ThreadStaticAttribute ThreadStaticAttribute ThreadStaticAttribute ThreadStaticAttribute Class

Définition

Indique que la valeur d'un champ statique est unique pour chaque thread.Indicates that the value of a static field is unique for each thread.

public ref class ThreadStaticAttribute : Attribute
[System.AttributeUsage(System.AttributeTargets.Field, Inherited=false)]
[System.Runtime.InteropServices.ComVisible(true)]
[System.Serializable]
public class ThreadStaticAttribute : Attribute
type ThreadStaticAttribute = class
    inherit Attribute
Public Class ThreadStaticAttribute
Inherits Attribute
Héritage
ThreadStaticAttributeThreadStaticAttributeThreadStaticAttributeThreadStaticAttribute
Attributs

Exemples

L’exemple suivant instancie un générateur de nombres aléatoires, crée dix threads en plus du thread principal, puis génère des nombres aléatoires 2 millions dans chaque thread.The following example instantiates a random number generator, creates ten threads in addition to the main thread, and then generates two million random numbers in each thread. Elle utilise l' ThreadStaticAttribute attribut pour calculer la somme et le nombre de nombres aléatoires par thread.It uses the ThreadStaticAttribute attribute to calculate the sum and the count of random numbers per thread. Il définit également deux champs par thread supplémentaires, previous et abnormal, qui lui permet de détecter l’endommagement du générateur de nombres aléatoires.It also defines two additional per-thread fields, previous and abnormal, that allows it to detect corruption of the random number generator.

using System;
using System.Threading;

public class Example
{
   [ThreadStatic] static double previous = 0.0;
   [ThreadStatic] static double sum = 0.0;
   [ThreadStatic] static int calls = 0;
   [ThreadStatic] static bool abnormal;
   static int totalNumbers = 0;
   static CountdownEvent countdown;
   private static Object lockObj;
   Random rand;
   
   public Example()
   { 
      rand = new Random();
      lockObj = new Object();
      countdown = new CountdownEvent(1);
   } 

   public static void Main()
   {
      Example ex = new Example();
      Thread.CurrentThread.Name = "Main";
      ex.Execute();
      countdown.Wait();
      Console.WriteLine("{0:N0} random numbers were generated.", totalNumbers);
   }

   private void Execute()
   {   
      for (int threads = 1; threads <= 10; threads++)
      {
         Thread newThread = new Thread(new ThreadStart(this.GetRandomNumbers));
         countdown.AddCount();
         newThread.Name = threads.ToString();
         newThread.Start();
      }
      this.GetRandomNumbers();
   }

   private void GetRandomNumbers()
   {
      double result = 0.0;
      
       
      for (int ctr = 0; ctr < 2000000; ctr++)
      {
         lock (lockObj) {
            result = rand.NextDouble();
            calls++;
            Interlocked.Increment(ref totalNumbers);
            // We should never get the same random number twice.
            if (result == previous) {
               abnormal = true;
               break;
            }
            else {
               previous = result;
               sum += result;
            }   
         }
      }
      // get last result
      if (abnormal)
         Console.WriteLine("Result is {0} in {1}", previous, Thread.CurrentThread.Name);
       
      Console.WriteLine("Thread {0} finished random number generation.", Thread.CurrentThread.Name);
      Console.WriteLine("Sum = {0:N4}, Mean = {1:N4}, n = {2:N0}\n", sum, sum/calls, calls);        
      countdown.Signal();
   }
}
// The example displays output similar to the following:
//    Thread 1 finished random number generation.
//    Sum = 1,000,556.7483, Mean = 0.5003, n = 2,000,000
//    
//    Thread 6 finished random number generation.
//    Sum = 999,704.3865, Mean = 0.4999, n = 2,000,000
//    
//    Thread 2 finished random number generation.
//    Sum = 999,680.8904, Mean = 0.4998, n = 2,000,000
//    
//    Thread 10 finished random number generation.
//    Sum = 999,437.5132, Mean = 0.4997, n = 2,000,000
//    
//    Thread 8 finished random number generation.
//    Sum = 1,000,663.7789, Mean = 0.5003, n = 2,000,000
//    
//    Thread 4 finished random number generation.
//    Sum = 999,379.5978, Mean = 0.4997, n = 2,000,000
//    
//    Thread 5 finished random number generation.
//    Sum = 1,000,011.0605, Mean = 0.5000, n = 2,000,000
//    
//    Thread 9 finished random number generation.
//    Sum = 1,000,637.4556, Mean = 0.5003, n = 2,000,000
//    
//    Thread Main finished random number generation.
//    Sum = 1,000,676.2381, Mean = 0.5003, n = 2,000,000
//    
//    Thread 3 finished random number generation.
//    Sum = 999,951.1025, Mean = 0.5000, n = 2,000,000
//    
//    Thread 7 finished random number generation.
//    Sum = 1,000,844.5217, Mean = 0.5004, n = 2,000,000
//    
//    22,000,000 random numbers were generated.
Imports System.Threading

