rustdesk/flutter/lib/desktop/widgets/material_mod_popup_menu.dart
fufesou 302499d1e0 fix sync displays info && select monitor menu
Signed-off-by: fufesou <shuanglongchen@yeah.net>
2023-02-17 13:32:17 +08:00

1435 lines
48 KiB
Dart

// 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 'package:flutter/foundation.dart';
import 'package:flutter/rendering.dart';
import 'package:flutter/material.dart';
import 'package:flutter_hbb/common.dart';
import 'package:flutter_hbb/desktop/widgets/menu_button.dart';
// Examples can assume:
// enum Commands { heroAndScholar, hurricaneCame }
// late bool _heroAndScholar;
// late dynamic _selection;
// late BuildContext context;
// void setState(VoidCallback fn) { }
// enum Menu { itemOne, itemTwo, itemThree, itemFour }
// const Duration _kMenuDuration = Duration(milliseconds: 300);
const Duration _kMenuDuration = Duration(milliseconds: 0);
const double _kMenuCloseIntervalEnd = 2.0 / 3.0;
const double _kMenuHorizontalPadding = 16.0;
const double _kMenuDividerHeight = 16.0;
//const double _kMenuMaxWidth = 5.0 * _kMenuWidthStep;
const double _kMenuMinWidth = 2.0 * _kMenuWidthStep;
const double _kMenuMaxWidth = double.infinity;
// const double _kMenuVerticalPadding = 8.0;
const double _kMenuVerticalPadding = 8.0;
const double _kMenuWidthStep = 0.0;
//const double _kMenuScreenPadding = 8.0;
const double _kMenuScreenPadding = 0.0;
const double _kDefaultIconSize = 24.0;
/// Used to configure how the [PopupMenuButton] positions its popup menu.
enum PopupMenuPosition {
/// Menu is positioned over the anchor.
over,
/// Menu is positioned under the anchor.
under,
// Only support right side (TextDirection.ltr) for now
/// Menu is positioned over side the anchor
overSide,
// Only support right side (TextDirection.ltr) for now
/// Menu is positioned under side the anchor
underSide,
}
/// A base class for entries in a material design popup menu.
///
/// The popup menu widget uses this interface to interact with the menu items.
/// To show a popup menu, use the [showMenu] function. To create a button that
/// shows a popup menu, consider using [PopupMenuButton].
///
/// The type `T` is the type of the value(s) the entry represents. All the
/// entries in a given menu must represent values with consistent types.
///
/// A [PopupMenuEntry] may represent multiple values, for example a row with
/// several icons, or a single entry, for example a menu item with an icon (see
/// [PopupMenuItem]), or no value at all (for example, [PopupMenuDivider]).
///
/// See also:
///
/// * [PopupMenuItem], a popup menu entry for a single value.
/// * [PopupMenuDivider], a popup menu entry that is just a horizontal line.
/// * [CheckedPopupMenuItem], a popup menu item with a checkmark.
/// * [showMenu], a method to dynamically show a popup menu at a given location.
/// * [PopupMenuButton], an [IconButton] that automatically shows a menu when
/// it is tapped.
abstract class PopupMenuEntry<T> extends StatefulWidget {
/// Abstract const constructor. This constructor enables subclasses to provide
/// const constructors so that they can be used in const expressions.
const PopupMenuEntry({Key? key}) : super(key: key);
/// The amount of vertical space occupied by this entry.
///
/// This value is used at the time the [showMenu] method is called, if the
/// `initialValue` argument is provided, to determine the position of this
/// entry when aligning the selected entry over the given `position`. It is
/// otherwise ignored.
double get height;
/// Whether this entry represents a particular value.
///
/// This method is used by [showMenu], when it is called, to align the entry
/// representing the `initialValue`, if any, to the given `position`, and then
/// later is called on each entry to determine if it should be highlighted (if
/// the method returns true, the entry will have its background color set to
/// the ambient [ThemeData.highlightColor]). If `initialValue` is null, then
/// this method is not called.
///
/// If the [PopupMenuEntry] represents a single value, this should return true
/// if the argument matches that value. If it represents multiple values, it
/// should return true if the argument matches any of them.
bool represents(T? value);
}
/// A horizontal divider in a material design popup menu.
///
/// This widget adapts the [Divider] for use in popup menus.
///
/// See also:
///
/// * [PopupMenuItem], for the kinds of items that this widget divides.
/// * [showMenu], a method to dynamically show a popup menu at a given location.
/// * [PopupMenuButton], an [IconButton] that automatically shows a menu when
/// it is tapped.
class PopupMenuDivider extends PopupMenuEntry<Never> {
/// Creates a horizontal divider for a popup menu.
///
/// By default, the divider has a height of 16 logical pixels.
const PopupMenuDivider({Key? key, this.height = _kMenuDividerHeight})
: super(key: key);
/// The height of the divider entry.
///
/// Defaults to 16 pixels.
