// Copyright 2011 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/auto_reset.h" #include "base/synchronization/lock.h" #include "cc/animation/timing_function.h" #include "cc/debug/frame_rate_counter.h" #include "cc/layers/content_layer.h" #include "cc/layers/content_layer_client.h" #include "cc/layers/io_surface_layer.h" #include "cc/layers/layer_impl.h" #include "cc/layers/picture_layer.h" #include "cc/layers/scrollbar_layer.h" #include "cc/output/begin_frame_args.h" #include "cc/output/copy_output_request.h" #include "cc/output/copy_output_result.h" #include "cc/output/output_surface.h" #include "cc/resources/prioritized_resource.h" #include "cc/resources/prioritized_resource_manager.h" #include "cc/resources/resource_update_queue.h" #include "cc/scheduler/frame_rate_controller.h" #include "cc/test/fake_content_layer.h" #include "cc/test/fake_content_layer_client.h" #include "cc/test/fake_layer_tree_host_client.h" #include "cc/test/fake_output_surface.h" #include "cc/test/fake_picture_layer.h" #include "cc/test/fake_picture_layer_impl.h" #include "cc/test/fake_proxy.h" #include "cc/test/fake_scrollbar_layer.h" #include "cc/test/geometry_test_utils.h" #include "cc/test/layer_tree_test.h" #include "cc/test/occlusion_tracker_test_common.h" #include "cc/trees/layer_tree_host_impl.h" #include "cc/trees/layer_tree_impl.h" #include "cc/trees/single_thread_proxy.h" #include "cc/trees/thread_proxy.h" #include "gpu/GLES2/gl2extchromium.h" #include "skia/ext/refptr.h" #include "testing/gmock/include/gmock/gmock.h" #include "third_party/khronos/GLES2/gl2.h" #include "third_party/khronos/GLES2/gl2ext.h" #include "third_party/skia/include/core/SkPicture.h" #include "ui/gfx/point_conversions.h" #include "ui/gfx/size_conversions.h" #include "ui/gfx/vector2d_conversions.h" using testing::_; using testing::AnyNumber; using testing::AtLeast; using testing::Mock; namespace cc { namespace { class LayerTreeHostTest : public LayerTreeTest { }; // Two setNeedsCommits in a row should lead to at least 1 commit and at least 1 // draw with frame 0. class LayerTreeHostTestSetNeedsCommit1 : public LayerTreeHostTest { public: LayerTreeHostTestSetNeedsCommit1() : num_commits_(0), num_draws_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_draws_++; if (!impl->active_tree()->source_frame_number()) EndTest(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_commits_++; } virtual void AfterTest() OVERRIDE { EXPECT_GE(1, num_commits_); EXPECT_GE(1, num_draws_); } private: int num_commits_; int num_draws_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestSetNeedsCommit1); // A SetNeedsCommit should lead to 1 commit. Issuing a second commit after that // first committed frame draws should lead to another commit. class LayerTreeHostTestSetNeedsCommit2 : public LayerTreeHostTest { public: LayerTreeHostTestSetNeedsCommit2() : num_commits_(0), num_draws_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { ++num_draws_; } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { ++num_commits_; switch (num_commits_) { case 1: PostSetNeedsCommitToMainThread(); break; case 2: EndTest(); break; default: NOTREACHED(); } } virtual void AfterTest() OVERRIDE { EXPECT_EQ(2, num_commits_); EXPECT_LE(1, num_draws_); } private: int num_commits_; int num_draws_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestSetNeedsCommit2); // Verify that we pass property values in PushPropertiesTo. class LayerTreeHostTestPushPropertiesTo : public LayerTreeHostTest { protected: virtual void SetupTree() OVERRIDE { scoped_refptr root = Layer::Create(); root->SetBounds(gfx::Size(10, 10)); layer_tree_host()->SetRootLayer(root); LayerTreeHostTest::SetupTree(); } enum Properties { STARTUP, BOUNDS, HIDE_LAYER_AND_SUBTREE, DRAWS_CONTENT, DONE, }; virtual void BeginTest() OVERRIDE { index_ = STARTUP; PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { VerifyAfterValues(impl->active_tree()->root_layer()); } virtual void DidCommitAndDrawFrame() OVERRIDE { SetBeforeValues(layer_tree_host()->root_layer()); VerifyBeforeValues(layer_tree_host()->root_layer()); ++index_; if (index_ == DONE) { EndTest(); return; } SetAfterValues(layer_tree_host()->root_layer()); } virtual void AfterTest() OVERRIDE {} void VerifyBeforeValues(Layer* layer) { EXPECT_EQ(gfx::Size(10, 10).ToString(), layer->bounds().ToString()); EXPECT_FALSE(layer->hide_layer_and_subtree()); EXPECT_FALSE(layer->DrawsContent()); } void SetBeforeValues(Layer* layer) { layer->SetBounds(gfx::Size(10, 10)); layer->SetHideLayerAndSubtree(false); layer->SetIsDrawable(false); } void VerifyAfterValues(LayerImpl* layer) { switch (static_cast(index_)) { case STARTUP: case DONE: break; case BOUNDS: EXPECT_EQ(gfx::Size(20, 20).ToString(), layer->bounds().ToString()); break; case HIDE_LAYER_AND_SUBTREE: EXPECT_TRUE(layer->hide_layer_and_subtree()); break; case DRAWS_CONTENT: EXPECT_TRUE(layer->DrawsContent()); break; } } void SetAfterValues(Layer* layer) { switch (static_cast(index_)) { case STARTUP: case DONE: break; case BOUNDS: layer->SetBounds(gfx::Size(20, 20)); break; case HIDE_LAYER_AND_SUBTREE: layer->SetHideLayerAndSubtree(true); break; case DRAWS_CONTENT: layer->SetIsDrawable(true); break; } } int index_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestPushPropertiesTo); // 1 setNeedsRedraw after the first commit has completed should lead to 1 // additional draw. class LayerTreeHostTestSetNeedsRedraw : public LayerTreeHostTest { public: LayerTreeHostTestSetNeedsRedraw() : num_commits_(0), num_draws_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { EXPECT_EQ(0, impl->active_tree()->source_frame_number()); if (!num_draws_) { // Redraw again to verify that the second redraw doesn't commit. PostSetNeedsRedrawToMainThread(); } else { EndTest(); } num_draws_++; } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { EXPECT_EQ(0, num_draws_); num_commits_++; } virtual void AfterTest() OVERRIDE { EXPECT_GE(2, num_draws_); EXPECT_EQ(1, num_commits_); } private: int num_commits_; int num_draws_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestSetNeedsRedraw); // After setNeedsRedrawRect(invalid_rect) the final damage_rect // must contain invalid_rect. class LayerTreeHostTestSetNeedsRedrawRect : public LayerTreeHostTest { public: LayerTreeHostTestSetNeedsRedrawRect() : num_draws_(0), bounds_(50, 50), invalid_rect_(10, 10, 20, 20), root_layer_(ContentLayer::Create(&client_)) { } virtual void BeginTest() OVERRIDE { root_layer_->SetIsDrawable(true); root_layer_->SetBounds(bounds_); layer_tree_host()->SetRootLayer(root_layer_); layer_tree_host()->SetViewportSize(bounds_); PostSetNeedsCommitToMainThread(); } virtual bool PrepareToDrawOnThread(LayerTreeHostImpl* host_impl, LayerTreeHostImpl::FrameData* frame_data, bool result) OVERRIDE { EXPECT_TRUE(result); gfx::RectF root_damage_rect; if (!frame_data->render_passes.empty()) root_damage_rect = frame_data->render_passes.back()->damage_rect; if (!num_draws_) { // If this is the first frame, expect full frame damage. EXPECT_RECT_EQ(root_damage_rect, gfx::Rect(bounds_)); } else { // Check that invalid_rect_ is indeed repainted. EXPECT_TRUE(root_damage_rect.Contains(invalid_rect_)); } return result; } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (!num_draws_) { PostSetNeedsRedrawRectToMainThread(invalid_rect_); } else { EndTest(); } num_draws_++; } virtual void AfterTest() OVERRIDE { EXPECT_EQ(2, num_draws_); } private: int num_draws_; const gfx::Size bounds_; const gfx::Rect invalid_rect_; FakeContentLayerClient client_; scoped_refptr root_layer_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestSetNeedsRedrawRect); class LayerTreeHostTestNoExtraCommitFromInvalidate : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->layer_transforms_should_scale_layer_contents = true; } virtual void SetupTree() OVERRIDE { root_layer_ = Layer::Create(); root_layer_->SetBounds(gfx::Size(10, 20)); scaled_layer_ = FakeContentLayer::Create(&client_); scaled_layer_->SetBounds(gfx::Size(1, 1)); root_layer_->AddChild(scaled_layer_); layer_tree_host()->SetRootLayer(root_layer_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { if (host_impl->active_tree()->source_frame_number() == 1) EndTest(); } virtual void DidCommit() OVERRIDE { switch (layer_tree_host()->commit_number()) { case 1: // Changing the device scale factor causes a commit. It also changes // the content bounds of |scaled_layer_|, which should not generate // a second commit as a result. layer_tree_host()->SetDeviceScaleFactor(4.f); break; default: // No extra commits. EXPECT_EQ(2, layer_tree_host()->commit_number()); } } virtual void AfterTest() OVERRIDE { EXPECT_EQ(gfx::Size(4, 4).ToString(), scaled_layer_->content_bounds().ToString()); } private: FakeContentLayerClient client_; scoped_refptr root_layer_; scoped_refptr scaled_layer_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestNoExtraCommitFromInvalidate); class LayerTreeHostTestNoExtraCommitFromScrollbarInvalidate : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->layer_transforms_should_scale_layer_contents = true; } virtual void SetupTree() OVERRIDE { root_layer_ = Layer::Create(); root_layer_->SetBounds(gfx::Size(10, 20)); bool paint_scrollbar = true; bool has_thumb = false; scrollbar_ = FakeScrollbarLayer::Create(paint_scrollbar, has_thumb, root_layer_->id()); scrollbar_->SetPosition(gfx::Point(0, 10)); scrollbar_->SetBounds(gfx::Size(10, 10)); root_layer_->AddChild(scrollbar_); layer_tree_host()->SetRootLayer(root_layer_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { if (host_impl->active_tree()->source_frame_number() == 1) EndTest(); } virtual void DidCommit() OVERRIDE { switch (layer_tree_host()->commit_number()) { case 1: // Changing the device scale factor causes a commit. It also changes // the content bounds of |scrollbar_|, which should not generate // a second commit as a result. layer_tree_host()->SetDeviceScaleFactor(4.f); break; default: // No extra commits. EXPECT_EQ(2, layer_tree_host()->commit_number()); } } virtual void AfterTest() OVERRIDE { EXPECT_EQ(gfx::Size(40, 40).ToString(), scrollbar_->content_bounds().ToString()); } private: FakeContentLayerClient client_; scoped_refptr root_layer_; scoped_refptr scrollbar_; }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostTestNoExtraCommitFromScrollbarInvalidate); class LayerTreeHostTestCompositeAndReadback : public LayerTreeHostTest { public: LayerTreeHostTestCompositeAndReadback() : num_commits_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidCommit() OVERRIDE { num_commits_++; if (num_commits_ == 1) { char pixels[4]; layer_tree_host()->CompositeAndReadback(&pixels, gfx::Rect(0, 0, 1, 1)); } else if (num_commits_ == 2) { // This is inside the readback. We should get another commit after it. } else if (num_commits_ == 3) { EndTest(); } else { NOTREACHED(); } } virtual void AfterTest() OVERRIDE {} private: int num_commits_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestCompositeAndReadback); class LayerTreeHostTestCompositeAndReadbackBeforePreviousCommitDraws : public LayerTreeHostTest { public: LayerTreeHostTestCompositeAndReadbackBeforePreviousCommitDraws() : num_commits_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidCommit() OVERRIDE { num_commits_++; if (num_commits_ == 1) { layer_tree_host()->SetNeedsCommit(); } else if (num_commits_ == 2) { char pixels[4]; layer_tree_host()->CompositeAndReadback(&pixels, gfx::Rect(0, 0, 1, 1)); } else if (num_commits_ == 3) { // This is inside the readback. We should get another commit after it. } else if (num_commits_ == 4) { EndTest(); } else { NOTREACHED(); } } virtual void AfterTest() OVERRIDE {} private: int num_commits_; }; MULTI_THREAD_TEST_F( LayerTreeHostTestCompositeAndReadbackBeforePreviousCommitDraws); // If the layerTreeHost says it can't draw, Then we should not try to draw. class LayerTreeHostTestCanDrawBlocksDrawing : public LayerTreeHostTest { public: LayerTreeHostTestCanDrawBlocksDrawing() : num_commits_(0), done_(false) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (done_) return; // Only the initial draw should bring us here. EXPECT_TRUE(impl->CanDraw()); EXPECT_EQ(0, impl->active_tree()->source_frame_number()); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (done_) return; if (num_commits_ >= 1) { // After the first commit, we should not be able to draw. EXPECT_FALSE(impl->CanDraw()); } } virtual void DidCommit() OVERRIDE { num_commits_++; if (num_commits_ == 1) { // Make the viewport empty so the host says it can't draw. layer_tree_host()->SetViewportSize(gfx::Size(0, 0)); } else if (num_commits_ == 2) { char pixels[4]; layer_tree_host()->CompositeAndReadback(&pixels, gfx::Rect(0, 0, 1, 1)); } else if (num_commits_ == 3) { // Let it draw so we go idle and end the test. layer_tree_host()->SetViewportSize(gfx::Size(1, 1)); done_ = true; EndTest(); } } virtual void AfterTest() OVERRIDE {} private: int num_commits_; bool done_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestCanDrawBlocksDrawing); // beginLayerWrite