ui/android/view_android_unittests.cc - chromium/src - Git at Google

 // Copyright 2017 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/test/gtest_util.h"
 #include "testing/gtest/include/gtest/gtest.h"
 #include "ui/android/event_forwarder.h"
 #include "ui/android/view_android.h"
 #include "ui/android/view_android_observer.h"
 #include "ui/android/window_android.h"
 #include "ui/events/android/event_handler_android.h"
 #include "ui/events/android/motion_event_android.h"
 #include "ui/events/test/scoped_event_test_tick_clock.h"

 namespace ui {

 using base::android::JavaParamRef;

 class TestViewAndroid : public ViewAndroid {
  public:
   TestViewAndroid(ViewAndroid::LayoutType layout_type)
       : ViewAndroid(layout_type) {}

   float GetDipScale() override { return 1.f; }
 };

 class TestEventHandler : public EventHandlerAndroid {
  public:
   TestEventHandler() {}

   bool OnTouchEvent(const MotionEventAndroid& event) override {
     touch_called_ = true;
     return handle_event_;
   }
   void OnSizeChanged() override { onsize_called_ = true; }

   void SetHandleEvent(bool handle_event) { handle_event_ = handle_event; }
   bool TouchEventHandled() { return touch_called_ && handle_event_; }
   bool TouchEventCalled() { return touch_called_; }
   bool OnSizeCalled() { return onsize_called_; }
   void Reset() {
     touch_called_ = false;
     onsize_called_ = false;
   }

  private:
   bool handle_event_{true};  // Marks as event was consumed. True by default.
   bool touch_called_{false};
   bool onsize_called_{false};
 };

 class ViewAndroidBoundsTest : public testing::Test {
  public:
   ViewAndroidBoundsTest()
       : root_(ViewAndroid::LayoutType::MATCH_PARENT),
         view1_(ViewAndroid::LayoutType::NORMAL),
         view2_(ViewAndroid::LayoutType::NORMAL),
         view3_(ViewAndroid::LayoutType::NORMAL),
         viewm_(ViewAndroid::LayoutType::MATCH_PARENT) {
     root_.GetEventForwarder();
     view1_.set_event_handler(&handler1_);
     view2_.set_event_handler(&handler2_);
     view3_.set_event_handler(&handler3_);
     viewm_.set_event_handler(&handlerm_);
   }

   void Reset() {
     handler1_.Reset();
     handler2_.Reset();
     handler3_.Reset();
     handlerm_.Reset();
     test_clock_.SetNowTicks(base::TimeTicks());
   }

   void GenerateTouchEventAt(float x, float y) {
     ui::MotionEventAndroid::Pointer pointer0(0, x, y, 0, 0, 0, 0, 0);
     ui::MotionEventAndroid::Pointer pointer1(0, 0, 0, 0, 0, 0, 0, 0);
     ui::MotionEventAndroid event(nullptr, JavaParamRef<jobject>(nullptr), 1.f,
                                  0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, false,
                                  &pointer0, &pointer1);
     root_.OnTouchEvent(event);
   }

   void ExpectHit(const TestEventHandler& hitHandler) {
     TestEventHandler* handlers[4] = {&handler1_, &handler2_, &handler3_,
                                      &handlerm_};
     for (auto* handler : handlers) {
       if (&hitHandler == handler)
         EXPECT_TRUE(handler->TouchEventHandled());
       else
         EXPECT_FALSE(handler->TouchEventHandled());
     }
     Reset();
   }

   TestViewAndroid root_;
   TestViewAndroid view1_;
   TestViewAndroid view2_;
   TestViewAndroid view3_;
   TestViewAndroid viewm_;  // match-parent view
   TestEventHandler handler1_;
   TestEventHandler handler2_;
   TestEventHandler handler3_;
   TestEventHandler handlerm_;
   ui::test::ScopedEventTestTickClock test_clock_;
 };

 TEST_F(ViewAndroidBoundsTest, MatchesViewInFront) {
   view1_.SetLayoutForTesting(50, 50, 400, 600);
   view2_.SetLayoutForTesting(50, 50, 400, 600);
   root_.AddChild(&view2_);
   root_.AddChild(&view1_);

