// Copyright 2012 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/layer_tree_host.h" #include #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/path_service.h" #include "base/strings/string_piece.h" #include "base/time/time.h" #include "cc/debug/lap_timer.h" #include "cc/layers/content_layer.h" #include "cc/layers/nine_patch_layer.h" #include "cc/layers/solid_color_layer.h" #include "cc/layers/texture_layer.h" #include "cc/resources/single_release_callback.h" #include "cc/resources/texture_mailbox.h" #include "cc/test/fake_content_layer_client.h" #include "cc/test/layer_tree_json_parser.h" #include "cc/test/layer_tree_test.h" #include "cc/test/paths.h" #include "cc/trees/layer_tree_impl.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 LayerTreeHostPerfTest : public LayerTreeTest { public: LayerTreeHostPerfTest() : draw_timer_(kWarmupRuns, base::TimeDelta::FromMilliseconds(kTimeLimitMillis), kTimeCheckInterval), commit_timer_(0, base::TimeDelta(), 1), full_damage_each_frame_(false), begin_frame_driven_drawing_(false), measure_commit_cost_(false) { } virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->throttle_frame_production = false; } virtual void BeginTest() OVERRIDE { BuildTree(); PostSetNeedsCommitToMainThread(); } virtual void BeginMainFrame(const BeginFrameArgs& args) OVERRIDE { if (begin_frame_driven_drawing_ && !TestEnded()) { layer_tree_host()->SetNeedsAnimate(); layer_tree_host()->SetNextCommitForcesRedraw(); } } virtual void BeginCommitOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { if (measure_commit_cost_) commit_timer_.Start(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { if (measure_commit_cost_ && draw_timer_.IsWarmedUp()) { commit_timer_.NextLap(); } } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (TestEnded() || CleanUpStarted()) return; draw_timer_.NextLap(); if (draw_timer_.HasTimeLimitExpired()) { CleanUpAndEndTest(impl); return; } if (!begin_frame_driven_drawing_) impl->SetNeedsRedraw(); if (full_damage_each_frame_) impl->SetFullRootLayerDamage(); } virtual void CleanUpAndEndTest(LayerTreeHostImpl* host_impl) { EndTest(); } virtual bool CleanUpStarted() { return false; } virtual void BuildTree() {} virtual void AfterTest() OVERRIDE { CHECK(!test_name_.empty()) << "Must SetTestName() before AfterTest()."; perf_test::PrintResult("layer_tree_host_frame_time", "", test_name_, 1000 * draw_timer_.MsPerLap(), "us", true); if (measure_commit_cost_) { perf_test::PrintResult("layer_tree_host_commit_time", "", test_name_, 1000 * commit_timer_.MsPerLap(), "us", true); } } protected: LapTimer draw_timer_; LapTimer commit_timer_; std::string test_name_; FakeContentLayerClient fake_content_layer_client_; bool full_damage_each_frame_; bool begin_frame_driven_drawing_; bool measure_commit_cost_; }; class LayerTreeHostPerfTestJsonReader : public LayerTreeHostPerfTest { public: LayerTreeHostPerfTestJsonReader() : LayerTreeHostPerfTest() { } void SetTestName(const std::string& name) { test_name_ = name; } void ReadTestFile(const std::string& name) { base::FilePath test_data_dir; ASSERT_TRUE(PathService::Get(CCPaths::DIR_TEST_DATA, &test_data_dir)); base::FilePath json_file = test_data_dir.AppendASCII(name + ".json"); ASSERT_TRUE(base::ReadFileToString(json_file, &json_)); } virtual void BuildTree() OVERRIDE { gfx::Size viewport = gfx::Size(720, 1038); layer_tree_host()->SetViewportSize(viewport); scoped_refptr root = ParseTreeFromJson(json_, &fake_content_layer_client_); ASSERT_TRUE(root.get()); layer_tree_host()->SetRootLayer(root); } private: std::string json_; }; // Simulates a tab switcher scene with two stacks of 10 tabs each. TEST_F(LayerTreeHostPerfTestJsonReader, TenTenSingleThread) { SetTestName("10_10_single_thread"); ReadTestFile("10_10_layer_tree"); RunTest(false, false, false); } TEST_F(LayerTreeHostPerfTestJsonReader, TenTenThreadedImplSide) { SetTestName("10_10_threaded_impl_side"); ReadTestFile("10_10_layer_tree"); RunTestWithImplSidePainting(); } // Simulates a tab switcher scene with two stacks of 10 tabs each. TEST_F(LayerTreeHostPerfTestJsonReader, TenTenSingleThread_FullDamageEachFrame) { full_damage_each_frame_ = true; SetTestName("10_10_single_thread_full_damage_each_frame"); ReadTestFile("10_10_layer_tree"); RunTest(false, false, false); } TEST_F(LayerTreeHostPerfTestJsonReader, TenTenThreadedImplSide_FullDamageEachFrame) { full_damage_each_frame_ = true; SetTestName("10_10_threaded_impl_side_full_damage_each_frame"); ReadTestFile("10_10_layer_tree"); RunTestWithImplSidePainting(); } // Invalidates a leaf layer in the tree on the main thread after every commit. class LayerTreeHostPerfTestLeafInvalidates : public LayerTreeHostPerfTestJsonReader { public: virtual void BuildTree() OVERRIDE { LayerTreeHostPerfTestJsonReader::BuildTree(); // Find a leaf layer. for (layer_to_invalidate_ = layer_tree_host()->root_layer(); layer_to_invalidate_->children().size(); layer_to_invalidate_ = layer_to_invalidate_->children()[0].get()) { } } virtual void DidCommitAndDrawFrame() OVERRIDE { if (TestEnded()) return; layer_to_invalidate_->SetOpacity( layer_to_invalidate_->opacity() != 1.f ? 