should prevent draws from executing until a commit occurs class LayerTreeHostTestWriteLayersRedraw : public LayerTreeHostTest { public: LayerTreeHostTestWriteLayersRedraw() : num_commits_(0), num_draws_(0) {} virtual void BeginTest() OVERRIDE { PostAcquireLayerTextures(); PostSetNeedsRedrawToMainThread(); // should be inhibited without blocking PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_draws_++; EXPECT_EQ(num_draws_, num_commits_); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_commits_++; EndTest(); } virtual void AfterTest() OVERRIDE { EXPECT_EQ(1, num_commits_); } private: int num_commits_; int num_draws_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestWriteLayersRedraw); // Verify that when resuming visibility, Requesting layer write permission // will not deadlock the main thread even though there are not yet any // scheduled redraws. This behavior is critical for reliably surviving tab // switching. There are no failure conditions to this test, it just passes // by not timing out. class LayerTreeHostTestWriteLayersAfterVisible : public LayerTreeHostTest { public: LayerTreeHostTestWriteLayersAfterVisible() : num_commits_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_commits_++; if (num_commits_ == 2) EndTest(); else if (num_commits_ < 2) { PostSetVisibleToMainThread(false); PostSetVisibleToMainThread(true); PostAcquireLayerTextures(); PostSetNeedsCommitToMainThread(); } } virtual void AfterTest() OVERRIDE {} private: int num_commits_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestWriteLayersAfterVisible); // A compositeAndReadback while invisible should force a normal commit without // assertion. class LayerTreeHostTestCompositeAndReadbackWhileInvisible : public LayerTreeHostTest { public: LayerTreeHostTestCompositeAndReadbackWhileInvisible() : num_commits_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidCommitAndDrawFrame() OVERRIDE { num_commits_++; if (num_commits_ == 1) { layer_tree_host()->SetVisible(false); layer_tree_host()->SetNeedsCommit(); layer_tree_host()->SetNeedsCommit(); char pixels[4]; layer_tree_host()->CompositeAndReadback(&pixels, gfx::Rect(0, 0, 1, 1)); } else { EndTest(); } } virtual void AfterTest() OVERRIDE {} private: int num_commits_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestCompositeAndReadbackWhileInvisible); class LayerTreeHostTestAbortFrameWhenInvisible : public LayerTreeHostTest { public: LayerTreeHostTestAbortFrameWhenInvisible() {} virtual void BeginTest() OVERRIDE { // Request a commit (from the main thread), Which will trigger the commit // flow from the impl side. layer_tree_host()->SetNeedsCommit(); // Then mark ourselves as not visible before processing any more messages // on the main thread. layer_tree_host()->SetVisible(false); // If we make it without kicking a frame, we pass! EndTestAfterDelay(1); } virtual void Layout() OVERRIDE { ASSERT_FALSE(true); EndTest(); } virtual void AfterTest() OVERRIDE {} private: }; MULTI_THREAD_TEST_F(LayerTreeHostTestAbortFrameWhenInvisible); // This test verifies that properties on the layer tree host are commited // to the impl side. class LayerTreeHostTestCommit : public LayerTreeHostTest { public: LayerTreeHostTestCommit() {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(20, 20)); layer_tree_host()->set_background_color(SK_ColorGRAY); PostSetNeedsCommitToMainThread(); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* impl) OVERRIDE { EXPECT_EQ(gfx::Size(20, 20), impl->device_viewport_size()); EXPECT_EQ(SK_ColorGRAY, impl->active_tree()->background_color()); EndTest(); } virtual void AfterTest() OVERRIDE {} }; MULTI_THREAD_TEST_F(LayerTreeHostTestCommit); // This test verifies that LayerTreeHostImpl's current frame time gets // updated in consecutive frames when it doesn't draw due to tree // activation failure. class LayerTreeHostTestFrameTimeUpdatesAfterActivationFails : public LayerTreeHostTest { public: LayerTreeHostTestFrameTimeUpdatesAfterActivationFails() : frame_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(20, 20)); layer_tree_host()->set_background_color(SK_ColorGRAY); PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (frame_ >= 1) { EXPECT_NE(first_frame_time_, impl->CurrentFrameTimeTicks()); EndTest(); return; } EXPECT_FALSE(impl->settings().impl_side_painting); EndTest(); } virtual bool CanActivatePendingTree(LayerTreeHostImpl* impl) OVERRIDE { if (frame_ >= 1) return true; return false; } virtual bool CanActivatePendingTreeIfNeeded(LayerTreeHostImpl* impl) OVERRIDE { frame_++; if (frame_ == 1) { first_frame_time_ = impl->CurrentFrameTimeTicks(); // Since base::TimeTicks::Now() uses a low-resolution clock on // Windows, we need to make sure that the clock has incremented past // first_frame_time_. while (first_frame_time_ == base::TimeTicks::Now()) {} return false; } return true; } virtual void AfterTest() OVERRIDE {} private: int frame_; base::TimeTicks first_frame_time_; }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostTestFrameTimeUpdatesAfterActivationFails); // This test verifies that LayerTreeHostImpl's current frame time gets // updated in consecutive frames when it draws in each frame. class LayerTreeHostTestFrameTimeUpdatesAfterDraw : public LayerTreeHostTest { public: LayerTreeHostTestFrameTimeUpdatesAfterDraw() : frame_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(20, 20)); layer_tree_host()->set_background_color(SK_ColorGRAY); PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { frame_++; if (frame_ == 1) { first_frame_time_ = impl->CurrentFrameTimeTicks(); impl->SetNeedsRedraw(); // Since base::TimeTicks::Now() uses a low-resolution clock on // Windows, we need to make sure that the clock has incremented past // first_frame_time_. while (first_frame_time_ == base::TimeTicks::Now()) {} return; } EXPECT_NE(first_frame_time_, impl->CurrentFrameTimeTicks()); EndTest(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { // Ensure there isn't a commit between the two draws, to ensure that a // commit isn't required for updating the current frame time. We can // only check for this in the multi-threaded case, since in the single- // threaded case there will always be a commit between consecutive draws. if (HasImplThread()) EXPECT_EQ(0, frame_); } virtual void AfterTest() OVERRIDE {} private: int frame_; base::TimeTicks first_frame_time_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestFrameTimeUpdatesAfterDraw); // Verifies that StartPageScaleAnimation events propagate correctly // from LayerTreeHost to LayerTreeHostImpl in the MT compositor. class LayerTreeHostTestStartPageScaleAnimation : public LayerTreeHostTest { public: LayerTreeHostTestStartPageScaleAnimation() {} virtual void SetupTree() OVERRIDE { LayerTreeHostTest::SetupTree(); scroll_layer_ = FakeContentLayer::Create(&client_); scroll_layer_->SetScrollable(true); scroll_layer_->SetScrollOffset(gfx::Vector2d()); layer_tree_host()->root_layer()->AddChild(scroll_layer_); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void ApplyScrollAndScale(gfx::Vector2d scroll_delta, float scale) OVERRIDE { gfx::Vector2d offset = scroll_layer_->scroll_offset(); scroll_layer_->SetScrollOffset(offset + scroll_delta); layer_tree_host()->SetPageScaleFactorAndLimits(scale, 0.5f, 2.f); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* impl) OVERRIDE { impl->ProcessScrollDeltas(); // We get one commit before the first draw, and the animation doesn't happen // until the second draw. switch (impl->active_tree()->source_frame_number()) { case 0: EXPECT_EQ(1.f, impl->active_tree()->page_scale_factor()); // We'll start an animation when we get back to the main thread. break; case 1: EXPECT_EQ(1.f, impl->active_tree()->page_scale_factor()); PostSetNeedsRedrawToMainThread(); break; case 2: EXPECT_EQ(1.25f, impl->active_tree()->page_scale_factor()); EndTest(); break; default: NOTREACHED(); } } virtual void DidCommitAndDrawFrame() OVERRIDE { switch (layer_tree_host()->commit_number()) { case 1: layer_tree_host()->SetPageScaleFactorAndLimits(1.f, 0.5f, 2.f); layer_tree_host()->StartPageScaleAnimation( gfx::Vector2d(), false, 1.25f, base::TimeDelta()); break; } } virtual void AfterTest() OVERRIDE {} FakeContentLayerClient client_; scoped_refptr scroll_layer_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestStartPageScaleAnimation); class LayerTreeHostTestSetVisible : public LayerTreeHostTest { public: LayerTreeHostTestSetVisible() : num_draws_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); PostSetVisibleToMainThread(false); // This is suppressed while we're invisible. PostSetNeedsRedrawToMainThread(); // Triggers the redraw. PostSetVisibleToMainThread(true); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { EXPECT_TRUE(impl->visible()); ++num_draws_; EndTest(); } virtual void AfterTest() OVERRIDE { EXPECT_EQ(1, num_draws_); } private: int num_draws_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestSetVisible); class TestOpacityChangeLayerDelegate : public ContentLayerClient { public: TestOpacityChangeLayerDelegate() : test_layer_(0) {} void SetTestLayer(Layer* test_layer) { test_layer_ = test_layer; } virtual void PaintContents(SkCanvas*, gfx::Rect, gfx::RectF*) OVERRIDE { // Set layer opacity to 0. if (test_layer_) test_layer_->SetOpacity(0.f); } virtual void DidChangeLayerCanUseLCDText() OVERRIDE {} private: Layer* test_layer_; }; class ContentLayerWithUpdateTracking : public ContentLayer { public: static scoped_refptr Create( ContentLayerClient* client) { return make_scoped_refptr(new ContentLayerWithUpdateTracking(client)); } int PaintContentsCount() { return paint_contents_count_; } void ResetPaintContentsCount() { paint_contents_count_ = 0; } virtual bool Update(ResourceUpdateQueue* queue, const OcclusionTracker* occlusion) OVERRIDE { bool updated = ContentLayer::Update(queue, occlusion); paint_contents_count_++; return updated; } private: explicit ContentLayerWithUpdateTracking(ContentLayerClient* client) : ContentLayer(client), paint_contents_count_(0) { SetAnchorPoint(gfx::PointF(0.f, 0.f)); SetBounds(gfx::Size(10, 10)); SetIsDrawable(true); } virtual ~ContentLayerWithUpdateTracking() {} int paint_contents_count_; }; // Layer opacity change during paint should not prevent compositor resources // from being updated during commit. class LayerTreeHostTestOpacityChange : public LayerTreeHostTest { public: LayerTreeHostTestOpacityChange() : test_opacity_change_delegate_(), update_check_layer_(ContentLayerWithUpdateTracking::Create( &test_opacity_change_delegate_)) { test_opacity_change_delegate_.SetTestLayer(update_check_layer_.get()); } virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(10, 10)); layer_tree_host()->root_layer()->AddChild(update_check_layer_); PostSetNeedsCommitToMainThread(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { EndTest(); } virtual void AfterTest() OVERRIDE { // Update() should have been called once. EXPECT_EQ(1, update_check_layer_->PaintContentsCount()); } private: TestOpacityChangeLayerDelegate test_opacity_change_delegate_; scoped_refptr update_check_layer_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestOpacityChange); class NoScaleContentLayer : public ContentLayer { public: static scoped_refptr Create(ContentLayerClient* client) { return make_scoped_refptr(new NoScaleContentLayer(client)); } virtual void CalculateContentsScale(float ideal_contents_scale, float device_scale_factor, float page_scale_factor, bool animating_transform_to_screen, float* contents_scale_x, float* contents_scale_y, gfx::Size* contentBounds) OVERRIDE { // Skip over the ContentLayer's method to the base Layer class. Layer::CalculateContentsScale(ideal_contents_scale, device_scale_factor, page_scale_factor, animating_transform_to_screen, contents_scale_x, contents_scale_y, contentBounds); } private: explicit NoScaleContentLayer(ContentLayerClient* client) : ContentLayer(client) {} virtual ~NoScaleContentLayer() {} }; class LayerTreeHostTestDeviceScaleFactorScalesViewportAndLayers : public LayerTreeHostTest { public: LayerTreeHostTestDeviceScaleFactorScalesViewportAndLayers() : root_layer_(NoScaleContentLayer::Create(&client_)), child_layer_(ContentLayer::Create(&client_)) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(60, 60)); layer_tree_host()->SetDeviceScaleFactor(1.5); EXPECT_EQ(gfx::Size(60, 60), layer_tree_host()->device_viewport_size()); root_layer_->AddChild(child_layer_); root_layer_->SetIsDrawable(true); root_layer_->SetBounds(gfx::Size(30, 30)); root_layer_->SetAnchorPoint(gfx::PointF(0.f, 0.f)); child_layer_->SetIsDrawable(true); child_layer_->SetPosition(gfx::Point(2, 2)); child_layer_->SetBounds(gfx::Size(10, 10)); child_layer_->SetAnchorPoint(gfx::PointF(0.f, 0.f)); layer_tree_host()->SetRootLayer(root_layer_); PostSetNeedsCommitToMainThread(); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* impl) OVERRIDE { // Should only do one