cc/layers/picture_layer_impl_perftest.cc - mojo - Git at Google

 // Copyright 2014 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "cc/layers/picture_layer_impl.h"

 #include "cc/debug/lap_timer.h"
 #include "cc/test/fake_impl_proxy.h"
 #include "cc/test/fake_layer_tree_host_impl.h"
 #include "cc/test/fake_output_surface.h"
 #include "cc/test/fake_picture_layer_impl.h"
 #include "cc/test/fake_picture_pile_impl.h"
 #include "cc/test/impl_side_painting_settings.h"
 #include "cc/test/test_shared_bitmap_manager.h"
 #include "cc/trees/layer_tree_impl.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "testing/perf/perf_test.h"

 namespace cc {
 namespace {

 static const int kTimeLimitMillis = 2000;
 static const int kWarmupRuns = 5;
 static const int kTimeCheckInterval = 10;

 void AddTiling(float scale,
                FakePictureLayerImpl* layer,
                std::vector<Tile*>* all_tiles) {
   PictureLayerTiling* tiling = layer->AddTiling(scale);

   tiling->CreateAllTilesForTesting();
   std::vector<Tile*> tiling_tiles = tiling->AllTilesForTesting();
   std::copy(
       tiling_tiles.begin(), tiling_tiles.end(), std::back_inserter(*all_tiles));
 }

 class PictureLayerImplPerfTest : public testing::Test {
  public:
   PictureLayerImplPerfTest()
       : proxy_(base::MessageLoopProxy::current()),
         host_impl_(ImplSidePaintingSettings(),
                    &proxy_,
                    &shared_bitmap_manager_),
         timer_(kWarmupRuns,
                base::TimeDelta::FromMilliseconds(kTimeLimitMillis),
                kTimeCheckInterval) {}

   void SetUp() override {
     host_impl_.InitializeRenderer(FakeOutputSurface::Create3d());
   }

   void SetupPendingTree(const gfx::Size& layer_bounds,
                         const gfx::Size& tile_size) {
     scoped_refptr<FakePicturePileImpl> pile =
         FakePicturePileImpl::CreateFilledPile(tile_size, layer_bounds);
     host_impl_.CreatePendingTree();
     LayerTreeImpl* pending_tree = host_impl_.pending_tree();
     pending_tree->DetachLayerTree();

     scoped_ptr<FakePictureLayerImpl> pending_layer =
         FakePictureLayerImpl::CreateWithRasterSource(pending_tree, 7, pile);
     pending_layer->SetDrawsContent(true);
     pending_tree->SetRootLayer(pending_layer.Pass());

     pending_layer_ = static_cast<FakePictureLayerImpl*>(
         host_impl_.pending_tree()->LayerById(7));
     pending_layer_->DoPostCommitInitializationIfNeeded();
   }

   void RunRasterQueueConstructAndIterateTest(const std::string& test_name,
                                              int num_tiles,
                                              const gfx::Size& viewport_size) {
     host_impl_.SetViewportSize(viewport_size);
     host_impl_.pending_tree()->UpdateDrawProperties();

     timer_.Reset();
     do {
       int count = num_tiles;
       scoped_ptr<TilingSetRasterQueue> queue =
           pending_layer_->CreateRasterQueue(false);
       while (count--) {
         ASSERT_TRUE(!queue->IsEmpty()) << "count: " << count;
         ASSERT_TRUE(queue->Top() != nullptr) << "count: " << count;
         queue->Pop();
       }
       timer_.NextLap();
     } while (!timer_.HasTimeLimitExpired());

     perf_test::PrintResult("layer_raster_tile_iterator_construct_and_iterate",
                            "",
                            test_name,
                            timer_.LapsPerSecond(),
                            "runs/s",
                            true);
   }

   void RunRasterQueueConstructTest(const std::string& test_name,
                                    const gfx::Rect& viewport) {
     host_impl_.SetViewportSize(viewport.size());
     pending_layer_->SetScrollOffset(
         gfx::ScrollOffset(viewport.x(), viewport.y()));
     host_impl_.pending_tree()->UpdateDrawProperties();

     timer_.Reset();
     do {
       scoped_ptr<TilingSetRasterQueue> queue =
           pending_layer_->CreateRasterQueue(false);
       timer_.NextLap();
     } while (!timer_.HasTimeLimitExpired());

     perf_test::PrintResult("layer_raster_tile_iterator_construct",
                            "",
                            test_name,
                            timer_.LapsPerSecond(),
                            "runs/s",
                            true);
   }

   void RunEvictionQueueConstructAndIterateTest(
       const std::string& test_name,
       int num_tiles,
       const gfx::Size& viewport_size) {
     host_impl_.SetViewportSize(viewport_size);
     host_impl_.pending_tree()->UpdateDrawProperties();

