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Exemplarische Vorgehensweise: Erstellen eines Datenflussblocktyps

Obwohl die TPL Dataflow Library mehrere Datenflussblocktypen zur Verfügung stellt, die eine Vielzahl von Funktionen ermöglichen, können Sie auch benutzerdefinierte Blocktypen erstellen. Dieses Dokument beschreibt, wie Sie einen Datenflussblocktyp erstellen, der benutzerdefiniertes Verhalten implementiert.

Voraussetzungen

Lesen Sie zunächst Datenfluss, bevor Sie dieses Dokument lesen.

Hinweis

Die TPL-Datenflussbibliothek (System.Threading.Tasks.Dataflow-Namespace) wird nicht mit .NET ausgeliefert. Öffnen Sie zum Installieren des System.Threading.Tasks.Dataflow-Namespace in Visual Studio Ihr Projekt, wählen Sie im Menü Projekt die Option NuGet-Pakete verwalten aus, und suchen Sie online nach dem System.Threading.Tasks.Dataflow-Paket. Alternativ können Sie es mithilfe der .NET Core-CLI installieren und dazu dotnet add package System.Threading.Tasks.Dataflow ausführen.

Definieren des Datenflussblocks für gleitende Fenster

Erwägen Sie die Nutzung einer Datenflussanwendung, die erfordert, dass Eingabewerte gepuffert und dann in einem gleitenden Fenster ausgegeben werden. Zum Beispiel erzeugt für die Eingabewerte {0, 1, 2, 3, 3, 4, 5} und eine Fenstergröße von drei, ein Datenflussblock für gleitende Fenster die Ausgabearrays {0, 1, 2}, {1, 2, 3}, {2, 3, 4} und {3, 4, 5}. Die folgenden Abschnitte veranschaulichen zwei Möglichkeiten, einen Datenflussblocktyp zu erstellen, der benutzerdefiniertes Verhalten implementiert. Das erste Verfahren verwendet die Encapsulate-Methode, um die Funktionalität eine ISourceBlock<TOutput>-Objekts und eines ITargetBlock<TInput>-Objekts in einem Weitergabeblock zu kombinieren. Das zweite Verfahren definiert eine Klasse, die aus IPropagatorBlock<TInput,TOutput> abgeleitet ist und vorhandene Funktionen kombiniert, um benutzerdefiniertes Verhalten auszuführen.

Verwendung der Kapselmethode zum Definieren des Datenflussblocks für gleitende Fenster

Im folgenden Beispiel wird die Encapsulate-Methode verwendet, um einen Weitergabeblock aus einem Ziel und einer Quelle zu erstellen. Ein Weitergabeblock ermöglicht es einem Quellblock und einem Zielblock, als Empfänger und Sender von Daten zu fungieren.

Diese Vorgehensweise ist nützlich, wenn Sie eine benutzerdefinierte Datenflussfunktionalität, aber keinen Typ benötigen, der zusätzliche Methoden, Eigenschaften oder Felder bereitstellt.

// Creates a IPropagatorBlock<T, T[]> object propagates data in a
// sliding window fashion.
public static IPropagatorBlock<T, T[]> CreateSlidingWindow<T>(int windowSize)
{
   // Create a queue to hold messages.
   var queue = new Queue<T>();

   // The source part of the propagator holds arrays of size windowSize
   // and propagates data out to any connected targets.
   var source = new BufferBlock<T[]>();

   // The target part receives data and adds them to the queue.
   var target = new ActionBlock<T>(item =>
   {
      // Add the item to the queue.
      queue.Enqueue(item);
      // Remove the oldest item when the queue size exceeds the window size.
      if (queue.Count > windowSize)
         queue.Dequeue();
      // Post the data in the queue to the source block when the queue size
      // equals the window size.
      if (queue.Count == windowSize)
         source.Post(queue.ToArray());
   });

   // When the target is set to the completed state, propagate out any
   // remaining data and set the source to the completed state.
   target.Completion.ContinueWith(delegate
   {
      if (queue.Count > 0 && queue.Count < windowSize)
         source.Post(queue.ToArray());
      source.Complete();
   });

   // Return a IPropagatorBlock<T, T[]> object that encapsulates the
   // target and source blocks.
   return DataflowBlock.Encapsulate(target, source);
}
' Creates a IPropagatorBlock<T, T[]> object propagates data in a 
' sliding window fashion.
Public Shared Function CreateSlidingWindow(Of T)(ByVal windowSize As Integer) As IPropagatorBlock(Of T, T())
    ' Create a queue to hold messages.
    Dim queue = New Queue(Of T)()

