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using System;
using System.Collections.Generic;
using UnityEngine;
using UnityEngine.Animations;
using UnityEngine.Audio;
using UnityEngine.Playables;
namespace UnityEngine.Timeline
{
// Generic evaluation callback called after all the clips have been processed
internal interface ITimelineEvaluateCallback
{
void Evaluate();
}
#if UNITY_EDITOR
/// <summary>
/// This Rebalancer class ensures that the interval tree structures stays balance regardless of whether the intervals inside change.
/// </summary>
class IntervalTreeRebalancer
{
private IntervalTree<RuntimeElement> m_Tree;
public IntervalTreeRebalancer(IntervalTree<RuntimeElement> tree)
{
m_Tree = tree;
}
public bool Rebalance()
{
m_Tree.UpdateIntervals();
return m_Tree.dirty;
}
}
#endif
// The TimelinePlayable Playable
// This is the actual runtime playable that gets evaluated as part of a playable graph.
// It "compiles" a list of tracks into an IntervalTree of Runtime clips.
// At each frame, it advances time, then fetches the "intersection: of various time interval
// using the interval tree.
// Finally, on each intersecting clip, it will calculate each clips' local time, as well as
// blend weight and set them accordingly
/// <summary>
/// The root Playable generated by timeline.
/// </summary>
public class TimelinePlayable : PlayableBehaviour
{
private IntervalTree<RuntimeElement> m_IntervalTree = new IntervalTree<RuntimeElement>();
private List<RuntimeElement> m_ActiveClips = new List<RuntimeElement>();
private List<RuntimeElement> m_CurrentListOfActiveClips;
private int m_ActiveBit = 0;
private List<ITimelineEvaluateCallback> m_EvaluateCallbacks = new List<ITimelineEvaluateCallback>();
private Dictionary<TrackAsset, Playable> m_PlayableCache = new Dictionary<TrackAsset, Playable>();
internal static bool muteAudioScrubbing = true;
#if UNITY_EDITOR
private IntervalTreeRebalancer m_Rebalancer;
#endif
/// <summary>
/// Creates an instance of a Timeline
/// </summary>
/// <param name="graph">The playable graph to inject the timeline.</param>
/// <param name="tracks">The list of tracks to compile</param>
/// <param name="go">The GameObject that initiated the compilation</param>
/// <param name="autoRebalance">In the editor, whether the graph should account for the possibility of changing clip times</param>
/// <param name="createOutputs">Whether to create PlayableOutputs in the graph</param>
/// <returns>A subgraph with the playable containing a TimelinePlayable behaviour as the root</returns>
public static ScriptPlayable<TimelinePlayable> Create(PlayableGraph graph, IEnumerable<TrackAsset> tracks, GameObject go, bool autoRebalance, bool createOutputs)
{
if (tracks == null)
throw new ArgumentNullException("Tracks list is null", "tracks");
if (go == null)
throw new ArgumentNullException("GameObject parameter is null", "go");
var playable = ScriptPlayable<TimelinePlayable>.Create(graph);
playable.SetTraversalMode(PlayableTraversalMode.Passthrough);
var sequence = playable.GetBehaviour();
sequence.Compile(graph, playable, tracks, go, autoRebalance, createOutputs);
return playable;
}
/// <summary>
/// Compiles the subgraph of this timeline
/// </summary>
/// <param name="graph">The playable graph to inject the timeline.</param>
/// <param name="timelinePlayable"></param>
/// <param name="tracks">The list of tracks to compile</param>
/// <param name="go">The GameObject that initiated the compilation</param>
/// <param name="autoRebalance">In the editor, whether the graph should account for the possibility of changing clip times</param>
/// <param name="createOutputs">Whether to create PlayableOutputs in the graph</param>
public void Compile(PlayableGraph graph, Playable timelinePlayable, IEnumerable<TrackAsset> tracks, GameObject go, bool autoRebalance, bool createOutputs)
{
if (tracks == null)
throw new ArgumentNullException("Tracks list is null", "tracks");
if (go == null)
throw new ArgumentNullException("GameObject parameter is null", "go");
var outputTrackList = new List<TrackAsset>(tracks);
var maximumNumberOfIntersections = outputTrackList.Count * 2 + outputTrackList.Count; // worse case: 2 overlapping clips per track + each track
m_CurrentListOfActiveClips = new List<RuntimeElement>(maximumNumberOfIntersections);
m_ActiveClips = new List<RuntimeElement>(maximumNumberOfIntersections);
m_EvaluateCallbacks.Clear();
m_PlayableCache.Clear();
CompileTrackList(graph, timelinePlayable, outputTrackList, go, createOutputs);
#if UNITY_EDITOR
if (autoRebalance)
{
m_Rebalancer = new IntervalTreeRebalancer(m_IntervalTree);
}
#endif
}
private void CompileTrackList(PlayableGraph graph, Playable timelinePlayable, IEnumerable<TrackAsset> tracks, GameObject go, bool createOutputs)
{
foreach (var track in tracks)
{
if (!track.IsCompilable())
continue;
if (!m_PlayableCache.ContainsKey(track))
{
track.SortClips();
CreateTrackPlayable(graph, timelinePlayable, track, go, createOutputs);
}
}
}
void CreateTrackOutput(PlayableGraph graph, TrackAsset track, GameObject go, Playable playable, int port)
{
if (track.isSubTrack)
return;
var bindings = track.outputs;
foreach (var binding in bindings)
{
var playableOutput = binding.CreateOutput(graph);
