gpu/gl/GrGLProgram.h - external/skia/src - Git at Google

 /*
  * 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 GrGLProgram_DEFINED
 #define GrGLProgram_DEFINED

 #include "GrDrawState.h"
 #include "GrGLContext.h"
 #include "GrGLProgramDesc.h"
 #include "GrGLShaderBuilder.h"
 #include "GrGLSL.h"
 #include "GrGLTexture.h"
 #include "GrGLUniformManager.h"

 #include "SkString.h"
 #include "SkXfermode.h"

 class GrBinHashKeyBuilder;
 class GrGLEffect;
 class GrGLProgramEffects;
 class GrGLShaderBuilder;

 /**
  * This class manages a GPU program and records per-program information.
  * We can specify the attribute locations so that they are constant
  * across our shaders. But the driver determines the uniform locations
  * at link time. We don't need to remember the sampler uniform location
  * because we will bind a texture slot to it and never change it
  * Uniforms are program-local so we can't rely on fHWState to hold the
  * previous uniform state after a program change.
  */
 class GrGLProgram : public SkRefCnt {
 public:
     SK_DECLARE_INST_COUNT(GrGLProgram)

     static GrGLProgram* Create(GrGpuGL* gpu,
                                const GrGLProgramDesc& desc,
                                const GrEffectStage* colorStages[],
                                const GrEffectStage* coverageStages[]);

     virtual ~GrGLProgram();

     /**
      * Call to abandon GL objects owned by this program.
      */
     void abandon();

     /**
      * The shader may modify the blend coefficients. Params are in/out.
      */
     void overrideBlend(GrBlendCoeff* srcCoeff, GrBlendCoeff* dstCoeff) const;

     const GrGLProgramDesc& getDesc() { return fDesc; }

     /**
      * Gets the GL program ID for this program.
      */
     GrGLuint programID() const { return fProgramID; }

     bool hasVertexShader() const { return fHasVertexShader; }

     /**
      * Some GL state that is relevant to programs is not stored per-program. In particular color
      * and coverage attributes can be global state. This struct is read and updated by
      * GrGLProgram::setColor and GrGLProgram::setCoverage to allow us to avoid setting this state
      * redundantly.
      */
     struct SharedGLState {
         GrColor fConstAttribColor;
         int     fConstAttribColorIndex;
         GrColor fConstAttribCoverage;
         int     fConstAttribCoverageIndex;

         SharedGLState() { this->invalidate(); }
         void invalidate() {
             fConstAttribColor = GrColor_ILLEGAL;
             fConstAttribColorIndex = -1;
             fConstAttribCoverage = GrColor_ILLEGAL;
             fConstAttribCoverageIndex = -1;
         }
     };

     /**
      * The GrDrawState's view matrix along with the aspects of the render target determine the
      * matrix sent to GL. The size of the render target affects the GL matrix because we must
      * convert from Skia device coords to GL's normalized coords. Also the origin of the render
      * target may require us to perform a mirror-flip.
      */
     struct MatrixState {
         SkMatrix        fViewMatrix;
         SkISize         fRenderTargetSize;
         GrSurfaceOrigin fRenderTargetOrigin;

         MatrixState() { this->invalidate(); }
         void invalidate() {
             fViewMatrix = SkMatrix::InvalidMatrix();
             fRenderTargetSize.fWidth = -1;
             fRenderTargetSize.fHeight = -1;
             fRenderTargetOrigin = (GrSurfaceOrigin) -1;
         }

         /**
          * Gets a matrix that goes from local coords to Skia's device coordinates.
          */
         template<int Size> void getGLMatrix(GrGLfloat* destMatrix) {
             GrGLGetMatrix<Size>(destMatrix, fViewMatrix);
         }

         /**
          * Gets a matrix that goes from local coordinates to GL normalized device coords.
          */
         template<int Size> void getRTAdjustedGLMatrix(GrGLfloat* destMatrix) {
             SkMatrix combined;
             if (kBottomLeft_GrSurfaceOrigin == fRenderTargetOrigin) {
                 combined.setAll(SkIntToScalar(2) / fRenderTargetSize.fWidth, 0, -SK_Scalar1,
                                 0, -SkIntToScalar(2) / fRenderTargetSize.fHeight, SK_Scalar1,
                                 0, 0, 1);
             } else {
                 combined.setAll(SkIntToScalar(2) / fRenderTargetSize.fWidth, 0, -SK_Scalar1,
                                 0, SkIntToScalar(2) / fRenderTargetSize.fHeight, -SK_Scalar1,
                                 0, 0, 1);
             }
             combined.preConcat(fViewMatrix);
             GrGLGetMatrix<Size>(destMatrix, combined);
         }

         /**
          * Gets a vec4 that adjusts the position from Skia device coords to GL's normalized device
          * coords. Assuming the transformed position, pos, is a homogeneous vec3, the vec, v, is
          * applied as such:
          * pos.x = dot(v.xy, pos.xz)
          * pos.y = dot(v.zq, pos.yz)
          */
         void getRTAdjustmentVec(GrGLfloat* destVec) {
             destVec[0] = 2.f / fRenderTargetSize.fWidth;
             destVec[1] = -1.f;
             if (kBottomLeft_GrSurfaceOrigin == fRenderTargetOrigin) {
                 destVec[2] = -2.f / fRenderTargetSize.fHeight;
                 destVec[3] = 1.f;
             } else {
                 destVec[2] = 2.f / fRenderTargetSize.fHeight;
                 destVec[3] = -1.f;
             }
         }
     };

