EventInfo.AddEventHandler(Object, Delegate) Método

Definición

Espacio de nombres:

System.Reflection

Ensamblado:

System.Runtime.dll

Source:

EventInfo.cs

Agrega un controlador de eventos a un origen de evento.

public:
 virtual void AddEventHandler(System::Object ^ target, Delegate ^ handler);

public virtual void AddEventHandler (object? target, Delegate? handler);

abstract member AddEventHandler : obj * Delegate -> unit
override this.AddEventHandler : obj * Delegate -> unit

Public Overridable Sub AddEventHandler (target As Object, handler As Delegate)

Parámetros

target

Object

Origen del evento.

handler

Delegate

Encapsula el método o métodos que se invocarán cuando el parámetro de destino provoque el evento.

Excepciones

InvalidOperationException

El evento no posee un descriptor de acceso add público.

ArgumentException

No se puede usar el controlador que se pasó.

MethodAccessException

El autor de la llamada no tiene permiso para acceder al miembro.

Nota: En .NET para aplicaciones de la Tienda Windows o la biblioteca de clases portable, capture la excepción de clase base, MemberAccessException, en su lugar.

TargetException

El parámetro target es null y el evento no es estático.

o bien

EventInfo no se ha declarado en el destino.

Nota: En .NET para aplicaciones de la Tienda Windows o la biblioteca de clases portable, capture Exception en su lugar.

Ejemplos

En el ejemplo siguiente se crea una instancia de la System.Timers.Timer clase , se crea un controlador de eventos mediante un ensamblado dinámico y se enlaza el controlador de eventos dinámicos. Todas las acciones se realizan mediante el enlace en tiempo de compilación.

La Timer instancia se almacena en una variable de tipo Objecty todo el código que tiene Timer acceso a lo hace en tiempo de ejecución. En el ejemplo se usa el Type.GetEvent método para obtener el Elapsed evento y la EventHandlerType propiedad para obtener el tipo de delegado del evento.

En el ejemplo se obtiene un MethodInfo para el Invoke método del tipo delegado y se obtiene la firma del delegado de la MethodInfo instancia de . A continuación, el ejemplo crea un ensamblado dinámico con un módulo que contiene un único tipo denominado Handler y proporciona al tipo un static método (Shared método en Visual Basic) denominado DynamicHandler que controla el evento.

Una vez creado el tipo dinámico, el ejemplo obtiene un MethodInfo para el método finalizado y lo usa para crear una instancia de delegado. Esta instancia se pasa al AddEventHandler método para enlazar el evento. A continuación, el programa se detiene para permitir que se genere el evento.

using System;
using System.Reflection;
using System.Reflection.Emit;

public class Example
{
    private static object? timer;

    public static void Main()
    {
        // Get the Timer type.
        Type t = typeof(System.Timers.Timer);
        // Create an instance of the Timer type.
        timer = Activator.CreateInstance(t);

        // Use reflection to get the Elapsed event.
        EventInfo? eInfo = t.GetEvent("Elapsed");

        // In order to create a method to handle the Elapsed event,
        // it is necessary to know the signature of the delegate
        // used to raise the event. Reflection.Emit can then be
        // used to construct a dynamic class with a static method
        // that has the correct signature.

        // Get the event handler type of the Elapsed event. This is
        // a delegate type, so it has an Invoke method that has
        // the same signature as the delegate. The following code
        // creates an array of Type objects that represent the
        // parameter types of the Invoke method.
        //
        Type? handlerType = eInfo?.EventHandlerType;
        MethodInfo? invokeMethod = handlerType?.GetMethod("Invoke");
        ParameterInfo[]? parms = invokeMethod?.GetParameters();
        Type[] parmTypes = new Type[parms?.Length ?? 0];
        for (int i = 0; i < parms?.Length; i++)
        {
            parmTypes[i] = parms[i].ParameterType;
        }

        // Use Reflection.Emit to create a dynamic assembly that
        // will be run but not saved. An assembly must have at
        // least one module, which in this case contains a single
        // type. The only purpose of this type is to contain the
        // event handler method. (You can use also dynamic methods,
        // which are simpler because there is no need to create an
        // assembly, module, or type.)
        //
        AssemblyName aName = new AssemblyName();
        aName.Name = "DynamicTypes";
        AssemblyBuilder ab = AssemblyBuilder.DefineDynamicAssembly(aName, AssemblyBuilderAccess.Run);
        ModuleBuilder mb = ab.DefineDynamicModule(aName.Name);
        TypeBuilder tb = mb.DefineType("Handler", TypeAttributes.Class | TypeAttributes.Public);

        // Create the method that will handle the event. The name
        // is not important. The method is static, because there is
        // no reason to create an instance of the dynamic type.
        //
        // The parameter types and return type of the method are
        // the same as those of the delegate's Invoke method,
        // captured earlier.
        MethodBuilder handler = tb.DefineMethod("DynamicHandler",
            MethodAttributes.Public | MethodAttributes.Static,
            invokeMethod?.ReturnType, parmTypes);

        // Generate code to handle the event. In this case, the
        // handler simply prints a text string to the console.
        //
        ILGenerator il = handler.GetILGenerator();
        il.EmitWriteLine("Timer's Elapsed event is raised.");
        il.Emit(OpCodes.Ret);

        // CreateType must be called before the Handler type can
        // be used. In order to create the delegate that will
        // handle the event, a MethodInfo from the finished type
        // is required.
        Type? finished = tb.CreateType();
        MethodInfo? eventHandler = finished?.GetMethod("DynamicHandler");