commit. EXPECT_EQ(0, impl->active_tree()->source_frame_number()); // Device scale factor should come over to impl. EXPECT_NEAR(impl->device_scale_factor(), 1.5f, 0.00001f); // Both layers are on impl. ASSERT_EQ(1u, impl->active_tree()->root_layer()->children().size()); // Device viewport is scaled. EXPECT_EQ(gfx::Size(60, 60), impl->device_viewport_size()); LayerImpl* root = impl->active_tree()->root_layer(); LayerImpl* child = impl->active_tree()->root_layer()->children()[0]; // Positions remain in layout pixels. EXPECT_EQ(gfx::Point(0, 0), root->position()); EXPECT_EQ(gfx::Point(2, 2), child->position()); // Compute all the layer transforms for the frame. LayerTreeHostImpl::FrameData frame_data; impl->PrepareToDraw(&frame_data, gfx::Rect()); impl->DidDrawAllLayers(frame_data); const LayerImplList& render_surface_layer_list = *frame_data.render_surface_layer_list; // Both layers should be drawing into the root render surface. ASSERT_EQ(1u, render_surface_layer_list.size()); ASSERT_EQ(root->render_surface(), render_surface_layer_list[0]->render_surface()); ASSERT_EQ(2u, root->render_surface()->layer_list().size()); // The root render surface is the size of the viewport. EXPECT_RECT_EQ(gfx::Rect(0, 0, 60, 60), root->render_surface()->content_rect()); // The content bounds of the child should be scaled. gfx::Size child_bounds_scaled = gfx::ToCeiledSize(gfx::ScaleSize(child->bounds(), 1.5)); EXPECT_EQ(child_bounds_scaled, child->content_bounds()); gfx::Transform scale_transform; scale_transform.Scale(impl->device_scale_factor(), impl->device_scale_factor()); // The root layer is scaled by 2x. gfx::Transform root_screen_space_transform = scale_transform; gfx::Transform root_draw_transform = scale_transform; EXPECT_EQ(root_draw_transform, root->draw_transform()); EXPECT_EQ(root_screen_space_transform, root->screen_space_transform()); // The child is at position 2,2, which is transformed to 3,3 after the scale gfx::Transform child_screen_space_transform; child_screen_space_transform.Translate(3.f, 3.f); gfx::Transform child_draw_transform = child_screen_space_transform; EXPECT_TRANSFORMATION_MATRIX_EQ(child_draw_transform, child->draw_transform()); EXPECT_TRANSFORMATION_MATRIX_EQ(child_screen_space_transform, child->screen_space_transform()); EndTest(); } virtual void AfterTest() OVERRIDE {} private: FakeContentLayerClient client_; scoped_refptr root_layer_; scoped_refptr child_layer_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestDeviceScaleFactorScalesViewportAndLayers); // Verify atomicity of commits and reuse of textures. class LayerTreeHostTestAtomicCommit : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { // Make sure partial texture updates are turned off. settings->max_partial_texture_updates = 0; // Linear fade animator prevents scrollbars from drawing immediately. settings->use_linear_fade_scrollbar_animator = false; } virtual void SetupTree() OVERRIDE { layer_ = FakeContentLayer::Create(&client_); layer_->SetBounds(gfx::Size(10, 20)); bool paint_scrollbar = true; bool has_thumb = false; scrollbar_ = FakeScrollbarLayer::Create(paint_scrollbar, has_thumb, layer_->id()); scrollbar_->SetPosition(gfx::Point(0, 10)); scrollbar_->SetBounds(gfx::Size(10, 10)); layer_->AddChild(scrollbar_); layer_tree_host()->SetRootLayer(layer_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { drew_frame_ = -1; PostSetNeedsCommitToMainThread(); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* impl) OVERRIDE { ASSERT_EQ(0u, layer_tree_host()->settings().max_partial_texture_updates); TestWebGraphicsContext3D* context = static_cast( impl->output_surface()->context3d()); switch (impl->active_tree()->source_frame_number()) { case 0: // Number of textures should be one for each layer ASSERT_EQ(2u, context->NumTextures()); // Number of textures used for commit should be one for each layer. EXPECT_EQ(2u, context->NumUsedTextures()); // Verify that used texture is correct. EXPECT_TRUE(context->UsedTexture(context->TextureAt(0))); EXPECT_TRUE(context->UsedTexture(context->TextureAt(1))); context->ResetUsedTextures(); PostSetNeedsCommitToMainThread(); break; case 1: // Number of textures should be doubled as the first textures // are used by impl thread and cannot by used for update. ASSERT_EQ(4u, context->NumTextures()); // Number of textures used for commit should still be // one for each layer. EXPECT_EQ(2u, context->NumUsedTextures()); // First textures should not have been used. EXPECT_FALSE(context->UsedTexture(context->TextureAt(0))); EXPECT_FALSE(context->UsedTexture(context->TextureAt(1))); // New textures should have been used. EXPECT_TRUE(context->UsedTexture(context->TextureAt(2))); EXPECT_TRUE(context->UsedTexture(context->TextureAt(3))); context->ResetUsedTextures(); PostSetNeedsCommitToMainThread(); break; case 2: EndTest(); break; default: NOTREACHED(); break; } } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { TestWebGraphicsContext3D* context = static_cast( impl->output_surface()->context3d()); if (drew_frame_ == impl->active_tree()->source_frame_number()) { EXPECT_EQ(0u, context->NumUsedTextures()) << "For frame " << drew_frame_; return; } drew_frame_ = impl->active_tree()->source_frame_number(); // We draw/ship one texture each frame for each layer. EXPECT_EQ(2u, context->NumUsedTextures()); context->ResetUsedTextures(); } virtual void Layout() OVERRIDE { layer_->SetNeedsDisplay(); scrollbar_->SetNeedsDisplay(); } virtual void AfterTest() OVERRIDE {} private: FakeContentLayerClient client_; scoped_refptr layer_; scoped_refptr scrollbar_; int drew_frame_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestAtomicCommit); static void SetLayerPropertiesForTesting(Layer* layer, Layer* parent, const gfx::Transform& transform, gfx::PointF anchor, gfx::PointF position, gfx::Size bounds, bool opaque) { layer->RemoveAllChildren(); if (parent) parent->AddChild(layer); layer->SetTransform(transform); layer->SetAnchorPoint(anchor); layer->SetPosition(position); layer->SetBounds(bounds); layer->SetContentsOpaque(opaque); } class LayerTreeHostTestAtomicCommitWithPartialUpdate : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { // Allow one partial texture update. settings->max_partial_texture_updates = 1; // Linear fade animator prevents scrollbars from drawing immediately. settings->use_linear_fade_scrollbar_animator = false; // No partial updates when impl side painting is enabled. settings->impl_side_painting = false; } virtual void SetupTree() OVERRIDE { parent_ = FakeContentLayer::Create(&client_); parent_->SetBounds(gfx::Size(10, 20)); child_ = FakeContentLayer::Create(&client_); child_->SetPosition(gfx::Point(0, 10)); child_->SetBounds(gfx::Size(3, 10)); bool paint_scrollbar = true; bool has_thumb = false; scrollbar_with_paints_ = FakeScrollbarLayer::Create(paint_scrollbar, has_thumb, parent_->id()); scrollbar_with_paints_->SetPosition(gfx::Point(3, 10)); scrollbar_with_paints_->SetBounds(gfx::Size(3, 10)); paint_scrollbar = false; scrollbar_without_paints_ = FakeScrollbarLayer::Create(paint_scrollbar, has_thumb, parent_->id()); scrollbar_without_paints_->SetPosition(gfx::Point(6, 10)); scrollbar_without_paints_->SetBounds(gfx::Size(3, 10)); parent_->AddChild(child_); parent_->AddChild(scrollbar_with_paints_); parent_->AddChild(scrollbar_without_paints_); layer_tree_host()->SetRootLayer(parent_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidCommitAndDrawFrame() OVERRIDE { switch (layer_tree_host()->commit_number()) { case 1: parent_->SetNeedsDisplay(); child_->SetNeedsDisplay(); scrollbar_with_paints_->SetNeedsDisplay(); scrollbar_without_paints_->SetNeedsDisplay(); break; case 2: // Damage part of layers. parent_->SetNeedsDisplayRect(gfx::RectF(0.f, 0.f, 5.f, 5.f)); child_->SetNeedsDisplayRect(gfx::RectF(0.f, 0.f, 5.f, 5.f)); scrollbar_with_paints_->SetNeedsDisplayRect( gfx::RectF(0.f, 0.f, 5.f, 5.f)); scrollbar_without_paints_->SetNeedsDisplayRect( gfx::RectF(0.f, 0.f, 5.f, 5.f)); break; case 3: child_->SetNeedsDisplay(); scrollbar_with_paints_->SetNeedsDisplay(); scrollbar_without_paints_->SetNeedsDisplay(); layer_tree_host()->SetViewportSize(gfx::Size(10, 10)); break; case 4: layer_tree_host()->SetViewportSize(gfx::Size(10, 20)); break; case 5: EndTest(); break; default: NOTREACHED() << layer_tree_host()->commit_number(); break; } } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { ASSERT_EQ(1u, layer_tree_host()->settings().max_partial_texture_updates); TestWebGraphicsContext3D* context = static_cast( impl->output_surface()->context3d()); switch (impl->active_tree()->source_frame_number()) { case 0: // Number of textures should be one for each layer. ASSERT_EQ(4u, context->NumTextures()); // Number of textures used for commit should be one for each layer. EXPECT_EQ(4u, context->NumUsedTextures()); // Verify that used textures are correct. EXPECT_TRUE(context->UsedTexture(context->TextureAt(0))); EXPECT_TRUE(context->UsedTexture(context->TextureAt(1))); EXPECT_TRUE(context->UsedTexture(context->TextureAt(2))); EXPECT_TRUE(context->UsedTexture(context->TextureAt(3))); context->ResetUsedTextures(); break; case 1: // Number of textures should be two for each content layer and one // for each scrollbar, since they always do a partial update. ASSERT_EQ(6u, context->NumTextures()); // Number of textures used for commit should be one for each content // layer, and one for the scrollbar layer that paints. EXPECT_EQ(3u, context->NumUsedTextures()); // First content textures should not have been used. EXPECT_FALSE(context->UsedTexture(context->TextureAt(0))); EXPECT_FALSE(context->UsedTexture(context->TextureAt(1))); // The non-painting scrollbar's texture wasn't updated. EXPECT_FALSE(context->UsedTexture(context->TextureAt(2))); // The painting scrollbar's partial update texture was used. EXPECT_TRUE(context->UsedTexture(context->TextureAt(3))); // New textures should have been used. EXPECT_TRUE(context->UsedTexture(context->TextureAt(4))); EXPECT_TRUE(context->UsedTexture(context->TextureAt(5))); context->ResetUsedTextures(); break; case 2: // Number of textures should be two for each content layer and one // for each scrollbar, since they always do a partial update. ASSERT_EQ(6u, context->NumTextures()); // Number of textures used for commit should be one for each content // layer, and one for the scrollbar layer that paints. EXPECT_EQ(3u, context->NumUsedTextures()); // The non-painting scrollbar's texture wasn't updated. EXPECT_FALSE(context->UsedTexture(context->TextureAt(2))); // The painting scrollbar does a partial update. EXPECT_TRUE(context->UsedTexture(context->TextureAt(3))); // One content layer does a partial update also. EXPECT_TRUE(context->UsedTexture(context->TextureAt(4))); EXPECT_FALSE(context->UsedTexture(context->TextureAt(5))); context->ResetUsedTextures(); break; case 3: // No textures should be used for commit. EXPECT_EQ(0u, context->NumUsedTextures()); context->ResetUsedTextures(); break; case 4: // Number of textures used for commit should be two. One for the // content layer, and one for the painting scrollbar. The // non-painting scrollbar doesn't update its texture. EXPECT_EQ(2u, context->NumUsedTextures()); context->ResetUsedTextures(); break; default: NOTREACHED(); break; } } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { EXPECT_LT(impl->active_tree()->source_frame_number(), 5); TestWebGraphicsContext3D* context = static_cast( impl->output_surface()->context3d()); // Number of textures used for drawing should one per layer except for // frame 3 where the viewport only contains one layer. if (impl->active_tree()->source_frame_number() == 3) { EXPECT_EQ(1u, context->NumUsedTextures()); } else { EXPECT_EQ(4u, context->NumUsedTextures()) << "For frame " << impl->active_tree()->source_frame_number(); } context->ResetUsedTextures(); } virtual void AfterTest() OVERRIDE {} private: FakeContentLayerClient client_; scoped_refptr parent_; scoped_refptr child_; scoped_refptr scrollbar_with_paints_; scoped_refptr scrollbar_without_paints_; }; // Partial updates are not possible with a delegating renderer. SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestAtomicCommitWithPartialUpdate); class LayerTreeHostTestFinishAllRendering : public LayerTreeHostTest { public: LayerTreeHostTestFinishAllRendering() : once_(false), draw_count_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetNeedsRedraw(); PostSetNeedsCommitToMainThread(); } virtual void DidCommitAndDrawFrame() OVERRIDE { if (once_) return; once_ = true; layer_tree_host()->SetNeedsRedraw(); layer_tree_host()->AcquireLayerTextures(); { base::AutoLock lock(lock_); draw_count_ = 0; } layer_tree_host()->FinishAllRendering(); { base::AutoLock lock(lock_); EXPECT_EQ(0, draw_count_); } EndTest(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { base::AutoLock lock(lock_); ++draw_count_; } virtual void AfterTest() OVERRIDE {} private: bool once_; base::Lock lock_; int draw_count_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestFinishAllRendering); class