   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler1_);

   // View 2 moves up to the top, and events should hit it from now.
   root_.MoveToFront(&view2_);
   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler2_);

   // View 2 moves back to the bottom, and events should hit View 1 again.
   root_.MoveToBack(&view2_);
   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler1_);
 }

 TEST_F(ViewAndroidBoundsTest, MatchesViewArea) {
   view1_.SetLayoutForTesting(50, 50, 200, 200);
   view2_.SetLayoutForTesting(20, 20, 400, 600);

   root_.AddChild(&view2_);
   root_.AddChild(&view1_);

   // Falls within |view1_|'s bounds
   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler1_);

   // Falls within |view2_|'s bounds
   GenerateTouchEventAt(300.f, 400.f);
   ExpectHit(handler2_);
 }

 TEST_F(ViewAndroidBoundsTest, MatchesViewAfterMove) {
   view1_.SetLayoutForTesting(50, 50, 200, 200);
   view2_.SetLayoutForTesting(20, 20, 400, 600);
   root_.AddChild(&view2_);
   root_.AddChild(&view1_);

   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler1_);

   view1_.SetLayoutForTesting(150, 150, 200, 200);
   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler2_);
 }

 TEST_F(ViewAndroidBoundsTest, MatchesViewSizeOfkMatchParent) {
   view1_.SetLayoutForTesting(20, 20, 400, 600);
   view2_.SetLayoutForTesting(50, 50, 200, 200);

   root_.AddChild(&view1_);
   root_.AddChild(&view2_);
   view1_.AddChild(&viewm_);

   GenerateTouchEventAt(100.f, 100.f);
   ExpectHit(handler2_);

   GenerateTouchEventAt(300.f, 400.f);
   ExpectHit(handler1_);

   handler1_.SetHandleEvent(false);
   GenerateTouchEventAt(300.f, 400.f);
   EXPECT_TRUE(handler1_.TouchEventCalled());
   ExpectHit(handlerm_);
 }

 TEST_F(ViewAndroidBoundsTest, MatchesViewsWithOffset) {
   view1_.SetLayoutForTesting(10, 20, 150, 100);
   view2_.SetLayoutForTesting(20, 30, 40, 30);
   view3_.SetLayoutForTesting(70, 30, 40, 30);

   root_.AddChild(&view1_);
   view1_.AddChild(&view2_);
   view1_.AddChild(&view3_);

   GenerateTouchEventAt(70, 30);
   ExpectHit(handler1_);

   handler1_.SetHandleEvent(false);
   GenerateTouchEventAt(40, 60);
   EXPECT_TRUE(handler1_.TouchEventCalled());
   ExpectHit(handler2_);

   GenerateTouchEventAt(100, 70);
   EXPECT_TRUE(handler1_.TouchEventCalled());
   ExpectHit(handler3_);
 }

 TEST_F(ViewAndroidBoundsTest, OnSizeChanged) {
   root_.AddChild(&view1_);
   view1_.AddChild(&viewm_);
   view1_.AddChild(&view3_);

   // Size event propagates to non-match-parent children only.
   view1_.OnSizeChanged(100, 100);
   EXPECT_TRUE(handler1_.OnSizeCalled());
   EXPECT_TRUE(handlerm_.OnSizeCalled());
   EXPECT_FALSE(handler3_.OnSizeCalled());

   Reset();

   // Match-parent view should not receivee size events in the first place.
   EXPECT_DCHECK_DEATH(viewm_.OnSizeChanged(100, 200));
   EXPECT_FALSE(handlerm_.OnSizeCalled());
   EXPECT_FALSE(handler3_.OnSizeCalled());

   viewm_.RemoveFromParent();
   viewm_.OnSizeChangedInternal(gfx::Size(0, 0));  // Reset the size.

