The Navigator.onPopPage must be provided to use the Navigator.pages API', ); if (oldWidget.observers != widget.observers) { for (final NavigatorObserver observer in oldWidget.observers) observer._navigator = null; for (final NavigatorObserver observer in widget.observers) { assert(observer.navigator == null); observer._navigator = this; } } if (oldWidget.pages != widget.pages) { assert( widget.pages.isNotEmpty, 'To use the Navigator.pages, there must be at least one page in the list.' ); _updatePages(); } for (final _RouteEntry entry in _history) entry.route.changedExternalState(); } void _debugCheckDuplicatedPageKeys() { assert((){ final Set<Key> keyReservation = <Key>{}; for (final Page<dynamic> page in widget.pages) { if (page.key != null) { assert(!keyReservation.contains(page.key)); keyReservation.add(page.key); } } return true; }()); } @override void dispose() { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); for (final NavigatorObserver observer in widget.observers) observer._navigator = null; focusScopeNode.dispose(); for (final _RouteEntry entry in _history) entry.dispose(); super.dispose(); // don't unlock, so that the object becomes unusable assert(_debugLocked); } /// The overlay this navigator uses for its visual presentation. OverlayState get overlay => _overlayKey.currentState; Iterable<OverlayEntry> get _allRouteOverlayEntries sync* { for (final _RouteEntry entry in _history) yield* entry.route.overlayEntries; } String _lastAnnouncedRouteName; bool _debugUpdatingPage = false; void _updatePages() { assert(() { assert(!_debugUpdatingPage); _debugCheckDuplicatedPageKeys(); _debugUpdatingPage = true; return true; }()); // This attempts to diff the new pages list (widget.pages) with // the old _RouteEntry[s] list (_history), and produces a new list of // _RouteEntry[s] to be the new list of _history. This method roughly // follows the same outline of RenderObjectElement.updateChildren. // // The cases it tries to optimize for are: // - the old list is empty // - All the pages in the new list can match the page-based routes in the old // list, and their orders are the same. // - there is an insertion or removal of one or more page-based route in // only one place in the list // If a page-based route with a key is in both lists, it will be synced. // Page-based routes without keys might be synced but there is no guarantee. // The general approach is to sync the entire new list backwards, as follows: // 1. Walk the lists from the bottom, syncing nodes, and record pageless routes, // until you no longer have matching nodes. // 2. Walk the lists from the top, without syncing nodes, until you no // longer have matching nodes. We'll sync these nodes at the end. We // don't sync them now because we want to sync all the nodes in order // from beginning to end. // At this point we narrowed the old and new lists to the point // where the nodes no longer match. // 3. Walk the narrowed part of the old list to get the list of // keys. // 4. Walk the narrowed part of the new list forwards: // * Create a new _RouteEntry for non-keyed items and record them for // transitionDelegate. // * Sync keyed items with the source if it exists. // 5. Walk the narrowed part of the old list again to records the // _RouteEntry[s], as well as pageless routes, needed to be removed for // transitionDelegate. // 5. Walk the top of the list again, syncing the nodes and recording // pageless routes. // 6. Use transitionDelegate for explicit decisions on how _RouteEntry[s] // transition in or off the screens. // 7. Fill pageless routes back into the new history. bool needsExplicitDecision = false; int newPagesBottom = 0; int oldEntriesBottom = 0; int newPagesTop = widget.pages.length - 1; int oldEntriesTop = _history.length - 1; final List<_RouteEntry> newHistory = <_RouteEntry>[]; final Map<_RouteEntry, List<_RouteEntry>> pageRouteToPagelessRoutes = <_RouteEntry, List<_RouteEntry>>{}; // Updates the bottom of the list. _RouteEntry previousOldPageRouteEntry; while (oldEntriesBottom <= oldEntriesTop) { final _RouteEntry oldEntry = _history[oldEntriesBottom]; assert(oldEntry != null && oldEntry.currentState != _RouteLifecycle.disposed); // Records pageless route. The bottom most pageless routes will be // stored in key = null. if (!oldEntry.hasPage) { final List<_RouteEntry> pagelessRoutes = pageRouteToPagelessRoutes.putIfAbsent( previousOldPageRouteEntry, () => <_RouteEntry>[], ); pagelessRoutes.add(oldEntry); oldEntriesBottom += 1; continue; } if (newPagesBottom > newPagesTop) break; final Page<dynamic> newPage = widget.pages[newPagesBottom]; if (!oldEntry.canUpdateFrom(newPage)) break; previousOldPageRouteEntry = oldEntry; oldEntry.route._updateSettings(newPage); newHistory.add(oldEntry); newPagesBottom += 1; oldEntriesBottom += 1; } int pagelessRoutesToSkip = 0; // Scans the top of the list until we found a page-based route that cannot be // updated. while ((oldEntriesBottom <= oldEntriesTop) && (newPagesBottom <= newPagesTop)) { final _RouteEntry oldEntry = _history[oldEntriesTop]; assert(oldEntry != null && oldEntry.currentState != _RouteLifecycle.disposed); if (!oldEntry.hasPage) { // This route might need to be skipped if we can not find a page above. pagelessRoutesToSkip += 1; oldEntriesTop -= 1; continue; } final Page<dynamic> newPage = widget.pages[newPagesTop]; if (!oldEntry.canUpdateFrom(newPage)) break; // We found the page for all the consecutive pageless routes below. Those // pageless routes do not need to be skipped. pagelessRoutesToSkip = 0; oldEntriesTop -= 1; newPagesTop -= 1; } // Reverts the pageless routes that cannot be updated. oldEntriesTop += pagelessRoutesToSkip; // Scans middle of the old entries and records the page key to old entry map. int oldEntriesBottomToScan = oldEntriesBottom; final Map<LocalKey, _RouteEntry> pageKeyToOldEntry = <LocalKey, _RouteEntry>{}; while (oldEntriesBottomToScan <= oldEntriesTop) { final _RouteEntry oldEntry = _history[oldEntriesBottomToScan]; oldEntriesBottomToScan += 1; assert( oldEntry != null && oldEntry.currentState != _RouteLifecycle.disposed ); // Pageless routes will be recorded when we update the middle of the old // list. if (!oldEntry.hasPage) continue; assert(oldEntry.hasPage); final Page<dynamic> page = oldEntry.route.settings as Page<dynamic>; if (page.key == null) continue; assert(!pageKeyToOldEntry.containsKey(page.key)); pageKeyToOldEntry[page.key] = oldEntry; } // Updates the middle of the list. while (newPagesBottom <= newPagesTop) { final Page<dynamic> nextPage = widget.pages[newPagesBottom]; newPagesBottom += 1; if ( nextPage.key == null || !pageKeyToOldEntry.containsKey(nextPage.key) || !pageKeyToOldEntry[nextPage.key].canUpdateFrom(nextPage) ) { // There is no matching key in the old history, we need to create a new // route and wait for the transition delegate to decide how to add // it into the history. final _RouteEntry newEntry = _RouteEntry( nextPage.createRoute(context), initialState: _RouteLifecycle.staging, ); needsExplicitDecision = true; assert( newEntry.route.settings == nextPage, 'If a route is created from a page, its must have that page as its ' 'settings.', ); newHistory.add(newEntry); } else { // Removes the key from pageKeyToOldEntry to indicate it is taken. final _RouteEntry matchingEntry = pageKeyToOldEntry.remove(nextPage.key); assert(matchingEntry.canUpdateFrom(nextPage)); matchingEntry.route._updateSettings(nextPage); newHistory.add(matchingEntry); } } // Any remaining old routes that do not have a match will need to be removed. final Map<RouteTransitionRecord, RouteTransitionRecord> locationToExitingPageRoute = <RouteTransitionRecord, RouteTransitionRecord>{}; while (oldEntriesBottom <= oldEntriesTop) { final _RouteEntry potentialEntryToRemove = _history[oldEntriesBottom]; oldEntriesBottom += 1; if (!potentialEntryToRemove.hasPage) { assert(previousOldPageRouteEntry != null); final List<_RouteEntry> pagelessRoutes = pageRouteToPagelessRoutes .putIfAbsent( previousOldPageRouteEntry, () => <_RouteEntry>[] ); pagelessRoutes.add(potentialEntryToRemove); assert(() { potentialEntryToRemove._debugWaitingForExitDecision = previousOldPageRouteEntry._debugWaitingForExitDecision; return true; }()); continue; } final Page<dynamic> potentialPageToRemove = potentialEntryToRemove.route.settings as Page<dynamic>; // Marks for transition delegate to remove if this old page does not have // a key or was not taken during updating the middle of new page. if ( potentialPageToRemove.key == null || pageKeyToOldEntry.containsKey(potentialPageToRemove.key) ) { locationToExitingPageRoute[previousOldPageRouteEntry] = potentialEntryToRemove; assert(() { potentialEntryToRemove._debugWaitingForExitDecision = true; return true; }()); } previousOldPageRouteEntry = potentialEntryToRemove; } // We've scanned the whole list. assert(oldEntriesBottom == oldEntriesTop + 1); assert(newPagesBottom == newPagesTop + 1); newPagesTop = widget.pages.length - 1; oldEntriesTop = _history.length - 1; // Verifies we either reach the bottom or the oldEntriesBottom must be updatable // by newPagesBottom. assert(() { if (oldEntriesBottom <= oldEntriesTop) return newPagesBottom <= newPagesTop && _history[oldEntriesBottom].hasPage && _history[oldEntriesBottom].canUpdateFrom(widget.pages[newPagesBottom]); else return newPagesBottom > newPagesTop; }()); // Updates the top of the list. while ((oldEntriesBottom <= oldEntriesTop) && (newPagesBottom <= newPagesTop)) { final _RouteEntry oldEntry = _history[oldEntriesBottom]; assert(oldEntry != null && oldEntry.currentState != _RouteLifecycle.disposed); if (!oldEntry.hasPage) { assert(previousOldPageRouteEntry != null); final List<_RouteEntry> pagelessRoutes = pageRouteToPagelessRoutes .putIfAbsent( previousOldPageRouteEntry, () => <_RouteEntry>[] ); pagelessRoutes.add(oldEntry); continue; } previousOldPageRouteEntry = oldEntry; final Page<dynamic> newPage = widget.pages[newPagesBottom]; assert(oldEntry.canUpdateFrom(newPage)); oldEntry.route._updateSettings(newPage); newHistory.add(oldEntry); oldEntriesBottom += 1; newPagesBottom += 1; } // Finally, uses transition delegate to make explicit decision if needed. needsExplicitDecision = needsExplicitDecision || locationToExitingPageRoute.isNotEmpty; Iterable<_RouteEntry> results = newHistory; if (needsExplicitDecision) { results = widget.transitionDelegate._transition( newPageRouteHistory: newHistory, locationToExitingPageRoute: locationToExitingPageRoute, pageRouteToPagelessRoutes: pageRouteToPagelessRoutes, ).cast<_RouteEntry>(); } _history = <_RouteEntry>[]; // Adds the leading pageless routes if there is any. if (pageRouteToPagelessRoutes.containsKey(null)) { _history.addAll(pageRouteToPagelessRoutes[null]); } for (final _RouteEntry result in results) { _history.add(result); if (pageRouteToPagelessRoutes.containsKey(result)) { _history.addAll(pageRouteToPagelessRoutes[result]); } } assert(() {_debugUpdatingPage = false; return true;}()); assert(() { _debugLocked = true; return true; }()); _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); } void _flushHistoryUpdates({bool rearrangeOverlay = true}) { assert(_debugLocked && !_debugUpdatingPage); // Clean up the list, sending updates to the routes that changed. Notably, // we don't send the didChangePrevious/didChangeNext updates to those that // did not change at this point, because we're not yet sure exactly what the // routes will be at the end of the day (some might get disposed). int index = _history.length - 1; _RouteEntry next; _RouteEntry entry = _history[index]; _RouteEntry previous = index > 0 ? _history[index - 1] : null; bool canRemoveOrAdd = false; // Whether there is a fully opaque route on top to silently remove or add route underneath. Route<dynamic> poppedRoute; // The route that should trigger didPopNext on the top active route. bool seenTopActiveRoute = false; // Whether we've seen the route that would get didPopNext. final List<_RouteEntry> toBeDisposed = <_RouteEntry>[]; while (index >= 0) { switch (entry.currentState) { case _RouteLifecycle.add: assert(rearrangeOverlay); entry.handleAdd( navigator: this, ); assert(entry.currentState == _RouteLifecycle.adding); continue; case _RouteLifecycle.adding: if (canRemoveOrAdd || next == null) { entry.didAdd( navigator: this, previous: previous?.route, previousPresent: _getRouteBefore(index - 1, _RouteEntry.isPresentPredicate)?.route, isNewFirst: next == null ); assert(entry.currentState == _RouteLifecycle.idle); continue; } break; case _RouteLifecycle.push: case _RouteLifecycle.pushReplace: case _RouteLifecycle.replace: assert(rearrangeOverlay); entry.handlePush( navigator: this, previous: previous?.route, previousPresent: _getRouteBefore(index - 1, _RouteEntry.isPresentPredicate)?.route, isNewFirst: next == null, ); assert(entry.currentState != _RouteLifecycle.push); assert(entry.currentState != _RouteLifecycle.pushReplace); assert(entry.currentState != _RouteLifecycle.replace); if (entry.currentState == _RouteLifecycle.idle) { continue; } break; case _RouteLifecycle.pushing: // Will exit this state when animation completes. if (!seenTopActiveRoute && poppedRoute != null) entry.handleDidPopNext(poppedRoute); seenTopActiveRoute = true; break; case _RouteLifecycle.idle: if (!seenTopActiveRoute && poppedRoute != null) entry.handleDidPopNext(poppedRoute); seenTopActiveRoute = true; // This route is idle, so we are allowed to remove subsequent (earlier) // routes that are waiting to be removed silently: canRemoveOrAdd = true; break; case _RouteLifecycle.pop: if (!seenTopActiveRoute) { if (poppedRoute != null) entry.handleDidPopNext(poppedRoute); poppedRoute = entry.route; } entry.handlePop( navigator: this, previousPresent: _getRouteBefore(index, _RouteEntry.willBePresentPredicate)?.route, ); assert(entry.currentState == _RouteLifecycle.popping); canRemoveOrAdd = true; break; case _RouteLifecycle.popping: // Will exit this state when animation completes. break; case _RouteLifecycle.remove: if (!seenTopActiveRoute) { if (poppedRoute != null) entry.route.didPopNext(poppedRoute); poppedRoute = null; } entry.handleRemoval( navigator: this, previousPresent: _getRouteBefore(index, _RouteEntry.willBePresentPredicate)?.route, ); assert(entry.currentState == _RouteLifecycle.removing); continue; case _RouteLifecycle.removing: if (!canRemoveOrAdd && next != null) { // We aren't allowed to remove this route yet. break; } entry.currentState = _RouteLifecycle.dispose; continue; case _RouteLifecycle.dispose: // Delay disposal until didChangeNext/didChangePrevious have been sent. toBeDisposed.add(_history.removeAt(index)); entry = next; break; case _RouteLifecycle.disposed: case _RouteLifecycle.staging: assert(false); break; } index -= 1; next = entry; entry = previous; previous = index > 0 ? _history[index - 1] : null; } // Now that the list is clean, send the didChangeNext/didChangePrevious // notifications. _flushRouteAnnouncement(); // Announces route name changes. final _RouteEntry lastEntry = _history.lastWhere(_RouteEntry.isPresentPredicate, orElse: () => null); final String routeName = lastEntry?.route?.settings?.name; if (routeName != _lastAnnouncedRouteName) { RouteNotificationMessages.maybeNotifyRouteChange(routeName, _lastAnnouncedRouteName); _lastAnnouncedRouteName = routeName; } // Lastly, removes the overlay entries of all marked entries and disposes // them. for (final _RouteEntry entry in toBeDisposed) { for (final OverlayEntry overlayEntry in entry.route.overlayEntries) overlayEntry.remove(); entry.dispose(); } if (rearrangeOverlay) overlay?.rearrange(_allRouteOverlayEntries); } void _flushRouteAnnouncement() { int index = _history.length - 1; while (index >= 0) { final _RouteEntry entry = _history[index]; if (!entry.suitableForAnnouncement) { index -= 1; continue; } final _RouteEntry next = _getRouteAfter(index + 1, _RouteEntry.suitableForTransitionAnimationPredicate); if (next?.route != entry.lastAnnouncedNextRoute) { if (entry.shouldAnnounceChangeToNext(next?.route)) { entry.route.didChangeNext(next?.route); } entry.lastAnnouncedNextRoute = next?.route; } final _RouteEntry previous = _getRouteBefore(index - 1, _RouteEntry.suitableForTransitionAnimationPredicate); if (previous?.route != entry.lastAnnouncedPreviousRoute) { entry.route.didChangePrevious(previous?.route); entry.lastAnnouncedPreviousRoute = previous?.route; } index -= 1; } } _RouteEntry _getRouteBefore(int index, _RouteEntryPredicate predicate) { index = _getIndexBefore(index, predicate); return index >= 0 ? _history[index] : null; } int _getIndexBefore(int index, _RouteEntryPredicate predicate) { while(index >= 0 && !predicate(_history[index])) { index -= 1; } return index; } _RouteEntry _getRouteAfter(int index, _RouteEntryPredicate predicate) { while (index < _history.length && !predicate(_history[index])) { index += 1; } return index < _history.length ? _history[index] : null; } Route<T> _routeNamed<T>(String name, { @required Object arguments, bool allowNull = false }) { assert(!_debugLocked); assert(name != null); if (allowNull && widget.onGenerateRoute == null) return null; assert(() { if (widget.onGenerateRoute == null) { throw FlutterError( 'Navigator.onGenerateRoute was null, but the route named "$name" was referenced.\n' 'To use the Navigator API with named routes (pushNamed, pushReplacementNamed, or ' 'pushNamedAndRemoveUntil), the Navigator must be provided with an ' 'onGenerateRoute handler.\n' 'The Navigator was:\n' ' $this' ); } return true; }()); final RouteSettings settings = RouteSettings( name: name, arguments: arguments, ); Route<T> route = widget.onGenerateRoute(settings) as Route<T>; if (route == null && !allowNull) { assert(() { if (widget.onUnknownRoute == null) { throw FlutterError.fromParts(<DiagnosticsNode>[ ErrorSummary('Navigator.onGenerateRoute returned null when requested to build route "$name".'), ErrorDescription( 'The onGenerateRoute callback must never return null, unless an onUnknownRoute ' 'callback is provided as well.' ), DiagnosticsProperty<NavigatorState>('The Navigator was', this, style: DiagnosticsTreeStyle.errorProperty), ]); } return true; }()); route = widget.onUnknownRoute(settings) as Route<T>; assert(() { if (route == null) { throw FlutterError.fromParts(<DiagnosticsNode>[ ErrorSummary('Navigator.onUnknownRoute returned null when requested to build route "$name".'), ErrorDescription('The onUnknownRoute callback must never return null.'), DiagnosticsProperty<NavigatorState>('The Navigator was', this, style: DiagnosticsTreeStyle.errorProperty), ]); } return true; }()); } assert(route != null || allowNull); return route; } /// Push a named route onto the