ash/root_window_controller.cc - git/chromium - 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/root_window_controller.h"

 #include <vector>

 #include "ash/desktop_background/desktop_background_widget_controller.h"
 #include "ash/display/display_controller.h"
 #include "ash/display/multi_display_manager.h"
 #include "ash/shell.h"
 #include "ash/shell_factory.h"
 #include "ash/shell_window_ids.h"
 #include "ash/wm/base_layout_manager.h"
 #include "ash/wm/event_client_impl.h"
 #include "ash/wm/property_util.h"
 #include "ash/wm/root_window_layout_manager.h"
 #include "ash/wm/screen_dimmer.h"
 #include "ash/wm/system_modal_container_layout_manager.h"
 #include "ash/wm/toplevel_window_event_handler.h"
 #include "ash/wm/visibility_controller.h"
 #include "ash/wm/window_properties.h"
 #include "ash/wm/workspace_controller.h"
 #include "ui/aura/client/activation_client.h"
 #include "ui/aura/client/aura_constants.h"
 #include "ui/aura/client/capture_client.h"
 #include "ui/aura/client/tooltip_client.h"
 #include "ui/aura/focus_manager.h"
 #include "ui/aura/root_window.h"
 #include "ui/aura/window.h"
 #include "ui/aura/window_observer.h"
 #include "ui/aura/window_tracker.h"
 #include "ui/gfx/display.h"
 #include "ui/gfx/screen.h"

 namespace ash {
 namespace {

 // Creates a new window for use as a container.
 aura::Window* CreateContainer(int window_id,
                               const char* name,
                               aura::Window* parent) {
   aura::Window* container = new aura::Window(NULL);
   container->set_id(window_id);
   container->SetName(name);
   container->Init(ui::LAYER_NOT_DRAWN);
   parent->AddChild(container);
   if (window_id != internal::kShellWindowId_UnparentedControlContainer)
     container->Show();
   return container;
 }

 // Returns all the children of the workspace windows, eg the standard top-level
 // windows.
 std::vector<aura::Window*> GetWorkspaceWindows(aura::RootWindow* root) {
   using aura::Window;

   std::vector<Window*> windows;
   Window* container = Shell::GetContainer(
       root, internal::kShellWindowId_DefaultContainer);
   for (Window::Windows::const_reverse_iterator i =
            container->children().rbegin();
        i != container->children().rend(); ++i) {
     Window* workspace_window = *i;
     if (workspace_window->id() == internal::kShellWindowId_WorkspaceContainer) {
       windows.insert(windows.end(), workspace_window->children().begin(),
                      workspace_window->children().end());
     }
   }
   return windows;
 }

 // Reparents |window| to |new_parent|.
 void ReparentWindow(aura::Window* window, aura::Window* new_parent) {
   // Update the restore bounds to make it relative to the display.
   gfx::Rect restore_bounds(GetRestoreBoundsInParent(window));
   new_parent->AddChild(window);
   if (!restore_bounds.IsEmpty())
     SetRestoreBoundsInParent(window, restore_bounds);
 }

 // Reparents the appropriate set of windows from |src| to |dst|.
 void ReparentAllWindows(aura::RootWindow* src, aura::RootWindow* dst) {
   // Set of windows to move.
   const int kContainerIdsToMove[] = {
     internal::kShellWindowId_DefaultContainer,
     internal::kShellWindowId_AlwaysOnTopContainer,
     internal::kShellWindowId_SystemModalContainer,
     internal::kShellWindowId_LockSystemModalContainer,
   };
   // For Workspace2 we need to manually reparent the windows. This way
   // Workspace2 can move the windows to the appropriate workspace.
   if (internal::WorkspaceController::IsWorkspace2Enabled()) {
     std::vector<aura::Window*> windows(GetWorkspaceWindows(src));
     internal::WorkspaceController* workspace_controller =
         GetRootWindowController(dst)->workspace_controller();
     for (size_t i = 0; i < windows.size(); ++i) {
       aura::Window* new_parent =
           workspace_controller->GetParentForNewWindow(windows[i]);
       ReparentWindow(windows[i], new_parent);
     }
   }
   for (size_t i = 0; i < arraysize(kContainerIdsToMove); i++) {
     int id = kContainerIdsToMove[i];
     if (id == internal::kShellWindowId_DefaultContainer &&
         internal::WorkspaceController::IsWorkspace2Enabled())
       continue;

