ash/wm/window_animations.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 "ash/wm/window_animations.h"

 #include <math.h>

 #include <algorithm>
 #include <vector>

 #include "ash/screen_util.h"
 #include "ash/shelf/shelf.h"
 #include "ash/shelf/shelf_layout_manager.h"
 #include "ash/shelf/shelf_widget.h"
 #include "ash/shell.h"
 #include "ash/wm/window_util.h"
 #include "ash/wm/workspace_controller.h"
 #include "base/command_line.h"
 #include "base/compiler_specific.h"
 #include "base/logging.h"
 #include "base/message_loop/message_loop.h"
 #include "base/stl_util.h"
 #include "base/time/time.h"
 #include "ui/aura/client/aura_constants.h"
 #include "ui/aura/window.h"
 #include "ui/aura/window_observer.h"
 #include "ui/aura/window_property.h"
 #include "ui/compositor/compositor_observer.h"
 #include "ui/compositor/layer.h"
 #include "ui/compositor/layer_animation_observer.h"
 #include "ui/compositor/layer_animation_sequence.h"
 #include "ui/compositor/layer_animator.h"
 #include "ui/compositor/layer_tree_owner.h"
 #include "ui/compositor/scoped_layer_animation_settings.h"
 #include "ui/gfx/interpolated_transform.h"
 #include "ui/gfx/screen.h"
 #include "ui/gfx/vector3d_f.h"
 #include "ui/views/view.h"
 #include "ui/views/widget/widget.h"
 #include "ui/wm/core/window_util.h"

 namespace ash {
 namespace {
 const int kLayerAnimationsForMinimizeDurationMS = 200;

 // Durations for the cross-fade animation, in milliseconds.
 const float kCrossFadeDurationMinMs = 200.f;
 const float kCrossFadeDurationMaxMs = 400.f;

 // Durations for the brightness/grayscale fade animation, in milliseconds.
 const int kBrightnessGrayscaleFadeDurationMs = 1000;

 // Brightness/grayscale values for hide/show window animations.
 const float kWindowAnimation_HideBrightnessGrayscale = 1.f;
 const float kWindowAnimation_ShowBrightnessGrayscale = 0.f;

 const float kWindowAnimation_HideOpacity = 0.f;
 const float kWindowAnimation_ShowOpacity = 1.f;

 // Scales for AshWindow above/below current workspace.
 const float kLayerScaleAboveSize = 1.1f;
 const float kLayerScaleBelowSize = .9f;

 int64 Round64(float f) {
   return static_cast<int64>(f + 0.5f);
 }

 base::TimeDelta GetCrossFadeDuration(aura::Window* window,
                                      const gfx::Rect& old_bounds,
                                      const gfx::Rect& new_bounds) {
   if (::wm::WindowAnimationsDisabled(window))
     return base::TimeDelta();

   int old_area = old_bounds.width() * old_bounds.height();
   int new_area = new_bounds.width() * new_bounds.height();
   int max_area = std::max(old_area, new_area);
   // Avoid divide by zero.
   if (max_area == 0)
     return base::TimeDelta::FromMilliseconds(kCrossFadeDurationMS);

   int delta_area = std::abs(old_area - new_area);
   // If the area didn't change, the animation is instantaneous.
   if (delta_area == 0)
     return base::TimeDelta::FromMilliseconds(kCrossFadeDurationMS);

   float factor =
       static_cast<float>(delta_area) / static_cast<float>(max_area);
   const float kRange = kCrossFadeDurationMaxMs - kCrossFadeDurationMinMs;
   return base::TimeDelta::FromMilliseconds(
       Round64(kCrossFadeDurationMinMs + (factor * kRange)));
 }

 }  // namespace

 const int kCrossFadeDurationMS = 200;

 void AddLayerAnimationsForMinimize(aura::Window* window, bool show) {
   // Recalculate the transform at restore time since the launcher item may have
   // moved while the window was minimized.
   gfx::Rect bounds = window->bounds();
   gfx::Rect target_bounds = GetMinimizeAnimationTargetBoundsInScreen(window);
   target_bounds =
       ScreenUtil::ConvertRectFromScreen(window->parent(), target_bounds);

   float scale_x = static_cast<float>(target_bounds.width()) / bounds.width();
   float scale_y = static_cast<float>(target_bounds.height()) / bounds.height();

   scoped_ptr<ui::InterpolatedTransform> scale(
       new ui::InterpolatedScale(gfx::Point3F(1, 1, 1),
                                 gfx::Point3F(scale_x, scale_y, 1)));

   scoped_ptr<ui::InterpolatedTransform> translation(
       new ui::InterpolatedTranslation(
           gfx::Point(),
           gfx::Point(target_bounds.x() - bounds.x(),
                      target_bounds.y() - bounds.y())));

   scale->SetChild(translation.release());
   scale->SetReversed(show);

   base::TimeDelta duration = window->layer()->GetAnimator()->
       GetTransitionDuration();

   scoped_ptr<ui::LayerAnimationElement> transition(
       ui::LayerAnimationElement::CreateInterpolatedTransformElement(
           scale.release(), duration));

   transition->set_tween_type(
       show ? gfx::Tween::EASE_IN : gfx::Tween::EASE_IN_OUT);

   window->layer()->GetAnimator()->ScheduleAnimation(
       new ui::LayerAnimationSequence(transition.release()));

