ash/display/screen_position_controller.cc - platform/external/chromium_org - Git at Google

 // Copyright (c) 2012 The Chromium Authors. All rights reserved.
 // Use of this source code is governed by a BSD-style license that can be
 // found in the LICENSE file.

 #include "ash/display/screen_position_controller.h"

 #include "ash/display/display_controller.h"
 #include "ash/root_window_controller.h"
 #include "ash/shell.h"
 #include "ash/shell_window_ids.h"
 #include "ash/wm/coordinate_conversion.h"
 #include "ash/wm/system_modal_container_layout_manager.h"
 #include "ash/wm/window_properties.h"
 #include "ui/aura/client/activation_client.h"
 #include "ui/aura/client/capture_client.h"
 #include "ui/aura/client/focus_client.h"
 #include "ui/aura/client/stacking_client.h"
 #include "ui/aura/root_window.h"
 #include "ui/aura/window_tracker.h"
 #include "ui/compositor/dip_util.h"
 #include "ui/gfx/display.h"
 #include "ui/gfx/screen.h"

 namespace ash {
 namespace {

 // Return true if the window or its ancestor has |kStayInSameRootWindowkey|
 // property.
 bool ShouldStayInSameRootWindow(const aura::Window* window) {
   return window &&
       (window->GetProperty(internal::kStayInSameRootWindowKey) ||
        ShouldStayInSameRootWindow(window->parent()));
 }

 // Move all transient children to |dst_root|, including the ones in
 // the child windows and transient children of the transient children.
 void MoveAllTransientChildrenToNewRoot(const gfx::Display& display,
                                        aura::Window* window) {
   aura::RootWindow* dst_root = Shell::GetInstance()->display_controller()->
       GetRootWindowForDisplayId(display.id());
   aura::Window::Windows transient_children = window->transient_children();
   for (aura::Window::Windows::iterator iter = transient_children.begin();
        iter != transient_children.end(); ++iter) {
     aura::Window* transient_child = *iter;
     int container_id = transient_child->parent()->id();
     DCHECK_GE(container_id, 0);
     aura::Window* container = Shell::GetContainer(dst_root, container_id);
     gfx::Rect parent_bounds_in_screen = transient_child->GetBoundsInScreen();
     container->AddChild(transient_child);
     transient_child->SetBoundsInScreen(parent_bounds_in_screen, display);

     // Transient children may have transient children.
     MoveAllTransientChildrenToNewRoot(display, transient_child);
   }
   // Move transient children of the child windows if any.
   aura::Window::Windows children = window->children();
   for (aura::Window::Windows::iterator iter = children.begin();
        iter != children.end(); ++iter)
     MoveAllTransientChildrenToNewRoot(display, *iter);
 }

 // Finds the root window at |location| in |window|'s coordinates and returns a
 // pair of root window and location in that root window's coordinates. The
 // function usually returns |window->GetRootWindow()|, but if the mouse pointer
 // is moved outside the |window|'s root while the mouse is captured, it returns
 // the other root window.
 std::pair<aura::RootWindow*, gfx::Point> GetRootWindowRelativeToWindow(
     aura::Window* window,
     const gfx::Point& location) {
   aura::RootWindow* root_window = window->GetRootWindow();
   gfx::Point location_in_root(location);
   aura::Window::ConvertPointToTarget(window, root_window, &location_in_root);

 #if defined(USE_X11)
   if (!root_window->ContainsPointInRoot(location_in_root)) {
     // This conversion is necessary to deal with X's passive input
     // grab while dragging window. For example, if we have two
     // displays, say 1000x1000 (primary) and 500x500 (extended one
     // on the right), and start dragging a window at (999, 123), and
     // then move the pointer to the right, the pointer suddenly
     // warps to the extended display. The destination is (0, 123) in
     // the secondary root window's coordinates, or (1000, 123) in
     // the screen coordinates. However, since the mouse is captured
     // by X during drag, a weird LocatedEvent, something like (0, 1123)
     // in the *primary* root window's coordinates, is sent to Chrome
     // (Remember that in the native X11 world, the two root windows
     // are always stacked vertically regardless of the display
     // layout in Ash). We need to figure out that (0, 1123) in the
     // primary root window's coordinates is actually (0, 123) in the
     // extended root window's coordinates.

     gfx::Point location_in_native(location_in_root);
     root_window->ConvertPointToNativeScreen(&location_in_native);

