ash/wm/session_state_animator.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/wm/session_state_animator.h"

 #include "ash/shell.h"
 #include "ash/shell_window_ids.h"
 #include "ash/wm/window_animations.h"
 #include "ui/aura/client/aura_constants.h"
 #include "ui/aura/window_event_dispatcher.h"
 #include "ui/compositor/layer_animation_observer.h"
 #include "ui/compositor/layer_animation_sequence.h"
 #include "ui/compositor/scoped_layer_animation_settings.h"
 #include "ui/views/widget/widget.h"

 namespace ash {
 namespace {

 // Slightly-smaller size that we scale the screen down to for the pre-lock and
 // pre-shutdown states.
 const float kSlowCloseSizeRatio = 0.95f;

 // Maximum opacity of white layer when animating pre-shutdown state.
 const float kPartialFadeRatio = 0.3f;

 // Minimum size. Not zero as it causes numeric issues.
 const float kMinimumScale = 1e-4f;

 // Returns the transform that should be applied to containers for the slow-close
 // animation.
 gfx::Transform GetSlowCloseTransform() {
   gfx::Size root_size = Shell::GetPrimaryRootWindow()->bounds().size();
   gfx::Transform transform;
   transform.Translate(
       floor(0.5 * (1.0 - kSlowCloseSizeRatio) * root_size.width() + 0.5),
       floor(0.5 * (1.0 - kSlowCloseSizeRatio) * root_size.height() + 0.5));
   transform.Scale(kSlowCloseSizeRatio, kSlowCloseSizeRatio);
  return transform;
 }

 // Returns the transform that should be applied to containers for the fast-close
 // animation.
 gfx::Transform GetFastCloseTransform() {
   gfx::Size root_size = Shell::GetPrimaryRootWindow()->bounds().size();
   gfx::Transform transform;
   transform.Translate(floor(0.5 * root_size.width() + 0.5),
                       floor(0.5 * root_size.height() + 0.5));
   transform.Scale(kMinimumScale, kMinimumScale);
   return transform;
 }

 // Slowly shrinks |window| to a slightly-smaller size.
 void StartSlowCloseAnimationForWindow(aura::Window* window,
                                       base::TimeDelta duration,
                                       ui::LayerAnimationObserver* observer) {
   ui::LayerAnimator* animator = window->layer()->GetAnimator();
   animator->set_preemption_strategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
       ui::LayerAnimationElement::CreateTransformElement(
           GetSlowCloseTransform(),
           duration));
   if (observer)
     sequence->AddObserver(observer);
   animator->StartAnimation(sequence);
 }

 // Quickly undoes the effects of the slow-close animation on |window|.
 void StartUndoSlowCloseAnimationForWindow(
     aura::Window* window,
     base::TimeDelta duration,
     ui::LayerAnimationObserver* observer) {
   ui::LayerAnimator* animator = window->layer()->GetAnimator();
   animator->set_preemption_strategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
       ui::LayerAnimationElement::CreateTransformElement(
           gfx::Transform(),
           duration));
   if (observer)
     sequence->AddObserver(observer);
   animator->StartAnimation(sequence);
 }

 // Quickly shrinks |window| down to a point in the center of the screen and
 // fades it out to 0 opacity.
 void StartFastCloseAnimationForWindow(aura::Window* window,
                                       base::TimeDelta duration,
                                       ui::LayerAnimationObserver* observer) {
   ui::LayerAnimator* animator = window->layer()->GetAnimator();
   animator->set_preemption_strategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   animator->StartAnimation(
       new ui::LayerAnimationSequence(
           ui::LayerAnimationElement::CreateTransformElement(
               GetFastCloseTransform(), duration)));
   ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
       ui::LayerAnimationElement::CreateOpacityElement(0.0, duration));
   if (observer)
     sequence->AddObserver(observer);
   animator->StartAnimation(sequence);
 }

 // Fades |window| to |target_opacity| over |duration|.
 void StartPartialFadeAnimation(aura::Window* window,
                                float target_opacity,
                                base::TimeDelta duration,
                                ui::LayerAnimationObserver* observer) {
   ui::LayerAnimator* animator = window->layer()->GetAnimator();
   animator->set_preemption_strategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
       ui::LayerAnimationElement::CreateOpacityElement(
           target_opacity, duration));
   if (observer)
     sequence->AddObserver(observer);
   animator->StartAnimation(sequence);
 }

 // Fades |window| to |opacity| over |duration|.
 void StartOpacityAnimationForWindow(aura::Window* window,
                                     float opacity,
                                     base::TimeDelta duration,
                                     ui::LayerAnimationObserver* observer) {
   ui::LayerAnimator* animator = window->layer()->GetAnimator();
   animator->set_preemption_strategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
       ui::LayerAnimationElement::CreateOpacityElement(opacity, duration));
   if (observer)
     sequence->AddObserver(observer);
   animator->StartAnimation(sequence);
 }

 // Makes |window| fully transparent instantaneously.
 void HideWindowImmediately(aura::Window* window,
                            ui::LayerAnimationObserver* observer) {
   window->layer()->SetOpacity(0.0);
   if (observer)
     observer->OnLayerAnimationEnded(NULL);
 }

