chrome/browser/ui/panels/panel_manager.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 "chrome/browser/ui/panels/panel_manager.h"

 #include "base/bind.h"
 #include "base/command_line.h"
 #include "base/logging.h"
 #include "base/memory/scoped_ptr.h"
 #include "base/message_loop/message_loop.h"
 #include "chrome/browser/chrome_notification_types.h"
 #include "chrome/browser/ui/panels/detached_panel_collection.h"
 #include "chrome/browser/ui/panels/docked_panel_collection.h"
 #include "chrome/browser/ui/panels/panel_drag_controller.h"
 #include "chrome/browser/ui/panels/panel_mouse_watcher.h"
 #include "chrome/browser/ui/panels/panel_resize_controller.h"
 #include "chrome/browser/ui/panels/stacked_panel_collection.h"
 #include "chrome/common/channel_info.h"
 #include "chrome/common/chrome_switches.h"
 #include "components/version_info/version_info.h"
 #include "content/public/browser/notification_service.h"
 #include "content/public/browser/notification_source.h"
 #include "extensions/common/constants.h"
 #include "ui/base/hit_test.h"

 #if defined(USE_X11) && !defined(OS_CHROMEOS)
 #include "base/environment.h"
 #include "base/nix/xdg_util.h"
 #include "ui/base/x/x11_util.h"
 #endif

 namespace {
 // Maxmium width of a panel is based on a factor of the working area.
 #if defined(OS_CHROMEOS)
 // ChromeOS device screens are relatively small and limiting the width
 // interferes with some apps (e.g. http://crbug.com/111121).
 const double kPanelMaxWidthFactor = 0.80;
 #else
 const double kPanelMaxWidthFactor = 0.35;
 #endif

 // Maxmium height of a panel is based on a factor of the working area.
 const double kPanelMaxHeightFactor = 0.5;

 // Width to height ratio is used to compute the default width or height
 // when only one value is provided.
 const double kPanelDefaultWidthToHeightRatio = 1.62;  // golden ratio

 // The test code could call PanelManager::SetDisplaySettingsProviderForTesting
 // to set this for testing purpose.
 DisplaySettingsProvider* display_settings_provider_for_testing;

 // The following comparers are used by std::list<>::sort to determine which
 // stack or panel we want to seacrh first for adding new panel.
 bool ComparePanelsByPosition(Panel* panel1, Panel* panel2) {
   gfx::Rect bounds1 = panel1->GetBounds();
   gfx::Rect bounds2 = panel2->GetBounds();

   // When there're ties, the right-most stack will appear first.
   if (bounds1.x() > bounds2.x())
     return true;
   if (bounds1.x() < bounds2.x())
     return false;

   // In the event of another draw, the top-most stack will appear first.
   return bounds1.y() < bounds2.y();
 }

 bool ComparerNumberOfPanelsInStack(StackedPanelCollection* stack1,
                                    StackedPanelCollection* stack2) {
   // The stack with more panels will appear first.
   int num_panels_in_stack1 = stack1->num_panels();
   int num_panels_in_stack2 = stack2->num_panels();
   if (num_panels_in_stack1 > num_panels_in_stack2)
     return true;
   if (num_panels_in_stack1 < num_panels_in_stack2)
     return false;

   DCHECK(num_panels_in_stack1);

   return ComparePanelsByPosition(stack1->top_panel(), stack2->top_panel());
 }

 bool CompareDetachedPanels(Panel* panel1, Panel* panel2) {
   return ComparePanelsByPosition(panel1, panel2);
 }

 }  // namespace

 // static
 bool PanelManager::shorten_time_intervals_ = false;

 // static
 PanelManager* PanelManager::GetInstance() {
   static base::LazyInstance<PanelManager> instance = LAZY_INSTANCE_INITIALIZER;
   return instance.Pointer();
 }

 // static
 void PanelManager::SetDisplaySettingsProviderForTesting(
     DisplaySettingsProvider* provider) {
   display_settings_provider_for_testing = provider;
 }

 // static
 bool PanelManager::ShouldUsePanels(const std::string& extension_id) {
   // If --disable-panels is on, never use panels.
   if (base::CommandLine::ForCurrentProcess()->HasSwitch(
           switches::kDisablePanels))
     return false;

   // If --enable-panels is on, always use panels.
   if (base::CommandLine::ForCurrentProcess()->HasSwitch(
           switches::kEnablePanels))
     return true;

 #if defined(USE_X11) && !defined(OS_CHROMEOS)
   // On Linux, panels are only supported on tested window managers.
   ui::WindowManagerName wm_type = ui::GuessWindowManager();
   if (wm_type != ui::WM_COMPIZ &&
       wm_type != ui::WM_ICE_WM &&
       wm_type != ui::WM_KWIN &&
       wm_type != ui::WM_METACITY &&
       wm_type != ui::WM_MUFFIN &&
       wm_type != ui::WM_MUTTER &&
       wm_type != ui::WM_XFWM4) {
     return false;
   }
 #endif  // USE_X11 && !OS_CHROMEOS

   // Without --enable-panels, only support Hangouts.
   for (const char* id : extension_misc::kHangoutsExtensionIds) {
     if (extension_id == id)
       return true;
   }

 #if defined(OS_CHROMEOS)
   // Without --enable-panels, only support IME extensions on Chrome OS.
   for (const char* id : extension_misc::kIMEExtensionIds) {
     if (extension_id == id)
       return true;
   }
 #endif

   return false;
 }

 // static
 bool PanelManager::IsPanelStackingEnabled() {
   // Stacked panel mode is not supported in linux-aura.
 #if defined(OS_LINUX)
   return false;
 #else
   return true;
 #endif
 }

