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chromium / chromium / src / b48a96bc4bda4d9526245fb33ea66f6f8700466d / . / ui / compositor / layer_animation_sequence.cc
blob: 9ebf1e0552bc596c08c5d9edcf0ada590db0a203 [file] [log] [blame]
// 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 "ui/compositor/layer_animation_sequence.h"
#include <algorithm>
#include <iterator>
#include "base/debug/trace_event.h"
#include "cc/animation/animation_id_provider.h"
#include "ui/compositor/layer_animation_delegate.h"
#include "ui/compositor/layer_animation_element.h"
#include "ui/compositor/layer_animation_observer.h"
namespace ui {
LayerAnimationSequence::LayerAnimationSequence()
: is_cyclic_(false),
last_element_(0),
waiting_for_group_start_(false),
animation_group_id_(0),
last_progressed_fraction_(0.0),
weak_ptr_factory_(this) {
}
LayerAnimationSequence::LayerAnimationSequence(LayerAnimationElement* element)
: is_cyclic_(false),
last_element_(0),
waiting_for_group_start_(false),
animation_group_id_(0),
last_progressed_fraction_(0.0),
weak_ptr_factory_(this) {
AddElement(element);
}
LayerAnimationSequence::~LayerAnimationSequence() {
FOR_EACH_OBSERVER(LayerAnimationObserver,
observers_,
DetachedFromSequence(this, true));
}
void LayerAnimationSequence::Start(LayerAnimationDelegate* delegate) {
DCHECK(start_time_ != base::TimeTicks());
last_progressed_fraction_ = 0.0;
if (elements_.empty())
return;
elements_[0]->set_requested_start_time(start_time_);
elements_[0]->Start(delegate, animation_group_id_);
}
void LayerAnimationSequence::Progress(base::TimeTicks now,
LayerAnimationDelegate* delegate) {
DCHECK(start_time_ != base::TimeTicks());
bool redraw_required = false;
if (elements_.empty())
return;
if (last_element_ == 0)
last_start_ = start_time_;
size_t current_index = last_element_ % elements_.size();
base::TimeDelta element_duration;
while (is_cyclic_ || last_element_ < elements_.size()) {
elements_[current_index]->set_requested_start_time(last_start_);
if (!elements_[current_index]->IsFinished(now, &element_duration))
break;
// Let the element we're passing finish.
if (elements_[current_index]->ProgressToEnd(delegate))
redraw_required = true;
last_start_ += element_duration;
++last_element_;
last_progressed_fraction_ =
elements_[current_index]->last_progressed_fraction();
current_index = last_element_ % elements_.size();
}
if (is_cyclic_ || last_element_ < elements_.size()) {
if (!elements_[current_index]->Started()) {
animation_group_id_ = cc::AnimationIdProvider::NextGroupId();
elements_[current_index]->Start(delegate, animation_group_id_);
}
base::WeakPtr<LayerAnimationSequence> alive(weak_ptr_factory_.GetWeakPtr());
if (elements_[current_index]->Progress(now, delegate))
redraw_required = true;
if (!alive)
return;
last_progressed_fraction_ =
elements_[current_index]->last_progressed_fraction();
}
// Since the delegate may be deleted due to the notifications below, it is
// important that we schedule a draw before sending them.