   // When hiding a window, turn off blending until the animation is 3 / 4 done
   // to save bandwidth and reduce jank.
   if (!show) {
     window->layer()->GetAnimator()->SchedulePauseForProperties(
         (duration * 3) / 4, ui::LayerAnimationElement::OPACITY);
   }

   // Fade in and out quickly when the window is small to reduce jank.
   float opacity = show ? 1.0f : 0.0f;
   window->layer()->GetAnimator()->ScheduleAnimation(
       new ui::LayerAnimationSequence(
           ui::LayerAnimationElement::CreateOpacityElement(
               opacity, duration / 4)));

   // Reset the transform to identity when the minimize animation is completed.
   window->layer()->GetAnimator()->ScheduleAnimation(
       new ui::LayerAnimationSequence(
           ui::LayerAnimationElement::CreateTransformElement(
               gfx::Transform(),
               base::TimeDelta())));
 }

 void AnimateShowWindow_Minimize(aura::Window* window) {
   window->layer()->SetOpacity(kWindowAnimation_HideOpacity);
   ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
   base::TimeDelta duration = base::TimeDelta::FromMilliseconds(
       kLayerAnimationsForMinimizeDurationMS);
   settings.SetTransitionDuration(duration);
   AddLayerAnimationsForMinimize(window, true);

   // Now that the window has been restored, we need to clear its animation style
   // to default so that normal animation applies.
   ::wm::SetWindowVisibilityAnimationType(
       window, ::wm::WINDOW_VISIBILITY_ANIMATION_TYPE_DEFAULT);
 }

 void AnimateHideWindow_Minimize(aura::Window* window) {
   // Property sets within this scope will be implicitly animated.
   ::wm::ScopedHidingAnimationSettings hiding_settings(window);
   base::TimeDelta duration = base::TimeDelta::FromMilliseconds(
       kLayerAnimationsForMinimizeDurationMS);
   hiding_settings.layer_animation_settings()->SetTransitionDuration(duration);
   window->layer()->SetVisible(false);

   AddLayerAnimationsForMinimize(window, false);
 }

 void AnimateShowHideWindowCommon_BrightnessGrayscale(aura::Window* window,
                                                      bool show) {
   float start_value, end_value;
   if (show) {
     start_value = kWindowAnimation_HideBrightnessGrayscale;
     end_value = kWindowAnimation_ShowBrightnessGrayscale;
   } else {
     start_value = kWindowAnimation_ShowBrightnessGrayscale;
     end_value = kWindowAnimation_HideBrightnessGrayscale;
   }

   window->layer()->SetLayerBrightness(start_value);
   window->layer()->SetLayerGrayscale(start_value);
   if (show) {
     window->layer()->SetOpacity(kWindowAnimation_ShowOpacity);
     window->layer()->SetVisible(true);
   }

   base::TimeDelta duration =
       base::TimeDelta::FromMilliseconds(kBrightnessGrayscaleFadeDurationMs);

   if (show) {
     ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
     window->layer()->GetAnimator()->
         ScheduleTogether(
             CreateBrightnessGrayscaleAnimationSequence(end_value, duration));
   } else {
     ::wm::ScopedHidingAnimationSettings hiding_settings(window);
     window->layer()->GetAnimator()->
         ScheduleTogether(
             CreateBrightnessGrayscaleAnimationSequence(end_value, duration));
     window->layer()->SetOpacity(kWindowAnimation_HideOpacity);
     window->layer()->SetVisible(false);
   }
 }

 void AnimateShowWindow_BrightnessGrayscale(aura::Window* window) {
   AnimateShowHideWindowCommon_BrightnessGrayscale(window, true);
 }

 void AnimateHideWindow_BrightnessGrayscale(aura::Window* window) {
   AnimateShowHideWindowCommon_BrightnessGrayscale(window, false);
 }

 bool AnimateShowWindow(aura::Window* window) {
   if (!::wm::HasWindowVisibilityAnimationTransition(
           window, ::wm::ANIMATE_SHOW)) {
     return false;
   }

   switch (::wm::GetWindowVisibilityAnimationType(window)) {
     case WINDOW_VISIBILITY_ANIMATION_TYPE_MINIMIZE:
       AnimateShowWindow_Minimize(window);
       return true;
     case WINDOW_VISIBILITY_ANIMATION_TYPE_BRIGHTNESS_GRAYSCALE:
       AnimateShowWindow_BrightnessGrayscale(window);
       return true;
     default:
       NOTREACHED();
       return false;
   }
 }

 bool AnimateHideWindow(aura::Window* window) {
   if (!::wm::HasWindowVisibilityAnimationTransition(
           window, ::wm::ANIMATE_HIDE)) {
     return false;
   }

   switch (::wm::GetWindowVisibilityAnimationType(window)) {
     case WINDOW_VISIBILITY_ANIMATION_TYPE_MINIMIZE:
       AnimateHideWindow_Minimize(window);
       return true;
     case WINDOW_VISIBILITY_ANIMATION_TYPE_BRIGHTNESS_GRAYSCALE:
       AnimateHideWindow_BrightnessGrayscale(window);
       return true;
     default:
       NOTREACHED();
       return false;
   }
 }

