YDL
/
HK_LongZhiMeng
1
0
Fork 0
Code Issues Pull Requests Projects Releases Wiki Activity
上海虹口龙之梦项目
You can not select more than 25 topics Topics must start with a letter or number, can include dashes ('-') and can be up to 35 characters long.
5 Commits
2 Branches
0 Tags
418 MiB
Tree: 72884d91e3
Branches Tags
${ item.name }
Create tag ${ searchTerm }
Create branch ${ searchTerm }
from '72884d91e3'
${ noResults }
HK_LongZhiMeng/Assets/Plugins/UniRx/Scripts/Operators/Buffer.cs

624 lines
19 KiB
Raw Normal View History Unescape

初始化
1 year ago
using System;
using System.Collections.Generic;
using UniRx.Operators;
namespace UniRx.Operators
{
internal class BufferObservable<T> : OperatorObservableBase<IList<T>>
{
readonly IObservable<T> source;
readonly int count;
readonly int skip;
readonly TimeSpan timeSpan;
readonly TimeSpan timeShift;
readonly IScheduler scheduler;
public BufferObservable(IObservable<T> source, int count, int skip)
: base(source.IsRequiredSubscribeOnCurrentThread())
{
this.source = source;
this.count = count;
this.skip = skip;
}
public BufferObservable(IObservable<T> source, TimeSpan timeSpan, TimeSpan timeShift, IScheduler scheduler)
: base(scheduler == Scheduler.CurrentThread || source.IsRequiredSubscribeOnCurrentThread())
{
this.source = source;
this.timeSpan = timeSpan;
this.timeShift = timeShift;
this.scheduler = scheduler;
}
public BufferObservable(IObservable<T> source, TimeSpan timeSpan, int count, IScheduler scheduler)
: base(scheduler == Scheduler.CurrentThread || source.IsRequiredSubscribeOnCurrentThread())
{
this.source = source;
this.timeSpan = timeSpan;
this.count = count;
this.scheduler = scheduler;
}
protected override IDisposable SubscribeCore(IObserver<IList<T>> observer, IDisposable cancel)
{
// count,skip
if (scheduler == null)
{
if (skip == 0)
{
return new Buffer(this, observer, cancel).Run();
}
else
{
return new Buffer_(this, observer, cancel).Run();
}
}
else
{
// time + count
if (count > 0)
{
return new BufferTC(this, observer, cancel).Run();
}
else
{
if (timeSpan == timeShift)
{
return new BufferT(this, observer, cancel).Run();
}
else
{
return new BufferTS(this, observer, cancel).Run();
}
}
}
}
// count only
class Buffer : OperatorObserverBase<T, IList<T>>
{
readonly BufferObservable<T> parent;
List<T> list;
public Buffer(BufferObservable<T> parent, IObserver<IList<T>> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
list = new List<T>(parent.count);
return parent.source.Subscribe(this);
}
public override void OnNext(T value)
{
list.Add(value);
if (list.Count == parent.count)
{
observer.OnNext(list);
list = new List<T>(parent.count);
}
}
public override void OnError(Exception error)
{
try { observer.OnError(error); } finally { Dispose(); }
}
public override void OnCompleted()
{
if (list.Count > 0)
{
observer.OnNext(list);
}
try { observer.OnCompleted(); } finally { Dispose(); }
}
}
// count and skip
class Buffer_ : OperatorObserverBase<T, IList<T>>
{
readonly BufferObservable<T> parent;
Queue<List<T>> q;
int index;
public Buffer_(BufferObservable<T> parent, IObserver<IList<T>> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
q = new Queue<List<T>>();
index = -1;
return parent.source.Subscribe(this);
}
public override void OnNext(T value)
{
index++;
if (index % parent.skip == 0)
{
q.Enqueue(new List<T>(parent.count));
}
var len = q.Count;
for (int i = 0; i < len; i++)
{
var list = q.Dequeue();
list.Add(value);
if (list.Count == parent.count)
{
observer.OnNext(list);
}
else
{
q.Enqueue(list);
}
}
}
public override void OnError(Exception error)
{
try { observer.OnError(error); } finally { Dispose(); }
}
public override void OnCompleted()
{
foreach (var list in q)
{
observer.OnNext(list);
}
try { observer.OnCompleted(); } finally { Dispose(); }
}
}
// timespan = timeshift
