src/core/SkBitmapProcState.h - skia - Git at Google


 /*
  * Copyright 2007 The Android Open Source Project
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef SkBitmapProcState_DEFINED
 #define SkBitmapProcState_DEFINED

 #include "SkBitmap.h"
 #include "SkBitmapFilter.h"
 #include "SkMatrix.h"
 #include "SkPaint.h"
 #include "SkScaledImageCache.h"

 #define FractionalInt_IS_64BIT

 #ifdef FractionalInt_IS_64BIT
     typedef SkFixed48    SkFractionalInt;
     #define SkScalarToFractionalInt(x)  SkScalarToFixed48(x)
     #define SkFractionalIntToFixed(x)   SkFixed48ToFixed(x)
     #define SkFixedToFractionalInt(x)   SkFixedToFixed48(x)
     #define SkFractionalIntToInt(x)     SkFixed48ToInt(x)
 #else
     typedef SkFixed    SkFractionalInt;
     #define SkScalarToFractionalInt(x)  SkScalarToFixed(x)
     #define SkFractionalIntToFixed(x)   (x)
     #define SkFixedToFractionalInt(x)   (x)
     #define SkFractionalIntToInt(x)     ((x) >> 16)
 #endif

 class SkPaint;
 struct SkConvolutionProcs;

 struct SkBitmapProcState {

     SkBitmapProcState(): fScaledCacheID(NULL), fBitmapFilter(NULL) {}
     ~SkBitmapProcState();

     typedef void (*ShaderProc32)(const SkBitmapProcState&, int x, int y,
                                  SkPMColor[], int count);

     typedef void (*ShaderProc16)(const SkBitmapProcState&, int x, int y,
                                  uint16_t[], int count);

     typedef void (*MatrixProc)(const SkBitmapProcState&,
                                uint32_t bitmapXY[],
                                int count,
                                int x, int y);

     typedef void (*SampleProc32)(const SkBitmapProcState&,
                                  const uint32_t[],
                                  int count,
                                  SkPMColor colors[]);

     typedef void (*SampleProc16)(const SkBitmapProcState&,
                                  const uint32_t[],
                                  int count,
                                  uint16_t colors[]);

     typedef U16CPU (*FixedTileProc)(SkFixed);   // returns 0..0xFFFF
     typedef U16CPU (*FixedTileLowBitsProc)(SkFixed, int);   // returns 0..0xF
     typedef U16CPU (*IntTileProc)(int value, int count);   // returns 0..count-1

     const SkBitmap*     fBitmap;            // chooseProcs - orig or scaled
     SkMatrix            fInvMatrix;         // chooseProcs
     SkMatrix::MapXYProc fInvProc;           // chooseProcs

     SkFractionalInt     fInvSxFractionalInt;
     SkFractionalInt     fInvKyFractionalInt;

     FixedTileProc       fTileProcX;         // chooseProcs
     FixedTileProc       fTileProcY;         // chooseProcs
     FixedTileLowBitsProc fTileLowBitsProcX; // chooseProcs
     FixedTileLowBitsProc fTileLowBitsProcY; // chooseProcs
     IntTileProc         fIntTileProcY;      // chooseProcs
     SkFixed             fFilterOneX;
     SkFixed             fFilterOneY;

     SkPMColor           fPaintPMColor;      // chooseProcs - A8 config
     SkFixed             fInvSx;             // chooseProcs
     SkFixed             fInvKy;             // chooseProcs
     uint16_t            fAlphaScale;        // chooseProcs
     uint8_t             fInvType;           // chooseProcs
     uint8_t             fTileModeX;         // CONSTRUCTOR
     uint8_t             fTileModeY;         // CONSTRUCTOR
     uint8_t             fFilterLevel;       // chooseProcs

     /** Platforms implement this, and can optionally overwrite only the
         following fields:

         fShaderProc32
         fShaderProc16
         fMatrixProc
         fSampleProc32
         fSampleProc32