LayerTreeHostTestCompositeAndReadbackCleanup : public LayerTreeHostTest { public: virtual void BeginTest() OVERRIDE { Layer* root_layer = layer_tree_host()->root_layer(); char pixels[4]; layer_tree_host()->CompositeAndReadback(static_cast(&pixels), gfx::Rect(0, 0, 1, 1)); EXPECT_FALSE(root_layer->render_surface()); EndTest(); } virtual void AfterTest() OVERRIDE {} }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestCompositeAndReadbackCleanup); class LayerTreeHostTestSurfaceNotAllocatedForLayersOutsideMemoryLimit : public LayerTreeHostTest { protected: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->cache_render_pass_contents = true; } virtual void SetupTree() OVERRIDE { root_layer_ = FakeContentLayer::Create(&client_); root_layer_->SetBounds(gfx::Size(100, 100)); surface_layer1_ = FakeContentLayer::Create(&client_); surface_layer1_->SetBounds(gfx::Size(100, 100)); surface_layer1_->SetForceRenderSurface(true); surface_layer1_->SetOpacity(0.5f); root_layer_->AddChild(surface_layer1_); surface_layer2_ = FakeContentLayer::Create(&client_); surface_layer2_->SetBounds(gfx::Size(100, 100)); surface_layer2_->SetForceRenderSurface(true); surface_layer2_->SetOpacity(0.5f); surface_layer1_->AddChild(surface_layer2_); replica_layer1_ = FakeContentLayer::Create(&client_); surface_layer1_->SetReplicaLayer(replica_layer1_.get()); replica_layer2_ = FakeContentLayer::Create(&client_); surface_layer2_->SetReplicaLayer(replica_layer2_.get()); layer_tree_host()->SetRootLayer(root_layer_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { Renderer* renderer = host_impl->renderer(); RenderPass::Id surface1_render_pass_id = host_impl->active_tree() ->root_layer()->children()[0]->render_surface()->RenderPassId(); RenderPass::Id surface2_render_pass_id = host_impl->active_tree()->root_layer()->children()[0]->children()[0] ->render_surface()->RenderPassId(); switch (host_impl->active_tree()->source_frame_number()) { case 0: EXPECT_TRUE(renderer->HaveCachedResourcesForRenderPassId( surface1_render_pass_id)); EXPECT_TRUE(renderer->HaveCachedResourcesForRenderPassId( surface2_render_pass_id)); // Reduce the memory limit to only fit the root layer and one render // surface. This prevents any contents drawing into surfaces // from being allocated. host_impl->SetMemoryPolicy( ManagedMemoryPolicy(100 * 100 * 4 * 2), true); break; case 1: EXPECT_FALSE(renderer->HaveCachedResourcesForRenderPassId( surface1_render_pass_id)); EXPECT_FALSE(renderer->HaveCachedResourcesForRenderPassId( surface2_render_pass_id)); EndTest(); break; } } virtual void DidCommitAndDrawFrame() OVERRIDE { if (layer_tree_host()->commit_number() < 2) root_layer_->SetNeedsDisplay(); } virtual void AfterTest() OVERRIDE { EXPECT_LE(2u, root_layer_->update_count()); EXPECT_LE(2u, surface_layer1_->update_count()); EXPECT_LE(2u, surface_layer2_->update_count()); } FakeContentLayerClient client_; scoped_refptr root_layer_; scoped_refptr surface_layer1_; scoped_refptr replica_layer1_; scoped_refptr surface_layer2_; scoped_refptr replica_layer2_; }; // Surfaces don't exist with a delegated renderer. SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestSurfaceNotAllocatedForLayersOutsideMemoryLimit); class EvictionTestLayer : public Layer { public: static scoped_refptr Create() { return make_scoped_refptr(new EvictionTestLayer()); } virtual bool Update(ResourceUpdateQueue*, const OcclusionTracker*) OVERRIDE; virtual bool DrawsContent() const OVERRIDE { return true; } virtual scoped_ptr CreateLayerImpl(LayerTreeImpl* tree_impl) OVERRIDE; virtual void PushPropertiesTo(LayerImpl* impl) OVERRIDE; virtual void SetTexturePriorities(const PriorityCalculator&) OVERRIDE; bool HaveBackingTexture() const { return texture_.get() ? texture_->have_backing_texture() : false; } private: EvictionTestLayer() : Layer() {} virtual ~EvictionTestLayer() {} void CreateTextureIfNeeded() { if (texture_) return; texture_ = PrioritizedResource::Create( layer_tree_host()->contents_texture_manager()); texture_->SetDimensions(gfx::Size(10, 10), GL_RGBA); bitmap_.setConfig(SkBitmap::kARGB_8888_Config, 10, 10); } scoped_ptr texture_; SkBitmap bitmap_; }; class EvictionTestLayerImpl : public LayerImpl { public: static scoped_ptr Create(LayerTreeImpl* tree_impl, int id) { return make_scoped_ptr(new EvictionTestLayerImpl(tree_impl, id)); } virtual ~EvictionTestLayerImpl() {} virtual void AppendQuads(QuadSink* quad_sink, AppendQuadsData* append_quads_data) OVERRIDE { ASSERT_TRUE(has_texture_); ASSERT_NE(0u, layer_tree_impl()->resource_provider()->num_resources()); } void SetHasTexture(bool has_texture) { has_texture_ = has_texture; } private: EvictionTestLayerImpl(LayerTreeImpl* tree_impl, int id) : LayerImpl(tree_impl, id), has_texture_(false) {} bool has_texture_; }; void EvictionTestLayer::SetTexturePriorities(const PriorityCalculator&) { CreateTextureIfNeeded(); if (!texture_) return; texture_->set_request_priority(PriorityCalculator::UIPriority(true)); } bool EvictionTestLayer::Update(ResourceUpdateQueue* queue, const OcclusionTracker*) { CreateTextureIfNeeded(); if (!texture_) return false; gfx::Rect full_rect(0, 0, 10, 10); ResourceUpdate upload = ResourceUpdate::Create( texture_.get(), &bitmap_, full_rect, full_rect, gfx::Vector2d()); queue->AppendFullUpload(upload); return true; } scoped_ptr EvictionTestLayer::CreateLayerImpl( LayerTreeImpl* tree_impl) { return EvictionTestLayerImpl::Create(tree_impl, layer_id_) .PassAs(); } void EvictionTestLayer::PushPropertiesTo(LayerImpl* layer_impl) { Layer::PushPropertiesTo(layer_impl); EvictionTestLayerImpl* test_layer_impl = static_cast(layer_impl); test_layer_impl->SetHasTexture(texture_->have_backing_texture()); } class LayerTreeHostTestEvictTextures : public LayerTreeHostTest { public: LayerTreeHostTestEvictTextures() : layer_(EvictionTestLayer::Create()), impl_for_evict_textures_(0), num_commits_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetRootLayer(layer_); layer_tree_host()->SetViewportSize(gfx::Size(10, 20)); gfx::Transform identity_matrix; SetLayerPropertiesForTesting(layer_.get(), 0, identity_matrix, gfx::PointF(0.f, 0.f), gfx::PointF(0.f, 0.f), gfx::Size(10, 20), true); PostSetNeedsCommitToMainThread(); } void PostEvictTextures() { DCHECK(HasImplThread()); ImplThreadTaskRunner()->PostTask( FROM_HERE, base::Bind(&LayerTreeHostTestEvictTextures::EvictTexturesOnImplThread, base::Unretained(this))); } void EvictTexturesOnImplThread() { DCHECK(impl_for_evict_textures_); impl_for_evict_textures_->EvictTexturesForTesting(); } // Commit 1: Just commit and draw normally, then post an eviction at the end // that will trigger a commit. // Commit 2: Triggered by the eviction, let it go through and then set // needsCommit. // Commit 3: Triggered by the setNeedsCommit. In Layout(), post an eviction // task, which will be handled before the commit. Don't set needsCommit, it // should have been posted. A frame should not be drawn (note, // didCommitAndDrawFrame may be called anyway). // Commit 4: Triggered by the eviction, let it go through and then set // needsCommit. // Commit 5: Triggered by the setNeedsCommit, post an eviction task in // Layout(), a frame should not be drawn but a commit will be posted. // Commit 6: Triggered by the eviction, post an eviction task in // Layout(), which will be a noop, letting the commit (which recreates the // textures) go through and draw a frame, then end the test. // // Commits 1+2 test the eviction recovery path where eviction happens outside // of the beginFrame/commit pair. // Commits 3+4 test the eviction recovery path where eviction happens inside // the beginFrame/commit pair. // Commits 5+6 test the path where an eviction happens during the eviction // recovery path. virtual void DidCommit() OVERRIDE { switch (num_commits_) { case 1: EXPECT_TRUE(layer_->HaveBackingTexture()); PostEvictTextures(); break; case 2: EXPECT_TRUE(layer_->HaveBackingTexture()); layer_tree_host()->SetNeedsCommit(); break; case 3: break; case 4: EXPECT_TRUE(layer_->HaveBackingTexture()); layer_tree_host()->SetNeedsCommit(); break; case 5: break; case 6: EXPECT_TRUE(layer_->HaveBackingTexture()); EndTest(); break; default: NOTREACHED(); break; } } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { impl_for_evict_textures_ = impl; } virtual void Layout() OVERRIDE { ++num_commits_; switch (num_commits_) { case 1: case 2: break; case 3: PostEvictTextures(); break; case 4: // We couldn't check in didCommitAndDrawFrame on commit 3, // so check here. EXPECT_FALSE(layer_->HaveBackingTexture()); break; case 5: PostEvictTextures(); break; case 6: // We couldn't check in didCommitAndDrawFrame on commit 5, // so check here. EXPECT_FALSE(layer_->HaveBackingTexture()); PostEvictTextures(); break; default: NOTREACHED(); break; } } virtual void AfterTest() OVERRIDE {} private: FakeContentLayerClient client_; scoped_refptr layer_; LayerTreeHostImpl* impl_for_evict_textures_; int num_commits_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestEvictTextures); class LayerTreeHostTestContinuousCommit : public LayerTreeHostTest { public: LayerTreeHostTestContinuousCommit() : num_commit_complete_(0), num_draw_layers_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(10, 10)); layer_tree_host()->root_layer()->SetBounds(gfx::Size(10, 10)); PostSetNeedsCommitToMainThread(); } virtual void DidCommit() OVERRIDE { if (num_draw_layers_ == 2) return; layer_tree_host()->SetNeedsCommit(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (num_draw_layers_ == 1) num_commit_complete_++; } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_draw_layers_++; if (num_draw_layers_ == 2) EndTest(); } virtual void AfterTest() OVERRIDE { // Check that we didn't commit twice between first and second draw. EXPECT_EQ(1, num_commit_complete_); } private: int num_commit_complete_; int num_draw_layers_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestContinuousCommit); class LayerTreeHostTestContinuousInvalidate : public LayerTreeHostTest { public: LayerTreeHostTestContinuousInvalidate() : num_commit_complete_(0), num_draw_layers_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(10, 10)); layer_tree_host()->root_layer()->SetBounds(gfx::Size(10, 10)); content_layer_ = ContentLayer::Create(&client_); content_layer_->SetBounds(gfx::Size(10, 10)); content_layer_->SetPosition(gfx::PointF(0.f, 0.f)); content_layer_->SetAnchorPoint(gfx::PointF(0.f, 0.f)); content_layer_->SetIsDrawable(true); layer_tree_host()->root_layer()->AddChild(content_layer_); PostSetNeedsCommitToMainThread(); } virtual void DidCommitAndDrawFrame() OVERRIDE { if (num_draw_layers_ == 2) return; content_layer_->SetNeedsDisplay(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (num_draw_layers_ == 1) num_commit_complete_++; } virtual void DrawLayersOnThread(LayerTreeHostImpl* impl) OVERRIDE { num_draw_layers_++; if (num_draw_layers_ == 2) EndTest(); } virtual void AfterTest() OVERRIDE { // Check that we didn't commit twice between first and second draw. EXPECT_EQ(1, num_commit_complete_); } private: FakeContentLayerClient client_; scoped_refptr content_layer_; int num_commit_complete_; int num_draw_layers_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestContinuousInvalidate); class LayerTreeHostTestDeferCommits : public LayerTreeHostTest { public: LayerTreeHostTestDeferCommits() : num_commits_deferred_(0), num_complete_commits_(0) {} virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidDeferCommit() OVERRIDE { num_commits_deferred_++; layer_tree_host()->SetDeferCommits(false); } virtual void DidCommit() OVERRIDE { num_complete_commits_++; switch (num_complete_commits_) { case 1: EXPECT_EQ(0, num_commits_deferred_); layer_tree_host()->SetDeferCommits(true); PostSetNeedsCommitToMainThread(); break; case 2: EndTest(); break; default: NOTREACHED(); break; } } virtual void AfterTest() OVERRIDE { EXPECT_EQ(1, num_commits_deferred_); EXPECT_EQ(2, num_complete_commits_); } private: int num_commits_deferred_; int num_complete_commits_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestDeferCommits); class LayerTreeHostWithProxy : public LayerTreeHost { public: LayerTreeHostWithProxy(FakeLayerTreeHostClient* client, const LayerTreeSettings& settings, scoped_ptr proxy) : LayerTreeHost(client, settings) { proxy->SetLayerTreeHost(this); EXPECT_TRUE(InitializeForTesting(proxy.PassAs())); } }; TEST(LayerTreeHostTest, LimitPartialUpdates) { // When partial updates are not allowed, max updates should be 0. { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DIRECT_3D); scoped_ptr proxy(new FakeProxy); proxy->GetRendererCapabilities().allow_partial_texture_updates = false; proxy->SetMaxPartialTextureUpdates(5); LayerTreeSettings settings; settings.max_partial_texture_updates = 10; LayerTreeHostWithProxy host(&client, settings, proxy.Pass()); EXPECT_TRUE(host.InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(0u, host.settings().max_partial_texture_updates); } // When