// 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/memory/scoped_ptr.h" #include "base/message_loop/message_loop.h" #include "base/run_loop.h" #include "base/strings/utf_string_conversions.h" #include "testing/gtest/include/gtest/gtest.h" #include "ui/base/events/event_utils.h" #include "ui/gfx/native_widget_types.h" #include "ui/gfx/point.h" #include "ui/views/bubble/bubble_delegate.h" #include "ui/views/controls/textfield/textfield.h" #include "ui/views/test/test_views_delegate.h" #include "ui/views/test/views_test_base.h" #include "ui/views/views_delegate.h" #include "ui/views/widget/native_widget_delegate.h" #include "ui/views/widget/root_view.h" #include "ui/views/window/native_frame_view.h" #if defined(USE_AURA) #include "ui/aura/client/aura_constants.h" #include "ui/aura/env.h" #include "ui/aura/root_window.h" #include "ui/aura/test/test_cursor_client.h" #include "ui/aura/test/test_window_delegate.h" #include "ui/aura/window.h" #include "ui/views/widget/native_widget_aura.h" #if !defined(OS_CHROMEOS) #include "ui/views/widget/desktop_aura/desktop_native_widget_aura.h" #endif #elif defined(OS_WIN) #include "ui/views/widget/native_widget_win.h" #endif namespace views { namespace test { // A generic typedef to pick up relevant NativeWidget implementations. #if defined(USE_AURA) typedef NativeWidgetAura NativeWidgetPlatform; #elif defined(OS_WIN) typedef NativeWidgetWin NativeWidgetPlatform; #endif // A widget that assumes mouse capture always works. It won't on Aura in // testing, so we mock it. #if defined(USE_AURA) class NativeWidgetCapture : public NativeWidgetPlatform { public: explicit NativeWidgetCapture(internal::NativeWidgetDelegate* delegate) : NativeWidgetPlatform(delegate), mouse_capture_(false) {} virtual ~NativeWidgetCapture() {} virtual void SetCapture() OVERRIDE { mouse_capture_ = true; } virtual void ReleaseCapture() OVERRIDE { if (mouse_capture_) delegate()->OnMouseCaptureLost(); mouse_capture_ = false; } virtual bool HasCapture() const OVERRIDE { return mouse_capture_; } private: bool mouse_capture_; DISALLOW_COPY_AND_ASSIGN(NativeWidgetCapture); }; #endif // A typedef that inserts our mock-capture NativeWidget implementation for // relevant platforms. #if defined(USE_AURA) typedef NativeWidgetCapture NativeWidgetPlatformForTest; #elif defined(OS_WIN) typedef NativeWidgetWin NativeWidgetPlatformForTest; #endif // A view that always processes all mouse events. class MouseView : public View { public: MouseView() : View(), entered_(0), exited_(0), pressed_(0) { } virtual ~MouseView() {} virtual bool OnMousePressed(const ui::MouseEvent& event) OVERRIDE { pressed_++; return true; } virtual void OnMouseEntered(const ui::MouseEvent& event) OVERRIDE { entered_++; } virtual void OnMouseExited(const ui::MouseEvent& event) OVERRIDE { exited_++; } // Return the number of OnMouseEntered calls and reset the counter. int EnteredCalls() { int i = entered_; entered_ = 0; return i; } // Return the number of OnMouseExited calls and reset the counter. int ExitedCalls() { int i = exited_; exited_ = 0; return i; } int pressed() const { return pressed_; } private: int entered_; int exited_; int pressed_; DISALLOW_COPY_AND_ASSIGN(MouseView); }; // A view that keeps track of the events it receives, but consumes no events. class EventCountView : public View { public: EventCountView() {} virtual ~EventCountView() {} int GetEventCount(ui::EventType type) { return event_count_[type]; } void ResetCounts() { event_count_.clear(); } protected: // Overridden from ui::EventHandler: virtual void OnKeyEvent(ui::KeyEvent* event) OVERRIDE { RecordEvent(*event); } virtual void OnMouseEvent(ui::MouseEvent* event) OVERRIDE { RecordEvent(*event); } virtual void OnScrollEvent(ui::ScrollEvent* event) OVERRIDE { RecordEvent(*event); } virtual void OnTouchEvent(ui::TouchEvent* event) OVERRIDE { RecordEvent(*event); } virtual void OnGestureEvent(ui::GestureEvent* event) OVERRIDE { RecordEvent(*event); } private: void RecordEvent(const ui::Event& event) { ++event_count_[event.type()]; } std::map event_count_; DISALLOW_COPY_AND_ASSIGN(EventCountView); }; // A view that keeps track of the events it receives, and consumes all scroll // gesture events. class ScrollableEventCountView : public EventCountView { public: ScrollableEventCountView() {} virtual ~ScrollableEventCountView() {} private: // Overridden from ui::EventHandler: virtual void OnGestureEvent(ui::GestureEvent* event) OVERRIDE { EventCountView::OnGestureEvent(event); switch (event->type()) { case ui::ET_GESTURE_SCROLL_BEGIN: case ui::ET_GESTURE_SCROLL_UPDATE: case ui::ET_GESTURE_SCROLL_END: case ui::ET_SCROLL_FLING_START: event->SetHandled(); break; default: break; } } DISALLOW_COPY_AND_ASSIGN(ScrollableEventCountView); }; // A view that does a capture on gesture-begin events. class GestureCaptureView : public View { public: GestureCaptureView() {} virtual ~GestureCaptureView() {} private: // Overridden from View: virtual void OnGestureEvent(ui::GestureEvent* event) OVERRIDE { if (event->type() == ui::ET_GESTURE_BEGIN) { GetWidget()->SetCapture(this); event->StopPropagation(); } } DISALLOW_COPY_AND_ASSIGN(GestureCaptureView); }; // A view that implements GetMinimumSize. class MinimumSizeFrameView : public NativeFrameView { public: explicit MinimumSizeFrameView(Widget* frame): NativeFrameView(frame) {} virtual ~MinimumSizeFrameView() {} private: // Overridden from View: virtual gfx::Size GetMinimumSize() OVERRIDE { return gfx::Size(300, 400); } DISALLOW_COPY_AND_ASSIGN(MinimumSizeFrameView); }; // An event handler that simply keeps a count of the different types of events // it receives. class EventCountHandler : public ui::EventHandler { public: EventCountHandler() {} virtual ~EventCountHandler() {} int GetEventCount(ui::EventType type) { return event_count_[type]; } void ResetCounts() { event_count_.clear(); } protected: // Overridden from ui::EventHandler: virtual void OnEvent(ui::Event* event) OVERRIDE { RecordEvent(*event); ui::EventHandler::OnEvent(event); } private: void RecordEvent(const ui::Event& event) { ++event_count_[event.type()]; } std::map event_count_; DISALLOW_COPY_AND_ASSIGN(EventCountHandler); }; // A View that shows a different widget, sets capture on that widget, and // initiates a nested message-loop when it receives a mouse-press event. class NestedLoopCaptureView : public View { public: explicit NestedLoopCaptureView(Widget* widget) : widget_(widget) {} virtual ~NestedLoopCaptureView() {} private: // Overridden from View: virtual bool OnMousePressed(const ui::MouseEvent& event) OVERRIDE { // Start a nested loop. widget_->Show(); widget_->SetCapture(widget_->GetContentsView()); EXPECT_TRUE(widget_->HasCapture()); base::MessageLoopForUI* loop = base::MessageLoopForUI::current(); base::MessageLoop::ScopedNestableTaskAllower allow(loop); base::RunLoop run_loop; #if defined(USE_AURA) run_loop.set_dispatcher(aura::Env::GetInstance()->GetDispatcher()); #endif run_loop.Run(); return true; } Widget* widget_; DISALLOW_COPY_AND_ASSIGN(NestedLoopCaptureView); }; // A View that closes the Widget and exits the current message-loop when it // receives a mouse-release event. class ExitLoopOnRelease : public View { public: ExitLoopOnRelease() {} virtual ~ExitLoopOnRelease() {} private: // Overridden from View: virtual void OnMouseReleased(const ui::MouseEvent& event) OVERRIDE { GetWidget()->Close(); base::MessageLoop::current()->QuitNow(); } DISALLOW_COPY_AND_ASSIGN(ExitLoopOnRelease); }; class WidgetTest : public ViewsTestBase { public: WidgetTest() {} virtual ~WidgetTest() {} NativeWidget* CreatePlatformNativeWidget( internal::NativeWidgetDelegate* delegate) { return new NativeWidgetPlatformForTest(delegate); } Widget* CreateTopLevelPlatformWidget() { Widget* toplevel = new Widget; Widget::InitParams toplevel_params = CreateParams(Widget::InitParams::TYPE_WINDOW); toplevel_params.native_widget = CreatePlatformNativeWidget(toplevel); toplevel->Init(toplevel_params); return toplevel; } Widget* CreateTopLevelFramelessPlatformWidget() { Widget* toplevel = new Widget; Widget::InitParams toplevel_params = CreateParams(Widget::InitParams::TYPE_WINDOW_FRAMELESS); toplevel_params.native_widget = CreatePlatformNativeWidget(toplevel); toplevel->Init(toplevel_params); return toplevel; } Widget* CreateChildPlatformWidget(gfx::NativeView parent_native_view) { Widget* child = new Widget; Widget::InitParams child_params = CreateParams(Widget::InitParams::TYPE_CONTROL); child_params.native_widget = CreatePlatformNativeWidget(child); child_params.parent = parent_native_view; child->Init(child_params); child->SetContentsView(new View); return child; } #if defined(OS_WIN) && !defined(USE_AURA) // On Windows, it is possible for us to have a child window that is // TYPE_POPUP. Widget* CreateChildPopupPlatformWidget(gfx::NativeView parent_native_view) { Widget* child = new Widget; Widget::InitParams child_params = CreateParams(Widget::InitParams::TYPE_POPUP); child_params.child = true; child_params.native_widget = CreatePlatformNativeWidget(child); child_params.parent = parent_native_view; child->Init(child_params); child->SetContentsView(new View); return child; } #endif Widget* CreateTopLevelNativeWidget() { Widget* toplevel = new Widget; Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_WINDOW); toplevel->Init(params); return toplevel; } Widget* CreateChildNativeWidgetWithParent(Widget* parent) { Widget* child = new Widget; Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_CONTROL); params.parent = parent->GetNativeView(); child->Init(params); child->SetContentsView(new View); return child; } Widget* CreateChildNativeWidget() { return CreateChildNativeWidgetWithParent(NULL); } View* GetMousePressedHandler(internal::RootView* root_view) { return root_view->mouse_pressed_handler_; } View* GetMouseMoveHandler(internal::RootView* root_view) { return root_view->mouse_move_handler_; } View* GetGestureHandler(internal::RootView* root_view) { return root_view->gesture_handler_; } }; bool WidgetHasMouseCapture(const Widget* widget) { return static_cast(widget-> native_widget())->HasCapture(); } ui::WindowShowState GetWidgetShowState(const Widget* widget) { // Use IsMaximized/IsMinimized/IsFullScreen instead of GetWindowPlacement // because the former is implemented on all platforms but the latter is not. return widget->IsFullscreen() ? ui::SHOW_STATE_FULLSCREEN : widget->IsMaximized() ? ui::SHOW_STATE_MAXIMIZED : widget->IsMinimized() ? ui::SHOW_STATE_MINIMIZED : ui::SHOW_STATE_NORMAL; } TEST_F(WidgetTest, WidgetInitParams) { ASSERT_FALSE(views_delegate().UseTransparentWindows()); // Widgets are not transparent by default. Widget::InitParams init1; EXPECT_EQ(Widget::InitParams::INFER_OPACITY, init1.opacity); // Non-window widgets are not transparent either. Widget::InitParams init2(Widget::InitParams::TYPE_MENU); EXPECT_EQ(Widget::InitParams::INFER_OPACITY, init2.opacity); // A ViewsDelegate can set windows transparent by default. views_delegate().SetUseTransparentWindows(true); Widget::InitParams init3; EXPECT_EQ(Widget::InitParams::TRANSLUCENT_WINDOW, init3.opacity); // Non-window widgets stay opaque. Widget::InitParams init4(Widget::InitParams::TYPE_MENU); EXPECT_EQ(Widget::InitParams::INFER_OPACITY, init4.opacity); } //////////////////////////////////////////////////////////////////////////////// // Widget::GetTopLevelWidget tests. TEST_F(WidgetTest, GetTopLevelWidget_Native) { // Create a hierarchy of native widgets. Widget* toplevel = CreateTopLevelPlatformWidget(); gfx::NativeView parent = toplevel->GetNativeView(); Widget* child = CreateChildPlatformWidget(parent); EXPECT_EQ(toplevel, toplevel->GetTopLevelWidget()); EXPECT_EQ(toplevel, child->GetTopLevelWidget()); toplevel->CloseNow(); // |child| should be automatically destroyed with |toplevel|. } // Tests some grab/ungrab events. TEST_F(WidgetTest, DISABLED_GrabUngrab) { Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* child1 = CreateChildNativeWidgetWithParent(toplevel); Widget* child2 = CreateChildNativeWidgetWithParent(toplevel); toplevel->SetBounds(gfx::Rect(0, 0, 500, 500)); child1->SetBounds(gfx::Rect(10, 10, 300, 300)); View* view = new MouseView(); view->SetBounds(0, 0, 300, 300); child1->GetRootView()->AddChildView(view); child2->SetBounds(gfx::Rect(200, 10, 200, 200)); view = new MouseView(); view->SetBounds(0, 0, 200, 200); child2->GetRootView()->AddChildView(view); toplevel->Show(); RunPendingMessages(); // Click on child1 gfx::Point p1(45, 45); ui::MouseEvent pressed(ui::ET_MOUSE_PRESSED, p1, p1, ui::EF_LEFT_MOUSE_BUTTON); toplevel->OnMouseEvent(&pressed); EXPECT_TRUE(WidgetHasMouseCapture(toplevel)); EXPECT_TRUE(WidgetHasMouseCapture(child1)); EXPECT_FALSE(WidgetHasMouseCapture(child2)); ui::MouseEvent released(ui::ET_MOUSE_RELEASED, p1, p1, ui::EF_LEFT_MOUSE_BUTTON); toplevel->OnMouseEvent(&released); EXPECT_FALSE(WidgetHasMouseCapture(toplevel)); EXPECT_FALSE(WidgetHasMouseCapture(child1)); EXPECT_FALSE(WidgetHasMouseCapture(child2)); RunPendingMessages(); // Click on child2 gfx::Point p2(315, 45); ui::MouseEvent pressed2(ui::ET_MOUSE_PRESSED, p2, p2, ui::EF_LEFT_MOUSE_BUTTON); toplevel->OnMouseEvent(&pressed2); EXPECT_TRUE(pressed2.handled()); EXPECT_TRUE(WidgetHasMouseCapture(toplevel)); EXPECT_TRUE(WidgetHasMouseCapture(child2)); EXPECT_FALSE(WidgetHasMouseCapture(child1)); ui::MouseEvent released2(ui::ET_MOUSE_RELEASED, p2, p2, ui::EF_LEFT_MOUSE_BUTTON); toplevel->OnMouseEvent(&released2); EXPECT_FALSE(WidgetHasMouseCapture(toplevel)); EXPECT_FALSE(WidgetHasMouseCapture(child1)); EXPECT_FALSE(WidgetHasMouseCapture(child2)); toplevel->CloseNow(); } // Tests mouse move outside of the window into the "resize controller" and back // will still generate an OnMouseEntered and OnMouseExited event.. TEST_F(WidgetTest, CheckResizeControllerEvents) { Widget* toplevel = CreateTopLevelPlatformWidget(); toplevel->SetBounds(gfx::Rect(0, 0, 100, 100)); MouseView* view = new MouseView(); view->SetBounds(90, 90, 10, 10); toplevel->GetRootView()->AddChildView(view); toplevel->Show(); RunPendingMessages(); // Move to an outside position. gfx::Point p1(200, 200); ui::MouseEvent moved_out(ui::ET_MOUSE_MOVED, p1, p1, ui::EF_NONE); toplevel->OnMouseEvent(&moved_out); EXPECT_EQ(0, view->EnteredCalls()); EXPECT_EQ(0, view->ExitedCalls()); // Move onto the active view. gfx::Point p2(95, 95); ui::MouseEvent moved_over(ui::ET_MOUSE_MOVED, p2, p2, ui::EF_NONE); toplevel->OnMouseEvent(&moved_over); EXPECT_EQ(1, view->EnteredCalls()); EXPECT_EQ(0, view->ExitedCalls()); // Move onto the outer resizing border. gfx::Point p3(102, 95); ui::MouseEvent moved_resizer(ui::ET_MOUSE_MOVED, p3, p3, ui::EF_NONE); toplevel->OnMouseEvent(&moved_resizer); EXPECT_EQ(0, view->EnteredCalls()); EXPECT_EQ(1, view->ExitedCalls()); // Move onto the view again. toplevel->OnMouseEvent(&moved_over); EXPECT_EQ(1, view->EnteredCalls()); EXPECT_EQ(0, view->ExitedCalls()); RunPendingMessages(); toplevel->CloseNow(); } // Test if a focus manager and an inputmethod work without CHECK failure // when window activation changes. TEST_F(WidgetTest, ChangeActivation) { Widget* top1 = CreateTopLevelPlatformWidget(); // CreateInputMethod before activated top1->GetInputMethod(); top1->Show(); RunPendingMessages(); Widget* top2 = CreateTopLevelPlatformWidget(); top2->Show(); RunPendingMessages(); top1->Activate(); RunPendingMessages(); // Create InputMethod after deactivated. top2->GetInputMethod(); top2->Activate(); RunPendingMessages(); top1->Activate(); RunPendingMessages(); top1->CloseNow(); top2->CloseNow(); } // Tests visibility of child widgets. TEST_F(WidgetTest, Visibility) { Widget* toplevel = CreateTopLevelPlatformWidget(); gfx::NativeView parent = toplevel->GetNativeView(); Widget* child = CreateChildPlatformWidget(parent); EXPECT_FALSE(toplevel->IsVisible()); EXPECT_FALSE(child->IsVisible()); child->Show(); EXPECT_FALSE(toplevel->IsVisible()); EXPECT_FALSE(child->IsVisible()); toplevel->Show(); EXPECT_TRUE(toplevel->IsVisible()); EXPECT_TRUE(child->IsVisible()); toplevel->CloseNow(); // |child| should be automatically destroyed with |toplevel|. } #if defined(OS_WIN) && !defined(USE_AURA) // On Windows, it is possible to have child window that are TYPE_POPUP. Unlike // regular child windows, these should be created as hidden and must be shown // explicitly. TEST_F(WidgetTest, Visibility_ChildPopup) { Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* child_popup = CreateChildPopupPlatformWidget( toplevel->GetNativeView()); EXPECT_FALSE(toplevel->IsVisible()); EXPECT_FALSE(child_popup->IsVisible()); toplevel->Show(); EXPECT_TRUE(toplevel->IsVisible()); EXPECT_FALSE(child_popup->IsVisible()); child_popup->Show(); EXPECT_TRUE(child_popup->IsVisible()); toplevel->CloseNow(); // |child_popup| should be automatically destroyed with |toplevel|. } #endif //////////////////////////////////////////////////////////////////////////////// // Widget ownership tests. // // Tests various permutations of Widget ownership specified in the // InitParams::Ownership param. // A WidgetTest that supplies a toplevel widget for NativeWidget to parent to. class WidgetOwnershipTest : public WidgetTest { public: WidgetOwnershipTest() {} virtual ~WidgetOwnershipTest() {} virtual void SetUp() { WidgetTest::SetUp(); desktop_widget_ = CreateTopLevelPlatformWidget(); } virtual void TearDown() { desktop_widget_->CloseNow(); WidgetTest::TearDown(); } private: Widget* desktop_widget_; DISALLOW_COPY_AND_ASSIGN(WidgetOwnershipTest); }; // A bag of state to monitor destructions. struct OwnershipTestState { OwnershipTestState() : widget_deleted(false), native_widget_deleted(false) {} bool widget_deleted; bool native_widget_deleted; }; // A platform NativeWidget subclass that updates a bag of state when it is // destroyed. class OwnershipTestNativeWidget : public NativeWidgetPlatform { public: OwnershipTestNativeWidget(internal::NativeWidgetDelegate* delegate, OwnershipTestState* state) : NativeWidgetPlatform(delegate), state_(state) { } virtual ~OwnershipTestNativeWidget() { state_->native_widget_deleted = true; } private: OwnershipTestState* state_; DISALLOW_COPY_AND_ASSIGN(OwnershipTestNativeWidget); }; // A views NativeWidget subclass that updates a bag of state when it is // destroyed. class OwnershipTestNativeWidgetPlatform : public NativeWidgetPlatformForTest { public: OwnershipTestNativeWidgetPlatform(internal::NativeWidgetDelegate* delegate, OwnershipTestState* state) : NativeWidgetPlatformForTest(delegate), state_(state) { } virtual ~OwnershipTestNativeWidgetPlatform() { state_->native_widget_deleted = true; } private: OwnershipTestState* state_; DISALLOW_COPY_AND_ASSIGN(OwnershipTestNativeWidgetPlatform); }; // A Widget subclass that updates a bag of state when it is destroyed. class OwnershipTestWidget : public Widget { public: explicit OwnershipTestWidget(OwnershipTestState* state) : state_(state) {} virtual ~OwnershipTestWidget() { state_->widget_deleted = true; } private: OwnershipTestState* state_; DISALLOW_COPY_AND_ASSIGN(OwnershipTestWidget); }; // Widget owns its NativeWidget, part 1: NativeWidget is a platform-native // widget. TEST_F(WidgetOwnershipTest, Ownership_WidgetOwnsPlatformNativeWidget) { OwnershipTestState state; scoped_ptr widget(new OwnershipTestWidget(&state)); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget.get(), &state); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget->Init(params); // Now delete the Widget, which should delete the NativeWidget. widget.reset(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); // TODO(beng): write test for this ownership scenario and the NativeWidget // being deleted out from under the Widget. } // Widget owns its NativeWidget, part 2: NativeWidget is a NativeWidget. TEST_F(WidgetOwnershipTest, Ownership_WidgetOwnsViewsNativeWidget) { OwnershipTestState state; scoped_ptr widget(new OwnershipTestWidget(&state)); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget.get(), &state); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget->Init(params); // Now delete the Widget, which should delete the NativeWidget. widget.reset(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); // TODO(beng): write test for this ownership scenario and the NativeWidget // being deleted out from under the Widget. } // Widget owns its NativeWidget, part 3: NativeWidget is a NativeWidget, // destroy the parent view. TEST_F(WidgetOwnershipTest, Ownership_WidgetOwnsViewsNativeWidget_DestroyParentView) { OwnershipTestState state; Widget* toplevel = CreateTopLevelPlatformWidget(); scoped_ptr widget(new OwnershipTestWidget(&state)); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget.get(), &state); params.parent = toplevel->GetNativeView(); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget->Init(params); // Now close the toplevel, which deletes the view hierarchy. toplevel->CloseNow(); RunPendingMessages(); // This shouldn't delete the widget because it shouldn't be deleted // from the native side. EXPECT_FALSE(state.widget_deleted); EXPECT_FALSE(state.native_widget_deleted); // Now delete it explicitly. widget.reset(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } // NativeWidget owns its Widget, part 1: NativeWidget is a platform-native // widget. TEST_F(WidgetOwnershipTest, Ownership_PlatformNativeWidgetOwnsWidget) { OwnershipTestState state; Widget* widget = new OwnershipTestWidget(&state); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget, &state); widget->Init(params); // Now destroy the native widget. widget->CloseNow(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } // NativeWidget owns its Widget, part 2: NativeWidget is a NativeWidget. TEST_F(WidgetOwnershipTest, Ownership_ViewsNativeWidgetOwnsWidget) { OwnershipTestState state; Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* widget = new OwnershipTestWidget(&state); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget, &state); params.parent = toplevel->GetNativeView(); widget->Init(params); // Now destroy the native widget. This is achieved by closing the toplevel. toplevel->CloseNow(); // The NativeWidget won't be deleted until after a return to the message loop // so we have to run pending messages before testing the destruction status. RunPendingMessages(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } // NativeWidget owns its Widget, part 3: NativeWidget is a platform-native // widget, destroyed out from under it by the OS. TEST_F(WidgetOwnershipTest, Ownership_PlatformNativeWidgetOwnsWidget_NativeDestroy) { OwnershipTestState state; Widget* widget = new OwnershipTestWidget(&state); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget, &state); widget->Init(params); // Now simulate a destroy of the platform native widget from the OS: #if defined(USE_AURA) delete widget->GetNativeView(); #elif defined(OS_WIN) DestroyWindow(widget->GetNativeView()); #endif EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } // NativeWidget owns its Widget, part 4: NativeWidget is a NativeWidget, // destroyed by the view hierarchy that contains it. TEST_F(WidgetOwnershipTest, Ownership_ViewsNativeWidgetOwnsWidget_NativeDestroy) { OwnershipTestState state; Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* widget = new OwnershipTestWidget(&state); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget, &state); params.parent = toplevel->GetNativeView(); widget->Init(params); // Destroy the widget (achieved by closing the toplevel). toplevel->CloseNow(); // The NativeWidget won't be deleted until after a return to the message loop // so we have to run pending messages before testing