navigator. /// /// {@macro flutter.widgets.navigator.pushNamed} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _aaronBurrSir() { /// navigator.pushNamed('/nyc/1776'); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> pushNamed<T extends Object>( String routeName, { Object arguments, }) { return push<T>(_routeNamed<T>(routeName, arguments: arguments)); } /// Replace the current route of the navigator by pushing the route named /// [routeName] and then disposing the previous route once the new route has /// finished animating in. /// /// {@macro flutter.widgets.navigator.pushReplacementNamed} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _startBike() { /// navigator.pushReplacementNamed('/jouett/1781'); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> pushReplacementNamed<T extends Object, TO extends Object>( String routeName, { TO result, Object arguments, }) { return pushReplacement<T, TO>(_routeNamed<T>(routeName, arguments: arguments), result: result); } /// Pop the current route off the navigator and push a named route in its /// place. /// /// {@macro flutter.widgets.navigator.popAndPushNamed} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _begin() { /// navigator.popAndPushNamed('/nyc/1776'); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> popAndPushNamed<T extends Object, TO extends Object>( String routeName, { TO result, Object arguments, }) { pop<TO>(result); return pushNamed<T>(routeName, arguments: arguments); } /// Push the route with the given name onto the navigator, and then remove all /// the previous routes until the `predicate` returns true. /// /// {@macro flutter.widgets.navigator.pushNamedAndRemoveUntil} /// /// {@macro flutter.widgets.navigator.pushNamed.arguments} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _handleOpenCalendar() { /// navigator.pushNamedAndRemoveUntil('/calendar', ModalRoute.withName('/')); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> pushNamedAndRemoveUntil<T extends Object>( String newRouteName, RoutePredicate predicate, { Object arguments, }) { return pushAndRemoveUntil<T>(_routeNamed<T>(newRouteName, arguments: arguments), predicate); } /// Push the given route onto the navigator. /// /// {@macro flutter.widgets.navigator.push} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _openPage() { /// navigator.push(MaterialPageRoute(builder: (BuildContext context) => MyPage())); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> push<T extends Object>(Route<T> route) { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); assert(route != null); assert(route._navigator == null); _history.add(_RouteEntry(route, initialState: _RouteLifecycle.push)); _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); _afterNavigation(route); return route.popped; } void _afterNavigation<T>(Route<T> route) { if (!kReleaseMode) { // Among other uses, performance tools use this event to ensure that perf // stats reflect the time interval since the last navigation event // occurred, ensuring that stats only reflect the current page. Map<String, dynamic> routeJsonable; if (route != null) { routeJsonable = <String, dynamic>{}; String description; if (route is TransitionRoute<T>) { final TransitionRoute<T> transitionRoute = route; description = transitionRoute.debugLabel; } else { description = '$route'; } routeJsonable['description'] = description; final RouteSettings settings = route.settings; final Map<String, dynamic> settingsJsonable = <String, dynamic> { 'name': settings.name, }; if (settings.arguments != null) { settingsJsonable['arguments'] = jsonEncode( settings.arguments, toEncodable: (Object object) => '$object', ); } routeJsonable['settings'] = settingsJsonable; } developer.postEvent('Flutter.Navigation', <String, dynamic>{ 'route': routeJsonable, }); } _cancelActivePointers(); } /// Replace the current route of the navigator by pushing the given route and /// then disposing the previous route once the new route has finished /// animating in. /// /// {@macro flutter.widgets.navigator.pushReplacement} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _doOpenPage() { /// navigator.pushReplacement( /// MaterialPageRoute(builder: (BuildContext context) => MyHomePage())); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> pushReplacement<T extends Object, TO extends Object>(Route<T> newRoute, { TO result }) { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); assert(newRoute != null); assert(newRoute._navigator == null); assert(_history.isNotEmpty); assert(_history.any(_RouteEntry.isPresentPredicate), 'Navigator has no active routes to replace.'); _history.lastWhere(_RouteEntry.isPresentPredicate).complete(result, isReplaced: true); _history.add(_RouteEntry(newRoute, initialState: _RouteLifecycle.pushReplace)); _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); _afterNavigation(newRoute); return newRoute.popped; } /// Push the given route onto the navigator, and then remove all the previous /// routes until the `predicate` returns true. /// /// {@macro flutter.widgets.navigator.pushAndRemoveUntil} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _resetAndOpenPage() { /// navigator.pushAndRemoveUntil( /// MaterialPageRoute(builder: (BuildContext context) => MyHomePage()), /// ModalRoute.withName('/'), /// ); /// } /// ``` /// {@end-tool} @optionalTypeArgs Future<T> pushAndRemoveUntil<T extends Object>(Route<T> newRoute, RoutePredicate predicate) { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); assert(newRoute != null); assert(newRoute._navigator == null); assert(newRoute.overlayEntries.isEmpty); assert(predicate != null); int index = _history.length - 1; _history.add(_RouteEntry(newRoute, initialState: _RouteLifecycle.push)); while (index >= 0) { final _RouteEntry entry = _history[index]; if (entry.isPresent && !predicate(entry.route)) _history[index].remove(); index -= 1; } _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); _afterNavigation(newRoute); return newRoute.popped; } /// Replaces a route on the navigator with a new route. /// /// {@macro flutter.widgets.navigator.replace} /// /// See also: /// /// * [replaceRouteBelow], which is the same but identifies the route to be /// removed by reference to the route above it, rather than directly. @optionalTypeArgs void replace<T extends Object>({ @required Route<dynamic> oldRoute, @required Route<T> newRoute }) { assert(!_debugLocked); assert(oldRoute != null); assert(newRoute != null); if (oldRoute == newRoute) return; assert(() { _debugLocked = true; return true; }()); assert(oldRoute._navigator == this); assert(newRoute._navigator == null); final int index = _history.indexWhere(_RouteEntry.isRoutePredicate(oldRoute)); assert(index >= 0, 'This Navigator does not contain the specified oldRoute.'); assert(_history[index].isPresent, 'The specified oldRoute has already been removed from the Navigator.'); final bool wasCurrent = oldRoute.isCurrent; _history.insert(index + 1, _RouteEntry(newRoute, initialState: _RouteLifecycle.replace)); _history[index].remove(isReplaced: true); _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); if (wasCurrent) _afterNavigation(newRoute); } /// Replaces a route on the navigator with a new route. The route to be /// replaced is the one below the given `anchorRoute`. /// /// {@macro flutter.widgets.navigator.replaceRouteBelow} /// /// See also: /// /// * [replace], which is the same but identifies the route to be removed /// directly. @optionalTypeArgs void replaceRouteBelow<T extends Object>({ @required Route<dynamic> anchorRoute, @required Route<T> newRoute }) { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); assert(anchorRoute != null); assert(anchorRoute._navigator == this); assert(newRoute != null); assert(newRoute._navigator == null); final int anchorIndex = _history.indexWhere(_RouteEntry.isRoutePredicate(anchorRoute)); assert(anchorIndex >= 0, 'This Navigator does not contain the specified anchorRoute.'); assert(_history[anchorIndex].isPresent, 'The specified anchorRoute has already been removed from the Navigator.'); int index = anchorIndex - 1; while (index >= 0) { if (_history[index].isPresent) break; index -= 1; } assert(index >= 0, 'There are no routes below the specified anchorRoute.'); _history.insert(index + 1, _RouteEntry(newRoute, initialState: _RouteLifecycle.replace)); _history[index].remove(isReplaced: true); _flushHistoryUpdates(); assert(() { _debugLocked = false; return true; }()); } /// Whether the navigator can be popped. /// /// {@macro flutter.widgets.navigator.canPop} /// /// See also: /// /// * [Route.isFirst], which returns true for routes for which [canPop] /// returns false. bool canPop() { final Iterator<_RouteEntry> iterator = _history.where(_RouteEntry.isPresentPredicate).iterator; if (!iterator.moveNext()) return false; // we have no active routes, so we can't pop if (iterator.current.route.willHandlePopInternally) return true; // the first route can handle pops itself, so we can pop if (!iterator.moveNext()) return false; // there's only one route, so we can't pop return true; // there's at least two routes, so we can pop } /// Consults the current route's [Route.willPop] method, and acts accordingly, /// potentially popping the route as a result; returns whether the pop request /// should be considered handled. /// /// {@macro