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// 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:math' as math;
import 'dart:ui' as ui;
import 'package:flutter/foundation.dart';
import 'package:flutter/gestures.dart' show kLongPressTimeout, kMinFlingVelocity;
import 'package:flutter/scheduler.dart';
import 'package:flutter/services.dart';
import 'package:flutter/widgets.dart';
import 'colors.dart';
// The scale of the child at the time that the CupertinoContextMenu opens.
// This value was eyeballed from a physical device running iOS 13.1.2.
const double _kOpenScale = 1.1;
const Color _borderColor = CupertinoDynamicColor.withBrightness(
color: Color(0xFFA9A9AF),
darkColor: Color(0xFF57585A),
);
typedef _DismissCallback = void Function(
BuildContext context,
double scale,
double opacity,
);
/// A function that produces the preview when the CupertinoContextMenu is open.
///
/// Called every time the animation value changes.
typedef ContextMenuPreviewBuilder = Widget Function(
BuildContext context,
Animation<double> animation,
Widget child,
);
// A function that proxies to ContextMenuPreviewBuilder without the child.
typedef _ContextMenuPreviewBuilderChildless = Widget Function(
BuildContext context,
Animation<double> animation,
);
// Given a GlobalKey, return the Rect of the corresponding RenderBox's
// paintBounds in global coordinates.
Rect _getRect(GlobalKey globalKey) {
assert(globalKey.currentContext != null);
final RenderBox renderBoxContainer = globalKey.currentContext!.findRenderObject()! as RenderBox;
return Rect.fromPoints(renderBoxContainer.localToGlobal(
renderBoxContainer.paintBounds.topLeft,
), renderBoxContainer.localToGlobal(
renderBoxContainer.paintBounds.bottomRight
));
}
// The context menu arranges itself slightly differently based on the location
// on the screen of [CupertinoContextMenu.child] before the
// [CupertinoContextMenu] opens.
enum _ContextMenuLocation {
center,
left,
right,
}
/// A full-screen modal route that opens when the [child] is long-pressed.
///
/// When open, the [CupertinoContextMenu] shows the child, or the widget returned
/// by [previewBuilder] if given, in a large full-screen [Overlay] with a list
/// of buttons specified by [actions]. The child/preview is placed in an
/// [Expanded] widget so that it will grow to fill the Overlay if its size is
/// unconstrained.
///
/// When closed, the CupertinoContextMenu simply displays the child as if the
/// CupertinoContextMenu were not there. Sizing and positioning is unaffected.
/// The menu can be closed like other [PopupRoute]s, such as by tapping the
/// background or by calling `Navigator.pop(context)`. Unlike PopupRoute, it can
/// also be closed by swiping downwards.
///
/// The [previewBuilder] parameter is most commonly used to display a slight
/// variation of [child]. See [previewBuilder] for an example of rounding the
/// child's corners and allowing its aspect ratio to expand, similar to the
/// Photos app on iOS.
///
/// {@tool dartpad}
/// This sample shows a very simple CupertinoContextMenu for an empty red
/// 100x100 Container. Simply long press on it to open.
///
/// ** See code in examples/api/lib/cupertino/context_menu/cupertino_context_menu.0.dart **
/// {@end-tool}
///
/// See also:
///
/// * <https://developer.apple.com/design/human-interface-guidelines/ios/controls/context-menus/>
class CupertinoContextMenu extends StatefulWidget {
/// Create a context menu.
///
/// [actions] is required and cannot be null or empty.
///
/// [child] is required and cannot be null.
CupertinoContextMenu({
super.key,
required this.actions,
required this.child,
this.previewBuilder,
}) : assert(actions != null && actions.isNotEmpty),
assert(child != null);
/// The widget that can be "opened" with the [CupertinoContextMenu].
///
/// When the [CupertinoContextMenu] is long-pressed, the menu will open and
/// this widget (or the widget returned by [previewBuilder], if provided) will
/// be moved to the new route and placed inside of an [Expanded] widget. This
/// allows the child to resize to fit in its place in the new route, if it
/// doesn't size itself.
///
/// When the [CupertinoContextMenu] is "closed", this widget acts like a
/// [Container], i.e. it does not constrain its child's size or affect its
/// position.
///
/// This parameter cannot be null.
final Widget child;
/// The actions that are shown in the menu.
///
/// These actions are typically [CupertinoContextMenuAction]s.
///
/// This parameter cannot be null or empty.
final List<Widget> actions;
/// A function that returns an alternative widget to show when the
/// [CupertinoContextMenu] is open.
///
/// If not specified, [child] will be shown.
///
/// The preview is often used to show a slight variation of the [child]. For
/// example, the child could be given rounded corners in the preview but have
/// sharp corners when in the page.
