ash/display/display_move_window_util_unittest.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 "ash/display/display_move_window_util.h"

 #include "ash/accelerators/accelerator_controller.h"
 #include "ash/accelerators/accelerator_table.h"
 #include "ash/accessibility/accessibility_controller.h"
 #include "ash/accessibility/test_accessibility_controller_client.h"
 #include "ash/root_window_controller.h"
 #include "ash/screen_util.h"
 #include "ash/shelf/shelf_constants.h"
 #include "ash/shell.h"
 #include "ash/test/ash_test_base.h"
 #include "ash/wm/mru_window_tracker.h"
 #include "ash/wm/window_state.h"
 #include "ash/wm/window_util.h"
 #include "ash/wm/wm_event.h"
 #include "base/command_line.h"
 #include "base/macros.h"
 #include "ui/aura/test/test_windows.h"
 #include "ui/display/display.h"
 #include "ui/display/display_layout.h"
 #include "ui/display/display_layout_builder.h"
 #include "ui/display/manager/display_layout_store.h"
 #include "ui/display/manager/display_manager.h"
 #include "ui/display/screen.h"
 #include "ui/display/test/display_manager_test_api.h"
 #include "ui/views/widget/widget.h"
 #include "ui/wm/core/window_util.h"

 namespace ash {

 namespace display_move_window_util {

 namespace {

 // Get the default left snapped window bounds which has snapped width ratio 0.5.
 gfx::Rect GetDefaultLeftSnappedBoundsInDisplay(
     const display::Display& display) {
   auto work_area = display.work_area();
   work_area.set_width(work_area.width() / 2);
   return work_area;
 }

 views::Widget* CreateTestWidgetWithParent(views::Widget::InitParams::Type type,
                                           gfx::NativeView parent,
                                           const gfx::Rect& bounds,
                                           bool child) {
   views::Widget::InitParams params(type);
   params.delegate = nullptr;
   params.ownership = views::Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET;
   params.parent = parent;
   params.bounds = bounds;
   params.child = child;
   views::Widget* widget = new views::Widget;
   widget->Init(params);
   widget->Show();
   return widget;
 }

 void PerformMoveWindowAccel() {
   Shell::Get()->accelerator_controller()->PerformActionIfEnabled(
       MOVE_ACTIVE_WINDOW_BETWEEN_DISPLAYS);
 }

 }  // namespace

 using DisplayMoveWindowUtilTest = AshTestBase;

 TEST_F(DisplayMoveWindowUtilTest, SingleDisplay) {
   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(window);
   EXPECT_FALSE(CanHandleMoveActiveWindowBetweenDisplays());
 }

 // Tests that window bounds are not changing after moving to another display. It
 // is added as a child window to another root window with the same origin.
 TEST_F(DisplayMoveWindowUtilTest, WindowBounds) {
   // Layout: [p][1]
   UpdateDisplay("400x300,400x300");
   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(window);
   PerformMoveWindowAccel();
   EXPECT_EQ(gfx::Rect(410, 20, 200, 100), window->GetBoundsInScreen());
 }

 // Tests window state (maximized/fullscreen/snapped) and its bounds.
 TEST_F(DisplayMoveWindowUtilTest, WindowState) {
   // Layout: [p][ 1 ]
   UpdateDisplay("400x300,800x300");

   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(window);
   display::Screen* screen = display::Screen::GetScreen();
   ASSERT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window).id());
   wm::WindowState* window_state = wm::GetWindowState(window);
   // Set window to maximized state.
   window_state->Maximize();
   EXPECT_TRUE(window_state->IsMaximized());
   EXPECT_EQ(screen_util::GetMaximizedWindowBoundsInParent(window),
             window->bounds());
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   // Check that window state is maximized and has updated maximized bounds.
   EXPECT_TRUE(window_state->IsMaximized());
   EXPECT_EQ(screen_util::GetMaximizedWindowBoundsInParent(window),
             window->bounds());

   // Set window to fullscreen state.
   PerformMoveWindowAccel();
   const wm::WMEvent fullscreen(wm::WM_EVENT_TOGGLE_FULLSCREEN);
   window_state->OnWMEvent(&fullscreen);
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_TRUE(window_state->IsFullscreen());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).bounds(),
             window->GetBoundsInScreen());
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   // Check that window state is fullscreen and has updated fullscreen bounds.
   EXPECT_TRUE(window_state->IsFullscreen());
   EXPECT_EQ(display_manager()->GetDisplayAt(1).bounds(),
             window->GetBoundsInScreen());