     Shell::RootWindowList root_windows = Shell::GetAllRootWindows();
     for (size_t i = 0; i < root_windows.size(); ++i) {
       const gfx::Rect native_bounds(
           root_windows[i]->GetHostOrigin(),
           root_windows[i]->GetHostSize());  // in px.
       if (native_bounds.Contains(location_in_native)) {
         root_window = root_windows[i];
         location_in_root = location_in_native;
         root_window->ConvertPointFromNativeScreen(&location_in_root);
         break;
       }
     }
   }
 #else
   // TODO(yusukes): Support non-X11 platforms if necessary.
 #endif

   return std::make_pair(root_window, location_in_root);
 }

 }  // namespace

 namespace internal {

 void ScreenPositionController::ConvertPointToScreen(
     const aura::Window* window,
     gfx::Point* point) {
   const aura::RootWindow* root = window->GetRootWindow();
   aura::Window::ConvertPointToTarget(window, root, point);
   const gfx::Point display_origin = Shell::GetScreen()->GetDisplayNearestWindow(
       const_cast<aura::RootWindow*>(root)).bounds().origin();
   point->Offset(display_origin.x(), display_origin.y());
 }

 void ScreenPositionController::ConvertPointFromScreen(
     const aura::Window* window,
     gfx::Point* point) {
   const aura::RootWindow* root = window->GetRootWindow();
   const gfx::Point display_origin = Shell::GetScreen()->GetDisplayNearestWindow(
       const_cast<aura::RootWindow*>(root)).bounds().origin();
   point->Offset(-display_origin.x(), -display_origin.y());
   aura::Window::ConvertPointToTarget(root, window, point);
 }

 void ScreenPositionController::ConvertHostPointToScreen(
     aura::RootWindow* root_window,
     gfx::Point* point) {
   root_window->ConvertPointFromHost(point);
   std::pair<aura::RootWindow*, gfx::Point> pair =
       GetRootWindowRelativeToWindow(root_window, *point);
   *point = pair.second;
   ConvertPointToScreen(pair.first, point);
 }

 void ScreenPositionController::SetBounds(aura::Window* window,
                                          const gfx::Rect& bounds,
                                          const gfx::Display& display) {
   DCHECK_NE(-1, display.id());
   if (!window->parent()->GetProperty(internal::kUsesScreenCoordinatesKey)) {
     window->SetBounds(bounds);
     return;
   }

   // Don't move a window to other root window if:
   // a) the window is a transient window. It moves when its
   //    transient_parent moves.
   // b) if the window or its ancestor has kStayInSameRootWindowkey. It's
   //    intentionally kept in the same root window even if the bounds is
   //    outside of the display.
   if (!window->transient_parent() &&
       !ShouldStayInSameRootWindow(window)) {
     aura::RootWindow* dst_root =
         Shell::GetInstance()->display_controller()->GetRootWindowForDisplayId(
             display.id());
     DCHECK(dst_root);
     aura::Window* dst_container = NULL;
     if (dst_root != window->GetRootWindow()) {
       int container_id = window->parent()->id();
       // All containers that uses screen coordinates must have valid window ids.
       DCHECK_GE(container_id, 0);
       // Don't move modal background.
       if (!SystemModalContainerLayoutManager::IsModalBackground(window))
         dst_container = Shell::GetContainer(dst_root, container_id);
     }

     if (dst_container && window->parent() != dst_container) {
       aura::Window* focused = aura::client::GetFocusClient(window)->
           GetFocusedWindow();
       aura::client::ActivationClient* activation_client =
           aura::client::GetActivationClient(window->GetRootWindow());
       aura::Window* active = activation_client->GetActiveWindow();

       aura::WindowTracker tracker;
       if (focused)
         tracker.Add(focused);
       if (active && focused != active)
         tracker.Add(active);

       dst_container->AddChild(window);

       MoveAllTransientChildrenToNewRoot(display, window);

       // Restore focused/active window.
       if (tracker.Contains(focused)) {
         aura::client::GetFocusClient(window)->FocusWindow(focused);
         ash::Shell::GetInstance()->set_target_root_window(
             focused->GetRootWindow());
       } else if (tracker.Contains(active)) {
         activation_client->ActivateWindow(active);
       }
     }
   }

   gfx::Point origin(bounds.origin());
   const gfx::Point display_origin = Shell::GetScreen()->GetDisplayNearestWindow(
       window).bounds().origin();
   origin.Offset(-display_origin.x(), -display_origin.y());
   window->SetBounds(gfx::Rect(origin, bounds.size()));
 }

 }  // internal
 }  // ash
	// Copyright (c) 2012 The Chromium Authors. All rights reserved.
	// Use of this source code is governed by a BSD-style license that can be
	// found in the LICENSE file.