     TreePriority priorities[] = {SAME_PRIORITY_FOR_BOTH_TREES,
                                  SMOOTHNESS_TAKES_PRIORITY,
                                  NEW_CONTENT_TAKES_PRIORITY};
     int priority_count = 0;
     timer_.Reset();
     do {
       int count = num_tiles;
       scoped_ptr<TilingSetEvictionQueue> queue =
           pending_layer_->CreateEvictionQueue(priorities[priority_count]);
       while (count--) {
         ASSERT_TRUE(!queue->IsEmpty()) << "count: " << count;
         ASSERT_TRUE(queue->Top() != nullptr) << "count: " << count;
         queue->Pop();
       }
       priority_count = (priority_count + 1) % arraysize(priorities);
       timer_.NextLap();
     } while (!timer_.HasTimeLimitExpired());

     perf_test::PrintResult("layer_eviction_tile_iterator_construct_and_iterate",
                            "",
                            test_name,
                            timer_.LapsPerSecond(),
                            "runs/s",
                            true);
   }

   void RunEvictionQueueConstructTest(const std::string& test_name,
                                      const gfx::Rect& viewport) {
     host_impl_.SetViewportSize(viewport.size());
     pending_layer_->SetScrollOffset(
         gfx::ScrollOffset(viewport.x(), viewport.y()));
     host_impl_.pending_tree()->UpdateDrawProperties();

     TreePriority priorities[] = {SAME_PRIORITY_FOR_BOTH_TREES,
                                  SMOOTHNESS_TAKES_PRIORITY,
                                  NEW_CONTENT_TAKES_PRIORITY};
     int priority_count = 0;
     timer_.Reset();
     do {
       scoped_ptr<TilingSetEvictionQueue> queue =
           pending_layer_->CreateEvictionQueue(priorities[priority_count]);
       priority_count = (priority_count + 1) % arraysize(priorities);
       timer_.NextLap();
     } while (!timer_.HasTimeLimitExpired());

     perf_test::PrintResult("layer_eviction_tile_iterator_construct",
                            "",
                            test_name,
                            timer_.LapsPerSecond(),
                            "runs/s",
                            true);
   }

  protected:
   TestSharedBitmapManager shared_bitmap_manager_;
   FakeImplProxy proxy_;
   FakeLayerTreeHostImpl host_impl_;
   FakePictureLayerImpl* pending_layer_;
   LapTimer timer_;

  private:
   DISALLOW_COPY_AND_ASSIGN(PictureLayerImplPerfTest);
 };

 // TODO(vmpstr): Rename these tests once the perf numbers are in.
 TEST_F(PictureLayerImplPerfTest, LayerRasterTileIteratorConstructAndIterate) {
   SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

   float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

   pending_layer_->AddTiling(low_res_factor);
   pending_layer_->AddTiling(0.3f);
   pending_layer_->AddTiling(0.7f);
   pending_layer_->AddTiling(1.0f);
   pending_layer_->AddTiling(2.0f);

   RunRasterQueueConstructAndIterateTest("32_100x100", 32, gfx::Size(100, 100));
   RunRasterQueueConstructAndIterateTest("32_500x500", 32, gfx::Size(500, 500));
   RunRasterQueueConstructAndIterateTest("64_100x100", 64, gfx::Size(100, 100));
   RunRasterQueueConstructAndIterateTest("64_500x500", 64, gfx::Size(500, 500));
 }

 // TODO(vmpstr): Rename these tests once the perf numbers are in.
 TEST_F(PictureLayerImplPerfTest, LayerRasterTileIteratorConstruct) {
   SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

   float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

   pending_layer_->AddTiling(low_res_factor);
   pending_layer_->AddTiling(0.3f);
   pending_layer_->AddTiling(0.7f);
   pending_layer_->AddTiling(1.0f);
   pending_layer_->AddTiling(2.0f);

   RunRasterQueueConstructTest("0_0_100x100", gfx::Rect(0, 0, 100, 100));
   RunRasterQueueConstructTest("5000_0_100x100", gfx::Rect(5000, 0, 100, 100));
   RunRasterQueueConstructTest("9999_0_100x100", gfx::Rect(9999, 0, 100, 100));
 }

