Procedura: specificare un'utilità di pianificazione in un blocco di flussi di dati
In questo documento viene illustrato come associare una specifica utilità di pianificazione delle attività quando si utilizza il flusso di dati nell'applicazione. Nell'esempio viene usata la classe System.Threading.Tasks.ConcurrentExclusiveSchedulerPair in un'applicazione Windows Forms per visualizzare quando le attività del lettore sono attive e quando invece lo è una del writer. Viene inoltre utilizzato il metodo TaskScheduler.FromCurrentSynchronizationContext per consentire a un blocco di flussi di dati l'esecuzione nel thread dell'interfaccia utente.
Nota
La libreria del flusso di dati TPL (spazio dei nomi System.Threading.Tasks.Dataflow) non viene distribuita con .NET. Per installare lo spazio dei nomi System.Threading.Tasks.Dataflow in Visual Studio, aprire il progetto in Visual Studio, scegliere Gestisci pacchetti NuGet dal menu Progetto ed eseguire una ricerca online del pacchetto System.Threading.Tasks.Dataflow
. In alternativa, per installarlo usando l'interfaccia della riga di comando di .NET Core, eseguire dotnet add package System.Threading.Tasks.Dataflow
.
Per creare l'applicazione Windows Forms
Creare un progetto Windows Forms Application Visual C# o Visual Basic. Nei passaggi seguenti il progetto viene denominato
WriterReadersWinForms
.Nella finestra di progettazione del form per il form principale, Form1.cs (Form1.vb per Visual Basic), aggiungere quattro controlli CheckBox. Impostare la proprietà Text su Reader 1 per
checkBox1
, Reader 2 percheckBox2
, Reader 3 percheckBox3
e Writer percheckBox4
. Impostare la proprietà Enabled per ogni controllo suFalse
.Aggiungere un controllo Timer al form. Impostare la proprietà Interval su
2500
.
Aggiunta di funzionalità del flusso di dati
In questa sezione viene descritto come creare i blocchi di flussi di dati che fanno parte dell'applicazione e come associare ognuno di essi a un'utilità di pianificazione delle attività.
Per aggiungere funzionalità del flusso di dati all'applicazione
Nel progetto aggiungere un riferimento a System.Threading.Tasks.Dataflow.dll.
Assicurarsi che Form1.cs (Form1.vb per Visual Basic) contenga le direttive seguenti
using
(Imports
in Visual Basic).using System; using System.Linq; using System.Threading; using System.Threading.Tasks; using System.Threading.Tasks.Dataflow; using System.Windows.Forms;
Imports System.Threading Imports System.Threading.Tasks Imports System.Threading.Tasks.Dataflow
Aggiungere un membro dati BroadcastBlock<T> alla classe
Form1
.// Broadcasts values to an ActionBlock<int> object that is associated // with each check box. BroadcastBlock<int> broadcaster = new BroadcastBlock<int>(null);
' Broadcasts values to an ActionBlock<int> object that is associated ' with each check box. Private broadcaster As New BroadcastBlock(Of Integer)(Nothing)
Nel costruttore
Form1
, dopo la chiamata aInitializeComponent
, creare un oggetto ActionBlock<TInput> tramite cui viene alternato lo stato degli oggetti CheckBox.// Create an ActionBlock<CheckBox> object that toggles the state // of CheckBox objects. // Specifying the current synchronization context enables the // action to run on the user-interface thread. var toggleCheckBox = new ActionBlock<CheckBox>(checkBox => { checkBox.Checked = !checkBox.Checked; }, new ExecutionDataflowBlockOptions { TaskScheduler = TaskScheduler.FromCurrentSynchronizationContext() });
' Create an ActionBlock<CheckBox> object that toggles the state ' of CheckBox objects. ' Specifying the current synchronization context enables the ' action to run on the user-interface thread. Dim toggleCheckBox = New ActionBlock(Of CheckBox)(Sub(checkBox) checkBox.Checked = Not checkBox.Checked, New ExecutionDataflowBlockOptions With {.TaskScheduler = TaskScheduler.FromCurrentSynchronizationContext()})
Nel costruttore
Form1