     /**
      * This function uploads uniforms and calls each GrGLEffect's setData. It is called before a
      * draw occurs using the program after the program has already been bound. It also uses the
      * GrGpuGL object to bind the textures required by the GrGLEffects. The color and coverage
      * stages come from GrGLProgramDesc::Build().
      */
     void setData(GrDrawState::BlendOptFlags,
                  const GrEffectStage* colorStages[],
                  const GrEffectStage* coverageStages[],
                  const GrDeviceCoordTexture* dstCopy, // can be NULL
                  SharedGLState*);

 private:
     typedef GrGLUniformManager::UniformHandle UniformHandle;

     GrGLProgram(GrGpuGL* gpu,
                 const GrGLProgramDesc& desc,
                 GrGLUniformManager* uman,
                 const GrGLShaderBuilder::GenProgramOutput& builderOutput);

     // Sets the texture units for samplers
     void initSamplerUniforms();

     // Helper for setData(). Makes GL calls to specify the initial color when there is not
     // per-vertex colors.
     void setColor(const GrDrawState&, GrColor color, SharedGLState*);

     // Helper for setData(). Makes GL calls to specify the initial coverage when there is not
     // per-vertex coverages.
     void setCoverage(const GrDrawState&, GrColor coverage, SharedGLState*);

     // Helper for setData() that sets the view matrix and loads the render target height uniform
     void setMatrixAndRenderTargetHeight(const GrDrawState&);

     // GL program ID
     GrGLuint                            fProgramID;

     // these reflect the current values of uniforms (GL uniform values travel with program)
     MatrixState                         fMatrixState;
     GrColor                             fColor;
     GrColor                             fCoverage;
     int                                 fDstCopyTexUnit;

     SkAutoTDelete<GrGLProgramEffects>   fColorEffects;
     SkAutoTDelete<GrGLProgramEffects>   fCoverageEffects;

     GrGLProgramDesc                     fDesc;

     GrGpuGL*                            fGpu;

     SkAutoTUnref<GrGLUniformManager>    fUniformManager;
     GrGLShaderBuilder::UniformHandles   fUniformHandles;

     bool                                fHasVertexShader;
     int                                 fTexCoordSetCnt;

     typedef SkRefCnt INHERITED;
 };

 #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 GrGLProgram_DEFINED
	#define GrGLProgram_DEFINED

	#include "GrDrawState.h"
	#include "GrGLContext.h"
	#include "GrGLProgramDesc.h"
	#include "GrGLShaderBuilder.h"
	#include "GrGLSL.h"
	#include "GrGLTexture.h"
	#include "GrGLUniformManager.h"

	#include "SkString.h"
	#include "SkXfermode.h"

	class GrBinHashKeyBuilder;
	class GrGLEffect;
	class GrGLProgramEffects;
	class GrGLShaderBuilder;

	/**
	* This class manages a GPU program and records per-program information.
	* We can specify the attribute locations so that they are constant
	* across our shaders. But the driver determines the uniform locations
	* at link time. We don't need to remember the sampler uniform location
	* because we will bind a texture slot to it and never change it
	* Uniforms are program-local so we can't rely on fHWState to hold the
	* previous uniform state after a program change.
	*/
	class GrGLProgram : public SkRefCnt {
	public:
	SK_DECLARE_INST_COUNT(GrGLProgram)

	static GrGLProgram* Create(GrGpuGL* gpu,
	const GrGLProgramDesc& desc,
	const GrEffectStage* colorStages[],
	const GrEffectStage* coverageStages[]);

	virtual ~GrGLProgram();

	/**
	* Call to abandon GL objects owned by this program.
	*/
	void abandon();

	/**
	* The shader may modify the blend coefficients. Params are in/out.
	*/
	void overrideBlend(GrBlendCoeff* srcCoeff, GrBlendCoeff* dstCoeff) const;

	const GrGLProgramDesc& getDesc() { return fDesc; }

	/**
	* Gets the GL program ID for this program.
	*/
	GrGLuint programID() const { return fProgramID; }

	bool hasVertexShader() const { return fHasVertexShader; }

	/**
	* Some GL state that is relevant to programs is not stored per-program. In particular color
	* and coverage attributes can be global state. This struct is read and updated by
	* GrGLProgram::setColor and GrGLProgram::setCoverage to allow us to avoid setting this state
	* redundantly.
	*/
	struct SharedGLState {
	GrColor fConstAttribColor;
	int fConstAttribColorIndex;
	GrColor fConstAttribCoverage;
	int fConstAttribCoverageIndex;

	SharedGLState() { this->invalidate(); }
	void invalidate() {
	fConstAttribColor = GrColor_ILLEGAL;
	fConstAttribColorIndex = -1;
	fConstAttribCoverage = GrColor_ILLEGAL;
	fConstAttribCoverageIndex = -1;
	}
	};

