// 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/layers/layer_impl.h" #include "cc/layers/painted_scrollbar_layer_impl.h" #include "cc/layers/solid_color_scrollbar_layer_impl.h" #include "cc/output/filter_operation.h" #include "cc/output/filter_operations.h" #include "cc/test/fake_impl_proxy.h" #include "cc/test/fake_layer_tree_host_impl.h" #include "cc/test/fake_output_surface.h" #include "cc/test/geometry_test_utils.h" #include "cc/test/test_shared_bitmap_manager.h" #include "cc/test/test_task_graph_runner.h" #include "cc/trees/layer_tree_impl.h" #include "cc/trees/single_thread_proxy.h" #include "cc/trees/tree_synchronizer.h" #include "testing/gmock/include/gmock/gmock.h" #include "testing/gtest/include/gtest/gtest.h" #include "third_party/skia/include/effects/SkBlurImageFilter.h" namespace cc { namespace { #define EXECUTE_AND_VERIFY_SUBTREE_CHANGED(code_to_test) \ root->ResetAllChangeTrackingForSubtree(); \ code_to_test; \ EXPECT_TRUE(root->needs_push_properties()); \ EXPECT_FALSE(child->needs_push_properties()); \ EXPECT_FALSE(grand_child->needs_push_properties()); \ EXPECT_TRUE(root->LayerPropertyChanged()); \ EXPECT_TRUE(child->LayerPropertyChanged()); \ EXPECT_TRUE(grand_child->LayerPropertyChanged()); #define EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(code_to_test) \ root->ResetAllChangeTrackingForSubtree(); \ code_to_test; \ EXPECT_FALSE(root->needs_push_properties()); \ EXPECT_FALSE(child->needs_push_properties()); \ EXPECT_FALSE(grand_child->needs_push_properties()); \ EXPECT_FALSE(root->LayerPropertyChanged()); \ EXPECT_FALSE(child->LayerPropertyChanged()); \ EXPECT_FALSE(grand_child->LayerPropertyChanged()); #define EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( \ code_to_test) \ root->ResetAllChangeTrackingForSubtree(); \ code_to_test; \ EXPECT_TRUE(root->needs_push_properties()); \ EXPECT_FALSE(child->needs_push_properties()); \ EXPECT_FALSE(grand_child->needs_push_properties()); \ EXPECT_FALSE(root->LayerPropertyChanged()); \ EXPECT_FALSE(child->LayerPropertyChanged()); \ EXPECT_FALSE(grand_child->LayerPropertyChanged()); #define EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(code_to_test) \ root->ResetAllChangeTrackingForSubtree(); \ code_to_test; \ EXPECT_TRUE(root->needs_push_properties()); \ EXPECT_FALSE(child->needs_push_properties()); \ EXPECT_FALSE(grand_child->needs_push_properties()); \ EXPECT_TRUE(root->LayerPropertyChanged()); \ EXPECT_FALSE(child->LayerPropertyChanged()); \ EXPECT_FALSE(grand_child->LayerPropertyChanged()); #define VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(code_to_test) \ root->ResetAllChangeTrackingForSubtree(); \ host_impl.ForcePrepareToDraw(); \ EXPECT_FALSE(host_impl.active_tree()->needs_update_draw_properties()); \ code_to_test; \ EXPECT_TRUE(host_impl.active_tree()->needs_update_draw_properties()); #define VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(code_to_test) \ root->ResetAllChangeTrackingForSubtree(); \ host_impl.ForcePrepareToDraw(); \ EXPECT_FALSE(host_impl.active_tree()->needs_update_draw_properties()); \ code_to_test; \ EXPECT_FALSE(host_impl.active_tree()->needs_update_draw_properties()); TEST(LayerImplTest, VerifyLayerChangesAreTrackedProperly) { // // This test checks that layerPropertyChanged() has the correct behavior. // // The constructor on this will fake that we are on the correct thread. // Create a simple LayerImpl tree: FakeImplProxy proxy; TestSharedBitmapManager shared_bitmap_manager; FakeLayerTreeHostImpl host_impl(&proxy, &shared_bitmap_manager, nullptr); EXPECT_TRUE(host_impl.InitializeRenderer(FakeOutputSurface::Create3d())); scoped_ptr root_clip = LayerImpl::Create(host_impl.active_tree(), 1); scoped_ptr root_ptr = LayerImpl::Create(host_impl.active_tree(), 2); LayerImpl* root = root_ptr.get(); root_clip->AddChild(root_ptr.Pass()); scoped_ptr scroll_parent = LayerImpl::Create(host_impl.active_tree(), 3); LayerImpl* scroll_child = LayerImpl::Create(host_impl.active_tree(), 4).get(); std::set* scroll_children = new std::set(); scroll_children->insert(scroll_child); scroll_children->insert(root); root->SetHasRenderSurface(true); scoped_ptr clip_parent = LayerImpl::Create(host_impl.active_tree(), 