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Mutex.ReleaseMutex 方法

定義

釋出 Mutex 一次。

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

例外狀況

呼叫端執行緒未擁有 Mutex。

目前的執行個體已經過處置。

範例

下列範例示範如何使用本機 Mutex 物件來同步存取受保護的資源。 建立 Mutex 的執行緒一開始不會擁有它。 ReleaseMutex方法可用來釋出不再需要 Mutex。

// 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 Test13
{
    // 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

備註

例如,每當執行緒取得 mutex (時,只要呼叫其 WaitOne 方法) ,就必須接著呼叫 ReleaseMutex 來撤銷 mutex 的擁有權,並解除封鎖嘗試取得 mutex 擁有權的其他執行緒。 例如,如果嘗試取得 mutex 的擁有權失敗 (,當使用 或 參數呼叫 WaitOne 方法 millisecondsTimeout 時,因為要求逾時) ,執行緒不應該呼叫 ReleaseMutex ,在此情況下,執行緒也應該不允許存取 mutex 所保護的資源,如 false 下列範例所示。 timeout

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

擁有 mutex 的執行緒可以在重複的等候函式呼叫中指定相同的 mutex,而不會封鎖其執行。 Common Language Runtime 會保留呼叫數目。 執行緒必須呼叫 ReleaseMutex 相同的次數,才能釋放 mutex 的擁有權。

如果執行緒在擁有 Mutex 時終止,則會放棄 mutex。 Mutex 的狀態會設定為已發出訊號,而下一個等候執行緒會取得擁有權。 如果沒有人擁有 mutex,則會發出 mutex 的狀態。 從 .NET Framework 2.0 版開始, AbandonedMutexException 會在取得 mutex 的下一個執行緒中擲回 。 在 2.0 版.NET Framework之前,不會擲回例外狀況。

警告

放棄的 Mutex 通常表示程式碼中發生嚴重錯誤。 當執行緒在未釋放 Mutex 的情況下結束時,受 mutex 保護的資料結構可能不是一致的狀態。 要求 Mutex 擁有權的下一個執行緒可以處理此例外狀況,如果可以驗證資料結構的完整性,請繼續進行。

如果是全系統 Mutex,遭到放棄的 Mutex 可能表示應用程式已意外終止 (例如,透過使用「Windows 工作管理員」)。

適用於

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