packages/flutter/lib/src/material/theme.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/cupertino.dart';
 import 'package:flutter/foundation.dart';

 import 'material_localizations.dart';
 import 'theme_data.dart';
 import 'typography.dart';

 export 'theme_data.dart' show Brightness, ThemeData;

 /// The duration over which theme changes animate by default.
 const Duration kThemeAnimationDuration = Duration(milliseconds: 200);

 /// Applies a theme to descendant widgets.
 ///
 /// A theme describes the colors and typographic choices of an application.
 ///
 /// Descendant widgets obtain the current theme's [ThemeData] object using
 /// [Theme.of]. When a widget uses [Theme.of], it is automatically rebuilt if
 /// the theme later changes, so that the changes can be applied.
 ///
 /// The [Theme] widget implies an [IconTheme] widget, set to the value of the
 /// [ThemeData.iconTheme] of the [data] for the [Theme].
 ///
 /// See also:
 ///
 ///  * [ThemeData], which describes the actual configuration of a theme.
 ///  * [AnimatedTheme], which animates the [ThemeData] when it changes rather
 ///    than changing the theme all at once.
 ///  * [MaterialApp], which includes an [AnimatedTheme] widget configured via
 ///    the [MaterialApp.theme] argument.
 class Theme extends StatelessWidget {
   /// Applies the given theme [data] to [child].
   ///
   /// The [data] and [child] arguments must not be null.
   const Theme({
     Key? key,
     required this.data,
     required this.child,
   }) : assert(child != null),
        assert(data != null),
        super(key: key);

   /// Specifies the color and typography values for descendant widgets.
   final ThemeData data;

   /// The widget below this widget in the tree.
   ///
   /// {@macro flutter.widgets.ProxyWidget.child}
   final Widget child;

   static final ThemeData _kFallbackTheme = ThemeData.fallback();

   /// The data from the closest [Theme] instance that encloses the given
   /// context.
   ///
   /// If the given context is enclosed in a [Localizations] widget providing
   /// [MaterialLocalizations], the returned data is localized according to the
   /// nearest available [MaterialLocalizations].
   ///
   /// Defaults to [new ThemeData.fallback] if there is no [Theme] in the given
   /// build context.
   ///
   /// Typical usage is as follows:
   ///
   /// ```dart
   /// @override
   /// Widget build(BuildContext context) {
   ///   return Text(
   ///     'Example',
   ///     style: Theme.of(context).textTheme.headline6,
   ///   );
   /// }
   /// ```
   ///
   /// When the [Theme] is actually created in the same `build` function
   /// (possibly indirectly, e.g. as part of a [MaterialApp]), the `context`
   /// argument to the `build` function can't be used to find the [Theme] (since
   /// it's "above" the widget being returned). In such cases, the following
   /// technique with a [Builder] can be used to provide a new scope with a
   /// [BuildContext] that is "under" the [Theme]:
   ///
   /// ```dart
   /// @override
   /// Widget build(BuildContext context) {
   ///   return MaterialApp(
   ///     theme: ThemeData.light(),
   ///     body: Builder(
   ///       // Create an inner BuildContext so that we can refer to
   ///       // the Theme with Theme.of().
   ///       builder: (BuildContext context) {
   ///         return Center(
   ///           child: Text(
   ///             'Example',
   ///             style: Theme.of(context).textTheme.headline6,
   ///           ),
   ///         );
   ///       },
   ///     ),
   ///   );
   /// }
   /// ```
   static ThemeData of(BuildContext context) {
     final _InheritedTheme? inheritedTheme = context.dependOnInheritedWidgetOfExactType<_InheritedTheme>();
     final MaterialLocalizations? localizations = Localizations.of<MaterialLocalizations>(context, MaterialLocalizations);
     final ScriptCategory category = localizations?.scriptCategory ?? ScriptCategory.englishLike;
     final ThemeData theme = inheritedTheme?.theme.data ?? _kFallbackTheme;
     return ThemeData.localize(theme, theme.typography.geometryThemeFor(category));
   }

