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I have a C# class that implements 2 IEnumerable interfaces. How can I access either interface from IronPython?

My class:

public class MyClass : IEnumerable<TypeA>, IEnumerable<TypeB>
    IEnumerator<TypeA> IEnumerable<TypeA>.GetEnumerator()
        return _lstTypeA.GetEnumerator();

    IEnumerator<TypeB> IEnumerable<TypeB>.GetEnumerator()
        return _lstTypeB.GetEnumerator();

I tried the following in Python, but although it runs without errors it does not return any elements from the IEnumerable interface:

x = MyClass()
xA = clr.Convert(x, IEnumerable[TypeA])
for y in xA: print y
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What a badly designed class... Try to convince the author that he should fix it. –  CodesInChaos May 21 '11 at 12:01
@CodeInChaos: I am the author. Please explain why this is badly designed, so I can improve it. –  Han May 21 '11 at 13:18
I guess he meant that it's not a good design when a class implements two different IEnumerable<T>, because to get the implicitly-implemented GetEnumerator() you need a cast (and BTW it's not clear why a class represents a collection of 2 different elements...). It's probably better to expose one of the two IEnumerable<T>s (the less important, or both, it depends...) as a property of that class. –  digEmAll May 21 '11 at 14:21

2 Answers 2

up vote 3 down vote accepted

As explained here you have to call methods and properties like using reflection (that is actually what it does under the hood).

In your case you should do:

x = MyClass()
enumerator = IEnumerable[TypeA].GetEnumerator(x)

then you can loop over enumerator:

for y in enumerator:
   print y
share|improve this answer
Obvious once you see it... Works perfectly. Thanks a lot. –  Han May 21 '11 at 13:15

I don't like your class design. In particular that you implement two different versions of IEnumerable<T> that return different members. Two versions that return the same members is slightly better, but I still don't like that much.

  1. Implementing IEnumerable so it's consistent with both IEnumerable<T>s isn't possible here. In particular that breaks the OfType and Cast linq methods.
  2. You get overload resolution problems almost everywhere. Methods like Select<T>(this IEnumerable<T> ...) don't know which IEnumerable to take.
  3. You can't use foreach on MyClass
  4. If both TypeA and TypeB are reference types the variance of IEnumerable<out T> comes back to bite you. Since both of them offer IEnumerable<T'> for all their common ancestors.
  5. It doesn't interact well with dynamically types languages
  6. A class being a two different collections at the same time rarely makes sense. It usually indicates that something went wrong in the mapping from concepts to classes.
  7. It's confusing and hard to understand. My intuition tells me it's evil and that I should burn it with fire :P

And Probably several more issues I didn't think of yet.

The work around is simple and clean: Have two separate enumerable properties.

public class MyClass
  public IEnumerable<TypeA> TypeAs{get{_lstTypeA.Select(x=>x)}};
  public IEnumerable<TypeB> TypeBs{get{_lstTypeB.Select(x=>x)}};
share|improve this answer
Ok, I see why MyClass can be considered evil. Your suggestion to use two enumerable properties is a welcome improvement. Thank you! –  Han May 21 '11 at 14:52

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