 // Observer for a window cross-fade animation. If either the window closes or
 // the layer's animation completes or compositing is aborted due to GPU crash,
 // it deletes the layer and removes itself as an observer.
 class CrossFadeObserver : public ui::CompositorObserver,
                           public aura::WindowObserver,
                           public ui::ImplicitAnimationObserver {
  public:
   // Observes |window| for destruction, but does not take ownership.
   // Takes ownership of |layer| and its child layers.
   CrossFadeObserver(aura::Window* window,
                     scoped_ptr<ui::LayerTreeOwner> layer_owner)
       : window_(window),
         layer_owner_(layer_owner.Pass()) {
     window_->AddObserver(this);
     layer_owner_->root()->GetCompositor()->AddObserver(this);
   }
   virtual ~CrossFadeObserver() {
     window_->RemoveObserver(this);
     window_ = NULL;
     layer_owner_->root()->GetCompositor()->RemoveObserver(this);
   }

   // ui::CompositorObserver overrides:
   virtual void OnCompositingDidCommit(ui::Compositor* compositor) OVERRIDE {
   }
   virtual void OnCompositingStarted(ui::Compositor* compositor,
                                     base::TimeTicks start_time) OVERRIDE {
   }
   virtual void OnCompositingEnded(ui::Compositor* compositor) OVERRIDE {
   }
   virtual void OnCompositingAborted(ui::Compositor* compositor) OVERRIDE {
     // Triggers OnImplicitAnimationsCompleted() to be called and deletes us.
     layer_owner_->root()->GetAnimator()->StopAnimating();
   }
   virtual void OnCompositingLockStateChanged(
       ui::Compositor* compositor) OVERRIDE {
   }

   // aura::WindowObserver overrides:
   virtual void OnWindowDestroying(aura::Window* window) OVERRIDE {
     // Triggers OnImplicitAnimationsCompleted() to be called and deletes us.
     layer_owner_->root()->GetAnimator()->StopAnimating();
   }
   virtual void OnWindowRemovingFromRootWindow(aura::Window* window,
                                               aura::Window* new_root) OVERRIDE {
     layer_owner_->root()->GetAnimator()->StopAnimating();
   }

   // ui::ImplicitAnimationObserver overrides:
   virtual void OnImplicitAnimationsCompleted() OVERRIDE {
     delete this;
   }

  private:
   aura::Window* window_;  // not owned
   scoped_ptr<ui::LayerTreeOwner> layer_owner_;

   DISALLOW_COPY_AND_ASSIGN(CrossFadeObserver);
 };

 base::TimeDelta CrossFadeAnimation(
     aura::Window* window,
     scoped_ptr<ui::LayerTreeOwner> old_layer_owner,
     gfx::Tween::Type tween_type) {
   DCHECK(old_layer_owner->root());
   const gfx::Rect old_bounds(old_layer_owner->root()->bounds());
   const gfx::Rect new_bounds(window->bounds());
   const bool old_on_top = (old_bounds.width() > new_bounds.width());

   // Shorten the animation if there's not much visual movement.
   const base::TimeDelta duration = GetCrossFadeDuration(window,
                                                         old_bounds, new_bounds);

   // Scale up the old layer while translating to new position.
   {
     ui::Layer* old_layer = old_layer_owner->root();
     old_layer->GetAnimator()->StopAnimating();
     ui::ScopedLayerAnimationSettings settings(old_layer->GetAnimator());

     // Animation observer owns the old layer and deletes itself.
     settings.AddObserver(new CrossFadeObserver(window, old_layer_owner.Pass()));
     settings.SetTransitionDuration(duration);
     settings.SetTweenType(tween_type);
     gfx::Transform out_transform;
     float scale_x = static_cast<float>(new_bounds.width()) /
         static_cast<float>(old_bounds.width());
     float scale_y = static_cast<float>(new_bounds.height()) /
         static_cast<float>(old_bounds.height());
     out_transform.Translate(new_bounds.x() - old_bounds.x(),
                             new_bounds.y() - old_bounds.y());
     out_transform.Scale(scale_x, scale_y);
     old_layer->SetTransform(out_transform);
     if (old_on_top) {
       // The old layer is on top, and should fade out.  The new layer below will
       // stay opaque to block the desktop.
       old_layer->SetOpacity(kWindowAnimation_HideOpacity);
     }
     // In tests |old_layer| is deleted here, as animations have zero duration.
     old_layer = NULL;
   }

   // Set the new layer's current transform, such that the user sees a scaled
   // version of the window with the original bounds at the original position.
   gfx::Transform in_transform;
   const float scale_x = static_cast<float>(old_bounds.width()) /
       static_cast<float>(new_bounds.width());
   const float scale_y = static_cast<float>(old_bounds.height()) /
       static_cast<float>(new_bounds.height());
   in_transform.Translate(old_bounds.x() - new_bounds.x(),
                                old_bounds.y() - new_bounds.y());
   in_transform.Scale(scale_x, scale_y);
   window->layer()->SetTransform(in_transform);
   if (!old_on_top) {
     // The new layer is on top and should fade in.  The old layer below will
     // stay opaque and block the desktop.
     window->layer()->SetOpacity(kWindowAnimation_HideOpacity);
   }
   {
     // Animate the new layer to the identity transform, so the window goes to
     // its newly set bounds.
     ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
     settings.SetTransitionDuration(duration);
     settings.SetTweenType(tween_type);
     window->layer()->SetTransform(gfx::Transform());
     if (!old_on_top) {
       // New layer is on top, fade it in.
       window->layer()->SetOpacity(kWindowAnimation_ShowOpacity);
     }
   }
   return duration;
 }

 bool AnimateOnChildWindowVisibilityChanged(aura::Window* window, bool visible) {
   if (::wm::WindowAnimationsDisabled(window))
     return false;

