packages/flutter/lib/src/material/radio.dart - external/github.com/flutter/flutter - Git at Google

 // 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/widgets.dart';

 import 'constants.dart';
 import 'debug.dart';
 import 'material_state.dart';
 import 'theme.dart';
 import 'theme_data.dart';
 import 'toggleable.dart';

 const double _kOuterRadius = 8.0;
 const double _kInnerRadius = 4.5;

 /// A material design radio button.
 ///
 /// Used to select between a number of mutually exclusive values. When one radio
 /// button in a group is selected, the other radio buttons in the group cease to
 /// be selected. The values are of type `T`, the type parameter of the [Radio]
 /// class. Enums are commonly used for this purpose.
 ///
 /// The radio button itself does not maintain any state. Instead, selecting the
 /// radio invokes the [onChanged] callback, passing [value] as a parameter. If
 /// [groupValue] and [value] match, this radio will be selected. Most widgets
 /// will respond to [onChanged] by calling [State.setState] to update the
 /// radio button's [groupValue].
 ///
 /// {@tool dartpad}
 /// Here is an example of Radio widgets wrapped in ListTiles, which is similar
 /// to what you could get with the RadioListTile widget.
 ///
 /// The currently selected character is passed into `groupValue`, which is
 /// maintained by the example's `State`. In this case, the first `Radio`
 /// will start off selected because `_character` is initialized to
 /// `SingingCharacter.lafayette`.
 ///
 /// If the second radio button is pressed, the example's state is updated
 /// with `setState`, updating `_character` to `SingingCharacter.jefferson`.
 /// This causes the buttons to rebuild with the updated `groupValue`, and
 /// therefore the selection of the second button.
 ///
 /// Requires one of its ancestors to be a [Material] widget.
 ///
 /// ** See code in examples/api/lib/material/radio/radio.0.dart **
 /// {@end-tool}
 ///
 /// See also:
 ///
 ///  * [RadioListTile], which combines this widget with a [ListTile] so that
 ///    you can give the radio button a label.
 ///  * [Slider], for selecting a value in a range.
 ///  * [Checkbox] and [Switch], for toggling a particular value on or off.
 ///  * <https://material.io/design/components/selection-controls.html#radio-buttons>
 class Radio<T> extends StatefulWidget {
   /// Creates a material design radio button.
   ///
   /// The radio button itself does not maintain any state. Instead, when the
   /// radio button is selected, the widget calls the [onChanged] callback. Most
   /// widgets that use a radio button will listen for the [onChanged] callback
   /// and rebuild the radio button with a new [groupValue] to update the visual
   /// appearance of the radio button.
   ///
   /// The following arguments are required:
   ///
   /// * [value] and [groupValue] together determine whether the radio button is
   ///   selected.
   /// * [onChanged] is called when the user selects this radio button.
   const Radio({
     Key? key,
     required this.value,
     required this.groupValue,
     required this.onChanged,
     this.mouseCursor,
     this.toggleable = false,
     this.activeColor,
     this.fillColor,
     this.focusColor,
     this.hoverColor,
     this.overlayColor,
     this.splashRadius,
     this.materialTapTargetSize,
     this.visualDensity,
     this.focusNode,
     this.autofocus = false,
   }) : assert(autofocus != null),
        assert(toggleable != null),
        super(key: key);

   /// The value represented by this radio button.
   final T value;

   /// The currently selected value for a group of radio buttons.
   ///
   /// This radio button is considered selected if its [value] matches the
   /// [groupValue].
   final T? groupValue;

   /// Called when the user selects this radio button.
   ///
   /// The radio button passes [value] as a parameter to this callback. The radio
   /// button does not actually change state until the parent widget rebuilds the
   /// radio button with the new [groupValue].
   ///
   /// If null, the radio button will be displayed as disabled.
   ///
   /// The provided callback will not be invoked if this radio button is already
   /// selected.
   ///
   /// The callback provided to [onChanged] should update the state of the parent
   /// [StatefulWidget] using the [State.setState] method, so that the parent
   /// gets rebuilt; for example:
   ///
   /// ```dart
   /// Radio<SingingCharacter>(
   ///   value: SingingCharacter.lafayette,
   ///   groupValue: _character,
   ///   onChanged: (SingingCharacter newValue) {
   ///     setState(() {
   ///       _character = newValue;
   ///     });
   ///   },
   /// )
   /// ```
   final ValueChanged<T?>? onChanged;