 // Restores |window| to its original position and scale and full opacity
 // instantaneously.
 void RestoreWindow(aura::Window* window, ui::LayerAnimationObserver* observer) {
   window->layer()->SetTransform(gfx::Transform());
   window->layer()->SetOpacity(1.0);
   if (observer)
     observer->OnLayerAnimationEnded(NULL);
 }

 void HideWindow(aura::Window* window,
                 base::TimeDelta duration,
                 bool above,
                 ui::LayerAnimationObserver* observer) {
   ui::Layer* layer = window->layer();
   ui::ScopedLayerAnimationSettings settings(layer->GetAnimator());

   settings.SetPreemptionStrategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   settings.SetTransitionDuration(duration);

   settings.SetTweenType(gfx::Tween::EASE_OUT);
   SetTransformForScaleAnimation(layer,
       above ? LAYER_SCALE_ANIMATION_ABOVE : LAYER_SCALE_ANIMATION_BELOW);

   settings.SetTweenType(gfx::Tween::EASE_IN_OUT);
   layer->SetOpacity(0.0f);

   // After the animation completes snap the transform back to the identity,
   // otherwise any one that asks for screen bounds gets a slightly scaled
   // version.
   settings.SetPreemptionStrategy(ui::LayerAnimator::ENQUEUE_NEW_ANIMATION);
   settings.SetTransitionDuration(base::TimeDelta());
   layer->SetTransform(gfx::Transform());

   // A bit of a dirty trick: we need to catch the end of the animation we don't
   // control. So we use two facts we know: which animator will be used and the
   // target opacity to add "Do nothing" animation sequence.
   // Unfortunately, we can not just use empty LayerAnimationSequence, because
   // it does not call NotifyEnded().
   if (observer) {
     ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
         ui::LayerAnimationElement::CreateOpacityElement(
             0.0, base::TimeDelta()));
       sequence->AddObserver(observer);
     layer->GetAnimator()->ScheduleAnimation(sequence);
   }
 }

 // Animates |window| to identity transform and full opacity over |duration|.
 void TransformWindowToBaseState(aura::Window* window,
                                 base::TimeDelta duration,
                                 ui::LayerAnimationObserver* observer) {
   ui::Layer* layer = window->layer();
   ui::ScopedLayerAnimationSettings settings(layer->GetAnimator());

   // Animate to target values.
   settings.SetPreemptionStrategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   settings.SetTransitionDuration(duration);

   settings.SetTweenType(gfx::Tween::EASE_OUT);
   layer->SetTransform(gfx::Transform());

   settings.SetTweenType(gfx::Tween::EASE_IN_OUT);
   layer->SetOpacity(1.0f);

   // A bit of a dirty trick: we need to catch the end of the animation we don't
   // control. So we use two facts we know: which animator will be used and the
   // target opacity to add "Do nothing" animation sequence.
   // Unfortunately, we can not just use empty LayerAnimationSequence, because
   // it does not call NotifyEnded().
   if (observer) {
     ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
         ui::LayerAnimationElement::CreateOpacityElement(
             1.0, base::TimeDelta()));
     sequence->AddObserver(observer);
     layer->GetAnimator()->ScheduleAnimation(sequence);
   }
 }

 void ShowWindow(aura::Window* window,
                 base::TimeDelta duration,
                 bool above,
                 ui::LayerAnimationObserver* observer) {
   ui::Layer* layer = window->layer();
   ui::ScopedLayerAnimationSettings settings(layer->GetAnimator());

   // Set initial state of animation
   settings.SetPreemptionStrategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
   settings.SetTransitionDuration(base::TimeDelta());
   SetTransformForScaleAnimation(layer,
       above ? LAYER_SCALE_ANIMATION_ABOVE : LAYER_SCALE_ANIMATION_BELOW);

   TransformWindowToBaseState(window, duration, observer);
 }

 // Starts grayscale/brightness animation for |window| over |duration|. Target
 // value for both grayscale and brightness are specified by |target|.
 void StartGrayscaleBrightnessAnimationForWindow(
     aura::Window* window,
     float target,
     base::TimeDelta duration,
     gfx::Tween::Type tween_type,
     ui::LayerAnimationObserver* observer) {
   ui::LayerAnimator* animator = window->layer()->GetAnimator();

   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, duration));
   brightness_element->set_tween_type(tween_type);
   brightness_sequence->AddElement(brightness_element.release());

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

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

   if (observer)
     animations[0]->AddObserver(observer);

   animator->set_preemption_strategy(
       ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);

   animator->StartTogether(animations);
 }

 // Animation observer that will drop animated foreground once animation is
 // finished. It is used in when undoing shutdown animation.
 class CallbackAnimationObserver : public ui::LayerAnimationObserver {
  public:
   explicit CallbackAnimationObserver(base::Callback<void(void)> &callback)
       : callback_(callback) {
   }
   virtual ~CallbackAnimationObserver() {
   }

  private:
   // Overridden from ui::LayerAnimationObserver:
   virtual void OnLayerAnimationEnded(ui::LayerAnimationSequence* seq)
       OVERRIDE {
     // Drop foreground once animation is over.
     callback_.Run();
     delete this;
   }

   virtual void OnLayerAnimationAborted(ui::LayerAnimationSequence* seq)
       OVERRIDE {
     // Drop foreground once animation is over.
     callback_.Run();
     delete this;
   }

   virtual void OnLayerAnimationScheduled(ui::LayerAnimationSequence* seq)
       OVERRIDE {}

   base::Callback<void(void)> callback_;