         They will already have valid function pointers, so a platform that does
         not have an accelerated version can just leave that field as is. A valid
         implementation can do nothing (see SkBitmapProcState_opts_none.cpp)
      */
     void platformProcs();

     /** Platforms can also optionally overwrite the convolution functions
         if we have SIMD versions of them.
       */

     void platformConvolutionProcs(SkConvolutionProcs*);

     /** Given the byte size of the index buffer to be passed to the matrix proc,
         return the maximum number of resulting pixels that can be computed
         (i.e. the number of SkPMColor values to be written by the sample proc).
         This routine takes into account that filtering and scale-vs-affine
         affect the amount of buffer space needed.

         Only valid to call after chooseProcs (setContext) has been called. It is
         safe to call this inside the shader's shadeSpan() method.
      */
     int maxCountForBufferSize(size_t bufferSize) const;

     // If a shader proc is present, then the corresponding matrix/sample procs
     // are ignored
     ShaderProc32 getShaderProc32() const { return fShaderProc32; }
     ShaderProc16 getShaderProc16() const { return fShaderProc16; }

     SkBitmapFilter* getBitmapFilter() const { return fBitmapFilter; }

 #ifdef SK_DEBUG
     MatrixProc getMatrixProc() const;
 #else
     MatrixProc getMatrixProc() const { return fMatrixProc; }
 #endif
     SampleProc32 getSampleProc32() const { return fSampleProc32; }
     SampleProc16 getSampleProc16() const { return fSampleProc16; }

 private:
     friend class SkBitmapProcShader;

     ShaderProc32        fShaderProc32;      // chooseProcs
     ShaderProc16        fShaderProc16;      // chooseProcs
     // These are used if the shaderproc is NULL
     MatrixProc          fMatrixProc;        // chooseProcs
     SampleProc32        fSampleProc32;      // chooseProcs
     SampleProc16        fSampleProc16;      // chooseProcs

     SkBitmap            fOrigBitmap;        // CONSTRUCTOR
     SkBitmap            fScaledBitmap;      // chooseProcs

     SkScaledImageCache::ID* fScaledCacheID;

     MatrixProc chooseMatrixProc(bool trivial_matrix);
     bool chooseProcs(const SkMatrix& inv, const SkPaint&);
     ShaderProc32 chooseShaderProc32();

     // returns false if we did not try to scale the image. In that case, we
     // will need to "lock" its pixels some other way.
     bool possiblyScaleImage();

     // returns false if we failed to "lock" the pixels at all. Typically this
     // means we have to abort the shader.
     bool lockBaseBitmap();

     SkBitmapFilter* fBitmapFilter;

     // If supported, sets fShaderProc32 and fShaderProc16 and returns true,
     // otherwise returns false.
     bool setBitmapFilterProcs();

     // Return false if we failed to setup for fast translate (e.g. overflow)
     bool setupForTranslate();

 #ifdef SK_DEBUG
     static void DebugMatrixProc(const SkBitmapProcState&,
                                 uint32_t[], int count, int x, int y);
 #endif
 };

 /*  Macros for packing and unpacking pairs of 16bit values in a 32bit uint.
     Used to allow access to a stream of uint16_t either one at a time, or
     2 at a time by unpacking a uint32_t
  */
 #ifdef SK_CPU_BENDIAN
     #define PACK_TWO_SHORTS(pri, sec) ((pri) << 16 | (sec))
     #define UNPACK_PRIMARY_SHORT(packed)    ((uint32_t)(packed) >> 16)
     #define UNPACK_SECONDARY_SHORT(packed)  ((packed) & 0xFFFF)
 #else
     #define PACK_TWO_SHORTS(pri, sec) ((pri) | ((sec) << 16))
     #define UNPACK_PRIMARY_SHORT(packed)    ((packed) & 0xFFFF)
     #define UNPACK_SECONDARY_SHORT(packed)  ((uint32_t)(packed) >> 16)
 #endif