partial updates are allowed, // max updates should be limited by the proxy. { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DIRECT_3D); scoped_ptr proxy(new FakeProxy); proxy->GetRendererCapabilities().allow_partial_texture_updates = true; proxy->SetMaxPartialTextureUpdates(5); LayerTreeSettings settings; settings.max_partial_texture_updates = 10; LayerTreeHostWithProxy host(&client, settings, proxy.Pass()); EXPECT_TRUE(host.InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(5u, host.settings().max_partial_texture_updates); } // When partial updates are allowed, // max updates should also be limited by the settings. { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DIRECT_3D); scoped_ptr proxy(new FakeProxy); proxy->GetRendererCapabilities().allow_partial_texture_updates = true; proxy->SetMaxPartialTextureUpdates(20); LayerTreeSettings settings; settings.max_partial_texture_updates = 10; LayerTreeHostWithProxy host(&client, settings, proxy.Pass()); EXPECT_TRUE(host.InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(10u, host.settings().max_partial_texture_updates); } } TEST(LayerTreeHostTest, PartialUpdatesWithGLRenderer) { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DIRECT_3D); LayerTreeSettings settings; settings.max_partial_texture_updates = 4; scoped_ptr host = LayerTreeHost::Create(&client, settings, NULL); EXPECT_TRUE(host->InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(4u, host->settings().max_partial_texture_updates); } TEST(LayerTreeHostTest, PartialUpdatesWithSoftwareRenderer) { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DIRECT_SOFTWARE); LayerTreeSettings settings; settings.max_partial_texture_updates = 4; scoped_ptr host = LayerTreeHost::Create(&client, settings, NULL); EXPECT_TRUE(host->InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(4u, host->settings().max_partial_texture_updates); } TEST(LayerTreeHostTest, PartialUpdatesWithDelegatingRendererAndGLContent) { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DELEGATED_3D); LayerTreeSettings settings; settings.max_partial_texture_updates = 4; scoped_ptr host = LayerTreeHost::Create(&client, settings, NULL); EXPECT_TRUE(host->InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(0u, host->settings().max_partial_texture_updates); } TEST(LayerTreeHostTest, PartialUpdatesWithDelegatingRendererAndSoftwareContent) { FakeLayerTreeHostClient client(FakeLayerTreeHostClient::DELEGATED_SOFTWARE); LayerTreeSettings settings; settings.max_partial_texture_updates = 4; scoped_ptr host = LayerTreeHost::Create(&client, settings, NULL); EXPECT_TRUE(host->InitializeOutputSurfaceIfNeeded()); EXPECT_EQ(0u, host->settings().max_partial_texture_updates); } class LayerTreeHostTestShutdownWithOnlySomeResourcesEvicted : public LayerTreeHostTest { public: LayerTreeHostTestShutdownWithOnlySomeResourcesEvicted() : root_layer_(FakeContentLayer::Create(&client_)), child_layer1_(FakeContentLayer::Create(&client_)), child_layer2_(FakeContentLayer::Create(&client_)), num_commits_(0) {} virtual void BeginTest() OVERRIDE { layer_tree_host()->SetViewportSize(gfx::Size(100, 100)); root_layer_->SetBounds(gfx::Size(100, 100)); child_layer1_->SetBounds(gfx::Size(100, 100)); child_layer2_->SetBounds(gfx::Size(100, 100)); root_layer_->AddChild(child_layer1_); root_layer_->AddChild(child_layer2_); layer_tree_host()->SetRootLayer(root_layer_); PostSetNeedsCommitToMainThread(); } virtual void DidSetVisibleOnImplTree(LayerTreeHostImpl* host_impl, bool visible) OVERRIDE { // One backing should remain unevicted. EXPECT_EQ(100u * 100u * 4u * 1u, layer_tree_host()->contents_texture_manager()->MemoryUseBytes()); // Make sure that contents textures are marked as having been // purged. EXPECT_TRUE(host_impl->active_tree()->ContentsTexturesPurged()); // End the test in this state. EndTest(); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { ++num_commits_; switch (num_commits_) { case 1: // All three backings should have memory. EXPECT_EQ( 100u * 100u * 4u * 3u, layer_tree_host()->contents_texture_manager()->MemoryUseBytes()); // Set a new policy that will kick out 1 of the 3 resources. // Because a resource was evicted, a commit will be kicked off. host_impl->SetMemoryPolicy( ManagedMemoryPolicy(100 * 100 * 4 * 2, ManagedMemoryPolicy::CUTOFF_ALLOW_EVERYTHING, 100 * 100 * 4 * 1, ManagedMemoryPolicy::CUTOFF_ALLOW_EVERYTHING), true); break; case 2: // Only two backings should have memory. EXPECT_EQ( 100u * 100u * 4u * 2u, layer_tree_host()->contents_texture_manager()->MemoryUseBytes()); // Become backgrounded, which will cause 1 more resource to be // evicted. PostSetVisibleToMainThread(false); break; default: // No further commits should happen because this is not visible // anymore. NOTREACHED(); break; } } virtual void AfterTest() OVERRIDE {} private: FakeContentLayerClient client_; scoped_refptr root_layer_; scoped_refptr child_layer1_; scoped_refptr child_layer2_; int num_commits_; }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostTestShutdownWithOnlySomeResourcesEvicted); class LayerTreeHostTestLCDNotification : public LayerTreeHostTest { public: class NotificationClient : public ContentLayerClient { public: NotificationClient() : layer_(0), paint_count_(0), lcd_notification_count_(0) {} void set_layer(Layer* layer) { layer_ = layer; } int paint_count() const { return paint_count_; } int lcd_notification_count() const { return lcd_notification_count_; } virtual void PaintContents(SkCanvas* canvas, gfx::Rect clip, gfx::RectF* opaque) OVERRIDE { ++paint_count_; } virtual void DidChangeLayerCanUseLCDText() OVERRIDE { ++lcd_notification_count_; layer_->SetNeedsDisplay(); } private: Layer* layer_; int paint_count_; int lcd_notification_count_; }; virtual void SetupTree() OVERRIDE { scoped_refptr root_layer = ContentLayer::Create(&client_); root_layer->SetIsDrawable(true); root_layer->SetBounds(gfx::Size(1, 1)); layer_tree_host()->SetRootLayer(root_layer); client_.set_layer(root_layer.get()); // The expecations are based on the assumption that the default // LCD settings are: EXPECT_TRUE(layer_tree_host()->settings().can_use_lcd_text); EXPECT_FALSE(root_layer->can_use_lcd_text()); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void AfterTest() OVERRIDE {} virtual void DidCommit() OVERRIDE { switch (layer_tree_host()->commit_number()) { case 1: // The first update consists one LCD notification and one paint. EXPECT_EQ(1, client_.lcd_notification_count()); EXPECT_EQ(1, client_.paint_count()); // LCD text must have been enabled on the layer. EXPECT_TRUE(layer_tree_host()->root_layer()->can_use_lcd_text()); PostSetNeedsCommitToMainThread(); break; case 2: // Since nothing changed on layer, there should be no notification // or paint on the second update. EXPECT_EQ(1, client_.lcd_notification_count()); EXPECT_EQ(1, client_.paint_count()); // LCD text must not have changed. EXPECT_TRUE(layer_tree_host()->root_layer()->can_use_lcd_text()); // Change layer opacity that should trigger lcd notification. layer_tree_host()->root_layer()->SetOpacity(.5f); // No need to request a commit - setting opacity will do it. break; default: // Verify that there is not extra commit due to layer invalidation. EXPECT_EQ(3, layer_tree_host()->commit_number()); // LCD notification count should have incremented due to // change in layer opacity. EXPECT_EQ(2, client_.lcd_notification_count()); // Paint count should be incremented due to invalidation. EXPECT_EQ(2, client_.paint_count()); // LCD text must have been disabled on the layer due to opacity. EXPECT_FALSE(layer_tree_host()->root_layer()->can_use_lcd_text()); EndTest(); break; } } private: NotificationClient client_; }; SINGLE_THREAD_TEST_F(LayerTreeHostTestLCDNotification); // Verify that the BeginFrame notification is used to initiate rendering. class LayerTreeHostTestBeginFrameNotification : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->begin_frame_scheduling_enabled = true; } virtual void BeginTest() OVERRIDE { // This will trigger a SetNeedsBeginFrame which will trigger a BeginFrame. PostSetNeedsCommitToMainThread(); } virtual bool PrepareToDrawOnThread( LayerTreeHostImpl* host_impl, LayerTreeHostImpl::FrameData* frame, bool result) OVERRIDE { EndTest(); return true; } virtual void AfterTest() OVERRIDE {} private: base::TimeTicks frame_time_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestBeginFrameNotification); class LayerTreeHostTestBeginFrameNotificationShutdownWhileEnabled : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->begin_frame_scheduling_enabled = true; settings->using_synchronous_renderer_compositor = true; } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void CommitCompleteOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { // The BeginFrame notification is turned off now but will get enabled // once we return. End test while it's enabled. ImplThreadTaskRunner()->PostTask( FROM_HERE, base::Bind(&LayerTreeHostTestBeginFrameNotification::EndTest, base::Unretained(this))); } virtual void AfterTest() OVERRIDE {} }; MULTI_THREAD_TEST_F( LayerTreeHostTestBeginFrameNotificationShutdownWhileEnabled); class LayerTreeHostTestUninvertibleTransformDoesNotBlockActivation : public LayerTreeHostTest { protected: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->impl_side_painting = true; } virtual void SetupTree() OVERRIDE { LayerTreeHostTest::SetupTree(); scoped_refptr layer = PictureLayer::Create(&client_); layer->SetTransform(gfx::Transform(0.0, 0.0, 0.0, 0.0, 0.0, 0.0)); layer->SetBounds(gfx::Size(10, 10)); layer_tree_host()->root_layer()->AddChild(layer); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { EndTest(); } virtual void AfterTest() OVERRIDE { } FakeContentLayerClient client_; }; MULTI_THREAD_TEST_F( LayerTreeHostTestUninvertibleTransformDoesNotBlockActivation); class LayerTreeHostTestChangeLayerPropertiesInPaintContents : public LayerTreeHostTest { public: class SetBoundsClient : public ContentLayerClient { public: SetBoundsClient() : layer_(0) {} void set_layer(Layer* layer) { layer_ = layer; } virtual void PaintContents(SkCanvas* canvas, gfx::Rect clip, gfx::RectF* opaque) OVERRIDE { layer_->SetBounds(gfx::Size(2, 2)); } virtual void DidChangeLayerCanUseLCDText() OVERRIDE {} private: Layer* layer_; }; LayerTreeHostTestChangeLayerPropertiesInPaintContents() : num_commits_(0) {} virtual void SetupTree() OVERRIDE { scoped_refptr root_layer = ContentLayer::Create(&client_); root_layer->SetIsDrawable(true); root_layer->SetBounds(gfx::Size(1, 1)); layer_tree_host()->SetRootLayer(root_layer); client_.set_layer(root_layer.get()); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void AfterTest() OVERRIDE {} virtual void CommitCompleteOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { num_commits_++; if (num_commits_ == 1) { LayerImpl* root_layer = host_impl->active_tree()->root_layer(); EXPECT_SIZE_EQ(gfx::Size(1, 1), root_layer->bounds()); } else { LayerImpl* root_layer = host_impl->active_tree()->root_layer(); EXPECT_SIZE_EQ(gfx::Size(2, 2), root_layer->bounds()); EndTest(); } } private: SetBoundsClient client_; int num_commits_; }; SINGLE_THREAD_TEST_F(LayerTreeHostTestChangeLayerPropertiesInPaintContents); class MockIOSurfaceWebGraphicsContext3D : public FakeWebGraphicsContext3D { public: MockIOSurfaceWebGraphicsContext3D() : FakeWebGraphicsContext3D() {} virtual WebKit::WebGLId createTexture() OVERRIDE { return 1; } virtual WebKit::WebString getString(WebKit::WGC3Denum name) OVERRIDE { if (name == GL_EXTENSIONS) { return WebKit::WebString( "GL_CHROMIUM_iosurface GL_ARB_texture_rectangle"); } return WebKit::WebString(); } MOCK_METHOD1(activeTexture, void(WebKit::WGC3Denum texture)); MOCK_METHOD2(bindTexture, void(WebKit::WGC3Denum target, WebKit::WebGLId texture_id)); MOCK_METHOD3(texParameteri, void(WebKit::WGC3Denum target, WebKit::WGC3Denum pname, WebKit::WGC3Dint param)); MOCK_METHOD5(texImageIOSurface2DCHROMIUM, void(WebKit::WGC3Denum target, WebKit::WGC3Dint width, WebKit::WGC3Dint height, WebKit::WGC3Duint ioSurfaceId, WebKit::WGC3Duint plane)); MOCK_METHOD4(drawElements, void(WebKit::WGC3Denum mode, WebKit::WGC3Dsizei count, WebKit::WGC3Denum type, WebKit::WGC3Dintptr offset)); }; class LayerTreeHostTestIOSurfaceDrawing : public LayerTreeHostTest { protected: virtual scoped_ptr CreateOutputSurface() OVERRIDE { scoped_ptr context( new MockIOSurfaceWebGraphicsContext3D); mock_context_ = context.get(); scoped_ptr output_surface = FakeOutputSurface::Create3d( context.PassAs()).PassAs(); return output_surface.Pass(); } virtual void SetupTree() OVERRIDE { LayerTreeHostTest::SetupTree(); layer_tree_host()->root_layer()->SetIsDrawable(false); io_surface_id_ = 9; io_surface_size_ = gfx::Size(6, 7); scoped_refptr io_surface_layer = IOSurfaceLayer::Create(); io_surface_layer->SetBounds(gfx::Size(10, 