d7291ba7a1
Bug: skia: Change-Id: I971455867e54d431cc1094fca041f773f78748ee Reviewed-on: https://skia-review.googlesource.com/c/skia/+/196218 Commit-Queue: Chris Dalton <csmartdalton@google.com> Reviewed-by: Chris Dalton <csmartdalton@google.com> Reviewed-by: Ethan Nicholas <ethannicholas@google.com> Reviewed-by: Brian Salomon <bsalomon@google.com>
278 lines
11 KiB
C++
278 lines
11 KiB
C++
/*
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* Copyright 2019 Google Inc.
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*
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* Use of this source code is governed by a BSD-style license that can be
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* found in the LICENSE file.
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*/
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#include "gm.h"
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#if SK_SUPPORT_GPU
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#include "GrClip.h"
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#include "GrContext.h"
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#include "GrContextPriv.h"
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#include "GrMemoryPool.h"
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#include "GrOpFlushState.h"
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#include "GrRecordingContext.h"
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#include "GrRecordingContextPriv.h"
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#include "GrRenderTargetContext.h"
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#include "GrRenderTargetContextPriv.h"
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#include "glsl/GrGLSLFragmentShaderBuilder.h"
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#include "glsl/GrGLSLGeometryProcessor.h"
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#include "glsl/GrGLSLProgramBuilder.h"
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#include "glsl/GrGLSLVarying.h"
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#include "glsl/GrGLSLVertexGeoBuilder.h"
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namespace skiagm {
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enum class GradType : bool {
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kHW,
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kSW
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};
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/**
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* This test ensures that the shaderBuilder's sample offsets and sample mask are correlated with
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* actual HW sample locations. It does so by drawing pseudo-random subpixel boxes, and only turning
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* off the samples whose locations fall inside the boxes.
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*/
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class SampleLocationsGM : public GpuGM {
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public:
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SampleLocationsGM(GradType gradType, GrSurfaceOrigin origin)
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: fGradType(gradType)
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, fOrigin(origin) {}
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private:
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SkString onShortName() override;
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SkISize onISize() override { return SkISize::Make(200, 200); }
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DrawResult onDraw(GrContext*, GrRenderTargetContext*, SkCanvas*, SkString* errorMsg) override;
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const GradType fGradType;
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const GrSurfaceOrigin fOrigin;
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};
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////////////////////////////////////////////////////////////////////////////////////////////////////
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// SkSL code.
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class SampleLocationsTestProcessor : public GrGeometryProcessor {
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public:
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SampleLocationsTestProcessor(GradType gradType)
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: GrGeometryProcessor(kSampleLocationsTestProcessor_ClassID)
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, fGradType(gradType) {
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this->setWillUseCustomFeature(CustomFeatures::kSampleLocations);
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}
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const char* name() const override { return "SampleLocationsTestProcessor"; }
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void getGLSLProcessorKey(const GrShaderCaps&, GrProcessorKeyBuilder* b) const final {
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b->add32((uint32_t)fGradType);
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}
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GrGLSLPrimitiveProcessor* createGLSLInstance(const GrShaderCaps&) const final;
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private:
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const GradType fGradType;
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class Impl;
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};
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class SampleLocationsTestProcessor::Impl : public GrGLSLGeometryProcessor {
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void onEmitCode(EmitArgs& args, GrGPArgs* gpArgs) override {
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const auto& proc = args.fGP.cast<SampleLocationsTestProcessor>();
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auto* v = args.fVertBuilder;
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auto* f = args.fFragBuilder;
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GrGLSLVarying coord(kFloat2_GrSLType);
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GrGLSLVarying grad(kFloat2_GrSLType);
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args.fVaryingHandler->addVarying("coord", &coord);
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if (GradType::kSW == proc.fGradType) {
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args.fVaryingHandler->addVarying("grad", &grad);
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}
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// Pixel grid.
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v->codeAppendf("int x = sk_InstanceID %% 200;");
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v->codeAppendf("int y = sk_InstanceID / 200;");
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// Create pseudo-random rectangles inside a 16x16 subpixel grid. This works out nicely
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// because there are 17 positions on the grid (including both edges), and 17 is a great
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// prime number for generating pseudo-random numbers.
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v->codeAppendf("int ileft = (sk_InstanceID*929) %% 17;");
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v->codeAppendf("int iright = ileft + 1 + ((sk_InstanceID*1637) %% (17 - ileft));");
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v->codeAppendf("int itop = (sk_InstanceID*313) %% 17;");
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v->codeAppendf("int ibot = itop + 1 + ((sk_InstanceID*1901) %% (17 - itop));");
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// Outset (or inset) the rectangle, for the very likely scenario that samples fall on exact
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// 16ths of a pixel. GL_SUBPIXEL_BITS is allowed to be as low as 4, so try not to let the
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// outset value to get too small.
