An event is a notification sent by an object to signal the occurrence of an action. Events in .NET follow the observer design pattern.
The class who raises events is called Publisher, and the class who receives the notification is called Subscriber. There can be multiple subscribers of a single event. Typically, a publisher raises an event when some action occurred. The subscribers, who are interested in getting a notification when an action occurred, should register with an event and handle it.
In C#, an event is an encapsulated delegate. It is dependent on the delegate. The delegate defines the signature for the event handler method of the subscriber class.
The following figure illustrates the event in C#.
Declare an Event
An event can be declared in two steps:
- Declare a delegate.
- Declare a variable of the delegate with
event
keyword.
The following example shows how to declare an event in publisher class.Example: Declaring an Event
public delegate void Notify(); // delegate
public class ProcessBusinessLogic
{
public event Notify ProcessCompleted; // event
}
In the above example, we declared a delegate Notify
and then declared an event ProcessCompleted
of delegate type Notify
using “event” keyword in the ProcessBusinessLogic
class. Thus, the ProcessBusinessLogic
class is called the publisher. The Notify
delegate specifies the signature for the ProcessCompleted
event handler. It specifies that the event handler method in subscriber class must have a void return type and no parameters.
Now, let’s see how to raise the ProcessCompleted
event. Consider the following implementation.Example: Raising an Event
public delegate void Notify(); // delegate
public class ProcessBusinessLogic
{
public event Notify ProcessCompleted; // event
public void StartProcess()
{
Console.WriteLine("Process Started!");
// some code here..
OnProcessCompleted();
}
protected virtual void OnProcessCompleted() //protected virtual method
{
//if ProcessCompleted is not null then call delegate
ProcessCompleted?.Invoke();
}
}
Above, the StartProcess()
method calls the method onProcessCompleted()
at the end, which raises an event. Typically, to raise an event, protected and virtual method should be defined with the name On<EventName>
. Protected and virtual enable derived classes to override the logic for raising the event. However, A derived class should always call the On<EventName>
method of the base class to ensure that registered delegates receive the event.
The OnProcessCompleted()
method invokes the delegate using ProcessCompleted?.Invoke();
. This will call all the event handler methods registered with the ProcessCompleted
event.
The subscriber class must register to ProcessCompleted
event and handle it with the method whose signature matches Notify
delegate, as shown below.
Example: Consume an Event
class Program
{
public static void Main()
{
ProcessBusinessLogic bl = new ProcessBusinessLogic();
bl.ProcessCompleted += bl_ProcessCompleted; // register with an event
bl.StartProcess();
}
// event handler
public static void bl_ProcessCompleted()
{
Console.WriteLine("Process Completed!");
}
}
Above, the Program
class is a subscriber of the ProcessCompleted
event. It registers with the event using += operator. Remember, this is the same way we add methods in the invocation list of multicast delegate. The bl_ProcessCompleted()
method handles the event because it matches the signature of the Notify
delegate.
Built-in EventHandler Delegate
.NET Framework includes built-in delegate types EventHandler and EventHandler<TEventArgs> for the most common events. Typically, any event should include two parameters: the source of the event and event data. Use the EventHandler
delegate for all events that do not include event data. Use EventHandler<TEventArgs> delegate for events that include data to be sent to handlers.
The example shown above can use EventHandler
delegate without declaring a custom Notify
delegate, as shown below.Example: EventHandler
class Program
{
public static void Main()
{
ProcessBusinessLogic bl = new ProcessBusinessLogic();
bl.ProcessCompleted += bl_ProcessCompleted; // register with an event
bl.StartProcess();
}
// event handler
public static void bl_ProcessCompleted(object sender, EventArgs e)
{
Console.WriteLine("Process Completed!");
}
}
public class ProcessBusinessLogic
{
// declaring an event using built-in EventHandler
public event EventHandler ProcessCompleted;
public void StartProcess()
{
Console.WriteLine("Process Started!");
// some code here..
