ash/display/screen_position_controller_unittest.cc - chromium/src - Git at Google

 // 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 "ash/display/screen_position_controller.h"

 #include "ash/display/display_manager.h"
 #include "ash/screen_util.h"
 #include "ash/shell.h"
 #include "ash/shell_window_ids.h"
 #include "ash/test/ash_test_base.h"
 #include "ash/test/shell_test_api.h"
 #include "ui/aura/env.h"
 #include "ui/aura/test/test_window_delegate.h"
 #include "ui/aura/window_tracker.h"
 #include "ui/aura/window_tree_host.h"
 #include "ui/base/layout.h"
 #include "ui/events/test/event_generator.h"
 #include "ui/gfx/screen.h"

 #if defined(OS_WIN)
 // TODO(scottmg): RootWindow doesn't get resized immediately on Windows
 // Ash. http://crbug.com/247916.
 #define MAYBE_ConvertHostPointToScreen DISABLED_ConvertHostPointToScreen
 #define MAYBE_ConvertHostPointToScreenHiDPI DISABLED_ConvertHostPointToScreenHiDPI
 #define MAYBE_ConvertHostPointToScreenRotate DISABLED_ConvertHostPointToScreenRotate
 #define MAYBE_ConvertHostPointToScreenUIScale DISABLED_ConvertHostPointToScreenUIScale
 #define MAYBE_ConvertToScreenWhileRemovingSecondaryDisplay \
   DISABLED_ConvertToScreenWhileRemovingSecondaryDisplay
 #else
 #define MAYBE_ConvertHostPointToScreen ConvertHostPointToScreen
 #define MAYBE_ConvertHostPointToScreenHiDPI ConvertHostPointToScreenHiDPI
 #define MAYBE_ConvertHostPointToScreenRotate ConvertHostPointToScreenRotate
 #define MAYBE_ConvertHostPointToScreenUIScale ConvertHostPointToScreenUIScale
 #define MAYBE_ConvertToScreenWhileRemovingSecondaryDisplay \
   ConvertToScreenWhileRemovingSecondaryDisplay
 #endif

 namespace ash {
 namespace test {

 namespace {

 void SetSecondaryDisplayLayout(DisplayLayout::Position position) {
   DisplayLayout layout =
       Shell::GetInstance()->display_manager()->GetCurrentDisplayLayout();
   layout.position = position;
   Shell::GetInstance()->display_manager()->
       SetLayoutForCurrentDisplays(layout);
 }

 ScreenPositionController* GetScreenPositionController() {
   ShellTestApi test_api(Shell::GetInstance());
   return test_api.screen_position_controller();
 }

 class ScreenPositionControllerTest : public test::AshTestBase {
  public:
   ScreenPositionControllerTest() {}
   ~ScreenPositionControllerTest() override {}

   void SetUp() override {
     AshTestBase::SetUp();
     window_.reset(new aura::Window(&window_delegate_));
     window_->SetType(ui::wm::WINDOW_TYPE_NORMAL);
     window_->Init(ui::LAYER_NOT_DRAWN);
     ParentWindowInPrimaryRootWindow(window_.get());
     window_->set_id(1);
   }

   void TearDown() override {
     window_.reset();
     AshTestBase::TearDown();
   }

   // Converts a point (x, y) in host window's coordinate to screen and
   // returns its string representation.
   std::string ConvertHostPointToScreen(int x, int y) const {
     gfx::Point point(x, y);
     GetScreenPositionController()->ConvertHostPointToScreen(
         window_->GetRootWindow(), &point);
     return point.ToString();
   }

  protected:
   scoped_ptr<aura::Window> window_;
   aura::test::TestWindowDelegate window_delegate_;

  private:
   DISALLOW_COPY_AND_ASSIGN(ScreenPositionControllerTest);
 };