   /// {@template flutter.material.radio.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.selected].
   ///  * [MaterialState.hovered].
   ///  * [MaterialState.focused].
   ///  * [MaterialState.disabled].
   /// {@endtemplate}
   ///
   /// If null, then the value of [RadioThemeData.mouseCursor] is used.
   /// If that is also null, then [MaterialStateMouseCursor.clickable] is used.
   ///
   /// See also:
   ///
   ///  * [MaterialStateMouseCursor], a [MouseCursor] that implements
   ///    `MaterialStateProperty` which is used in APIs that need to accept
   ///    either a [MouseCursor] or a [MaterialStateProperty<MouseCursor>].
   final MouseCursor? mouseCursor;

   /// Set to true if this radio button is allowed to be returned to an
   /// indeterminate state by selecting it again when selected.
   ///
   /// To indicate returning to an indeterminate state, [onChanged] will be
   /// called with null.
   ///
   /// If true, [onChanged] can be called with [value] when selected while
   /// [groupValue] != [value], or with null when selected again while
   /// [groupValue] == [value].
   ///
   /// If false, [onChanged] will be called with [value] when it is selected
   /// while [groupValue] != [value], and only by selecting another radio button
   /// in the group (i.e. changing the value of [groupValue]) can this radio
   /// button be unselected.
   ///
   /// The default is false.
   ///
   /// {@tool dartpad}
   /// This example shows how to enable deselecting a radio button by setting the
   /// [toggleable] attribute.
   ///
   /// ** See code in examples/api/lib/material/radio/radio.toggleable.0.dart **
   /// {@end-tool}
   final bool toggleable;

   /// The color to use when this radio button is selected.
   ///
   /// Defaults to [ThemeData.toggleableActiveColor].
   ///
   /// If [fillColor] returns a non-null color in the [MaterialState.selected]
   /// state, it will be used instead of this color.
   final Color? activeColor;

   /// {@template flutter.material.radio.fillColor}
   /// The color that fills the radio button, in all [MaterialState]s.
   ///
   /// Resolves in the following states:
   ///  * [MaterialState.selected].
   ///  * [MaterialState.hovered].
   ///  * [MaterialState.focused].
   ///  * [MaterialState.disabled].
   /// {@endtemplate}
   ///
   /// If null, then the value of [activeColor] is used in the selected state. If
   /// that is also null, then the value of [RadioThemeData.fillColor] is used.
   /// If that is also null, then [ThemeData.disabledColor] is used in
   /// the disabled state, [ThemeData.toggleableActiveColor] is used in the
   /// selected state, and [ThemeData.unselectedWidgetColor] is used in the
   /// default state.
   final MaterialStateProperty<Color?>? fillColor;

   /// {@template flutter.material.radio.materialTapTargetSize}
   /// Configures the minimum size of the tap target.
   /// {@endtemplate}
   ///
   /// If null, then the value of [RadioThemeData.materialTapTargetSize] is used.
   /// If that is also null, then the value of [ThemeData.materialTapTargetSize]
   /// is used.
   ///
   /// See also:
   ///
   ///  * [MaterialTapTargetSize], for a description of how this affects tap targets.
   final MaterialTapTargetSize? materialTapTargetSize;

   /// {@template flutter.material.radio.visualDensity}
   /// Defines how compact the radio's layout will be.
   /// {@endtemplate}
   ///
   /// {@macro flutter.material.themedata.visualDensity}
   ///
   /// If null, then the value of [RadioThemeData.visualDensity] is used. If that
   /// is also null, then the value of [ThemeData.visualDensity] is used.
   ///
   /// See also:
   ///
   ///  * [ThemeData.visualDensity], which specifies the [visualDensity] for all
   ///    widgets within a [Theme].
   final VisualDensity? visualDensity;

   /// The color for the radio's [Material] when it has the input focus.
   ///
   /// If [overlayColor] returns a non-null color in the [MaterialState.focused]
   /// state, it will be used instead.
   ///
   /// If null, then the value of [RadioThemeData.overlayColor] is used in the
   /// focused state. If that is also null, then the value of
   /// [ThemeData.focusColor] is used.
   final Color? focusColor;