   @override
   Widget build(BuildContext context) {
     return _InheritedTheme(
       theme: this,
       child: CupertinoTheme(
         // We're using a MaterialBasedCupertinoThemeData here instead of a
         // CupertinoThemeData because it defers some properties to the Material
         // ThemeData.
         data: MaterialBasedCupertinoThemeData(
           materialTheme: data,
         ),
         child: IconTheme(
           data: data.iconTheme,
           child: child,
         ),
       ),
     );
   }

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.add(DiagnosticsProperty<ThemeData>('data', data, showName: false));
   }
 }

 class _InheritedTheme extends InheritedTheme {
   const _InheritedTheme({
     Key? key,
     required this.theme,
     required Widget child,
   }) : assert(theme != null),
        super(key: key, child: child);

   final Theme theme;

   @override
   Widget wrap(BuildContext context, Widget child) {
     return Theme(data: theme.data, child: child);
   }

   @override
   bool updateShouldNotify(_InheritedTheme old) => theme.data != old.theme.data;
 }

 /// An interpolation between two [ThemeData]s.
 ///
 /// This class specializes the interpolation of [Tween<ThemeData>] to call the
 /// [ThemeData.lerp] method.
 ///
 /// See [Tween] for a discussion on how to use interpolation objects.
 class ThemeDataTween extends Tween<ThemeData> {
   /// Creates a [ThemeData] tween.
   ///
   /// The [begin] and [end] properties must be non-null before the tween is
   /// first used, but the arguments can be null if the values are going to be
   /// filled in later.
   ThemeDataTween({ ThemeData? begin, ThemeData? end }) : super(begin: begin, end: end);

   @override
   ThemeData lerp(double t) => ThemeData.lerp(begin!, end!, t);
 }

 /// Animated version of [Theme] which automatically transitions the colors,
 /// etc, over a given duration whenever the given theme changes.
 ///
 /// Here's an illustration of what using this widget looks like, using a [curve]
 /// of [Curves.elasticInOut].
 /// {@animation 250 266 https://flutter.github.io/assets-for-api-docs/assets/widgets/animated_theme.mp4}
 ///
 /// See also:
 ///
 ///  * [Theme], which [AnimatedTheme] uses to actually apply the interpolated
 ///    theme.
 ///  * [ThemeData], which describes the actual configuration of a theme.
 ///  * [MaterialApp], which includes an [AnimatedTheme] widget configured via
 ///    the [MaterialApp.theme] argument.
 class AnimatedTheme extends ImplicitlyAnimatedWidget {
   /// Creates an animated theme.
   ///
   /// By default, the theme transition uses a linear curve. The [data] and
   /// [child] arguments must not be null.
   const AnimatedTheme({
     Key? key,
     required this.data,
     Curve curve = Curves.linear,
     Duration duration = kThemeAnimationDuration,
     VoidCallback? onEnd,
     required this.child,
   }) : assert(child != null),
        assert(data != null),
        super(key: key, curve: curve, duration: duration, onEnd: onEnd);

   /// Specifies the color and typography values for descendant widgets.
   final ThemeData data;

   /// The widget below this widget in the tree.
   ///
   /// {@macro flutter.widgets.ProxyWidget.child}
   final Widget child;

   @override
   AnimatedWidgetBaseState<AnimatedTheme> createState() => _AnimatedThemeState();
 }

 class _AnimatedThemeState extends AnimatedWidgetBaseState<AnimatedTheme> {
   ThemeDataTween? _data;

   @override
   void forEachTween(TweenVisitor<dynamic> visitor) {
     _data = visitor(_data, widget.data, (dynamic value) => ThemeDataTween(begin: value as ThemeData))! as ThemeDataTween;
   }

   @override
   Widget build(BuildContext context) {
     return Theme(
       data: _data!.evaluate(animation),
       child: widget.child,
     );
   }

