cc/trees/occlusion_tracker_perftest.cc - chromium/src.git - 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/trees/occlusion_tracker.h"

 #include "base/time/time.h"
 #include "cc/layers/layer_iterator.h"
 #include "cc/layers/solid_color_layer_impl.h"
 #include "cc/test/fake_layer_tree_host_impl_client.h"
 #include "cc/test/fake_output_surface.h"
 #include "cc/test/fake_proxy.h"
 #include "cc/test/fake_rendering_stats_instrumentation.h"
 #include "cc/test/lap_timer.h"
 #include "cc/test/test_shared_bitmap_manager.h"
 #include "cc/trees/layer_tree_host_impl.h"
 #include "cc/trees/layer_tree_impl.h"
 #include "cc/trees/single_thread_proxy.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;

 class OcclusionTrackerPerfTest : public testing::Test {
  public:
   OcclusionTrackerPerfTest()
       : timer_(kWarmupRuns,
                base::TimeDelta::FromMilliseconds(kTimeLimitMillis),
                kTimeCheckInterval),
         impl_(&proxy_) {}
   void CreateHost() {
     LayerTreeSettings settings;
     shared_bitmap_manager_.reset(new TestSharedBitmapManager());
     host_impl_ = LayerTreeHostImpl::Create(
         settings, &client_, &proxy_, &stats_, shared_bitmap_manager_.get(), 1);
     host_impl_->InitializeRenderer(
         FakeOutputSurface::Create3d().PassAs<OutputSurface>());

     scoped_ptr<LayerImpl> root_layer = LayerImpl::Create(active_tree(), 1);
     active_tree()->SetRootLayer(root_layer.Pass());
   }

   LayerTreeImpl* active_tree() { return host_impl_->active_tree(); }

   void SetTestName(const std::string& name) { test_name_ = name; }

   void PrintResults() {
     CHECK(!test_name_.empty()) << "Must SetTestName() before AfterTest().";
     perf_test::PrintResult("occlusion_tracker_time",
                            "",
                            test_name_,
                            1000 * timer_.MsPerLap(),
                            "us",
                            true);
   }

  protected:
   LapTimer timer_;
   std::string test_name_;
   FakeLayerTreeHostImplClient client_;
   FakeProxy proxy_;
   DebugScopedSetImplThread impl_;
   FakeRenderingStatsInstrumentation stats_;
   scoped_ptr<SharedBitmapManager> shared_bitmap_manager_;
   scoped_ptr<LayerTreeHostImpl> host_impl_;
 };

 TEST_F(OcclusionTrackerPerfTest, UnoccludedContentRect_FullyOccluded) {
   SetTestName("unoccluded_content_rect_fully_occluded");

   gfx::Rect viewport_rect(768, 1038);
   OcclusionTracker<LayerImpl> tracker(viewport_rect);

   CreateHost();
   host_impl_->SetViewportSize(viewport_rect.size());

   scoped_ptr<SolidColorLayerImpl> opaque_layer =
       SolidColorLayerImpl::Create(active_tree(), 2);
   opaque_layer->SetBackgroundColor(SK_ColorRED);
   opaque_layer->SetContentsOpaque(true);
   opaque_layer->SetDrawsContent(true);
   opaque_layer->SetBounds(viewport_rect.size());
   opaque_layer->SetContentBounds(viewport_rect.size());
   active_tree()->root_layer()->AddChild(opaque_layer.PassAs<LayerImpl>());

   active_tree()->UpdateDrawProperties();
   const LayerImplList& rsll = active_tree()->RenderSurfaceLayerList();
   ASSERT_EQ(1u, rsll.size());
   EXPECT_EQ(1u, rsll[0]->render_surface()->layer_list().size());

   LayerIterator<LayerImpl> begin = LayerIterator<LayerImpl>::Begin(&rsll);
   LayerIterator<LayerImpl> end = LayerIterator<LayerImpl>::End(&rsll);

   LayerIteratorPosition<LayerImpl> pos = begin;