creare un oggetto ConcurrentExclusiveSchedulerPair e quattro oggetti ActionBlock<TInput>, un oggetto ActionBlock<TInput> per ogni oggetto CheckBox. Per ogni oggetto ActionBlock<TInput>, specificare un oggetto ExecutionDataflowBlockOptions con la proprietà TaskScheduler impostata sulla proprietà ConcurrentScheduler per i lettori e la proprietà ExclusiveScheduler per il writer.// Create a ConcurrentExclusiveSchedulerPair object. // Readers will run on the concurrent part of the scheduler pair. // The writer will run on the exclusive part of the scheduler pair. var taskSchedulerPair = new ConcurrentExclusiveSchedulerPair(); // Create an ActionBlock<int> object for each reader CheckBox object. // Each ActionBlock<int> object represents an action that can read // from a resource in parallel to other readers. // Specifying the concurrent part of the scheduler pair enables the // reader to run in parallel to other actions that are managed by // that scheduler. var readerActions = from checkBox in new CheckBox[] {checkBox1, checkBox2, checkBox3} select new ActionBlock<int>(milliseconds => { // Toggle the check box to the checked state. toggleCheckBox.Post(checkBox); // Perform the read action. For demonstration, suspend the current // thread to simulate a lengthy read operation. Thread.Sleep(milliseconds); // Toggle the check box to the unchecked state. toggleCheckBox.Post(checkBox); }, new ExecutionDataflowBlockOptions { TaskScheduler = taskSchedulerPair.ConcurrentScheduler }); // Create an ActionBlock<int> object for the writer CheckBox object. // This ActionBlock<int> object represents an action that writes to // a resource, but cannot run in parallel to readers. // Specifying the exclusive part of the scheduler pair enables the // writer to run in exclusively with respect to other actions that are // managed by the scheduler pair. var writerAction = new ActionBlock<int>(milliseconds => { // Toggle the check box to the checked state. toggleCheckBox.Post(checkBox4); // Perform the write action. For demonstration, suspend the current // thread to simulate a lengthy write operation. Thread.Sleep(milliseconds); // Toggle the check box to the unchecked state. toggleCheckBox.Post(checkBox4); }, new ExecutionDataflowBlockOptions { TaskScheduler = taskSchedulerPair.ExclusiveScheduler }); // Link the broadcaster to each reader and writer block. // The BroadcastBlock<T> class propagates values that it // receives to all connected targets. foreach (var readerAction in readerActions) { broadcaster.LinkTo(readerAction); } broadcaster.LinkTo(writerAction);
' Create a ConcurrentExclusiveSchedulerPair object. ' Readers will run on the concurrent part of the scheduler pair. ' The writer will run on the exclusive part of the scheduler pair. Dim taskSchedulerPair = New ConcurrentExclusiveSchedulerPair() ' Create an ActionBlock<int> object for each reader CheckBox object. ' Each ActionBlock<int> object represents an action that can read ' from a resource in parallel to other readers. ' Specifying the concurrent part of the scheduler pair enables the ' reader to run in parallel to other actions that are managed by ' that scheduler. Dim readerActions = From checkBox In New CheckBox() {checkBox1, checkBox2, checkBox3} _ Select New ActionBlock(Of Integer)(Sub(milliseconds) ' Toggle the check box to the checked state. ' Perform the read action. For demonstration, suspend the current ' thread to simulate a lengthy read operation. ' Toggle the check box to the unchecked state. toggleCheckBox.Post(checkBox) Thread.Sleep(milliseconds) toggleCheckBox.Post(checkBox) End Sub, New ExecutionDataflowBlockOptions With {.TaskScheduler = taskSchedulerPair.ConcurrentScheduler}) ' Create an ActionBlock<int> object for the writer CheckBox object. ' This ActionBlock<int> object represents an action that writes to ' a resource, but cannot run in parallel to readers. ' Specifying the exclusive part of the scheduler pair enables the ' writer to run in exclusively with respect to other actions that are ' managed by the scheduler pair. Dim writerAction = New ActionBlock(Of Integer)(Sub(milliseconds) ' Toggle the check box to the checked state. ' Perform the write action. For demonstration, suspend the current ' thread to simulate a lengthy write operation. ' Toggle the check box to the unchecked state. toggleCheckBox.Post(checkBox4) Thread.Sleep(milliseconds) toggleCheckBox.Post(checkBox4) End Sub, New ExecutionDataflowBlockOptions With {.TaskScheduler = taskSchedulerPair.ExclusiveScheduler}) ' Link the broadcaster to each reader and writer block. ' The BroadcastBlock<T> class propagates values that it ' receives to all connected targets. For Each readerAction In readerActions broadcaster.LinkTo(readerAction) Next readerAction broadcaster.LinkTo(writerAction)
Nel costruttore
Form1
avviare l'oggetto Timer.// Start the timer. timer1.Start();
' Start the timer. timer1.Start()
Nella finestra di progettazione del form per il form principale creare un gestore eventi per l'evento Tick per il timer.
