ash/wm/window_positioner.cc - chromium/src - Git at Google

 // Copyright 2013 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/wm/window_positioner.h"

 #include "ash/screen_util.h"
 #include "ash/shell.h"
 #include "ash/shell_delegate.h"
 #include "ash/wm/mru_window_tracker.h"
 #include "ash/wm/window_positioning_utils.h"
 #include "ash/wm/window_state.h"
 #include "ash/wm/window_util.h"
 #include "ui/compositor/layer.h"
 #include "ui/compositor/scoped_layer_animation_settings.h"
 #include "ui/display/display.h"
 #include "ui/display/screen.h"
 #include "ui/gfx/geometry/insets.h"
 #include "ui/wm/core/window_animations.h"
 #include "ui/wm/core/window_util.h"

 namespace ash {
 namespace {

 // The time in milliseconds which should be used to visually move a window
 // through an automatic "intelligent" window management option.
 const int kWindowAutoMoveDurationMS = 125;

 // If set to true all window repositioning actions will be ignored. Set through
 // WindowPositioner::SetIgnoreActivations().
 static bool disable_auto_positioning = false;

 // Check if any management should be performed (with a given |window|).
 bool UseAutoWindowManager(const aura::Window* window) {
   if (disable_auto_positioning)
     return false;
   const wm::WindowState* window_state = wm::GetWindowState(window);
   return !window_state->is_dragged() &&
          window_state->GetWindowPositionManaged();
 }

 // Check if a given |window| can be managed. This includes that its
 // state is not minimized/maximized/fullscreen/the user has changed
 // its size by hand already. It furthermore checks for the
 // WindowIsManaged status.
 bool WindowPositionCanBeManaged(const aura::Window* window) {
   if (disable_auto_positioning)
     return false;
   const wm::WindowState* window_state = wm::GetWindowState(window);
   return window_state->GetWindowPositionManaged() &&
          !window_state->IsMinimized() && !window_state->IsMaximized() &&
          !window_state->IsFullscreen() && !window_state->IsPinned() &&
          !window_state->bounds_changed_by_user();
 }

 // Move the given |bounds| on the available |work_area| in the direction
 // indicated by |move_right|. If |move_right| is true, the rectangle gets moved
 // to the right edge, otherwise to the left one.
 bool MoveRectToOneSide(const gfx::Rect& work_area,
                        bool move_right,
                        gfx::Rect* bounds) {
   if (move_right) {
     if (work_area.right() > bounds->right()) {
       bounds->set_x(work_area.right() - bounds->width());
       return true;
     }
   } else {
     if (work_area.x() < bounds->x()) {
       bounds->set_x(work_area.x());
       return true;
     }
   }
   return false;
 }

 // Move a |window| to new |bounds|. Animate if desired by user.
 // Moves the transient children of the |window| as well by the same |offset| as
 // the parent |window|.
 void SetBoundsAndOffsetTransientChildren(aura::Window* window,
                                          const gfx::Rect& bounds,
                                          const gfx::Rect& work_area,
                                          const gfx::Vector2d& offset) {
   aura::Window::Windows transient_children = ::wm::GetTransientChildren(window);
   for (auto* transient_child : transient_children) {
     gfx::Rect child_bounds = transient_child->bounds();
     gfx::Rect new_child_bounds = child_bounds + offset;
     if ((child_bounds.x() <= work_area.x() &&
          new_child_bounds.x() <= work_area.x()) ||
         (child_bounds.right() >= work_area.right() &&
          new_child_bounds.right() >= work_area.right())) {
       continue;
     }
     if (new_child_bounds.right() > work_area.right())
       new_child_bounds.set_x(work_area.right() - bounds.width());
     else if (new_child_bounds.x() < work_area.x())
       new_child_bounds.set_x(work_area.x());
     SetBoundsAndOffsetTransientChildren(transient_child, new_child_bounds,
                                         work_area, offset);
   }

   if (::wm::WindowAnimationsDisabled(window)) {
     window->SetBounds(bounds);
     return;
   }

   ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
   settings.SetTransitionDuration(
       base::TimeDelta::FromMilliseconds(kWindowAutoMoveDurationMS));
   window->SetBounds(bounds);
 }