    ' The source part of the propagator holds arrays of size windowSize
    ' and propagates data out to any connected targets.
    Dim source = New BufferBlock(Of T())()

    ' The target part receives data and adds them to the queue.
    Dim target = New ActionBlock(Of T)(Sub(item)
                                           ' Add the item to the queue.
                                           ' Remove the oldest item when the queue size exceeds the window size.
                                           ' Post the data in the queue to the source block when the queue size
                                           ' equals the window size.
                                           queue.Enqueue(item)
                                           If queue.Count > windowSize Then
                                               queue.Dequeue()
                                           End If
                                           If queue.Count = windowSize Then
                                               source.Post(queue.ToArray())
                                           End If
                                       End Sub)

    ' When the target is set to the completed state, propagate out any
    ' remaining data and set the source to the completed state.
    target.Completion.ContinueWith(Sub()
                                       If queue.Count > 0 AndAlso queue.Count < windowSize Then
                                           source.Post(queue.ToArray())
                                       End If
                                       source.Complete()
                                   End Sub)

    ' Return a IPropagatorBlock<T, T[]> object that encapsulates the 
    ' target and source blocks.
    Return DataflowBlock.Encapsulate(target, source)
End Function

Ableiten aus „IPropagatorBlock“ zum Definieren des Datenflussblocks für gleitende Fenster

Im folgenden Beispiel wird die SlidingWindowBlock-Klasse gezeigt. Diese Klasse leitet sich aus IPropagatorBlock<TInput,TOutput> ab, sodass sie sowohl als Quelle als auch als Ziel von Daten fungieren kann. Wie im vorherigen Beispiel wird die SlidingWindowBlock-Klasse auf bestehenden Datenflussblocktypen aufgebaut. Die SlidingWindowBlock-Klasse implementiert jedoch auch die Methoden, die von den Schnittstellen ISourceBlock<TOutput>, ITargetBlock<TInput> und IDataflowBlock benötigt werden. Alle diese Methoden leiten die Arbeit an die vordefinierten Datenflussblocktyp-Elemente weiter. Zum Beispiel stellt die Post-Methode die Arbeit auf das m_target-Datenelement zurück, das auch ein ITargetBlock<TInput>-Objekt ist.

Diese Vorgehensweise ist nützlich, wenn Sie eine benutzerdefinierte Datenflussfunktionalität und zudem einen Typ benötigen, der zusätzliche Methoden, Eigenschaften oder Felder bereitstellt. Beispielsweise leitet sich die Klasse SlidingWindowBlock auch aus IReceivableSourceBlock<TOutput> ab, sodass sie die Methoden TryReceive und TryReceiveAll bereitstellen kann. Außerdem veranschaulicht die SlidingWindowBlock-Klasse die Erweiterbarkeit, indem sie die WindowSize-Eigenschaft bereitstellt, die die Anzahl der Elemente im gleitenden Fenster ermittelt.

// Propagates data in a sliding window fashion.
public class SlidingWindowBlock<T> : IPropagatorBlock<T, T[]>,
                                     IReceivableSourceBlock<T[]>
{
   // The size of the window.
   private readonly int m_windowSize;
   // The target part of the block.
   private readonly ITargetBlock<T> m_target;
   // The source part of the block.
   private readonly IReceivableSourceBlock<T[]> m_source;

   // Constructs a SlidingWindowBlock object.
   public SlidingWindowBlock(int windowSize)
   {
      // Create a queue to hold messages.
      var queue = new Queue<T>();

      // The source part of the propagator holds arrays of size windowSize
      // and propagates data out to any connected targets.
      var source = new BufferBlock<T[]>();

      // The target part receives data and adds them to the queue.
      var target = new ActionBlock<T>(item =>
      {
         // Add the item to the queue.
         queue.Enqueue(item);
         // Remove the oldest item when the queue size exceeds the window size.
         if (queue.Count > windowSize)
            queue.Dequeue();
         // Post the data in the queue to the source block when the queue size
         // equals the window size.
         if (queue.Count == windowSize)
            source.Post(queue.ToArray());
      });

      // When the target is set to the completed state, propagate out any
      // remaining data and set the source to the completed state.
      target.Completion.ContinueWith(delegate
      {
         if (queue.Count > 0 && queue.Count < windowSize)
            source.Post(queue.ToArray());
         source.Complete();
      });

      m_windowSize = windowSize;
      m_target = target;
      m_source = source;
   }