5); LayerImpl* clip_child = LayerImpl::Create(host_impl.active_tree(), 6).get(); std::set* clip_children = new std::set(); clip_children->insert(clip_child); clip_children->insert(root); root->AddChild(LayerImpl::Create(host_impl.active_tree(), 7)); LayerImpl* child = root->children()[0]; child->AddChild(LayerImpl::Create(host_impl.active_tree(), 8)); LayerImpl* grand_child = child->children()[0]; root->SetScrollClipLayer(root_clip->id()); // Adding children is an internal operation and should not mark layers as // changed. EXPECT_FALSE(root->LayerPropertyChanged()); EXPECT_FALSE(child->LayerPropertyChanged()); EXPECT_FALSE(grand_child->LayerPropertyChanged()); gfx::PointF arbitrary_point_f = gfx::PointF(0.125f, 0.25f); gfx::Point3F arbitrary_point_3f = gfx::Point3F(0.125f, 0.25f, 0.f); float arbitrary_number = 0.352f; gfx::Size arbitrary_size = gfx::Size(111, 222); gfx::Point arbitrary_point = gfx::Point(333, 444); gfx::Vector2d arbitrary_vector2d = gfx::Vector2d(111, 222); gfx::Rect arbitrary_rect = gfx::Rect(arbitrary_point, arbitrary_size); gfx::RectF arbitrary_rect_f = gfx::RectF(arbitrary_point_f, gfx::SizeF(1.234f, 5.678f)); SkColor arbitrary_color = SkColorSetRGB(10, 20, 30); gfx::Transform arbitrary_transform; arbitrary_transform.Scale3d(0.1f, 0.2f, 0.3f); FilterOperations arbitrary_filters; arbitrary_filters.Append(FilterOperation::CreateOpacityFilter(0.5f)); SkXfermode::Mode arbitrary_blend_mode = SkXfermode::kMultiply_Mode; // These properties are internal, and should not be considered "change" when // they are used. EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetUpdateRect(arbitrary_rect)); EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetBounds(arbitrary_size)); // Changing these properties affects the entire subtree of layers. EXECUTE_AND_VERIFY_SUBTREE_CHANGED( root->SetTransformOrigin(arbitrary_point_3f)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetFilters(arbitrary_filters)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetFilters(FilterOperations())); EXECUTE_AND_VERIFY_SUBTREE_CHANGED( root->SetMaskLayer(LayerImpl::Create(host_impl.active_tree(), 9))); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetMasksToBounds(true)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetContentsOpaque(true)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED( root->SetReplicaLayer(LayerImpl::Create(host_impl.active_tree(), 10))); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetPosition(arbitrary_point_f)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetShouldFlattenTransform(false)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->Set3dSortingContextId(1)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED( root->SetDoubleSided(false)); // constructor initializes it to "true". EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->ScrollBy(arbitrary_vector2d)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetScrollDelta(gfx::Vector2d())); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->PushScrollOffsetFromMainThread( gfx::ScrollOffset(arbitrary_vector2d))); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetHideLayerAndSubtree(true)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetOpacity(arbitrary_number)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetBlendMode(arbitrary_blend_mode)); EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetTransform(arbitrary_transform)); // Changing these properties only affects the layer itself. EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetContentBounds(arbitrary_size)); EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED( root->SetContentsScale(arbitrary_number, arbitrary_number)); EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetDrawsContent(true)); EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED( root->SetBackgroundColor(arbitrary_color)); EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED( root->SetBackgroundFilters(arbitrary_filters)); // Special case: check that SetBounds changes behavior depending on // masksToBounds. root->SetMasksToBounds(false); EXECUTE_AND_VERIFY_ONLY_LAYER_CHANGED(root->SetBounds(gfx::Size(135, 