   Reset();

   view1_.OnSizeChanged(100, 100);

   // Size event is generated for a newly added, match-parent child view.
   EXPECT_FALSE(handlerm_.OnSizeCalled());
   view1_.AddChild(&viewm_);
   EXPECT_TRUE(handlerm_.OnSizeCalled());
   EXPECT_FALSE(handler3_.OnSizeCalled());

   viewm_.RemoveFromParent();

   Reset();

   view1_.OnSizeChanged(100, 100);

   // Size event won't propagate if the children already have the same size.
   view1_.AddChild(&viewm_);
   EXPECT_FALSE(handlerm_.OnSizeCalled());
   EXPECT_FALSE(handler3_.OnSizeCalled());
 }

 TEST(ViewAndroidTest, ChecksMultipleEventForwarders) {
   ViewAndroid parent;
   ViewAndroid child;
   parent.GetEventForwarder();
   child.GetEventForwarder();
   EXPECT_DCHECK_DEATH(parent.AddChild(&child));

   ViewAndroid parent2;
   ViewAndroid child2;
   parent2.GetEventForwarder();
   parent2.AddChild(&child2);
   EXPECT_DCHECK_DEATH(child2.GetEventForwarder());

   ViewAndroid window;
   ViewAndroid wcv1, wcv2;
   ViewAndroid rwhv1a, rwhv1b, rwhv2;
   wcv1.GetEventForwarder();
   wcv2.GetEventForwarder();

   window.AddChild(&wcv1);
   wcv1.AddChild(&rwhv1a);
   wcv1.AddChild(&rwhv1b);

   wcv2.AddChild(&rwhv2);

   // window should be able to add wcv2 since there's only one event forwarder
   // in the path window - wcv2* - rwvh2
   window.AddChild(&wcv2);

   // Additional event forwarder will cause failure.
   EXPECT_DCHECK_DEATH(rwhv2.GetEventForwarder());
 }

 class Observer : public ViewAndroidObserver {
  public:
   Observer() : attached_(false) {}

   void OnAttachedToWindow() override { attached_ = true; }

   void OnDetachedFromWindow() override { attached_ = false; }

   bool attached_;
 };

 TEST(ViewAndroidTest, Observer) {
   std::unique_ptr<WindowAndroid> window(WindowAndroid::CreateForTesting());
   ViewAndroid top;
   ViewAndroid bottom;

   Observer top_observer;
   Observer bottom_observer;

   top.AddObserver(&top_observer);
   bottom.AddObserver(&bottom_observer);

   top.AddChild(&bottom);

   EXPECT_FALSE(top_observer.attached_);
   EXPECT_FALSE(bottom_observer.attached_);

   // Views in a tree all get notified of 'attached' event.
   window->AddChild(&top);
   EXPECT_TRUE(top_observer.attached_);
   EXPECT_TRUE(bottom_observer.attached_);

   // Observer, upon addition, does not get notified of the current
   // attached state.
   Observer top_observer2;
   top.AddObserver(&top_observer2);
   EXPECT_FALSE(top_observer2.attached_);

   bottom.RemoveFromParent();
   EXPECT_FALSE(bottom_observer.attached_);
   top.RemoveFromParent();
   EXPECT_FALSE(top_observer.attached_);

   window->AddChild(&top);
   EXPECT_TRUE(top_observer.attached_);

   // View, upon addition to a tree in the attached state, should be notified.
   top.AddChild(&bottom);
   EXPECT_TRUE(bottom_observer.attached_);

   // Views in a tree all get notified of 'detached' event.
   top.RemoveFromParent();
   EXPECT_FALSE(top_observer.attached_);
   EXPECT_FALSE(bottom_observer.attached_);
 }

 TEST(ViewAndroidTest, WindowAndroidDestructionDetachesAllViewAndroid) {
   std::unique_ptr<WindowAndroid> window(WindowAndroid::CreateForTesting());
   ViewAndroid top;
   ViewAndroid bottom;

   Observer top_observer;
   Observer bottom_observer;

   top.AddObserver(&top_observer);
   bottom.AddObserver(&bottom_observer);

   window->AddChild(&top);
   top.AddChild(&bottom);

   EXPECT_TRUE(top_observer.attached_);
   EXPECT_TRUE(bottom_observer.attached_);

   window.reset();

   EXPECT_FALSE(top_observer.attached_);
   EXPECT_FALSE(bottom_observer.attached_);
 }

