Mutex.ReleaseMutex Metodo

Definizione

Rilascia l'oggetto Mutex una volta.Releases the Mutex once.

public:
 void ReleaseMutex();
public void ReleaseMutex ();
member this.ReleaseMutex : unit -> unit
Public Sub ReleaseMutex ()

Eccezioni

Il thread di chiamata non è il proprietario del mutex.The calling thread does not own the mutex.

L'istanza corrente è già stata eliminata.The current instance has already been disposed.

Esempi

Nell'esempio seguente viene illustrato come utilizzare Mutex un oggetto locale per sincronizzare l'accesso a una risorsa protetta.The following example shows how a local Mutex object is used to synchronize access to a protected resource. Il thread che crea il mutex non è il proprietario iniziale.The thread that creates the mutex does not own it initially. Il ReleaseMutex metodo viene utilizzato per rilasciare il mutex quando non è più necessario.The ReleaseMutex method is used to release the mutex when it is no longer needed.

// This example shows how a Mutex is used to synchronize access
// to a protected resource. Unlike Monitor, Mutex can be used with
// WaitHandle.WaitAll and WaitAny, and can be passed across
// AppDomain boundaries.
using namespace System;
using namespace System::Threading;
const int numIterations = 1;
const int numThreads = 3;
ref class Test
{
public:

   // Create a new Mutex. The creating thread does not own the
   // Mutex.
   static Mutex^ mut = gcnew Mutex;
   static void MyThreadProc()
   {
      for ( int i = 0; i < numIterations; i++ )
      {
         UseResource();

      }
   }


private:

   // This method represents a resource that must be synchronized
   // so that only one thread at a time can enter.
   static void UseResource()
   {
      
      //Wait until it is OK to enter.
      mut->WaitOne();
      Console::WriteLine( "{0} has entered protected the area", Thread::CurrentThread->Name );
      
      // Place code to access non-reentrant resources here.
      // Simulate some work.
      Thread::Sleep( 500 );
      Console::WriteLine( "{0} is leaving protected the area\r\n", Thread::CurrentThread->Name );
      
      // Release the Mutex.
      mut->ReleaseMutex();
   }

};

int main()
{
   
   // Create the threads that will use the protected resource.
   for ( int i = 0; i < numThreads; i++ )
   {
      Thread^ myThread = gcnew Thread( gcnew ThreadStart( Test::MyThreadProc ) );
      myThread->Name = String::Format( "Thread {0}", i + 1 );
      myThread->Start();

   }
   
   // The main thread exits, but the application continues to 
   // run until all foreground threads have exited.
}

// This example shows how a Mutex is used to synchronize access
// to a protected resource. Unlike Monitor, Mutex can be used with
// WaitHandle.WaitAll and WaitAny, and can be passed across
// AppDomain boundaries.
 
using System;
using System.Threading;

class Test
{
    // Create a new Mutex. The creating thread does not own the
    // Mutex.
    private static Mutex mut = new Mutex();
    private const int numIterations = 1;
    private const int numThreads = 3;

    static void Main()
    {
        // Create the threads that will use the protected resource.
        for(int i = 0; i < numThreads; i++)
        {
            Thread myThread = new Thread(new ThreadStart(MyThreadProc));
            myThread.Name = String.Format("Thread{0}", i + 1);
            myThread.Start();
        }

        // The main thread exits, but the application continues to
        // run until all foreground threads have exited.
    }

    private static void MyThreadProc()
    {
        for(int i = 0; i < numIterations; i++)
        {
            UseResource();
        }
    }

    // This method represents a resource that must be synchronized
    // so that only one thread at a time can enter.
    private static void UseResource()
    {
        // Wait until it is safe to enter.
        mut.WaitOne();

        Console.WriteLine("{0} has entered the protected area", 
            Thread.CurrentThread.Name);

        // Place code to access non-reentrant resources here.

        // Simulate some work.
        Thread.Sleep(500);

        Console.WriteLine("{0} is leaving the protected area\r\n", 
            Thread.CurrentThread.Name);
         
        // Release the Mutex.
        mut.ReleaseMutex();
    }
}
' This example shows how a Mutex is used to synchronize access
' to a protected resource. Unlike Monitor, Mutex can be used with
' WaitHandle.WaitAll and WaitAny, and can be passed across
' AppDomain boundaries.
 