246))); root->SetMasksToBounds(true); // Should be a different size than previous call, to ensure it marks tree // changed. EXECUTE_AND_VERIFY_SUBTREE_CHANGED(root->SetBounds(arbitrary_size)); // Changing this property does not cause the layer to be marked as changed // but does cause the layer to need to push properties. EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetIsRootForIsolatedGroup(true)); // Changing these properties should cause the layer to need to push properties EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetScrollParent(scroll_parent.get())); EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetScrollChildren(scroll_children)); EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetClipParent(clip_parent.get())); EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetClipChildren(clip_children)); EXECUTE_AND_VERIFY_NEEDS_PUSH_PROPERTIES_AND_SUBTREE_DID_NOT_CHANGE( root->SetNumDescendantsThatDrawContent(10)); // After setting all these properties already, setting to the exact same // values again should not cause any change. EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetTransformOrigin(arbitrary_point_3f)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetMasksToBounds(true)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetPosition(arbitrary_point_f)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetShouldFlattenTransform(false)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->Set3dSortingContextId(1)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetTransform(arbitrary_transform)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetDoubleSided(false)); // constructor initializes it to "true". EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetScrollDelta(gfx::Vector2d())); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->PushScrollOffsetFromMainThread( gfx::ScrollOffset(arbitrary_vector2d))); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetContentBounds(arbitrary_size)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetContentsScale(arbitrary_number, arbitrary_number)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetContentsOpaque(true)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetOpacity(arbitrary_number)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetBlendMode(arbitrary_blend_mode)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetIsRootForIsolatedGroup(true)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetDrawsContent(true)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE(root->SetBounds(arbitrary_size)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetScrollParent(scroll_parent.get())); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetScrollChildren(scroll_children)); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetClipParent(clip_parent.get())); EXECUTE_AND_VERIFY_SUBTREE_DID_NOT_CHANGE( root->SetClipChildren(clip_children)); } TEST(LayerImplTest, VerifyNeedsUpdateDrawProperties) { FakeImplProxy proxy; TestSharedBitmapManager shared_bitmap_manager; FakeLayerTreeHostImpl host_impl(&proxy, &shared_bitmap_manager, nullptr); EXPECT_TRUE(host_impl.InitializeRenderer(FakeOutputSurface::Create3d())); host_impl.active_tree()->SetRootLayer( LayerImpl::Create(host_impl.active_tree(), 1)); LayerImpl* root = host_impl.active_tree()->root_layer(); root->SetHasRenderSurface(true); scoped_ptr layer_ptr = LayerImpl::Create(host_impl.active_tree(), 2); LayerImpl* layer = layer_ptr.get(); root->AddChild(layer_ptr.Pass()); layer->SetScrollClipLayer(root->id()); DCHECK(host_impl.CanDraw()); gfx::PointF arbitrary_point_f = gfx::PointF(0.125f, 0.25f); float arbitrary_number = 0.352f; gfx::Size arbitrary_size = gfx::Size(111, 222); gfx::Point arbitrary_point = gfx::Point(333, 444); gfx::Vector2d arbitrary_vector2d = gfx::Vector2d(111, 222); gfx::Size large_size = gfx::Size(1000, 1000); gfx::Rect arbitrary_rect = gfx::Rect(arbitrary_point, arbitrary_size); gfx::RectF arbitrary_rect_f = gfx::RectF(arbitrary_point_f, gfx::SizeF(1.234f, 5.678f)); SkColor arbitrary_color = SkColorSetRGB(10, 20, 30); gfx::Transform arbitrary_transform; arbitrary_transform.Scale3d(0.1f, 0.2f, 0.3f); FilterOperations