 }  // namespace ui
	// Copyright 2017 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/test/gtest_util.h"
	#include "testing/gtest/include/gtest/gtest.h"
	#include "ui/android/event_forwarder.h"
	#include "ui/android/view_android.h"
	#include "ui/android/view_android_observer.h"
	#include "ui/android/window_android.h"
	#include "ui/events/android/event_handler_android.h"
	#include "ui/events/android/motion_event_android.h"
	#include "ui/events/test/scoped_event_test_tick_clock.h"

	namespace ui {

	using base::android::JavaParamRef;

	class TestViewAndroid : public ViewAndroid {
	public:
	TestViewAndroid(ViewAndroid::LayoutType layout_type)
	: ViewAndroid(layout_type) {}

	float GetDipScale() override { return 1.f; }
	};

	class TestEventHandler : public EventHandlerAndroid {
	public:
	TestEventHandler() {}

	bool OnTouchEvent(const MotionEventAndroid& event) override {
	touch_called_ = true;
	return handle_event_;
	}
	void OnSizeChanged() override { onsize_called_ = true; }

	void SetHandleEvent(bool handle_event) { handle_event_ = handle_event; }
	bool TouchEventHandled() { return touch_called_ && handle_event_; }
	bool TouchEventCalled() { return touch_called_; }
	bool OnSizeCalled() { return onsize_called_; }
	void Reset() {
	touch_called_ = false;
	onsize_called_ = false;
	}

	private:
	bool handle_event_{true}; // Marks as event was consumed. True by default.
	bool touch_called_{false};
	bool onsize_called_{false};
	};

	class ViewAndroidBoundsTest : public testing::Test {
	public:
	ViewAndroidBoundsTest()
	: root_(ViewAndroid::LayoutType::MATCH_PARENT),
	view1_(ViewAndroid::LayoutType::NORMAL),
	view2_(ViewAndroid::LayoutType::NORMAL),
	view3_(ViewAndroid::LayoutType::NORMAL),
	viewm_(ViewAndroid::LayoutType::MATCH_PARENT) {
	root_.GetEventForwarder();
	view1_.set_event_handler(&handler1_);
	view2_.set_event_handler(&handler2_);
	view3_.set_event_handler(&handler3_);
	viewm_.set_event_handler(&handlerm_);
	}

	void Reset() {
	handler1_.Reset();
	handler2_.Reset();
	handler3_.Reset();
	handlerm_.Reset();
	test_clock_.SetNowTicks(base::TimeTicks());
	}

	void GenerateTouchEventAt(float x, float y) {
	ui::MotionEventAndroid::Pointer pointer0(0, x, y, 0, 0, 0, 0, 0);
	ui::MotionEventAndroid::Pointer pointer1(0, 0, 0, 0, 0, 0, 0, 0);
	ui::MotionEventAndroid event(nullptr, JavaParamRef<jobject>(nullptr), 1.f,
	0, 0, 0, 0, 0, 1, 0, 0, 0, 0, 0, 0, 0, false,
	&pointer0, &pointer1);
	root_.OnTouchEvent(event);
	}

	void ExpectHit(const TestEventHandler& hitHandler) {
	TestEventHandler* handlers[4] = {&handler1_, &handler2_, &handler3_,
	&handlerm_};
	for (auto* handler : handlers) {
	if (&hitHandler == handler)
	EXPECT_TRUE(handler->TouchEventHandled());
	else
	EXPECT_FALSE(handler->TouchEventHandled());
	}
	Reset();
	}

	TestViewAndroid root_;
	TestViewAndroid view1_;
	TestViewAndroid view2_;
	TestViewAndroid view3_;
	TestViewAndroid viewm_; // match-parent view
	TestEventHandler handler1_;
	TestEventHandler handler2_;
	TestEventHandler handler3_;
	TestEventHandler handlerm_;
	ui::test::ScopedEventTestTickClock test_clock_;
	};

	TEST_F(ViewAndroidBoundsTest, MatchesViewInFront) {
	view1_.SetLayoutForTesting(50, 50, 400, 600);
	view2_.SetLayoutForTesting(50, 50, 400, 600);
	root_.AddChild(&view2_);
	root_.AddChild(&view1_);