   // Set window to left snapped state.
   PerformMoveWindowAccel();
   const wm::WMEvent snap_left(wm::WM_EVENT_SNAP_LEFT);
   window_state->OnWMEvent(&snap_left);
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_TRUE(window_state->IsSnapped());
   EXPECT_EQ(GetDefaultLeftSnappedBoundsInDisplay(
                 screen->GetDisplayNearestWindow(window)),
             window->GetBoundsInScreen());
   EXPECT_EQ(0.5f, *window_state->snapped_width_ratio());
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   // Check that window state is snapped and has updated snapped bounds.
   EXPECT_TRUE(window_state->IsSnapped());
   EXPECT_EQ(GetDefaultLeftSnappedBoundsInDisplay(
                 screen->GetDisplayNearestWindow(window)),
             window->GetBoundsInScreen());
   EXPECT_EQ(0.5f, *window_state->snapped_width_ratio());
 }

 // Tests that movement follows cycling through sorted display id list.
 TEST_F(DisplayMoveWindowUtilTest, FourDisplays) {
   display::Screen* screen = display::Screen::GetScreen();
   int64_t primary_id = screen->GetPrimaryDisplay().id();
   // Layout:
   // [3][2]
   // [1][p]
   display::DisplayIdList list = display::test::CreateDisplayIdListN(
       4, primary_id, primary_id + 1, primary_id + 2, primary_id + 3);
   display::DisplayLayoutBuilder builder(primary_id);
   builder.AddDisplayPlacement(list[1], primary_id,
                               display::DisplayPlacement::LEFT, 0);
   builder.AddDisplayPlacement(list[2], primary_id,
                               display::DisplayPlacement::TOP, 0);
   builder.AddDisplayPlacement(list[3], list[2], display::DisplayPlacement::LEFT,
                               0);
   display_manager()->layout_store()->RegisterLayoutForDisplayIdList(
       list, builder.Build());
   UpdateDisplay("400x300,400x300,400x300,400x300");
   EXPECT_EQ(4U, display_manager()->GetNumDisplays());
   EXPECT_EQ(gfx::Rect(0, 0, 400, 300),
             display_manager()->GetDisplayAt(0).bounds());
   EXPECT_EQ(gfx::Rect(-400, 0, 400, 300),
             display_manager()->GetDisplayAt(1).bounds());
   EXPECT_EQ(gfx::Rect(0, -300, 400, 300),
             display_manager()->GetDisplayAt(2).bounds());
   EXPECT_EQ(gfx::Rect(-400, -300, 400, 300),
             display_manager()->GetDisplayAt(3).bounds());

   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(window);
   ASSERT_EQ(list[0], screen->GetDisplayNearestWindow(window).id());

   PerformMoveWindowAccel();
   EXPECT_EQ(list[1], screen->GetDisplayNearestWindow(window).id());
   PerformMoveWindowAccel();
   EXPECT_EQ(list[2], screen->GetDisplayNearestWindow(window).id());
   PerformMoveWindowAccel();
   EXPECT_EQ(list[3], screen->GetDisplayNearestWindow(window).id());
   PerformMoveWindowAccel();
   EXPECT_EQ(list[0], screen->GetDisplayNearestWindow(window).id());
 }

 // Tests that a11y alert is sent on handling move window to display.
 TEST_F(DisplayMoveWindowUtilTest, A11yAlert) {
   // Layout: [p][1]
   UpdateDisplay("400x300,400x300");
   AccessibilityController* controller =
       Shell::Get()->accessibility_controller();
   TestAccessibilityControllerClient client;
   controller->SetClient(client.CreateInterfacePtrAndBind());

   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(window);
   PerformMoveWindowAccel();
   controller->FlushMojoForTest();
   EXPECT_EQ(mojom::AccessibilityAlert::WINDOW_MOVED_TO_ANOTHER_DISPLAY,
             client.last_a11y_alert());
 }

 // Tests that moving window between displays is no-op if active window is not in
 // window cycle list.
 TEST_F(DisplayMoveWindowUtilTest, NoMovementIfNotInCycleWindowList) {
   // Layout: [p][1]
   UpdateDisplay("400x300,400x300");
   // Create a window in app list container, which would be excluded in cycle
   // window list.
   std::unique_ptr<aura::Window> window = CreateChildWindow(
       Shell::GetPrimaryRootWindow(), gfx::Rect(10, 20, 200, 100),
       kShellWindowId_AppListContainer);
   wm::ActivateWindow(window.get());
   display::Screen* screen = display::Screen::GetScreen();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window.get()).id());

