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How to: Implement a Component That Supports the Event-based Asynchronous Pattern 

The following code example implements a component with an asynchronous method, according to the Event-based Asynchronous Pattern Overview. The component is a prime number calculator that uses the Sieve of Eratosthenes algorithm to determine if a number is prime or composite.

There is extensive support for this task in Visual Studio. Walkthrough: Implementing a Component That Supports the Event-based Asynchronous Pattern
Walkthrough: Implementing a Component That Supports the Event-based Asynchronous Pattern
Walkthrough: Implementing a Component That Supports the Event-based Asynchronous Pattern
Walkthrough: Implementing a Component That Supports the Event-based Asynchronous Pattern

For an example client that uses thePrimeNumberCalculatorcomponent, see How to: Implement a Client of the Event-based Asynchronous Pattern.

Example

Imports System
Imports System.Collections
Imports System.Collections.Specialized
Imports System.ComponentModel
Imports System.Drawing
Imports System.Globalization
Imports System.Threading
Imports System.Windows.Forms
...
Public Delegate Sub ProgressChangedEventHandler( _
    ByVal e As ProgressChangedEventArgs)

Public Delegate Sub CalculatePrimeCompletedEventHandler( _
    ByVal sender As Object, _
    ByVal e As CalculatePrimeCompletedEventArgs)

' This class implements the Event-based Asynchronous Pattern.
' It asynchronously computes whether a number is prime or
' composite (not prime).
Public Class PrimeNumberCalculator
    Inherits System.ComponentModel.Component

    Private Delegate Sub WorkerEventHandler( _
    ByVal numberToCheck As Integer, _
    ByVal asyncOp As AsyncOperation)

    Private onProgressReportDelegate As SendOrPostCallback
    Private onCompletedDelegate As SendOrPostCallback

    Private userStateToLifetime As New HybridDictionary()

    Private components As System.ComponentModel.Container = Nothing

    '''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
#Region "Public events"

    Public Event ProgressChanged _
        As ProgressChangedEventHandler
    Public Event CalculatePrimeCompleted _
        As CalculatePrimeCompletedEventHandler

#End Region

    '''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
#Region "Construction and destruction"


    Public Sub New(ByVal container As System.ComponentModel.IContainer)

        container.Add(Me)
        InitializeComponent()

        InitializeDelegates()

    End Sub


    Public Sub New()

        InitializeComponent()

        InitializeDelegates()

    End Sub


    Protected Overridable Sub InitializeDelegates()
        onProgressReportDelegate = _
            New SendOrPostCallback(AddressOf ReportProgress)
        onCompletedDelegate = _
            New SendOrPostCallback(AddressOf CalculateCompleted)
    End Sub


    Protected Overrides Sub Dispose(ByVal disposing As Boolean)
        If disposing Then
            If (components IsNot Nothing) Then
                components.Dispose()
            End If
        End If
        MyBase.Dispose(disposing)

    End Sub

#End Region

    '''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''''
#Region "Implementation"


    ' This method starts an asynchronous calculation. 
    ' First, it checks the supplied task ID for uniqueness.
    ' If taskId is unique, it creates a new WorkerEventHandler 
    ' and calls its BeginInvoke method to start the calculation.
    Public Overridable Sub CalculatePrimeAsync( _
        ByVal numberToTest As Integer, _
        ByVal taskId As Object)

        ' Create an AsyncOperation for taskId.
        Dim asyncOp As AsyncOperation = _
            AsyncOperationManager.CreateOperation(taskId)

        ' Multiple threads will access the task dictionary,
        ' so it must be locked to serialize access.
        SyncLock userStateToLifetime.SyncRoot
            If userStateToLifetime.Contains(taskId) Then
                Throw New ArgumentException( _
                    "Task ID parameter must be unique", _
                    "taskId")
            End If

            userStateToLifetime(taskId) = asyncOp
        End SyncLock

        ' Start the asynchronous operation.
        Dim workerDelegate As New WorkerEventHandler( _
            AddressOf CalculateWorker)

        workerDelegate.BeginInvoke( _
            numberToTest, _
            asyncOp, _
            Nothing, _
            Nothing)