 #ifdef SK_DEBUG
     static inline uint32_t pack_two_shorts(U16CPU pri, U16CPU sec) {
         SkASSERT((uint16_t)pri == pri);
         SkASSERT((uint16_t)sec == sec);
         return PACK_TWO_SHORTS(pri, sec);
     }
 #else
     #define pack_two_shorts(pri, sec)   PACK_TWO_SHORTS(pri, sec)
 #endif

 // These functions are generated via macros, but are exposed here so that
 // platformProcs may test for them by name.
 void S32_opaque_D32_filter_DX(const SkBitmapProcState& s, const uint32_t xy[],
                               int count, SkPMColor colors[]);
 void S32_alpha_D32_filter_DX(const SkBitmapProcState& s, const uint32_t xy[],
                              int count, SkPMColor colors[]);
 void S32_opaque_D32_filter_DXDY(const SkBitmapProcState& s,
                                 const uint32_t xy[], int count, SkPMColor colors[]);
 void S32_alpha_D32_filter_DXDY(const SkBitmapProcState& s,
                                const uint32_t xy[], int count, SkPMColor colors[]);
 void ClampX_ClampY_filter_scale(const SkBitmapProcState& s, uint32_t xy[],
                                 int count, int x, int y);
 void ClampX_ClampY_nofilter_scale(const SkBitmapProcState& s, uint32_t xy[],
                                   int count, int x, int y);
 void ClampX_ClampY_filter_affine(const SkBitmapProcState& s,
                                  uint32_t xy[], int count, int x, int y);
 void ClampX_ClampY_nofilter_affine(const SkBitmapProcState& s,
                                    uint32_t xy[], int count, int x, int y);
 void S32_D16_filter_DX(const SkBitmapProcState& s,
                        const uint32_t* xy, int count, uint16_t* colors);

 void highQualityFilter32(const SkBitmapProcState &s, int x, int y,
                          SkPMColor *SK_RESTRICT colors, int count);
 void highQualityFilter16(const SkBitmapProcState &s, int x, int y,
                          uint16_t *SK_RESTRICT colors, int count);


 #endif

	/*
	* Copyright 2007 The Android Open Source Project
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef SkBitmapProcState_DEFINED
	#define SkBitmapProcState_DEFINED

	#include "SkBitmap.h"
	#include "SkBitmapFilter.h"
	#include "SkMatrix.h"
	#include "SkPaint.h"
	#include "SkScaledImageCache.h"

	#define FractionalInt_IS_64BIT

	#ifdef FractionalInt_IS_64BIT
	typedef SkFixed48 SkFractionalInt;
	#define SkScalarToFractionalInt(x) SkScalarToFixed48(x)
	#define SkFractionalIntToFixed(x) SkFixed48ToFixed(x)
	#define SkFixedToFractionalInt(x) SkFixedToFixed48(x)
	#define SkFractionalIntToInt(x) SkFixed48ToInt(x)
	#else
	typedef SkFixed SkFractionalInt;
	#define SkScalarToFractionalInt(x) SkScalarToFixed(x)
	#define SkFractionalIntToFixed(x) (x)
	#define SkFixedToFractionalInt(x) (x)
	#define SkFractionalIntToInt(x) ((x) >> 16)
	#endif

	class SkPaint;
	struct SkConvolutionProcs;

	struct SkBitmapProcState {

	SkBitmapProcState(): fScaledCacheID(NULL), fBitmapFilter(NULL) {}
	~SkBitmapProcState();

	typedef void (*ShaderProc32)(const SkBitmapProcState&, int x, int y,
	SkPMColor[], int count);

	typedef void (*ShaderProc16)(const SkBitmapProcState&, int x, int y,
	uint16_t[], int count);

	typedef void (*MatrixProc)(const SkBitmapProcState&,
	uint32_t bitmapXY[],
	int count,
	int x, int y);