   MruWindowTracker::WindowList cycle_window_list =
       Shell::Get()->mru_window_tracker()->BuildWindowForCycleList();
   EXPECT_TRUE(cycle_window_list.empty());
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window.get()).id());
 }

 // Tests that window bounds should be kept if it is not changed by user, i.e.
 // if it is changed by display area difference, it should restore to the
 // original bounds when it is moved between displays and there is enough work
 // area to show this window.
 TEST_F(DisplayMoveWindowUtilTest, KeepWindowBoundsIfNotChangedByUser) {
   // Layout:
   // +---+---+
   // | p |   |
   // +---+ 1 |
   //     |   |
   //     +---+
   UpdateDisplay("400x300,400x600");
   const int shelf_inset = 300 - ShelfConstants::shelf_size();
   // Create and activate window on display [1].
   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(410, 20, 200, 400));
   wm::ActivateWindow(window);
   display::Screen* screen = display::Screen::GetScreen();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   // Move window to display [p]. Its window bounds is adjusted by available work
   // area.
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_EQ(gfx::Rect(10, 20, 200, shelf_inset), window->GetBoundsInScreen());
   // Move window back to display [1]. Its window bounds should be restored.
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_EQ(gfx::Rect(410, 20, 200, 400), window->GetBoundsInScreen());

   // Move window to display [p] and set that its bounds is changed by user.
   wm::WindowState* window_state = wm::GetWindowState(window);
   PerformMoveWindowAccel();
   window_state->set_bounds_changed_by_user(true);
   // Move window back to display [1], but its bounds has been changed by user.
   // Then window bounds should be kept the same as that in display [p].
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_EQ(gfx::Rect(410, 20, 200, shelf_inset), window->GetBoundsInScreen());
 }

 // Tests auto window management on moving window between displays.
 TEST_F(DisplayMoveWindowUtilTest, AutoManaged) {
   // Layout: [p][1]
   UpdateDisplay("400x300,400x300");
   // Create and show window on display [p]. Enable auto window position managed,
   // which will center the window on display [p].
   aura::Window* window1 =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::WindowState* window1_state = wm::GetWindowState(window1);
   window1_state->SetWindowPositionManaged(true);
   window1->Hide();
   window1->Show();
   EXPECT_EQ(gfx::Rect(100, 20, 200, 100), window1->GetBoundsInScreen());
   display::Screen* screen = display::Screen::GetScreen();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window1).id());

   // Create and show window on display [p]. Enable auto window position managed,
   // which will do auto window management (pushing the other window to side).
   aura::Window* window2 =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::WindowState* window2_state = wm::GetWindowState(window2);
   window2_state->SetWindowPositionManaged(true);
   window2->Hide();
   window2->Show();
   EXPECT_EQ(gfx::Rect(0, 20, 200, 100), window1->GetBoundsInScreen());
   EXPECT_EQ(gfx::Rect(200, 20, 200, 100), window2->GetBoundsInScreen());
   // Activate window2.
   wm::ActivateWindow(window2);
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window2).id());
   EXPECT_TRUE(window2_state->pre_auto_manage_window_bounds());
   EXPECT_EQ(gfx::Rect(10, 20, 200, 100),
             *window2_state->pre_auto_manage_window_bounds());

   // Move window2 to display [1] and check auto window management.
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window2).id());
   // Check |pre_added_to_workspace_window_bounds()|, which should be equal to
   // |pre_auto_manage_window_bounds()| in this case.
   EXPECT_EQ(*window2_state->pre_auto_manage_window_bounds(),
             *window2_state->pre_added_to_workspace_window_bounds());
   // Window 1 centers on display [p] again.
   EXPECT_EQ(gfx::Rect(100, 20, 200, 100), window1->GetBoundsInScreen());
   // Window 2 is positioned by |pre_added_to_workspace_window_bounds()|.
   EXPECT_EQ(gfx::Rect(410, 20, 200, 100), window2->GetBoundsInScreen());
 }

 TEST_F(DisplayMoveWindowUtilTest, WindowWithTransientChild) {
   UpdateDisplay("400x300,400x300");
   aura::Window* window =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(window);

   // Create a |child| window and make it a transient child of |window|.
   std::unique_ptr<aura::Window> child =
       CreateChildWindow(window, gfx::Rect(20, 30, 40, 50));
   ::wm::AddTransientChild(window, child.get());
   display::Screen* screen = display::Screen::GetScreen();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(child.get()).id());