 // static
 bool PanelManager::CanUseSystemMinimize() {
 #if defined(USE_X11) && !defined(OS_CHROMEOS)
   static base::nix::DesktopEnvironment desktop_env =
       base::nix::DESKTOP_ENVIRONMENT_OTHER;
   if (desktop_env == base::nix::DESKTOP_ENVIRONMENT_OTHER) {
     scoped_ptr<base::Environment> env(base::Environment::Create());
     desktop_env = base::nix::GetDesktopEnvironment(env.get());
   }
   return desktop_env != base::nix::DESKTOP_ENVIRONMENT_UNITY;
 #else
   return true;
 #endif
 }

 PanelManager::PanelManager()
     : panel_mouse_watcher_(PanelMouseWatcher::Create()),
       auto_sizing_enabled_(true) {
   // DisplaySettingsProvider should be created before the creation of
   // collections since some collection might depend on it.
   if (display_settings_provider_for_testing)
     display_settings_provider_.reset(display_settings_provider_for_testing);
   else
     display_settings_provider_.reset(DisplaySettingsProvider::Create());
   display_settings_provider_->AddDisplayObserver(this);

   detached_collection_.reset(new DetachedPanelCollection(this));
   docked_collection_.reset(new DockedPanelCollection(this));
   drag_controller_.reset(new PanelDragController(this));
   resize_controller_.reset(new PanelResizeController(this));
 }

 PanelManager::~PanelManager() {
   display_settings_provider_->RemoveDisplayObserver(this);

   // Docked collection should be disposed explicitly before
   // DisplaySettingsProvider is gone since docked collection needs to remove
   // the observer from DisplaySettingsProvider.
   docked_collection_.reset();
 }

 gfx::Point PanelManager::GetDefaultDetachedPanelOrigin() {
   return detached_collection_->GetDefaultPanelOrigin();
 }

 void PanelManager::OnDisplayChanged() {
   docked_collection_->OnDisplayChanged();
   detached_collection_->OnDisplayChanged();
   for (Stacks::const_iterator iter = stacks_.begin();
        iter != stacks_.end(); iter++)
     (*iter)->OnDisplayChanged();
 }

 void PanelManager::OnFullScreenModeChanged(bool is_full_screen) {
   std::vector<Panel*> all_panels = panels();
   for (std::vector<Panel*>::const_iterator iter = all_panels.begin();
        iter != all_panels.end(); ++iter) {
     (*iter)->FullScreenModeChanged(is_full_screen);
   }
 }

 int PanelManager::GetMaxPanelWidth(const gfx::Rect& work_area) const {
   return static_cast<int>(work_area.width() * kPanelMaxWidthFactor);
 }

 int PanelManager::GetMaxPanelHeight(const gfx::Rect& work_area) const {
   return static_cast<int>(work_area.height() * kPanelMaxHeightFactor);
 }

 Panel* PanelManager::CreatePanel(const std::string& app_name,
                                  Profile* profile,
                                  const GURL& url,
                                  content::SiteInstance* source_site_instance,
                                  const gfx::Rect& requested_bounds,
                                  CreateMode mode) {
   // Need to sync the display area if no panel is present. This is because:
   // 1) Display area is not initialized until first panel is created.
   // 2) On windows, display settings notification is tied to a window. When
   //    display settings are changed at the time that no panel exists, we do
   //    not receive any notification.
   if (num_panels() == 0) {
     display_settings_provider_->OnDisplaySettingsChanged();
     display_settings_provider_->AddFullScreenObserver(this);
   }

   // Compute initial bounds for the panel.
   int width = requested_bounds.width();
   int height = requested_bounds.height();
   if (width == 0)
     width = height * kPanelDefaultWidthToHeightRatio;
   else if (height == 0)
     height = width / kPanelDefaultWidthToHeightRatio;

   gfx::Rect work_area =
       display_settings_provider_->GetWorkAreaMatching(requested_bounds);
   gfx::Size min_size(panel::kPanelMinWidth, panel::kPanelMinHeight);
   gfx::Size max_size(GetMaxPanelWidth(work_area), GetMaxPanelHeight(work_area));
   if (width < min_size.width())
     width = min_size.width();
   else if (width > max_size.width())
     width = max_size.width();

   if (height < min_size.height())
     height = min_size.height();
   else if (height > max_size.height())
     height = max_size.height();

   // Create the panel.
   Panel* panel = new Panel(profile, app_name, min_size, max_size);

   // Find the appropriate panel collection to hold the new panel.
   gfx::Rect adjusted_requested_bounds(
       requested_bounds.x(), requested_bounds.y(), width, height);
   PanelCollection::PositioningMask positioning_mask;
   PanelCollection* collection = GetCollectionForNewPanel(
       panel, adjusted_requested_bounds, mode, &positioning_mask);

   // Let the panel collection decide the initial bounds.
   gfx::Rect bounds = collection->GetInitialPanelBounds(
       adjusted_requested_bounds);
   bounds.AdjustToFit(work_area);

   panel->Initialize(url, source_site_instance, bounds,
                     collection->UsesAlwaysOnTopPanels());

   // Auto resizable feature is enabled only if no initial size is requested.
   if (auto_sizing_enabled() && requested_bounds.width() == 0 &&
       requested_bounds.height() == 0) {
     panel->SetAutoResizable(true);
   }