10)); io_surface_layer->SetAnchorPoint(gfx::PointF()); io_surface_layer->SetIsDrawable(true); io_surface_layer->SetIOSurfaceProperties(io_surface_id_, io_surface_size_); layer_tree_host()->root_layer()->AddChild(io_surface_layer); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { // In WillDraw, the IOSurfaceLayer sets up the io surface texture. EXPECT_CALL(*mock_context_, activeTexture(_)) .Times(0); EXPECT_CALL(*mock_context_, bindTexture(GL_TEXTURE_RECTANGLE_ARB, 1)) .Times(AtLeast(1)); EXPECT_CALL(*mock_context_, texParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MIN_FILTER, GL_LINEAR)) .Times(1); EXPECT_CALL(*mock_context_, texParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_MAG_FILTER, GL_LINEAR)) .Times(1); EXPECT_CALL(*mock_context_, texParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_WRAP_S, GL_CLAMP_TO_EDGE)) .Times(1); EXPECT_CALL(*mock_context_, texParameteri(GL_TEXTURE_RECTANGLE_ARB, GL_TEXTURE_WRAP_T, GL_CLAMP_TO_EDGE)) .Times(1); EXPECT_CALL(*mock_context_, texImageIOSurface2DCHROMIUM( GL_TEXTURE_RECTANGLE_ARB, io_surface_size_.width(), io_surface_size_.height(), io_surface_id_, 0)) .Times(1); EXPECT_CALL(*mock_context_, bindTexture(_, 0)) .Times(AnyNumber()); } virtual bool PrepareToDrawOnThread( LayerTreeHostImpl* host_impl, LayerTreeHostImpl::FrameData* frame, bool result) OVERRIDE { Mock::VerifyAndClearExpectations(&mock_context_); // The io surface layer's texture is drawn. EXPECT_CALL(*mock_context_, activeTexture(GL_TEXTURE0)) .Times(AtLeast(1)); EXPECT_CALL(*mock_context_, bindTexture(GL_TEXTURE_RECTANGLE_ARB, 1)) .Times(1); EXPECT_CALL(*mock_context_, drawElements(GL_TRIANGLES, 6, _, _)) .Times(AtLeast(1)); return result; } virtual void DrawLayersOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { Mock::VerifyAndClearExpectations(&mock_context_); EndTest(); } virtual void AfterTest() OVERRIDE {} int io_surface_id_; MockIOSurfaceWebGraphicsContext3D* mock_context_; gfx::Size io_surface_size_; }; // TODO(danakj): IOSurface layer can not be transported. crbug.com/239335 SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestIOSurfaceDrawing); class LayerTreeHostTestAsyncReadback : public LayerTreeHostTest { protected: virtual void SetupTree() OVERRIDE { root = FakeContentLayer::Create(&client_); root->SetBounds(gfx::Size(20, 20)); child = FakeContentLayer::Create(&client_); child->SetBounds(gfx::Size(10, 10)); root->AddChild(child); layer_tree_host()->SetRootLayer(root); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidCommitAndDrawFrame() OVERRIDE { WaitForCallback(); } void WaitForCallback() { base::MessageLoop::current()->PostTask( FROM_HERE, base::Bind( &LayerTreeHostTestAsyncReadback::NextStep, base::Unretained(this))); } void NextStep() { int frame = layer_tree_host()->commit_number(); switch (frame) { case 1: child->RequestCopyOfOutput(CopyOutputRequest::CreateBitmapRequest( base::Bind(&LayerTreeHostTestAsyncReadback::CopyOutputCallback, base::Unretained(this)))); EXPECT_EQ(0u, callbacks_.size()); break; case 2: if (callbacks_.size() < 1u) { WaitForCallback(); return; } EXPECT_EQ(1u, callbacks_.size()); EXPECT_EQ(gfx::Size(10, 10).ToString(), callbacks_[0].ToString()); child->RequestCopyOfOutput(CopyOutputRequest::CreateBitmapRequest( base::Bind(&LayerTreeHostTestAsyncReadback::CopyOutputCallback, base::Unretained(this)))); root->RequestCopyOfOutput(CopyOutputRequest::CreateBitmapRequest( base::Bind(&LayerTreeHostTestAsyncReadback::CopyOutputCallback, base::Unretained(this)))); child->RequestCopyOfOutput(CopyOutputRequest::CreateBitmapRequest( base::Bind(&LayerTreeHostTestAsyncReadback::CopyOutputCallback, base::Unretained(this)))); EXPECT_EQ(1u, callbacks_.size()); break; case 3: if (callbacks_.size() < 4u) { WaitForCallback(); return; } EXPECT_EQ(4u, callbacks_.size()); // The child was copied to a bitmap and passed back twice. EXPECT_EQ(gfx::Size(10, 10).ToString(), callbacks_[1].ToString()); EXPECT_EQ(gfx::Size(10, 10).ToString(), callbacks_[2].ToString()); // The root was copied to a bitmap and passed back also. EXPECT_EQ(gfx::Size(20, 20).ToString(), callbacks_[3].ToString()); EndTest(); break; } } void CopyOutputCallback(scoped_ptr result) { EXPECT_TRUE(layer_tree_host()->proxy()->IsMainThread()); EXPECT_TRUE(result->HasBitmap()); scoped_ptr bitmap = result->TakeBitmap().Pass(); EXPECT_EQ(result->size().ToString(), gfx::Size(bitmap->width(), bitmap->height()).ToString()); callbacks_.push_back(result->size()); } virtual void AfterTest() OVERRIDE { EXPECT_EQ(4u, callbacks_.size()); } virtual scoped_ptr CreateOutputSurface() OVERRIDE { if (use_gl_renderer_) return FakeOutputSurface::Create3d().PassAs(); return FakeOutputSurface::CreateSoftware( make_scoped_ptr(new SoftwareOutputDevice)).PassAs(); } bool use_gl_renderer_; std::vector callbacks_; FakeContentLayerClient client_; scoped_refptr root; scoped_refptr child; }; // Readback can't be done with a delegating renderer. TEST_F(LayerTreeHostTestAsyncReadback, GLRenderer_RunSingleThread) { use_gl_renderer_ = true; RunTest(false, false, false); } TEST_F(LayerTreeHostTestAsyncReadback, GLRenderer_RunMultiThread_MainThreadPainting) { use_gl_renderer_ = true; RunTest(true, false, false); } TEST_F(LayerTreeHostTestAsyncReadback, GLRenderer_RunMultiThread_ImplSidePainting) { use_gl_renderer_ = true; RunTest(true, false, true); } TEST_F(LayerTreeHostTestAsyncReadback, SoftwareRenderer_RunSingleThread) { use_gl_renderer_ = false; RunTest(false, false, false); } TEST_F(LayerTreeHostTestAsyncReadback, SoftwareRenderer_RunMultiThread_MainThreadPainting) { use_gl_renderer_ = false; RunTest(true, false, false); } TEST_F(LayerTreeHostTestAsyncReadback, SoftwareRenderer_RunMultiThread_ImplSidePainting) { use_gl_renderer_ = false; RunTest(true, false, true); } class LayerTreeHostTestAsyncReadbackLayerDestroyed : public LayerTreeHostTest { protected: virtual void SetupTree() OVERRIDE { root_ = FakeContentLayer::Create(&client_); root_->SetBounds(gfx::Size(20, 20)); main_destroyed_ = FakeContentLayer::Create(&client_); main_destroyed_->SetBounds(gfx::Size(15, 15)); root_->AddChild(main_destroyed_); impl_destroyed_ = FakeContentLayer::Create(&client_); impl_destroyed_->SetBounds(gfx::Size(10, 10)); root_->AddChild(impl_destroyed_); layer_tree_host()->SetRootLayer(root_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { callback_count_ = 0; PostSetNeedsCommitToMainThread(); } virtual void DidCommit() OVERRIDE { int frame = layer_tree_host()->commit_number(); switch (frame) { case 1: main_destroyed_->RequestCopyOfOutput( CopyOutputRequest::CreateBitmapRequest(base::Bind( &LayerTreeHostTestAsyncReadbackLayerDestroyed:: CopyOutputCallback, base::Unretained(this)))); impl_destroyed_->RequestCopyOfOutput( CopyOutputRequest::CreateBitmapRequest(base::Bind( &LayerTreeHostTestAsyncReadbackLayerDestroyed:: CopyOutputCallback, base::Unretained(this)))); EXPECT_EQ(0, callback_count_); // Destroy the main thread layer right away. main_destroyed_->RemoveFromParent(); main_destroyed_ = NULL; // Should callback with a NULL bitmap. EXPECT_EQ(1, callback_count_); // Prevent drawing so we can't make a copy of the impl_destroyed layer. layer_tree_host()->SetViewportSize(gfx::Size()); break; case 2: // Flush the message loops and make sure the callbacks run. layer_tree_host()->SetNeedsCommit(); break; case 3: // No drawing means no readback yet. EXPECT_EQ(1, callback_count_); // Destroy the impl thread layer. impl_destroyed_->RemoveFromParent(); impl_destroyed_ = NULL; // No callback yet because it's on the impl side. EXPECT_EQ(1, callback_count_); break; case 4: // Flush the message loops and make sure the callbacks run. layer_tree_host()->SetNeedsCommit(); break; case 5: // We should get another callback with a NULL bitmap. EXPECT_EQ(2, callback_count_); EndTest(); break; } } void CopyOutputCallback(scoped_ptr result) { EXPECT_TRUE(layer_tree_host()->proxy()->IsMainThread()); EXPECT_TRUE(result->IsEmpty()); ++callback_count_; } virtual void AfterTest() OVERRIDE {} int callback_count_; FakeContentLayerClient client_; scoped_refptr root_; scoped_refptr main_destroyed_; scoped_refptr impl_destroyed_; }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostTestAsyncReadbackLayerDestroyed); class LayerTreeHostTestAsyncReadbackInHiddenSubtree : public LayerTreeHostTest { protected: virtual void SetupTree() OVERRIDE { root_ = FakeContentLayer::Create(&client_); root_->SetBounds(gfx::Size(20, 20)); grand_parent_layer_ = FakeContentLayer::Create(&client_); grand_parent_layer_->SetBounds(gfx::Size(15, 15)); root_->AddChild(grand_parent_layer_); // parent_layer_ owns a render surface. parent_layer_ = FakeContentLayer::Create(&client_); parent_layer_->SetBounds(gfx::Size(15, 15)); parent_layer_->SetForceRenderSurface(true); grand_parent_layer_->AddChild(parent_layer_); copy_layer_ = FakeContentLayer::Create(&client_); copy_layer_->SetBounds(gfx::Size(10, 10)); parent_layer_->AddChild(copy_layer_); layer_tree_host()->SetRootLayer(root_); LayerTreeHostTest::SetupTree(); } void AddCopyRequest(Layer* layer) { layer->RequestCopyOfOutput( CopyOutputRequest::CreateBitmapRequest(base::Bind( &LayerTreeHostTestAsyncReadbackInHiddenSubtree::CopyOutputCallback, base::Unretained(this)))); } virtual void BeginTest() OVERRIDE { callback_count_ = 0; PostSetNeedsCommitToMainThread(); AddCopyRequest(copy_layer_.get()); } void CopyOutputCallback(scoped_ptr result) { EXPECT_TRUE(layer_tree_host()->proxy()->IsMainThread()); EXPECT_EQ(copy_layer_->bounds().ToString(), result->size().ToString()); ++callback_count_; switch (callback_count_) { case 1: // Hide the copy request layer. grand_parent_layer_->SetHideLayerAndSubtree(false); parent_layer_->SetHideLayerAndSubtree(false); copy_layer_->SetHideLayerAndSubtree(true); AddCopyRequest(copy_layer_.get()); break; case 2: // Hide the copy request layer's parent only. grand_parent_layer_->SetHideLayerAndSubtree(false); parent_layer_->SetHideLayerAndSubtree(true); copy_layer_->SetHideLayerAndSubtree(false); AddCopyRequest(copy_layer_.get()); break; case 3: // Hide the copy request layer's grand parent only. grand_parent_layer_->SetHideLayerAndSubtree(true); parent_layer_->SetHideLayerAndSubtree(false); copy_layer_->SetHideLayerAndSubtree(false); AddCopyRequest(copy_layer_.get()); break; case 4: // Hide the copy request layer's parent and grandparent. grand_parent_layer_->SetHideLayerAndSubtree(true); parent_layer_->SetHideLayerAndSubtree(true); copy_layer_->SetHideLayerAndSubtree(false); AddCopyRequest(copy_layer_.get()); break; case 5: // Hide the copy request layer as well as its parent and grandparent. grand_parent_layer_->SetHideLayerAndSubtree(true); parent_layer_->SetHideLayerAndSubtree(true); copy_layer_->SetHideLayerAndSubtree(true); AddCopyRequest(copy_layer_.get()); break; case 6: EndTest(); break; } } virtual void AfterTest() OVERRIDE {} int callback_count_; FakeContentLayerClient client_; scoped_refptr root_; scoped_refptr grand_parent_layer_; scoped_refptr parent_layer_; scoped_refptr copy_layer_; }; // No output to copy for delegated renderers. SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestAsyncReadbackInHiddenSubtree); class LayerTreeHostTestHiddenSurfaceNotAllocatedForSubtreeCopyRequest : public LayerTreeHostTest { protected: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->cache_render_pass_contents = true; } virtual void SetupTree() OVERRIDE { root_ = FakeContentLayer::Create(&client_); root_->SetBounds(gfx::Size(20, 20)); grand_parent_layer_ = FakeContentLayer::Create(&client_); grand_parent_layer_->SetBounds(gfx::Size(15, 15)); grand_parent_layer_->SetHideLayerAndSubtree(true); root_->AddChild(grand_parent_layer_); // parent_layer_ owns a render surface. parent_layer_ = FakeContentLayer::Create(&client_); parent_layer_->SetBounds(gfx::Size(15, 15)); parent_layer_->SetForceRenderSurface(true); grand_parent_layer_->AddChild(parent_layer_); copy_layer_ = FakeContentLayer::Create(&client_); copy_layer_->SetBounds(gfx::Size(10, 10)); parent_layer_->AddChild(copy_layer_); layer_tree_host()->SetRootLayer(root_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { did_draw_ = false; PostSetNeedsCommitToMainThread(); copy_layer_->RequestCopyOfOutput( CopyOutputRequest::CreateBitmapRequest(base::Bind( &LayerTreeHostTestHiddenSurfaceNotAllocatedForSubtreeCopyRequest:: CopyOutputCallback, base::Unretained(this)))); } void CopyOutputCallback(scoped_ptr result) { EXPECT_TRUE(layer_tree_host()->proxy()->IsMainThread()); EXPECT_EQ(copy_layer_->bounds().ToString(), result->size().ToString()); EndTest(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { Renderer* renderer = host_impl->renderer(); LayerImpl* root = host_impl->active_tree()->root_layer(); LayerImpl* grand_parent = root->children()[0]; LayerImpl* parent = grand_parent->children()[0]; LayerImpl* copy_layer = parent->children()[0]; // |parent| owns a surface, but it was hidden and not part of the copy // request so it should not allocate any resource. EXPECT_FALSE(renderer->HaveCachedResourcesForRenderPassId( parent->render_surface()->RenderPassId())); // |copy_layer| should