   /// The color for the radio's [Material] when a pointer is hovering over it.
   ///
   /// If [overlayColor] returns a non-null color in the [MaterialState.hovered]
   /// state, it will be used instead.
   ///
   /// If null, then the value of [RadioThemeData.overlayColor] is used in the
   /// hovered state. If that is also null, then the value of
   /// [ThemeData.hoverColor] is used.
   final Color? hoverColor;

   /// {@template flutter.material.radio.overlayColor}
   /// The color for the checkbox's [Material].
   ///
   /// Resolves in the following states:
   ///  * [MaterialState.pressed].
   ///  * [MaterialState.selected].
   ///  * [MaterialState.hovered].
   ///  * [MaterialState.focused].
   /// {@endtemplate}
   ///
   /// If null, then the value of [activeColor] with alpha
   /// [kRadialReactionAlpha], [focusColor] and [hoverColor] is used in the
   /// pressed, focused and hovered state. If that is also null,
   /// the value of [RadioThemeData.overlayColor] is used. If that is also null,
   /// then the value of [ThemeData.toggleableActiveColor] with alpha
   /// [kRadialReactionAlpha], [ThemeData.focusColor] and [ThemeData.hoverColor]
   /// is used in the pressed, focused and hovered state.
   final MaterialStateProperty<Color?>? overlayColor;

   /// {@template flutter.material.radio.splashRadius}
   /// The splash radius of the circular [Material] ink response.
   /// {@endtemplate}
   ///
   /// If null, then the value of [RadioThemeData.splashRadius] is used. If that
   /// is also null, then [kRadialReactionRadius] is used.
   final double? splashRadius;

   /// {@macro flutter.widgets.Focus.focusNode}
   final FocusNode? focusNode;

   /// {@macro flutter.widgets.Focus.autofocus}
   final bool autofocus;

   bool get _selected => value == groupValue;

   @override
   State<Radio<T>> createState() => _RadioState<T>();
 }

 class _RadioState<T> extends State<Radio<T>> with TickerProviderStateMixin, ToggleableStateMixin {
   final _RadioPainter _painter = _RadioPainter();

   void _handleChanged(bool? selected) {
     if (selected == null) {
       widget.onChanged!(null);
       return;
     }
     if (selected) {
       widget.onChanged!(widget.value);
     }
   }

   @override
   void didUpdateWidget(Radio<T> oldWidget) {
     super.didUpdateWidget(oldWidget);
     if (widget._selected != oldWidget._selected) {
       animateToValue();
     }
   }

   @override
   void dispose() {
     _painter.dispose();
     super.dispose();
   }

   @override
   ValueChanged<bool?>? get onChanged => widget.onChanged != null ? _handleChanged : null;

   @override
   bool get tristate => widget.toggleable;

   @override
   bool? get value => widget._selected;

   MaterialStateProperty<Color?> get _widgetFillColor {
     return MaterialStateProperty.resolveWith((Set<MaterialState> states) {
       if (states.contains(MaterialState.disabled)) {
         return null;
       }
       if (states.contains(MaterialState.selected)) {
         return widget.activeColor;
       }
       return null;
     });
   }

   MaterialStateProperty<Color> get _defaultFillColor {
     final ThemeData themeData = Theme.of(context);
     return MaterialStateProperty.resolveWith((Set<MaterialState> states) {
       if (states.contains(MaterialState.disabled)) {
         return themeData.disabledColor;
       }
       if (states.contains(MaterialState.selected)) {
         return themeData.toggleableActiveColor;
       }
       return themeData.unselectedWidgetColor;
     });
   }

   @override
   Widget build(BuildContext context) {
     assert(debugCheckHasMaterial(context));
     final ThemeData themeData = Theme.of(context);
     final MaterialTapTargetSize effectiveMaterialTapTargetSize = widget.materialTapTargetSize
       ?? themeData.radioTheme.materialTapTargetSize
       ?? themeData.materialTapTargetSize;
     final VisualDensity effectiveVisualDensity = widget.visualDensity
       ?? themeData.radioTheme.visualDensity
       ?? themeData.visualDensity;
     Size size;
     switch (effectiveMaterialTapTargetSize) {
       case MaterialTapTargetSize.padded:
         size = const Size(kMinInteractiveDimension, kMinInteractiveDimension);
         break;
       case MaterialTapTargetSize.shrinkWrap:
         size = const Size(kMinInteractiveDimension - 8.0, kMinInteractiveDimension - 8.0);
         break;
     }
     size += effectiveVisualDensity.baseSizeAdjustment;

     final MaterialStateProperty<MouseCursor> effectiveMouseCursor = MaterialStateProperty.resolveWith<MouseCursor>((Set<MaterialState> states) {
       return MaterialStateProperty.resolveAs<MouseCursor?>(widget.mouseCursor, states)
         ?? themeData.radioTheme.mouseCursor?.resolve(states)
         ?? MaterialStateProperty.resolveAs<MouseCursor>(MaterialStateMouseCursor.clickable, states);
     });

