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Thread.GetNamedDataSlot(String) Método

Definição

Pesquisa um slot de dados nomeado. Para melhorar o desempenho, use os campos marcados com o atributo ThreadStaticAttribute.

public:
 static LocalDataStoreSlot ^ GetNamedDataSlot(System::String ^ name);
public static LocalDataStoreSlot GetNamedDataSlot (string name);
static member GetNamedDataSlot : string -> LocalDataStoreSlot
Public Shared Function GetNamedDataSlot (name As String) As LocalDataStoreSlot

Parâmetros

name
String

O nome do slot de dados local.

Retornos

LocalDataStoreSlot

Um LocalDataStoreSlot alocado para este thread.

Exemplos

Esta seção contém dois exemplos de código. O primeiro exemplo mostra como usar um campo que é marcado com o ThreadStaticAttribute atributo para manter informações específicas do thread. O segundo exemplo mostra como usar um slot de dados para fazer a mesma coisa.

Primeiro exemplo

O exemplo a seguir mostra como usar um campo marcado com ThreadStaticAttribute para armazenar informações específicas do thread. Essa técnica fornece um desempenho melhor do que a técnica que é mostrada no segundo exemplo.

using namespace System;
using namespace System::Threading;

ref class ThreadData
{
private:
   [ThreadStatic]
   static int threadSpecificData;

public:
   static void ThreadStaticDemo()
   {
      // Store the managed thread id for each thread in the static
      // variable.
      threadSpecificData = Thread::CurrentThread->ManagedThreadId;
      
      // Allow other threads time to execute the same code, to show
      // that the static data is unique to each thread.
      Thread::Sleep( 1000 );

      // Display the static data.
      Console::WriteLine( "Data for managed thread {0}: {1}", 
         Thread::CurrentThread->ManagedThreadId, threadSpecificData );
   }
};

int main()
{
   for ( int i = 0; i < 3; i++ )
   {
      Thread^ newThread = 
          gcnew Thread( gcnew ThreadStart( ThreadData::ThreadStaticDemo )); 
      newThread->Start();
   }
}

/* This code example produces output similar to the following:

Data for managed thread 4: 4
Data for managed thread 5: 5
Data for managed thread 3: 3
 */
using System;
using System.Threading;

class Test
{
    static void Main()
    {
        for(int i = 0; i < 3; i++)
        {
            Thread newThread = new Thread(ThreadData.ThreadStaticDemo);
            newThread.Start();
        }
    }
}

class ThreadData
{
    [ThreadStatic]
    static int threadSpecificData;

    public static void ThreadStaticDemo()
    {
        // Store the managed thread id for each thread in the static
        // variable.
        threadSpecificData = Thread.CurrentThread.ManagedThreadId;
      
        // Allow other threads time to execute the same code, to show
        // that the static data is unique to each thread.
        Thread.Sleep( 1000 );

        // Display the static data.
        Console.WriteLine( "Data for managed thread {0}: {1}", 
            Thread.CurrentThread.ManagedThreadId, threadSpecificData );
    }
}

/* This code example produces output similar to the following:

Data for managed thread 4: 4
Data for managed thread 5: 5
Data for managed thread 3: 3
 */
Imports System.Threading

Class Test

    <MTAThread> _
    Shared Sub Main()

        For i As Integer = 1 To 3
            Dim newThread As New Thread(AddressOf ThreadData.ThreadStaticDemo)
            newThread.Start()
        Next i

    End Sub

End Class

Class ThreadData

    <ThreadStatic> _
    Shared threadSpecificData As Integer

    Shared Sub ThreadStaticDemo()

        ' Store the managed thread id for each thread in the static
        ' variable.
        threadSpecificData = Thread.CurrentThread.ManagedThreadId
      
        ' Allow other threads time to execute the same code, to show
        ' that the static data is unique to each thread.
        Thread.Sleep( 1000 )

        ' Display the static data.
        Console.WriteLine( "Data for managed thread {0}: {1}", _
            Thread.CurrentThread.ManagedThreadId, threadSpecificData )

    End Sub

End Class

' This code example produces output similar to the following:
'
'Data for managed thread 4: 4
'Data for managed thread 5: 5
'Data for managed thread 3: 3

Segundo exemplo

O exemplo a seguir demonstra como usar um slot de dados nomeado para armazenar informações específicas do thread.

using namespace System;
using namespace System::Threading;

ref class Slot
{
private:
    static Random^ randomGenerator = gcnew Random();

public:
    static void SlotTest()
    {
        // Set random data in each thread's data slot.
        int slotData = randomGenerator->Next(1, 200);
        int threadId = Thread::CurrentThread->ManagedThreadId;

        Thread::SetData(
            Thread::GetNamedDataSlot("Random"),
            slotData);

        // Show what was saved in the thread's data slot.
        Console::WriteLine("Data stored in thread_{0}'s data slot: {1,3}",
            threadId, slotData);