@override
final double height;
@override
bool represents(void value) => false;
@override
State<PopupMenuDivider> createState() => _PopupMenuDividerState();
}
class _PopupMenuDividerState extends State<PopupMenuDivider> {
@override
Widget build(BuildContext context) => Divider(height: widget.height);
}
// This widget only exists to enable _PopupMenuRoute to save the sizes of
// each menu item. The sizes are used by _PopupMenuRouteLayout to compute the
// y coordinate of the menu's origin so that the center of selected menu
// item lines up with the center of its PopupMenuButton.
class _MenuItem extends SingleChildRenderObjectWidget {
const _MenuItem({
Key? key,
required this.onLayout,
required Widget? child,
}) : super(key: key, child: child);
final ValueChanged<Size> onLayout;
@override
RenderObject createRenderObject(BuildContext context) {
return _RenderMenuItem(onLayout);
}
@override
void updateRenderObject(
BuildContext context, covariant _RenderMenuItem renderObject) {
renderObject.onLayout = onLayout;
}
}
class _RenderMenuItem extends RenderShiftedBox {
_RenderMenuItem(this.onLayout, [RenderBox? child]) : super(child);
ValueChanged<Size> onLayout;
@override
Size computeDryLayout(BoxConstraints constraints) {
if (child == null) {
return Size.zero;
}
return child!.getDryLayout(constraints);
}
@override
void performLayout() {
if (child == null) {
size = Size.zero;
} else {
child!.layout(constraints, parentUsesSize: true);
size = constraints.constrain(child!.size);
final BoxParentData childParentData = child!.parentData! as BoxParentData;
childParentData.offset = Offset.zero;
}
onLayout(size);
}
}
/// An item in a material design popup menu.
///
/// To show a popup menu, use the [showMenu] function. To create a button that
/// shows a popup menu, consider using [PopupMenuButton].
///
/// To show a checkmark next to a popup menu item, consider using
/// [CheckedPopupMenuItem].
///
/// Typically the [child] of a [PopupMenuItem] is a [Text] widget. More
/// elaborate menus with icons can use a [ListTile]. By default, a
/// [PopupMenuItem] is [kMinInteractiveDimension] pixels high. If you use a widget
/// with a different height, it must be specified in the [height] property.
///
/// {@tool snippet}
///
/// Here, a [Text] widget is used with a popup menu item. The `Menu` type
/// is an enum, not shown here.
///
/// ```dart
/// const PopupMenuItem<Menu>(
/// value: Menu.itemOne,
/// child: Text('Item 1'),
/// )
/// ```
/// {@end-tool}
///
/// See the example at [PopupMenuButton] for how this example could be used in a
/// complete menu, and see the example at [CheckedPopupMenuItem] for one way to
/// keep the text of [PopupMenuItem]s that use [Text] widgets in their [child]
/// slot aligned with the text of [CheckedPopupMenuItem]s or of [PopupMenuItem]
/// that use a [ListTile] in their [child] slot.
///
/// See also:
///
/// * [PopupMenuDivider], which can be used to divide items from each other.
/// * [CheckedPopupMenuItem], a variant of [PopupMenuItem] with a checkmark.
/// * [showMenu], a method to dynamically show a popup menu at a given location.
/// * [PopupMenuButton], an [IconButton] that automatically shows a menu when
/// it is tapped.
class PopupMenuItem<T> extends PopupMenuEntry<T> {
/// Creates an item for a popup menu.
///
/// By default, the item is [enabled].
///
/// The `enabled` and `height` arguments must not be null.
const PopupMenuItem({
Key? key,
this.value,
this.onTap,
this.enabled = true,
this.height = kMinInteractiveDimension,
this.padding,
this.textStyle,
this.mouseCursor,
required this.child,
}) : super(key: key);
/// The value that will be returned by [showMenu] if this entry is selected.
final T? value;
/// Called when the menu item is tapped.
final VoidCallback? onTap;
/// Whether the user is permitted to select this item.
///
/// Defaults to true. If this is false, then the item will not react to
/// touches.
final bool enabled;
/// The minimum height of the menu item.
///
/// Defaults to [kMinInteractiveDimension] pixels.
@override
final double height;
/// The padding of the menu item.
///
/// Note that [height] may interact with the applied padding. For example,
/// If a [height] greater than the height of the sum of the padding and [child]
/// is provided, then the padding's effect will not be visible.
///
/// When null, the horizontal padding defaults to 16.0 on both sides.
final EdgeInsets? padding;
/// The text style of the popup menu item.
///
/// If this property is null, then [PopupMenuThemeData.textStyle] is used.
/// If [PopupMenuThemeData.textStyle] is also null, then [TextTheme.subtitle1]
/// of [ThemeData.textTheme] is used.
final TextStyle? textStyle;
/// {@template flutter.material.popupmenu.mouseCursor}
/// The cursor for a mouse pointer when it enters or is hovering over the
/// widget.
///
/// If [mouseCursor] is a [MaterialStateProperty<MouseCursor>],
/// [MaterialStateProperty.resolve] is used for the following [MaterialState]s:
///
/// * [MaterialState.hovered].
/// * [MaterialState.focused].
/// * [MaterialState.disabled].
/// {@endtemplate}
///
/// If null, then the value of [PopupMenuThemeData.mouseCursor] is used. If
/// that is also null, then [MaterialStateMouseCursor.clickable] is used.
final MouseCursor? mouseCursor;
/// The widget below this widget in the tree.
///
/// Typically a single-line [ListTile] (for menus with icons) or a [Text]. An
/// appropriate [DefaultTextStyle] is put in scope for the child. In either
/// case, the text should be short enough that it won't wrap.
final Widget? child;
@override
bool represents(T? value) => value == this.value;
@override
PopupMenuItemState<T, PopupMenuItem<T>> createState() =>
PopupMenuItemState<T, PopupMenuItem<T>>();
}
/// The [State] for [PopupMenuItem] subclasses.
///
/// By default this implements the basic styling and layout of Material Design
/// popup menu items.
///
/// The [buildChild] method can be overridden to adjust exactly what gets placed
/// in the menu. By default it returns [PopupMenuItem.child].
///
/// The [handleTap] method can be overridden to adjust exactly what happens when
/// the item is tapped. By default, it uses [Navigator.pop] to return the
/// [PopupMenuItem.value] from the menu route.
