src/gpu/GrXferProcessor.cpp - platform/external/skia - Gitiles

 /*
  * Copyright 2015 Google Inc.
  *
  * Use of this source code is governed by a BSD-style license that can be
  * found in the LICENSE file.
  */

 #include "GrXferProcessor.h"

 #include "GrCaps.h"
 #include "GrPipeline.h"

 GrXferProcessor::GrXferProcessor(ClassID classID)
         : INHERITED(classID)
         , fWillReadDstColor(false)
         , fDstReadUsesMixedSamples(false)
         , fIsLCD(false) {}

 GrXferProcessor::GrXferProcessor(ClassID classID, bool willReadDstColor, bool hasMixedSamples,
                                  GrProcessorAnalysisCoverage coverage)
         : INHERITED(classID)
         , fWillReadDstColor(willReadDstColor)
         , fDstReadUsesMixedSamples(willReadDstColor && hasMixedSamples)
         , fIsLCD(GrProcessorAnalysisCoverage::kLCD == coverage) {}

 bool GrXferProcessor::hasSecondaryOutput() const {
     if (!this->willReadDstColor()) {
         return this->onHasSecondaryOutput();
     }
     return this->dstReadUsesMixedSamples();
 }

 void GrXferProcessor::getBlendInfo(BlendInfo* blendInfo) const {
     blendInfo->reset();
     if (!this->willReadDstColor()) {
         this->onGetBlendInfo(blendInfo);
     } else if (this->dstReadUsesMixedSamples()) {
         blendInfo->fDstBlend = kIS2A_GrBlendCoeff;
     }
 }

 void GrXferProcessor::getGLSLProcessorKey(const GrShaderCaps& caps, GrProcessorKeyBuilder* b,
                                           const GrSurfaceOrigin* originIfDstTexture) const {
     uint32_t key = this->willReadDstColor() ? 0x1 : 0x0;
     if (key) {
         if (originIfDstTexture) {
             key |= 0x2;
             if (kTopLeft_GrSurfaceOrigin == *originIfDstTexture) {
                 key |= 0x4;
             }
         }
         if (this->dstReadUsesMixedSamples()) {
             key |= 0x8;
         }
     }
     if (fIsLCD) {
         key |= 0x10;
     }
     b->add32(key);
     this->onGetGLSLProcessorKey(caps, b);
 }

 #ifdef SK_DEBUG
 static const char* equation_string(GrBlendEquation eq) {
     switch (eq) {
         case kAdd_GrBlendEquation:
             return "add";
         case kSubtract_GrBlendEquation:
             return "subtract";
         case kReverseSubtract_GrBlendEquation:
             return "reverse_subtract";
         case kScreen_GrBlendEquation:
             return "screen";
         case kOverlay_GrBlendEquation:
             return "overlay";
         case kDarken_GrBlendEquation:
             return "darken";
         case kLighten_GrBlendEquation:
             return "lighten";
         case kColorDodge_GrBlendEquation:
             return "color_dodge";
         case kColorBurn_GrBlendEquation:
             return "color_burn";
         case kHardLight_GrBlendEquation:
             return "hard_light";
         case kSoftLight_GrBlendEquation:
             return "soft_light";
         case kDifference_GrBlendEquation:
             return "difference";
         case kExclusion_GrBlendEquation:
             return "exclusion";
         case kMultiply_GrBlendEquation:
             return "multiply";
         case kHSLHue_GrBlendEquation:
             return "hsl_hue";
         case kHSLSaturation_GrBlendEquation:
             return "hsl_saturation";
         case kHSLColor_GrBlendEquation:
             return "hsl_color";
         case kHSLLuminosity_GrBlendEquation:
             return "hsl_luminosity";
     };
     return "";
 }

 static const char* coeff_string(GrBlendCoeff coeff) {
     switch (coeff) {
         case kZero_GrBlendCoeff:
             return "zero";
         case kOne_GrBlendCoeff:
             return "one";
         case kSC_GrBlendCoeff:
             return "src_color";
         case kISC_GrBlendCoeff:
             return "inv_src_color";
         case kDC_GrBlendCoeff:
             return "dst_color";
         case kIDC_GrBlendCoeff:
             return "inv_dst_color";
         case kSA_GrBlendCoeff:
             return "src_alpha";
         case kISA_GrBlendCoeff:
             return "inv_src_alpha";
         case kDA_GrBlendCoeff:
             return "dst_alpha";
         case kIDA_GrBlendCoeff:
             return "inv_dst_alpha";
         case kConstC_GrBlendCoeff:
             return "const_color";
         case kIConstC_GrBlendCoeff:
             return "inv_const_color";
         case kConstA_GrBlendCoeff:
             return "const_alpha";
         case kIConstA_GrBlendCoeff:
             return "inv_const_alpha";
         case kS2C_GrBlendCoeff:
             return "src2_color";
         case kIS2C_GrBlendCoeff:
             return "inv_src2_color";
         case kS2A_GrBlendCoeff:
             return "src2_alpha";
         case kIS2A_GrBlendCoeff:
             return "inv_src2_alpha";
     }
     return "";
 }