flutter.widgets.navigator.maybePop} /// /// See also: /// /// * [Form], which provides an `onWillPop` callback that enables the form /// to veto a [pop] initiated by the app's back button. /// * [ModalRoute], which provides a `scopedWillPopCallback` that can be used /// to define the route's `willPop` method. Future<bool> maybePop<T extends Object>([ T result ]) async { final _RouteEntry lastEntry = _history.lastWhere(_RouteEntry.isPresentPredicate, orElse: () => null); if (lastEntry == null) return false; assert(lastEntry.route._navigator == this); final RoutePopDisposition disposition = await lastEntry.route.willPop(); // this is asynchronous assert(disposition != null); if (!mounted) return true; // forget about this pop, we were disposed in the meantime final _RouteEntry newLastEntry = _history.lastWhere(_RouteEntry.isPresentPredicate, orElse: () => null); if (lastEntry != newLastEntry) return true; // forget about this pop, something happened to our history in the meantime switch (disposition) { case RoutePopDisposition.bubble: return false; case RoutePopDisposition.pop: pop(result); return true; case RoutePopDisposition.doNotPop: return true; } return null; } /// Pop the top-most route off the navigator. /// /// {@macro flutter.widgets.navigator.pop} /// /// {@tool snippet} /// /// Typical usage for closing a route is as follows: /// /// ```dart /// void _handleClose() { /// navigator.pop(); /// } /// ``` /// {@end-tool} /// {@tool snippet} /// /// A dialog box might be closed with a result: /// /// ```dart /// void _handleAccept() { /// navigator.pop(true); // dialog returns true /// } /// ``` /// {@end-tool} @optionalTypeArgs void pop<T extends Object>([ T result ]) { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); final _RouteEntry entry = _history.lastWhere(_RouteEntry.isPresentPredicate); if (entry.hasPage) { if (widget.onPopPage(entry.route, result)) entry.currentState = _RouteLifecycle.pop; } else { entry.pop<T>(result); } if (entry.currentState == _RouteLifecycle.pop) { // Flush the history if the route actually wants to be popped (the pop // wasn't handled internally). _flushHistoryUpdates(rearrangeOverlay: false); assert(entry.route._popCompleter.isCompleted); } assert(() { _debugLocked = false; return true; }()); _afterNavigation<dynamic>(entry.route); } /// Calls [pop] repeatedly until the predicate returns true. /// /// {@macro flutter.widgets.navigator.popUntil} /// /// {@tool snippet} /// /// Typical usage is as follows: /// /// ```dart /// void _doLogout() { /// navigator.popUntil(ModalRoute.withName('/login')); /// } /// ``` /// {@end-tool} void popUntil(RoutePredicate predicate) { while (!predicate(_history.lastWhere(_RouteEntry.isPresentPredicate).route)) { pop(); } } /// Immediately remove `route` from the navigator, and [Route.dispose] it. /// /// {@macro flutter.widgets.navigator.removeRoute} void removeRoute(Route<dynamic> route) { assert(route != null); assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); assert(route._navigator == this); final bool wasCurrent = route.isCurrent; final _RouteEntry entry = _history.firstWhere(_RouteEntry.isRoutePredicate(route), orElse: () => null); assert(entry != null); entry.remove(); _flushHistoryUpdates(rearrangeOverlay: false); assert(() { _debugLocked = false; return true; }()); if (wasCurrent) _afterNavigation<dynamic>( _history.lastWhere( _RouteEntry.isPresentPredicate, orElse: () => null )?.route ); } /// Immediately remove a route from the navigator, and [Route.dispose] it. The /// route to be removed is the one below the given `anchorRoute`. /// /// {@macro flutter.widgets.navigator.removeRouteBelow} void removeRouteBelow(Route<dynamic> anchorRoute) { assert(!_debugLocked); assert(() { _debugLocked = true; return true; }()); assert(anchorRoute != null); assert(anchorRoute._navigator == this); final int anchorIndex = _history.indexWhere(_RouteEntry.isRoutePredicate(anchorRoute)); assert(anchorIndex >= 0, 'This Navigator does not contain the specified anchorRoute.'); assert(_history[anchorIndex].isPresent, 'The specified anchorRoute has already been removed from the Navigator.'); int index = anchorIndex - 1; while (index >= 0) { if (_history[index].isPresent) break; index -= 1; } assert(index >= 0, 'There are no routes below the specified anchorRoute.'); _history[index].remove(); _flushHistoryUpdates(rearrangeOverlay: false); assert(() { _debugLocked = false; return true; }()); } /// Complete the lifecycle for a route that has been popped off the navigator. /// /// When the navigator pops a route, the navigator retains a reference to the /// route in order to call [Route.dispose] if the navigator