///
/// This class takes two type arguments. The second, `W`, is the exact type of
/// the [Widget] that is using this [State]. It must be a subclass of
/// [PopupMenuItem]. The first, `T`, must match the type argument of that widget
/// class, and is the type of values returned from this menu.
class PopupMenuItemState<T, W extends PopupMenuItem<T>> extends State<W> {
/// The menu item contents.
///
/// Used by the [build] method.
///
/// By default, this returns [PopupMenuItem.child]. Override this to put
/// something else in the menu entry.
@protected
Widget? buildChild() => widget.child;
/// The handler for when the user selects the menu item.
///
/// Used by the [InkWell] inserted by the [build] method.
///
/// By default, uses [Navigator.pop] to return the [PopupMenuItem.value] from
/// the menu route.
@protected
void handleTap() {
widget.onTap?.call();
Navigator.pop<T>(context, widget.value);
}
@override
Widget build(BuildContext context) {
final ThemeData theme = Theme.of(context);
final PopupMenuThemeData popupMenuTheme = PopupMenuTheme.of(context);
TextStyle style = widget.textStyle ??
popupMenuTheme.textStyle ??
theme.textTheme.subtitle1!;
if (!widget.enabled) style = style.copyWith(color: theme.disabledColor);
Widget item = AnimatedDefaultTextStyle(
style: style,
duration: kThemeChangeDuration,
child: Container(
alignment: AlignmentDirectional.centerStart,
constraints: BoxConstraints(minHeight: widget.height),
padding: widget.padding ??
const EdgeInsets.symmetric(horizontal: _kMenuHorizontalPadding),
child: buildChild(),
),
);
if (!widget.enabled) {
final bool isDark = theme.brightness == Brightness.dark;
item = IconTheme.merge(
data: IconThemeData(opacity: isDark ? 0.5 : 0.38),
child: item,
);
}
return MergeSemantics(
child: Semantics(
enabled: widget.enabled,
button: true,
// child: InkWell(
// onTap: widget.enabled ? handleTap : null,
// canRequestFocus: widget.enabled,
// mouseCursor: _EffectiveMouseCursor(
// widget.mouseCursor, popupMenuTheme.mouseCursor),
// child: item,
// ),
child: TextButton(
onPressed: widget.enabled ? handleTap : null,
child: item,
),
),
);
}
}
/// An item with a checkmark in a material design popup menu.
///
/// To show a popup menu, use the [showMenu] function. To create a button that
/// shows a popup menu, consider using [PopupMenuButton].
///
/// A [CheckedPopupMenuItem] is kMinInteractiveDimension pixels high, which
/// matches the default minimum height of a [PopupMenuItem]. The horizontal
/// layout uses [ListTile]; the checkmark is an [Icons.done] icon, shown in the
/// [ListTile.leading] position.
///
/// {@tool snippet}
///
/// Suppose a `Commands` enum exists that lists the possible commands from a
/// particular popup menu, including `Commands.heroAndScholar` and
/// `Commands.hurricaneCame`, and further suppose that there is a
/// `_heroAndScholar` member field which is a boolean. The example below shows a
/// menu with one menu item with a checkmark that can toggle the boolean, and
/// one menu item without a checkmark for selecting the second option. (It also
/// shows a divider placed between the two menu items.)
///
/// ```dart
/// PopupMenuButton<Commands>(
/// onSelected: (Commands result) {
/// switch (result) {
/// case Commands.heroAndScholar:
/// setState(() { _heroAndScholar = !_heroAndScholar; });
/// break;
/// case Commands.hurricaneCame:
/// // ...handle hurricane option
/// break;
/// // ...other items handled here
/// }
/// },
/// itemBuilder: (BuildContext context) => <PopupMenuEntry<Commands>>[
/// CheckedPopupMenuItem<Commands>(
/// checked: _heroAndScholar,
/// value: Commands.heroAndScholar,
/// child: const Text('Hero and scholar'),
/// ),
/// const PopupMenuDivider(),
/// const PopupMenuItem<Commands>(
/// value: Commands.hurricaneCame,
/// child: ListTile(leading: Icon(null), title: Text('Bring hurricane')),
/// ),
/// // ...other items listed here
/// ],
/// )
/// ```
/// {@end-tool}
///
/// In particular, observe how the second menu item uses a [ListTile] with a
/// blank [Icon] in the [ListTile.leading] position to get the same alignment as
/// the item with the checkmark.
///
/// See also:
///
/// * [PopupMenuItem], a popup menu entry for picking a command (as opposed to
/// toggling a value).
/// * [PopupMenuDivider], a popup menu entry that is just a horizontal line.
/// * [showMenu], a method to dynamically show a popup menu at a given location.
/// * [PopupMenuButton], an [IconButton] that automatically shows a menu when
/// it is tapped.
class CheckedPopupMenuItem<T> extends PopupMenuItem<T> {
/// Creates a popup menu item with a checkmark.
///
/// By default, the menu item is [enabled] but unchecked. To mark the item as
/// checked, set [checked] to true.
///
/// The `checked` and `enabled` arguments must not be null.
const CheckedPopupMenuItem({
Key? key,
T? value,
this.checked = false,
bool enabled = true,
EdgeInsets? padding,
double height = kMinInteractiveDimension,
Widget? child,
}) : super(
key: key,
value: value,
enabled: enabled,
padding: padding,
height: height,
child: child,
);
/// Whether to display a checkmark next to the menu item.
///
/// Defaults to false.
///
/// When true, an [Icons.done] checkmark is displayed.
///
/// When this popup menu item is selected, the checkmark will fade in or out
/// as appropriate to represent the implied new state.
final bool checked;
/// The widget below this widget in the tree.
///
/// Typically a [Text]. An appropriate [DefaultTextStyle] is put in scope for
/// the child. The text should be short enough that it won't wrap.
