I have often wanted to create a list of objects where each object must implement a number of interfaces. For example, I'd like to do something similar to the following:

List<T> where T : IConvertible, IComparable _myList;

Another option I considered was to create a third interface that implements these two so that any object that implements these two interfaces inherently implements mine.

public interface IConvertibleAndComparable
    : IConvertible, IComparable { }

List<IConvertibleAndComparable> _myList;

With this I would be able to add any object that implements both IConvertible and IComparable, including double and int, as well as my own objects. Explicitly implementing IConvertibleAndComparable is not required since it does not add any new functionality beyond the interfaces in inherits.

I understand that the first snippet is illegal and the second, while legal, does not do what I want. Is it possible to achieve what I am trying to do? If not, would either of these be a candidate for a future C# feature?

(Note: This would be legitimate application for empty interfaces.)


In a more general sense, I'd like to perform one of the following:

private MyGenericClass<T> where T : IA, IB, ... _myClass;

where I can declare all of the restrictions on T that I need, or

public interface IMyCombinedInterface : IA, IB, ... {}
private MyGenericClass<IMyCombinedInterface> _myClass;

where any type that implements IA, IB, and ... inherently (or implicitly) implements IMyCombinedInterface (only when IMyCombinedInterface doesn't explicitly declare new functionality).

  • I have edited your title. Please see, "Should questions include “tags” in their titles?", where the consensus is "no, they should not". – John Saunders Oct 17 '12 at 15:16
  • @JohnSaunders I understand that, but why did you remove my "Thanks."? – gregsdennis Oct 17 '12 at 15:21
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    I don't think this is possible but that would be a nice feature indeed. Another scenario where this would be helpful: MVVM with its ObservableCollections. Currently one has to use the concrete ObservableCollection class when all you really want is an INotifyCollectionChanged and IList<T>. – Daniel Hilgarth Oct 17 '12 at 15:23
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    He is asking if it is possible, the C# feature comment is secondary to his question, not the question itself. – ctorx Oct 17 '12 at 15:24
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    @Servy: Well, not really. It wouldn't allow you to create an instance of a list to add float, double and a Person entity all into the same list, although all of those classes both implement IConvertible and IComparable. And that is what the OP is asking. – Daniel Hilgarth Oct 17 '12 at 15:39

You can, as a workaround, do a kind of superposition wrapper, and store it in the list. Look here for the idea.

To your example you could do:

public class Junction
    public IConvertible Convertible { get; private set; }
    public IComparable Comparable { get; private set; }
    private Junction() { }
    public static Junction Create<T>(T value) where T : IConvertible, IComparable
        return new Junction
            Convertible = value,
            Comparable = value

And then add Junctions to your list:

var l = new List<Junction>();
  • Interesting idea, but I agree with the OP on that question in that there is definitely "extra baggage". – gregsdennis Oct 17 '12 at 16:20
  • @gregsdennis: That's why it's a workaround. Now it's your prerogative to make a balanced choice between this or some other solution, taking all pros and cons into account... – Jordão Oct 17 '12 at 16:25
  • I'm marking this as the answer since it seems the most practical way of achieving the end goal given the current limitations. Taking this further, however, you'd have to create a new Junction-like type every time you wanted to combine two interfaces, so it can get quite messy. – gregsdennis Oct 18 '12 at 12:19
  • @gregsdennis: You could create a generic Junction. – Jordão Oct 18 '12 at 13:32

While working on another project, I had an idea for another workaround. While it may not quite work for the example I posted, it could work for the original intent of the question, which was to create a combination interface for IEnumerable<T> and INotifyCollectionChanged (as @DanielHilgarth pointed out). The workaround is as follows:

Create an empty interface which implements the combination of interfaces you need.

public interface INotifyingEnumerable<T> :

Create a new class which inherits from a class implementing both of these and implements the new interface.

public class MyObservableCollection<T> :

Now you can use the interface INotifyingEnumerable<T> as the property type, which using your implementation.

The reason this doesn't quite cover the original requirements, however, is that it doesn't allow ObservableCollection<T> to be directly assigned. The feature requested in the original post would allow this.

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