class BufferT : OperatorObserverBase<T, IList<T>>
{
static readonly T[] EmptyArray = new T[0];
readonly BufferObservable<T> parent;
readonly object gate = new object();
List<T> list;
public BufferT(BufferObservable<T> parent, IObserver<IList<T>> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
list = new List<T>();
var timerSubscription = Observable.Interval(parent.timeSpan, parent.scheduler)
.Subscribe(new Buffer(this));
var sourceSubscription = parent.source.Subscribe(this);
return StableCompositeDisposable.Create(timerSubscription, sourceSubscription);
}
public override void OnNext(T value)
{
lock (gate)
{
list.Add(value);
}
}
public override void OnError(Exception error)
{
try { observer.OnError(error); } finally { Dispose(); }
}
public override void OnCompleted()
{
List<T> currentList;
lock (gate)
{
currentList = list;
}
observer.OnNext(currentList);
try { observer.OnCompleted(); } finally { Dispose(); }
}
class Buffer : IObserver<long>
{
BufferT parent;
public Buffer(BufferT parent)
{
this.parent = parent;
}
public void OnNext(long value)
{
var isZero = false;
List<T> currentList;
lock (parent.gate)
{
currentList = parent.list;
if (currentList.Count != 0)
{
parent.list = new List<T>();
}
else
{
isZero = true;
}
}
parent.observer.OnNext((isZero) ? (IList<T>)EmptyArray : currentList);
}
public void OnError(Exception error)
{
}
public void OnCompleted()
{
}
}
}
// timespan + timeshift
class BufferTS : OperatorObserverBase<T, IList<T>>
{
readonly BufferObservable<T> parent;
readonly object gate = new object();
Queue<IList<T>> q;
TimeSpan totalTime;
TimeSpan nextShift;
TimeSpan nextSpan;
SerialDisposable timerD;
public BufferTS(BufferObservable<T> parent, IObserver<IList<T>> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
totalTime = TimeSpan.Zero;
nextShift = parent.timeShift;
nextSpan = parent.timeSpan;
q = new Queue<IList<T>>();
timerD = new SerialDisposable();
q.Enqueue(new List<T>());
CreateTimer();
var subscription = parent.source.Subscribe(this);
return StableCompositeDisposable.Create(subscription, timerD);
}
void CreateTimer()
{
var m = new SingleAssignmentDisposable();
timerD.Disposable = m;
var isSpan = false;
var isShift = false;
if (nextSpan == nextShift)
{
isSpan = true;
isShift = true;
}
else if (nextSpan < nextShift)
isSpan = true;
else
isShift = true;
var newTotalTime = isSpan ? nextSpan : nextShift;
var ts = newTotalTime - totalTime;
totalTime = newTotalTime;
if (isSpan)
nextSpan += parent.timeShift;
if (isShift)
nextShift += parent.timeShift;
m.Disposable = parent.scheduler.Schedule(ts, () =>
{
lock (gate)
{
if (isShift)
{
var s = new List<T>();
q.Enqueue(s);
}
if (isSpan)
{
var s = q.Dequeue();
observer.OnNext(s);
}
}
CreateTimer();
});
}
public override void OnNext(T value)
{
lock (gate)
{
foreach (var s in q)
{
s.Add(value);
}
}
}
public override void OnError(Exception error)
{
try { observer.OnError(error); } finally { Dispose(); }
}
public override void OnCompleted()
{
lock (gate)
{
foreach (var list in q)
{
observer.OnNext(list);
}
try { observer.OnCompleted(); } finally { Dispose(); }
}
}
}
// timespan + count
class BufferTC : OperatorObserverBase<T, IList<T>>
{
static readonly T[] EmptyArray = new T[0]; // cache
readonly BufferObservable<T> parent;
readonly object gate = new object();
List<T> list;
long timerId;
SerialDisposable timerD;
public BufferTC(BufferObservable<T> parent, IObserver<IList<T>> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
list = new List<T>();
timerId = 0L;
timerD = new SerialDisposable();
CreateTimer();
var subscription = parent.source.Subscribe(this);
return StableCompositeDisposable.Create(subscription, timerD);
}
void CreateTimer()
{
var currentTimerId = timerId;
var timerS = new SingleAssignmentDisposable();
timerD.Disposable = timerS; // restart timer(dispose before)