   // Attempt to run CoreWm supplied animation types.
   if (::wm::AnimateOnChildWindowVisibilityChanged(window, visible))
     return true;

   // Otherwise try to run an Ash-specific animation.
   if (visible)
     return AnimateShowWindow(window);
   // Don't start hiding the window again if it's already being hidden.
   return window->layer()->GetTargetOpacity() != 0.0f &&
       AnimateHideWindow(window);
 }

 std::vector<ui::LayerAnimationSequence*>
 CreateBrightnessGrayscaleAnimationSequence(float target_value,
                                            base::TimeDelta duration) {
   gfx::Tween::Type animation_type = gfx::Tween::EASE_OUT;
   scoped_ptr<ui::LayerAnimationSequence> brightness_sequence(
       new ui::LayerAnimationSequence());
   scoped_ptr<ui::LayerAnimationSequence> grayscale_sequence(
       new ui::LayerAnimationSequence());

   scoped_ptr<ui::LayerAnimationElement> brightness_element(
       ui::LayerAnimationElement::CreateBrightnessElement(
           target_value, duration));
   brightness_element->set_tween_type(animation_type);
   brightness_sequence->AddElement(brightness_element.release());

   scoped_ptr<ui::LayerAnimationElement> grayscale_element(
       ui::LayerAnimationElement::CreateGrayscaleElement(
           target_value, duration));
   grayscale_element->set_tween_type(animation_type);
   grayscale_sequence->AddElement(grayscale_element.release());

   std::vector<ui::LayerAnimationSequence*> animations;
   animations.push_back(brightness_sequence.release());
   animations.push_back(grayscale_sequence.release());

   return animations;
 }

 // Returns scale related to the specified AshWindowScaleType.
 void SetTransformForScaleAnimation(ui::Layer* layer,
                                    LayerScaleAnimationDirection type) {
   const float scale =
       type == LAYER_SCALE_ANIMATION_ABOVE ? kLayerScaleAboveSize :
           kLayerScaleBelowSize;
   gfx::Transform transform;
   transform.Translate(-layer->bounds().width() * (scale - 1.0f) / 2,
                       -layer->bounds().height() * (scale - 1.0f) / 2);
   transform.Scale(scale, scale);
   layer->SetTransform(transform);
 }

 gfx::Rect GetMinimizeAnimationTargetBoundsInScreen(aura::Window* window) {
   Shelf* shelf = Shelf::ForWindow(window);
   // Shelf is created lazily and can be NULL.
   if (!shelf)
     return gfx::Rect();
   gfx::Rect item_rect = shelf->GetScreenBoundsOfItemIconForWindow(window);

   // The launcher item is visible and has an icon.
   if (!item_rect.IsEmpty())
     return item_rect;

   // If both the icon width and height are 0, then there is no icon in the
   // launcher for |window|. If the launcher is auto hidden, one of the height or
   // width will be 0 but the position in the launcher and the major dimension
   // are still reported correctly and the window can be animated to the launcher
   // item's light bar.
   ShelfLayoutManager* layout_manager = ShelfLayoutManager::ForShelf(window);
   if (item_rect.width() != 0 || item_rect.height() != 0) {
     if (layout_manager->visibility_state() == SHELF_AUTO_HIDE) {
       gfx::Rect shelf_bounds = shelf->shelf_widget()->GetWindowBoundsInScreen();
       switch (layout_manager->GetAlignment()) {
         case SHELF_ALIGNMENT_BOTTOM:
           item_rect.set_y(shelf_bounds.y());
           break;
         case SHELF_ALIGNMENT_LEFT:
           item_rect.set_x(shelf_bounds.right());
           break;
         case SHELF_ALIGNMENT_RIGHT:
           item_rect.set_x(shelf_bounds.x());
           break;
         case SHELF_ALIGNMENT_TOP:
           item_rect.set_y(shelf_bounds.bottom());
           break;
       }
       return item_rect;
     }
   }

   // Coming here, there is no visible icon of that shelf item and we zoom back
   // to the location of the application launcher (which is fixed as first item
   // of the shelf).
   gfx::Rect work_area =
       Shell::GetScreen()->GetDisplayNearestWindow(window).work_area();
   int ltr_adjusted_x = base::i18n::IsRTL() ? work_area.right() : work_area.x();
   switch (layout_manager->GetAlignment()) {
     case SHELF_ALIGNMENT_BOTTOM:
       return gfx::Rect(ltr_adjusted_x, work_area.bottom(), 0, 0);
     case SHELF_ALIGNMENT_TOP:
       return gfx::Rect(ltr_adjusted_x, work_area.y(), 0, 0);
     case SHELF_ALIGNMENT_LEFT:
       return gfx::Rect(work_area.x(), work_area.y(), 0, 0);
     case SHELF_ALIGNMENT_RIGHT:
       return gfx::Rect(work_area.right(), work_area.y(), 0, 0);
   }
   NOTREACHED();
   return gfx::Rect();
 }