///
/// In addition to the current [BuildContext], the function is also called
/// with an [Animation] and the [child]. The animation goes from 0 to 1 when
/// the CupertinoContextMenu opens, and from 1 to 0 when it closes, and it can
/// be used to animate the preview in sync with this opening and closing. The
/// child parameter provides access to the child displayed when the
/// CupertinoContextMenu is closed.
///
/// {@tool snippet}
///
/// Below is an example of using [previewBuilder] to show an image tile that's
/// similar to each tile in the iOS iPhoto app's context menu. Several of
/// these could be used in a GridView for a similar effect.
///
/// When opened, the child animates to show its full aspect ratio and has
/// rounded corners. The larger size of the open CupertinoContextMenu allows
/// the FittedBox to fit the entire image, even when it has a very tall or
/// wide aspect ratio compared to the square of a GridView, so this animates
/// into view as the CupertinoContextMenu is opened. The preview is swapped in
/// right when the open animation begins, which includes the rounded corners.
///
/// ```dart
/// CupertinoContextMenu(
/// // The FittedBox in the preview here allows the image to animate its
/// // aspect ratio when the CupertinoContextMenu is animating its preview
/// // widget open and closed.
/// previewBuilder: (BuildContext context, Animation<double> animation, Widget child) {
/// return FittedBox(
/// fit: BoxFit.cover,
/// // This ClipRRect rounds the corners of the image when the
/// // CupertinoContextMenu is open, even though it's not rounded when
/// // it's closed. It uses the given animation to animate the corners
/// // in sync with the opening animation.
/// child: ClipRRect(
/// borderRadius: BorderRadius.circular(64.0 * animation.value),
/// child: Image.asset('assets/photo.jpg'),
/// ),
/// );
/// },
/// actions: <Widget>[
/// CupertinoContextMenuAction(
/// child: const Text('Action one'),
/// onPressed: () {},
/// ),
/// ],
/// child: FittedBox(
/// fit: BoxFit.cover,
/// child: Image.asset('assets/photo.jpg'),
/// ),
/// )
/// ```
///
/// {@end-tool}
final ContextMenuPreviewBuilder? previewBuilder;
@override
State<CupertinoContextMenu> createState() => _CupertinoContextMenuState();
}
class _CupertinoContextMenuState extends State<CupertinoContextMenu> with TickerProviderStateMixin {
final GlobalKey _childGlobalKey = GlobalKey();
bool _childHidden = false;
// Animates the child while it's opening.
late AnimationController _openController;
Rect? _decoyChildEndRect;
OverlayEntry? _lastOverlayEntry;
_ContextMenuRoute<void>? _route;
@override
void initState() {
super.initState();
_openController = AnimationController(
duration: kLongPressTimeout,
vsync: this,
);
_openController.addStatusListener(_onDecoyAnimationStatusChange);
}
// Determine the _ContextMenuLocation based on the location of the original
// child in the screen.
//
// The location of the original child is used to determine how to horizontally
// align the content of the open CupertinoContextMenu. For example, if the
// child is near the center of the screen, it will also appear in the center
// of the screen when the menu is open, and the actions will be centered below
// it.
_ContextMenuLocation get _contextMenuLocation {
final Rect childRect = _getRect(_childGlobalKey);
final double screenWidth = MediaQuery.of(context).size.width;
final double center = screenWidth / 2;
final bool centerDividesChild = childRect.left < center
&& childRect.right > center;
final double distanceFromCenter = (center - childRect.center.dx).abs();
if (centerDividesChild && distanceFromCenter <= childRect.width / 4) {
return _ContextMenuLocation.center;
}
if (childRect.center.dx > center) {
return _ContextMenuLocation.right;
}
return _ContextMenuLocation.left;
}
// Push the new route and open the CupertinoContextMenu overlay.
void _openContextMenu() {
setState(() {
_childHidden = true;
});
_route = _ContextMenuRoute<void>(
actions: widget.actions,
barrierLabel: 'Dismiss',
filter: ui.ImageFilter.blur(
sigmaX: 5.0,
sigmaY: 5.0,
),
contextMenuLocation: _contextMenuLocation,
previousChildRect: _decoyChildEndRect!,
builder: (BuildContext context, Animation<double> animation) {
if (widget.previewBuilder == null) {
return widget.child;
}
return widget.previewBuilder!(context, animation, widget.child);
},
);
Navigator.of(context, rootNavigator: true).push<void>(_route!);
_route!.animation!.addStatusListener(_routeAnimationStatusListener);
}
void _onDecoyAnimationStatusChange(AnimationStatus animationStatus) {
switch (animationStatus) {
case AnimationStatus.dismissed:
if (_route == null) {
setState(() {
_childHidden = false;
});
}
_lastOverlayEntry?.remove();
_lastOverlayEntry = null;
break;
case AnimationStatus.completed:
setState(() {
_childHidden = true;
});
_openContextMenu();
// Keep the decoy on the screen for one extra frame. We have to do this
// because _ContextMenuRoute renders its first frame offscreen.
