packages/flutter/lib/src/rendering/image.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 'dart:ui' as ui show Image;

 import 'package:flutter/animation.dart';

 import 'box.dart';
 import 'object.dart';

 export 'package:flutter/painting.dart' show
   BoxFit,
   ImageRepeat;

 /// An image in the render tree.
 ///
 /// The render image attempts to find a size for itself that fits in the given
 /// constraints and preserves the image's intrinsic aspect ratio.
 ///
 /// The image is painted using [paintImage], which describes the meanings of the
 /// various fields on this class in more detail.
 class RenderImage extends RenderBox {
   /// Creates a render box that displays an image.
   ///
   /// The [scale], [alignment], [repeat], [matchTextDirection] and [filterQuality] arguments
   /// must not be null. The [textDirection] argument must not be null if
   /// [alignment] will need resolving or if [matchTextDirection] is true.
   RenderImage({
     ui.Image? image,
     this.debugImageLabel,
     double? width,
     double? height,
     double scale = 1.0,
     Color? color,
     Animation<double>? opacity,
     BlendMode? colorBlendMode,
     BoxFit? fit,
     AlignmentGeometry alignment = Alignment.center,
     ImageRepeat repeat = ImageRepeat.noRepeat,
     Rect? centerSlice,
     bool matchTextDirection = false,
     TextDirection? textDirection,
     bool invertColors = false,
     bool isAntiAlias = false,
     FilterQuality filterQuality = FilterQuality.low,
   }) : assert(scale != null),
        assert(repeat != null),
        assert(alignment != null),
        assert(filterQuality != null),
        assert(matchTextDirection != null),
        assert(isAntiAlias != null),
        _image = image,
        _width = width,
        _height = height,
        _scale = scale,
        _color = color,
        _opacity = opacity,
        _colorBlendMode = colorBlendMode,
        _fit = fit,
        _alignment = alignment,
        _repeat = repeat,
        _centerSlice = centerSlice,
        _matchTextDirection = matchTextDirection,
        _invertColors = invertColors,
        _textDirection = textDirection,
        _isAntiAlias = isAntiAlias,
        _filterQuality = filterQuality {
     _updateColorFilter();
   }

   Alignment? _resolvedAlignment;
   bool? _flipHorizontally;

   void _resolve() {
     if (_resolvedAlignment != null)
       return;
     _resolvedAlignment = alignment.resolve(textDirection);
     _flipHorizontally = matchTextDirection && textDirection == TextDirection.rtl;
   }

   void _markNeedResolution() {
     _resolvedAlignment = null;
     _flipHorizontally = null;
     markNeedsPaint();
   }

   /// The image to display.
   ui.Image? get image => _image;
   ui.Image? _image;
   set image(ui.Image? value) {
     if (value == _image) {
       return;
     }
     // If we get a clone of our image, it's the same underlying native data -
     // dispose of the new clone and return early.
     if (value != null && _image != null && value.isCloneOf(_image!)) {
       value.dispose();
       return;
     }
     _image?.dispose();
     _image = value;
     markNeedsPaint();
     if (_width == null || _height == null)
       markNeedsLayout();
   }

   /// A string used to identify the source of the image.
   String? debugImageLabel;

   /// If non-null, requires the image to have this width.
   ///
   /// If null, the image will pick a size that best preserves its intrinsic
   /// aspect ratio.
   double? get width => _width;
   double? _width;
   set width(double? value) {
     if (value == _width)
       return;
     _width = value;
     markNeedsLayout();
   }

   /// If non-null, require the image to have this height.
   ///
   /// If null, the image will pick a size that best preserves its intrinsic
   /// aspect ratio.
   double? get height => _height;
   double? _height;
   set height(double? value) {
     if (value == _height)
       return;
     _height = value;
     markNeedsLayout();
   }

   /// Specifies the image's scale.
   ///
   /// Used when determining the best display size for the image.
   double get scale => _scale;
   double _scale;
   set scale(double value) {
     assert(value != null);
     if (value == _scale)
       return;
     _scale = value;
     markNeedsLayout();
   }

