Events and Delegates
An event is a message sent by an object to signal the occurrence of an action. The action could be caused by user interaction, such as a mouse click, or it could be triggered by some other program logic. The object that raises the event is called the event sender. The object that captures the event and responds to it is called the event receiver.
In event communication, the event sender class does not know which object or method will receive (handle) the events it raises. What is needed is an intermediary (or pointer-like mechanism) between the source and the receiver. The .NET Framework defines a special type (Delegate) that provides the functionality of a function pointer.
A delegate is a class that can hold a reference to a method. Unlike other classes, a delegate class has a signature, and it can hold references only to methods that match its signature. A delegate is thus equivalent to a type-safe function pointer or a callback. While delegates have other uses, the discussion here focuses on the event handling functionality of delegates. A delegate declaration is sufficient to define a delegate class. The declaration supplies the signature of the delegate, and the common language runtime provides the implementation. The following example shows an event delegate declaration.
Public Delegate Sub AlarmEventHandler(sender As Object, e As AlarmEventArgs)
public delegate void AlarmEventHandler(object sender, AlarmEventArgs e);
public delegate void AlarmEventHandler(Object^ sender, AlarmEventArgs^ e);
The syntax is similar to that of a method declaration; however, the delegate keyword informs the compiler that AlarmEventHandler is a delegate type. By convention, event delegates in the .NET Framework have two parameters, the source that raised the event and the data for the event.
An instance of the AlarmEventHandler delegate can bind to any method that matches its signature, such as the AlarmRang method of the WakeMeUp class shown in the following example.
Public Class WakeMeUp
' AlarmRang has the same signature as AlarmEventHandler.
Friend Sub AlarmRang(sender As Object, e As AlarmEventArgs)
'...
End Sub
'...
End Class
public class WakeMeUp
{
// AlarmRang has the same signature as AlarmEventHandler.
internal void AlarmRang(object sender, AlarmEventArgs e)
{
//...
}
//...
}
public ref class WakeMeUp
{
internal:
// AlarmRang has the same signature as AlarmEventHandler.
void AlarmRang(Object^ sender, AlarmEventArgs^ e)
{
//...
}
//...
};
Custom event delegates are needed only when an event generates event data. Many events, including some user-interface events such as mouse clicks, do not generate event data. In such situations, the event delegate provided in the class library for the no-data event, System.EventHandler, is adequate. Its declaration follows.
Delegate Sub EventHandler(sender As Object, e As EventArgs)
delegate void EventHandler(object sender, EventArgs e);
delegate void EventtHandler(Object^ sender, EventArgs^ e);
Event delegates are multicast, which means that they can hold references to more than one event handling method. For details, see Delegate. Delegates allow for flexibility and fine-grain control in event handling. A delegate acts as an event dispatcher for the class that raises the event by maintaining a list of registered event handlers for the event.
For details on using delegates to provide event functionality in your component or control, see Raising an Event.
For an overview of consuming events in your applications, see Consuming Events.
See Also
Tasks
How to: Raise and Consume Events
How to: Connect Event Handler Methods to Events