///
/// This widget is placed in the [ListTile.title] slot of a [ListTile] whose
/// [ListTile.leading] slot is an [Icons.done] icon.
@override
Widget? get child => super.child;
@override
PopupMenuItemState<T, CheckedPopupMenuItem<T>> createState() =>
_CheckedPopupMenuItemState<T>();
}
class _CheckedPopupMenuItemState<T>
extends PopupMenuItemState<T, CheckedPopupMenuItem<T>>
with SingleTickerProviderStateMixin {
static const Duration _fadeDuration = Duration(milliseconds: 150);
late AnimationController _controller;
Animation<double> get _opacity => _controller.view;
@override
void initState() {
super.initState();
_controller = AnimationController(duration: _fadeDuration, vsync: this)
..value = widget.checked ? 1.0 : 0.0
..addListener(() => setState(() {/* animation changed */}));
}
@override
void handleTap() {
// This fades the checkmark in or out when tapped.
if (widget.checked) {
_controller.reverse();
} else {
_controller.forward();
}
super.handleTap();
}
@override
Widget buildChild() {
return ListTile(
enabled: widget.enabled,
leading: FadeTransition(
opacity: _opacity,
child: Icon(_controller.isDismissed ? null : Icons.done),
),
title: widget.child,
);
}
}
class _PopupMenu<T> extends StatelessWidget {
const _PopupMenu({
Key? key,
required this.route,
required this.semanticLabel,
this.constraints,
}) : super(key: key);
final _PopupMenuRoute<T> route;
final String? semanticLabel;
final BoxConstraints? constraints;
@override
Widget build(BuildContext context) {
final double unit = 1.0 /
(route.items.length +
1.5); // 1.0 for the width and 0.5 for the last item's fade.
final List<Widget> children = <Widget>[];
final PopupMenuThemeData popupMenuTheme = PopupMenuTheme.of(context);
for (int i = 0; i < route.items.length; i += 1) {
final double start = (i + 1) * unit;
final double end = (start + 1.5 * unit).clamp(0.0, 1.0);
final CurvedAnimation opacity = CurvedAnimation(
parent: route.animation!,
curve: Interval(start, end),
);
Widget item = route.items[i];
if (route.initialValue != null &&
route.items[i].represents(route.initialValue)) {
item = Container(
color: Theme.of(context).highlightColor,
child: item,
);
}
children.add(
_MenuItem(
onLayout: (Size size) {
route.itemSizes[i] = size;
},
child: FadeTransition(
opacity: opacity,
child: item,
),
),
);
}
final CurveTween opacity =
CurveTween(curve: const Interval(0.0, 1.0 / 3.0));
final CurveTween width = CurveTween(curve: Interval(0.0, unit));
final CurveTween height =
CurveTween(curve: Interval(0.0, unit * route.items.length));
final Widget child = ConstrainedBox(
constraints: constraints ??
const BoxConstraints(
minWidth: _kMenuMinWidth,
maxWidth: _kMenuMaxWidth,
),
child: IntrinsicWidth(
stepWidth: _kMenuWidthStep,
child: Semantics(
scopesRoute: true,
namesRoute: true,
explicitChildNodes: true,
label: semanticLabel,
child: SingleChildScrollView(
padding: const EdgeInsets.symmetric(
vertical: _kMenuVerticalPadding,
),
controller: ScrollController(),
child: ListBody(children: children),
),
),
),
);
return AnimatedBuilder(
animation: route.animation!,
builder: (BuildContext context, Widget? child) {
return FadeTransition(
opacity: opacity.animate(route.animation!),
child: Material(
shape: route.shape ?? popupMenuTheme.shape,
color: route.color ?? popupMenuTheme.color,
type: MaterialType.card,
elevation: route.elevation ?? popupMenuTheme.elevation ?? 8.0,
child: Align(
alignment: AlignmentDirectional.topEnd,
widthFactor: width.evaluate(route.animation!),
heightFactor: height.evaluate(route.animation!),
child: child,
),
),
);
},
child: child,
);
}
}
// Positioning of the menu on the screen.
class _PopupMenuRouteLayout extends SingleChildLayoutDelegate {
_PopupMenuRouteLayout(
this.position,
this.itemSizes,
this.selectedItemIndex,
this.textDirection,
this.padding,
this.avoidBounds,
);
// Rectangle of underlying button, relative to the overlay's dimensions.
final RelativeRect position;
// The sizes of each item are computed when the menu is laid out, and before
// the route is laid out.
List<Size?> itemSizes;
// The index of the selected item, or null if PopupMenuButton.initialValue
// was not specified.
final int? selectedItemIndex;
// Whether to prefer going to the left or to the right.
final TextDirection textDirection;
// The padding of unsafe area.
EdgeInsets padding;
// List of rectangles that we should avoid overlapping. Unusable screen area.
final Set<Rect> avoidBounds;
// We put the child wherever position specifies, so long as it will fit within
// the specified parent size padded (inset) by 8. If necessary, we adjust the
// child's position so that it fits.
@override
BoxConstraints getConstraintsForChild(BoxConstraints constraints) {
// The menu can be at most the size of the overlay minus 8.0 pixels in each
// direction.
return BoxConstraints.loose(constraints.biggest).deflate(
const EdgeInsets.all(_kMenuScreenPadding) + padding,
);
}
@override
Offset getPositionForChild(Size size, Size childSize) {
// size: The size of the overlay.
