packages/flutter/lib/src/painting/decoration_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/foundation.dart';

 import 'alignment.dart';
 import 'basic_types.dart';
 import 'borders.dart';
 import 'box_fit.dart';
 import 'image_provider.dart';
 import 'image_stream.dart';

 /// How to paint any portions of a box not covered by an image.
 enum ImageRepeat {
   /// Repeat the image in both the x and y directions until the box is filled.
   repeat,

   /// Repeat the image in the x direction until the box is filled horizontally.
   repeatX,

   /// Repeat the image in the y direction until the box is filled vertically.
   repeatY,

   /// Leave uncovered portions of the box transparent.
   noRepeat,
 }

 /// An image for a box decoration.
 ///
 /// The image is painted using [paintImage], which describes the meanings of the
 /// various fields on this class in more detail.
 @immutable
 class DecorationImage {
   /// Creates an image to show in a [BoxDecoration].
   ///
   /// The [image], [alignment], [repeat], and [matchTextDirection] arguments
   /// must not be null.
   const DecorationImage({
     @required this.image,
     this.onError,
     this.colorFilter,
     this.fit,
     this.alignment = Alignment.center,
     this.centerSlice,
     this.repeat = ImageRepeat.noRepeat,
     this.matchTextDirection = false,
   }) : assert(image != null),
        assert(alignment != null),
        assert(repeat != null),
        assert(matchTextDirection != null);

   /// The image to be painted into the decoration.
   ///
   /// Typically this will be an [AssetImage] (for an image shipped with the
   /// application) or a [NetworkImage] (for an image obtained from the network).
   final ImageProvider image;

   /// An optional error callback for errors emitted when loading [image].
   final ImageErrorListener onError;

   /// A color filter to apply to the image before painting it.
   final ColorFilter colorFilter;

   /// How the image should be inscribed into the box.
   ///
   /// The default is [BoxFit.scaleDown] if [centerSlice] is null, and
   /// [BoxFit.fill] if [centerSlice] is not null.
   ///
   /// See the discussion at [paintImage] for more details.
   final BoxFit fit;

   /// How to align the image within its bounds.
   ///
   /// The alignment aligns the given position in the image to the given position
   /// in the layout bounds. For example, an [Alignment] alignment of (-1.0,
   /// -1.0) aligns the image to the top-left corner of its layout bounds, while a
   /// [Alignment] alignment of (1.0, 1.0) aligns the bottom right of the
   /// image with the bottom right corner of its layout bounds. Similarly, an
   /// alignment of (0.0, 1.0) aligns the bottom middle of the image with the
   /// middle of the bottom edge of its layout bounds.
   ///
   /// To display a subpart of an image, consider using a [CustomPainter] and
   /// [Canvas.drawImageRect].
   ///
   /// If the [alignment] is [TextDirection]-dependent (i.e. if it is a
   /// [AlignmentDirectional]), then a [TextDirection] must be available
   /// when the image is painted.
   ///
   /// Defaults to [Alignment.center].
   ///
   /// See also:
   ///
   ///  * [Alignment], a class with convenient constants typically used to
   ///    specify an [AlignmentGeometry].
   ///  * [AlignmentDirectional], like [Alignment] for specifying alignments
   ///    relative to text direction.
   final AlignmentGeometry alignment;

   /// 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.
   ///
   /// The stretching will be applied in order to make the image fit into the box
   /// specified by [fit]. When [centerSlice] is not null, [fit] defaults to
   /// [BoxFit.fill], which distorts the destination image size relative to the
   /// image's original aspect ratio. Values of [BoxFit] which do not distort the
   /// destination image size will result in [centerSlice] having no effect
   /// (since the nine regions of the image will be rendered with the same
   /// scaling, as if it wasn't specified).
   final Rect centerSlice;

   /// How to paint any portions of the box that would not otherwise be covered
   /// by the image.
   final ImageRepeat repeat;

   /// 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.
   final bool matchTextDirection;

   /// Creates a [DecorationImagePainter] for this [DecorationImage].
   ///
   /// The `onChanged` argument must not be null. It will be called whenever the
   /// image needs to be repainted, e.g. because it is loading incrementally or
   /// because it is animated.
   DecorationImagePainter createPainter(VoidCallback onChanged) {
     assert(onChanged != null);
     return DecorationImagePainter._(this, onChanged);
   }