   // Operate moving window to right display. Check display and bounds.
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(child.get()).id());
   EXPECT_EQ(gfx::Rect(410, 20, 200, 100), window->GetBoundsInScreen());
   EXPECT_EQ(gfx::Rect(430, 50, 40, 50), child->GetBoundsInScreen());
 }

 // Test that when operating move window between displays on activated transient
 // child window, its first non-transient transient-parent window should be the
 // target instead.
 TEST_F(DisplayMoveWindowUtilTest, ActiveTransientChildWindow) {
   UpdateDisplay("400x300,400x300");
   std::unique_ptr<views::Widget> window = CreateTestWidget();
   window->SetBounds(gfx::Rect(10, 20, 200, 100));

   // Create a |child| transient widget of |window|. When |child| is shown, it is
   // activated.
   std::unique_ptr<views::Widget> child(CreateTestWidgetWithParent(
       views::Widget::InitParams::TYPE_WINDOW, window->GetNativeView(),
       gfx::Rect(20, 30, 40, 50), false));
   display::Screen* screen = display::Screen::GetScreen();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(window->GetNativeWindow()).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
   // Ensure |child| window is activated.
   EXPECT_FALSE(wm::IsActiveWindow(window->GetNativeWindow()));
   EXPECT_TRUE(wm::IsActiveWindow(child->GetNativeWindow()));

   // Operate moving window to right display. Check display and bounds.
   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(window->GetNativeWindow()).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
             screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
   EXPECT_EQ(gfx::Rect(410, 20, 200, 100),
             window->GetNativeWindow()->GetBoundsInScreen());
   EXPECT_EQ(gfx::Rect(420, 30, 40, 50),
             child->GetNativeWindow()->GetBoundsInScreen());
 }

 // Test that when active window is transient child window, no movement if its
 // first non-transient transient-parent window is not in window cycle list.
 TEST_F(DisplayMoveWindowUtilTest, TransientParentNotInCycleWindowList) {
   UpdateDisplay("400x300,400x300");
   aura::Window* w1 =
       CreateTestWindowInShellWithBounds(gfx::Rect(100, 100, 50, 50));
   wm::ActivateWindow(w1);

   // Create a window |w2| in non-switchable window container.
   aura::Window* setting_bubble_container =
       Shell::GetPrimaryRootWindowController()->GetContainer(
           kShellWindowId_SettingBubbleContainer);
   std::unique_ptr<aura::Window> w2 = CreateChildWindow(
       setting_bubble_container, gfx::Rect(10, 20, 200, 100), -1);
   wm::ActivateWindow(w2.get());

   // Create a |child| transient widget of |w2|. When |child| is shown, it is
   // activated.
   std::unique_ptr<views::Widget> child(
       CreateTestWidgetWithParent(views::Widget::InitParams::TYPE_WINDOW,
                                  w2.get(), gfx::Rect(20, 30, 40, 50), false));
   display::Screen* screen = display::Screen::GetScreen();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(w1).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(w2.get()).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
   // Ensure |child| window is activated.
   EXPECT_FALSE(wm::IsActiveWindow(w1));
   EXPECT_FALSE(wm::IsActiveWindow(w2.get()));
   EXPECT_TRUE(wm::IsActiveWindow(child->GetNativeWindow()));

   PerformMoveWindowAccel();
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(w1).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(w2.get()).id());
   EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
             screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
 }

 // Tests that restore bounds is updated with window movement to another display.
 TEST_F(DisplayMoveWindowUtilTest, RestoreMaximizedWindowAfterMovement) {
   UpdateDisplay("400x300,400x300");
   aura::Window* w =
       CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
   wm::ActivateWindow(w);

   wm::WindowState* window_state = wm::GetWindowState(w);
   window_state->Maximize();
   EXPECT_EQ(gfx::Rect(0, 0, 400, 300 - ShelfConstants::shelf_size()),
             w->GetBoundsInScreen());

   PerformMoveWindowAccel();
   EXPECT_EQ(gfx::Rect(400, 0, 400, 300 - ShelfConstants::shelf_size()),
             w->GetBoundsInScreen());
   window_state->Restore();
   EXPECT_EQ(gfx::Rect(410, 20, 200, 100), w->GetBoundsInScreen());
 }

 }  // namespace display_move_window_util

 }  // namespace ash
	// 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 "ash/display/display_move_window_util.h"

