blob: 0843cbf760c0c4a7b2f2dc7fec0c6cd801496469 [file] [log] [blame]
/*
* 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 "include/core/SkBlendMode.h"
#include "include/core/SkColorType.h"
#include "include/core/SkRefCnt.h"
#include "include/core/SkTypes.h"
#include "include/gpu/GpuTypes.h"
#include "include/gpu/GrBackendSurface.h"
#include "include/gpu/GrContextOptions.h"
#include "include/gpu/GrDirectContext.h"
#include "include/gpu/GrTypes.h"
#include "include/gpu/mock/GrMockTypes.h"
#include "include/private/SkColorData.h"
#include "include/private/gpu/ganesh/GrTypesPriv.h"
#include "src/gpu/Blend.h"
#include "src/gpu/Swizzle.h"
#include "src/gpu/ganesh/GrCaps.h"
#include "src/gpu/ganesh/GrColor.h"
#include "src/gpu/ganesh/GrDirectContextPriv.h"
#include "src/gpu/ganesh/GrDstProxyView.h"
#include "src/gpu/ganesh/GrGpu.h"
#include "src/gpu/ganesh/GrPaint.h"
#include "src/gpu/ganesh/GrProcessorAnalysis.h"
#include "src/gpu/ganesh/GrProcessorSet.h"
#include "src/gpu/ganesh/GrProxyProvider.h"
#include "src/gpu/ganesh/GrShaderCaps.h"
#include "src/gpu/ganesh/GrSurfaceProxy.h"
#include "src/gpu/ganesh/GrUserStencilSettings.h"
#include "src/gpu/ganesh/GrXferProcessor.h"
#include "src/gpu/ganesh/effects/GrPorterDuffXferProcessor.h"
#include "tests/CtsEnforcement.h"
#include "tests/Test.h"
#include "tools/gpu/ManagedBackendTexture.h"
#include <initializer_list>
#include <utility>
class GrTextureProxy;
////////////////////////////////////////////////////////////////////////////////
static void test_color_unknown_with_coverage(skiatest::Reporter* reporter, const GrCaps& caps);
static void test_color_not_opaque_no_coverage(skiatest::Reporter* reporter, const GrCaps& caps);
static void test_color_opaque_with_coverage(skiatest::Reporter* reporter, const GrCaps& caps);
static void test_color_opaque_no_coverage(skiatest::Reporter* reporter, const GrCaps& caps);
static void test_lcd_coverage(skiatest::Reporter* reporter, const GrCaps& caps);
static void test_lcd_coverage_fallback_case(skiatest::Reporter* reporter, const GrCaps& caps);
DEF_GANESH_TEST(GrPorterDuff, reporter, /*ctxInfo*/, CtsEnforcement::kApiLevel_T) {
GrMockOptions mockOptions;
mockOptions.fDualSourceBlendingSupport = true;
sk_sp<GrDirectContext> context = GrDirectContext::MakeMock(&mockOptions, GrContextOptions());
const GrCaps& caps = *context->priv().getGpu()->caps();
if (!caps.shaderCaps()->fDualSourceBlendingSupport) {
SK_ABORT("Null context does not support dual source blending.");
}
test_color_unknown_with_coverage(reporter, caps);
test_color_not_opaque_no_coverage(reporter, caps);
test_color_opaque_with_coverage(reporter, caps);
test_color_opaque_no_coverage(reporter, caps);
test_lcd_coverage(reporter, caps);
test_lcd_coverage_fallback_case(reporter, caps);
}
////////////////////////////////////////////////////////////////////////////////
#define TEST_ASSERT(...) REPORTER_ASSERT(reporter, __VA_ARGS__)
enum {
kNone_OutputType,
kCoverage_OutputType,
kModulate_OutputType,
kSAModulate_OutputType,
kISAModulate_OutputType,
kISCModulate_OutputType
};
static const int kInvalid_OutputType = -1;
static GrProcessorSet::Analysis do_analysis(const GrXPFactory* xpf,
const GrProcessorAnalysisColor& colorInput,
GrProcessorAnalysisCoverage coverageInput,
const GrCaps& caps) {
GrPaint paint;
paint.setXPFactory(xpf);
GrProcessorSet procs(std::move(paint));
SkPMColor4f overrideColor;
GrProcessorSet::Analysis analysis = procs.finalize(
colorInput, coverageInput, nullptr, &GrUserStencilSettings::kUnused, caps,
GrClampType::kAuto, &overrideColor);
return analysis;
}
class GrPorterDuffTest {
public:
struct XPInfo {
XPInfo(skiatest::Reporter* reporter, SkBlendMode xfermode, const GrCaps& caps,
GrProcessorAnalysisColor inputColor, GrProcessorAnalysisCoverage inputCoverage) {
const GrXPFactory* xpf = GrPorterDuffXPFactory::Get(xfermode);
bool isLCD = GrProcessorAnalysisCoverage::kLCD == inputCoverage;
GrProcessorSet::Analysis analysis = do_analysis(xpf, inputColor, inputCoverage, caps);
fCompatibleWithCoverageAsAlpha = analysis.isCompatibleWithCoverageAsAlpha();
fUnaffectedByDstValue = analysis.unaffectedByDstValue();
fIgnoresInputColor = analysis.inputColorIsIgnored();
sk_sp<const GrXferProcessor> xp(
GrXPFactory::MakeXferProcessor(xpf, inputColor, inputCoverage, caps,
GrClampType::kAuto));
TEST_ASSERT(!analysis.requiresDstTexture() ||
(isLCD &&
!caps.shaderCaps()->fDstReadInShaderSupport &&
(SkBlendMode::kSrcOver != xfermode ||
!inputColor.isOpaque())));
// Porter Duff modes currently only use fixed-function or shader blending, and Ganesh