playableOutput.SetReferenceObject(binding.sourceObject);
playableOutput.SetSourcePlayable(playable, port);
playableOutput.SetWeight(1.0f);
// only apply this on our animation track
if (track as AnimationTrack != null)
{
EvaluateWeightsForAnimationPlayableOutput(track, (AnimationPlayableOutput)playableOutput);
#if UNITY_EDITOR
if (!Application.isPlaying)
EvaluateAnimationPreviewUpdateCallback(track, (AnimationPlayableOutput)playableOutput);
#endif
}
if (playableOutput.IsPlayableOutputOfType<AudioPlayableOutput>())
((AudioPlayableOutput)playableOutput).SetEvaluateOnSeek(!muteAudioScrubbing);
// If the track is the timeline marker track, assume binding is the PlayableDirector
if (track.timelineAsset.markerTrack == track)
{
var director = go.GetComponent<PlayableDirector>();
playableOutput.SetUserData(director);
foreach (var c in go.GetComponents<INotificationReceiver>())
{
playableOutput.AddNotificationReceiver(c);
}
}
}
}
void EvaluateWeightsForAnimationPlayableOutput(TrackAsset track, AnimationPlayableOutput animOutput)
{
m_EvaluateCallbacks.Add(new AnimationOutputWeightProcessor(animOutput));
}
void EvaluateAnimationPreviewUpdateCallback(TrackAsset track, AnimationPlayableOutput animOutput)
{
m_EvaluateCallbacks.Add(new AnimationPreviewUpdateCallback(animOutput));
}
private static Playable CreatePlayableGraph(PlayableGraph graph, TrackAsset asset, GameObject go, IntervalTree<RuntimeElement> tree, Playable timelinePlayable)
{
return asset.CreatePlayableGraph(graph, go, tree, timelinePlayable);
}
private Playable CreateTrackPlayable(PlayableGraph graph, Playable timelinePlayable, TrackAsset track, GameObject go, bool createOutputs)
{
if (!track.IsCompilable()) // where parents are not compilable (group tracks)
return timelinePlayable;
Playable playable;
if (m_PlayableCache.TryGetValue(track, out playable))
return playable;
if (track.name == "root")
return timelinePlayable;
TrackAsset parentActor = track.parent as TrackAsset;
var parentPlayable = parentActor != null ? CreateTrackPlayable(graph, timelinePlayable, parentActor, go, createOutputs) : timelinePlayable;
var actorPlayable = CreatePlayableGraph(graph, track, go, m_IntervalTree, timelinePlayable);
bool connected = false;
if (!actorPlayable.IsValid())
{
// if a track says it's compilable, but returns Playable.Null, that can screw up the whole graph.
throw new InvalidOperationException(track.name + "(" + track.GetType() + ") did not produce a valid playable. Use the compilable property to indicate whether the track is valid for processing");
}
// Special case for animation tracks
if (parentPlayable.IsValid() && actorPlayable.IsValid())
{
int port = parentPlayable.GetInputCount();
parentPlayable.SetInputCount(port + 1);
connected = graph.Connect(actorPlayable, 0, parentPlayable, port);
parentPlayable.SetInputWeight(port, 1.0f);
}
if (createOutputs && connected)
{
CreateTrackOutput(graph, track, go, parentPlayable, parentPlayable.GetInputCount() - 1);
}
CacheTrack(track, actorPlayable, connected ? (parentPlayable.GetInputCount() - 1) : -1, parentPlayable);
return actorPlayable;
}
/// <summary>
/// Overridden to handle synchronizing time on the timeline instance.
/// </summary>
/// <param name="playable">The Playable that owns the current PlayableBehaviour.</param>
/// <param name="info">A FrameData structure that contains information about the current frame context.</param>
public override void PrepareFrame(Playable playable, FrameData info)
{
#if UNITY_EDITOR
if (m_Rebalancer != null)
m_Rebalancer.Rebalance();
#endif
// force seek if we are being evaluated
// or if our time has jumped. This is used to
// resynchronize
Evaluate(playable, info);
}
private void Evaluate(Playable playable, FrameData frameData)
{
if (m_IntervalTree == null)
return;
double localTime = playable.GetTime();
m_ActiveBit = m_ActiveBit == 0 ? 1 : 0;
m_CurrentListOfActiveClips.Clear();
m_IntervalTree.IntersectsWith(DiscreteTime.GetNearestTick(localTime), m_CurrentListOfActiveClips);
foreach (var c in m_CurrentListOfActiveClips)
{
c.intervalBit = m_ActiveBit;
if (frameData.timeLooped)
c.Reset();
}
// all previously active clips having a different intervalBit flag are not
// in the current intersection, therefore are considered becoming disabled at this frame
var timelineEnd = playable.GetDuration();
foreach (var c in m_ActiveClips)
{
if (c.intervalBit != m_ActiveBit)
{
var clipEnd = (double)DiscreteTime.FromTicks(c.intervalEnd);
var time = frameData.timeLooped ? Math.Min(clipEnd, timelineEnd) : Math.Min(localTime, clipEnd);
c.EvaluateAt(time, frameData);
c.enable = false;
}
}
m_ActiveClips.Clear();
// case 998642 - don't use m_ActiveClips.AddRange, as in 4.6 .Net scripting it causes GC allocs
for (var a = 0; a < m_CurrentListOfActiveClips.Count; a++)
{
m_CurrentListOfActiveClips[a].EvaluateAt(localTime, frameData);
m_ActiveClips.Add(m_CurrentListOfActiveClips[a]);
}
int count = m_EvaluateCallbacks.Count;
for (int i = 0; i < count; i++)
{
m_EvaluateCallbacks[i].Evaluate();
}
}
private void CacheTrack(TrackAsset track, Playable playable, int port, Playable parent)
{
m_PlayableCache[track] = playable;
}
//necessary to build on AOT platforms
static void ForAOTCompilationOnly()
{
new List<IntervalTree<RuntimeElement>.Entry>();
}
}
}