Source/WebCore/platform/graphics/Image.cpp - WebKit - Git at Google

 /*
  * Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com)
  * Copyright (C) 2004, 2005, 2006 Apple Inc.  All rights reserved.
  *
  * Redistribution and use in source and binary forms, with or without
  * modification, are permitted provided that the following conditions
  * are met:
  * 1. Redistributions of source code must retain the above copyright
  *    notice, this list of conditions and the following disclaimer.
  * 2. Redistributions in binary form must reproduce the above copyright
  *    notice, this list of conditions and the following disclaimer in the
  *    documentation and/or other materials provided with the distribution.
  *
  * THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
  * EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
  * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
  * PURPOSE ARE DISCLAIMED.  IN NO EVENT SHALL APPLE INC. OR
  * CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
  * EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
  * PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
  * PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
  * OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
  * (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
  * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
  */

 #include "config.h"
 #include "Image.h"

 #include "AffineTransform.h"
 #include "BitmapImage.h"
 #include "GraphicsContext.h"
 #include "ImageObserver.h"
 #include "Length.h"
 #include "MIMETypeRegistry.h"
 #include "SVGImage.h"
 #include "SharedBuffer.h"
 #include <math.h>
 #include <wtf/MainThread.h>
 #include <wtf/StdLibExtras.h>
 #include <wtf/URL.h>
 #include <wtf/text/TextStream.h>

 #if USE(CG)
 #include "PDFDocumentImage.h"
 #include <CoreFoundation/CoreFoundation.h>
 #endif

 namespace WebCore {

 Image::Image(ImageObserver* observer)
     : m_imageObserver(observer)
 {
 }

 Image::~Image() = default;

 Image& Image::nullImage()
 {
     ASSERT(isMainThread());
     static Image& nullImage = BitmapImage::create().leakRef();
     return nullImage;
 }

 RefPtr<Image> Image::create(ImageObserver& observer)
 {
     // SVGImage and PDFDocumentImage are not safe to use off the main thread.
     // Workers can use BitmapImage directly.
     ASSERT(isMainThread());

     auto mimeType = observer.mimeType();
     if (mimeType == "image/svg+xml")
         return SVGImage::create(observer);

     auto url = observer.sourceUrl();
     if (isPDFResource(mimeType, url) || isPostScriptResource(mimeType, url)) {
 #if USE(CG) && !USE(WEBKIT_IMAGE_DECODERS)
         return PDFDocumentImage::create(&observer);
 #else
         return nullptr;
 #endif
     }

     return BitmapImage::create(&observer);
 }

 bool Image::supportsType(const String& type)
 {
     return MIMETypeRegistry::isSupportedImageMIMEType(type);
 }

 bool Image::isPDFResource(const String& mimeType, const URL& url)
 {
     if (mimeType.isEmpty())
         return url.path().endsWithIgnoringASCIICase(".pdf");
     return MIMETypeRegistry::isPDFMIMEType(mimeType);
 }

 bool Image::isPostScriptResource(const String& mimeType, const URL& url)
 {
     if (mimeType.isEmpty())
         return url.path().endsWithIgnoringASCIICase(".ps");
     return MIMETypeRegistry::isPostScriptMIMEType(mimeType);
 }


 EncodedDataStatus Image::setData(RefPtr<SharedBuffer>&& data, bool allDataReceived)
 {
     m_encodedImageData = WTFMove(data);

     // Don't do anything; it is an empty image.
     if (!m_encodedImageData.get() || !m_encodedImageData->size())
         return EncodedDataStatus::Complete;

     return dataChanged(allDataReceived);
 }

 URL Image::sourceURL() const
 {
     return imageObserver() ? imageObserver()->sourceUrl() : URL();
 }

 String Image::mimeType() const
 {
     return imageObserver() ? imageObserver()->mimeType() : emptyString();
 }

 long long Image::expectedContentLength() const
 {
     return imageObserver() ? imageObserver()->expectedContentLength() : 0;
 }

 void Image::fillWithSolidColor(GraphicsContext& ctxt, const FloatRect& dstRect, const Color& color, CompositeOperator op)
 {
     if (!color.isVisible())
         return;

