ash/magnifier/magnification_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/magnifier/magnification_controller.h"

 #include "ash/accessibility_delegate.h"
 #include "ash/display/root_window_transformers.h"
 #include "ash/shell.h"
 #include "ash/system/tray/system_tray_delegate.h"
 #include "base/synchronization/waitable_event.h"
 #include "ui/aura/client/cursor_client.h"
 #include "ui/aura/root_window.h"
 #include "ui/aura/root_window_transformer.h"
 #include "ui/aura/window.h"
 #include "ui/aura/window_property.h"
 #include "ui/compositor/dip_util.h"
 #include "ui/compositor/layer.h"
 #include "ui/compositor/layer_animation_observer.h"
 #include "ui/compositor/scoped_layer_animation_settings.h"
 #include "ui/events/event.h"
 #include "ui/events/event_handler.h"
 #include "ui/gfx/point3_f.h"
 #include "ui/gfx/point_conversions.h"
 #include "ui/gfx/point_f.h"
 #include "ui/gfx/rect_conversions.h"
 #include "ui/gfx/screen.h"
 #include "ui/views/corewm/compound_event_filter.h"

 namespace {

 const float kMaxMagnifiedScale = 4.0f;
 const float kMaxMagnifiedScaleThreshold = 4.0f;
 const float kMinMagnifiedScaleThreshold = 1.1f;
 const float kNonMagnifiedScale = 1.0f;

 const float kInitialMagnifiedScale = 2.0f;
 const float kScrollScaleChangeFactor = 0.05f;

 // Threadshold of panning. If the cursor moves to within pixels (in DIP) of
 // |kPanningMergin| from the edge, the view-port moves.
 const int kPanningMergin = 100;

 void MoveCursorTo(aura::RootWindow* root_window,
                   const gfx::Point& root_location) {
   gfx::Point3F host_location_3f(root_location);
   root_window->GetRootTransform().TransformPoint(&host_location_3f);
   root_window->MoveCursorToHostLocation(
       gfx::ToCeiledPoint(host_location_3f.AsPointF()));
 }

 }  // namespace

 namespace ash {

 ////////////////////////////////////////////////////////////////////////////////
 // MagnificationControllerImpl:

 class MagnificationControllerImpl : virtual public MagnificationController,
                                     public ui::EventHandler,
                                     public ui::ImplicitAnimationObserver,
                                     public aura::WindowObserver {
  public:
   MagnificationControllerImpl();
   virtual ~MagnificationControllerImpl();

   // MagnificationController overrides:
   virtual void SetEnabled(bool enabled) OVERRIDE;
   virtual bool IsEnabled() const OVERRIDE;
   virtual void SetScale(float scale, bool animate) OVERRIDE;
   virtual float GetScale() const OVERRIDE { return scale_; }
   virtual void MoveWindow(int x, int y, bool animate) OVERRIDE;
   virtual void MoveWindow(const gfx::Point& point, bool animate) OVERRIDE;
   virtual gfx::Point GetWindowPosition() const OVERRIDE {
     return gfx::ToFlooredPoint(origin_);
   }
   virtual void EnsureRectIsVisible(const gfx::Rect& rect,
                                    bool animate) OVERRIDE;
   virtual void EnsurePointIsVisible(const gfx::Point& point,
                                     bool animate) OVERRIDE;
   // For test
   virtual gfx::Point GetPointOfInterestForTesting() OVERRIDE {
     return point_of_interest_;
   }

  private:
   // ui::ImplicitAnimationObserver overrides:
   virtual void OnImplicitAnimationsCompleted() OVERRIDE;

   // aura::WindowObserver overrides:
   virtual void OnWindowDestroying(aura::Window* root_window) OVERRIDE;
   virtual void OnWindowBoundsChanged(aura::Window* window,
                                      const gfx::Rect& old_bounds,
                                      const gfx::Rect& new_bounds) OVERRIDE;

   // Redraws the magnification window with the given origin position and the
   // given scale. Returns true if the window is changed; otherwise, false.
   // These methods should be called internally just after the scale and/or
   // the position are changed to redraw the window.
   bool Redraw(const gfx::PointF& position, float scale, bool animate);
   bool RedrawDIP(const gfx::PointF& position, float scale, bool animate);

   // Redraw with the given zoom scale keeping the mouse cursor location. In
   // other words, zoom (or unzoom) centering around the cursor.
   void RedrawKeepingMousePosition(float scale, bool animate);

   // Ensures that the given point, rect or last mouse location is inside
   // magnification window. If not, the controller moves the window to contain
   // the given point/rect.
   void EnsureRectIsVisibleWithScale(const gfx::Rect& target_rect,
                                     float scale,
                                     bool animate);
   void EnsureRectIsVisibleDIP(const gfx::Rect& target_rect_in_dip,
                               float scale,
                               bool animate);
   void EnsurePointIsVisibleWithScale(const gfx::Point& point,
                                      float scale,
                                      bool animate);
   void OnMouseMove(const gfx::Point& location);

   // Move the mouse cursot to the given point. Actual move will be done when
   // the animation is completed. This should be called after animation is
   // started.
   void AfterAnimationMoveCursorTo(const gfx::Point& location);

   // Switch Magnified RootWindow to |new_root_window|. This does following:
   //  - Unzoom the current root_window.
   //  - Zoom the given new root_window |new_root_window|.
   //  - Switch the target window from current window to |new_root_window|.
   void SwitchTargetRootWindow(aura::Window* new_root_window,
                               bool redraw_original_root_window);

   // Returns if the magnification scale is 1.0 or not (larger then 1.0).
   bool IsMagnified() const;