	typedef void (*SampleProc32)(const SkBitmapProcState&,
	const uint32_t[],
	int count,
	SkPMColor colors[]);

	typedef void (*SampleProc16)(const SkBitmapProcState&,
	const uint32_t[],
	int count,
	uint16_t colors[]);

	typedef U16CPU (*FixedTileProc)(SkFixed); // returns 0..0xFFFF
	typedef U16CPU (*FixedTileLowBitsProc)(SkFixed, int); // returns 0..0xF
	typedef U16CPU (*IntTileProc)(int value, int count); // returns 0..count-1

	const SkBitmap* fBitmap; // chooseProcs - orig or scaled
	SkMatrix fInvMatrix; // chooseProcs
	SkMatrix::MapXYProc fInvProc; // chooseProcs

	SkFractionalInt fInvSxFractionalInt;
	SkFractionalInt fInvKyFractionalInt;

	FixedTileProc fTileProcX; // chooseProcs
	FixedTileProc fTileProcY; // chooseProcs
	FixedTileLowBitsProc fTileLowBitsProcX; // chooseProcs
	FixedTileLowBitsProc fTileLowBitsProcY; // chooseProcs
	IntTileProc fIntTileProcY; // chooseProcs
	SkFixed fFilterOneX;
	SkFixed fFilterOneY;

	SkPMColor fPaintPMColor; // chooseProcs - A8 config
	SkFixed fInvSx; // chooseProcs
	SkFixed fInvKy; // chooseProcs
	uint16_t fAlphaScale; // chooseProcs
	uint8_t fInvType; // chooseProcs
	uint8_t fTileModeX; // CONSTRUCTOR
	uint8_t fTileModeY; // CONSTRUCTOR
	uint8_t fFilterLevel; // chooseProcs

	/** Platforms implement this, and can optionally overwrite only the
	following fields:

	fShaderProc32
	fShaderProc16
	fMatrixProc
	fSampleProc32
	fSampleProc32

	They will already have valid function pointers, so a platform that does
	not have an accelerated version can just leave that field as is. A valid
	implementation can do nothing (see SkBitmapProcState_opts_none.cpp)
	*/
	void platformProcs();

	/** Platforms can also optionally overwrite the convolution functions
	if we have SIMD versions of them.
	*/

	void platformConvolutionProcs(SkConvolutionProcs*);

	/** Given the byte size of the index buffer to be passed to the matrix proc,
	return the maximum number of resulting pixels that can be computed
	(i.e. the number of SkPMColor values to be written by the sample proc).
	This routine takes into account that filtering and scale-vs-affine
	affect the amount of buffer space needed.

	Only valid to call after chooseProcs (setContext) has been called. It is
	safe to call this inside the shader's shadeSpan() method.
	*/
	int maxCountForBufferSize(size_t bufferSize) const;

	// If a shader proc is present, then the corresponding matrix/sample procs
	// are ignored
	ShaderProc32 getShaderProc32() const { return fShaderProc32; }
	ShaderProc16 getShaderProc16() const { return fShaderProc16; }

	SkBitmapFilter* getBitmapFilter() const { return fBitmapFilter; }

	#ifdef SK_DEBUG
	MatrixProc getMatrixProc() const;
	#else
	MatrixProc getMatrixProc() const { return fMatrixProc; }
	#endif
	SampleProc32 getSampleProc32() const { return fSampleProc32; }
	SampleProc16 getSampleProc16() const { return fSampleProc16; }

	private:
	friend class SkBitmapProcShader;

	ShaderProc32 fShaderProc32; // chooseProcs
	ShaderProc16 fShaderProc16; // chooseProcs
	// These are used if the shaderproc is NULL
	MatrixProc fMatrixProc; // chooseProcs
	SampleProc32 fSampleProc32; // chooseProcs
	SampleProc16 fSampleProc16; // chooseProcs

	SkBitmap fOrigBitmap; // CONSTRUCTOR
	SkBitmap fScaledBitmap; // chooseProcs

	SkScaledImageCache::ID* fScaledCacheID;