 }  // namespace

 TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreen) {
   UpdateDisplay("100+100-200x200,100+500-200x200");

   aura::Window::Windows root_windows =
       Shell::GetInstance()->GetAllRootWindows();
   EXPECT_EQ("100,100",
             root_windows[0]->GetHost()->GetBounds().origin().ToString());
   EXPECT_EQ("200x200",
             root_windows[0]->GetHost()->GetBounds().size().ToString());
   EXPECT_EQ("100,500",
             root_windows[1]->GetHost()->GetBounds().origin().ToString());
   EXPECT_EQ("200x200",
             root_windows[1]->GetHost()->GetBounds().size().ToString());

   const gfx::Point window_pos(100, 100);
   window_->SetBoundsInScreen(
       gfx::Rect(window_pos, gfx::Size(100, 100)),
       Shell::GetScreen()->GetDisplayNearestPoint(window_pos));
   SetSecondaryDisplayLayout(DisplayLayout::RIGHT);
   // The point is on the primary root window.
   EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
   // The point is on the secondary display.
   EXPECT_EQ("250,0", ConvertHostPointToScreen(50, 400));

   SetSecondaryDisplayLayout(DisplayLayout::BOTTOM);
   // The point is on the primary root window.
   EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
   // The point is on the secondary display.
   EXPECT_EQ("50,200", ConvertHostPointToScreen(50, 400));

   SetSecondaryDisplayLayout(DisplayLayout::LEFT);
   // The point is on the primary root window.
   EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
   // The point is on the secondary display.
   EXPECT_EQ("-150,0", ConvertHostPointToScreen(50, 400));

   SetSecondaryDisplayLayout(DisplayLayout::TOP);
   // The point is on the primary root window.
   EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
   // The point is on the secondary display.
   EXPECT_EQ("50,-200", ConvertHostPointToScreen(50, 400));


   SetSecondaryDisplayLayout(DisplayLayout::RIGHT);
   const gfx::Point window_pos2(300, 100);
   window_->SetBoundsInScreen(
       gfx::Rect(window_pos2, gfx::Size(100, 100)),
       Shell::GetScreen()->GetDisplayNearestPoint(window_pos2));
   // The point is on the secondary display.
   EXPECT_EQ("250,50", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("450,250", ConvertHostPointToScreen(250, 250));
   // The point is on the primary root window.
   EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));

   SetSecondaryDisplayLayout(DisplayLayout::BOTTOM);
   // The point is on the secondary display.
   EXPECT_EQ("50,250", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("250,450", ConvertHostPointToScreen(250, 250));
   // The point is on the primary root window.
   EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));

   SetSecondaryDisplayLayout(DisplayLayout::LEFT);
   // The point is on the secondary display.
   EXPECT_EQ("-150,50", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("50,250", ConvertHostPointToScreen(250, 250));
   // The point is on the primary root window.
   EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));

   SetSecondaryDisplayLayout(DisplayLayout::TOP);
   // The point is on the secondary display.
   EXPECT_EQ("50,-150", ConvertHostPointToScreen(50, 50));
   // The point is out of the all root windows.
   EXPECT_EQ("250,50", ConvertHostPointToScreen(250, 250));
   // The point is on the primary root window.
   EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));
 }

 TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreenHiDPI) {
   UpdateDisplay("100+100-200x200*2,100+500-200x200");

   aura::Window::Windows root_windows =
       Shell::GetInstance()->GetAllRootWindows();
   EXPECT_EQ("100,100",
             root_windows[0]->GetHost()->
                 GetBounds().origin().ToString());
   EXPECT_EQ("200x200",
             root_windows[0]->GetHost()->
                 GetBounds().size().ToString());
   EXPECT_EQ("100,500",
             root_windows[1]->GetHost()->
                 GetBounds().origin().ToString());
   EXPECT_EQ("200x200",
             root_windows[1]->GetHost()->
                 GetBounds().size().ToString());