 // TODO(e_hakkinen): Rename these tests once the perf numbers are in.
 TEST_F(PictureLayerImplPerfTest, LayerEvictionTileIteratorConstructAndIterate) {
   SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

   float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

   std::vector<Tile*> all_tiles;
   AddTiling(low_res_factor, pending_layer_, &all_tiles);
   AddTiling(0.3f, pending_layer_, &all_tiles);
   AddTiling(0.7f, pending_layer_, &all_tiles);
   AddTiling(1.0f, pending_layer_, &all_tiles);
   AddTiling(2.0f, pending_layer_, &all_tiles);

   ASSERT_TRUE(host_impl_.tile_manager() != nullptr);
   host_impl_.tile_manager()->InitializeTilesWithResourcesForTesting(all_tiles);

   RunEvictionQueueConstructAndIterateTest(
       "32_100x100", 32, gfx::Size(100, 100));
   RunEvictionQueueConstructAndIterateTest(
       "32_500x500", 32, gfx::Size(500, 500));
   RunEvictionQueueConstructAndIterateTest(
       "64_100x100", 64, gfx::Size(100, 100));
   RunEvictionQueueConstructAndIterateTest(
       "64_500x500", 64, gfx::Size(500, 500));
 }

 // TODO(e_hakkinen): Rename these tests once the perf numbers are in.
 TEST_F(PictureLayerImplPerfTest, LayerEvictionTileIteratorConstruct) {
   SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

   float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

   std::vector<Tile*> all_tiles;
   AddTiling(low_res_factor, pending_layer_, &all_tiles);
   AddTiling(0.3f, pending_layer_, &all_tiles);
   AddTiling(0.7f, pending_layer_, &all_tiles);
   AddTiling(1.0f, pending_layer_, &all_tiles);
   AddTiling(2.0f, pending_layer_, &all_tiles);

   ASSERT_TRUE(host_impl_.tile_manager() != nullptr);
   host_impl_.tile_manager()->InitializeTilesWithResourcesForTesting(all_tiles);

   RunEvictionQueueConstructTest("0_0_100x100", gfx::Rect(0, 0, 100, 100));
   RunEvictionQueueConstructTest("5000_0_100x100", gfx::Rect(5000, 0, 100, 100));
   RunEvictionQueueConstructTest("9999_0_100x100", gfx::Rect(9999, 0, 100, 100));
 }

 }  // namespace
 }  // namespace cc
	// Copyright 2014 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "cc/layers/picture_layer_impl.h"

	#include "cc/debug/lap_timer.h"
	#include "cc/test/fake_impl_proxy.h"
	#include "cc/test/fake_layer_tree_host_impl.h"
	#include "cc/test/fake_output_surface.h"
	#include "cc/test/fake_picture_layer_impl.h"
	#include "cc/test/fake_picture_pile_impl.h"
	#include "cc/test/impl_side_painting_settings.h"
	#include "cc/test/test_shared_bitmap_manager.h"
	#include "cc/trees/layer_tree_impl.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "testing/perf/perf_test.h"

	namespace cc {
	namespace {

	static const int kTimeLimitMillis = 2000;
	static const int kWarmupRuns = 5;
	static const int kTimeCheckInterval = 10;

	void AddTiling(float scale,
	FakePictureLayerImpl* layer,
	std::vector<Tile> all_tiles) {
	PictureLayerTiling* tiling = layer->AddTiling(scale);

	tiling->CreateAllTilesForTesting();
	std::vector<Tile*> tiling_tiles = tiling->AllTilesForTesting();
	std::copy(
	tiling_tiles.begin(), tiling_tiles.end(), std::back_inserter(*all_tiles));
	}

	class PictureLayerImplPerfTest : public testing::Test {
	public:
	PictureLayerImplPerfTest()
	: proxy_(base::MessageLoopProxy::current()),
	host_impl_(ImplSidePaintingSettings(),
	&proxy_,
	&shared_bitmap_manager_),
	timer_(kWarmupRuns,
	base::TimeDelta::FromMilliseconds(kTimeLimitMillis),
	kTimeCheckInterval) {}

	void SetUp() override {
	host_impl_.InitializeRenderer(FakeOutputSurface::Create3d());
	}

	void SetupPendingTree(const gfx::Size& layer_bounds,
	const gfx::Size& tile_size) {
	scoped_refptr<FakePicturePileImpl> pile =
	FakePicturePileImpl::CreateFilledPile(tile_size, layer_bounds);
	host_impl_.CreatePendingTree();
	LayerTreeImpl* pending_tree = host_impl_.pending_tree();
	pending_tree->DetachLayerTree();