   // The opaque_layer adds occlusion over the whole viewport.
   tracker.EnterLayer(pos);
   tracker.LeaveLayer(pos);

   gfx::Transform transform_to_target;
   transform_to_target.Translate(0, 96);

   do {
     for (int x = 0; x < viewport_rect.width(); x += 256) {
       for (int y = 0; y < viewport_rect.height(); y += 256) {
         gfx::Rect query_content_rect(x, y, 256, 256);
         gfx::Rect unoccluded =
             tracker.UnoccludedContentRect(pos.target_render_surface_layer,
                                           query_content_rect,
                                           transform_to_target);
         // Sanity test that we're not hitting early outs.
         bool expect_empty =
             query_content_rect.right() <= viewport_rect.width() &&
             query_content_rect.bottom() + 96 <= viewport_rect.height();
         CHECK_EQ(expect_empty, unoccluded.IsEmpty())
             << query_content_rect.ToString();
       }
     }

     timer_.NextLap();
   } while (!timer_.HasTimeLimitExpired());

   ++begin;
   LayerIteratorPosition<LayerImpl> next = begin;
   EXPECT_EQ(active_tree()->root_layer(), next.current_layer);

   ++begin;
   EXPECT_EQ(end, begin);

   PrintResults();
 }

 TEST_F(OcclusionTrackerPerfTest, UnoccludedContentRect_10OpaqueLayers) {
   static const int kNumOpaqueLayers = 10;
   SetTestName("unoccluded_content_rect_10_opaque_layers");

   gfx::Rect viewport_rect(768, 1038);
   OcclusionTracker<LayerImpl> tracker(viewport_rect);

   CreateHost();
   host_impl_->SetViewportSize(viewport_rect.size());

   for (int i = 0; i < kNumOpaqueLayers; ++i) {
     scoped_ptr<SolidColorLayerImpl> opaque_layer =
         SolidColorLayerImpl::Create(active_tree(), 2 + i);
     opaque_layer->SetBackgroundColor(SK_ColorRED);
     opaque_layer->SetContentsOpaque(true);
     opaque_layer->SetDrawsContent(true);
     opaque_layer->SetBounds(
         gfx::Size(viewport_rect.width() / 2, viewport_rect.height() / 2));
     opaque_layer->SetContentBounds(
         gfx::Size(viewport_rect.width() / 2, viewport_rect.height() / 2));
     opaque_layer->SetPosition(gfx::Point(i, i));
     active_tree()->root_layer()->AddChild(opaque_layer.PassAs<LayerImpl>());
   }

   active_tree()->UpdateDrawProperties();
   const LayerImplList& rsll = active_tree()->RenderSurfaceLayerList();
   ASSERT_EQ(1u, rsll.size());
   EXPECT_EQ(static_cast<size_t>(kNumOpaqueLayers),
             rsll[0]->render_surface()->layer_list().size());

   LayerIterator<LayerImpl> begin = LayerIterator<LayerImpl>::Begin(&rsll);
   LayerIterator<LayerImpl> end = LayerIterator<LayerImpl>::End(&rsll);

   // The opaque_layers add occlusion.
   for (int i = 0; i < kNumOpaqueLayers - 1; ++i) {
     LayerIteratorPosition<LayerImpl> pos = begin;
     tracker.EnterLayer(pos);
     tracker.LeaveLayer(pos);
     ++begin;
   }
   LayerIteratorPosition<LayerImpl> pos = begin;
   tracker.EnterLayer(pos);
   tracker.LeaveLayer(pos);

   gfx::Transform transform_to_target;
   transform_to_target.Translate(0, 96);

   do {
     for (int x = 0; x < viewport_rect.width(); x += 256) {
       for (int y = 0; y < viewport_rect.height(); y += 256) {
         gfx::Rect query_content_rect(x, y, 256, 256);
         gfx::Rect unoccluded =
             tracker.UnoccludedContentRect(pos.target_render_surface_layer,
                                           query_content_rect,
                                           transform_to_target);
       }
     }

     timer_.NextLap();
   } while (!timer_.HasTimeLimitExpired());

   ++begin;
   LayerIteratorPosition<LayerImpl> next = begin;
   EXPECT_EQ(active_tree()->root_layer(), next.current_layer);

   ++begin;
   EXPECT_EQ(end, begin);