   DISALLOW_COPY_AND_ASSIGN(CallbackAnimationObserver);
 };


 bool IsLayerAnimated(ui::Layer* layer,
                      SessionStateAnimator::AnimationType type) {
   switch (type) {
     case SessionStateAnimator::ANIMATION_PARTIAL_CLOSE:
       if (layer->GetTargetTransform() != GetSlowCloseTransform())
         return false;
       break;
     case SessionStateAnimator::ANIMATION_UNDO_PARTIAL_CLOSE:
       if (layer->GetTargetTransform() != gfx::Transform())
         return false;
       break;
     case SessionStateAnimator::ANIMATION_FULL_CLOSE:
       if (layer->GetTargetTransform() != GetFastCloseTransform() ||
           layer->GetTargetOpacity() > 0.0001)
         return false;
       break;
     case SessionStateAnimator::ANIMATION_FADE_IN:
       if (layer->GetTargetOpacity() < 0.9999)
         return false;
       break;
     case SessionStateAnimator::ANIMATION_FADE_OUT:
       if (layer->GetTargetOpacity() > 0.0001)
         return false;
       break;
     case SessionStateAnimator::ANIMATION_HIDE_IMMEDIATELY:
       if (layer->GetTargetOpacity() > 0.0001)
         return false;
       break;
     case SessionStateAnimator::ANIMATION_RESTORE:
       if (layer->opacity() < 0.9999 || layer->transform() != gfx::Transform())
         return false;
       break;
     case SessionStateAnimator::ANIMATION_GRAYSCALE_BRIGHTNESS:
       if ((layer->GetTargetBrightness() < 0.9999) ||
           (layer->GetTargetGrayscale() < 0.9999))
         return false;
       break;
     case SessionStateAnimator::ANIMATION_UNDO_GRAYSCALE_BRIGHTNESS:
       if ((layer->GetTargetBrightness() > 0.0001) ||
           (layer->GetTargetGrayscale() > 0.0001))
         return false;
       break;
     case SessionStateAnimator::ANIMATION_DROP:
     case SessionStateAnimator::ANIMATION_UNDO_LIFT:
       //ToDo(antim) : check other effects
       if (layer->GetTargetOpacity() < 0.9999)
         return false;
       break;
       //ToDo(antim) : check other effects
     case SessionStateAnimator::ANIMATION_LIFT:
       if (layer->GetTargetOpacity() > 0.0001)
         return false;
       break;
     case SessionStateAnimator::ANIMATION_RAISE_TO_SCREEN:
       //ToDo(antim) : check other effects
       if (layer->GetTargetOpacity() < 0.9999)
         return false;
       break;
       //ToDo(antim) : check other effects
     case SessionStateAnimator::ANIMATION_LOWER_BELOW_SCREEN:
       if (layer->GetTargetOpacity() > 0.0001)
         return false;
       break;
     default:
       NOTREACHED() << "Unhandled animation type " << type;
       return false;
   }
   return true;
 }

 }  // namespace

 bool SessionStateAnimator::TestApi::ContainersAreAnimated(
     int container_mask, AnimationType type) const {
   aura::Window::Windows containers;
   animator_->GetContainers(container_mask, &containers);
   for (aura::Window::Windows::const_iterator it = containers.begin();
        it != containers.end(); ++it) {
     aura::Window* window = *it;
     ui::Layer* layer = window->layer();
     if (!IsLayerAnimated(layer, type))
       return false;
   }
   return true;
 }

 bool SessionStateAnimator::TestApi::RootWindowIsAnimated(AnimationType type)
     const {
   aura::Window* root_window = Shell::GetPrimaryRootWindow();
   ui::Layer* layer = root_window->layer();
   return IsLayerAnimated(layer, type);
 }

 const int SessionStateAnimator::kAllLockScreenContainersMask =
     SessionStateAnimator::LOCK_SCREEN_BACKGROUND |
     SessionStateAnimator::LOCK_SCREEN_CONTAINERS |
     SessionStateAnimator::LOCK_SCREEN_RELATED_CONTAINERS;

 const int SessionStateAnimator::kAllContainersMask =
     SessionStateAnimator::kAllLockScreenContainersMask |
     SessionStateAnimator::DESKTOP_BACKGROUND |
     SessionStateAnimator::LAUNCHER |
     SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS;

 SessionStateAnimator::SessionStateAnimator() {
 }

 SessionStateAnimator::~SessionStateAnimator() {
 }

 base::TimeDelta SessionStateAnimator::GetDuration(AnimationSpeed speed) {
   switch (speed) {
     case ANIMATION_SPEED_IMMEDIATE:
       return base::TimeDelta();
     case ANIMATION_SPEED_UNDOABLE:
       return base::TimeDelta::FromMilliseconds(400);
     case ANIMATION_SPEED_REVERT:
       return base::TimeDelta::FromMilliseconds(150);
     case ANIMATION_SPEED_FAST:
       return base::TimeDelta::FromMilliseconds(150);
     case ANIMATION_SPEED_SHOW_LOCK_SCREEN:
       return base::TimeDelta::FromMilliseconds(200);
     case ANIMATION_SPEED_MOVE_WINDOWS:
       return base::TimeDelta::FromMilliseconds(350);
     case ANIMATION_SPEED_UNDO_MOVE_WINDOWS:
       return base::TimeDelta::FromMilliseconds(350);
     case ANIMATION_SPEED_SHUTDOWN:
       return base::TimeDelta::FromMilliseconds(1000);
     case ANIMATION_SPEED_REVERT_SHUTDOWN:
       return base::TimeDelta::FromMilliseconds(500);
   }
   // Satisfy compilers that do not understand that we will return from switch
   // above anyway.
   DCHECK(false) << "Unhandled animation speed " << speed;
   return base::TimeDelta();
 }