   // Add the panel to the panel collection.
   collection->AddPanel(panel, positioning_mask);
   collection->UpdatePanelOnCollectionChange(panel);

   return panel;
 }

 PanelCollection* PanelManager::GetCollectionForNewPanel(
     Panel* new_panel,
     const gfx::Rect& bounds,
     CreateMode mode,
     PanelCollection::PositioningMask* positioning_mask) {
   if (mode == CREATE_AS_DOCKED) {
     // Delay layout refreshes in case multiple panels are created within
     // a short time of one another or the focus changes shortly after panel
     // is created to avoid excessive screen redraws.
     *positioning_mask = PanelCollection::DELAY_LAYOUT_REFRESH;
     return docked_collection_.get();
   }

   DCHECK_EQ(CREATE_AS_DETACHED, mode);
   *positioning_mask = PanelCollection::DEFAULT_POSITION;

   // If the stacking support is not enabled, new panel will still be created as
   // detached.
   if (!IsPanelStackingEnabled())
     return detached_collection_.get();

   // If there're stacks, try to find a stack that can fit new panel.
   if (!stacks_.empty()) {
     // Perform the search as:
     // 1) Search from the stack with more panels to the stack with least panels.
     // 2) Amongs the stacks with same number of panels, search from the right-
     //    most stack to the left-most stack.
     // 3) Among the stack with same number of panels and same x position,
     //    search from the top-most stack to the bottom-most stack.
     // 4) If there is not enough space to fit new panel even with all inactive
     //    panels being collapsed, move to next stack.
     stacks_.sort(ComparerNumberOfPanelsInStack);
     for (Stacks::const_iterator iter = stacks_.begin();
          iter != stacks_.end(); iter++) {
       StackedPanelCollection* stack = *iter;

       // Do not add to other stack that is from differnt extension or profile.
       // Note that the check is based on bottom panel.
       Panel* panel = stack->bottom_panel();
       if (panel->profile() != new_panel->profile() ||
           panel->extension_id() != new_panel->extension_id())
         continue;

       // Do not add to the stack that is minimized by the system.
       if (stack->IsMinimized())
         continue;

       // Do not stack with the panel that is not shown in current virtual
       // desktop.
       if (!panel->IsShownOnActiveDesktop())
         continue;

       if (bounds.height() <= stack->GetMaximiumAvailableBottomSpace()) {
         *positioning_mask = static_cast<PanelCollection::PositioningMask>(
             *positioning_mask | PanelCollection::COLLAPSE_TO_FIT);
         return stack;
       }
     }
   }

   // Then try to find a detached panel to which new panel can stack.
   if (detached_collection_->num_panels()) {
     // Perform the search as:
     // 1) Search from the right-most detached panel to the left-most detached
     //    panel.
     // 2) Among the detached panels with same x position, search from the
     //    top-most detached panel to the bottom-most deatched panel.
     // 3) If there is not enough space beneath the detached panel, even by
     //    collapsing it if it is inactive, to fit new panel, move to next
     //    detached panel.
     detached_collection_->SortPanels(CompareDetachedPanels);

     for (DetachedPanelCollection::Panels::const_iterator iter =
              detached_collection_->panels().begin();
          iter != detached_collection_->panels().end(); ++iter) {
       Panel* panel = *iter;

       // Do not stack with other panel that is from differnt extension or
       // profile.
       if (panel->profile() != new_panel->profile() ||
           panel->extension_id() != new_panel->extension_id())
         continue;

       // Do not stack with the panel that is minimized by the system.
       if (panel->IsMinimizedBySystem())
         continue;

       // Do not stack with the panel that is not shown in the active desktop.
       if (!panel->IsShownOnActiveDesktop())
         continue;

       gfx::Rect work_area =
           display_settings_provider_->GetWorkAreaMatching(panel->GetBounds());
       int max_available_space =
           work_area.bottom() - panel->GetBounds().y() -
           (panel->IsActive() ? panel->GetBounds().height()
                              : panel::kTitlebarHeight);
       if (bounds.height() <= max_available_space) {
         StackedPanelCollection* new_stack = CreateStack();
         MovePanelToCollection(panel,
                               new_stack,
                               PanelCollection::DEFAULT_POSITION);
         *positioning_mask = static_cast<PanelCollection::PositioningMask>(
             *positioning_mask | PanelCollection::COLLAPSE_TO_FIT);
         return new_stack;
       }
     }
   }

   return detached_collection_.get();
 }

 void PanelManager::OnPanelClosed(Panel* panel) {
   if (num_panels() == 1) {
     display_settings_provider_->RemoveFullScreenObserver(this);
   }

   drag_controller_->OnPanelClosed(panel);
   resize_controller_->OnPanelClosed(panel);

   // Note that we need to keep track of panel's collection since it will be
   // gone once RemovePanel is called.
   PanelCollection* collection = panel->collection();
   collection->RemovePanel(panel, PanelCollection::PANEL_CLOSED);

   // If only one panel is left in the stack, move it out of the stack.
   // Also make sure that this detached panel will be expanded if not yet.
   if (collection->type() == PanelCollection::STACKED) {
     StackedPanelCollection* stack =
         static_cast<StackedPanelCollection*>(collection);
     DCHECK_GE(stack->num_panels(), 1);
     if (stack->num_panels() == 1) {
       Panel* top_panel = stack->top_panel();
       MovePanelToCollection(top_panel,
                             detached_collection(),
                             PanelCollection::DEFAULT_POSITION);
       if (top_panel->expansion_state() != Panel::EXPANDED)
         top_panel->SetExpansionState(Panel::EXPANDED);
       RemoveStack(stack);
     }
   }

   content::NotificationService::current()->Notify(
       chrome::NOTIFICATION_PANEL_CLOSED,
       content::Source<Panel>(panel),
       content::NotificationService::NoDetails());
 }