	#include "ash/accelerators/accelerator_controller.h"
	#include "ash/accelerators/accelerator_table.h"
	#include "ash/accessibility/accessibility_controller.h"
	#include "ash/accessibility/test_accessibility_controller_client.h"
	#include "ash/root_window_controller.h"
	#include "ash/screen_util.h"
	#include "ash/shelf/shelf_constants.h"
	#include "ash/shell.h"
	#include "ash/test/ash_test_base.h"
	#include "ash/wm/mru_window_tracker.h"
	#include "ash/wm/window_state.h"
	#include "ash/wm/window_util.h"
	#include "ash/wm/wm_event.h"
	#include "base/command_line.h"
	#include "base/macros.h"
	#include "ui/aura/test/test_windows.h"
	#include "ui/display/display.h"
	#include "ui/display/display_layout.h"
	#include "ui/display/display_layout_builder.h"
	#include "ui/display/manager/display_layout_store.h"
	#include "ui/display/manager/display_manager.h"
	#include "ui/display/screen.h"
	#include "ui/display/test/display_manager_test_api.h"
	#include "ui/views/widget/widget.h"
	#include "ui/wm/core/window_util.h"

	namespace ash {

	namespace display_move_window_util {

	namespace {

	// Get the default left snapped window bounds which has snapped width ratio 0.5.
	gfx::Rect GetDefaultLeftSnappedBoundsInDisplay(
	const display::Display& display) {
	auto work_area = display.work_area();
	work_area.set_width(work_area.width() / 2);
	return work_area;
	}

	views::Widget* CreateTestWidgetWithParent(views::Widget::InitParams::Type type,
	gfx::NativeView parent,
	const gfx::Rect& bounds,
	bool child) {
	views::Widget::InitParams params(type);
	params.delegate = nullptr;
	params.ownership = views::Widget::InitParams::WIDGET_OWNS_NATIVE_WIDGET;
	params.parent = parent;
	params.bounds = bounds;
	params.child = child;
	views::Widget* widget = new views::Widget;
	widget->Init(params);
	widget->Show();
	return widget;
	}

	void PerformMoveWindowAccel() {
	Shell::Get()->accelerator_controller()->PerformActionIfEnabled(
	MOVE_ACTIVE_WINDOW_BETWEEN_DISPLAYS);
	}

	} // namespace

	using DisplayMoveWindowUtilTest = AshTestBase;

	TEST_F(DisplayMoveWindowUtilTest, SingleDisplay) {
	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(window);
	EXPECT_FALSE(CanHandleMoveActiveWindowBetweenDisplays());
	}

	// Tests that window bounds are not changing after moving to another display. It
	// is added as a child window to another root window with the same origin.
	TEST_F(DisplayMoveWindowUtilTest, WindowBounds) {
	// Layout: [p][1]
	UpdateDisplay("400x300,400x300");
	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(window);
	PerformMoveWindowAccel();
	EXPECT_EQ(gfx::Rect(410, 20, 200, 100), window->GetBoundsInScreen());
	}

	// Tests window state (maximized/fullscreen/snapped) and its bounds.
	TEST_F(DisplayMoveWindowUtilTest, WindowState) {
	// Layout: [p][ 1 ]
	UpdateDisplay("400x300,800x300");

	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(window);
	display::Screen* screen = display::Screen::GetScreen();
	ASSERT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window).id());
	wm::WindowState* window_state = wm::GetWindowState(window);
	// Set window to maximized state.
	window_state->Maximize();
	EXPECT_TRUE(window_state->IsMaximized());
	EXPECT_EQ(screen_util::GetMaximizedWindowBoundsInParent(window),
	window->bounds());
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	// Check that window state is maximized and has updated maximized bounds.
	EXPECT_TRUE(window_state->IsMaximized());
	EXPECT_EQ(screen_util::GetMaximizedWindowBoundsInParent(window),
	window->bounds());

	// Set window to fullscreen state.
	PerformMoveWindowAccel();
	const wm::WMEvent fullscreen(wm::WM_EVENT_TOGGLE_FULLSCREEN);
	window_state->OnWMEvent(&fullscreen);
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_TRUE(window_state->IsFullscreen());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).bounds(),
	window->GetBoundsInScreen());
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	// Check that window state is fullscreen and has updated fullscreen bounds.
	EXPECT_TRUE(window_state->IsFullscreen());
	EXPECT_EQ(display_manager()->GetDisplayAt(1).bounds(),
	window->GetBoundsInScreen());