   @override
   bool operator ==(Object other) {
     if (identical(this, other))
       return true;
     if (other.runtimeType != runtimeType)
       return false;
     return other is DecorationImage
         && other.image == image
         && other.colorFilter == colorFilter
         && other.fit == fit
         && other.alignment == alignment
         && other.centerSlice == centerSlice
         && other.repeat == repeat
         && other.matchTextDirection == matchTextDirection;
   }

   @override
   int get hashCode => hashValues(image, colorFilter, fit, alignment, centerSlice, repeat, matchTextDirection);

   @override
   String toString() {
     final List<String> properties = <String>[
       '$image',
       if (colorFilter != null)
         '$colorFilter',
       if (fit != null &&
           !(fit == BoxFit.fill && centerSlice != null) &&
           !(fit == BoxFit.scaleDown && centerSlice == null))
         '$fit',
       '$alignment',
       if (centerSlice != null)
         'centerSlice: $centerSlice',
       if (repeat != ImageRepeat.noRepeat)
         '$repeat',
       if (matchTextDirection)
         'match text direction',
     ];
     return '${objectRuntimeType(this, 'DecorationImage')}(${properties.join(", ")})';
   }
 }

 /// The painter for a [DecorationImage].
 ///
 /// To obtain a painter, call [DecorationImage.createPainter].
 ///
 /// To paint, call [paint]. The `onChanged` callback passed to
 /// [DecorationImage.createPainter] will be called if the image needs to paint
 /// again (e.g. because it is animated or because it had not yet loaded the
 /// first time the [paint] method was called).
 ///
 /// This object should be disposed using the [dispose] method when it is no
 /// longer needed.
 class DecorationImagePainter {
   DecorationImagePainter._(this._details, this._onChanged) : assert(_details != null);

   final DecorationImage _details;
   final VoidCallback _onChanged;

   ImageStream _imageStream;
   ImageInfo _image;

   /// Draw the image onto the given canvas.
   ///
   /// The image is drawn at the position and size given by the `rect` argument.
   ///
   /// The image is clipped to the given `clipPath`, if any.
   ///
   /// The `configuration` object is used to resolve the image (e.g. to pick
   /// resolution-specific assets), and to implement the
   /// [DecorationImage.matchTextDirection] feature.
   ///
   /// If the image needs to be painted again, e.g. because it is animated or
   /// because it had not yet been loaded the first time this method was called,
   /// then the `onChanged` callback passed to [DecorationImage.createPainter]
   /// will be called.
   void paint(Canvas canvas, Rect rect, Path clipPath, ImageConfiguration configuration) {
     assert(canvas != null);
     assert(rect != null);
     assert(configuration != null);

     bool flipHorizontally = false;
     if (_details.matchTextDirection) {
       assert(() {
         // We check this first so that the assert will fire immediately, not just
         // when the image is ready.
         if (configuration.textDirection == null) {
           throw FlutterError.fromParts(<DiagnosticsNode>[
             ErrorSummary('DecorationImage.matchTextDirection can only be used when a TextDirection is available.'),
             ErrorDescription(
               'When DecorationImagePainter.paint() was called, there was no text direction provided '
               'in the ImageConfiguration object to match.'
             ),
             DiagnosticsProperty<DecorationImage>('The DecorationImage was', _details, style: DiagnosticsTreeStyle.errorProperty),
             DiagnosticsProperty<ImageConfiguration>('The ImageConfiguration was', configuration, style: DiagnosticsTreeStyle.errorProperty),
           ]);
         }
         return true;
       }());
       if (configuration.textDirection == TextDirection.rtl)
         flipHorizontally = true;
     }

     final ImageStream newImageStream = _details.image.resolve(configuration);
     if (newImageStream.key != _imageStream?.key) {
       final ImageStreamListener listener = ImageStreamListener(
         _handleImage,
         onError: _details.onError,
       );
       _imageStream?.removeListener(listener);
       _imageStream = newImageStream;
       _imageStream.addListener(listener);
     }
     if (_image == null)
       return;

     if (clipPath != null) {
       canvas.save();
       canvas.clipPath(clipPath);
     }

     paintImage(
       canvas: canvas,
       rect: rect,
       image: _image.image,
       scale: _image.scale,
       colorFilter: _details.colorFilter,
       fit: _details.fit,
       alignment: _details.alignment.resolve(configuration.textDirection),
       centerSlice: _details.centerSlice,
       repeat: _details.repeat,
       flipHorizontally: flipHorizontally,
       filterQuality: FilterQuality.low,
     );

     if (clipPath != null)
       canvas.restore();
   }

   void _handleImage(ImageInfo value, bool synchronousCall) {
     if (_image == value)
       return;
     _image = value;
     assert(_onChanged != null);
     if (!synchronousCall)
       _onChanged();
   }