 StackedPanelCollection* PanelManager::CreateStack() {
   StackedPanelCollection* stack = new StackedPanelCollection(this);
   stacks_.push_back(stack);
   return stack;
 }

 void PanelManager::RemoveStack(StackedPanelCollection* stack) {
   DCHECK_EQ(0, stack->num_panels());
   stacks_.remove(stack);
   stack->CloseAll();
   delete stack;
 }

 void PanelManager::StartDragging(Panel* panel,
                                  const gfx::Point& mouse_location) {
   drag_controller_->StartDragging(panel, mouse_location);
 }

 void PanelManager::Drag(const gfx::Point& mouse_location) {
   drag_controller_->Drag(mouse_location);
 }

 void PanelManager::EndDragging(bool cancelled) {
   drag_controller_->EndDragging(cancelled);
 }

 void PanelManager::StartResizingByMouse(Panel* panel,
                                         const gfx::Point& mouse_location,
                                         int component) {
   if (panel->CanResizeByMouse() != panel::NOT_RESIZABLE &&
       component != HTNOWHERE) {
     resize_controller_->StartResizing(panel, mouse_location, component);
   }
 }

 void PanelManager::ResizeByMouse(const gfx::Point& mouse_location) {
   if (resize_controller_->IsResizing())
     resize_controller_->Resize(mouse_location);
 }

 void PanelManager::EndResizingByMouse(bool cancelled) {
   if (resize_controller_->IsResizing()) {
     Panel* resized_panel = resize_controller_->EndResizing(cancelled);
     if (!cancelled && resized_panel->collection())
       resized_panel->collection()->RefreshLayout();
   }
 }

 void PanelManager::OnPanelExpansionStateChanged(Panel* panel) {
   panel->collection()->OnPanelExpansionStateChanged(panel);
 }

 void PanelManager::MovePanelToCollection(
     Panel* panel,
     PanelCollection* target_collection,
     PanelCollection::PositioningMask positioning_mask) {
   DCHECK(panel);
   PanelCollection* current_collection = panel->collection();
   DCHECK(current_collection);
   DCHECK_NE(current_collection, target_collection);
   current_collection->RemovePanel(panel,
                                   PanelCollection::PANEL_CHANGED_COLLECTION);

   target_collection->AddPanel(panel, positioning_mask);
   target_collection->UpdatePanelOnCollectionChange(panel);
   panel->SetAlwaysOnTop(target_collection->UsesAlwaysOnTopPanels());
 }

 bool PanelManager::ShouldBringUpTitlebars(int mouse_x, int mouse_y) const {
   return docked_collection_->ShouldBringUpTitlebars(mouse_x, mouse_y);
 }

 void PanelManager::BringUpOrDownTitlebars(bool bring_up) {
   docked_collection_->BringUpOrDownTitlebars(bring_up);
 }

 void PanelManager::CloseAll() {
   DCHECK(!drag_controller_->is_dragging());

   detached_collection_->CloseAll();
   docked_collection_->CloseAll();
 }

 int PanelManager::num_panels() const {
   int count = detached_collection_->num_panels() +
               docked_collection_->num_panels();
   for (Stacks::const_iterator iter = stacks_.begin();
        iter != stacks_.end(); iter++)
     count += (*iter)->num_panels();
   return count;
 }

 std::vector<Panel*> PanelManager::panels() const {
   std::vector<Panel*> panels;
   for (DetachedPanelCollection::Panels::const_iterator iter =
            detached_collection_->panels().begin();
        iter != detached_collection_->panels().end(); ++iter)
     panels.push_back(*iter);
   for (DockedPanelCollection::Panels::const_iterator iter =
            docked_collection_->panels().begin();
        iter != docked_collection_->panels().end(); ++iter)
     panels.push_back(*iter);
   for (Stacks::const_iterator stack_iter = stacks_.begin();
        stack_iter != stacks_.end(); stack_iter++) {
     for (StackedPanelCollection::Panels::const_iterator iter =
              (*stack_iter)->panels().begin();
          iter != (*stack_iter)->panels().end(); ++iter) {
       panels.push_back(*iter);
     }
   }
   return panels;
 }

 std::vector<Panel*> PanelManager::GetDetachedAndStackedPanels() const {
   std::vector<Panel*> panels;
   for (DetachedPanelCollection::Panels::const_iterator iter =
            detached_collection_->panels().begin();
        iter != detached_collection_->panels().end(); ++iter)
     panels.push_back(*iter);
   for (Stacks::const_iterator stack_iter = stacks_.begin();
        stack_iter != stacks_.end(); stack_iter++) {
     for (StackedPanelCollection::Panels::const_iterator iter =
              (*stack_iter)->panels().begin();
          iter != (*stack_iter)->panels().end(); ++iter) {
       panels.push_back(*iter);
     }
   }
   return panels;
 }

 void PanelManager::SetMouseWatcher(PanelMouseWatcher* watcher) {
   panel_mouse_watcher_.reset(watcher);
 }

 void PanelManager::OnPanelAnimationEnded(Panel* panel) {
   content::NotificationService::current()->Notify(
       chrome::NOTIFICATION_PANEL_BOUNDS_ANIMATIONS_FINISHED,
       content::Source<Panel>(panel),
       content::NotificationService::NoDetails());
 }
	// 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 "chrome/browser/ui/panels/panel_manager.h"

