// Copyright (c) 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 "base/basictypes.h" #include "base/bind.h" #include "base/compiler_specific.h" #include "base/debug/trace_event.h" #include "base/files/file_path.h" #include "base/files/file_util.h" #include "base/json/json_reader.h" #include "base/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/path_service.h" #include "base/strings/string_util.h" #include "base/strings/stringprintf.h" #include "cc/layers/delegated_frame_provider.h" #include "cc/layers/delegated_frame_resource_collection.h" #include "cc/layers/layer.h" #include "cc/output/copy_output_request.h" #include "cc/output/copy_output_result.h" #include "cc/output/delegated_frame_data.h" #include "cc/test/pixel_test_utils.h" #include "testing/gtest/include/gtest/gtest.h" #include "ui/compositor/compositor_observer.h" #include "ui/compositor/dip_util.h" #include "ui/compositor/layer.h" #include "ui/compositor/layer_animation_sequence.h" #include "ui/compositor/layer_animator.h" #include "ui/compositor/test/context_factories_for_test.h" #include "ui/compositor/test/draw_waiter_for_test.h" #include "ui/compositor/test/test_compositor_host.h" #include "ui/compositor/test/test_layers.h" #include "ui/gfx/canvas.h" #include "ui/gfx/codec/png_codec.h" #include "ui/gfx/gfx_paths.h" #include "ui/gfx/skia_util.h" using cc::MatchesPNGFile; namespace ui { namespace { // There are three test classes in here that configure the Compositor and // Layer's slightly differently: // - LayerWithNullDelegateTest uses NullLayerDelegate as the LayerDelegate. This // is typically the base class you want to use. // - LayerWithDelegateTest uses LayerDelegate on the delegates. // - LayerWithRealCompositorTest when a real compositor is required for testing. // - Slow because they bring up a window and run the real compositor. This // is typically not what you want. class ColoredLayer : public Layer, public LayerDelegate { public: explicit ColoredLayer(SkColor color) : Layer(LAYER_TEXTURED), color_(color) { set_delegate(this); } ~ColoredLayer() override {} // Overridden from LayerDelegate: void OnPaintLayer(gfx::Canvas* canvas) override { canvas->DrawColor(color_); } void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override {} void OnDeviceScaleFactorChanged(float device_scale_factor) override {} base::Closure PrepareForLayerBoundsChange() override { return base::Closure(); } private: SkColor color_; }; class LayerWithRealCompositorTest : public testing::Test { public: LayerWithRealCompositorTest() { if (PathService::Get(gfx::DIR_TEST_DATA, &test_data_directory_)) { test_data_directory_ = test_data_directory_.AppendASCII("compositor"); } else { LOG(ERROR) << "Could not open test data directory."; } } ~LayerWithRealCompositorTest() override {} // Overridden from testing::Test: void SetUp() override { bool enable_pixel_output = true; ui::ContextFactory* context_factory = InitializeContextFactoryForTests(enable_pixel_output); const gfx::Rect host_bounds(10, 10, 500, 500); compositor_host_.reset( TestCompositorHost::Create(host_bounds, context_factory)); compositor_host_->Show(); } void TearDown() override { compositor_host_.reset(); TerminateContextFactoryForTests(); } Compositor* GetCompositor() { return compositor_host_->GetCompositor(); } Layer* CreateLayer(LayerType type) { return new Layer(type); } Layer* CreateColorLayer(SkColor color, const gfx::Rect& bounds) { Layer* layer = new ColoredLayer(color); layer->SetBounds(bounds); return layer; } Layer* CreateNoTextureLayer(const gfx::Rect& bounds) { Layer* layer = CreateLayer(LAYER_NOT_DRAWN); layer->SetBounds(bounds); return layer; } void DrawTree(Layer* root) { GetCompositor()->SetRootLayer(root); GetCompositor()->ScheduleDraw(); WaitForDraw(); } void ReadPixels(SkBitmap* bitmap) { ReadPixels(bitmap, gfx::Rect(GetCompositor()->size())); } void ReadPixels(SkBitmap* bitmap, gfx::Rect source_rect) { scoped_refptr holder(new ReadbackHolder); scoped_ptr request = cc::CopyOutputRequest::CreateBitmapRequest( base::Bind(&ReadbackHolder::OutputRequestCallback, holder)); request->set_area(source_rect); GetCompositor()->root_layer()->RequestCopyOfOutput(request.Pass()); // Wait for copy response. This needs to wait as the compositor could // be in the middle of a draw right now, and the commit with the // copy output request may not be done on the first draw. for (int i = 0; i < 2; i++) { GetCompositor()->ScheduleDraw(); WaitForDraw(); } // Waits for the callback to finish run and return result. holder->WaitForReadback(); *bitmap = holder->result(); } void WaitForDraw() { ui::DrawWaiterForTest::Wait(GetCompositor()); } void WaitForCommit() { ui::DrawWaiterForTest::WaitForCommit(GetCompositor()); } // Invalidates the entire contents of the layer. void SchedulePaintForLayer(Layer* layer) { layer->SchedulePaint( gfx::Rect(0, 0, layer->bounds().width(), layer->bounds().height())); } const base::FilePath& test_data_directory() const { return test_data_directory_; } private: class ReadbackHolder : public base::RefCountedThreadSafe { public: ReadbackHolder() : run_loop_(new base::RunLoop) {} void OutputRequestCallback(scoped_ptr result) { result_ = result->TakeBitmap(); run_loop_->Quit(); } void WaitForReadback() { run_loop_->Run(); } const SkBitmap& result() const { return *result_; } private: friend class base::RefCountedThreadSafe; virtual ~ReadbackHolder() {} scoped_ptr result_; scoped_ptr run_loop_; }; scoped_ptr compositor_host_; // The root directory for test files. base::FilePath test_data_directory_; DISALLOW_COPY_AND_ASSIGN(LayerWithRealCompositorTest); }; // LayerDelegate that paints colors to the layer. class TestLayerDelegate : public LayerDelegate { public: explicit TestLayerDelegate() { reset(); } ~TestLayerDelegate() override {} void AddColor(SkColor color) { colors_.push_back(color); } const gfx::Size& paint_size() const { return paint_size_; } int color_index() const { return color_index_; } std::string ToScaleString() const { return base::StringPrintf("%.1f %.1f", scale_x_, scale_y_); } float device_scale_factor() const { return device_scale_factor_; } // Overridden from LayerDelegate: void OnPaintLayer(gfx::Canvas* canvas) override { SkISize size = canvas->sk_canvas()->getBaseLayerSize(); paint_size_ = gfx::Size(size.width(), size.height()); canvas->DrawColor(colors_[color_index_]); color_index_ = (color_index_ + 1) % static_cast(colors_.size()); const SkMatrix& matrix = canvas->sk_canvas()->getTotalMatrix(); scale_x_ = matrix.getScaleX(); scale_y_ = matrix.getScaleY(); } void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override {} void OnDeviceScaleFactorChanged(float device_scale_factor) override { device_scale_factor_ = device_scale_factor; } base::Closure PrepareForLayerBoundsChange() override { return base::Closure(); } void reset() { color_index_ = 0; paint_size_.SetSize(0, 0); scale_x_ = scale_y_ = 0.0f; device_scale_factor_ = 0.0f; } private: std::vector colors_; int color_index_; gfx::Size paint_size_; float scale_x_; float scale_y_; float device_scale_factor_; DISALLOW_COPY_AND_ASSIGN(TestLayerDelegate); }; // LayerDelegate that verifies that a layer was asked to update its canvas. class DrawTreeLayerDelegate : public LayerDelegate { public: DrawTreeLayerDelegate() : painted_(false) {} ~DrawTreeLayerDelegate() override {} void Reset() { painted_ = false; } bool painted() const { return painted_; } private: // Overridden from LayerDelegate: void OnPaintLayer(gfx::Canvas* canvas) override { painted_ = true; canvas->DrawColor(SK_ColorWHITE); } void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override {} void OnDeviceScaleFactorChanged(float device_scale_factor) override {} base::Closure PrepareForLayerBoundsChange() override { return base::Closure(); } bool painted_; DISALLOW_COPY_AND_ASSIGN(DrawTreeLayerDelegate); }; // The simplest possible layer delegate. Does nothing. class NullLayerDelegate : public LayerDelegate { public: NullLayerDelegate() {} ~NullLayerDelegate() override {} private: // Overridden from LayerDelegate: void OnPaintLayer(gfx::Canvas* canvas) override {} void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override {} void OnDeviceScaleFactorChanged(float device_scale_factor) override {} base::Closure PrepareForLayerBoundsChange() override { return base::Closure(); } DISALLOW_COPY_AND_ASSIGN(NullLayerDelegate); }; // Remembers if it has been notified. class TestCompositorObserver : public CompositorObserver { public: TestCompositorObserver() : committed_(false), started_(false), ended_(false), aborted_(false) {} bool committed() const { return committed_; } bool notified() const { return started_ && ended_; } bool aborted() const { return aborted_; } void Reset() { committed_ = false; started_ = false; ended_ = false; aborted_ = false; } private: void OnCompositingDidCommit(Compositor* compositor) override { committed_ = true; } void OnCompositingStarted(Compositor* compositor, base::TimeTicks start_time) override { started_ = true; } void OnCompositingEnded(Compositor* compositor) override { ended_ = true; } void OnCompositingAborted(Compositor* compositor) override { aborted_ = true; } void OnCompositingLockStateChanged(Compositor* compositor) override {} bool committed_; bool started_; bool ended_; bool aborted_; DISALLOW_COPY_AND_ASSIGN(TestCompositorObserver); }; } // namespace TEST_F(LayerWithRealCompositorTest, Draw) { scoped_ptr layer(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 50, 50))); DrawTree(layer.get()); } // Create this hierarchy: // L1 - red // +-- L2 - blue // | +-- L3 - yellow // +-- L4 - magenta // TEST_F(LayerWithRealCompositorTest, Hierarchy) { scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 350, 350))); scoped_ptr l3(CreateColorLayer(SK_ColorYELLOW, gfx::Rect(5, 5, 25, 25))); scoped_ptr l4(CreateColorLayer(SK_ColorMAGENTA, gfx::Rect(300, 300, 100, 100))); l1->Add(l2.get()); l1->Add(l4.get()); l2->Add(l3.get()); DrawTree(l1.get()); } class LayerWithDelegateTest : public testing::Test { public: LayerWithDelegateTest() {} ~LayerWithDelegateTest() override {} // Overridden from testing::Test: void SetUp() override { bool enable_pixel_output = false; ui::ContextFactory* context_factory = InitializeContextFactoryForTests(enable_pixel_output); const gfx::Rect host_bounds(1000, 1000); compositor_host_.reset(TestCompositorHost::Create(host_bounds, context_factory)); compositor_host_->Show(); } void TearDown() override { compositor_host_.reset(); TerminateContextFactoryForTests(); } Compositor* compositor() { return compositor_host_->GetCompositor(); } virtual Layer* CreateLayer(LayerType type) { return new Layer(type); } Layer* CreateColorLayer(SkColor color, const gfx::Rect& bounds) { Layer* layer = new ColoredLayer(color); layer->SetBounds(bounds); return layer; } virtual Layer* CreateNoTextureLayer(const gfx::Rect& bounds) { Layer* layer = CreateLayer(LAYER_NOT_DRAWN); layer->SetBounds(bounds); return layer; } void DrawTree(Layer* root) { compositor()->SetRootLayer(root); Draw(); } // Invalidates the entire contents of the layer. void SchedulePaintForLayer(Layer* layer) { layer->SchedulePaint( gfx::Rect(0, 0, layer->bounds().width(), layer->bounds().height())); } // Invokes DrawTree on the compositor. void Draw() { compositor()->ScheduleDraw(); WaitForDraw(); } void WaitForDraw() { DrawWaiterForTest::Wait(compositor()); } void WaitForCommit() { DrawWaiterForTest::WaitForCommit(compositor()); } private: scoped_ptr compositor_host_; DISALLOW_COPY_AND_ASSIGN(LayerWithDelegateTest); }; // L1 // +-- L2 TEST_F(LayerWithDelegateTest, ConvertPointToLayer_Simple) { scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 350, 350))); l1->Add(l2.get()); DrawTree(l1.get()); gfx::Point point1_in_l2_coords(5, 5); Layer::ConvertPointToLayer(l2.get(), l1.get(), &point1_in_l2_coords); gfx::Point point1_in_l1_coords(15, 15); EXPECT_EQ(point1_in_l1_coords, point1_in_l2_coords); gfx::Point point2_in_l1_coords(5, 5); Layer::ConvertPointToLayer(l1.get(), l2.get(), &point2_in_l1_coords); gfx::Point point2_in_l2_coords(-5, -5); EXPECT_EQ(point2_in_l2_coords, point2_in_l1_coords); } // L1 // +-- L2 // +-- L3 TEST_F(LayerWithDelegateTest, ConvertPointToLayer_Medium) { scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 350, 350))); scoped_ptr l3(CreateColorLayer(SK_ColorYELLOW, gfx::Rect(10, 10, 100, 100))); l1->Add(l2.get()); l2->Add(l3.get()); DrawTree(l1.get()); gfx::Point point1_in_l3_coords(5, 5); Layer::ConvertPointToLayer(l3.get(), l1.get(), &point1_in_l3_coords); gfx::Point point1_in_l1_coords(25, 25); EXPECT_EQ(point1_in_l1_coords, point1_in_l3_coords); gfx::Point point2_in_l1_coords(5, 5); Layer::ConvertPointToLayer(l1.get(), l3.get(), &point2_in_l1_coords); gfx::Point point2_in_l3_coords(-15, -15); EXPECT_EQ(point2_in_l3_coords, point2_in_l1_coords); } TEST_F(LayerWithRealCompositorTest, Delegate) { scoped_ptr