     CompositeOperator previousOperator = ctxt.compositeOperation();
     ctxt.setCompositeOperation(color.isOpaque() && op == CompositeOperator::SourceOver ? CompositeOperator::Copy : op);
     ctxt.fillRect(dstRect, color);
     ctxt.setCompositeOperation(previousOperator);
 }

 void Image::drawPattern(GraphicsContext& ctxt, const FloatRect& destRect, const FloatRect& tileRect, const AffineTransform& patternTransform,  const FloatPoint& phase, const FloatSize& spacing, const ImagePaintingOptions& options)
 {
     auto tileImage = preTransformedNativeImageForCurrentFrame(options.orientation() == ImageOrientation::FromImage);
     if (!tileImage)
         return;

     ctxt.drawPattern(*tileImage, size(), destRect, tileRect, patternTransform, phase, spacing, options);

     if (imageObserver())
         imageObserver()->didDraw(*this);
 }

 ImageDrawResult Image::drawForCanvas(GraphicsContext& context, const FloatRect& dstRect, const FloatRect& srcRect, const ImagePaintingOptions& options, DestinationColorSpace)
 {
     return draw(context, dstRect, srcRect, options);
 }

 ImageDrawResult Image::drawTiled(GraphicsContext& ctxt, const FloatRect& destRect, const FloatPoint& srcPoint, const FloatSize& scaledTileSize, const FloatSize& spacing, const ImagePaintingOptions& options)
 {
     Color color = singlePixelSolidColor();
     if (color.isValid()) {
         fillWithSolidColor(ctxt, destRect, color, options.compositeOperator());
         return ImageDrawResult::DidDraw;
     }

     ASSERT(!isBitmapImage() || notSolidColor());

     FloatSize intrinsicTileSize = size();
     if (hasRelativeWidth())
         intrinsicTileSize.setWidth(scaledTileSize.width());
     if (hasRelativeHeight())
         intrinsicTileSize.setHeight(scaledTileSize.height());

     FloatSize scale(scaledTileSize / intrinsicTileSize);

     FloatRect oneTileRect;
     FloatSize actualTileSize = scaledTileSize + spacing;
     oneTileRect.setX(destRect.x() + fmodf(fmodf(-srcPoint.x(), actualTileSize.width()) - actualTileSize.width(), actualTileSize.width()));
     oneTileRect.setY(destRect.y() + fmodf(fmodf(-srcPoint.y(), actualTileSize.height()) - actualTileSize.height(), actualTileSize.height()));
     oneTileRect.setSize(scaledTileSize);

     // Check and see if a single draw of the image can cover the entire area we are supposed to tile.
     if (oneTileRect.contains(destRect) && !ctxt.drawLuminanceMask()) {
         FloatRect visibleSrcRect;
         visibleSrcRect.setX((destRect.x() - oneTileRect.x()) / scale.width());
         visibleSrcRect.setY((destRect.y() - oneTileRect.y()) / scale.height());
         visibleSrcRect.setWidth(destRect.width() / scale.width());
         visibleSrcRect.setHeight(destRect.height() / scale.height());
         return draw(ctxt, destRect, visibleSrcRect, options);
     }

 #if PLATFORM(IOS_FAMILY)
     // FIXME: We should re-test this and remove this iOS behavior difference if possible.
     // When using accelerated drawing on iOS, it's faster to stretch an image than to tile it.
     if (ctxt.renderingMode() == RenderingMode::Accelerated) {
         if (size().width() == 1 && intersection(oneTileRect, destRect).height() == destRect.height()) {
             FloatRect visibleSrcRect;
             visibleSrcRect.setX(0);
             visibleSrcRect.setY((destRect.y() - oneTileRect.y()) / scale.height());
             visibleSrcRect.setWidth(1);
             visibleSrcRect.setHeight(destRect.height() / scale.height());
             return draw(ctxt, destRect, visibleSrcRect, { options, BlendMode::Normal });
         }
         if (size().height() == 1 && intersection(oneTileRect, destRect).width() == destRect.width()) {
             FloatRect visibleSrcRect;
             visibleSrcRect.setX((destRect.x() - oneTileRect.x()) / scale.width());
             visibleSrcRect.setY(0);
             visibleSrcRect.setWidth(destRect.width() / scale.width());
             visibleSrcRect.setHeight(1);
             return draw(ctxt, destRect, visibleSrcRect, { options, BlendMode::Normal });
         }
     }
 #endif

