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The purpose of this is to synchronize two collections, sender-side & receiver-side, containing a graph edge, so that when something happens (remove edge, add edge, etc) both sides are notified.

To do so, (back-)references to the collections were included in the element in collections

class EdgeBase {
    EdgeBase(ICollection<EdgeBase> rCol, ICollection<EdgeBase> sCol)     
    { RecvCol=rCol;  SendCol=sCol; }      
    ICollection<EdgeBase> RecvCol;      
    ICollection<EdgeBase> SendCol;       
    public virtual void Disconnect() // Synchronized deletion         
    { RecvCol.Remove(this);  SendCol.Remove(this); }                 
}         
class Edge : EdgeBase {       
    Edge(ICollection<EdgeBase> rCol, ICollection<EdgeBase> sCol)     
    : base(rCol, sCol) {}
    int Weight;     
}      

Deletion (Disconnect) was ok , but the problem occurred during creation:

HashSet<Edge> receiverSet, senderSet;
var edge = new Edge(receiverSet, senderSet); // Can't convert Edge to EdgeBase!

Although Edge is derived from EdgeBase, this is illegal. (The problem is Edge part, not HashSet<> part.)

After writing hundreds of lines I found out ICollection<> is not covariant as is IEnumerable<>.

What could be a workaround?

EDIT:

If I wrote the code above while not breaking the C#'s covariance rules it would have been like this:

public class EdgeBase<T, U>
    where T : ICollection<U<T>> // illegal
    where U : EdgeBase<T, U>    // legal, but introduces self-reference
{
    public EdgeBase(T recvCol, T sendCol) {...}
    protected T ReceiverCollection;
    protected T SenderCollection;
    public virtual void Disconnect() {...}
}

But this is illegal; 'U' can't be used with formal parameter T.

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1  
receiverSet.Cast<EdgeBase>() –  Daniel Jun 8 '13 at 12:32
    
The cause: question-about-c-sharp-covariance which you acknowledge. The solution: why-can-i-not-assign-a-list-of-concrete-types-to-a-list-of-that-concrete's-inte‌​rface. The second part is quite frequently asked on SO. –  nawfal Jun 10 '13 at 17:17
    
The answer posted on the link above suggests using generic method but can it be used for constructors? –  Jeffrey Goines Jun 12 '13 at 13:52
    
@JeffreyGoines it is possible. I will make a generic answer :) –  nawfal Jun 12 '13 at 17:57

2 Answers 2

up vote 2 down vote accepted

Eric Lippert said that C# will only support type-safe covariance and contravariance. If you would think of it, making ICollection covariant is not type-safe.

Let's say you have

ICollection<Dog> dogList = new List<Dog>();
ICollection<Mammal> mammalList = dogList; //illegal but for the sake of showing, do it
mammalList.Add(new Cat());

Your mammalList (which is actually a dogList) would now then contain a Cat.

IEnumerable is covariant because you cannot Add to it... you can only read from it -- which, in turn, preserves type-safety.

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2  
And going the other way, an ICollection<Mammal> might contain a Cat, which means it cannot be safely converted to ICollection<Dog>. So it cannot be safely made contravariant either. –  Eric Lippert Jun 11 '13 at 6:35
    
It's worthwhile to note that while it would have been awkward for IList<T> to implement IList in type-safe fashion (it would have the non-generic interface to provide read-only access, but having the two interfaces report conflicting values for IsReadOnly would have been confusing), there would have been no such problem with ICollection, and I consider it unfortunate that ICollection<T> doesn't inherit ICollection, since it means there's no nice way for code which expects an IEnumerable<Animal> but is given an IList<Cat> to determine how many items are in it. –  supercat Jun 11 '13 at 16:00
    
The only member of non-generic ICollection which would be even slightly dubious from a type-safety standpoint would have been CopyTo, and while the generic ICollection<T>.CopyTo can offer better performance when using value types, it's no more type-safe than the non-generic version. A collection of Cat could be successfully copied to an Object[], Animal[], or Cat[], even if only the non-generic ICollection<T> would accept the first two. Both methods would allow an attempt to copy to a SiameseCat[]; such an attempt's success or failure could depend upon collection contents. –  supercat Jun 11 '13 at 16:10
    
@supercat Really, there should be an IEnumerableWithCount<T> or otherwise ReadOnlyCollection<T> that didn't implement Add. –  Alxandr May 21 at 11:20
    
@Alxandr: IMHO, what would have been best would have been for IEnumerable to have a large number of methods, but include within the type loader a facility such that if a class declares itself as implementing an interface but doesn't declare all the members, the type loader would generate stubs that chain to methods of a static class affiliated with the interface. Almost any implementation of Enumerable could implement e.g. a Snapshot method which would return an IEnumerable<T> that would, if not modified by a recipient, would always return the same sequence... –  supercat May 22 at 18:47

You're messing with type safety basically. Your backing collection is an ICollection<EdgeBase> (which means you can add any EdgeBase into it) but what you're passing a very specific type, HashSet<Edge>. How would you add (or remove) AnotherEdgeBaseDerived into HashSet<Edge>? If that is the case then this should be possible:

edge.Add(anotherEdgeBaseDerived); // which is weird, and rightly not compilable

If you perform a cast yourself and pass a separate list then that's compilable. Something like:

HashSet<Edge> receiverSet, senderSet;
var edge = new Edge(receiverSet.Cast<EdgeBase>().ToList(), 
                    senderSet.Cast<EdgeBase>().ToList()); 

which means your receiverSet and senderSet are now out of sync with base list in Edge. You can either have type safety or sync (same reference), you cant have both.

I worry if there exist no good solution to this, but for a good reason. Either pass HashSet<EdgeBase> to Edge constructor (better) or let EdgeBase collections be ICollection<Edge> (which seems very odd to do).

Or, the best you can have given the design constraints imo is generic

class EdgeBase<T> where T : EdgeBase<T>
{

}

class Edge : EdgeBase<Edge>
{
    public Edge(ICollection<Edge> rCol, ICollection<Edge> sCol) : base(rCol, sCol)
    {

    }
}

Now you can call as usual:

HashSet<Edge> receiverSet = new HashSet<Edge>(), senderSet = new HashSet<Edge>();
var edge = new Edge(receiverSet, senderSet);

To me the fundamental problem is the fuzzy and smelly design. An EdgeBase instance holding a lot of similar instances, including more derived ones? Why not EdgeBase, Edge and EdgeCollection separately? But you know your design better.

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