 }  // 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/wm/window_animations.h"

	#include <math.h>

	#include <algorithm>
	#include <vector>

	#include "ash/screen_util.h"
	#include "ash/shelf/shelf.h"
	#include "ash/shelf/shelf_layout_manager.h"
	#include "ash/shelf/shelf_widget.h"
	#include "ash/shell.h"
	#include "ash/wm/window_util.h"
	#include "ash/wm/workspace_controller.h"
	#include "base/command_line.h"
	#include "base/compiler_specific.h"
	#include "base/logging.h"
	#include "base/message_loop/message_loop.h"
	#include "base/stl_util.h"
	#include "base/time/time.h"
	#include "ui/aura/client/aura_constants.h"
	#include "ui/aura/window.h"
	#include "ui/aura/window_observer.h"
	#include "ui/aura/window_property.h"
	#include "ui/compositor/compositor_observer.h"
	#include "ui/compositor/layer.h"
	#include "ui/compositor/layer_animation_observer.h"
	#include "ui/compositor/layer_animation_sequence.h"
	#include "ui/compositor/layer_animator.h"
	#include "ui/compositor/layer_tree_owner.h"
	#include "ui/compositor/scoped_layer_animation_settings.h"
	#include "ui/gfx/interpolated_transform.h"
	#include "ui/gfx/screen.h"
	#include "ui/gfx/vector3d_f.h"
	#include "ui/views/view.h"
	#include "ui/views/widget/widget.h"
	#include "ui/wm/core/window_util.h"

	namespace ash {
	namespace {
	const int kLayerAnimationsForMinimizeDurationMS = 200;

	// Durations for the cross-fade animation, in milliseconds.
	const float kCrossFadeDurationMinMs = 200.f;
	const float kCrossFadeDurationMaxMs = 400.f;

	// Durations for the brightness/grayscale fade animation, in milliseconds.
	const int kBrightnessGrayscaleFadeDurationMs = 1000;

	// Brightness/grayscale values for hide/show window animations.
	const float kWindowAnimation_HideBrightnessGrayscale = 1.f;
	const float kWindowAnimation_ShowBrightnessGrayscale = 0.f;

	const float kWindowAnimation_HideOpacity = 0.f;
	const float kWindowAnimation_ShowOpacity = 1.f;

	// Scales for AshWindow above/below current workspace.
	const float kLayerScaleAboveSize = 1.1f;
	const float kLayerScaleBelowSize = .9f;

	int64 Round64(float f) {
	return static_cast<int64>(f + 0.5f);
	}

	base::TimeDelta GetCrossFadeDuration(aura::Window* window,
	const gfx::Rect& old_bounds,
	const gfx::Rect& new_bounds) {
	if (::wm::WindowAnimationsDisabled(window))
	return base::TimeDelta();

	int old_area = old_bounds.width() * old_bounds.height();
	int new_area = new_bounds.width() * new_bounds.height();
	int max_area = std::max(old_area, new_area);
	// Avoid divide by zero.
	if (max_area == 0)
	return base::TimeDelta::FromMilliseconds(kCrossFadeDurationMS);

	int delta_area = std::abs(old_area - new_area);
	// If the area didn't change, the animation is instantaneous.
	if (delta_area == 0)
	return base::TimeDelta::FromMilliseconds(kCrossFadeDurationMS);

	float factor =
	static_cast<float>(delta_area) / static_cast<float>(max_area);
	const float kRange = kCrossFadeDurationMaxMs - kCrossFadeDurationMinMs;
	return base::TimeDelta::FromMilliseconds(
	Round64(kCrossFadeDurationMinMs + (factor * kRange)));
	}

	} // namespace

	const int kCrossFadeDurationMS = 200;

	void AddLayerAnimationsForMinimize(aura::Window* window, bool show) {
	// Recalculate the transform at restore time since the launcher item may have
	// moved while the window was minimized.
	gfx::Rect bounds = window->bounds();
	gfx::Rect target_bounds = GetMinimizeAnimationTargetBoundsInScreen(window);
	target_bounds =
	ScreenUtil::ConvertRectFromScreen(window->parent(), target_bounds);

	float scale_x = static_cast<float>(target_bounds.width()) / bounds.width();
	float scale_y = static_cast<float>(target_bounds.height()) / bounds.height();

	scoped_ptr<ui::InterpolatedTransform> scale(
	new ui::InterpolatedScale(gfx::Point3F(1, 1, 1),
	gfx::Point3F(scale_x, scale_y, 1)));

	scoped_ptr<ui::InterpolatedTransform> translation(
	new ui::InterpolatedTranslation(
	gfx::Point(),
	gfx::Point(target_bounds.x() - bounds.x(),
	target_bounds.y() - bounds.y())));

	scale->SetChild(translation.release());
	scale->SetReversed(show);

	base::TimeDelta duration = window->layer()->GetAnimator()->
	GetTransitionDuration();

	scoped_ptr<ui::LayerAnimationElement> transition(
	ui::LayerAnimationElement::CreateInterpolatedTransformElement(
	scale.release(), duration));

	transition->set_tween_type(
	show ? gfx::Tween::EASE_IN : gfx::Tween::EASE_IN_OUT);

	window->layer()->GetAnimator()->ScheduleAnimation(
	new ui::LayerAnimationSequence(transition.release()));

