// Copyright 2019 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 'package:flutter/material.dart'; import 'package:flutter/scheduler.dart'; import 'context_extension.dart'; /// Signature for a function that creates a [Widget] to be used within an /// [OpenContainer]. /// /// The `action` callback provided to [OpenContainer.openBuilder] can be used /// to open the container. The `action` callback provided to /// [OpenContainer.closedBuilder] can be used to close the container again. typedef OpenContainerBuilder = Widget Function( BuildContext context, VoidCallback action, bool hide, ); /// The [OpenContainer] widget's fade transition type. /// /// This determines the type of fade transition that the incoming and outgoing /// contents will use. enum ContainerTransitionType { /// Fades the incoming element in over the outgoing element. fade, /// First fades the outgoing element out, and starts fading the incoming /// element in once the outgoing element has completely faded out. fadeThrough, } /// A container that grows to fill the screen to reveal new content when tapped. /// /// While the container is closed, it shows the [Widget] returned by /// [closedBuilder]. When the container is tapped it grows to fill the entire /// size of the surrounding [Navigator] while fading out the widget returned by /// [closedBuilder] and fading in the widget returned by [openBuilder]. When the /// container is closed again via the callback provided to [openBuilder] or via /// Android's back button, the animation is reversed: The container shrinks back /// to its original size while the widget returned by [openBuilder] is faded out /// and the widget returned by [openBuilder] is faded back in. /// /// By default, the container is in the closed state. During the transition from /// closed to open and vice versa the widgets returned by the [openBuilder] and /// [closedBuilder] exist in the tree at the same time. Therefore, the widgets /// returned by these builders cannot include the same global key. /// /// /// See also: /// /// * [Transitions with animated containers](https://material.io/design/motion/choreography.html#transformation) /// in the Material spec. class OpenContainer extends StatefulWidget { /// Creates an [OpenContainer]. /// /// All arguments except for [key] must not be null. The arguments /// [closedBuilder] and [closedBuilder] are required. const OpenContainer({ Key key, this.closedColor = Colors.white, this.openColor = Colors.white, this.beginColor = Colors.white, this.endColor = Colors.white, this.closedElevation = 1.0, this.openElevation = 4.0, this.closedShape = const RoundedRectangleBorder( borderRadius: BorderRadius.all(Radius.circular(4.0)), ), this.openShape = const RoundedRectangleBorder(), @required this.closedBuilder, @required this.openBuilder, this.flightWidget, this.playerRunning, this.tappable = true, this.transitionDuration = const Duration(milliseconds: 300), this.transitionType = ContainerTransitionType.fade, }) : assert(closedColor != null), assert(openColor != null), assert(closedElevation != null), assert(openElevation != null), assert(closedShape != null), assert(openShape != null), assert(closedBuilder != null), assert(openBuilder != null), assert(tappable != null), assert(transitionType != null), super(key: key); /// Background color of the container while it is closed. /// /// When the container is opened, it will first transition from this color /// to [Colors.white] and then transition from there to [openColor] in one /// smooth animation. When the container is closed, it will transition back to /// this color from [openColor] via [Colors.white]. /// /// Defaults to [Colors.white]. /// /// See also: /// /// * [Material.color], which is used to implement this property. /// final Color beginColor; final Color endColor; final Color closedColor; final Widget flightWidget; final bool playerRunning; /// Background color of the container while it is open. /// /// When the container is closed, it will first transition from [closedColor] /// to [Colors.white] and then transition from there to this color in one /// smooth animation. When the container is closed, it will transition back to /// [closedColor] from this color via [Colors.white]. /// /// Defaults to [Colors.white]. /// /// See also: /// /// * [Material.color], which is used to implement this property. final Color openColor; /// Elevation of the container while it is closed. /// /// When the container is opened, it will transition from this elevation to /// [openElevation]. When the container