// Otherwise there would be a visible flash when nothing is rendered for
// one frame.
SchedulerBinding.instance.addPostFrameCallback((Duration _) {
_lastOverlayEntry?.remove();
_lastOverlayEntry = null;
_openController.reset();
});
break;
case AnimationStatus.forward:
case AnimationStatus.reverse:
return;
}
}
// Watch for when _ContextMenuRoute is closed and return to the state where
// the CupertinoContextMenu just behaves as a Container.
void _routeAnimationStatusListener(AnimationStatus status) {
if (status != AnimationStatus.dismissed) {
return;
}
setState(() {
_childHidden = false;
});
_route!.animation!.removeStatusListener(_routeAnimationStatusListener);
_route = null;
}
void _onTap() {
if (_openController.isAnimating && _openController.value < 0.5) {
_openController.reverse();
}
}
void _onTapCancel() {
if (_openController.isAnimating && _openController.value < 0.5) {
_openController.reverse();
}
}
void _onTapUp(TapUpDetails details) {
if (_openController.isAnimating && _openController.value < 0.5) {
_openController.reverse();
}
}
void _onTapDown(TapDownDetails details) {
setState(() {
_childHidden = true;
});
final Rect childRect = _getRect(_childGlobalKey);
_decoyChildEndRect = Rect.fromCenter(
center: childRect.center,
width: childRect.width * _kOpenScale,
height: childRect.height * _kOpenScale,
);
// Create a decoy child in an overlay directly on top of the original child.
// TODO(justinmc): There is a known inconsistency with native here, due to
// doing the bounce animation using a decoy in the top level Overlay. The
// decoy will pop on top of the AppBar if the child is partially behind it,
// such as a top item in a partially scrolled view. However, if we don't use
// an overlay, then the decoy will appear behind its neighboring widget when
// it expands. This may be solvable by adding a widget to Scaffold that's
// underneath the AppBar.
_lastOverlayEntry = OverlayEntry(
builder: (BuildContext context) {
return _DecoyChild(
beginRect: childRect,
controller: _openController,
endRect: _decoyChildEndRect,
child: widget.child,
);
},
);
Overlay.of(context, rootOverlay: true, debugRequiredFor: widget).insert(_lastOverlayEntry!);
_openController.forward();
}
@override
Widget build(BuildContext context) {
return MouseRegion(
cursor: kIsWeb ? SystemMouseCursors.click : MouseCursor.defer,
child: GestureDetector(
onTapCancel: _onTapCancel,
onTapDown: _onTapDown,
onTapUp: _onTapUp,
onTap: _onTap,
child: TickerMode(
enabled: !_childHidden,
child: Visibility.maintain(
key: _childGlobalKey,
visible: !_childHidden,
child: widget.child,
),
),
),
);
}
@override
void dispose() {
_openController.dispose();
super.dispose();
}
}
// A floating copy of the CupertinoContextMenu's child.
//
// When the child is pressed, but before the CupertinoContextMenu opens, it does
// a "bounce" animation where it shrinks and then grows. This is implemented
// by hiding the original child and placing _DecoyChild on top of it in an
// Overlay. The use of an Overlay allows the _DecoyChild to appear on top of
// siblings of the original child.
class _DecoyChild extends StatefulWidget {
const _DecoyChild({
this.beginRect,
required this.controller,
this.endRect,
this.child,
});
final Rect? beginRect;
final AnimationController controller;
final Rect? endRect;
final Widget? child;
@override
_DecoyChildState createState() => _DecoyChildState();
}
class _DecoyChildState extends State<_DecoyChild> with TickerProviderStateMixin {
// TODO(justinmc): Dark mode support.
// See https://github.com/flutter/flutter/issues/43211.
static const Color _lightModeMaskColor = Color(0xFF888888);
static const Color _masklessColor = Color(0xFFFFFFFF);
final GlobalKey _childGlobalKey = GlobalKey();
late Animation<Color> _mask;
late Animation<Rect?> _rect;
@override
void initState() {
super.initState();
// Change the color of the child during the initial part of the decoy bounce
// animation. The interval was eyeballed from a physical iOS 13.1.2 device.
