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334 lines
10 KiB
334 lines
10 KiB
/*
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* Copyright 2011 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 "Benchmark.h"
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#include "SkMatrix.h"
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#include "SkMatrixUtils.h"
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#include "SkRandom.h"
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#include "SkString.h"
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class MatrixBench : public Benchmark {
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SkString fName;
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public:
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MatrixBench(const char name[]) {
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fName.printf("matrix_%s", name);
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}
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bool isSuitableFor(Backend backend) override {
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return backend == kNonRendering_Backend;
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}
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virtual void performTest() = 0;
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protected:
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virtual int mulLoopCount() const { return 1; }
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const char* onGetName() override {
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return fName.c_str();
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}
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void onDraw(int loops, SkCanvas*) override {
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for (int i = 0; i < loops; i++) {
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this->performTest();
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}
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}
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private:
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typedef Benchmark INHERITED;
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};
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class EqualsMatrixBench : public MatrixBench {
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public:
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EqualsMatrixBench() : INHERITED("equals") {}
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protected:
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void performTest() override {
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SkMatrix m0, m1, m2;
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m0.reset();
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m1.reset();
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m2.reset();
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// xor into a volatile prevents these comparisons from being optimized away.
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volatile bool junk = false;
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junk ^= (m0 == m1);
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junk ^= (m1 == m2);
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junk ^= (m2 == m0);
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}
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private:
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typedef MatrixBench INHERITED;
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};
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class ScaleMatrixBench : public MatrixBench {
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public:
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ScaleMatrixBench() : INHERITED("scale") {
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fSX = fSY = 1.5f;
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fM0.reset();
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fM1.setScale(fSX, fSY);
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fM2.setTranslate(fSX, fSY);
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}
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protected:
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void performTest() override {
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SkMatrix m;
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m = fM0; m.preScale(fSX, fSY);
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m = fM1; m.preScale(fSX, fSY);
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m = fM2; m.preScale(fSX, fSY);
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}
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private:
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SkMatrix fM0, fM1, fM2;
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SkScalar fSX, fSY;
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typedef MatrixBench INHERITED;
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};
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// having unknown values in our arrays can throw off the timing a lot, perhaps
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// handling NaN values is a lot slower. Anyway, this guy is just meant to put
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// reasonable values in our arrays.
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template <typename T> void init9(T array[9]) {
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SkRandom rand;
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for (int i = 0; i < 9; i++) {
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array[i] = rand.nextSScalar1();
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}
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}
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class GetTypeMatrixBench : public MatrixBench {
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public:
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GetTypeMatrixBench()
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: INHERITED("gettype") {
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fArray[0] = (float) fRnd.nextS();
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fArray[1] = (float) fRnd.nextS();
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fArray[2] = (float) fRnd.nextS();
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fArray[3] = (float) fRnd.nextS();
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fArray[4] = (float) fRnd.nextS();
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fArray[5] = (float) fRnd.nextS();
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fArray[6] = (float) fRnd.nextS();
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fArray[7] = (float) fRnd.nextS();
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fArray[8] = (float) fRnd.nextS();
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}
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protected:
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// Putting random generation of the matrix inside performTest()
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// would help us avoid anomalous runs, but takes up 25% or
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// more of the function time.
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void performTest() override {
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fMatrix.setAll(fArray[0], fArray[1], fArray[2],
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fArray[3], fArray[4], fArray[5],
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fArray[6], fArray[7], fArray[8]);
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// xoring into a volatile prevents the compiler from optimizing these away
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volatile int junk = 0;
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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fMatrix.dirtyMatrixTypeCache();
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junk ^= (fMatrix.getType());
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}
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private:
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SkMatrix fMatrix;
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float fArray[9];
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SkRandom fRnd;
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typedef MatrixBench INHERITED;
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};
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class DecomposeMatrixBench : public MatrixBench {
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public:
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DecomposeMatrixBench() : INHERITED("decompose") {}
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protected:
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void onDelayedSetup() override {
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for (int i = 0; i < 10; ++i) {
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SkScalar rot0 = (fRandom.nextBool()) ? fRandom.nextRangeF(-180, 180) : 0.0f;
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SkScalar sx = fRandom.nextRangeF(-3000.f, 3000.f);
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SkScalar sy = (fRandom.nextBool()) ? fRandom.nextRangeF(-3000.f, 3000.f) : sx;
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SkScalar rot1 = fRandom.nextRangeF(-180, 180);
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fMatrix[i].setRotate(rot0);
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fMatrix[i].postScale(sx, sy);
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fMatrix[i].postRotate(rot1);
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}
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}
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void performTest() override {
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SkPoint rotation1, scale, rotation2;
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for (int i = 0; i < 10; ++i) {
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(void) SkDecomposeUpper2x2(fMatrix[i], &rotation1, &scale, &rotation2);
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}
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}
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private:
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SkMatrix fMatrix[10];
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SkRandom fRandom;
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typedef MatrixBench INHERITED;
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};
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class InvertMapRectMatrixBench : public MatrixBench {
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public:
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InvertMapRectMatrixBench(const char* name, int flags)
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: INHERITED(name)
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, fFlags(flags) {
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fMatrix.reset();
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fIteration = 0;
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if (flags & kScale_Flag) {
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fMatrix.postScale(1.5f, 2.5f);
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}
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if (flags & kTranslate_Flag) {
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fMatrix.postTranslate(1.5f, 2.5f);
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}
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if (flags & kRotate_Flag) {
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fMatrix.postRotate(45.0f);
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}
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if (flags & kPerspective_Flag) {
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fMatrix.setPerspX(1.5f);
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fMatrix.setPerspY(2.5f);
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}
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if (0 == (flags & kUncachedTypeMask_Flag)) {
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fMatrix.getType();
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}
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}
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enum Flag {
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kScale_Flag = 0x01,
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kTranslate_Flag = 0x02,
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kRotate_Flag = 0x04,
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kPerspective_Flag = 0x08,
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kUncachedTypeMask_Flag = 0x10,
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};
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protected:
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void performTest() override {
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if (fFlags & kUncachedTypeMask_Flag) {
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// This will invalidate the typemask without
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// changing the matrix.
