include/gpu/GrPaint.h - platform/external/skqp - Gitiles


 /*
  * Copyright 2011 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */


 #ifndef GrPaint_DEFINED
 #define GrPaint_DEFINED

 #include "GrColor.h"
 #include "GrFragmentStage.h"
 #include "GrXferProcessor.h"
 #include "effects/GrPorterDuffXferProcessor.h"

 #include "SkXfermode.h"

 /**
  * The paint describes how color and coverage are computed at each pixel by GrContext draw
  * functions and the how color is blended with the destination pixel.
  *
  * The paint allows installation of custom color and coverage stages. New types of stages are
  * created by subclassing GrProcessor.
  *
  * The primitive color computation starts with the color specified by setColor(). This color is the
  * input to the first color stage. Each color stage feeds its output to the next color stage. The
  * final color stage's output color is input to the color filter specified by
  * setXfermodeColorFilter which produces the final source color, S.
  *
  * Fractional pixel coverage follows a similar flow. The coverage is initially the value specified
  * by setCoverage(). This is input to the first coverage stage. Coverage stages are chained
  * together in the same manner as color stages. The output of the last stage is modulated by any
  * fractional coverage produced by anti-aliasing. This last step produces the final coverage, C.
  *
  * setBlendFunc() specifies blending coefficients for S (described above) and D, the initial value
  * of the destination pixel, labeled Bs and Bd respectively. The final value of the destination
  * pixel is then D' = (1-C)*D + C*(Bd*D + Bs*S).
  *
  * Note that the coverage is applied after the blend. This is why they are computed as distinct
  * values.
  *
  * TODO: Encapsulate setXfermodeColorFilter in a GrProcessor and remove from GrPaint.
  */
 class GrPaint {
 public:
     GrPaint() { this->reset(); }

     GrPaint(const GrPaint& paint) { *this = paint; }

     ~GrPaint() {}

     /**
      * The initial color of the drawn primitive. Defaults to solid white.
      */
     void setColor(GrColor color) { fColor = color; }
     GrColor getColor() const { return fColor; }

     /**
      * Should primitives be anti-aliased or not. Defaults to false.
      */
     void setAntiAlias(bool aa) { fAntiAlias = aa; }
     bool isAntiAlias() const { return fAntiAlias; }

     /**
      * Should dithering be applied. Defaults to false.
      */
     void setDither(bool dither) { fDither = dither; }
     bool isDither() const { return fDither; }

     const GrXPFactory* setXPFactory(const GrXPFactory* xpFactory) {
         fXPFactory.reset(SkRef(xpFactory));
         return xpFactory;
     }

     void setPorterDuffXPFactory(SkXfermode::Mode mode) {
         fXPFactory.reset(GrPorterDuffXPFactory::Create(mode));
     }

     void setPorterDuffXPFactory(GrBlendCoeff src, GrBlendCoeff dst) {
         fXPFactory.reset(GrPorterDuffXPFactory::Create(src, dst));
     }

     /**
      * Appends an additional color processor to the color computation.
      */
     const GrFragmentProcessor* addColorProcessor(const GrFragmentProcessor* fp) {
         SkASSERT(fp);
         SkNEW_APPEND_TO_TARRAY(&fColorStages, GrFragmentStage, (fp));
         return fp;
     }

     /**
      * Appends an additional coverage processor to the coverage computation.
      */
     const GrFragmentProcessor* addCoverageProcessor(const GrFragmentProcessor* fp) {
         SkASSERT(fp);
         SkNEW_APPEND_TO_TARRAY(&fCoverageStages, GrFragmentStage, (fp));
         return fp;
     }