_mask = _OnOffAnimation<Color>(
controller: widget.controller,
onValue: _lightModeMaskColor,
offValue: _masklessColor,
intervalOn: 0.0,
intervalOff: 0.5,
);
final Rect midRect = widget.beginRect!.deflate(
widget.beginRect!.width * (_kOpenScale - 1.0) / 2,
);
_rect = TweenSequence<Rect?>(<TweenSequenceItem<Rect?>>[
TweenSequenceItem<Rect?>(
tween: RectTween(
begin: widget.beginRect,
end: midRect,
).chain(CurveTween(curve: Curves.easeInOutCubic)),
weight: 1.0,
),
TweenSequenceItem<Rect?>(
tween: RectTween(
begin: midRect,
end: widget.endRect,
).chain(CurveTween(curve: Curves.easeOutCubic)),
weight: 1.0,
),
]).animate(widget.controller);
_rect.addListener(_rectListener);
}
// Listen to the _rect animation and vibrate when it reaches the halfway point
// and switches from animating down to up.
void _rectListener() {
if (widget.controller.value < 0.5) {
return;
}
HapticFeedback.selectionClick();
_rect.removeListener(_rectListener);
}
@override
void dispose() {
_rect.removeListener(_rectListener);
super.dispose();
}
Widget _buildAnimation(BuildContext context, Widget? child) {
final Color color = widget.controller.status == AnimationStatus.reverse
? _masklessColor
: _mask.value;
return Positioned.fromRect(
rect: _rect.value!,
child: ShaderMask(
key: _childGlobalKey,
shaderCallback: (Rect bounds) {
return LinearGradient(
begin: Alignment.topLeft,
end: Alignment.bottomRight,
colors: <Color>[color, color],
).createShader(bounds);
},
child: widget.child,
),
);
}
@override
Widget build(BuildContext context) {
return Stack(
children: <Widget>[
AnimatedBuilder(
builder: _buildAnimation,
animation: widget.controller,
),
],
);
}
}
// The open CupertinoContextMenu modal.
class _ContextMenuRoute<T> extends PopupRoute<T> {
// Build a _ContextMenuRoute.
_ContextMenuRoute({
required List<Widget> actions,
required _ContextMenuLocation contextMenuLocation,
this.barrierLabel,
_ContextMenuPreviewBuilderChildless? builder,
super.filter,
required Rect previousChildRect,
super.settings,
}) : assert(actions != null && actions.isNotEmpty),
assert(contextMenuLocation != null),
_actions = actions,
_builder = builder,
_contextMenuLocation = contextMenuLocation,
_previousChildRect = previousChildRect;
// Barrier color for a Cupertino modal barrier.
static const Color _kModalBarrierColor = Color(0x6604040F);
// The duration of the transition used when a modal popup is shown. Eyeballed
// from a physical device running iOS 13.1.2.
static const Duration _kModalPopupTransitionDuration =
Duration(milliseconds: 335);
final List<Widget> _actions;
final _ContextMenuPreviewBuilderChildless? _builder;
final GlobalKey _childGlobalKey = GlobalKey();
final _ContextMenuLocation _contextMenuLocation;
bool _externalOffstage = false;
bool _internalOffstage = false;
Orientation? _lastOrientation;
// The Rect of the child at the moment that the CupertinoContextMenu opens.
final Rect _previousChildRect;
double? _scale = 1.0;
final GlobalKey _sheetGlobalKey = GlobalKey();
static final CurveTween _curve = CurveTween(
curve: Curves.easeOutBack,
);
static final CurveTween _curveReverse = CurveTween(
curve: Curves.easeInBack,
);
static final RectTween _rectTween = RectTween();
static final Animatable<Rect?> _rectAnimatable = _rectTween.chain(_curve);
static final RectTween _rectTweenReverse = RectTween();
static final Animatable<Rect?> _rectAnimatableReverse = _rectTweenReverse
.chain(
_curveReverse,
);
static final RectTween _sheetRectTween = RectTween();
final Animatable<Rect?> _sheetRectAnimatable = _sheetRectTween.chain(
_curve,
);
final Animatable<Rect?> _sheetRectAnimatableReverse = _sheetRectTween.chain(
_curveReverse,
);
static final Tween<double> _sheetScaleTween = Tween<double>();
static final Animatable<double> _sheetScaleAnimatable = _sheetScaleTween
.chain(
_curve,
);
static final Animatable<double> _sheetScaleAnimatableReverse =
_sheetScaleTween.chain(
_curveReverse,
);
final Tween<double> _opacityTween = Tween<double>(begin: 0.0, end: 1.0);
late Animation<double> _sheetOpacity;
@override
final String? barrierLabel;
@override
Color get barrierColor => _kModalBarrierColor;
@override
bool get barrierDismissible => true;
@override
bool get semanticsDismissible => false;
@override
Duration get transitionDuration => _kModalPopupTransitionDuration;
// Getting the RenderBox doesn't include the scale from the Transform.scale,
// so it's manually accounted for here.