        // Allow other threads time to execute SetData to show
        // that a thread's data slot is unique to itself.
        Thread::Sleep(1000);

        int newSlotData =
            (int)Thread::GetData(Thread::GetNamedDataSlot("Random"));

        if (newSlotData == slotData)
        {
            Console::WriteLine("Data in thread_{0}'s data slot is still: {1,3}",
                threadId, newSlotData);
        }
        else
        {
            Console::WriteLine("Data in thread_{0}'s data slot changed to: {1,3}",
                threadId, newSlotData);
        }
    }
};

ref class Test
{
public:
    static void Main()
    {
        array<Thread^>^ newThreads = gcnew array<Thread^>(4);
        int i;
        for (i = 0; i < newThreads->Length; i++)
        {
            newThreads[i] =
                gcnew Thread(gcnew ThreadStart(&Slot::SlotTest));
            newThreads[i]->Start();
        }
        Thread::Sleep(2000);
        for (i = 0; i < newThreads->Length; i++)
        {
            newThreads[i]->Join();
            Console::WriteLine("Thread_{0} finished.",
                newThreads[i]->ManagedThreadId);
        }
    }
};

int main()
{
    Test::Main();
}
using System;
using System.Threading;

class Test
{
    public static void Main()
    {
        Thread[] newThreads = new Thread[4];
        int i;
        for (i = 0; i < newThreads.Length; i++)
        {
            newThreads[i] =
                new Thread(new ThreadStart(Slot.SlotTest));
            newThreads[i].Start();
        }
        Thread.Sleep(2000);
        for (i = 0; i < newThreads.Length; i++)
        {
            newThreads[i].Join();
            Console.WriteLine("Thread_{0} finished.",
                newThreads[i].ManagedThreadId);
        }
    }
}

class Slot
{
    private static Random randomGenerator = new Random();

    public static void SlotTest()
    {
        // Set random data in each thread's data slot.
        int slotData = randomGenerator.Next(1, 200);
        int threadId = Thread.CurrentThread.ManagedThreadId;

        Thread.SetData(
            Thread.GetNamedDataSlot("Random"),
            slotData);

        // Show what was saved in the thread's data slot.
        Console.WriteLine("Data stored in thread_{0}'s data slot: {1,3}",
            threadId, slotData);

        // Allow other threads time to execute SetData to show
        // that a thread's data slot is unique to itself.
        Thread.Sleep(1000);

        int newSlotData =
            (int)Thread.GetData(Thread.GetNamedDataSlot("Random"));

        if (newSlotData == slotData)
        {
            Console.WriteLine("Data in thread_{0}'s data slot is still: {1,3}",
                threadId, newSlotData);
        }
        else
        {
            Console.WriteLine("Data in thread_{0}'s data slot changed to: {1,3}",
                threadId, newSlotData);
        }
    }
}
Imports System.Threading

Class Test
    Public Shared Sub Main()
        Dim newThreads(3) As Thread
        Dim i As Integer
        For i = 0 To newThreads.Length - 1
            newThreads(i) = _
                New Thread(New ThreadStart(AddressOf Slot.SlotTest))
            newThreads(i).Start()
        Next i
        Thread.Sleep(2000)
        For i = 0 To newThreads.Length - 1
            newThreads(i).Join()
            Console.WriteLine("Thread_{0} finished.", _
                newThreads(i).ManagedThreadId)
        Next i
    End Sub
End Class

Class Slot
    Private Shared randomGenerator As New Random()

    Public Shared Sub SlotTest()
        ' Set random data in each thread's data slot.
        Dim slotData As Integer = randomGenerator.Next(1, 200)
        Dim threadId As Integer = Thread.CurrentThread.ManagedThreadId

        Thread.SetData(
            Thread.GetNamedDataSlot("Random"),
            slotData)

        ' Show what was saved in the thread's data slot.
        Console.WriteLine("Data stored in thread_{0}'s data slot: {1,3}",
            threadId, slotData)

        ' Allow other threads time to execute SetData to show
        ' that a thread's data slot is unique to itself.
        Thread.Sleep(1000)

        Dim newSlotData As Integer = _
            CType(Thread.GetData(Thread.GetNamedDataSlot("Random")), Integer)

        If newSlotData = slotData Then
            Console.WriteLine("Data in thread_{0}'s data slot is still: {1,3}",
                threadId, newSlotData)
        Else
            Console.WriteLine("Data in thread_{0}'s data slot changed to: {1,3}",
                threadId, newSlotData)
        End If
    End Sub
End Class

Comentários

Importante

o .NET Framework fornece dois mecanismos para usar o armazenamento local de thread (TLS): campos estáticos relativos a thread (ou seja, campos que são marcados com o ThreadStaticAttribute atributo) e slots de dados. Os campos estáticos relativos a thread fornecem um desempenho muito melhor do que os slots de dados e habilitam a verificação de tipo em tempo de compilação. para obter mais informações sobre como usar o TLS, consulte Thread Local Armazenamento: Thread-Relative campos estáticos e Slots de dados.

Os threads usam um mecanismo de memória de armazenamento local para armazenar dados específicos de thread. O Common Language Runtime aloca uma matriz de armazenamento de dados de vários slots para cada processo quando ele é criado. O thread pode alocar um slot de dados no armazenamento de dados, armazenar e recuperar um valor de dados no slot e liberar o slot para reutilização depois que o thread expirar. Os slots de dados são exclusivos por thread. Nenhum outro thread (nem mesmo um thread filho) pode obter esses dados.

Se o slot nomeado não existir, um novo slot será alocado. Os slots de dados nomeados são públicos e podem ser manipulados por qualquer pessoa.

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