	// Set window to left snapped state.
	PerformMoveWindowAccel();
	const wm::WMEvent snap_left(wm::WM_EVENT_SNAP_LEFT);
	window_state->OnWMEvent(&snap_left);
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_TRUE(window_state->IsSnapped());
	EXPECT_EQ(GetDefaultLeftSnappedBoundsInDisplay(
	screen->GetDisplayNearestWindow(window)),
	window->GetBoundsInScreen());
	EXPECT_EQ(0.5f, *window_state->snapped_width_ratio());
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	// Check that window state is snapped and has updated snapped bounds.
	EXPECT_TRUE(window_state->IsSnapped());
	EXPECT_EQ(GetDefaultLeftSnappedBoundsInDisplay(
	screen->GetDisplayNearestWindow(window)),
	window->GetBoundsInScreen());
	EXPECT_EQ(0.5f, *window_state->snapped_width_ratio());
	}

	// Tests that movement follows cycling through sorted display id list.
	TEST_F(DisplayMoveWindowUtilTest, FourDisplays) {
	display::Screen* screen = display::Screen::GetScreen();
	int64_t primary_id = screen->GetPrimaryDisplay().id();
	// Layout:
	// [3][2]
	// [1][p]
	display::DisplayIdList list = display::test::CreateDisplayIdListN(
	4, primary_id, primary_id + 1, primary_id + 2, primary_id + 3);
	display::DisplayLayoutBuilder builder(primary_id);
	builder.AddDisplayPlacement(list[1], primary_id,
	display::DisplayPlacement::LEFT, 0);
	builder.AddDisplayPlacement(list[2], primary_id,
	display::DisplayPlacement::TOP, 0);
	builder.AddDisplayPlacement(list[3], list[2], display::DisplayPlacement::LEFT,
	0);
	display_manager()->layout_store()->RegisterLayoutForDisplayIdList(
	list, builder.Build());
	UpdateDisplay("400x300,400x300,400x300,400x300");
	EXPECT_EQ(4U, display_manager()->GetNumDisplays());
	EXPECT_EQ(gfx::Rect(0, 0, 400, 300),
	display_manager()->GetDisplayAt(0).bounds());
	EXPECT_EQ(gfx::Rect(-400, 0, 400, 300),
	display_manager()->GetDisplayAt(1).bounds());
	EXPECT_EQ(gfx::Rect(0, -300, 400, 300),
	display_manager()->GetDisplayAt(2).bounds());
	EXPECT_EQ(gfx::Rect(-400, -300, 400, 300),
	display_manager()->GetDisplayAt(3).bounds());

	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(window);
	ASSERT_EQ(list[0], screen->GetDisplayNearestWindow(window).id());

	PerformMoveWindowAccel();
	EXPECT_EQ(list[1], screen->GetDisplayNearestWindow(window).id());
	PerformMoveWindowAccel();
	EXPECT_EQ(list[2], screen->GetDisplayNearestWindow(window).id());
	PerformMoveWindowAccel();
	EXPECT_EQ(list[3], screen->GetDisplayNearestWindow(window).id());
	PerformMoveWindowAccel();
	EXPECT_EQ(list[0], screen->GetDisplayNearestWindow(window).id());
	}

	// Tests that a11y alert is sent on handling move window to display.
	TEST_F(DisplayMoveWindowUtilTest, A11yAlert) {
	// Layout: [p][1]
	UpdateDisplay("400x300,400x300");
	AccessibilityController* controller =
	Shell::Get()->accessibility_controller();
	TestAccessibilityControllerClient client;
	controller->SetClient(client.CreateInterfacePtrAndBind());

	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(window);
	PerformMoveWindowAccel();
	controller->FlushMojoForTest();
	EXPECT_EQ(mojom::AccessibilityAlert::WINDOW_MOVED_TO_ANOTHER_DISPLAY,
	client.last_a11y_alert());
	}

	// Tests that moving window between displays is no-op if active window is not in
	// window cycle list.
	TEST_F(DisplayMoveWindowUtilTest, NoMovementIfNotInCycleWindowList) {
	// Layout: [p][1]
	UpdateDisplay("400x300,400x300");
	// Create a window in app list container, which would be excluded in cycle
	// window list.
	std::unique_ptr<aura::Window> window = CreateChildWindow(
	Shell::GetPrimaryRootWindow(), gfx::Rect(10, 20, 200, 100),
	kShellWindowId_AppListContainer);
	wm::ActivateWindow(window.get());
	display::Screen* screen = display::Screen::GetScreen();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window.get()).id());