     // Patterned images and gradients can use lots of memory for caching when the
     // tile size is large (<rdar://problem/4691859>, <rdar://problem/6239505>).
     // Memory consumption depends on the transformed tile size which can get
     // larger than the original tile if user zooms in enough.
 #if PLATFORM(IOS_FAMILY)
     const float maxPatternTilePixels = 512 * 512;
 #else
     const float maxPatternTilePixels = 2048 * 2048;
 #endif
     FloatRect transformedTileSize = ctxt.getCTM().mapRect(FloatRect(FloatPoint(), scaledTileSize));
     float transformedTileSizePixels = transformedTileSize.width() * transformedTileSize.height();
     FloatRect currentTileRect = oneTileRect;
     if (transformedTileSizePixels > maxPatternTilePixels) {
         GraphicsContextStateSaver stateSaver(ctxt);
         ctxt.clip(destRect);

         currentTileRect.shiftYEdgeTo(destRect.y());
         float toY = currentTileRect.y();
         ImageDrawResult result = ImageDrawResult::DidNothing;
         while (toY < destRect.maxY()) {
             currentTileRect.shiftXEdgeTo(destRect.x());
             float toX = currentTileRect.x();
             while (toX < destRect.maxX()) {
                 FloatRect toRect(toX, toY, currentTileRect.width(), currentTileRect.height());
                 FloatRect fromRect(toFloatPoint(currentTileRect.location() - oneTileRect.location()), currentTileRect.size());
                 fromRect.scale(1 / scale.width(), 1 / scale.height());

                 result = draw(ctxt, toRect, fromRect, { options, BlendMode::Normal });
                 if (result == ImageDrawResult::DidRequestDecoding)
                     return result;
                 toX += currentTileRect.width();
                 currentTileRect.shiftXEdgeTo(oneTileRect.x());
             }
             toY += currentTileRect.height();
             currentTileRect.shiftYEdgeTo(oneTileRect.y());
         }
         return result;
     }

     AffineTransform patternTransform = AffineTransform().scaleNonUniform(scale.width(), scale.height());
     FloatRect tileRect(FloatPoint(), intrinsicTileSize);
     drawPattern(ctxt, destRect, tileRect, patternTransform, oneTileRect.location(), spacing, options);
     startAnimation();
     return ImageDrawResult::DidDraw;
 }

 // FIXME: Merge with the other drawTiled eventually, since we need a combination of both for some things.
 ImageDrawResult Image::drawTiled(GraphicsContext& ctxt, const FloatRect& dstRect, const FloatRect& srcRect, const FloatSize& tileScaleFactor, TileRule hRule, TileRule vRule, const ImagePaintingOptions& options)
 {
     Color color = singlePixelSolidColor();
     if (color.isValid()) {
         fillWithSolidColor(ctxt, dstRect, color, options.compositeOperator());
         return ImageDrawResult::DidDraw;
     }

     FloatSize tileScale = tileScaleFactor;
     FloatSize spacing;

     // FIXME: These rules follow CSS border-image rules, but they should not be down here in Image.
     bool centerOnGapHorizonally = false;
     bool centerOnGapVertically = false;
     switch (hRule) {
     case RoundTile: {
         int numItems = std::max<int>(floorf(dstRect.width() / srcRect.width()), 1);
         tileScale.setWidth(dstRect.width() / (srcRect.width() * numItems));
         break;
     }
     case SpaceTile: {
         int numItems = floorf(dstRect.width() / srcRect.width());
         if (!numItems)
             return ImageDrawResult::DidNothing;
         spacing.setWidth((dstRect.width() - srcRect.width() * numItems) / (numItems + 1));
         tileScale.setWidth(1);
         centerOnGapHorizonally = !(numItems & 1);
         break;
     }
     case StretchTile:
     case RepeatTile:
         break;
     }

     switch (vRule) {
     case RoundTile: {
         int numItems = std::max<int>(floorf(dstRect.height() / srcRect.height()), 1);
         tileScale.setHeight(dstRect.height() / (srcRect.height() * numItems));
         break;
         }
     case SpaceTile: {
         int numItems = floorf(dstRect.height() / srcRect.height());
         if (!numItems)
             return ImageDrawResult::DidNothing;
         spacing.setHeight((dstRect.height() - srcRect.height() * numItems) / (numItems + 1));
         tileScale.setHeight(1);
         centerOnGapVertically = !(numItems & 1);
         break;
     }
     case StretchTile:
     case RepeatTile:
         break;
     }