   // Returns the rect of the magnification window.
   gfx::RectF GetWindowRectDIP(float scale) const;
   // Returns the size of the root window.
   gfx::Size GetHostSizeDIP() const;

   // Correct the givin scale value if nessesary.
   void ValidateScale(float* scale);

   // ui::EventHandler overrides:
   virtual void OnMouseEvent(ui::MouseEvent* event) OVERRIDE;
   virtual void OnScrollEvent(ui::ScrollEvent* event) OVERRIDE;
   virtual void OnTouchEvent(ui::TouchEvent* event) OVERRIDE;

   // Target root window. This must not be NULL.
   aura::Window* root_window_;

   // True if the magnified window is currently animating a change. Otherwise,
   // false.
   bool is_on_animation_;

   bool is_enabled_;

   // True if the cursor needs to move the given position after the animation
   // will be finished. When using this, set |position_after_animation_| as well.
   bool move_cursor_after_animation_;
   // Stores the position of cursor to be moved after animation.
   gfx::Point position_after_animation_;

   // Stores the last mouse cursor (or last touched) location. This value is
   // used on zooming to keep this location visible.
   gfx::Point point_of_interest_;

   // Current scale, origin (left-top) position of the magnification window.
   float scale_;
   gfx::PointF origin_;

   DISALLOW_COPY_AND_ASSIGN(MagnificationControllerImpl);
 };

 ////////////////////////////////////////////////////////////////////////////////
 // MagnificationControllerImpl:

 MagnificationControllerImpl::MagnificationControllerImpl()
     : root_window_(ash::Shell::GetPrimaryRootWindow()),
       is_on_animation_(false),
       is_enabled_(false),
       move_cursor_after_animation_(false),
       scale_(kNonMagnifiedScale) {
   Shell::GetInstance()->AddPreTargetHandler(this);
   root_window_->AddObserver(this);
   point_of_interest_ = root_window_->bounds().CenterPoint();
 }

 MagnificationControllerImpl::~MagnificationControllerImpl() {
   root_window_->RemoveObserver(this);

   Shell::GetInstance()->RemovePreTargetHandler(this);
 }

 void MagnificationControllerImpl::RedrawKeepingMousePosition(
     float scale, bool animate) {
   gfx::Point mouse_in_root = point_of_interest_;

   // mouse_in_root is invalid value when the cursor is hidden.
   if (!root_window_->bounds().Contains(mouse_in_root))
     mouse_in_root = root_window_->bounds().CenterPoint();

   const gfx::PointF origin =
       gfx::PointF(mouse_in_root.x() -
                       (scale_ / scale) * (mouse_in_root.x() - origin_.x()),
                   mouse_in_root.y() -
                       (scale_ / scale) * (mouse_in_root.y() - origin_.y()));
   bool changed = RedrawDIP(origin, scale, animate);
   if (changed)
     AfterAnimationMoveCursorTo(mouse_in_root);
 }

 bool MagnificationControllerImpl::Redraw(const gfx::PointF& position,
                                          float scale,
                                          bool animate) {
   const gfx::PointF position_in_dip =
       ui::ConvertPointToDIP(root_window_->layer(), position);
   return RedrawDIP(position_in_dip, scale, animate);
 }

 bool MagnificationControllerImpl::RedrawDIP(const gfx::PointF& position_in_dip,
                                             float scale,
                                             bool animate) {
   DCHECK(root_window_);

   float x = position_in_dip.x();
   float y = position_in_dip.y();

   ValidateScale(&scale);

   if (x < 0)
     x = 0;
   if (y < 0)
     y = 0;

   const gfx::Size host_size_in_dip = GetHostSizeDIP();
   const gfx::SizeF window_size_in_dip = GetWindowRectDIP(scale).size();
   float max_x = host_size_in_dip.width() - window_size_in_dip.width();
   float max_y = host_size_in_dip.height() - window_size_in_dip.height();
   if (x > max_x)
     x = max_x;
   if (y > max_y)
     y = max_y;

   // Does nothing if both the origin and the scale are not changed.
   if (origin_.x() == x  &&
       origin_.y() == y &&
       scale == scale_) {
     return false;
   }

   origin_.set_x(x);
   origin_.set_y(y);
   scale_ = scale;

   // Creates transform matrix.
   gfx::Transform transform;
   // Flips the signs intentionally to convert them from the position of the
   // magnification window.
   transform.Scale(scale_, scale_);
   transform.Translate(-origin_.x(), -origin_.y());

   ui::ScopedLayerAnimationSettings settings(
       root_window_->layer()->GetAnimator());
   settings.AddObserver(this);
   settings.SetPreemptionStrategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   settings.SetTweenType(gfx::Tween::EASE_OUT);
   settings.SetTransitionDuration(
       base::TimeDelta::FromMilliseconds(animate ? 100 : 0));

   gfx::Display display =
       Shell::GetScreen()->GetDisplayNearestWindow(root_window_);
   scoped_ptr<aura::RootWindowTransformer> transformer(
       internal::CreateRootWindowTransformerForDisplay(root_window_, display));
   root_window_->GetDispatcher()->SetRootWindowTransformer(transformer.Pass());

   if (animate)
     is_on_animation_ = true;

   return true;
 }

 void MagnificationControllerImpl::EnsureRectIsVisibleWithScale(
     const gfx::Rect& target_rect,
     float scale,
     bool animate) {
   const gfx::Rect target_rect_in_dip =
       ui::ConvertRectToDIP(root_window_->layer(), target_rect);
   EnsureRectIsVisibleDIP(target_rect_in_dip, scale, animate);
 }

 void MagnificationControllerImpl::EnsureRectIsVisibleDIP(
     const gfx::Rect& target_rect,
     float scale,
     bool animate) {
   ValidateScale(&scale);

   const gfx::Rect window_rect = gfx::ToEnclosingRect(GetWindowRectDIP(scale));
   if (scale == scale_ && window_rect.Contains(target_rect))
     return;