   // Put |window_| to the primary 2x display.
   window_->SetBoundsInScreen(gfx::Rect(20, 20, 50, 50),
                              Shell::GetScreen()->GetPrimaryDisplay());
   // (30, 30) means the host coordinate, so the point is still on the primary
   // root window.  Since it's 2x, the specified native point was halved.
   EXPECT_EQ("15,15", ConvertHostPointToScreen(30, 30));
   // Similar to above but the point is out of the all root windows.
   EXPECT_EQ("200,200", ConvertHostPointToScreen(400, 400));
   // Similar to above but the point is on the secondary display.
   EXPECT_EQ("100,15", ConvertHostPointToScreen(200, 30));

   // On secondary display. The position on the 2nd host window is (150,50)
   // so the screen position is (100,0) + (150,50).
   EXPECT_EQ("250,50", ConvertHostPointToScreen(150, 450));

   // At the edge but still in the primary display.  Remaining of the primary
   // display is (50, 50) but adding ~100 since it's 2x-display.
   EXPECT_EQ("79,79", ConvertHostPointToScreen(158, 158));
   // At the edge of the secondary display.
   EXPECT_EQ("80,80", ConvertHostPointToScreen(160, 160));
 }

 TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreenRotate) {
   // 1st display is rotated 90 clockise, and 2nd display is rotated
   // 270 clockwise.
   UpdateDisplay("100+100-200x200/r,100+500-200x200/l");
   // Put |window_| to the 1st.
   window_->SetBoundsInScreen(gfx::Rect(20, 20, 50, 50),
                              Shell::GetScreen()->GetPrimaryDisplay());

   // The point is on the 1st host.
   EXPECT_EQ("70,149", ConvertHostPointToScreen(50, 70));
   // The point is out of the host windows.
   EXPECT_EQ("250,-51", ConvertHostPointToScreen(250, 250));
   // The point is on the 2nd host. Point on 2nd host (30,150) -
   // rotate 270 clockwise -> (149, 30) - layout [+(200,0)] -> (349,30).
   EXPECT_EQ("349,30", ConvertHostPointToScreen(30, 450));

   // Move |window_| to the 2nd.
   window_->SetBoundsInScreen(gfx::Rect(300, 20, 50, 50),
                              ScreenUtil::GetSecondaryDisplay());
   aura::Window::Windows root_windows =
       Shell::GetInstance()->GetAllRootWindows();
   EXPECT_EQ(root_windows[1], window_->GetRootWindow());

   // The point is on the 2nd host. (50,70) on 2n host -
   // roatate 270 clockwise -> (129,50) -layout [+(200,0)] -> (329,50)
   EXPECT_EQ("329,50", ConvertHostPointToScreen(50, 70));
   // The point is out of the host windows.
   EXPECT_EQ("449,50", ConvertHostPointToScreen(50, -50));
   // The point is on the 2nd host. Point on 2nd host (50,50) -
   // rotate 90 clockwise -> (50, 149)
   EXPECT_EQ("50,149", ConvertHostPointToScreen(50, -350));
 }

 TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreenUIScale) {
   // 1st display is 2x density with 1.5 UI scale.
   UpdateDisplay("100+100-200x200*2@1.5,100+500-200x200");
   // Put |window_| to the 1st.
   window_->SetBoundsInScreen(gfx::Rect(20, 20, 50, 50),
                              Shell::GetScreen()->GetPrimaryDisplay());

   // The point is on the 1st host.
   EXPECT_EQ("45,45", ConvertHostPointToScreen(60, 60));
   // The point is out of the host windows.
   EXPECT_EQ("45,225", ConvertHostPointToScreen(60, 300));
   // The point is on the 2nd host. Point on 2nd host (60,150) -
   // - screen [+(150,0)]
   EXPECT_EQ("210,49", ConvertHostPointToScreen(60, 450));