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fMatrix.setPerspX(fMatrix.getPerspX());
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}
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SkMatrix inv;
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bool invertible = fMatrix.invert(&inv);
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SkASSERT(invertible);
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SkRect transformedRect;
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// an arbitrary, small, non-zero rect to transform
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SkRect srcRect = SkRect::MakeWH(SkIntToScalar(10), SkIntToScalar(10));
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if (invertible) {
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inv.mapRect(&transformedRect, srcRect);
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}
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}
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private:
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SkMatrix fMatrix;
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int fFlags;
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unsigned fIteration;
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typedef MatrixBench INHERITED;
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};
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///////////////////////////////////////////////////////////////////////////////
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DEF_BENCH( return new EqualsMatrixBench(); )
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DEF_BENCH( return new ScaleMatrixBench(); )
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DEF_BENCH( return new GetTypeMatrixBench(); )
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DEF_BENCH( return new DecomposeMatrixBench(); )
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DEF_BENCH( return new InvertMapRectMatrixBench("invert_maprect_identity", 0); )
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DEF_BENCH(return new InvertMapRectMatrixBench(
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"invert_maprect_rectstaysrect",
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InvertMapRectMatrixBench::kScale_Flag |
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InvertMapRectMatrixBench::kTranslate_Flag); )
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DEF_BENCH(return new InvertMapRectMatrixBench(
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"invert_maprect_translate",
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InvertMapRectMatrixBench::kTranslate_Flag); )
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DEF_BENCH(return new InvertMapRectMatrixBench(
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"invert_maprect_nonpersp",
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InvertMapRectMatrixBench::kScale_Flag |
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InvertMapRectMatrixBench::kRotate_Flag |
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InvertMapRectMatrixBench::kTranslate_Flag); )
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DEF_BENCH( return new InvertMapRectMatrixBench(
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"invert_maprect_persp",
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InvertMapRectMatrixBench::kPerspective_Flag); )
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DEF_BENCH( return new InvertMapRectMatrixBench(
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"invert_maprect_typemask_rectstaysrect",
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InvertMapRectMatrixBench::kUncachedTypeMask_Flag |
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InvertMapRectMatrixBench::kScale_Flag |
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InvertMapRectMatrixBench::kTranslate_Flag); )
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DEF_BENCH( return new InvertMapRectMatrixBench(
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"invert_maprect_typemask_nonpersp",
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InvertMapRectMatrixBench::kUncachedTypeMask_Flag |
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InvertMapRectMatrixBench::kScale_Flag |
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InvertMapRectMatrixBench::kRotate_Flag |
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InvertMapRectMatrixBench::kTranslate_Flag); )
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///////////////////////////////////////////////////////////////////////////////
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static SkMatrix make_trans() { return SkMatrix::MakeTrans(2, 3); }
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static SkMatrix make_scale() { SkMatrix m(make_trans()); m.postScale(1.5f, 0.5f); return m; }
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static SkMatrix make_afine() { SkMatrix m(make_trans()); m.postRotate(15); return m; }
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class MapPointsMatrixBench : public MatrixBench {
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protected:
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SkMatrix fM;
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enum {
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N = 32
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};
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SkPoint fSrc[N], fDst[N];
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public:
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MapPointsMatrixBench(const char name[], const SkMatrix& m)
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: MatrixBench(name), fM(m)
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{
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SkRandom rand;
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for (int i = 0; i < N; ++i) {
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fSrc[i].set(rand.nextSScalar1(), rand.nextSScalar1());
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}
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}
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void performTest() override {
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for (int i = 0; i < 1000000; ++i) {
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fM.mapPoints(fDst, fSrc, N);
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}
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}
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};
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DEF_BENCH( return new MapPointsMatrixBench("mappoints_identity", SkMatrix::I()); )
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DEF_BENCH( return new MapPointsMatrixBench("mappoints_trans", make_trans()); )
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DEF_BENCH( return new MapPointsMatrixBench("mappoints_scale", make_scale()); )
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DEF_BENCH( return new MapPointsMatrixBench("mappoints_affine", make_afine()); )
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///////////////////////////////////////////////////////////////////////////////
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class MapRectMatrixBench : public MatrixBench {
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SkMatrix fM;
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SkRect fR;
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bool fScaleTrans;
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enum { MEGA_LOOP = 1000 * 1000 };
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public:
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MapRectMatrixBench(const char name[], bool scale_trans)
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: MatrixBench(name), fScaleTrans(scale_trans)
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{
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fM.setScale(2, 3);
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fM.postTranslate(1, 2);
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fR.set(10, 10, 100, 200);
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}
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void performTest() override {
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SkRect dst;
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if (fScaleTrans) {
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for (int i = 0; i < MEGA_LOOP; ++i) {
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fM.mapRectScaleTranslate(&dst, fR);
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}
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} else {
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for (int i = 0; i < MEGA_LOOP; ++i) {
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fM.mapRect(&dst, fR);
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}
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}
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}
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};
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DEF_BENCH( return new MapRectMatrixBench("maprect", false); )
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DEF_BENCH( return new MapRectMatrixBench("maprectscaletrans", true); )
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