   // TODO(yoshiki): Un-zoom and change the scale if the magnification window
   // can't contain the whole given rect.

   gfx::Rect rect = window_rect;
   if (target_rect.width() > rect.width())
     rect.set_x(target_rect.CenterPoint().x() - rect.x() / 2);
   else if (target_rect.right() < rect.x())
     rect.set_x(target_rect.right());
   else if (rect.right() < target_rect.x())
     rect.set_x(target_rect.x() - rect.width());

   if (rect.height() > window_rect.height())
     rect.set_y(target_rect.CenterPoint().y() - rect.y() / 2);
   else if (target_rect.bottom() < rect.y())
     rect.set_y(target_rect.bottom());
   else if (rect.bottom() < target_rect.y())
     rect.set_y(target_rect.y() - rect.height());

   RedrawDIP(rect.origin(), scale, animate);
 }

 void MagnificationControllerImpl::EnsurePointIsVisibleWithScale(
     const gfx::Point& point,
     float scale,
     bool animate) {
   EnsureRectIsVisibleWithScale(gfx::Rect(point, gfx::Size(0, 0)),
                                scale,
                                animate);
 }

 void MagnificationControllerImpl::OnMouseMove(const gfx::Point& location) {
   DCHECK(root_window_);

   gfx::Point mouse(location);

   int x = origin_.x();
   int y = origin_.y();
   bool start_zoom = false;

   const gfx::Rect window_rect = gfx::ToEnclosingRect(GetWindowRectDIP(scale_));
   const int left = window_rect.x();
   const int right = window_rect.right();
   int margin = kPanningMergin / scale_;  // No need to consider DPI.

   int x_diff = 0;

   if (mouse.x() < left + margin) {
     // Panning left.
     x_diff = mouse.x() - (left + margin);
     start_zoom = true;
   } else if (right - margin < mouse.x()) {
     // Panning right.
     x_diff = mouse.x() - (right - margin);
     start_zoom = true;
   }
   x = left + x_diff;

   const int top = window_rect.y();
   const int bottom = window_rect.bottom();

   int y_diff = 0;
   if (mouse.y() < top + margin) {
     // Panning up.
     y_diff = mouse.y() - (top + margin);
     start_zoom = true;
   } else if (bottom - margin < mouse.y()) {
     // Panning down.
     y_diff = mouse.y() - (bottom - margin);
     start_zoom = true;
   }
   y = top + y_diff;

   if (start_zoom && !is_on_animation_) {
     // No animation on panning.
     bool animate = false;
     bool ret = RedrawDIP(gfx::Point(x, y), scale_, animate);

     if (ret) {
       // If the magnified region is moved, hides the mouse cursor and moves it.
       if (x_diff != 0 || y_diff != 0)
         MoveCursorTo(root_window_->GetDispatcher(), mouse);
     }
   }
 }

 void MagnificationControllerImpl::AfterAnimationMoveCursorTo(
     const gfx::Point& location) {
   DCHECK(root_window_);

   aura::client::CursorClient* cursor_client =
       aura::client::GetCursorClient(root_window_);
   if (cursor_client) {
     // When cursor is invisible, do not move or show the cursor after the
     // animation.
     if (!cursor_client->IsCursorVisible())
       return;
     cursor_client->DisableMouseEvents();
   }
   move_cursor_after_animation_ = true;
   position_after_animation_ = location;
 }

 gfx::Size MagnificationControllerImpl::GetHostSizeDIP() const {
   return root_window_->bounds().size();
 }

 gfx::RectF MagnificationControllerImpl::GetWindowRectDIP(float scale) const {
   const gfx::Size size_in_dip = root_window_->bounds().size();
   const float width = size_in_dip.width() / scale;
   const float height = size_in_dip.height() / scale;

   return gfx::RectF(origin_.x(), origin_.y(), width, height);
 }

 bool MagnificationControllerImpl::IsMagnified() const {
   return scale_ >= kMinMagnifiedScaleThreshold;
 }

 void MagnificationControllerImpl::ValidateScale(float* scale) {
   // Adjust the scale to just |kNonMagnifiedScale| if scale is smaller than
   // |kMinMagnifiedScaleThreshold|;
   if (*scale < kMinMagnifiedScaleThreshold)
     *scale = kNonMagnifiedScale;

   // Adjust the scale to just |kMinMagnifiedScale| if scale is bigger than
   // |kMinMagnifiedScaleThreshold|;
   if (*scale > kMaxMagnifiedScaleThreshold)
     *scale = kMaxMagnifiedScale;

   DCHECK(kNonMagnifiedScale <= *scale && *scale <= kMaxMagnifiedScale);
 }

 void MagnificationControllerImpl::OnImplicitAnimationsCompleted() {
   if (!is_on_animation_)
     return;

   if (move_cursor_after_animation_) {
     MoveCursorTo(root_window_->GetDispatcher(), position_after_animation_);
     move_cursor_after_animation_ = false;

     aura::client::CursorClient* cursor_client =
         aura::client::GetCursorClient(root_window_);
     if (cursor_client)
       cursor_client->EnableMouseEvents();
   }

   is_on_animation_ = false;
 }

 void MagnificationControllerImpl::OnWindowDestroying(
     aura::Window* root_window) {
   if (root_window == root_window_) {
     // There must be at least one root window because this controller is
     // destroyed before the root windows get destroyed.
     DCHECK(root_window);

     aura::Window* target_root_window = Shell::GetTargetRootWindow();
     CHECK(target_root_window);