// childSize: The size of the menu, when fully open, as determined by
// getConstraintsForChild.
final double buttonHeight = size.height - position.top - position.bottom;
// Find the ideal vertical position.
double y = position.top;
if (selectedItemIndex != null) {
double selectedItemOffset = _kMenuVerticalPadding;
for (int index = 0; index < selectedItemIndex!; index += 1) {
selectedItemOffset += itemSizes[index]!.height;
}
selectedItemOffset += itemSizes[selectedItemIndex!]!.height / 2;
y = y + buttonHeight / 2.0 - selectedItemOffset;
}
// Find the ideal horizontal position.
double x;
// if (position.left > position.right) {
// // Menu button is closer to the right edge, so grow to the left, aligned to the right edge.
// x = size.width - position.right - childSize.width;
// } else if (position.left < position.right) {
// // Menu button is closer to the left edge, so grow to the right, aligned to the left edge.
// x = position.left;
// } else {
// Menu button is equidistant from both edges, so grow in reading direction.
switch (textDirection) {
case TextDirection.rtl:
x = size.width - position.right - childSize.width;
break;
case TextDirection.ltr:
x = position.left;
break;
}
//}
final Offset wantedPosition = Offset(x, y);
final Offset originCenter = position.toRect(Offset.zero & size).center;
final Iterable<Rect> subScreens =
DisplayFeatureSubScreen.subScreensInBounds(
Offset.zero & size, avoidBounds);
final Rect subScreen = _closestScreen(subScreens, originCenter);
return _fitInsideScreen(subScreen, childSize, wantedPosition);
}
Rect _closestScreen(Iterable<Rect> screens, Offset point) {
Rect closest = screens.first;
for (final Rect screen in screens) {
if ((screen.center - point).distance <
(closest.center - point).distance) {
closest = screen;
}
}
return closest;
}
Offset _fitInsideScreen(Rect screen, Size childSize, Offset wantedPosition) {
double x = wantedPosition.dx;
double y = wantedPosition.dy;
// Avoid going outside an area defined as the rectangle 8.0 pixels from the
// edge of the screen in every direction.
if (x < screen.left + _kMenuScreenPadding + padding.left) {
x = screen.left + _kMenuScreenPadding + padding.left;
} else if (x + childSize.width >
screen.right - _kMenuScreenPadding - padding.right) {
x = screen.right - childSize.width - _kMenuScreenPadding - padding.right;
}
if (y < screen.top + _kMenuScreenPadding + padding.top) {
y = _kMenuScreenPadding + padding.top;
} else if (y + childSize.height >
screen.bottom - _kMenuScreenPadding - padding.bottom) {
y = screen.bottom -
childSize.height -
_kMenuScreenPadding -
padding.bottom;
}
return Offset(x, y);
}
@override
bool shouldRelayout(_PopupMenuRouteLayout oldDelegate) {
// If called when the old and new itemSizes have been initialized then
// we expect them to have the same length because there's no practical
// way to change length of the items list once the menu has been shown.
assert(itemSizes.length == oldDelegate.itemSizes.length);
return position != oldDelegate.position ||
selectedItemIndex != oldDelegate.selectedItemIndex ||
textDirection != oldDelegate.textDirection ||
!listEquals(itemSizes, oldDelegate.itemSizes) ||
padding != oldDelegate.padding ||
!setEquals(avoidBounds, oldDelegate.avoidBounds);
}
}
class _PopupMenuRoute<T> extends PopupRoute<T> {
_PopupMenuRoute({
required this.position,
required this.items,
this.menuWrapper,
this.initialValue,
this.elevation,
required this.barrierLabel,
this.semanticLabel,
this.shape,
this.color,
required this.capturedThemes,
this.constraints,
}) : itemSizes = List<Size?>.filled(items.length, null);
final RelativeRect position;
final List<PopupMenuEntry<T>> items;
final MenuWrapper? menuWrapper;
final List<Size?> itemSizes;
final T? initialValue;
final double? elevation;
final String? semanticLabel;
final ShapeBorder? shape;
final Color? color;
final CapturedThemes capturedThemes;
final BoxConstraints? constraints;
@override
Animation<double> createAnimation() {
return CurvedAnimation(
parent: super.createAnimation(),
curve: Curves.linear,
reverseCurve: const Interval(0.0, _kMenuCloseIntervalEnd),
);
}
@override
Duration get transitionDuration => _kMenuDuration;
@override
bool get barrierDismissible => true;
@override
Color? get barrierColor => null;
@override
final String barrierLabel;
@override
Widget buildPage(BuildContext context, Animation<double> animation,
Animation<double> secondaryAnimation) {
int? selectedItemIndex;
if (initialValue != null) {
for (int index = 0;
selectedItemIndex == null && index < items.length;
index += 1) {
if (items[index].represents(initialValue)) selectedItemIndex = index;
}
}
Widget menu = _PopupMenu<T>(
route: this,
semanticLabel: semanticLabel,
constraints: constraints,
);
if (this.menuWrapper != null) {
menu = this.menuWrapper!(menu);
}
final MediaQueryData mediaQuery = MediaQuery.of(context);
return MediaQuery.removePadding(
context: context,
removeTop: true,
removeBottom: true,
removeLeft: true,
removeRight: true,
child: Builder(
builder: (BuildContext context) {
return CustomSingleChildLayout(
delegate: _PopupMenuRouteLayout(
position,
itemSizes,
selectedItemIndex,
Directionality.of(context),
mediaQuery.padding,
_avoidBounds(mediaQuery),
),
child: capturedThemes.wrap(menu),
);
},
),
);
}
Set<Rect> _avoidBounds(MediaQueryData mediaQuery) {
return DisplayFeatureSubScreen.avoidBounds(mediaQuery).toSet();
}
}
class PopupMenu<T> extends StatelessWidget {
PopupMenu({
Key? key,
required this.items,
this.initialValue,
this.semanticLabel,
this.constraints,
}) : itemSizes = List<Size?>.filled(items.length, null),
super(key: key);
final List<PopupMenuEntry<T>> items;
final List<Size?> itemSizes;
final T? initialValue;
final String? semanticLabel;
final BoxConstraints? constraints;
Widget _buildMenu(BuildContext context) {
final List<Widget> children = <Widget>[];
for (int i = 0; i < items.length; i += 1) {
Widget item = items[i];
if (initialValue != null && items[i].represents(initialValue)) {
item = Container(
color: Theme.of(context).highlightColor,
child: item,
);
}
children.add(
_MenuItem(
onLayout: (Size size) {
itemSizes[i] = size;
},
child: item,
),
);
}
final child = ConstrainedBox(
constraints: constraints ??