 // Fills |containers| with the containers described by |container_mask|.
 void SessionStateAnimator::GetContainers(int container_mask,
                                          aura::Window::Windows* containers) {
   aura::Window* root_window = Shell::GetPrimaryRootWindow();
   containers->clear();

   if (container_mask & DESKTOP_BACKGROUND) {
     containers->push_back(Shell::GetContainer(
         root_window, kShellWindowId_DesktopBackgroundContainer));
   }
   if (container_mask & LAUNCHER) {
     containers->push_back(
         Shell::GetContainer(root_window, kShellWindowId_ShelfContainer));
   }
   if (container_mask & NON_LOCK_SCREEN_CONTAINERS) {
     // TODO(antrim): Figure out a way to eliminate a need to exclude launcher
     // in such way.
     aura::Window* non_lock_screen_containers = Shell::GetContainer(
         root_window, kShellWindowId_NonLockScreenContainersContainer);
     aura::Window::Windows children = non_lock_screen_containers->children();

     for (aura::Window::Windows::const_iterator it = children.begin();
          it != children.end(); ++it) {
       aura::Window* window = *it;
       if (window->id() == kShellWindowId_ShelfContainer)
         continue;
       containers->push_back(window);
     }
   }
   if (container_mask & LOCK_SCREEN_BACKGROUND) {
     containers->push_back(Shell::GetContainer(
         root_window, kShellWindowId_LockScreenBackgroundContainer));
   }
   if (container_mask & LOCK_SCREEN_CONTAINERS) {
     containers->push_back(Shell::GetContainer(
         root_window, kShellWindowId_LockScreenContainersContainer));
   }
   if (container_mask & LOCK_SCREEN_RELATED_CONTAINERS) {
     containers->push_back(Shell::GetContainer(
         root_window, kShellWindowId_LockScreenRelatedContainersContainer));
   }
 }

 void SessionStateAnimator::StartAnimation(int container_mask,
                                           AnimationType type,
                                           AnimationSpeed speed) {
   aura::Window::Windows containers;
   GetContainers(container_mask, &containers);
   for (aura::Window::Windows::const_iterator it = containers.begin();
        it != containers.end(); ++it) {
     RunAnimationForWindow(*it, type, speed, NULL);
   }
 }

 void SessionStateAnimator::StartAnimationWithCallback(
     int container_mask,
     AnimationType type,
     AnimationSpeed speed,
     base::Callback<void(void)>& callback) {
   aura::Window::Windows containers;
   GetContainers(container_mask, &containers);
   for (aura::Window::Windows::const_iterator it = containers.begin();
        it != containers.end(); ++it) {
     ui::LayerAnimationObserver* observer =
         new CallbackAnimationObserver(callback);
     RunAnimationForWindow(*it, type, speed, observer);
   }
 }

 void SessionStateAnimator::StartAnimationWithObserver(
     int container_mask,
     AnimationType type,
     AnimationSpeed speed,
     ui::LayerAnimationObserver* observer) {
   aura::Window::Windows containers;
   GetContainers(container_mask, &containers);
   for (aura::Window::Windows::const_iterator it = containers.begin();
        it != containers.end(); ++it) {
     RunAnimationForWindow(*it, type, speed, observer);
   }
 }

 void SessionStateAnimator::StartGlobalAnimation(AnimationType type,
                                                 AnimationSpeed speed) {
   aura::Window* root_window = Shell::GetPrimaryRootWindow();
   RunAnimationForWindow(root_window, type, speed, NULL);
 }

 void SessionStateAnimator::RunAnimationForWindow(
     aura::Window* window,
     AnimationType type,
     AnimationSpeed speed,
     ui::LayerAnimationObserver* observer) {
   base::TimeDelta duration = GetDuration(speed);

   switch (type) {
     case ANIMATION_PARTIAL_CLOSE:
       StartSlowCloseAnimationForWindow(window, duration, observer);
       break;
     case ANIMATION_UNDO_PARTIAL_CLOSE:
       StartUndoSlowCloseAnimationForWindow(window, duration, observer);
       break;
     case ANIMATION_FULL_CLOSE:
       StartFastCloseAnimationForWindow(window, duration, observer);
       break;
     case ANIMATION_FADE_IN:
       StartOpacityAnimationForWindow(window, 1.0, duration, observer);
       break;
     case ANIMATION_FADE_OUT:
       StartOpacityAnimationForWindow(window, 0.0, duration, observer);
       break;
     case ANIMATION_HIDE_IMMEDIATELY:
       DCHECK_EQ(speed, ANIMATION_SPEED_IMMEDIATE);
       HideWindowImmediately(window, observer);
       break;
     case ANIMATION_RESTORE:
       DCHECK_EQ(speed, ANIMATION_SPEED_IMMEDIATE);
       RestoreWindow(window, observer);
       break;
     case ANIMATION_LIFT:
       HideWindow(window, duration, true, observer);
       break;
     case ANIMATION_DROP:
       ShowWindow(window, duration, true, observer);
       break;
     case ANIMATION_UNDO_LIFT:
       TransformWindowToBaseState(window, duration, observer);
       break;
     case ANIMATION_RAISE_TO_SCREEN:
       ShowWindow(window, duration, false, observer);
       break;
     case ANIMATION_LOWER_BELOW_SCREEN:
       HideWindow(window, duration, false, observer);
       break;
     case ANIMATION_PARTIAL_FADE_IN:
       StartPartialFadeAnimation(
           window, kPartialFadeRatio, duration, observer);
       break;
     case ANIMATION_UNDO_PARTIAL_FADE_IN:
       StartPartialFadeAnimation(window, 0.0, duration, observer);
       break;
     case ANIMATION_FULL_FADE_IN:
       StartPartialFadeAnimation(window, 1.0, duration, observer);
       break;
     case ANIMATION_GRAYSCALE_BRIGHTNESS:
       StartGrayscaleBrightnessAnimationForWindow(
           window, 1.0, duration, gfx::Tween::EASE_IN, observer);
       break;
     case ANIMATION_UNDO_GRAYSCALE_BRIGHTNESS:
       StartGrayscaleBrightnessAnimationForWindow(
           window, 0.0, duration, gfx::Tween::EASE_IN_OUT, observer);
       break;
   }
 }

