Action<T1,T2,T3> Délégué

Définition

Encapsule une méthode ayant trois paramètres et ne retournant aucune valeur.Encapsulates a method that has three parameters and does not return a value.

generic <typename T1, typename T2, typename T3>
public delegate void Action(T1 arg1, T2 arg2, T3 arg3);
public delegate void Action<in T1,in T2,in T3>(T1 arg1, T2 arg2, T3 arg3);
type Action<'T1, 'T2, 'T3> = delegate of 'T1 * 'T2 * 'T3 -> unit
Public Delegate Sub Action(Of In T1, In T2, In T3)(arg1 As T1, arg2 As T2, arg3 As T3)

Paramètres de type

T1

Type du premier paramètre de la méthode encapsulée par ce délégué.The type of the first parameter of the method that this delegate encapsulates.

T2

Type du deuxième paramètre de la méthode encapsulée par ce délégué.The type of the second parameter of the method that this delegate encapsulates.

T3

Type du troisième paramètre de la méthode encapsulée par ce délégué.The type of the third parameter of the method that this delegate encapsulates.

Paramètres

arg1

Premier paramètre de la méthode encapsulée par ce délégué.The first parameter of the method that this delegate encapsulates.

arg2

Deuxième paramètre de la méthode encapsulée par ce délégué.The second parameter of the method that this delegate encapsulates.

arg3

Troisième paramètre de la méthode encapsulée par ce délégué.The third parameter of the method that this delegate encapsulates.

Héritage
Action<T1,T2,T3>

Remarques

Vous pouvez utiliser le Action<T1,T2,T3> délégué pour passer une méthode en tant que paramètre sans déclarer explicitement un délégué personnalisé.You can use the Action<T1,T2,T3> delegate to pass a method as a parameter without explicitly declaring a custom delegate. La méthode encapsulée doit correspondre à la signature de méthode définie par ce délégué.The encapsulated method must correspond to the method signature that is defined by this delegate. Cela signifie que la méthode encapsulée doit avoir trois paramètres qui lui sont transmis par valeur, et qu’elle ne doit pas retourner de valeur.This means that the encapsulated method must have three parameters that are all passed to it by value, and it must not return a value. (Dans C#, la méthode doit retourner void.(In C#, the method must return void. Dans Visual Basic, elle doit être définie par Sub...End SubIn Visual Basic, it must be defined by the SubEnd Sub composer.construct. Il peut également s’agir d’une méthode qui retourne une valeur qui est ignorée.) En général, une telle méthode est utilisée pour effectuer une opération.It can also be a method that returns a value that is ignored.) Typically, such a method is used to perform an operation.

Notes

Pour référencer une méthode ayant trois paramètres et retournant une valeur, utilisez plutôt Func<T1,T2,T3,TResult> le délégué générique.To reference a method that has three parameters and returns a value, use the generic Func<T1,T2,T3,TResult> delegate instead.

Lorsque vous utilisez le Action<T1,T2,T3> délégué, vous n’avez pas à définir explicitement un délégué qui encapsule une méthode avec trois paramètres.When you use the Action<T1,T2,T3> delegate, you do not have to explicitly define a delegate that encapsulates a method with three parameters. Par exemple, le code suivant déclare explicitement un délégué nommé StringCopy et assigne une référence à la CopyStrings méthode à son instance de délégué.For example, the following code explicitly declares a delegate named StringCopy and assigns a reference to the CopyStrings method to its delegate instance.

using System;

delegate void StringCopy(string[] stringArray1, 
                         string[] stringArray2, 
                         int indexToStart);
                         
public class TestDelegate
{
   public static void Main()
   {
      string[] ordinals = {"First", "Second", "Third", "Fourth", "Fifth"};
      string[] copiedOrdinals = new string[ordinals.Length];           
      StringCopy copyOperation = CopyStrings;
      copyOperation(ordinals, copiedOrdinals, 3);
      foreach (string ordinal in copiedOrdinals)
         Console.WriteLine(String.IsNullOrEmpty(ordinal) ? "<None>" : ordinal);
   }

   private static void CopyStrings(string[] source, string[] target, int startPos)
   {
      if (source.Length != target.Length) 
         throw new IndexOutOfRangeException("The source and target arrays must have the same number of elements.");

      for (int ctr = startPos; ctr <= source.Length - 1; ctr++)
         target[ctr] = String.Copy(source[ctr]);
   }

}
Delegate Sub StringCopy(stringArray1() As String, _
                        stringArray2() As String, _
                        indexToStart As Integer)

Module TestDelegate
   Public Sub Main()
      Dim ordinals() As String = {"First", "Second", "Third", "Fourth", "Fifth"}
      Dim copiedOrdinals(ordinals.Length - 1) As String
      Dim copyOperation As StringCopy = AddressOf CopyStrings
      copyOperation(ordinals, copiedOrdinals, 3)
      For Each ordinal As String In copiedOrdinals
         Console.WriteLine(ordinal)
      Next    
   End Sub
   
   Private Sub CopyStrings(source() As String, target() As String, startPos As Integer)
      If source.Length <> target.Length Then 
         Throw New IndexOutOfRangeException("The source and target arrays must have the same number of elements.")
      End If
      For ctr As Integer = startPos to source.Length - 1
         target(ctr) = String.Copy(source(ctr))
      Next
   End Sub
End Module

L’exemple suivant simplifie ce code en instanciant Action<T1,T2,T3> le délégué au lieu de définir explicitement un nouveau délégué et en lui assignant une méthode nommée.The following example simplifies this code by instantiating the Action<T1,T2,T3> delegate instead of explicitly defining a new delegate and assigning a named method to it.

