sky/engine/core/frame/ImageBitmap.cpp - mojo-tools - Git at Google

 // Copyright 2013 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "sky/engine/config.h"
 #include "sky/engine/core/frame/ImageBitmap.h"

 #include "sky/engine/core/html/ImageData.h"
 #include "sky/engine/platform/graphics/BitmapImage.h"
 #include "sky/engine/platform/graphics/GraphicsContext.h"
 #include "sky/engine/platform/graphics/ImageBuffer.h"
 #include "sky/engine/wtf/RefPtr.h"

 namespace blink {

 static inline IntRect normalizeRect(const IntRect& rect)
 {
     return IntRect(std::min(rect.x(), rect.maxX()),
         std::min(rect.y(), rect.maxY()),
         std::max(rect.width(), -rect.width()),
         std::max(rect.height(), -rect.height()));
 }

 static inline PassRefPtr<Image> cropImage(Image* image, const IntRect& cropRect)
 {
     IntRect intersectRect = intersection(IntRect(IntPoint(), image->size()), cropRect);
     if (!intersectRect.width() || !intersectRect.height())
         return nullptr;

     SkBitmap cropped;
     image->nativeImageForCurrentFrame()->bitmap().extractSubset(&cropped, intersectRect);
     return BitmapImage::create(NativeImageSkia::create(cropped));
 }

 ImageBitmap::ImageBitmap(HTMLImageElement* image, const IntRect& cropRect)
     : m_imageElement(image)
     , m_bitmap(nullptr)
     , m_cropRect(cropRect)
 {
     IntRect srcRect = intersection(cropRect, IntRect(0, 0, image->width(), image->height()));
     m_bitmapRect = IntRect(IntPoint(std::max(0, -cropRect.x()), std::max(0, -cropRect.y())), srcRect.size());
     m_bitmapOffset = srcRect.location();

     if (!srcRect.width() || !srcRect.height())
         m_imageElement = nullptr;
     else
         m_imageElement->addClient(this);

 }

 ImageBitmap::ImageBitmap(ImageData* data, const IntRect& cropRect)
     : m_imageElement(nullptr)
     , m_cropRect(cropRect)
     , m_bitmapOffset(IntPoint())
 {
     IntRect srcRect = intersection(cropRect, IntRect(IntPoint(), data->size()));

     OwnPtr<ImageBuffer> buf = ImageBuffer::create(data->size());
     if (!buf)
         return;
     if (srcRect.width() > 0 && srcRect.height() > 0)
         buf->putByteArray(Premultiplied, data->data(), data->size(), srcRect, IntPoint(std::min(0, -cropRect.x()), std::min(0, -cropRect.y())));

     m_bitmap = buf->copyImage(DontCopyBackingStore);
     m_bitmapRect = IntRect(IntPoint(std::max(0, -cropRect.x()), std::max(0, -cropRect.y())),  srcRect.size());
 }

 ImageBitmap::ImageBitmap(ImageBitmap* bitmap, const IntRect& cropRect)
     : m_imageElement(bitmap->imageElement())
     , m_bitmap(nullptr)
     , m_cropRect(cropRect)
     , m_bitmapOffset(IntPoint())
 {
     IntRect oldBitmapRect = bitmap->bitmapRect();
     IntRect srcRect = intersection(cropRect, oldBitmapRect);
     m_bitmapRect = IntRect(IntPoint(std::max(0, oldBitmapRect.x() - cropRect.x()), std::max(0, oldBitmapRect.y() - cropRect.y())), srcRect.size());

     if (m_imageElement) {
         m_imageElement->addClient(this);
         m_bitmapOffset = srcRect.location();
     } else if (bitmap->bitmapImage()) {
         IntRect adjustedCropRect(IntPoint(cropRect.x() -oldBitmapRect.x(), cropRect.y() - oldBitmapRect.y()), cropRect.size());
         m_bitmap = cropImage(bitmap->bitmapImage().get(), adjustedCropRect);
     }
 }

 ImageBitmap::ImageBitmap(Image* image, const IntRect& cropRect)
     : m_imageElement(nullptr)
     , m_cropRect(cropRect)
 {
     IntRect srcRect = intersection(cropRect, IntRect(IntPoint(), image->size()));
     m_bitmap = cropImage(image, cropRect);
     m_bitmapRect = IntRect(IntPoint(std::max(0, -cropRect.x()), std::max(0, -cropRect.y())),  srcRect.size());
 }