l1(CreateColorLayer(SK_ColorBLACK, gfx::Rect(20, 20, 400, 400))); GetCompositor()->SetRootLayer(l1.get()); WaitForDraw(); TestLayerDelegate delegate; l1->set_delegate(&delegate); delegate.AddColor(SK_ColorWHITE); delegate.AddColor(SK_ColorYELLOW); delegate.AddColor(SK_ColorGREEN); l1->SchedulePaint(gfx::Rect(0, 0, 400, 400)); WaitForDraw(); EXPECT_EQ(delegate.color_index(), 1); EXPECT_EQ(delegate.paint_size(), l1->bounds().size()); l1->SchedulePaint(gfx::Rect(10, 10, 200, 200)); WaitForDraw(); EXPECT_EQ(delegate.color_index(), 2); EXPECT_EQ(delegate.paint_size(), gfx::Size(200, 200)); l1->SchedulePaint(gfx::Rect(5, 5, 50, 50)); WaitForDraw(); EXPECT_EQ(delegate.color_index(), 0); EXPECT_EQ(delegate.paint_size(), gfx::Size(50, 50)); } TEST_F(LayerWithRealCompositorTest, DrawTree) { scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 350, 350))); scoped_ptr l3(CreateColorLayer(SK_ColorYELLOW, gfx::Rect(10, 10, 100, 100))); l1->Add(l2.get()); l2->Add(l3.get()); GetCompositor()->SetRootLayer(l1.get()); WaitForDraw(); DrawTreeLayerDelegate d1; l1->set_delegate(&d1); DrawTreeLayerDelegate d2; l2->set_delegate(&d2); DrawTreeLayerDelegate d3; l3->set_delegate(&d3); l2->SchedulePaint(gfx::Rect(5, 5, 5, 5)); WaitForDraw(); EXPECT_FALSE(d1.painted()); EXPECT_TRUE(d2.painted()); EXPECT_FALSE(d3.painted()); } // Tests no-texture Layers. // Create this hierarchy: // L1 - red // +-- L2 - NO TEXTURE // | +-- L3 - yellow // +-- L4 - magenta // TEST_F(LayerWithRealCompositorTest, HierarchyNoTexture) { scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateNoTextureLayer(gfx::Rect(10, 10, 350, 350))); scoped_ptr l3(CreateColorLayer(SK_ColorYELLOW, gfx::Rect(5, 5, 25, 25))); scoped_ptr l4(CreateColorLayer(SK_ColorMAGENTA, gfx::Rect(300, 300, 100, 100))); l1->Add(l2.get()); l1->Add(l4.get()); l2->Add(l3.get()); GetCompositor()->SetRootLayer(l1.get()); WaitForDraw(); DrawTreeLayerDelegate d2; l2->set_delegate(&d2); DrawTreeLayerDelegate d3; l3->set_delegate(&d3); l2->SchedulePaint(gfx::Rect(5, 5, 5, 5)); l3->SchedulePaint(gfx::Rect(5, 5, 5, 5)); WaitForDraw(); // |d2| should not have received a paint notification since it has no texture. EXPECT_FALSE(d2.painted()); // |d3| should have received a paint notification. EXPECT_TRUE(d3.painted()); } class LayerWithNullDelegateTest : public LayerWithDelegateTest { public: LayerWithNullDelegateTest() {} ~LayerWithNullDelegateTest() override {} void SetUp() override { LayerWithDelegateTest::SetUp(); default_layer_delegate_.reset(new NullLayerDelegate()); } Layer* CreateLayer(LayerType type) override { Layer* layer = new Layer(type); layer->set_delegate(default_layer_delegate_.get()); return layer; } Layer* CreateTextureRootLayer(const gfx::Rect& bounds) { Layer* layer = CreateTextureLayer(bounds); compositor()->SetRootLayer(layer); return layer; } Layer* CreateTextureLayer(const gfx::Rect& bounds) { Layer* layer = CreateLayer(LAYER_TEXTURED); layer->SetBounds(bounds); return layer; } Layer* CreateNoTextureLayer(const gfx::Rect& bounds) override { Layer* layer = CreateLayer(LAYER_NOT_DRAWN); layer->SetBounds(bounds); return layer; } private: scoped_ptr default_layer_delegate_; DISALLOW_COPY_AND_ASSIGN(LayerWithNullDelegateTest); }; TEST_F(LayerWithNullDelegateTest, EscapedDebugNames) { scoped_ptr layer(CreateLayer(LAYER_NOT_DRAWN)); std::string name = "\"\'\\/\b\f\n\r\t\n"; layer->set_name(name); scoped_refptr debug_info = layer->TakeDebugInfo(); EXPECT_TRUE(!!debug_info.get()); std::string json; debug_info->AppendAsTraceFormat(&json); base::JSONReader json_reader; scoped_ptr debug_info_value(json_reader.ReadToValue(json)); EXPECT_TRUE(!!debug_info_value); EXPECT_TRUE(debug_info_value->IsType(base::Value::TYPE_DICTIONARY)); base::DictionaryValue* dictionary = 0; EXPECT_TRUE(debug_info_value->GetAsDictionary(&dictionary)); std::string roundtrip; EXPECT_TRUE(dictionary->GetString("layer_name", &roundtrip)); EXPECT_EQ(name, roundtrip); } void ReturnMailbox(bool* run, uint32 sync_point, bool is_lost) { *run = true; } TEST_F(LayerWithNullDelegateTest, SwitchLayerPreservesCCLayerState) { scoped_ptr l1(CreateLayer(LAYER_SOLID_COLOR)); l1->SetFillsBoundsOpaquely(true); l1->SetForceRenderSurface(true); l1->SetVisible(false); EXPECT_EQ(gfx::Point3F(), l1->cc_layer()->transform_origin()); EXPECT_TRUE(l1->cc_layer()->DrawsContent()); EXPECT_TRUE(l1->cc_layer()->contents_opaque()); EXPECT_TRUE(l1->cc_layer()->force_render_surface()); EXPECT_TRUE(l1->cc_layer()->hide_layer_and_subtree()); cc::Layer* before_layer = l1->cc_layer(); bool callback1_run = false; cc::TextureMailbox mailbox(gpu::Mailbox::Generate(), 0, 0); l1->SetTextureMailbox(mailbox, cc::SingleReleaseCallback::Create( base::Bind(ReturnMailbox, &callback1_run)), gfx::Size(1, 1)); EXPECT_NE(before_layer, l1->cc_layer()); EXPECT_EQ(gfx::Point3F(), l1->cc_layer()->transform_origin()); EXPECT_TRUE(l1->cc_layer()->DrawsContent()); EXPECT_TRUE(l1->cc_layer()->contents_opaque()); EXPECT_TRUE(l1->cc_layer()->force_render_surface()); EXPECT_TRUE(l1->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(callback1_run); bool callback2_run = false; mailbox = cc::TextureMailbox(gpu::Mailbox::Generate(), 0, 0); l1->SetTextureMailbox(mailbox, cc::SingleReleaseCallback::Create( base::Bind(ReturnMailbox, &callback2_run)), gfx::Size(1, 1)); EXPECT_TRUE(callback1_run); EXPECT_FALSE(callback2_run); l1->SetShowSolidColorContent(); EXPECT_EQ(gfx::Point3F(), l1->cc_layer()->transform_origin()); EXPECT_TRUE(l1->cc_layer()->DrawsContent()); EXPECT_TRUE(l1->cc_layer()->contents_opaque()); EXPECT_TRUE(l1->cc_layer()->force_render_surface()); EXPECT_TRUE(l1->cc_layer()->hide_layer_and_subtree()); EXPECT_TRUE(callback2_run); } // Various visibile/drawn assertions. TEST_F(LayerWithNullDelegateTest, Visibility) { scoped_ptr l1(new Layer(LAYER_TEXTURED)); scoped_ptr l2(new Layer(LAYER_TEXTURED)); scoped_ptr l3(new Layer(LAYER_TEXTURED)); l1->Add(l2.get()); l2->Add(l3.get()); NullLayerDelegate delegate; l1->set_delegate(&delegate); l2->set_delegate(&delegate); l3->set_delegate(&delegate); // Layers should initially be