     aura::Window* src_container = Shell::GetContainer(src, id);
     aura::Window* dst_container = Shell::GetContainer(dst, id);
     aura::Window::Windows children = src_container->children();
     for (aura::Window::Windows::iterator iter = children.begin();
          iter != children.end(); ++iter) {
       aura::Window* window = *iter;
       // Don't move modal screen.
       if (internal::SystemModalContainerLayoutManager::IsModalScreen(window))
         continue;

       ReparentWindow(window, dst_container);
     }
   }
 }

 // Mark the container window so that a widget added to this container will
 // use the virtual screeen coordinates instead of parent.
 void SetUsesScreenCoordinates(aura::Window* container) {
   container->SetProperty(internal::kUsesScreenCoordinatesKey, true);
 }

 }  // namespace

 namespace internal {

 RootWindowController::RootWindowController(aura::RootWindow* root_window)
     : root_window_(root_window) {
   SetRootWindowController(root_window, this);

   event_client_.reset(new internal::EventClientImpl(root_window));
   screen_dimmer_.reset(new internal::ScreenDimmer(root_window));
 }

 RootWindowController::~RootWindowController() {
   Shutdown();
   root_window_.reset();
 }

 void RootWindowController::Shutdown() {
   CloseChildWindows();
   if (Shell::GetActiveRootWindow() == root_window_.get()) {
     Shell::GetInstance()->set_active_root_window(
         Shell::GetPrimaryRootWindow() == root_window_.get() ?
         NULL : Shell::GetPrimaryRootWindow());
   }
   SetRootWindowController(root_window_.get(), NULL);
   event_client_.reset();
   screen_dimmer_.reset();
   workspace_controller_.reset();
   // Forget with the display ID so that display lookup
   // ends up with invalid display.
   root_window_->ClearProperty(kDisplayIdKey);
   // And this root window should no longer process events.
   root_window_->PrepareForShutdown();
 }

 aura::Window* RootWindowController::GetContainer(int container_id) {
   return root_window_->GetChildById(container_id);
 }

 void RootWindowController::InitLayoutManagers() {
   root_window_layout_ =
       new internal::RootWindowLayoutManager(root_window_.get());
   root_window_->SetLayoutManager(root_window_layout_);

   aura::Window* default_container =
       GetContainer(internal::kShellWindowId_DefaultContainer);
   // Workspace manager has its own layout managers.
   workspace_controller_.reset(
       new internal::WorkspaceController(default_container));

   aura::Window* always_on_top_container =
       GetContainer(internal::kShellWindowId_AlwaysOnTopContainer);
   always_on_top_container->SetLayoutManager(
       new internal::BaseLayoutManager(
           always_on_top_container->GetRootWindow()));
 }

 void RootWindowController::CreateContainers() {
   CreateContainersInRootWindow(root_window_.get());
 }

 void RootWindowController::CloseChildWindows() {
   // Close background widget first as it depends on tooltip.
   root_window_->SetProperty(kWindowDesktopComponent,
       static_cast<DesktopBackgroundWidgetController*>(NULL));
   root_window_->SetProperty(kComponentWrapper,
                             static_cast<ComponentWrapper*>(NULL));

   workspace_controller_.reset();
   aura::client::SetTooltipClient(root_window_.get(), NULL);

   while (!root_window_->children().empty()) {
     aura::Window* child = root_window_->children()[0];
     delete child;
   }
 }

 bool RootWindowController::IsInMaximizedMode() const {
   return workspace_controller_->IsInMaximizedMode();
 }

