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188 lines
6.2 KiB
188 lines
6.2 KiB
/*
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* Copyright 2014 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 "SKPBench.h"
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#include "SkCommandLineFlags.h"
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#include "SkMultiPictureDraw.h"
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#include "SkSurface.h"
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#include "GrContext.h"
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#include "GrContextPriv.h"
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// These CPU tile sizes are not good per se, but they are similar to what Chrome uses.
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DEFINE_int32(CPUbenchTileW, 256, "Tile width used for CPU SKP playback.");
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DEFINE_int32(CPUbenchTileH, 256, "Tile height used for CPU SKP playback.");
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DEFINE_int32(GPUbenchTileW, 1600, "Tile width used for GPU SKP playback.");
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DEFINE_int32(GPUbenchTileH, 512, "Tile height used for GPU SKP playback.");
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SKPBench::SKPBench(const char* name, const SkPicture* pic, const SkIRect& clip, SkScalar scale,
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bool useMultiPictureDraw, bool doLooping)
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: fPic(SkRef(pic))
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, fClip(clip)
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, fScale(scale)
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, fName(name)
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, fUseMultiPictureDraw(useMultiPictureDraw)
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, fDoLooping(doLooping) {
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fUniqueName.printf("%s_%.2g", name, scale); // Scale makes this unqiue for perf.skia.org traces.
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if (useMultiPictureDraw) {
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fUniqueName.append("_mpd");
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}
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}
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SKPBench::~SKPBench() {
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for (int i = 0; i < fSurfaces.count(); ++i) {
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fSurfaces[i]->unref();
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}
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}
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const char* SKPBench::onGetName() {
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return fName.c_str();
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}
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const char* SKPBench::onGetUniqueName() {
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return fUniqueName.c_str();
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}
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void SKPBench::onPerCanvasPreDraw(SkCanvas* canvas) {
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SkIRect bounds = canvas->getDeviceClipBounds();
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SkAssertResult(!bounds.isEmpty());
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const bool gpu = canvas->getGrContext() != nullptr;
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int tileW = gpu ? FLAGS_GPUbenchTileW : FLAGS_CPUbenchTileW,
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tileH = gpu ? FLAGS_GPUbenchTileH : FLAGS_CPUbenchTileH;
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tileW = SkTMin(tileW, bounds.width());
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tileH = SkTMin(tileH, bounds.height());
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int xTiles = SkScalarCeilToInt(bounds.width() / SkIntToScalar(tileW));
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int yTiles = SkScalarCeilToInt(bounds.height() / SkIntToScalar(tileH));
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fSurfaces.reserve(xTiles * yTiles);
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fTileRects.setReserve(xTiles * yTiles);
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SkImageInfo ii = canvas->imageInfo().makeWH(tileW, tileH);
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for (int y = bounds.fTop; y < bounds.fBottom; y += tileH) {
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for (int x = bounds.fLeft; x < bounds.fRight; x += tileW) {
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const SkIRect tileRect = SkIRect::MakeXYWH(x, y, tileW, tileH);
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*fTileRects.append() = tileRect;
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fSurfaces.emplace_back(canvas->makeSurface(ii));
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// Never want the contents of a tile to include stuff the parent
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// canvas clips out
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SkRect clip = SkRect::Make(bounds);
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clip.offset(-SkIntToScalar(tileRect.fLeft), -SkIntToScalar(tileRect.fTop));
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fSurfaces.back()->getCanvas()->clipRect(clip);
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fSurfaces.back()->getCanvas()->setMatrix(canvas->getTotalMatrix());
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fSurfaces.back()->getCanvas()->scale(fScale, fScale);
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}
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}
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}
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void SKPBench::onPerCanvasPostDraw(SkCanvas* canvas) {
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// Draw the last set of tiles into the master canvas in case we're
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// saving the images
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for (int i = 0; i < fTileRects.count(); ++i) {
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sk_sp<SkImage> image(fSurfaces[i]->makeImageSnapshot());
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canvas->drawImage(image,
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SkIntToScalar(fTileRects[i].fLeft), SkIntToScalar(fTileRects[i].fTop));
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}
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fSurfaces.reset();
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fTileRects.rewind();
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}
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bool SKPBench::isSuitableFor(Backend backend) {
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return backend != kNonRendering_Backend;
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}
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SkIPoint SKPBench::onGetSize() {
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return SkIPoint::Make(fClip.width(), fClip.height());
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}
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void SKPBench::onDraw(int loops, SkCanvas* canvas) {
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SkASSERT(fDoLooping || 1 == loops);
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while (1) {
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if (fUseMultiPictureDraw) {
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this->drawMPDPicture();
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} else {
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this->drawPicture();
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}
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if (0 == --loops) {
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break;
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}
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// Ensure the GrContext doesn't combine ops across draw loops.
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if (GrContext* context = canvas->getGrContext()) {
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context->flush();
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}
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}
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}
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void SKPBench::drawMPDPicture() {
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SkMultiPictureDraw mpd;
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for (int j = 0; j < fTileRects.count(); ++j) {
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SkMatrix trans;
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trans.setTranslate(-fTileRects[j].fLeft/fScale,
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-fTileRects[j].fTop/fScale);
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mpd.add(fSurfaces[j]->getCanvas(), fPic.get(), &trans);
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}
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// We flush after each picture to more closely model how Chrome rasterizes tiles.
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mpd.draw(/*flush = */ true);
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}
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void SKPBench::drawPicture() {
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for (int j = 0; j < fTileRects.count(); ++j) {
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const SkMatrix trans = SkMatrix::MakeTrans(-fTileRects[j].fLeft / fScale,
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-fTileRects[j].fTop / fScale);
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fSurfaces[j]->getCanvas()->drawPicture(fPic.get(), &trans, nullptr);
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}
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for (int j = 0; j < fTileRects.count(); ++j) {
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fSurfaces[j]->getCanvas()->flush();
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}
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}
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#include "GrGpu.h"
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static void draw_pic_for_stats(SkCanvas* canvas, GrContext* context, const SkPicture* picture,
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SkTArray<SkString>* keys, SkTArray<double>* values,
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const char* tag) {
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context->contextPriv().resetGpuStats();
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canvas->drawPicture(picture);
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canvas->flush();
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int offset = keys->count();
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context->contextPriv().dumpGpuStatsKeyValuePairs(keys, values);
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context->contextPriv().dumpCacheStatsKeyValuePairs(keys, values);
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// append tag, but only to new tags
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for (int i = offset; i < keys->count(); i++, offset++) {
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(*keys)[i].appendf("_%s", tag);
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}
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}
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void SKPBench::getGpuStats(SkCanvas* canvas, SkTArray<SkString>* keys, SkTArray<double>* values) {
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// we do a special single draw and then dump the key / value pairs
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GrContext* context = canvas->getGrContext();
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if (!context) {
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return;
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}
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// TODO refactor this out if we want to test other subclasses of skpbench
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context->flush();
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context->freeGpuResources();
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context->resetContext();
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context->contextPriv().getGpu()->resetShaderCacheForTesting();
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draw_pic_for_stats(canvas, context, fPic.get(), keys, values, "first_frame");
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// draw second frame
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draw_pic_for_stats(canvas, context, fPic.get(), keys, values, "second_frame");
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}
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