src/gpu/gl/GrGpuGL_unittest.cpp - platform/external/skqp - Gitiles

 #include "GrGpuGL.h"

 #include "effects/GrConvolutionEffect.h"
 #include "effects/GrMorphologyEffect.h"
 #include "GrProgramStageFactory.h"
 #include "GrRandom.h"

 namespace {

 // GrRandoms nextU() values have patterns in the low bits
 // So using nextU() % array_count might never take some values.
 int random_int(GrRandom* r, int count) {
     return (int)(r->nextF() * count);
 }

 // min is inclusive, max is exclusive
 int random_int(GrRandom* r, int min, int max) {
     return (int)(r->nextF() * (max-min)) + min;
 }

 bool random_bool(GrRandom* r) {
     return r->nextF() > .5f;
 }

 typedef GrGLProgram::StageDesc StageDesc;
 // TODO: Effects should be able to register themselves for inclusion in the
 // randomly generated shaders. They should be able to configure themselves
 // randomly.
 GrCustomStage* create_random_effect(StageDesc* stageDesc,
                                     GrRandom* random) {
     enum EffectType {
         kConvolution_EffectType,
         kErode_EffectType,
         kDilate_EffectType,

         kEffectCount
     };

     // TODO: Remove this when generator doesn't apply this non-custom-stage
     // notion to custom stages automatically.
     static const uint32_t kMulByAlphaMask =
         StageDesc::kMulRGBByAlpha_RoundUp_InConfigFlag |
         StageDesc::kMulRGBByAlpha_RoundDown_InConfigFlag;

     static const Gr1DKernelEffect::Direction gKernelDirections[] = {
         Gr1DKernelEffect::kX_Direction,
         Gr1DKernelEffect::kY_Direction
     };

     // TODO: When matrices are property of the custom-stage then remove the
     // no-persp flag code below.
     int effect = random_int(random, kEffectCount);
     switch (effect) {
         case kConvolution_EffectType: {
             int direction = random_int(random, 2);
             int kernelRadius = random_int(random, 1, 4);
             float kernel[GrConvolutionEffect::kMaxKernelWidth];
             for (int i = 0; i < GrConvolutionEffect::kMaxKernelWidth; i++) {
                 kernel[i] = random->nextF();
             }
             // does not work with perspective or mul-by-alpha-mask
             stageDesc->fOptFlags |= StageDesc::kNoPerspective_OptFlagBit;
             stageDesc->fInConfigFlags &= ~kMulByAlphaMask;
             return new GrConvolutionEffect(gKernelDirections[direction],
                                            kernelRadius,
                                            kernel);
             }
         case kErode_EffectType: {
             int direction = random_int(random, 2);
             int kernelRadius = random_int(random, 1, 4);
             // does not work with perspective or mul-by-alpha-mask
             stageDesc->fOptFlags |= StageDesc::kNoPerspective_OptFlagBit;
             stageDesc->fInConfigFlags &= ~kMulByAlphaMask;
             return new GrMorphologyEffect(gKernelDirections[direction],
                                           kernelRadius,
                                           GrContext::kErode_MorphologyType);
             }
         case kDilate_EffectType: {
             int direction = random_int(random, 2);
             int kernelRadius = random_int(random, 1, 4);
             // does not work with perspective or mul-by-alpha-mask
             stageDesc->fOptFlags |= StageDesc::kNoPerspective_OptFlagBit;
             stageDesc->fInConfigFlags &= ~kMulByAlphaMask;
             return new GrMorphologyEffect(gKernelDirections[direction],
                                           kernelRadius,
                                           GrContext::kDilate_MorphologyType);
             }
         default:
             GrCrash("Unexpected custom effect type");
     }
     return NULL;
 }
 }

 bool GrGpuGL::programUnitTest() {

     GrGLSLGeneration glslGeneration =
             GrGetGLSLGeneration(this->glBinding(), this->glInterface());
     static const int STAGE_OPTS[] = {
         0,
         StageDesc::kNoPerspective_OptFlagBit,
         StageDesc::kIdentity_CoordMapping
     };
     static const int IN_CONFIG_FLAGS[] = {
         StageDesc::kNone_InConfigFlag,
         StageDesc::kSwapRAndB_InConfigFlag,
         StageDesc::kSwapRAndB_InConfigFlag |
         StageDesc::kMulRGBByAlpha_RoundUp_InConfigFlag,
         StageDesc::kMulRGBByAlpha_RoundDown_InConfigFlag,
         StageDesc::kSmearAlpha_InConfigFlag,
         StageDesc::kSmearRed_InConfigFlag,
     };
     GrGLProgram program;
     ProgramDesc& pdesc = program.fProgramDesc;

     static const int NUM_TESTS = 512;