	MatrixProc chooseMatrixProc(bool trivial_matrix);
	bool chooseProcs(const SkMatrix& inv, const SkPaint&);
	ShaderProc32 chooseShaderProc32();

	// returns false if we did not try to scale the image. In that case, we
	// will need to "lock" its pixels some other way.
	bool possiblyScaleImage();

	// returns false if we failed to "lock" the pixels at all. Typically this
	// means we have to abort the shader.
	bool lockBaseBitmap();

	SkBitmapFilter* fBitmapFilter;

	// If supported, sets fShaderProc32 and fShaderProc16 and returns true,
	// otherwise returns false.
	bool setBitmapFilterProcs();

	// Return false if we failed to setup for fast translate (e.g. overflow)
	bool setupForTranslate();

	#ifdef SK_DEBUG
	static void DebugMatrixProc(const SkBitmapProcState&,
	uint32_t[], int count, int x, int y);
	#endif
	};

	/* Macros for packing and unpacking pairs of 16bit values in a 32bit uint.
	Used to allow access to a stream of uint16_t either one at a time, or
	2 at a time by unpacking a uint32_t
	*/
	#ifdef SK_CPU_BENDIAN
	#define PACK_TWO_SHORTS(pri, sec) ((pri) << 16 \| (sec))
	#define UNPACK_PRIMARY_SHORT(packed) ((uint32_t)(packed) >> 16)
	#define UNPACK_SECONDARY_SHORT(packed) ((packed) & 0xFFFF)
	#else
	#define PACK_TWO_SHORTS(pri, sec) ((pri) \| ((sec) << 16))
	#define UNPACK_PRIMARY_SHORT(packed) ((packed) & 0xFFFF)
	#define UNPACK_SECONDARY_SHORT(packed) ((uint32_t)(packed) >> 16)
	#endif

	#ifdef SK_DEBUG
	static inline uint32_t pack_two_shorts(U16CPU pri, U16CPU sec) {
	SkASSERT((uint16_t)pri == pri);
	SkASSERT((uint16_t)sec == sec);
	return PACK_TWO_SHORTS(pri, sec);
	}
	#else
	#define pack_two_shorts(pri, sec) PACK_TWO_SHORTS(pri, sec)
	#endif

	// These functions are generated via macros, but are exposed here so that
	// platformProcs may test for them by name.
	void S32_opaque_D32_filter_DX(const SkBitmapProcState& s, const uint32_t xy[],
	int count, SkPMColor colors[]);
	void S32_alpha_D32_filter_DX(const SkBitmapProcState& s, const uint32_t xy[],
	int count, SkPMColor colors[]);
	void S32_opaque_D32_filter_DXDY(const SkBitmapProcState& s,
	const uint32_t xy[], int count, SkPMColor colors[]);
	void S32_alpha_D32_filter_DXDY(const SkBitmapProcState& s,
	const uint32_t xy[], int count, SkPMColor colors[]);
	void ClampX_ClampY_filter_scale(const SkBitmapProcState& s, uint32_t xy[],
	int count, int x, int y);
	void ClampX_ClampY_nofilter_scale(const SkBitmapProcState& s, uint32_t xy[],
	int count, int x, int y);
	void ClampX_ClampY_filter_affine(const SkBitmapProcState& s,
	uint32_t xy[], int count, int x, int y);
	void ClampX_ClampY_nofilter_affine(const SkBitmapProcState& s,
	uint32_t xy[], int count, int x, int y);
	void S32_D16_filter_DX(const SkBitmapProcState& s,
	const uint32_t* xy, int count, uint16_t* colors);

	void highQualityFilter32(const SkBitmapProcState &s, int x, int y,
	SkPMColor *SK_RESTRICT colors, int count);
	void highQualityFilter16(const SkBitmapProcState &s, int x, int y,
	uint16_t *SK_RESTRICT colors, int count);


	#endif