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I don't see advantages of using events over delegates, other than being syntactical sugar. Perhaps I am misunderstanding, but it seems that event is just a placeholder for delegate.

Would you explain to me the differences and when to use which? What are the advantages and disadvantages? Our code is heavily rooted with events, and I want to get to the bottom of it.

When would you use delegates over events and vice versa? Please state your real world experience with both, say in the production code.

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Yeah wrapping my head around the differences was really hard, they look the same and seem to do the same at first look –  Robert Gould Feb 19 '09 at 1:29
1  
See also this question. –  Dimitri C. Sep 10 '10 at 6:58
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9 Answers 9

up vote 31 down vote accepted

From the technical standpoint, other answers have addressed the differences.

From a semantics perspective, events are actions raised by an object when certain conditions are met. For example, my Stock class has a property called Limit, and it raises an event when the stock prices reaches the Limit. This notification is done via an event. Whether anyone actually cares about this event and subscribes to it is beyond the concern of the owner class.

A delegate is a more generic term to describe a construct similar to a pointer in C/C++ terms. All delegates in .Net are multicast delegates. From a semantics perspective, they are generally used as a kind of input. In particular, they are a perfect way to implement the Strategy Pattern. For example, if I want to sort a List of objects, I can provide a Comparator strategy to the method to tell the implementation how to compare two objects.

I have used the two methods in production code. Tons of my data objects notify when certain properties are met. Most basic example, whenever a property changes, a PropertyChanged event is raised (see INotifyPropertyChanged interface). I have used delegates in code to provide different strategies of turning certain objects into string. This particular example was a glorified ToString() list of implementations for a particular object type to display it to users.

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Maybe I'm missing something, but isn't an Event Handler a type of delegate? –  Powerlord Feb 23 '09 at 19:07
    
My answer addresses the questions Edit #1 and #2; differences from a usage perspective. For the purposes of this discussion, they are different, even though, from a technical standpoint, you are correct. Take a look at the other answers for technical differences. –  Szymon Rozga Feb 24 '09 at 12:21
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"All delegates in .Net are multicast delegates"? Even delegates that return values? –  Qwertie Mar 6 '09 at 0:39
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Yes. For history, take a look at msdn.microsoft.com/en-us/magazine/cc301816.aspx. Check out: msdn.microsoft.com/en-us/library/system.delegate.aspx. If they return values, the value that is returned is the evalutation of last delegate in the chain. –  Szymon Rozga Mar 6 '09 at 3:02
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I found this page very helpful in understanding the difference.

http://blog.monstuff.com/archives/000040.html

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7  
+1 for that article. To sum up the main points of the article: 1. The "event" keyword allows for a delegate declaration in an interface. 2. Constrains the invocation to only the class that declared it. 3. Adds "get/set" accessors (actually called add/remove). 4. Forces the method signature to conform to "MyEvent(object source, EventArgs e)". –  Repo Man Dec 14 '09 at 14:35
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@Repo well, in C# the signature isn't forced in any way, so 4 doesn't really apply. It might be a guideline, but in no way is this a difference between events and delegates. –  romkyns Nov 4 '10 at 22:11
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The keyword event is a scope modifier for multicast delegates. Practical differences between this and just declaring a multicast delegate are as follows:

  • You can use event in an interface.
  • Invocation access to the multicast delegate is limited to the declaring class. The behaviour is as though the delegate were private for invocation. For the purposes of assignment, access is as specified by an explicit access modifier (eg public event).

As a matter of interest, you can apply + and - to multicast delegates, and this is the basis of the += and -= syntax for the combination assignment of delegates to events. These three snippets are equivalent:

B = new EventHandler(this.MethodB);
C = new EventHandler(this.MethodC);
A = B + C;

Sample two, illustrating both direct assignment and combination assignment.

B = new EventHandler(this.MethodB);
C = new EventHandler(this.MethodC);
A = B;
A += C;

Sample three: more familiar syntax. You are probably acquainted with the assignment of null to remove all handlers.

B = new EventHandler(this.MethodB);
C = new EventHandler(this.MethodC);
A = null;
A += B;
A += C;

Like properties, events have a full syntax that no-one ever uses. This:

class myExample 
{
  internal EventHandler eh;

  public event EventHandler OnSubmit 
  { 
    add 
    {
      eh = Delegate.Combine(eh, value) as EventHandler;
    }
    remove
    {
      eh = Delegate.Remove(eh, value) as EventHandler;
    }
  }

  ...
}

...does exactly the same as this:

class myExample 
{
  public event EventHandler OnSubmit;
}

The add and remove methods are more conspicuous in the rather stilted syntax that VB.NET uses (no operator overloads).

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+ for "Invocation access to the multicast delegate is limited to the declaring class"- that to me is the key difference point between delegates and events. –  RichardOD Nov 15 '09 at 21:30
    
Another important difference (mentioned by itowlson below) is that one can't unsubscribe all event handlers by assigning to an event, but they could do that with a delegate. (By the way, yours was the most useful answer to me of all these). –  romkyns Oct 21 '10 at 21:21
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As handy as Google and stackoverflow might be, all this and more is available in mind-numbing detail in the C# language spec, publicly available at no charge from Microsoft. I know that on the face of it, god created the manual and Jon Skeet swallowed it, but there are other copies :) –  Peter Wone Jun 28 '11 at 4:03
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Events are syntactical sugar. They are delicious. When I see an event, I know what to do. When I see a delegate, I'm not so sure.