   /// Releases the resources used by this painter.
   ///
   /// This should be called whenever the painter is no longer needed.
   ///
   /// After this method has been called, the object is no longer usable.
   @mustCallSuper
   void dispose() {
     _imageStream?.removeListener(ImageStreamListener(
       _handleImage,
       onError: _details.onError,
     ));
   }

   @override
   String toString() {
     return '${objectRuntimeType(this, 'DecorationImagePainter')}(stream: $_imageStream, image: $_image) for $_details';
   }
 }

 /// Paints an image into the given rectangle on the canvas.
 ///
 /// The arguments have the following meanings:
 ///
 ///  * `canvas`: The canvas onto which the image will be painted.
 ///
 ///  * `rect`: The region of the canvas into which the image will be painted.
 ///    The image might not fill the entire rectangle (e.g., depending on the
 ///    `fit`). If `rect` is empty, nothing is painted.
 ///
 ///  * `image`: The image to paint onto the canvas.
 ///
 ///  * `scale`: The number of image pixels for each logical pixel.
 ///
 ///  * `colorFilter`: If non-null, the color filter to apply when painting the
 ///    image.
 ///
 ///  * `fit`: How the image should be inscribed into `rect`. If null, the
 ///    default behavior depends on `centerSlice`. If `centerSlice` is also null,
 ///    the default behavior is [BoxFit.scaleDown]. If `centerSlice` is
 ///    non-null, the default behavior is [BoxFit.fill]. See [BoxFit] for
 ///    details.
 ///
 ///  * `alignment`: How the destination rectangle defined by applying `fit` is
 ///    aligned within `rect`. For example, if `fit` is [BoxFit.contain] and
 ///    `alignment` is [Alignment.bottomRight], the image will be as large
 ///    as possible within `rect` and placed with its bottom right corner at the
 ///    bottom right corner of `rect`. Defaults to [Alignment.center].
 ///
 ///  * `centerSlice`: The image is drawn in nine portions described by splitting
 ///    the image by drawing two horizontal lines and two vertical lines, where
 ///    `centerSlice` describes the rectangle formed by the four points where
 ///    these four lines intersect each other. (This forms a 3-by-3 grid
 ///    of regions, the center region being described by `centerSlice`.)
 ///    The four regions in the corners are drawn, without scaling, in the four
 ///    corners of the destination rectangle defined by applying `fit`. The
 ///    remaining five regions are drawn by stretching them to fit such that they
 ///    exactly cover the destination rectangle while maintaining their relative
 ///    positions.
 ///
 ///  * `repeat`: If the image does not fill `rect`, whether and how the image
 ///    should be repeated to fill `rect`. By default, the image is not repeated.
 ///    See [ImageRepeat] for details.
 ///
 ///  * `flipHorizontally`: Whether to flip the image horizontally. This is
 ///    occasionally used with images in right-to-left environments, for images
 ///    that were designed for left-to-right locales (or vice versa). Be careful,
 ///    when using this, to not flip images with integral shadows, text, or other
 ///    effects that will look incorrect when flipped.
 ///
 ///  * `invertColors`: 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.
 ///
 ///  * `filterQuality`: Use this to change the quality when scaling an 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.
 ///
 /// The `canvas`, `rect`, `image`, `scale`, `alignment`, `repeat`, `flipHorizontally` and `filterQuality`
 /// arguments must not be null.
 ///
 /// See also:
 ///
 ///  * [paintBorder], which paints a border around a rectangle on a canvas.
 ///  * [DecorationImage], which holds a configuration for calling this function.
 ///  * [BoxDecoration], which uses this function to paint a [DecorationImage].
 void paintImage({
   @required Canvas canvas,
   @required Rect rect,
   @required ui.Image image,
   double scale = 1.0,
   ColorFilter colorFilter,
   BoxFit fit,
   Alignment alignment = Alignment.center,
   Rect centerSlice,
   ImageRepeat repeat = ImageRepeat.noRepeat,
   bool flipHorizontally = false,
   bool invertColors = false,
   FilterQuality filterQuality = FilterQuality.low,
 }) {
   assert(canvas != null);
   assert(image != null);
   assert(alignment != null);
   assert(repeat != null);
   assert(flipHorizontally != null);
   if (rect.isEmpty)
     return;
   Size outputSize = rect.size;
   Size inputSize = Size(image.width.toDouble(), image.height.toDouble());
   Offset sliceBorder;
   if (centerSlice != null) {
     sliceBorder = Offset(
       centerSlice.left + inputSize.width - centerSlice.right,
       centerSlice.top + inputSize.height - centerSlice.bottom,
     );
     outputSize = outputSize - sliceBorder as Size;
     inputSize = inputSize - sliceBorder as Size;
   }
   fit ??= centerSlice == null ? BoxFit.scaleDown : BoxFit.fill;
   assert(centerSlice == null || (fit != BoxFit.none && fit != BoxFit.cover));
   final FittedSizes fittedSizes = applyBoxFit(fit, inputSize / scale, outputSize);
   final Size sourceSize = fittedSizes.source * scale;
   Size destinationSize = fittedSizes.destination;
   if (centerSlice != null) {
     outputSize += sliceBorder;
     destinationSize += sliceBorder;
     // We don't have the ability to draw a subset of the image at the same time
     // as we apply a nine-patch stretch.
     assert(sourceSize == inputSize, 'centerSlice was used with a BoxFit that does not guarantee that the image is fully visible.');
   }
   if (repeat != ImageRepeat.noRepeat && destinationSize == outputSize) {
     // There's no need to repeat the image because we're exactly filling the
     // output rect with the image.
     repeat = ImageRepeat.noRepeat;
   }
   final Paint paint = Paint()..isAntiAlias = false;
   if (colorFilter != null)
     paint.colorFilter = colorFilter;
   if (sourceSize != destinationSize) {
     paint.filterQuality = filterQuality;
   }
   paint.invertColors = invertColors;
   final double halfWidthDelta = (outputSize.width - destinationSize.width) / 2.0;
   final double halfHeightDelta = (outputSize.height - destinationSize.height) / 2.0;
   final double dx = halfWidthDelta + (flipHorizontally ? -alignment.x : alignment.x) * halfWidthDelta;
   final double dy = halfHeightDelta + alignment.y * halfHeightDelta;
   final Offset destinationPosition = rect.topLeft.translate(dx, dy);
   final Rect destinationRect = destinationPosition & destinationSize;
   final bool needSave = repeat != ImageRepeat.noRepeat || flipHorizontally;
   if (needSave)
     canvas.save();
   if (repeat != ImageRepeat.noRepeat)
     canvas.clipRect(rect);
   if (flipHorizontally) {
     final double dx = -(rect.left + rect.width / 2.0);
     canvas.translate(-dx, 0.0);
     canvas.scale(-1.0, 1.0);
     canvas.translate(dx, 0.0);
   }
   if (centerSlice == null) {
     final Rect sourceRect = alignment.inscribe(
       sourceSize, Offset.zero & inputSize,
     );
     if (repeat == ImageRepeat.noRepeat) {
       canvas.drawImageRect(image, sourceRect, destinationRect, paint);
     } else {
       for (final Rect tileRect in _generateImageTileRects(rect, destinationRect, repeat))
         canvas.drawImageRect(image, sourceRect, tileRect, paint);
     }
   } else {
     if (repeat == ImageRepeat.noRepeat) {
       canvas.drawImageNine(image, centerSlice, destinationRect, paint);
     } else {
       for (final Rect tileRect in _generateImageTileRects(rect, destinationRect, repeat))
         canvas.drawImageNine(image, centerSlice, tileRect, paint);
     }
   }
   if (needSave)
     canvas.restore();
 }