const BoxConstraints(
minWidth: _kMenuMinWidth,
maxWidth: _kMenuMaxWidth,
),
child: IntrinsicWidth(
stepWidth: _kMenuWidthStep,
child: Semantics(
scopesRoute: true,
namesRoute: true,
explicitChildNodes: true,
label: semanticLabel,
child: SingleChildScrollView(
padding: const EdgeInsets.symmetric(
vertical: _kMenuVerticalPadding,
),
controller: ScrollController(),
child: ListBody(children: children),
),
),
),
);
final PopupMenuThemeData popupMenuTheme = PopupMenuTheme.of(context);
return Material(
shape: popupMenuTheme.shape,
color: popupMenuTheme.color,
type: MaterialType.card,
elevation: popupMenuTheme.elevation ?? 8.0,
child: child,
);
}
@override
Widget build(BuildContext context) {
int? selectedItemIndex;
if (initialValue != null) {
for (int index = 0;
selectedItemIndex == null && index < items.length;
index += 1) {
if (items[index].represents(initialValue)) selectedItemIndex = index;
}
}
return MediaQuery.removePadding(
context: context,
removeTop: true,
removeBottom: true,
removeLeft: true,
removeRight: true,
child: Builder(
builder: (BuildContext context) {
return InheritedTheme.capture(from: context, to: context)
.wrap(_buildMenu(context));
},
),
);
}
}
/// Show a popup menu that contains the `items` at `position`.
///
/// `items` should be non-null and not empty.
///
/// If `initialValue` is specified then the first item with a matching value
/// will be highlighted and the value of `position` gives the rectangle whose
/// vertical center will be aligned with the vertical center of the highlighted
/// item (when possible).
///
/// If `initialValue` is not specified then the top of the menu will be aligned
/// with the top of the `position` rectangle.
///
/// In both cases, the menu position will be adjusted if necessary to fit on the
/// screen.
///
/// Horizontally, the menu is positioned so that it grows in the direction that
/// has the most room. For example, if the `position` describes a rectangle on
/// the left edge of the screen, then the left edge of the menu is aligned with
/// the left edge of the `position`, and the menu grows to the right. If both
/// edges of the `position` are equidistant from the opposite edge of the
/// screen, then the ambient [Directionality] is used as a tie-breaker,
/// preferring to grow in the reading direction.
///
/// The positioning of the `initialValue` at the `position` is implemented by
/// iterating over the `items` to find the first whose
/// [PopupMenuEntry.represents] method returns true for `initialValue`, and then
/// summing the values of [PopupMenuEntry.height] for all the preceding widgets
/// in the list.
///
/// The `elevation` argument specifies the z-coordinate at which to place the
/// menu. The elevation defaults to 8, the appropriate elevation for popup
/// menus.
///
/// The `context` argument is used to look up the [Navigator] and [Theme] for
/// the menu. It is only used when the method is called. Its corresponding
/// widget can be safely removed from the tree before the popup menu is closed.
///
/// The `useRootNavigator` argument is used to determine whether to push the
/// menu to the [Navigator] furthest from or nearest to the given `context`. It
/// is `false` by default.
///
/// The `semanticLabel` argument is used by accessibility frameworks to
/// announce screen transitions when the menu is opened and closed. If this
/// label is not provided, it will default to
/// [MaterialLocalizations.popupMenuLabel].
///
/// See also:
///
/// * [PopupMenuItem], a popup menu entry for a single value.
/// * [PopupMenuDivider], a popup menu entry that is just a horizontal line.
/// * [CheckedPopupMenuItem], a popup menu item with a checkmark.
/// * [PopupMenuButton], which provides an [IconButton] that shows a menu by
/// calling this method automatically.
/// * [SemanticsConfiguration.namesRoute], for a description of edge triggered
/// semantics.
Future<T?> showMenu<T>({
required BuildContext context,
required RelativeRect position,
required List<PopupMenuEntry<T>> items,
MenuWrapper? menuWrapper,
T? initialValue,
double? elevation,
String? semanticLabel,
ShapeBorder? shape,
Color? color,
bool useRootNavigator = false,
BoxConstraints? constraints,
}) {
assert(items.isNotEmpty);
assert(debugCheckHasMaterialLocalizations(context));
switch (Theme.of(context).platform) {
case TargetPlatform.iOS:
case TargetPlatform.macOS:
break;
case TargetPlatform.android:
case TargetPlatform.fuchsia:
case TargetPlatform.linux:
case TargetPlatform.windows:
semanticLabel ??= MaterialLocalizations.of(context).popupMenuLabel;
}
final NavigatorState navigator =
Navigator.of(context, rootNavigator: useRootNavigator);
return navigator.push(_PopupMenuRoute<T>(
position: position,
items: items,
menuWrapper: menuWrapper,
initialValue: initialValue,
elevation: elevation,
semanticLabel: semanticLabel,
barrierLabel: MaterialLocalizations.of(context).modalBarrierDismissLabel,
shape: shape,
color: color,
capturedThemes:
InheritedTheme.capture(from: context, to: navigator.context),
constraints: constraints,
));
}
/// Signature for the callback invoked when a menu item is selected. The
/// argument is the value of the [PopupMenuItem] that caused its menu to be
/// dismissed.