     GrRandom random;
     for (int t = 0; t < NUM_TESTS; ++t) {

 #if 0
         GrPrintf("\nTest Program %d\n-------------\n", t);
         static const int stop = -1;
         if (t == stop) {
             int breakpointhere = 9;
         }
 #endif

         pdesc.fVertexLayout = 0;
         pdesc.fEmitsPointSize = random.nextF() > .5f;
         pdesc.fColorInput = random_int(&random, ProgramDesc::kColorInputCnt);
         pdesc.fCoverageInput = random_int(&random, ProgramDesc::kColorInputCnt);

         pdesc.fColorFilterXfermode = random_int(&random, SkXfermode::kCoeffModesCnt);

         pdesc.fFirstCoverageStage = random_int(&random, GrDrawState::kNumStages);

         pdesc.fVertexLayout |= random_bool(&random) ?
                                     GrDrawTarget::kCoverage_VertexLayoutBit :
                                     0;

 #if GR_GL_EXPERIMENTAL_GS
         pdesc.fExperimentalGS = this->getCaps().fGeometryShaderSupport &&
                                 random_bool(&random);
 #endif
         pdesc.fOutputConfig =  random_int(&random, ProgramDesc::kOutputConfigCnt);

         bool edgeAA = random_bool(&random);
         if (edgeAA) {
             pdesc.fVertexLayout |= GrDrawTarget::kEdge_VertexLayoutBit;
             if (this->getCaps().fShaderDerivativeSupport) {
                 pdesc.fVertexEdgeType = (GrDrawState::VertexEdgeType) random_int(&random, GrDrawState::kVertexEdgeTypeCnt);
             } else {
                 pdesc.fVertexEdgeType = GrDrawState::kHairLine_EdgeType;
             }
         } else {
         }

         pdesc.fColorMatrixEnabled = random_bool(&random);

         if (this->getCaps().fDualSourceBlendingSupport) {
             pdesc.fDualSrcOutput = random_int(&random, ProgramDesc::kDualSrcOutputCnt);
         } else {
             pdesc.fDualSrcOutput = ProgramDesc::kNone_DualSrcOutput;
         }

         SkAutoTUnref<GrCustomStage> customStages[GrDrawState::kNumStages];

         for (int s = 0; s < GrDrawState::kNumStages; ++s) {
             // enable the stage?
             if (random_bool(&random)) {
                 // use separate tex coords?
                 if (random_bool(&random)) {
                     int t = random_int(&random, GrDrawState::kMaxTexCoords);
                     pdesc.fVertexLayout |= StageTexCoordVertexLayoutBit(s, t);
                 } else {
                     pdesc.fVertexLayout |= StagePosAsTexCoordVertexLayoutBit(s);
                 }
             }
             // use text-formatted verts?
             if (random_bool(&random)) {
                 pdesc.fVertexLayout |= kTextFormat_VertexLayoutBit;
             }
             StageDesc& stage = pdesc.fStages[s];

             stage.fCustomStageKey = 0;

             stage.fOptFlags = STAGE_OPTS[random_int(&random, GR_ARRAY_COUNT(STAGE_OPTS))];
             stage.fInConfigFlags = IN_CONFIG_FLAGS[random_int(&random, GR_ARRAY_COUNT(IN_CONFIG_FLAGS))];
             stage.fCoordMapping =  random_int(&random, StageDesc::kCoordMappingCnt);
             stage.fFetchMode = random_int(&random, StageDesc::kFetchModeCnt);
             stage.setEnabled(VertexUsesStage(s, pdesc.fVertexLayout));
             static const uint32_t kMulByAlphaMask =
                 StageDesc::kMulRGBByAlpha_RoundUp_InConfigFlag |
                 StageDesc::kMulRGBByAlpha_RoundDown_InConfigFlag;

             if (StageDesc::k2x2_FetchMode == stage.fFetchMode) {
                 stage.fInConfigFlags &= ~kMulByAlphaMask;
             }

             bool useCustomEffect = random_bool(&random);
             if (useCustomEffect) {
                 customStages[s].reset(create_random_effect(&stage, &random));
                 if (NULL != customStages[s]) {
                     stage.fCustomStageKey =
                         customStages[s]->getFactory().glStageKey(*customStages[s]);
                 }
             }
         }
         CachedData cachedData;
         GR_STATIC_ASSERT(sizeof(customStages) ==
                          GrDrawState::kNumStages * sizeof(GrCustomStage*));
         GrCustomStage** stages = reinterpret_cast<GrCustomStage**>(&customStages);
         if (!program.genProgram(this->glContextInfo(), stages, &cachedData)) {
             return false;
         }
         DeleteProgram(this->glInterface(), &cachedData);
     }
     return true;
 }
	#include "GrGpuGL.h"