	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler1_);

	// View 2 moves up to the top, and events should hit it from now.
	root_.MoveToFront(&view2_);
	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler2_);

	// View 2 moves back to the bottom, and events should hit View 1 again.
	root_.MoveToBack(&view2_);
	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler1_);
	}

	TEST_F(ViewAndroidBoundsTest, MatchesViewArea) {
	view1_.SetLayoutForTesting(50, 50, 200, 200);
	view2_.SetLayoutForTesting(20, 20, 400, 600);

	root_.AddChild(&view2_);
	root_.AddChild(&view1_);

	// Falls within \|view1_\|'s bounds
	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler1_);

	// Falls within \|view2_\|'s bounds
	GenerateTouchEventAt(300.f, 400.f);
	ExpectHit(handler2_);
	}

	TEST_F(ViewAndroidBoundsTest, MatchesViewAfterMove) {
	view1_.SetLayoutForTesting(50, 50, 200, 200);
	view2_.SetLayoutForTesting(20, 20, 400, 600);
	root_.AddChild(&view2_);
	root_.AddChild(&view1_);

	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler1_);

	view1_.SetLayoutForTesting(150, 150, 200, 200);
	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler2_);
	}

	TEST_F(ViewAndroidBoundsTest, MatchesViewSizeOfkMatchParent) {
	view1_.SetLayoutForTesting(20, 20, 400, 600);
	view2_.SetLayoutForTesting(50, 50, 200, 200);

	root_.AddChild(&view1_);
	root_.AddChild(&view2_);
	view1_.AddChild(&viewm_);

	GenerateTouchEventAt(100.f, 100.f);
	ExpectHit(handler2_);

	GenerateTouchEventAt(300.f, 400.f);
	ExpectHit(handler1_);

	handler1_.SetHandleEvent(false);
	GenerateTouchEventAt(300.f, 400.f);
	EXPECT_TRUE(handler1_.TouchEventCalled());
	ExpectHit(handlerm_);
	}

	TEST_F(ViewAndroidBoundsTest, MatchesViewsWithOffset) {
	view1_.SetLayoutForTesting(10, 20, 150, 100);
	view2_.SetLayoutForTesting(20, 30, 40, 30);
	view3_.SetLayoutForTesting(70, 30, 40, 30);

	root_.AddChild(&view1_);
	view1_.AddChild(&view2_);
	view1_.AddChild(&view3_);

	GenerateTouchEventAt(70, 30);
	ExpectHit(handler1_);

	handler1_.SetHandleEvent(false);
	GenerateTouchEventAt(40, 60);
	EXPECT_TRUE(handler1_.TouchEventCalled());
	ExpectHit(handler2_);

	GenerateTouchEventAt(100, 70);
	EXPECT_TRUE(handler1_.TouchEventCalled());
	ExpectHit(handler3_);
	}

	TEST_F(ViewAndroidBoundsTest, OnSizeChanged) {
	root_.AddChild(&view1_);
	view1_.AddChild(&viewm_);
	view1_.AddChild(&view3_);

	// Size event propagates to non-match-parent children only.
	view1_.OnSizeChanged(100, 100);
	EXPECT_TRUE(handler1_.OnSizeCalled());
	EXPECT_TRUE(handlerm_.OnSizeCalled());
	EXPECT_FALSE(handler3_.OnSizeCalled());

	Reset();

	// Match-parent view should not receivee size events in the first place.
	EXPECT_DCHECK_DEATH(viewm_.OnSizeChanged(100, 200));
	EXPECT_FALSE(handlerm_.OnSizeCalled());
	EXPECT_FALSE(handler3_.OnSizeCalled());

	viewm_.RemoveFromParent();
	viewm_.OnSizeChangedInternal(gfx::Size(0, 0)); // Reset the size.