drawn. EXPECT_TRUE(l1->IsDrawn()); EXPECT_TRUE(l2->IsDrawn()); EXPECT_TRUE(l3->IsDrawn()); EXPECT_FALSE(l1->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(l2->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(l3->cc_layer()->hide_layer_and_subtree()); compositor()->SetRootLayer(l1.get()); Draw(); l1->SetVisible(false); EXPECT_FALSE(l1->IsDrawn()); EXPECT_FALSE(l2->IsDrawn()); EXPECT_FALSE(l3->IsDrawn()); EXPECT_TRUE(l1->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(l2->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(l3->cc_layer()->hide_layer_and_subtree()); l3->SetVisible(false); EXPECT_FALSE(l1->IsDrawn()); EXPECT_FALSE(l2->IsDrawn()); EXPECT_FALSE(l3->IsDrawn()); EXPECT_TRUE(l1->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(l2->cc_layer()->hide_layer_and_subtree()); EXPECT_TRUE(l3->cc_layer()->hide_layer_and_subtree()); l1->SetVisible(true); EXPECT_TRUE(l1->IsDrawn()); EXPECT_TRUE(l2->IsDrawn()); EXPECT_FALSE(l3->IsDrawn()); EXPECT_FALSE(l1->cc_layer()->hide_layer_and_subtree()); EXPECT_FALSE(l2->cc_layer()->hide_layer_and_subtree()); EXPECT_TRUE(l3->cc_layer()->hide_layer_and_subtree()); } // Checks that stacking-related methods behave as advertised. TEST_F(LayerWithNullDelegateTest, Stacking) { scoped_ptr root(new Layer(LAYER_NOT_DRAWN)); scoped_ptr l1(new Layer(LAYER_TEXTURED)); scoped_ptr l2(new Layer(LAYER_TEXTURED)); scoped_ptr l3(new Layer(LAYER_TEXTURED)); l1->set_name("1"); l2->set_name("2"); l3->set_name("3"); root->Add(l3.get()); root->Add(l2.get()); root->Add(l1.get()); // Layers' children are stored in bottom-to-top order. EXPECT_EQ("3 2 1", test::ChildLayerNamesAsString(*root.get())); root->StackAtTop(l3.get()); EXPECT_EQ("2 1 3", test::ChildLayerNamesAsString(*root.get())); root->StackAtTop(l1.get()); EXPECT_EQ("2 3 1", test::ChildLayerNamesAsString(*root.get())); root->StackAtTop(l1.get()); EXPECT_EQ("2 3 1", test::ChildLayerNamesAsString(*root.get())); root->StackAbove(l2.get(), l3.get()); EXPECT_EQ("3 2 1", test::ChildLayerNamesAsString(*root.get())); root->StackAbove(l1.get(), l3.get()); EXPECT_EQ("3 1 2", test::ChildLayerNamesAsString(*root.get())); root->StackAbove(l2.get(), l1.get()); EXPECT_EQ("3 1 2", test::ChildLayerNamesAsString(*root.get())); root->StackAtBottom(l2.get()); EXPECT_EQ("2 3 1", test::ChildLayerNamesAsString(*root.get())); root->StackAtBottom(l3.get()); EXPECT_EQ("3 2 1", test::ChildLayerNamesAsString(*root.get())); root->StackAtBottom(l3.get()); EXPECT_EQ("3 2 1", test::ChildLayerNamesAsString(*root.get())); root->StackBelow(l2.get(), l3.get()); EXPECT_EQ("2 3 1", test::ChildLayerNamesAsString(*root.get())); root->StackBelow(l1.get(), l3.get()); EXPECT_EQ("2 1 3", test::ChildLayerNamesAsString(*root.get())); root->StackBelow(l3.get(), l2.get()); EXPECT_EQ("3 2 1", test::ChildLayerNamesAsString(*root.get())); root->StackBelow(l3.get(), l2.get()); EXPECT_EQ("3 2 1", test::ChildLayerNamesAsString(*root.get())); root->StackBelow(l3.get(), l1.get()); EXPECT_EQ("2 3 1", test::ChildLayerNamesAsString(*root.get())); } // Verifies SetBounds triggers the appropriate painting/drawing. TEST_F(LayerWithNullDelegateTest, SetBoundsSchedulesPaint) { scoped_ptr l1(CreateTextureLayer(gfx::Rect(0, 0, 200, 200))); compositor()->SetRootLayer(l1.get()); Draw(); l1->SetBounds(gfx::Rect(5, 5, 200, 200)); // The CompositorDelegate (us) should have been told to draw for a move. WaitForDraw(); l1->SetBounds(gfx::Rect(5, 5, 100, 100)); // The CompositorDelegate (us) should have been told to draw for a resize. WaitForDraw(); } void ExpectRgba(int x, int y, SkColor expected_color, SkColor actual_color) { EXPECT_EQ(expected_color, actual_color) << "Pixel error at x=" << x << " y=" << y << "; " << "actual RGBA=(" << SkColorGetR(actual_color) << "," << SkColorGetG(actual_color) << "," << SkColorGetB(actual_color) << "," << SkColorGetA(actual_color) << "); " << "expected RGBA=(" << SkColorGetR(expected_color) << "," << SkColorGetG(expected_color) << "," << SkColorGetB(expected_color) << "," << SkColorGetA(expected_color) << ")"; } // Checks that pixels are actually drawn to the screen with a read back. TEST_F(LayerWithRealCompositorTest, DrawPixels) { gfx::Size viewport_size = GetCompositor()->size(); // The window should be some non-trivial size but may not be exactly // 500x500 on all platforms/bots. EXPECT_GE(viewport_size.width(), 200); EXPECT_GE(viewport_size.height(), 200); int blue_height = 10; scoped_ptr layer( CreateColorLayer(SK_ColorRED, gfx::Rect(viewport_size))); scoped_ptr layer2( CreateColorLayer(SK_ColorBLUE, gfx::Rect(0, 0, viewport_size.width(), blue_height))); layer->Add(layer2.get()); DrawTree(layer.get()); SkBitmap bitmap; ReadPixels(&bitmap, gfx::Rect(viewport_size)); ASSERT_FALSE(bitmap.empty()); SkAutoLockPixels lock(bitmap); for (int x = 0; x < viewport_size.width(); x++) { for (int y = 0; y < viewport_size.height(); y++) { SkColor actual_color = bitmap.getColor(x, y); SkColor expected_color = y < blue_height ? SK_ColorBLUE : SK_ColorRED; ExpectRgba(x, y, expected_color, actual_color); } } } // Checks that drawing a layer with transparent pixels is blended correctly // with the lower layer. TEST_F(LayerWithRealCompositorTest, DrawAlphaBlendedPixels) { gfx::Size viewport_size = GetCompositor()->size(); int test_size = 200; EXPECT_GE(viewport_size.width(), test_size); EXPECT_GE(viewport_size.height(), test_size); // Blue with a wee bit of transparency. SkColor blue_with_alpha = SkColorSetARGBInline(40, 10, 20, 200); SkColor blend_color = SkColorSetARGBInline(255, 216, 3, 32); scoped_ptr background_layer( CreateColorLayer(SK_ColorRED, gfx::Rect(viewport_size))); scoped_ptr foreground_layer( CreateColorLayer(blue_with_alpha, gfx::Rect(viewport_size))); // This must be set to false for layers with alpha to be blended correctly. foreground_layer->SetFillsBoundsOpaquely(false); background_layer->Add(foreground_layer.get()); DrawTree(background_layer.get()); SkBitmap bitmap; ReadPixels(&bitmap, gfx::Rect(viewport_size)); ASSERT_FALSE(bitmap.empty()); SkAutoLockPixels lock(bitmap); for (int x = 0; x < test_size; x++) { for (int y = 0; y < test_size; y++) { SkColor actual_color = bitmap.getColor(x, y); ExpectRgba(x, y, blend_color, actual_color); } } } // Checks that using the AlphaShape filter applied to a layer with // transparency, alpha-blends properly with the layer below. TEST_F(LayerWithRealCompositorTest, DrawAlphaThresholdFilterPixels) { gfx::Size viewport_size = GetCompositor()->size(); int test_size = 200; EXPECT_GE(viewport_size.width(), test_size); EXPECT_GE(viewport_size.height(), test_size); int blue_height = 10; SkColor blue_with_alpha = SkColorSetARGBInline(40, 0, 0, 255); SkColor blend_color = SkColorSetARGBInline(255, 215, 0, 40); scoped_ptr background_layer( CreateColorLayer(SK_ColorRED, gfx::Rect(viewport_size))); scoped_ptr