	#include "base/bind.h"
	#include "base/command_line.h"
	#include "base/logging.h"
	#include "base/memory/scoped_ptr.h"
	#include "base/message_loop/message_loop.h"
	#include "chrome/browser/chrome_notification_types.h"
	#include "chrome/browser/ui/panels/detached_panel_collection.h"
	#include "chrome/browser/ui/panels/docked_panel_collection.h"
	#include "chrome/browser/ui/panels/panel_drag_controller.h"
	#include "chrome/browser/ui/panels/panel_mouse_watcher.h"
	#include "chrome/browser/ui/panels/panel_resize_controller.h"
	#include "chrome/browser/ui/panels/stacked_panel_collection.h"
	#include "chrome/common/channel_info.h"
	#include "chrome/common/chrome_switches.h"
	#include "components/version_info/version_info.h"
	#include "content/public/browser/notification_service.h"
	#include "content/public/browser/notification_source.h"
	#include "extensions/common/constants.h"
	#include "ui/base/hit_test.h"

	#if defined(USE_X11) && !defined(OS_CHROMEOS)
	#include "base/environment.h"
	#include "base/nix/xdg_util.h"
	#include "ui/base/x/x11_util.h"
	#endif

	namespace {
	// Maxmium width of a panel is based on a factor of the working area.
	#if defined(OS_CHROMEOS)
	// ChromeOS device screens are relatively small and limiting the width
	// interferes with some apps (e.g. http://crbug.com/111121).
	const double kPanelMaxWidthFactor = 0.80;
	#else
	const double kPanelMaxWidthFactor = 0.35;
	#endif

	// Maxmium height of a panel is based on a factor of the working area.
	const double kPanelMaxHeightFactor = 0.5;

	// Width to height ratio is used to compute the default width or height
	// when only one value is provided.
	const double kPanelDefaultWidthToHeightRatio = 1.62; // golden ratio

	// The test code could call PanelManager::SetDisplaySettingsProviderForTesting
	// to set this for testing purpose.
	DisplaySettingsProvider* display_settings_provider_for_testing;

	// The following comparers are used by std::list<>::sort to determine which
	// stack or panel we want to seacrh first for adding new panel.
	bool ComparePanelsByPosition(Panel* panel1, Panel* panel2) {
	gfx::Rect bounds1 = panel1->GetBounds();
	gfx::Rect bounds2 = panel2->GetBounds();

	// When there're ties, the right-most stack will appear first.
	if (bounds1.x() > bounds2.x())
	return true;
	if (bounds1.x() < bounds2.x())
	return false;

	// In the event of another draw, the top-most stack will appear first.
	return bounds1.y() < bounds2.y();
	}

	bool ComparerNumberOfPanelsInStack(StackedPanelCollection* stack1,
	StackedPanelCollection* stack2) {
	// The stack with more panels will appear first.
	int num_panels_in_stack1 = stack1->num_panels();
	int num_panels_in_stack2 = stack2->num_panels();
	if (num_panels_in_stack1 > num_panels_in_stack2)
	return true;
	if (num_panels_in_stack1 < num_panels_in_stack2)
	return false;

	DCHECK(num_panels_in_stack1);

	return ComparePanelsByPosition(stack1->top_panel(), stack2->top_panel());
	}

	bool CompareDetachedPanels(Panel* panel1, Panel* panel2) {
	return ComparePanelsByPosition(panel1, panel2);
	}

	} // namespace

	// static
	bool PanelManager::shorten_time_intervals_ = false;

	// static
	PanelManager* PanelManager::GetInstance() {
	static base::LazyInstance<PanelManager> instance = LAZY_INSTANCE_INITIALIZER;
	return instance.Pointer();
	}

	// static
	void PanelManager::SetDisplaySettingsProviderForTesting(
	DisplaySettingsProvider* provider) {
	display_settings_provider_for_testing = provider;
	}

	// static
	bool PanelManager::ShouldUsePanels(const std::string& extension_id) {
	// If --disable-panels is on, never use panels.
	if (base::CommandLine::ForCurrentProcess()->HasSwitch(
	switches::kDisablePanels))
	return false;

	// If --enable-panels is on, always use panels.
	if (base::CommandLine::ForCurrentProcess()->HasSwitch(
	switches::kEnablePanels))
	return true;

	#if defined(USE_X11) && !defined(OS_CHROMEOS)
	// On Linux, panels are only supported on tested window managers.
	ui::WindowManagerName wm_type = ui::GuessWindowManager();
	if (wm_type != ui::WM_COMPIZ &&
	wm_type != ui::WM_ICE_WM &&
	wm_type != ui::WM_KWIN &&
	wm_type != ui::WM_METACITY &&
	wm_type != ui::WM_MUFFIN &&
	wm_type != ui::WM_MUTTER &&
	wm_type != ui::WM_XFWM4) {
	return false;
	}
	#endif // USE_X11 && !OS_CHROMEOS

	// Without --enable-panels, only support Hangouts.
	for (const char* id : extension_misc::kHangoutsExtensionIds) {
	if (extension_id == id)
	return true;
	}

	#if defined(OS_CHROMEOS)
	// Without --enable-panels, only support IME extensions on Chrome OS.
	for (const char* id : extension_misc::kIMEExtensionIds) {
	if (extension_id == id)
	return true;
	}
	#endif

	return false;
	}

	// static
	bool PanelManager::IsPanelStackingEnabled() {
	// Stacked panel mode is not supported in linux-aura.
	#if defined(OS_LINUX)
	return false;
	#else
	return true;
	#endif
	}

