src/gpu/effects/GrConvolutionEffect.cpp - platform_external_skia - Gitiles

 /*
  * Copyright 2012 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrConvolutionEffect.h"
 #include "gl/GrGLProgramStage.h"
 #include "gl/GrGLSL.h"
 #include "gl/GrGLTexture.h"
 #include "GrProgramStageFactory.h"

 /////////////////////////////////////////////////////////////////////

 class GrGLConvolutionEffect : public GrGLProgramStage {

 public:

     GrGLConvolutionEffect(const GrProgramStageFactory& factory,
                           const GrCustomStage* stage);
     virtual void setupVariables(GrGLShaderBuilder* state,
                                 int stage) SK_OVERRIDE;
     virtual void emitVS(GrGLShaderBuilder* state,
                         const char* vertexCoords) SK_OVERRIDE;
     virtual void emitFS(GrGLShaderBuilder* state,
                         const char* outputColor,
                         const char* inputColor,
                         const char* samplerName) SK_OVERRIDE;
     virtual void initUniforms(const GrGLInterface*, int programID) SK_OVERRIDE;

     virtual void setData(const GrGLInterface*,
                          const GrGLTexture&,
                          GrCustomStage*,
                          int stageNum) SK_OVERRIDE;

     static inline StageKey GenKey(const GrCustomStage* s);

 protected:

     unsigned int         fKernelWidth;
     const GrGLShaderVar* fKernelVar;
     const GrGLShaderVar* fImageIncrementVar;

     GrGLint              fKernelLocation;
     GrGLint              fImageIncrementLocation;

 private:

     typedef GrGLProgramStage INHERITED;
 };

 GrGLConvolutionEffect::GrGLConvolutionEffect(
                                     const GrProgramStageFactory& factory,
                                     const GrCustomStage* data)
     : GrGLProgramStage(factory)
     , fKernelVar(NULL)
     , fImageIncrementVar(NULL)
     , fKernelLocation(0)
     , fImageIncrementLocation(0) {
     fKernelWidth = static_cast<const GrConvolutionEffect*>(data)->width();
 }

 void GrGLConvolutionEffect::setupVariables(GrGLShaderBuilder* state,
                                            int stage) {
     fImageIncrementVar = &state->addUniform(
         GrGLShaderBuilder::kBoth_VariableLifetime,
         kVec2f_GrSLType, "uImageIncrement", stage);
     fKernelVar = &state->addUniform(
         GrGLShaderBuilder::kFragment_VariableLifetime,
         kFloat_GrSLType, "uKernel", stage, fKernelWidth);

     fImageIncrementLocation = kUseUniform;
     fKernelLocation = kUseUniform;
 }

 void GrGLConvolutionEffect::emitVS(GrGLShaderBuilder* state,
                         const char* vertexCoords) {
     GrStringBuilder* code = &state->fVSCode;
     float scale = (fKernelWidth - 1) * 0.5f;
     code->appendf("\t\t%s -= vec2(%g, %g) * %s;\n",
                   vertexCoords, scale, scale,
                   fImageIncrementVar->getName().c_str());

 }

 void GrGLConvolutionEffect::emitFS(GrGLShaderBuilder* state,
                         const char* outputColor,
                         const char* inputColor,
                         const char* samplerName) {
     GrStringBuilder* code = &state->fFSCode;
     const char* texFunc = "texture2D";
     bool complexCoord = false;

     GrStringBuilder modulate;
     if (NULL != inputColor) {
         modulate.printf(" * %s", inputColor);
     }

     // Creates the string "kernel[i]" with workarounds for
     // possible driver bugs
     GrStringBuilder kernelIndex;
     fKernelVar->appendArrayAccess("i", &kernelIndex);

     code->appendf("\t\tvec4 sum = vec4(0, 0, 0, 0);\n");
     code->appendf("\t\tvec2 coord = %s;\n", state->fSampleCoords.c_str());
     code->appendf("\t\tfor (int i = 0; i < %d; i++) {\n",
                   fKernelWidth);

     code->appendf("\t\t\tsum += ");
     state->emitTextureLookup(samplerName, "coord");
     code->appendf(" * %s;\n", kernelIndex.c_str());

     code->appendf("\t\t\tcoord += %s;\n",
                   fImageIncrementVar->getName().c_str());
     code->appendf("\t\t}\n");
     code->appendf("\t\t%s = sum%s;\n", outputColor, modulate.c_str());
 }

 void GrGLConvolutionEffect::initUniforms(const GrGLInterface* gl,
                                          int programID) {
     GR_GL_CALL_RET(gl, fKernelLocation,
         GetUniformLocation(programID, fKernelVar->getName().c_str()));
     GR_GL_CALL_RET(gl, fImageIncrementLocation,
         GetUniformLocation(programID,
             fImageIncrementVar->getName().c_str()));
 }

