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

 /*
  * Copyright (C) 2020-2021 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 "ImageBufferBackend.h"

 #include "GraphicsContext.h"
 #include "Image.h"
 #include "PixelBuffer.h"
 #include "PixelBufferConversion.h"

 namespace WebCore {

 IntSize ImageBufferBackend::calculateBackendSize(const Parameters& parameters)
 {
     FloatSize scaledSize = { ceilf(parameters.resolutionScale * parameters.logicalSize.width()), ceilf(parameters.resolutionScale * parameters.logicalSize.height()) };
     if (scaledSize.isEmpty() || !scaledSize.isExpressibleAsIntSize())
         return { };

     return IntSize(scaledSize);
 }

 size_t ImageBufferBackend::calculateMemoryCost(const IntSize& backendSize, unsigned bytesPerRow)
 {
     ASSERT(!backendSize.isEmpty());
     return CheckedUint32(backendSize.height()) * bytesPerRow;
 }

 ImageBufferBackend::ImageBufferBackend(const Parameters& parameters)
     : m_parameters(parameters)
 {
 }

 ImageBufferBackend::~ImageBufferBackend() = default;

 RefPtr<NativeImage> ImageBufferBackend::sinkIntoNativeImage()
 {
     return copyNativeImage(DontCopyBackingStore);
 }

 RefPtr<Image> ImageBufferBackend::sinkIntoImage(PreserveResolution preserveResolution)
 {
     return copyImage(DontCopyBackingStore, preserveResolution);
 }

 void ImageBufferBackend::drawConsuming(GraphicsContext& destinationContext, const FloatRect& destinationRect, const FloatRect& sourceRect, const ImagePaintingOptions& options)
 {
     draw(destinationContext, destinationRect, sourceRect, options);
 }

 void ImageBufferBackend::convertToLuminanceMask()
 {
     PixelBufferFormat format { AlphaPremultiplication::Unpremultiplied, PixelFormat::RGBA8, colorSpace() };
     auto pixelBuffer = getPixelBuffer(format, logicalRect());
     if (!pixelBuffer)
         return;

     auto& pixelArray = pixelBuffer->data();
     unsigned pixelArrayLength = pixelArray.length();
     for (unsigned pixelOffset = 0; pixelOffset < pixelArrayLength; pixelOffset += 4) {
         uint8_t a = pixelArray.item(pixelOffset + 3);
         if (!a)
             continue;
         uint8_t r = pixelArray.item(pixelOffset);
         uint8_t g = pixelArray.item(pixelOffset + 1);
         uint8_t b = pixelArray.item(pixelOffset + 2);

         double luma = (r * 0.2125 + g * 0.7154 + b * 0.0721) * ((double)a / 255.0);
         pixelArray.set(pixelOffset + 3, luma);
     }

     putPixelBuffer(*pixelBuffer, logicalRect(), IntPoint::zero(), AlphaPremultiplication::Premultiplied);
 }

 std::optional<PixelBuffer> ImageBufferBackend::getPixelBuffer(const PixelBufferFormat& destinationFormat, const IntRect& sourceRect, void* data) const
 {
     ASSERT(PixelBuffer::supportedPixelFormat(destinationFormat.pixelFormat));

     auto sourceRectScaled = toBackendCoordinates(sourceRect);

     auto pixelBuffer = PixelBuffer::tryCreate(destinationFormat, sourceRectScaled.size());
     if (!pixelBuffer)
         return std::nullopt;

     auto sourceRectClipped = intersection(backendRect(), sourceRectScaled);
     IntRect destinationRect { IntPoint::zero(), sourceRectClipped.size() };

     if (sourceRectScaled.x() < 0)
         destinationRect.setX(-sourceRectScaled.x());

     if (sourceRectScaled.y() < 0)
         destinationRect.setY(-sourceRectScaled.y());

     if (destinationRect.size() != sourceRectScaled.size())
         pixelBuffer->data().zeroFill();

     ConstPixelBufferConversionView source {
         { AlphaPremultiplication::Premultiplied, pixelFormat(), colorSpace() },
         bytesPerRow(),
         static_cast<uint8_t*>(data) + sourceRectClipped.y() * source.bytesPerRow + sourceRectClipped.x() * 4
     };