     // Colors need to be resolved in selected and non selected states separately
     // so that they can be lerped between.
     final Set<MaterialState> activeStates = states..add(MaterialState.selected);
     final Set<MaterialState> inactiveStates = states..remove(MaterialState.selected);
     final Color effectiveActiveColor = widget.fillColor?.resolve(activeStates)
       ?? _widgetFillColor.resolve(activeStates)
       ?? themeData.radioTheme.fillColor?.resolve(activeStates)
       ?? _defaultFillColor.resolve(activeStates);
     final Color effectiveInactiveColor = widget.fillColor?.resolve(inactiveStates)
       ?? _widgetFillColor.resolve(inactiveStates)
       ?? themeData.radioTheme.fillColor?.resolve(inactiveStates)
       ?? _defaultFillColor.resolve(inactiveStates);

     final Set<MaterialState> focusedStates = states..add(MaterialState.focused);
     final Color effectiveFocusOverlayColor = widget.overlayColor?.resolve(focusedStates)
       ?? widget.focusColor
       ?? themeData.radioTheme.overlayColor?.resolve(focusedStates)
       ?? themeData.focusColor;

     final Set<MaterialState> hoveredStates = states..add(MaterialState.hovered);
     final Color effectiveHoverOverlayColor = widget.overlayColor?.resolve(hoveredStates)
         ?? widget.hoverColor
         ?? themeData.radioTheme.overlayColor?.resolve(hoveredStates)
         ?? themeData.hoverColor;

     final Set<MaterialState> activePressedStates = activeStates..add(MaterialState.pressed);
     final Color effectiveActivePressedOverlayColor = widget.overlayColor?.resolve(activePressedStates)
         ?? themeData.radioTheme.overlayColor?.resolve(activePressedStates)
         ?? effectiveActiveColor.withAlpha(kRadialReactionAlpha);

     final Set<MaterialState> inactivePressedStates = inactiveStates..add(MaterialState.pressed);
     final Color effectiveInactivePressedOverlayColor = widget.overlayColor?.resolve(inactivePressedStates)
         ?? themeData.radioTheme.overlayColor?.resolve(inactivePressedStates)
         ?? effectiveActiveColor.withAlpha(kRadialReactionAlpha);

     return Semantics(
       inMutuallyExclusiveGroup: true,
       checked: widget._selected,
       child: buildToggleable(
         focusNode: widget.focusNode,
         autofocus: widget.autofocus,
         mouseCursor: effectiveMouseCursor,
         size: size,
         painter: _painter
           ..position = position
           ..reaction = reaction
           ..reactionFocusFade = reactionFocusFade
           ..reactionHoverFade = reactionHoverFade
           ..inactiveReactionColor = effectiveInactivePressedOverlayColor
           ..reactionColor = effectiveActivePressedOverlayColor
           ..hoverColor = effectiveHoverOverlayColor
           ..focusColor = effectiveFocusOverlayColor
           ..splashRadius = widget.splashRadius ?? themeData.radioTheme.splashRadius ?? kRadialReactionRadius
           ..downPosition = downPosition
           ..isFocused = states.contains(MaterialState.focused)
           ..isHovered = states.contains(MaterialState.hovered)
           ..activeColor = effectiveActiveColor
           ..inactiveColor = effectiveInactiveColor,
       ),
     );
   }
 }

 class _RadioPainter extends ToggleablePainter {
   @override
   void paint(Canvas canvas, Size size) {
     paintRadialReaction(canvas: canvas, origin: size.center(Offset.zero));

     final Offset center = (Offset.zero & size).center;

     // Outer circle
     final Paint paint = Paint()
       ..color = Color.lerp(inactiveColor, activeColor, position.value)!
       ..style = PaintingStyle.stroke
       ..strokeWidth = 2.0;
     canvas.drawCircle(center, _kOuterRadius, paint);

