Remove parts of //cc we aren't using

cc/animation/animation.cc

-// 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/animation/animation.h"
-
-#include <cmath>
-
-#include "base/strings/string_util.h"
-#include "base/trace_event/trace_event.h"
-#include "cc/animation/animation_curve.h"
-#include "cc/base/time_util.h"
-
-namespace {
-
-// This should match the RunState enum.
-static const char* const s_runStateNames[] = {"WAITING_FOR_TARGET_AVAILABILITY",
-                                              "WAITING_FOR_DELETION",
-                                              "STARTING",
-                                              "RUNNING",
-                                              "PAUSED",
-                                              "FINISHED",
-                                              "ABORTED"};
-
-static_assert(static_cast<int>(cc::Animation::LAST_RUN_STATE) + 1 ==
-                  arraysize(s_runStateNames),
-              "RunStateEnumSize should equal the number of elements in "
-              "s_runStateNames");
-
-// This should match the TargetProperty enum.
-static const char* const s_targetPropertyNames[] = {"TRANSFORM",
-                                                    "OPACITY",
-                                                    "FILTER",
-                                                    "SCROLL_OFFSET",
-                                                    "BACKGROUND_COLOR"};
-
-static_assert(static_cast<int>(cc::Animation::LAST_TARGET_PROPERTY) + 1 ==
-                  arraysize(s_targetPropertyNames),
-              "TargetPropertyEnumSize should equal the number of elements in "
-              "s_targetPropertyNames");
-
-}  // namespace
-
-namespace cc {
-
-scoped_ptr<Animation> Animation::Create(
-    scoped_ptr<AnimationCurve> curve,
-    int animation_id,
-    int group_id,
-    TargetProperty target_property) {
-  return make_scoped_ptr(new Animation(curve.Pass(),
-                                       animation_id,
-                                       group_id,
-                                       target_property)); }
-
-Animation::Animation(scoped_ptr<AnimationCurve> curve,
-                     int animation_id,
-                     int group_id,
-                     TargetProperty target_property)
-    : curve_(curve.Pass()),
-      id_(animation_id),
-      group_(group_id),
-      target_property_(target_property),
-      run_state_(WAITING_FOR_TARGET_AVAILABILITY),
-      iterations_(1),
-      iteration_start_(0),
-      direction_(DIRECTION_NORMAL),
-      playback_rate_(1),
-      fill_mode_(FILL_MODE_BOTH),
-      needs_synchronized_start_time_(false),
-      received_finished_event_(false),
-      suspended_(false),
-      is_controlling_instance_(false),
-      is_impl_only_(false),
-      affects_active_observers_(true),
-      affects_pending_observers_(true) {
-}
-
-Animation::~Animation() {
-  if (run_state_ == RUNNING || run_state_ == PAUSED)
-    SetRunState(ABORTED, base::TimeTicks());
-}
-
-void Animation::SetRunState(RunState run_state,
-                            base::TimeTicks monotonic_time) {
-  if (suspended_)
-    return;
-
-  char name_buffer[256];
-  base::snprintf(name_buffer,
-                 sizeof(name_buffer),
-                 "%s-%d",
-                 s_targetPropertyNames[target_property_],
-                 group_);
-
-  bool is_waiting_to_start =
-      run_state_ == WAITING_FOR_TARGET_AVAILABILITY || run_state_ == STARTING;
-
-  if (is_controlling_instance_ && is_waiting_to_start && run_state == RUNNING) {
-    TRACE_EVENT_ASYNC_BEGIN1(
-        "cc", "Animation", this, "Name", TRACE_STR_COPY(name_buffer));
-  }
-
-  bool was_finished = is_finished();
-
-  const char* old_run_state_name = s_runStateNames[run_state_];
-
-  if (run_state == RUNNING && run_state_ == PAUSED)
-    total_paused_time_ += (monotonic_time - pause_time_);
-  else if (run_state == PAUSED)
-    pause_time_ = monotonic_time;
-  run_state_ = run_state;
-
-  const char* new_run_state_name = s_runStateNames[run_state];
-
-  if (is_controlling_instance_ && !was_finished && is_finished())
-    TRACE_EVENT_ASYNC_END0("cc", "Animation", this);
-
-  char state_buffer[256];
-  base::snprintf(state_buffer,
-                 sizeof(state_buffer),
-                 "%s->%s",
-                 old_run_state_name,
-                 new_run_state_name);
-
-  TRACE_EVENT_INSTANT2("cc",
-                       "LayerAnimationController::SetRunState",
-                       TRACE_EVENT_SCOPE_THREAD,
-                       "Name",
-                       TRACE_STR_COPY(name_buffer),
-                       "State",
-                       TRACE_STR_COPY(state_buffer));
-}
-
-void Animation::Suspend(base::TimeTicks monotonic_time) {
-  SetRunState(PAUSED, monotonic_time);
-  suspended_ = true;
-}
-
-void Animation::Resume(base::TimeTicks monotonic_time) {
-  suspended_ = false;
-  SetRunState(RUNNING, monotonic_time);
-}
-
-bool Animation::IsFinishedAt(base::TimeTicks monotonic_time) const {
-  if (is_finished())
-    return true;
-
-  if (needs_synchronized_start_time_)
-    return false;
-
-  if (playback_rate_ == 0)
-    return false;
-
-  return run_state_ == RUNNING && iterations_ >= 0 &&
-         TimeUtil::Scale(curve_->Duration(),
-                         iterations_ / std::abs(playback_rate_)) <=
-             (monotonic_time + time_offset_ - start_time_ - total_paused_time_);
-}
-
-bool Animation::InEffect(base::TimeTicks monotonic_time) const {
-  return ConvertToActiveTime(monotonic_time) >= base::TimeDelta() ||
-         (fill_mode_ == FILL_MODE_BOTH || fill_mode_ == FILL_MODE_BACKWARDS);
-}
-
-base::TimeDelta Animation::ConvertToActiveTime(
-    base::TimeTicks monotonic_time) const {
-  base::TimeTicks trimmed = monotonic_time + time_offset_;
-
-  // If we're paused, time is 'stuck' at the pause time.
