skia/ext/bitmap_platform_device_linux.h - chromium/src - Git at Google

 // Copyright (c) 2009 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.

 #ifndef SKIA_EXT_BITMAP_PLATFORM_DEVICE_LINUX_H_
 #define SKIA_EXT_BITMAP_PLATFORM_DEVICE_LINUX_H_

 #include "base/ref_counted.h"
 #include "skia/ext/platform_device_linux.h"

 typedef struct _cairo_surface cairo_surface_t;

 // -----------------------------------------------------------------------------
 // Image byte ordering on Linux:
 //
 // Pixels are packed into 32-bit words these days. Even for 24-bit images,
 // often 8-bits will be left unused for alignment reasons. Thus, when you see
 // ARGB as the byte order you have to wonder if that's in memory order or
 // little-endian order. Here I'll write A.R.G.B to specifiy the memory order.
 //
 // GdkPixbuf's provide a nice backing store and defaults to R.G.B.A order.
 // They'll do the needed byte swapping to match the X server when drawn.
 //
 // Skia can be controled in skia/include/corecg/SkUserConfig.h (see bits about
 // SK_R32_SHIFT). For Linux we define it to be ARGB in registers. For little
 // endian machines that means B.G.R.A in memory.
 //
 // The image loaders are controlled in
 // webkit/port/platform/image-decoders/ImageDecoder.h (see setRGBA). These are
 // also configured for ARGB in registers.
 //
 // Cairo's only 32-bit mode is ARGB in registers.
 //
 // X servers commonly have a 32-bit visual with xRGB in registers (since they
 // typically don't do alpha blending of drawables at the user level. Composite
 // extensions aside.)
 //
 // We don't use GdkPixbuf because its byte order differs from the rest. Most
 // importantly, it differs from Cairo which, being a system library, is
 // something that we can't easily change.
 // -----------------------------------------------------------------------------

 namespace skia {

 // -----------------------------------------------------------------------------
 // This is the Linux bitmap backing for Skia. We create a Cairo image surface
 // to store the backing buffer. This buffer is BGRA in memory (on little-endian
 // machines).
 //
 // For now we are also using Cairo to paint to the Drawables so we provide an
 // accessor for getting the surface.
 //
 // This is all quite ok for test_shell. In the future we will want to use
 // shared memory between the renderer and the main process at least. In this
 // case we'll probably create the buffer from a precreated region of memory.
 // -----------------------------------------------------------------------------
 class BitmapPlatformDevice : public PlatformDevice {
   // A reference counted cairo surface
   class BitmapPlatformDeviceData;

  public:
   static BitmapPlatformDevice* Create(int width, int height, bool is_opaque);

   // This doesn't take ownership of |data|
   static BitmapPlatformDevice* Create(int width, int height,
                                       bool is_opaque, uint8_t* data);

   // Create a BitmapPlatformDeviceLinux from an already constructed bitmap;
   // you should probably be using Create(). This may become private later if
   // we ever have to share state between some native drawing UI and Skia, like
   // the Windows and Mac versions of this class do.
   //
   // This object takes ownership of @data.
   BitmapPlatformDevice(const SkBitmap& other, BitmapPlatformDeviceData* data);
   virtual ~BitmapPlatformDevice();
   BitmapPlatformDevice& operator=(const BitmapPlatformDevice& other);

   // A stub copy constructor.  Needs to be properly implemented.
   BitmapPlatformDevice(const BitmapPlatformDevice& other);

   // Bitmaps aren't vector graphics.
   virtual bool IsVectorial() { return false; }

   // If someone wants to paint on a Cairo surface version of our
   // buffer, then give them the surface we're already using.
   virtual cairo_t* beginPlatformPaint();

   // Loads the given transform and clipping region into the HDC. This is
   // overridden from SkDevice.
   virtual void setMatrixClip(const SkMatrix& transform, const SkRegion& region);

  private:
   static BitmapPlatformDevice* Create(int width, int height, bool is_opaque,
                                       cairo_surface_t* surface);

   scoped_refptr<BitmapPlatformDeviceData> data_;
 };

 }  // namespace skia

 #endif  // SKIA_EXT_BITMAP_PLATFORM_DEVICE_LINUX_H_
	// Copyright (c) 2009 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.