 void RootWindowController::MoveWindowsTo(aura::RootWindow* dst) {
   aura::Window* focused = dst->GetFocusManager()->GetFocusedWindow();
   aura::WindowTracker tracker;
   if (focused)
     tracker.Add(focused);
   aura::client::ActivationClient* activation_client =
       aura::client::GetActivationClient(dst);
   aura::Window* active = activation_client->GetActiveWindow();
   if (active && focused != active)
     tracker.Add(active);
   // Deactivate the window to close menu / bubble windows.
   activation_client->DeactivateWindow(active);
   // Release capture if any.
   aura::client::GetCaptureClient(root_window_.get())->
       SetCapture(NULL);
   // Clear the focused window if any. This is necessary because a
   // window may be deleted when losing focus (fullscreen flash for
   // example).  If the focused window is still alive after move, it'll
   // be re-focused below.
   dst->GetFocusManager()->SetFocusedWindow(NULL, NULL);

   ReparentAllWindows(root_window_.get(), dst);

   // Restore focused or active window if it's still alive.
   if (focused && tracker.Contains(focused) && dst->Contains(focused)) {
     dst->GetFocusManager()->SetFocusedWindow(focused, NULL);
   } else if (active && tracker.Contains(active) && dst->Contains(active)) {
     activation_client->ActivateWindow(active);
   }
 }

 ////////////////////////////////////////////////////////////////////////////////
 // RootWindowController, private:

 void RootWindowController::CreateContainersInRootWindow(
     aura::RootWindow* root_window) {
   // These containers are just used by PowerButtonController to animate groups
   // of containers simultaneously without messing up the current transformations
   // on those containers. These are direct children of the root window; all of
   // the other containers are their children.
   // Desktop and lock screen background containers are not part of the
   // lock animation so they are not included in those animate groups.
   // When screen is locked desktop background is moved to lock screen background
   // container (moved back on unlock). We want to make sure that there's an
   // opaque layer occluding the non-lock-screen layers.

   CreateContainer(internal::kShellWindowId_SystemBackgroundContainer,
                   "SystemBackgroundContainer", root_window);

   aura::Window* desktop_background_containers = CreateContainer(
       internal::kShellWindowId_DesktopBackgroundContainer,
       "DesktopBackgroundContainer",
       root_window);
   SetChildWindowVisibilityChangesAnimated(desktop_background_containers);

   aura::Window* non_lock_screen_containers = CreateContainer(
       internal::kShellWindowId_NonLockScreenContainersContainer,
       "NonLockScreenContainersContainer",
       root_window);

   aura::Window* lock_background_containers = CreateContainer(
       internal::kShellWindowId_LockScreenBackgroundContainer,
       "LockScreenBackgroundContainer",
       root_window);
   SetChildWindowVisibilityChangesAnimated(lock_background_containers);

   aura::Window* lock_screen_containers = CreateContainer(
       internal::kShellWindowId_LockScreenContainersContainer,
       "LockScreenContainersContainer",
       root_window);
   aura::Window* lock_screen_related_containers = CreateContainer(
       internal::kShellWindowId_LockScreenRelatedContainersContainer,
       "LockScreenRelatedContainersContainer",
       root_window);

   CreateContainer(internal::kShellWindowId_UnparentedControlContainer,
                   "UnparentedControlContainer",
                   non_lock_screen_containers);

   aura::Window* default_container = CreateContainer(
       internal::kShellWindowId_DefaultContainer,
       "DefaultContainer",
       non_lock_screen_containers);
   if (!internal::WorkspaceController::IsWorkspace2Enabled()) {
     default_container_handler_.reset(
         new ToplevelWindowEventHandler(default_container));
   }
   SetChildWindowVisibilityChangesAnimated(default_container);
   SetUsesScreenCoordinates(default_container);