   // Move |window_| to the 2nd.
   window_->SetBoundsInScreen(gfx::Rect(300, 20, 50, 50),
                              ScreenUtil::GetSecondaryDisplay());
   aura::Window::Windows root_windows =
       Shell::GetInstance()->GetAllRootWindows();
   EXPECT_EQ(root_windows[1], window_->GetRootWindow());

   // The point is on the 2nd host. (50,70) - ro
   EXPECT_EQ("210,70", ConvertHostPointToScreen(60, 70));
   // The point is out of the host windows.
   EXPECT_EQ("210,-50", ConvertHostPointToScreen(60, -50));
   // The point is on the 2nd host. Point on 1nd host (60, 60)
   // 1/2 * 1.5 = (45,45)
   EXPECT_EQ("45,45", ConvertHostPointToScreen(60, -340));
 }

 namespace {

 // EventHandler which tracks whether it got any MouseEvents whose location could
 // not be converted to screen coordinates.
 class ConvertToScreenEventHandler : public ui::EventHandler {
  public:
   ConvertToScreenEventHandler() : could_convert_to_screen_(true) {
     aura::Env::GetInstance()->AddPreTargetHandler(this);
   }
   ~ConvertToScreenEventHandler() override {
     aura::Env::GetInstance()->RemovePreTargetHandler(this);
   }

   bool could_convert_to_screen() const { return could_convert_to_screen_; }

  private:
   void OnMouseEvent(ui::MouseEvent* event) override {
     if (event->type() == ui::ET_MOUSE_CAPTURE_CHANGED)
       return;

     aura::Window* root =
         static_cast<aura::Window*>(event->target())->GetRootWindow();
     if (!aura::client::GetScreenPositionClient(root))
       could_convert_to_screen_ = false;
   }

   bool could_convert_to_screen_;

   DISALLOW_COPY_AND_ASSIGN(ConvertToScreenEventHandler);
 };

 }  // namespace

 // Test that events are only dispatched when a ScreenPositionClient is available
 // to convert the event to screen coordinates. The ScreenPositionClient is
 // detached from the root window prior to the root window being destroyed. Test
 // that no events are dispatched at this time.
 TEST_F(ScreenPositionControllerTest,
        MAYBE_ConvertToScreenWhileRemovingSecondaryDisplay) {
   UpdateDisplay("600x600,600x600");
   RunAllPendingInMessageLoop();

   // Create a window on the secondary display.
   window_->SetBoundsInScreen(gfx::Rect(600, 0, 400, 400),
                              ScreenUtil::GetSecondaryDisplay());

   // Move the mouse cursor over |window_|. Synthetic mouse moves are dispatched
   // asynchronously when a window which contains the mouse cursor is destroyed.
   // We want to check that none of these synthetic events are dispatched after
   // ScreenPositionClient has been detached from the root window.
   GetEventGenerator().MoveMouseTo(800, 200);
   EXPECT_TRUE(window_->GetBoundsInScreen().Contains(
       aura::Env::GetInstance()->last_mouse_location()));

   aura::Window::Windows root_windows =
       Shell::GetInstance()->GetAllRootWindows();
   aura::WindowTracker tracker;
   tracker.Add(root_windows[1]);
   scoped_ptr<ConvertToScreenEventHandler> event_handler(
       new ConvertToScreenEventHandler);

   // Remove the secondary monitor.
   UpdateDisplay("600x600");

   // The secondary root window is not immediately destroyed.
   EXPECT_TRUE(tracker.Contains(root_windows[1]));

   RunAllPendingInMessageLoop();

   // Check that we waited long enough and that the secondary root window was
   // destroyed.
   EXPECT_FALSE(tracker.Contains(root_windows[1]));

   // Check that we could convert all of the mouse events we got to screen
   // coordinates.
   EXPECT_TRUE(event_handler->could_convert_to_screen());
 }

 }  // namespace test
 }  // namespace ash
	// 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 "ash/display/screen_position_controller.h"