     // The destroyed root window must not be target.
     CHECK_NE(target_root_window, root_window);
     // Don't redraw the old root window as it's being destroyed.
     SwitchTargetRootWindow(target_root_window, false);
     point_of_interest_ = target_root_window->bounds().CenterPoint();
   }
 }

 void MagnificationControllerImpl::OnWindowBoundsChanged(
     aura::Window* window,
     const gfx::Rect& old_bounds,
     const gfx::Rect& new_bounds) {
   // TODO(yoshiki): implement here. crbug.com/230979
 }

 void MagnificationControllerImpl::SwitchTargetRootWindow(
     aura::Window* new_root_window,
     bool redraw_original_root_window) {
   DCHECK(new_root_window);

   if (new_root_window == root_window_)
     return;

   // Stores the previous scale.
   float scale = GetScale();

   // Unmagnify the previous root window.
   root_window_->RemoveObserver(this);
   if (redraw_original_root_window)
     RedrawKeepingMousePosition(1.0f, true);

   root_window_ = new_root_window;
   RedrawKeepingMousePosition(scale, true);
   root_window_->AddObserver(this);
 }

 ////////////////////////////////////////////////////////////////////////////////
 // MagnificationControllerImpl: MagnificationController implementation

 void MagnificationControllerImpl::SetScale(float scale, bool animate) {
   if (!is_enabled_)
     return;

   ValidateScale(&scale);
   ash::Shell::GetInstance()->accessibility_delegate()->
       SaveScreenMagnifierScale(scale);
   RedrawKeepingMousePosition(scale, animate);
 }

 void MagnificationControllerImpl::MoveWindow(int x, int y, bool animate) {
   if (!is_enabled_)
     return;

   Redraw(gfx::Point(x, y), scale_, animate);
 }

 void MagnificationControllerImpl::MoveWindow(const gfx::Point& point,
                                              bool animate) {
   if (!is_enabled_)
     return;

   Redraw(point, scale_, animate);
 }

 void MagnificationControllerImpl::EnsureRectIsVisible(
     const gfx::Rect& target_rect,
     bool animate) {
   if (!is_enabled_)
     return;

   EnsureRectIsVisibleWithScale(target_rect, scale_, animate);
 }

 void MagnificationControllerImpl::EnsurePointIsVisible(
     const gfx::Point& point,
     bool animate) {
   if (!is_enabled_)
     return;

   EnsurePointIsVisibleWithScale(point, scale_, animate);
 }

 void MagnificationControllerImpl::SetEnabled(bool enabled) {
   if (enabled) {
     float scale =
         ash::Shell::GetInstance()->accessibility_delegate()->
         GetSavedScreenMagnifierScale();
     if (scale <= 0.0f)
       scale = kInitialMagnifiedScale;
     ValidateScale(&scale);

     // Do nothing, if already enabled with same scale.
     if (is_enabled_ && scale == scale_)
       return;

     is_enabled_ = enabled;
     RedrawKeepingMousePosition(scale, true);
     ash::Shell::GetInstance()->accessibility_delegate()->
         SaveScreenMagnifierScale(scale);
   } else {
     // Do nothing, if already disabled.
     if (!is_enabled_)
       return;

     RedrawKeepingMousePosition(kNonMagnifiedScale, true);
     is_enabled_ = enabled;
   }
 }

 bool MagnificationControllerImpl::IsEnabled() const {
   return is_enabled_;
 }

 ////////////////////////////////////////////////////////////////////////////////
 // MagnificationControllerImpl: aura::EventFilter implementation

 void MagnificationControllerImpl::OnMouseEvent(ui::MouseEvent* event) {
   aura::Window* target = static_cast<aura::Window*>(event->target());
   aura::Window* current_root = target->GetRootWindow();
   gfx::Rect root_bounds = current_root->bounds();

   if (root_bounds.Contains(event->root_location())) {
     // This must be before |SwitchTargetRootWindow()|.
     point_of_interest_ = event->root_location();

     if (current_root != root_window_) {
       DCHECK(current_root);
       SwitchTargetRootWindow(current_root, true);
     }

     if (IsMagnified() && event->type() == ui::ET_MOUSE_MOVED)
       OnMouseMove(event->root_location());
   }
 }

 void MagnificationControllerImpl::OnScrollEvent(ui::ScrollEvent* event) {
   if (event->IsAltDown() && event->IsControlDown()) {
     if (event->type() == ui::ET_SCROLL_FLING_START ||
         event->type() == ui::ET_SCROLL_FLING_CANCEL) {
       event->StopPropagation();
       return;
     }

     if (event->type() == ui::ET_SCROLL) {
       ui::ScrollEvent* scroll_event = static_cast<ui::ScrollEvent*>(event);
       float scale = GetScale();
       scale += scroll_event->y_offset() * kScrollScaleChangeFactor;
       SetScale(scale, true);
       event->StopPropagation();
       return;
     }
   }
 }

 void MagnificationControllerImpl::OnTouchEvent(ui::TouchEvent* event) {
   aura::Window* target = static_cast<aura::Window*>(event->target());
   aura::Window* current_root = target->GetRootWindow();
   if (current_root == root_window_) {
     gfx::Rect root_bounds = current_root->bounds();
     if (root_bounds.Contains(event->root_location()))
       point_of_interest_ = event->root_location();
   }
 }

 ////////////////////////////////////////////////////////////////////////////////
 // MagnificationController:

 // static
 MagnificationController* MagnificationController::CreateInstance() {
   return new MagnificationControllerImpl();
 }