	MruWindowTracker::WindowList cycle_window_list =
	Shell::Get()->mru_window_tracker()->BuildWindowForCycleList();
	EXPECT_TRUE(cycle_window_list.empty());
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window.get()).id());
	}

	// Tests that window bounds should be kept if it is not changed by user, i.e.
	// if it is changed by display area difference, it should restore to the
	// original bounds when it is moved between displays and there is enough work
	// area to show this window.
	TEST_F(DisplayMoveWindowUtilTest, KeepWindowBoundsIfNotChangedByUser) {
	// Layout:
	// +---+---+
	// \| p \| \|
	// +---+ 1 \|
	// \| \|
	// +---+
	UpdateDisplay("400x300,400x600");
	const int shelf_inset = 300 - ShelfConstants::shelf_size();
	// Create and activate window on display [1].
	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(410, 20, 200, 400));
	wm::ActivateWindow(window);
	display::Screen* screen = display::Screen::GetScreen();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	// Move window to display [p]. Its window bounds is adjusted by available work
	// area.
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_EQ(gfx::Rect(10, 20, 200, shelf_inset), window->GetBoundsInScreen());
	// Move window back to display [1]. Its window bounds should be restored.
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_EQ(gfx::Rect(410, 20, 200, 400), window->GetBoundsInScreen());

	// Move window to display [p] and set that its bounds is changed by user.
	wm::WindowState* window_state = wm::GetWindowState(window);
	PerformMoveWindowAccel();
	window_state->set_bounds_changed_by_user(true);
	// Move window back to display [1], but its bounds has been changed by user.
	// Then window bounds should be kept the same as that in display [p].
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_EQ(gfx::Rect(410, 20, 200, shelf_inset), window->GetBoundsInScreen());
	}

	// Tests auto window management on moving window between displays.
	TEST_F(DisplayMoveWindowUtilTest, AutoManaged) {
	// Layout: [p][1]
	UpdateDisplay("400x300,400x300");
	// Create and show window on display [p]. Enable auto window position managed,
	// which will center the window on display [p].
	aura::Window* window1 =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::WindowState* window1_state = wm::GetWindowState(window1);
	window1_state->SetWindowPositionManaged(true);
	window1->Hide();
	window1->Show();
	EXPECT_EQ(gfx::Rect(100, 20, 200, 100), window1->GetBoundsInScreen());
	display::Screen* screen = display::Screen::GetScreen();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window1).id());

	// Create and show window on display [p]. Enable auto window position managed,
	// which will do auto window management (pushing the other window to side).
	aura::Window* window2 =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::WindowState* window2_state = wm::GetWindowState(window2);
	window2_state->SetWindowPositionManaged(true);
	window2->Hide();
	window2->Show();
	EXPECT_EQ(gfx::Rect(0, 20, 200, 100), window1->GetBoundsInScreen());
	EXPECT_EQ(gfx::Rect(200, 20, 200, 100), window2->GetBoundsInScreen());
	// Activate window2.
	wm::ActivateWindow(window2);
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window2).id());
	EXPECT_TRUE(window2_state->pre_auto_manage_window_bounds());
	EXPECT_EQ(gfx::Rect(10, 20, 200, 100),
	*window2_state->pre_auto_manage_window_bounds());

	// Move window2 to display [1] and check auto window management.
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window2).id());
	// Check \|pre_added_to_workspace_window_bounds()\|, which should be equal to
	// \|pre_auto_manage_window_bounds()\| in this case.
	EXPECT_EQ(*window2_state->pre_auto_manage_window_bounds(),
	*window2_state->pre_added_to_workspace_window_bounds());
	// Window 1 centers on display [p] again.
	EXPECT_EQ(gfx::Rect(100, 20, 200, 100), window1->GetBoundsInScreen());
	// Window 2 is positioned by \|pre_added_to_workspace_window_bounds()\|.
	EXPECT_EQ(gfx::Rect(410, 20, 200, 100), window2->GetBoundsInScreen());
	}

	TEST_F(DisplayMoveWindowUtilTest, WindowWithTransientChild) {
	UpdateDisplay("400x300,400x300");
	aura::Window* window =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(window);

	// Create a \|child\| window and make it a transient child of \|window\|.
	std::unique_ptr<aura::Window> child =
	CreateChildWindow(window, gfx::Rect(20, 30, 40, 50));
	::wm::AddTransientChild(window, child.get());
	display::Screen* screen = display::Screen::GetScreen();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(child.get()).id());

