ReaderWriterLock.ReleaseLock-Methode
Hebt die Sperre unabhängig davon auf, wie oft dem Thread die Sperre zugewiesen wurde.
Namespace: System.Threading
Assembly: mscorlib (in mscorlib.dll)
Syntax
'Declaration
Public Function ReleaseLock As LockCookie
'Usage
Dim instance As ReaderWriterLock
Dim returnValue As LockCookie
returnValue = instance.ReleaseLock
public LockCookie ReleaseLock ()
public:
LockCookie ReleaseLock ()
public LockCookie ReleaseLock ()
public function ReleaseLock () : LockCookie
Rückgabewert
Ein LockCookie-Wert, der die aufgehobene Sperre darstellt.
Hinweise
ReleaseLock hebt die Lese- oder Schreibsperre auf, unabhängig von der rekursiven Sperrenanzahl. Übergeben Sie zum Wiederherstellen des Zustands der Sperre, einschließlich der Sperrenanzahl, das LockCookie an RestoreLock.
Beispiel
' The complete code is located in the ReaderWriterLock
' class topic.
Imports System
Imports System.Threading
Imports Microsoft.VisualBasic
Public Class Test
' Declaring the ReaderWriterLock at the class level
' makes it visible to all threads.
Private Shared rwl As New ReaderWriterLock()
' For this example, the shared resource protected by the
' ReaderWriterLock is just an integer.
Private Shared resource As Integer = 0
...
' Shows how to release all locks and later restore
' the lock state. Shows how to use sequence numbers
' to determine whether another thread has obtained
' a writer lock since this thread last accessed the
' resource.
Shared Sub ReleaseRestore(timeOut As Integer)
Dim lastWriter As Integer
Try
rwl.AcquireReaderLock(timeOut)
Try
' It is safe for this thread to read from
' the shared resource. Cache the value. (You
' might do this if reading the resource is
' an expensive operation.)
Dim resourceValue As Integer = resource
Display("reads resource value " & resourceValue)
Interlocked.Increment(reads)
' Save the current writer sequence number.
lastWriter = rwl.WriterSeqNum
' Release the lock, and save a cookie so the
' lock can be restored later.
Dim lc As LockCookie = rwl.ReleaseLock()
' Wait for a random interval (up to a
' quarter of a second), and then restore
' the previous state of the lock. Note that
' there is no time-out on the Restore method.
Thread.Sleep(rnd.Next(250))
rwl.RestoreLock(lc)
' Check whether other threads obtained the
' writer lock in the interval. If not, then
' the cached value of the resource is still
' valid.
If rwl.AnyWritersSince(lastWriter) Then
resourceValue = resource
Interlocked.Increment(reads)
Display("resource has changed " & resourceValue)
Else
Display("resource has not changed " & resourceValue)
End If
Finally
' Ensure that the lock is released.
rwl.ReleaseReaderLock()
End Try
Catch ex As ApplicationException
' The reader lock request timed out.
Interlocked.Increment(readerTimeouts)
End Try
End Sub 'ReleaseRestore
...
End Class 'Test
// The complete code is located in the ReaderWriterLock
// class topic.
using System;
using System.Threading;
public class Test
{
// Declaring the ReaderWriterLock at the class level
// makes it visible to all threads.
static ReaderWriterLock rwl = new ReaderWriterLock();
// For this example, the shared resource protected by the
// ReaderWriterLock is just an integer.
static int resource = 0;
...
// Shows how to release all locks and later restore
// the lock state. Shows how to use sequence numbers
// to determine whether another thread has obtained
// a writer lock since this thread last accessed the
// resource.
static void ReleaseRestore(int timeOut)
{
int lastWriter;
try
{
rwl.AcquireReaderLock(timeOut);
try
{
// It is safe for this thread to read from
// the shared resource. Cache the value. (You
// might do this if reading the resource is
// an expensive operation.)
int resourceValue = resource;
Display("reads resource value " + resourceValue);
Interlocked.Increment(ref reads);
// Save the current writer sequence number.
lastWriter = rwl.WriterSeqNum;
// Release the lock, and save a cookie so the
// lock can be restored later.
LockCookie lc = rwl.ReleaseLock();
// Wait for a random interval (up to a
// quarter of a second), and then restore
// the previous state of the lock. Note that
// there is no time-out on the Restore method.
Thread.Sleep(rnd.Next(250));
rwl.RestoreLock(ref lc);
// Check whether other threads obtained the
// writer lock in the interval. If not, then
// the cached value of the resource is still
// valid.
if (rwl.AnyWritersSince(lastWriter))
{
resourceValue = resource;
Interlocked.Increment(ref reads);
Display("resource has changed " + resourceValue);
}
else
{
Display("resource has not changed " + resourceValue);
}
}
finally
{
// Ensure that the lock is released.
rwl.ReleaseReaderLock();
}
}
catch (ApplicationException)
{
// The reader lock request timed out.