foreground_layer( CreateColorLayer(blue_with_alpha, gfx::Rect(viewport_size))); // Add a shape to restrict the visible part of the layer. SkRegion shape; shape.setRect(0, 0, viewport_size.width(), blue_height); foreground_layer->SetAlphaShape(make_scoped_ptr(new SkRegion(shape))); foreground_layer->SetFillsBoundsOpaquely(false); background_layer->Add(foreground_layer.get()); DrawTree(background_layer.get()); SkBitmap bitmap; ReadPixels(&bitmap, gfx::Rect(viewport_size)); ASSERT_FALSE(bitmap.empty()); SkAutoLockPixels lock(bitmap); for (int x = 0; x < test_size; x++) { for (int y = 0; y < test_size; y++) { SkColor actual_color = bitmap.getColor(x, y); ExpectRgba(x, y, actual_color, y < blue_height ? blend_color : SK_ColorRED); } } } // Checks the logic around Compositor::SetRootLayer and Layer::SetCompositor. TEST_F(LayerWithRealCompositorTest, SetRootLayer) { Compositor* compositor = GetCompositor(); scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 350, 350))); EXPECT_EQ(NULL, l1->GetCompositor()); EXPECT_EQ(NULL, l2->GetCompositor()); compositor->SetRootLayer(l1.get()); EXPECT_EQ(compositor, l1->GetCompositor()); l1->Add(l2.get()); EXPECT_EQ(compositor, l2->GetCompositor()); l1->Remove(l2.get()); EXPECT_EQ(NULL, l2->GetCompositor()); l1->Add(l2.get()); EXPECT_EQ(compositor, l2->GetCompositor()); compositor->SetRootLayer(NULL); EXPECT_EQ(NULL, l1->GetCompositor()); EXPECT_EQ(NULL, l2->GetCompositor()); } // Checks that compositor observers are notified when: // - DrawTree is called, // - After ScheduleDraw is called, or // - Whenever SetBounds, SetOpacity or SetTransform are called. // TODO(vollick): could be reorganized into compositor_unittest.cc TEST_F(LayerWithRealCompositorTest, CompositorObservers) { scoped_ptr l1(CreateColorLayer(SK_ColorRED, gfx::Rect(20, 20, 400, 400))); scoped_ptr l2(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 350, 350))); l1->Add(l2.get()); TestCompositorObserver observer; GetCompositor()->AddObserver(&observer); // Explicitly called DrawTree should cause the observers to be notified. // NOTE: this call to DrawTree sets l1 to be the compositor's root layer. DrawTree(l1.get()); EXPECT_TRUE(observer.notified()); // ScheduleDraw without any visible change should cause a commit. observer.Reset(); l1->ScheduleDraw(); WaitForCommit(); EXPECT_TRUE(observer.committed()); // Moving, but not resizing, a layer should alert the observers. observer.Reset(); l2->SetBounds(gfx::Rect(0, 0, 350, 350)); WaitForDraw(); EXPECT_TRUE(observer.notified()); // So should resizing a layer. observer.Reset(); l2->SetBounds(gfx::Rect(0, 0, 400, 400)); WaitForDraw(); EXPECT_TRUE(observer.notified()); // Opacity changes should alert the observers. observer.Reset(); l2->SetOpacity(0.5f); WaitForDraw(); EXPECT_TRUE(observer.notified()); // So should setting the opacity back. observer.Reset(); l2->SetOpacity(1.0f); WaitForDraw(); EXPECT_TRUE(observer.notified()); // Setting the transform of a layer should alert the observers. observer.Reset(); gfx::Transform transform; transform.Translate(200.0, 200.0); transform.Rotate(90.0); transform.Translate(-200.0, -200.0); l2->SetTransform(transform); WaitForDraw(); EXPECT_TRUE(observer.notified()); // A change resulting in an aborted swap buffer should alert the observer // and also signal an abort. observer.Reset(); l2->SetOpacity(0.1f); GetCompositor()->DidAbortSwapBuffers(); WaitForDraw(); EXPECT_TRUE(observer.notified()); EXPECT_TRUE(observer.aborted()); GetCompositor()->RemoveObserver(&observer); // Opacity changes should no longer alert the removed observer. observer.Reset(); l2->SetOpacity(0.5f); WaitForDraw(); EXPECT_FALSE(observer.notified()); } // Checks that modifying the hierarchy correctly affects final composite. TEST_F(LayerWithRealCompositorTest, ModifyHierarchy) { GetCompositor()->SetScaleAndSize(1.0f, gfx::Size(50, 50)); // l0 // +-l11 // | +-l21 // +-l12 scoped_ptr l0(CreateColorLayer(SK_ColorRED, gfx::Rect(0, 0, 50, 50))); scoped_ptr l11(CreateColorLayer(SK_ColorGREEN, gfx::Rect(0, 0, 25, 25))); scoped_ptr l21(CreateColorLayer(SK_ColorMAGENTA, gfx::Rect(0, 0, 15, 15))); scoped_ptr l12(CreateColorLayer(SK_ColorBLUE, gfx::Rect(10, 10, 25, 25))); base::FilePath ref_img1 = test_data_directory().AppendASCII("ModifyHierarchy1.png"); base::FilePath ref_img2 = test_data_directory().AppendASCII("ModifyHierarchy2.png"); SkBitmap bitmap; l0->Add(l11.get()); l11->Add(l21.get()); l0->Add(l12.get()); DrawTree(l0.get()); ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); // WritePNGFile(bitmap, ref_img1); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img1, cc::ExactPixelComparator(true))); l0->StackAtTop(l11.get()); DrawTree(l0.get()); ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); // WritePNGFile(bitmap, ref_img2); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img2, cc::ExactPixelComparator(true))); // should restore to original configuration l0->StackAbove(l12.get(), l11.get()); DrawTree(l0.get()); ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img1, cc::ExactPixelComparator(true))); // l11 back to front l0->StackAtTop(l11.get()); DrawTree(l0.get()); ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img2, cc::ExactPixelComparator(true))); // should restore to original configuration l0->StackAbove(l12.get(), l11.get()); DrawTree(l0.get()); ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img1, cc::ExactPixelComparator(true))); // l11 back to front l0->StackAbove(l11.get(), l12.get()); DrawTree(l0.get()); ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img2, cc::ExactPixelComparator(true))); } // Opacity is rendered correctly. // Checks that modifying the hierarchy correctly affects final composite. TEST_F(LayerWithRealCompositorTest, Opacity) { GetCompositor()->SetScaleAndSize(1.0f, gfx::Size(50, 50)); // l0 // +-l11 scoped_ptr l0(CreateColorLayer(SK_ColorRED, gfx::Rect(0, 0, 50, 50))); scoped_ptr l11(CreateColorLayer(SK_ColorGREEN, gfx::Rect(0, 0, 25, 25))); base::FilePath ref_img = test_data_directory().AppendASCII("Opacity.png"); l11->SetOpacity(0.75); l0->Add(l11.get()); DrawTree(l0.get()); SkBitmap bitmap; ReadPixels(&bitmap); ASSERT_FALSE(bitmap.empty()); // WritePNGFile(bitmap, ref_img); EXPECT_TRUE(MatchesPNGFile(bitmap, ref_img, cc::ExactPixelComparator(true))); } namespace { class SchedulePaintLayerDelegate : public LayerDelegate { public: SchedulePaintLayerDelegate() : paint_count_(0), layer_(NULL) {} ~SchedulePaintLayerDelegate() override {} void set_layer(Layer* layer) { layer_ = layer; layer_->set_delegate(this); } void SetSchedulePaintRect(const gfx::Rect& rect) { schedule_paint_rect_ = rect; } int GetPaintCountAndClear() { int value = paint_count_; paint_count_ = 0; return value; } const gfx::RectF& last_clip_rect() const { return last_clip_rect_; } private: // Overridden from LayerDelegate: void OnPaintLayer(gfx::Canvas* canvas) override { paint_count_++; if (!schedule_paint_rect_.IsEmpty()) { layer_->SchedulePaint(schedule_paint_rect_); schedule_paint_rect_ = gfx::Rect(); } SkRect sk_clip_rect; if (canvas->sk_canvas()->getClipBounds(&sk_clip_rect)) last_clip_rect_ = gfx::SkRectToRectF(sk_clip_rect); } void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override {} void OnDeviceScaleFactorChanged(float device_scale_factor) override {} base::Closure PrepareForLayerBoundsChange() override { return base::Closure(); } int paint_count_; Layer* layer_; gfx::Rect schedule_paint_rect_; gfx::RectF last_clip_rect_; DISALLOW_COPY_AND_ASSIGN(SchedulePaintLayerDelegate); }; } // namespace // Verifies that if SchedulePaint is invoked during painting the layer is still // marked dirty. TEST_F(LayerWithDelegateTest, SchedulePaintFromOnPaintLayer) { scoped_ptr root(CreateColorLayer(SK_ColorRED, gfx::Rect(0, 0, 500, 500))); SchedulePaintLayerDelegate child_delegate; scoped_ptr child(CreateColorLayer(SK_ColorBLUE, gfx::Rect(0, 0, 200, 200))); child_delegate.set_layer(child.get()); root->Add(child.get()); SchedulePaintForLayer(root.get()); DrawTree(root.get()); child->SchedulePaint(gfx::Rect(0, 0, 20, 20)); EXPECT_EQ(1, child_delegate.GetPaintCountAndClear()); // Set a rect so that when OnPaintLayer() is invoked SchedulePaint is invoked // again. child_delegate.SetSchedulePaintRect(gfx::Rect(10, 10, 30, 30)); WaitForCommit(); EXPECT_EQ(1, child_delegate.GetPaintCountAndClear()); // Because SchedulePaint() was invoked from OnPaintLayer() |child| should // still need to be painted. WaitForCommit(); EXPECT_EQ(1, child_delegate.GetPaintCountAndClear()); EXPECT_TRUE(child_delegate.last_clip_rect().Contains( gfx::Rect(10, 10, 30, 30))); } TEST_F(LayerWithRealCompositorTest, ScaleUpDown) { scoped_ptr root(CreateColorLayer(SK_ColorWHITE, gfx::Rect(10, 20, 200, 220))); TestLayerDelegate root_delegate; root_delegate.AddColor(SK_ColorWHITE); root->set_delegate(&root_delegate); scoped_ptr l1(CreateColorLayer(SK_ColorWHITE, gfx::Rect(10, 20, 140, 180))); TestLayerDelegate l1_delegate; l1_delegate.AddColor(SK_ColorWHITE); l1->set_delegate(&l1_delegate); GetCompositor()->SetScaleAndSize(1.0f, gfx::Size(500, 500)); GetCompositor()->SetRootLayer(root.get()); root->Add(l1.get()); WaitForDraw(); EXPECT_EQ("10,20 200x220", root->bounds().ToString()); EXPECT_EQ("10,20 140x180", l1->bounds().ToString()); gfx::Size cc_bounds_size = root->cc_layer()->bounds(); EXPECT_EQ("200x220", cc_bounds_size.ToString()); cc_bounds_size = l1->cc_layer()->bounds(); EXPECT_EQ("140x180", cc_bounds_size.ToString()); // No scale change, so no scale notification. EXPECT_EQ(0.0f, root_delegate.device_scale_factor()); EXPECT_EQ(0.0f, l1_delegate.device_scale_factor()); EXPECT_EQ("200x220", root_delegate.paint_size().ToString()); EXPECT_EQ("140x180", l1_delegate.paint_size().ToString()); // Scale up to 2.0. Changing scale doesn't change the bounds in DIP. GetCompositor()->SetScaleAndSize(2.0f, gfx::Size(500, 500)); EXPECT_EQ("10,20 200x220", root->bounds().ToString()); EXPECT_EQ("10,20 140x180", l1->bounds().ToString()); // CC layer should still match the UI layer bounds. cc_bounds_size = root->cc_layer()->bounds(); EXPECT_EQ("200x220", cc_bounds_size.ToString()); cc_bounds_size = l1->cc_layer()->bounds(); EXPECT_EQ("140x180", cc_bounds_size.ToString()); // New scale factor must have been notified. EXPECT_EQ(2.0f, root_delegate.device_scale_factor()); EXPECT_EQ(2.0f, l1_delegate.device_scale_factor()); // Canvas size must have been scaled down up. WaitForDraw(); EXPECT_EQ("400x440", root_delegate.paint_size().ToString()); EXPECT_EQ("2.0 2.0", root_delegate.ToScaleString()); EXPECT_EQ("280x360", l1_delegate.paint_size().ToString()); EXPECT_EQ("2.0 2.0", l1_delegate.ToScaleString()); // Scale down back to 1.0f. GetCompositor()->SetScaleAndSize(1.0f, gfx::Size(500, 500)); EXPECT_EQ("10,20 200x220", root->bounds().ToString()); EXPECT_EQ("10,20 140x180", l1->bounds().ToString()); // CC layer should still match the UI layer bounds. cc_bounds_size = root->cc_layer()->bounds(); EXPECT_EQ("200x220", cc_bounds_size.ToString()); cc_bounds_size = l1->cc_layer()->bounds(); EXPECT_EQ("140x180", cc_bounds_size.ToString()); // New scale factor must have been notified. EXPECT_EQ(1.0f, root_delegate.device_scale_factor()); EXPECT_EQ(1.0f, l1_delegate.device_scale_factor()); // Canvas size must have been scaled down too. WaitForDraw(); EXPECT_EQ("200x220", root_delegate.paint_size().ToString()); EXPECT_EQ("1.0 1.0", root_delegate.ToScaleString()); EXPECT_EQ("140x180", l1_delegate.paint_size().ToString()); EXPECT_EQ("1.0 1.0", l1_delegate.ToScaleString()); root_delegate.reset(); l1_delegate.reset(); // Just changing the size shouldn't notify the scale change nor // trigger repaint. GetCompositor()->SetScaleAndSize(1.0f, gfx::Size(1000, 1000)); // No scale change, so no scale notification. EXPECT_EQ(0.0f, root_delegate.device_scale_factor()); EXPECT_EQ(0.0f, l1_delegate.device_scale_factor()); WaitForDraw(); EXPECT_EQ("0x0", root_delegate.paint_size().ToString()); EXPECT_EQ("0.0 0.0", root_delegate.ToScaleString()); EXPECT_EQ("0x0", l1_delegate.paint_size().ToString()); EXPECT_EQ("0.0 0.0", l1_delegate.ToScaleString()); } TEST_F(LayerWithRealCompositorTest, ScaleReparent) { scoped_ptr root(CreateColorLayer(SK_ColorWHITE, gfx::Rect(10, 20, 200, 220))); scoped_ptr l1(CreateColorLayer(SK_ColorWHITE, gfx::Rect(10, 20, 140, 180))); TestLayerDelegate l1_delegate; l1_delegate.AddColor(SK_ColorWHITE); l1->set_delegate(&l1_delegate); GetCompositor()->SetScaleAndSize(1.0f, gfx::Size(500, 500)); GetCompositor()->SetRootLayer(root.get()); WaitForDraw(); root->Add(l1.get()); EXPECT_EQ("10,20 140x180", l1->bounds().ToString()); gfx::Size cc_bounds_size = l1->cc_layer()->bounds(); EXPECT_EQ("140x180", cc_bounds_size.ToString()); EXPECT_EQ(0.0f, l1_delegate.device_scale_factor()); WaitForDraw(); EXPECT_EQ("140x180", l1_delegate.paint_size().ToString()); EXPECT_EQ("1.0 