    End Sub

    ' Utility method for determining if a 
    ' task has been canceled.
    Private Function TaskCanceled(ByVal taskId As Object) As Boolean
        Return (userStateToLifetime(taskId) Is Nothing)
    End Function

    ' This method cancels a pending asynchronous operation.
    Public Sub CancelAsync(ByVal taskId As Object)

        Dim obj As Object = userStateToLifetime(taskId)
        If (obj IsNot Nothing) Then

            SyncLock userStateToLifetime.SyncRoot

                userStateToLifetime.Remove(taskId)

            End SyncLock

        End If

    End Sub

    ' This method performs the actual prime number computation.
    ' It is executed on the worker thread.
    Private Sub CalculateWorker( _
        ByVal numberToTest As Integer, _
        ByVal asyncOp As AsyncOperation)

        Dim prime As Boolean = False
        Dim firstDivisor As Integer = 1
        Dim exc As Exception = Nothing

        ' Check that the task is still active.
        ' The operation may have been canceled before
        ' the thread was scheduled.
        If Not Me.TaskCanceled(asyncOp.UserSuppliedState) Then

            Try
                ' Find all the prime numbers up to the
                ' square root of numberToTest.
                Dim primes As ArrayList = BuildPrimeNumberList( _
                    numberToTest, asyncOp)

                ' Now we have a list of primes less than 
                'numberToTest.
                prime = IsPrime( _
                    primes, _
                    numberToTest, _
                    firstDivisor)

            Catch ex As Exception
                exc = ex
            End Try

        End If

        Me.CompletionMethod( _
            numberToTest, _
            firstDivisor, _
            prime, _
            exc, _
            TaskCanceled(asyncOp.UserSuppliedState), _
            asyncOp)

    End Sub

    ' This method computes the list of prime numbers used by the
    ' IsPrime method.
    Private Function BuildPrimeNumberList( _
        ByVal numberToTest As Integer, _
        ByVal asyncOp As AsyncOperation) As ArrayList

        Dim e As ProgressChangedEventArgs = Nothing
        Dim primes As New ArrayList
        Dim firstDivisor As Integer
        Dim n As Integer = 5

        ' Add the first prime numbers.
        primes.Add(2)
        primes.Add(3)

        ' Do the work.
        While n < numberToTest And _
            Not Me.TaskCanceled(asyncOp.UserSuppliedState)

            If IsPrime(primes, n, firstDivisor) Then
                ' Report to the client that you found a prime.
                e = New CalculatePrimeProgressChangedEventArgs( _
                    n, _
                    CSng(n) / CSng(numberToTest) * 100, _
                    asyncOp.UserSuppliedState)

                asyncOp.Post(Me.onProgressReportDelegate, e)

                primes.Add(n)

                ' Yield the rest of this time slice.
                Thread.Sleep(0)
            End If

            ' Skip even numbers.
            n += 2

        End While

        Return primes

    End Function


    ' This method tests n for primality against the list of 
    ' prime numbers contained in the primes parameter.
    Private Function IsPrime( _
        ByVal primes As ArrayList, _
        ByVal n As Integer, _
        ByRef firstDivisor As Integer) As Boolean

        Dim foundDivisor As Boolean = False
        Dim exceedsSquareRoot As Boolean = False

        Dim i As Integer = 0
        Dim divisor As Integer = 0
        firstDivisor = 1

        ' Stop the search if:
        ' there are no more primes in the list,
        ' there is a divisor of n in the list, or
        ' there is a prime that is larger than 
        ' the square root of n.
        While i < primes.Count AndAlso _
            Not foundDivisor AndAlso _
            Not exceedsSquareRoot

            ' The divisor variable will be the smallest prime number 
            ' not yet tried.
            divisor = primes(i)
            i = i + 1

            ' Determine whether the divisor is greater than the 
            ' square root of n.
            If divisor * divisor > n Then
                exceedsSquareRoot = True
                ' Determine whether the divisor is a factor of n.
            ElseIf n Mod divisor = 0 Then
                firstDivisor = divisor
                foundDivisor = True
            End If
        End While