	#ifndef SKIA_EXT_BITMAP_PLATFORM_DEVICE_LINUX_H_
	#define SKIA_EXT_BITMAP_PLATFORM_DEVICE_LINUX_H_

	#include "base/ref_counted.h"
	#include "skia/ext/platform_device_linux.h"

	typedef struct _cairo_surface cairo_surface_t;

	// -----------------------------------------------------------------------------
	// Image byte ordering on Linux:
	//
	// Pixels are packed into 32-bit words these days. Even for 24-bit images,
	// often 8-bits will be left unused for alignment reasons. Thus, when you see
	// ARGB as the byte order you have to wonder if that's in memory order or
	// little-endian order. Here I'll write A.R.G.B to specifiy the memory order.
	//
	// GdkPixbuf's provide a nice backing store and defaults to R.G.B.A order.
	// They'll do the needed byte swapping to match the X server when drawn.
	//
	// Skia can be controled in skia/include/corecg/SkUserConfig.h (see bits about
	// SK_R32_SHIFT). For Linux we define it to be ARGB in registers. For little
	// endian machines that means B.G.R.A in memory.
	//
	// The image loaders are controlled in
	// webkit/port/platform/image-decoders/ImageDecoder.h (see setRGBA). These are
	// also configured for ARGB in registers.
	//
	// Cairo's only 32-bit mode is ARGB in registers.
	//
	// X servers commonly have a 32-bit visual with xRGB in registers (since they
	// typically don't do alpha blending of drawables at the user level. Composite
	// extensions aside.)
	//
	// We don't use GdkPixbuf because its byte order differs from the rest. Most
	// importantly, it differs from Cairo which, being a system library, is
	// something that we can't easily change.
	// -----------------------------------------------------------------------------

	namespace skia {

	// -----------------------------------------------------------------------------
	// This is the Linux bitmap backing for Skia. We create a Cairo image surface
	// to store the backing buffer. This buffer is BGRA in memory (on little-endian
	// machines).
	//
	// For now we are also using Cairo to paint to the Drawables so we provide an
	// accessor for getting the surface.
	//
	// This is all quite ok for test_shell. In the future we will want to use
	// shared memory between the renderer and the main process at least. In this
	// case we'll probably create the buffer from a precreated region of memory.
	// -----------------------------------------------------------------------------
	class BitmapPlatformDevice : public PlatformDevice {
	// A reference counted cairo surface
	class BitmapPlatformDeviceData;

	public:
	static BitmapPlatformDevice* Create(int width, int height, bool is_opaque);

	// This doesn't take ownership of \|data\|
	static BitmapPlatformDevice* Create(int width, int height,
	bool is_opaque, uint8_t* data);

	// Create a BitmapPlatformDeviceLinux from an already constructed bitmap;
	// you should probably be using Create(). This may become private later if
	// we ever have to share state between some native drawing UI and Skia, like
	// the Windows and Mac versions of this class do.
	//
	// This object takes ownership of @data.
	BitmapPlatformDevice(const SkBitmap& other, BitmapPlatformDeviceData* data);
	virtual ~BitmapPlatformDevice();
	BitmapPlatformDevice& operator=(const BitmapPlatformDevice& other);

	// A stub copy constructor. Needs to be properly implemented.
	BitmapPlatformDevice(const BitmapPlatformDevice& other);

	// Bitmaps aren't vector graphics.
	virtual bool IsVectorial() { return false; }

	// If someone wants to paint on a Cairo surface version of our
	// buffer, then give them the surface we're already using.
	virtual cairo_t* beginPlatformPaint();

	// Loads the given transform and clipping region into the HDC. This is
	// overridden from SkDevice.
	virtual void setMatrixClip(const SkMatrix& transform, const SkRegion& region);

	private:
	static BitmapPlatformDevice* Create(int width, int height, bool is_opaque,
	cairo_surface_t* surface);

	scoped_refptr<BitmapPlatformDeviceData> data_;
	};

	} // namespace skia

	#endif // SKIA_EXT_BITMAP_PLATFORM_DEVICE_LINUX_H_