///
/// Used by [PopupMenuButton.onSelected].
typedef PopupMenuItemSelected<T> = void Function(T value);
/// Signature for the callback invoked when a [PopupMenuButton] is dismissed
/// without selecting an item.
///
/// Used by [PopupMenuButton.onCanceled].
typedef PopupMenuCanceled = void Function();
/// Signature used by [PopupMenuButton] to lazily construct the items shown when
/// the button is pressed.
///
/// Used by [PopupMenuButton.itemBuilder].
typedef PopupMenuItemBuilder<T> = List<PopupMenuEntry<T>> Function(
BuildContext context);
typedef MenuWrapper = Widget Function(Widget child);
/// Displays a menu when pressed and calls [onSelected] when the menu is dismissed
/// because an item was selected. The value passed to [onSelected] is the value of
/// the selected menu item.
///
/// One of [child] or [icon] may be provided, but not both. If [icon] is provided,
/// then [PopupMenuButton] behaves like an [IconButton].
///
/// If both are null, then a standard overflow icon is created (depending on the
/// platform).
///
/// {@tool dartpad}
/// This example shows a menu with four items, selecting between an enum's
/// values and setting a `_selectedMenu` field based on the selection
///
/// ** See code in examples/api/lib/material/popupmenu/popupmenu.0.dart **
/// {@end-tool}
///
/// See also:
///
/// * [PopupMenuItem], a popup menu entry for a single value.
/// * [PopupMenuDivider], a popup menu entry that is just a horizontal line.
/// * [CheckedPopupMenuItem], a popup menu item with a checkmark.
/// * [showMenu], a method to dynamically show a popup menu at a given location.
class PopupMenuButton<T> extends StatefulWidget {
/// Creates a button that shows a popup menu.
///
/// The [itemBuilder] argument must not be null.
const PopupMenuButton({
Key? key,
required this.itemBuilder,
this.menuWrapper,
this.initialValue,
this.onHover,
this.onSelected,
this.onCanceled,
this.tooltip,
this.elevation,
this.padding = const EdgeInsets.all(8.0),
this.child,
this.splashRadius,
this.icon,
this.iconSize,
this.offset = Offset.zero,
this.enabled = true,
this.shape,
this.color,
this.enableFeedback,
this.constraints,
this.position = PopupMenuPosition.over,
}) : assert(
!(child != null && icon != null),
'You can only pass [child] or [icon], not both.',
),
super(key: key);
/// Called when the button is pressed to create the items to show in the menu.
final PopupMenuItemBuilder<T> itemBuilder;
/// Menu wrapper.
final MenuWrapper? menuWrapper;
/// The value of the menu item, if any, that should be highlighted when the menu opens.
final T? initialValue;
/// Called when the user hovers this button.
final ValueChanged<bool>? onHover;
/// Called when the user selects a value from the popup menu created by this button.
///
/// If the popup menu is dismissed without selecting a value, [onCanceled] is
/// called instead.
final PopupMenuItemSelected<T>? onSelected;
/// Called when the user dismisses the popup menu without selecting an item.
///
/// If the user selects a value, [onSelected] is called instead.
final PopupMenuCanceled? onCanceled;
/// Text that describes the action that will occur when the button is pressed.
///
/// This text is displayed when the user long-presses on the button and is
/// used for accessibility.
final String? tooltip;
/// The z-coordinate at which to place the menu when open. This controls the
/// size of the shadow below the menu.
///
/// Defaults to 8, the appropriate elevation for popup menus.
final double? elevation;
/// Matches IconButton's 8 dps padding by default. In some cases, notably where
/// this button appears as the trailing element of a list item, it's useful to be able
/// to set the padding to zero.
final EdgeInsetsGeometry padding;
/// The splash radius.
///
/// If null, default splash radius of [InkWell] or [IconButton] is used.
final double? splashRadius;
/// If provided, [child] is the widget used for this button
/// and the button will utilize an [InkWell] for taps.
final Widget? child;
/// If provided, the [icon] is used for this button
/// and the button will behave like an [IconButton].
final Widget? icon;
/// The offset is applied relative to the initial position
/// set by the [position].
///
/// When not set, the offset defaults to [Offset.zero].
final Offset offset;
/// Whether this popup menu button is interactive.
///
/// Must be non-null, defaults to `true`
///
/// If `true` the button will respond to presses by displaying the menu.
///
/// If `false`, the button is styled with the disabled color from the
/// current [Theme] and will not respond to presses or show the popup
/// menu and [onSelected], [onCanceled] and [itemBuilder] will not be called.
///
/// This can be useful in situations where the app needs to show the button,
/// but doesn't currently have anything to show in the menu.
final bool enabled;
/// If provided, the shape used for the menu.
///
/// If this property is null, then [PopupMenuThemeData.shape] is used.
/// If [PopupMenuThemeData.shape] is also null, then the default shape for
/// [MaterialType.card] is used. This default shape is a rectangle with
/// rounded edges of BorderRadius.circular(2.0).
final ShapeBorder? shape;
/// If provided, the background color used for the menu.
///
/// If this property is null, then [PopupMenuThemeData.color] is used.
/// If [PopupMenuThemeData.color] is also null, then
/// Theme.of(context).cardColor is used.
final Color? color;
/// Whether detected gestures should provide acoustic and/or haptic feedback.
///
/// For example, on Android a tap will produce a clicking sound and a
/// long-press will produce a short vibration, when feedback is enabled.
///
/// See also:
///
/// * [Feedback] for providing platform-specific feedback to certain actions.
final bool? enableFeedback;
/// If provided, the size of the [Icon].