the destruction status. RunPendingMessages(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } // NativeWidget owns its Widget, part 5: NativeWidget is a NativeWidget, // we close it directly. TEST_F(WidgetOwnershipTest, Ownership_ViewsNativeWidgetOwnsWidget_Close) { OwnershipTestState state; Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* widget = new OwnershipTestWidget(&state); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget, &state); params.parent = toplevel->GetNativeView(); widget->Init(params); // Destroy the widget. widget->Close(); toplevel->CloseNow(); // The NativeWidget won't be deleted until after a return to the message loop // so we have to run pending messages before testing the destruction status. RunPendingMessages(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } // Widget owns its NativeWidget and has a WidgetDelegateView as its contents. TEST_F(WidgetOwnershipTest, Ownership_WidgetOwnsNativeWidgetWithWithWidgetDelegateView) { OwnershipTestState state; WidgetDelegateView* delegate_view = new WidgetDelegateView; scoped_ptr widget(new OwnershipTestWidget(&state)); Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new OwnershipTestNativeWidgetPlatform(widget.get(), &state); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; params.delegate = delegate_view; widget->Init(params); widget->SetContentsView(delegate_view); // Now delete the Widget. There should be no crash or use-after-free. widget.reset(); EXPECT_TRUE(state.widget_deleted); EXPECT_TRUE(state.native_widget_deleted); } //////////////////////////////////////////////////////////////////////////////// // Test to verify using various Widget methods doesn't crash when the underlying // NativeView is destroyed. // class WidgetWithDestroyedNativeViewTest : public ViewsTestBase { public: WidgetWithDestroyedNativeViewTest() {} virtual ~WidgetWithDestroyedNativeViewTest() {} void InvokeWidgetMethods(Widget* widget) { widget->GetNativeView(); widget->GetNativeWindow(); ui::Accelerator accelerator; widget->GetAccelerator(0, &accelerator); widget->GetTopLevelWidget(); widget->GetWindowBoundsInScreen(); widget->GetClientAreaBoundsInScreen(); widget->SetBounds(gfx::Rect(0, 0, 100, 80)); widget->SetSize(gfx::Size(10, 11)); widget->SetBoundsConstrained(gfx::Rect(0, 0, 120, 140)); widget->SetVisibilityChangedAnimationsEnabled(false); widget->StackAtTop(); widget->IsClosed(); widget->Close(); widget->Show(); widget->Hide(); widget->Activate(); widget->Deactivate(); widget->IsActive(); widget->DisableInactiveRendering(); widget->SetAlwaysOnTop(true); widget->Maximize(); widget->Minimize(); widget->Restore(); widget->IsMaximized(); widget->IsFullscreen(); widget->SetOpacity(0); widget->SetUseDragFrame(true); widget->FlashFrame(true); widget->IsVisible(); widget->GetThemeProvider(); widget->GetNativeTheme(); widget->GetFocusManager(); widget->GetInputMethod(); widget->SchedulePaintInRect(gfx::Rect(0, 0, 1, 2)); widget->IsMouseEventsEnabled(); widget->SetNativeWindowProperty("xx", widget); widget->GetNativeWindowProperty("xx"); widget->GetFocusTraversable(); widget->GetLayer(); widget->ReorderNativeViews(); widget->SetCapture(widget->GetRootView()); widget->ReleaseCapture(); widget->HasCapture(); widget->TooltipTextChanged(widget->GetRootView()); widget->GetWorkAreaBoundsInScreen(); // These three crash with NativeWidgetWin, so I'm assuming we don't need // them to work for the other NativeWidget impls. // widget->CenterWindow(gfx::Size(50, 60)); // widget->GetRestoredBounds(); // widget->ShowInactive(); } private: DISALLOW_COPY_AND_ASSIGN(WidgetWithDestroyedNativeViewTest); }; TEST_F(WidgetWithDestroyedNativeViewTest, Test) { { Widget widget; Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget.Init(params); widget.Show(); widget.native_widget_private()->CloseNow(); InvokeWidgetMethods(&widget); } #if defined(USE_AURA) && !defined(OS_CHROMEOS) { Widget widget; Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); params.native_widget = new DesktopNativeWidgetAura(&widget); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget.Init(params); widget.Show(); widget.native_widget_private()->CloseNow(); InvokeWidgetMethods(&widget); } #endif } //////////////////////////////////////////////////////////////////////////////// // Widget observer tests. // class WidgetObserverTest : public WidgetTest, public WidgetObserver { public: WidgetObserverTest() : active_(NULL), widget_closed_(NULL), widget_activated_(NULL), widget_shown_(NULL), widget_hidden_(NULL), widget_bounds_changed_(NULL) { } virtual ~WidgetObserverTest() {} // Overridden from WidgetObserver: virtual void OnWidgetDestroying(Widget* widget) OVERRIDE { if (active_ == widget) active_ = NULL; widget_closed_ = widget; } virtual void OnWidgetActivationChanged(Widget* widget, bool active) OVERRIDE { if (active) { if (widget_activated_) widget_activated_->Deactivate(); widget_activated_ = widget; active_ = widget; } else { if (widget_activated_ == widget) widget_activated_ = NULL; widget_deactivated_ = widget; } } virtual void OnWidgetVisibilityChanged(Widget* widget, bool visible) OVERRIDE { if (visible) widget_shown_ = widget; else widget_hidden_ = widget; } virtual void OnWidgetBoundsChanged(Widget* widget, const gfx::Rect& new_bounds) OVERRIDE { widget_bounds_changed_ = widget; } void reset() { active_ = NULL; widget_closed_ = NULL; widget_activated_ = NULL; widget_deactivated_ = NULL; widget_shown_ = NULL; widget_hidden_ = NULL; widget_bounds_changed_ = NULL; } Widget* NewWidget() { Widget* widget = CreateTopLevelNativeWidget(); widget->AddObserver(this); return widget; } const Widget* active() const { return active_; } const Widget* widget_closed() const { return widget_closed_; } const Widget* widget_activated() const { return widget_activated_; } const Widget* widget_deactivated() const { return widget_deactivated_; } const Widget* widget_shown() const { return widget_shown_; } const Widget* widget_hidden() const { return widget_hidden_; } const Widget* widget_bounds_changed() const { return widget_bounds_changed_; } private: Widget* active_; Widget* widget_closed_; Widget* widget_activated_; Widget* widget_deactivated_; Widget* widget_shown_; Widget* widget_hidden_; Widget* widget_bounds_changed_; }; TEST_F(WidgetObserverTest, DISABLED_ActivationChange) { Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* toplevel1 = NewWidget(); Widget* toplevel2 = NewWidget(); toplevel1->Show(); toplevel2->Show(); reset(); toplevel1->Activate(); RunPendingMessages(); EXPECT_EQ(toplevel1, widget_activated()); toplevel2->Activate(); RunPendingMessages(); EXPECT_EQ(toplevel1, widget_deactivated()); EXPECT_EQ(toplevel2, widget_activated()); EXPECT_EQ(toplevel2, active()); toplevel->CloseNow(); } TEST_F(WidgetObserverTest, DISABLED_VisibilityChange) { Widget* toplevel = CreateTopLevelPlatformWidget(); Widget* child1 = NewWidget(); Widget* child2 = NewWidget(); toplevel->Show(); child1->Show(); child2->Show(); reset(); child1->Hide(); EXPECT_EQ(child1, widget_hidden()); child2->Hide(); EXPECT_EQ(child2, widget_hidden()); child1->Show(); EXPECT_EQ(child1, widget_shown()); child2->Show(); EXPECT_EQ(child2, widget_shown()); toplevel->CloseNow(); } TEST_F(WidgetObserverTest, DestroyBubble) { Widget* anchor = CreateTopLevelPlatformWidget(); anchor->Show(); BubbleDelegateView* bubble_delegate = new BubbleDelegateView(anchor->client_view(), BubbleBorder::NONE); Widget* bubble_widget(BubbleDelegateView::CreateBubble(bubble_delegate)); bubble_widget->Show(); bubble_widget->CloseNow(); anchor->Hide(); anchor->CloseNow(); } TEST_F(WidgetObserverTest, WidgetBoundsChanged) { Widget* child1 = NewWidget(); Widget* child2 = NewWidget(); child1->OnNativeWidgetMove(); EXPECT_EQ(child1, widget_bounds_changed()); child2->OnNativeWidgetMove(); EXPECT_EQ(child2, widget_bounds_changed()); child1->OnNativeWidgetSizeChanged(gfx::Size()); EXPECT_EQ(child1, widget_bounds_changed()); child2->OnNativeWidgetSizeChanged(gfx::Size()); EXPECT_EQ(child2, widget_bounds_changed()); } #if !defined(USE_AURA) && defined(OS_WIN) // Aura needs shell to maximize/fullscreen window. // NativeWidgetGtk doesn't implement GetRestoredBounds. TEST_F(WidgetTest, GetRestoredBounds) { Widget* toplevel = CreateTopLevelPlatformWidget(); EXPECT_EQ(toplevel->GetWindowBoundsInScreen().ToString(), toplevel->GetRestoredBounds().ToString()); toplevel->Show(); toplevel->Maximize(); RunPendingMessages(); EXPECT_NE(toplevel->GetWindowBoundsInScreen().ToString(), toplevel->GetRestoredBounds().ToString()); EXPECT_GT(toplevel->GetRestoredBounds().width(), 0); EXPECT_GT(toplevel->GetRestoredBounds().height(), 0); toplevel->Restore(); RunPendingMessages(); EXPECT_EQ(toplevel->GetWindowBoundsInScreen().ToString(), toplevel->GetRestoredBounds().ToString()); toplevel->SetFullscreen(true); RunPendingMessages(); EXPECT_NE(toplevel->GetWindowBoundsInScreen().ToString(), toplevel->GetRestoredBounds().ToString()); EXPECT_GT(toplevel->GetRestoredBounds().width(), 0); EXPECT_GT(toplevel->GetRestoredBounds().height(), 0); } #endif // Test that window state is not changed after getting out of full screen. TEST_F(WidgetTest, ExitFullscreenRestoreState) { Widget* toplevel = CreateTopLevelPlatformWidget(); toplevel->Show(); RunPendingMessages(); // This should be a normal state window. EXPECT_EQ(ui::SHOW_STATE_NORMAL, GetWidgetShowState(toplevel)); toplevel->SetFullscreen(true); while (GetWidgetShowState(toplevel) != ui::SHOW_STATE_FULLSCREEN) RunPendingMessages(); toplevel->SetFullscreen(false); while (GetWidgetShowState(toplevel) == ui::SHOW_STATE_FULLSCREEN) RunPendingMessages(); // And it should still be in normal state after getting out of full screen. EXPECT_EQ(ui::SHOW_STATE_NORMAL, GetWidgetShowState(toplevel)); // Now, make it maximized. toplevel->Maximize(); while (GetWidgetShowState(toplevel) != ui::SHOW_STATE_MAXIMIZED) RunPendingMessages(); toplevel->SetFullscreen(true); while (GetWidgetShowState(toplevel) != ui::SHOW_STATE_FULLSCREEN) RunPendingMessages(); toplevel->SetFullscreen(false); while (GetWidgetShowState(toplevel) == ui::SHOW_STATE_FULLSCREEN) RunPendingMessages(); // And it stays maximized after getting out of full screen. EXPECT_EQ(ui::SHOW_STATE_MAXIMIZED, GetWidgetShowState(toplevel)); // Clean up. toplevel->Close(); RunPendingMessages(); } // Checks that if a mouse-press triggers a capture on a different widget (which // consumes the mouse-release event), then the target of the press does not have // capture. // Fails on chromium.webkit Windows bot, see crbug.com/264872. #if defined(OS_WIN) #define MAYBE_DisableCaptureWidgetFromMousePress\ DISABLED_CaptureWidgetFromMousePress #else #define MAYBE_DisableCaptureWidgetFromMousePress\ CaptureWidgetFromMousePress #endif TEST_F(WidgetTest, MAYBE_DisableCaptureWidgetFromMousePress) { // The test creates two widgets: |first| and |second|. // The View in |first| makes |second| visible, sets capture on it, and starts // a nested loop (like a menu does). The View in |second| terminates the // nested loop and closes the widget. // The test sends a mouse-press event to |first|, and posts a task to send a // release event to |second|, to make sure that the release event is // dispatched after the nested loop starts. Widget* first = CreateTopLevelFramelessPlatformWidget(); Widget* second = CreateTopLevelFramelessPlatformWidget(); View* container = new NestedLoopCaptureView(second); first->SetContentsView(container); second->SetContentsView(new ExitLoopOnRelease()); first->SetSize(gfx::Size(100, 100)); first->Show(); gfx::Point location(20, 20); base::MessageLoop::current()->PostTask(FROM_HERE, base::Bind(&Widget::OnMouseEvent, base::Unretained(second), base::Owned(new ui::MouseEvent(ui::ET_MOUSE_RELEASED, location, location, ui::EF_LEFT_MOUSE_BUTTON)))); ui::MouseEvent press(ui::ET_MOUSE_PRESSED, location, location, ui::EF_LEFT_MOUSE_BUTTON); first->OnMouseEvent(&press); EXPECT_FALSE(first->HasCapture()); first->Close(); RunPendingMessages(); } TEST_F(WidgetTest, ResetCaptureOnGestureEnd) { Widget* toplevel = CreateTopLevelFramelessPlatformWidget(); View* container = new View; toplevel->SetContentsView(container); View* gesture = new GestureCaptureView; gesture->SetBounds(0, 0, 30, 30); container->AddChildView(gesture); MouseView* mouse = new MouseView; mouse->SetBounds(30, 0, 30, 30); container->AddChildView(mouse); toplevel->SetSize(gfx::Size(100, 100)); toplevel->Show(); // Start a gesture on |gesture|. ui::GestureEvent begin(ui::ET_GESTURE_BEGIN, 15, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_BEGIN, 0, 0), 1); ui::GestureEvent end(ui::ET_GESTURE_END, 15, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_END, 0, 0), 1); toplevel->OnGestureEvent(&begin); // Now try to click on |mouse|. Since |gesture| will have capture, |mouse| // will not receive the event. gfx::Point click_location(45, 15); ui::MouseEvent press(ui::ET_MOUSE_PRESSED, click_location, click_location, ui::EF_LEFT_MOUSE_BUTTON); ui::MouseEvent release(ui::ET_MOUSE_RELEASED, click_location, click_location, ui::EF_LEFT_MOUSE_BUTTON); toplevel->OnMouseEvent(&press); toplevel->OnMouseEvent(&release); EXPECT_EQ(0, mouse->pressed()); // The end of the gesture should release the capture, and pressing on |mouse| // should now reach |mouse|. toplevel->OnGestureEvent(&end); toplevel->OnMouseEvent(&press); toplevel->OnMouseEvent(&release); EXPECT_EQ(1, mouse->pressed()); toplevel->Close(); RunPendingMessages(); } #if defined(USE_AURA) // The key-event propagation from Widget happens differently on aura and // non-aura systems because of the difference in IME. So this test works only on // aura. TEST_F(WidgetTest, KeyboardInputEvent) { Widget* toplevel = CreateTopLevelPlatformWidget(); View* container = toplevel->client_view(); Textfield* textfield = new Textfield(); textfield->SetText(ASCIIToUTF16("some text")); container->AddChildView(textfield); toplevel->Show(); textfield->RequestFocus(); // The press gets handled. The release doesn't have an effect. ui::KeyEvent backspace_p(ui::ET_KEY_PRESSED, ui::VKEY_DELETE, 0, false); toplevel->OnKeyEvent(&backspace_p); EXPECT_TRUE(backspace_p.stopped_propagation()); ui::KeyEvent backspace_r(ui::ET_KEY_RELEASED, ui::VKEY_DELETE, 0, false); toplevel->OnKeyEvent(&backspace_r); EXPECT_FALSE(backspace_r.handled()); toplevel->Close(); } // Verifies bubbles result in a focus lost when shown. // TODO(msw): this tests relies on focus, it needs to be in // interactive_ui_tests. TEST_F(WidgetTest, DISABLED_FocusChangesOnBubble) { // Create a widget, show and activate it and focus the contents view. View* contents_view = new View; contents_view->set_focusable(true); Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_WINDOW_FRAMELESS); init_params.bounds = gfx::Rect(0, 0, 200, 200); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; #if !defined(OS_CHROMEOS) init_params.native_widget = new DesktopNativeWidgetAura(&widget); #endif widget.Init(init_params); widget.SetContentsView(contents_view); widget.Show(); widget.Activate(); contents_view->RequestFocus(); EXPECT_TRUE(contents_view->HasFocus()); // Show a bubble. BubbleDelegateView* bubble_delegate_view = new BubbleDelegateView(contents_view, BubbleBorder::TOP_LEFT); bubble_delegate_view->set_focusable(true); BubbleDelegateView::CreateBubble(bubble_delegate_view)->Show(); bubble_delegate_view->RequestFocus(); // |contents_view_| should no longer have focus. EXPECT_FALSE(contents_view->HasFocus()); EXPECT_TRUE(bubble_delegate_view->HasFocus()); bubble_delegate_view->GetWidget()->CloseNow(); // Closing the bubble should result in focus going back to the contents view. EXPECT_TRUE(contents_view->HasFocus()); } // Desktop native widget Aura tests are for non Chrome OS platforms. #if !defined(OS_CHROMEOS) // Test to ensure that after minimize, view width is set to zero. TEST_F(WidgetTest, TestViewWidthAfterMinimizingWidget) { // Create a widget. Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_WINDOW); init_params.show_state = ui::SHOW_STATE_NORMAL; gfx::Rect initial_bounds(0, 0, 300, 400); init_params.bounds = initial_bounds; init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.native_widget = new DesktopNativeWidgetAura(&widget); widget.Init(init_params); NonClientView* non_client_view = widget.non_client_view(); NonClientFrameView* frame_view = new MinimumSizeFrameView(&widget); non_client_view->SetFrameView(frame_view); widget.Show(); widget.Minimize(); EXPECT_EQ(0, frame_view->width()); } // This class validates whether paints are received for a visible Widget. // To achieve this it overrides the Show and Close methods on the Widget class // and sets state whether subsequent paints are expected. class DesktopAuraTestValidPaintWidget : public views::Widget { public: DesktopAuraTestValidPaintWidget() : expect_paint_(true), received_paint_while_hidden_(false) { } virtual ~DesktopAuraTestValidPaintWidget() { } virtual void Show() OVERRIDE { expect_paint_ = true; views::Widget::Show(); } virtual void Close() OVERRIDE { expect_paint_ = false; views::Widget::Close(); } void Hide() { expect_paint_ = false; views::Widget::Hide(); } virtual void OnNativeWidgetPaint(gfx::Canvas* canvas) OVERRIDE { EXPECT_TRUE(expect_paint_); if (!expect_paint_) received_paint_while_hidden_ = true; views::Widget::OnNativeWidgetPaint(canvas); } bool received_paint_while_hidden() const { return received_paint_while_hidden_; } private: bool expect_paint_; bool received_paint_while_hidden_; }; TEST_F(WidgetTest, DesktopNativeWidgetAuraNoPaintAfterCloseTest) { View* contents_view = new View; contents_view->set_focusable(true); DesktopAuraTestValidPaintWidget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_WINDOW_FRAMELESS); init_params.bounds = gfx::Rect(0, 0, 200, 200); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.native_widget = new DesktopNativeWidgetAura(&widget); widget.Init(init_params); widget.SetContentsView(contents_view); widget.Show(); widget.Activate(); RunPendingMessages(); widget.SchedulePaintInRect(init_params.bounds); widget.Close(); RunPendingMessages(); EXPECT_FALSE(widget.received_paint_while_hidden()); } TEST_F(WidgetTest, DesktopNativeWidgetAuraNoPaintAfterHideTest) { View* contents_view = new View; contents_view->set_focusable(true); DesktopAuraTestValidPaintWidget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_WINDOW_FRAMELESS); init_params.bounds = gfx::Rect(0, 0, 200, 200); init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.native_widget = new DesktopNativeWidgetAura(&widget); widget.Init(init_params); widget.SetContentsView(contents_view); widget.Show(); widget.Activate(); RunPendingMessages(); widget.SchedulePaintInRect(init_params.bounds); widget.Hide(); RunPendingMessages(); EXPECT_FALSE(widget.received_paint_while_hidden()); widget.Close(); } // This class provides functionality to test whether the destruction of full // screen child windows occurs correctly in desktop AURA without crashing. // It provides facilities to test the following cases:- // 1. Child window destroyed which should lead to the destruction of the // parent. // 2. Parent window destroyed which should lead to the child being destroyed. class DesktopAuraFullscreenChildWindowDestructionTest : public views::TestViewsDelegate, public aura::WindowObserver { public: DesktopAuraFullscreenChildWindowDestructionTest() : full_screen_widget_(NULL), child_window_(NULL), parent_destroyed_(false), child_destroyed_(false) {} virtual ~DesktopAuraFullscreenChildWindowDestructionTest() { EXPECT_TRUE(parent_destroyed_); EXPECT_TRUE(child_destroyed_); full_screen_widget_ = NULL; child_window_ = NULL; } // views::TestViewsDelegate overrides. virtual void OnBeforeWidgetInit( Widget::InitParams* params, internal::NativeWidgetDelegate* delegate) OVERRIDE { if (!params->native_widget) params->native_widget = new views::DesktopNativeWidgetAura(delegate); } void CreateFullscreenChildWindow(const gfx::Rect& bounds) { Widget::InitParams init_params; init_params.type = Widget::InitParams::TYPE_WINDOW; init_params.bounds = bounds; init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.layer_type = ui::LAYER_NOT_DRAWN; widget_.Init(init_params); child_window_ = new aura::Window(&child_window_delegate_); child_window_->SetType(aura::client::WINDOW_TYPE_NORMAL); child_window_->Init(ui::LAYER_TEXTURED); child_window_->SetName("TestFullscreenChildWindow"); child_window_->SetProperty(aura::client::kShowStateKey, ui::SHOW_STATE_FULLSCREEN); child_window_->SetDefaultParentByRootWindow( widget_.GetNativeView()->GetRootWindow(), gfx::Rect(0, 0, 1900, 1600)); child_window_->Show(); child_window_->AddObserver(this); ASSERT_TRUE(child_window_->parent() != NULL); child_window_->parent()->AddObserver(this); full_screen_widget_ = views::Widget::GetWidgetForNativeView(child_window_->parent()); ASSERT_TRUE(full_screen_widget_ != NULL); } void DestroyChildWindow() { ASSERT_TRUE(child_window_ != NULL); delete child_window_; } void DestroyParentWindow() { ASSERT_TRUE(full_screen_widget_ != NULL); full_screen_widget_->CloseNow(); } virtual void OnWindowDestroying(aura::Window* window) OVERRIDE { window->RemoveObserver(this); if (window == child_window_) { child_destroyed_ = true; } else if (window == full_screen_widget_->GetNativeView()) { parent_destroyed_ = true; } else { ADD_FAILURE() << "Unexpected window destroyed callback: " << window; } } private: views::Widget widget_; views::Widget* full_screen_widget_; aura::Window* child_window_; bool parent_destroyed_; bool child_destroyed_; aura::test::TestWindowDelegate child_window_delegate_; DISALLOW_COPY_AND_ASSIGN(DesktopAuraFullscreenChildWindowDestructionTest); }; TEST_F(WidgetTest, DesktopAuraFullscreenChildDestroyedBeforeParentTest) { ViewsDelegate::views_delegate = NULL; DesktopAuraFullscreenChildWindowDestructionTest full_screen_child_test; ASSERT_NO_FATAL_FAILURE(full_screen_child_test.CreateFullscreenChildWindow( gfx::Rect(0, 0, 200, 200))); RunPendingMessages(); ASSERT_NO_FATAL_FAILURE(full_screen_child_test.DestroyChildWindow()); RunPendingMessages(); } TEST_F(WidgetTest, DesktopAuraFullscreenChildParentDestroyed) { ViewsDelegate::views_delegate = NULL; DesktopAuraFullscreenChildWindowDestructionTest full_screen_child_test; ASSERT_NO_FATAL_FAILURE(full_screen_child_test.CreateFullscreenChildWindow( gfx::Rect(0, 0, 200, 200))); RunPendingMessages(); ASSERT_NO_FATAL_FAILURE(full_screen_child_test.DestroyParentWindow()); RunPendingMessages(); } // Test to ensure that the aura Window's visiblity state is set to visible if // the underlying widget is hidden and then shown. TEST_F(WidgetTest, TestWindowVisibilityAfterHide) { // Create a widget. Widget widget; Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_WINDOW); init_params.show_state = ui::SHOW_STATE_NORMAL; gfx::Rect initial_bounds(0, 0, 300, 400); init_params.bounds = initial_bounds; init_params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; init_params.native_widget = new DesktopNativeWidgetAura(&widget); widget.Init(init_params); NonClientView* non_client_view = widget.non_client_view(); NonClientFrameView* frame_view = new MinimumSizeFrameView(&widget); non_client_view->SetFrameView(frame_view); widget.Hide(); EXPECT_FALSE(widget.GetNativeView()->IsVisible()); widget.Show(); EXPECT_TRUE(widget.GetNativeView()->IsVisible()); } #endif // !defined(OS_CHROMEOS) // Tests that wheel events generated from scroll events are targetted to the // views under the cursor when the focused view does not processed them. TEST_F(WidgetTest, WheelEventsFromScrollEventTarget) { EventCountView* cursor_view = new EventCountView; cursor_view->SetBounds(60, 