is closed, it will transition back /// from [openElevation] to this elevation. /// /// Defaults to 1.0. /// /// See also: /// /// * [Material.elevation], which is used to implement this property. final double closedElevation; /// Elevation of the container while it is open. /// /// When the container is opened, it will transition to this elevation from /// [closedElevation]. When the container is closed, it will transition back /// from this elevation to [closedElevation]. /// /// Defaults to 4.0. /// /// See also: /// /// * [Material.elevation], which is used to implement this property. final double openElevation; /// Shape of the container while it is closed. /// /// When the container is opened it will transition from this shape to /// [openShape]. When the container is closed, it will transition back to this /// shape. /// /// Defaults to a [RoundedRectangleBorder] with a [Radius.circular] of 4.0. /// /// See also: /// /// * [Material.shape], which is used to implement this property. final ShapeBorder closedShape; /// Shape of the container while it is open. /// /// When the container is opened it will transition from [closedShape] to /// this shape. When the container is closed, it will transition from this /// shape back to [closedShape]. /// /// Defaults to a rectangular. /// /// See also: /// /// * [Material.shape], which is used to implement this property. final ShapeBorder openShape; /// Called to obtain the child for the container in the closed state. /// /// The [Widget] returned by this builder is faded out when the container /// opens and at the same time the widget returned by [openBuilder] is faded /// in while the container grows to fill the surrounding [Navigator]. /// /// The `action` callback provided to the builder can be called to open the /// container. final OpenContainerBuilder closedBuilder; /// Called to obtain the child for the container in the open state. /// /// The [Widget] returned by this builder is faded in when the container /// opens and at the same time the widget returned by [closedBuilder] is /// faded out while the container grows to fill the surrounding [Navigator]. /// /// The `action` callback provided to the builder can be called to close the /// container. final OpenContainerBuilder openBuilder; /// Whether the entire closed container can be tapped to open it. /// /// Defaults to true. /// /// When this is set to false the container can only be opened by calling the /// `action` callback that is provided to the [closedBuilder]. final bool tappable; /// The time it will take to animate the container from its closed to its /// open state and vice versa. /// /// Defaults to 300ms. final Duration transitionDuration; /// The type of fade transition that the container will use for its /// incoming and outgoing widgets. /// /// Defaults to [ContainerTransitionType.fade]. final ContainerTransitionType transitionType; @override _OpenContainerState createState() => _OpenContainerState(); } class _OpenContainerState extends State { // Key used in [_OpenContainerRoute] to hide the widget returned by // [OpenContainer.openBuilder] in the source route while the container is // opening/open. A copy of that widget is included in the // [_OpenContainerRoute] where it fades out. To avoid issues with double // shadows and transparency, we hide it in the source route. final GlobalKey<_HideableState> _hideableKey = GlobalKey<_HideableState>(); // Key used to steal the state of the widget returned by // [OpenContainer.openBuilder] from the source route and attach it to the // same widget included in the [_OpenContainerRoute] where it fades out. final GlobalKey _closedBuilderKey = GlobalKey(); void openContainer() { Navigator.of(context).push(_OpenContainerRoute( beginColor: widget.beginColor, endColor: widget.endColor, closedColor: widget.closedColor, openColor: widget.openColor, closedElevation: widget.closedElevation, openElevation: widget.openElevation, closedShape: widget.closedShape, openShape: widget.openShape, closedBuilder: widget.closedBuilder, openBuilder: widget.openBuilder, hideableKey: _hideableKey, closedBuilderKey: _closedBuilderKey, transitionDuration: widget.transitionDuration, transitionType: widget.transitionType, flightWidget: widget.flightWidget, playerRunning: widget.playerRunning, )); } @override Widget build(BuildContext context) { return _Hideable( key: _hideableKey, child: GestureDetector( onTap: widget.tappable ? openContainer : null, child: Material( color: Colors.transparent, // clipBehavior: Clip.antiAlias, // color: widget.closedColor, // elevation: widget.closedElevation, // shape: widget.closedShape, child: Builder( key: _closedBuilderKey, builder: (BuildContext context) { return widget.closedBuilder(context, openContainer, false); }, ), ), ), ); } } /// Controls the visibility of its child. /// /// The child can be in one of three states: /// /// * It is included in the tree and fully visible. (The `placeholderSize` is /// null and `isVisible` is true.) /// * It is included in the tree, but not visible; its size is maintained. /// (The `placeholderSize` is null and `isVisible` is false.) /// * It is not included in the tree. Instead a [SizedBox] of dimensions /// specified by `placeholderSize` is included in the tree. (The value of /// `isVisible` is ignored). class _Hideable extends StatefulWidget { const _Hideable({ Key key, this.child, }) : super(key: key); final Widget child; @override State<_Hideable> createState() => _HideableState(); } class _HideableState extends State<_Hideable> { /// When non-null the child is replaced by a [SizedBox] of the set size. Size get placeholderSize => _placeholderSize; Size _placeholderSize; set placeholderSize(Size value) { if (_placeholderSize == value) { return; } setState(() { _placeholderSize = value; }); } /// When true the child is not visible, but will maintain its size. /// /// The value of this property is ignored when [placeholderSize] is non-null /// (i.e. [isInTree] returns false). bool get isVisible => _visible; bool _visible = true; set isVisible(bool value) { assert(value != null); if (_visible == value) { return; } setState(() { _visible = value; }); } /// Whether the child is currently included in the tree. /// /// When it is included, it may be visible or not according to [isVisible]. bool get isInTree => _placeholderSize == null; @override Widget build(BuildContext context) { if (_placeholderSize != null) { return SizedBox.fromSize(size: _placeholderSize); } return Opacity( opacity: _visible ? 1.0 : 0.0, child: widget.child, ); } } class _OpenContainerRoute extends ModalRoute { _OpenContainerRoute({ @required this.closedColor, @required this.openColor, @required this.beginColor, @required this.endColor, @required double closedElevation, @required this.openElevation, @required ShapeBorder closedShape, @required this.openShape, @required this.closedBuilder, @required this.openBuilder, @required this.hideableKey, @required this.closedBuilderKey, @required this.transitionDuration, @required this.transitionType, this.flightWidget, this.playerRunning, }) : assert(closedColor != null), assert(openColor != null), assert(closedElevation != null), assert(openElevation != null), assert(closedShape != null), assert(openBuilder != null), assert(closedBuilder != null), assert(hideableKey != null), assert(closedBuilderKey != null), assert(transitionType != null), _elevationTween = Tween( begin: closedElevation, end: openElevation, ), _shapeTween = ShapeBorderTween( begin: closedShape, end: openShape, ), _colorTween = _getColorTween( transitionType: transitionType, closedColor: closedColor, openColor: openColor, beginColor: beginColor, endColor: endColor), _closedOpacityTween = _getClosedOpacityTween(transitionType), _openOpacityTween = _getOpenOpacityTween(transitionType); final Widget flightWidget; final bool playerRunning; static _FlippableTweenSequence _getColorTween({ @required ContainerTransitionType transitionType, @required Color closedColor, @required Color openColor, @required Color beginColor, @required Color endColor, }) { switch (transitionType) { case ContainerTransitionType.fade: return _FlippableTweenSequence( >[ TweenSequenceItem( tween: ConstantTween(closedColor), weight: 1 / 5, ), TweenSequenceItem( tween: ColorTween(begin: closedColor, end: openColor), weight: 1 / 5, ), TweenSequenceItem( tween: ConstantTween(openColor), weight: 3 / 5, ), ], ); case ContainerTransitionType.fadeThrough: return _FlippableTweenSequence( >[ TweenSequenceItem( tween: ColorTween(begin: closedColor, end: endColor), weight: 1 / 5, ), TweenSequenceItem( tween: ColorTween(begin: beginColor, end: openColor), weight: 4 / 5, ), ], ); } return null; // unreachable } static _FlippableTweenSequence _getClosedOpacityTween( ContainerTransitionType transitionType) { switch (transitionType) { case ContainerTransitionType.fade: return _FlippableTweenSequence( >[ TweenSequenceItem( tween: ConstantTween(1.0), weight: 1, ), ], ); break; case ContainerTransitionType.fadeThrough: return _FlippableTweenSequence( >[ TweenSequenceItem( tween: Tween(begin: 1.0, end: 