// doesn't yet make use of framebuffer fetches that require a barrier
// (e.g., QCOM_shader_framebuffer_fetch_noncoherent). So dst textures and xfer barriers
// should always go hand in hand for Porter Duff modes.
TEST_ASSERT(analysis.requiresDstTexture() == analysis.requiresNonOverlappingDraws());
GetXPOutputTypes(xp.get(), &fPrimaryOutputType, &fSecondaryOutputType);
fBlendInfo = xp->getBlendInfo();
TEST_ASSERT(!xp->willReadDstColor() ||
(isLCD && (SkBlendMode::kSrcOver != xfermode ||
!inputColor.isOpaque())));
TEST_ASSERT(xp->hasSecondaryOutput() ==
skgpu::BlendCoeffRefsSrc2(fBlendInfo.fDstBlend));
}
bool fCompatibleWithCoverageAsAlpha;
bool fUnaffectedByDstValue;
bool fIgnoresInputColor;
int fPrimaryOutputType;
int fSecondaryOutputType;
skgpu::BlendInfo fBlendInfo;
};
static void GetXPOutputTypes(const GrXferProcessor* xp, int* outPrimary, int* outSecondary) {
GrPorterDuffXPFactory::TestGetXPOutputTypes(xp, outPrimary, outSecondary);
}
};
static void test_lcd_coverage(skiatest::Reporter* reporter, const GrCaps& caps) {
GrProcessorAnalysisColor inputColor = GrProcessorAnalysisColor::Opaque::kYes;
GrProcessorAnalysisCoverage inputCoverage = GrProcessorAnalysisCoverage::kLCD;
for (int m = 0; m <= (int)SkBlendMode::kLastCoeffMode; m++) {
SkBlendMode xfermode = static_cast<SkBlendMode>(m);
const GrPorterDuffTest::XPInfo xpi(reporter, xfermode, caps, inputColor, inputCoverage);
switch (xfermode) {
case SkBlendMode::kClear:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrc:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDst:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kSAModulate_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kIS2C == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kXor:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kPlus:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kModulate:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kScreen:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kInvalid_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kInvalid_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
default:
ERRORF(reporter, "Invalid xfermode.");
break;
}
}
}
static void test_color_unknown_with_coverage(skiatest::Reporter* reporter, const GrCaps& caps) {
GrProcessorAnalysisColor inputColor = GrProcessorAnalysisColor::Opaque::kNo;
GrProcessorAnalysisCoverage inputCoverage = GrProcessorAnalysisCoverage::kSingleChannel;
for (int m = 0; m <= (int)SkBlendMode::kLastCoeffMode; m++) {
SkBlendMode xfermode = static_cast<SkBlendMode>(m);
const GrPorterDuffTest::XPInfo xpi(reporter, xfermode, caps, inputColor, inputCoverage);
switch (xfermode) {
case SkBlendMode::kClear:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kCoverage_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kReverseSubtract == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDC == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrc:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kCoverage_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kIS2A == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDst:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(!xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kCoverage_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kIS2A == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kISAModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kReverseSubtract == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDC == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kCoverage_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kIS2A == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kISAModulate_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kIS2C == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kXor:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kPlus:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kModulate:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kISCModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kReverseSubtract == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDC == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kScreen:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISC == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
default:
ERRORF(reporter, "Invalid xfermode.");
break;
}
}
}
static void test_color_not_opaque_no_coverage(skiatest::Reporter* reporter, const GrCaps& caps) {
GrProcessorAnalysisColor inputColor(
SkPMColor4f::FromBytes_RGBA(GrColorPackRGBA(229, 0, 154, 240)));
GrProcessorAnalysisCoverage inputCoverage = GrProcessorAnalysisCoverage::kNone;