   ColorFilter? _colorFilter;

   void _updateColorFilter() {
     if (_color == null)
       _colorFilter = null;
     else
       _colorFilter = ColorFilter.mode(_color!, _colorBlendMode ?? BlendMode.srcIn);
   }

   /// If non-null, this color is blended with each image pixel using [colorBlendMode].
   Color? get color => _color;
   Color? _color;
   set color(Color? value) {
     if (value == _color)
       return;
     _color = value;
     _updateColorFilter();
     markNeedsPaint();
   }

   /// If non-null, the value from the [Animation] is multiplied with the opacity
   /// of each image pixel before painting onto the canvas.
   Animation<double>? get opacity => _opacity;
   Animation<double>? _opacity;
   set opacity(Animation<double>? value) {
     if (value == _opacity)
       return;

     if (attached)
       _opacity?.removeListener(markNeedsPaint);
     _opacity = value;
     if (attached)
       value?.addListener(markNeedsPaint);
   }

   /// Used to set the filterQuality of the image.
   ///
   /// Use the [FilterQuality.low] quality setting to scale the image, which corresponds to
   /// bilinear interpolation, rather than the default [FilterQuality.none] which corresponds
   /// to nearest-neighbor.
   FilterQuality get filterQuality => _filterQuality;
   FilterQuality _filterQuality;
   set filterQuality(FilterQuality value) {
     assert(value != null);
     if (value == _filterQuality)
       return;
     _filterQuality = value;
     markNeedsPaint();
   }


   /// Used to combine [color] with this image.
   ///
   /// The default is [BlendMode.srcIn]. In terms of the blend mode, [color] is
   /// the source and this image is the destination.
   ///
   /// See also:
   ///
   ///  * [BlendMode], which includes an illustration of the effect of each blend mode.
   BlendMode? get colorBlendMode => _colorBlendMode;
   BlendMode? _colorBlendMode;
   set colorBlendMode(BlendMode? value) {
     if (value == _colorBlendMode)
       return;
     _colorBlendMode = value;
     _updateColorFilter();
     markNeedsPaint();
   }

   /// How to inscribe the image into the space allocated during layout.
   ///
   /// The default varies based on the other fields. See the discussion at
   /// [paintImage].
   BoxFit? get fit => _fit;
   BoxFit? _fit;
   set fit(BoxFit? value) {
     if (value == _fit)
       return;
     _fit = value;
     markNeedsPaint();
   }

   /// How to align the image within its bounds.
   ///
   /// If this is set to a text-direction-dependent value, [textDirection] must
   /// not be null.
   AlignmentGeometry get alignment => _alignment;
   AlignmentGeometry _alignment;
   set alignment(AlignmentGeometry value) {
     assert(value != null);
     if (value == _alignment)
       return;
     _alignment = value;
     _markNeedResolution();
   }

   /// How to repeat this image if it doesn't fill its layout bounds.
   ImageRepeat get repeat => _repeat;
   ImageRepeat _repeat;
   set repeat(ImageRepeat value) {
     assert(value != null);
     if (value == _repeat)
       return;
     _repeat = value;
     markNeedsPaint();
   }

   /// The center slice for a nine-patch image.
   ///
   /// The region of the image inside the center slice will be stretched both
   /// horizontally and vertically to fit the image into its destination. The
   /// region of the image above and below the center slice will be stretched
   /// only horizontally and the region of the image to the left and right of
   /// the center slice will be stretched only vertically.
   Rect? get centerSlice => _centerSlice;
   Rect? _centerSlice;
   set centerSlice(Rect? value) {
     if (value == _centerSlice)
       return;
     _centerSlice = value;
     markNeedsPaint();
   }

   /// Whether to invert the colors of the image.
   ///
   /// Inverting the colors of an image applies a new color filter to the paint.
   /// If there is another specified color filter, the invert will be applied
   /// after it. This is primarily used for implementing smart invert on iOS.
   bool get invertColors => _invertColors;
   bool _invertColors;
   set invertColors(bool value) {
     if (value == _invertColors)
       return;
     _invertColors = value;
     markNeedsPaint();
   }