     PixelBufferConversionView destination {
         destinationFormat,
         static_cast<unsigned>(4 * sourceRectScaled.width()),
         pixelBuffer->data().data() + destinationRect.y() * destination.bytesPerRow + destinationRect.x() * 4
     };

     convertImagePixels(source, destination, destinationRect.size());

     return pixelBuffer;
 }

 void ImageBufferBackend::putPixelBuffer(const PixelBuffer& sourcePixelBuffer, const IntRect& sourceRect, const IntPoint& destinationPoint, AlphaPremultiplication destinationAlphaFormat, void* data)
 {
     auto sourceRectScaled = toBackendCoordinates(sourceRect);
     auto destinationPointScaled = toBackendCoordinates(destinationPoint);

     auto sourceRectClipped = intersection({ IntPoint::zero(), sourcePixelBuffer.size() }, sourceRectScaled);
     auto destinationRect = sourceRectClipped;
     destinationRect.moveBy(destinationPointScaled);

     if (sourceRectScaled.x() < 0)
         destinationRect.setX(destinationRect.x() - sourceRectScaled.x());

     if (sourceRectScaled.y() < 0)
         destinationRect.setY(destinationRect.y() - sourceRectScaled.y());

     destinationRect.intersect(backendRect());
     sourceRectClipped.setSize(destinationRect.size());

     ConstPixelBufferConversionView source {
         sourcePixelBuffer.format(),
         static_cast<unsigned>(4 * sourcePixelBuffer.size().width()),
         sourcePixelBuffer.data().data() + sourceRectClipped.y() * source.bytesPerRow + sourceRectClipped.x() * 4
     };

     PixelBufferConversionView destination {
         { destinationAlphaFormat, pixelFormat(), colorSpace() },
         bytesPerRow(),
         static_cast<uint8_t*>(data) + destinationRect.y() * destination.bytesPerRow + destinationRect.x() * 4
     };

     convertImagePixels(source, destination, destinationRect.size());
 }

 AffineTransform ImageBufferBackend::calculateBaseTransform(const Parameters& parameters, bool originAtBottomLeftCorner)
 {
     AffineTransform baseTransform;

     if (originAtBottomLeftCorner) {
         baseTransform.scale(1, -1);
         baseTransform.translate(0, -calculateBackendSize(parameters).height());
     }

     baseTransform.scale(parameters.resolutionScale);

     return baseTransform;
 }

 void ImageBufferBackend::applyBaseTransformToContext() const
 {
     auto& context = this->context();
     context.applyDeviceScaleFactor(m_parameters.resolutionScale);
     context.setCTM(calculateBaseTransform(m_parameters, originAtBottomLeftCorner()));
 }

 } // namespace WebCore
	/*
	* Copyright (C) 2020-2021 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 "ImageBufferBackend.h"

	#include "GraphicsContext.h"
	#include "Image.h"
	#include "PixelBuffer.h"
	#include "PixelBufferConversion.h"

	namespace WebCore {

	IntSize ImageBufferBackend::calculateBackendSize(const Parameters& parameters)
	{
	FloatSize scaledSize = { ceilf(parameters.resolutionScale * parameters.logicalSize.width()), ceilf(parameters.resolutionScale * parameters.logicalSize.height()) };
	if (scaledSize.isEmpty() \|\| !scaledSize.isExpressibleAsIntSize())
	return { };

	return IntSize(scaledSize);
	}

	size_t ImageBufferBackend::calculateMemoryCost(const IntSize& backendSize, unsigned bytesPerRow)
	{
	ASSERT(!backendSize.isEmpty());
	return CheckedUint32(backendSize.height()) * bytesPerRow;
	}

	ImageBufferBackend::ImageBufferBackend(const Parameters& parameters)
	: m_parameters(parameters)
	{
	}

	ImageBufferBackend::~ImageBufferBackend() = default;

	RefPtr<NativeImage> ImageBufferBackend::sinkIntoNativeImage()
	{
	return copyNativeImage(DontCopyBackingStore);
	}

	RefPtr<Image> ImageBufferBackend::sinkIntoImage(PreserveResolution preserveResolution)
	{
	return copyImage(DontCopyBackingStore, preserveResolution);
	}

	void ImageBufferBackend::drawConsuming(GraphicsContext& destinationContext, const FloatRect& destinationRect, const FloatRect& sourceRect, const ImagePaintingOptions& options)
	{
	draw(destinationContext, destinationRect, sourceRect, options);
	}

	void ImageBufferBackend::convertToLuminanceMask()
	{
	PixelBufferFormat format { AlphaPremultiplication::Unpremultiplied, PixelFormat::RGBA8, colorSpace() };
	auto pixelBuffer = getPixelBuffer(format, logicalRect());
	if (!pixelBuffer)
	return;