arbitrary_filters; arbitrary_filters.Append(FilterOperation::CreateOpacityFilter(0.5f)); SkXfermode::Mode arbitrary_blend_mode = SkXfermode::kMultiply_Mode; // Render surface functions. VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(true)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(true)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(false)); // Create a render surface, because we must have a render surface if we have // filters. VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetHasRenderSurface(true)); // Related filter functions. VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetFilters(arbitrary_filters)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetFilters(arbitrary_filters)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetFilters(FilterOperations())); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetFilters(arbitrary_filters)); // Related scrolling functions. VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(large_size)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(large_size)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->ScrollBy(arbitrary_vector2d)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->ScrollBy(gfx::Vector2d())); layer->SetScrollDelta(gfx::Vector2d(0, 0)); host_impl.ForcePrepareToDraw(); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetScrollDelta(arbitrary_vector2d)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetScrollDelta(arbitrary_vector2d)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->PushScrollOffsetFromMainThread( gfx::ScrollOffset(arbitrary_vector2d))); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->PushScrollOffsetFromMainThread( gfx::ScrollOffset(arbitrary_vector2d))); // Unrelated functions, always set to new values, always set needs update. VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetMaskLayer(LayerImpl::Create(host_impl.active_tree(), 4))); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetMasksToBounds(true)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetContentsOpaque(true)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetReplicaLayer(LayerImpl::Create(host_impl.active_tree(), 5))); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetPosition(arbitrary_point_f)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetShouldFlattenTransform(false)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->Set3dSortingContextId(1)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetDoubleSided(false)); // constructor initializes it to "true". VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetContentBounds(arbitrary_size)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetContentsScale(arbitrary_number, arbitrary_number)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetDrawsContent(true)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetBackgroundColor(arbitrary_color)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetBackgroundFilters(arbitrary_filters)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetOpacity(arbitrary_number)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetBlendMode(arbitrary_blend_mode)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetTransform(arbitrary_transform)); VERIFY_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(arbitrary_size)); // Unrelated functions, set to the same values, no needs update. VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetIsRootForIsolatedGroup(true)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetFilters(arbitrary_filters)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetMasksToBounds(true)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetContentsOpaque(true)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetPosition(arbitrary_point_f)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->Set3dSortingContextId(1)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetDoubleSided(false)); // constructor initializes it to "true". VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetContentBounds(arbitrary_size)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetContentsScale(arbitrary_number, arbitrary_number)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetDrawsContent(true)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetBackgroundColor(arbitrary_color)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetBackgroundFilters(arbitrary_filters)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetOpacity(arbitrary_number)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetBlendMode(arbitrary_blend_mode)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetIsRootForIsolatedGroup(true)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES( layer->SetTransform(arbitrary_transform)); VERIFY_NO_NEEDS_UPDATE_DRAW_PROPERTIES(layer->SetBounds(arbitrary_size)); } TEST(LayerImplTest, SafeOpaqueBackgroundColor) { FakeImplProxy proxy; TestSharedBitmapManager shared_bitmap_manager; FakeLayerTreeHostImpl host_impl(&proxy, &shared_bitmap_manager, nullptr); EXPECT_TRUE(host_impl.InitializeRenderer(FakeOutputSurface::Create3d())); scoped_ptr layer = LayerImpl::Create(host_impl.active_tree(), 1); for (int contents_opaque = 0; contents_opaque < 2; ++contents_opaque) { for (int layer_opaque = 0; layer_opaque < 2; ++layer_opaque) { for (int host_opaque = 0; host_opaque < 2; ++host_opaque) { layer->SetContentsOpaque(!!contents_opaque); layer->SetBackgroundColor(layer_opaque ? SK_ColorRED : SK_ColorTRANSPARENT); host_impl.active_tree()->set_background_color( host_opaque ? SK_ColorRED : SK_ColorTRANSPARENT); SkColor safe_color = layer->SafeOpaqueBackgroundColor(); if (contents_opaque) { EXPECT_EQ(SkColorGetA(safe_color), 255u) << "Flags: " << contents_opaque << ", " << layer_opaque << ", " << host_opaque << "\n"; } else { EXPECT_NE(SkColorGetA(safe_color), 255u) << "Flags: " << contents_opaque << ", " << layer_opaque << ", " << host_opaque << "\n"; } } } } } TEST(LayerImplTest, TransformInvertibility) { FakeImplProxy proxy; TestSharedBitmapManager shared_bitmap_manager; FakeLayerTreeHostImpl host_impl(&proxy, &shared_bitmap_manager, nullptr); scoped_ptr layer = LayerImpl::Create(host_impl.active_tree(), 1); EXPECT_TRUE(layer->transform().IsInvertible()); EXPECT_TRUE(layer->transform_is_invertible()); gfx::Transform transform; transform.Scale3d( SkDoubleToMScalar(1.0), SkDoubleToMScalar(1.0), SkDoubleToMScalar(0.0)); layer->SetTransform(transform); EXPECT_FALSE(layer->transform().IsInvertible()); EXPECT_FALSE(layer->transform_is_invertible()); transform.MakeIdentity(); transform.ApplyPerspectiveDepth(SkDoubleToMScalar(100.0)); transform.RotateAboutZAxis(75.0); transform.RotateAboutXAxis(32.2); transform.RotateAboutZAxis(-75.0); transform.Translate3d(SkDoubleToMScalar(50.5), SkDoubleToMScalar(42.42), SkDoubleToMScalar(-100.25)); layer->SetTransform(transform); EXPECT_TRUE(layer->transform().IsInvertible()); EXPECT_TRUE(layer->transform_is_invertible()); } class LayerImplScrollTest : public testing::Test { public: LayerImplScrollTest() : host_impl_(settings(), &proxy_, &shared_bitmap_manager_, &task_graph_runner_), root_id_(7) { host_impl_.active_tree()->SetRootLayer( LayerImpl::Create(host_impl_.active_tree(), root_id_)); host_impl_.active_tree()->root_layer()->AddChild( LayerImpl::Create(host_impl_.active_tree(), root_id_ + 1)); layer()->SetScrollClipLayer(root_id_); // Set the max scroll offset by noting that the root layer has bounds (1,1), // thus whatever bounds are set for the layer will be the max scroll // offset plus 1 in each direction. host_impl_.active_tree()->root_layer()->SetBounds(gfx::Size(1, 1)); gfx::Vector2d max_scroll_offset(51, 81); layer()->SetBounds(gfx::Size(max_scroll_offset.x(), max_scroll_offset.y())); } LayerImpl* layer() { return host_impl_.active_tree()->root_layer()->children()[0]; } LayerTreeHostImpl& host_impl() { return host_impl_; } LayerTreeImpl* tree() { return host_impl_.active_tree(); } LayerTreeSettings settings() { LayerTreeSettings settings; settings.use_pinch_virtual_viewport = true; return settings; } private: FakeImplProxy proxy_; TestSharedBitmapManager shared_bitmap_manager_; TestTaskGraphRunner task_graph_runner_; FakeLayerTreeHostImpl host_impl_; int root_id_; }; TEST_F(LayerImplScrollTest, ScrollByWithZeroOffset) { // Test that LayerImpl::ScrollBy only affects ScrollDelta and total scroll // offset is bounded by the range [0, max