   // Retrieves the size of the window.
   public int WindowSize { get { return m_windowSize; } }

   #region IReceivableSourceBlock<TOutput> members

   // Attempts to synchronously receive an item from the source.
   public bool TryReceive(Predicate<T[]> filter, out T[] item)
   {
      return m_source.TryReceive(filter, out item);
   }

   // Attempts to remove all available elements from the source into a new
   // array that is returned.
   public bool TryReceiveAll(out IList<T[]> items)
   {
      return m_source.TryReceiveAll(out items);
   }

   #endregion

   #region ISourceBlock<TOutput> members

   // Links this dataflow block to the provided target.
   public IDisposable LinkTo(ITargetBlock<T[]> target, DataflowLinkOptions linkOptions)
   {
      return m_source.LinkTo(target, linkOptions);
   }

   // Called by a target to reserve a message previously offered by a source
   // but not yet consumed by this target.
   bool ISourceBlock<T[]>.ReserveMessage(DataflowMessageHeader messageHeader,
      ITargetBlock<T[]> target)
   {
      return m_source.ReserveMessage(messageHeader, target);
   }

   // Called by a target to consume a previously offered message from a source.
   T[] ISourceBlock<T[]>.ConsumeMessage(DataflowMessageHeader messageHeader,
      ITargetBlock<T[]> target, out bool messageConsumed)
   {
      return m_source.ConsumeMessage(messageHeader,
         target, out messageConsumed);
   }

   // Called by a target to release a previously reserved message from a source.
   void ISourceBlock<T[]>.ReleaseReservation(DataflowMessageHeader messageHeader,
      ITargetBlock<T[]> target)
   {
      m_source.ReleaseReservation(messageHeader, target);
   }

   #endregion

   #region ITargetBlock<TInput> members

   // Asynchronously passes a message to the target block, giving the target the
   // opportunity to consume the message.
   DataflowMessageStatus ITargetBlock<T>.OfferMessage(DataflowMessageHeader messageHeader,
      T messageValue, ISourceBlock<T> source, bool consumeToAccept)
   {
      return m_target.OfferMessage(messageHeader,
         messageValue, source, consumeToAccept);
   }

   #endregion

   #region IDataflowBlock members

   // Gets a Task that represents the completion of this dataflow block.
   public Task Completion { get { return m_source.Completion; } }

   // Signals to this target block that it should not accept any more messages,
   // nor consume postponed messages.
   public void Complete()
   {
      m_target.Complete();
   }

   public void Fault(Exception error)
   {
      m_target.Fault(error);
   }

   #endregion
}
    ' Propagates data in a sliding window fashion.
    Public Class SlidingWindowBlock(Of T)
        Implements IPropagatorBlock(Of T, T()), IReceivableSourceBlock(Of T())
        ' The size of the window.
        Private ReadOnly m_windowSize As Integer
        ' The target part of the block.
        Private ReadOnly m_target As ITargetBlock(Of T)
        ' The source part of the block.
        Private ReadOnly m_source As IReceivableSourceBlock(Of T())

        ' Constructs a SlidingWindowBlock object.
        Public Sub New(ByVal windowSize As Integer)
            ' Create a queue to hold messages.
            Dim queue = New Queue(Of T)()

            ' The source part of the propagator holds arrays of size windowSize
            ' and propagates data out to any connected targets.
            Dim source = New BufferBlock(Of T())()

            ' The target part receives data and adds them to the queue.
            Dim target = New ActionBlock(Of T)(Sub(item)
                                                   ' Add the item to the queue.
                                                   ' Remove the oldest item when the queue size exceeds the window size.
                                                   ' Post the data in the queue to the source block when the queue size
                                                   ' equals the window size.
                                                   queue.Enqueue(item)
                                                   If queue.Count > windowSize Then
                                                       queue.Dequeue()
                                                   End If
                                                   If queue.Count = windowSize Then
                                                       source.Post(queue.ToArray())
                                                   End If
                                               End Sub)

            ' When the target is set to the completed state, propagate out any
            ' remaining data and set the source to the completed state.
            target.Completion.ContinueWith(Sub()
                                               If queue.Count > 0 AndAlso queue.Count < windowSize Then
                                                   source.Post(queue.ToArray())
                                               End If
                                               source.Complete()
                                           End Sub)

            m_windowSize = windowSize
            m_target = target
            m_source = source
        End Sub