   aura::Window* always_on_top_container = CreateContainer(
       internal::kShellWindowId_AlwaysOnTopContainer,
       "AlwaysOnTopContainer",
       non_lock_screen_containers);
   always_on_top_container_handler_.reset(
       new ToplevelWindowEventHandler(always_on_top_container));
   SetChildWindowVisibilityChangesAnimated(always_on_top_container);
   SetUsesScreenCoordinates(always_on_top_container);

   aura::Window* panel_container = CreateContainer(
       internal::kShellWindowId_PanelContainer,
       "PanelContainer",
       non_lock_screen_containers);
   SetUsesScreenCoordinates(panel_container);

   aura::Window* launcher_container =
       CreateContainer(internal::kShellWindowId_LauncherContainer,
                       "LauncherContainer",
                       non_lock_screen_containers);
   SetUsesScreenCoordinates(launcher_container);

   CreateContainer(internal::kShellWindowId_AppListContainer,
                   "AppListContainer",
                   non_lock_screen_containers);

   aura::Window* modal_container = CreateContainer(
       internal::kShellWindowId_SystemModalContainer,
       "SystemModalContainer",
       non_lock_screen_containers);
   modal_container_handler_.reset(
       new ToplevelWindowEventHandler(modal_container));
   modal_container->SetLayoutManager(
       new internal::SystemModalContainerLayoutManager(modal_container));
   SetChildWindowVisibilityChangesAnimated(modal_container);
   SetUsesScreenCoordinates(modal_container);

   aura::Window* input_method_container = CreateContainer(
       internal::kShellWindowId_InputMethodContainer,
       "InputMethodContainer",
       non_lock_screen_containers);
   SetUsesScreenCoordinates(input_method_container);

   // TODO(beng): Figure out if we can make this use
   // SystemModalContainerEventFilter instead of stops_event_propagation.
   aura::Window* lock_container = CreateContainer(
       internal::kShellWindowId_LockScreenContainer,
       "LockScreenContainer",
       lock_screen_containers);
   lock_container->SetLayoutManager(
       new internal::BaseLayoutManager(root_window));
   SetUsesScreenCoordinates(lock_container);
   // TODO(beng): stopsevents

   aura::Window* lock_modal_container = CreateContainer(
       internal::kShellWindowId_LockSystemModalContainer,
       "LockSystemModalContainer",
       lock_screen_containers);
   lock_modal_container_handler_.reset(
       new ToplevelWindowEventHandler(lock_modal_container));
   lock_modal_container->SetLayoutManager(
       new internal::SystemModalContainerLayoutManager(lock_modal_container));
   SetChildWindowVisibilityChangesAnimated(lock_modal_container);
   SetUsesScreenCoordinates(lock_modal_container);

   aura::Window* status_container =
       CreateContainer(internal::kShellWindowId_StatusContainer,
                       "StatusContainer",
                       lock_screen_related_containers);
   SetUsesScreenCoordinates(status_container);

   aura::Window* settings_bubble_container = CreateContainer(
       internal::kShellWindowId_SettingBubbleContainer,
       "SettingBubbleContainer",
       lock_screen_related_containers);
   SetChildWindowVisibilityChangesAnimated(settings_bubble_container);
   SetUsesScreenCoordinates(settings_bubble_container);

   aura::Window* menu_container = CreateContainer(
       internal::kShellWindowId_MenuContainer,
       "MenuContainer",
       lock_screen_related_containers);
   SetChildWindowVisibilityChangesAnimated(menu_container);
   SetUsesScreenCoordinates(menu_container);

   aura::Window* drag_drop_container = CreateContainer(
       internal::kShellWindowId_DragImageAndTooltipContainer,
       "DragImageAndTooltipContainer",
       lock_screen_related_containers);
   SetChildWindowVisibilityChangesAnimated(drag_drop_container);
   SetUsesScreenCoordinates(drag_drop_container);

   aura::Window* overlay_container = CreateContainer(
       internal::kShellWindowId_OverlayContainer,
       "OverlayContainer",
       lock_screen_related_containers);
   SetUsesScreenCoordinates(overlay_container);
 }