0, 50, 40); Widget* widget = CreateTopLevelPlatformWidget(); widget->GetRootView()->AddChildView(cursor_view); // Generate a scroll event on the cursor view. ui::ScrollEvent scroll(ui::ET_SCROLL, gfx::Point(65, 5), ui::EventTimeForNow(), 0, 0, 20, 0, 20, 2); widget->OnScrollEvent(&scroll); EXPECT_EQ(1, cursor_view->GetEventCount(ui::ET_SCROLL)); EXPECT_EQ(1, cursor_view->GetEventCount(ui::ET_MOUSEWHEEL)); cursor_view->ResetCounts(); ui::ScrollEvent scroll2(ui::ET_SCROLL, gfx::Point(5, 5), ui::EventTimeForNow(), 0, 0, 20, 0, 20, 2); widget->OnScrollEvent(&scroll2); EXPECT_EQ(0, cursor_view->GetEventCount(ui::ET_SCROLL)); EXPECT_EQ(0, cursor_view->GetEventCount(ui::ET_MOUSEWHEEL)); widget->CloseNow(); } #endif // defined(USE_AURA) // Tests that if a scroll-begin gesture is not handled, then subsequent scroll // events are not dispatched to any view. TEST_F(WidgetTest, GestureScrollEventDispatching) { EventCountView* noscroll_view = new EventCountView; EventCountView* scroll_view = new ScrollableEventCountView; noscroll_view->SetBounds(0, 0, 50, 40); scroll_view->SetBounds(60, 0, 40, 40); Widget* widget = CreateTopLevelPlatformWidget(); widget->GetRootView()->AddChildView(noscroll_view); widget->GetRootView()->AddChildView(scroll_view); { ui::GestureEvent begin(ui::ET_GESTURE_SCROLL_BEGIN, 5, 5, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_BEGIN, 0, 0), 1); widget->OnGestureEvent(&begin); ui::GestureEvent update(ui::ET_GESTURE_SCROLL_UPDATE, 25, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_UPDATE, 20, 10), 1); widget->OnGestureEvent(&update); ui::GestureEvent end(ui::ET_GESTURE_SCROLL_END, 25, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_END, 0, 0), 1); widget->OnGestureEvent(&end); EXPECT_EQ(1, noscroll_view->GetEventCount(ui::ET_GESTURE_SCROLL_BEGIN)); EXPECT_EQ(0, noscroll_view->GetEventCount(ui::ET_GESTURE_SCROLL_UPDATE)); EXPECT_EQ(0, noscroll_view->GetEventCount(ui::ET_GESTURE_SCROLL_END)); } { ui::GestureEvent begin(ui::ET_GESTURE_SCROLL_BEGIN, 65, 5, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_BEGIN, 0, 0), 1); widget->OnGestureEvent(&begin); ui::GestureEvent update(ui::ET_GESTURE_SCROLL_UPDATE, 85, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_UPDATE, 20, 10), 1); widget->OnGestureEvent(&update); ui::GestureEvent end(ui::ET_GESTURE_SCROLL_END, 85, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_SCROLL_END, 0, 0), 1); widget->OnGestureEvent(&end); EXPECT_EQ(1, scroll_view->GetEventCount(ui::ET_GESTURE_SCROLL_BEGIN)); EXPECT_EQ(1, scroll_view->GetEventCount(ui::ET_GESTURE_SCROLL_UPDATE)); EXPECT_EQ(1, scroll_view->GetEventCount(ui::ET_GESTURE_SCROLL_END)); } widget->CloseNow(); } // Tests that event-handlers installed on the RootView get triggered correctly. TEST_F(WidgetTest, EventHandlersOnRootView) { Widget* widget = CreateTopLevelNativeWidget(); View* root_view = widget->GetRootView(); EventCountView* view = new EventCountView; view->SetBounds(0, 0, 20, 20); root_view->AddChildView(view); EventCountHandler h1; root_view->AddPreTargetHandler(&h1); EventCountHandler h2; root_view->AddPostTargetHandler(&h2); widget->SetBounds(gfx::Rect(0, 0, 100, 100)); widget->Show(); ui::TouchEvent pressed(ui::ET_TOUCH_PRESSED, gfx::Point(10, 10), 0, 0, ui::EventTimeForNow(), 1.0, 0.0, 1.0, 0.0); widget->OnTouchEvent(&pressed); EXPECT_EQ(1, h1.GetEventCount(ui::ET_TOUCH_PRESSED)); EXPECT_EQ(1, view->GetEventCount(ui::ET_TOUCH_PRESSED)); EXPECT_EQ(1, h2.GetEventCount(ui::ET_TOUCH_PRESSED)); ui::GestureEvent begin(ui::ET_GESTURE_BEGIN, 5, 5, 0, ui::EventTimeForNow(), ui::GestureEventDetails(ui::ET_GESTURE_BEGIN, 0, 0), 1); ui::GestureEvent end(ui::ET_GESTURE_END, 5, 5, 0, ui::EventTimeForNow(), ui::GestureEventDetails(ui::ET_GESTURE_END, 0, 0), 1); widget->OnGestureEvent(&begin); EXPECT_EQ(1, h1.GetEventCount(ui::ET_GESTURE_BEGIN)); EXPECT_EQ(1, view->GetEventCount(ui::ET_GESTURE_BEGIN)); EXPECT_EQ(1, h2.GetEventCount(ui::ET_GESTURE_BEGIN)); ui::TouchEvent released(ui::ET_TOUCH_RELEASED, gfx::Point(10, 10), 0, 0, ui::EventTimeForNow(), 1.0, 0.0, 1.0, 0.0); widget->OnTouchEvent(&released); EXPECT_EQ(1, h1.GetEventCount(ui::ET_TOUCH_RELEASED)); EXPECT_EQ(1, view->GetEventCount(ui::ET_TOUCH_RELEASED)); EXPECT_EQ(1, h2.GetEventCount(ui::ET_TOUCH_RELEASED)); widget->OnGestureEvent(&end); EXPECT_EQ(1, h1.GetEventCount(ui::ET_GESTURE_END)); EXPECT_EQ(1, view->GetEventCount(ui::ET_GESTURE_END)); EXPECT_EQ(1, h2.GetEventCount(ui::ET_GESTURE_END)); ui::ScrollEvent scroll(ui::ET_SCROLL, gfx::Point(5, 5), ui::EventTimeForNow(), 0, 0, 20, 0, 20, 2); widget->OnScrollEvent(&scroll); EXPECT_EQ(1, h1.GetEventCount(ui::ET_SCROLL)); EXPECT_EQ(1, view->GetEventCount(ui::ET_SCROLL)); EXPECT_EQ(1, h2.GetEventCount(ui::ET_SCROLL)); widget->CloseNow(); } TEST_F(WidgetTest, SynthesizeMouseMoveEvent) { Widget* widget = CreateTopLevelNativeWidget(); View* root_view = widget->GetRootView(); EventCountView* v1 = new EventCountView(); v1->SetBounds(0, 0, 10, 10); root_view->AddChildView(v1); EventCountView* v2 = new EventCountView(); v2->SetBounds(0, 10, 10, 10); root_view->AddChildView(v2); gfx::Point cursor_location(5, 5); ui::MouseEvent move(ui::ET_MOUSE_MOVED, cursor_location, cursor_location, ui::EF_NONE); widget->OnMouseEvent(&move); EXPECT_EQ(1, v1->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); delete v1; v2->SetBounds(0, 0, 10, 10); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); widget->SynthesizeMouseMoveEvent(); EXPECT_EQ(1, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); } TEST_F(WidgetTest, MouseEventsHandled) { Widget* widget = CreateTopLevelNativeWidget(); View* root_view = widget->GetRootView(); #if defined(USE_AURA) aura::test::TestCursorClient cursor_client( widget->GetNativeView()->GetRootWindow()); #endif EventCountView* v1 = new EventCountView(); v1->SetBounds(0, 0, 10, 10); root_view->AddChildView(v1); EventCountView* v2 = new EventCountView(); v2->SetBounds(0, 10, 10, 10); root_view->AddChildView(v2); gfx::Point cursor_location1(5, 5); ui::MouseEvent move1(ui::ET_MOUSE_MOVED, cursor_location1, cursor_location1, ui::EF_NONE); widget->OnMouseEvent(&move1); EXPECT_EQ(1, v1->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v1->GetEventCount(ui::ET_MOUSE_EXITED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_EXITED)); v1->ResetCounts(); v2->ResetCounts(); gfx::Point cursor_location2(5, 15); ui::MouseEvent move2(ui::ET_MOUSE_MOVED, cursor_location2, cursor_location2, ui::EF_NONE); widget->OnMouseEvent(&move2); EXPECT_EQ(0, v1->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(1, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(1, v1->GetEventCount(ui::ET_MOUSE_EXITED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_EXITED)); v1->ResetCounts(); v2->ResetCounts(); #if defined(USE_AURA) // In Aura, we suppress mouse events if mouse events are disabled. cursor_client.DisableMouseEvents(); widget->OnMouseEvent(&move1); EXPECT_EQ(0, v1->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v1->GetEventCount(ui::ET_MOUSE_EXITED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_EXITED)); v1->ResetCounts(); v2->ResetCounts(); widget->OnMouseEvent(&move2); EXPECT_EQ(0, v1->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_ENTERED)); EXPECT_EQ(0, v1->GetEventCount(ui::ET_MOUSE_EXITED)); EXPECT_EQ(0, v2->GetEventCount(ui::ET_MOUSE_EXITED)); #endif } // Used by SingleWindowClosing to count number of times WindowClosing() has // been invoked. class ClosingDelegate : public WidgetDelegate { public: ClosingDelegate() : count_(0), widget_(NULL) {} int count() const { return count_; } void set_widget(views::Widget* widget) { widget_ = widget; } // WidgetDelegate overrides: virtual Widget* GetWidget() OVERRIDE { return widget_; } virtual const Widget* GetWidget() const OVERRIDE { return widget_; } virtual void WindowClosing() OVERRIDE { count_++; } private: int