     // Inner circle
     if (!position.isDismissed) {
       paint.style = PaintingStyle.fill;
       canvas.drawCircle(center, _kInnerRadius * position.value, paint);
     }
   }
 }
	// 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/widgets.dart';

	import 'constants.dart';
	import 'debug.dart';
	import 'material_state.dart';
	import 'theme.dart';
	import 'theme_data.dart';
	import 'toggleable.dart';

	const double _kOuterRadius = 8.0;
	const double _kInnerRadius = 4.5;

	/// A material design radio button.
	///
	/// Used to select between a number of mutually exclusive values. When one radio
	/// button in a group is selected, the other radio buttons in the group cease to
	/// be selected. The values are of type `T`, the type parameter of the [Radio]
	/// class. Enums are commonly used for this purpose.
	///
	/// The radio button itself does not maintain any state. Instead, selecting the
	/// radio invokes the [onChanged] callback, passing [value] as a parameter. If
	/// [groupValue] and [value] match, this radio will be selected. Most widgets
	/// will respond to [onChanged] by calling [State.setState] to update the
	/// radio button's [groupValue].
	///
	/// {@tool dartpad}
	/// Here is an example of Radio widgets wrapped in ListTiles, which is similar
	/// to what you could get with the RadioListTile widget.
	///
	/// The currently selected character is passed into `groupValue`, which is
	/// maintained by the example's `State`. In this case, the first `Radio`
	/// will start off selected because `_character` is initialized to
	/// `SingingCharacter.lafayette`.
	///
	/// If the second radio button is pressed, the example's state is updated
	/// with `setState`, updating `_character` to `SingingCharacter.jefferson`.
	/// This causes the buttons to rebuild with the updated `groupValue`, and
	/// therefore the selection of the second button.
	///
	/// Requires one of its ancestors to be a [Material] widget.
	///
	/// See code in examples/api/lib/material/radio/radio.0.dart
	/// {@end-tool}
	///
	/// See also:
	///
	/// * [RadioListTile], which combines this widget with a [ListTile] so that
	/// you can give the radio button a label.
	/// * [Slider], for selecting a value in a range.
	/// * [Checkbox] and [Switch], for toggling a particular value on or off.
	/// * <https://material.io/design/components/selection-controls.html#radio-buttons>
	class Radio<T> extends StatefulWidget {
	/// Creates a material design radio button.
	///
	/// The radio button itself does not maintain any state. Instead, when the
	/// radio button is selected, the widget calls the [onChanged] callback. Most
	/// widgets that use a radio button will listen for the [onChanged] callback
	/// and rebuild the radio button with a new [groupValue] to update the visual
	/// appearance of the radio button.
	///
	/// The following arguments are required:
	///
	/// * [value] and [groupValue] together determine whether the radio button is
	/// selected.
	/// * [onChanged] is called when the user selects this radio button.
	const Radio({
	Key? key,
	required this.value,
	required this.groupValue,
	required this.onChanged,
	this.mouseCursor,
	this.toggleable = false,
	this.activeColor,
	this.fillColor,
	this.focusColor,
	this.hoverColor,
	this.overlayColor,
	this.splashRadius,
	this.materialTapTargetSize,
	this.visualDensity,
	this.focusNode,
	this.autofocus = false,
	}) : assert(autofocus != null),
	assert(toggleable != null),
	super(key: key);

	/// The value represented by this radio button.
	final T value;

	/// The currently selected value for a group of radio buttons.
	///
	/// This radio button is considered selected if its [value] matches the
	/// [groupValue].
	final T? groupValue;

	/// Called when the user selects this radio button.
	///
	/// The radio button passes [value] as a parameter to this callback. The radio
	/// button does not actually change state until the parent widget rebuilds the
	/// radio button with the new [groupValue].
	///
	/// If null, the radio button will be displayed as disabled.
	///
	/// The provided callback will not be invoked if this radio button is already
	/// selected.
	///
	/// The callback provided to [onChanged] should update the state of the parent
	/// [StatefulWidget] using the [State.setState] method, so that the parent
	/// gets rebuilt; for example:
	///
	/// ```dart
	/// Radio<SingingCharacter>(
	/// value: SingingCharacter.lafayette,
	/// groupValue: _character,
	/// onChanged: (SingingCharacter newValue) {
	/// setState(() {
	/// _character = newValue;
	/// });
	/// },
	/// )
	/// ```
	final ValueChanged<T?>? onChanged;