	// static
	bool PanelManager::CanUseSystemMinimize() {
	#if defined(USE_X11) && !defined(OS_CHROMEOS)
	static base::nix::DesktopEnvironment desktop_env =
	base::nix::DESKTOP_ENVIRONMENT_OTHER;
	if (desktop_env == base::nix::DESKTOP_ENVIRONMENT_OTHER) {
	scoped_ptr<base::Environment> env(base::Environment::Create());
	desktop_env = base::nix::GetDesktopEnvironment(env.get());
	}
	return desktop_env != base::nix::DESKTOP_ENVIRONMENT_UNITY;
	#else
	return true;
	#endif
	}

	PanelManager::PanelManager()
	: panel_mouse_watcher_(PanelMouseWatcher::Create()),
	auto_sizing_enabled_(true) {
	// DisplaySettingsProvider should be created before the creation of
	// collections since some collection might depend on it.
	if (display_settings_provider_for_testing)
	display_settings_provider_.reset(display_settings_provider_for_testing);
	else
	display_settings_provider_.reset(DisplaySettingsProvider::Create());
	display_settings_provider_->AddDisplayObserver(this);

	detached_collection_.reset(new DetachedPanelCollection(this));
	docked_collection_.reset(new DockedPanelCollection(this));
	drag_controller_.reset(new PanelDragController(this));
	resize_controller_.reset(new PanelResizeController(this));
	}

	PanelManager::~PanelManager() {
	display_settings_provider_->RemoveDisplayObserver(this);

	// Docked collection should be disposed explicitly before
	// DisplaySettingsProvider is gone since docked collection needs to remove
	// the observer from DisplaySettingsProvider.
	docked_collection_.reset();
	}

	gfx::Point PanelManager::GetDefaultDetachedPanelOrigin() {
	return detached_collection_->GetDefaultPanelOrigin();
	}

	void PanelManager::OnDisplayChanged() {
	docked_collection_->OnDisplayChanged();
	detached_collection_->OnDisplayChanged();
	for (Stacks::const_iterator iter = stacks_.begin();
	iter != stacks_.end(); iter++)
	(*iter)->OnDisplayChanged();
	}

	void PanelManager::OnFullScreenModeChanged(bool is_full_screen) {
	std::vector<Panel*> all_panels = panels();
	for (std::vector<Panel*>::const_iterator iter = all_panels.begin();
	iter != all_panels.end(); ++iter) {
	(*iter)->FullScreenModeChanged(is_full_screen);
	}
	}

	int PanelManager::GetMaxPanelWidth(const gfx::Rect& work_area) const {
	return static_cast<int>(work_area.width() * kPanelMaxWidthFactor);
	}

	int PanelManager::GetMaxPanelHeight(const gfx::Rect& work_area) const {
	return static_cast<int>(work_area.height() * kPanelMaxHeightFactor);
	}

	Panel* PanelManager::CreatePanel(const std::string& app_name,
	Profile* profile,
	const GURL& url,
	content::SiteInstance* source_site_instance,
	const gfx::Rect& requested_bounds,
	CreateMode mode) {
	// Need to sync the display area if no panel is present. This is because:
	// 1) Display area is not initialized until first panel is created.
	// 2) On windows, display settings notification is tied to a window. When
	// display settings are changed at the time that no panel exists, we do
	// not receive any notification.
	if (num_panels() == 0) {
	display_settings_provider_->OnDisplaySettingsChanged();
	display_settings_provider_->AddFullScreenObserver(this);
	}

	// Compute initial bounds for the panel.
	int width = requested_bounds.width();
	int height = requested_bounds.height();
	if (width == 0)
	width = height * kPanelDefaultWidthToHeightRatio;
	else if (height == 0)
	height = width / kPanelDefaultWidthToHeightRatio;

	gfx::Rect work_area =
	display_settings_provider_->GetWorkAreaMatching(requested_bounds);
	gfx::Size min_size(panel::kPanelMinWidth, panel::kPanelMinHeight);
	gfx::Size max_size(GetMaxPanelWidth(work_area), GetMaxPanelHeight(work_area));
	if (width < min_size.width())
	width = min_size.width();
	else if (width > max_size.width())
	width = max_size.width();

	if (height < min_size.height())
	height = min_size.height();
	else if (height > max_size.height())
	height = max_size.height();

	// Create the panel.
	Panel* panel = new Panel(profile, app_name, min_size, max_size);

	// Find the appropriate panel collection to hold the new panel.
	gfx::Rect adjusted_requested_bounds(
	requested_bounds.x(), requested_bounds.y(), width, height);
	PanelCollection::PositioningMask positioning_mask;
	PanelCollection* collection = GetCollectionForNewPanel(
	panel, adjusted_requested_bounds, mode, &positioning_mask);

	// Let the panel collection decide the initial bounds.
	gfx::Rect bounds = collection->GetInitialPanelBounds(
	adjusted_requested_bounds);
	bounds.AdjustToFit(work_area);

	panel->Initialize(url, source_site_instance, bounds,
	collection->UsesAlwaysOnTopPanels());

	// Auto resizable feature is enabled only if no initial size is requested.
	if (auto_sizing_enabled() && requested_bounds.width() == 0 &&
	requested_bounds.height() == 0) {
	panel->SetAutoResizable(true);
	}