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v->codeAppendf("float outset = 1/32.0;");
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v->codeAppendf("outset = (0 == (x + y) %% 2) ? -outset : +outset;");
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v->codeAppendf("float l = ileft/16.0 - outset;");
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v->codeAppendf("float r = iright/16.0 + outset;");
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v->codeAppendf("float t = itop/16.0 - outset;");
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v->codeAppendf("float b = ibot/16.0 + outset;");
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v->codeAppendf("float2 vertexpos;");
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v->codeAppendf("vertexpos.x = float(x) + ((0 == (sk_VertexID %% 2)) ? l : r);");
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v->codeAppendf("vertexpos.y = float(y) + ((0 == (sk_VertexID / 2)) ? t : b);");
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gpArgs->fPositionVar.set(kFloat2_GrSLType, "vertexpos");
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v->codeAppendf("%s.x = (0 == (sk_VertexID %% 2)) ? -1 : +1;", coord.vsOut());
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v->codeAppendf("%s.y = (0 == (sk_VertexID / 2)) ? -1 : +1;", coord.vsOut());
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if (GradType::kSW == proc.fGradType) {
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v->codeAppendf("%s = 2/float2(r - l, b - t);", grad.vsOut());
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}
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// Fragment shader: Output RED.
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f->codeAppendf("%s = half4(1,0,0,1);", args.fOutputColor);
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f->codeAppendf("%s = half4(1);", args.fOutputCoverage);
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// Now turn off all the samples inside our sub-rectangle. As long as the shaderBuilder's
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// sample offsets and sample mask are correlated with actual HW sample locations, no red
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// will bleed through.
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f->codeAppendf("for (int i = 0; i < %i; ++i) {",
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f->getProgramBuilder()->effectiveSampleCnt());
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if (GradType::kHW == proc.fGradType) {
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f->codeAppendf("float2x2 grad = float2x2(dFdx(%s), dFdy(%s));",
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coord.fsIn(), coord.fsIn());
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} else {
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f->codeAppendf("float2x2 grad = float2x2(%s.x, 0, 0, %s.y);", grad.fsIn(), grad.fsIn());
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}
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f->codeAppendf( "float2 samplecoord = %s[i] * grad + %s;",
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f->sampleOffsets(), coord.fsIn());
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f->codeAppendf( "if (all(lessThanEqual(abs(samplecoord), float2(1)))) {");
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f->maskOffMultisampleCoverage(
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"~(1 << i)", GrGLSLFragmentShaderBuilder::Scope::kInsideLoopOrBranch);
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f->codeAppendf( "}");
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f->codeAppendf("}");
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}
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void setData(const GrGLSLProgramDataManager&, const GrPrimitiveProcessor&,
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FPCoordTransformIter&&) override {}
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};
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GrGLSLPrimitiveProcessor* SampleLocationsTestProcessor::createGLSLInstance(
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const GrShaderCaps&) const {
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return new Impl();
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}
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////////////////////////////////////////////////////////////////////////////////////////////////////
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// Draw Op.
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class SampleLocationsTestOp : public GrDrawOp {
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public:
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DEFINE_OP_CLASS_ID
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static std::unique_ptr<GrDrawOp> Make(
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GrRecordingContext* ctx, const SkMatrix& viewMatrix, GradType gradType) {
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GrOpMemoryPool* pool = ctx->priv().opMemoryPool();
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return pool->allocate<SampleLocationsTestOp>(gradType);
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}
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private:
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SampleLocationsTestOp(GradType gradType) : GrDrawOp(ClassID()), fGradType(gradType) {
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this->setBounds(SkRect::MakeIWH(200, 200), HasAABloat::kNo, IsZeroArea::kNo);
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}
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const char* name() const override { return "SampleLocationsTestOp"; }
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FixedFunctionFlags fixedFunctionFlags() const override {
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return FixedFunctionFlags::kUsesHWAA | FixedFunctionFlags::kUsesStencil;
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}
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GrProcessorSet::Analysis finalize(const GrCaps&, const GrAppliedClip*, GrFSAAType) override {
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return GrProcessorSet::EmptySetAnalysis();
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}
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void onPrepare(GrOpFlushState*) override {}
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void onExecute(GrOpFlushState* flushState, const SkRect& chainBounds) override {
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static constexpr GrUserStencilSettings kStencilWrite(
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GrUserStencilSettings::StaticInit<
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0x0001,
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GrUserStencilTest::kAlways,
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0xffff,
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GrUserStencilOp::kReplace,
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GrUserStencilOp::kKeep,
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0xffff>()
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);
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GrPipeline pipeline(GrScissorTest::kDisabled, SkBlendMode::kSrcOver,
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GrPipeline::Flags::kHWAntialias_Flag, &kStencilWrite);
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GrMesh mesh(GrPrimitiveType::kTriangleStrip);
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mesh.setInstanced(nullptr, 200*200, 0, 4);
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flushState->rtCommandBuffer()->draw(
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SampleLocationsTestProcessor(fGradType), pipeline, nullptr, nullptr, &mesh, 1,
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SkRect::MakeIWH(200, 200));
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}
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const GradType fGradType;
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friend class ::GrOpMemoryPool; // for ctor
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};
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////////////////////////////////////////////////////////////////////////////////////////////////////
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// Test.