 // Move a |window| to new |bounds|. Animate if desired by user.
 // Note: The function will do nothing if the bounds did not change.
 void SetBoundsAnimated(aura::Window* window,
                        const gfx::Rect& bounds,
                        const gfx::Rect& work_area) {
   gfx::Rect old_bounds = window->GetTargetBounds();
   if (bounds == old_bounds)
     return;
   gfx::Vector2d offset(bounds.origin() - old_bounds.origin());
   SetBoundsAndOffsetTransientChildren(window, bounds, work_area, offset);
 }

 // Move |window| into the center of the screen - or restore it to the previous
 // position.
 void AutoPlaceSingleWindow(aura::Window* window, bool animated) {
   gfx::Rect work_area = screen_util::GetDisplayWorkAreaBoundsInParent(window);
   gfx::Rect bounds = window->bounds();
   const base::Optional<gfx::Rect> user_defined_area =
       wm::GetWindowState(window)->pre_auto_manage_window_bounds();
   if (user_defined_area) {
     bounds = *user_defined_area;
     wm::AdjustBoundsToEnsureMinimumWindowVisibility(work_area, &bounds);
   } else {
     // Center the window (only in x).
     bounds.set_x(work_area.x() + (work_area.width() - bounds.width()) / 2);
   }

   if (animated)
     SetBoundsAnimated(window, bounds, work_area);
   else
     window->SetBounds(bounds);
 }

 // Get the first open (non minimized) window which is on the screen defined.
 aura::Window* GetReferenceWindow(const aura::Window* root_window,
                                  const aura::Window* exclude,
                                  bool* single_window) {
   if (single_window)
     *single_window = true;
   // Get the active window.
   aura::Window* active = wm::GetActiveWindow();
   if (active && active->GetRootWindow() != root_window)
     active = NULL;

   // Get a list of all windows.
   const aura::Window::Windows windows =
       Shell::Get()->mru_window_tracker()->BuildWindowListIgnoreModal();

   if (windows.empty())
     return nullptr;

   int index = 0;
   // Find the index of the current active window.
   if (active)
     index = std::find(windows.begin(), windows.end(), active) - windows.begin();

   // Scan the cycle list backwards to see which is the second topmost window
   // (and so on). Note that we might cycle a few indices twice if there is no
   // suitable window. However - since the list is fairly small this should be
   // very fast anyways.
   aura::Window* found = nullptr;
   for (int i = index + windows.size(); i >= 0; i--) {
     aura::Window* window = windows[i % windows.size()];
     while (::wm::GetTransientParent(window))
       window = ::wm::GetTransientParent(window);
     if (window != exclude &&
         window->type() == aura::client::WINDOW_TYPE_NORMAL &&
         window->GetRootWindow() == root_window && window->TargetVisibility() &&
         wm::GetWindowState(window)->GetWindowPositionManaged()) {
       if (found && found != window) {
         // no need to check !single_window because the function must have
         // been already returned in the "if (!single_window)" below.
         *single_window = false;
         return found;
       }
       found = window;
       // If there is no need to check single window, return now.
       if (!single_window)
         return found;
     }
   }
   return found;
 }

 }  // namespace

 // static
 void WindowPositioner::GetBoundsAndShowStateForNewWindow(
     bool is_saved_bounds,
     ui::WindowShowState show_state_in,
     gfx::Rect* bounds_in_out,
     ui::WindowShowState* show_state_out) {
   aura::Window* root_window = Shell::GetRootWindowForNewWindows();
   aura::Window* top_window = GetReferenceWindow(root_window, nullptr, nullptr);

   // If there is no valid window we take and adjust the passed coordinates.
   if (!top_window) {
     gfx::Rect work_area = display::Screen::GetScreen()
                               ->GetDisplayNearestWindow(root_window)
                               .work_area();
     bounds_in_out->AdjustToFit(work_area);
     return;
   }

   wm::WindowState* top_window_state = wm::GetWindowState(top_window);
   bool maximized = top_window_state->IsMaximized();
   // We ignore the saved show state, but look instead for the top level
   // window's show state.
   if (show_state_in == ui::SHOW_STATE_DEFAULT) {
     *show_state_out =
         maximized ? ui::SHOW_STATE_MAXIMIZED : ui::SHOW_STATE_DEFAULT;
   }

