packages/flutter/lib/src/material/elevation_overlay.dart - mirrors/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 'dart:math' as math;

 import 'package:flutter/widgets.dart';

 import 'colors.dart';
 import 'theme.dart';

 /// A utility class for dealing with the overlay color needed
 /// to indicate elevation of surfaces.
 class ElevationOverlay {
   // This class is not meant to be instantiated or extended; this constructor
   // prevents instantiation and extension.
   ElevationOverlay._();

   /// Applies a surface tint color to a given container color to indicate
   /// the level of its elevation.
   ///
   /// With Material Design 3, some components will use a "surface tint" color
   /// overlay with an opacity applied to their base color to indicate they are
   /// elevated. The amount of opacity will vary with the elevation as described
   /// in: https://m3.material.io/styles/color/the-color-system/color-roles.
   ///
   /// If [surfaceTint] is not null and not completely transparent ([Color.alpha]
   /// is 0), then the returned color will be the given [color] with the
   /// [surfaceTint] of the appropriate opacity applied to it. Otherwise it will
   /// just return [color] unmodified.
   static Color applySurfaceTint(Color color, Color? surfaceTint, double elevation) {
     if (surfaceTint != null && surfaceTint != Colors.transparent) {
       return Color.alphaBlend(surfaceTint.withOpacity(_surfaceTintOpacityForElevation(elevation)), color);
     }
     return color;
   }

   // Calculates the opacity of the surface tint color from the elevation by
   // looking it up in the token generated table of opacities, interpolating
   // between values as needed. If the elevation is outside the range of values
   // in the table it will clamp to the smallest or largest opacity.
   static double _surfaceTintOpacityForElevation(double elevation) {
     if (elevation < _surfaceTintElevationOpacities[0].elevation) {
       // Elevation less than the first entry, so just clamp it to the first one.
       return _surfaceTintElevationOpacities[0].opacity;
     }

     // Walk the opacity list and find the closest match(es) for the elevation.
     int index = 0;
     while (elevation >= _surfaceTintElevationOpacities[index].elevation) {
       // If we found it exactly or walked off the end of the list just return it.
       if (elevation == _surfaceTintElevationOpacities[index].elevation ||
           index + 1 == _surfaceTintElevationOpacities.length) {
         return _surfaceTintElevationOpacities[index].opacity;
       }
       index += 1;
     }

     // Interpolate between the two opacity values
     final _ElevationOpacity lower = _surfaceTintElevationOpacities[index - 1];
     final _ElevationOpacity upper = _surfaceTintElevationOpacities[index];
     final double t = (elevation - lower.elevation) / (upper.elevation - lower.elevation);
     return lower.opacity + t * (upper.opacity - lower.opacity);
   }

   /// Applies an overlay color to a surface color to indicate
   /// the level of its elevation in a dark theme.
   ///
   /// If using Material Design 3, this type of color overlay is no longer used.
   /// Instead a "surface tint" overlay is used instead. See [applySurfaceTint],
   /// [ThemeData.useMaterial3] for more information.
   ///
   /// Material drop shadows can be difficult to see in a dark theme, so the
   /// elevation of a surface should be portrayed with an "overlay" in addition
   /// to the shadow. As the elevation of the component increases, the
   /// overlay increases in opacity. This function computes and applies this
   /// overlay to a given color as needed.
   ///
   /// If the ambient theme is dark ([ThemeData.brightness] is [Brightness.dark]),
   /// and [ThemeData.applyElevationOverlayColor] is true, and the given
   /// [color] is [ColorScheme.surface] then this will return a version of
   /// the [color] with a semi-transparent [ColorScheme.onSurface] overlaid
   /// on top of it. The opacity of the overlay is computed based on the
   /// [elevation].
   ///
   /// Otherwise it will just return the [color] unmodified.
   ///
   /// See also:
   ///
   ///  * [ThemeData.applyElevationOverlayColor] which controls the whether
   ///    an overlay color will be applied to indicate elevation.
   ///  * [overlayColor] which computes the needed overlay color.
   ///  * [Material] which uses this to apply an elevation overlay to its surface.
   ///  * <https://material.io/design/color/dark-theme.html>, which specifies how
   ///    the overlay should be applied.
   static Color applyOverlay(BuildContext context, Color color, double elevation) {
     final ThemeData theme = Theme.of(context);
     if (elevation > 0.0 &&
         theme.applyElevationOverlayColor &&
         theme.brightness == Brightness.dark &&
         color.withOpacity(1.0) == theme.colorScheme.surface.withOpacity(1.0)) {
       return colorWithOverlay(color, theme.colorScheme.onSurface, elevation);
     }
     return color;
   }

   /// Computes the appropriate overlay color used to indicate elevation in
   /// dark themes.
   ///
   /// If using Material Design 3, this type of color overlay is no longer used.
   /// Instead a "surface tint" overlay is used instead. See [applySurfaceTint],
   /// [ThemeData.useMaterial3] for more information.
   ///
   /// See also:
   ///
   ///  * https://material.io/design/color/dark-theme.html#properties which
   ///    specifies the exact overlay values for a given elevation.
   static Color overlayColor(BuildContext context, double elevation) {
     final ThemeData theme = Theme.of(context);
     return _overlayColor(theme.colorScheme.onSurface, elevation);
   }