	/// {@template flutter.material.radio.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.selected].
	/// * [MaterialState.hovered].
	/// * [MaterialState.focused].
	/// * [MaterialState.disabled].
	/// {@endtemplate}
	///
	/// If null, then the value of [RadioThemeData.mouseCursor] is used.
	/// If that is also null, then [MaterialStateMouseCursor.clickable] is used.
	///
	/// See also:
	///
	/// * [MaterialStateMouseCursor], a [MouseCursor] that implements
	/// `MaterialStateProperty` which is used in APIs that need to accept
	/// either a [MouseCursor] or a [MaterialStateProperty<MouseCursor>].
	final MouseCursor? mouseCursor;

	/// Set to true if this radio button is allowed to be returned to an
	/// indeterminate state by selecting it again when selected.
	///
	/// To indicate returning to an indeterminate state, [onChanged] will be
	/// called with null.
	///
	/// If true, [onChanged] can be called with [value] when selected while
	/// [groupValue] != [value], or with null when selected again while
	/// [groupValue] == [value].
	///
	/// If false, [onChanged] will be called with [value] when it is selected
	/// while [groupValue] != [value], and only by selecting another radio button
	/// in the group (i.e. changing the value of [groupValue]) can this radio
	/// button be unselected.
	///
	/// The default is false.
	///
	/// {@tool dartpad}
	/// This example shows how to enable deselecting a radio button by setting the
	/// [toggleable] attribute.
	///
	/// See code in examples/api/lib/material/radio/radio.toggleable.0.dart
	/// {@end-tool}
	final bool toggleable;

	/// The color to use when this radio button is selected.
	///
	/// Defaults to [ThemeData.toggleableActiveColor].
	///
	/// If [fillColor] returns a non-null color in the [MaterialState.selected]
	/// state, it will be used instead of this color.
	final Color? activeColor;

	/// {@template flutter.material.radio.fillColor}
	/// The color that fills the radio button, in all [MaterialState]s.
	///
	/// Resolves in the following states:
	/// * [MaterialState.selected].
	/// * [MaterialState.hovered].
	/// * [MaterialState.focused].
	/// * [MaterialState.disabled].
	/// {@endtemplate}
	///
	/// If null, then the value of [activeColor] is used in the selected state. If
	/// that is also null, then the value of [RadioThemeData.fillColor] is used.
	/// If that is also null, then [ThemeData.disabledColor] is used in
	/// the disabled state, [ThemeData.toggleableActiveColor] is used in the
	/// selected state, and [ThemeData.unselectedWidgetColor] is used in the
	/// default state.
	final MaterialStateProperty<Color?>? fillColor;

	/// {@template flutter.material.radio.materialTapTargetSize}
	/// Configures the minimum size of the tap target.
	/// {@endtemplate}
	///
	/// If null, then the value of [RadioThemeData.materialTapTargetSize] is used.
	/// If that is also null, then the value of [ThemeData.materialTapTargetSize]
	/// is used.
	///
	/// See also:
	///
	/// * [MaterialTapTargetSize], for a description of how this affects tap targets.
	final MaterialTapTargetSize? materialTapTargetSize;

	/// {@template flutter.material.radio.visualDensity}
	/// Defines how compact the radio's layout will be.
	/// {@endtemplate}
	///
	/// {@macro flutter.material.themedata.visualDensity}
	///
	/// If null, then the value of [RadioThemeData.visualDensity] is used. If that
	/// is also null, then the value of [ThemeData.visualDensity] is used.
	///
	/// See also:
	///
	/// * [ThemeData.visualDensity], which specifies the [visualDensity] for all
	/// widgets within a [Theme].
	final VisualDensity? visualDensity;

	/// The color for the radio's [Material] when it has the input focus.
	///
	/// If [overlayColor] returns a non-null color in the [MaterialState.focused]
	/// state, it will be used instead.
	///
	/// If null, then the value of [RadioThemeData.overlayColor] is used in the
	/// focused state. If that is also null, then the value of
	/// [ThemeData.focusColor] is used.
	final Color? focusColor;

	/// The color for the radio's [Material] when a pointer is hovering over it.
	///
	/// If [overlayColor] returns a non-null color in the [MaterialState.hovered]
	/// state, it will be used instead.
	///
	/// If null, then the value of [RadioThemeData.overlayColor] is used in the
	/// hovered state. If that is also null, then the value of
	/// [ThemeData.hoverColor] is used.
	final Color? hoverColor;