 }  // namespace internal
 }  // 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/root_window_controller.h"

	#include <vector>

	#include "ash/desktop_background/desktop_background_widget_controller.h"
	#include "ash/display/display_controller.h"
	#include "ash/display/multi_display_manager.h"
	#include "ash/shell.h"
	#include "ash/shell_factory.h"
	#include "ash/shell_window_ids.h"
	#include "ash/wm/base_layout_manager.h"
	#include "ash/wm/event_client_impl.h"
	#include "ash/wm/property_util.h"
	#include "ash/wm/root_window_layout_manager.h"
	#include "ash/wm/screen_dimmer.h"
	#include "ash/wm/system_modal_container_layout_manager.h"
	#include "ash/wm/toplevel_window_event_handler.h"
	#include "ash/wm/visibility_controller.h"
	#include "ash/wm/window_properties.h"
	#include "ash/wm/workspace_controller.h"
	#include "ui/aura/client/activation_client.h"
	#include "ui/aura/client/aura_constants.h"
	#include "ui/aura/client/capture_client.h"
	#include "ui/aura/client/tooltip_client.h"
	#include "ui/aura/focus_manager.h"
	#include "ui/aura/root_window.h"
	#include "ui/aura/window.h"
	#include "ui/aura/window_observer.h"
	#include "ui/aura/window_tracker.h"
	#include "ui/gfx/display.h"
	#include "ui/gfx/screen.h"

	namespace ash {
	namespace {

	// Creates a new window for use as a container.
	aura::Window* CreateContainer(int window_id,
	const char* name,
	aura::Window* parent) {
	aura::Window* container = new aura::Window(NULL);
	container->set_id(window_id);
	container->SetName(name);
	container->Init(ui::LAYER_NOT_DRAWN);
	parent->AddChild(container);
	if (window_id != internal::kShellWindowId_UnparentedControlContainer)
	container->Show();
	return container;
	}

	// Returns all the children of the workspace windows, eg the standard top-level
	// windows.
	std::vector<aura::Window> GetWorkspaceWindows(aura::RootWindow root) {
	using aura::Window;

	std::vector<Window*> windows;
	Window* container = Shell::GetContainer(
	root, internal::kShellWindowId_DefaultContainer);
	for (Window::Windows::const_reverse_iterator i =
	container->children().rbegin();
	i != container->children().rend(); ++i) {
	Window* workspace_window = *i;
	if (workspace_window->id() == internal::kShellWindowId_WorkspaceContainer) {
	windows.insert(windows.end(), workspace_window->children().begin(),
	workspace_window->children().end());
	}
	}
	return windows;
	}

	// Reparents \|window\| to \|new_parent\|.
	void ReparentWindow(aura::Window* window, aura::Window* new_parent) {
	// Update the restore bounds to make it relative to the display.
	gfx::Rect restore_bounds(GetRestoreBoundsInParent(window));
	new_parent->AddChild(window);
	if (!restore_bounds.IsEmpty())
	SetRestoreBoundsInParent(window, restore_bounds);
	}

	// Reparents the appropriate set of windows from \|src\| to \|dst\|.
	void ReparentAllWindows(aura::RootWindow* src, aura::RootWindow* dst) {
	// Set of windows to move.
	const int kContainerIdsToMove[] = {
	internal::kShellWindowId_DefaultContainer,
	internal::kShellWindowId_AlwaysOnTopContainer,
	internal::kShellWindowId_SystemModalContainer,
	internal::kShellWindowId_LockSystemModalContainer,
	};
	// For Workspace2 we need to manually reparent the windows. This way
	// Workspace2 can move the windows to the appropriate workspace.
	if (internal::WorkspaceController::IsWorkspace2Enabled()) {
	std::vector<aura::Window*> windows(GetWorkspaceWindows(src));
	internal::WorkspaceController* workspace_controller =
	GetRootWindowController(dst)->workspace_controller();
	for (size_t i = 0; i < windows.size(); ++i) {
	aura::Window* new_parent =
	workspace_controller->GetParentForNewWindow(windows[i]);
	ReparentWindow(windows[i], new_parent);
	}
	}
	for (size_t i = 0; i < arraysize(kContainerIdsToMove); i++) {
	int id = kContainerIdsToMove[i];
	if (id == internal::kShellWindowId_DefaultContainer &&
	internal::WorkspaceController::IsWorkspace2Enabled())
	continue;