Combining events with interfaces (more sugar) makes for a mouth watering snack. Delegates and pure virtual abstract classes are much less appetizing.

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that's how I see it too. I want deeper and more sweet explanation :) –  Sasha Feb 19 '09 at 1:38
2  
Too much sugar makes one fat, however... =P –  Erik Forbes Mar 5 '09 at 21:49
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Edit#1 When would you use delegates over events and vs.versa? Please state your real world experience with both, say in the production code.

When I design my own APIs, I define delegates which are passed as parameters to methods, or to the constructors of classes:

  • So that a method can implement a simple 'template method' pattern (as e.g. the Predicate and Action delegates are passed to the .Net generic collection classes)
  • Or so that the class can do a 'callback' (typically a callback to a method of the class which created it).

These delegates are generally non-optional at run-time (i.e. mustn't be null).

I tend not to use events; but where I do use events, I use them for optionally signalling events to zero, one, or more clients that might be interested, i.e. when it makes sense that a class (e.g. the System.Windows.Form class) should exist and run whether or not any client has added an event handler to its event (e.g. the form's 'mouse down' event exists, but it's optional whether any external client is interested in installing an event handler onto that event).

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Although events are typically implemented with multicast delegates, there is no requirement that they be used in such fashion. If a class exposes event, that means the class exposes two methods. Their meanings are, in essence:

  1. Here's a delegate. Please invoke it when something interesting happens.
  2. Here's a delegate. You should destroy all reference to it as soon as convenient (and no longer call it).

The most common way for a class to handle an event it exposes is to define a multicast delegate, and add/remove any delegates that get passed to the above methods but there is no requirement that they work that way. Unfortunately, the event architecture fails to do some things that would have made alternative approaches much cleaner (e.g. have the subscription method return a MethodInvoker, which would be kept by the subscriber; to unsubscribe an event, simply invoke the returned method) so multicast delegates are by far the most common approach.

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Events are marked as such in the metadata. This allows things like the Windows Forms or ASP.NET designers to distinguish events from mere properties of delegate type, and provide appropriate support for them (specifically showing them on the Events tab of the Properties window).

Another difference from a property of delegate type is that users can only add and remove event handlers, whereas with a property of delegate type they can set the value:

someObj.SomeCallback = MyCallback;  // okay, replaces any existing callback
someObj.SomeEvent = MyHandler;  // not okay, must use += instead

This helps to isolate event subscribers: I can add my handler to an event, and you can add your handler to the same event, and you won't accidentally overwrite my handler.

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Although I've got no technical reasons for it, I use events in UI style code, in other words, in the higher levels of the code, and use delegates for logic that lays deeper in the code. As I say you could use either, but I find this use pattern to be logically sound, if nothing else, it helps document the types of callbacks and their hierarchy too.


Edit: I think the difference in usage patterns I have would be that, I find it perfectly acceptable to ignore events, they are hooks/stubs, if you need to know about the event, listen to them, if you don't care about the event just ignore it. That's why I use them for UI, kindof Javascript/Browser event style. However when I have a delegate, I expect REALLY expect someone to handle the delegate's task, and throw an exception if not handled.

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Would you elaborate on that as I also make use of evens in UI? A good example would be suffice....thanks –  Sasha Feb 19 '09 at 14:33
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to understand the differences you can look at this 2 examples

Exemple with Delegates (Action in this case that is a kind of delegate that doen't return value)

public class Animal
{
    public Action Run {get; set;}

    public void RaiseEvent()
    {
        if (Run != null)
        {
            Run();
        }
    }
}

to use the delegate you should do something like this

Animale animal= new Animal();
animal.Run += () => Console.WriteLine("I'm running");
animal.Run += () => Console.WriteLine("I'm still running") ;
animal.RaiseEvent();

this code works well but you could have some weak spots.

For example if I write this

animal.Run += () => Console.WriteLine("I'm running");
animal.Run += () => Console.WriteLine("I'm still running");
animal.Run = () => Console.WriteLine("I'm sleeping") ;

with the last line of code I had override the previous behaviors just with one missing + (I have used + instead of +=)

Another weak spot is that every class that use your Animal class can raise RaiseEvent just calling it animal.RaiseEvent().

To avoid this weak spots you can use events in c#.

Your Animal class will change in this way

public class ArgsSpecial :EventArgs
   {
        public ArgsSpecial (string val)
        {
            Operation=val;
        }

        public string Operation {get; set;}
   } 



 public class Animal
    {
       public event EventHandler<ArgsSpecial> Run = delegate{} //empty delegate. In this way you are sure that value is always != null because no one outside of the class can change it

       public void RaiseEvent()
       {  
          Run(this, new ArgsSpecial("Run faster"));
       }
    }

to call events

 Animale animal= new Animal();
 animal.Run += (sender, e) => Console.WriteLine("I'm running. My value is {0}", e.Operation);
 animal.RaiseEvent();

Differences:

  1. You aren't using a public property but a public field (with events the compiler protect your fields from unwanted access)
  2. Events can't directly be assigned. In this case you can't do the previous error that I have showed with overriding the behavior.
  3. No one outside of your class can raise the event.
  4. Events can be included in an interface declaration, whereas a field cannot

notes

EventHandler is declared as the following delegate:

public delegate void EventHandler (object sender, EventArgs e)

it takes a sender (of Object type) and event arguments. The sender is null if it comes from static methods.

You can use also EventHAndler instead this example that use EventHandler<ArgsSpecial>

refer here for documentation about EventHandler

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