   PrintResults();
 }

 }  // 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/trees/occlusion_tracker.h"

	#include "base/time/time.h"
	#include "cc/layers/layer_iterator.h"
	#include "cc/layers/solid_color_layer_impl.h"
	#include "cc/test/fake_layer_tree_host_impl_client.h"
	#include "cc/test/fake_output_surface.h"
	#include "cc/test/fake_proxy.h"
	#include "cc/test/fake_rendering_stats_instrumentation.h"
	#include "cc/test/lap_timer.h"
	#include "cc/test/test_shared_bitmap_manager.h"
	#include "cc/trees/layer_tree_host_impl.h"
	#include "cc/trees/layer_tree_impl.h"
	#include "cc/trees/single_thread_proxy.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;

	class OcclusionTrackerPerfTest : public testing::Test {
	public:
	OcclusionTrackerPerfTest()
	: timer_(kWarmupRuns,
	base::TimeDelta::FromMilliseconds(kTimeLimitMillis),
	kTimeCheckInterval),
	impl_(&proxy_) {}
	void CreateHost() {
	LayerTreeSettings settings;
	shared_bitmap_manager_.reset(new TestSharedBitmapManager());
	host_impl_ = LayerTreeHostImpl::Create(
	settings, &client_, &proxy_, &stats_, shared_bitmap_manager_.get(), 1);
	host_impl_->InitializeRenderer(
	FakeOutputSurface::Create3d().PassAs<OutputSurface>());

	scoped_ptr<LayerImpl> root_layer = LayerImpl::Create(active_tree(), 1);
	active_tree()->SetRootLayer(root_layer.Pass());
	}

	LayerTreeImpl* active_tree() { return host_impl_->active_tree(); }

	void SetTestName(const std::string& name) { test_name_ = name; }

	void PrintResults() {
	CHECK(!test_name_.empty()) << "Must SetTestName() before AfterTest().";
	perf_test::PrintResult("occlusion_tracker_time",
	"",
	test_name_,
	1000 * timer_.MsPerLap(),
	"us",
	true);
	}

	protected:
	LapTimer timer_;
	std::string test_name_;
	FakeLayerTreeHostImplClient client_;
	FakeProxy proxy_;
	DebugScopedSetImplThread impl_;
	FakeRenderingStatsInstrumentation stats_;
	scoped_ptr<SharedBitmapManager> shared_bitmap_manager_;
	scoped_ptr<LayerTreeHostImpl> host_impl_;
	};

	TEST_F(OcclusionTrackerPerfTest, UnoccludedContentRect_FullyOccluded) {
	SetTestName("unoccluded_content_rect_fully_occluded");

	gfx::Rect viewport_rect(768, 1038);
	OcclusionTracker<LayerImpl> tracker(viewport_rect);

	CreateHost();
	host_impl_->SetViewportSize(viewport_rect.size());

	scoped_ptr<SolidColorLayerImpl> opaque_layer =
	SolidColorLayerImpl::Create(active_tree(), 2);
	opaque_layer->SetBackgroundColor(SK_ColorRED);
	opaque_layer->SetContentsOpaque(true);
	opaque_layer->SetDrawsContent(true);
	opaque_layer->SetBounds(viewport_rect.size());
	opaque_layer->SetContentBounds(viewport_rect.size());
	active_tree()->root_layer()->AddChild(opaque_layer.PassAs<LayerImpl>());

	active_tree()->UpdateDrawProperties();
	const LayerImplList& rsll = active_tree()->RenderSurfaceLayerList();
	ASSERT_EQ(1u, rsll.size());
	EXPECT_EQ(1u, rsll[0]->render_surface()->layer_list().size());

	LayerIterator<LayerImpl> begin = LayerIterator<LayerImpl>::Begin(&rsll);
	LayerIterator<LayerImpl> end = LayerIterator<LayerImpl>::End(&rsll);

	LayerIteratorPosition<LayerImpl> pos = begin;