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder description) {
     super.debugFillProperties(description);
     description.add(DiagnosticsProperty<ThemeDataTween>('data', _data, showName: false, defaultValue: null));
   }
 }
	// 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/cupertino.dart';
	import 'package:flutter/foundation.dart';

	import 'material_localizations.dart';
	import 'theme_data.dart';
	import 'typography.dart';

	export 'theme_data.dart' show Brightness, ThemeData;

	/// The duration over which theme changes animate by default.
	const Duration kThemeAnimationDuration = Duration(milliseconds: 200);

	/// Applies a theme to descendant widgets.
	///
	/// A theme describes the colors and typographic choices of an application.
	///
	/// Descendant widgets obtain the current theme's [ThemeData] object using
	/// [Theme.of]. When a widget uses [Theme.of], it is automatically rebuilt if
	/// the theme later changes, so that the changes can be applied.
	///
	/// The [Theme] widget implies an [IconTheme] widget, set to the value of the
	/// [ThemeData.iconTheme] of the [data] for the [Theme].
	///
	/// See also:
	///
	/// * [ThemeData], which describes the actual configuration of a theme.
	/// * [AnimatedTheme], which animates the [ThemeData] when it changes rather
	/// than changing the theme all at once.
	/// * [MaterialApp], which includes an [AnimatedTheme] widget configured via
	/// the [MaterialApp.theme] argument.
	class Theme extends StatelessWidget {
	/// Applies the given theme [data] to [child].
	///
	/// The [data] and [child] arguments must not be null.
	const Theme({
	Key? key,
	required this.data,
	required this.child,
	}) : assert(child != null),
	assert(data != null),
	super(key: key);

	/// Specifies the color and typography values for descendant widgets.
	final ThemeData data;

	/// The widget below this widget in the tree.
	///
	/// {@macro flutter.widgets.ProxyWidget.child}
	final Widget child;

	static final ThemeData _kFallbackTheme = ThemeData.fallback();

	/// The data from the closest [Theme] instance that encloses the given
	/// context.
	///
	/// If the given context is enclosed in a [Localizations] widget providing
	/// [MaterialLocalizations], the returned data is localized according to the
	/// nearest available [MaterialLocalizations].
	///
	/// Defaults to [new ThemeData.fallback] if there is no [Theme] in the given
	/// build context.
	///
	/// Typical usage is as follows:
	///
	/// ```dart
	/// @override
	/// Widget build(BuildContext context) {
	/// return Text(
	/// 'Example',
	/// style: Theme.of(context).textTheme.headline6,
	/// );
	/// }
	/// ```
	///
	/// When the [Theme] is actually created in the same `build` function
	/// (possibly indirectly, e.g. as part of a [MaterialApp]), the `context`
	/// argument to the `build` function can't be used to find the [Theme] (since
	/// it's "above" the widget being returned). In such cases, the following
	/// technique with a [Builder] can be used to provide a new scope with a
	/// [BuildContext] that is "under" the [Theme]:
	///
	/// ```dart
	/// @override
	/// Widget build(BuildContext context) {
	/// return MaterialApp(
	/// theme: ThemeData.light(),
	/// body: Builder(
	/// // Create an inner BuildContext so that we can refer to
	/// // the Theme with Theme.of().
	/// builder: (BuildContext context) {
	/// return Center(
	/// child: Text(
	/// 'Example',
	/// style: Theme.of(context).textTheme.headline6,
	/// ),
	/// );
	/// },
	/// ),
	/// );
	/// }
	/// ```
	static ThemeData of(BuildContext context) {
	final _InheritedTheme? inheritedTheme = context.dependOnInheritedWidgetOfExactType<_InheritedTheme>();
	final MaterialLocalizations? localizations = Localizations.of<MaterialLocalizations>(context, MaterialLocalizations);
	final ScriptCategory category = localizations?.scriptCategory ?? ScriptCategory.englishLike;
	final ThemeData theme = inheritedTheme?.theme.data ?? _kFallbackTheme;
	return ThemeData.localize(theme, theme.typography.geometryThemeFor(category));
	}