   /// Returns a color blended by laying a semi-transparent overlay (using the
   /// [overlay] color) on top of a surface (using the [surface] color).
   ///
   /// If using Material Design 3, this type of color overlay is no longer used.
   /// Instead a "surface tint" overlay is used instead. See [applySurfaceTint],
   /// [ThemeData.useMaterial3] for more information.
   ///
   /// The opacity of the overlay depends on [elevation]. As [elevation]
   /// increases, the opacity will also increase.
   ///
   /// See https://material.io/design/color/dark-theme.html#properties.
   static Color colorWithOverlay(Color surface, Color overlay, double elevation) {
     return Color.alphaBlend(_overlayColor(overlay, elevation), surface);
   }

   /// Applies an opacity to [color] based on [elevation].
   static Color _overlayColor(Color color, double elevation) {
     // Compute the opacity for the given elevation
     // This formula matches the values in the spec:
     // https://material.io/design/color/dark-theme.html#properties
     final double opacity = (4.5 * math.log(elevation + 1) + 2) / 100.0;
     return color.withOpacity(opacity);
   }
 }

 // A data class to hold the opacity at a given elevation.
 class _ElevationOpacity {
   const _ElevationOpacity(this.elevation, this.opacity);

   final double elevation;
   final double opacity;
 }

 // BEGIN GENERATED TOKEN PROPERTIES - SurfaceTint

 // Do not edit by hand. The code between the "BEGIN GENERATED" and
 // "END GENERATED" comments are generated from data in the Material
 // Design token database by the script:
 //   dev/tools/gen_defaults/bin/gen_defaults.dart.

 // Token database version: v0_132

 // Surface tint opacities based on elevations according to the
 // Material Design 3 specification:
 //   https://m3.material.io/styles/color/the-color-system/color-roles
 // Ordered by increasing elevation.
 const List<_ElevationOpacity> _surfaceTintElevationOpacities = <_ElevationOpacity>[
   _ElevationOpacity(0.0, 0.0),   // Elevation level 0
   _ElevationOpacity(1.0, 0.05),  // Elevation level 1
   _ElevationOpacity(3.0, 0.08),  // Elevation level 2
   _ElevationOpacity(6.0, 0.11),  // Elevation level 3
   _ElevationOpacity(8.0, 0.12),  // Elevation level 4
   _ElevationOpacity(12.0, 0.14), // Elevation level 5
 ];

 // END GENERATED TOKEN PROPERTIES - SurfaceTint
	// Copyright 2014 The Flutter Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	import 'dart:math' as math;

	import 'package:flutter/widgets.dart';

	import 'colors.dart';
	import 'theme.dart';

	/// A utility class for dealing with the overlay color needed
	/// to indicate elevation of surfaces.
	class ElevationOverlay {
	// This class is not meant to be instantiated or extended; this constructor
	// prevents instantiation and extension.
	ElevationOverlay._();

	/// Applies a surface tint color to a given container color to indicate
	/// the level of its elevation.
	///
	/// With Material Design 3, some components will use a "surface tint" color
	/// overlay with an opacity applied to their base color to indicate they are
	/// elevated. The amount of opacity will vary with the elevation as described
	/// in: https://m3.material.io/styles/color/the-color-system/color-roles.
	///
	/// If [surfaceTint] is not null and not completely transparent ([Color.alpha]
	/// is 0), then the returned color will be the given [color] with the
	/// [surfaceTint] of the appropriate opacity applied to it. Otherwise it will
	/// just return [color] unmodified.
	static Color applySurfaceTint(Color color, Color? surfaceTint, double elevation) {
	if (surfaceTint != null && surfaceTint != Colors.transparent) {
	return Color.alphaBlend(surfaceTint.withOpacity(_surfaceTintOpacityForElevation(elevation)), color);
	}
	return color;
	}

	// Calculates the opacity of the surface tint color from the elevation by
	// looking it up in the token generated table of opacities, interpolating
	// between values as needed. If the elevation is outside the range of values
	// in the table it will clamp to the smallest or largest opacity.
	static double _surfaceTintOpacityForElevation(double elevation) {
	if (elevation < _surfaceTintElevationOpacities[0].elevation) {
	// Elevation less than the first entry, so just clamp it to the first one.
	return _surfaceTintElevationOpacities[0].opacity;
	}

	// Walk the opacity list and find the closest match(es) for the elevation.
	int index = 0;
	while (elevation >= _surfaceTintElevationOpacities[index].elevation) {
	// If we found it exactly or walked off the end of the list just return it.
	if (elevation == _surfaceTintElevationOpacities[index].elevation \|\|
	index + 1 == _surfaceTintElevationOpacities.length) {
	return _surfaceTintElevationOpacities[index].opacity;
	}
	index += 1;
	}

	// Interpolate between the two opacity values
	final _ElevationOpacity lower = _surfaceTintElevationOpacities[index - 1];
	final _ElevationOpacity upper = _surfaceTintElevationOpacities[index];
	final double t = (elevation - lower.elevation) / (upper.elevation - lower.elevation);
	return lower.opacity + t * (upper.opacity - lower.opacity);
	}