 }  // 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/session_state_animator.h"

	#include "ash/shell.h"
	#include "ash/shell_window_ids.h"
	#include "ash/wm/window_animations.h"
	#include "ui/aura/client/aura_constants.h"
	#include "ui/aura/window_event_dispatcher.h"
	#include "ui/compositor/layer_animation_observer.h"
	#include "ui/compositor/layer_animation_sequence.h"
	#include "ui/compositor/scoped_layer_animation_settings.h"
	#include "ui/views/widget/widget.h"

	namespace ash {
	namespace {

	// Slightly-smaller size that we scale the screen down to for the pre-lock and
	// pre-shutdown states.
	const float kSlowCloseSizeRatio = 0.95f;

	// Maximum opacity of white layer when animating pre-shutdown state.
	const float kPartialFadeRatio = 0.3f;

	// Minimum size. Not zero as it causes numeric issues.
	const float kMinimumScale = 1e-4f;

	// Returns the transform that should be applied to containers for the slow-close
	// animation.
	gfx::Transform GetSlowCloseTransform() {
	gfx::Size root_size = Shell::GetPrimaryRootWindow()->bounds().size();
	gfx::Transform transform;
	transform.Translate(
	floor(0.5 * (1.0 - kSlowCloseSizeRatio) * root_size.width() + 0.5),
	floor(0.5 * (1.0 - kSlowCloseSizeRatio) * root_size.height() + 0.5));
	transform.Scale(kSlowCloseSizeRatio, kSlowCloseSizeRatio);
	return transform;
	}

	// Returns the transform that should be applied to containers for the fast-close
	// animation.
	gfx::Transform GetFastCloseTransform() {
	gfx::Size root_size = Shell::GetPrimaryRootWindow()->bounds().size();
	gfx::Transform transform;
	transform.Translate(floor(0.5 * root_size.width() + 0.5),
	floor(0.5 * root_size.height() + 0.5));
	transform.Scale(kMinimumScale, kMinimumScale);
	return transform;
	}

	// Slowly shrinks \|window\| to a slightly-smaller size.
	void StartSlowCloseAnimationForWindow(aura::Window* window,
	base::TimeDelta duration,
	ui::LayerAnimationObserver* observer) {
	ui::LayerAnimator* animator = window->layer()->GetAnimator();
	animator->set_preemption_strategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateTransformElement(
	GetSlowCloseTransform(),
	duration));
	if (observer)
	sequence->AddObserver(observer);
	animator->StartAnimation(sequence);
	}

	// Quickly undoes the effects of the slow-close animation on \|window\|.
	void StartUndoSlowCloseAnimationForWindow(
	aura::Window* window,
	base::TimeDelta duration,
	ui::LayerAnimationObserver* observer) {
	ui::LayerAnimator* animator = window->layer()->GetAnimator();
	animator->set_preemption_strategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateTransformElement(
	gfx::Transform(),
	duration));
	if (observer)
	sequence->AddObserver(observer);
	animator->StartAnimation(sequence);
	}

	// Quickly shrinks \|window\| down to a point in the center of the screen and
	// fades it out to 0 opacity.
	void StartFastCloseAnimationForWindow(aura::Window* window,
	base::TimeDelta duration,
	ui::LayerAnimationObserver* observer) {
	ui::LayerAnimator* animator = window->layer()->GetAnimator();
	animator->set_preemption_strategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	animator->StartAnimation(
	new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateTransformElement(
	GetFastCloseTransform(), duration)));
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateOpacityElement(0.0, duration));
	if (observer)
	sequence->AddObserver(observer);
	animator->StartAnimation(sequence);
	}

	// Fades \|window\| to \|target_opacity\| over \|duration\|.
	void StartPartialFadeAnimation(aura::Window* window,
	float target_opacity,
	base::TimeDelta duration,
	ui::LayerAnimationObserver* observer) {
	ui::LayerAnimator* animator = window->layer()->GetAnimator();
	animator->set_preemption_strategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateOpacityElement(
	target_opacity, duration));
	if (observer)
	sequence->AddObserver(observer);
	animator->StartAnimation(sequence);
	}

	// Fades \|window\| to \|opacity\| over \|duration\|.
	void StartOpacityAnimationForWindow(aura::Window* window,
	float opacity,
	base::TimeDelta duration,
	ui::LayerAnimationObserver* observer) {
	ui::LayerAnimator* animator = window->layer()->GetAnimator();
	animator->set_preemption_strategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateOpacityElement(opacity, duration));
	if (observer)
	sequence->AddObserver(observer);
	animator->StartAnimation(sequence);
	}

	// Makes \|window\| fully transparent instantaneously.
	void HideWindowImmediately(aura::Window* window,
	ui::LayerAnimationObserver* observer) {
	window->layer()->SetOpacity(0.0);
	if (observer)
	observer->OnLayerAnimationEnded(NULL);
	}

	// Restores \|window\| to its original position and scale and full opacity
	// instantaneously.
	void RestoreWindow(aura::Window* window, ui::LayerAnimationObserver* observer) {
	window->layer()->SetTransform(gfx::Transform());
	window->layer()->SetOpacity(1.0);
	if (observer)
	observer->OnLayerAnimationEnded(NULL);
	}

	void HideWindow(aura::Window* window,
	base::TimeDelta duration,
	bool above,
	ui::LayerAnimationObserver* observer) {
	ui::Layer* layer = window->layer();
	ui::ScopedLayerAnimationSettings settings(layer->GetAnimator());

	settings.SetPreemptionStrategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	settings.SetTransitionDuration(duration);

	settings.SetTweenType(gfx::Tween::EASE_OUT);
	SetTransformForScaleAnimation(layer,
	above ? LAYER_SCALE_ANIMATION_ABOVE : LAYER_SCALE_ANIMATION_BELOW);

	settings.SetTweenType(gfx::Tween::EASE_IN_OUT);
	layer->SetOpacity(0.0f);