	#include "ash/display/display_manager.h"
	#include "ash/screen_util.h"
	#include "ash/shell.h"
	#include "ash/shell_window_ids.h"
	#include "ash/test/ash_test_base.h"
	#include "ash/test/shell_test_api.h"
	#include "ui/aura/env.h"
	#include "ui/aura/test/test_window_delegate.h"
	#include "ui/aura/window_tracker.h"
	#include "ui/aura/window_tree_host.h"
	#include "ui/base/layout.h"
	#include "ui/events/test/event_generator.h"
	#include "ui/gfx/screen.h"

	#if defined(OS_WIN)
	// TODO(scottmg): RootWindow doesn't get resized immediately on Windows
	// Ash. http://crbug.com/247916.
	#define MAYBE_ConvertHostPointToScreen DISABLED_ConvertHostPointToScreen
	#define MAYBE_ConvertHostPointToScreenHiDPI DISABLED_ConvertHostPointToScreenHiDPI
	#define MAYBE_ConvertHostPointToScreenRotate DISABLED_ConvertHostPointToScreenRotate
	#define MAYBE_ConvertHostPointToScreenUIScale DISABLED_ConvertHostPointToScreenUIScale
	#define MAYBE_ConvertToScreenWhileRemovingSecondaryDisplay \
	DISABLED_ConvertToScreenWhileRemovingSecondaryDisplay
	#else
	#define MAYBE_ConvertHostPointToScreen ConvertHostPointToScreen
	#define MAYBE_ConvertHostPointToScreenHiDPI ConvertHostPointToScreenHiDPI
	#define MAYBE_ConvertHostPointToScreenRotate ConvertHostPointToScreenRotate
	#define MAYBE_ConvertHostPointToScreenUIScale ConvertHostPointToScreenUIScale
	#define MAYBE_ConvertToScreenWhileRemovingSecondaryDisplay \
	ConvertToScreenWhileRemovingSecondaryDisplay
	#endif

	namespace ash {
	namespace test {

	namespace {

	void SetSecondaryDisplayLayout(DisplayLayout::Position position) {
	DisplayLayout layout =
	Shell::GetInstance()->display_manager()->GetCurrentDisplayLayout();
	layout.position = position;
	Shell::GetInstance()->display_manager()->
	SetLayoutForCurrentDisplays(layout);
	}

	ScreenPositionController* GetScreenPositionController() {
	ShellTestApi test_api(Shell::GetInstance());
	return test_api.screen_position_controller();
	}

	class ScreenPositionControllerTest : public test::AshTestBase {
	public:
	ScreenPositionControllerTest() {}
	~ScreenPositionControllerTest() override {}

	void SetUp() override {
	AshTestBase::SetUp();
	window_.reset(new aura::Window(&window_delegate_));
	window_->SetType(ui::wm::WINDOW_TYPE_NORMAL);
	window_->Init(ui::LAYER_NOT_DRAWN);
	ParentWindowInPrimaryRootWindow(window_.get());
	window_->set_id(1);
	}

	void TearDown() override {
	window_.reset();
	AshTestBase::TearDown();
	}

	// Converts a point (x, y) in host window's coordinate to screen and
	// returns its string representation.
	std::string ConvertHostPointToScreen(int x, int y) const {
	gfx::Point point(x, y);
	GetScreenPositionController()->ConvertHostPointToScreen(
	window_->GetRootWindow(), &point);
	return point.ToString();
	}

	protected:
	scoped_ptr<aura::Window> window_;
	aura::test::TestWindowDelegate window_delegate_;

	private:
	DISALLOW_COPY_AND_ASSIGN(ScreenPositionControllerTest);
	};