        ' Retrieves the size of the window.
        Public ReadOnly Property WindowSize() As Integer
            Get
                Return m_windowSize
            End Get
        End Property

        '#Region "IReceivableSourceBlock<TOutput> members"

        ' Attempts to synchronously receive an item from the source.
        Public Function TryReceive(ByVal filter As Predicate(Of T()), <System.Runtime.InteropServices.Out()> ByRef item() As T) As Boolean Implements IReceivableSourceBlock(Of T()).TryReceive
            Return m_source.TryReceive(filter, item)
        End Function

        ' Attempts to remove all available elements from the source into a new 
        ' array that is returned.
        Public Function TryReceiveAll(<System.Runtime.InteropServices.Out()> ByRef items As IList(Of T())) As Boolean Implements IReceivableSourceBlock(Of T()).TryReceiveAll
            Return m_source.TryReceiveAll(items)
        End Function

        '#End Region

#Region "ISourceBlock<TOutput> members"

        ' Links this dataflow block to the provided target.
        Public Function LinkTo(ByVal target As ITargetBlock(Of T()), ByVal linkOptions As DataflowLinkOptions) As IDisposable Implements ISourceBlock(Of T()).LinkTo
            Return m_source.LinkTo(target, linkOptions)
        End Function

        ' Called by a target to reserve a message previously offered by a source 
        ' but not yet consumed by this target.
        Private Function ReserveMessage(ByVal messageHeader As DataflowMessageHeader, ByVal target As ITargetBlock(Of T())) As Boolean Implements ISourceBlock(Of T()).ReserveMessage
            Return m_source.ReserveMessage(messageHeader, target)
        End Function

        ' Called by a target to consume a previously offered message from a source.
        Private Function ConsumeMessage(ByVal messageHeader As DataflowMessageHeader, ByVal target As ITargetBlock(Of T()), ByRef messageConsumed As Boolean) As T() Implements ISourceBlock(Of T()).ConsumeMessage
            Return m_source.ConsumeMessage(messageHeader, target, messageConsumed)
        End Function

        ' Called by a target to release a previously reserved message from a source.
        Private Sub ReleaseReservation(ByVal messageHeader As DataflowMessageHeader, ByVal target As ITargetBlock(Of T())) Implements ISourceBlock(Of T()).ReleaseReservation
            m_source.ReleaseReservation(messageHeader, target)
        End Sub

#End Region

#Region "ITargetBlock<TInput> members"

        ' Asynchronously passes a message to the target block, giving the target the 
        ' opportunity to consume the message.
        Private Function OfferMessage(ByVal messageHeader As DataflowMessageHeader, ByVal messageValue As T, ByVal source As ISourceBlock(Of T), ByVal consumeToAccept As Boolean) As DataflowMessageStatus Implements ITargetBlock(Of T).OfferMessage
            Return m_target.OfferMessage(messageHeader, messageValue, source, consumeToAccept)
        End Function

#End Region

#Region "IDataflowBlock members"

        ' Gets a Task that represents the completion of this dataflow block.
        Public ReadOnly Property Completion() As Task Implements IDataflowBlock.Completion
            Get
                Return m_source.Completion
            End Get
        End Property

        ' Signals to this target block that it should not accept any more messages, 
        ' nor consume postponed messages. 
        Public Sub Complete() Implements IDataflowBlock.Complete
            m_target.Complete()
        End Sub

        Public Sub Fault(ByVal [error] As Exception) Implements IDataflowBlock.Fault
            m_target.Fault([error])
        End Sub

#End Region
    End Class

Vollständiges Beispiel

Das folgende Beispiel enthält den vollständigen Code für diese exemplarische Vorgehensweise. Es zeigt auch, wie man die beiden Blöcke für gleitende Fenster in einer Methode verwendet, die in den Block schreibt, ihn liest und die Ergebnisse auf der Konsole ausgibt.

using System;
using System.Collections.Generic;
using System.Linq;
using System.Threading.Tasks;
using System.Threading.Tasks.Dataflow;

// Demonstrates how to create a custom dataflow block type.
class Program
{
   // Creates a IPropagatorBlock<T, T[]> object propagates data in a
   // sliding window fashion.
   public static IPropagatorBlock<T, T[]> CreateSlidingWindow<T>(int windowSize)
   {
      // Create a queue to hold messages.
      var queue = new Queue<T>();