	@override
	Widget build(BuildContext context) {
	return _InheritedTheme(
	theme: this,
	child: CupertinoTheme(
	// We're using a MaterialBasedCupertinoThemeData here instead of a
	// CupertinoThemeData because it defers some properties to the Material
	// ThemeData.
	data: MaterialBasedCupertinoThemeData(
	materialTheme: data,
	),
	child: IconTheme(
	data: data.iconTheme,
	child: child,
	),
	),
	);
	}

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.add(DiagnosticsProperty<ThemeData>('data', data, showName: false));
	}
	}

	class _InheritedTheme extends InheritedTheme {
	const _InheritedTheme({
	Key? key,
	required this.theme,
	required Widget child,
	}) : assert(theme != null),
	super(key: key, child: child);

	final Theme theme;

	@override
	Widget wrap(BuildContext context, Widget child) {
	return Theme(data: theme.data, child: child);
	}

	@override
	bool updateShouldNotify(_InheritedTheme old) => theme.data != old.theme.data;
	}

	/// An interpolation between two [ThemeData]s.
	///
	/// This class specializes the interpolation of [Tween<ThemeData>] to call the
	/// [ThemeData.lerp] method.
	///
	/// See [Tween] for a discussion on how to use interpolation objects.
	class ThemeDataTween extends Tween<ThemeData> {
	/// Creates a [ThemeData] tween.
	///
	/// The [begin] and [end] properties must be non-null before the tween is
	/// first used, but the arguments can be null if the values are going to be
	/// filled in later.
	ThemeDataTween({ ThemeData? begin, ThemeData? end }) : super(begin: begin, end: end);

	@override
	ThemeData lerp(double t) => ThemeData.lerp(begin!, end!, t);
	}

	/// Animated version of [Theme] which automatically transitions the colors,
	/// etc, over a given duration whenever the given theme changes.
	///
	/// Here's an illustration of what using this widget looks like, using a [curve]
	/// of [Curves.elasticInOut].
	/// {@animation 250 266 https://flutter.github.io/assets-for-api-docs/assets/widgets/animated_theme.mp4}
	///
	/// See also:
	///
	/// * [Theme], which [AnimatedTheme] uses to actually apply the interpolated
	/// theme.
	/// * [ThemeData], which describes the actual configuration of a theme.
	/// * [MaterialApp], which includes an [AnimatedTheme] widget configured via
	/// the [MaterialApp.theme] argument.
	class AnimatedTheme extends ImplicitlyAnimatedWidget {
	/// Creates an animated theme.
	///
	/// By default, the theme transition uses a linear curve. The [data] and
	/// [child] arguments must not be null.
	const AnimatedTheme({
	Key? key,
	required this.data,
	Curve curve = Curves.linear,
	Duration duration = kThemeAnimationDuration,
	VoidCallback? onEnd,
	required this.child,
	}) : assert(child != null),
	assert(data != null),
	super(key: key, curve: curve, duration: duration, onEnd: onEnd);

	/// Specifies the color and typography values for descendant widgets.
	final ThemeData data;

	/// The widget below this widget in the tree.
	///
	/// {@macro flutter.widgets.ProxyWidget.child}
	final Widget child;

	@override
	AnimatedWidgetBaseState<AnimatedTheme> createState() => _AnimatedThemeState();
	}

	class _AnimatedThemeState extends AnimatedWidgetBaseState<AnimatedTheme> {
	ThemeDataTween? _data;

	@override
	void forEachTween(TweenVisitor<dynamic> visitor) {
	_data = visitor(_data, widget.data, (dynamic value) => ThemeDataTween(begin: value as ThemeData))! as ThemeDataTween;
	}

	@override
	Widget build(BuildContext context) {
	return Theme(
	data: _data!.evaluate(animation),
	child: widget.child,
	);
	}

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder description) {
	super.debugFillProperties(description);
	description.add(DiagnosticsProperty<ThemeDataTween>('data', _data, showName: false, defaultValue: null));
	}
	}