	#include "ash/display/screen_position_controller.h"

	#include "ash/display/display_controller.h"
	#include "ash/root_window_controller.h"
	#include "ash/shell.h"
	#include "ash/shell_window_ids.h"
	#include "ash/wm/coordinate_conversion.h"
	#include "ash/wm/system_modal_container_layout_manager.h"
	#include "ash/wm/window_properties.h"
	#include "ui/aura/client/activation_client.h"
	#include "ui/aura/client/capture_client.h"
	#include "ui/aura/client/focus_client.h"
	#include "ui/aura/client/stacking_client.h"
	#include "ui/aura/root_window.h"
	#include "ui/aura/window_tracker.h"
	#include "ui/compositor/dip_util.h"
	#include "ui/gfx/display.h"
	#include "ui/gfx/screen.h"

	namespace ash {
	namespace {

	// Return true if the window or its ancestor has \|kStayInSameRootWindowkey\|
	// property.
	bool ShouldStayInSameRootWindow(const aura::Window* window) {
	return window &&
	(window->GetProperty(internal::kStayInSameRootWindowKey) \|\|
	ShouldStayInSameRootWindow(window->parent()));
	}

	// Move all transient children to \|dst_root\|, including the ones in
	// the child windows and transient children of the transient children.
	void MoveAllTransientChildrenToNewRoot(const gfx::Display& display,
	aura::Window* window) {
	aura::RootWindow* dst_root = Shell::GetInstance()->display_controller()->
	GetRootWindowForDisplayId(display.id());
	aura::Window::Windows transient_children = window->transient_children();
	for (aura::Window::Windows::iterator iter = transient_children.begin();
	iter != transient_children.end(); ++iter) {
	aura::Window* transient_child = *iter;
	int container_id = transient_child->parent()->id();
	DCHECK_GE(container_id, 0);
	aura::Window* container = Shell::GetContainer(dst_root, container_id);
	gfx::Rect parent_bounds_in_screen = transient_child->GetBoundsInScreen();
	container->AddChild(transient_child);
	transient_child->SetBoundsInScreen(parent_bounds_in_screen, display);

	// Transient children may have transient children.
	MoveAllTransientChildrenToNewRoot(display, transient_child);
	}
	// Move transient children of the child windows if any.
	aura::Window::Windows children = window->children();
	for (aura::Window::Windows::iterator iter = children.begin();
	iter != children.end(); ++iter)
	MoveAllTransientChildrenToNewRoot(display, *iter);
	}

	// Finds the root window at \|location\| in \|window\|'s coordinates and returns a
	// pair of root window and location in that root window's coordinates. The
	// function usually returns \|window->GetRootWindow()\|, but if the mouse pointer
	// is moved outside the \|window\|'s root while the mouse is captured, it returns
	// the other root window.
	std::pair<aura::RootWindow*, gfx::Point> GetRootWindowRelativeToWindow(
	aura::Window* window,
	const gfx::Point& location) {
	aura::RootWindow* root_window = window->GetRootWindow();
	gfx::Point location_in_root(location);
	aura::Window::ConvertPointToTarget(window, root_window, &location_in_root);

	#if defined(USE_X11)
	if (!root_window->ContainsPointInRoot(location_in_root)) {
	// This conversion is necessary to deal with X's passive input
	// grab while dragging window. For example, if we have two
	// displays, say 1000x1000 (primary) and 500x500 (extended one
	// on the right), and start dragging a window at (999, 123), and
	// then move the pointer to the right, the pointer suddenly
	// warps to the extended display. The destination is (0, 123) in
	// the secondary root window's coordinates, or (1000, 123) in
	// the screen coordinates. However, since the mouse is captured
	// by X during drag, a weird LocatedEvent, something like (0, 1123)
	// in the primary root window's coordinates, is sent to Chrome
	// (Remember that in the native X11 world, the two root windows
	// are always stacked vertically regardless of the display
	// layout in Ash). We need to figure out that (0, 1123) in the
	// primary root window's coordinates is actually (0, 123) in the
	// extended root window's coordinates.

	gfx::Point location_in_native(location_in_root);
	root_window->ConvertPointToNativeScreen(&location_in_native);