 }  // 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/magnifier/magnification_controller.h"

	#include "ash/accessibility_delegate.h"
	#include "ash/display/root_window_transformers.h"
	#include "ash/shell.h"
	#include "ash/system/tray/system_tray_delegate.h"
	#include "base/synchronization/waitable_event.h"
	#include "ui/aura/client/cursor_client.h"
	#include "ui/aura/root_window.h"
	#include "ui/aura/root_window_transformer.h"
	#include "ui/aura/window.h"
	#include "ui/aura/window_property.h"
	#include "ui/compositor/dip_util.h"
	#include "ui/compositor/layer.h"
	#include "ui/compositor/layer_animation_observer.h"
	#include "ui/compositor/scoped_layer_animation_settings.h"
	#include "ui/events/event.h"
	#include "ui/events/event_handler.h"
	#include "ui/gfx/point3_f.h"
	#include "ui/gfx/point_conversions.h"
	#include "ui/gfx/point_f.h"
	#include "ui/gfx/rect_conversions.h"
	#include "ui/gfx/screen.h"
	#include "ui/views/corewm/compound_event_filter.h"

	namespace {

	const float kMaxMagnifiedScale = 4.0f;
	const float kMaxMagnifiedScaleThreshold = 4.0f;
	const float kMinMagnifiedScaleThreshold = 1.1f;
	const float kNonMagnifiedScale = 1.0f;

	const float kInitialMagnifiedScale = 2.0f;
	const float kScrollScaleChangeFactor = 0.05f;

	// Threadshold of panning. If the cursor moves to within pixels (in DIP) of
	// \|kPanningMergin\| from the edge, the view-port moves.
	const int kPanningMergin = 100;

	void MoveCursorTo(aura::RootWindow* root_window,
	const gfx::Point& root_location) {
	gfx::Point3F host_location_3f(root_location);
	root_window->GetRootTransform().TransformPoint(&host_location_3f);
	root_window->MoveCursorToHostLocation(
	gfx::ToCeiledPoint(host_location_3f.AsPointF()));
	}

	} // namespace

	namespace ash {

	////////////////////////////////////////////////////////////////////////////////
	// MagnificationControllerImpl:

	class MagnificationControllerImpl : virtual public MagnificationController,
	public ui::EventHandler,
	public ui::ImplicitAnimationObserver,
	public aura::WindowObserver {
	public:
	MagnificationControllerImpl();
	virtual ~MagnificationControllerImpl();

	// MagnificationController overrides:
	virtual void SetEnabled(bool enabled) OVERRIDE;
	virtual bool IsEnabled() const OVERRIDE;
	virtual void SetScale(float scale, bool animate) OVERRIDE;
	virtual float GetScale() const OVERRIDE { return scale_; }
	virtual void MoveWindow(int x, int y, bool animate) OVERRIDE;
	virtual void MoveWindow(const gfx::Point& point, bool animate) OVERRIDE;
	virtual gfx::Point GetWindowPosition() const OVERRIDE {
	return gfx::ToFlooredPoint(origin_);
	}
	virtual void EnsureRectIsVisible(const gfx::Rect& rect,
	bool animate) OVERRIDE;
	virtual void EnsurePointIsVisible(const gfx::Point& point,
	bool animate) OVERRIDE;
	// For test
	virtual gfx::Point GetPointOfInterestForTesting() OVERRIDE {
	return point_of_interest_;
	}

	private:
	// ui::ImplicitAnimationObserver overrides:
	virtual void OnImplicitAnimationsCompleted() OVERRIDE;

	// aura::WindowObserver overrides:
	virtual void OnWindowDestroying(aura::Window* root_window) OVERRIDE;
	virtual void OnWindowBoundsChanged(aura::Window* window,
	const gfx::Rect& old_bounds,
	const gfx::Rect& new_bounds) OVERRIDE;

	// Redraws the magnification window with the given origin position and the
	// given scale. Returns true if the window is changed; otherwise, false.
	// These methods should be called internally just after the scale and/or
	// the position are changed to redraw the window.
	bool Redraw(const gfx::PointF& position, float scale, bool animate);
	bool RedrawDIP(const gfx::PointF& position, float scale, bool animate);

	// Redraw with the given zoom scale keeping the mouse cursor location. In
	// other words, zoom (or unzoom) centering around the cursor.
	void RedrawKeepingMousePosition(float scale, bool animate);

	// Ensures that the given point, rect or last mouse location is inside
	// magnification window. If not, the controller moves the window to contain
	// the given point/rect.
	void EnsureRectIsVisibleWithScale(const gfx::Rect& target_rect,
	float scale,
	bool animate);
	void EnsureRectIsVisibleDIP(const gfx::Rect& target_rect_in_dip,
	float scale,
	bool animate);
	void EnsurePointIsVisibleWithScale(const gfx::Point& point,
	float scale,
	bool animate);
	void OnMouseMove(const gfx::Point& location);

	// Move the mouse cursot to the given point. Actual move will be done when
	// the animation is completed. This should be called after animation is
	// started.
	void AfterAnimationMoveCursorTo(const gfx::Point& location);

	// Switch Magnified RootWindow to \|new_root_window\|. This does following:
	// - Unzoom the current root_window.
	// - Zoom the given new root_window \|new_root_window\|.
	// - Switch the target window from current window to \|new_root_window\|.
	void SwitchTargetRootWindow(aura::Window* new_root_window,
	bool redraw_original_root_window);

	// Returns if the magnification scale is 1.0 or not (larger then 1.0).
	bool IsMagnified() const;