count_; views::Widget* widget_; DISALLOW_COPY_AND_ASSIGN(ClosingDelegate); }; // Verifies WindowClosing() is invoked correctly on the delegate when a Widget // is closed. TEST_F(WidgetTest, SingleWindowClosing) { scoped_ptr delegate(new ClosingDelegate()); Widget* widget = new Widget(); // Destroyed by CloseNow() below. Widget::InitParams init_params = CreateParams(Widget::InitParams::TYPE_WINDOW); init_params.bounds = gfx::Rect(0, 0, 200, 200); init_params.delegate = delegate.get(); #if defined(USE_AURA) && !defined(OS_CHROMEOS) init_params.native_widget = new DesktopNativeWidgetAura(widget); #endif widget->Init(init_params); EXPECT_EQ(0, delegate->count()); widget->CloseNow(); EXPECT_EQ(1, delegate->count()); } // Used by SetTopLevelCorrectly to track calls to OnBeforeWidgetInit(). class VerifyTopLevelDelegate : public TestViewsDelegate { public: VerifyTopLevelDelegate() : on_before_init_called_(false), is_top_level_(false) { } bool on_before_init_called() const { return on_before_init_called_; } bool is_top_level() const { return is_top_level_; } virtual void OnBeforeWidgetInit( Widget::InitParams* params, internal::NativeWidgetDelegate* delegate) OVERRIDE { on_before_init_called_ = true; is_top_level_ = params->top_level; } private: bool on_before_init_called_; bool is_top_level_; DISALLOW_COPY_AND_ASSIGN(VerifyTopLevelDelegate); }; // Verifies |top_level| is correctly passed to // ViewsDelegate::OnBeforeWidgetInit(). TEST_F(WidgetTest, SetTopLevelCorrectly) { set_views_delegate(NULL); VerifyTopLevelDelegate* delegate = new VerifyTopLevelDelegate; set_views_delegate(delegate); // ViewsTestBase takes ownership. scoped_ptr widget(new Widget); Widget::InitParams params = CreateParams(views::Widget::InitParams::TYPE_POPUP); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget->Init(params); EXPECT_TRUE(delegate->on_before_init_called()); EXPECT_TRUE(delegate->is_top_level()); } // A scumbag View that deletes its owning widget OnMousePressed. class WidgetDeleterView : public View { public: WidgetDeleterView() : View() {} // Overridden from View. virtual bool OnMousePressed(const ui::MouseEvent& event) OVERRIDE { delete GetWidget(); return true; } private: DISALLOW_COPY_AND_ASSIGN(WidgetDeleterView); }; TEST_F(WidgetTest, TestWidgetDeletedInOnMousePressed) { Widget* widget = new Widget; Widget::InitParams params = CreateParams(views::Widget::InitParams::TYPE_POPUP); params.ownership = Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET; widget->Init(params); widget->SetContentsView(new WidgetDeleterView); widget->SetSize(gfx::Size(100, 100)); widget->Show(); gfx::Point click_location(45, 15); ui::MouseEvent press(ui::ET_MOUSE_PRESSED, click_location, click_location, ui::EF_LEFT_MOUSE_BUTTON); widget->OnMouseEvent(&press); // Yay we did not crash! } // See description of RunGetNativeThemeFromDestructor() for details. class GetNativeThemeFromDestructorView : public WidgetDelegateView { public: GetNativeThemeFromDestructorView() {} virtual ~GetNativeThemeFromDestructorView() { VerifyNativeTheme(); } virtual View* GetContentsView() OVERRIDE { return this; } private: void VerifyNativeTheme() { ASSERT_TRUE(GetNativeTheme() != NULL); } DISALLOW_COPY_AND_ASSIGN(GetNativeThemeFromDestructorView); }; // Verifies GetNativeTheme() from the destructor of a WidgetDelegateView doesn't // crash. |is_first_run| is true if this is the first call. A return value of // true indicates this should be run again with a value of false. // First run uses DesktopNativeWidgetAura (if possible). Second run doesn't. bool RunGetNativeThemeFromDestructor(const Widget::InitParams& in_params, bool is_first_run) { bool needs_second_run = false; // Destroyed by CloseNow() below. Widget* widget = new Widget; Widget::InitParams params(in_params); // Deletes itself when the Widget is destroyed. params.delegate = new GetNativeThemeFromDestructorView; #if defined(USE_AURA) && !defined(OS_CHROMEOS) if (is_first_run) { params.native_widget = new DesktopNativeWidgetAura(widget); needs_second_run = true; } #endif widget->Init(params); widget->CloseNow(); return needs_second_run; } // See description of RunGetNativeThemeFromDestructor() for details. TEST_F(WidgetTest, GetNativeThemeFromDestructor) { Widget::InitParams params = CreateParams(Widget::InitParams::TYPE_POPUP); if (RunGetNativeThemeFromDestructor(params, true)) RunGetNativeThemeFromDestructor(params, false); } // Used by HideCloseDestroy. Allows setting a boolean when the widget is // destroyed. class CloseDestroysWidget : public Widget { public: explicit CloseDestroysWidget(bool* destroyed) : destroyed_(destroyed) { } virtual ~CloseDestroysWidget() { if (destroyed_) { *destroyed_ = true; base::MessageLoop::current()->QuitNow(); } } void Detach() { destroyed_ = NULL; } private: // If non-null set to true from destructor. bool* destroyed_; DISALLOW_COPY_AND_ASSIGN(CloseDestroysWidget); }; // Verifies Close() results in destroying. TEST_F(WidgetTest, CloseDestroys) { bool destroyed = false; CloseDestroysWidget* widget = new CloseDestroysWidget(&destroyed); Widget::InitParams params = CreateParams(views::Widget::InitParams::TYPE_MENU); params.opacity = Widget::InitParams::OPAQUE_WINDOW; #if defined(USE_AURA) && !defined(OS_CHROMEOS) params.native_widget = new DesktopNativeWidgetAura(widget); #endif widget->Init(params); widget->Show(); widget->Hide(); widget->Close(); // Run the message loop as Close() asynchronously deletes. RunPendingMessages(); EXPECT_TRUE(destroyed); // Close() should destroy the widget. If not we'll cleanup to avoid leaks. if (!destroyed) { widget->Detach(); widget->CloseNow(); } } // A view that consumes mouse-pressed event and gesture-tap-down events. class RootViewTestView : public View { public: RootViewTestView(): View() {} private: virtual bool OnMousePressed(const ui::MouseEvent& event) OVERRIDE { return true; } virtual void OnGestureEvent(ui::GestureEvent* event) OVERRIDE { if (event->type() == ui::ET_GESTURE_TAP_DOWN) event->SetHandled(); } }; // Checks if RootView::*_handler_ fields are unset when widget is hidden. // Fails on chromium.webkit Windows bot, see crbug.com/264872. #if defined(OS_WIN) #define MAYBE_DisableTestRootViewHandlersWhenHidden\ DISABLED_TestRootViewHandlersWhenHidden #else #define MAYBE_DisableTestRootViewHandlersWhenHidden\ TestRootViewHandlersWhenHidden #endif TEST_F(WidgetTest, MAYBE_DisableTestRootViewHandlersWhenHidden) { Widget* widget = CreateTopLevelNativeWidget(); widget->SetBounds(gfx::Rect(0, 0, 300, 300)); View* view = new RootViewTestView(); view->SetBounds(0, 0, 300, 300); internal::RootView* root_view = static_cast(widget->GetRootView()); root_view->AddChildView(view); // Check RootView::mouse_pressed_handler_. widget->Show(); EXPECT_EQ(NULL, GetMousePressedHandler(root_view)); gfx::Point click_location(45, 15); ui::MouseEvent press(ui::ET_MOUSE_PRESSED, click_location, click_location, ui::EF_LEFT_MOUSE_BUTTON); widget->OnMouseEvent(&press); EXPECT_EQ(view, GetMousePressedHandler(root_view)); widget->Hide(); EXPECT_EQ(NULL, GetMousePressedHandler(root_view)); // Check RootView::mouse_move_handler_. widget->Show(); EXPECT_EQ(NULL, GetMouseMoveHandler(root_view)); gfx::Point move_location(45, 15); ui::MouseEvent move(ui::ET_MOUSE_MOVED, move_location, move_location, 0); widget->OnMouseEvent(&move); EXPECT_EQ(view, GetMouseMoveHandler(root_view)); widget->Hide(); EXPECT_EQ(NULL, GetMouseMoveHandler(root_view)); // Check RootView::gesture_handler_. widget->Show(); EXPECT_EQ(NULL, GetGestureHandler(root_view)); ui::GestureEvent tap_down( ui::ET_GESTURE_TAP_DOWN, 15, 15, 0, base::TimeDelta(), ui::GestureEventDetails(ui::ET_GESTURE_TAP_DOWN, 0, 0), 1); widget->OnGestureEvent(&tap_down); EXPECT_EQ(view, GetGestureHandler(root_view)); widget->Hide(); EXPECT_EQ(NULL, GetGestureHandler(root_view)); widget->Close(); } } // namespace test } // namespace views