0.0), weight: 1 / 5, ), TweenSequenceItem( tween: ConstantTween(0.0), weight: 4 / 5, ), ], ); break; } return null; // unreachable } static _FlippableTweenSequence _getOpenOpacityTween( ContainerTransitionType transitionType) { switch (transitionType) { case ContainerTransitionType.fade: return _FlippableTweenSequence( >[ TweenSequenceItem( tween: ConstantTween(0.0), weight: 1 / 5, ), TweenSequenceItem( tween: Tween(begin: 0.0, end: 1.0), weight: 1 / 5, ), TweenSequenceItem( tween: ConstantTween(1.0), weight: 3 / 5, ), ], ); break; case ContainerTransitionType.fadeThrough: return _FlippableTweenSequence( >[ TweenSequenceItem( tween: ConstantTween(0.0), weight: 1 / 5, ), TweenSequenceItem( tween: Tween(begin: 0.0, end: 1.0), weight: 4 / 5, ), ], ); break; } return null; // unreachable } final Color closedColor; final Color openColor; final Color beginColor; final Color endColor; final double openElevation; final ShapeBorder openShape; final OpenContainerBuilder closedBuilder; final OpenContainerBuilder openBuilder; // See [_OpenContainerState._hideableKey]. final GlobalKey<_HideableState> hideableKey; // See [_OpenContainerState._closedBuilderKey]. final GlobalKey closedBuilderKey; @override final Duration transitionDuration; final ContainerTransitionType transitionType; final Tween _elevationTween; final ShapeBorderTween _shapeTween; final _FlippableTweenSequence _closedOpacityTween; final _FlippableTweenSequence _openOpacityTween; final _FlippableTweenSequence _colorTween; // Key used for the widget returned by [OpenContainer.openBuilder] to keep // its state when the shape of the widget tree is changed at the end of the // animation to remove all the craft that was necessary to make the animation // work. final GlobalKey _openBuilderKey = GlobalKey(); // Defines the position and the size of the (opening) [OpenContainer] within // the bounds of the enclosing [Navigator]. final RectTween _rectTween = RectTween(); final Tween _positionTween = Tween(); final Tween _avatarScaleTween = Tween(); AnimationStatus _lastAnimationStatus; AnimationStatus _currentAnimationStatus; @override TickerFuture didPush() { _takeMeasurements(navigatorContext: hideableKey.currentContext); animation.addStatusListener((AnimationStatus status) { _lastAnimationStatus = _currentAnimationStatus; _currentAnimationStatus = status; switch (status) { case AnimationStatus.dismissed: hideableKey.currentState ..placeholderSize = null ..isVisible = true; break; case AnimationStatus.completed: hideableKey.currentState ..placeholderSize = null ..isVisible = false; break; case AnimationStatus.forward: case AnimationStatus.reverse: break; } }); return super.didPush(); } @override bool didPop(void result) { _takeMeasurements( navigatorContext: subtreeContext, delayForSourceRoute: true, ); return super.didPop(result); } void _takeMeasurements({ BuildContext navigatorContext, bool delayForSourceRoute = false, }) { final RenderBox navigator = Navigator.of(navigatorContext).context.findRenderObject(); final Size navSize = _getSize(navigator); _rectTween.end = Offset.zero & navSize; void takeMeasurementsInSourceRoute([Duration _]) { if (!navigator.attached || hideableKey.currentContext == null) { return; } _rectTween.begin = _getRect(hideableKey, navigator); hideableKey.currentState.placeholderSize = _rectTween.begin.size; } if (delayForSourceRoute) { SchedulerBinding.instance .addPostFrameCallback(takeMeasurementsInSourceRoute); } else { takeMeasurementsInSourceRoute(); } } Size _getSize(RenderBox render) { assert(render != null && render.hasSize); return render.size; } // Returns the bounds of the [RenderObject] identified by `key` in the // coordinate system of `ancestor`. Rect _getRect(GlobalKey key, RenderBox ancestor) { assert(key.currentContext != null); assert(ancestor != null && ancestor.hasSize); final RenderBox render = key.currentContext.findRenderObject(); assert(render != null && render.hasSize); return MatrixUtils.transformRect( render.getTransformTo(ancestor), Offset.zero & render.size, ); } bool get _transitionWasInterrupted { bool wasInProgress = false; bool isInProgress = false; switch (_currentAnimationStatus) { case AnimationStatus.completed: case AnimationStatus.dismissed: isInProgress = false; break; case AnimationStatus.forward: case AnimationStatus.reverse: isInProgress = true; break; } switch (_lastAnimationStatus) { case AnimationStatus.completed: case AnimationStatus.dismissed: wasInProgress = false; break; case AnimationStatus.forward: case AnimationStatus.reverse: wasInProgress = true; break; } return