Public Class Example
   <ThreadStatic> Shared previous As Double = 0.0
   <ThreadStatic> Shared sum As Double = 0.0
   <ThreadStatic> Shared calls As Integer = 0
   <ThreadStatic> Shared abnormal As Boolean
   Shared totalNumbers As Integer = 0
   Shared countdown As CountdownEvent
   Private Shared lockObj As Object
   Dim rand As Random

   Public Sub New()
      rand = New Random()
      lockObj = New Object()
      countdown = New CountdownEvent(1)
   End Sub

   Public Shared Sub Main()
      Dim ex As New Example()
      Thread.CurrentThread.Name = "Main"
      ex.Execute()
      countdown.Wait()
      Console.WriteLine("{0:N0} random numbers were generated.", totalNumbers)
   End Sub

   Private Sub Execute()
      For threads As Integer = 1 To 10
         Dim newThread As New Thread(New ThreadStart(AddressOf GetRandomNumbers))
         countdown.AddCount()
         newThread.Name = threads.ToString()
         newThread.Start()
      Next
      Me.GetRandomNumbers()
   End Sub

   Private Sub GetRandomNumbers()
      Dim result As Double = 0.0
      
       
      For ctr As Integer = 1 To 2000000
         SyncLock lockObj
            result = rand.NextDouble()
            calls += 1
            Interlocked.Increment(totalNumbers)
            ' We should never get the same random number twice.
            If result = previous Then
               abnormal = True
               Exit For
            Else
               previous = result
               sum += result
            End If   
         End SyncLock
      Next
      ' Get last result.
      If abnormal Then
         Console.WriteLine("Result is {0} in {1}", previous, Thread.CurrentThread.Name)
      End If       
      
      Console.WriteLine("Thread {0} finished random number generation.", Thread.CurrentThread.Name)
      Console.WriteLine("Sum = {0:N4}, Mean = {1:N4}, n = {2:N0}", sum, sum/calls, calls)
      Console.WriteLine()        
      countdown.Signal()
   End Sub
End Class
' The example displays output similar to the following:
'    Thread 1 finished random number generation.
'    Sum = 1,000,556.7483, Mean = 0.5003, n = 2,000,000
'    
'    Thread 6 finished random number generation.
'    Sum = 999,704.3865, Mean = 0.4999, n = 2,000,000
'    
'    Thread 2 finished random number generation.
'    Sum = 999,680.8904, Mean = 0.4998, n = 2,000,000
'    
'    Thread 10 finished random number generation.
'    Sum = 999,437.5132, Mean = 0.4997, n = 2,000,000
'    
'    Thread 8 finished random number generation.
'    Sum = 1,000,663.7789, Mean = 0.5003, n = 2,000,000
'    
'    Thread 4 finished random number generation.
'    Sum = 999,379.5978, Mean = 0.4997, n = 2,000,000
'    
'    Thread 5 finished random number generation.
'    Sum = 1,000,011.0605, Mean = 0.5000, n = 2,000,000
'    
'    Thread 9 finished random number generation.
'    Sum = 1,000,637.4556, Mean = 0.5003, n = 2,000,000
'    
'    Thread Main finished random number generation.
'    Sum = 1,000,676.2381, Mean = 0.5003, n = 2,000,000
'    
'    Thread 3 finished random number generation.
'    Sum = 999,951.1025, Mean = 0.5000, n = 2,000,000
'    
'    Thread 7 finished random number generation.
'    Sum = 1,000,844.5217, Mean = 0.5004, n = 2,000,000
'    
'    22,000,000 random numbers were generated.

L’exemple utilise l' lock instruction dans C# et la SyncLock construction dans Visual Basic pour synchroniser l’accès au générateur de nombres aléatoires.The example uses the lock statement in C# and the SyncLock construct in Visual Basic to synchronize access to the random number generator. Cela empêche l’endommagement du générateur de nombres aléatoires, ce qui entraîne généralement le retour de la valeur zéro pour tous les appels suivants.This prevents corruption of the random number generator, which typically results in its returning a value of zero for all subsequent calls.

L’exemple utilise également la CountdownEvent classe pour s’assurer que chaque thread a terminé de générer des nombres aléatoires avant d’afficher le nombre total d’appels.The example also uses the CountdownEvent class to ensure that each thread has finished generating random numbers before it displays the total number of calls. Sinon, si le thread principal termine l’exécution avant les threads supplémentaires qu’il génère, il affiche une valeur inexacte pour le nombre total d’appels de méthode.Otherwise, if the main thread completes execution before the additional threads that it spawns, it displays an inaccurate value for the total number of method calls.

Remarques

Un static champ marqué avec ThreadStaticAttribute n’est pas partagé entre les threads.A static field marked with ThreadStaticAttribute is not shared between threads. Chaque thread en cours d’exécution possède une instance distincte du champ, et définit et obtient indépendamment les valeurs de ce champ.Each executing thread has a separate instance of the field, and independently sets and gets values for that field. Si le champ est accessible sur un thread différent, il contient une valeur différente.If the field is accessed on a different thread, it will contain a different value.