Imports System.Threading

Class Test
    ' Create a new Mutex. The creating thread does not own the
    ' Mutex.
    Private Shared mut As New Mutex()
    Private Const numIterations As Integer = 1
    Private Const numThreads As Integer = 3

    <MTAThread> _
    Shared Sub Main()
        ' Create the threads that will use the protected resource.
        Dim i As Integer
        For i = 1 To numThreads
            Dim myThread As New Thread(AddressOf MyThreadProc)
            myThread.Name = [String].Format("Thread{0}", i)
            myThread.Start()
        Next i

        ' The main thread exits, but the application continues to
        ' run until all foreground threads have exited.

    End Sub

    Private Shared Sub MyThreadProc()
        Dim i As Integer
        For i = 1 To numIterations
            UseResource()
        Next i
    End Sub

    ' This method represents a resource that must be synchronized
    ' so that only one thread at a time can enter.
    Private Shared Sub UseResource()
        ' Wait until it is safe to enter.
        mut.WaitOne()

        Console.WriteLine("{0} has entered protected area", _
            Thread.CurrentThread.Name)

        ' Place code to access non-reentrant resources here.

        ' Simulate some work
        Thread.Sleep(500)

        Console.WriteLine("{0} is leaving protected area" & vbCrLf, _
            Thread.CurrentThread.Name)

        ' Release Mutex.
        mut.ReleaseMutex()
    End Sub
End Class

Commenti

Ogni volta che un thread acquisisce un mutex (ad esempio, chiamando WaitOne il relativo metodo), deve chiamare ReleaseMutex successivamente per abbandonare la proprietà del mutex e sbloccare gli altri thread che tentano di ottenere la proprietà del mutex.Whenever a thread acquires a mutex (for example, by calling its WaitOne method), it must subsequently call ReleaseMutex to relinquish ownership of the mutex and unblock other threads that are trying to gain ownership of the mutex. Se il tentativo di ottenere la proprietà del mutex ha esito negativo (ad esempio, quando una WaitOne chiamata al metodo millisecondsTimeout con un timeout oggetto o false un parametro restituisce perché la richiesta scade), il thread ReleaseMutexnon deve chiamare, in questa in caso contrario, il thread non deve essere autorizzato ad accedere alla risorsa protetta dal mutex, come illustrato nell'esempio seguente.If the attempt to get ownership of the mutex fails (for example, when a call to the WaitOne method with a millisecondsTimeout or a timeout parameter returns false because the request times out), the thread shouldn't call ReleaseMutex, In this case, the thread should also not be allowed to access the resource protected by the mutex, as the following example shows.

using System;
using System.Threading;

class Example
{
    // Create a new Mutex. The creating thread does not own the mutex.
    private static Mutex mut = new Mutex();
    private const int numIterations = 1;
    private const int numThreads = 3;

    static void Main()
    {
        Example ex = new Example();
        ex.StartThreads();
    }

     private void StartThreads()
     {
        // Create the threads that will use the protected resource.
        for(int i = 0; i < numThreads; i++)
        {
            Thread newThread = new Thread(new ThreadStart(ThreadProc));
            newThread.Name = String.Format("Thread{0}", i + 1);
            newThread.Start();
        }

        // The main thread returns to Main and exits, but the application continues to
        // run until all foreground threads have exited.
    }

    private static void ThreadProc()
    {
        for(int i = 0; i < numIterations; i++)
        {
            UseResource();
        }
    }

    // This method represents a resource that must be synchronized
    // so that only one thread at a time can enter.
    private static void UseResource()
    {
        // Wait until it is safe to enter, and do not enter if the request times out.
        Console.WriteLine("{0} is requesting the mutex", Thread.CurrentThread.Name);
        if (mut.WaitOne(1000)) {
           Console.WriteLine("{0} has entered the protected area", 
               Thread.CurrentThread.Name);
   
           // Place code to access non-reentrant resources here.
   
           // Simulate some work.
           Thread.Sleep(5000);
   
           Console.WriteLine("{0} is leaving the protected area", 
               Thread.CurrentThread.Name);
   
           // Release the Mutex.
              mut.ReleaseMutex();
           Console.WriteLine("{0} has released the mutex", 
                             Thread.CurrentThread.Name);
        }
        else {
           Console.WriteLine("{0} will not acquire the mutex", 
                             Thread.CurrentThread.Name);
        }
    }

    ~Example()
    {
       mut.Dispose();
    }
}
// The example displays output like the following:
//       Thread1 is requesting the mutex
//       Thread1 has entered the protected area
//       Thread2 is requesting the mutex
//       Thread3 is requesting the mutex
//       Thread2 will not acquire the mutex
//       Thread3 will not acquire the mutex
//       Thread1 is leaving the protected area
//       Thread1 has released the mutex
Imports System.Threading