 ImageBitmap::~ImageBitmap()
 {
 #if !ENABLE(OILPAN)
     if (m_imageElement)
         m_imageElement->removeClient(this);
 #endif
 }

 PassRefPtr<ImageBitmap> ImageBitmap::create(HTMLImageElement* image, const IntRect& cropRect)
 {
     IntRect normalizedCropRect = normalizeRect(cropRect);
     return adoptRef(new ImageBitmap(image, normalizedCropRect));
 }

 PassRefPtr<ImageBitmap> ImageBitmap::create(ImageData* data, const IntRect& cropRect)
 {
     IntRect normalizedCropRect = normalizeRect(cropRect);
     return adoptRef(new ImageBitmap(data, normalizedCropRect));
 }

 PassRefPtr<ImageBitmap> ImageBitmap::create(ImageBitmap* bitmap, const IntRect& cropRect)
 {
     IntRect normalizedCropRect = normalizeRect(cropRect);
     return adoptRef(new ImageBitmap(bitmap, normalizedCropRect));
 }

 PassRefPtr<ImageBitmap> ImageBitmap::create(Image* image, const IntRect& cropRect)
 {
     IntRect normalizedCropRect = normalizeRect(cropRect);
     return adoptRef(new ImageBitmap(image, normalizedCropRect));
 }

 void ImageBitmap::notifyImageSourceChanged()
 {
     m_bitmap = cropImage(m_imageElement->cachedImage()->image(), m_cropRect);
     m_bitmapOffset = IntPoint();
     m_imageElement = nullptr;
 }

 PassRefPtr<Image> ImageBitmap::bitmapImage() const
 {
     ASSERT((m_imageElement || m_bitmap || !m_bitmapRect.width() || !m_bitmapRect.height()) && (!m_imageElement || !m_bitmap));
     if (m_imageElement)
         return m_imageElement->cachedImage()->image();
     return m_bitmap;
 }

 }
	// Copyright 2013 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "sky/engine/config.h"
	#include "sky/engine/core/frame/ImageBitmap.h"

	#include "sky/engine/core/html/ImageData.h"
	#include "sky/engine/platform/graphics/BitmapImage.h"
	#include "sky/engine/platform/graphics/GraphicsContext.h"
	#include "sky/engine/platform/graphics/ImageBuffer.h"
	#include "sky/engine/wtf/RefPtr.h"

	namespace blink {

	static inline IntRect normalizeRect(const IntRect& rect)
	{
	return IntRect(std::min(rect.x(), rect.maxX()),
	std::min(rect.y(), rect.maxY()),
	std::max(rect.width(), -rect.width()),
	std::max(rect.height(), -rect.height()));
	}

	static inline PassRefPtr<Image> cropImage(Image* image, const IntRect& cropRect)
	{
	IntRect intersectRect = intersection(IntRect(IntPoint(), image->size()), cropRect);
	if (!intersectRect.width() \|\| !intersectRect.height())
	return nullptr;

	SkBitmap cropped;
	image->nativeImageForCurrentFrame()->bitmap().extractSubset(&cropped, intersectRect);
	return BitmapImage::create(NativeImageSkia::create(cropped));
	}

	ImageBitmap::ImageBitmap(HTMLImageElement* image, const IntRect& cropRect)
	: m_imageElement(image)
	, m_bitmap(nullptr)
	, m_cropRect(cropRect)
	{
	IntRect srcRect = intersection(cropRect, IntRect(0, 0, image->width(), image->height()));
	m_bitmapRect = IntRect(IntPoint(std::max(0, -cropRect.x()), std::max(0, -cropRect.y())), srcRect.size());
	m_bitmapOffset = srcRect.location();

	if (!srcRect.width() \|\| !srcRect.height())
	m_imageElement = nullptr;
	else
	m_imageElement->addClient(this);

	}

	ImageBitmap::ImageBitmap(ImageData* data, const IntRect& cropRect)
	: m_imageElement(nullptr)
	, m_cropRect(cropRect)
	, m_bitmapOffset(IntPoint())
	{
	IntRect srcRect = intersection(cropRect, IntRect(IntPoint(), data->size()));