	scoped_ptr<FakePictureLayerImpl> pending_layer =
	FakePictureLayerImpl::CreateWithRasterSource(pending_tree, 7, pile);
	pending_layer->SetDrawsContent(true);
	pending_tree->SetRootLayer(pending_layer.Pass());

	pending_layer_ = static_cast<FakePictureLayerImpl*>(
	host_impl_.pending_tree()->LayerById(7));
	pending_layer_->DoPostCommitInitializationIfNeeded();
	}

	void RunRasterQueueConstructAndIterateTest(const std::string& test_name,
	int num_tiles,
	const gfx::Size& viewport_size) {
	host_impl_.SetViewportSize(viewport_size);
	host_impl_.pending_tree()->UpdateDrawProperties();

	timer_.Reset();
	do {
	int count = num_tiles;
	scoped_ptr<TilingSetRasterQueue> queue =
	pending_layer_->CreateRasterQueue(false);
	while (count--) {
	ASSERT_TRUE(!queue->IsEmpty()) << "count: " << count;
	ASSERT_TRUE(queue->Top() != nullptr) << "count: " << count;
	queue->Pop();
	}
	timer_.NextLap();
	} while (!timer_.HasTimeLimitExpired());

	perf_test::PrintResult("layer_raster_tile_iterator_construct_and_iterate",
	"",
	test_name,
	timer_.LapsPerSecond(),
	"runs/s",
	true);
	}

	void RunRasterQueueConstructTest(const std::string& test_name,
	const gfx::Rect& viewport) {
	host_impl_.SetViewportSize(viewport.size());
	pending_layer_->SetScrollOffset(
	gfx::ScrollOffset(viewport.x(), viewport.y()));
	host_impl_.pending_tree()->UpdateDrawProperties();

	timer_.Reset();
	do {
	scoped_ptr<TilingSetRasterQueue> queue =
	pending_layer_->CreateRasterQueue(false);
	timer_.NextLap();
	} while (!timer_.HasTimeLimitExpired());

	perf_test::PrintResult("layer_raster_tile_iterator_construct",
	"",
	test_name,
	timer_.LapsPerSecond(),
	"runs/s",
	true);
	}

	void RunEvictionQueueConstructAndIterateTest(
	const std::string& test_name,
	int num_tiles,
	const gfx::Size& viewport_size) {
	host_impl_.SetViewportSize(viewport_size);
	host_impl_.pending_tree()->UpdateDrawProperties();

	TreePriority priorities[] = {SAME_PRIORITY_FOR_BOTH_TREES,
	SMOOTHNESS_TAKES_PRIORITY,
	NEW_CONTENT_TAKES_PRIORITY};
	int priority_count = 0;
	timer_.Reset();
	do {
	int count = num_tiles;
	scoped_ptr<TilingSetEvictionQueue> queue =
	pending_layer_->CreateEvictionQueue(priorities[priority_count]);
	while (count--) {
	ASSERT_TRUE(!queue->IsEmpty()) << "count: " << count;
	ASSERT_TRUE(queue->Top() != nullptr) << "count: " << count;
	queue->Pop();
	}
	priority_count = (priority_count + 1) % arraysize(priorities);
	timer_.NextLap();
	} while (!timer_.HasTimeLimitExpired());

	perf_test::PrintResult("layer_eviction_tile_iterator_construct_and_iterate",
	"",
	test_name,
	timer_.LapsPerSecond(),
	"runs/s",
	true);
	}

	void RunEvictionQueueConstructTest(const std::string& test_name,
	const gfx::Rect& viewport) {
	host_impl_.SetViewportSize(viewport.size());
	pending_layer_->SetScrollOffset(
	gfx::ScrollOffset(viewport.x(), viewport.y()));
	host_impl_.pending_tree()->UpdateDrawProperties();

	TreePriority priorities[] = {SAME_PRIORITY_FOR_BOTH_TREES,
	SMOOTHNESS_TAKES_PRIORITY,
	NEW_CONTENT_TAKES_PRIORITY};
	int priority_count = 0;
	timer_.Reset();
	do {
	scoped_ptr<TilingSetEvictionQueue> queue =
	pending_layer_->CreateEvictionQueue(priorities[priority_count]);
	priority_count = (priority_count + 1) % arraysize(priorities);
	timer_.NextLap();
	} while (!timer_.HasTimeLimitExpired());

	perf_test::PrintResult("layer_eviction_tile_iterator_construct",
	"",
	test_name,
	timer_.LapsPerSecond(),
	"runs/s",
	true);
	}

	protected:
	TestSharedBitmapManager shared_bitmap_manager_;
	FakeImplProxy proxy_;
	FakeLayerTreeHostImpl host_impl_;
	FakePictureLayerImpl* pending_layer_;
	LapTimer timer_;

	private:
	DISALLOW_COPY_AND_ASSIGN(PictureLayerImplPerfTest);
	};