	/// Applies an overlay color to a surface color to indicate
	/// the level of its elevation in a dark theme.
	///
	/// If using Material Design 3, this type of color overlay is no longer used.
	/// Instead a "surface tint" overlay is used instead. See [applySurfaceTint],
	/// [ThemeData.useMaterial3] for more information.
	///
	/// Material drop shadows can be difficult to see in a dark theme, so the
	/// elevation of a surface should be portrayed with an "overlay" in addition
	/// to the shadow. As the elevation of the component increases, the
	/// overlay increases in opacity. This function computes and applies this
	/// overlay to a given color as needed.
	///
	/// If the ambient theme is dark ([ThemeData.brightness] is [Brightness.dark]),
	/// and [ThemeData.applyElevationOverlayColor] is true, and the given
	/// [color] is [ColorScheme.surface] then this will return a version of
	/// the [color] with a semi-transparent [ColorScheme.onSurface] overlaid
	/// on top of it. The opacity of the overlay is computed based on the
	/// [elevation].
	///
	/// Otherwise it will just return the [color] unmodified.
	///
	/// See also:
	///
	/// * [ThemeData.applyElevationOverlayColor] which controls the whether
	/// an overlay color will be applied to indicate elevation.
	/// * [overlayColor] which computes the needed overlay color.
	/// * [Material] which uses this to apply an elevation overlay to its surface.
	/// * <https://material.io/design/color/dark-theme.html>, which specifies how
	/// the overlay should be applied.
	static Color applyOverlay(BuildContext context, Color color, double elevation) {
	final ThemeData theme = Theme.of(context);
	if (elevation > 0.0 &&
	theme.applyElevationOverlayColor &&
	theme.brightness == Brightness.dark &&
	color.withOpacity(1.0) == theme.colorScheme.surface.withOpacity(1.0)) {
	return colorWithOverlay(color, theme.colorScheme.onSurface, elevation);
	}
	return color;
	}

	/// Computes the appropriate overlay color used to indicate elevation in
	/// dark themes.
	///
	/// If using Material Design 3, this type of color overlay is no longer used.
	/// Instead a "surface tint" overlay is used instead. See [applySurfaceTint],
	/// [ThemeData.useMaterial3] for more information.
	///
	/// See also:
	///
	/// * https://material.io/design/color/dark-theme.html#properties which
	/// specifies the exact overlay values for a given elevation.
	static Color overlayColor(BuildContext context, double elevation) {
	final ThemeData theme = Theme.of(context);
	return _overlayColor(theme.colorScheme.onSurface, elevation);
	}

	/// Returns a color blended by laying a semi-transparent overlay (using the
	/// [overlay] color) on top of a surface (using the [surface] color).
	///
	/// If using Material Design 3, this type of color overlay is no longer used.
	/// Instead a "surface tint" overlay is used instead. See [applySurfaceTint],
	/// [ThemeData.useMaterial3] for more information.
	///
	/// The opacity of the overlay depends on [elevation]. As [elevation]
	/// increases, the opacity will also increase.
	///
	/// See https://material.io/design/color/dark-theme.html#properties.
	static Color colorWithOverlay(Color surface, Color overlay, double elevation) {
	return Color.alphaBlend(_overlayColor(overlay, elevation), surface);
	}

	/// Applies an opacity to [color] based on [elevation].
	static Color _overlayColor(Color color, double elevation) {
	// Compute the opacity for the given elevation
	// This formula matches the values in the spec:
	// https://material.io/design/color/dark-theme.html#properties
	final double opacity = (4.5 * math.log(elevation + 1) + 2) / 100.0;
	return color.withOpacity(opacity);
	}
	}

	// A data class to hold the opacity at a given elevation.
	class _ElevationOpacity {
	const _ElevationOpacity(this.elevation, this.opacity);

	final double elevation;
	final double opacity;
	}

	// BEGIN GENERATED TOKEN PROPERTIES - SurfaceTint

	// Do not edit by hand. The code between the "BEGIN GENERATED" and
	// "END GENERATED" comments are generated from data in the Material
	// Design token database by the script:
	// dev/tools/gen_defaults/bin/gen_defaults.dart.

	// Token database version: v0_132

	// Surface tint opacities based on elevations according to the
	// Material Design 3 specification:
	// https://m3.material.io/styles/color/the-color-system/color-roles
	// Ordered by increasing elevation.
	const List<_ElevationOpacity> _surfaceTintElevationOpacities = <_ElevationOpacity>[
	_ElevationOpacity(0.0, 0.0), // Elevation level 0
	_ElevationOpacity(1.0, 0.05), // Elevation level 1
	_ElevationOpacity(3.0, 0.08), // Elevation level 2
	_ElevationOpacity(6.0, 0.11), // Elevation level 3
	_ElevationOpacity(8.0, 0.12), // Elevation level 4
	_ElevationOpacity(12.0, 0.14), // Elevation level 5
	];

	// END GENERATED TOKEN PROPERTIES - SurfaceTint