	// Returns the rect of the magnification window.
	gfx::RectF GetWindowRectDIP(float scale) const;
	// Returns the size of the root window.
	gfx::Size GetHostSizeDIP() const;

	// Correct the givin scale value if nessesary.
	void ValidateScale(float* scale);

	// ui::EventHandler overrides:
	virtual void OnMouseEvent(ui::MouseEvent* event) OVERRIDE;
	virtual void OnScrollEvent(ui::ScrollEvent* event) OVERRIDE;
	virtual void OnTouchEvent(ui::TouchEvent* event) OVERRIDE;

	// Target root window. This must not be NULL.
	aura::Window* root_window_;

	// True if the magnified window is currently animating a change. Otherwise,
	// false.
	bool is_on_animation_;

	bool is_enabled_;

	// True if the cursor needs to move the given position after the animation
	// will be finished. When using this, set \|position_after_animation_\| as well.
	bool move_cursor_after_animation_;
	// Stores the position of cursor to be moved after animation.
	gfx::Point position_after_animation_;

	// Stores the last mouse cursor (or last touched) location. This value is
	// used on zooming to keep this location visible.
	gfx::Point point_of_interest_;

	// Current scale, origin (left-top) position of the magnification window.
	float scale_;
	gfx::PointF origin_;

	DISALLOW_COPY_AND_ASSIGN(MagnificationControllerImpl);
	};

	////////////////////////////////////////////////////////////////////////////////
	// MagnificationControllerImpl:

	MagnificationControllerImpl::MagnificationControllerImpl()
	: root_window_(ash::Shell::GetPrimaryRootWindow()),
	is_on_animation_(false),
	is_enabled_(false),
	move_cursor_after_animation_(false),
	scale_(kNonMagnifiedScale) {
	Shell::GetInstance()->AddPreTargetHandler(this);
	root_window_->AddObserver(this);
	point_of_interest_ = root_window_->bounds().CenterPoint();
	}

	MagnificationControllerImpl::~MagnificationControllerImpl() {
	root_window_->RemoveObserver(this);

	Shell::GetInstance()->RemovePreTargetHandler(this);
	}

	void MagnificationControllerImpl::RedrawKeepingMousePosition(
	float scale, bool animate) {
	gfx::Point mouse_in_root = point_of_interest_;

	// mouse_in_root is invalid value when the cursor is hidden.
	if (!root_window_->bounds().Contains(mouse_in_root))
	mouse_in_root = root_window_->bounds().CenterPoint();

	const gfx::PointF origin =
	gfx::PointF(mouse_in_root.x() -
	(scale_ / scale) * (mouse_in_root.x() - origin_.x()),
	mouse_in_root.y() -
	(scale_ / scale) * (mouse_in_root.y() - origin_.y()));
	bool changed = RedrawDIP(origin, scale, animate);
	if (changed)
	AfterAnimationMoveCursorTo(mouse_in_root);
	}

	bool MagnificationControllerImpl::Redraw(const gfx::PointF& position,
	float scale,
	bool animate) {
	const gfx::PointF position_in_dip =
	ui::ConvertPointToDIP(root_window_->layer(), position);
	return RedrawDIP(position_in_dip, scale, animate);
	}

	bool MagnificationControllerImpl::RedrawDIP(const gfx::PointF& position_in_dip,
	float scale,
	bool animate) {
	DCHECK(root_window_);

	float x = position_in_dip.x();
	float y = position_in_dip.y();

	ValidateScale(&scale);

	if (x < 0)
	x = 0;
	if (y < 0)
	y = 0;

	const gfx::Size host_size_in_dip = GetHostSizeDIP();
	const gfx::SizeF window_size_in_dip = GetWindowRectDIP(scale).size();
	float max_x = host_size_in_dip.width() - window_size_in_dip.width();
	float max_y = host_size_in_dip.height() - window_size_in_dip.height();
	if (x > max_x)
	x = max_x;
	if (y > max_y)
	y = max_y;

	// Does nothing if both the origin and the scale are not changed.
	if (origin_.x() == x &&
	origin_.y() == y &&
	scale == scale_) {
	return false;
	}

	origin_.set_x(x);
	origin_.set_y(y);
	scale_ = scale;

	// Creates transform matrix.
	gfx::Transform transform;
	// Flips the signs intentionally to convert them from the position of the
	// magnification window.
	transform.Scale(scale_, scale_);
	transform.Translate(-origin_.x(), -origin_.y());

	ui::ScopedLayerAnimationSettings settings(
	root_window_->layer()->GetAnimator());
	settings.AddObserver(this);
	settings.SetPreemptionStrategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	settings.SetTweenType(gfx::Tween::EASE_OUT);
	settings.SetTransitionDuration(
	base::TimeDelta::FromMilliseconds(animate ? 100 : 0));

	gfx::Display display =
	Shell::GetScreen()->GetDisplayNearestWindow(root_window_);
	scoped_ptr<aura::RootWindowTransformer> transformer(
	internal::CreateRootWindowTransformerForDisplay(root_window_, display));
	root_window_->GetDispatcher()->SetRootWindowTransformer(transformer.Pass());

	if (animate)
	is_on_animation_ = true;

	return true;
	}

	void MagnificationControllerImpl::EnsureRectIsVisibleWithScale(
	const gfx::Rect& target_rect,
	float scale,
	bool animate) {
	const gfx::Rect target_rect_in_dip =
	ui::ConvertRectToDIP(root_window_->layer(), target_rect);
	EnsureRectIsVisibleDIP(target_rect_in_dip, scale, animate);
	}

	void MagnificationControllerImpl::EnsureRectIsVisibleDIP(
	const gfx::Rect& target_rect,
	float scale,
	bool animate) {
	ValidateScale(&scale);

	const gfx::Rect window_rect = gfx::ToEnclosingRect(GetWindowRectDIP(scale));
	if (scale == scale_ && window_rect.Contains(target_rect))
	return;