if (redraw_required)
delegate->ScheduleDrawForAnimation();
if (!is_cyclic_ && last_element_ == elements_.size()) {
last_element_ = 0;
waiting_for_group_start_ = false;
animation_group_id_ = 0;
NotifyEnded();
}
}
bool LayerAnimationSequence::IsFinished(base::TimeTicks time) {
if (is_cyclic_ || waiting_for_group_start_)
return false;
if (elements_.empty())
return true;
if (last_element_ == 0)
last_start_ = start_time_;
base::TimeTicks current_start = last_start_;
size_t current_index = last_element_;
base::TimeDelta element_duration;
while (current_index < elements_.size()) {
elements_[current_index]->set_requested_start_time(current_start);
if (!elements_[current_index]->IsFinished(time, &element_duration))
break;
current_start += element_duration;
++current_index;
}
return (current_index == elements_.size());
}
void LayerAnimationSequence::ProgressToEnd(LayerAnimationDelegate* delegate) {
bool redraw_required = false;
if (elements_.empty())
return;
size_t current_index = last_element_ % elements_.size();
while (current_index < elements_.size()) {
if (elements_[current_index]->ProgressToEnd(delegate))
redraw_required = true;
last_progressed_fraction_ =
elements_[current_index]->last_progressed_fraction();
++current_index;
++last_element_;
}
if (redraw_required)
delegate->ScheduleDrawForAnimation();
if (!is_cyclic_) {
last_element_ = 0;
waiting_for_group_start_ = false;
animation_group_id_ = 0;
NotifyEnded();
}
}
void LayerAnimationSequence::GetTargetValue(
LayerAnimationElement::TargetValue* target) const {
if (is_cyclic_)
return;
for (size_t i = last_element_; i < elements_.size(); ++i)
elements_[i]->GetTargetValue(target);
}
void LayerAnimationSequence::Abort(LayerAnimationDelegate* delegate) {
size_t current_index = last_element_ % elements_.size();
while (current_index < elements_.size()) {
elements_[current_index]->Abort(delegate);
++current_index;
}
last_element_ = 0;
waiting_for_group_start_ = false;
NotifyAborted();
}
void LayerAnimationSequence::AddElement(LayerAnimationElement* element) {
properties_.insert(element->properties().begin(),
element->properties().end());
elements_.push_back(make_linked_ptr(element));
}
bool LayerAnimationSequence::HasConflictingProperty(
const LayerAnimationElement::AnimatableProperties& other) const {
LayerAnimationElement::AnimatableProperties intersection;
std::insert_iterator<LayerAnimationElement::AnimatableProperties> ii(
intersection, intersection.begin());
std::set_intersection(properties_.begin(), properties_.end(),
other.begin(), other.end(),
ii);
return (intersection.size() > 0);
}
bool LayerAnimationSequence::IsFirstElementThreaded() const {
if (!elements_.empty())
return elements_[0]->IsThreaded();
return false;
}
void LayerAnimationSequence::AddObserver(LayerAnimationObserver* observer) {
if (!observers_.HasObserver(observer)) {
observers_.AddObserver(observer);
observer->AttachedToSequence(this);
}
}
void LayerAnimationSequence::RemoveObserver(LayerAnimationObserver* observer) {
observers_.RemoveObserver(observer);
observer->DetachedFromSequence(this, true);
}
void LayerAnimationSequence::OnThreadedAnimationStarted(
const cc::AnimationEvent& event) {
if (elements_.empty() || event.group_id != animation_group_id_)
return;
size_t current_index = last_element_ % elements_.size();
const LayerAnimationElement::AnimatableProperties& element_properties =
elements_[current_index]->properties();
LayerAnimationElement::AnimatableProperty event_property =
LayerAnimationElement::ToAnimatableProperty(event.target_property);
DCHECK(element_properties.find(event_property) != element_properties.end());
elements_[current_index]->set_effective_start_time(
base::TimeTicks::FromInternalValue(
event.monotonic_time * base::Time::kMicrosecondsPerSecond));
}
void LayerAnimationSequence::OnScheduled() {
NotifyScheduled();
}
void LayerAnimationSequence::OnAnimatorDestroyed() {
if (observers_.might_have_observers()) {
ObserverListBase<LayerAnimationObserver>::Iterator it(observers_);
LayerAnimationObserver* obs;
while ((obs = it.GetNext()) != NULL) {
if (!obs->RequiresNotificationWhenAnimatorDestroyed()) {
// Remove the observer, but do not allow notifications to be sent.
observers_.RemoveObserver(obs);
obs->DetachedFromSequence(this, false);
}
}
}
}
size_t LayerAnimationSequence::size() const {
return elements_.size();
}
LayerAnimationElement* LayerAnimationSequence::FirstElement() const {
if (elements_.empty()) {
return NULL;
}
return elements_[0].get();
}
void LayerAnimationSequence::NotifyScheduled() {
FOR_EACH_OBSERVER(LayerAnimationObserver,
observers_,
OnLayerAnimationScheduled(this));
}
void LayerAnimationSequence::NotifyEnded() {
FOR_EACH_OBSERVER(LayerAnimationObserver,
observers_,
OnLayerAnimationEnded(this));
}
void LayerAnimationSequence::NotifyAborted() {
FOR_EACH_OBSERVER(LayerAnimationObserver,
observers_,
OnLayerAnimationAborted(this));
}
LayerAnimationElement* LayerAnimationSequence::CurrentElement() const {
if (elements_.empty())
return NULL;
size_t current_index = last_element_ % elements_.size();
return elements_[current_index].get();
}
} // namespace ui