	// Operate moving window to right display. Check display and bounds.
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(child.get()).id());
	EXPECT_EQ(gfx::Rect(410, 20, 200, 100), window->GetBoundsInScreen());
	EXPECT_EQ(gfx::Rect(430, 50, 40, 50), child->GetBoundsInScreen());
	}

	// Test that when operating move window between displays on activated transient
	// child window, its first non-transient transient-parent window should be the
	// target instead.
	TEST_F(DisplayMoveWindowUtilTest, ActiveTransientChildWindow) {
	UpdateDisplay("400x300,400x300");
	std::unique_ptr<views::Widget> window = CreateTestWidget();
	window->SetBounds(gfx::Rect(10, 20, 200, 100));

	// Create a \|child\| transient widget of \|window\|. When \|child\| is shown, it is
	// activated.
	std::unique_ptr<views::Widget> child(CreateTestWidgetWithParent(
	views::Widget::InitParams::TYPE_WINDOW, window->GetNativeView(),
	gfx::Rect(20, 30, 40, 50), false));
	display::Screen* screen = display::Screen::GetScreen();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(window->GetNativeWindow()).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
	// Ensure \|child\| window is activated.
	EXPECT_FALSE(wm::IsActiveWindow(window->GetNativeWindow()));
	EXPECT_TRUE(wm::IsActiveWindow(child->GetNativeWindow()));

	// Operate moving window to right display. Check display and bounds.
	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(window->GetNativeWindow()).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(1).id(),
	screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
	EXPECT_EQ(gfx::Rect(410, 20, 200, 100),
	window->GetNativeWindow()->GetBoundsInScreen());
	EXPECT_EQ(gfx::Rect(420, 30, 40, 50),
	child->GetNativeWindow()->GetBoundsInScreen());
	}

	// Test that when active window is transient child window, no movement if its
	// first non-transient transient-parent window is not in window cycle list.
	TEST_F(DisplayMoveWindowUtilTest, TransientParentNotInCycleWindowList) {
	UpdateDisplay("400x300,400x300");
	aura::Window* w1 =
	CreateTestWindowInShellWithBounds(gfx::Rect(100, 100, 50, 50));
	wm::ActivateWindow(w1);

	// Create a window \|w2\| in non-switchable window container.
	aura::Window* setting_bubble_container =
	Shell::GetPrimaryRootWindowController()->GetContainer(
	kShellWindowId_SettingBubbleContainer);
	std::unique_ptr<aura::Window> w2 = CreateChildWindow(
	setting_bubble_container, gfx::Rect(10, 20, 200, 100), -1);
	wm::ActivateWindow(w2.get());

	// Create a \|child\| transient widget of \|w2\|. When \|child\| is shown, it is
	// activated.
	std::unique_ptr<views::Widget> child(
	CreateTestWidgetWithParent(views::Widget::InitParams::TYPE_WINDOW,
	w2.get(), gfx::Rect(20, 30, 40, 50), false));
	display::Screen* screen = display::Screen::GetScreen();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(w1).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(w2.get()).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
	// Ensure \|child\| window is activated.
	EXPECT_FALSE(wm::IsActiveWindow(w1));
	EXPECT_FALSE(wm::IsActiveWindow(w2.get()));
	EXPECT_TRUE(wm::IsActiveWindow(child->GetNativeWindow()));

	PerformMoveWindowAccel();
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(w1).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(w2.get()).id());
	EXPECT_EQ(display_manager()->GetDisplayAt(0).id(),
	screen->GetDisplayNearestWindow(child->GetNativeWindow()).id());
	}

	// Tests that restore bounds is updated with window movement to another display.
	TEST_F(DisplayMoveWindowUtilTest, RestoreMaximizedWindowAfterMovement) {
	UpdateDisplay("400x300,400x300");
	aura::Window* w =
	CreateTestWindowInShellWithBounds(gfx::Rect(10, 20, 200, 100));
	wm::ActivateWindow(w);

	wm::WindowState* window_state = wm::GetWindowState(w);
	window_state->Maximize();
	EXPECT_EQ(gfx::Rect(0, 0, 400, 300 - ShelfConstants::shelf_size()),
	w->GetBoundsInScreen());

	PerformMoveWindowAccel();
	EXPECT_EQ(gfx::Rect(400, 0, 400, 300 - ShelfConstants::shelf_size()),
	w->GetBoundsInScreen());
	window_state->Restore();
	EXPECT_EQ(gfx::Rect(410, 20, 200, 100), w->GetBoundsInScreen());
	}

	} // namespace display_move_window_util

	} // namespace ash