 Iterable<Rect> _generateImageTileRects(Rect outputRect, Rect fundamentalRect, ImageRepeat repeat) sync* {
   int startX = 0;
   int startY = 0;
   int stopX = 0;
   int stopY = 0;
   final double strideX = fundamentalRect.width;
   final double strideY = fundamentalRect.height;

   if (repeat == ImageRepeat.repeat || repeat == ImageRepeat.repeatX) {
     startX = ((outputRect.left - fundamentalRect.left) / strideX).floor();
     stopX = ((outputRect.right - fundamentalRect.right) / strideX).ceil();
   }

   if (repeat == ImageRepeat.repeat || repeat == ImageRepeat.repeatY) {
     startY = ((outputRect.top - fundamentalRect.top) / strideY).floor();
     stopY = ((outputRect.bottom - fundamentalRect.bottom) / strideY).ceil();
   }

   for (int i = startX; i <= stopX; ++i) {
     for (int j = startY; j <= stopY; ++j)
       yield fundamentalRect.shift(Offset(i * strideX, j * strideY));
   }
 }
	// 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/foundation.dart';

	import 'alignment.dart';
	import 'basic_types.dart';
	import 'borders.dart';
	import 'box_fit.dart';
	import 'image_provider.dart';
	import 'image_stream.dart';