	/// {@template flutter.material.radio.overlayColor}
	/// The color for the checkbox's [Material].
	///
	/// Resolves in the following states:
	/// * [MaterialState.pressed].
	/// * [MaterialState.selected].
	/// * [MaterialState.hovered].
	/// * [MaterialState.focused].
	/// {@endtemplate}
	///
	/// If null, then the value of [activeColor] with alpha
	/// [kRadialReactionAlpha], [focusColor] and [hoverColor] is used in the
	/// pressed, focused and hovered state. If that is also null,
	/// the value of [RadioThemeData.overlayColor] is used. If that is also null,
	/// then the value of [ThemeData.toggleableActiveColor] with alpha
	/// [kRadialReactionAlpha], [ThemeData.focusColor] and [ThemeData.hoverColor]
	/// is used in the pressed, focused and hovered state.
	final MaterialStateProperty<Color?>? overlayColor;

	/// {@template flutter.material.radio.splashRadius}
	/// The splash radius of the circular [Material] ink response.
	/// {@endtemplate}
	///
	/// If null, then the value of [RadioThemeData.splashRadius] is used. If that
	/// is also null, then [kRadialReactionRadius] is used.
	final double? splashRadius;

	/// {@macro flutter.widgets.Focus.focusNode}
	final FocusNode? focusNode;

	/// {@macro flutter.widgets.Focus.autofocus}
	final bool autofocus;

	bool get _selected => value == groupValue;

	@override
	State<Radio<T>> createState() => _RadioState<T>();
	}

	class _RadioState<T> extends State<Radio<T>> with TickerProviderStateMixin, ToggleableStateMixin {
	final _RadioPainter _painter = _RadioPainter();

	void _handleChanged(bool? selected) {
	if (selected == null) {
	widget.onChanged!(null);
	return;
	}
	if (selected) {
	widget.onChanged!(widget.value);
	}
	}

	@override
	void didUpdateWidget(Radio<T> oldWidget) {
	super.didUpdateWidget(oldWidget);
	if (widget._selected != oldWidget._selected) {
	animateToValue();
	}
	}

	@override
	void dispose() {
	_painter.dispose();
	super.dispose();
	}

	@override
	ValueChanged<bool?>? get onChanged => widget.onChanged != null ? _handleChanged : null;

	@override
	bool get tristate => widget.toggleable;

	@override
	bool? get value => widget._selected;

	MaterialStateProperty<Color?> get _widgetFillColor {
	return MaterialStateProperty.resolveWith((Set<MaterialState> states) {
	if (states.contains(MaterialState.disabled)) {
	return null;
	}
	if (states.contains(MaterialState.selected)) {
	return widget.activeColor;
	}
	return null;
	});
	}

	MaterialStateProperty<Color> get _defaultFillColor {
	final ThemeData themeData = Theme.of(context);
	return MaterialStateProperty.resolveWith((Set<MaterialState> states) {
	if (states.contains(MaterialState.disabled)) {
	return themeData.disabledColor;
	}
	if (states.contains(MaterialState.selected)) {
	return themeData.toggleableActiveColor;
	}
	return themeData.unselectedWidgetColor;
	});
	}

	@override
	Widget build(BuildContext context) {
	assert(debugCheckHasMaterial(context));
	final ThemeData themeData = Theme.of(context);
	final MaterialTapTargetSize effectiveMaterialTapTargetSize = widget.materialTapTargetSize
	?? themeData.radioTheme.materialTapTargetSize
	?? themeData.materialTapTargetSize;
	final VisualDensity effectiveVisualDensity = widget.visualDensity
	?? themeData.radioTheme.visualDensity
	?? themeData.visualDensity;
	Size size;
	switch (effectiveMaterialTapTargetSize) {
	case MaterialTapTargetSize.padded:
	size = const Size(kMinInteractiveDimension, kMinInteractiveDimension);
	break;
	case MaterialTapTargetSize.shrinkWrap:
	size = const Size(kMinInteractiveDimension - 8.0, kMinInteractiveDimension - 8.0);
	break;
	}
	size += effectiveVisualDensity.baseSizeAdjustment;

	final MaterialStateProperty<MouseCursor> effectiveMouseCursor = MaterialStateProperty.resolveWith<MouseCursor>((Set<MaterialState> states) {
	return MaterialStateProperty.resolveAs<MouseCursor?>(widget.mouseCursor, states)
	?? themeData.radioTheme.mouseCursor?.resolve(states)
	?? MaterialStateProperty.resolveAs<MouseCursor>(MaterialStateMouseCursor.clickable, states);
	});