	// When hiding a window, turn off blending until the animation is 3 / 4 done
	// to save bandwidth and reduce jank.
	if (!show) {
	window->layer()->GetAnimator()->SchedulePauseForProperties(
	(duration * 3) / 4, ui::LayerAnimationElement::OPACITY);
	}

	// Fade in and out quickly when the window is small to reduce jank.
	float opacity = show ? 1.0f : 0.0f;
	window->layer()->GetAnimator()->ScheduleAnimation(
	new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateOpacityElement(
	opacity, duration / 4)));

	// Reset the transform to identity when the minimize animation is completed.
	window->layer()->GetAnimator()->ScheduleAnimation(
	new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateTransformElement(
	gfx::Transform(),
	base::TimeDelta())));
	}

	void AnimateShowWindow_Minimize(aura::Window* window) {
	window->layer()->SetOpacity(kWindowAnimation_HideOpacity);
	ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
	base::TimeDelta duration = base::TimeDelta::FromMilliseconds(
	kLayerAnimationsForMinimizeDurationMS);
	settings.SetTransitionDuration(duration);
	AddLayerAnimationsForMinimize(window, true);

	// Now that the window has been restored, we need to clear its animation style
	// to default so that normal animation applies.
	::wm::SetWindowVisibilityAnimationType(
	window, ::wm::WINDOW_VISIBILITY_ANIMATION_TYPE_DEFAULT);
	}

	void AnimateHideWindow_Minimize(aura::Window* window) {
	// Property sets within this scope will be implicitly animated.
	::wm::ScopedHidingAnimationSettings hiding_settings(window);
	base::TimeDelta duration = base::TimeDelta::FromMilliseconds(
	kLayerAnimationsForMinimizeDurationMS);
	hiding_settings.layer_animation_settings()->SetTransitionDuration(duration);
	window->layer()->SetVisible(false);

	AddLayerAnimationsForMinimize(window, false);
	}

	void AnimateShowHideWindowCommon_BrightnessGrayscale(aura::Window* window,
	bool show) {
	float start_value, end_value;
	if (show) {
	start_value = kWindowAnimation_HideBrightnessGrayscale;
	end_value = kWindowAnimation_ShowBrightnessGrayscale;
	} else {
	start_value = kWindowAnimation_ShowBrightnessGrayscale;
	end_value = kWindowAnimation_HideBrightnessGrayscale;
	}

	window->layer()->SetLayerBrightness(start_value);
	window->layer()->SetLayerGrayscale(start_value);
	if (show) {
	window->layer()->SetOpacity(kWindowAnimation_ShowOpacity);
	window->layer()->SetVisible(true);
	}

	base::TimeDelta duration =
	base::TimeDelta::FromMilliseconds(kBrightnessGrayscaleFadeDurationMs);

	if (show) {
	ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
	window->layer()->GetAnimator()->
	ScheduleTogether(
	CreateBrightnessGrayscaleAnimationSequence(end_value, duration));
	} else {
	::wm::ScopedHidingAnimationSettings hiding_settings(window);
	window->layer()->GetAnimator()->
	ScheduleTogether(
	CreateBrightnessGrayscaleAnimationSequence(end_value, duration));
	window->layer()->SetOpacity(kWindowAnimation_HideOpacity);
	window->layer()->SetVisible(false);
	}
	}

	void AnimateShowWindow_BrightnessGrayscale(aura::Window* window) {
	AnimateShowHideWindowCommon_BrightnessGrayscale(window, true);
	}

	void AnimateHideWindow_BrightnessGrayscale(aura::Window* window) {
	AnimateShowHideWindowCommon_BrightnessGrayscale(window, false);
	}

	bool AnimateShowWindow(aura::Window* window) {
	if (!::wm::HasWindowVisibilityAnimationTransition(
	window, ::wm::ANIMATE_SHOW)) {
	return false;
	}

	switch (::wm::GetWindowVisibilityAnimationType(window)) {
	case WINDOW_VISIBILITY_ANIMATION_TYPE_MINIMIZE:
	AnimateShowWindow_Minimize(window);
	return true;
	case WINDOW_VISIBILITY_ANIMATION_TYPE_BRIGHTNESS_GRAYSCALE:
	AnimateShowWindow_BrightnessGrayscale(window);
	return true;
	default:
	NOTREACHED();
	return false;
	}
	}

	bool AnimateHideWindow(aura::Window* window) {
	if (!::wm::HasWindowVisibilityAnimationTransition(
	window, ::wm::ANIMATE_HIDE)) {
	return false;
	}

	switch (::wm::GetWindowVisibilityAnimationType(window)) {
	case WINDOW_VISIBILITY_ANIMATION_TYPE_MINIMIZE:
	AnimateHideWindow_Minimize(window);
	return true;
	case WINDOW_VISIBILITY_ANIMATION_TYPE_BRIGHTNESS_GRAYSCALE:
	AnimateHideWindow_BrightnessGrayscale(window);
	return true;
	default:
	NOTREACHED();
	return false;
	}
	}