for (int m = 0; m <= (int)SkBlendMode::kLastCoeffMode; m++) {
SkBlendMode xfermode = static_cast<SkBlendMode>(m);
const GrPorterDuffTest::XPInfo xpi(reporter, xfermode, caps, inputColor, inputCoverage);
switch (xfermode) {
case SkBlendMode::kClear:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrc:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDst:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(!xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kSA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kSA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kXor:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kPlus:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kModulate:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kSC == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kScreen:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISC == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
default:
ERRORF(reporter, "Invalid xfermode.");
break;
}
}
}
static void test_color_opaque_with_coverage(skiatest::Reporter* reporter, const GrCaps& caps) {
GrProcessorAnalysisColor inputColor = GrProcessorAnalysisColor::Opaque::kYes;
GrProcessorAnalysisCoverage inputCoverage = GrProcessorAnalysisCoverage::kSingleChannel;
for (int m = 0; m <= (int)SkBlendMode::kLastCoeffMode; m++) {
SkBlendMode xfermode = static_cast<SkBlendMode>(m);
const GrPorterDuffTest::XPInfo xpi(reporter, xfermode, caps, inputColor, inputCoverage);
switch (xfermode) {
case SkBlendMode::kClear:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kCoverage_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kReverseSubtract == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDC == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrc:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDst:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(!xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstIn:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(!xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOut:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(!xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kCoverage_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kReverseSubtract == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDC == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kXor:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kPlus:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kModulate:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(kISCModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kReverseSubtract == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDC == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kScreen:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISC == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
default:
ERRORF(reporter, "Invalid xfermode.");
break;
}
}
}
static void test_color_opaque_no_coverage(skiatest::Reporter* reporter, const GrCaps& caps) {
GrProcessorAnalysisColor inputColor = GrProcessorAnalysisColor::Opaque::kYes;
GrProcessorAnalysisCoverage inputCoverage = GrProcessorAnalysisCoverage::kNone;
for (int m = 0; m <= (int)SkBlendMode::kLastCoeffMode; m++) {
SkBlendMode xfermode = static_cast<SkBlendMode>(m);
const GrPorterDuffTest::XPInfo xpi(reporter, xfermode, caps, inputColor, inputCoverage);
switch (xfermode) {
case SkBlendMode::kClear:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrc:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDst:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(!xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOver:
// We don't specialize opaque src-over. See note in GrPorterDuffXferProcessor.cpp
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
if (caps.shouldCollapseSrcOverToSrcWhenAble()) {
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
} else {
TEST_ASSERT(skgpu::BlendCoeff::kISA == xpi.fBlendInfo.fDstBlend);
}
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOver:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcIn:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstIn:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(!xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcOut:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstOut:
TEST_ASSERT(xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(xpi.fUnaffectedByDstValue);