	// Add the panel to the panel collection.
	collection->AddPanel(panel, positioning_mask);
	collection->UpdatePanelOnCollectionChange(panel);

	return panel;
	}

	PanelCollection* PanelManager::GetCollectionForNewPanel(
	Panel* new_panel,
	const gfx::Rect& bounds,
	CreateMode mode,
	PanelCollection::PositioningMask* positioning_mask) {
	if (mode == CREATE_AS_DOCKED) {
	// Delay layout refreshes in case multiple panels are created within
	// a short time of one another or the focus changes shortly after panel
	// is created to avoid excessive screen redraws.
	*positioning_mask = PanelCollection::DELAY_LAYOUT_REFRESH;
	return docked_collection_.get();
	}

	DCHECK_EQ(CREATE_AS_DETACHED, mode);
	*positioning_mask = PanelCollection::DEFAULT_POSITION;

	// If the stacking support is not enabled, new panel will still be created as
	// detached.
	if (!IsPanelStackingEnabled())
	return detached_collection_.get();

	// If there're stacks, try to find a stack that can fit new panel.
	if (!stacks_.empty()) {
	// Perform the search as:
	// 1) Search from the stack with more panels to the stack with least panels.
	// 2) Amongs the stacks with same number of panels, search from the right-
	// most stack to the left-most stack.
	// 3) Among the stack with same number of panels and same x position,
	// search from the top-most stack to the bottom-most stack.
	// 4) If there is not enough space to fit new panel even with all inactive
	// panels being collapsed, move to next stack.
	stacks_.sort(ComparerNumberOfPanelsInStack);
	for (Stacks::const_iterator iter = stacks_.begin();
	iter != stacks_.end(); iter++) {
	StackedPanelCollection* stack = *iter;

	// Do not add to other stack that is from differnt extension or profile.
	// Note that the check is based on bottom panel.
	Panel* panel = stack->bottom_panel();
	if (panel->profile() != new_panel->profile() \|\|
	panel->extension_id() != new_panel->extension_id())
	continue;

	// Do not add to the stack that is minimized by the system.
	if (stack->IsMinimized())
	continue;

	// Do not stack with the panel that is not shown in current virtual
	// desktop.
	if (!panel->IsShownOnActiveDesktop())
	continue;

	if (bounds.height() <= stack->GetMaximiumAvailableBottomSpace()) {
	*positioning_mask = static_cast<PanelCollection::PositioningMask>(
	*positioning_mask \| PanelCollection::COLLAPSE_TO_FIT);
	return stack;
	}
	}
	}

	// Then try to find a detached panel to which new panel can stack.
	if (detached_collection_->num_panels()) {
	// Perform the search as:
	// 1) Search from the right-most detached panel to the left-most detached
	// panel.
	// 2) Among the detached panels with same x position, search from the
	// top-most detached panel to the bottom-most deatched panel.
	// 3) If there is not enough space beneath the detached panel, even by
	// collapsing it if it is inactive, to fit new panel, move to next
	// detached panel.
	detached_collection_->SortPanels(CompareDetachedPanels);

	for (DetachedPanelCollection::Panels::const_iterator iter =
	detached_collection_->panels().begin();
	iter != detached_collection_->panels().end(); ++iter) {
	Panel* panel = *iter;

	// Do not stack with other panel that is from differnt extension or
	// profile.
	if (panel->profile() != new_panel->profile() \|\|
	panel->extension_id() != new_panel->extension_id())
	continue;

	// Do not stack with the panel that is minimized by the system.
	if (panel->IsMinimizedBySystem())
	continue;

	// Do not stack with the panel that is not shown in the active desktop.
	if (!panel->IsShownOnActiveDesktop())
	continue;

	gfx::Rect work_area =
	display_settings_provider_->GetWorkAreaMatching(panel->GetBounds());
	int max_available_space =
	work_area.bottom() - panel->GetBounds().y() -
	(panel->IsActive() ? panel->GetBounds().height()
	: panel::kTitlebarHeight);
	if (bounds.height() <= max_available_space) {
	StackedPanelCollection* new_stack = CreateStack();
	MovePanelToCollection(panel,
	new_stack,
	PanelCollection::DEFAULT_POSITION);
	*positioning_mask = static_cast<PanelCollection::PositioningMask>(
	*positioning_mask \| PanelCollection::COLLAPSE_TO_FIT);
	return new_stack;
	}
	}
	}

	return detached_collection_.get();
	}

	void PanelManager::OnPanelClosed(Panel* panel) {
	if (num_panels() == 1) {
	display_settings_provider_->RemoveFullScreenObserver(this);
	}

	drag_controller_->OnPanelClosed(panel);
	resize_controller_->OnPanelClosed(panel);

	// Note that we need to keep track of panel's collection since it will be
	// gone once RemovePanel is called.
	PanelCollection* collection = panel->collection();
	collection->RemovePanel(panel, PanelCollection::PANEL_CLOSED);

	// If only one panel is left in the stack, move it out of the stack.
	// Also make sure that this detached panel will be expanded if not yet.
	if (collection->type() == PanelCollection::STACKED) {
	StackedPanelCollection* stack =
	static_cast<StackedPanelCollection*>(collection);
	DCHECK_GE(stack->num_panels(), 1);
	if (stack->num_panels() == 1) {
	Panel* top_panel = stack->top_panel();
	MovePanelToCollection(top_panel,
	detached_collection(),
	PanelCollection::DEFAULT_POSITION);
	if (top_panel->expansion_state() != Panel::EXPANDED)
	top_panel->SetExpansionState(Panel::EXPANDED);
	RemoveStack(stack);
	}
	}

	content::NotificationService::current()->Notify(
	chrome::NOTIFICATION_PANEL_CLOSED,
	content::Source<Panel>(panel),
	content::NotificationService::NoDetails());
	}