      // The source part of the propagator holds arrays of size windowSize
      // and propagates data out to any connected targets.
      var source = new BufferBlock<T[]>();

      // The target part receives data and adds them to the queue.
      var target = new ActionBlock<T>(item =>
      {
         // Add the item to the queue.
         queue.Enqueue(item);
         // Remove the oldest item when the queue size exceeds the window size.
         if (queue.Count > windowSize)
            queue.Dequeue();
         // Post the data in the queue to the source block when the queue size
         // equals the window size.
         if (queue.Count == windowSize)
            source.Post(queue.ToArray());
      });

      // When the target is set to the completed state, propagate out any
      // remaining data and set the source to the completed state.
      target.Completion.ContinueWith(delegate
      {
         if (queue.Count > 0 && queue.Count < windowSize)
            source.Post(queue.ToArray());
         source.Complete();
      });

      // Return a IPropagatorBlock<T, T[]> object that encapsulates the
      // target and source blocks.
      return DataflowBlock.Encapsulate(target, source);
   }

   // Propagates data in a sliding window fashion.
   public class SlidingWindowBlock<T> : IPropagatorBlock<T, T[]>,
                                        IReceivableSourceBlock<T[]>
   {
      // The size of the window.
      private readonly int m_windowSize;
      // The target part of the block.
      private readonly ITargetBlock<T> m_target;
      // The source part of the block.
      private readonly IReceivableSourceBlock<T[]> m_source;

      // Constructs a SlidingWindowBlock object.
      public SlidingWindowBlock(int windowSize)
      {
         // Create a queue to hold messages.
         var queue = new Queue<T>();

         // The source part of the propagator holds arrays of size windowSize
         // and propagates data out to any connected targets.
         var source = new BufferBlock<T[]>();

         // The target part receives data and adds them to the queue.
         var target = new ActionBlock<T>(item =>
         {
            // Add the item to the queue.
            queue.Enqueue(item);
            // Remove the oldest item when the queue size exceeds the window size.
            if (queue.Count > windowSize)
               queue.Dequeue();
            // Post the data in the queue to the source block when the queue size
            // equals the window size.
            if (queue.Count == windowSize)
               source.Post(queue.ToArray());
         });

         // When the target is set to the completed state, propagate out any
         // remaining data and set the source to the completed state.
         target.Completion.ContinueWith(delegate
         {
            if (queue.Count > 0 && queue.Count < windowSize)
               source.Post(queue.ToArray());
            source.Complete();
         });

         m_windowSize = windowSize;
         m_target = target;
         m_source = source;
      }

      // Retrieves the size of the window.
      public int WindowSize { get { return m_windowSize; } }

      #region IReceivableSourceBlock<TOutput> members

      // Attempts to synchronously receive an item from the source.
      public bool TryReceive(Predicate<T[]> filter, out T[] item)
      {
         return m_source.TryReceive(filter, out item);
      }

      // Attempts to remove all available elements from the source into a new
      // array that is returned.
      public bool TryReceiveAll(out IList<T[]> items)
      {
         return m_source.TryReceiveAll(out items);
      }

      #endregion

      #region ISourceBlock<TOutput> members

      // Links this dataflow block to the provided target.
      public IDisposable LinkTo(ITargetBlock<T[]> target, DataflowLinkOptions linkOptions)
      {
         return m_source.LinkTo(target, linkOptions);
      }

      // Called by a target to reserve a message previously offered by a source
      // but not yet consumed by this target.
      bool ISourceBlock<T[]>.ReserveMessage(DataflowMessageHeader messageHeader,
         ITargetBlock<T[]> target)
      {
         return m_source.ReserveMessage(messageHeader, target);
      }

      // Called by a target to consume a previously offered message from a source.
      T[] ISourceBlock<T[]>.ConsumeMessage(DataflowMessageHeader messageHeader,
         ITargetBlock<T[]> target, out bool messageConsumed)
      {
         return m_source.ConsumeMessage(messageHeader,
            target, out messageConsumed);
      }

      // Called by a target to release a previously reserved message from a source.
      void ISourceBlock<T[]>.ReleaseReservation(DataflowMessageHeader messageHeader,
         ITargetBlock<T[]> target)
      {
         m_source.ReleaseReservation(messageHeader, target);
      }

