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// Copyright 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 "cc/test/animation_test_common.h"

#include "cc/animation/animation_id_provider.h"
#include "cc/animation/keyframed_animation_curve.h"
#include "cc/animation/layer_animation_controller.h"
#include "cc/animation/transform_operations.h"
#include "cc/layers/layer.h"
#include "cc/layers/layer_impl.h"

using cc::Animation;
using cc::AnimationCurve;
using cc::EaseTimingFunction;
using cc::FloatKeyframe;
using cc::KeyframedFloatAnimationCurve;
using cc::KeyframedTransformAnimationCurve;
using cc::TimingFunction;
using cc::TransformKeyframe;

namespace cc {

template <class Target>
int AddOpacityTransition(Target* target,
                         double duration,
                         float start_opacity,
                         float end_opacity,
                         bool use_timing_function) {
  scoped_ptr<KeyframedFloatAnimationCurve>
      curve(KeyframedFloatAnimationCurve::Create());

  scoped_ptr<TimingFunction> func;
  if (!use_timing_function)
    func = EaseTimingFunction::Create();
  if (duration > 0.0)
    curve->AddKeyframe(FloatKeyframe::Create(0.0, start_opacity, func.Pass()));
  curve->AddKeyframe(FloatKeyframe::Create(
      duration, end_opacity, scoped_ptr<TimingFunction>()));

  int id = AnimationIdProvider::NextAnimationId();

  scoped_ptr<Animation> animation(Animation::Create(
      curve.PassAs<AnimationCurve>(),
      id,
      AnimationIdProvider::NextGroupId(),
      Animation::Opacity));
  animation->set_needs_synchronized_start_time(true);

  target->AddAnimation(animation.Pass());
  return id;
}

template <class Target>
int AddAnimatedTransform(Target* target,
                         double duration,
                         TransformOperations start_operations,
                         TransformOperations operations) {
  scoped_ptr<KeyframedTransformAnimationCurve>
      curve(KeyframedTransformAnimationCurve::Create());

  if (duration > 0.0) {
    curve->AddKeyframe(TransformKeyframe::Create(
        0.0, start_operations, scoped_ptr<TimingFunction>()));
  }

  curve->AddKeyframe(TransformKeyframe::Create(
      duration, operations, scoped_ptr<TimingFunction>()));

  int id = AnimationIdProvider::NextAnimationId();

  scoped_ptr<Animation> animation(Animation::Create(
      curve.PassAs<AnimationCurve>(),
      id,
      AnimationIdProvider::NextGroupId(),
      Animation::Transform));
  animation->set_needs_synchronized_start_time(true);

  target->AddAnimation(animation.Pass());
  return id;
}

template <class Target>
int AddAnimatedTransform(Target* target,
                         double duration,
                         int delta_x,
                         int delta_y) {
  TransformOperations start_operations;
  if (duration > 0.0) {
    start_operations.AppendTranslate(delta_x, delta_y, 0.0);
  }

  TransformOperations operations;
  operations.AppendTranslate(delta_x, delta_y, 0.0);
  return AddAnimatedTransform(target, duration, start_operations, operations);
}

template <class Target>
int AddAnimatedFilter(Target* target,
                      double duration,
                      float start_brightness,
                      float end_brightness) {
  scoped_ptr<KeyframedFilterAnimationCurve>
      curve(KeyframedFilterAnimationCurve::Create());

  if (duration > 0.0) {
    FilterOperations start_filters;
    start_filters.Append(
        FilterOperation::CreateBrightnessFilter(start_brightness));
    curve->AddKeyframe(FilterKeyframe::Create(
        0.0, start_filters, scoped_ptr<TimingFunction>()));
  }

  FilterOperations filters;
  filters.Append(FilterOperation::CreateBrightnessFilter(end_brightness));
  curve->AddKeyframe(
      FilterKeyframe::Create(duration, filters, scoped_ptr<TimingFunction>()));

  int id = AnimationIdProvider::NextAnimationId();

  scoped_ptr<Animation> animation(Animation::Create(
      curve.PassAs<AnimationCurve>(),
      id,
      AnimationIdProvider::NextGroupId(),
      Animation::Filter));
  animation->set_needs_synchronized_start_time(true);

  target->AddAnimation(animation.Pass());
  return id;
}

FakeFloatAnimationCurve::FakeFloatAnimationCurve()
    : duration_(1.0) {}

FakeFloatAnimationCurve::FakeFloatAnimationCurve(double duration)
    : duration_(duration) {}

FakeFloatAnimationCurve::~FakeFloatAnimationCurve() {}

double FakeFloatAnimationCurve::Duration() const {
  return duration_;
}

float FakeFloatAnimationCurve::GetValue(double now) const {
  return 0.0f;
}

scoped_ptr<AnimationCurve> FakeFloatAnimationCurve::Clone() const {
  return make_scoped_ptr(new FakeFloatAnimationCurve).PassAs<AnimationCurve>();
}

FakeTransformTransition::FakeTransformTransition(double duration)
    : duration_(duration) {}