have been rendered to a texture since it was needed // for a copy request. EXPECT_TRUE(renderer->HaveCachedResourcesForRenderPassId( copy_layer->render_surface()->RenderPassId())); did_draw_ = true; } virtual void AfterTest() OVERRIDE { EXPECT_TRUE(did_draw_); } FakeContentLayerClient client_; bool did_draw_; scoped_refptr root_; scoped_refptr grand_parent_layer_; scoped_refptr parent_layer_; scoped_refptr copy_layer_; }; // No output to copy for delegated renderers. SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestHiddenSurfaceNotAllocatedForSubtreeCopyRequest); class LayerTreeHostTestAsyncReadbackClippedOut : public LayerTreeHostTest { protected: virtual void SetupTree() OVERRIDE { root_ = FakeContentLayer::Create(&client_); root_->SetBounds(gfx::Size(20, 20)); parent_layer_ = FakeContentLayer::Create(&client_); parent_layer_->SetBounds(gfx::Size(15, 15)); parent_layer_->SetMasksToBounds(true); root_->AddChild(parent_layer_); copy_layer_ = FakeContentLayer::Create(&client_); copy_layer_->SetPosition(gfx::Point(15, 15)); copy_layer_->SetBounds(gfx::Size(10, 10)); parent_layer_->AddChild(copy_layer_); layer_tree_host()->SetRootLayer(root_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); copy_layer_->RequestCopyOfOutput( CopyOutputRequest::CreateBitmapRequest(base::Bind( &LayerTreeHostTestAsyncReadbackClippedOut::CopyOutputCallback, base::Unretained(this)))); } void CopyOutputCallback(scoped_ptr result) { // We should still get a callback with no output if the copy requested layer // was completely clipped away. EXPECT_TRUE(layer_tree_host()->proxy()->IsMainThread()); EXPECT_EQ(gfx::Size().ToString(), result->size().ToString()); EndTest(); } virtual void AfterTest() OVERRIDE {} FakeContentLayerClient client_; scoped_refptr root_; scoped_refptr parent_layer_; scoped_refptr copy_layer_; }; // No output to copy for delegated renderers. SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestAsyncReadbackClippedOut); class LayerTreeHostTestAsyncTwoReadbacksWithoutDraw : public LayerTreeHostTest { protected: virtual void SetupTree() OVERRIDE { root_ = FakeContentLayer::Create(&client_); root_->SetBounds(gfx::Size(20, 20)); copy_layer_ = FakeContentLayer::Create(&client_); copy_layer_->SetBounds(gfx::Size(10, 10)); root_->AddChild(copy_layer_); layer_tree_host()->SetRootLayer(root_); LayerTreeHostTest::SetupTree(); } void AddCopyRequest(Layer* layer) { layer->RequestCopyOfOutput( CopyOutputRequest::CreateBitmapRequest(base::Bind( &LayerTreeHostTestAsyncTwoReadbacksWithoutDraw::CopyOutputCallback, base::Unretained(this)))); } virtual void BeginTest() OVERRIDE { saw_copy_request_ = false; callback_count_ = 0; PostSetNeedsCommitToMainThread(); // Prevent drawing. layer_tree_host()->SetViewportSize(gfx::Size(0, 0)); AddCopyRequest(copy_layer_.get()); } virtual void DidActivateTreeOnThread(LayerTreeHostImpl* impl) OVERRIDE { if (impl->active_tree()->source_frame_number() == 0) { LayerImpl* root = impl->active_tree()->root_layer(); EXPECT_TRUE(root->children()[0]->HasCopyRequest()); saw_copy_request_ = true; } } virtual void DidCommit() OVERRIDE { if (layer_tree_host()->commit_number() == 1) { // Allow drawing. layer_tree_host()->SetViewportSize(gfx::Size(root_->bounds())); AddCopyRequest(copy_layer_.get()); } } void CopyOutputCallback(scoped_ptr result) { EXPECT_TRUE(layer_tree_host()->proxy()->IsMainThread()); EXPECT_EQ(copy_layer_->bounds().ToString(), result->size().ToString()); ++callback_count_; if (callback_count_ == 2) EndTest(); } virtual void AfterTest() OVERRIDE { EXPECT_TRUE(saw_copy_request_); } bool saw_copy_request_; int callback_count_; FakeContentLayerClient client_; scoped_refptr root_; scoped_refptr copy_layer_; }; // No output to copy for delegated renderers. SINGLE_AND_MULTI_THREAD_DIRECT_RENDERER_TEST_F( LayerTreeHostTestAsyncTwoReadbacksWithoutDraw); class LayerTreeHostTestNumFramesPending : public LayerTreeHostTest { public: virtual void BeginTest() OVERRIDE { frame_ = 0; PostSetNeedsCommitToMainThread(); } // Round 1: commit + draw // Round 2: commit only (no draw/swap) // Round 3: draw only (no commit) // Round 4: composite & readback (2 commits, no draw/swap) // Round 5: commit + draw virtual void DidCommit() OVERRIDE { int commit = layer_tree_host()->commit_number(); switch (commit) { case 2: // Round 2 done. EXPECT_EQ(1, frame_); layer_tree_host()->SetNeedsRedraw(); break; case 3: // CompositeAndReadback in Round 4, first commit. EXPECT_EQ(2, frame_); break; case 4: // Round 4 done. EXPECT_EQ(2, frame_); layer_tree_host()->SetNeedsCommit(); layer_tree_host()->SetNeedsRedraw(); break; } } virtual void DidCompleteSwapBuffers() OVERRIDE { int commit = layer_tree_host()->commit_number(); ++frame_; char pixels[4] = {0}; switch (frame_) { case 1: // Round 1 done. EXPECT_EQ(1, commit); layer_tree_host()->SetNeedsCommit(); break; case 2: // Round 3 done. EXPECT_EQ(2, commit); layer_tree_host()->CompositeAndReadback(pixels, gfx::Rect(0, 0, 1, 1)); break; case 3: // Round 5 done. EXPECT_EQ(5, commit); EndTest(); break; } } virtual void AfterTest() OVERRIDE {} protected: int frame_; }; TEST_F(LayerTreeHostTestNumFramesPending, DelegatingRenderer) { RunTest(true, true, true); } TEST_F(LayerTreeHostTestNumFramesPending, GLRenderer) { RunTest(true, false, true); } class LayerTreeHostTestDeferredInitialize : public LayerTreeHostTest { public: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { // PictureLayer can only be used with impl side painting enabled. settings->impl_side_painting = true; settings->solid_color_scrollbars = true; } virtual void SetupTree() OVERRIDE { layer_ = FakePictureLayer::Create(&client_); // Force commits to not be aborted so new frames get drawn, otherwise // the renderer gets deferred initialized but nothing new needs drawing. layer_->set_always_update_resources(true); layer_tree_host()->SetRootLayer(layer_); LayerTreeHostTest::SetupTree(); } virtual void BeginTest() OVERRIDE { did_initialize_gl_ = false; did_release_gl_ = false; last_source_frame_number_drawn_ = -1; // Never drawn. PostSetNeedsCommitToMainThread(); } virtual scoped_ptr CreateOutputSurface() OVERRIDE { scoped_ptr context3d( TestWebGraphicsContext3D::Create()); context3d->set_support_swapbuffers_complete_callback(false); return FakeOutputSurface::CreateDeferredGL( scoped_ptr(new SoftwareOutputDevice)) .PassAs(); } virtual void DrawLayersOnThread(LayerTreeHostImpl* host_impl) OVERRIDE { ASSERT_TRUE(host_impl->RootLayer()); FakePictureLayerImpl* layer_impl = static_cast(host_impl->RootLayer()); // The same frame can be draw multiple times if new visible tiles are // rasterized. But we want to make sure we only post DeferredInitialize // and ReleaseGL once, so early out if the same frame is drawn again. if (last_source_frame_number_drawn_ == host_impl->active_tree()->source_frame_number()) return; last_source_frame_number_drawn_ = host_impl->active_tree()->source_frame_number(); if (!did_initialize_gl_) { EXPECT_LE(1u, layer_impl->append_quads_count()); ImplThreadTaskRunner()->PostTask( FROM_HERE, base::Bind( &LayerTreeHostTestDeferredInitialize::DeferredInitializeAndRedraw, base::Unretained(this), base::Unretained(host_impl))); } else if (did_initialize_gl_ && !did_release_gl_) { EXPECT_LE(2u, layer_impl->append_quads_count()); ImplThreadTaskRunner()->PostTask( FROM_HERE, base::Bind( &LayerTreeHostTestDeferredInitialize::ReleaseGLAndRedraw, base::Unretained(this), base::Unretained(host_impl))); } else if (did_initialize_gl_ && did_release_gl_) { EXPECT_LE(3u, layer_impl->append_quads_count()); EndTest(); } } void DeferredInitializeAndRedraw(LayerTreeHostImpl* host_impl) { EXPECT_FALSE(did_initialize_gl_); // SetAndInitializeContext3D calls SetNeedsCommit. EXPECT_TRUE(static_cast(host_impl->output_surface()) ->SetAndInitializeContext3D( scoped_ptr( TestWebGraphicsContext3D::Create()))); did_initialize_gl_ = true; } void ReleaseGLAndRedraw(LayerTreeHostImpl* host_impl) { EXPECT_TRUE(did_initialize_gl_); EXPECT_FALSE(did_release_gl_); // ReleaseGL calls SetNeedsCommit. static_cast(host_impl->output_surface())->ReleaseGL(); did_release_gl_ = true; } virtual void AfterTest() OVERRIDE { EXPECT_TRUE(did_initialize_gl_); EXPECT_TRUE(did_release_gl_); } private: FakeContentLayerClient client_; scoped_refptr layer_; bool did_initialize_gl_; bool did_release_gl_; int last_source_frame_number_drawn_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestDeferredInitialize); class PushPropertiesCountingLayer : public Layer { public: static scoped_refptr Create() { return new PushPropertiesCountingLayer(); } virtual void PushPropertiesTo(LayerImpl* layer) OVERRIDE { Layer::PushPropertiesTo(layer); push_properties_count_++; if (persist_needs_push_properties_) needs_push_properties_ = true; } size_t push_properties_count() const { return push_properties_count_; } void reset_push_properties_count() { push_properties_count_ = 0; } void set_persist_needs_push_properties(bool persist) { persist_needs_push_properties_ = persist; } private: PushPropertiesCountingLayer() : push_properties_count_(0), persist_needs_push_properties_(false) { SetAnchorPoint(gfx::PointF()); SetBounds(gfx::Size(1, 1)); SetIsDrawable(true); } virtual ~PushPropertiesCountingLayer() {} size_t push_properties_count_; bool persist_needs_push_properties_; }; class LayerTreeHostTestLayersPushProperties : public LayerTreeHostTest { protected: virtual void BeginTest() OVERRIDE { num_commits_ = 0; expected_push_properties_root_ = 0; expected_push_properties_child_ = 0; expected_push_properties_grandchild_ = 0; expected_push_properties_child2_ = 0; expected_push_properties_other_root_ = 0; expected_push_properties_leaf_layer_ = 0; PostSetNeedsCommitToMainThread(); } virtual void SetupTree() OVERRIDE { root_ = PushPropertiesCountingLayer::Create(); child_ = PushPropertiesCountingLayer::Create(); child2_ = PushPropertiesCountingLayer::Create(); grandchild_ = PushPropertiesCountingLayer::Create(); if (layer_tree_host()->settings().impl_side_painting) leaf_picture_layer_ = FakePictureLayer::Create(&client_); else leaf_content_layer_ = FakeContentLayer::Create(&client_); root_->AddChild(child_); root_->AddChild(child2_); child_->AddChild(grandchild_); if (leaf_picture_layer_) child2_->AddChild(leaf_picture_layer_); if (leaf_content_layer_) child2_->AddChild(leaf_content_layer_); other_root_ = PushPropertiesCountingLayer::Create(); // Don't set the root layer here. LayerTreeHostTest::SetupTree(); } virtual void DidCommitAndDrawFrame() OVERRIDE { ++num_commits_; EXPECT_EQ(expected_push_properties_root_, root_->push_properties_count()); EXPECT_EQ(expected_push_properties_child_, child_->push_properties_count()); EXPECT_EQ(expected_push_properties_grandchild_, grandchild_->push_properties_count()); EXPECT_EQ(expected_push_properties_child2_, child2_->push_properties_count()); EXPECT_EQ(expected_push_properties_other_root_, other_root_->push_properties_count()); if (leaf_content_layer_) { EXPECT_EQ(expected_push_properties_leaf_layer_, leaf_content_layer_->push_properties_count()); } if (leaf_picture_layer_) { EXPECT_EQ(expected_push_properties_leaf_layer_, leaf_picture_layer_->push_properties_count()); } // The content/picture layer always needs to be pushed. if (root_->layer_tree_host()) { EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_FALSE(root_->needs_push_properties()); } if (child2_->layer_tree_host()) { EXPECT_TRUE(child2_->descendant_needs_push_properties()); EXPECT_FALSE(child2_->needs_push_properties()); } if (leaf_content_layer_.get() && leaf_content_layer_->layer_tree_host()) { EXPECT_FALSE(leaf_content_layer_->descendant_needs_push_properties()); EXPECT_TRUE(leaf_content_layer_->needs_push_properties()); } if (leaf_picture_layer_.get() && leaf_picture_layer_->layer_tree_host()) { EXPECT_FALSE(leaf_picture_layer_->descendant_needs_push_properties()); EXPECT_TRUE(leaf_picture_layer_->needs_push_properties()); } // child_ and grandchild_ don't persist their need to push properties. if (child_->layer_tree_host()) { EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); } if (grandchild_->layer_tree_host()) { EXPECT_FALSE(grandchild_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild_->needs_push_properties()); } if (other_root_->layer_tree_host()) { EXPECT_FALSE(other_root_->descendant_needs_push_properties()); EXPECT_FALSE(other_root_->needs_push_properties()); } switch (num_commits_) { case 1: layer_tree_host()->SetRootLayer(root_); // Layers added to the tree get committed. ++expected_push_properties_root_; ++expected_push_properties_child_; ++expected_push_properties_grandchild_; ++expected_push_properties_child2_; break; case 2: layer_tree_host()->SetNeedsCommit(); // No layers need commit. break; case 3: layer_tree_host()->SetRootLayer(other_root_); // Layers added to the tree get committed. ++expected_push_properties_other_root_; break; case 4: layer_tree_host()->SetRootLayer(root_); // Layers added to the tree get