scroll offset]. EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->BaseScrollOffset()); EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->ScrollDelta()); layer()->ScrollBy(gfx::Vector2dF(-100, 100)); EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 80), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(layer()->ScrollDelta(), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->BaseScrollOffset()); layer()->ScrollBy(gfx::Vector2dF(100, -100)); EXPECT_VECTOR_EQ(gfx::Vector2dF(50, 0), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(layer()->ScrollDelta(), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->BaseScrollOffset()); } TEST_F(LayerImplScrollTest, ScrollByWithNonZeroOffset) { gfx::ScrollOffset scroll_offset(10, 5); layer()->PushScrollOffsetFromMainThread(scroll_offset); EXPECT_VECTOR_EQ(scroll_offset, layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(scroll_offset, layer()->BaseScrollOffset()); EXPECT_VECTOR_EQ(gfx::Vector2dF(), layer()->ScrollDelta()); layer()->ScrollBy(gfx::Vector2dF(-100, 100)); EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 80), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ( gfx::ScrollOffsetWithDelta(scroll_offset, layer()->ScrollDelta()), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(scroll_offset, layer()->BaseScrollOffset()); layer()->ScrollBy(gfx::Vector2dF(100, -100)); EXPECT_VECTOR_EQ(gfx::Vector2dF(50, 0), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ( gfx::ScrollOffsetWithDelta(scroll_offset, layer()->ScrollDelta()), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(scroll_offset, layer()->BaseScrollOffset()); } TEST_F(LayerImplScrollTest, ApplySentScrollsNoListener) { gfx::ScrollOffset scroll_offset(10, 5); gfx::Vector2dF scroll_delta(20.5f, 8.5f); gfx::Vector2d sent_scroll_delta(12, -3); layer()->PushScrollOffsetFromMainThread(scroll_offset); layer()->ScrollBy(sent_scroll_delta); layer()->PullDeltaForMainThread(); layer()->SetCurrentScrollOffset(scroll_offset + gfx::ScrollOffset(scroll_delta)); EXPECT_VECTOR_EQ(gfx::ScrollOffsetWithDelta(scroll_offset, scroll_delta), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(scroll_delta, layer()->ScrollDelta()); EXPECT_VECTOR_EQ(scroll_offset, layer()->BaseScrollOffset()); layer()->ApplySentScrollDeltasFromAbortedCommit(); EXPECT_VECTOR_EQ(gfx::ScrollOffsetWithDelta(scroll_offset, scroll_delta), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(scroll_delta - sent_scroll_delta, layer()->ScrollDelta()); EXPECT_VECTOR_EQ(gfx::ScrollOffsetWithDelta(scroll_offset, sent_scroll_delta), layer()->BaseScrollOffset()); } TEST_F(LayerImplScrollTest, ScrollUserUnscrollableLayer) { gfx::ScrollOffset scroll_offset(10, 5); gfx::Vector2dF scroll_delta(20.5f, 8.5f); layer()->set_user_scrollable_vertical(false); layer()->PushScrollOffsetFromMainThread(scroll_offset); gfx::Vector2dF unscrolled = layer()->ScrollBy(scroll_delta); EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 8.5f), unscrolled); EXPECT_VECTOR_EQ(gfx::Vector2dF(30.5f, 5), layer()->CurrentScrollOffset()); } TEST_F(LayerImplScrollTest, PushPropertiesToMirrorsCurrentScrollOffset) { gfx::ScrollOffset scroll_offset(10, 5); gfx::Vector2dF scroll_delta(12, 18); host_impl().CreatePendingTree(); layer()->PushScrollOffsetFromMainThread(scroll_offset); gfx::Vector2dF unscrolled = layer()->ScrollBy(scroll_delta); EXPECT_VECTOR_EQ(gfx::Vector2dF(0, 0), unscrolled); EXPECT_VECTOR_EQ(gfx::Vector2dF(22, 23), layer()->CurrentScrollOffset()); layer()->PullDeltaForMainThread(); scoped_ptr pending_layer = LayerImpl::Create( host_impl().sync_tree(), layer()->id(), layer()->synced_scroll_offset()); pending_layer->PushScrollOffsetFromMainThread(layer()->CurrentScrollOffset()); pending_layer->PushPropertiesTo(layer()); EXPECT_VECTOR_EQ(gfx::Vector2dF(22, 23), layer()->CurrentScrollOffset()); EXPECT_VECTOR_EQ(layer()->CurrentScrollOffset(), pending_layer->CurrentScrollOffset()); } TEST_F(LayerImplScrollTest, SetNewScrollbarParameters) { gfx::ScrollOffset scroll_offset(10, 5); layer()->PushScrollOffsetFromMainThread(scroll_offset); scoped_ptr vertical_scrollbar( PaintedScrollbarLayerImpl::Create(tree(), 