	/// How to paint any portions of a box not covered by an image.
	enum ImageRepeat {
	/// Repeat the image in both the x and y directions until the box is filled.
	repeat,

	/// Repeat the image in the x direction until the box is filled horizontally.
	repeatX,

	/// Repeat the image in the y direction until the box is filled vertically.
	repeatY,

	/// Leave uncovered portions of the box transparent.
	noRepeat,
	}

	/// An image for a box decoration.
	///
	/// The image is painted using [paintImage], which describes the meanings of the
	/// various fields on this class in more detail.
	@immutable
	class DecorationImage {
	/// Creates an image to show in a [BoxDecoration].
	///
	/// The [image], [alignment], [repeat], and [matchTextDirection] arguments
	/// must not be null.
	const DecorationImage({
	@required this.image,
	this.onError,
	this.colorFilter,
	this.fit,
	this.alignment = Alignment.center,
	this.centerSlice,
	this.repeat = ImageRepeat.noRepeat,
	this.matchTextDirection = false,
	}) : assert(image != null),
	assert(alignment != null),
	assert(repeat != null),
	assert(matchTextDirection != null);

	/// The image to be painted into the decoration.
	///
	/// Typically this will be an [AssetImage] (for an image shipped with the
	/// application) or a [NetworkImage] (for an image obtained from the network).
	final ImageProvider image;

	/// An optional error callback for errors emitted when loading [image].
	final ImageErrorListener onError;

	/// A color filter to apply to the image before painting it.
	final ColorFilter colorFilter;

	/// How the image should be inscribed into the box.
	///
	/// The default is [BoxFit.scaleDown] if [centerSlice] is null, and
	/// [BoxFit.fill] if [centerSlice] is not null.
	///
	/// See the discussion at [paintImage] for more details.
	final BoxFit fit;

	/// How to align the image within its bounds.
	///
	/// The alignment aligns the given position in the image to the given position
	/// in the layout bounds. For example, an [Alignment] alignment of (-1.0,
	/// -1.0) aligns the image to the top-left corner of its layout bounds, while a
	/// [Alignment] alignment of (1.0, 1.0) aligns the bottom right of the
	/// image with the bottom right corner of its layout bounds. Similarly, an
	/// alignment of (0.0, 1.0) aligns the bottom middle of the image with the
	/// middle of the bottom edge of its layout bounds.
	///
	/// To display a subpart of an image, consider using a [CustomPainter] and
	/// [Canvas.drawImageRect].
	///
	/// If the [alignment] is [TextDirection]-dependent (i.e. if it is a
	/// [AlignmentDirectional]), then a [TextDirection] must be available
	/// when the image is painted.
	///
	/// Defaults to [Alignment.center].
	///
	/// See also:
	///
	/// * [Alignment], a class with convenient constants typically used to
	/// specify an [AlignmentGeometry].
	/// * [AlignmentDirectional], like [Alignment] for specifying alignments
	/// relative to text direction.
	final AlignmentGeometry alignment;

	/// 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.
	///
	/// The stretching will be applied in order to make the image fit into the box
	/// specified by [fit]. When [centerSlice] is not null, [fit] defaults to
	/// [BoxFit.fill], which distorts the destination image size relative to the
	/// image's original aspect ratio. Values of [BoxFit] which do not distort the
	/// destination image size will result in [centerSlice] having no effect
	/// (since the nine regions of the image will be rendered with the same
	/// scaling, as if it wasn't specified).
	final Rect centerSlice;

	/// How to paint any portions of the box that would not otherwise be covered
	/// by the image.
	final ImageRepeat repeat;

	/// 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.
	final bool matchTextDirection;

	/// Creates a [DecorationImagePainter] for this [DecorationImage].
	///
	/// The `onChanged` argument must not be null. It will be called whenever the
	/// image needs to be repainted, e.g. because it is loading incrementally or
	/// because it is animated.
	DecorationImagePainter createPainter(VoidCallback onChanged) {
	assert(onChanged != null);
	return DecorationImagePainter._(this, onChanged);
	}