Notez qu’en plus d’appliquer l' ThreadStaticAttribute attribut à un champ, vous devez également le définir static en tant que champ Shared ( C#dans) ou champ (dans Visual Basic).Note that in addition to applying the ThreadStaticAttribute attribute to a field, you must also define it as a static field (in C#) or a Shared field (in Visual Basic).

Notes

Ne spécifiez pas de valeurs initiales pour les ThreadStaticAttributechamps marqués avec, car cette initialisation se produit une seule fois, lorsque le constructeur de classe s’exécute et n’affecte donc qu’un seul thread.Do not specify initial values for fields marked with ThreadStaticAttribute, because such initialization occurs only once, when the class constructor executes, and therefore affects only one thread. Si vous ne spécifiez pas de valeur initiale, vous pouvez vous appuyer sur le champ initialisé à sa valeur par défaut s’il s’agit d’un type valeur null ou sur s’il s’agit d’un type référence.If you do not specify an initial value, you can rely on the field being initialized to its default value if it is a value type, or to null if it is a reference type.

Utilisez cet attribut tel quel et ne dérivez pas de celui-ci.Use this attribute as it is, and do not derive from it.

Pour plus d’informations sur l’utilisation d’attributs, consultez attributs.For more information about using attributes, see Attributes.

Constructeurs

ThreadStaticAttribute() ThreadStaticAttribute() ThreadStaticAttribute() ThreadStaticAttribute()

Initialise une nouvelle instance de la classe ThreadStaticAttribute.Initializes a new instance of the ThreadStaticAttribute class.

Méthodes

Equals(Object) Equals(Object) Equals(Object) Equals(Object)

Retourne une valeur qui indique si cette instance est égale à un objet spécifié.Returns a value that indicates whether this instance is equal to a specified object.

(Inherited from Attribute)
GetHashCode() GetHashCode() GetHashCode() GetHashCode()

Retourne le code de hachage de cette instance.Returns the hash code for this instance.

(Inherited from Attribute)
GetType() GetType() GetType() GetType()

Obtient le Type de l'instance actuelle.Gets the Type of the current instance.

(Inherited from Object)
IsDefaultAttribute() IsDefaultAttribute() IsDefaultAttribute() IsDefaultAttribute()

En cas de substitution dans une classe dérivée, indique si la valeur de cette instance est la valeur par défaut pour la classe dérivée.When overridden in a derived class, indicates whether the value of this instance is the default value for the derived class.

(Inherited from Attribute)
Match(Object) Match(Object) Match(Object) Match(Object)

En cas de substitution dans une classe dérivée, retourne une valeur indiquant si cette instance équivaut à un objet spécifié.When overridden in a derived class, returns a value that indicates whether this instance equals a specified object.

(Inherited from Attribute)
MemberwiseClone() MemberwiseClone() MemberwiseClone() MemberwiseClone()

Crée une copie superficielle de l'objet Object actuel.Creates a shallow copy of the current Object.

(Inherited from Object)
ToString() ToString() ToString() ToString()

Retourne une chaîne qui représente l'objet actuel.Returns a string that represents the current object.

(Inherited from Object)

Implémentations d’interfaces explicites

_Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr) _Attribute.GetIDsOfNames(Guid, IntPtr, UInt32, UInt32, IntPtr)

Mappe un jeu de noms avec un jeu correspondant d'identificateurs de dispatch.Maps a set of names to a corresponding set of dispatch identifiers.

(Inherited from Attribute)
_Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr) _Attribute.GetTypeInfo(UInt32, UInt32, IntPtr)

Récupère les informations de type pour un objet, qui peuvent être utilisées pour obtenir les informations de type d'une interface.Retrieves the type information for an object, which can be used to get the type information for an interface.

(Inherited from Attribute)
_Attribute.GetTypeInfoCount(UInt32) _Attribute.GetTypeInfoCount(UInt32) _Attribute.GetTypeInfoCount(UInt32) _Attribute.GetTypeInfoCount(UInt32)

Récupère le nombre d'interfaces d'informations de type fourni par un objet (0 ou 1).Retrieves the number of type information interfaces that an object provides (either 0 or 1).

(Inherited from Attribute)
_Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr) _Attribute.Invoke(UInt32, Guid, UInt32, Int16, IntPtr, IntPtr, IntPtr, IntPtr)

Fournit l'accès aux propriétés et aux méthodes exposées par un objet.Provides access to properties and methods exposed by an object.

(Inherited from Attribute)

Propriétés

TypeId TypeId TypeId TypeId

Lors de l'implémentation dans une classe dérivée, obtient un identificateur unique pour l'objet Attribute.When implemented in a derived class, gets a unique identifier for this Attribute.

(Inherited from Attribute)

S’applique à

Voir aussi