	#include "effects/GrConvolutionEffect.h"
	#include "effects/GrMorphologyEffect.h"
	#include "GrProgramStageFactory.h"
	#include "GrRandom.h"

	namespace {

	// GrRandoms nextU() values have patterns in the low bits
	// So using nextU() % array_count might never take some values.
	int random_int(GrRandom* r, int count) {
	return (int)(r->nextF() * count);
	}

	// min is inclusive, max is exclusive
	int random_int(GrRandom* r, int min, int max) {
	return (int)(r->nextF() * (max-min)) + min;
	}

	bool random_bool(GrRandom* r) {
	return r->nextF() > .5f;
	}

	typedef GrGLProgram::StageDesc StageDesc;
	// TODO: Effects should be able to register themselves for inclusion in the
	// randomly generated shaders. They should be able to configure themselves
	// randomly.
	GrCustomStage* create_random_effect(StageDesc* stageDesc,
	GrRandom* random) {
	enum EffectType {
	kConvolution_EffectType,
	kErode_EffectType,
	kDilate_EffectType,

	kEffectCount
	};

	// TODO: Remove this when generator doesn't apply this non-custom-stage
	// notion to custom stages automatically.
	static const uint32_t kMulByAlphaMask =
	StageDesc::kMulRGBByAlpha_RoundUp_InConfigFlag \|
	StageDesc::kMulRGBByAlpha_RoundDown_InConfigFlag;

	static const Gr1DKernelEffect::Direction gKernelDirections[] = {
	Gr1DKernelEffect::kX_Direction,
	Gr1DKernelEffect::kY_Direction
	};

	// TODO: When matrices are property of the custom-stage then remove the
	// no-persp flag code below.
	int effect = random_int(random, kEffectCount);
	switch (effect) {
	case kConvolution_EffectType: {
	int direction = random_int(random, 2);
	int kernelRadius = random_int(random, 1, 4);
	float kernel[GrConvolutionEffect::kMaxKernelWidth];
	for (int i = 0; i < GrConvolutionEffect::kMaxKernelWidth; i++) {
	kernel[i] = random->nextF();
	}
	// does not work with perspective or mul-by-alpha-mask
	stageDesc->fOptFlags \|= StageDesc::kNoPerspective_OptFlagBit;
	stageDesc->fInConfigFlags &= ~kMulByAlphaMask;
	return new GrConvolutionEffect(gKernelDirections[direction],
	kernelRadius,
	kernel);
	}
	case kErode_EffectType: {
	int direction = random_int(random, 2);
	int kernelRadius = random_int(random, 1, 4);
	// does not work with perspective or mul-by-alpha-mask
	stageDesc->fOptFlags \|= StageDesc::kNoPerspective_OptFlagBit;
	stageDesc->fInConfigFlags &= ~kMulByAlphaMask;
	return new GrMorphologyEffect(gKernelDirections[direction],
	kernelRadius,
	GrContext::kErode_MorphologyType);
	}
	case kDilate_EffectType: {
	int direction = random_int(random, 2);
	int kernelRadius = random_int(random, 1, 4);
	// does not work with perspective or mul-by-alpha-mask
	stageDesc->fOptFlags \|= StageDesc::kNoPerspective_OptFlagBit;
	stageDesc->fInConfigFlags &= ~kMulByAlphaMask;
	return new GrMorphologyEffect(gKernelDirections[direction],
	kernelRadius,
	GrContext::kDilate_MorphologyType);
	}
	default:
	GrCrash("Unexpected custom effect type");
	}
	return NULL;
	}
	}

	bool GrGpuGL::programUnitTest() {

	GrGLSLGeneration glslGeneration =
	GrGetGLSLGeneration(this->glBinding(), this->glInterface());
	static const int STAGE_OPTS[] = {
	0,
	StageDesc::kNoPerspective_OptFlagBit,
	StageDesc::kIdentity_CoordMapping
	};
	static const int IN_CONFIG_FLAGS[] = {
	StageDesc::kNone_InConfigFlag,
	StageDesc::kSwapRAndB_InConfigFlag,
	StageDesc::kSwapRAndB_InConfigFlag \|
	StageDesc::kMulRGBByAlpha_RoundUp_InConfigFlag,
	StageDesc::kMulRGBByAlpha_RoundDown_InConfigFlag,
	StageDesc::kSmearAlpha_InConfigFlag,
	StageDesc::kSmearRed_InConfigFlag,
	};
	GrGLProgram program;
	ProgramDesc& pdesc = program.fProgramDesc;

	static const int NUM_TESTS = 512;