static Rect _getScaledRect(GlobalKey globalKey, double scale) {
final Rect childRect = _getRect(globalKey);
final Size sizeScaled = childRect.size * scale;
final Offset offsetScaled = Offset(
childRect.left + (childRect.size.width - sizeScaled.width) / 2,
childRect.top + (childRect.size.height - sizeScaled.height) / 2,
);
return offsetScaled & sizeScaled;
}
// Get the alignment for the _ContextMenuSheet's Transform.scale based on the
// contextMenuLocation.
static AlignmentDirectional getSheetAlignment(_ContextMenuLocation contextMenuLocation) {
switch (contextMenuLocation) {
case _ContextMenuLocation.center:
return AlignmentDirectional.topCenter;
case _ContextMenuLocation.right:
return AlignmentDirectional.topEnd;
case _ContextMenuLocation.left:
return AlignmentDirectional.topStart;
}
}
// The place to start the sheetRect animation from.
static Rect _getSheetRectBegin(Orientation? orientation, _ContextMenuLocation contextMenuLocation, Rect childRect, Rect sheetRect) {
switch (contextMenuLocation) {
case _ContextMenuLocation.center:
final Offset target = orientation == Orientation.portrait
? childRect.bottomCenter
: childRect.topCenter;
final Offset centered = target - Offset(sheetRect.width / 2, 0.0);
return centered & sheetRect.size;
case _ContextMenuLocation.right:
final Offset target = orientation == Orientation.portrait
? childRect.bottomRight
: childRect.topRight;
return (target - Offset(sheetRect.width, 0.0)) & sheetRect.size;
case _ContextMenuLocation.left:
final Offset target = orientation == Orientation.portrait
? childRect.bottomLeft
: childRect.topLeft;
return target & sheetRect.size;
}
}
void _onDismiss(BuildContext context, double scale, double opacity) {
_scale = scale;
_opacityTween.end = opacity;
_sheetOpacity = _opacityTween.animate(CurvedAnimation(
parent: animation!,
curve: const Interval(0.9, 1.0),
));
Navigator.of(context).pop();
}
// Take measurements on the child and _ContextMenuSheet and update the
// animation tweens to match.
void _updateTweenRects() {
final Rect childRect = _scale == null
? _getRect(_childGlobalKey)
: _getScaledRect(_childGlobalKey, _scale!);
_rectTween.begin = _previousChildRect;
_rectTween.end = childRect;
// When opening, the transition happens from the end of the child's bounce
// animation to the final state. When closing, it goes from the final state
// to the original position before the bounce.
final Rect childRectOriginal = Rect.fromCenter(
center: _previousChildRect.center,
width: _previousChildRect.width / _kOpenScale,
height: _previousChildRect.height / _kOpenScale,
);
final Rect sheetRect = _getRect(_sheetGlobalKey);
final Rect sheetRectBegin = _getSheetRectBegin(
_lastOrientation,
_contextMenuLocation,
childRectOriginal,
sheetRect,
);
_sheetRectTween.begin = sheetRectBegin;
_sheetRectTween.end = sheetRect;
_sheetScaleTween.begin = 0.0;
_sheetScaleTween.end = _scale;
_rectTweenReverse.begin = childRectOriginal;
_rectTweenReverse.end = childRect;
}
void _setOffstageInternally() {
super.offstage = _externalOffstage || _internalOffstage;
// It's necessary to call changedInternalState to get the backdrop to
// update.
changedInternalState();
}
@override
bool didPop(T? result) {
_updateTweenRects();
return super.didPop(result);
}
@override
set offstage(bool value) {
_externalOffstage = value;
_setOffstageInternally();
}
@override
TickerFuture didPush() {
_internalOffstage = true;
_setOffstageInternally();
// Render one frame offstage in the final position so that we can take
// measurements of its layout and then animate to them.
SchedulerBinding.instance.addPostFrameCallback((Duration _) {
_updateTweenRects();
_internalOffstage = false;
_setOffstageInternally();
});
return super.didPush();
}
@override
Animation<double> createAnimation() {
final Animation<double> animation = super.createAnimation();
_sheetOpacity = _opacityTween.animate(CurvedAnimation(
parent: animation,
curve: Curves.linear,
));
return animation;
}
@override
Widget buildPage(BuildContext context, Animation<double> animation, Animation<double> secondaryAnimation) {
// This is usually used to build the "page", which is then passed to
// buildTransitions as child, the idea being that buildTransitions will
// animate the entire page into the scene. In the case of _ContextMenuRoute,
// two individual pieces of the page are animated into the scene in
// buildTransitions, and a SizedBox.shrink() is returned here.
return const SizedBox.shrink();
}
@override
Widget buildTransitions(BuildContext context, Animation<double> animation, Animation<double> secondaryAnimation, Widget child) {
return OrientationBuilder(
builder: (BuildContext context, Orientation orientation) {
_lastOrientation = orientation;
// While the animation is running, render everything in a Stack so that
// they're movable.
if (!animation.isCompleted) {
final bool reverse = animation.status == AnimationStatus.reverse;
final Rect rect = reverse
? _rectAnimatableReverse.evaluate(animation)!