        Return Not foundDivisor

    End Function


    ' This method is invoked via the AsyncOperation object,
    ' so it is guaranteed to be executed on the correct thread.
    Private Sub CalculateCompleted(ByVal operationState As Object)
        Dim e As CalculatePrimeCompletedEventArgs = operationState

        OnCalculatePrimeCompleted(e)

    End Sub


    ' This method is invoked via the AsyncOperation object,
    ' so it is guaranteed to be executed on the correct thread.
    Private Sub ReportProgress(ByVal state As Object)
        Dim e As ProgressChangedEventArgs = state

        OnProgressChanged(e)

    End Sub

    Protected Sub OnCalculatePrimeCompleted( _
        ByVal e As CalculatePrimeCompletedEventArgs)

        RaiseEvent CalculatePrimeCompleted(Me, e)

    End Sub


    Protected Sub OnProgressChanged( _
        ByVal e As ProgressChangedEventArgs)

        RaiseEvent ProgressChanged(e)

    End Sub


    ' This is the method that the underlying, free-threaded 
    ' asynchronous behavior will invoke.  This will happen on
    '  an arbitrary thread.
    Private Sub CompletionMethod( _
        ByVal numberToTest As Integer, _
        ByVal firstDivisor As Integer, _
        ByVal prime As Boolean, _
        ByVal exc As Exception, _
        ByVal canceled As Boolean, _
        ByVal asyncOp As AsyncOperation)

        ' If the task was not previously canceled,
        ' remove the task from the lifetime collection.
        If Not canceled Then
            SyncLock userStateToLifetime.SyncRoot
                userStateToLifetime.Remove(asyncOp.UserSuppliedState)
            End SyncLock
        End If

        ' Package the results of the operation in a 
        ' CalculatePrimeCompletedEventArgs.
        Dim e As New CalculatePrimeCompletedEventArgs( _
            numberToTest, _
            firstDivisor, _
            prime, _
            exc, _
            canceled, _
            asyncOp.UserSuppliedState)

        ' End the task. The asyncOp object is responsible 
        ' for marshaling the call.
        asyncOp.PostOperationCompleted(onCompletedDelegate, e)

        ' Note that after the call to PostOperationCompleted, asyncOp
        ' is no longer usable, and any attempt to use it will cause.
        ' an exception to be thrown.

    End Sub

#End Region


    Private Sub InitializeComponent()

    End Sub


End Class

Public Class CalculatePrimeProgressChangedEventArgs
    Inherits ProgressChangedEventArgs
    Private latestPrimeNumberValue As Integer = 1


    Public Sub New( _
        ByVal latestPrime As Integer, _
        ByVal progressPercentage As Integer, _
        ByVal UserState As Object)

        MyBase.New(progressPercentage, UserState)
        Me.latestPrimeNumberValue = latestPrime

    End Sub

    Public ReadOnly Property LatestPrimeNumber() As Integer
        Get
            Return latestPrimeNumberValue
        End Get
    End Property
End Class

Public Class CalculatePrimeCompletedEventArgs
    Inherits AsyncCompletedEventArgs
    Private numberToTestValue As Integer = 0
    Private firstDivisorValue As Integer = 1
    Private isPrimeValue As Boolean


    Public Sub New( _
    ByVal numberToTest As Integer, _
    ByVal firstDivisor As Integer, _
    ByVal isPrime As Boolean, _
    ByVal e As Exception, _
    ByVal canceled As Boolean, _
    ByVal state As Object)

        MyBase.New(e, canceled, state)
        Me.numberToTestValue = numberToTest
        Me.firstDivisorValue = firstDivisor
        Me.isPrimeValue = isPrime

    End Sub


    Public ReadOnly Property NumberToTest() As Integer
        Get
            ' Raise an exception if the operation failed 
            ' or was canceled.
            RaiseExceptionIfNecessary()

            ' If the operation was successful, return 
            ' the property value.
            Return numberToTestValue
        End Get
    End Property


    Public ReadOnly Property FirstDivisor() As Integer
        Get
            ' Raise an exception if the operation failed 
            ' or was canceled.
            RaiseExceptionIfNecessary()