FakeTransformTransition::~FakeTransformTransition() {}

double FakeTransformTransition::Duration() const {
  return duration_;
}

gfx::Transform FakeTransformTransition::GetValue(double time) const {
  return gfx::Transform();
}

bool FakeTransformTransition::AnimatedBoundsForBox(const gfx::BoxF& box,
                                                   gfx::BoxF* bounds) const {
  return false;
}

bool FakeTransformTransition::AffectsScale() const { return false; }

bool FakeTransformTransition::IsTranslation() const { return true; }

bool FakeTransformTransition::MaximumTargetScale(bool forward_direction,
                                                 float* max_scale) const {
  *max_scale = 1.f;
  return true;
}

scoped_ptr<AnimationCurve> FakeTransformTransition::Clone() const {
  return make_scoped_ptr(new FakeTransformTransition(*this))
      .PassAs<AnimationCurve>();
}


FakeFloatTransition::FakeFloatTransition(double duration, float from, float to)
    : duration_(duration), from_(from), to_(to) {}

FakeFloatTransition::~FakeFloatTransition() {}

double FakeFloatTransition::Duration() const {
  return duration_;
}

float FakeFloatTransition::GetValue(double time) const {
  time /= duration_;
  if (time >= 1.0)
    time = 1.0;
  return (1.0 - time) * from_ + time * to_;
}

FakeLayerAnimationValueObserver::FakeLayerAnimationValueObserver()
    : opacity_(0.0f),
      animation_waiting_for_deletion_(false) {}

FakeLayerAnimationValueObserver::~FakeLayerAnimationValueObserver() {}

void FakeLayerAnimationValueObserver::OnFilterAnimated(
    const FilterOperations& filters) {
  filters_ = filters;
}

void FakeLayerAnimationValueObserver::OnOpacityAnimated(float opacity) {
  opacity_ = opacity;
}

void FakeLayerAnimationValueObserver::OnTransformAnimated(
    const gfx::Transform& transform) {
  transform_ = transform;
}

void FakeLayerAnimationValueObserver::OnScrollOffsetAnimated(
    const gfx::Vector2dF& scroll_offset) {
  scroll_offset_ = scroll_offset;
}

void FakeLayerAnimationValueObserver::OnAnimationWaitingForDeletion() {
  animation_waiting_for_deletion_ = true;
}

bool FakeLayerAnimationValueObserver::IsActive() const {
  return true;
}

bool FakeInactiveLayerAnimationValueObserver::IsActive() const {
  return false;
}

gfx::Vector2dF FakeLayerAnimationValueProvider::ScrollOffsetForAnimation()
    const {
  return scroll_offset_;
}

scoped_ptr<AnimationCurve> FakeFloatTransition::Clone() const {
  return make_scoped_ptr(new FakeFloatTransition(*this))
      .PassAs<AnimationCurve>();
}

int AddOpacityTransitionToController(LayerAnimationController* controller,
                                     double duration,
                                     float start_opacity,
                                     float end_opacity,
                                     bool use_timing_function) {
  return AddOpacityTransition(controller,
                              duration,
                              start_opacity,
                              end_opacity,
                              use_timing_function);
}

int AddAnimatedTransformToController(LayerAnimationController* controller,
                                     double duration,
                                     int delta_x,
                                     int delta_y) {
  return AddAnimatedTransform(controller,
                              duration,
                              delta_x,
                              delta_y);
}

int AddAnimatedFilterToController(LayerAnimationController* controller,
                                  double duration,
                                  float start_brightness,
                                  float end_brightness) {
  return AddAnimatedFilter(
      controller, duration, start_brightness, end_brightness);
}

int AddOpacityTransitionToLayer(Layer* layer,
                                double duration,
                                float start_opacity,
                                float end_opacity,
                                bool use_timing_function) {
  return AddOpacityTransition(layer,
                              duration,
                              start_opacity,
                              end_opacity,
                              use_timing_function);
}

int AddOpacityTransitionToLayer(LayerImpl* layer,
                                double duration,
                                float start_opacity,
                                float end_opacity,
                                bool use_timing_function) {
  return AddOpacityTransition(layer->layer_animation_controller(),
                              duration,
                              start_opacity,
                              end_opacity,
                              use_timing_function);
}

int AddAnimatedTransformToLayer(Layer* layer,
                                double duration,
                                int delta_x,
                                int delta_y) {
  return AddAnimatedTransform(layer, duration, delta_x, delta_y);
}

int AddAnimatedTransformToLayer(LayerImpl* layer,
                                double duration,
                                int delta_x,
                                int delta_y) {
  return AddAnimatedTransform(layer->layer_animation_controller(),
                              duration,
                              delta_x,
                              delta_y);
}

int AddAnimatedTransformToLayer(Layer* layer,
                                double duration,
                                TransformOperations start_operations,
                                TransformOperations operations) {
  return AddAnimatedTransform(layer, duration, start_operations, operations);
}

int AddAnimatedTransformToLayer(LayerImpl* layer,
                                double duration,
                                TransformOperations start_operations,
                                TransformOperations operations) {
  return AddAnimatedTransform(layer->layer_animation_controller(),
                              duration,
                              start_operations,
                              operations);
}

int AddAnimatedFilterToLayer(Layer* layer,
                             double duration,
                             float start_brightness,
                             float end_brightness) {
  return AddAnimatedFilter(layer, duration, start_brightness, end_brightness);
}

int AddAnimatedFilterToLayer(LayerImpl* layer,
                             double duration,
                             float start_brightness,
                             float end_brightness) {
  return AddAnimatedFilter(layer->layer_animation_controller(),
                           duration,
                           start_brightness,
                           end_brightness);
}

}  // namespace cc