	aura::Window* src_container = Shell::GetContainer(src, id);
	aura::Window* dst_container = Shell::GetContainer(dst, id);
	aura::Window::Windows children = src_container->children();
	for (aura::Window::Windows::iterator iter = children.begin();
	iter != children.end(); ++iter) {
	aura::Window* window = *iter;
	// Don't move modal screen.
	if (internal::SystemModalContainerLayoutManager::IsModalScreen(window))
	continue;

	ReparentWindow(window, dst_container);
	}
	}
	}

	// Mark the container window so that a widget added to this container will
	// use the virtual screeen coordinates instead of parent.
	void SetUsesScreenCoordinates(aura::Window* container) {
	container->SetProperty(internal::kUsesScreenCoordinatesKey, true);
	}

	} // namespace

	namespace internal {

	RootWindowController::RootWindowController(aura::RootWindow* root_window)
	: root_window_(root_window) {
	SetRootWindowController(root_window, this);

	event_client_.reset(new internal::EventClientImpl(root_window));
	screen_dimmer_.reset(new internal::ScreenDimmer(root_window));
	}

	RootWindowController::~RootWindowController() {
	Shutdown();
	root_window_.reset();
	}

	void RootWindowController::Shutdown() {
	CloseChildWindows();
	if (Shell::GetActiveRootWindow() == root_window_.get()) {
	Shell::GetInstance()->set_active_root_window(
	Shell::GetPrimaryRootWindow() == root_window_.get() ?
	NULL : Shell::GetPrimaryRootWindow());
	}
	SetRootWindowController(root_window_.get(), NULL);
	event_client_.reset();
	screen_dimmer_.reset();
	workspace_controller_.reset();
	// Forget with the display ID so that display lookup
	// ends up with invalid display.
	root_window_->ClearProperty(kDisplayIdKey);
	// And this root window should no longer process events.
	root_window_->PrepareForShutdown();
	}

	aura::Window* RootWindowController::GetContainer(int container_id) {
	return root_window_->GetChildById(container_id);
	}

	void RootWindowController::InitLayoutManagers() {
	root_window_layout_ =
	new internal::RootWindowLayoutManager(root_window_.get());
	root_window_->SetLayoutManager(root_window_layout_);

	aura::Window* default_container =
	GetContainer(internal::kShellWindowId_DefaultContainer);
	// Workspace manager has its own layout managers.
	workspace_controller_.reset(
	new internal::WorkspaceController(default_container));

	aura::Window* always_on_top_container =
	GetContainer(internal::kShellWindowId_AlwaysOnTopContainer);
	always_on_top_container->SetLayoutManager(
	new internal::BaseLayoutManager(
	always_on_top_container->GetRootWindow()));
	}

	void RootWindowController::CreateContainers() {
	CreateContainersInRootWindow(root_window_.get());
	}

	void RootWindowController::CloseChildWindows() {
	// Close background widget first as it depends on tooltip.
	root_window_->SetProperty(kWindowDesktopComponent,
	static_cast<DesktopBackgroundWidgetController*>(NULL));
	root_window_->SetProperty(kComponentWrapper,
	static_cast<ComponentWrapper*>(NULL));

	workspace_controller_.reset();
	aura::client::SetTooltipClient(root_window_.get(), NULL);

	while (!root_window_->children().empty()) {
	aura::Window* child = root_window_->children()[0];
	delete child;
	}
	}

	bool RootWindowController::IsInMaximizedMode() const {
	return workspace_controller_->IsInMaximizedMode();
	}