: _rectAnimatable.evaluate(animation)!;
final Rect sheetRect = reverse
? _sheetRectAnimatableReverse.evaluate(animation)!
: _sheetRectAnimatable.evaluate(animation)!;
final double sheetScale = reverse
? _sheetScaleAnimatableReverse.evaluate(animation)
: _sheetScaleAnimatable.evaluate(animation);
return Stack(
children: <Widget>[
Positioned.fromRect(
rect: sheetRect,
child: FadeTransition(
opacity: _sheetOpacity,
child: Transform.scale(
alignment: getSheetAlignment(_contextMenuLocation),
scale: sheetScale,
child: _ContextMenuSheet(
key: _sheetGlobalKey,
actions: _actions,
contextMenuLocation: _contextMenuLocation,
orientation: orientation,
),
),
),
),
Positioned.fromRect(
key: _childGlobalKey,
rect: rect,
child: _builder!(context, animation),
),
],
);
}
// When the animation is done, just render everything in a static layout
// in the final position.
return _ContextMenuRouteStatic(
actions: _actions,
childGlobalKey: _childGlobalKey,
contextMenuLocation: _contextMenuLocation,
onDismiss: _onDismiss,
orientation: orientation,
sheetGlobalKey: _sheetGlobalKey,
child: _builder!(context, animation),
);
},
);
}
}
// The final state of the _ContextMenuRoute after animating in and before
// animating out.
class _ContextMenuRouteStatic extends StatefulWidget {
const _ContextMenuRouteStatic({
this.actions,
required this.child,
this.childGlobalKey,
required this.contextMenuLocation,
this.onDismiss,
required this.orientation,
this.sheetGlobalKey,
}) : assert(contextMenuLocation != null),
assert(orientation != null);
final List<Widget>? actions;
final Widget child;
final GlobalKey? childGlobalKey;
final _ContextMenuLocation contextMenuLocation;
final _DismissCallback? onDismiss;
final Orientation orientation;
final GlobalKey? sheetGlobalKey;
@override
_ContextMenuRouteStaticState createState() => _ContextMenuRouteStaticState();
}
class _ContextMenuRouteStaticState extends State<_ContextMenuRouteStatic> with TickerProviderStateMixin {
// The child is scaled down as it is dragged down until it hits this minimum
// value.
static const double _kMinScale = 0.8;
// The CupertinoContextMenuSheet disappears at this scale.
static const double _kSheetScaleThreshold = 0.9;
static const double _kPadding = 20.0;
static const double _kDamping = 400.0;
static const Duration _kMoveControllerDuration = Duration(milliseconds: 600);
late Offset _dragOffset;
double _lastScale = 1.0;
late AnimationController _moveController;
late AnimationController _sheetController;
late Animation<Offset> _moveAnimation;
late Animation<double> _sheetScaleAnimation;
late Animation<double> _sheetOpacityAnimation;
// The scale of the child changes as a function of the distance it is dragged.
static double _getScale(Orientation orientation, double maxDragDistance, double dy) {
final double dyDirectional = dy <= 0.0 ? dy : -dy;
return math.max(
_kMinScale,
(maxDragDistance + dyDirectional) / maxDragDistance,
);
}
void _onPanStart(DragStartDetails details) {
_moveController.value = 1.0;
_setDragOffset(Offset.zero);
}
void _onPanUpdate(DragUpdateDetails details) {
_setDragOffset(_dragOffset + details.delta);
}
void _onPanEnd(DragEndDetails details) {
// If flung, animate a bit before handling the potential dismiss.
if (details.velocity.pixelsPerSecond.dy.abs() >= kMinFlingVelocity) {
final bool flingIsAway = details.velocity.pixelsPerSecond.dy > 0;
final double finalPosition = flingIsAway
? _moveAnimation.value.dy + 100.0
: 0.0;
if (flingIsAway && _sheetController.status != AnimationStatus.forward) {
_sheetController.forward();
} else if (!flingIsAway && _sheetController.status != AnimationStatus.reverse) {
_sheetController.reverse();
}
_moveAnimation = Tween<Offset>(
begin: Offset(0.0, _moveAnimation.value.dy),
end: Offset(0.0, finalPosition),
).animate(_moveController);
_moveController.reset();
_moveController.duration = const Duration(
milliseconds: 64,
);
_moveController.forward();
_moveController.addStatusListener(_flingStatusListener);
return;
}
// Dismiss if the drag is enough to scale down all the way.
if (_lastScale == _kMinScale) {
widget.onDismiss!(context, _lastScale, _sheetOpacityAnimation.value);
return;
}
// Otherwise animate back home.