   if (maximized || top_window_state->IsFullscreen()) {
     bool has_restore_bounds = top_window_state->HasRestoreBounds();
     if (has_restore_bounds) {
       // For a maximized/fullscreen window ignore the real bounds of
       // the top level window and use its restore bounds
       // instead. Offset the bounds to prevent the windows from
       // overlapping exactly when restored.
       *bounds_in_out = top_window_state->GetRestoreBoundsInScreen() +
                        gfx::Vector2d(kWindowOffset, kWindowOffset);
     }
     if (is_saved_bounds || has_restore_bounds) {
       gfx::Rect work_area = display::Screen::GetScreen()
                                 ->GetDisplayNearestWindow(root_window)
                                 .work_area();
       bounds_in_out->AdjustToFit(work_area);
       // Use adjusted saved bounds or restore bounds, if there is one.
       return;
     }
   }

   // Use the size of the other window. The window's bound will be rearranged
   // in ash::WorkspaceLayoutManager using this location.
   *bounds_in_out = top_window->GetBoundsInScreen();
 }

 // static
 void WindowPositioner::RearrangeVisibleWindowOnHideOrRemove(
     const aura::Window* removed_window) {
   if (!UseAutoWindowManager(removed_window))
     return;
   // Find a single open browser window.
   bool single_window;
   aura::Window* other_shown_window = GetReferenceWindow(
       removed_window->GetRootWindow(), removed_window, &single_window);
   if (!other_shown_window || !single_window ||
       !WindowPositionCanBeManaged(other_shown_window))
     return;
   AutoPlaceSingleWindow(other_shown_window, true);
 }

 // static
 bool WindowPositioner::DisableAutoPositioning(bool ignore) {
   bool old_state = disable_auto_positioning;
   disable_auto_positioning = ignore;
   return old_state;
 }

 // static
 void WindowPositioner::RearrangeVisibleWindowOnShow(
     aura::Window* added_window) {
   wm::WindowState* added_window_state = wm::GetWindowState(added_window);
   if (!added_window->TargetVisibility() ||
       !UseAutoWindowManager(added_window) ||
       added_window_state->bounds_changed_by_user()) {
     return;
   }

   // Find a single open managed window.
   bool single_window;
   aura::Window* other_shown_window = GetReferenceWindow(
       added_window->GetRootWindow(), added_window, &single_window);

   if (!other_shown_window) {
     // It could be that this window is the first window joining the workspace.
     if (!WindowPositionCanBeManaged(added_window) || other_shown_window)
       return;
     // Since we might be going from 0 to 1 window, we have to arrange the new
     // window to a good default.
     AutoPlaceSingleWindow(added_window, false);
     return;
   }

   gfx::Rect other_bounds = other_shown_window->bounds();
   gfx::Rect work_area =
       screen_util::GetDisplayWorkAreaBoundsInParent(added_window);
   bool move_other_right =
       other_bounds.CenterPoint().x() > work_area.x() + work_area.width() / 2;

   // Push the other window to the size only if there are two windows left.
   if (single_window) {
     // When going from one to two windows both windows loose their
     // "positioned by user" flags.
     added_window_state->set_bounds_changed_by_user(false);
     wm::WindowState* other_window_state =
         wm::GetWindowState(other_shown_window);
     other_window_state->set_bounds_changed_by_user(false);

     if (WindowPositionCanBeManaged(other_shown_window)) {
       // Don't override pre auto managed bounds as the current bounds
       // may not be original.
       if (!other_window_state->pre_auto_manage_window_bounds())
         other_window_state->SetPreAutoManageWindowBounds(other_bounds);

       // Push away the other window after remembering its current position.
       if (MoveRectToOneSide(work_area, move_other_right, &other_bounds))
         SetBoundsAnimated(other_shown_window, other_bounds, work_area);
     }
   }

   // Remember the current location of the window if it's new and push
   // it also to the opposite location if needed.  Since it is just
   // being shown, we do not need to animate it.
   gfx::Rect added_bounds = added_window->bounds();
   if (!added_window_state->pre_auto_manage_window_bounds())
     added_window_state->SetPreAutoManageWindowBounds(added_bounds);
   if (MoveRectToOneSide(work_area, !move_other_right, &added_bounds))
     added_window->SetBounds(added_bounds);
 }

 WindowPositioner::WindowPositioner() = default;

 WindowPositioner::~WindowPositioner() = default;