     AffineTransform patternTransform = AffineTransform().scaleNonUniform(tileScale.width(), tileScale.height());

     // We want to construct the phase such that the pattern is centered (when stretch is not
     // set for a particular rule).
     float hPhase = tileScale.width() * srcRect.x();
     float vPhase = tileScale.height() * srcRect.y();
     float scaledTileWidth = tileScale.width() * srcRect.width();
     float scaledTileHeight = tileScale.height() * srcRect.height();

     if (centerOnGapHorizonally)
         hPhase -= spacing.width();
     else if (hRule == Image::RepeatTile || hRule == Image::SpaceTile)
         hPhase -= (dstRect.width() - scaledTileWidth) / 2;

     if (centerOnGapVertically)
         vPhase -= spacing.height();
     else if (vRule == Image::RepeatTile || vRule == Image::SpaceTile)
         vPhase -= (dstRect.height() - scaledTileHeight) / 2;

     FloatPoint patternPhase(dstRect.x() - hPhase, dstRect.y() - vPhase);
     drawPattern(ctxt, dstRect, srcRect, patternTransform, patternPhase, spacing, options);
     startAnimation();
     return ImageDrawResult::DidDraw;
 }

 void Image::computeIntrinsicDimensions(Length& intrinsicWidth, Length& intrinsicHeight, FloatSize& intrinsicRatio)
 {
     intrinsicRatio = size();
     intrinsicWidth = Length(intrinsicRatio.width(), LengthType::Fixed);
     intrinsicHeight = Length(intrinsicRatio.height(), LengthType::Fixed);
 }

 void Image::startAnimationAsynchronously()
 {
     if (!m_animationStartTimer)
         m_animationStartTimer = makeUnique<Timer>(*this, &Image::startAnimation);
     if (m_animationStartTimer->isActive())
         return;
     m_animationStartTimer->startOneShot(0_s);
 }

 DestinationColorSpace Image::colorSpace()
 {
     return DestinationColorSpace::SRGB();
 }

 void Image::dump(TextStream& ts) const
 {
     if (isAnimated())
         ts.dumpProperty("animated", isAnimated());

     if (isNull())
         ts.dumpProperty("is-null-image", true);

     ts.dumpProperty("size", size());
 }

 TextStream& operator<<(TextStream& ts, const Image& image)
 {
     TextStream::GroupScope scope(ts);

     if (image.isBitmapImage())
         ts << "bitmap image";
     else if (image.isCrossfadeGeneratedImage())
         ts << "crossfade image";
     else if (image.isNamedImageGeneratedImage())
         ts << "named image";
     else if (image.isGradientImage())
         ts << "gradient image";
     else if (image.isSVGImage())
         ts << "svg image";
     else if (image.isSVGImageForContainer())
         ts << "svg image for container";
     else if (image.isPDFDocumentImage())
         ts << "pdf image";

     image.dump(ts);
     return ts;
 }

 #if !PLATFORM(COCOA) && !PLATFORM(GTK) && !PLATFORM(WIN)

 void BitmapImage::invalidatePlatformData()
 {
 }

 Ref<Image> Image::loadPlatformResource(const char* resource)
 {
     WTFLogAlways("WARNING: trying to load platform resource '%s'", resource);
     return BitmapImage::create();
 }