	} // namespace

	TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreen) {
	UpdateDisplay("100+100-200x200,100+500-200x200");

	aura::Window::Windows root_windows =
	Shell::GetInstance()->GetAllRootWindows();
	EXPECT_EQ("100,100",
	root_windows[0]->GetHost()->GetBounds().origin().ToString());
	EXPECT_EQ("200x200",
	root_windows[0]->GetHost()->GetBounds().size().ToString());
	EXPECT_EQ("100,500",
	root_windows[1]->GetHost()->GetBounds().origin().ToString());
	EXPECT_EQ("200x200",
	root_windows[1]->GetHost()->GetBounds().size().ToString());

	const gfx::Point window_pos(100, 100);
	window_->SetBoundsInScreen(
	gfx::Rect(window_pos, gfx::Size(100, 100)),
	Shell::GetScreen()->GetDisplayNearestPoint(window_pos));
	SetSecondaryDisplayLayout(DisplayLayout::RIGHT);
	// The point is on the primary root window.
	EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
	// The point is on the secondary display.
	EXPECT_EQ("250,0", ConvertHostPointToScreen(50, 400));

	SetSecondaryDisplayLayout(DisplayLayout::BOTTOM);
	// The point is on the primary root window.
	EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
	// The point is on the secondary display.
	EXPECT_EQ("50,200", ConvertHostPointToScreen(50, 400));

	SetSecondaryDisplayLayout(DisplayLayout::LEFT);
	// The point is on the primary root window.
	EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
	// The point is on the secondary display.
	EXPECT_EQ("-150,0", ConvertHostPointToScreen(50, 400));

	SetSecondaryDisplayLayout(DisplayLayout::TOP);
	// The point is on the primary root window.
	EXPECT_EQ("50,50", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("250,250", ConvertHostPointToScreen(250, 250));
	// The point is on the secondary display.
	EXPECT_EQ("50,-200", ConvertHostPointToScreen(50, 400));


	SetSecondaryDisplayLayout(DisplayLayout::RIGHT);
	const gfx::Point window_pos2(300, 100);
	window_->SetBoundsInScreen(
	gfx::Rect(window_pos2, gfx::Size(100, 100)),
	Shell::GetScreen()->GetDisplayNearestPoint(window_pos2));
	// The point is on the secondary display.
	EXPECT_EQ("250,50", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("450,250", ConvertHostPointToScreen(250, 250));
	// The point is on the primary root window.
	EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));

	SetSecondaryDisplayLayout(DisplayLayout::BOTTOM);
	// The point is on the secondary display.
	EXPECT_EQ("50,250", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("250,450", ConvertHostPointToScreen(250, 250));
	// The point is on the primary root window.
	EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));

	SetSecondaryDisplayLayout(DisplayLayout::LEFT);
	// The point is on the secondary display.
	EXPECT_EQ("-150,50", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("50,250", ConvertHostPointToScreen(250, 250));
	// The point is on the primary root window.
	EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));

	SetSecondaryDisplayLayout(DisplayLayout::TOP);
	// The point is on the secondary display.
	EXPECT_EQ("50,-150", ConvertHostPointToScreen(50, 50));
	// The point is out of the all root windows.
	EXPECT_EQ("250,50", ConvertHostPointToScreen(250, 250));
	// The point is on the primary root window.
	EXPECT_EQ("50,0", ConvertHostPointToScreen(50, -400));
	}

	TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreenHiDPI) {
	UpdateDisplay("100+100-200x200*2,100+500-200x200");

	aura::Window::Windows root_windows =
	Shell::GetInstance()->GetAllRootWindows();
	EXPECT_EQ("100,100",
	root_windows[0]->GetHost()->
	GetBounds().origin().ToString());
	EXPECT_EQ("200x200",
	root_windows[0]->GetHost()->
	GetBounds().size().ToString());
	EXPECT_EQ("100,500",
	root_windows[1]->GetHost()->
	GetBounds().origin().ToString());
	EXPECT_EQ("200x200",
	root_windows[1]->GetHost()->
	GetBounds().size().ToString());