   /// Whether to paint the image in the direction of the [TextDirection].
   ///
   /// If this is true, then in [TextDirection.ltr] contexts, the image will be
   /// drawn with its origin in the top left (the "normal" painting direction for
   /// images); and in [TextDirection.rtl] contexts, the image will be drawn with
   /// a scaling factor of -1 in the horizontal direction so that the origin is
   /// in the top right.
   ///
   /// This is occasionally used with images in right-to-left environments, for
   /// images that were designed for left-to-right locales. Be careful, when
   /// using this, to not flip images with integral shadows, text, or other
   /// effects that will look incorrect when flipped.
   ///
   /// If this is set to true, [textDirection] must not be null.
   bool get matchTextDirection => _matchTextDirection;
   bool _matchTextDirection;
   set matchTextDirection(bool value) {
     assert(value != null);
     if (value == _matchTextDirection)
       return;
     _matchTextDirection = value;
     _markNeedResolution();
   }

   /// The text direction with which to resolve [alignment].
   ///
   /// This may be changed to null, but only after the [alignment] and
   /// [matchTextDirection] properties have been changed to values that do not
   /// depend on the direction.
   TextDirection? get textDirection => _textDirection;
   TextDirection? _textDirection;
   set textDirection(TextDirection? value) {
     if (_textDirection == value)
       return;
     _textDirection = value;
     _markNeedResolution();
   }

   /// Whether to paint the image with anti-aliasing.
   ///
   /// Anti-aliasing alleviates the sawtooth artifact when the image is rotated.
   bool get isAntiAlias => _isAntiAlias;
   bool _isAntiAlias;
   set isAntiAlias(bool value) {
     if (_isAntiAlias == value) {
       return;
     }
     assert(value != null);
     _isAntiAlias = value;
     markNeedsPaint();
   }

   /// Find a size for the render image within the given constraints.
   ///
   ///  - The dimensions of the RenderImage must fit within the constraints.
   ///  - The aspect ratio of the RenderImage matches the intrinsic aspect
   ///    ratio of the image.
   ///  - The RenderImage's dimension are maximal subject to being smaller than
   ///    the intrinsic size of the image.
   Size _sizeForConstraints(BoxConstraints constraints) {
     // Folds the given |width| and |height| into |constraints| so they can all
     // be treated uniformly.
     constraints = BoxConstraints.tightFor(
       width: _width,
       height: _height,
     ).enforce(constraints);

     if (_image == null)
       return constraints.smallest;

     return constraints.constrainSizeAndAttemptToPreserveAspectRatio(Size(
       _image!.width.toDouble() / _scale,
       _image!.height.toDouble() / _scale,
     ));
   }

   @override
   double computeMinIntrinsicWidth(double height) {
     assert(height >= 0.0);
     if (_width == null && _height == null)
       return 0.0;
     return _sizeForConstraints(BoxConstraints.tightForFinite(height: height)).width;
   }

   @override
   double computeMaxIntrinsicWidth(double height) {
     assert(height >= 0.0);
     return _sizeForConstraints(BoxConstraints.tightForFinite(height: height)).width;
   }

   @override
   double computeMinIntrinsicHeight(double width) {
     assert(width >= 0.0);
     if (_width == null && _height == null)
       return 0.0;
     return _sizeForConstraints(BoxConstraints.tightForFinite(width: width)).height;
   }

   @override
   double computeMaxIntrinsicHeight(double width) {
     assert(width >= 0.0);
     return _sizeForConstraints(BoxConstraints.tightForFinite(width: width)).height;
   }

   @override
   bool hitTestSelf(Offset position) => true;

   @override
   Size computeDryLayout(BoxConstraints constraints) {
     return _sizeForConstraints(constraints);
   }

   @override
   void performLayout() {
     size = _sizeForConstraints(constraints);
   }

   @override
   void attach(covariant PipelineOwner owner) {
     super.attach(owner);
     _opacity?.addListener(markNeedsPaint);
   }

   @override
   void detach() {
     _opacity?.removeListener(markNeedsPaint);
     super.detach();
   }