 #endif // !PLATFORM(COCOA) && !PLATFORM(GTK) && !PLATFORM(WIN)
 }
	/*
	* Copyright (C) 2006 Samuel Weinig (sam.weinig@gmail.com)
	* Copyright (C) 2004, 2005, 2006 Apple Inc. All rights reserved.
	*
	* Redistribution and use in source and binary forms, with or without
	* modification, are permitted provided that the following conditions
	* are met:
	* 1. Redistributions of source code must retain the above copyright
	* notice, this list of conditions and the following disclaimer.
	* 2. Redistributions in binary form must reproduce the above copyright
	* notice, this list of conditions and the following disclaimer in the
	* documentation and/or other materials provided with the distribution.
	*
	* THIS SOFTWARE IS PROVIDED BY APPLE INC. ``AS IS'' AND ANY
	* EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE
	* IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR
	* PURPOSE ARE DISCLAIMED. IN NO EVENT SHALL APPLE INC. OR
	* CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL,
	* EXEMPLARY, OR CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO,
	* PROCUREMENT OF SUBSTITUTE GOODS OR SERVICES; LOSS OF USE, DATA, OR
	* PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED AND ON ANY THEORY
	* OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT
	* (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE
	* OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE.
	*/

	#include "config.h"
	#include "Image.h"

	#include "AffineTransform.h"
	#include "BitmapImage.h"
	#include "GraphicsContext.h"
	#include "ImageObserver.h"
	#include "Length.h"
	#include "MIMETypeRegistry.h"
	#include "SVGImage.h"
	#include "SharedBuffer.h"
	#include <math.h>
	#include <wtf/MainThread.h>
	#include <wtf/StdLibExtras.h>
	#include <wtf/URL.h>
	#include <wtf/text/TextStream.h>

	#if USE(CG)
	#include "PDFDocumentImage.h"
	#include <CoreFoundation/CoreFoundation.h>
	#endif

	namespace WebCore {

	Image::Image(ImageObserver* observer)
	: m_imageObserver(observer)
	{
	}

	Image::~Image() = default;

	Image& Image::nullImage()
	{
	ASSERT(isMainThread());
	static Image& nullImage = BitmapImage::create().leakRef();
	return nullImage;
	}

	RefPtr<Image> Image::create(ImageObserver& observer)
	{
	// SVGImage and PDFDocumentImage are not safe to use off the main thread.
	// Workers can use BitmapImage directly.
	ASSERT(isMainThread());

	auto mimeType = observer.mimeType();
	if (mimeType == "image/svg+xml")
	return SVGImage::create(observer);

	auto url = observer.sourceUrl();
	if (isPDFResource(mimeType, url) \|\| isPostScriptResource(mimeType, url)) {
	#if USE(CG) && !USE(WEBKIT_IMAGE_DECODERS)
	return PDFDocumentImage::create(&observer);
	#else
	return nullptr;
	#endif
	}

	return BitmapImage::create(&observer);
	}

	bool Image::supportsType(const String& type)
	{
	return MIMETypeRegistry::isSupportedImageMIMEType(type);
	}

	bool Image::isPDFResource(const String& mimeType, const URL& url)
	{
	if (mimeType.isEmpty())
	return url.path().endsWithIgnoringASCIICase(".pdf");
	return MIMETypeRegistry::isPDFMIMEType(mimeType);
	}

	bool Image::isPostScriptResource(const String& mimeType, const URL& url)
	{
	if (mimeType.isEmpty())
	return url.path().endsWithIgnoringASCIICase(".ps");
	return MIMETypeRegistry::isPostScriptMIMEType(mimeType);
	}


	EncodedDataStatus Image::setData(RefPtr<SharedBuffer>&& data, bool allDataReceived)
	{
	m_encodedImageData = WTFMove(data);

	// Don't do anything; it is an empty image.
	if (!m_encodedImageData.get() \|\| !m_encodedImageData->size())
	return EncodedDataStatus::Complete;

	return dataChanged(allDataReceived);
	}

	URL Image::sourceURL() const
	{
	return imageObserver() ? imageObserver()->sourceUrl() : URL();
	}

	String Image::mimeType() const
	{
	return imageObserver() ? imageObserver()->mimeType() : emptyString();
	}

	long long Image::expectedContentLength() const
	{
	return imageObserver() ? imageObserver()->expectedContentLength() : 0;
	}

	void Image::fillWithSolidColor(GraphicsContext& ctxt, const FloatRect& dstRect, const Color& color, CompositeOperator op)
	{
	if (!color.isVisible())
	return;