 SkString GrXferProcessor::BlendInfo::dump() const {
     SkString out;
     out.printf("write_color(%d) equation(%s) src_coeff(%s) dst_coeff:(%s) const(0x%08x)",
                fWriteColor, equation_string(fEquation), coeff_string(fSrcBlend),
                coeff_string(fDstBlend), fBlendConstant);
     return out;
 }
 #endif

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

 GrXPFactory::AnalysisProperties GrXPFactory::GetAnalysisProperties(
         const GrXPFactory* factory,
         const GrProcessorAnalysisColor& color,
         const GrProcessorAnalysisCoverage& coverage,
         const GrCaps& caps) {
     AnalysisProperties result;
     if (factory) {
         result = factory->analysisProperties(color, coverage, caps);
     } else {
         result = GrPorterDuffXPFactory::SrcOverAnalysisProperties(color, coverage, caps);
     }
     SkASSERT(!(result & AnalysisProperties::kRequiresDstTexture));
     if ((result & AnalysisProperties::kReadsDstInShader) &&
         !caps.shaderCaps()->dstReadInShaderSupport()) {
         result |= AnalysisProperties::kRequiresDstTexture;
         if (caps.textureBarrierSupport()) {
             result |= AnalysisProperties::kRequiresBarrierBetweenOverlappingDraws;
         }
     }
     return result;
 }

 sk_sp<const GrXferProcessor> GrXPFactory::MakeXferProcessor(const GrXPFactory* factory,
                                                             const GrProcessorAnalysisColor& color,
                                                             GrProcessorAnalysisCoverage coverage,
                                                             bool hasMixedSamples,
                                                             const GrCaps& caps) {
     SkASSERT(!hasMixedSamples || caps.shaderCaps()->dualSourceBlendingSupport());
     if (factory) {
         return factory->makeXferProcessor(color, coverage, hasMixedSamples, caps);
     } else {
         return GrPorterDuffXPFactory::MakeSrcOverXferProcessor(color, coverage, hasMixedSamples,
                                                                caps);
     }
 }
	/*
	* Copyright 2015 Google Inc.
	*
	* Use of this source code is governed by a BSD-style license that can be
	* found in the LICENSE file.
	*/

	#include "GrXferProcessor.h"

	#include "GrCaps.h"
	#include "GrPipeline.h"

	GrXferProcessor::GrXferProcessor(ClassID classID)
	: INHERITED(classID)
	, fWillReadDstColor(false)
	, fDstReadUsesMixedSamples(false)
	, fIsLCD(false) {}

	GrXferProcessor::GrXferProcessor(ClassID classID, bool willReadDstColor, bool hasMixedSamples,
	GrProcessorAnalysisCoverage coverage)
	: INHERITED(classID)
	, fWillReadDstColor(willReadDstColor)
	, fDstReadUsesMixedSamples(willReadDstColor && hasMixedSamples)
	, fIsLCD(GrProcessorAnalysisCoverage::kLCD == coverage) {}

	bool GrXferProcessor::hasSecondaryOutput() const {
	if (!this->willReadDstColor()) {
	return this->onHasSecondaryOutput();
	}
	return this->dstReadUsesMixedSamples();
	}

	void GrXferProcessor::getBlendInfo(BlendInfo* blendInfo) const {
	blendInfo->reset();
	if (!this->willReadDstColor()) {
	this->onGetBlendInfo(blendInfo);
	} else if (this->dstReadUsesMixedSamples()) {
	blendInfo->fDstBlend = kIS2A_GrBlendCoeff;
	}
	}

	void GrXferProcessor::getGLSLProcessorKey(const GrShaderCaps& caps, GrProcessorKeyBuilder* b,
	const GrSurfaceOrigin* originIfDstTexture) const {
	uint32_t key = this->willReadDstColor() ? 0x1 : 0x0;
	if (key) {
	if (originIfDstTexture) {
	key \|= 0x2;
	if (kTopLeft_GrSurfaceOrigin == *originIfDstTexture) {
	key \|= 0x4;
	}
	}
	if (this->dstReadUsesMixedSamples()) {
	key \|= 0x8;
	}
	}
	if (fIsLCD) {
	key \|= 0x10;
	}
	b->add32(key);
	this->onGetGLSLProcessorKey(caps, b);
	}