            ' If the operation was successful, return 
            ' the property value.
            Return firstDivisorValue
        End Get
    End Property


    Public ReadOnly Property IsPrime() As Boolean
        Get
            ' Raise an exception if the operation failed 
            ' or was canceled.
            RaiseExceptionIfNecessary()

            ' If the operation was successful, return 
            ' the property value.
            Return isPrimeValue
        End Get
    End Property
End Class
using System;
using System.Collections;
using System.Collections.Specialized;
using System.ComponentModel;
using System.Data;
using System.Drawing;
using System.Globalization;
using System.Threading;
using System.Windows.Forms;
...
    /////////////////////////////////////////////////////////////
    #region PrimeNumberCalculator Implementation

    public delegate void ProgressChangedEventHandler(
        ProgressChangedEventArgs e);

    public delegate void CalculatePrimeCompletedEventHandler(
        object sender,
        CalculatePrimeCompletedEventArgs e);

    // This class implements the Event-based Asynchronous Pattern.
    // It asynchronously computes whether a number is prime or
    // composite (not prime).
    public class PrimeNumberCalculator : Component
    {
        private delegate void WorkerEventHandler(
            int numberToCheck,
            AsyncOperation asyncOp);

        private SendOrPostCallback onProgressReportDelegate;
        private SendOrPostCallback onCompletedDelegate;

        private HybridDictionary userStateToLifetime = 
            new HybridDictionary();

        private System.ComponentModel.Container components = null;

        /////////////////////////////////////////////////////////////
        #region Public events

        public event ProgressChangedEventHandler ProgressChanged;
        public event CalculatePrimeCompletedEventHandler CalculatePrimeCompleted;

        #endregion

        /////////////////////////////////////////////////////////////
        #region Construction and destruction

        public PrimeNumberCalculator(IContainer container)
        {   
            container.Add(this);
            InitializeComponent();

            InitializeDelegates();
        }

        public PrimeNumberCalculator()
        {   
            InitializeComponent();

            InitializeDelegates();
        }

        protected virtual void InitializeDelegates()
        {
            onProgressReportDelegate =
                new SendOrPostCallback(ReportProgress);
            onCompletedDelegate =
                new SendOrPostCallback(CalculateCompleted);
        }

        protected override void Dispose(bool disposing)
        {
            if (disposing)
            {
                if (components != null)
                {
                    components.Dispose();
                }
            }
            base.Dispose(disposing);
        }

        #endregion // Construction and destruction

        /////////////////////////////////////////////////////////////
        ///
        #region Implementation

        // This method starts an asynchronous calculation. 
        // First, it checks the supplied task ID for uniqueness.
        // If taskId is unique, it creates a new WorkerEventHandler 
        // and calls its BeginInvoke method to start the calculation.
        public virtual void CalculatePrimeAsync(
            int numberToTest,
            object taskId)
        {
            // Create an AsyncOperation for taskId.
            AsyncOperation asyncOp =
                AsyncOperationManager.CreateOperation(taskId);

            // Multiple threads will access the task dictionary,
            // so it must be locked to serialize access.
            lock (userStateToLifetime.SyncRoot)
            {
                if (userStateToLifetime.Contains(taskId))
                {
                    throw new ArgumentException(
                        "Task ID parameter must be unique", 
                        "taskId");
                }

                userStateToLifetime[taskId] = asyncOp;
            }

            // Start the asynchronous operation.
            WorkerEventHandler workerDelegate = new WorkerEventHandler(CalculateWorker);
            workerDelegate.BeginInvoke(
                numberToTest,
                asyncOp,
                null,
                null);
        }

        // Utility method for determining if a 
        // task has been canceled.
        private bool TaskCanceled(object taskId)
        {
            return( userStateToLifetime[taskId] == null );
        }

        // This method cancels a pending asynchronous operation.
        public void CancelAsync(object taskId)
        {
            AsyncOperation asyncOp = userStateToLifetime[taskId] as AsyncOperation;
            if (asyncOp != null)
            {   
                lock (userStateToLifetime.SyncRoot)
                {
                    userStateToLifetime.Remove(taskId);
                }
            }
        }