      #endregion

      #region ITargetBlock<TInput> members

      // Asynchronously passes a message to the target block, giving the target the
      // opportunity to consume the message.
      DataflowMessageStatus ITargetBlock<T>.OfferMessage(DataflowMessageHeader messageHeader,
         T messageValue, ISourceBlock<T> source, bool consumeToAccept)
      {
         return m_target.OfferMessage(messageHeader,
            messageValue, source, consumeToAccept);
      }

      #endregion

      #region IDataflowBlock members

      // Gets a Task that represents the completion of this dataflow block.
      public Task Completion { get { return m_source.Completion; } }

      // Signals to this target block that it should not accept any more messages,
      // nor consume postponed messages.
      public void Complete()
      {
         m_target.Complete();
      }

      public void Fault(Exception error)
      {
         m_target.Fault(error);
      }

      #endregion
   }

   // Demonstrates usage of the sliding window block by sending the provided
   // values to the provided propagator block and printing the output of
   // that block to the console.
   static void DemonstrateSlidingWindow<T>(IPropagatorBlock<T, T[]> slidingWindow,
      IEnumerable<T> values)
   {
      // Create an action block that prints arrays of data to the console.
      string windowComma = string.Empty;
      var printWindow = new ActionBlock<T[]>(window =>
      {
         Console.Write(windowComma);
         Console.Write("{");

         string comma = string.Empty;
         foreach (T item in window)
         {
            Console.Write(comma);
            Console.Write(item);
            comma = ",";
         }
         Console.Write("}");

         windowComma = ", ";
      });

      // Link the printer block to the sliding window block.
      slidingWindow.LinkTo(printWindow);

      // Set the printer block to the completed state when the sliding window
      // block completes.
      slidingWindow.Completion.ContinueWith(delegate { printWindow.Complete(); });

      // Print an additional newline to the console when the printer block completes.
      var completion = printWindow.Completion.ContinueWith(delegate { Console.WriteLine(); });

      // Post the provided values to the sliding window block and then wait
      // for the sliding window block to complete.
      foreach (T value in values)
      {
         slidingWindow.Post(value);
      }
      slidingWindow.Complete();

      // Wait for the printer to complete and perform its final action.
      completion.Wait();
   }

   static void Main(string[] args)
   {

      Console.Write("Using the DataflowBlockExtensions.Encapsulate method ");
      Console.WriteLine("(T=int, windowSize=3):");
      DemonstrateSlidingWindow(CreateSlidingWindow<int>(3), Enumerable.Range(0, 10));

      Console.WriteLine();

      var slidingWindow = new SlidingWindowBlock<char>(4);

      Console.Write("Using SlidingWindowBlock<T> ");
      Console.WriteLine("(T=char, windowSize={0}):", slidingWindow.WindowSize);
      DemonstrateSlidingWindow(slidingWindow, from n in Enumerable.Range(65, 10)
                                              select (char)n);
   }
}

/* Output:
Using the DataflowBlockExtensions.Encapsulate method (T=int, windowSize=3):
{0,1,2}, {1,2,3}, {2,3,4}, {3,4,5}, {4,5,6}, {5,6,7}, {6,7,8}, {7,8,9}

Using SlidingWindowBlock<T> (T=char, windowSize=4):
{A,B,C,D}, {B,C,D,E}, {C,D,E,F}, {D,E,F,G}, {E,F,G,H}, {F,G,H,I}, {G,H,I,J}
 */
Imports System.Collections.Generic
Imports System.Linq
Imports System.Threading.Tasks
Imports System.Threading.Tasks.Dataflow

' Demonstrates how to create a custom dataflow block type.
Friend Class Program
    ' Creates a IPropagatorBlock<T, T[]> object propagates data in a 
    ' sliding window fashion.
    Public Shared Function CreateSlidingWindow(Of T)(ByVal windowSize As Integer) As IPropagatorBlock(Of T, T())
        ' Create a queue to hold messages.
        Dim queue = New Queue(Of T)()

        ' The source part of the propagator holds arrays of size windowSize
        ' and propagates data out to any connected targets.
        Dim source = New BufferBlock(Of T())()

        ' The target part receives data and adds them to the queue.
        Dim target = New ActionBlock(Of T)(Sub(item)
                                               ' Add the item to the queue.
                                               ' Remove the oldest item when the queue size exceeds the window size.
                                               ' Post the data in the queue to the source block when the queue size
                                               ' equals the window size.
                                               queue.Enqueue(item)
                                               If queue.Count > windowSize Then
                                                   queue.Dequeue()
                                               End If
                                               If queue.Count = windowSize Then
                                                   source.Post(queue.ToArray())
                                               End If
                                           End Sub)