	// TODO(yoshiki): Un-zoom and change the scale if the magnification window
	// can't contain the whole given rect.

	gfx::Rect rect = window_rect;
	if (target_rect.width() > rect.width())
	rect.set_x(target_rect.CenterPoint().x() - rect.x() / 2);
	else if (target_rect.right() < rect.x())
	rect.set_x(target_rect.right());
	else if (rect.right() < target_rect.x())
	rect.set_x(target_rect.x() - rect.width());

	if (rect.height() > window_rect.height())
	rect.set_y(target_rect.CenterPoint().y() - rect.y() / 2);
	else if (target_rect.bottom() < rect.y())
	rect.set_y(target_rect.bottom());
	else if (rect.bottom() < target_rect.y())
	rect.set_y(target_rect.y() - rect.height());

	RedrawDIP(rect.origin(), scale, animate);
	}

	void MagnificationControllerImpl::EnsurePointIsVisibleWithScale(
	const gfx::Point& point,
	float scale,
	bool animate) {
	EnsureRectIsVisibleWithScale(gfx::Rect(point, gfx::Size(0, 0)),
	scale,
	animate);
	}

	void MagnificationControllerImpl::OnMouseMove(const gfx::Point& location) {
	DCHECK(root_window_);

	gfx::Point mouse(location);

	int x = origin_.x();
	int y = origin_.y();
	bool start_zoom = false;

	const gfx::Rect window_rect = gfx::ToEnclosingRect(GetWindowRectDIP(scale_));
	const int left = window_rect.x();
	const int right = window_rect.right();
	int margin = kPanningMergin / scale_; // No need to consider DPI.

	int x_diff = 0;

	if (mouse.x() < left + margin) {
	// Panning left.
	x_diff = mouse.x() - (left + margin);
	start_zoom = true;
	} else if (right - margin < mouse.x()) {
	// Panning right.
	x_diff = mouse.x() - (right - margin);
	start_zoom = true;
	}
	x = left + x_diff;

	const int top = window_rect.y();
	const int bottom = window_rect.bottom();

	int y_diff = 0;
	if (mouse.y() < top + margin) {
	// Panning up.
	y_diff = mouse.y() - (top + margin);
	start_zoom = true;
	} else if (bottom - margin < mouse.y()) {
	// Panning down.
	y_diff = mouse.y() - (bottom - margin);
	start_zoom = true;
	}
	y = top + y_diff;

	if (start_zoom && !is_on_animation_) {
	// No animation on panning.
	bool animate = false;
	bool ret = RedrawDIP(gfx::Point(x, y), scale_, animate);

	if (ret) {
	// If the magnified region is moved, hides the mouse cursor and moves it.
	if (x_diff != 0 \|\| y_diff != 0)
	MoveCursorTo(root_window_->GetDispatcher(), mouse);
	}
	}
	}

	void MagnificationControllerImpl::AfterAnimationMoveCursorTo(
	const gfx::Point& location) {
	DCHECK(root_window_);

	aura::client::CursorClient* cursor_client =
	aura::client::GetCursorClient(root_window_);
	if (cursor_client) {
	// When cursor is invisible, do not move or show the cursor after the
	// animation.
	if (!cursor_client->IsCursorVisible())
	return;
	cursor_client->DisableMouseEvents();
	}
	move_cursor_after_animation_ = true;
	position_after_animation_ = location;
	}

	gfx::Size MagnificationControllerImpl::GetHostSizeDIP() const {
	return root_window_->bounds().size();
	}

	gfx::RectF MagnificationControllerImpl::GetWindowRectDIP(float scale) const {
	const gfx::Size size_in_dip = root_window_->bounds().size();
	const float width = size_in_dip.width() / scale;
	const float height = size_in_dip.height() / scale;

	return gfx::RectF(origin_.x(), origin_.y(), width, height);
	}

	bool MagnificationControllerImpl::IsMagnified() const {
	return scale_ >= kMinMagnifiedScaleThreshold;
	}

	void MagnificationControllerImpl::ValidateScale(float* scale) {
	// Adjust the scale to just \|kNonMagnifiedScale\| if scale is smaller than
	// \|kMinMagnifiedScaleThreshold\|;
	if (*scale < kMinMagnifiedScaleThreshold)
	*scale = kNonMagnifiedScale;

	// Adjust the scale to just \|kMinMagnifiedScale\| if scale is bigger than
	// \|kMinMagnifiedScaleThreshold\|;
	if (*scale > kMaxMagnifiedScaleThreshold)
	*scale = kMaxMagnifiedScale;

	DCHECK(kNonMagnifiedScale <= scale && scale <= kMaxMagnifiedScale);
	}

	void MagnificationControllerImpl::OnImplicitAnimationsCompleted() {
	if (!is_on_animation_)
	return;

	if (move_cursor_after_animation_) {
	MoveCursorTo(root_window_->GetDispatcher(), position_after_animation_);
	move_cursor_after_animation_ = false;

	aura::client::CursorClient* cursor_client =
	aura::client::GetCursorClient(root_window_);
	if (cursor_client)
	cursor_client->EnableMouseEvents();
	}

	is_on_animation_ = false;
	}

	void MagnificationControllerImpl::OnWindowDestroying(
	aura::Window* root_window) {
	if (root_window == root_window_) {
	// There must be at least one root window because this controller is
	// destroyed before the root windows get destroyed.
	DCHECK(root_window);

	aura::Window* target_root_window = Shell::GetTargetRootWindow();
	CHECK(target_root_window);