Interlocked.Increment(ref readerTimeouts);
}
}
...
}
// The complete code is located in the ReaderWriterLock
// class topic.
using namespace System;
using namespace System::Threading;
public ref class Test
{
public:
// Declaring the ReaderWriterLock at the class level
// makes it visible to all threads.
static ReaderWriterLock^ rwl = gcnew ReaderWriterLock;
// For this example, the shared resource protected by the
// ReaderWriterLock is just an integer.
static int resource = 0;
...
// Shows how to release all locks and later restore
// the lock state. Shows how to use sequence numbers
// to determine whether another thread has obtained
// a writer lock since this thread last accessed the
// resource.
static void ReleaseRestore( int timeOut )
{
int lastWriter;
try
{
rwl->AcquireReaderLock( timeOut );
try
{
// It is safe for this thread to read from
// the shared resource. Cache the value. (You
// might do this if reading the resource is
// an expensive operation.)
int resourceValue = resource;
Display( String::Format( "reads resource value {0}", resourceValue ) );
Interlocked::Increment( reads );
// Save the current writer sequence number.
lastWriter = rwl->WriterSeqNum;
// Release the lock, and save a cookie so the
// lock can be restored later.
LockCookie lc = rwl->ReleaseLock();
// Wait for a random interval (up to a
// quarter of a second), and then restore
// the previous state of the lock. Note that
// there is no timeout on the Restore method.
Thread::Sleep( rnd->Next( 250 ) );
rwl->RestoreLock( lc );
// Check whether other threads obtained the
// writer lock in the interval. If not, then
// the cached value of the resource is still
// valid.
if ( rwl->AnyWritersSince( lastWriter ) )
{
resourceValue = resource;
Interlocked::Increment( reads );
Display( String::Format( "resource has changed {0}", resourceValue ) );
}
else
{
Display( String::Format( "resource has not changed {0}", resourceValue ) );
}
}
finally
{
// Ensure that the lock is released.
rwl->ReleaseReaderLock();
}
}
catch ( ApplicationException^ )
{
// The reader lock request timed out.
Interlocked::Increment( readerTimeouts );
}
}
...
};
// The complete code is located in the ReaderWriterLock
// class topic.
import System.*;
import System.Threading.*;
import System.Threading.Thread;
public class Test
{
// Declaring the ReaderWriterLock at the class level
// makes it visible to all threads.
private static ReaderWriterLock rwl = new ReaderWriterLock();
// For this example, the shared resource protected by the
// ReaderWriterLock is just an integer.
private static int resource = 0;
...
// Shows how to release all locks and later restore
// the lock state. Shows how to use sequence numbers
// to determine whether another thread has obtained
// a writer lock since this thread last accessed the
// resource.
static void ReleaseRestore(int timeOut)
{
int lastWriter;
try {
rwl.AcquireReaderLock(timeOut);
try {
// It is safe for this thread to read from
// the shared resource. Cache the value. (You
// might do this if reading the resource is
// an expensive operation.)
int resourceValue = resource;
Display(("reads resource value " + resourceValue));
Interlocked.Increment(reads);
// Save the current writer sequence number.
lastWriter = rwl.get_WriterSeqNum();
// Release the lock, and save a cookie so the
// lock can be restored later.
LockCookie lc = rwl.ReleaseLock();
// Wait for a random interval (up to a
// quarter of a second), and then restore
// the previous state of the lock. Note that
// there is no time-out on the Restore method.
Thread.Sleep(rnd.Next(250));
rwl.RestoreLock(lc);
// Check whether other threads obtained the
// writer lock in the interval. If not, then
// the cached value of the resource is still
// valid.
if (rwl.AnyWritersSince(lastWriter)) {
resourceValue = resource;
Interlocked.Increment(reads);
Display(("resource has changed " + resourceValue));
}
else {
Display(("resource has not changed " + resourceValue));
}
}
finally {
// Ensure that the lock is released.
rwl.ReleaseReaderLock();
}
}
catch (ApplicationException exp) {
// The reader lock request timed out.
Interlocked.Increment(readerTimeouts);
}
} //ReleaseRestore
...
}
Plattformen
Windows 98, Windows 2000 SP4, Windows Millennium Edition, Windows Server 2003, Windows XP Media Center Edition, Windows XP Professional x64 Edition, Windows XP SP2, Windows XP Starter Edition
.NET Framework unterstützt nicht alle Versionen sämtlicher Plattformen. Eine Liste der unterstützten Versionen finden Sie unter Systemanforderungen.
Versionsinformationen
.NET Framework
Unterstützt in: 2.0, 1.1, 1.0
Siehe auch
Referenz
ReaderWriterLock-Klasse
ReaderWriterLock-Member
System.Threading-Namespace