I think you should use the first example. Note that you can always get a list of the items in your "multicast" delegate by saying
me.GetInvocationList(). The type
MulticastExample.ME inherits this method from
When you assign to
b you don't have to use
new syntax. The same delegate is created by:
ME a = () => Console.WriteLine("A");
Note that each instance of
ME is immutable and has a fixed-length invocation list. This list is guaranteed to contain at least one item.
When you "add" or "subtract" (combine or remove) delegates, the original instances are unchanged (immutability) and a new instance is created.
If the result of a "subtraction" like:
ME c = b - a;
would give a zero-length multicast delegate, no new instance is created, and a
null reference is returned instead (i.e.
null). So remember a
null check before you invoke with:
If you choose to use
List<T> instead, one difference is (as you can probably tell by now) that a
List<> is mutable. Also note that it is your responsibility to check that no member of the
List<> is in itself multicast, since any delegate type in .NET allows invocation lists of more than one item.
Finally (but I guess you know that) a delegate type like
ME does not have to be nested inside some other type (in this case the
MulticastExample), but of course that's fine when you want the delegate type to be an "implementation detail" of the containing class.
If you plan to make your delegate type a generic type, don't make this type contravariant (or covariant which is less useful here) in any of its type parameters if you plan to combine with