   @override
   void paint(PaintingContext context, Offset offset) {
     if (_image == null)
       return;
     _resolve();
     assert(_resolvedAlignment != null);
     assert(_flipHorizontally != null);
     paintImage(
       canvas: context.canvas,
       rect: offset & size,
       image: _image!,
       debugImageLabel: debugImageLabel,
       scale: _scale,
       opacity: _opacity?.value ?? 1.0,
       colorFilter: _colorFilter,
       fit: _fit,
       alignment: _resolvedAlignment!,
       centerSlice: _centerSlice,
       repeat: _repeat,
       flipHorizontally: _flipHorizontally!,
       invertColors: invertColors,
       filterQuality: _filterQuality,
       isAntiAlias: _isAntiAlias,
     );
   }

   @override
   void dispose() {
     _image?.dispose();
     _image = null;
     super.dispose();
   }

   @override
   void debugFillProperties(DiagnosticPropertiesBuilder properties) {
     super.debugFillProperties(properties);
     properties.add(DiagnosticsProperty<ui.Image>('image', image));
     properties.add(DoubleProperty('width', width, defaultValue: null));
     properties.add(DoubleProperty('height', height, defaultValue: null));
     properties.add(DoubleProperty('scale', scale, defaultValue: 1.0));
     properties.add(ColorProperty('color', color, defaultValue: null));
     properties.add(DiagnosticsProperty<Animation<double>?>('opacity', opacity, defaultValue: null));
     properties.add(EnumProperty<BlendMode>('colorBlendMode', colorBlendMode, defaultValue: null));
     properties.add(EnumProperty<BoxFit>('fit', fit, defaultValue: null));
     properties.add(DiagnosticsProperty<AlignmentGeometry>('alignment', alignment, defaultValue: null));
     properties.add(EnumProperty<ImageRepeat>('repeat', repeat, defaultValue: ImageRepeat.noRepeat));
     properties.add(DiagnosticsProperty<Rect>('centerSlice', centerSlice, defaultValue: null));
     properties.add(FlagProperty('matchTextDirection', value: matchTextDirection, ifTrue: 'match text direction'));
     properties.add(EnumProperty<TextDirection>('textDirection', textDirection, defaultValue: null));
     properties.add(DiagnosticsProperty<bool>('invertColors', invertColors));
     properties.add(EnumProperty<FilterQuality>('filterQuality', filterQuality));
   }
 }
	// 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:ui' as ui show Image;

	import 'package:flutter/animation.dart';

	import 'box.dart';
	import 'object.dart';

	export 'package:flutter/painting.dart' show
	BoxFit,
	ImageRepeat;

	/// An image in the render tree.
	///
	/// The render image attempts to find a size for itself that fits in the given
	/// constraints and preserves the image's intrinsic aspect ratio.
	///
	/// The image is painted using [paintImage], which describes the meanings of the
	/// various fields on this class in more detail.
	class RenderImage extends RenderBox {
	/// Creates a render box that displays an image.
	///
	/// The [scale], [alignment], [repeat], [matchTextDirection] and [filterQuality] arguments
	/// must not be null. The [textDirection] argument must not be null if
	/// [alignment] will need resolving or if [matchTextDirection] is true.
	RenderImage({
	ui.Image? image,
	this.debugImageLabel,
	double? width,
	double? height,
	double scale = 1.0,
	Color? color,
	Animation<double>? opacity,
	BlendMode? colorBlendMode,
	BoxFit? fit,
	AlignmentGeometry alignment = Alignment.center,
	ImageRepeat repeat = ImageRepeat.noRepeat,
	Rect? centerSlice,
	bool matchTextDirection = false,
	TextDirection? textDirection,
	bool invertColors = false,
	bool isAntiAlias = false,
	FilterQuality filterQuality = FilterQuality.low,
	}) : assert(scale != null),
	assert(repeat != null),
	assert(alignment != null),
	assert(filterQuality != null),
	assert(matchTextDirection != null),
	assert(isAntiAlias != null),
	_image = image,
	_width = width,
	_height = height,
	_scale = scale,
	_color = color,
	_opacity = opacity,
	_colorBlendMode = colorBlendMode,
	_fit = fit,
	_alignment = alignment,
	_repeat = repeat,
	_centerSlice = centerSlice,
	_matchTextDirection = matchTextDirection,
	_invertColors = invertColors,
	_textDirection = textDirection,
	_isAntiAlias = isAntiAlias,
	_filterQuality = filterQuality {
	_updateColorFilter();
	}