	Reset();

	view1_.OnSizeChanged(100, 100);

	// Size event is generated for a newly added, match-parent child view.
	EXPECT_FALSE(handlerm_.OnSizeCalled());
	view1_.AddChild(&viewm_);
	EXPECT_TRUE(handlerm_.OnSizeCalled());
	EXPECT_FALSE(handler3_.OnSizeCalled());

	viewm_.RemoveFromParent();

	Reset();

	view1_.OnSizeChanged(100, 100);

	// Size event won't propagate if the children already have the same size.
	view1_.AddChild(&viewm_);
	EXPECT_FALSE(handlerm_.OnSizeCalled());
	EXPECT_FALSE(handler3_.OnSizeCalled());
	}

	TEST(ViewAndroidTest, ChecksMultipleEventForwarders) {
	ViewAndroid parent;
	ViewAndroid child;
	parent.GetEventForwarder();
	child.GetEventForwarder();
	EXPECT_DCHECK_DEATH(parent.AddChild(&child));

	ViewAndroid parent2;
	ViewAndroid child2;
	parent2.GetEventForwarder();
	parent2.AddChild(&child2);
	EXPECT_DCHECK_DEATH(child2.GetEventForwarder());

	ViewAndroid window;
	ViewAndroid wcv1, wcv2;
	ViewAndroid rwhv1a, rwhv1b, rwhv2;
	wcv1.GetEventForwarder();
	wcv2.GetEventForwarder();

	window.AddChild(&wcv1);
	wcv1.AddChild(&rwhv1a);
	wcv1.AddChild(&rwhv1b);

	wcv2.AddChild(&rwhv2);

	// window should be able to add wcv2 since there's only one event forwarder
	// in the path window - wcv2* - rwvh2
	window.AddChild(&wcv2);

	// Additional event forwarder will cause failure.
	EXPECT_DCHECK_DEATH(rwhv2.GetEventForwarder());
	}

	class Observer : public ViewAndroidObserver {
	public:
	Observer() : attached_(false) {}

	void OnAttachedToWindow() override { attached_ = true; }

	void OnDetachedFromWindow() override { attached_ = false; }

	bool attached_;
	};

	TEST(ViewAndroidTest, Observer) {
	std::unique_ptr<WindowAndroid> window(WindowAndroid::CreateForTesting());
	ViewAndroid top;
	ViewAndroid bottom;

	Observer top_observer;
	Observer bottom_observer;

	top.AddObserver(&top_observer);
	bottom.AddObserver(&bottom_observer);

	top.AddChild(&bottom);

	EXPECT_FALSE(top_observer.attached_);
	EXPECT_FALSE(bottom_observer.attached_);

	// Views in a tree all get notified of 'attached' event.
	window->AddChild(&top);
	EXPECT_TRUE(top_observer.attached_);
	EXPECT_TRUE(bottom_observer.attached_);

	// Observer, upon addition, does not get notified of the current
	// attached state.
	Observer top_observer2;
	top.AddObserver(&top_observer2);
	EXPECT_FALSE(top_observer2.attached_);

	bottom.RemoveFromParent();
	EXPECT_FALSE(bottom_observer.attached_);
	top.RemoveFromParent();
	EXPECT_FALSE(top_observer.attached_);

	window->AddChild(&top);
	EXPECT_TRUE(top_observer.attached_);

	// View, upon addition to a tree in the attached state, should be notified.
	top.AddChild(&bottom);
	EXPECT_TRUE(bottom_observer.attached_);

	// Views in a tree all get notified of 'detached' event.
	top.RemoveFromParent();
	EXPECT_FALSE(top_observer.attached_);
	EXPECT_FALSE(bottom_observer.attached_);
	}

	TEST(ViewAndroidTest, WindowAndroidDestructionDetachesAllViewAndroid) {
	std::unique_ptr<WindowAndroid> window(WindowAndroid::CreateForTesting());
	ViewAndroid top;
	ViewAndroid bottom;

	Observer top_observer;
	Observer bottom_observer;

	top.AddObserver(&top_observer);
	bottom.AddObserver(&bottom_observer);

	window->AddChild(&top);
	top.AddChild(&bottom);

	EXPECT_TRUE(top_observer.attached_);
	EXPECT_TRUE(bottom_observer.attached_);

	window.reset();

	EXPECT_FALSE(top_observer.attached_);
	EXPECT_FALSE(bottom_observer.attached_);
	}

	} // namespace ui