// Copyright 2012 The Chromium Authors. All rights reserved. // Use of this source code is governed by a BSD-style license that can be // found in the LICENSE file. #include "cc/trees/layer_tree_host.h" #include "cc/layers/layer.h" #include "cc/output/copy_output_request.h" #include "cc/output/copy_output_result.h" #include "cc/test/layer_tree_test.h" #include "cc/test/test_occlusion_tracker.h" namespace cc { namespace { class TestLayer : public Layer { public: static scoped_refptr Create() { return make_scoped_refptr(new TestLayer()); } virtual bool Update(ResourceUpdateQueue* update_queue, const OcclusionTracker* occlusion) OVERRIDE { if (!occlusion) return false; // Gain access to internals of the OcclusionTracker. const TestOcclusionTracker* test_occlusion = static_cast*>(occlusion); occlusion_ = UnionRegions( test_occlusion->occlusion_from_inside_target(), test_occlusion->occlusion_from_outside_target()); return false; } const Region& occlusion() const { return occlusion_; } const Region& expected_occlusion() const { return expected_occlusion_; } void set_expected_occlusion(const Region& occlusion) { expected_occlusion_ = occlusion; } private: TestLayer() : Layer() { SetIsDrawable(true); } virtual ~TestLayer() {} Region occlusion_; Region expected_occlusion_; }; class LayerTreeHostOcclusionTest : public LayerTreeTest { public: LayerTreeHostOcclusionTest() : root_(TestLayer::Create()), child_(TestLayer::Create()), child2_(TestLayer::Create()), grand_child_(TestLayer::Create()), mask_(TestLayer::Create()) { } virtual void BeginTest() OVERRIDE { PostSetNeedsCommitToMainThread(); } virtual void DidCommit() OVERRIDE { TestLayer* root = static_cast(layer_tree_host()->root_layer()); VerifyOcclusion(root); EndTest(); } virtual void AfterTest() OVERRIDE {} void VerifyOcclusion(TestLayer* layer) const { EXPECT_EQ(layer->expected_occlusion().ToString(), layer->occlusion().ToString()); for (size_t i = 0; i < layer->children().size(); ++i) { TestLayer* child = static_cast(layer->children()[i].get()); VerifyOcclusion(child); } } void SetLayerPropertiesForTesting(TestLayer* layer, TestLayer* parent, const gfx::Transform& transform, const gfx::PointF& position, const gfx::Size& bounds, bool opaque) const { layer->RemoveAllChildren(); if (parent) parent->AddChild(layer); layer->SetTransform(transform); layer->SetPosition(position); layer->SetBounds(bounds); layer->SetContentsOpaque(opaque); layer->SetAnchorPoint(gfx::PointF()); } protected: virtual void InitializeSettings(LayerTreeSettings* settings) OVERRIDE { settings->minimum_occlusion_tracking_size = gfx::Size(); } scoped_refptr root_; scoped_refptr child_; scoped_refptr child2_; scoped_refptr grand_child_; scoped_refptr mask_; gfx::Transform identity_matrix_; }; class LayerTreeHostOcclusionTestOcclusionSurfaceClipping : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // The child layer is a surface and the grand_child is opaque, but clipped // to the child and root SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), false); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); child_->set_expected_occlusion(gfx::Rect(0, 0, 10, 190)); root_->set_expected_occlusion(gfx::Rect(10, 10, 10, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionSurfaceClipping); class LayerTreeHostOcclusionTestOcclusionSurfaceClippingOpaque : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer is opaque, then it adds to the occlusion seen by the // root_. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); child_->set_expected_occlusion(gfx::Rect(0, 0, 10, 190)); root_->set_expected_occlusion(gfx::Rect(10, 10, 190, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionSurfaceClippingOpaque); class LayerTreeHostOcclusionTestOcclusionTwoChildren : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // Add a second child to the root layer and the regions should merge SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), false); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 10.f), gfx::Size(10, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); grand_child_->set_expected_occlusion(gfx::Rect(10, 0, 10, 190)); child_->set_expected_occlusion(gfx::Rect(0, 0, 20, 190)); root_->set_expected_occlusion(gfx::Rect(10, 10, 20, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionTwoChildren); class LayerTreeHostOcclusionTestOcclusionMask : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer has a mask on it, then it shouldn't contribute to // occlusion on stuff below it. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 20.