	auto& pixelArray = pixelBuffer->data();
	unsigned pixelArrayLength = pixelArray.length();
	for (unsigned pixelOffset = 0; pixelOffset < pixelArrayLength; pixelOffset += 4) {
	uint8_t a = pixelArray.item(pixelOffset + 3);
	if (!a)
	continue;
	uint8_t r = pixelArray.item(pixelOffset);
	uint8_t g = pixelArray.item(pixelOffset + 1);
	uint8_t b = pixelArray.item(pixelOffset + 2);

	double luma = (r * 0.2125 + g * 0.7154 + b * 0.0721) * ((double)a / 255.0);
	pixelArray.set(pixelOffset + 3, luma);
	}

	putPixelBuffer(*pixelBuffer, logicalRect(), IntPoint::zero(), AlphaPremultiplication::Premultiplied);
	}

	std::optional<PixelBuffer> ImageBufferBackend::getPixelBuffer(const PixelBufferFormat& destinationFormat, const IntRect& sourceRect, void* data) const
	{
	ASSERT(PixelBuffer::supportedPixelFormat(destinationFormat.pixelFormat));

	auto sourceRectScaled = toBackendCoordinates(sourceRect);

	auto pixelBuffer = PixelBuffer::tryCreate(destinationFormat, sourceRectScaled.size());
	if (!pixelBuffer)
	return std::nullopt;

	auto sourceRectClipped = intersection(backendRect(), sourceRectScaled);
	IntRect destinationRect { IntPoint::zero(), sourceRectClipped.size() };

	if (sourceRectScaled.x() < 0)
	destinationRect.setX(-sourceRectScaled.x());

	if (sourceRectScaled.y() < 0)
	destinationRect.setY(-sourceRectScaled.y());

	if (destinationRect.size() != sourceRectScaled.size())
	pixelBuffer->data().zeroFill();

	ConstPixelBufferConversionView source {
	{ AlphaPremultiplication::Premultiplied, pixelFormat(), colorSpace() },
	bytesPerRow(),
	static_cast<uint8_t>(data) + sourceRectClipped.y() source.bytesPerRow + sourceRectClipped.x() * 4
	};

	PixelBufferConversionView destination {
	destinationFormat,
	static_cast<unsigned>(4 * sourceRectScaled.width()),
	pixelBuffer->data().data() + destinationRect.y() * destination.bytesPerRow + destinationRect.x() * 4
	};

	convertImagePixels(source, destination, destinationRect.size());

	return pixelBuffer;
	}

	void ImageBufferBackend::putPixelBuffer(const PixelBuffer& sourcePixelBuffer, const IntRect& sourceRect, const IntPoint& destinationPoint, AlphaPremultiplication destinationAlphaFormat, void* data)
	{
	auto sourceRectScaled = toBackendCoordinates(sourceRect);
	auto destinationPointScaled = toBackendCoordinates(destinationPoint);

	auto sourceRectClipped = intersection({ IntPoint::zero(), sourcePixelBuffer.size() }, sourceRectScaled);
	auto destinationRect = sourceRectClipped;
	destinationRect.moveBy(destinationPointScaled);

	if (sourceRectScaled.x() < 0)
	destinationRect.setX(destinationRect.x() - sourceRectScaled.x());

	if (sourceRectScaled.y() < 0)
	destinationRect.setY(destinationRect.y() - sourceRectScaled.y());

	destinationRect.intersect(backendRect());
	sourceRectClipped.setSize(destinationRect.size());

	ConstPixelBufferConversionView source {
	sourcePixelBuffer.format(),
	static_cast<unsigned>(4 * sourcePixelBuffer.size().width()),
	sourcePixelBuffer.data().data() + sourceRectClipped.y() * source.bytesPerRow + sourceRectClipped.x() * 4
	};

	PixelBufferConversionView destination {
	{ destinationAlphaFormat, pixelFormat(), colorSpace() },
	bytesPerRow(),
	static_cast<uint8_t>(data) + destinationRect.y() destination.bytesPerRow + destinationRect.x() * 4
	};

	convertImagePixels(source, destination, destinationRect.size());
	}

	AffineTransform ImageBufferBackend::calculateBaseTransform(const Parameters& parameters, bool originAtBottomLeftCorner)
	{
	AffineTransform baseTransform;

	if (originAtBottomLeftCorner) {
	baseTransform.scale(1, -1);
	baseTransform.translate(0, -calculateBackendSize(parameters).height());
	}

	baseTransform.scale(parameters.resolutionScale);

	return baseTransform;
	}

	void ImageBufferBackend::applyBaseTransformToContext() const
	{
	auto& context = this->context();
	context.applyDeviceScaleFactor(m_parameters.resolutionScale);
	context.setCTM(calculateBaseTransform(m_parameters, originAtBottomLeftCorner()));
	}

	} // namespace WebCore