	// Put \|window_\| to the primary 2x display.
	window_->SetBoundsInScreen(gfx::Rect(20, 20, 50, 50),
	Shell::GetScreen()->GetPrimaryDisplay());
	// (30, 30) means the host coordinate, so the point is still on the primary
	// root window. Since it's 2x, the specified native point was halved.
	EXPECT_EQ("15,15", ConvertHostPointToScreen(30, 30));
	// Similar to above but the point is out of the all root windows.
	EXPECT_EQ("200,200", ConvertHostPointToScreen(400, 400));
	// Similar to above but the point is on the secondary display.
	EXPECT_EQ("100,15", ConvertHostPointToScreen(200, 30));

	// On secondary display. The position on the 2nd host window is (150,50)
	// so the screen position is (100,0) + (150,50).
	EXPECT_EQ("250,50", ConvertHostPointToScreen(150, 450));

	// At the edge but still in the primary display. Remaining of the primary
	// display is (50, 50) but adding ~100 since it's 2x-display.
	EXPECT_EQ("79,79", ConvertHostPointToScreen(158, 158));
	// At the edge of the secondary display.
	EXPECT_EQ("80,80", ConvertHostPointToScreen(160, 160));
	}

	TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreenRotate) {
	// 1st display is rotated 90 clockise, and 2nd display is rotated
	// 270 clockwise.
	UpdateDisplay("100+100-200x200/r,100+500-200x200/l");
	// Put \|window_\| to the 1st.
	window_->SetBoundsInScreen(gfx::Rect(20, 20, 50, 50),
	Shell::GetScreen()->GetPrimaryDisplay());

	// The point is on the 1st host.
	EXPECT_EQ("70,149", ConvertHostPointToScreen(50, 70));
	// The point is out of the host windows.
	EXPECT_EQ("250,-51", ConvertHostPointToScreen(250, 250));
	// The point is on the 2nd host. Point on 2nd host (30,150) -
	// rotate 270 clockwise -> (149, 30) - layout [+(200,0)] -> (349,30).
	EXPECT_EQ("349,30", ConvertHostPointToScreen(30, 450));

	// Move \|window_\| to the 2nd.
	window_->SetBoundsInScreen(gfx::Rect(300, 20, 50, 50),
	ScreenUtil::GetSecondaryDisplay());
	aura::Window::Windows root_windows =
	Shell::GetInstance()->GetAllRootWindows();
	EXPECT_EQ(root_windows[1], window_->GetRootWindow());

	// The point is on the 2nd host. (50,70) on 2n host -
	// roatate 270 clockwise -> (129,50) -layout [+(200,0)] -> (329,50)
	EXPECT_EQ("329,50", ConvertHostPointToScreen(50, 70));
	// The point is out of the host windows.
	EXPECT_EQ("449,50", ConvertHostPointToScreen(50, -50));
	// The point is on the 2nd host. Point on 2nd host (50,50) -
	// rotate 90 clockwise -> (50, 149)
	EXPECT_EQ("50,149", ConvertHostPointToScreen(50, -350));
	}

	TEST_F(ScreenPositionControllerTest, MAYBE_ConvertHostPointToScreenUIScale) {
	// 1st display is 2x density with 1.5 UI scale.
	UpdateDisplay("100+100-200x200*2@1.5,100+500-200x200");
	// Put \|window_\| to the 1st.
	window_->SetBoundsInScreen(gfx::Rect(20, 20, 50, 50),
	Shell::GetScreen()->GetPrimaryDisplay());

	// The point is on the 1st host.
	EXPECT_EQ("45,45", ConvertHostPointToScreen(60, 60));
	// The point is out of the host windows.
	EXPECT_EQ("45,225", ConvertHostPointToScreen(60, 300));
	// The point is on the 2nd host. Point on 2nd host (60,150) -
	// - screen [+(150,0)]
	EXPECT_EQ("210,49", ConvertHostPointToScreen(60, 450));