	Alignment? _resolvedAlignment;
	bool? _flipHorizontally;

	void _resolve() {
	if (_resolvedAlignment != null)
	return;
	_resolvedAlignment = alignment.resolve(textDirection);
	_flipHorizontally = matchTextDirection && textDirection == TextDirection.rtl;
	}

	void _markNeedResolution() {
	_resolvedAlignment = null;
	_flipHorizontally = null;
	markNeedsPaint();
	}

	/// The image to display.
	ui.Image? get image => _image;
	ui.Image? _image;
	set image(ui.Image? value) {
	if (value == _image) {
	return;
	}
	// If we get a clone of our image, it's the same underlying native data -
	// dispose of the new clone and return early.
	if (value != null && _image != null && value.isCloneOf(_image!)) {
	value.dispose();
	return;
	}
	_image?.dispose();
	_image = value;
	markNeedsPaint();
	if (_width == null \|\| _height == null)
	markNeedsLayout();
	}

	/// A string used to identify the source of the image.
	String? debugImageLabel;

	/// If non-null, requires the image to have this width.
	///
	/// If null, the image will pick a size that best preserves its intrinsic
	/// aspect ratio.
	double? get width => _width;
	double? _width;
	set width(double? value) {
	if (value == _width)
	return;
	_width = value;
	markNeedsLayout();
	}

	/// If non-null, require the image to have this height.
	///
	/// If null, the image will pick a size that best preserves its intrinsic
	/// aspect ratio.
	double? get height => _height;
	double? _height;
	set height(double? value) {
	if (value == _height)
	return;
	_height = value;
	markNeedsLayout();
	}

	/// Specifies the image's scale.
	///
	/// Used when determining the best display size for the image.
	double get scale => _scale;
	double _scale;
	set scale(double value) {
	assert(value != null);
	if (value == _scale)
	return;
	_scale = value;
	markNeedsLayout();
	}

	ColorFilter? _colorFilter;

	void _updateColorFilter() {
	if (_color == null)
	_colorFilter = null;
	else
	_colorFilter = ColorFilter.mode(_color!, _colorBlendMode ?? BlendMode.srcIn);
	}

	/// If non-null, this color is blended with each image pixel using [colorBlendMode].
	Color? get color => _color;
	Color? _color;
	set color(Color? value) {
	if (value == _color)
	return;
	_color = value;
	_updateColorFilter();
	markNeedsPaint();
	}

	/// If non-null, the value from the [Animation] is multiplied with the opacity
	/// of each image pixel before painting onto the canvas.
	Animation<double>? get opacity => _opacity;
	Animation<double>? _opacity;
	set opacity(Animation<double>? value) {
	if (value == _opacity)
	return;

	if (attached)
	_opacity?.removeListener(markNeedsPaint);
	_opacity = value;
	if (attached)
	value?.addListener(markNeedsPaint);
	}

	/// Used to set the filterQuality of the image.
	///
	/// Use the [FilterQuality.low] quality setting to scale the image, which corresponds to
	/// bilinear interpolation, rather than the default [FilterQuality.none] which corresponds
	/// to nearest-neighbor.
	FilterQuality get filterQuality => _filterQuality;
	FilterQuality _filterQuality;
	set filterQuality(FilterQuality value) {
	assert(value != null);
	if (value == _filterQuality)
	return;
	_filterQuality = value;
	markNeedsPaint();
	}


	/// Used to combine [color] with this image.
	///
	/// The default is [BlendMode.srcIn]. In terms of the blend mode, [color] is
	/// the source and this image is the destination.
	///
	/// See also:
	///
	/// * [BlendMode], which includes an illustration of the effect of each blend mode.
	BlendMode? get colorBlendMode => _colorBlendMode;
	BlendMode? _colorBlendMode;
	set colorBlendMode(BlendMode? value) {
	if (value == _colorBlendMode)
	return;
	_colorBlendMode = value;
	_updateColorFilter();
	markNeedsPaint();
	}