	@override
	bool operator ==(Object other) {
	if (identical(this, other))
	return true;
	if (other.runtimeType != runtimeType)
	return false;
	return other is DecorationImage
	&& other.image == image
	&& other.colorFilter == colorFilter
	&& other.fit == fit
	&& other.alignment == alignment
	&& other.centerSlice == centerSlice
	&& other.repeat == repeat
	&& other.matchTextDirection == matchTextDirection;
	}

	@override
	int get hashCode => hashValues(image, colorFilter, fit, alignment, centerSlice, repeat, matchTextDirection);

	@override
	String toString() {
	final List<String> properties = <String>[
	'$image',
	if (colorFilter != null)
	'$colorFilter',
	if (fit != null &&
	!(fit == BoxFit.fill && centerSlice != null) &&
	!(fit == BoxFit.scaleDown && centerSlice == null))
	'$fit',
	'$alignment',
	if (centerSlice != null)
	'centerSlice: $centerSlice',
	if (repeat != ImageRepeat.noRepeat)
	'$repeat',
	if (matchTextDirection)
	'match text direction',
	];
	return '${objectRuntimeType(this, 'DecorationImage')}(${properties.join(", ")})';
	}
	}

	/// The painter for a [DecorationImage].
	///
	/// To obtain a painter, call [DecorationImage.createPainter].
	///
	/// To paint, call [paint]. The `onChanged` callback passed to
	/// [DecorationImage.createPainter] will be called if the image needs to paint
	/// again (e.g. because it is animated or because it had not yet loaded the
	/// first time the [paint] method was called).
	///
	/// This object should be disposed using the [dispose] method when it is no
	/// longer needed.
	class DecorationImagePainter {
	DecorationImagePainter._(this._details, this._onChanged) : assert(_details != null);

	final DecorationImage _details;
	final VoidCallback _onChanged;

	ImageStream _imageStream;
	ImageInfo _image;

	/// Draw the image onto the given canvas.
	///
	/// The image is drawn at the position and size given by the `rect` argument.
	///
	/// The image is clipped to the given `clipPath`, if any.
	///
	/// The `configuration` object is used to resolve the image (e.g. to pick
	/// resolution-specific assets), and to implement the
	/// [DecorationImage.matchTextDirection] feature.
	///
	/// If the image needs to be painted again, e.g. because it is animated or
	/// because it had not yet been loaded the first time this method was called,
	/// then the `onChanged` callback passed to [DecorationImage.createPainter]
	/// will be called.
	void paint(Canvas canvas, Rect rect, Path clipPath, ImageConfiguration configuration) {
	assert(canvas != null);
	assert(rect != null);
	assert(configuration != null);

	bool flipHorizontally = false;
	if (_details.matchTextDirection) {
	assert(() {
	// We check this first so that the assert will fire immediately, not just
	// when the image is ready.
	if (configuration.textDirection == null) {
	throw FlutterError.fromParts(<DiagnosticsNode>[
	ErrorSummary('DecorationImage.matchTextDirection can only be used when a TextDirection is available.'),
	ErrorDescription(
	'When DecorationImagePainter.paint() was called, there was no text direction provided '
	'in the ImageConfiguration object to match.'
	),
	DiagnosticsProperty<DecorationImage>('The DecorationImage was', _details, style: DiagnosticsTreeStyle.errorProperty),
	DiagnosticsProperty<ImageConfiguration>('The ImageConfiguration was', configuration, style: DiagnosticsTreeStyle.errorProperty),
	]);
	}
	return true;
	}());
	if (configuration.textDirection == TextDirection.rtl)
	flipHorizontally = true;
	}

	final ImageStream newImageStream = _details.image.resolve(configuration);
	if (newImageStream.key != _imageStream?.key) {
	final ImageStreamListener listener = ImageStreamListener(
	_handleImage,
	onError: _details.onError,
	);
	_imageStream?.removeListener(listener);
	_imageStream = newImageStream;
	_imageStream.addListener(listener);
	}
	if (_image == null)
	return;

	if (clipPath != null) {
	canvas.save();
	canvas.clipPath(clipPath);
	}

	paintImage(
	canvas: canvas,
	rect: rect,
	image: _image.image,
	scale: _image.scale,
	colorFilter: _details.colorFilter,
	fit: _details.fit,
	alignment: _details.alignment.resolve(configuration.textDirection),
	centerSlice: _details.centerSlice,
	repeat: _details.repeat,
	flipHorizontally: flipHorizontally,
	filterQuality: FilterQuality.low,
	);

	if (clipPath != null)
	canvas.restore();
	}

	void _handleImage(ImageInfo value, bool synchronousCall) {
	if (_image == value)
	return;
	_image = value;
	assert(_onChanged != null);
	if (!synchronousCall)
	_onChanged();
	}

