/* * Copyright 2011 Google Inc. * * Use of this source code is governed by a BSD-style license that can be * found in the LICENSE file. */ #include "SkBenchmark.h" #include "SkBitmap.h" #include "SkCanvas.h" #include "SkColorPriv.h" #include "SkPaint.h" #include "SkRandom.h" #include "SkShader.h" #include "SkString.h" #include "SkTArray.h" enum Flags { kStroke_Flag = 1 << 0, kBig_Flag = 1 << 1 }; #define FLAGS00 Flags(0) #define FLAGS01 Flags(kStroke_Flag) #define FLAGS10 Flags(kBig_Flag) #define FLAGS11 Flags(kStroke_Flag | kBig_Flag) class PathBench : public SkBenchmark { SkPaint fPaint; SkString fName; Flags fFlags; enum { N = SkBENCHLOOP(1000) }; public: PathBench(void* param, Flags flags) : INHERITED(param), fFlags(flags) { fPaint.setStyle(flags & kStroke_Flag ? SkPaint::kStroke_Style : SkPaint::kFill_Style); fPaint.setStrokeWidth(SkIntToScalar(5)); fPaint.setStrokeJoin(SkPaint::kBevel_Join); } virtual void appendName(SkString*) = 0; virtual void makePath(SkPath*) = 0; virtual int complexity() { return 0; } protected: virtual const char* onGetName() SK_OVERRIDE { fName.printf("path_%s_%s_", fFlags & kStroke_Flag ? "stroke" : "fill", fFlags & kBig_Flag ? "big" : "small"); this->appendName(&fName); return fName.c_str(); } virtual void onDraw(SkCanvas* canvas) SK_OVERRIDE { SkPaint paint(fPaint); this->setupPaint(&paint); SkPath path; this->makePath(&path); if (fFlags & kBig_Flag) { SkMatrix m; m.setScale(SkIntToScalar(10), SkIntToScalar(10)); path.transform(m); } int count = N; if (fFlags & kBig_Flag) { count >>= 2; } count >>= (3 * complexity()); for (int i = 0; i < count; i++) { canvas->drawPath(path, paint); } } private: typedef SkBenchmark INHERITED; }; class TrianglePathBench : public PathBench { public: TrianglePathBench(void* param, Flags flags) : INHERITED(param, flags) {} virtual void appendName(SkString* name) SK_OVERRIDE { name->append("triangle"); } virtual void makePath(SkPath* path) SK_OVERRIDE { static const int gCoord[] = { 10, 10, 15, 5, 20, 20 }; path->moveTo(SkIntToScalar(gCoord[0]), SkIntToScalar(gCoord[1])); path->lineTo(SkIntToScalar(gCoord[2]), SkIntToScalar(gCoord[3])); path->lineTo(SkIntToScalar(gCoord[4]), SkIntToScalar(gCoord[5])); path->close(); } private: typedef PathBench INHERITED; }; class RectPathBench : public PathBench { public: RectPathBench(void* param, Flags flags) : INHERITED(param, flags) {} virtual void appendName(SkString* name) SK_OVERRIDE { name->append("rect"); } virtual void makePath(SkPath* path) SK_OVERRIDE { SkRect r = { 10, 10, 20, 20 }; path->addRect(r); } private: typedef PathBench INHERITED; }; class OvalPathBench : public PathBench { public: OvalPathBench(void* param, Flags flags) : INHERITED(param, flags) {} virtual void appendName(SkString* name) SK_OVERRIDE { name->append("oval"); } virtual void makePath(SkPath* path) SK_OVERRIDE { SkRect r = { 10, 10, 20, 20 }; path->addOval(r); } private: typedef PathBench INHERITED; }; class CirclePathBench: public PathBench { public: CirclePathBench(void* param, Flags flags) : INHERITED(param, flags) {} virtual void appendName(SkString* name) SK_OVERRIDE { name->append("circle"); } virtual void makePath(SkPath* path) SK_OVERRIDE { path->addCircle(SkIntToScalar(20), SkIntToScalar(20), SkIntToScalar(10)); } private: typedef PathBench INHERITED; }; class SawToothPathBench : public PathBench { public: SawToothPathBench(void* param, Flags flags) : INHERITED(param, flags) {} virtual void appendName(SkString* name) SK_OVERRIDE { name->append("sawtooth"); } virtual void makePath(SkPath* path) { SkScalar x = SkIntToScalar(20); SkScalar y = SkIntToScalar(20); const SkScalar x0 = x; const SkScalar dx = SK_Scalar1 * 5; const SkScalar dy = SK_Scalar1 * 10; path->moveTo(x, y); for (int i = 0; i < 32; i++) { x += dx; path->lineTo(x, y - dy); x += dx; path->lineTo(x, y + dy); } path->lineTo(x, y + 2 * dy); path->lineTo(x0, y + 2 * dy); path->close(); } virtual int complexity() SK_OVERRIDE { return 1; } private: typedef PathBench INHERITED; }; class LongCurvedPathBench : public PathBench { public: LongCurvedPathBench(void * param, Flags flags) : INHERITED(param, flags) { } virtual void appendName(SkString* name) SK_OVERRIDE { name->append("long_curved"); } virtual void makePath(SkPath* path) SK_OVERRIDE { SkRandom rand (12); int i; for (i = 0; i < 100; i++) { path->quadTo(SkScalarMul(rand.nextUScalar1(), SkIntToScalar(640)), SkScalarMul(rand.nextUScalar1(), SkIntToScalar(480)), SkScalarMul(rand.nextUScalar1(), SkIntToScalar(640)), SkScalarMul(rand.nextUScalar1(), SkIntToScalar(480))); } path->close(); } virtual int complexity() SK_OVERRIDE { return 2; } private: typedef PathBench INHERITED; }; class LongLinePathBench : public PathBench { public: LongLinePathBench(void * param, Flags flags) : INHERITED(param, flags) { } virtual void appendName(SkString* name) SK_OVERRIDE { name->append("long_line"); } virtual void makePath(SkPath* path) SK_OVERRIDE { SkRandom rand; path->moveTo(rand.nextUScalar1() * 640, rand.nextUScalar1() * 480); for (size_t i = 1; i < 100; i++) { path->lineTo(rand.nextUScalar1() * 640, rand.nextUScalar1() * 480); } } virtual int complexity() SK_OVERRIDE { return 2; } private: typedef PathBench INHERITED; }; class RandomPathBench : public SkBenchmark { public: RandomPathBench(void* param) : INHERITED(param) { fIsRendering = false; } protected: void createData(int minVerbs, int maxVerbs, bool allowMoves = true, SkRect* bounds = NULL) { SkRect tempBounds; if (NULL == bounds) { tempBounds.setXYWH(0, 0, SK_Scalar1, SK_Scalar1); bounds = &tempBounds; } fVerbCnts.reset(kNumVerbCnts); for (int i = 0; i < kNumVerbCnts; ++i) { fVerbCnts[i] = fRandom.nextRangeU(minVerbs, maxVerbs + 1); } fVerbs.reset(kNumVerbs); for (int i = 0; i < kNumVerbs; ++i) { do { fVerbs[i] = static_cast(fRandom.nextULessThan(SkPath::kDone_Verb)); } while (!allowMoves && SkPath::kMove_Verb == fVerbs[i]); } fPoints.reset(kNumPoints); for (int i = 0; i < kNumPoints; ++i) { fPoints[i].set(fRandom.nextRangeScalar(bounds->fLeft, bounds->fRight), fRandom.nextRangeScalar(bounds->fTop, bounds->fBottom)); } this->restartMakingPaths(); } void restartMakingPaths() { fCurrPath = 0; fCurrVerb = 0; fCurrPoint = 0; } void makePath(SkPath* path) { int vCount = fVerbCnts[(fCurrPath++) & (kNumVerbCnts - 1)]; for (int v = 0; v < vCount; ++v) { int verb = fVerbs[(fCurrVerb++) & (kNumVerbs - 1)]; switch (verb) { case SkPath::kMove_Verb: path->moveTo(fPoints[(fCurrPoint++) & (kNumPoints - 1)]); break; case SkPath::kLine_Verb: path->lineTo(fPoints[(fCurrPoint++) & (kNumPoints - 1)]); break; case SkPath::kQuad_Verb: path->quadTo(fPoints[(fCurrPoint + 0) & (kNumPoints - 1)], fPoints[(fCurrPoint + 1) & (kNumPoints - 1)]); fCurrPoint += 2; break; case SkPath::kCubic_Verb: path->cubicTo(fPoints[(fCurrPoint + 0) & (kNumPoints - 1)], fPoints[(fCurrPoint + 1) & (kNumPoints - 1)], fPoints[(fCurrPoint + 2) & (kNumPoints - 1)]); fCurrPoint += 3; break; case SkPath::kClose_Verb: path->close(); break; default: SkDEBUGFAIL("Unexpected path verb"); break; } } } void finishedMakingPaths() { fVerbCnts.reset(0); fVerbs.reset(0); fPoints.reset(0); } private: enum { // these should all be pow 2 kNumVerbCnts = 1 << 5, kNumVerbs = 1 << 5, kNumPoints = 1 << 5, }; SkAutoTArray fVerbCnts; SkAutoTArray fVerbs; SkAutoTArray fPoints; int fCurrPath; int fCurrVerb; int fCurrPoint; SkRandom fRandom; typedef SkBenchmark INHERITED; }; class PathCreateBench : public RandomPathBench { public: PathCreateBench(void* param) : INHERITED(param) { } protected: enum { N = SkBENCHLOOP(5000) }; virtual const char* onGetName() SK_OVERRIDE { return "path_create"; } virtual void onPreDraw() SK_OVERRIDE { this->createData(10, 100); fPaths.reset(kPathCnt); } virtual void onDraw(SkCanvas*) SK_OVERRIDE { for (int i = 0; i < N; ++i) { this->makePath(&fPaths[i & (kPathCnt - 1)]); } this->restartMakingPaths(); } virtual void onPostDraw() SK_OVERRIDE { this->finishedMakingPaths(); fPaths.reset(0); } private: enum { // must be a pow 2 kPathCnt = 1 << 5, }; SkAutoTArray fPaths; typedef RandomPathBench INHERITED; }; class PathCopyBench : public RandomPathBench { public: PathCopyBench(void* param) : INHERITED(param) { } protected: enum { N = SkBENCHLOOP(30000) }; virtual const char* onGetName() SK_OVERRIDE { return "path_copy"; } virtual void onPreDraw() SK_OVERRIDE { this->createData(10, 100); fPaths.reset(kPathCnt); fCopies.reset(kPathCnt); for (int i = 0; i < kPathCnt; ++i) { this->makePath(&fPaths[i]); } this->finishedMakingPaths(); } virtual void onDraw(SkCanvas*) SK_OVERRIDE { for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); fCopies[idx] = fPaths[idx]; } } virtual void onPostDraw() SK_OVERRIDE { fPaths.reset(0); fCopies.reset(0); } private: enum { // must be a pow 2 kPathCnt = 1 << 5, }; SkAutoTArray fPaths; SkAutoTArray fCopies; typedef RandomPathBench INHERITED; }; class PathTransformBench : public RandomPathBench { public: PathTransformBench(bool inPlace, void* param) : INHERITED(param) , fInPlace(inPlace) { } protected: enum { N = SkBENCHLOOP(30000) }; virtual const char* onGetName() SK_OVERRIDE { return fInPlace ? "path_transform_in_place" : "path_transform_copy"; } virtual void onPreDraw() SK_OVERRIDE { fMatrix.setScale(5 * SK_Scalar1, 6 * SK_Scalar1); this->createData(10, 100); fPaths.reset(kPathCnt); for (int i = 0; i < kPathCnt; ++i) { this->makePath(&fPaths[i]); } this->finishedMakingPaths(); if (!fInPlace) { fTransformed.reset(kPathCnt); } } virtual void onDraw(SkCanvas*) SK_OVERRIDE { if (fInPlace) { for (int i = 0; i < N; ++i) { fPaths[i & (kPathCnt - 1)].transform(fMatrix); } } else { for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); fPaths[idx].transform(fMatrix, &fTransformed[idx]); } } } virtual void onPostDraw() SK_OVERRIDE { fPaths.reset(0); fTransformed.reset(0); } private: enum { // must be a pow 2 kPathCnt = 1 << 5, }; SkAutoTArray fPaths; SkAutoTArray fTransformed; SkMatrix fMatrix; bool fInPlace; typedef RandomPathBench INHERITED; }; class PathEqualityBench : public RandomPathBench { public: PathEqualityBench(void* param) : INHERITED(param) { } protected: enum { N = SkBENCHLOOP(40000) }; virtual const char* onGetName() SK_OVERRIDE { return "path_equality_50%"; } virtual void onPreDraw() SK_OVERRIDE { fParity = 0; this->createData(10, 100); fPaths.reset(kPathCnt); fCopies.reset(kPathCnt); for (int i = 0; i < kPathCnt; ++i) { this->makePath(&fPaths[i]); fCopies[i] = fPaths[i]; } this->finishedMakingPaths(); } virtual void onDraw(SkCanvas*) SK_OVERRIDE { for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); fParity ^= (fPaths[idx] == fCopies[idx & ~0x1]); } } virtual void onPostDraw() SK_OVERRIDE { fPaths.reset(0); fCopies.reset(0); } private: bool fParity; // attempt to keep compiler from optimizing out the == enum { // must be a pow 2 kPathCnt = 1 << 5, }; SkAutoTArray fPaths; SkAutoTArray fCopies; typedef RandomPathBench INHERITED; }; class SkBench_AddPathTest : public RandomPathBench { public: enum AddType { kAdd_AddType, kAddTrans_AddType, kAddMatrix_AddType, kPathTo_AddType, kReverseAdd_AddType, kReversePathTo_AddType, }; SkBench_AddPathTest(AddType type, void* param) : INHERITED(param) , fType(type) { fMatrix.setRotate(60 * SK_Scalar1); } protected: enum { N = SkBENCHLOOP(15000) }; virtual const char* onGetName() SK_OVERRIDE { switch (fType) { case kAdd_AddType: return "path_add_path"; case kAddTrans_AddType: return "path_add_path_trans"; case kAddMatrix_AddType: return "path_add_path_matrix"; case kPathTo_AddType: return "path_path_to"; case kReverseAdd_AddType: return "path_reverse_add_path"; case kReversePathTo_AddType: return "path_reverse_path_to"; default: SkDEBUGFAIL("Bad add type"); return ""; } } virtual void onPreDraw() SK_OVERRIDE { // pathTo and reversePathTo assume a single contour path. bool allowMoves = kPathTo_AddType != fType && kReversePathTo_AddType != fType; this->createData(10, 100, allowMoves); fPaths0.reset(kPathCnt); fPaths1.reset(kPathCnt); for (int i = 0; i < kPathCnt; ++i) { this->makePath(&fPaths0[i]); this->makePath(&fPaths1[i]); } this->finishedMakingPaths(); } virtual void onDraw(SkCanvas*) SK_OVERRIDE { switch (fType) { case kAdd_AddType: for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); SkPath result = fPaths0[idx]; result.addPath(fPaths1[idx]); } break; case kAddTrans_AddType: for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); SkPath result = fPaths0[idx]; result.addPath(fPaths1[idx], 2 * SK_Scalar1, 5 * SK_Scalar1); } break; case kAddMatrix_AddType: for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); SkPath result = fPaths0[idx]; result.addPath(fPaths1[idx], fMatrix); } break; case kPathTo_AddType: for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); SkPath result = fPaths0[idx]; result.pathTo(fPaths1[idx]); } break; case kReverseAdd_AddType: for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); SkPath result = fPaths0[idx]; result.reverseAddPath(fPaths1[idx]); } break; case kReversePathTo_AddType: for (int i = 0; i < N; ++i) { int idx = i & (kPathCnt - 1); SkPath result = fPaths0[idx]; result.reversePathTo(fPaths1[idx]); } break; } } virtual void onPostDraw() SK_OVERRIDE { fPaths0.reset(0); fPaths1.reset(0); } private: AddType fType; // or reverseAddPath enum { // must be a pow 2 kPathCnt = 1 << 5, }; SkAutoTArray fPaths0; SkAutoTArray fPaths1; SkMatrix fMatrix; typedef RandomPathBench INHERITED; }; class CirclesBench : public SkBenchmark { protected: SkString fName; enum { N = SkBENCHLOOP(100) }; public: CirclesBench(void* param) : INHERITED(param) { fName.printf("circles"); } protected: virtual const char* onGetName() SK_OVERRIDE { return fName.c_str(); } virtual void onDraw(SkCanvas* canvas) SK_OVERRIDE { SkPaint paint; paint.setColor(SK_ColorBLACK); paint.setAntiAlias(true); SkRandom rand; SkRect r; for (int i = 0; i < 5000; ++i) { SkScalar radius = rand.nextUScalar1() * 3; r.fLeft = rand.nextUScalar1() * 300; r.fTop = rand.nextUScalar1() * 300; r.fRight = r.fLeft + 2 * radius; r.fBottom = r.fTop + 2 * radius; SkPath temp; // mimic how Chrome does circles temp.arcTo(r, 0, 0, false); temp.addOval(r, SkPath::kCCW_Direction); temp.arcTo(r, 360, 0, true); temp.close(); canvas->drawPath(temp, paint); } } private: typedef SkBenchmark INHERITED; }; static SkBenchmark* FactT00(void* p) { return new TrianglePathBench(p, FLAGS00); } static SkBenchmark* FactT01(void* p) { return new TrianglePathBench(p, FLAGS01); } static SkBenchmark* FactT10(void* p) { return new TrianglePathBench(p, FLAGS10); } static SkBenchmark* FactT11(void* p) { return new TrianglePathBench(p, FLAGS11); } static SkBenchmark* FactR00(void* p) { return new RectPathBench(p, FLAGS00); } static SkBenchmark* FactR01(void* p) { return new RectPathBench(p, FLAGS01); } static SkBenchmark* FactR10(void* p) { return new RectPathBench(p, FLAGS10); } static SkBenchmark* FactR11(void* p) { return new RectPathBench(p, FLAGS11); } static SkBenchmark* FactO00(void* p) { return new OvalPathBench(p, FLAGS00); } static SkBenchmark* FactO01(void* p) { return new OvalPathBench(p, FLAGS01); } static SkBenchmark* FactO10(void* p) { return new OvalPathBench(p, FLAGS10); } static SkBenchmark* FactO11(void* p) { return new OvalPathBench(p, FLAGS11); } static SkBenchmark* FactC00(void* p) { return new CirclePathBench(p, FLAGS00); } static SkBenchmark* FactC01(void* p) { return new CirclePathBench(p, FLAGS01); } static SkBenchmark* FactC10(void* p) { return new CirclePathBench(p, FLAGS10); } static SkBenchmark* FactC11(void* p) { return new CirclePathBench(p, FLAGS11); } static SkBenchmark* FactS00(void* p) { return new SawToothPathBench(p, FLAGS00); } static