	#ifdef SK_DEBUG
	static const char* equation_string(GrBlendEquation eq) {
	switch (eq) {
	case kAdd_GrBlendEquation:
	return "add";
	case kSubtract_GrBlendEquation:
	return "subtract";
	case kReverseSubtract_GrBlendEquation:
	return "reverse_subtract";
	case kScreen_GrBlendEquation:
	return "screen";
	case kOverlay_GrBlendEquation:
	return "overlay";
	case kDarken_GrBlendEquation:
	return "darken";
	case kLighten_GrBlendEquation:
	return "lighten";
	case kColorDodge_GrBlendEquation:
	return "color_dodge";
	case kColorBurn_GrBlendEquation:
	return "color_burn";
	case kHardLight_GrBlendEquation:
	return "hard_light";
	case kSoftLight_GrBlendEquation:
	return "soft_light";
	case kDifference_GrBlendEquation:
	return "difference";
	case kExclusion_GrBlendEquation:
	return "exclusion";
	case kMultiply_GrBlendEquation:
	return "multiply";
	case kHSLHue_GrBlendEquation:
	return "hsl_hue";
	case kHSLSaturation_GrBlendEquation:
	return "hsl_saturation";
	case kHSLColor_GrBlendEquation:
	return "hsl_color";
	case kHSLLuminosity_GrBlendEquation:
	return "hsl_luminosity";
	};
	return "";
	}

	static const char* coeff_string(GrBlendCoeff coeff) {
	switch (coeff) {
	case kZero_GrBlendCoeff:
	return "zero";
	case kOne_GrBlendCoeff:
	return "one";
	case kSC_GrBlendCoeff:
	return "src_color";
	case kISC_GrBlendCoeff:
	return "inv_src_color";
	case kDC_GrBlendCoeff:
	return "dst_color";
	case kIDC_GrBlendCoeff:
	return "inv_dst_color";
	case kSA_GrBlendCoeff:
	return "src_alpha";
	case kISA_GrBlendCoeff:
	return "inv_src_alpha";
	case kDA_GrBlendCoeff:
	return "dst_alpha";
	case kIDA_GrBlendCoeff:
	return "inv_dst_alpha";
	case kConstC_GrBlendCoeff:
	return "const_color";
	case kIConstC_GrBlendCoeff:
	return "inv_const_color";
	case kConstA_GrBlendCoeff:
	return "const_alpha";
	case kIConstA_GrBlendCoeff:
	return "inv_const_alpha";
	case kS2C_GrBlendCoeff:
	return "src2_color";
	case kIS2C_GrBlendCoeff:
	return "inv_src2_color";
	case kS2A_GrBlendCoeff:
	return "src2_alpha";
	case kIS2A_GrBlendCoeff:
	return "inv_src2_alpha";
	}
	return "";
	}

	SkString GrXferProcessor::BlendInfo::dump() const {
	SkString out;
	out.printf("write_color(%d) equation(%s) src_coeff(%s) dst_coeff:(%s) const(0x%08x)",
	fWriteColor, equation_string(fEquation), coeff_string(fSrcBlend),
	coeff_string(fDstBlend), fBlendConstant);
	return out;
	}
	#endif

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

	GrXPFactory::AnalysisProperties GrXPFactory::GetAnalysisProperties(
	const GrXPFactory* factory,
	const GrProcessorAnalysisColor& color,
	const GrProcessorAnalysisCoverage& coverage,
	const GrCaps& caps) {
	AnalysisProperties result;
	if (factory) {
	result = factory->analysisProperties(color, coverage, caps);
	} else {
	result = GrPorterDuffXPFactory::SrcOverAnalysisProperties(color, coverage, caps);
	}
	SkASSERT(!(result & AnalysisProperties::kRequiresDstTexture));
	if ((result & AnalysisProperties::kReadsDstInShader) &&
	!caps.shaderCaps()->dstReadInShaderSupport()) {
	result \|= AnalysisProperties::kRequiresDstTexture;
	if (caps.textureBarrierSupport()) {
	result \|= AnalysisProperties::kRequiresBarrierBetweenOverlappingDraws;
	}
	}
	return result;
	}

	sk_sp<const GrXferProcessor> GrXPFactory::MakeXferProcessor(const GrXPFactory* factory,
	const GrProcessorAnalysisColor& color,
	GrProcessorAnalysisCoverage coverage,
	bool hasMixedSamples,
	const GrCaps& caps) {
	SkASSERT(!hasMixedSamples \|\| caps.shaderCaps()->dualSourceBlendingSupport());
	if (factory) {
	return factory->makeXferProcessor(color, coverage, hasMixedSamples, caps);
	} else {
	return GrPorterDuffXPFactory::MakeSrcOverXferProcessor(color, coverage, hasMixedSamples,
	caps);
	}
	}