	GrRandom random;
	for (int t = 0; t < NUM_TESTS; ++t) {

	#if 0
	GrPrintf("\nTest Program %d\n-------------\n", t);
	static const int stop = -1;
	if (t == stop) {
	int breakpointhere = 9;
	}
	#endif

	pdesc.fVertexLayout = 0;
	pdesc.fEmitsPointSize = random.nextF() > .5f;
	pdesc.fColorInput = random_int(&random, ProgramDesc::kColorInputCnt);
	pdesc.fCoverageInput = random_int(&random, ProgramDesc::kColorInputCnt);

	pdesc.fColorFilterXfermode = random_int(&random, SkXfermode::kCoeffModesCnt);

	pdesc.fFirstCoverageStage = random_int(&random, GrDrawState::kNumStages);

	pdesc.fVertexLayout \|= random_bool(&random) ?
	GrDrawTarget::kCoverage_VertexLayoutBit :
	0;

	#if GR_GL_EXPERIMENTAL_GS
	pdesc.fExperimentalGS = this->getCaps().fGeometryShaderSupport &&
	random_bool(&random);
	#endif
	pdesc.fOutputConfig = random_int(&random, ProgramDesc::kOutputConfigCnt);

	bool edgeAA = random_bool(&random);
	if (edgeAA) {
	pdesc.fVertexLayout \|= GrDrawTarget::kEdge_VertexLayoutBit;
	if (this->getCaps().fShaderDerivativeSupport) {
	pdesc.fVertexEdgeType = (GrDrawState::VertexEdgeType) random_int(&random, GrDrawState::kVertexEdgeTypeCnt);
	} else {
	pdesc.fVertexEdgeType = GrDrawState::kHairLine_EdgeType;
	}
	} else {
	}

	pdesc.fColorMatrixEnabled = random_bool(&random);

	if (this->getCaps().fDualSourceBlendingSupport) {
	pdesc.fDualSrcOutput = random_int(&random, ProgramDesc::kDualSrcOutputCnt);
	} else {
	pdesc.fDualSrcOutput = ProgramDesc::kNone_DualSrcOutput;
	}

	SkAutoTUnref<GrCustomStage> customStages[GrDrawState::kNumStages];

	for (int s = 0; s < GrDrawState::kNumStages; ++s) {
	// enable the stage?
	if (random_bool(&random)) {
	// use separate tex coords?
	if (random_bool(&random)) {
	int t = random_int(&random, GrDrawState::kMaxTexCoords);
	pdesc.fVertexLayout \|= StageTexCoordVertexLayoutBit(s, t);
	} else {
	pdesc.fVertexLayout \|= StagePosAsTexCoordVertexLayoutBit(s);
	}
	}
	// use text-formatted verts?
	if (random_bool(&random)) {
	pdesc.fVertexLayout \|= kTextFormat_VertexLayoutBit;
	}
	StageDesc& stage = pdesc.fStages[s];

	stage.fCustomStageKey = 0;

	stage.fOptFlags = STAGE_OPTS[random_int(&random, GR_ARRAY_COUNT(STAGE_OPTS))];
	stage.fInConfigFlags = IN_CONFIG_FLAGS[random_int(&random, GR_ARRAY_COUNT(IN_CONFIG_FLAGS))];
	stage.fCoordMapping = random_int(&random, StageDesc::kCoordMappingCnt);
	stage.fFetchMode = random_int(&random, StageDesc::kFetchModeCnt);
	stage.setEnabled(VertexUsesStage(s, pdesc.fVertexLayout));
	static const uint32_t kMulByAlphaMask =
	StageDesc::kMulRGBByAlpha_RoundUp_InConfigFlag \|
	StageDesc::kMulRGBByAlpha_RoundDown_InConfigFlag;

	if (StageDesc::k2x2_FetchMode == stage.fFetchMode) {
	stage.fInConfigFlags &= ~kMulByAlphaMask;
	}

	bool useCustomEffect = random_bool(&random);
	if (useCustomEffect) {
	customStages[s].reset(create_random_effect(&stage, &random));
	if (NULL != customStages[s]) {
	stage.fCustomStageKey =
	customStages[s]->getFactory().glStageKey(*customStages[s]);
	}
	}
	}
	CachedData cachedData;
	GR_STATIC_ASSERT(sizeof(customStages) ==
	GrDrawState::kNumStages * sizeof(GrCustomStage*));
	GrCustomStage stages = reinterpret_cast<GrCustomStage>(&customStages);
	if (!program.genProgram(this->glContextInfo(), stages, &cachedData)) {
	return false;
	}
	DeleteProgram(this->glInterface(), &cachedData);
	}
	return true;
	}