TEST_ASSERT(kNone_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kSrcATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kDstATop:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kXor:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kIDA == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kPlus:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kModulate:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kZero == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kSC == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
case SkBlendMode::kScreen:
TEST_ASSERT(!xpi.fIgnoresInputColor);
TEST_ASSERT(xpi.fCompatibleWithCoverageAsAlpha);
TEST_ASSERT(!xpi.fUnaffectedByDstValue);
TEST_ASSERT(kModulate_OutputType == xpi.fPrimaryOutputType);
TEST_ASSERT(kNone_OutputType == xpi.fSecondaryOutputType);
TEST_ASSERT(skgpu::BlendEquation::kAdd == xpi.fBlendInfo.fEquation);
TEST_ASSERT(skgpu::BlendCoeff::kOne == xpi.fBlendInfo.fSrcBlend);
TEST_ASSERT(skgpu::BlendCoeff::kISC == xpi.fBlendInfo.fDstBlend);
TEST_ASSERT(xpi.fBlendInfo.fWritesColor);
break;
default:
ERRORF(reporter, "Invalid xfermode.");
break;
}
}
}
static void test_lcd_coverage_fallback_case(skiatest::Reporter* reporter, const GrCaps& caps) {
constexpr GrClampType autoClamp = GrClampType::kAuto;
const GrXPFactory* xpf = GrPorterDuffXPFactory::Get(SkBlendMode::kSrcOver);
GrProcessorAnalysisColor color = SkPMColor4f::FromBytes_RGBA(GrColorPackRGBA(123, 45, 67, 255));
GrProcessorAnalysisCoverage coverage = GrProcessorAnalysisCoverage::kLCD;
TEST_ASSERT(!(GrXPFactory::GetAnalysisProperties(xpf, color, coverage, caps, autoClamp) &
GrXPFactory::AnalysisProperties::kRequiresDstTexture));
sk_sp<const GrXferProcessor> xp_opaque(
GrXPFactory::MakeXferProcessor(xpf, color, coverage, caps, autoClamp));
if (!xp_opaque) {
ERRORF(reporter, "Failed to create an XP with LCD coverage.");
return;
}
skgpu::BlendInfo blendInfo = xp_opaque->getBlendInfo();
TEST_ASSERT(blendInfo.fWritesColor);
// Test with non-opaque alpha
color = SkPMColor4f::FromBytes_RGBA(GrColorPackRGBA(123, 45, 67, 221));
coverage = GrProcessorAnalysisCoverage::kLCD;
TEST_ASSERT(!(GrXPFactory::GetAnalysisProperties(xpf, color, coverage, caps, autoClamp) &
GrXPFactory::AnalysisProperties::kRequiresDstTexture));
sk_sp<const GrXferProcessor> xp(
GrXPFactory::MakeXferProcessor(xpf, color, coverage, caps, autoClamp));
if (!xp) {
ERRORF(reporter, "Failed to create an XP with LCD coverage.");
return;
}
blendInfo = xp->getBlendInfo();
TEST_ASSERT(blendInfo.fWritesColor);
}
DEF_GANESH_TEST(PorterDuffNoDualSourceBlending, reporter, options, CtsEnforcement::kApiLevel_T) {
GrContextOptions opts = options;
opts.fSuppressDualSourceBlending = true;
sk_gpu_test::GrContextFactory mockFactory(opts);
auto ctx = mockFactory.get(sk_gpu_test::GrContextFactory::kMock_ContextType);
if (!ctx) {
SK_ABORT("Failed to create mock context without ARB_blend_func_extended.");
}
GrProxyProvider* proxyProvider = ctx->priv().proxyProvider();
const GrCaps& caps = *ctx->priv().caps();
if (caps.shaderCaps()->fDualSourceBlendingSupport) {
SK_ABORT("Mock context failed to honor request for no ARB_blend_func_extended.");
}
auto mbet = sk_gpu_test::ManagedBackendTexture::MakeWithoutData(
ctx, 100, 100, kRGBA_8888_SkColorType, GrMipmapped::kNo, GrRenderable::kNo);
if (!mbet) {
ERRORF(reporter, "Could not make texture.");
return;
}
GrDstProxyView fakeDstProxyView;
{
sk_sp<GrTextureProxy> proxy = proxyProvider->wrapBackendTexture(
mbet->texture(), kBorrow_GrWrapOwnership, GrWrapCacheable::kNo, kRead_GrIOType,
mbet->refCountedCallback());
skgpu::Swizzle swizzle =
caps.getReadSwizzle(mbet->texture().getBackendFormat(), GrColorType::kRGBA_8888);
fakeDstProxyView.setProxyView({std::move(proxy), kTopLeft_GrSurfaceOrigin, swizzle});
}
static const GrProcessorAnalysisColor colorInputs[] = {
GrProcessorAnalysisColor::Opaque::kNo, GrProcessorAnalysisColor::Opaque::kYes,
GrProcessorAnalysisColor(SkPMColor4f::FromBytes_RGBA(GrColorPackRGBA(0, 82, 17, 100))),
GrProcessorAnalysisColor(SkPMColor4f::FromBytes_RGBA(GrColorPackRGBA(0, 82, 17, 255)))};
for (const auto& colorInput : colorInputs) {
for (GrProcessorAnalysisCoverage coverageType :
{GrProcessorAnalysisCoverage::kSingleChannel, GrProcessorAnalysisCoverage::kNone}) {
for (int m = 0; m <= (int)SkBlendMode::kLastCoeffMode; m++) {
SkBlendMode xfermode = static_cast<SkBlendMode>(m);
const GrXPFactory* xpf = GrPorterDuffXPFactory::Get(xfermode);
sk_sp<const GrXferProcessor> xp(
GrXPFactory::MakeXferProcessor(xpf, colorInput, coverageType, caps,
GrClampType::kAuto));
if (!xp) {
ERRORF(reporter, "Failed to create an XP without dual source blending.");
return;
}
TEST_ASSERT(!xp->hasSecondaryOutput());
}
}
}
}