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(500, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); child_->SetMaskLayer(mask_.get()); child_->set_expected_occlusion(gfx::Rect(0, 0, 180, 180)); root_->set_expected_occlusion(gfx::Rect(10, 10, 190, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostOcclusionTestOcclusionMask); class LayerTreeHostOcclusionTestOcclusionMaskBelowOcclusion : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer with a mask is below child2, then child2 should // contribute to occlusion on everything, and child shouldn't contribute // to the root_. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 10.f), gfx::Size(10, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); child_->SetMaskLayer(mask_.get()); grand_child_->set_expected_occlusion(gfx::Rect(10, 0, 10, 190)); child_->set_expected_occlusion(gfx::Rect(0, 0, 20, 190)); root_->set_expected_occlusion(gfx::Rect(20, 10, 10, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionMaskBelowOcclusion); class LayerTreeHostOcclusionTestOcclusionOpacity : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer has a non-opaque opacity, then it shouldn't // contribute to occlusion on stuff below it SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 10.f), gfx::Size(10, 500), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); child_->SetOpacity(0.5f); child_->set_expected_occlusion(gfx::Rect(0, 0, 10, 190)); root_->set_expected_occlusion(gfx::Rect(20, 10, 10, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostOcclusionTestOcclusionOpacity); class LayerTreeHostOcclusionTestOcclusionOpacityBelowOcclusion : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer with non-opaque opacity is below child2, then // child2 should contribute to occlusion on everything, and child shouldn't // contribute to the root_. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 10.f), gfx::Size(10, 500), true); child_->SetMasksToBounds(true); child_->SetForceRenderSurface(true); child_->SetOpacity(0.5f); grand_child_->set_expected_occlusion(gfx::Rect(10, 0, 10, 190)); child_->set_expected_occlusion(gfx::Rect(0, 0, 20, 190)); root_->set_expected_occlusion(gfx::Rect(20, 10, 10, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionOpacityBelowOcclusion); class LayerTreeHostOcclusionTestOcclusionBlending : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer has a blend mode, then it shouldn't // contribute to occlusion on stuff below it SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 10.f), gfx::Size(10, 500), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); child_->SetMasksToBounds(true); child_->SetBlendMode(SkXfermode::kMultiply_Mode); child_->SetForceRenderSurface(true); child_->set_expected_occlusion(gfx::Rect(0, 0, 10, 190)); root_->set_expected_occlusion(gfx::Rect(20, 10, 10, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostOcclusionTestOcclusionBlending); class LayerTreeHostOcclusionTestOcclusionBlendingBelowOcclusion : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer with a blend mode is below child2, then // child2 should contribute to occlusion on everything, and child shouldn't // contribute to the root_. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(-10.f, -10.f), gfx::Size(20, 500), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(20.f, 10.f), gfx::Size(10, 500), true); child_->SetMasksToBounds(true); child_->SetBlendMode(SkXfermode::kMultiply_Mode); grand_child_->set_expected_occlusion(gfx::Rect(10, 0, 10, 190)); child_->set_expected_occlusion(gfx::Rect(0, 0, 20, 190)); root_->set_expected_occlusion(gfx::Rect(20, 10, 10, 190)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionBlendingBelowOcclusion); class LayerTreeHostOcclusionTestOcclusionOpacityFilter : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { gfx::Transform child_transform; child_transform.Translate(250.0, 250.0); child_transform.Rotate(90.0); child_transform.Translate(-250.0, -250.0); FilterOperations filters; filters.Append(FilterOperation::CreateOpacityFilter(0.5f)); // If the child layer has a filter that changes alpha values, and is below // child2, then child2 should contribute to occlusion on everything, // and child shouldn't contribute to the root SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), child_transform, gfx::PointF(30.f, 30.