	// The opaque_layer adds occlusion over the whole viewport.
	tracker.EnterLayer(pos);
	tracker.LeaveLayer(pos);

	gfx::Transform transform_to_target;
	transform_to_target.Translate(0, 96);

	do {
	for (int x = 0; x < viewport_rect.width(); x += 256) {
	for (int y = 0; y < viewport_rect.height(); y += 256) {
	gfx::Rect query_content_rect(x, y, 256, 256);
	gfx::Rect unoccluded =
	tracker.UnoccludedContentRect(pos.target_render_surface_layer,
	query_content_rect,
	transform_to_target);
	// Sanity test that we're not hitting early outs.
	bool expect_empty =
	query_content_rect.right() <= viewport_rect.width() &&
	query_content_rect.bottom() + 96 <= viewport_rect.height();
	CHECK_EQ(expect_empty, unoccluded.IsEmpty())
	<< query_content_rect.ToString();
	}
	}

	timer_.NextLap();
	} while (!timer_.HasTimeLimitExpired());

	++begin;
	LayerIteratorPosition<LayerImpl> next = begin;
	EXPECT_EQ(active_tree()->root_layer(), next.current_layer);

	++begin;
	EXPECT_EQ(end, begin);

	PrintResults();
	}

	TEST_F(OcclusionTrackerPerfTest, UnoccludedContentRect_10OpaqueLayers) {
	static const int kNumOpaqueLayers = 10;
	SetTestName("unoccluded_content_rect_10_opaque_layers");

	gfx::Rect viewport_rect(768, 1038);
	OcclusionTracker<LayerImpl> tracker(viewport_rect);

	CreateHost();
	host_impl_->SetViewportSize(viewport_rect.size());

	for (int i = 0; i < kNumOpaqueLayers; ++i) {
	scoped_ptr<SolidColorLayerImpl> opaque_layer =
	SolidColorLayerImpl::Create(active_tree(), 2 + i);
	opaque_layer->SetBackgroundColor(SK_ColorRED);
	opaque_layer->SetContentsOpaque(true);
	opaque_layer->SetDrawsContent(true);
	opaque_layer->SetBounds(
	gfx::Size(viewport_rect.width() / 2, viewport_rect.height() / 2));
	opaque_layer->SetContentBounds(
	gfx::Size(viewport_rect.width() / 2, viewport_rect.height() / 2));
	opaque_layer->SetPosition(gfx::Point(i, i));
	active_tree()->root_layer()->AddChild(opaque_layer.PassAs<LayerImpl>());
	}

	active_tree()->UpdateDrawProperties();
	const LayerImplList& rsll = active_tree()->RenderSurfaceLayerList();
	ASSERT_EQ(1u, rsll.size());
	EXPECT_EQ(static_cast<size_t>(kNumOpaqueLayers),
	rsll[0]->render_surface()->layer_list().size());

	LayerIterator<LayerImpl> begin = LayerIterator<LayerImpl>::Begin(&rsll);
	LayerIterator<LayerImpl> end = LayerIterator<LayerImpl>::End(&rsll);

	// The opaque_layers add occlusion.
	for (int i = 0; i < kNumOpaqueLayers - 1; ++i) {
	LayerIteratorPosition<LayerImpl> pos = begin;
	tracker.EnterLayer(pos);
	tracker.LeaveLayer(pos);
	++begin;
	}
	LayerIteratorPosition<LayerImpl> pos = begin;
	tracker.EnterLayer(pos);
	tracker.LeaveLayer(pos);

	gfx::Transform transform_to_target;
	transform_to_target.Translate(0, 96);

	do {
	for (int x = 0; x < viewport_rect.width(); x += 256) {
	for (int y = 0; y < viewport_rect.height(); y += 256) {
	gfx::Rect query_content_rect(x, y, 256, 256);
	gfx::Rect unoccluded =
	tracker.UnoccludedContentRect(pos.target_render_surface_layer,
	query_content_rect,
	transform_to_target);
	}
	}

	timer_.NextLap();
	} while (!timer_.HasTimeLimitExpired());

	++begin;
	LayerIteratorPosition<LayerImpl> next = begin;
	EXPECT_EQ(active_tree()->root_layer(), next.current_layer);

	++begin;
	EXPECT_EQ(end, begin);

	PrintResults();
	}

	} // namespace
	} // namespace cc