	// Move \|window_\| to the 2nd.
	window_->SetBoundsInScreen(gfx::Rect(300, 20, 50, 50),
	ScreenUtil::GetSecondaryDisplay());
	aura::Window::Windows root_windows =
	Shell::GetInstance()->GetAllRootWindows();
	EXPECT_EQ(root_windows[1], window_->GetRootWindow());

	// The point is on the 2nd host. (50,70) - ro
	EXPECT_EQ("210,70", ConvertHostPointToScreen(60, 70));
	// The point is out of the host windows.
	EXPECT_EQ("210,-50", ConvertHostPointToScreen(60, -50));
	// The point is on the 2nd host. Point on 1nd host (60, 60)
	// 1/2 * 1.5 = (45,45)
	EXPECT_EQ("45,45", ConvertHostPointToScreen(60, -340));
	}

	namespace {

	// EventHandler which tracks whether it got any MouseEvents whose location could
	// not be converted to screen coordinates.
	class ConvertToScreenEventHandler : public ui::EventHandler {
	public:
	ConvertToScreenEventHandler() : could_convert_to_screen_(true) {
	aura::Env::GetInstance()->AddPreTargetHandler(this);
	}
	~ConvertToScreenEventHandler() override {
	aura::Env::GetInstance()->RemovePreTargetHandler(this);
	}

	bool could_convert_to_screen() const { return could_convert_to_screen_; }

	private:
	void OnMouseEvent(ui::MouseEvent* event) override {
	if (event->type() == ui::ET_MOUSE_CAPTURE_CHANGED)
	return;

	aura::Window* root =
	static_cast<aura::Window*>(event->target())->GetRootWindow();
	if (!aura::client::GetScreenPositionClient(root))
	could_convert_to_screen_ = false;
	}

	bool could_convert_to_screen_;

	DISALLOW_COPY_AND_ASSIGN(ConvertToScreenEventHandler);
	};

	} // namespace

	// Test that events are only dispatched when a ScreenPositionClient is available
	// to convert the event to screen coordinates. The ScreenPositionClient is
	// detached from the root window prior to the root window being destroyed. Test
	// that no events are dispatched at this time.
	TEST_F(ScreenPositionControllerTest,
	MAYBE_ConvertToScreenWhileRemovingSecondaryDisplay) {
	UpdateDisplay("600x600,600x600");
	RunAllPendingInMessageLoop();

	// Create a window on the secondary display.
	window_->SetBoundsInScreen(gfx::Rect(600, 0, 400, 400),
	ScreenUtil::GetSecondaryDisplay());

	// Move the mouse cursor over \|window_\|. Synthetic mouse moves are dispatched
	// asynchronously when a window which contains the mouse cursor is destroyed.
	// We want to check that none of these synthetic events are dispatched after
	// ScreenPositionClient has been detached from the root window.
	GetEventGenerator().MoveMouseTo(800, 200);
	EXPECT_TRUE(window_->GetBoundsInScreen().Contains(
	aura::Env::GetInstance()->last_mouse_location()));

	aura::Window::Windows root_windows =
	Shell::GetInstance()->GetAllRootWindows();
	aura::WindowTracker tracker;
	tracker.Add(root_windows[1]);
	scoped_ptr<ConvertToScreenEventHandler> event_handler(
	new ConvertToScreenEventHandler);

	// Remove the secondary monitor.
	UpdateDisplay("600x600");

	// The secondary root window is not immediately destroyed.
	EXPECT_TRUE(tracker.Contains(root_windows[1]));

	RunAllPendingInMessageLoop();

	// Check that we waited long enough and that the secondary root window was
	// destroyed.
	EXPECT_FALSE(tracker.Contains(root_windows[1]));

	// Check that we could convert all of the mouse events we got to screen
	// coordinates.
	EXPECT_TRUE(event_handler->could_convert_to_screen());
	}

	} // namespace test
	} // namespace ash