1.0", l1_delegate.ToScaleString()); // Remove l1 from root and change the scale. root->Remove(l1.get()); EXPECT_EQ(NULL, l1->parent()); EXPECT_EQ(NULL, l1->GetCompositor()); GetCompositor()->SetScaleAndSize(2.0f, gfx::Size(500, 500)); // Sanity check on root and l1. EXPECT_EQ("10,20 200x220", root->bounds().ToString()); cc_bounds_size = l1->cc_layer()->bounds(); EXPECT_EQ("140x180", cc_bounds_size.ToString()); root->Add(l1.get()); EXPECT_EQ("10,20 140x180", l1->bounds().ToString()); cc_bounds_size = l1->cc_layer()->bounds(); EXPECT_EQ("140x180", cc_bounds_size.ToString()); EXPECT_EQ(2.0f, l1_delegate.device_scale_factor()); WaitForDraw(); EXPECT_EQ("280x360", l1_delegate.paint_size().ToString()); EXPECT_EQ("2.0 2.0", l1_delegate.ToScaleString()); } // Verifies that when changing bounds on a layer that is invisible, and then // made visible, the right thing happens: // - if just a move, then no painting should happen. // - if a resize, the layer should be repainted. TEST_F(LayerWithDelegateTest, SetBoundsWhenInvisible) { scoped_ptr root(CreateNoTextureLayer(gfx::Rect(0, 0, 1000, 1000))); scoped_ptr child(CreateLayer(LAYER_TEXTURED)); child->SetBounds(gfx::Rect(0, 0, 500, 500)); DrawTreeLayerDelegate delegate; child->set_delegate(&delegate); root->Add(child.get()); // Paint once for initial damage. child->SetVisible(true); DrawTree(root.get()); // Reset into invisible state. child->SetVisible(false); DrawTree(root.get()); delegate.Reset(); // Move layer. child->SetBounds(gfx::Rect(200, 200, 500, 500)); child->SetVisible(true); DrawTree(root.get()); EXPECT_FALSE(delegate.painted()); // Reset into invisible state. child->SetVisible(false); DrawTree(root.get()); delegate.Reset(); // Resize layer. child->SetBounds(gfx::Rect(200, 200, 400, 400)); child->SetVisible(true); DrawTree(root.get()); EXPECT_TRUE(delegate.painted()); } static scoped_ptr MakeFrameData(gfx::Size size) { scoped_ptr frame_data(new cc::DelegatedFrameData); scoped_ptr render_pass(cc::RenderPass::Create()); render_pass->SetNew( cc::RenderPassId(1, 1), gfx::Rect(size), gfx::Rect(), gfx::Transform()); frame_data->render_pass_list.push_back(render_pass.Pass()); return frame_data.Pass(); } TEST_F(LayerWithDelegateTest, DelegatedLayer) { scoped_ptr root(CreateNoTextureLayer(gfx::Rect(0, 0, 1000, 1000))); scoped_ptr child(CreateLayer(LAYER_TEXTURED)); child->SetBounds(gfx::Rect(0, 0, 10, 10)); child->SetVisible(true); root->Add(child.get()); DrawTree(root.get()); scoped_refptr resource_collection = new cc::DelegatedFrameResourceCollection; scoped_refptr frame_provider; // Content matches layer size. frame_provider = new cc::DelegatedFrameProvider( resource_collection.get(), MakeFrameData(gfx::Size(10, 10))); child->SetShowDelegatedContent(frame_provider.get(), gfx::Size(10, 10)); EXPECT_EQ(child->cc_layer()->bounds().ToString(), gfx::Size(10, 10).ToString()); // Content larger than layer. child->SetBounds(gfx::Rect(0, 0, 5, 5)); EXPECT_EQ(child->cc_layer()->bounds().ToString(), gfx::Size(5, 5).ToString()); // Content smaller than layer. child->SetBounds(gfx::Rect(0, 0, 10, 10)); frame_provider = new cc::DelegatedFrameProvider( resource_collection.get(), MakeFrameData(gfx::Size(5, 5))); child->SetShowDelegatedContent(frame_provider.get(), gfx::Size(5, 5)); EXPECT_EQ(child->cc_layer()->bounds().ToString(), gfx::Size(5, 5).ToString()); // Hi-DPI content on low-DPI layer. frame_provider = new cc::DelegatedFrameProvider( resource_collection.get(), MakeFrameData(gfx::Size(20, 20))); child->SetShowDelegatedContent(frame_provider.get(), gfx::Size(10, 10)); EXPECT_EQ(child->cc_layer()->bounds().ToString(), gfx::Size(10, 10).ToString()); // Hi-DPI content on hi-DPI layer. compositor()->SetScaleAndSize(2.f, gfx::Size(1000, 1000)); EXPECT_EQ(child->cc_layer()->bounds().ToString(), gfx::Size(10, 10).ToString()); // Low-DPI content on hi-DPI layer. frame_provider = new cc::DelegatedFrameProvider( resource_collection.get(), MakeFrameData(gfx::Size(10, 10))); child->SetShowDelegatedContent(frame_provider.get(), gfx::Size(10, 10)); EXPECT_EQ(child->cc_layer()->bounds().ToString(), gfx::Size(10, 10).ToString()); } TEST_F(LayerWithDelegateTest, ExternalContent) { scoped_ptr root(CreateNoTextureLayer(gfx::Rect(0, 0, 1000, 1000))); scoped_ptr child(CreateLayer(LAYER_SOLID_COLOR)); child->SetBounds(gfx::Rect(0, 0, 10, 10)); child->SetVisible(true); root->Add(child.get()); // The layer is already showing solid color content, so the cc layer won't // change. scoped_refptr before = child->cc_layer(); child->SetShowSolidColorContent(); EXPECT_TRUE(child->cc_layer()); EXPECT_EQ(before.get(), child->cc_layer()); scoped_refptr resource_collection = new cc::DelegatedFrameResourceCollection; scoped_refptr frame_provider = new cc::DelegatedFrameProvider(resource_collection.get(), MakeFrameData(gfx::Size(10, 10))); // Showing delegated content changes the underlying cc layer. before = child->cc_layer(); child->SetShowDelegatedContent(frame_provider.get(), gfx::Size(10, 10)); EXPECT_TRUE(child->cc_layer()); EXPECT_NE(before.get(), child->cc_layer()); // Changing to painted content should change the underlying cc layer. before = child->cc_layer(); child->SetShowSolidColorContent(); EXPECT_TRUE(child->cc_layer()); EXPECT_NE(before.get(), child->cc_layer()); } // Verifies that layer filters still attached after changing implementation // layer. TEST_F(LayerWithDelegateTest, LayerFiltersSurvival) { scoped_ptr layer(CreateLayer(LAYER_TEXTURED)); layer->SetBounds(gfx::Rect(0, 0, 10, 10)); EXPECT_TRUE(layer->cc_layer()); EXPECT_EQ(0u, layer->cc_layer()->filters().size()); layer->SetLayerGrayscale(0.5f); EXPECT_EQ(layer->layer_grayscale(), 0.5f); EXPECT_EQ(1u, layer->cc_layer()->filters().size()); scoped_refptr resource_collection = new cc::DelegatedFrameResourceCollection; scoped_refptr frame_provider = new cc::DelegatedFrameProvider(resource_collection.get(), MakeFrameData(gfx::Size(10, 10))); // Showing delegated content changes the underlying cc layer. scoped_refptr before = layer->cc_layer(); layer->SetShowDelegatedContent(frame_provider.get(), gfx::Size(10, 10)); EXPECT_EQ(layer->layer_grayscale(), 0.5f); EXPECT_TRUE(layer->cc_layer()); EXPECT_NE(before.get(), layer->cc_layer()); EXPECT_EQ(1u, layer->cc_layer()->filters().size()); } // Tests Layer::AddThreadedAnimation and Layer::RemoveThreadedAnimation. TEST_F(LayerWithRealCompositorTest, AddRemoveThreadedAnimations) { scoped_ptr root(CreateLayer(LAYER_TEXTURED)); scoped_ptr