	StackedPanelCollection* PanelManager::CreateStack() {
	StackedPanelCollection* stack = new StackedPanelCollection(this);
	stacks_.push_back(stack);
	return stack;
	}

	void PanelManager::RemoveStack(StackedPanelCollection* stack) {
	DCHECK_EQ(0, stack->num_panels());
	stacks_.remove(stack);
	stack->CloseAll();
	delete stack;
	}

	void PanelManager::StartDragging(Panel* panel,
	const gfx::Point& mouse_location) {
	drag_controller_->StartDragging(panel, mouse_location);
	}

	void PanelManager::Drag(const gfx::Point& mouse_location) {
	drag_controller_->Drag(mouse_location);
	}

	void PanelManager::EndDragging(bool cancelled) {
	drag_controller_->EndDragging(cancelled);
	}

	void PanelManager::StartResizingByMouse(Panel* panel,
	const gfx::Point& mouse_location,
	int component) {
	if (panel->CanResizeByMouse() != panel::NOT_RESIZABLE &&
	component != HTNOWHERE) {
	resize_controller_->StartResizing(panel, mouse_location, component);
	}
	}

	void PanelManager::ResizeByMouse(const gfx::Point& mouse_location) {
	if (resize_controller_->IsResizing())
	resize_controller_->Resize(mouse_location);
	}

	void PanelManager::EndResizingByMouse(bool cancelled) {
	if (resize_controller_->IsResizing()) {
	Panel* resized_panel = resize_controller_->EndResizing(cancelled);
	if (!cancelled && resized_panel->collection())
	resized_panel->collection()->RefreshLayout();
	}
	}

	void PanelManager::OnPanelExpansionStateChanged(Panel* panel) {
	panel->collection()->OnPanelExpansionStateChanged(panel);
	}

	void PanelManager::MovePanelToCollection(
	Panel* panel,
	PanelCollection* target_collection,
	PanelCollection::PositioningMask positioning_mask) {
	DCHECK(panel);
	PanelCollection* current_collection = panel->collection();
	DCHECK(current_collection);
	DCHECK_NE(current_collection, target_collection);
	current_collection->RemovePanel(panel,
	PanelCollection::PANEL_CHANGED_COLLECTION);

	target_collection->AddPanel(panel, positioning_mask);
	target_collection->UpdatePanelOnCollectionChange(panel);
	panel->SetAlwaysOnTop(target_collection->UsesAlwaysOnTopPanels());
	}

	bool PanelManager::ShouldBringUpTitlebars(int mouse_x, int mouse_y) const {
	return docked_collection_->ShouldBringUpTitlebars(mouse_x, mouse_y);
	}

	void PanelManager::BringUpOrDownTitlebars(bool bring_up) {
	docked_collection_->BringUpOrDownTitlebars(bring_up);
	}

	void PanelManager::CloseAll() {
	DCHECK(!drag_controller_->is_dragging());

	detached_collection_->CloseAll();
	docked_collection_->CloseAll();
	}

	int PanelManager::num_panels() const {
	int count = detached_collection_->num_panels() +
	docked_collection_->num_panels();
	for (Stacks::const_iterator iter = stacks_.begin();
	iter != stacks_.end(); iter++)
	count += (*iter)->num_panels();
	return count;
	}

	std::vector<Panel*> PanelManager::panels() const {
	std::vector<Panel*> panels;
	for (DetachedPanelCollection::Panels::const_iterator iter =
	detached_collection_->panels().begin();
	iter != detached_collection_->panels().end(); ++iter)
	panels.push_back(*iter);
	for (DockedPanelCollection::Panels::const_iterator iter =
	docked_collection_->panels().begin();
	iter != docked_collection_->panels().end(); ++iter)
	panels.push_back(*iter);
	for (Stacks::const_iterator stack_iter = stacks_.begin();
	stack_iter != stacks_.end(); stack_iter++) {
	for (StackedPanelCollection::Panels::const_iterator iter =
	(*stack_iter)->panels().begin();
	iter != (*stack_iter)->panels().end(); ++iter) {
	panels.push_back(*iter);
	}
	}
	return panels;
	}

	std::vector<Panel*> PanelManager::GetDetachedAndStackedPanels() const {
	std::vector<Panel*> panels;
	for (DetachedPanelCollection::Panels::const_iterator iter =
	detached_collection_->panels().begin();
	iter != detached_collection_->panels().end(); ++iter)
	panels.push_back(*iter);
	for (Stacks::const_iterator stack_iter = stacks_.begin();
	stack_iter != stacks_.end(); stack_iter++) {
	for (StackedPanelCollection::Panels::const_iterator iter =
	(*stack_iter)->panels().begin();
	iter != (*stack_iter)->panels().end(); ++iter) {
	panels.push_back(*iter);
	}
	}
	return panels;
	}

	void PanelManager::SetMouseWatcher(PanelMouseWatcher* watcher) {
	panel_mouse_watcher_.reset(watcher);
	}

	void PanelManager::OnPanelAnimationEnded(Panel* panel) {
	content::NotificationService::current()->Notify(
	chrome::NOTIFICATION_PANEL_BOUNDS_ANIMATIONS_FINISHED,
	content::Source<Panel>(panel),
	content::NotificationService::NoDetails());
	}