	Shell::RootWindowList root_windows = Shell::GetAllRootWindows();
	for (size_t i = 0; i < root_windows.size(); ++i) {
	const gfx::Rect native_bounds(
	root_windows[i]->GetHostOrigin(),
	root_windows[i]->GetHostSize()); // in px.
	if (native_bounds.Contains(location_in_native)) {
	root_window = root_windows[i];
	location_in_root = location_in_native;
	root_window->ConvertPointFromNativeScreen(&location_in_root);
	break;
	}
	}
	}
	#else
	// TODO(yusukes): Support non-X11 platforms if necessary.
	#endif

	return std::make_pair(root_window, location_in_root);
	}

	} // namespace

	namespace internal {

	void ScreenPositionController::ConvertPointToScreen(
	const aura::Window* window,
	gfx::Point* point) {
	const aura::RootWindow* root = window->GetRootWindow();
	aura::Window::ConvertPointToTarget(window, root, point);
	const gfx::Point display_origin = Shell::GetScreen()->GetDisplayNearestWindow(
	const_cast<aura::RootWindow*>(root)).bounds().origin();
	point->Offset(display_origin.x(), display_origin.y());
	}

	void ScreenPositionController::ConvertPointFromScreen(
	const aura::Window* window,
	gfx::Point* point) {
	const aura::RootWindow* root = window->GetRootWindow();
	const gfx::Point display_origin = Shell::GetScreen()->GetDisplayNearestWindow(
	const_cast<aura::RootWindow*>(root)).bounds().origin();
	point->Offset(-display_origin.x(), -display_origin.y());
	aura::Window::ConvertPointToTarget(root, window, point);
	}

	void ScreenPositionController::ConvertHostPointToScreen(
	aura::RootWindow* root_window,
	gfx::Point* point) {
	root_window->ConvertPointFromHost(point);
	std::pair<aura::RootWindow*, gfx::Point> pair =
	GetRootWindowRelativeToWindow(root_window, *point);
	*point = pair.second;
	ConvertPointToScreen(pair.first, point);
	}

	void ScreenPositionController::SetBounds(aura::Window* window,
	const gfx::Rect& bounds,
	const gfx::Display& display) {
	DCHECK_NE(-1, display.id());
	if (!window->parent()->GetProperty(internal::kUsesScreenCoordinatesKey)) {
	window->SetBounds(bounds);
	return;
	}

	// Don't move a window to other root window if:
	// a) the window is a transient window. It moves when its
	// transient_parent moves.
	// b) if the window or its ancestor has kStayInSameRootWindowkey. It's
	// intentionally kept in the same root window even if the bounds is
	// outside of the display.
	if (!window->transient_parent() &&
	!ShouldStayInSameRootWindow(window)) {
	aura::RootWindow* dst_root =
	Shell::GetInstance()->display_controller()->GetRootWindowForDisplayId(
	display.id());
	DCHECK(dst_root);
	aura::Window* dst_container = NULL;
	if (dst_root != window->GetRootWindow()) {
	int container_id = window->parent()->id();
	// All containers that uses screen coordinates must have valid window ids.
	DCHECK_GE(container_id, 0);
	// Don't move modal background.
	if (!SystemModalContainerLayoutManager::IsModalBackground(window))
	dst_container = Shell::GetContainer(dst_root, container_id);
	}

	if (dst_container && window->parent() != dst_container) {
	aura::Window* focused = aura::client::GetFocusClient(window)->
	GetFocusedWindow();
	aura::client::ActivationClient* activation_client =
	aura::client::GetActivationClient(window->GetRootWindow());
	aura::Window* active = activation_client->GetActiveWindow();

	aura::WindowTracker tracker;
	if (focused)
	tracker.Add(focused);
	if (active && focused != active)
	tracker.Add(active);

	dst_container->AddChild(window);

	MoveAllTransientChildrenToNewRoot(display, window);

	// Restore focused/active window.
	if (tracker.Contains(focused)) {
	aura::client::GetFocusClient(window)->FocusWindow(focused);
	ash::Shell::GetInstance()->set_target_root_window(
	focused->GetRootWindow());
	} else if (tracker.Contains(active)) {
	activation_client->ActivateWindow(active);
	}
	}
	}

	gfx::Point origin(bounds.origin());
	const gfx::Point display_origin = Shell::GetScreen()->GetDisplayNearestWindow(
	window).bounds().origin();
	origin.Offset(-display_origin.x(), -display_origin.y());
	window->SetBounds(gfx::Rect(origin, bounds.size()));
	}

	} // internal
	} // ash