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SkString SampleLocationsGM::onShortName() {
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SkString name("samplelocations");
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name.append((GradType::kHW == fGradType) ? "_hwgrad" : "_swgrad");
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name.append((kTopLeft_GrSurfaceOrigin == fOrigin) ? "_topleft" : "_botleft");
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return name;
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}
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DrawResult SampleLocationsGM::onDraw(
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GrContext* ctx, GrRenderTargetContext* rtc, SkCanvas* canvas, SkString* errorMsg) {
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if (rtc->numStencilSamples() <= 1) {
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*errorMsg = "MSAA only.";
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return DrawResult::kSkip;
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}
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if (!ctx->priv().caps()->sampleLocationsSupport()) {
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*errorMsg = "Requires support for sample locations.";
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return DrawResult::kSkip;
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}
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if (!ctx->priv().caps()->shaderCaps()->sampleVariablesSupport()) {
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*errorMsg = "Requires support for sample variables.";
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return DrawResult::kSkip;
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}
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static constexpr GrUserStencilSettings kStencilCover(
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GrUserStencilSettings::StaticInit<
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0x0000,
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GrUserStencilTest::kNotEqual,
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0xffff,
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GrUserStencilOp::kZero,
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GrUserStencilOp::kKeep,
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0xffff>()
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);
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if (auto offscreenRTC = ctx->priv().makeDeferredRenderTargetContext(
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rtc->asSurfaceProxy()->backendFormat(), SkBackingFit::kExact, 200, 200,
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rtc->asSurfaceProxy()->config(), nullptr, rtc->numStencilSamples(), GrMipMapped::kNo,
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fOrigin)) {
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offscreenRTC->clear(nullptr, {0,1,0,1}, GrRenderTargetContext::CanClearFullscreen::kYes);
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// Stencil.
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offscreenRTC->priv().testingOnly_addDrawOp(
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SampleLocationsTestOp::Make(ctx, canvas->getTotalMatrix(), fGradType));
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// Cover.
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GrPaint coverPaint;
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coverPaint.setColor4f({1,0,0,1});
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coverPaint.setXPFactory(GrPorterDuffXPFactory::Get(SkBlendMode::kSrcOver));
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rtc->priv().drawFilledRect(
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GrNoClip(), std::move(coverPaint), GrAA::kNo, SkMatrix::I(),
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SkRect::MakeWH(200, 200), &kStencilCover);
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// Copy offscreen texture to canvas.
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rtc->drawTexture(
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GrNoClip(), sk_ref_sp(offscreenRTC->asTextureProxy()),
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GrSamplerState::Filter::kNearest, SkBlendMode::kSrc, SK_PMColor4fWHITE,
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{0,0,200,200}, {0,0,200,200}, GrAA::kNo, GrQuadAAFlags::kNone,
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SkCanvas::SrcRectConstraint::kStrict_SrcRectConstraint, SkMatrix::I(), nullptr);
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}
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return skiagm::DrawResult::kOk;
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}
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DEF_GM( return new SampleLocationsGM(GradType::kHW, kTopLeft_GrSurfaceOrigin); )
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DEF_GM( return new SampleLocationsGM(GradType::kHW, kBottomLeft_GrSurfaceOrigin); )
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DEF_GM( return new SampleLocationsGM(GradType::kSW, kTopLeft_GrSurfaceOrigin); )
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DEF_GM( return new SampleLocationsGM(GradType::kSW, kBottomLeft_GrSurfaceOrigin); )
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}
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#endif // SK_SUPPORT_GPU
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