     /**
      * Helpers for adding color or coverage effects that sample a texture. The matrix is applied
      * to the src space position to compute texture coordinates.
      */
     void addColorTextureProcessor(GrTexture*, const SkMatrix&);
     void addCoverageTextureProcessor(GrTexture*, const SkMatrix&);
     void addColorTextureProcessor(GrTexture*, const SkMatrix&, const GrTextureParams&);
     void addCoverageTextureProcessor(GrTexture*, const SkMatrix&, const GrTextureParams&);

     int numColorStages() const { return fColorStages.count(); }
     int numCoverageStages() const { return fCoverageStages.count(); }
     int numTotalStages() const { return this->numColorStages() + this->numCoverageStages(); }

     const GrXPFactory* getXPFactory() const { return fXPFactory.get(); }

     const GrFragmentStage& getColorStage(int s) const { return fColorStages[s]; }
     const GrFragmentStage& getCoverageStage(int s) const { return fCoverageStages[s]; }

     GrPaint& operator=(const GrPaint& paint) {
         fAntiAlias = paint.fAntiAlias;
         fDither = paint.fDither;

         fColor = paint.fColor;

         fColorStages = paint.fColorStages;
         fCoverageStages = paint.fCoverageStages;

         fXPFactory.reset(SkRef(paint.getXPFactory()));

         return *this;
     }

     /**
      * Resets the paint to the defaults.
      */
     void reset() {
         this->resetOptions();
         this->resetColor();
         this->resetStages();
     }

     /**
      * Returns true if isOpaque would return true and the paint represents a solid constant color
      * draw. If the result is true, constantColor will be updated to contain the constant color.
      */
     bool isOpaqueAndConstantColor(GrColor* constantColor) const;

 private:
     friend class GrContext; // To access above two functions
     friend class GrStencilAndCoverTextContext;  // To access above two functions

     SkAutoTUnref<const GrXPFactory> fXPFactory;
     SkSTArray<4, GrFragmentStage>   fColorStages;
     SkSTArray<2, GrFragmentStage>   fCoverageStages;

     bool                            fAntiAlias;
     bool                            fDither;

     GrColor                         fColor;

     void resetOptions() {
         fAntiAlias = false;
         fDither = false;
     }

     void resetColor() {
         fColor = GrColorPackRGBA(0xff, 0xff, 0xff, 0xff);
     }

     void resetStages();
 };

 #endif

	/*
	* Copyright 2011 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/


	#ifndef GrPaint_DEFINED
	#define GrPaint_DEFINED

	#include "GrColor.h"
	#include "GrFragmentStage.h"
	#include "GrXferProcessor.h"
	#include "effects/GrPorterDuffXferProcessor.h"

	#include "SkXfermode.h"

	/**
	* The paint describes how color and coverage are computed at each pixel by GrContext draw
	* functions and the how color is blended with the destination pixel.
	*
	* The paint allows installation of custom color and coverage stages. New types of stages are
	* created by subclassing GrProcessor.
	*
	* The primitive color computation starts with the color specified by setColor(). This color is the
	* input to the first color stage. Each color stage feeds its output to the next color stage. The
	* final color stage's output color is input to the color filter specified by
	* setXfermodeColorFilter which produces the final source color, S.
	*
	* Fractional pixel coverage follows a similar flow. The coverage is initially the value specified
	* by setCoverage(). This is input to the first coverage stage. Coverage stages are chained
	* together in the same manner as color stages. The output of the last stage is modulated by any
	* fractional coverage produced by anti-aliasing. This last step produces the final coverage, C.
	*
	* setBlendFunc() specifies blending coefficients for S (described above) and D, the initial value
	* of the destination pixel, labeled Bs and Bd respectively. The final value of the destination
	* pixel is then D' = (1-C)D + C(BdD + BsS).
	*
	* Note that the coverage is applied after the blend. This is why they are computed as distinct
	* values.
	*
	* TODO: Encapsulate setXfermodeColorFilter in a GrProcessor and remove from GrPaint.
	*/
	class GrPaint {
	public:
	GrPaint() { this->reset(); }

	GrPaint(const GrPaint& paint) { *this = paint; }

	~GrPaint() {}

	/**
	* The initial color of the drawn primitive. Defaults to solid white.
	*/
	void setColor(GrColor color) { fColor = color; }
	GrColor getColor() const { return fColor; }