 void GrGLConvolutionEffect::setData(const GrGLInterface* gl,
                                     const GrGLTexture& texture,
                                     GrCustomStage* data,
                                     int stageNum) {
     const GrConvolutionEffect* conv =
         static_cast<const GrConvolutionEffect*>(data);
     // the code we generated was for a specific kernel width
     GrAssert(conv->width() == fKernelWidth);
     GR_GL_CALL(gl, Uniform1fv(fKernelLocation,
                               fKernelWidth,
                               conv->kernel()));
     float imageIncrement[2] = { 0 };
     switch (conv->direction()) {
         case GrSamplerState::kX_FilterDirection:
             imageIncrement[0] = 1.0f / texture.width();
             break;
         case GrSamplerState::kY_FilterDirection:
             imageIncrement[1] = 1.0f / texture.width();
             break;
         default:
             GrCrash("Unknown filter direction.");
     }
     GR_GL_CALL(gl, Uniform2fv(fImageIncrementLocation, 1, imageIncrement));
 }

 GrGLProgramStage::StageKey GrGLConvolutionEffect::GenKey(
                                                     const GrCustomStage* s) {
     return static_cast<const GrConvolutionEffect*>(s)->width();
 }

 /////////////////////////////////////////////////////////////////////

 GrConvolutionEffect::GrConvolutionEffect(
         GrSamplerState::FilterDirection direction,
         unsigned int kernelWidth,
         const float* kernel)
     : fDirection (direction)
     , fKernelWidth (kernelWidth) {
     GrAssert(kernelWidth <= MAX_KERNEL_WIDTH);
     for (unsigned int i = 0; i < kernelWidth; i++) {
         fKernel[i] = kernel[i];
     }
 }

 GrConvolutionEffect::~GrConvolutionEffect() {

 }

 const GrProgramStageFactory& GrConvolutionEffect::getFactory() const {
     return GrTProgramStageFactory<GrConvolutionEffect>::getInstance();
 }

 bool GrConvolutionEffect::isEqual(const GrCustomStage * sBase) const {
     const GrConvolutionEffect* s =
         static_cast<const GrConvolutionEffect*>(sBase);

     return (fKernelWidth == s->fKernelWidth &&
             fDirection == s->fDirection &&
             0 == memcmp(fKernel, s->fKernel, fKernelWidth * sizeof(float)));
 }
	/*
	* Copyright 2012 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrConvolutionEffect.h"
	#include "gl/GrGLProgramStage.h"
	#include "gl/GrGLSL.h"
	#include "gl/GrGLTexture.h"
	#include "GrProgramStageFactory.h"

	/////////////////////////////////////////////////////////////////////

	class GrGLConvolutionEffect : public GrGLProgramStage {

	public:

	GrGLConvolutionEffect(const GrProgramStageFactory& factory,
	const GrCustomStage* stage);
	virtual void setupVariables(GrGLShaderBuilder* state,
	int stage) SK_OVERRIDE;
	virtual void emitVS(GrGLShaderBuilder* state,
	const char* vertexCoords) SK_OVERRIDE;
	virtual void emitFS(GrGLShaderBuilder* state,
	const char* outputColor,
	const char* inputColor,
	const char* samplerName) SK_OVERRIDE;
	virtual void initUniforms(const GrGLInterface*, int programID) SK_OVERRIDE;

	virtual void setData(const GrGLInterface*,
	const GrGLTexture&,
	GrCustomStage*,
	int stageNum) SK_OVERRIDE;

	static inline StageKey GenKey(const GrCustomStage* s);

	protected:

	unsigned int fKernelWidth;
	const GrGLShaderVar* fKernelVar;
	const GrGLShaderVar* fImageIncrementVar;

	GrGLint fKernelLocation;
	GrGLint fImageIncrementLocation;

	private:

	typedef GrGLProgramStage INHERITED;
	};

	GrGLConvolutionEffect::GrGLConvolutionEffect(
	const GrProgramStageFactory& factory,
	const GrCustomStage* data)
	: GrGLProgramStage(factory)
	, fKernelVar(NULL)
	, fImageIncrementVar(NULL)
	, fKernelLocation(0)
	, fImageIncrementLocation(0) {
	fKernelWidth = static_cast<const GrConvolutionEffect*>(data)->width();
	}

	void GrGLConvolutionEffect::setupVariables(GrGLShaderBuilder* state,
	int stage) {
	fImageIncrementVar = &state->addUniform(
	GrGLShaderBuilder::kBoth_VariableLifetime,
	kVec2f_GrSLType, "uImageIncrement", stage);
	fKernelVar = &state->addUniform(
	GrGLShaderBuilder::kFragment_VariableLifetime,
	kFloat_GrSLType, "uKernel", stage, fKernelWidth);

	fImageIncrementLocation = kUseUniform;
	fKernelLocation = kUseUniform;
	}

	void GrGLConvolutionEffect::emitVS(GrGLShaderBuilder* state,
	const char* vertexCoords) {
	GrStringBuilder* code = &state->fVSCode;
	float scale = (fKernelWidth - 1) * 0.5f;
	code->appendf("\t\t%s -= vec2(%g, %g) * %s;\n",
	vertexCoords, scale, scale,
	fImageIncrementVar->getName().c_str());