	/// How to inscribe the image into the space allocated during layout.
	///
	/// The default varies based on the other fields. See the discussion at
	/// [paintImage].
	BoxFit? get fit => _fit;
	BoxFit? _fit;
	set fit(BoxFit? value) {
	if (value == _fit)
	return;
	_fit = value;
	markNeedsPaint();
	}

	/// How to align the image within its bounds.
	///
	/// If this is set to a text-direction-dependent value, [textDirection] must
	/// not be null.
	AlignmentGeometry get alignment => _alignment;
	AlignmentGeometry _alignment;
	set alignment(AlignmentGeometry value) {
	assert(value != null);
	if (value == _alignment)
	return;
	_alignment = value;
	_markNeedResolution();
	}

	/// How to repeat this image if it doesn't fill its layout bounds.
	ImageRepeat get repeat => _repeat;
	ImageRepeat _repeat;
	set repeat(ImageRepeat value) {
	assert(value != null);
	if (value == _repeat)
	return;
	_repeat = value;
	markNeedsPaint();
	}

	/// The center slice for a nine-patch image.
	///
	/// The region of the image inside the center slice will be stretched both
	/// horizontally and vertically to fit the image into its destination. The
	/// region of the image above and below the center slice will be stretched
	/// only horizontally and the region of the image to the left and right of
	/// the center slice will be stretched only vertically.
	Rect? get centerSlice => _centerSlice;
	Rect? _centerSlice;
	set centerSlice(Rect? value) {
	if (value == _centerSlice)
	return;
	_centerSlice = value;
	markNeedsPaint();
	}

	/// Whether to invert the colors of the image.
	///
	/// Inverting the colors of an image applies a new color filter to the paint.
	/// If there is another specified color filter, the invert will be applied
	/// after it. This is primarily used for implementing smart invert on iOS.
	bool get invertColors => _invertColors;
	bool _invertColors;
	set invertColors(bool value) {
	if (value == _invertColors)
	return;
	_invertColors = value;
	markNeedsPaint();
	}

	/// Whether to paint the image in the direction of the [TextDirection].
	///
	/// If this is true, then in [TextDirection.ltr] contexts, the image will be
	/// drawn with its origin in the top left (the "normal" painting direction for
	/// images); and in [TextDirection.rtl] contexts, the image will be drawn with
	/// a scaling factor of -1 in the horizontal direction so that the origin is
	/// in the top right.
	///
	/// This is occasionally used with images in right-to-left environments, for
	/// images that were designed for left-to-right locales. Be careful, when
	/// using this, to not flip images with integral shadows, text, or other
	/// effects that will look incorrect when flipped.
	///
	/// If this is set to true, [textDirection] must not be null.
	bool get matchTextDirection => _matchTextDirection;
	bool _matchTextDirection;
	set matchTextDirection(bool value) {
	assert(value != null);
	if (value == _matchTextDirection)
	return;
	_matchTextDirection = value;
	_markNeedResolution();
	}

	/// The text direction with which to resolve [alignment].
	///
	/// This may be changed to null, but only after the [alignment] and
	/// [matchTextDirection] properties have been changed to values that do not
	/// depend on the direction.
	TextDirection? get textDirection => _textDirection;
	TextDirection? _textDirection;
	set textDirection(TextDirection? value) {
	if (_textDirection == value)
	return;
	_textDirection = value;
	_markNeedResolution();
	}

	/// Whether to paint the image with anti-aliasing.
	///
	/// Anti-aliasing alleviates the sawtooth artifact when the image is rotated.
	bool get isAntiAlias => _isAntiAlias;
	bool _isAntiAlias;
	set isAntiAlias(bool value) {
	if (_isAntiAlias == value) {
	return;
	}
	assert(value != null);
	_isAntiAlias = value;
	markNeedsPaint();
	}

	/// Find a size for the render image within the given constraints.
	///
	/// - The dimensions of the RenderImage must fit within the constraints.
	/// - The aspect ratio of the RenderImage matches the intrinsic aspect
	/// ratio of the image.
	/// - The RenderImage's dimension are maximal subject to being smaller than
	/// the intrinsic size of the image.
	Size _sizeForConstraints(BoxConstraints constraints) {
	// Folds the given \|width\| and \|height\| into \|constraints\| so they can all
	// be treated uniformly.
	constraints = BoxConstraints.tightFor(
	width: _width,
	height: _height,
	).enforce(constraints);

	if (_image == null)
	return constraints.smallest;

	return constraints.constrainSizeAndAttemptToPreserveAspectRatio(Size(
	_image!.width.toDouble() / _scale,
	_image!.height.toDouble() / _scale,
	));
	}