	/**
	* Should primitives be anti-aliased or not. Defaults to false.
	*/
	void setAntiAlias(bool aa) { fAntiAlias = aa; }
	bool isAntiAlias() const { return fAntiAlias; }

	/**
	* Should dithering be applied. Defaults to false.
	*/
	void setDither(bool dither) { fDither = dither; }
	bool isDither() const { return fDither; }

	const GrXPFactory* setXPFactory(const GrXPFactory* xpFactory) {
	fXPFactory.reset(SkRef(xpFactory));
	return xpFactory;
	}

	void setPorterDuffXPFactory(SkXfermode::Mode mode) {
	fXPFactory.reset(GrPorterDuffXPFactory::Create(mode));
	}

	void setPorterDuffXPFactory(GrBlendCoeff src, GrBlendCoeff dst) {
	fXPFactory.reset(GrPorterDuffXPFactory::Create(src, dst));
	}

	/**
	* Appends an additional color processor to the color computation.
	*/
	const GrFragmentProcessor* addColorProcessor(const GrFragmentProcessor* fp) {
	SkASSERT(fp);
	SkNEW_APPEND_TO_TARRAY(&fColorStages, GrFragmentStage, (fp));
	return fp;
	}

	/**
	* Appends an additional coverage processor to the coverage computation.
	*/
	const GrFragmentProcessor* addCoverageProcessor(const GrFragmentProcessor* fp) {
	SkASSERT(fp);
	SkNEW_APPEND_TO_TARRAY(&fCoverageStages, GrFragmentStage, (fp));
	return fp;
	}

	/**
	* Helpers for adding color or coverage effects that sample a texture. The matrix is applied
	* to the src space position to compute texture coordinates.
	*/
	void addColorTextureProcessor(GrTexture*, const SkMatrix&);
	void addCoverageTextureProcessor(GrTexture*, const SkMatrix&);
	void addColorTextureProcessor(GrTexture*, const SkMatrix&, const GrTextureParams&);
	void addCoverageTextureProcessor(GrTexture*, const SkMatrix&, const GrTextureParams&);

	int numColorStages() const { return fColorStages.count(); }
	int numCoverageStages() const { return fCoverageStages.count(); }
	int numTotalStages() const { return this->numColorStages() + this->numCoverageStages(); }

	const GrXPFactory* getXPFactory() const { return fXPFactory.get(); }

	const GrFragmentStage& getColorStage(int s) const { return fColorStages[s]; }
	const GrFragmentStage& getCoverageStage(int s) const { return fCoverageStages[s]; }

	GrPaint& operator=(const GrPaint& paint) {
	fAntiAlias = paint.fAntiAlias;
	fDither = paint.fDither;

	fColor = paint.fColor;

	fColorStages = paint.fColorStages;
	fCoverageStages = paint.fCoverageStages;

	fXPFactory.reset(SkRef(paint.getXPFactory()));

	return *this;
	}

	/**
	* Resets the paint to the defaults.
	*/
	void reset() {
	this->resetOptions();
	this->resetColor();
	this->resetStages();
	}

	/**
	* Returns true if isOpaque would return true and the paint represents a solid constant color
	* draw. If the result is true, constantColor will be updated to contain the constant color.
	*/
	bool isOpaqueAndConstantColor(GrColor* constantColor) const;

	private:
	friend class GrContext; // To access above two functions
	friend class GrStencilAndCoverTextContext; // To access above two functions

	SkAutoTUnref<const GrXPFactory> fXPFactory;
	SkSTArray<4, GrFragmentStage> fColorStages;
	SkSTArray<2, GrFragmentStage> fCoverageStages;

	bool fAntiAlias;
	bool fDither;

	GrColor fColor;

	void resetOptions() {
	fAntiAlias = false;
	fDither = false;
	}

	void resetColor() {
	fColor = GrColorPackRGBA(0xff, 0xff, 0xff, 0xff);
	}

	void resetStages();
	};

	#endif