	}

	void GrGLConvolutionEffect::emitFS(GrGLShaderBuilder* state,
	const char* outputColor,
	const char* inputColor,
	const char* samplerName) {
	GrStringBuilder* code = &state->fFSCode;
	const char* texFunc = "texture2D";
	bool complexCoord = false;

	GrStringBuilder modulate;
	if (NULL != inputColor) {
	modulate.printf(" * %s", inputColor);
	}

	// Creates the string "kernel[i]" with workarounds for
	// possible driver bugs
	GrStringBuilder kernelIndex;
	fKernelVar->appendArrayAccess("i", &kernelIndex);

	code->appendf("\t\tvec4 sum = vec4(0, 0, 0, 0);\n");
	code->appendf("\t\tvec2 coord = %s;\n", state->fSampleCoords.c_str());
	code->appendf("\t\tfor (int i = 0; i < %d; i++) {\n",
	fKernelWidth);

	code->appendf("\t\t\tsum += ");
	state->emitTextureLookup(samplerName, "coord");
	code->appendf(" * %s;\n", kernelIndex.c_str());

	code->appendf("\t\t\tcoord += %s;\n",
	fImageIncrementVar->getName().c_str());
	code->appendf("\t\t}\n");
	code->appendf("\t\t%s = sum%s;\n", outputColor, modulate.c_str());
	}

	void GrGLConvolutionEffect::initUniforms(const GrGLInterface* gl,
	int programID) {
	GR_GL_CALL_RET(gl, fKernelLocation,
	GetUniformLocation(programID, fKernelVar->getName().c_str()));
	GR_GL_CALL_RET(gl, fImageIncrementLocation,
	GetUniformLocation(programID,
	fImageIncrementVar->getName().c_str()));
	}

	void GrGLConvolutionEffect::setData(const GrGLInterface* gl,
	const GrGLTexture& texture,
	GrCustomStage* data,
	int stageNum) {
	const GrConvolutionEffect* conv =
	static_cast<const GrConvolutionEffect*>(data);
	// the code we generated was for a specific kernel width
	GrAssert(conv->width() == fKernelWidth);
	GR_GL_CALL(gl, Uniform1fv(fKernelLocation,
	fKernelWidth,
	conv->kernel()));
	float imageIncrement[2] = { 0 };
	switch (conv->direction()) {
	case GrSamplerState::kX_FilterDirection:
	imageIncrement[0] = 1.0f / texture.width();
	break;
	case GrSamplerState::kY_FilterDirection:
	imageIncrement[1] = 1.0f / texture.width();
	break;
	default:
	GrCrash("Unknown filter direction.");
	}
	GR_GL_CALL(gl, Uniform2fv(fImageIncrementLocation, 1, imageIncrement));
	}

	GrGLProgramStage::StageKey GrGLConvolutionEffect::GenKey(
	const GrCustomStage* s) {
	return static_cast<const GrConvolutionEffect*>(s)->width();
	}

	/////////////////////////////////////////////////////////////////////

	GrConvolutionEffect::GrConvolutionEffect(
	GrSamplerState::FilterDirection direction,
	unsigned int kernelWidth,
	const float* kernel)
	: fDirection (direction)
	, fKernelWidth (kernelWidth) {
	GrAssert(kernelWidth <= MAX_KERNEL_WIDTH);
	for (unsigned int i = 0; i < kernelWidth; i++) {
	fKernel[i] = kernel[i];
	}
	}

	GrConvolutionEffect::~GrConvolutionEffect() {

	}

	const GrProgramStageFactory& GrConvolutionEffect::getFactory() const {
	return GrTProgramStageFactory<GrConvolutionEffect>::getInstance();
	}

	bool GrConvolutionEffect::isEqual(const GrCustomStage * sBase) const {
	const GrConvolutionEffect* s =
	static_cast<const GrConvolutionEffect*>(sBase);

	return (fKernelWidth == s->fKernelWidth &&
	fDirection == s->fDirection &&
	0 == memcmp(fKernel, s->fKernel, fKernelWidth * sizeof(float)));
	}