_moveController.addListener(_moveListener);
_moveController.reverse();
}
void _moveListener() {
// When the scale passes the threshold, animate the sheet back in.
if (_lastScale > _kSheetScaleThreshold) {
_moveController.removeListener(_moveListener);
if (_sheetController.status != AnimationStatus.dismissed) {
_sheetController.reverse();
}
}
}
void _flingStatusListener(AnimationStatus status) {
if (status != AnimationStatus.completed) {
return;
}
// Reset the duration back to its original value.
_moveController.duration = _kMoveControllerDuration;
_moveController.removeStatusListener(_flingStatusListener);
// If it was a fling back to the start, it has reset itself, and it should
// not be dismissed.
if (_moveAnimation.value.dy == 0.0) {
return;
}
widget.onDismiss!(context, _lastScale, _sheetOpacityAnimation.value);
}
Alignment _getChildAlignment(Orientation orientation, _ContextMenuLocation contextMenuLocation) {
switch (contextMenuLocation) {
case _ContextMenuLocation.center:
return orientation == Orientation.portrait
? Alignment.bottomCenter
: Alignment.topRight;
case _ContextMenuLocation.right:
return orientation == Orientation.portrait
? Alignment.bottomCenter
: Alignment.topLeft;
case _ContextMenuLocation.left:
return orientation == Orientation.portrait
? Alignment.bottomCenter
: Alignment.topRight;
}
}
void _setDragOffset(Offset dragOffset) {
// Allow horizontal and negative vertical movement, but damp it.
final double endX = _kPadding * dragOffset.dx / _kDamping;
final double endY = dragOffset.dy >= 0.0
? dragOffset.dy
: _kPadding * dragOffset.dy / _kDamping;
setState(() {
_dragOffset = dragOffset;
_moveAnimation = Tween<Offset>(
begin: Offset.zero,
end: Offset(
clampDouble(endX, -_kPadding, _kPadding),
endY,
),
).animate(
CurvedAnimation(
parent: _moveController,
curve: Curves.elasticIn,
),
);
// Fade the _ContextMenuSheet out or in, if needed.
if (_lastScale <= _kSheetScaleThreshold
&& _sheetController.status != AnimationStatus.forward
&& _sheetScaleAnimation.value != 0.0) {
_sheetController.forward();
} else if (_lastScale > _kSheetScaleThreshold
&& _sheetController.status != AnimationStatus.reverse
&& _sheetScaleAnimation.value != 1.0) {
_sheetController.reverse();
}
});
}
// The order and alignment of the _ContextMenuSheet and the child depend on
// both the orientation of the screen as well as the position on the screen of
// the original child.
List<Widget> _getChildren(Orientation orientation, _ContextMenuLocation contextMenuLocation) {
final Expanded child = Expanded(
child: Align(
alignment: _getChildAlignment(
widget.orientation,
widget.contextMenuLocation,
),
child: AnimatedBuilder(
animation: _moveController,
builder: _buildChildAnimation,
child: widget.child,
),
),
);
const SizedBox spacer = SizedBox(
width: _kPadding,
height: _kPadding,
);
final Expanded sheet = Expanded(
child: AnimatedBuilder(
animation: _sheetController,
builder: _buildSheetAnimation,
child: _ContextMenuSheet(
key: widget.sheetGlobalKey,
actions: widget.actions!,
contextMenuLocation: widget.contextMenuLocation,
orientation: widget.orientation,
),
),
);
switch (contextMenuLocation) {
case _ContextMenuLocation.center:
return <Widget>[child, spacer, sheet];
case _ContextMenuLocation.right:
return orientation == Orientation.portrait
? <Widget>[child, spacer, sheet]
: <Widget>[sheet, spacer, child];
case _ContextMenuLocation.left:
return <Widget>[child, spacer, sheet];
}
}
// Build the animation for the _ContextMenuSheet.
Widget _buildSheetAnimation(BuildContext context, Widget? child) {
return Transform.scale(
alignment: _ContextMenuRoute.getSheetAlignment(widget.contextMenuLocation),
scale: _sheetScaleAnimation.value,
child: FadeTransition(
opacity: _sheetOpacityAnimation,
child: child,
),
);
}
// Build the animation for the child.
Widget _buildChildAnimation(BuildContext context, Widget? child) {
_lastScale = _getScale(
widget.orientation,
MediaQuery.of(context).size.height,
_moveAnimation.value.dy,
);
return Transform.scale(
key: widget.childGlobalKey,
scale: _lastScale,
child: child,
);
}
// Build the animation for the overall draggable dismissible content.