OnProcessCompleted(EventArgs.Empty); //No event data
}
protected virtual void OnProcessCompleted(EventArgs e)
{
ProcessCompleted?.Invoke(this, e);
}
}
In the above example, the event handler bl_ProcessCompleted()
method includes two parameters that match with EventHandler delegate. Also, passing this
as a sender and EventArgs.Empty
, when we raise an event using Invoke()
in the OnProcessCompleted()
method. Because we don’t need any data for our event, it just notifies subscribers about the completion of the process, and so we passed EventArgs.Empty
.
Passing an Event Data
Most events send some data to the subscribers. The EventArgs class is the base class for all the event data classes. .NET includes many built-in event data classes such as SerialDataReceivedEventArgs. It follows a naming pattern of ending all event data classes with EventArgs. You can create your custom class for event data by deriving EventArgs class.
Use EventHandler<TEventArgs> to pass data to the handler, as shown below.Example: Passing Event Data
class Program
{
public static void Main()
{
ProcessBusinessLogic bl = new ProcessBusinessLogic();
bl.ProcessCompleted += bl_ProcessCompleted; // register with an event
bl.StartProcess();
}
// event handler
public static void bl_ProcessCompleted(object sender, bool IsSuccessful)
{
Console.WriteLine("Process " + (IsSuccessful? "Completed Successfully": "failed"));
}
}
public class ProcessBusinessLogic
{
// declaring an event using built-in EventHandler
public event EventHandler<bool> ProcessCompleted;
public void StartProcess()
{
try
{
Console.WriteLine("Process Started!");
// some code here..
OnProcessCompleted(true);
}
catch(Exception ex)
{
OnProcessCompleted(false);
}
}
protected virtual void OnProcessCompleted(bool IsSuccessful)
{
ProcessCompleted?.Invoke(this, IsSuccessful);
}
}
In the above example, we are passing a single boolean value to the handlers that indicate whether the process completed successfully or not.
If you want to pass more than one value as event data, then create a class deriving from the EventArgs base class, as shown below.Example: Custom EventArgs Class
class ProcessEventArgs : EventArgs
{
public bool IsSuccessful { get; set; }
public DateTime CompletionTime { get; set; }
}
The following example shows how to pass custom ProcessEventArgs
class to the handlers.Example: Passing Custom EventArgs
class Program
{
public static void Main()
{
ProcessBusinessLogic bl = new ProcessBusinessLogic();
bl.ProcessCompleted += bl_ProcessCompleted; // register with an event
bl.StartProcess();
}
// event handler
public static void bl_ProcessCompleted(object sender, ProcessEventArgs e)
{
Console.WriteLine("Process " + (e.IsSuccessful? "Completed Successfully": "failed"));
Console.WriteLine("Completion Time: " + e.CompletionTime.ToLongDateString());
}
}
public class ProcessBusinessLogic
{
// declaring an event using built-in EventHandler
public event EventHandler<ProcessEventArgs> ProcessCompleted;
public void StartProcess()
{
var data = new ProcessEventArgs();
try
{
Console.WriteLine("Process Started!");
// some code here..
data.IsSuccessful = true;
data.CompletionTime = DateTime.Now;
OnProcessCompleted(data);
}
catch(Exception ex)
{
data.IsSuccessful = false;
data.CompletionTime = DateTime.Now;
OnProcessCompleted(data);
}
}
protected virtual void OnProcessCompleted(ProcessEventArgs e)
{
ProcessCompleted?.Invoke(this, e);
}
}
Thus, you can create, raise, register, and handle events in C#.
Learn What is the difference between delegate and event in C#?. Points to Remember :
- An event is a wrapper around a delegate. It depends on the delegate.
- Use “event” keyword with delegate type variable to declare an event.
- Use built-in delegate EventHandler or EventHandler<TEventArgs> for common events.
- The publisher class raises an event, and the subscriber class registers for an event and provides the event-handler method.
- Name the method which raises an event prefixed with “On” with the event name.
- The signature of the handler method must match the delegate signature.
- Register with an event using the += operator. Unsubscribe it using the -= operator. Cannot use the = operator.
- Pass event data using EventHandler<TEventArgs>.
- Derive EventArgs base class to create custom event data class.
- Events can be declared static, virtual, sealed, and abstract.
- An Interface can include the event as a member.
- Event handlers are invoked synchronously if there are multiple subscribers.