 }  // namespace ash
	// Copyright 2013 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/wm/window_positioner.h"

	#include "ash/screen_util.h"
	#include "ash/shell.h"
	#include "ash/shell_delegate.h"
	#include "ash/wm/mru_window_tracker.h"
	#include "ash/wm/window_positioning_utils.h"
	#include "ash/wm/window_state.h"
	#include "ash/wm/window_util.h"
	#include "ui/compositor/layer.h"
	#include "ui/compositor/scoped_layer_animation_settings.h"
	#include "ui/display/display.h"
	#include "ui/display/screen.h"
	#include "ui/gfx/geometry/insets.h"
	#include "ui/wm/core/window_animations.h"
	#include "ui/wm/core/window_util.h"

	namespace ash {
	namespace {

	// The time in milliseconds which should be used to visually move a window
	// through an automatic "intelligent" window management option.
	const int kWindowAutoMoveDurationMS = 125;

	// If set to true all window repositioning actions will be ignored. Set through
	// WindowPositioner::SetIgnoreActivations().
	static bool disable_auto_positioning = false;

	// Check if any management should be performed (with a given \|window\|).
	bool UseAutoWindowManager(const aura::Window* window) {
	if (disable_auto_positioning)
	return false;
	const wm::WindowState* window_state = wm::GetWindowState(window);
	return !window_state->is_dragged() &&
	window_state->GetWindowPositionManaged();
	}

	// Check if a given \|window\| can be managed. This includes that its
	// state is not minimized/maximized/fullscreen/the user has changed
	// its size by hand already. It furthermore checks for the
	// WindowIsManaged status.
	bool WindowPositionCanBeManaged(const aura::Window* window) {
	if (disable_auto_positioning)
	return false;
	const wm::WindowState* window_state = wm::GetWindowState(window);
	return window_state->GetWindowPositionManaged() &&
	!window_state->IsMinimized() && !window_state->IsMaximized() &&
	!window_state->IsFullscreen() && !window_state->IsPinned() &&
	!window_state->bounds_changed_by_user();
	}

	// Move the given \|bounds\| on the available \|work_area\| in the direction
	// indicated by \|move_right\|. If \|move_right\| is true, the rectangle gets moved
	// to the right edge, otherwise to the left one.
	bool MoveRectToOneSide(const gfx::Rect& work_area,
	bool move_right,
	gfx::Rect* bounds) {
	if (move_right) {
	if (work_area.right() > bounds->right()) {
	bounds->set_x(work_area.right() - bounds->width());
	return true;
	}
	} else {
	if (work_area.x() < bounds->x()) {
	bounds->set_x(work_area.x());
	return true;
	}
	}
	return false;
	}

	// Move a \|window\| to new \|bounds\|. Animate if desired by user.
	// Moves the transient children of the \|window\| as well by the same \|offset\| as
	// the parent \|window\|.
	void SetBoundsAndOffsetTransientChildren(aura::Window* window,
	const gfx::Rect& bounds,
	const gfx::Rect& work_area,
	const gfx::Vector2d& offset) {
	aura::Window::Windows transient_children = ::wm::GetTransientChildren(window);
	for (auto* transient_child : transient_children) {
	gfx::Rect child_bounds = transient_child->bounds();
	gfx::Rect new_child_bounds = child_bounds + offset;
	if ((child_bounds.x() <= work_area.x() &&
	new_child_bounds.x() <= work_area.x()) \|\|
	(child_bounds.right() >= work_area.right() &&
	new_child_bounds.right() >= work_area.right())) {
	continue;
	}
	if (new_child_bounds.right() > work_area.right())
	new_child_bounds.set_x(work_area.right() - bounds.width());
	else if (new_child_bounds.x() < work_area.x())
	new_child_bounds.set_x(work_area.x());
	SetBoundsAndOffsetTransientChildren(transient_child, new_child_bounds,
	work_area, offset);
	}

	if (::wm::WindowAnimationsDisabled(window)) {
	window->SetBounds(bounds);
	return;
	}

	ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
	settings.SetTransitionDuration(
	base::TimeDelta::FromMilliseconds(kWindowAutoMoveDurationMS));
	window->SetBounds(bounds);
	}