using System;
                         
public class TestAction3
{
   public static void Main()
   {
      string[] ordinals = {"First", "Second", "Third", "Fourth", "Fifth"};
      string[] copiedOrdinals = new string[ordinals.Length];           
      Action<string[], string[], int> copyOperation = CopyStrings;
      copyOperation(ordinals, copiedOrdinals, 3);
      foreach (string ordinal in copiedOrdinals)
         Console.WriteLine(String.IsNullOrEmpty(ordinal) ? "<None>" : ordinal);
   }

   private static void CopyStrings(string[] source, string[] target, int startPos)
   {
      if (source.Length != target.Length) 
         throw new IndexOutOfRangeException("The source and target arrays must have the same number of elements.");

      for (int ctr = startPos; ctr <= source.Length - 1; ctr++)
         target[ctr] = String.Copy(source[ctr]);
   }
}
Module TestAction3
   Public Sub Main()
      Dim ordinals() As String = {"First", "Second", "Third", "Fourth", "Fifth"}
      Dim copiedOrdinals(ordinals.Length - 1) As String
      Dim copyOperation As Action(Of String(), String(), Integer) = AddressOf CopyStrings
      copyOperation(ordinals, copiedOrdinals, 3)
      For Each ordinal As String In copiedOrdinals
         Console.WriteLine(ordinal)
      Next    
   End Sub
   
   Private Sub CopyStrings(source() As String, target() As String, startPos As Integer)
      If source.Length <> target.Length Then 
         Throw New IndexOutOfRangeException("The source and target arrays must have the same number of elements.")
      End If
      For ctr As Integer = startPos to source.Length - 1
         target(ctr) = String.Copy(source(ctr))
      Next
   End Sub
End Module

Vous pouvez également utiliser le Action<T1,T2,T3> délégué avec des méthodes anonymes dans C#, comme l’illustre l’exemple suivant.You can also use the Action<T1,T2,T3> delegate with anonymous methods in C#, as the following example illustrates. (Pour une introduction aux méthodes anonymes, consultez méthodes anonymes.)(For an introduction to anonymous methods, see Anonymous Methods.)

using System;
                         
public class TestAnon
{
   public static void Main()
   {
      string[] ordinals = {"First", "Second", "Third", "Fourth", "Fifth"};
      string[] copiedOrdinals = new string[ordinals.Length];           
      Action<string[], string[], int> copyOperation = delegate(string[] s1, 
                                                               string[] s2, 
                                                               int pos) 
                                      { CopyStrings(s1, s2, pos); };
      copyOperation(ordinals, copiedOrdinals, 3);
      foreach (string ordinal in copiedOrdinals)
         Console.WriteLine(String.IsNullOrEmpty(ordinal) ? "<None>" : ordinal);
   }

   private static void CopyStrings(string[] source, string[] target, int startPos)
   {
      if (source.Length != target.Length) 
         throw new IndexOutOfRangeException("The source and target arrays must have the same number of elements.");

      for (int ctr = startPos; ctr <= source.Length - 1; ctr++)
         target[ctr] = String.Copy(source[ctr]);
   }
}

Vous pouvez également assigner une expression lambda Action<T1,T2,T3> à une instance de délégué, comme l’illustre l’exemple suivant.You can also assign a lambda expression to an Action<T1,T2,T3> delegate instance, as the following example illustrates. (Pour une présentation des expressions lambda, consultez expressions lambda.)(For an introduction to lambda expressions, see Lambda Expressions.)

using System;
                         
public class TestLambda
{
   public static void Main()
   {
      string[] ordinals = {"First", "Second", "Third", "Fourth", "Fifth"};
      string[] copiedOrdinals = new string[ordinals.Length];           
      Action<string[], string[], int> copyOperation = (s1, s2, pos) =>
                                      CopyStrings(s1, s2, pos); 
      copyOperation(ordinals, copiedOrdinals, 3);
      foreach (string ordinal in copiedOrdinals)
         Console.WriteLine(ordinal == string.Empty ? "<None>" : ordinal);
   }

   private static void CopyStrings(string[] source, string[] target, int startPos)
   {
      if (source.Length != target.Length) 
         throw new IndexOutOfRangeException("The source and target arrays must have the same number of elements.");

      for (int ctr = startPos; ctr <= source.Length - 1; ctr++)
         target[ctr] = String.Copy(source[ctr]);
   }
}
Public Module TestLambda
   Public Sub Main()
      Dim ordinals() As String = {"First", "Second", "Third", "Fourth", "Fifth"}
      Dim copiedOrdinals(ordinals.Length - 1) As String           
      Dim copyOperation As Action(Of String(), String(), Integer) = _
                           Sub(s1, s2, pos) CopyStrings(s1, s2, pos) 
      copyOperation(ordinals, copiedOrdinals, 3)
      For Each ordinal As String In copiedOrdinals
         If String.IsNullOrEmpty(ordinal) Then
            Console.WriteLine("<None>")
         Else
            Console.WriteLine(ordinal)
         End If      
      Next   
   End Sub

   Private Function CopyStrings(source() As String, target() As String, startPos As Integer) As Integer
      If source.Length <> target.Length Then 
         Throw New IndexOutOfRangeException("The source and target arrays must have the same number of elements.")
      End If
      
      For ctr As Integer = startPos To source.Length - 1 
         target(ctr) = String.Copy(source(ctr))
      Next
      Return source.Length - startPos 
   End Function
End Module
' The example displays the following output:
'       Fourth
'       Fifth

Méthodes d’extension

GetMethodInfo(Delegate)

Obtient un objet qui représente la méthode représentée par le délégué spécifié.Gets an object that represents the method represented by the specified delegate.

S’applique à

Voir aussi