l1(CreateLayer(LAYER_TEXTURED)); scoped_ptr l2(CreateLayer(LAYER_TEXTURED)); l1->SetAnimator(LayerAnimator::CreateImplicitAnimator()); l2->SetAnimator(LayerAnimator::CreateImplicitAnimator()); EXPECT_FALSE(l1->HasPendingThreadedAnimations()); // Trigger a threaded animation. l1->SetOpacity(0.5f); EXPECT_TRUE(l1->HasPendingThreadedAnimations()); // Ensure we can remove a pending threaded animation. l1->GetAnimator()->StopAnimating(); EXPECT_FALSE(l1->HasPendingThreadedAnimations()); // Trigger another threaded animation. l1->SetOpacity(0.2f); EXPECT_TRUE(l1->HasPendingThreadedAnimations()); root->Add(l1.get()); GetCompositor()->SetRootLayer(root.get()); // Now that l1 is part of a tree, it should have dispatched the pending // animation. EXPECT_FALSE(l1->HasPendingThreadedAnimations()); // Ensure that l1 no longer holds on to animations. l1->SetOpacity(0.1f); EXPECT_FALSE(l1->HasPendingThreadedAnimations()); // Ensure that adding a layer to an existing tree causes its pending // animations to get dispatched. l2->SetOpacity(0.5f); EXPECT_TRUE(l2->HasPendingThreadedAnimations()); l1->Add(l2.get()); EXPECT_FALSE(l2->HasPendingThreadedAnimations()); } // Tests that in-progress threaded animations complete when a Layer's // cc::Layer changes. TEST_F(LayerWithRealCompositorTest, SwitchCCLayerAnimations) { scoped_ptr root(CreateLayer(LAYER_TEXTURED)); scoped_ptr l1(CreateLayer(LAYER_TEXTURED)); GetCompositor()->SetRootLayer(root.get()); root->Add(l1.get()); l1->SetAnimator(LayerAnimator::CreateImplicitAnimator()); EXPECT_FLOAT_EQ(l1->opacity(), 1.0f); // Trigger a threaded animation. l1->SetOpacity(0.5f); // Change l1's cc::Layer. l1->SwitchCCLayerForTest(); // Ensure that the opacity animation completed. EXPECT_FLOAT_EQ(l1->opacity(), 0.5f); } // Tests that the animators in the layer tree is added to the // animator-collection when the root-layer is set to the compositor. TEST_F(LayerWithDelegateTest, RootLayerAnimatorsInCompositor) { scoped_ptr root(CreateLayer(LAYER_SOLID_COLOR)); scoped_ptr child(CreateColorLayer(SK_ColorRED, gfx::Rect(10, 10))); child->SetAnimator(LayerAnimator::CreateImplicitAnimator()); child->SetOpacity(0.5f); root->Add(child.get()); EXPECT_FALSE(compositor()->layer_animator_collection()->HasActiveAnimators()); compositor()->SetRootLayer(root.get()); EXPECT_TRUE(compositor()->layer_animator_collection()->HasActiveAnimators()); } // Tests that adding/removing a layer adds/removes the animator from its entire // subtree from the compositor's animator-collection. TEST_F(LayerWithDelegateTest, AddRemoveLayerUpdatesAnimatorsFromSubtree) { scoped_ptr root(CreateLayer(LAYER_TEXTURED)); scoped_ptr child(CreateLayer(LAYER_TEXTURED)); scoped_ptr grandchild(CreateColorLayer(SK_ColorRED, gfx::Rect(10, 10))); root->Add(child.get()); child->Add(grandchild.get()); compositor()->SetRootLayer(root.get()); grandchild->SetAnimator(LayerAnimator::CreateImplicitAnimator()); grandchild->SetOpacity(0.5f); EXPECT_TRUE(compositor()->layer_animator_collection()->HasActiveAnimators()); root->Remove(child.get()); EXPECT_FALSE(compositor()->layer_animator_collection()->HasActiveAnimators()); root->Add(child.get()); EXPECT_TRUE(compositor()->layer_animator_collection()->HasActiveAnimators()); } TEST_F(LayerWithDelegateTest, DestroyingLayerRemovesTheAnimatorFromCollection) { scoped_ptr root(CreateLayer(LAYER_TEXTURED)); scoped_ptr child(CreateLayer(LAYER_TEXTURED)); root->Add(child.get()); compositor()->SetRootLayer(root.get()); child->SetAnimator(LayerAnimator::CreateImplicitAnimator()); child->SetOpacity(0.5f); EXPECT_TRUE(compositor()->layer_animator_collection()->HasActiveAnimators()); child.reset(); EXPECT_FALSE(compositor()->layer_animator_collection()->HasActiveAnimators()); } namespace { std::string Vector2dFTo100thPercisionString(const gfx::Vector2dF& vector) { return base::StringPrintf("%.2f %0.2f", vector.x(), vector.y()); } } // namespace TEST_F(LayerWithRealCompositorTest, SnapLayerToPixels) { scoped_ptr root(CreateLayer(LAYER_TEXTURED)); scoped_ptr c1(CreateLayer(LAYER_TEXTURED)); scoped_ptr c11(CreateLayer(LAYER_TEXTURED)); GetCompositor()->SetScaleAndSize(1.25f, gfx::Size(100, 100)); GetCompositor()->SetRootLayer(root.get()); root->Add(c1.get()); c1->Add(c11.get()); root->SetBounds(gfx::Rect(0, 0, 100, 100)); c1->SetBounds(gfx::Rect(1, 1, 10, 10)); c11->SetBounds(gfx::Rect(1, 1, 10, 10)); SnapLayerToPhysicalPixelBoundary(root.get(), c11.get()); // 0.5 at 1.25 scale : (1 - 0.25 + 0.25) / 1.25 = 0.4 EXPECT_EQ("0.40 0.40", Vector2dFTo100thPercisionString(c11->subpixel_position_offset())); GetCompositor()->SetScaleAndSize(1.5f, gfx::Size(100, 100)); SnapLayerToPhysicalPixelBoundary(root.get(), c11.get()); // c11 must already be aligned at 1.5 scale. EXPECT_EQ("0.00 0.00", Vector2dFTo100thPercisionString(c11->subpixel_position_offset())); c11->SetBounds(gfx::Rect(2, 2, 10, 10)); SnapLayerToPhysicalPixelBoundary(root.get(), c11.get()); // c11 is now off the pixel. // 0.5 / 1.5 = 0.333... EXPECT_EQ("0.33 0.33", Vector2dFTo100thPercisionString(c11->subpixel_position_offset())); } class FrameDamageCheckingDelegate : public TestLayerDelegate { public: FrameDamageCheckingDelegate() : delegated_frame_damage_called_(false) {} void OnDelegatedFrameDamage(const gfx::Rect& damage_rect_in_dip) override { delegated_frame_damage_called_ = true; delegated_frame_damage_rect_ = damage_rect_in_dip; } const gfx::Rect& delegated_frame_damage_rect() const { return delegated_frame_damage_rect_; } bool delegated_frame_damage_called() const { return delegated_frame_damage_called_; } private: gfx::Rect delegated_frame_damage_rect_; bool delegated_frame_damage_called_; DISALLOW_COPY_AND_ASSIGN(FrameDamageCheckingDelegate); }; TEST(LayerDelegateTest, DelegatedFrameDamage) { scoped_ptr layer(new Layer(LAYER_TEXTURED)); gfx::Rect damage_rect(2, 1, 5, 3); FrameDamageCheckingDelegate delegate; layer->set_delegate(&delegate); scoped_refptr resource_collection = new cc::DelegatedFrameResourceCollection; scoped_refptr frame_provider( new cc::DelegatedFrameProvider(resource_collection.get(), MakeFrameData(gfx::Size(10, 10)))); layer->SetShowDelegatedContent(frame_provider.get(), gfx::Size(10, 10)); EXPECT_FALSE(delegate.delegated_frame_damage_called()); layer->OnDelegatedFrameDamage(damage_rect); EXPECT_TRUE(delegate.delegated_frame_damage_called()); EXPECT_EQ(damage_rect, delegate.delegated_frame_damage_rect()); } } // namespace ui