	CompositeOperator previousOperator = ctxt.compositeOperation();
	ctxt.setCompositeOperation(color.isOpaque() && op == CompositeOperator::SourceOver ? CompositeOperator::Copy : op);
	ctxt.fillRect(dstRect, color);
	ctxt.setCompositeOperation(previousOperator);
	}

	void Image::drawPattern(GraphicsContext& ctxt, const FloatRect& destRect, const FloatRect& tileRect, const AffineTransform& patternTransform, const FloatPoint& phase, const FloatSize& spacing, const ImagePaintingOptions& options)
	{
	auto tileImage = preTransformedNativeImageForCurrentFrame(options.orientation() == ImageOrientation::FromImage);
	if (!tileImage)
	return;

	ctxt.drawPattern(*tileImage, size(), destRect, tileRect, patternTransform, phase, spacing, options);

	if (imageObserver())
	imageObserver()->didDraw(*this);
	}

	ImageDrawResult Image::drawForCanvas(GraphicsContext& context, const FloatRect& dstRect, const FloatRect& srcRect, const ImagePaintingOptions& options, DestinationColorSpace)
	{
	return draw(context, dstRect, srcRect, options);
	}

	ImageDrawResult Image::drawTiled(GraphicsContext& ctxt, const FloatRect& destRect, const FloatPoint& srcPoint, const FloatSize& scaledTileSize, const FloatSize& spacing, const ImagePaintingOptions& options)
	{
	Color color = singlePixelSolidColor();
	if (color.isValid()) {
	fillWithSolidColor(ctxt, destRect, color, options.compositeOperator());
	return ImageDrawResult::DidDraw;
	}

	ASSERT(!isBitmapImage() \|\| notSolidColor());

	FloatSize intrinsicTileSize = size();
	if (hasRelativeWidth())
	intrinsicTileSize.setWidth(scaledTileSize.width());
	if (hasRelativeHeight())
	intrinsicTileSize.setHeight(scaledTileSize.height());

	FloatSize scale(scaledTileSize / intrinsicTileSize);

	FloatRect oneTileRect;
	FloatSize actualTileSize = scaledTileSize + spacing;
	oneTileRect.setX(destRect.x() + fmodf(fmodf(-srcPoint.x(), actualTileSize.width()) - actualTileSize.width(), actualTileSize.width()));
	oneTileRect.setY(destRect.y() + fmodf(fmodf(-srcPoint.y(), actualTileSize.height()) - actualTileSize.height(), actualTileSize.height()));
	oneTileRect.setSize(scaledTileSize);

	// Check and see if a single draw of the image can cover the entire area we are supposed to tile.
	if (oneTileRect.contains(destRect) && !ctxt.drawLuminanceMask()) {
	FloatRect visibleSrcRect;
	visibleSrcRect.setX((destRect.x() - oneTileRect.x()) / scale.width());
	visibleSrcRect.setY((destRect.y() - oneTileRect.y()) / scale.height());
	visibleSrcRect.setWidth(destRect.width() / scale.width());
	visibleSrcRect.setHeight(destRect.height() / scale.height());
	return draw(ctxt, destRect, visibleSrcRect, options);
	}

	#if PLATFORM(IOS_FAMILY)
	// FIXME: We should re-test this and remove this iOS behavior difference if possible.
	// When using accelerated drawing on iOS, it's faster to stretch an image than to tile it.
	if (ctxt.renderingMode() == RenderingMode::Accelerated) {
	if (size().width() == 1 && intersection(oneTileRect, destRect).height() == destRect.height()) {
	FloatRect visibleSrcRect;
	visibleSrcRect.setX(0);
	visibleSrcRect.setY((destRect.y() - oneTileRect.y()) / scale.height());
	visibleSrcRect.setWidth(1);
	visibleSrcRect.setHeight(destRect.height() / scale.height());
	return draw(ctxt, destRect, visibleSrcRect, { options, BlendMode::Normal });
	}
	if (size().height() == 1 && intersection(oneTileRect, destRect).width() == destRect.width()) {
	FloatRect visibleSrcRect;
	visibleSrcRect.setX((destRect.x() - oneTileRect.x()) / scale.width());
	visibleSrcRect.setY(0);
	visibleSrcRect.setWidth(destRect.width() / scale.width());
	visibleSrcRect.setHeight(1);
	return draw(ctxt, destRect, visibleSrcRect, { options, BlendMode::Normal });
	}
	}
	#endif