	// Observer for a window cross-fade animation. If either the window closes or
	// the layer's animation completes or compositing is aborted due to GPU crash,
	// it deletes the layer and removes itself as an observer.
	class CrossFadeObserver : public ui::CompositorObserver,
	public aura::WindowObserver,
	public ui::ImplicitAnimationObserver {
	public:
	// Observes \|window\| for destruction, but does not take ownership.
	// Takes ownership of \|layer\| and its child layers.
	CrossFadeObserver(aura::Window* window,
	scoped_ptr<ui::LayerTreeOwner> layer_owner)
	: window_(window),
	layer_owner_(layer_owner.Pass()) {
	window_->AddObserver(this);
	layer_owner_->root()->GetCompositor()->AddObserver(this);
	}
	virtual ~CrossFadeObserver() {
	window_->RemoveObserver(this);
	window_ = NULL;
	layer_owner_->root()->GetCompositor()->RemoveObserver(this);
	}

	// ui::CompositorObserver overrides:
	virtual void OnCompositingDidCommit(ui::Compositor* compositor) OVERRIDE {
	}
	virtual void OnCompositingStarted(ui::Compositor* compositor,
	base::TimeTicks start_time) OVERRIDE {
	}
	virtual void OnCompositingEnded(ui::Compositor* compositor) OVERRIDE {
	}
	virtual void OnCompositingAborted(ui::Compositor* compositor) OVERRIDE {
	// Triggers OnImplicitAnimationsCompleted() to be called and deletes us.
	layer_owner_->root()->GetAnimator()->StopAnimating();
	}
	virtual void OnCompositingLockStateChanged(
	ui::Compositor* compositor) OVERRIDE {
	}

	// aura::WindowObserver overrides:
	virtual void OnWindowDestroying(aura::Window* window) OVERRIDE {
	// Triggers OnImplicitAnimationsCompleted() to be called and deletes us.
	layer_owner_->root()->GetAnimator()->StopAnimating();
	}
	virtual void OnWindowRemovingFromRootWindow(aura::Window* window,
	aura::Window* new_root) OVERRIDE {
	layer_owner_->root()->GetAnimator()->StopAnimating();
	}

	// ui::ImplicitAnimationObserver overrides:
	virtual void OnImplicitAnimationsCompleted() OVERRIDE {
	delete this;
	}

	private:
	aura::Window* window_; // not owned
	scoped_ptr<ui::LayerTreeOwner> layer_owner_;

	DISALLOW_COPY_AND_ASSIGN(CrossFadeObserver);
	};

	base::TimeDelta CrossFadeAnimation(
	aura::Window* window,
	scoped_ptr<ui::LayerTreeOwner> old_layer_owner,
	gfx::Tween::Type tween_type) {
	DCHECK(old_layer_owner->root());
	const gfx::Rect old_bounds(old_layer_owner->root()->bounds());
	const gfx::Rect new_bounds(window->bounds());
	const bool old_on_top = (old_bounds.width() > new_bounds.width());

	// Shorten the animation if there's not much visual movement.
	const base::TimeDelta duration = GetCrossFadeDuration(window,
	old_bounds, new_bounds);

	// Scale up the old layer while translating to new position.
	{
	ui::Layer* old_layer = old_layer_owner->root();
	old_layer->GetAnimator()->StopAnimating();
	ui::ScopedLayerAnimationSettings settings(old_layer->GetAnimator());

	// Animation observer owns the old layer and deletes itself.
	settings.AddObserver(new CrossFadeObserver(window, old_layer_owner.Pass()));
	settings.SetTransitionDuration(duration);
	settings.SetTweenType(tween_type);
	gfx::Transform out_transform;
	float scale_x = static_cast<float>(new_bounds.width()) /
	static_cast<float>(old_bounds.width());
	float scale_y = static_cast<float>(new_bounds.height()) /
	static_cast<float>(old_bounds.height());
	out_transform.Translate(new_bounds.x() - old_bounds.x(),
	new_bounds.y() - old_bounds.y());
	out_transform.Scale(scale_x, scale_y);
	old_layer->SetTransform(out_transform);
	if (old_on_top) {
	// The old layer is on top, and should fade out. The new layer below will
	// stay opaque to block the desktop.
	old_layer->SetOpacity(kWindowAnimation_HideOpacity);
	}
	// In tests \|old_layer\| is deleted here, as animations have zero duration.
	old_layer = NULL;
	}

	// Set the new layer's current transform, such that the user sees a scaled
	// version of the window with the original bounds at the original position.
	gfx::Transform in_transform;
	const float scale_x = static_cast<float>(old_bounds.width()) /
	static_cast<float>(new_bounds.width());
	const float scale_y = static_cast<float>(old_bounds.height()) /
	static_cast<float>(new_bounds.height());
	in_transform.Translate(old_bounds.x() - new_bounds.x(),
	old_bounds.y() - new_bounds.y());
	in_transform.Scale(scale_x, scale_y);
	window->layer()->SetTransform(in_transform);
	if (!old_on_top) {
	// The new layer is on top and should fade in. The old layer below will
	// stay opaque and block the desktop.
	window->layer()->SetOpacity(kWindowAnimation_HideOpacity);
	}
	{
	// Animate the new layer to the identity transform, so the window goes to
	// its newly set bounds.
	ui::ScopedLayerAnimationSettings settings(window->layer()->GetAnimator());
	settings.SetTransitionDuration(duration);
	settings.SetTweenType(tween_type);
	window->layer()->SetTransform(gfx::Transform());
	if (!old_on_top) {
	// New layer is on top, fade it in.
	window->layer()->SetOpacity(kWindowAnimation_ShowOpacity);
	}
	}
	return duration;
	}

	bool AnimateOnChildWindowVisibilityChanged(aura::Window* window, bool visible) {
	if (::wm::WindowAnimationsDisabled(window))
	return false;