	// Move a \|window\| to new \|bounds\|. Animate if desired by user.
	// Note: The function will do nothing if the bounds did not change.
	void SetBoundsAnimated(aura::Window* window,
	const gfx::Rect& bounds,
	const gfx::Rect& work_area) {
	gfx::Rect old_bounds = window->GetTargetBounds();
	if (bounds == old_bounds)
	return;
	gfx::Vector2d offset(bounds.origin() - old_bounds.origin());
	SetBoundsAndOffsetTransientChildren(window, bounds, work_area, offset);
	}

	// Move \|window\| into the center of the screen - or restore it to the previous
	// position.
	void AutoPlaceSingleWindow(aura::Window* window, bool animated) {
	gfx::Rect work_area = screen_util::GetDisplayWorkAreaBoundsInParent(window);
	gfx::Rect bounds = window->bounds();
	const base::Optional<gfx::Rect> user_defined_area =
	wm::GetWindowState(window)->pre_auto_manage_window_bounds();
	if (user_defined_area) {
	bounds = *user_defined_area;
	wm::AdjustBoundsToEnsureMinimumWindowVisibility(work_area, &bounds);
	} else {
	// Center the window (only in x).
	bounds.set_x(work_area.x() + (work_area.width() - bounds.width()) / 2);
	}

	if (animated)
	SetBoundsAnimated(window, bounds, work_area);
	else
	window->SetBounds(bounds);
	}

	// Get the first open (non minimized) window which is on the screen defined.
	aura::Window* GetReferenceWindow(const aura::Window* root_window,
	const aura::Window* exclude,
	bool* single_window) {
	if (single_window)
	*single_window = true;
	// Get the active window.
	aura::Window* active = wm::GetActiveWindow();
	if (active && active->GetRootWindow() != root_window)
	active = NULL;

	// Get a list of all windows.
	const aura::Window::Windows windows =
	Shell::Get()->mru_window_tracker()->BuildWindowListIgnoreModal();

	if (windows.empty())
	return nullptr;

	int index = 0;
	// Find the index of the current active window.
	if (active)
	index = std::find(windows.begin(), windows.end(), active) - windows.begin();

	// Scan the cycle list backwards to see which is the second topmost window
	// (and so on). Note that we might cycle a few indices twice if there is no
	// suitable window. However - since the list is fairly small this should be
	// very fast anyways.
	aura::Window* found = nullptr;
	for (int i = index + windows.size(); i >= 0; i--) {
	aura::Window* window = windows[i % windows.size()];
	while (::wm::GetTransientParent(window))
	window = ::wm::GetTransientParent(window);
	if (window != exclude &&
	window->type() == aura::client::WINDOW_TYPE_NORMAL &&
	window->GetRootWindow() == root_window && window->TargetVisibility() &&
	wm::GetWindowState(window)->GetWindowPositionManaged()) {
	if (found && found != window) {
	// no need to check !single_window because the function must have
	// been already returned in the "if (!single_window)" below.
	*single_window = false;
	return found;
	}
	found = window;
	// If there is no need to check single window, return now.
	if (!single_window)
	return found;
	}
	}
	return found;
	}

	} // namespace

	// static
	void WindowPositioner::GetBoundsAndShowStateForNewWindow(
	bool is_saved_bounds,
	ui::WindowShowState show_state_in,
	gfx::Rect* bounds_in_out,
	ui::WindowShowState* show_state_out) {
	aura::Window* root_window = Shell::GetRootWindowForNewWindows();
	aura::Window* top_window = GetReferenceWindow(root_window, nullptr, nullptr);

	// If there is no valid window we take and adjust the passed coordinates.
	if (!top_window) {
	gfx::Rect work_area = display::Screen::GetScreen()
	->GetDisplayNearestWindow(root_window)
	.work_area();
	bounds_in_out->AdjustToFit(work_area);
	return;
	}

	wm::WindowState* top_window_state = wm::GetWindowState(top_window);
	bool maximized = top_window_state->IsMaximized();
	// We ignore the saved show state, but look instead for the top level
	// window's show state.
	if (show_state_in == ui::SHOW_STATE_DEFAULT) {
	*show_state_out =
	maximized ? ui::SHOW_STATE_MAXIMIZED : ui::SHOW_STATE_DEFAULT;
	}