	void RootWindowController::MoveWindowsTo(aura::RootWindow* dst) {
	aura::Window* focused = dst->GetFocusManager()->GetFocusedWindow();
	aura::WindowTracker tracker;
	if (focused)
	tracker.Add(focused);
	aura::client::ActivationClient* activation_client =
	aura::client::GetActivationClient(dst);
	aura::Window* active = activation_client->GetActiveWindow();
	if (active && focused != active)
	tracker.Add(active);
	// Deactivate the window to close menu / bubble windows.
	activation_client->DeactivateWindow(active);
	// Release capture if any.
	aura::client::GetCaptureClient(root_window_.get())->
	SetCapture(NULL);
	// Clear the focused window if any. This is necessary because a
	// window may be deleted when losing focus (fullscreen flash for
	// example). If the focused window is still alive after move, it'll
	// be re-focused below.
	dst->GetFocusManager()->SetFocusedWindow(NULL, NULL);

	ReparentAllWindows(root_window_.get(), dst);

	// Restore focused or active window if it's still alive.
	if (focused && tracker.Contains(focused) && dst->Contains(focused)) {
	dst->GetFocusManager()->SetFocusedWindow(focused, NULL);
	} else if (active && tracker.Contains(active) && dst->Contains(active)) {
	activation_client->ActivateWindow(active);
	}
	}

	////////////////////////////////////////////////////////////////////////////////
	// RootWindowController, private:

	void RootWindowController::CreateContainersInRootWindow(
	aura::RootWindow* root_window) {
	// These containers are just used by PowerButtonController to animate groups
	// of containers simultaneously without messing up the current transformations
	// on those containers. These are direct children of the root window; all of
	// the other containers are their children.
	// Desktop and lock screen background containers are not part of the
	// lock animation so they are not included in those animate groups.
	// When screen is locked desktop background is moved to lock screen background
	// container (moved back on unlock). We want to make sure that there's an
	// opaque layer occluding the non-lock-screen layers.

	CreateContainer(internal::kShellWindowId_SystemBackgroundContainer,
	"SystemBackgroundContainer", root_window);

	aura::Window* desktop_background_containers = CreateContainer(
	internal::kShellWindowId_DesktopBackgroundContainer,
	"DesktopBackgroundContainer",
	root_window);
	SetChildWindowVisibilityChangesAnimated(desktop_background_containers);

	aura::Window* non_lock_screen_containers = CreateContainer(
	internal::kShellWindowId_NonLockScreenContainersContainer,
	"NonLockScreenContainersContainer",
	root_window);

	aura::Window* lock_background_containers = CreateContainer(
	internal::kShellWindowId_LockScreenBackgroundContainer,
	"LockScreenBackgroundContainer",
	root_window);
	SetChildWindowVisibilityChangesAnimated(lock_background_containers);

	aura::Window* lock_screen_containers = CreateContainer(
	internal::kShellWindowId_LockScreenContainersContainer,
	"LockScreenContainersContainer",
	root_window);
	aura::Window* lock_screen_related_containers = CreateContainer(
	internal::kShellWindowId_LockScreenRelatedContainersContainer,
	"LockScreenRelatedContainersContainer",
	root_window);

	CreateContainer(internal::kShellWindowId_UnparentedControlContainer,
	"UnparentedControlContainer",
	non_lock_screen_containers);

	aura::Window* default_container = CreateContainer(
	internal::kShellWindowId_DefaultContainer,
	"DefaultContainer",
	non_lock_screen_containers);
	if (!internal::WorkspaceController::IsWorkspace2Enabled()) {
	default_container_handler_.reset(
	new ToplevelWindowEventHandler(default_container));
	}
	SetChildWindowVisibilityChangesAnimated(default_container);
	SetUsesScreenCoordinates(default_container);

