616da104ab
(This is a simple reland of https://skia-review.googlesource.com/c/skia/+/293272 and is functionally unchanged, but needed to be reconstructed manually because JavaInputStreamAdaptor.cpp was deleted.) SK_ABORT was already using SkDebugf to print the error message to the console, so all the moving parts were there. This CL just adds a mechanism for the calling code to pass in arguments. Added a use case to demonstrate usage--when an allocation fails, the requested size is now shown in the error message. Change-Id: If8600a9febad15b7c8b7a04479a1d92442521f21 Reviewed-on: https://skia-review.googlesource.com/c/skia/+/294705 Reviewed-by: Mike Klein <mtklein@google.com> Commit-Queue: John Stiles <johnstiles@google.com>
241 lines
9.8 KiB
C++
241 lines
9.8 KiB
C++
/*
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* Copyright 2020 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 "bench/Benchmark.h"
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#include "include/gpu/GrContext.h"
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#include "src/core/SkPathPriv.h"
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#include "src/gpu/GrContextPriv.h"
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#include "src/gpu/GrOpFlushState.h"
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#include "src/gpu/tessellate/GrMiddleOutPolygonTriangulator.h"
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#include "src/gpu/tessellate/GrResolveLevelCounter.h"
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#include "src/gpu/tessellate/GrTessellatePathOp.h"
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#include "src/gpu/tessellate/GrWangsFormula.h"
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#include "tools/ToolUtils.h"
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// This is the number of cubics in desk_chalkboard.skp. (There are no quadratics in the chalkboard.)
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constexpr static int kNumCubicsInChalkboard = 47182;
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static SkPath make_cubic_path() {
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SkRandom rand;
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SkPath path;
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for (int i = 0; i < kNumCubicsInChalkboard/2; ++i) {
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float x = std::ldexp(rand.nextF(), (i % 18)) / 1e3f;
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path.cubicTo(111.625f*x, 308.188f*x, 764.62f*x, -435.688f*x, 742.63f*x, 85.187f*x);
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path.cubicTo(764.62f*x, -435.688f*x, 111.625f*x, 308.188f*x, 0, 0);
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}
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return path;
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}
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// This is a dummy GrMeshDrawOp::Target implementation that just gives back pointers into
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// pre-allocated CPU buffers, rather than allocating and mapping GPU buffers.
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class BenchmarkTarget : public GrMeshDrawOp::Target {
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public:
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BenchmarkTarget() {
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GrMockOptions mockOptions;
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mockOptions.fDrawInstancedSupport = true;
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mockOptions.fMaxTessellationSegments = 64;
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mockOptions.fMapBufferFlags = GrCaps::kCanMap_MapFlag;
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mockOptions.fConfigOptions[(int)GrColorType::kAlpha_8].fRenderability =
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GrMockOptions::ConfigOptions::Renderability::kMSAA;
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mockOptions.fConfigOptions[(int)GrColorType::kAlpha_8].fTexturable = true;
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mockOptions.fIntegerSupport = true;
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GrContextOptions ctxOptions;
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ctxOptions.fGpuPathRenderers = GpuPathRenderers::kTessellation;
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fMockContext = GrContext::MakeMock(&mockOptions, ctxOptions);
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}
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const GrContext* mockContext() const { return fMockContext.get(); }
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const GrCaps& caps() const override { return *fMockContext->priv().caps(); }
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GrResourceProvider* resourceProvider() const override {
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return fMockContext->priv().resourceProvider();
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}
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void resetAllocator() { fAllocator.reset(); }
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SkArenaAlloc* allocator() override { return &fAllocator; }
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void putBackVertices(int vertices, size_t vertexStride) override { /* no-op */ }
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void* makeVertexSpace(size_t vertexSize, int vertexCount, sk_sp<const GrBuffer>*,
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int* startVertex) override {
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if (vertexSize * vertexCount > sizeof(fStaticVertexData)) {
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SK_ABORT("FATAL: wanted %zu bytes of static vertex data; only have %zu.\n",
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vertexSize * vertexCount, SK_ARRAY_COUNT(fStaticVertexData));
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}
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*startVertex = 0;
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return fStaticVertexData;
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}
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GrDrawIndexedIndirectCommand* makeDrawIndexedIndirectSpace(
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int drawCount, sk_sp<const GrBuffer>* buffer, size_t* offsetInBytes) override {
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int staticBufferCount = (int)SK_ARRAY_COUNT(fStaticDrawIndexedIndirectData);
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if (drawCount > staticBufferCount) {
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SK_ABORT("FATAL: wanted %i static drawIndexedIndirect elements; only have %i.\n",