Class Example
   ' Create a new Mutex. The creating thread does not own the mutex.
   Private mut As New Mutex()
   Private Const numIterations As Integer = 1
   Private Const numThreads As Integer = 3

   Public Shared Sub Main()
      Dim ex As New Example()
      ex.StartThreads()
   End Sub
   
   Private Sub StartThreads()
        ' Create the threads that will use the protected resource.
        For i As Integer = 0 To numThreads - 1
            Dim newThread As New Thread(AddressOf ThreadProc)
            newThread.Name = String.Format("Thread{0}", i + 1)
            newThread.Start()
        Next

        ' The main thread returns to Main and exits, but the application continues to
        ' run until all foreground threads have exited.
   End Sub

   Private Sub ThreadProc()
        For i As Integer = 0 To numIterations - 1
            UseResource()
        Next
   End Sub

   ' This method represents a resource that must be synchronized
   ' so that only one thread at a time can enter.
   Private Sub UseResource()
        ' Wait until it is safe to enter.
        Console.WriteLine("{0} is requesting the mutex", 
                          Thread.CurrentThread.Name)
        If mut.WaitOne(1000) Then
           Console.WriteLine("{0} has entered the protected area", 
               Thread.CurrentThread.Name)
   
           ' Place code to access non-reentrant resources here.
   
           ' Simulate some work.
           Thread.Sleep(5000)
   
           Console.WriteLine("{0} is leaving the protected area", 
               Thread.CurrentThread.Name)
   
           ' Release the Mutex.
           mut.ReleaseMutex()
           Console.WriteLine("{0} has released the mutex", 
                             Thread.CurrentThread.Name)
        Else
           Console.WriteLine("{0} will not acquire the mutex", 
                             Thread.CurrentThread.Name)
        End If
   End Sub
   
   Protected Overrides Sub Finalize()
      mut.Dispose()
   End Sub
End Class
' The example displays output like the following:
'       Thread1 is requesting the mutex
'       Thread1 has entered the protected area
'       Thread2 is requesting the mutex
'       Thread3 is requesting the mutex
'       Thread2 will not acquire the mutex
'       Thread3 will not acquire the mutex
'       Thread1 is leaving the protected area
'       Thread1 has released the mutex

Un thread che possiede un mutex può specificare lo stesso mutex nelle chiamate di funzione wait ripetute senza bloccarne l'esecuzione.A thread that owns a mutex can specify the same mutex in repeated wait function calls without blocking its execution. Il numero di chiamate viene mantenuto dal Common Language Runtime.The number of calls is kept by the common language runtime. Il thread deve chiamare ReleaseMutex lo stesso numero di volte per rilasciare la proprietà del mutex.The thread must call ReleaseMutex the same number of times to release ownership of the mutex.

Se un thread termina mentre possiede un mutex, il mutex viene detto abbandonato.If a thread terminates while owning a mutex, the mutex is said to be abandoned. Lo stato del mutex è impostato su segnalato e il thread in attesa successivo ottiene la proprietà.The state of the mutex is set to signaled and the next waiting thread gets ownership. Se non è proprietario del mutex, viene segnalato lo stato del mutex.If no one owns the mutex, the state of the mutex is signaled. A partire dalla versione 2,0 della .NET Framework, viene AbandonedMutexException generata un'eccezione nel thread successivo che acquisisce il mutex.Beginning in version 2.0 of the .NET Framework, an AbandonedMutexException is thrown in the next thread that acquires the mutex. Prima della versione 2,0 della .NET Framework, non è stata generata alcuna eccezione.Prior to version 2.0 of the .NET Framework, no exception was thrown.

Attenzione

Un mutex abbandonato spesso indica un errore grave nel codice.An abandoned mutex often indicates a serious error in the code. Quando un thread esce senza rilasciare il mutex, è possibile che le strutture di dati protette dal mutex non si trovino in uno stato coerente.When a thread exits without releasing the mutex, the data structures protected by the mutex might not be in a consistent state. Il thread successivo per richiedere la proprietà del mutex può gestire questa eccezione e continuare se è possibile verificare l'integrità delle strutture di dati.The next thread to request ownership of the mutex can handle this exception and proceed, if the integrity of the data structures can be verified.

Nel caso di un mutex di sistema, un mutex abbandonato potrebbe indicare che un'applicazione è stata terminata in modo anomalo (ad esempio, usando Gestione attività Windows).In the case of a system-wide mutex, an abandoned mutex might indicate that an application has been terminated abruptly (for example, by using Windows Task Manager).

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