	if (maximized \|\| top_window_state->IsFullscreen()) {
	bool has_restore_bounds = top_window_state->HasRestoreBounds();
	if (has_restore_bounds) {
	// For a maximized/fullscreen window ignore the real bounds of
	// the top level window and use its restore bounds
	// instead. Offset the bounds to prevent the windows from
	// overlapping exactly when restored.
	*bounds_in_out = top_window_state->GetRestoreBoundsInScreen() +
	gfx::Vector2d(kWindowOffset, kWindowOffset);
	}
	if (is_saved_bounds \|\| has_restore_bounds) {
	gfx::Rect work_area = display::Screen::GetScreen()
	->GetDisplayNearestWindow(root_window)
	.work_area();
	bounds_in_out->AdjustToFit(work_area);
	// Use adjusted saved bounds or restore bounds, if there is one.
	return;
	}
	}

	// Use the size of the other window. The window's bound will be rearranged
	// in ash::WorkspaceLayoutManager using this location.
	*bounds_in_out = top_window->GetBoundsInScreen();
	}

	// static
	void WindowPositioner::RearrangeVisibleWindowOnHideOrRemove(
	const aura::Window* removed_window) {
	if (!UseAutoWindowManager(removed_window))
	return;
	// Find a single open browser window.
	bool single_window;
	aura::Window* other_shown_window = GetReferenceWindow(
	removed_window->GetRootWindow(), removed_window, &single_window);
	if (!other_shown_window \|\| !single_window \|\|
	!WindowPositionCanBeManaged(other_shown_window))
	return;
	AutoPlaceSingleWindow(other_shown_window, true);
	}

	// static
	bool WindowPositioner::DisableAutoPositioning(bool ignore) {
	bool old_state = disable_auto_positioning;
	disable_auto_positioning = ignore;
	return old_state;
	}

	// static
	void WindowPositioner::RearrangeVisibleWindowOnShow(
	aura::Window* added_window) {
	wm::WindowState* added_window_state = wm::GetWindowState(added_window);
	if (!added_window->TargetVisibility() \|\|
	!UseAutoWindowManager(added_window) \|\|
	added_window_state->bounds_changed_by_user()) {
	return;
	}

	// Find a single open managed window.
	bool single_window;
	aura::Window* other_shown_window = GetReferenceWindow(
	added_window->GetRootWindow(), added_window, &single_window);

	if (!other_shown_window) {
	// It could be that this window is the first window joining the workspace.
	if (!WindowPositionCanBeManaged(added_window) \|\| other_shown_window)
	return;
	// Since we might be going from 0 to 1 window, we have to arrange the new
	// window to a good default.
	AutoPlaceSingleWindow(added_window, false);
	return;
	}

	gfx::Rect other_bounds = other_shown_window->bounds();
	gfx::Rect work_area =
	screen_util::GetDisplayWorkAreaBoundsInParent(added_window);
	bool move_other_right =
	other_bounds.CenterPoint().x() > work_area.x() + work_area.width() / 2;

	// Push the other window to the size only if there are two windows left.
	if (single_window) {
	// When going from one to two windows both windows loose their
	// "positioned by user" flags.
	added_window_state->set_bounds_changed_by_user(false);
	wm::WindowState* other_window_state =
	wm::GetWindowState(other_shown_window);
	other_window_state->set_bounds_changed_by_user(false);

	if (WindowPositionCanBeManaged(other_shown_window)) {
	// Don't override pre auto managed bounds as the current bounds
	// may not be original.
	if (!other_window_state->pre_auto_manage_window_bounds())
	other_window_state->SetPreAutoManageWindowBounds(other_bounds);

	// Push away the other window after remembering its current position.
	if (MoveRectToOneSide(work_area, move_other_right, &other_bounds))
	SetBoundsAnimated(other_shown_window, other_bounds, work_area);
	}
	}

	// Remember the current location of the window if it's new and push
	// it also to the opposite location if needed. Since it is just
	// being shown, we do not need to animate it.
	gfx::Rect added_bounds = added_window->bounds();
	if (!added_window_state->pre_auto_manage_window_bounds())
	added_window_state->SetPreAutoManageWindowBounds(added_bounds);
	if (MoveRectToOneSide(work_area, !move_other_right, &added_bounds))
	added_window->SetBounds(added_bounds);
	}

	WindowPositioner::WindowPositioner() = default;

	WindowPositioner::~WindowPositioner() = default;

	} // namespace ash