-  if (run_state_ == PAUSED)
-    trimmed = pause_time_;
-
-  // Returned time should always be relative to the start time and should
-  // subtract all time spent paused.
-  trimmed -= (start_time_ - base::TimeTicks()) + total_paused_time_;
-
-  // If we're just starting or we're waiting on receiving a start time,
-  // time is 'stuck' at the initial state.
-  if ((run_state_ == STARTING && !has_set_start_time()) ||
-      needs_synchronized_start_time())
-    trimmed = base::TimeTicks() + time_offset_;
-
-  return (trimmed - base::TimeTicks());
-}
-
-base::TimeDelta Animation::TrimTimeToCurrentIteration(
-    base::TimeTicks monotonic_time) const {
-  // Check for valid parameters
-  DCHECK(playback_rate_);
-  DCHECK_GE(iteration_start_, 0);
-
-  base::TimeDelta active_time = ConvertToActiveTime(monotonic_time);
-  base::TimeDelta start_offset =
-      TimeUtil::Scale(curve_->Duration(), iteration_start_);
-
-  // Return start offset if we are before the start of the animation
-  if (active_time < base::TimeDelta())
-    return start_offset;
-  // Always return zero if we have no iterations.
-  if (!iterations_)
-    return base::TimeDelta();
-
-  // Don't attempt to trim if we have no duration.
-  if (curve_->Duration() <= base::TimeDelta())
-    return base::TimeDelta();
-
-  base::TimeDelta repeated_duration =
-      TimeUtil::Scale(curve_->Duration(), iterations_);
-  base::TimeDelta active_duration =
-      TimeUtil::Scale(repeated_duration, 1.0 / std::abs(playback_rate_));
-
-  // Check if we are past active duration
-  if (iterations_ > 0 && active_time >= active_duration)
-    active_time = active_duration;
-
-  // Calculate the scaled active time
-  base::TimeDelta scaled_active_time;
-  if (playback_rate_ < 0)
-    scaled_active_time =
-        TimeUtil::Scale((active_time - active_duration), playback_rate_) +
-        start_offset;
-  else
-    scaled_active_time =
-        TimeUtil::Scale(active_time, playback_rate_) + start_offset;
-
-  // Calculate the iteration time
-  base::TimeDelta iteration_time;
-  if (scaled_active_time - start_offset == repeated_duration &&
-      fmod(iterations_ + iteration_start_, 1) == 0)
-    iteration_time = curve_->Duration();
-  else
-    iteration_time = TimeUtil::Mod(scaled_active_time, curve_->Duration());
-
-  // Calculate the current iteration
-  int iteration;
-  if (scaled_active_time <= base::TimeDelta())
-    iteration = 0;
-  else if (iteration_time == curve_->Duration())
-    iteration = ceil(iteration_start_ + iterations_ - 1);
-  else
-    iteration = static_cast<int>(scaled_active_time / curve_->Duration());
-
-  // Check if we are running the animation in reverse direction for the current
-  // iteration
-  bool reverse =
-      (direction_ == DIRECTION_REVERSE) ||
-      (direction_ == DIRECTION_ALTERNATE && iteration % 2 == 1) ||
-      (direction_ == DIRECTION_ALTERNATE_REVERSE && iteration % 2 == 0);
-
-  // If we are running the animation in reverse direction, reverse the result
-  if (reverse)
-    iteration_time = curve_->Duration() - iteration_time;
-
-  return iteration_time;
-}
-
-scoped_ptr<Animation> Animation::CloneAndInitialize(
-    RunState initial_run_state) const {
-  scoped_ptr<Animation> to_return(
-      new Animation(curve_->Clone(), id_, group_, target_property_));
-  to_return->run_state_ = initial_run_state;
-  to_return->iterations_ = iterations_;
-  to_return->iteration_start_ = iteration_start_;
-  to_return->start_time_ = start_time_;
-  to_return->pause_time_ = pause_time_;
-  to_return->total_paused_time_ = total_paused_time_;
-  to_return->time_offset_ = time_offset_;
-  to_return->direction_ = direction_;
-  to_return->playback_rate_ = playback_rate_;
-  to_return->fill_mode_ = fill_mode_;
-  DCHECK(!to_return->is_controlling_instance_);
-  to_return->is_controlling_instance_ = true;
-  return to_return.Pass();
-}
-
-void Animation::PushPropertiesTo(Animation* other) const {
-  // Currently, we only push changes due to pausing and resuming animations on
-  // the main thread.
-  if (run_state_ == Animation::PAUSED ||
-      other->run_state_ == Animation::PAUSED) {
-    other->run_state_ = run_state_;
-    other->pause_time_ = pause_time_;
-    other->total_paused_time_ = total_paused_time_;
-  }
-}
-
-}  // namespace cc