        // This method performs the actual prime number computation.
        // It is executed on the worker thread.
        private void CalculateWorker(
            int numberToTest,
            AsyncOperation asyncOp)
        {
            bool isPrime = false;
            int firstDivisor = 1;
            Exception e = null;

            // Check that the task is still active.
            // The operation may have been canceled before
            // the thread was scheduled.
            if (!TaskCanceled(asyncOp.UserSuppliedState))
            {
                try
                {
                    // Find all the prime numbers up to 
                    // the square root of numberToTest.
                    ArrayList primes = BuildPrimeNumberList(
                        numberToTest,
                        asyncOp);

                    // Now we have a list of primes less than
                    // numberToTest.
                    isPrime = IsPrime(
                        primes,
                        numberToTest,
                        out firstDivisor);
                }
                catch (Exception ex)
                {
                    e = ex;
                }
            }

            //CalculatePrimeState calcState = new CalculatePrimeState(
            //        numberToTest,
            //        firstDivisor,
            //        isPrime,
            //        e,
            //        TaskCanceled(asyncOp.UserSuppliedState),
            //        asyncOp);

            //this.CompletionMethod(calcState);

            this.CompletionMethod(
                numberToTest,
                firstDivisor,
                isPrime,
                e,
                TaskCanceled(asyncOp.UserSuppliedState),
                asyncOp);

            //completionMethodDelegate(calcState);
        }

        // This method computes the list of prime numbers used by the
        // IsPrime method.
        private ArrayList BuildPrimeNumberList(
            int numberToTest,
            AsyncOperation asyncOp)
        {
            ProgressChangedEventArgs e = null;
            ArrayList primes = new ArrayList();
            int firstDivisor;
            int n = 5;

            // Add the first prime numbers.
            primes.Add(2);
            primes.Add(3);

            // Do the work.
            while (n < numberToTest && 
                   !TaskCanceled( asyncOp.UserSuppliedState ) )
            {
                if (IsPrime(primes, n, out firstDivisor))
                {
                    // Report to the client that a prime was found.
                    e = new CalculatePrimeProgressChangedEventArgs(
                        n,
                        (int)((float)n / (float)numberToTest * 100),
                        asyncOp.UserSuppliedState);

                    asyncOp.Post(this.onProgressReportDelegate, e);

                    primes.Add(n);

                    // Yield the rest of this time slice.
                    Thread.Sleep(0);
                }

                // Skip even numbers.
                n += 2;
            }

            return primes;
        }

        // This method tests n for primality against the list of 
        // prime numbers contained in the primes parameter.
        private bool IsPrime(
            ArrayList primes,
            int n,
            out int firstDivisor)
        {
            bool foundDivisor = false;
            bool exceedsSquareRoot = false;

            int i = 0;
            int divisor = 0;
            firstDivisor = 1;

            // Stop the search if:
            // there are no more primes in the list,
            // there is a divisor of n in the list, or
            // there is a prime that is larger than 
            // the square root of n.
            while (
                (i < primes.Count) &&
                !foundDivisor &&
                !exceedsSquareRoot)
            {
                // The divisor variable will be the smallest 
                // prime number not yet tried.
                divisor = (int)primes[i++];

                // Determine whether the divisor is greater
                // than the square root of n.
                if (divisor * divisor > n)
                {
                    exceedsSquareRoot = true;
                }
                // Determine whether the divisor is a factor of n.
                else if (n % divisor == 0)
                {
                    firstDivisor = divisor;
                    foundDivisor = true;
                }
            }

            return !foundDivisor;
        }

        // This method is invoked via the AsyncOperation object,
        // so it is guaranteed to be executed on the correct thread.
        private void CalculateCompleted(object operationState)
        {
            CalculatePrimeCompletedEventArgs e =
                operationState as CalculatePrimeCompletedEventArgs;

            OnCalculatePrimeCompleted(e);
        }

        // This method is invoked via the AsyncOperation object,
        // so it is guaranteed to be executed on the correct thread.
        private void ReportProgress(object state)
        {
            ProgressChangedEventArgs e =
                state as ProgressChangedEventArgs;