	// After the animation completes snap the transform back to the identity,
	// otherwise any one that asks for screen bounds gets a slightly scaled
	// version.
	settings.SetPreemptionStrategy(ui::LayerAnimator::ENQUEUE_NEW_ANIMATION);
	settings.SetTransitionDuration(base::TimeDelta());
	layer->SetTransform(gfx::Transform());

	// A bit of a dirty trick: we need to catch the end of the animation we don't
	// control. So we use two facts we know: which animator will be used and the
	// target opacity to add "Do nothing" animation sequence.
	// Unfortunately, we can not just use empty LayerAnimationSequence, because
	// it does not call NotifyEnded().
	if (observer) {
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateOpacityElement(
	0.0, base::TimeDelta()));
	sequence->AddObserver(observer);
	layer->GetAnimator()->ScheduleAnimation(sequence);
	}
	}

	// Animates \|window\| to identity transform and full opacity over \|duration\|.
	void TransformWindowToBaseState(aura::Window* window,
	base::TimeDelta duration,
	ui::LayerAnimationObserver* observer) {
	ui::Layer* layer = window->layer();
	ui::ScopedLayerAnimationSettings settings(layer->GetAnimator());

	// Animate to target values.
	settings.SetPreemptionStrategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	settings.SetTransitionDuration(duration);

	settings.SetTweenType(gfx::Tween::EASE_OUT);
	layer->SetTransform(gfx::Transform());

	settings.SetTweenType(gfx::Tween::EASE_IN_OUT);
	layer->SetOpacity(1.0f);

	// A bit of a dirty trick: we need to catch the end of the animation we don't
	// control. So we use two facts we know: which animator will be used and the
	// target opacity to add "Do nothing" animation sequence.
	// Unfortunately, we can not just use empty LayerAnimationSequence, because
	// it does not call NotifyEnded().
	if (observer) {
	ui::LayerAnimationSequence* sequence = new ui::LayerAnimationSequence(
	ui::LayerAnimationElement::CreateOpacityElement(
	1.0, base::TimeDelta()));
	sequence->AddObserver(observer);
	layer->GetAnimator()->ScheduleAnimation(sequence);
	}
	}

	void ShowWindow(aura::Window* window,
	base::TimeDelta duration,
	bool above,
	ui::LayerAnimationObserver* observer) {
	ui::Layer* layer = window->layer();
	ui::ScopedLayerAnimationSettings settings(layer->GetAnimator());

	// Set initial state of animation
	settings.SetPreemptionStrategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);
	settings.SetTransitionDuration(base::TimeDelta());
	SetTransformForScaleAnimation(layer,
	above ? LAYER_SCALE_ANIMATION_ABOVE : LAYER_SCALE_ANIMATION_BELOW);

	TransformWindowToBaseState(window, duration, observer);
	}

	// Starts grayscale/brightness animation for \|window\| over \|duration\|. Target
	// value for both grayscale and brightness are specified by \|target\|.
	void StartGrayscaleBrightnessAnimationForWindow(
	aura::Window* window,
	float target,
	base::TimeDelta duration,
	gfx::Tween::Type tween_type,
	ui::LayerAnimationObserver* observer) {
	ui::LayerAnimator* animator = window->layer()->GetAnimator();

	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, duration));
	brightness_element->set_tween_type(tween_type);
	brightness_sequence->AddElement(brightness_element.release());

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

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

	if (observer)
	animations[0]->AddObserver(observer);

	animator->set_preemption_strategy(
	ui::LayerAnimator::IMMEDIATELY_ANIMATE_TO_NEW_TARGET);

	animator->StartTogether(animations);
	}

	// Animation observer that will drop animated foreground once animation is
	// finished. It is used in when undoing shutdown animation.
	class CallbackAnimationObserver : public ui::LayerAnimationObserver {
	public:
	explicit CallbackAnimationObserver(base::Callback<void(void)> &callback)
	: callback_(callback) {
	}
	virtual ~CallbackAnimationObserver() {
	}

	private:
	// Overridden from ui::LayerAnimationObserver:
	virtual void OnLayerAnimationEnded(ui::LayerAnimationSequence* seq)
	OVERRIDE {
	// Drop foreground once animation is over.
	callback_.Run();
	delete this;
	}

	virtual void OnLayerAnimationAborted(ui::LayerAnimationSequence* seq)
	OVERRIDE {
	// Drop foreground once animation is over.
	callback_.Run();
	delete this;
	}

	virtual void OnLayerAnimationScheduled(ui::LayerAnimationSequence* seq)
	OVERRIDE {}

	base::Callback<void(void)> callback_;