Widget _buildAnimation(BuildContext context, Widget? child) {
return Transform.translate(
offset: _moveAnimation.value,
child: child,
);
}
@override
void initState() {
super.initState();
_moveController = AnimationController(
duration: _kMoveControllerDuration,
value: 1.0,
vsync: this,
);
_sheetController = AnimationController(
duration: const Duration(milliseconds: 100),
reverseDuration: const Duration(milliseconds: 300),
vsync: this,
);
_sheetScaleAnimation = Tween<double>(
begin: 1.0,
end: 0.0,
).animate(
CurvedAnimation(
parent: _sheetController,
curve: Curves.linear,
reverseCurve: Curves.easeInBack,
),
);
_sheetOpacityAnimation = Tween<double>(
begin: 1.0,
end: 0.0,
).animate(_sheetController);
_setDragOffset(Offset.zero);
}
@override
void dispose() {
_moveController.dispose();
_sheetController.dispose();
super.dispose();
}
@override
Widget build(BuildContext context) {
final List<Widget> children = _getChildren(
widget.orientation,
widget.contextMenuLocation,
);
return SafeArea(
child: Padding(
padding: const EdgeInsets.all(_kPadding),
child: Align(
alignment: Alignment.topLeft,
child: GestureDetector(
onPanEnd: _onPanEnd,
onPanStart: _onPanStart,
onPanUpdate: _onPanUpdate,
child: AnimatedBuilder(
animation: _moveController,
builder: _buildAnimation,
child: widget.orientation == Orientation.portrait
? Column(
crossAxisAlignment: CrossAxisAlignment.start,
children: children,
)
: Row(
crossAxisAlignment: CrossAxisAlignment.start,
children: children,
),
),
),
),
),
);
}
}
// The menu that displays when CupertinoContextMenu is open. It consists of a
// list of actions that are typically CupertinoContextMenuActions.
class _ContextMenuSheet extends StatelessWidget {
_ContextMenuSheet({
super.key,
required this.actions,
required _ContextMenuLocation contextMenuLocation,
required Orientation orientation,
}) : assert(actions != null && actions.isNotEmpty),
assert(contextMenuLocation != null),
assert(orientation != null),
_contextMenuLocation = contextMenuLocation,
_orientation = orientation;
final List<Widget> actions;
final _ContextMenuLocation _contextMenuLocation;
final Orientation _orientation;
// Get the children, whose order depends on orientation and
// contextMenuLocation.
List<Widget> getChildren(BuildContext context) {
final Widget menu = Flexible(
fit: FlexFit.tight,
flex: 2,
child: IntrinsicHeight(
child: ClipRRect(
borderRadius: const BorderRadius.all(Radius.circular(13.0)),
child: Column(
crossAxisAlignment: CrossAxisAlignment.stretch,
children: <Widget>[
actions.first,
for (Widget action in actions.skip(1))
DecoratedBox(
decoration: BoxDecoration(
border: Border(
top: BorderSide(
color: CupertinoDynamicColor.resolve(_borderColor, context),
width: 0.5,
)
),
),
position: DecorationPosition.foreground,
child: action,
),
],
),
),
),
);
switch (_contextMenuLocation) {
case _ContextMenuLocation.center:
return _orientation == Orientation.portrait
? <Widget>[
const Spacer(),
menu,
const Spacer(),
]
: <Widget>[
menu,
const Spacer(),
];
case _ContextMenuLocation.right:
return <Widget>[
const Spacer(),
menu,
];
case _ContextMenuLocation.left:
return <Widget>[
menu,
const Spacer(),
];
}
}
@override
Widget build(BuildContext context) {
return Row(
crossAxisAlignment: CrossAxisAlignment.start,
children: getChildren(context),
);
}
}
// An animation that switches between two colors.
//
// The transition is immediate, so there are no intermediate values or
// interpolation. The color switches from offColor to onColor and back to
// offColor at the times given by intervalOn and intervalOff.
class _OnOffAnimation<T> extends CompoundAnimation<T> {
_OnOffAnimation({
required AnimationController controller,
required T onValue,
required T offValue,
required double intervalOn,
required double intervalOff,
}) : _offValue = offValue,
assert(intervalOn >= 0.0 && intervalOn <= 1.0),
assert(intervalOff >= 0.0 && intervalOff <= 1.0),
assert(intervalOn <= intervalOff),
super(
first: Tween<T>(begin: offValue, end: onValue).animate(
CurvedAnimation(
parent: controller,
curve: Interval(intervalOn, intervalOn),
),
),
next: Tween<T>(begin: onValue, end: offValue).animate(
CurvedAnimation(
parent: controller,
curve: Interval(intervalOff, intervalOff),
),
),
);
final T _offValue;
@override
T get value => next.value == _offValue ? next.value : first.value;
}