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What are the differences between these two classes? Which is preferable?

class MulticastExample
{
    delegate void ME();

    ME me;

    public MulticastExample()
    {
        ME a = new ME(() => Console.WriteLine("A"));
        ME b = new ME(() => Console.WriteLine("B"));

        me = a + b;
    }

    public void Run()
    {
        me();
    }
}

-

class ListExample
{
    delegate void LE();

    List<LE> le = new List<LE>();

    public ListExample()
    {
        LE a = new LE(() => Console.WriteLine("A"));
        LE b = new LE(() => Console.WriteLine("B"));

        le.Add(a);
        le.Add(b);
    }

    public void Run()
    {
        foreach (var x in le)
        {
            x();
        }
    }
}
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2 Answers 2

up vote 1 down vote accepted

With MulticastExample,a single call to me would call all the methods subscribed to it.So a and b would be called through a single call to me

With ListExample you would have to call each of the delegates individually.So you would have to individually invoke a and b which you are doing in the foreach loop


If a and b are going to refer to a single method of the same signature then ListExample is redundant.You should use MulticastExample.

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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 System.Delegate.

When you assign to a and 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. c becomes null). So remember a null check before you invoke with: c();

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 class 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 +.

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Actually, the List<LE> approach works fine if multicast delegates are passed into the list, while the multicast approach can fall flat. Assuming XY is the combination of X and Y, adding Y to a multicast delegate followed by XY, and then subtracting Y followed by XY, will leave X subscribed. Using a List<LE>, by contrast, the attempt to subtract Y would correctly remove the Y that was added as a standalone item, rather than the one which is within XY. –  supercat Dec 13 '12 at 19:51
    
@supercat Confirmed. It will leave a Y and an X on the internal invocation list of System.Delegate. –  Jeppe Stig Nielsen Dec 14 '12 at 11:35
    
I wonder if there are any significant structural advantages to the way MulticastDelegate is implemented? If I were designing the system, Delegate would have two fields, and Delegate.Combine would create a new delegate whose Target was an array of the proper delegate type, and whose Method was a static method that took such an array as a parameter. –  supercat Feb 19 '13 at 22:44
    
Methods like Delegate.Combine could check whether either or both of the delegates being combined had a Method which was the "run-all" method and--if so--either create a new one whose array contained all the items in the original delegates, but methods that didn't want to worry about such details could assume Method and Target would suffice to define the delegate's behavior whether it was unicast or multicast. –  supercat Feb 19 '13 at 22:52

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