	/// Releases the resources used by this painter.
	///
	/// This should be called whenever the painter is no longer needed.
	///
	/// After this method has been called, the object is no longer usable.
	@mustCallSuper
	void dispose() {
	_imageStream?.removeListener(ImageStreamListener(
	_handleImage,
	onError: _details.onError,
	));
	}

	@override
	String toString() {
	return '${objectRuntimeType(this, 'DecorationImagePainter')}(stream: $_imageStream, image: $_image) for $_details';
	}
	}

	/// Paints an image into the given rectangle on the canvas.
	///
	/// The arguments have the following meanings:
	///
	/// * `canvas`: The canvas onto which the image will be painted.
	///
	/// * `rect`: The region of the canvas into which the image will be painted.
	/// The image might not fill the entire rectangle (e.g., depending on the
	/// `fit`). If `rect` is empty, nothing is painted.
	///
	/// * `image`: The image to paint onto the canvas.
	///
	/// * `scale`: The number of image pixels for each logical pixel.
	///
	/// * `colorFilter`: If non-null, the color filter to apply when painting the
	/// image.
	///
	/// * `fit`: How the image should be inscribed into `rect`. If null, the
	/// default behavior depends on `centerSlice`. If `centerSlice` is also null,
	/// the default behavior is [BoxFit.scaleDown]. If `centerSlice` is
	/// non-null, the default behavior is [BoxFit.fill]. See [BoxFit] for
	/// details.
	///
	/// * `alignment`: How the destination rectangle defined by applying `fit` is
	/// aligned within `rect`. For example, if `fit` is [BoxFit.contain] and
	/// `alignment` is [Alignment.bottomRight], the image will be as large
	/// as possible within `rect` and placed with its bottom right corner at the
	/// bottom right corner of `rect`. Defaults to [Alignment.center].
	///
	/// * `centerSlice`: The image is drawn in nine portions described by splitting
	/// the image by drawing two horizontal lines and two vertical lines, where
	/// `centerSlice` describes the rectangle formed by the four points where
	/// these four lines intersect each other. (This forms a 3-by-3 grid
	/// of regions, the center region being described by `centerSlice`.)
	/// The four regions in the corners are drawn, without scaling, in the four
	/// corners of the destination rectangle defined by applying `fit`. The
	/// remaining five regions are drawn by stretching them to fit such that they
	/// exactly cover the destination rectangle while maintaining their relative
	/// positions.
	///
	/// * `repeat`: If the image does not fill `rect`, whether and how the image
	/// should be repeated to fill `rect`. By default, the image is not repeated.
	/// See [ImageRepeat] for details.
	///
	/// * `flipHorizontally`: Whether to flip the image horizontally. This is
	/// occasionally used with images in right-to-left environments, for images
	/// that were designed for left-to-right locales (or vice versa). Be careful,
	/// when using this, to not flip images with integral shadows, text, or other
	/// effects that will look incorrect when flipped.
	///
	/// * `invertColors`: 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.
	///
	/// * `filterQuality`: Use this to change the quality when scaling an 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.
	///
	/// The `canvas`, `rect`, `image`, `scale`, `alignment`, `repeat`, `flipHorizontally` and `filterQuality`
	/// arguments must not be null.
	///
	/// See also:
	///
	/// * [paintBorder], which paints a border around a rectangle on a canvas.
	/// * [DecorationImage], which holds a configuration for calling this function.
	/// * [BoxDecoration], which uses this function to paint a [DecorationImage].
	void paintImage({
	@required Canvas canvas,
	@required Rect rect,
	@required ui.Image image,
	double scale = 1.0,
	ColorFilter colorFilter,
	BoxFit fit,
	Alignment alignment = Alignment.center,
	Rect centerSlice,
	ImageRepeat repeat = ImageRepeat.noRepeat,
	bool flipHorizontally = false,
	bool invertColors = false,
	FilterQuality filterQuality = FilterQuality.low,