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 70.f), gfx::Size(500, 500), true); child_->SetMasksToBounds(true); child_->SetFilters(filters); grand_child_->set_expected_occlusion(gfx::Rect(40, 330, 130, 190)); child_->set_expected_occlusion(UnionRegions( gfx::Rect(10, 330, 160, 170), gfx::Rect(40, 500, 130, 20))); root_->set_expected_occlusion(gfx::Rect(10, 70, 190, 130)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionOpacityFilter); class LayerTreeHostOcclusionTestOcclusionBlurFilter : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { gfx::Transform child_transform; child_transform.Translate(250.0, 250.0); child_transform.Rotate(90.0); child_transform.Translate(-250.0, -250.0); FilterOperations filters; filters.Append(FilterOperation::CreateBlurFilter(10.f)); // If the child layer has a filter that moves pixels/changes alpha, and is // below child2, then child should not inherit occlusion from outside its // subtree, and should not contribute to the root SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(200, 200), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), child_transform, gfx::PointF(30.f, 30.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(10.f, 10.f), gfx::Size(500, 500), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(10.f, 70.f), gfx::Size(500, 500), true); child_->SetMasksToBounds(true); child_->SetFilters(filters); child_->set_expected_occlusion(gfx::Rect(10, 330, 160, 170)); root_->set_expected_occlusion(gfx::Rect(10, 70, 190, 130)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F( LayerTreeHostOcclusionTestOcclusionBlurFilter); class LayerTreeHostOcclusionTestOcclusionCopyRequest : public LayerTreeHostOcclusionTest { public: static void CopyOutputCallback(scoped_ptr result) {} virtual void SetupTree() OVERRIDE { // If the child layer has copy request, and is below child2, // then child should not inherit occlusion from outside its subtree. // The child layer will still receive occlusion from inside, and // the root layer will recive occlusion from child. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(), gfx::Size(100, 100), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(), gfx::Size(75, 75), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(), gfx::Size(75, 50), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(0.f, 25.f), gfx::Size(75, 75), true); child_->RequestCopyOfOutput(CopyOutputRequest::CreateBitmapRequest( base::Bind(&CopyOutputCallback))); EXPECT_TRUE(child_->HasCopyRequest()); child_->set_expected_occlusion(gfx::Rect(0, 0, 75, 50)); root_->set_expected_occlusion(gfx::Rect(0, 0, 75, 100)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostOcclusionTestOcclusionCopyRequest); class LayerTreeHostOcclusionTestOcclusionReplica : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // If the child layer has copy request, and is below child2, // then child should not inherit occlusion from outside its subtree. // The child layer will still receive occlusion from inside, and // the root layer will recive occlusion from child. SetLayerPropertiesForTesting( root_.get(), NULL, identity_matrix_, gfx::PointF(), gfx::Size(100, 100), true); SetLayerPropertiesForTesting( child_.get(), root_.get(), identity_matrix_, gfx::PointF(), gfx::Size(75, 75), true); SetLayerPropertiesForTesting( grand_child_.get(), child_.get(), identity_matrix_, gfx::PointF(), gfx::Size(75, 50), true); SetLayerPropertiesForTesting( child2_.get(), root_.get(), identity_matrix_, gfx::PointF(0.f, 25.f), gfx::Size(75, 75), true); scoped_refptr replica_layer(Layer::Create()); child_->SetReplicaLayer(replica_layer.get()); EXPECT_TRUE(child_->has_replica()); child_->set_expected_occlusion(gfx::Rect(0, 0, 75, 50)); root_->set_expected_occlusion(gfx::Rect(0, 0, 75, 100)); layer_tree_host()->SetRootLayer(root_); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostOcclusionTestOcclusionReplica); class LayerTreeHostOcclusionTestManySurfaces : public LayerTreeHostOcclusionTest { public: virtual void SetupTree() OVERRIDE { // We create enough RenderSurfaces that it will trigger Vector reallocation // while computing occlusion. std::vector > layers; int num_surfaces = 200; int root_width = 400; int root_height = 400; for (int i = 0; i < num_surfaces; ++i) { layers.push_back(TestLayer::Create()); if (i == 0) { SetLayerPropertiesForTesting( layers.back().get(), NULL, identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(root_width, root_height), true); } else { SetLayerPropertiesForTesting( layers.back().get(), layers[layers.size() - 2].get(), identity_matrix_, gfx::PointF(1.f, 1.f), gfx::Size(root_width-i, root_height-i), true); layers.back()->SetForceRenderSurface(true); } } for (int i = 1; i < num_surfaces; ++i) { scoped_refptr child = TestLayer::Create(); SetLayerPropertiesForTesting( child.get(), layers[i].get(), identity_matrix_, gfx::PointF(0.f, 0.f), gfx::Size(root_width, root_height), false); } for (int i = 0; i < num_surfaces-1; ++i) { gfx::Rect expected_occlusion(1, 1, root_width-i-1, root_height-i-1); layers[i]->set_expected_occlusion(expected_occlusion); } layer_tree_host()->SetRootLayer(layers[0]); LayerTreeTest::SetupTree(); } }; SINGLE_AND_MULTI_THREAD_TEST_F(LayerTreeHostOcclusionTestManySurfaces); } // namespace } // namespace cc