	DISALLOW_COPY_AND_ASSIGN(CallbackAnimationObserver);
	};


	bool IsLayerAnimated(ui::Layer* layer,
	SessionStateAnimator::AnimationType type) {
	switch (type) {
	case SessionStateAnimator::ANIMATION_PARTIAL_CLOSE:
	if (layer->GetTargetTransform() != GetSlowCloseTransform())
	return false;
	break;
	case SessionStateAnimator::ANIMATION_UNDO_PARTIAL_CLOSE:
	if (layer->GetTargetTransform() != gfx::Transform())
	return false;
	break;
	case SessionStateAnimator::ANIMATION_FULL_CLOSE:
	if (layer->GetTargetTransform() != GetFastCloseTransform() \|\|
	layer->GetTargetOpacity() > 0.0001)
	return false;
	break;
	case SessionStateAnimator::ANIMATION_FADE_IN:
	if (layer->GetTargetOpacity() < 0.9999)
	return false;
	break;
	case SessionStateAnimator::ANIMATION_FADE_OUT:
	if (layer->GetTargetOpacity() > 0.0001)
	return false;
	break;
	case SessionStateAnimator::ANIMATION_HIDE_IMMEDIATELY:
	if (layer->GetTargetOpacity() > 0.0001)
	return false;
	break;
	case SessionStateAnimator::ANIMATION_RESTORE:
	if (layer->opacity() < 0.9999 \|\| layer->transform() != gfx::Transform())
	return false;
	break;
	case SessionStateAnimator::ANIMATION_GRAYSCALE_BRIGHTNESS:
	if ((layer->GetTargetBrightness() < 0.9999) \|\|
	(layer->GetTargetGrayscale() < 0.9999))
	return false;
	break;
	case SessionStateAnimator::ANIMATION_UNDO_GRAYSCALE_BRIGHTNESS:
	if ((layer->GetTargetBrightness() > 0.0001) \|\|
	(layer->GetTargetGrayscale() > 0.0001))
	return false;
	break;
	case SessionStateAnimator::ANIMATION_DROP:
	case SessionStateAnimator::ANIMATION_UNDO_LIFT:
	//ToDo(antim) : check other effects
	if (layer->GetTargetOpacity() < 0.9999)
	return false;
	break;
	//ToDo(antim) : check other effects
	case SessionStateAnimator::ANIMATION_LIFT:
	if (layer->GetTargetOpacity() > 0.0001)
	return false;
	break;
	case SessionStateAnimator::ANIMATION_RAISE_TO_SCREEN:
	//ToDo(antim) : check other effects
	if (layer->GetTargetOpacity() < 0.9999)
	return false;
	break;
	//ToDo(antim) : check other effects
	case SessionStateAnimator::ANIMATION_LOWER_BELOW_SCREEN:
	if (layer->GetTargetOpacity() > 0.0001)
	return false;
	break;
	default:
	NOTREACHED() << "Unhandled animation type " << type;
	return false;
	}
	return true;
	}

	} // namespace

	bool SessionStateAnimator::TestApi::ContainersAreAnimated(
	int container_mask, AnimationType type) const {
	aura::Window::Windows containers;
	animator_->GetContainers(container_mask, &containers);
	for (aura::Window::Windows::const_iterator it = containers.begin();
	it != containers.end(); ++it) {
	aura::Window* window = *it;
	ui::Layer* layer = window->layer();
	if (!IsLayerAnimated(layer, type))
	return false;
	}
	return true;
	}

	bool SessionStateAnimator::TestApi::RootWindowIsAnimated(AnimationType type)
	const {
	aura::Window* root_window = Shell::GetPrimaryRootWindow();
	ui::Layer* layer = root_window->layer();
	return IsLayerAnimated(layer, type);
	}

	const int SessionStateAnimator::kAllLockScreenContainersMask =
	SessionStateAnimator::LOCK_SCREEN_BACKGROUND \|
	SessionStateAnimator::LOCK_SCREEN_CONTAINERS \|
	SessionStateAnimator::LOCK_SCREEN_RELATED_CONTAINERS;

	const int SessionStateAnimator::kAllContainersMask =
	SessionStateAnimator::kAllLockScreenContainersMask \|
	SessionStateAnimator::DESKTOP_BACKGROUND \|
	SessionStateAnimator::LAUNCHER \|
	SessionStateAnimator::NON_LOCK_SCREEN_CONTAINERS;

	SessionStateAnimator::SessionStateAnimator() {
	}

	SessionStateAnimator::~SessionStateAnimator() {
	}

	base::TimeDelta SessionStateAnimator::GetDuration(AnimationSpeed speed) {
	switch (speed) {
	case ANIMATION_SPEED_IMMEDIATE:
	return base::TimeDelta();
	case ANIMATION_SPEED_UNDOABLE:
	return base::TimeDelta::FromMilliseconds(400);
	case ANIMATION_SPEED_REVERT:
	return base::TimeDelta::FromMilliseconds(150);
	case ANIMATION_SPEED_FAST:
	return base::TimeDelta::FromMilliseconds(150);
	case ANIMATION_SPEED_SHOW_LOCK_SCREEN:
	return base::TimeDelta::FromMilliseconds(200);
	case ANIMATION_SPEED_MOVE_WINDOWS:
	return base::TimeDelta::FromMilliseconds(350);
	case ANIMATION_SPEED_UNDO_MOVE_WINDOWS:
	return base::TimeDelta::FromMilliseconds(350);
	case ANIMATION_SPEED_SHUTDOWN:
	return base::TimeDelta::FromMilliseconds(1000);
	case ANIMATION_SPEED_REVERT_SHUTDOWN:
	return base::TimeDelta::FromMilliseconds(500);
	}
	// Satisfy compilers that do not understand that we will return from switch
	// above anyway.
	DCHECK(false) << "Unhandled animation speed " << speed;
	return base::TimeDelta();
	}