        ' When the target is set to the completed state, propagate out any
        ' remaining data and set the source to the completed state.
        target.Completion.ContinueWith(Sub()
                                           If queue.Count > 0 AndAlso queue.Count < windowSize Then
                                               source.Post(queue.ToArray())
                                           End If
                                           source.Complete()
                                       End Sub)

        ' Return a IPropagatorBlock<T, T[]> object that encapsulates the 
        ' target and source blocks.
        Return DataflowBlock.Encapsulate(target, source)
    End Function

    ' Propagates data in a sliding window fashion.
    Public Class SlidingWindowBlock(Of T)
        Implements IPropagatorBlock(Of T, T()), IReceivableSourceBlock(Of T())
        ' The size of the window.
        Private ReadOnly m_windowSize As Integer
        ' The target part of the block.
        Private ReadOnly m_target As ITargetBlock(Of T)
        ' The source part of the block.
        Private ReadOnly m_source As IReceivableSourceBlock(Of T())

        ' Constructs a SlidingWindowBlock object.
        Public Sub New(ByVal windowSize As Integer)
            ' Create a queue to hold messages.
            Dim queue = New Queue(Of T)()

            ' The source part of the propagator holds arrays of size windowSize
            ' and propagates data out to any connected targets.
            Dim source = New BufferBlock(Of T())()

            ' The target part receives data and adds them to the queue.
            Dim target = New ActionBlock(Of T)(Sub(item)
                                                   ' Add the item to the queue.
                                                   ' Remove the oldest item when the queue size exceeds the window size.
                                                   ' Post the data in the queue to the source block when the queue size
                                                   ' equals the window size.
                                                   queue.Enqueue(item)
                                                   If queue.Count > windowSize Then
                                                       queue.Dequeue()
                                                   End If
                                                   If queue.Count = windowSize Then
                                                       source.Post(queue.ToArray())
                                                   End If
                                               End Sub)

            ' When the target is set to the completed state, propagate out any
            ' remaining data and set the source to the completed state.
            target.Completion.ContinueWith(Sub()
                                               If queue.Count > 0 AndAlso queue.Count < windowSize Then
                                                   source.Post(queue.ToArray())
                                               End If
                                               source.Complete()
                                           End Sub)

            m_windowSize = windowSize
            m_target = target
            m_source = source
        End Sub

        ' Retrieves the size of the window.
        Public ReadOnly Property WindowSize() As Integer
            Get
                Return m_windowSize
            End Get
        End Property

        '#Region "IReceivableSourceBlock<TOutput> members"

        ' Attempts to synchronously receive an item from the source.
        Public Function TryReceive(ByVal filter As Predicate(Of T()), <System.Runtime.InteropServices.Out()> ByRef item() As T) As Boolean Implements IReceivableSourceBlock(Of T()).TryReceive
            Return m_source.TryReceive(filter, item)
        End Function

        ' Attempts to remove all available elements from the source into a new 
        ' array that is returned.
        Public Function TryReceiveAll(<System.Runtime.InteropServices.Out()> ByRef items As IList(Of T())) As Boolean Implements IReceivableSourceBlock(Of T()).TryReceiveAll
            Return m_source.TryReceiveAll(items)
        End Function

        '#End Region

#Region "ISourceBlock<TOutput> members"

        ' Links this dataflow block to the provided target.
        Public Function LinkTo(ByVal target As ITargetBlock(Of T()), ByVal linkOptions As DataflowLinkOptions) As IDisposable Implements ISourceBlock(Of T()).LinkTo
            Return m_source.LinkTo(target, linkOptions)
        End Function

        ' Called by a target to reserve a message previously offered by a source 
        ' but not yet consumed by this target.
        Private Function ReserveMessage(ByVal messageHeader As DataflowMessageHeader, ByVal target As ITargetBlock(Of T())) As Boolean Implements ISourceBlock(Of T()).ReserveMessage
            Return m_source.ReserveMessage(messageHeader, target)
        End Function

        ' Called by a target to consume a previously offered message from a source.
        Private Function ConsumeMessage(ByVal messageHeader As DataflowMessageHeader, ByVal target As ITargetBlock(Of T()), ByRef messageConsumed As Boolean) As T() Implements ISourceBlock(Of T()).ConsumeMessage
            Return m_source.ConsumeMessage(messageHeader, target, messageConsumed)
        End Function