itself is removed /// from the tree. When the route is finished with any exit animation, the /// route should call this function to complete its lifecycle (e.g., to /// receive a call to [Route.dispose]). /// /// The given `route` must have already received a call to [Route.didPop]. /// This function may be called directly from [Route.didPop] if [Route.didPop] /// will return true. void finalizeRoute(Route<dynamic> route) { // FinalizeRoute may have been called while we were already locked as a // responds to route.didPop(). Make sure to leave in the state we were in // before the call. bool wasDebugLocked; assert(() { wasDebugLocked = _debugLocked; _debugLocked = true; return true; }()); assert(_history.where(_RouteEntry.isRoutePredicate(route)).length == 1); final _RouteEntry entry = _history.firstWhere(_RouteEntry.isRoutePredicate(route)); if (entry.doingPop) { // We were called synchronously from Route.didPop(), but didn't process // the pop yet. Let's do that now before finalizing. entry.currentState = _RouteLifecycle.pop; _flushHistoryUpdates(rearrangeOverlay: false); } assert(entry.currentState != _RouteLifecycle.pop); entry.finalize(); _flushHistoryUpdates(rearrangeOverlay: false); assert(() { _debugLocked = wasDebugLocked; return true; }()); } int get _userGesturesInProgress => _userGesturesInProgressCount; int _userGesturesInProgressCount = 0; set _userGesturesInProgress(int value) { _userGesturesInProgressCount = value; userGestureInProgressNotifier.value = _userGesturesInProgress > 0; } /// Whether a route is currently being manipulated by the user, e.g. /// as during an iOS back gesture. /// /// See also: /// /// * [userGestureInProgressNotifier], which notifies its listeners if /// the value of [userGestureInProgress] changes. bool get userGestureInProgress => userGestureInProgressNotifier.value; /// Notifies its listeners if the value of [userGestureInProgress] changes. final ValueNotifier<bool> userGestureInProgressNotifier = ValueNotifier<bool>(false); /// The navigator is being controlled by a user gesture. /// /// For example, called when the user beings an iOS back gesture. /// /// When the gesture finishes, call [didStopUserGesture]. void didStartUserGesture() { _userGesturesInProgress += 1; if (_userGesturesInProgress == 1) { final int routeIndex = _getIndexBefore( _history.length - 1, _RouteEntry.willBePresentPredicate, ); assert(routeIndex != null); final Route<dynamic> route = _history[routeIndex].route; Route<dynamic> previousRoute; if (!route.willHandlePopInternally && routeIndex > 0) { previousRoute = _getRouteBefore( routeIndex - 1, _RouteEntry.willBePresentPredicate, ).route; } for (final NavigatorObserver observer in widget.observers) observer.didStartUserGesture(route, previousRoute); } } /// A user gesture completed. /// /// Notifies the navigator that a gesture regarding which the navigator was /// previously notified with [didStartUserGesture] has completed. void didStopUserGesture() { assert(_userGesturesInProgress > 0); _userGesturesInProgress -= 1; if (_userGesturesInProgress == 0) { for (final NavigatorObserver observer in widget.observers) observer.didStopUserGesture(); } } final Set<int> _activePointers = <int>{}; void _handlePointerDown(PointerDownEvent event) { _activePointers.add(event.pointer); } void _handlePointerUpOrCancel(PointerEvent event) { _activePointers.remove(event.pointer); } void _cancelActivePointers() { // TODO(abarth): This mechanism is far from perfect. See https://github.com/flutter/flutter/issues/4770 if (SchedulerBinding.instance.schedulerPhase == SchedulerPhase.idle) { // If we're between frames (SchedulerPhase.idle) then absorb any // subsequent pointers from this frame. The absorbing flag will be // reset in the next frame, see build(). final RenderAbsorbPointer absorber = _overlayKey.currentContext?.findAncestorRenderObjectOfType<RenderAbsorbPointer>(); setState(() { absorber?.absorbing = true; // We do this in setState so that we'll reset the absorbing value back // to false on the next frame. }); } _activePointers.toList().forEach(WidgetsBinding.instance.cancelPointer); } @override Widget build(BuildContext context) { assert(!_debugLocked); assert(_history.isNotEmpty); return Listener( onPointerDown: _handlePointerDown, onPointerUp: _handlePointerUpOrCancel, onPointerCancel: _handlePointerUpOrCancel, child: AbsorbPointer( absorbing: false, // it's mutated directly by _cancelActivePointers above child: FocusScope( node: focusScopeNode, autofocus: true, child: Overlay( key: _overlayKey, initialEntries: overlay == null ? _allRouteOverlayEntries.toList(growable: false) : const <OverlayEntry>[], ), ), ), ); } }