	// Patterned images and gradients can use lots of memory for caching when the
	// tile size is large (<rdar://problem/4691859>, <rdar://problem/6239505>).
	// Memory consumption depends on the transformed tile size which can get
	// larger than the original tile if user zooms in enough.
	#if PLATFORM(IOS_FAMILY)
	const float maxPatternTilePixels = 512 * 512;
	#else
	const float maxPatternTilePixels = 2048 * 2048;
	#endif
	FloatRect transformedTileSize = ctxt.getCTM().mapRect(FloatRect(FloatPoint(), scaledTileSize));
	float transformedTileSizePixels = transformedTileSize.width() * transformedTileSize.height();
	FloatRect currentTileRect = oneTileRect;
	if (transformedTileSizePixels > maxPatternTilePixels) {
	GraphicsContextStateSaver stateSaver(ctxt);
	ctxt.clip(destRect);

	currentTileRect.shiftYEdgeTo(destRect.y());
	float toY = currentTileRect.y();
	ImageDrawResult result = ImageDrawResult::DidNothing;
	while (toY < destRect.maxY()) {
	currentTileRect.shiftXEdgeTo(destRect.x());
	float toX = currentTileRect.x();
	while (toX < destRect.maxX()) {
	FloatRect toRect(toX, toY, currentTileRect.width(), currentTileRect.height());
	FloatRect fromRect(toFloatPoint(currentTileRect.location() - oneTileRect.location()), currentTileRect.size());
	fromRect.scale(1 / scale.width(), 1 / scale.height());

	result = draw(ctxt, toRect, fromRect, { options, BlendMode::Normal });
	if (result == ImageDrawResult::DidRequestDecoding)
	return result;
	toX += currentTileRect.width();
	currentTileRect.shiftXEdgeTo(oneTileRect.x());
	}
	toY += currentTileRect.height();
	currentTileRect.shiftYEdgeTo(oneTileRect.y());
	}
	return result;
	}

	AffineTransform patternTransform = AffineTransform().scaleNonUniform(scale.width(), scale.height());
	FloatRect tileRect(FloatPoint(), intrinsicTileSize);
	drawPattern(ctxt, destRect, tileRect, patternTransform, oneTileRect.location(), spacing, options);
	startAnimation();
	return ImageDrawResult::DidDraw;
	}

	// FIXME: Merge with the other drawTiled eventually, since we need a combination of both for some things.
	ImageDrawResult Image::drawTiled(GraphicsContext& ctxt, const FloatRect& dstRect, const FloatRect& srcRect, const FloatSize& tileScaleFactor, TileRule hRule, TileRule vRule, const ImagePaintingOptions& options)
	{
	Color color = singlePixelSolidColor();
	if (color.isValid()) {
	fillWithSolidColor(ctxt, dstRect, color, options.compositeOperator());
	return ImageDrawResult::DidDraw;
	}

	FloatSize tileScale = tileScaleFactor;
	FloatSize spacing;

	// FIXME: These rules follow CSS border-image rules, but they should not be down here in Image.
	bool centerOnGapHorizonally = false;
	bool centerOnGapVertically = false;
	switch (hRule) {
	case RoundTile: {
	int numItems = std::max<int>(floorf(dstRect.width() / srcRect.width()), 1);
	tileScale.setWidth(dstRect.width() / (srcRect.width() * numItems));
	break;
	}
	case SpaceTile: {
	int numItems = floorf(dstRect.width() / srcRect.width());
	if (!numItems)
	return ImageDrawResult::DidNothing;
	spacing.setWidth((dstRect.width() - srcRect.width() * numItems) / (numItems + 1));
	tileScale.setWidth(1);
	centerOnGapHorizonally = !(numItems & 1);
	break;
	}
	case StretchTile:
	case RepeatTile:
	break;
	}