committed. ++expected_push_properties_root_; ++expected_push_properties_child_; ++expected_push_properties_grandchild_; ++expected_push_properties_child2_; break; case 5: layer_tree_host()->SetNeedsCommit(); // No layers need commit. break; case 6: child_->RemoveFromParent(); // No layers need commit. break; case 7: root_->AddChild(child_); // Layers added to the tree get committed. ++expected_push_properties_child_; ++expected_push_properties_grandchild_; break; case 8: grandchild_->RemoveFromParent(); // No layers need commit. break; case 9: child_->AddChild(grandchild_); // Layers added to the tree get committed. ++expected_push_properties_grandchild_; break; case 10: layer_tree_host()->SetViewportSize(gfx::Size(20, 20)); // No layers need commit. break; case 11: layer_tree_host()->SetPageScaleFactorAndLimits(1.f, 0.8f, 1.1f); // No layers need commit. break; case 12: child_->SetPosition(gfx::Point(1, 1)); // The modified layer needs commit ++expected_push_properties_child_; break; case 13: child2_->SetPosition(gfx::Point(1, 1)); // The modified layer needs commit ++expected_push_properties_child2_; break; case 14: child_->RemoveFromParent(); root_->AddChild(child_); // Layers added to the tree get committed. ++expected_push_properties_child_; ++expected_push_properties_grandchild_; break; case 15: grandchild_->SetPosition(gfx::Point(1, 1)); // The modified layer needs commit ++expected_push_properties_grandchild_; break; case 16: // SetNeedsDisplay does not always set needs commit (so call it // explicitly), but is a property change. child_->SetNeedsDisplay(); ++expected_push_properties_child_; layer_tree_host()->SetNeedsCommit(); break; case 17: EndTest(); break; } // Content/Picture layers require PushProperties every commit that they are // in the tree. if ((leaf_content_layer_.get() && leaf_content_layer_->layer_tree_host()) || (leaf_picture_layer_.get() && leaf_picture_layer_->layer_tree_host())) ++expected_push_properties_leaf_layer_; } virtual void AfterTest() OVERRIDE {} int num_commits_; FakeContentLayerClient client_; scoped_refptr root_; scoped_refptr child_; scoped_refptr child2_; scoped_refptr grandchild_; scoped_refptr other_root_; scoped_refptr leaf_content_layer_; scoped_refptr leaf_picture_layer_; size_t expected_push_properties_root_; size_t expected_push_properties_child_; size_t expected_push_properties_child2_; size_t expected_push_properties_grandchild_; size_t expected_push_properties_other_root_; size_t expected_push_properties_leaf_layer_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestLayersPushProperties); class LayerTreeHostTestPropertyChangesDuringUpdateArePushed : public LayerTreeHostTest { protected: virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void SetupTree() OVERRIDE { root_ = Layer::Create(); root_->SetBounds(gfx::Size(1, 1)); bool paint_scrollbar = true; bool has_thumb = false; scrollbar_layer_ = FakeScrollbarLayer::Create(paint_scrollbar, has_thumb, root_->id()); root_->AddChild(scrollbar_layer_); layer_tree_host()->SetRootLayer(root_); LayerTreeHostTest::SetupTree(); } virtual void DidCommitAndDrawFrame() OVERRIDE { switch (layer_tree_host()->commit_number()) { case 0: break; case 1: { // During update, the ignore_set_needs_commit_ bit is set to true to // avoid causing a second commit to be scheduled. If a property change // is made during this, however, it needs to be pushed in the upcoming // commit. scoped_ptr > ignore = scrollbar_layer_->IgnoreSetNeedsCommit(); scrollbar_layer_->SetBounds(gfx::Size(30, 30)); EXPECT_TRUE(scrollbar_layer_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); layer_tree_host()->SetNeedsCommit(); scrollbar_layer_->reset_push_properties_count(); EXPECT_EQ(0u, scrollbar_layer_->push_properties_count()); break; } case 2: EXPECT_EQ(1u, scrollbar_layer_->push_properties_count()); EndTest(); break; } } virtual void AfterTest() OVERRIDE {} scoped_refptr root_; scoped_refptr scrollbar_layer_; }; MULTI_THREAD_TEST_F(LayerTreeHostTestPropertyChangesDuringUpdateArePushed); class LayerTreeHostTestCasePushPropertiesThreeGrandChildren : public LayerTreeHostTest { protected: virtual void BeginTest() OVERRIDE { expected_push_properties_root_ = 0; expected_push_properties_child_ = 0; expected_push_properties_grandchild1_ = 0; expected_push_properties_grandchild2_ = 0; expected_push_properties_grandchild3_ = 0; PostSetNeedsCommitToMainThread(); } virtual void SetupTree() OVERRIDE { root_ = PushPropertiesCountingLayer::Create(); child_ = PushPropertiesCountingLayer::Create(); grandchild1_ = PushPropertiesCountingLayer::Create(); grandchild2_ = PushPropertiesCountingLayer::Create(); grandchild3_ = PushPropertiesCountingLayer::Create(); root_->AddChild(child_); child_->AddChild(grandchild1_); child_->AddChild(grandchild2_); child_->AddChild(grandchild3_); // Don't set the root layer here. LayerTreeHostTest::SetupTree(); } virtual void AfterTest() OVERRIDE {} FakeContentLayerClient client_; scoped_refptr root_; scoped_refptr child_; scoped_refptr grandchild1_; scoped_refptr grandchild2_; scoped_refptr grandchild3_; size_t expected_push_properties_root_; size_t expected_push_properties_child_; size_t expected_push_properties_grandchild1_; size_t expected_push_properties_grandchild2_; size_t expected_push_properties_grandchild3_; }; class LayerTreeHostTestPushPropertiesAddingToTreeRequiresPush : public LayerTreeHostTestCasePushPropertiesThreeGrandChildren { protected: virtual void DidCommitAndDrawFrame() OVERRIDE { int last_source_frame_number = layer_tree_host()->commit_number() - 1; switch (last_source_frame_number) { case 0: EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); layer_tree_host()->SetRootLayer(root_); EXPECT_TRUE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); break; case 1: EndTest(); break; } } }; MULTI_THREAD_TEST_F(LayerTreeHostTestPushPropertiesAddingToTreeRequiresPush); class LayerTreeHostTestPushPropertiesRemovingChildStopsRecursion : public LayerTreeHostTestCasePushPropertiesThreeGrandChildren { protected: virtual void DidCommitAndDrawFrame() OVERRIDE { int last_source_frame_number = layer_tree_host()->commit_number() - 1; switch (last_source_frame_number) { case 0: layer_tree_host()->SetRootLayer(root_); break; case 1: EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); grandchild1_->RemoveFromParent(); grandchild1_->SetPosition(gfx::Point(1, 1)); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); child_->AddChild(grandchild1_); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); grandchild2_->SetPosition(gfx::Point(1, 1)); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); // grandchild2_ will still need a push properties. grandchild1_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); // grandchild3_ does not need a push properties, so recursing should // no longer be needed. grandchild2_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EndTest(); break; } } }; MULTI_THREAD_TEST_F(LayerTreeHostTestPushPropertiesRemovingChildStopsRecursion); class LayerTreeHostTestPushPropertiesRemovingChildStopsRecursionWithPersistence : public LayerTreeHostTestCasePushPropertiesThreeGrandChildren { protected: virtual void DidCommitAndDrawFrame() OVERRIDE { int last_source_frame_number = layer_tree_host()->commit_number() - 1; switch (last_source_frame_number) { case 0: layer_tree_host()->SetRootLayer(root_); grandchild1_->set_persist_needs_push_properties(true); grandchild2_->set_persist_needs_push_properties(true); break; case 1: EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); // grandchild2_ will still need a push properties. grandchild1_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); // grandchild3_ does not need a push properties, so recursing should // no longer be needed. grandchild2_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EndTest(); break; } } }; MULTI_THREAD_TEST_F( LayerTreeHostTestPushPropertiesRemovingChildStopsRecursionWithPersistence); class LayerTreeHostTestPushPropertiesSetPropertiesWhileOutsideTree : public LayerTreeHostTestCasePushPropertiesThreeGrandChildren { protected: virtual void DidCommitAndDrawFrame() OVERRIDE { int last_source_frame_number = layer_tree_host()->commit_number() - 1; switch (last_source_frame_number) { case 0: layer_tree_host()->SetRootLayer(root_); break; case 1: EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); // Change grandchildren while their parent is not in the tree. child_->RemoveFromParent(); grandchild1_->SetPosition(gfx::Point(1, 1)); grandchild2_->SetPosition(gfx::Point(1, 1)); root_->AddChild(child_); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); grandchild1_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); grandchild2_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); grandchild3_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EndTest(); break; } } }; MULTI_THREAD_TEST_F( LayerTreeHostTestPushPropertiesSetPropertiesWhileOutsideTree); class LayerTreeHostTestPushPropertiesSetPropertyInParentThenChild : public LayerTreeHostTestCasePushPropertiesThreeGrandChildren { protected: virtual void DidCommitAndDrawFrame() OVERRIDE { int last_source_frame_number = layer_tree_host()->commit_number() - 1; switch (last_source_frame_number) { case 0: layer_tree_host()->SetRootLayer(root_); break; case 1: EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); child_->SetPosition(gfx::Point(1, 1)); grandchild1_->SetPosition(gfx::Point(1, 1)); grandchild2_->SetPosition(gfx::Point(1, 1)); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); grandchild1_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); grandchild2_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); child_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EndTest(); break; } } }; MULTI_THREAD_TEST_F( LayerTreeHostTestPushPropertiesSetPropertyInParentThenChild); class LayerTreeHostTestPushPropertiesSetPropertyInChildThenParent : public LayerTreeHostTestCasePushPropertiesThreeGrandChildren { protected: virtual void DidCommitAndDrawFrame() OVERRIDE { int last_source_frame_number = layer_tree_host()->commit_number() - 1; switch (last_source_frame_number) { case 0: layer_tree_host()->SetRootLayer(root_); break; case 1: EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EXPECT_FALSE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); grandchild1_->SetPosition(gfx::Point(1, 1)); grandchild2_->SetPosition(gfx::Point(1, 1)); child_->SetPosition(gfx::Point(1, 1)); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild1_->needs_push_properties()); EXPECT_FALSE(grandchild1_->descendant_needs_push_properties()); EXPECT_TRUE(grandchild2_->needs_push_properties()); EXPECT_FALSE(grandchild2_->descendant_needs_push_properties()); EXPECT_FALSE(grandchild3_->needs_push_properties()); EXPECT_FALSE(grandchild3_->descendant_needs_push_properties()); grandchild1_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_TRUE(child_->descendant_needs_push_properties()); grandchild2_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_TRUE(root_->descendant_needs_push_properties()); EXPECT_TRUE(child_->needs_push_properties()); EXPECT_FALSE(child_->descendant_needs_push_properties()); child_->RemoveFromParent(); EXPECT_FALSE(root_->needs_push_properties()); EXPECT_FALSE(root_->descendant_needs_push_properties()); EndTest(); break; } } }; MULTI_THREAD_TEST_F( LayerTreeHostTestPushPropertiesSetPropertyInChildThenParent); // This test verifies that the tree activation callback is invoked correctly. class LayerTreeHostTestTreeActivationCallback : public LayerTreeHostTest { public: LayerTreeHostTestTreeActivationCallback() : num_commits_(0), callback_count_(0) {} virtual void BeginTest() OVERRIDE { EXPECT_TRUE(HasImplThread()); PostSetNeedsCommitToMainThread(); } virtual bool PrepareToDrawOnThread(LayerTreeHostImpl* host_impl, LayerTreeHostImpl::FrameData* frame_data, bool result) OVERRIDE { ++num_commits_; switch (num_commits_) { case 1: EXPECT_EQ(0, callback_count_); callback_count_ = 0; SetCallback(true); PostSetNeedsCommitToMainThread(); break; case 2: EXPECT_EQ(1, callback_count_); callback_count_ = 0; SetCallback(false); PostSetNeedsCommitToMainThread(); break; case 3: EXPECT_EQ(0, callback_count_); callback_count_ = 0; EndTest(); break; default: ADD_FAILURE() << num_commits_; EndTest(); break; } return LayerTreeHostTest::PrepareToDrawOnThread(host_impl, frame_data, result); } virtual void AfterTest() OVERRIDE { EXPECT_EQ(3, num_commits_); } void SetCallback(bool enable) { output_surface()->SetTreeActivationCallback(enable ? base::Bind(&LayerTreeHostTestTreeActivationCallback::ActivationCallback, base::Unretained(this)) : base::Closure()); } void ActivationCallback() { ++callback_count_; } int num_commits_; int callback_count_; }; TEST_F(LayerTreeHostTestTreeActivationCallback, DirectRenderer) { RunTest(true, false, true); } TEST_F(LayerTreeHostTestTreeActivationCallback, DelegatingRenderer) { RunTest(true, true, true); } } // namespace } // namespace cc