	// The destroyed root window must not be target.
	CHECK_NE(target_root_window, root_window);
	// Don't redraw the old root window as it's being destroyed.
	SwitchTargetRootWindow(target_root_window, false);
	point_of_interest_ = target_root_window->bounds().CenterPoint();
	}
	}

	void MagnificationControllerImpl::OnWindowBoundsChanged(
	aura::Window* window,
	const gfx::Rect& old_bounds,
	const gfx::Rect& new_bounds) {
	// TODO(yoshiki): implement here. crbug.com/230979
	}

	void MagnificationControllerImpl::SwitchTargetRootWindow(
	aura::Window* new_root_window,
	bool redraw_original_root_window) {
	DCHECK(new_root_window);

	if (new_root_window == root_window_)
	return;

	// Stores the previous scale.
	float scale = GetScale();

	// Unmagnify the previous root window.
	root_window_->RemoveObserver(this);
	if (redraw_original_root_window)
	RedrawKeepingMousePosition(1.0f, true);

	root_window_ = new_root_window;
	RedrawKeepingMousePosition(scale, true);
	root_window_->AddObserver(this);
	}

	////////////////////////////////////////////////////////////////////////////////
	// MagnificationControllerImpl: MagnificationController implementation

	void MagnificationControllerImpl::SetScale(float scale, bool animate) {
	if (!is_enabled_)
	return;

	ValidateScale(&scale);
	ash::Shell::GetInstance()->accessibility_delegate()->
	SaveScreenMagnifierScale(scale);
	RedrawKeepingMousePosition(scale, animate);
	}

	void MagnificationControllerImpl::MoveWindow(int x, int y, bool animate) {
	if (!is_enabled_)
	return;

	Redraw(gfx::Point(x, y), scale_, animate);
	}

	void MagnificationControllerImpl::MoveWindow(const gfx::Point& point,
	bool animate) {
	if (!is_enabled_)
	return;

	Redraw(point, scale_, animate);
	}

	void MagnificationControllerImpl::EnsureRectIsVisible(
	const gfx::Rect& target_rect,
	bool animate) {
	if (!is_enabled_)
	return;

	EnsureRectIsVisibleWithScale(target_rect, scale_, animate);
	}

	void MagnificationControllerImpl::EnsurePointIsVisible(
	const gfx::Point& point,
	bool animate) {
	if (!is_enabled_)
	return;

	EnsurePointIsVisibleWithScale(point, scale_, animate);
	}

	void MagnificationControllerImpl::SetEnabled(bool enabled) {
	if (enabled) {
	float scale =
	ash::Shell::GetInstance()->accessibility_delegate()->
	GetSavedScreenMagnifierScale();
	if (scale <= 0.0f)
	scale = kInitialMagnifiedScale;
	ValidateScale(&scale);

	// Do nothing, if already enabled with same scale.
	if (is_enabled_ && scale == scale_)
	return;

	is_enabled_ = enabled;
	RedrawKeepingMousePosition(scale, true);
	ash::Shell::GetInstance()->accessibility_delegate()->
	SaveScreenMagnifierScale(scale);
	} else {
	// Do nothing, if already disabled.
	if (!is_enabled_)
	return;

	RedrawKeepingMousePosition(kNonMagnifiedScale, true);
	is_enabled_ = enabled;
	}
	}

	bool MagnificationControllerImpl::IsEnabled() const {
	return is_enabled_;
	}

	////////////////////////////////////////////////////////////////////////////////
	// MagnificationControllerImpl: aura::EventFilter implementation

	void MagnificationControllerImpl::OnMouseEvent(ui::MouseEvent* event) {
	aura::Window* target = static_cast<aura::Window*>(event->target());
	aura::Window* current_root = target->GetRootWindow();
	gfx::Rect root_bounds = current_root->bounds();

	if (root_bounds.Contains(event->root_location())) {
	// This must be before \|SwitchTargetRootWindow()\|.
	point_of_interest_ = event->root_location();

	if (current_root != root_window_) {
	DCHECK(current_root);
	SwitchTargetRootWindow(current_root, true);
	}

	if (IsMagnified() && event->type() == ui::ET_MOUSE_MOVED)
	OnMouseMove(event->root_location());
	}
	}

	void MagnificationControllerImpl::OnScrollEvent(ui::ScrollEvent* event) {
	if (event->IsAltDown() && event->IsControlDown()) {
	if (event->type() == ui::ET_SCROLL_FLING_START \|\|
	event->type() == ui::ET_SCROLL_FLING_CANCEL) {
	event->StopPropagation();
	return;
	}

	if (event->type() == ui::ET_SCROLL) {
	ui::ScrollEvent* scroll_event = static_cast<ui::ScrollEvent*>(event);
	float scale = GetScale();
	scale += scroll_event->y_offset() * kScrollScaleChangeFactor;
	SetScale(scale, true);
	event->StopPropagation();
	return;
	}
	}
	}

	void MagnificationControllerImpl::OnTouchEvent(ui::TouchEvent* event) {
	aura::Window* target = static_cast<aura::Window*>(event->target());
	aura::Window* current_root = target->GetRootWindow();
	if (current_root == root_window_) {
	gfx::Rect root_bounds = current_root->bounds();
	if (root_bounds.Contains(event->root_location()))
	point_of_interest_ = event->root_location();
	}
	}

	////////////////////////////////////////////////////////////////////////////////
	// MagnificationController:

	// static
	MagnificationController* MagnificationController::CreateInstance() {
	return new MagnificationControllerImpl();
	}

	} // namespace ash