	// Colors need to be resolved in selected and non selected states separately
	// so that they can be lerped between.
	final Set<MaterialState> activeStates = states..add(MaterialState.selected);
	final Set<MaterialState> inactiveStates = states..remove(MaterialState.selected);
	final Color effectiveActiveColor = widget.fillColor?.resolve(activeStates)
	?? _widgetFillColor.resolve(activeStates)
	?? themeData.radioTheme.fillColor?.resolve(activeStates)
	?? _defaultFillColor.resolve(activeStates);
	final Color effectiveInactiveColor = widget.fillColor?.resolve(inactiveStates)
	?? _widgetFillColor.resolve(inactiveStates)
	?? themeData.radioTheme.fillColor?.resolve(inactiveStates)
	?? _defaultFillColor.resolve(inactiveStates);

	final Set<MaterialState> focusedStates = states..add(MaterialState.focused);
	final Color effectiveFocusOverlayColor = widget.overlayColor?.resolve(focusedStates)
	?? widget.focusColor
	?? themeData.radioTheme.overlayColor?.resolve(focusedStates)
	?? themeData.focusColor;

	final Set<MaterialState> hoveredStates = states..add(MaterialState.hovered);
	final Color effectiveHoverOverlayColor = widget.overlayColor?.resolve(hoveredStates)
	?? widget.hoverColor
	?? themeData.radioTheme.overlayColor?.resolve(hoveredStates)
	?? themeData.hoverColor;

	final Set<MaterialState> activePressedStates = activeStates..add(MaterialState.pressed);
	final Color effectiveActivePressedOverlayColor = widget.overlayColor?.resolve(activePressedStates)
	?? themeData.radioTheme.overlayColor?.resolve(activePressedStates)
	?? effectiveActiveColor.withAlpha(kRadialReactionAlpha);

	final Set<MaterialState> inactivePressedStates = inactiveStates..add(MaterialState.pressed);
	final Color effectiveInactivePressedOverlayColor = widget.overlayColor?.resolve(inactivePressedStates)
	?? themeData.radioTheme.overlayColor?.resolve(inactivePressedStates)
	?? effectiveActiveColor.withAlpha(kRadialReactionAlpha);

	return Semantics(
	inMutuallyExclusiveGroup: true,
	checked: widget._selected,
	child: buildToggleable(
	focusNode: widget.focusNode,
	autofocus: widget.autofocus,
	mouseCursor: effectiveMouseCursor,
	size: size,
	painter: _painter
	..position = position
	..reaction = reaction
	..reactionFocusFade = reactionFocusFade
	..reactionHoverFade = reactionHoverFade
	..inactiveReactionColor = effectiveInactivePressedOverlayColor
	..reactionColor = effectiveActivePressedOverlayColor
	..hoverColor = effectiveHoverOverlayColor
	..focusColor = effectiveFocusOverlayColor
	..splashRadius = widget.splashRadius ?? themeData.radioTheme.splashRadius ?? kRadialReactionRadius
	..downPosition = downPosition
	..isFocused = states.contains(MaterialState.focused)
	..isHovered = states.contains(MaterialState.hovered)
	..activeColor = effectiveActiveColor
	..inactiveColor = effectiveInactiveColor,
	),
	);
	}
	}

	class _RadioPainter extends ToggleablePainter {
	@override
	void paint(Canvas canvas, Size size) {
	paintRadialReaction(canvas: canvas, origin: size.center(Offset.zero));

	final Offset center = (Offset.zero & size).center;

	// Outer circle
	final Paint paint = Paint()
	..color = Color.lerp(inactiveColor, activeColor, position.value)!
	..style = PaintingStyle.stroke
	..strokeWidth = 2.0;
	canvas.drawCircle(center, _kOuterRadius, paint);

	// Inner circle
	if (!position.isDismissed) {
	paint.style = PaintingStyle.fill;
	canvas.drawCircle(center, _kInnerRadius * position.value, paint);
	}
	}
	}