	}) {
	assert(canvas != null);
	assert(image != null);
	assert(alignment != null);
	assert(repeat != null);
	assert(flipHorizontally != null);
	if (rect.isEmpty)
	return;
	Size outputSize = rect.size;
	Size inputSize = Size(image.width.toDouble(), image.height.toDouble());
	Offset sliceBorder;
	if (centerSlice != null) {
	sliceBorder = Offset(
	centerSlice.left + inputSize.width - centerSlice.right,
	centerSlice.top + inputSize.height - centerSlice.bottom,
	);
	outputSize = outputSize - sliceBorder as Size;
	inputSize = inputSize - sliceBorder as Size;
	}
	fit ??= centerSlice == null ? BoxFit.scaleDown : BoxFit.fill;
	assert(centerSlice == null \|\| (fit != BoxFit.none && fit != BoxFit.cover));
	final FittedSizes fittedSizes = applyBoxFit(fit, inputSize / scale, outputSize);
	final Size sourceSize = fittedSizes.source * scale;
	Size destinationSize = fittedSizes.destination;
	if (centerSlice != null) {
	outputSize += sliceBorder;
	destinationSize += sliceBorder;
	// We don't have the ability to draw a subset of the image at the same time
	// as we apply a nine-patch stretch.
	assert(sourceSize == inputSize, 'centerSlice was used with a BoxFit that does not guarantee that the image is fully visible.');
	}
	if (repeat != ImageRepeat.noRepeat && destinationSize == outputSize) {
	// There's no need to repeat the image because we're exactly filling the
	// output rect with the image.
	repeat = ImageRepeat.noRepeat;
	}
	final Paint paint = Paint()..isAntiAlias = false;
	if (colorFilter != null)
	paint.colorFilter = colorFilter;
	if (sourceSize != destinationSize) {
	paint.filterQuality = filterQuality;
	}
	paint.invertColors = invertColors;
	final double halfWidthDelta = (outputSize.width - destinationSize.width) / 2.0;
	final double halfHeightDelta = (outputSize.height - destinationSize.height) / 2.0;
	final double dx = halfWidthDelta + (flipHorizontally ? -alignment.x : alignment.x) * halfWidthDelta;
	final double dy = halfHeightDelta + alignment.y * halfHeightDelta;
	final Offset destinationPosition = rect.topLeft.translate(dx, dy);
	final Rect destinationRect = destinationPosition & destinationSize;
	final bool needSave = repeat != ImageRepeat.noRepeat \|\| flipHorizontally;
	if (needSave)
	canvas.save();
	if (repeat != ImageRepeat.noRepeat)
	canvas.clipRect(rect);
	if (flipHorizontally) {
	final double dx = -(rect.left + rect.width / 2.0);
	canvas.translate(-dx, 0.0);
	canvas.scale(-1.0, 1.0);
	canvas.translate(dx, 0.0);
	}
	if (centerSlice == null) {
	final Rect sourceRect = alignment.inscribe(
	sourceSize, Offset.zero & inputSize,
	);
	if (repeat == ImageRepeat.noRepeat) {
	canvas.drawImageRect(image, sourceRect, destinationRect, paint);
	} else {
	for (final Rect tileRect in _generateImageTileRects(rect, destinationRect, repeat))
	canvas.drawImageRect(image, sourceRect, tileRect, paint);
	}
	} else {
	if (repeat == ImageRepeat.noRepeat) {
	canvas.drawImageNine(image, centerSlice, destinationRect, paint);
	} else {
	for (final Rect tileRect in _generateImageTileRects(rect, destinationRect, repeat))
	canvas.drawImageNine(image, centerSlice, tileRect, paint);
	}
	}
	if (needSave)
	canvas.restore();
	}

	Iterable<Rect> _generateImageTileRects(Rect outputRect, Rect fundamentalRect, ImageRepeat repeat) sync* {
	int startX = 0;
	int startY = 0;
	int stopX = 0;
	int stopY = 0;
	final double strideX = fundamentalRect.width;
	final double strideY = fundamentalRect.height;

	if (repeat == ImageRepeat.repeat \|\| repeat == ImageRepeat.repeatX) {
	startX = ((outputRect.left - fundamentalRect.left) / strideX).floor();
	stopX = ((outputRect.right - fundamentalRect.right) / strideX).ceil();
	}

	if (repeat == ImageRepeat.repeat \|\| repeat == ImageRepeat.repeatY) {
	startY = ((outputRect.top - fundamentalRect.top) / strideY).floor();
	stopY = ((outputRect.bottom - fundamentalRect.bottom) / strideY).ceil();
	}

	for (int i = startX; i <= stopX; ++i) {
	for (int j = startY; j <= stopY; ++j)
	yield fundamentalRect.shift(Offset(i * strideX, j * strideY));
	}
	}