	/**
	* The GrDrawState's view matrix along with the aspects of the render target determine the
	* matrix sent to GL. The size of the render target affects the GL matrix because we must
	* convert from Skia device coords to GL's normalized coords. Also the origin of the render
	* target may require us to perform a mirror-flip.
	*/
	struct MatrixState {
	SkMatrix fViewMatrix;
	SkISize fRenderTargetSize;
	GrSurfaceOrigin fRenderTargetOrigin;

	MatrixState() { this->invalidate(); }
	void invalidate() {
	fViewMatrix = SkMatrix::InvalidMatrix();
	fRenderTargetSize.fWidth = -1;
	fRenderTargetSize.fHeight = -1;
	fRenderTargetOrigin = (GrSurfaceOrigin) -1;
	}

	/**
	* Gets a matrix that goes from local coords to Skia's device coordinates.
	*/
	template<int Size> void getGLMatrix(GrGLfloat* destMatrix) {
	GrGLGetMatrix<Size>(destMatrix, fViewMatrix);
	}

	/**
	* Gets a matrix that goes from local coordinates to GL normalized device coords.
	*/
	template<int Size> void getRTAdjustedGLMatrix(GrGLfloat* destMatrix) {
	SkMatrix combined;
	if (kBottomLeft_GrSurfaceOrigin == fRenderTargetOrigin) {
	combined.setAll(SkIntToScalar(2) / fRenderTargetSize.fWidth, 0, -SK_Scalar1,
	0, -SkIntToScalar(2) / fRenderTargetSize.fHeight, SK_Scalar1,
	0, 0, 1);
	} else {
	combined.setAll(SkIntToScalar(2) / fRenderTargetSize.fWidth, 0, -SK_Scalar1,
	0, SkIntToScalar(2) / fRenderTargetSize.fHeight, -SK_Scalar1,
	0, 0, 1);
	}
	combined.preConcat(fViewMatrix);
	GrGLGetMatrix<Size>(destMatrix, combined);
	}

	/**
	* Gets a vec4 that adjusts the position from Skia device coords to GL's normalized device
	* coords. Assuming the transformed position, pos, is a homogeneous vec3, the vec, v, is
	* applied as such:
	* pos.x = dot(v.xy, pos.xz)
	* pos.y = dot(v.zq, pos.yz)
	*/
	void getRTAdjustmentVec(GrGLfloat* destVec) {
	destVec[0] = 2.f / fRenderTargetSize.fWidth;
	destVec[1] = -1.f;
	if (kBottomLeft_GrSurfaceOrigin == fRenderTargetOrigin) {
	destVec[2] = -2.f / fRenderTargetSize.fHeight;
	destVec[3] = 1.f;
	} else {
	destVec[2] = 2.f / fRenderTargetSize.fHeight;
	destVec[3] = -1.f;
	}
	}
	};

	/**
	* This function uploads uniforms and calls each GrGLEffect's setData. It is called before a
	* draw occurs using the program after the program has already been bound. It also uses the
	* GrGpuGL object to bind the textures required by the GrGLEffects. The color and coverage
	* stages come from GrGLProgramDesc::Build().
	*/
	void setData(GrDrawState::BlendOptFlags,
	const GrEffectStage* colorStages[],
	const GrEffectStage* coverageStages[],
	const GrDeviceCoordTexture* dstCopy, // can be NULL
	SharedGLState*);

	private:
	typedef GrGLUniformManager::UniformHandle UniformHandle;

	GrGLProgram(GrGpuGL* gpu,
	const GrGLProgramDesc& desc,
	GrGLUniformManager* uman,
	const GrGLShaderBuilder::GenProgramOutput& builderOutput);

	// Sets the texture units for samplers
	void initSamplerUniforms();

	// Helper for setData(). Makes GL calls to specify the initial color when there is not
	// per-vertex colors.
	void setColor(const GrDrawState&, GrColor color, SharedGLState*);

	// Helper for setData(). Makes GL calls to specify the initial coverage when there is not
	// per-vertex coverages.
	void setCoverage(const GrDrawState&, GrColor coverage, SharedGLState*);

	// Helper for setData() that sets the view matrix and loads the render target height uniform
	void setMatrixAndRenderTargetHeight(const GrDrawState&);

	// GL program ID
	GrGLuint fProgramID;

	// these reflect the current values of uniforms (GL uniform values travel with program)
	MatrixState fMatrixState;
	GrColor fColor;
	GrColor fCoverage;
	int fDstCopyTexUnit;

	SkAutoTDelete<GrGLProgramEffects> fColorEffects;
	SkAutoTDelete<GrGLProgramEffects> fCoverageEffects;

	GrGLProgramDesc fDesc;

	GrGpuGL* fGpu;

	SkAutoTUnref<GrGLUniformManager> fUniformManager;
	GrGLShaderBuilder::UniformHandles fUniformHandles;

	bool fHasVertexShader;
	int fTexCoordSetCnt;

	typedef SkRefCnt INHERITED;
	};

	#endif