	@override
	double computeMinIntrinsicWidth(double height) {
	assert(height >= 0.0);
	if (_width == null && _height == null)
	return 0.0;
	return _sizeForConstraints(BoxConstraints.tightForFinite(height: height)).width;
	}

	@override
	double computeMaxIntrinsicWidth(double height) {
	assert(height >= 0.0);
	return _sizeForConstraints(BoxConstraints.tightForFinite(height: height)).width;
	}

	@override
	double computeMinIntrinsicHeight(double width) {
	assert(width >= 0.0);
	if (_width == null && _height == null)
	return 0.0;
	return _sizeForConstraints(BoxConstraints.tightForFinite(width: width)).height;
	}

	@override
	double computeMaxIntrinsicHeight(double width) {
	assert(width >= 0.0);
	return _sizeForConstraints(BoxConstraints.tightForFinite(width: width)).height;
	}

	@override
	bool hitTestSelf(Offset position) => true;

	@override
	Size computeDryLayout(BoxConstraints constraints) {
	return _sizeForConstraints(constraints);
	}

	@override
	void performLayout() {
	size = _sizeForConstraints(constraints);
	}

	@override
	void attach(covariant PipelineOwner owner) {
	super.attach(owner);
	_opacity?.addListener(markNeedsPaint);
	}

	@override
	void detach() {
	_opacity?.removeListener(markNeedsPaint);
	super.detach();
	}

	@override
	void paint(PaintingContext context, Offset offset) {
	if (_image == null)
	return;
	_resolve();
	assert(_resolvedAlignment != null);
	assert(_flipHorizontally != null);
	paintImage(
	canvas: context.canvas,
	rect: offset & size,
	image: _image!,
	debugImageLabel: debugImageLabel,
	scale: _scale,
	opacity: _opacity?.value ?? 1.0,
	colorFilter: _colorFilter,
	fit: _fit,
	alignment: _resolvedAlignment!,
	centerSlice: _centerSlice,
	repeat: _repeat,
	flipHorizontally: _flipHorizontally!,
	invertColors: invertColors,
	filterQuality: _filterQuality,
	isAntiAlias: _isAntiAlias,
	);
	}

	@override
	void dispose() {
	_image?.dispose();
	_image = null;
	super.dispose();
	}

	@override
	void debugFillProperties(DiagnosticPropertiesBuilder properties) {
	super.debugFillProperties(properties);
	properties.add(DiagnosticsProperty<ui.Image>('image', image));
	properties.add(DoubleProperty('width', width, defaultValue: null));
	properties.add(DoubleProperty('height', height, defaultValue: null));
	properties.add(DoubleProperty('scale', scale, defaultValue: 1.0));
	properties.add(ColorProperty('color', color, defaultValue: null));
	properties.add(DiagnosticsProperty<Animation<double>?>('opacity', opacity, defaultValue: null));
	properties.add(EnumProperty<BlendMode>('colorBlendMode', colorBlendMode, defaultValue: null));
	properties.add(EnumProperty<BoxFit>('fit', fit, defaultValue: null));
	properties.add(DiagnosticsProperty<AlignmentGeometry>('alignment', alignment, defaultValue: null));
	properties.add(EnumProperty<ImageRepeat>('repeat', repeat, defaultValue: ImageRepeat.noRepeat));
	properties.add(DiagnosticsProperty<Rect>('centerSlice', centerSlice, defaultValue: null));
	properties.add(FlagProperty('matchTextDirection', value: matchTextDirection, ifTrue: 'match text direction'));
	properties.add(EnumProperty<TextDirection>('textDirection', textDirection, defaultValue: null));
	properties.add(DiagnosticsProperty<bool>('invertColors', invertColors));
	properties.add(EnumProperty<FilterQuality>('filterQuality', filterQuality));
	}
	}