	// Attempt to run CoreWm supplied animation types.
	if (::wm::AnimateOnChildWindowVisibilityChanged(window, visible))
	return true;

	// Otherwise try to run an Ash-specific animation.
	if (visible)
	return AnimateShowWindow(window);
	// Don't start hiding the window again if it's already being hidden.
	return window->layer()->GetTargetOpacity() != 0.0f &&
	AnimateHideWindow(window);
	}

	std::vector<ui::LayerAnimationSequence*>
	CreateBrightnessGrayscaleAnimationSequence(float target_value,
	base::TimeDelta duration) {
	gfx::Tween::Type animation_type = gfx::Tween::EASE_OUT;
	scoped_ptr<ui::LayerAnimationSequence> brightness_sequence(
	new ui::LayerAnimationSequence());
	scoped_ptr<ui::LayerAnimationSequence> grayscale_sequence(
	new ui::LayerAnimationSequence());

	scoped_ptr<ui::LayerAnimationElement> brightness_element(
	ui::LayerAnimationElement::CreateBrightnessElement(
	target_value, duration));
	brightness_element->set_tween_type(animation_type);
	brightness_sequence->AddElement(brightness_element.release());

	scoped_ptr<ui::LayerAnimationElement> grayscale_element(
	ui::LayerAnimationElement::CreateGrayscaleElement(
	target_value, duration));
	grayscale_element->set_tween_type(animation_type);
	grayscale_sequence->AddElement(grayscale_element.release());

	std::vector<ui::LayerAnimationSequence*> animations;
	animations.push_back(brightness_sequence.release());
	animations.push_back(grayscale_sequence.release());

	return animations;
	}

	// Returns scale related to the specified AshWindowScaleType.
	void SetTransformForScaleAnimation(ui::Layer* layer,
	LayerScaleAnimationDirection type) {
	const float scale =
	type == LAYER_SCALE_ANIMATION_ABOVE ? kLayerScaleAboveSize :
	kLayerScaleBelowSize;
	gfx::Transform transform;
	transform.Translate(-layer->bounds().width() * (scale - 1.0f) / 2,
	-layer->bounds().height() * (scale - 1.0f) / 2);
	transform.Scale(scale, scale);
	layer->SetTransform(transform);
	}

	gfx::Rect GetMinimizeAnimationTargetBoundsInScreen(aura::Window* window) {
	Shelf* shelf = Shelf::ForWindow(window);
	// Shelf is created lazily and can be NULL.
	if (!shelf)
	return gfx::Rect();
	gfx::Rect item_rect = shelf->GetScreenBoundsOfItemIconForWindow(window);

	// The launcher item is visible and has an icon.
	if (!item_rect.IsEmpty())
	return item_rect;

	// If both the icon width and height are 0, then there is no icon in the
	// launcher for \|window\|. If the launcher is auto hidden, one of the height or
	// width will be 0 but the position in the launcher and the major dimension
	// are still reported correctly and the window can be animated to the launcher
	// item's light bar.
	ShelfLayoutManager* layout_manager = ShelfLayoutManager::ForShelf(window);
	if (item_rect.width() != 0 \|\| item_rect.height() != 0) {
	if (layout_manager->visibility_state() == SHELF_AUTO_HIDE) {
	gfx::Rect shelf_bounds = shelf->shelf_widget()->GetWindowBoundsInScreen();
	switch (layout_manager->GetAlignment()) {
	case SHELF_ALIGNMENT_BOTTOM:
	item_rect.set_y(shelf_bounds.y());
	break;
	case SHELF_ALIGNMENT_LEFT:
	item_rect.set_x(shelf_bounds.right());
	break;
	case SHELF_ALIGNMENT_RIGHT:
	item_rect.set_x(shelf_bounds.x());
	break;
	case SHELF_ALIGNMENT_TOP:
	item_rect.set_y(shelf_bounds.bottom());
	break;
	}
	return item_rect;
	}
	}

	// Coming here, there is no visible icon of that shelf item and we zoom back
	// to the location of the application launcher (which is fixed as first item
	// of the shelf).
	gfx::Rect work_area =
	Shell::GetScreen()->GetDisplayNearestWindow(window).work_area();
	int ltr_adjusted_x = base::i18n::IsRTL() ? work_area.right() : work_area.x();
	switch (layout_manager->GetAlignment()) {
	case SHELF_ALIGNMENT_BOTTOM:
	return gfx::Rect(ltr_adjusted_x, work_area.bottom(), 0, 0);
	case SHELF_ALIGNMENT_TOP:
	return gfx::Rect(ltr_adjusted_x, work_area.y(), 0, 0);
	case SHELF_ALIGNMENT_LEFT:
	return gfx::Rect(work_area.x(), work_area.y(), 0, 0);
	case SHELF_ALIGNMENT_RIGHT:
	return gfx::Rect(work_area.right(), work_area.y(), 0, 0);
	}
	NOTREACHED();
	return gfx::Rect();
	}

	} // namespace ash