	// TODO(vmpstr): Rename these tests once the perf numbers are in.
	TEST_F(PictureLayerImplPerfTest, LayerRasterTileIteratorConstructAndIterate) {
	SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

	float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

	pending_layer_->AddTiling(low_res_factor);
	pending_layer_->AddTiling(0.3f);
	pending_layer_->AddTiling(0.7f);
	pending_layer_->AddTiling(1.0f);
	pending_layer_->AddTiling(2.0f);

	RunRasterQueueConstructAndIterateTest("32_100x100", 32, gfx::Size(100, 100));
	RunRasterQueueConstructAndIterateTest("32_500x500", 32, gfx::Size(500, 500));
	RunRasterQueueConstructAndIterateTest("64_100x100", 64, gfx::Size(100, 100));
	RunRasterQueueConstructAndIterateTest("64_500x500", 64, gfx::Size(500, 500));
	}

	// TODO(vmpstr): Rename these tests once the perf numbers are in.
	TEST_F(PictureLayerImplPerfTest, LayerRasterTileIteratorConstruct) {
	SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

	float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

	pending_layer_->AddTiling(low_res_factor);
	pending_layer_->AddTiling(0.3f);
	pending_layer_->AddTiling(0.7f);
	pending_layer_->AddTiling(1.0f);
	pending_layer_->AddTiling(2.0f);

	RunRasterQueueConstructTest("0_0_100x100", gfx::Rect(0, 0, 100, 100));
	RunRasterQueueConstructTest("5000_0_100x100", gfx::Rect(5000, 0, 100, 100));
	RunRasterQueueConstructTest("9999_0_100x100", gfx::Rect(9999, 0, 100, 100));
	}

	// TODO(e_hakkinen): Rename these tests once the perf numbers are in.
	TEST_F(PictureLayerImplPerfTest, LayerEvictionTileIteratorConstructAndIterate) {
	SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

	float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

	std::vector<Tile*> all_tiles;
	AddTiling(low_res_factor, pending_layer_, &all_tiles);
	AddTiling(0.3f, pending_layer_, &all_tiles);
	AddTiling(0.7f, pending_layer_, &all_tiles);
	AddTiling(1.0f, pending_layer_, &all_tiles);
	AddTiling(2.0f, pending_layer_, &all_tiles);

	ASSERT_TRUE(host_impl_.tile_manager() != nullptr);
	host_impl_.tile_manager()->InitializeTilesWithResourcesForTesting(all_tiles);

	RunEvictionQueueConstructAndIterateTest(
	"32_100x100", 32, gfx::Size(100, 100));
	RunEvictionQueueConstructAndIterateTest(
	"32_500x500", 32, gfx::Size(500, 500));
	RunEvictionQueueConstructAndIterateTest(
	"64_100x100", 64, gfx::Size(100, 100));
	RunEvictionQueueConstructAndIterateTest(
	"64_500x500", 64, gfx::Size(500, 500));
	}

	// TODO(e_hakkinen): Rename these tests once the perf numbers are in.
	TEST_F(PictureLayerImplPerfTest, LayerEvictionTileIteratorConstruct) {
	SetupPendingTree(gfx::Size(10000, 10000), gfx::Size(256, 256));

	float low_res_factor = host_impl_.settings().low_res_contents_scale_factor;

	std::vector<Tile*> all_tiles;
	AddTiling(low_res_factor, pending_layer_, &all_tiles);
	AddTiling(0.3f, pending_layer_, &all_tiles);
	AddTiling(0.7f, pending_layer_, &all_tiles);
	AddTiling(1.0f, pending_layer_, &all_tiles);
	AddTiling(2.0f, pending_layer_, &all_tiles);

	ASSERT_TRUE(host_impl_.tile_manager() != nullptr);
	host_impl_.tile_manager()->InitializeTilesWithResourcesForTesting(all_tiles);

	RunEvictionQueueConstructTest("0_0_100x100", gfx::Rect(0, 0, 100, 100));
	RunEvictionQueueConstructTest("5000_0_100x100", gfx::Rect(5000, 0, 100, 100));
	RunEvictionQueueConstructTest("9999_0_100x100", gfx::Rect(9999, 0, 100, 100));
	}

	} // namespace
	} // namespace cc