        // Use the MethodInfo to create a delegate of the correct
        // type, and call the AddEventHandler method to hook up
        // the event.
        if (handlerType is not null && eventHandler is not null)
        {
            Delegate d = Delegate.CreateDelegate(handlerType, eventHandler);
            eInfo?.AddEventHandler(timer, d);
        }

        // Late-bound calls to the Interval and Enabled property
        // are required to enable the timer with a one-second
        // interval.
        t.InvokeMember("Interval", BindingFlags.SetProperty, null, timer, new Object[] { 1000 });
        t.InvokeMember("Enabled", BindingFlags.SetProperty, null, timer, new Object[] { true });

        Console.WriteLine("Press the Enter key to end the program.");
        Console.ReadLine();
    }
}
/* This example produces output similar to the following:

Press the Enter key to end the program.
Timer's Elapsed event is raised.
Timer's Elapsed event is raised.
Timer's Elapsed event is raised.
*/

Imports System.Reflection
Imports System.Reflection.Emit

Public Class Example

    Private Shared timer As Object
    
    Public Shared Sub Main() 
        ' Get the Timer type.
        Dim t As Type = GetType(System.Timers.Timer)
        ' Create an instance of the Timer type.
        timer = Activator.CreateInstance(t)
        
        ' Use reflection to get the Elapsed event.
        Dim eInfo As EventInfo = t.GetEvent("Elapsed")
        
        ' In order to create a method to handle the Elapsed event,
        ' it is necessary to know the signature of the delegate 
        ' used to raise the event. Reflection.Emit can then be
        ' used to construct a dynamic class with a static method
        ' that has the correct signature.
        '
        ' Get the event handler type of the Elapsed event. This is
        ' a delegate type, so it has an Invoke method that has
        ' the same signature as the delegate. The following code
        ' creates an array of Type objects that represent the 
        ' parameter types of the Invoke method.
        '
        Dim handlerType As Type = eInfo.EventHandlerType
        Dim invokeMethod As MethodInfo = handlerType.GetMethod("Invoke")
        Dim parms As ParameterInfo() = invokeMethod.GetParameters()
        '
        ' Note that in Visual Basic you must dimension the array one
        ' unit smaller than the source array in order to get an array
        ' of the same size. This is because Visual Basic adds an extra
        ' element to every array, for ease of use.
        '
        Dim parmTypes(parms.Length - 1) As Type
        Dim i As Integer
        For i = 0 To parms.Length - 1
            parmTypes(i) = parms(i).ParameterType
        Next i
        
        ' Use Reflection.Emit to create a dynamic assembly that
        ' will be run but not saved. An assembly must have at 
        ' least one module, which in this case contains a single
        ' type. The only purpose of this type is to contain the 
        ' event handler method. (You can alsso use dynamic methods, 
        ' which are simpler because there is no need to create an 
        ' assembly, module, or type.)
        Dim aName As New AssemblyName()
        aName.Name = "DynamicTypes"
        Dim ab As AssemblyBuilder = AssemblyBuilder.DefineDynamicAssembly(aName, AssemblyBuilderAccess.Run)
        Dim mb As ModuleBuilder = ab.DefineDynamicModule(aName.Name)
        Dim tb As TypeBuilder = mb.DefineType("Handler", TypeAttributes.Class Or TypeAttributes.Public)
        
        ' Create the method that will handle the event. The name
        ' is not important. The method is Shared ("static" in 
        ' reflection), because there is no reason to create an 
        ' instance of the dynamic type "Handler".
        '
        ' The parameter types and return type of the method are
        ' the same as those of the delegate's Invoke method, 
        ' captured earlier.
        Dim handler As MethodBuilder = tb.DefineMethod("DynamicHandler", MethodAttributes.Public Or MethodAttributes.Static, invokeMethod.ReturnType, parmTypes)
        
        ' Generate code to handle the event. In this case, the 
        ' handler simply prints a text string to the console.
        '
        Dim il As ILGenerator = handler.GetILGenerator()
        il.EmitWriteLine("Timer's Elapsed event is raised.")
        il.Emit(OpCodes.Ret)
        
        ' CreateType must be called before the Handler type can
        ' be used. In order to create the delegate that will
        ' handle the event, a MethodInfo from the finished type
        ' is required.
        Dim finished As Type = tb.CreateType()
        Dim eventHandler As MethodInfo = finished.GetMethod("DynamicHandler")
        
        ' Use the MethodInfo to create a delegate of the correct 
        ' type, and call the AddEventHandler method to hook up 
        ' the event.
        Dim d As [Delegate] = [Delegate].CreateDelegate(handlerType, eventHandler)
        eInfo.AddEventHandler(timer, d)
        
        ' Late-bound calls to the Interval and Enabled property 
        ' are required to enable the timer with a one-second
        ' interval.
        t.InvokeMember("Interval", BindingFlags.SetProperty, Nothing, timer, New [Object]() {1000})
        t.InvokeMember("Enabled", BindingFlags.SetProperty, Nothing, timer, New [Object]() {True})
        
        Console.WriteLine("Press the Enter key to end the program.")
        Console.ReadLine()
    
    End Sub 
End Class 
' This example produces output similar to the following:
'      Press the Enter key to end the program.
'      Timer's Elapsed event is raised.
'      Timer's Elapsed event is raised.
'      Timer's Elapsed event is raised.

Comentarios

Este método intenta agregar un delegado para sincronizar el evento en el objeto de destino.

Cada vez que el parámetro de destino genera el evento, se invoca el método o los métodos encapsulados por el controlador.

Puede usar el AddEventHandler método al cargar un tipo después de que el programa ya esté compilado, cuando no es posible usar la sintaxis de C# += o las palabras clave de Visual Basic WithEvents y Handles para enlazar el evento.

Consulte también

• Object
• Delegate
• EventHandler