        ' Called by a target to release a previously reserved message from a source.
        Private Sub ReleaseReservation(ByVal messageHeader As DataflowMessageHeader, ByVal target As ITargetBlock(Of T())) Implements ISourceBlock(Of T()).ReleaseReservation
            m_source.ReleaseReservation(messageHeader, target)
        End Sub

#End Region

#Region "ITargetBlock<TInput> members"

        ' Asynchronously passes a message to the target block, giving the target the 
        ' opportunity to consume the message.
        Private Function OfferMessage(ByVal messageHeader As DataflowMessageHeader, ByVal messageValue As T, ByVal source As ISourceBlock(Of T), ByVal consumeToAccept As Boolean) As DataflowMessageStatus Implements ITargetBlock(Of T).OfferMessage
            Return m_target.OfferMessage(messageHeader, messageValue, source, consumeToAccept)
        End Function

#End Region

#Region "IDataflowBlock members"

        ' Gets a Task that represents the completion of this dataflow block.
        Public ReadOnly Property Completion() As Task Implements IDataflowBlock.Completion
            Get
                Return m_source.Completion
            End Get
        End Property

        ' Signals to this target block that it should not accept any more messages, 
        ' nor consume postponed messages. 
        Public Sub Complete() Implements IDataflowBlock.Complete
            m_target.Complete()
        End Sub

        Public Sub Fault(ByVal [error] As Exception) Implements IDataflowBlock.Fault
            m_target.Fault([error])
        End Sub

#End Region
    End Class

    ' Demonstrates usage of the sliding window block by sending the provided
    ' values to the provided propagator block and printing the output of 
    ' that block to the console.
    Private Shared Sub DemonstrateSlidingWindow(Of T)(ByVal slidingWindow As IPropagatorBlock(Of T, T()), ByVal values As IEnumerable(Of T))
        ' Create an action block that prints arrays of data to the console.
        Dim windowComma As String = String.Empty
        Dim printWindow = New ActionBlock(Of T())(Sub(window)
                                                      Console.Write(windowComma)
                                                      Console.Write("{")
                                                      Dim comma As String = String.Empty
                                                      For Each item As T In window
                                                          Console.Write(comma)
                                                          Console.Write(item)
                                                          comma = ","
                                                      Next item
                                                      Console.Write("}")
                                                      windowComma = ", "
                                                  End Sub)

        ' Link the printer block to the sliding window block.
        slidingWindow.LinkTo(printWindow)

        ' Set the printer block to the completed state when the sliding window
        ' block completes.
        slidingWindow.Completion.ContinueWith(Sub() printWindow.Complete())

        ' Print an additional newline to the console when the printer block completes.
        Dim completion = printWindow.Completion.ContinueWith(Sub() Console.WriteLine())

        ' Post the provided values to the sliding window block and then wait
        ' for the sliding window block to complete.
        For Each value As T In values
            slidingWindow.Post(value)
        Next value
        slidingWindow.Complete()

        ' Wait for the printer to complete and perform its final action.
        completion.Wait()
    End Sub

    Shared Sub Main(ByVal args() As String)

        Console.Write("Using the DataflowBlockExtensions.Encapsulate method ")
        Console.WriteLine("(T=int, windowSize=3):")
        DemonstrateSlidingWindow(CreateSlidingWindow(Of Integer)(3), Enumerable.Range(0, 10))

        Console.WriteLine()

        Dim slidingWindow = New SlidingWindowBlock(Of Char)(4)

        Console.Write("Using SlidingWindowBlock<T> ")
        Console.WriteLine("(T=char, windowSize={0}):", slidingWindow.WindowSize)
        DemonstrateSlidingWindow(slidingWindow, _
            From n In Enumerable.Range(65, 10) _
            Select ChrW(n))
    End Sub
End Class

' Output:
'Using the DataflowBlockExtensions.Encapsulate method (T=int, windowSize=3):
'{0,1,2}, {1,2,3}, {2,3,4}, {3,4,5}, {4,5,6}, {5,6,7}, {6,7,8}, {7,8,9}
'
'Using SlidingWindowBlock<T> (T=char, windowSize=4):
'{A,B,C,D}, {B,C,D,E}, {C,D,E,F}, {D,E,F,G}, {E,F,G,H}, {F,G,H,I}, {G,H,I,J}
' 

Siehe auch