100, VERTICAL)); vertical_scrollbar->SetScrollLayerAndClipLayerByIds( layer()->id(), tree()->root_layer()->id()); int expected_vertical_maximum = layer()->bounds().height() - tree()->root_layer()->bounds().height(); EXPECT_EQ(expected_vertical_maximum, vertical_scrollbar->maximum()); EXPECT_EQ(scroll_offset.y(), vertical_scrollbar->current_pos()); scoped_ptr horizontal_scrollbar( PaintedScrollbarLayerImpl::Create(tree(), 101, HORIZONTAL)); horizontal_scrollbar->SetScrollLayerAndClipLayerByIds( layer()->id(), tree()->root_layer()->id()); int expected_horizontal_maximum = layer()->bounds().width() - tree()->root_layer()->bounds().width(); EXPECT_EQ(expected_horizontal_maximum, horizontal_scrollbar->maximum()); EXPECT_EQ(scroll_offset.x(), horizontal_scrollbar->current_pos()); } class LayerImplScrollbarSyncTest : public testing::Test { public: enum { ROOT = 1, IV_CLIP = 2, PAGE = 3, IV_SCROLL = 4, SCROLLBAR = 5, OLD_ROOT = 6, OV_CLIP = 7, OV_SCROLL = 8, }; enum TreeID { PENDING, ACTIVE }; LayerImplScrollbarSyncTest() : host_impl_(settings(), &proxy_, &shared_bitmap_manager_, &task_graph_runner_) { host_impl_.CreatePendingTree(); CreateLayers(host_impl_.pending_tree()); CreateLayers(host_impl_.active_tree()); } void CreateLayers(LayerTreeImpl * tree) { tree->SetRootLayer(LayerImpl::Create(tree, ROOT)); LayerImpl * root = tree->root_layer(); ASSERT_TRUE(root != nullptr); int hierarchy[] = {IV_CLIP, PAGE, IV_SCROLL, OLD_ROOT, OV_CLIP, OV_SCROLL}; LayerImpl * parent = root; for (int child_id : hierarchy) { parent->AddChild(LayerImpl::Create(tree, child_id)); parent = tree->LayerById(child_id); ASSERT_TRUE(parent != nullptr); } root->AddChild( SolidColorScrollbarLayerImpl::Create(tree, SCROLLBAR, HORIZONTAL, 5, 5, false, true)); } LayerImpl* layer(int id, TreeID tree_id) { LayerTreeImpl* tree = ((tree_id == PENDING) ? host_impl_.pending_tree() : host_impl_.active_tree()); assert(tree); return tree->LayerById(id); } bool LayerHasScrollbar(int id, TreeID tree_id) { return layer(id, tree_id)->HasScrollbar(HORIZONTAL); } ScrollbarLayerImplBase* pending_scrollbar() { LayerImpl* layer_impl = layer(SCROLLBAR, PENDING); assert(layer_impl); return layer_impl->ToScrollbarLayer(); } LayerImpl* pending_root() { LayerImpl * result = layer(ROOT, PENDING); assert(result); return result; } LayerImpl* active_root() { LayerImpl * result = layer(ROOT, ACTIVE); assert(result); return result; } LayerTreeSettings settings() { LayerTreeSettings settings; settings.use_pinch_virtual_viewport = true; return settings; } private: FakeImplProxy proxy_; TestSharedBitmapManager shared_bitmap_manager_; TestTaskGraphRunner task_graph_runner_; FakeLayerTreeHostImpl host_impl_; }; TEST_F(LayerImplScrollbarSyncTest, LayerImplBecomesScrollable) { // In the beginning IV_SCROLL layer is not scrollable. ASSERT_FALSE(layer(IV_SCROLL, PENDING)->scrollable()); // For pinch virtual viewport the clip layer is the inner viewport // clip layer (IV_CLIP) and the scroll one is the outer viewport // scroll layer (OV_SCROLL). pending_scrollbar()->SetScrollLayerAndClipLayerByIds(OV_SCROLL, IV_CLIP); ASSERT_TRUE(LayerHasScrollbar(OV_SCROLL, PENDING)); ASSERT_TRUE(LayerHasScrollbar(IV_CLIP, PENDING)); // Synchronize with the active tree. TreeSynchronizer::PushProperties(pending_root(), active_root()); ASSERT_TRUE(LayerHasScrollbar(OV_SCROLL, ACTIVE)); ASSERT_TRUE(LayerHasScrollbar(IV_CLIP, ACTIVE)); // Make IV_SCROLL layer scrollable. layer(IV_SCROLL, PENDING)->SetScrollClipLayer(IV_CLIP); layer(IV_SCROLL, PENDING)->SetNeedsPushProperties(); ASSERT_TRUE(layer(IV_SCROLL, PENDING)->scrollable()); pending_scrollbar()->SetScrollLayerAndClipLayerByIds(OV_SCROLL, IV_CLIP); // Now IV_CLIP layer should also receive the scrollbar. ASSERT_TRUE(LayerHasScrollbar(OV_SCROLL, PENDING)); ASSERT_TRUE(LayerHasScrollbar(IV_CLIP, PENDING)); ASSERT_TRUE(LayerHasScrollbar(IV_SCROLL, PENDING)); // Synchronize with the active tree. TreeSynchronizer::PushProperties(pending_root(), active_root()); ASSERT_TRUE(layer(IV_SCROLL, ACTIVE)->scrollable()); ASSERT_TRUE(LayerHasScrollbar(OV_SCROLL, ACTIVE)); ASSERT_TRUE(LayerHasScrollbar(IV_CLIP, ACTIVE)); ASSERT_TRUE(LayerHasScrollbar(IV_SCROLL, ACTIVE)); } } // namespace } // namespace cc