	// Fills \|containers\| with the containers described by \|container_mask\|.
	void SessionStateAnimator::GetContainers(int container_mask,
	aura::Window::Windows* containers) {
	aura::Window* root_window = Shell::GetPrimaryRootWindow();
	containers->clear();

	if (container_mask & DESKTOP_BACKGROUND) {
	containers->push_back(Shell::GetContainer(
	root_window, kShellWindowId_DesktopBackgroundContainer));
	}
	if (container_mask & LAUNCHER) {
	containers->push_back(
	Shell::GetContainer(root_window, kShellWindowId_ShelfContainer));
	}
	if (container_mask & NON_LOCK_SCREEN_CONTAINERS) {
	// TODO(antrim): Figure out a way to eliminate a need to exclude launcher
	// in such way.
	aura::Window* non_lock_screen_containers = Shell::GetContainer(
	root_window, kShellWindowId_NonLockScreenContainersContainer);
	aura::Window::Windows children = non_lock_screen_containers->children();

	for (aura::Window::Windows::const_iterator it = children.begin();
	it != children.end(); ++it) {
	aura::Window* window = *it;
	if (window->id() == kShellWindowId_ShelfContainer)
	continue;
	containers->push_back(window);
	}
	}
	if (container_mask & LOCK_SCREEN_BACKGROUND) {
	containers->push_back(Shell::GetContainer(
	root_window, kShellWindowId_LockScreenBackgroundContainer));
	}
	if (container_mask & LOCK_SCREEN_CONTAINERS) {
	containers->push_back(Shell::GetContainer(
	root_window, kShellWindowId_LockScreenContainersContainer));
	}
	if (container_mask & LOCK_SCREEN_RELATED_CONTAINERS) {
	containers->push_back(Shell::GetContainer(
	root_window, kShellWindowId_LockScreenRelatedContainersContainer));
	}
	}

	void SessionStateAnimator::StartAnimation(int container_mask,
	AnimationType type,
	AnimationSpeed speed) {
	aura::Window::Windows containers;
	GetContainers(container_mask, &containers);
	for (aura::Window::Windows::const_iterator it = containers.begin();
	it != containers.end(); ++it) {
	RunAnimationForWindow(*it, type, speed, NULL);
	}
	}

	void SessionStateAnimator::StartAnimationWithCallback(
	int container_mask,
	AnimationType type,
	AnimationSpeed speed,
	base::Callback<void(void)>& callback) {
	aura::Window::Windows containers;
	GetContainers(container_mask, &containers);
	for (aura::Window::Windows::const_iterator it = containers.begin();
	it != containers.end(); ++it) {
	ui::LayerAnimationObserver* observer =
	new CallbackAnimationObserver(callback);
	RunAnimationForWindow(*it, type, speed, observer);
	}
	}

	void SessionStateAnimator::StartAnimationWithObserver(
	int container_mask,
	AnimationType type,
	AnimationSpeed speed,
	ui::LayerAnimationObserver* observer) {
	aura::Window::Windows containers;
	GetContainers(container_mask, &containers);
	for (aura::Window::Windows::const_iterator it = containers.begin();
	it != containers.end(); ++it) {
	RunAnimationForWindow(*it, type, speed, observer);
	}
	}

	void SessionStateAnimator::StartGlobalAnimation(AnimationType type,
	AnimationSpeed speed) {
	aura::Window* root_window = Shell::GetPrimaryRootWindow();
	RunAnimationForWindow(root_window, type, speed, NULL);
	}

	void SessionStateAnimator::RunAnimationForWindow(
	aura::Window* window,
	AnimationType type,
	AnimationSpeed speed,
	ui::LayerAnimationObserver* observer) {
	base::TimeDelta duration = GetDuration(speed);

	switch (type) {
	case ANIMATION_PARTIAL_CLOSE:
	StartSlowCloseAnimationForWindow(window, duration, observer);
	break;
	case ANIMATION_UNDO_PARTIAL_CLOSE:
	StartUndoSlowCloseAnimationForWindow(window, duration, observer);
	break;
	case ANIMATION_FULL_CLOSE:
	StartFastCloseAnimationForWindow(window, duration, observer);
	break;
	case ANIMATION_FADE_IN:
	StartOpacityAnimationForWindow(window, 1.0, duration, observer);
	break;
	case ANIMATION_FADE_OUT:
	StartOpacityAnimationForWindow(window, 0.0, duration, observer);
	break;
	case ANIMATION_HIDE_IMMEDIATELY:
	DCHECK_EQ(speed, ANIMATION_SPEED_IMMEDIATE);
	HideWindowImmediately(window, observer);
	break;
	case ANIMATION_RESTORE:
	DCHECK_EQ(speed, ANIMATION_SPEED_IMMEDIATE);
	RestoreWindow(window, observer);
	break;
	case ANIMATION_LIFT:
	HideWindow(window, duration, true, observer);
	break;
	case ANIMATION_DROP:
	ShowWindow(window, duration, true, observer);
	break;
	case ANIMATION_UNDO_LIFT:
	TransformWindowToBaseState(window, duration, observer);
	break;
	case ANIMATION_RAISE_TO_SCREEN:
	ShowWindow(window, duration, false, observer);
	break;
	case ANIMATION_LOWER_BELOW_SCREEN:
	HideWindow(window, duration, false, observer);
	break;
	case ANIMATION_PARTIAL_FADE_IN:
	StartPartialFadeAnimation(
	window, kPartialFadeRatio, duration, observer);
	break;
	case ANIMATION_UNDO_PARTIAL_FADE_IN:
	StartPartialFadeAnimation(window, 0.0, duration, observer);
	break;
	case ANIMATION_FULL_FADE_IN:
	StartPartialFadeAnimation(window, 1.0, duration, observer);
	break;
	case ANIMATION_GRAYSCALE_BRIGHTNESS:
	StartGrayscaleBrightnessAnimationForWindow(
	window, 1.0, duration, gfx::Tween::EASE_IN, observer);
	break;
	case ANIMATION_UNDO_GRAYSCALE_BRIGHTNESS:
	StartGrayscaleBrightnessAnimationForWindow(
	window, 0.0, duration, gfx::Tween::EASE_IN_OUT, observer);
	break;
	}
	}

	} // namespace ash