            OnProgressChanged(e);
        }

        protected void OnCalculatePrimeCompleted(
            CalculatePrimeCompletedEventArgs e)
        {
            if (CalculatePrimeCompleted != null)
            {
                CalculatePrimeCompleted(this, e);
            }
        }

        protected void OnProgressChanged(ProgressChangedEventArgs e)
        {
            if (ProgressChanged != null)
            {
                ProgressChanged(e);
            }
        }

        // This is the method that the underlying, free-threaded 
        // asynchronous behavior will invoke.  This will happen on
        // an arbitrary thread.
        private void CompletionMethod( 
            int numberToTest,
            int firstDivisor, 
            bool isPrime,
            Exception exception, 
            bool canceled,
            AsyncOperation asyncOp )

        {
            // If the task was not previously canceled,
            // remove the task from the lifetime collection.
            if (!canceled)
            {
                lock (userStateToLifetime.SyncRoot)
                {
                    userStateToLifetime.Remove(asyncOp.UserSuppliedState);
                }
            }

            // Package the results of the operation in a 
            // CalculatePrimeCompletedEventArgs.
            CalculatePrimeCompletedEventArgs e =
                new CalculatePrimeCompletedEventArgs(
                numberToTest,
                firstDivisor,
                isPrime,
                exception,
                canceled,
                asyncOp.UserSuppliedState);

            // End the task. The asyncOp object is responsible 
            // for marshaling the call.
            asyncOp.PostOperationCompleted(onCompletedDelegate, e);

            // Note that after the call to OperationCompleted, 
            // asyncOp is no longer usable, and any attempt to use it
            // will cause an exception to be thrown.
        }


        #endregion

        /////////////////////////////////////////////////////////////
        #region Component Designer generated code

        private void InitializeComponent()
        {
            components = new System.ComponentModel.Container();
        }

        #endregion
        
    }

    public class CalculatePrimeProgressChangedEventArgs :
            ProgressChangedEventArgs
    {
        private int latestPrimeNumberValue = 1;

        public CalculatePrimeProgressChangedEventArgs(
            int latestPrime,
            int progressPercentage,
            object userToken) : base( progressPercentage, userToken )
        {
            this.latestPrimeNumberValue = latestPrime;
        }

        public int LatestPrimeNumber
        {
            get
            {
                return latestPrimeNumberValue;
            }
        }
    }

    public class CalculatePrimeCompletedEventArgs :
        AsyncCompletedEventArgs
    {
        private int numberToTestValue = 0;
        private int firstDivisorValue = 1;
        private bool isPrimeValue;

        public CalculatePrimeCompletedEventArgs(
            int numberToTest,
            int firstDivisor,
            bool isPrime,
            Exception e,
            bool canceled,
            object state) : base(e, canceled, state)
        {
            this.numberToTestValue = numberToTest;
            this.firstDivisorValue = firstDivisor;
            this.isPrimeValue = isPrime;
        }

        public int NumberToTest
        {
            get
            {
                // Raise an exception if the operation failed or 
                // was canceled.
                RaiseExceptionIfNecessary();

                // If the operation was successful, return the 
                // property value.
                return numberToTestValue;
            }
        }

        public int FirstDivisor
        {
            get
            {
                // Raise an exception if the operation failed or 
                // was canceled.
                RaiseExceptionIfNecessary();

                // If the operation was successful, return the 
                // property value.
                return firstDivisorValue;
            }
        }

        public bool IsPrime
        {
            get
            {
                // Raise an exception if the operation failed or 
                // was canceled.
                RaiseExceptionIfNecessary();

                // If the operation was successful, return the 
                // property value.
                return isPrimeValue;
            }
        }
    }


    #endregion
import System.*;
import System.Collections.*;
import System.Collections.Specialized.*;
import System.ComponentModel.*;
import System.Data.*;
import System.Drawing.*;
import System.Threading.*;
import System.Windows.Forms.*;

See Also

Tasks

Walkthrough: Implementing a Component That Supports the Event-based Asynchronous Pattern

Reference

AsyncOperation
AsyncOperationManager
WindowsFormsSynchronizationContext