var periodicScheduler = parent.scheduler as ISchedulerPeriodic;
if (periodicScheduler != null)
{
timerS.Disposable = periodicScheduler.SchedulePeriodic(parent.timeSpan, () => OnNextTick(currentTimerId));
}
else
{
timerS.Disposable = parent.scheduler.Schedule(parent.timeSpan, self => OnNextRecursive(currentTimerId, self));
}
}
void OnNextTick(long currentTimerId)
{
var isZero = false;
List<T> currentList;
lock (gate)
{
if (currentTimerId != timerId) return;
currentList = list;
if (currentList.Count != 0)
{
list = new List<T>();
}
else
{
isZero = true;
}
}
observer.OnNext((isZero) ? (IList<T>)EmptyArray : currentList);
}
void OnNextRecursive(long currentTimerId, Action<TimeSpan> self)
{
var isZero = false;
List<T> currentList;
lock (gate)
{
if (currentTimerId != timerId) return;
currentList = list;
if (currentList.Count != 0)
{
list = new List<T>();
}
else
{
isZero = true;
}
}
observer.OnNext((isZero) ? (IList<T>)EmptyArray : currentList);
self(parent.timeSpan);
}
public override void OnNext(T value)
{
List<T> currentList = null;
lock (gate)
{
list.Add(value);
if (list.Count == parent.count)
{
currentList = list;
list = new List<T>();
timerId++;
CreateTimer();
}
}
if (currentList != null)
{
observer.OnNext(currentList);
}
}
public override void OnError(Exception error)
{
try { observer.OnError(error); } finally { Dispose(); }
}
public override void OnCompleted()
{
List<T> currentList;
lock (gate)
{
timerId++;
currentList = list;
}
observer.OnNext(currentList);
try { observer.OnCompleted(); } finally { Dispose(); }
}
}
}
internal class BufferObservable<TSource, TWindowBoundary> : OperatorObservableBase<IList<TSource>>
{
readonly IObservable<TSource> source;
readonly IObservable<TWindowBoundary> windowBoundaries;
public BufferObservable(IObservable<TSource> source, IObservable<TWindowBoundary> windowBoundaries)
: base(source.IsRequiredSubscribeOnCurrentThread())
{
this.source = source;
this.windowBoundaries = windowBoundaries;
}
protected override IDisposable SubscribeCore(IObserver<IList<TSource>> observer, IDisposable cancel)
{
return new Buffer(this, observer, cancel).Run();
}
class Buffer : OperatorObserverBase<TSource, IList<TSource>>
{
static readonly TSource[] EmptyArray = new TSource[0]; // cache
readonly BufferObservable<TSource, TWindowBoundary> parent;
object gate = new object();
List<TSource> list;
public Buffer(BufferObservable<TSource, TWindowBoundary> parent, IObserver<IList<TSource>> observer, IDisposable cancel) : base(observer, cancel)
{
this.parent = parent;
}
public IDisposable Run()
{
list = new List<TSource>();
var sourceSubscription = parent.source.Subscribe(this);
var windowSubscription = parent.windowBoundaries.Subscribe(new Buffer_(this));
return StableCompositeDisposable.Create(sourceSubscription, windowSubscription);
}
public override void OnNext(TSource value)
{
lock (gate)
{
list.Add(value);
}
}
public override void OnError(Exception error)
{
lock (gate)
{
try { observer.OnError(error); } finally { Dispose(); }
}
}
public override void OnCompleted()
{
lock (gate)
{
var currentList = list;
list = new List<TSource>(); // safe
observer.OnNext(currentList);
try { observer.OnCompleted(); } finally { Dispose(); }
}
}
class Buffer_ : IObserver<TWindowBoundary>
{
readonly Buffer parent;
public Buffer_(Buffer parent)
{
this.parent = parent;
}
public void OnNext(TWindowBoundary value)
{
var isZero = false;
List<TSource> currentList;
lock (parent.gate)
{
currentList = parent.list;
if (currentList.Count != 0)
{
parent.list = new List<TSource>();
}
else
{
isZero = true;
}
}
if (isZero)
{
parent.observer.OnNext(EmptyArray);
}
else
{
parent.observer.OnNext(currentList);
}
}
public void OnError(Exception error)
{
parent.OnError(error);
}
public void OnCompleted()
{
parent.OnCompleted();
}
}
}
}
}