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drawCount, staticBufferCount);
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}
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return fStaticDrawIndexedIndirectData;
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}
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#define UNIMPL(...) __VA_ARGS__ override { SK_ABORT("unimplemented."); }
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UNIMPL(void recordDraw(const GrGeometryProcessor*, const GrSimpleMesh[], int,
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const GrSurfaceProxy* const[], GrPrimitiveType))
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UNIMPL(uint16_t* makeIndexSpace(int, sk_sp<const GrBuffer>*, int*))
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UNIMPL(void* makeVertexSpaceAtLeast(size_t, int, int, sk_sp<const GrBuffer>*, int*, int*))
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UNIMPL(uint16_t* makeIndexSpaceAtLeast(int, int, sk_sp<const GrBuffer>*, int*, int*))
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UNIMPL(GrDrawIndirectCommand* makeDrawIndirectSpace(int, sk_sp<const GrBuffer>*, size_t*))
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UNIMPL(void putBackIndices(int))
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UNIMPL(GrRenderTargetProxy* proxy() const)
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UNIMPL(const GrSurfaceProxyView* writeView() const)
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UNIMPL(const GrAppliedClip* appliedClip() const)
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UNIMPL(GrAppliedClip detachAppliedClip())
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UNIMPL(const GrXferProcessor::DstProxyView& dstProxyView() const)
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UNIMPL(GrStrikeCache* strikeCache() const)
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UNIMPL(GrAtlasManager* atlasManager() const)
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UNIMPL(SkTArray<GrSurfaceProxy*, true>* sampledProxyArray())
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UNIMPL(GrDeferredUploadTarget* deferredUploadTarget())
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#undef UNIMPL
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private:
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sk_sp<GrContext> fMockContext;
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SkPoint fStaticVertexData[(kNumCubicsInChalkboard + 2) * 8];
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GrDrawIndexedIndirectCommand fStaticDrawIndexedIndirectData[32];
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SkSTArenaAlloc<1024 * 1024> fAllocator;
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};
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// This serves as a base class for benchmarking individual methods on GrTessellatePathOp.
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class GrTessellatePathOp::TestingOnly_Benchmark : public Benchmark {
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public:
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TestingOnly_Benchmark(const char* subName, SkPath path, const SkMatrix& m)
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: fOp(m, path, GrPaint(), GrAAType::kMSAA, GrTessellationPathRenderer::OpFlags::kNone) {
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fName.printf("tessellate_%s", subName);
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}
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const char* onGetName() override { return fName.c_str(); }
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bool isSuitableFor(Backend backend) final { return backend == kNonRendering_Backend; }
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class prepareMiddleOutStencilGeometry;
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class prepareMiddleOutStencilGeometry_indirect;
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class prepareIndirectOuterCubics;
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class prepareTessellatedOuterCubics;
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class prepareTessellatedCubicWedges;
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class wangs_formula_cubic_log2;
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class wangs_formula_cubic_log2_scale;
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class wangs_formula_cubic_log2_affine;
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class middle_out_triangulation;
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private:
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void onDraw(int loops, SkCanvas*) final {
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if (!fTarget.mockContext()) {
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SkDebugf("ERROR: could not create mock context.");
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return;
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}
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for (int i = 0; i < loops; ++i) {
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fOp.fTriangleBuffer.reset();
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fOp.fDoStencilTriangleBuffer = false;
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fOp.fDoFillTriangleBuffer = false;
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fOp.fCubicBuffer.reset();
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fOp.fStencilCubicsShader = nullptr;
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this->runBench(&fTarget, &fOp);
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fTarget.resetAllocator();
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}
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}
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virtual void runBench(GrMeshDrawOp::Target*, GrTessellatePathOp*) = 0;
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GrTessellatePathOp fOp;
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BenchmarkTarget fTarget;
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SkString fName;
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};
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#define DEF_TESS_BENCH(NAME, PATH, MATRIX, TARGET, OP) \
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class GrTessellatePathOp::TestingOnly_Benchmark::NAME \
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: public GrTessellatePathOp::TestingOnly_Benchmark { \
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public: \
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NAME() : TestingOnly_Benchmark(#NAME, (PATH), (MATRIX)) {} \