1.f : 0.5f); } protected: Layer* layer_to_invalidate_; }; // Simulates a tab switcher scene with two stacks of 10 tabs each. Invalidate a // property on a leaf layer in the tree every commit. TEST_F(LayerTreeHostPerfTestLeafInvalidates, TenTenSingleThread) { SetTestName("10_10_single_thread_leaf_invalidates"); ReadTestFile("10_10_layer_tree"); RunTest(false, false, false); } TEST_F(LayerTreeHostPerfTestLeafInvalidates, TenTenThreadedImplSide) { SetTestName("10_10_threaded_impl_side_leaf_invalidates"); ReadTestFile("10_10_layer_tree"); RunTestWithImplSidePainting(); } // Simulates main-thread scrolling on each frame. class ScrollingLayerTreePerfTest : public LayerTreeHostPerfTestJsonReader { public: ScrollingLayerTreePerfTest() : LayerTreeHostPerfTestJsonReader() { } virtual void BuildTree() OVERRIDE { LayerTreeHostPerfTestJsonReader::BuildTree(); scrollable_ = layer_tree_host()->root_layer()->children()[1]; ASSERT_TRUE(scrollable_.get()); } virtual void Layout() OVERRIDE { if (TestEnded()) return; static const gfx::Vector2d delta = gfx::Vector2d(0, 10); scrollable_->SetScrollOffset(scrollable_->scroll_offset() + delta); } private: scoped_refptr scrollable_; }; TEST_F(ScrollingLayerTreePerfTest, LongScrollablePageSingleThread) { SetTestName("long_scrollable_page"); ReadTestFile("long_scrollable_page"); RunTest(false, false, false); } TEST_F(ScrollingLayerTreePerfTest, LongScrollablePageThreadedImplSide) { SetTestName("long_scrollable_page_threaded_impl_side"); ReadTestFile("long_scrollable_page"); RunTestWithImplSidePainting(); } static void EmptyReleaseCallback(uint32 sync_point, bool lost_resource) {} // Simulates main-thread scrolling on each frame. class BrowserCompositorInvalidateLayerTreePerfTest : public LayerTreeHostPerfTestJsonReader { public: BrowserCompositorInvalidateLayerTreePerfTest() : LayerTreeHostPerfTestJsonReader(), next_sync_point_(1), clean_up_started_(false) {} virtual void BuildTree() OVERRIDE { LayerTreeHostPerfTestJsonReader::BuildTree(); tab_contents_ = static_cast( layer_tree_host()->root_layer()->children()[0]-> children()[0]-> children()[0]-> children()[0].get()); ASSERT_TRUE(tab_contents_.get()); } virtual void WillCommit() OVERRIDE { if (CleanUpStarted()) return; gpu::Mailbox gpu_mailbox; std::ostringstream name_stream; name_stream << "name" << next_sync_point_; gpu_mailbox.SetName( reinterpret_cast(name_stream.str().c_str())); scoped_ptr callback = SingleReleaseCallback::Create( base::Bind(&EmptyReleaseCallback)); TextureMailbox mailbox(gpu_mailbox, GL_TEXTURE_2D, next_sync_point_); next_sync_point_++; tab_contents_->SetTextureMailbox(mailbox, callback.Pass()); } virtual void DidCommit() OVERRIDE { if (CleanUpStarted()) return; layer_tree_host()->SetNeedsCommit(); } virtual void CleanUpAndEndTest(LayerTreeHostImpl* host_impl) OVERRIDE { clean_up_started_ = true; MainThreadTaskRunner()->PostTask( FROM_HERE, base::Bind(&BrowserCompositorInvalidateLayerTreePerfTest:: CleanUpAndEndTestOnMainThread, base::Unretained(this))); } void CleanUpAndEndTestOnMainThread() { tab_contents_->SetTextureMailbox(TextureMailbox(), scoped_ptr()); EndTest(); } virtual bool CleanUpStarted() OVERRIDE { return clean_up_started_; } private: scoped_refptr tab_contents_; unsigned next_sync_point_; bool clean_up_started_; }; TEST_F(BrowserCompositorInvalidateLayerTreePerfTest, DenseBrowserUI) { measure_commit_cost_ = true; SetTestName("dense_layer_tree"); ReadTestFile("dense_layer_tree"); RunTestWithImplSidePainting(); } // Simulates a page with several large, transformed and animated layers. TEST_F(LayerTreeHostPerfTestJsonReader, HeavyPageThreadedImplSide) { begin_frame_driven_drawing_ = true; measure_commit_cost_ = true; SetTestName("heavy_page"); ReadTestFile("heavy_layer_tree"); RunTestWithImplSidePainting(); } } // namespace } // namespace cc