SkBenchmark* FactS01(void* p) { return new SawToothPathBench(p, FLAGS01); } static SkBenchmark* FactLC00(void* p) { return new LongCurvedPathBench(p, FLAGS00); } static SkBenchmark* FactLC01(void* p) { return new LongCurvedPathBench(p, FLAGS01); } static SkBenchmark* FactLL00(void* p) { return new LongLinePathBench(p, FLAGS00); } static SkBenchmark* FactLL01(void* p) { return new LongLinePathBench(p, FLAGS01); } static BenchRegistry gRegT00(FactT00); static BenchRegistry gRegT01(FactT01); static BenchRegistry gRegT10(FactT10); static BenchRegistry gRegT11(FactT11); static BenchRegistry gRegR00(FactR00); static BenchRegistry gRegR01(FactR01); static BenchRegistry gRegR10(FactR10); static BenchRegistry gRegR11(FactR11); static BenchRegistry gRegO00(FactO00); static BenchRegistry gRegO01(FactO01); static BenchRegistry gRegO10(FactO10); static BenchRegistry gRegO11(FactO11); static BenchRegistry gRegC00(FactC00); static BenchRegistry gRegC01(FactC01); static BenchRegistry gRegC10(FactC10); static BenchRegistry gRegC11(FactC11); static BenchRegistry gRegS00(FactS00); static BenchRegistry gRegS01(FactS01); static BenchRegistry gRegLC00(FactLC00); static BenchRegistry gRegLC01(FactLC01); static BenchRegistry gRegLL00(FactLL00); static BenchRegistry gRegLL01(FactLL01); static SkBenchmark* FactCreate(void* p) { return new PathCreateBench(p); } static BenchRegistry gRegCreate(FactCreate); static SkBenchmark* FactCopy(void* p) { return new PathCopyBench(p); } static BenchRegistry gRegCopy(FactCopy); static SkBenchmark* FactPathTransformInPlace(void* p) { return new PathTransformBench(true, p); } static BenchRegistry gRegPathTransformInPlace(FactPathTransformInPlace); static SkBenchmark* FactPathTransformCopy(void* p) { return new PathTransformBench(false, p); } static BenchRegistry gRegPathTransformCopy(FactPathTransformCopy); static SkBenchmark* FactEquality(void* p) { return new PathEqualityBench(p); } static BenchRegistry gRegEquality(FactEquality); static SkBenchmark* FactAdd(void* p) { return new SkBench_AddPathTest(SkBench_AddPathTest::kAdd_AddType, p); } static SkBenchmark* FactAddTrans(void* p) { return new SkBench_AddPathTest(SkBench_AddPathTest::kAddTrans_AddType, p); } static SkBenchmark* FactAddMatrix(void* p) { return new SkBench_AddPathTest(SkBench_AddPathTest::kAddMatrix_AddType, p); } static SkBenchmark* FactPathTo(void* p) { return new SkBench_AddPathTest(SkBench_AddPathTest::kPathTo_AddType, p); } static SkBenchmark* FactReverseAdd(void* p) { return new SkBench_AddPathTest(SkBench_AddPathTest::kReverseAdd_AddType, p); } static SkBenchmark* FactReverseTo(void* p) { return new SkBench_AddPathTest(SkBench_AddPathTest::kReversePathTo_AddType, p); } static BenchRegistry gRegAdd(FactAdd); static BenchRegistry gRegAddTrans(FactAddTrans); static BenchRegistry gRegAddMatrix(FactAddMatrix); static BenchRegistry gRegPathTo(FactPathTo); static BenchRegistry gRegReverseAdd(FactReverseAdd); static BenchRegistry gRegReverseTo(FactReverseTo); static SkBenchmark* CirclesTest(void* p) { return new CirclesBench(p); } static BenchRegistry gRegCirclesTest(CirclesTest);