Implementare l'evento Tick per il timer.
// Event handler for the timer. private void timer1_Tick(object sender, EventArgs e) { // Post a value to the broadcaster. The broadcaster // sends this message to each target. broadcaster.Post(1000); }
' Event handler for the timer. Private Sub timer1_Tick(ByVal sender As Object, ByVal e As EventArgs) Handles timer1.Tick ' Post a value to the broadcaster. The broadcaster ' sends this message to each target. broadcaster.Post(1000) End Sub
Poiché il blocco di flussi di dati toggleCheckBox
viene utilizzato nell'interfaccia utente, è importante che questa azione si verifichi nel thread dell'interfaccia utente. A tale scopo, durante la costruzione questo oggetto fornisce un oggetto ExecutionDataflowBlockOptions con la proprietà TaskScheduler impostata su TaskScheduler.FromCurrentSynchronizationContext. Tramite il metodo FromCurrentSynchronizationContext viene creato un oggetto TaskScheduler mediante il quale viene eseguito il lavoro nel contesto di sincronizzazione corrente. Poiché il costruttore Form1
viene chiamato dal thread dell'interfaccia utente, l'azione per il blocco di flussi di dati toggleCheckBox
viene eseguita anche nel thread dell'interfaccia utente.
In questo esempio viene inoltre utilizzata la classe ConcurrentExclusiveSchedulerPair per consentire ad alcuni blocchi di flussi di dati di agire simultaneamente e a un altro blocco di flussi di dati di agire in modo esclusivo rispetto a tutti gli altri blocchi di flussi di dati in esecuzione nello stesso oggetto ConcurrentExclusiveSchedulerPair. Questa tecnica è utile quando da parte di più blocchi di flussi di dati viene condivisa una risorsa mentre altri richiedono l'accesso esclusivo a quest'ultima, poiché viene eliminata la necessità di sincronizzare manualmente l'accesso alla risorsa in questione. L'eliminazione della sincronizzazione manuale può rendere il codice più efficiente.
Esempio
L'esempio seguente illustra il codice completo per Form1.cs (Form1.vb per Visual Basic).
using System;
using System.Linq;
using System.Threading;
using System.Threading.Tasks;
using System.Threading.Tasks.Dataflow;
using System.Windows.Forms;
namespace WriterReadersWinForms
{
public partial class Form1 : Form
{
// Broadcasts values to an ActionBlock<int> object that is associated
// with each check box.
BroadcastBlock<int> broadcaster = new BroadcastBlock<int>(null);
public Form1()
{
InitializeComponent();
// Create an ActionBlock<CheckBox> object that toggles the state
// of CheckBox objects.
// Specifying the current synchronization context enables the
// action to run on the user-interface thread.
var toggleCheckBox = new ActionBlock<CheckBox>(checkBox =>
{
checkBox.Checked = !checkBox.Checked;
},
new ExecutionDataflowBlockOptions
{
TaskScheduler = TaskScheduler.FromCurrentSynchronizationContext()
});
// Create a ConcurrentExclusiveSchedulerPair object.
// Readers will run on the concurrent part of the scheduler pair.
// The writer will run on the exclusive part of the scheduler pair.
var taskSchedulerPair = new ConcurrentExclusiveSchedulerPair();
// Create an ActionBlock<int> object for each reader CheckBox object.
// Each ActionBlock<int> object represents an action that can read
// from a resource in parallel to other readers.
// Specifying the concurrent part of the scheduler pair enables the
// reader to run in parallel to other actions that are managed by
// that scheduler.
var readerActions =
from checkBox in new CheckBox[] {checkBox1, checkBox2, checkBox3}
select new ActionBlock<int>(milliseconds =>
{
// Toggle the check box to the checked state.
toggleCheckBox.Post(checkBox);
// Perform the read action. For demonstration, suspend the current
// thread to simulate a lengthy read operation.
Thread.Sleep(milliseconds);
// Toggle the check box to the unchecked state.
toggleCheckBox.Post(checkBox);
},
new ExecutionDataflowBlockOptions
{
TaskScheduler = taskSchedulerPair.ConcurrentScheduler
});
// Create an ActionBlock<int> object for the writer CheckBox object.
// This ActionBlock<int> object represents an action that writes to
// a resource, but cannot run in parallel to readers.