	aura::Window* always_on_top_container = CreateContainer(
	internal::kShellWindowId_AlwaysOnTopContainer,
	"AlwaysOnTopContainer",
	non_lock_screen_containers);
	always_on_top_container_handler_.reset(
	new ToplevelWindowEventHandler(always_on_top_container));
	SetChildWindowVisibilityChangesAnimated(always_on_top_container);
	SetUsesScreenCoordinates(always_on_top_container);

	aura::Window* panel_container = CreateContainer(
	internal::kShellWindowId_PanelContainer,
	"PanelContainer",
	non_lock_screen_containers);
	SetUsesScreenCoordinates(panel_container);

	aura::Window* launcher_container =
	CreateContainer(internal::kShellWindowId_LauncherContainer,
	"LauncherContainer",
	non_lock_screen_containers);
	SetUsesScreenCoordinates(launcher_container);

	CreateContainer(internal::kShellWindowId_AppListContainer,
	"AppListContainer",
	non_lock_screen_containers);

	aura::Window* modal_container = CreateContainer(
	internal::kShellWindowId_SystemModalContainer,
	"SystemModalContainer",
	non_lock_screen_containers);
	modal_container_handler_.reset(
	new ToplevelWindowEventHandler(modal_container));
	modal_container->SetLayoutManager(
	new internal::SystemModalContainerLayoutManager(modal_container));
	SetChildWindowVisibilityChangesAnimated(modal_container);
	SetUsesScreenCoordinates(modal_container);

	aura::Window* input_method_container = CreateContainer(
	internal::kShellWindowId_InputMethodContainer,
	"InputMethodContainer",
	non_lock_screen_containers);
	SetUsesScreenCoordinates(input_method_container);

	// TODO(beng): Figure out if we can make this use
	// SystemModalContainerEventFilter instead of stops_event_propagation.
	aura::Window* lock_container = CreateContainer(
	internal::kShellWindowId_LockScreenContainer,
	"LockScreenContainer",
	lock_screen_containers);
	lock_container->SetLayoutManager(
	new internal::BaseLayoutManager(root_window));
	SetUsesScreenCoordinates(lock_container);
	// TODO(beng): stopsevents

	aura::Window* lock_modal_container = CreateContainer(
	internal::kShellWindowId_LockSystemModalContainer,
	"LockSystemModalContainer",
	lock_screen_containers);
	lock_modal_container_handler_.reset(
	new ToplevelWindowEventHandler(lock_modal_container));
	lock_modal_container->SetLayoutManager(
	new internal::SystemModalContainerLayoutManager(lock_modal_container));
	SetChildWindowVisibilityChangesAnimated(lock_modal_container);
	SetUsesScreenCoordinates(lock_modal_container);

	aura::Window* status_container =
	CreateContainer(internal::kShellWindowId_StatusContainer,
	"StatusContainer",
	lock_screen_related_containers);
	SetUsesScreenCoordinates(status_container);

	aura::Window* settings_bubble_container = CreateContainer(
	internal::kShellWindowId_SettingBubbleContainer,
	"SettingBubbleContainer",
	lock_screen_related_containers);
	SetChildWindowVisibilityChangesAnimated(settings_bubble_container);
	SetUsesScreenCoordinates(settings_bubble_container);

	aura::Window* menu_container = CreateContainer(
	internal::kShellWindowId_MenuContainer,
	"MenuContainer",
	lock_screen_related_containers);
	SetChildWindowVisibilityChangesAnimated(menu_container);
	SetUsesScreenCoordinates(menu_container);

	aura::Window* drag_drop_container = CreateContainer(
	internal::kShellWindowId_DragImageAndTooltipContainer,
	"DragImageAndTooltipContainer",
	lock_screen_related_containers);
	SetChildWindowVisibilityChangesAnimated(drag_drop_container);
	SetUsesScreenCoordinates(drag_drop_container);

	aura::Window* overlay_container = CreateContainer(
	internal::kShellWindowId_OverlayContainer,
	"OverlayContainer",
	lock_screen_related_containers);
	SetUsesScreenCoordinates(overlay_container);
	}

	} // namespace internal
	} // namespace ash