using System;
using System.Collections;
using System.Collections.Generic;
namespace UniRx.Operators
{
internal class DelayFrameObservable<T> : OperatorObservableBase<T>
{
readonly IObservable<T> source;
readonly int frameCount;
readonly FrameCountType frameCountType;
public DelayFrameObservable(IObservable<T> source, int frameCount, FrameCountType frameCountType)
: base(source.IsRequiredSubscribeOnCurrentThread())
{
this.source = source;
this.frameCount = frameCount;
this.frameCountType = frameCountType;
}
protected override IDisposable SubscribeCore(IObserver<T> observer, IDisposable cancel)
{
return new DelayFrame(this, observer, cancel).Run();
}
class DelayFrame : OperatorObserverBase<T, T>
{
readonly DelayFrameObservable<T> parent;
readonly object gate = new object();
readonly QueuePool pool = new QueuePool();
int runningEnumeratorCount;
bool readyDrainEnumerator;
bool running;
IDisposable sourceSubscription;
Queue<T> currentQueueReference;
bool calledCompleted;
bool hasError;
Exception error;
BooleanDisposable cancelationToken;
public DelayFrame(DelayFrameObservable<T> parent, IObserver<T> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
cancelationToken = new BooleanDisposable();
var _sourceSubscription = new SingleAssignmentDisposable();
sourceSubscription = _sourceSubscription;
_sourceSubscription.Disposable = parent.source.Subscribe(this);
return StableCompositeDisposable.Create(cancelationToken, sourceSubscription);
}
IEnumerator DrainQueue(Queue<T> q, int frameCount)
{
lock (gate)
{
readyDrainEnumerator = false; // use next queue.
running = false;
}
while (!cancelationToken.IsDisposed && frameCount-- != 0)
{
yield return null;
}
try
{
if (q != null)
{
while (q.Count > 0 && !hasError)
{
if (cancelationToken.IsDisposed) break;
lock (gate)
{
running = true;
}
var value = q.Dequeue();
observer.OnNext(value);
lock (gate)
{
running = false;
}
}
if (q.Count == 0)
{
pool.Return(q);
}
}
if (hasError)
{
if (!cancelationToken.IsDisposed)
{
cancelationToken.Dispose();
try { observer.OnError(error); } finally { Dispose(); }
}
}
else if (calledCompleted)
{
lock (gate)
{
// not self only
if (runningEnumeratorCount != 1) yield break;
}
if (!cancelationToken.IsDisposed)
{
cancelationToken.Dispose();
try { observer.OnCompleted(); }
finally { Dispose(); }
}
}
}
finally
{
lock (gate)
{
runningEnumeratorCount--;
}
}
}
public override void OnNext(T value)
{
if (cancelationToken.IsDisposed) return;
Queue<T> targetQueue = null;
lock (gate)
{
if (!readyDrainEnumerator)
{
readyDrainEnumerator = true;
runningEnumeratorCount++;
targetQueue = currentQueueReference = pool.Get();
targetQueue.Enqueue(value);
}
else
{
if (currentQueueReference != null) // null - if doesn't start OnNext and start OnCompleted
{
currentQueueReference.Enqueue(value);
}
return;
}
}
switch (parent.frameCountType)
{
case FrameCountType.Update:
MainThreadDispatcher.StartUpdateMicroCoroutine(DrainQueue(targetQueue, parent.frameCount));
break;
case FrameCountType.FixedUpdate:
MainThreadDispatcher.StartFixedUpdateMicroCoroutine(DrainQueue(targetQueue, parent.frameCount));
break;
case FrameCountType.EndOfFrame:
MainThreadDispatcher.StartEndOfFrameMicroCoroutine(DrainQueue(targetQueue, parent.frameCount));
break;
default:
throw new ArgumentException("Invalid FrameCountType:" + parent.frameCountType);
}
}
public override void OnError(Exception error)
{
sourceSubscription.Dispose(); // stop subscription
if (cancelationToken.IsDisposed) return;
lock (gate)
{
if (running)
{
hasError = true;
this.error = error;
return;
}
}
cancelationToken.Dispose();
try { base.observer.OnError(error); } finally { Dispose(); }
}
public override void OnCompleted()
{
sourceSubscription.Dispose(); // stop subscription
if (cancelationToken.IsDisposed) return;
lock (gate)
{
calledCompleted = true;
if (!readyDrainEnumerator)
{
readyDrainEnumerator = true;
runningEnumeratorCount++;
}
else
{
return;
}
}
switch (parent.frameCountType)
{
case FrameCountType.Update:
MainThreadDispatcher.StartUpdateMicroCoroutine(DrainQueue(null, parent.frameCount));
break;
case FrameCountType.FixedUpdate:
MainThreadDispatcher.StartFixedUpdateMicroCoroutine(DrainQueue(null, parent.frameCount));
break;
case FrameCountType.EndOfFrame:
MainThreadDispatcher.StartEndOfFrameMicroCoroutine(DrainQueue(null, parent.frameCount));
break;
default:
throw new ArgumentException("Invalid FrameCountType:" + parent.frameCountType);
}
}
}
class QueuePool
{
readonly object gate = new object();
readonly Queue<Queue<T>> pool = new Queue<Queue<T>>(2);
public Queue<T> Get()
{
lock (gate)
{
if (pool.Count == 0)
{
return new Queue<T>(2);
}
else
{
return pool.Dequeue();
}
}
}
public void Return(Queue<T> q)
{
lock (gate)
{
pool.Enqueue(q);
}
}
}
}
}