	switch (vRule) {
	case RoundTile: {
	int numItems = std::max<int>(floorf(dstRect.height() / srcRect.height()), 1);
	tileScale.setHeight(dstRect.height() / (srcRect.height() * numItems));
	break;
	}
	case SpaceTile: {
	int numItems = floorf(dstRect.height() / srcRect.height());
	if (!numItems)
	return ImageDrawResult::DidNothing;
	spacing.setHeight((dstRect.height() - srcRect.height() * numItems) / (numItems + 1));
	tileScale.setHeight(1);
	centerOnGapVertically = !(numItems & 1);
	break;
	}
	case StretchTile:
	case RepeatTile:
	break;
	}

	AffineTransform patternTransform = AffineTransform().scaleNonUniform(tileScale.width(), tileScale.height());

	// We want to construct the phase such that the pattern is centered (when stretch is not
	// set for a particular rule).
	float hPhase = tileScale.width() * srcRect.x();
	float vPhase = tileScale.height() * srcRect.y();
	float scaledTileWidth = tileScale.width() * srcRect.width();
	float scaledTileHeight = tileScale.height() * srcRect.height();

	if (centerOnGapHorizonally)
	hPhase -= spacing.width();
	else if (hRule == Image::RepeatTile \|\| hRule == Image::SpaceTile)
	hPhase -= (dstRect.width() - scaledTileWidth) / 2;

	if (centerOnGapVertically)
	vPhase -= spacing.height();
	else if (vRule == Image::RepeatTile \|\| vRule == Image::SpaceTile)
	vPhase -= (dstRect.height() - scaledTileHeight) / 2;

	FloatPoint patternPhase(dstRect.x() - hPhase, dstRect.y() - vPhase);
	drawPattern(ctxt, dstRect, srcRect, patternTransform, patternPhase, spacing, options);
	startAnimation();
	return ImageDrawResult::DidDraw;
	}

	void Image::computeIntrinsicDimensions(Length& intrinsicWidth, Length& intrinsicHeight, FloatSize& intrinsicRatio)
	{
	intrinsicRatio = size();
	intrinsicWidth = Length(intrinsicRatio.width(), LengthType::Fixed);
	intrinsicHeight = Length(intrinsicRatio.height(), LengthType::Fixed);
	}

	void Image::startAnimationAsynchronously()
	{
	if (!m_animationStartTimer)
	m_animationStartTimer = makeUnique<Timer>(*this, &Image::startAnimation);
	if (m_animationStartTimer->isActive())
	return;
	m_animationStartTimer->startOneShot(0_s);
	}

	DestinationColorSpace Image::colorSpace()
	{
	return DestinationColorSpace::SRGB();
	}

	void Image::dump(TextStream& ts) const
	{
	if (isAnimated())
	ts.dumpProperty("animated", isAnimated());

	if (isNull())
	ts.dumpProperty("is-null-image", true);

	ts.dumpProperty("size", size());
	}

	TextStream& operator<<(TextStream& ts, const Image& image)
	{
	TextStream::GroupScope scope(ts);

	if (image.isBitmapImage())
	ts << "bitmap image";
	else if (image.isCrossfadeGeneratedImage())
	ts << "crossfade image";
	else if (image.isNamedImageGeneratedImage())
	ts << "named image";
	else if (image.isGradientImage())
	ts << "gradient image";
	else if (image.isSVGImage())
	ts << "svg image";
	else if (image.isSVGImageForContainer())
	ts << "svg image for container";
	else if (image.isPDFDocumentImage())
	ts << "pdf image";

	image.dump(ts);
	return ts;
	}

	#if !PLATFORM(COCOA) && !PLATFORM(GTK) && !PLATFORM(WIN)

	void BitmapImage::invalidatePlatformData()
	{
	}

	Ref<Image> Image::loadPlatformResource(const char* resource)
	{
	WTFLogAlways("WARNING: trying to load platform resource '%s'", resource);
	return BitmapImage::create();
	}

	#endif // !PLATFORM(COCOA) && !PLATFORM(GTK) && !PLATFORM(WIN)
	}