wasInProgress && isInProgress; } void closeContainer() { Navigator.of(subtreeContext).pop(); } @override Widget buildPage( BuildContext context, Animation animation, Animation secondaryAnimation, ) { return Align( alignment: Alignment.topLeft, child: AnimatedBuilder( animation: animation, builder: (BuildContext context, Widget child) { if (animation.isCompleted) { return SizedBox.expand( child: Material( color: openColor, elevation: openElevation, shape: openShape, child: Builder( key: _openBuilderKey, builder: (BuildContext context) { return openBuilder(context, closeContainer, false); }, ), ), ); } final Animation curvedAnimation = CurvedAnimation( parent: animation, curve: Curves.fastOutSlowIn, reverseCurve: _transitionWasInterrupted ? null : Curves.fastOutSlowIn.flipped, ); final Animation secondCurvedAnimation = CurvedAnimation( parent: animation, curve: Curves.easeOutCirc, reverseCurve: _transitionWasInterrupted ? null : Curves.easeOutCirc.flipped, ); TweenSequence colorTween; TweenSequence closedOpacityTween, openOpacityTween; switch (animation.status) { case AnimationStatus.dismissed: case AnimationStatus.forward: closedOpacityTween = _closedOpacityTween; openOpacityTween = _openOpacityTween; colorTween = _colorTween; break; case AnimationStatus.reverse: if (_transitionWasInterrupted) { closedOpacityTween = _closedOpacityTween; openOpacityTween = _openOpacityTween; colorTween = _colorTween; break; } closedOpacityTween = _closedOpacityTween.flipped; openOpacityTween = _openOpacityTween.flipped; colorTween = _colorTween.flipped; break; case AnimationStatus.completed: assert(false); // Unreachable. break; } assert(colorTween != null); assert(closedOpacityTween != null); assert(openOpacityTween != null); final Rect rect = _rectTween.evaluate(curvedAnimation); _positionTween.begin = Offset(_rectTween.begin.left + 10, _rectTween.begin.top + 10); _positionTween.end = Offset( 10, playerRunning ? MediaQuery.of(context).size.height - 100 : MediaQuery.of(context).size.height - 40); double _width = MediaQuery.of(context).size.width; _avatarScaleTween.begin = _width / 16; _avatarScaleTween.end = 30; return SizedBox.expand( child: Stack( children: [ Container( child: Align( alignment: Alignment.topLeft, child: Transform.translate( offset: Offset(rect.left, rect.top), child: SizedBox( width: rect.width, height: rect.height * (playerRunning ? (1 - 60 / context.width) : 1), child: Material( clipBehavior: Clip.antiAlias, animationDuration: Duration.zero, color: colorTween.evaluate(animation), shape: _shapeTween.evaluate(curvedAnimation), elevation: _elevationTween.evaluate(curvedAnimation), child: Stack( fit: StackFit.passthrough, children: [ // Closed child fading out. FittedBox( fit: BoxFit.fitWidth, alignment: Alignment.topLeft, child: SizedBox( width: _rectTween.begin.width, height: _rectTween.begin.height, child: hideableKey.currentState.isInTree ? null : Opacity( opacity: closedOpacityTween .evaluate(animation), child: Builder( key: closedBuilderKey, builder: (BuildContext context) { // Use dummy "open container" callback // since we are in the process of opening. return closedBuilder( context, () {}, true); }, ), ), ), ), // Open child fading in. FittedBox( fit: BoxFit.fitWidth, alignment: Alignment.topLeft, child: SizedBox( width: _rectTween.end.width, height: _rectTween.end.height, child: Opacity( opacity: openOpacityTween.evaluate(animation), child: Builder( key: _openBuilderKey, builder: (BuildContext context) { return openBuilder( context, closeContainer, true); }, ), ), ), ), ], ), ), ), ), ), ), Positioned( top: _positionTween.evaluate(secondCurvedAnimation).dy, left: _positionTween.evaluate(secondCurvedAnimation).dx, child: SizedBox( height: _avatarScaleTween.evaluate(secondCurvedAnimation), width: _avatarScaleTween.evaluate(secondCurvedAnimation), child: flightWidget, ), ), ], ), ); }, ), ); } @override bool get maintainState => true; @override Color get barrierColor => null; @override bool get opaque => true; @override bool get barrierDismissible => false; @override String get barrierLabel => null; } class _FlippableTweenSequence extends TweenSequence { _FlippableTweenSequence(this._items) : super(_items); final List> _items; _FlippableTweenSequence _flipped; _FlippableTweenSequence get flipped { if (_flipped == null) { final List> newItems = >[]; for (int i = 0; i < _items.length; i++) { newItems.add(TweenSequenceItem( tween: _items[i].tween, weight: _items[_items.length - 1 - i].weight, )); } _flipped = _FlippableTweenSequence(newItems); } return _flipped; } }