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void runBench(GrMeshDrawOp::Target* target, GrTessellatePathOp* op) override; \
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}; \
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DEF_BENCH( return new GrTessellatePathOp::TestingOnly_Benchmark::NAME(); ); \
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void GrTessellatePathOp::TestingOnly_Benchmark::NAME::runBench( \
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GrMeshDrawOp::Target* TARGET, GrTessellatePathOp* op)
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DEF_TESS_BENCH(prepareMiddleOutStencilGeometry, make_cubic_path(), SkMatrix::I(), target, op) {
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op->prepareMiddleOutTrianglesAndCubics(target);
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}
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DEF_TESS_BENCH(prepareMiddleOutStencilGeometry_indirect, make_cubic_path(), SkMatrix::I(), target,
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op) {
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GrResolveLevelCounter resolveLevelCounter;
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op->prepareMiddleOutTrianglesAndCubics(target, &resolveLevelCounter, true);
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}
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DEF_TESS_BENCH(prepareIndirectOuterCubics, make_cubic_path(), SkMatrix::I(), target, op) {
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GrResolveLevelCounter resolveLevelCounter;
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resolveLevelCounter.reset(op->fPath, SkMatrix::I(), 4);
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op->prepareIndirectOuterCubics(target, resolveLevelCounter);
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}
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DEF_TESS_BENCH(prepareTessellatedOuterCubics, make_cubic_path(), SkMatrix::I(), target, op) {
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op->prepareTessellatedOuterCubics(target, kNumCubicsInChalkboard);
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}
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DEF_TESS_BENCH(prepareTessellatedCubicWedges, make_cubic_path(), SkMatrix::I(), target, op) {
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op->prepareTessellatedCubicWedges(target);
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}
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static void benchmark_wangs_formula_cubic_log2(const SkMatrix& matrix, const SkPath& path) {
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int sum = 0;
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GrVectorXform xform(matrix);
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for (auto [verb, pts, w] : SkPathPriv::Iterate(path)) {
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if (verb == SkPathVerb::kCubic) {
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sum += GrWangsFormula::cubic_log2(4, pts, xform);
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}
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}
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// Don't let the compiler optimize away GrWangsFormula::cubic_log2.
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if (sum <= 0) {
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SK_ABORT("sum should be > 0.");
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}
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}
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DEF_TESS_BENCH(wangs_formula_cubic_log2, make_cubic_path(), SkMatrix::I(), target, op) {
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benchmark_wangs_formula_cubic_log2(op->fViewMatrix, op->fPath);
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}
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DEF_TESS_BENCH(wangs_formula_cubic_log2_scale, make_cubic_path(), SkMatrix::Scale(1.1f, 0.9f),
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target, op) {
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benchmark_wangs_formula_cubic_log2(op->fViewMatrix, op->fPath);
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}
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DEF_TESS_BENCH(wangs_formula_cubic_log2_affine, make_cubic_path(),
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SkMatrix::MakeAll(.9f,0.9f,0, 1.1f,1.1f,0, 0,0,1), target, op) {
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benchmark_wangs_formula_cubic_log2(op->fViewMatrix, op->fPath);
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}
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DEF_TESS_BENCH(middle_out_triangulation,
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ToolUtils::make_star(SkRect::MakeWH(500, 500), kNumCubicsInChalkboard),
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SkMatrix::I(), target, op) {
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int baseVertex;
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auto vertexData = static_cast<SkPoint*>(target->makeVertexSpace(
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sizeof(SkPoint), kNumCubicsInChalkboard, nullptr, &baseVertex));
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GrMiddleOutPolygonTriangulator middleOut(vertexData, 3, kNumCubicsInChalkboard + 2);
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for (auto [verb, pts, w] : SkPathPriv::Iterate(op->fPath)) {
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switch (verb) {
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case SkPathVerb::kMove:
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middleOut.closeAndMove(pts[0]);
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break;
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case SkPathVerb::kLine:
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middleOut.pushVertex(pts[1]);
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break;
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case SkPathVerb::kClose:
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middleOut.close();
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break;
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case SkPathVerb::kQuad:
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case SkPathVerb::kConic:
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case SkPathVerb::kCubic:
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SkUNREACHABLE;
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}
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middleOut.closeAndMove(pts[0]);
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}
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}
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