///
/// If this property is null, then [IconThemeData.size] is used.
/// If [IconThemeData.size] is also null, then
/// default size is 24.0 pixels.
final double? iconSize;
/// Optional size constraints for the menu.
///
/// When unspecified, defaults to:
/// ```dart
/// const BoxConstraints(
/// minWidth: 2.0 * 56.0,
/// maxWidth: 5.0 * 56.0,
/// )
/// ```
///
/// The default constraints ensure that the menu width matches maximum width
/// recommended by the material design guidelines.
/// Specifying this parameter enables creation of menu wider than
/// the default maximum width.
final BoxConstraints? constraints;
/// Whether the popup menu is positioned over or under the popup menu button.
///
/// [offset] is used to change the position of the popup menu relative to the
/// position set by this parameter.
///
/// When not set, the position defaults to [PopupMenuPosition.over] which makes the
/// popup menu appear directly over the button that was used to create it.
final PopupMenuPosition position;
@override
PopupMenuButtonState<T> createState() => PopupMenuButtonState<T>();
}
/// The [State] for a [PopupMenuButton].
///
/// See [showButtonMenu] for a way to programmatically open the popup menu
/// of your button state.
class PopupMenuButtonState<T> extends State<PopupMenuButton<T>> {
/// A method to show a popup menu with the items supplied to
/// [PopupMenuButton.itemBuilder] at the position of your [PopupMenuButton].
///
/// By default, it is called when the user taps the button and [PopupMenuButton.enabled]
/// is set to `true`. Moreover, you can open the button by calling the method manually.
///
/// You would access your [PopupMenuButtonState] using a [GlobalKey] and
/// show the menu of the button with `globalKey.currentState.showButtonMenu`.
void showButtonMenu() {
final PopupMenuThemeData popupMenuTheme = PopupMenuTheme.of(context);
final RenderBox button = context.findRenderObject()! as RenderBox;
final RenderBox overlay =
Navigator.of(context).overlay!.context.findRenderObject()! as RenderBox;
final Offset offset;
switch (widget.position) {
case PopupMenuPosition.over:
offset = widget.offset;
break;
case PopupMenuPosition.under:
offset =
Offset(0.0, button.size.height - (widget.padding.vertical / 2)) +
widget.offset;
break;
case PopupMenuPosition.overSide:
offset =
Offset(button.size.width - (widget.padding.horizontal / 2), 0.0) +
widget.offset;
break;
case PopupMenuPosition.underSide:
offset = Offset(button.size.width - (widget.padding.horizontal / 2),
button.size.height - (widget.padding.vertical / 2)) +
widget.offset;
break;
}
final RelativeRect position = RelativeRect.fromRect(
Rect.fromPoints(
button.localToGlobal(offset, ancestor: overlay),
button.localToGlobal(button.size.bottomRight(Offset.zero) + offset,
ancestor: overlay),
),
Offset.zero & overlay.size,
);
final List<PopupMenuEntry<T>> items = widget.itemBuilder(context);
// Only show the menu if there is something to show
if (items.isNotEmpty) {
showMenu<T?>(
context: context,
elevation: widget.elevation ?? popupMenuTheme.elevation,
items: items,
menuWrapper: widget.menuWrapper,
initialValue: widget.initialValue,
position: position,
shape: widget.shape ?? popupMenuTheme.shape,
color: widget.color ?? popupMenuTheme.color,
constraints: widget.constraints,
).then<void>((T? newValue) {
if (!mounted) return null;
if (newValue == null) {
widget.onCanceled?.call();
return null;
}
widget.onSelected?.call(newValue);
});
}
}
bool get _canRequestFocus {
final NavigationMode mode = MediaQuery.maybeOf(context)?.navigationMode ??
NavigationMode.traditional;
switch (mode) {
case NavigationMode.traditional:
return widget.enabled;
case NavigationMode.directional:
return true;
}
}
@override
Widget build(BuildContext context) {
final IconThemeData iconTheme = IconTheme.of(context);
final bool enableFeedback = widget.enableFeedback ??
PopupMenuTheme.of(context).enableFeedback ??
true;
assert(debugCheckHasMaterialLocalizations(context));
if (widget.child != null) {
return Tooltip(
message:
widget.tooltip ?? MaterialLocalizations.of(context).showMenuTooltip,
child: InkWell(
onTap: widget.enabled ? showButtonMenu : null,
onHover: widget.onHover,
canRequestFocus: _canRequestFocus,
enableFeedback: enableFeedback,
child: widget.child,
),
);
}
return MenuButton(
child: widget.icon ?? Icon(Icons.adaptive.more),
tooltip:
widget.tooltip ?? MaterialLocalizations.of(context).showMenuTooltip,
onPressed: widget.enabled ? showButtonMenu : null,
enableFeedback: enableFeedback,
color: MyTheme.button,
hoverColor: MyTheme.accent,
);
}
}
// This MaterialStateProperty is passed along to the menu item's InkWell which
// resolves the property against MaterialState.disabled, MaterialState.hovered,
// MaterialState.focused.
// ignore: unused_element
class _EffectiveMouseCursor extends MaterialStateMouseCursor {
const _EffectiveMouseCursor(this.widgetCursor, this.themeCursor);
final MouseCursor? widgetCursor;
final MaterialStateProperty<MouseCursor?>? themeCursor;
@override
MouseCursor resolve(Set<MaterialState> states) {
return MaterialStateProperty.resolveAs<MouseCursor?>(
widgetCursor, states) ??
themeCursor?.resolve(states) ??
MaterialStateMouseCursor.clickable.resolve(states);
}
@override
String get debugDescription => 'MaterialStateMouseCursor(PopupMenuItemState)';
}