// Specifying the exclusive part of the scheduler pair enables the
// writer to run in exclusively with respect to other actions that are
// managed by the scheduler pair.
var writerAction = new ActionBlock<int>(milliseconds =>
{
// Toggle the check box to the checked state.
toggleCheckBox.Post(checkBox4);
// Perform the write action. For demonstration, suspend the current
// thread to simulate a lengthy write operation.
Thread.Sleep(milliseconds);
// Toggle the check box to the unchecked state.
toggleCheckBox.Post(checkBox4);
},
new ExecutionDataflowBlockOptions
{
TaskScheduler = taskSchedulerPair.ExclusiveScheduler
});
// Link the broadcaster to each reader and writer block.
// The BroadcastBlock<T> class propagates values that it
// receives to all connected targets.
foreach (var readerAction in readerActions)
{
broadcaster.LinkTo(readerAction);
}
broadcaster.LinkTo(writerAction);
// Start the timer.
timer1.Start();
}
// Event handler for the timer.
private void timer1_Tick(object sender, EventArgs e)
{
// Post a value to the broadcaster. The broadcaster
// sends this message to each target.
broadcaster.Post(1000);
}
}
}
Imports System.Threading
Imports System.Threading.Tasks
Imports System.Threading.Tasks.Dataflow
Namespace WriterReadersWinForms
Partial Public Class Form1
Inherits Form
' Broadcasts values to an ActionBlock<int> object that is associated
' with each check box.
Private broadcaster As New BroadcastBlock(Of Integer)(Nothing)
Public Sub New()
InitializeComponent()
' Create an ActionBlock<CheckBox> object that toggles the state
' of CheckBox objects.
' Specifying the current synchronization context enables the
' action to run on the user-interface thread.
Dim toggleCheckBox = New ActionBlock(Of CheckBox)(Sub(checkBox) checkBox.Checked = Not checkBox.Checked, New ExecutionDataflowBlockOptions With {.TaskScheduler = TaskScheduler.FromCurrentSynchronizationContext()})
' Create a ConcurrentExclusiveSchedulerPair object.
' Readers will run on the concurrent part of the scheduler pair.
' The writer will run on the exclusive part of the scheduler pair.
Dim taskSchedulerPair = New ConcurrentExclusiveSchedulerPair()
' Create an ActionBlock<int> object for each reader CheckBox object.
' Each ActionBlock<int> object represents an action that can read
' from a resource in parallel to other readers.
' Specifying the concurrent part of the scheduler pair enables the
' reader to run in parallel to other actions that are managed by
' that scheduler.
Dim readerActions = From checkBox In New CheckBox() {checkBox1, checkBox2, checkBox3} _
Select New ActionBlock(Of Integer)(Sub(milliseconds)
' Toggle the check box to the checked state.
' Perform the read action. For demonstration, suspend the current
' thread to simulate a lengthy read operation.
' Toggle the check box to the unchecked state.
toggleCheckBox.Post(checkBox)
Thread.Sleep(milliseconds)
toggleCheckBox.Post(checkBox)
End Sub, New ExecutionDataflowBlockOptions With {.TaskScheduler = taskSchedulerPair.ConcurrentScheduler})
' Create an ActionBlock<int> object for the writer CheckBox object.
' This ActionBlock<int> object represents an action that writes to
' a resource, but cannot run in parallel to readers.
' Specifying the exclusive part of the scheduler pair enables the
' writer to run in exclusively with respect to other actions that are
' managed by the scheduler pair.
Dim writerAction = New ActionBlock(Of Integer)(Sub(milliseconds)
' Toggle the check box to the checked state.
' Perform the write action. For demonstration, suspend the current
' thread to simulate a lengthy write operation.
' Toggle the check box to the unchecked state.
toggleCheckBox.Post(checkBox4)
Thread.Sleep(milliseconds)
toggleCheckBox.Post(checkBox4)
End Sub, New ExecutionDataflowBlockOptions With {.TaskScheduler = taskSchedulerPair.ExclusiveScheduler})
' Link the broadcaster to each reader and writer block.
' The BroadcastBlock<T> class propagates values that it
' receives to all connected targets.
For Each readerAction In readerActions
broadcaster.LinkTo(readerAction)
Next readerAction
broadcaster.LinkTo(writerAction)
' Start the timer.
timer1.Start()
End Sub
' Event handler for the timer.
Private Sub timer1_Tick(ByVal sender As Object, ByVal e As EventArgs) Handles timer1.Tick
' Post a value to the broadcaster. The broadcaster
' sends this message to each target.
broadcaster.Post(1000)
End Sub
End Class
End Namespace