	OwnPtr<ImageBuffer> buf = ImageBuffer::create(data->size());
	if (!buf)
	return;
	if (srcRect.width() > 0 && srcRect.height() > 0)
	buf->putByteArray(Premultiplied, data->data(), data->size(), srcRect, IntPoint(std::min(0, -cropRect.x()), std::min(0, -cropRect.y())));

	m_bitmap = buf->copyImage(DontCopyBackingStore);
	m_bitmapRect = IntRect(IntPoint(std::max(0, -cropRect.x()), std::max(0, -cropRect.y())), srcRect.size());
	}

	ImageBitmap::ImageBitmap(ImageBitmap* bitmap, const IntRect& cropRect)
	: m_imageElement(bitmap->imageElement())
	, m_bitmap(nullptr)
	, m_cropRect(cropRect)
	, m_bitmapOffset(IntPoint())
	{
	IntRect oldBitmapRect = bitmap->bitmapRect();
	IntRect srcRect = intersection(cropRect, oldBitmapRect);
	m_bitmapRect = IntRect(IntPoint(std::max(0, oldBitmapRect.x() - cropRect.x()), std::max(0, oldBitmapRect.y() - cropRect.y())), srcRect.size());

	if (m_imageElement) {
	m_imageElement->addClient(this);
	m_bitmapOffset = srcRect.location();
	} else if (bitmap->bitmapImage()) {
	IntRect adjustedCropRect(IntPoint(cropRect.x() -oldBitmapRect.x(), cropRect.y() - oldBitmapRect.y()), cropRect.size());
	m_bitmap = cropImage(bitmap->bitmapImage().get(), adjustedCropRect);
	}
	}

	ImageBitmap::ImageBitmap(Image* image, const IntRect& cropRect)
	: m_imageElement(nullptr)
	, m_cropRect(cropRect)
	{
	IntRect srcRect = intersection(cropRect, IntRect(IntPoint(), image->size()));
	m_bitmap = cropImage(image, cropRect);
	m_bitmapRect = IntRect(IntPoint(std::max(0, -cropRect.x()), std::max(0, -cropRect.y())), srcRect.size());
	}

	ImageBitmap::~ImageBitmap()
	{
	#if !ENABLE(OILPAN)
	if (m_imageElement)
	m_imageElement->removeClient(this);
	#endif
	}

	PassRefPtr<ImageBitmap> ImageBitmap::create(HTMLImageElement* image, const IntRect& cropRect)
	{
	IntRect normalizedCropRect = normalizeRect(cropRect);
	return adoptRef(new ImageBitmap(image, normalizedCropRect));
	}

	PassRefPtr<ImageBitmap> ImageBitmap::create(ImageData* data, const IntRect& cropRect)
	{
	IntRect normalizedCropRect = normalizeRect(cropRect);
	return adoptRef(new ImageBitmap(data, normalizedCropRect));
	}

	PassRefPtr<ImageBitmap> ImageBitmap::create(ImageBitmap* bitmap, const IntRect& cropRect)
	{
	IntRect normalizedCropRect = normalizeRect(cropRect);
	return adoptRef(new ImageBitmap(bitmap, normalizedCropRect));
	}

	PassRefPtr<ImageBitmap> ImageBitmap::create(Image* image, const IntRect& cropRect)
	{
	IntRect normalizedCropRect = normalizeRect(cropRect);
	return adoptRef(new ImageBitmap(image, normalizedCropRect));
	}

	void ImageBitmap::notifyImageSourceChanged()
	{
	m_bitmap = cropImage(m_imageElement->cachedImage()->image(), m_cropRect);
	m_bitmapOffset = IntPoint();
	m_imageElement = nullptr;
	}

	PassRefPtr<Image> ImageBitmap::bitmapImage() const
	{
	ASSERT((m_imageElement \|\| m_bitmap \|\| !m_bitmapRect.width() \|\| !m_bitmapRect.height()) && (!m_imageElement \|\| !m_bitmap));
	if (m_imageElement)
	return m_imageElement->cachedImage()->image();
	return m_bitmap;
	}

	}