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I am using a hierarchy of generic collection classes that derive from an abstract base class to store entity items that also derive from an abstract base class:

abstract class ItemBase { }

class MyItem : ItemBase
{
    public MyItem()
    {
    }
}


abstract class CollectionBase<T> : Collection<T> where T : ItemBase, new() { }

class MyCollection : CollectionBase<MyItem> { }

The objectives of this model are to enforce strict type discipline on the members of any class derived from CollectionBase<T> and to guarantee that these members have a default public constructor. Thus far it works.

Now I want to create a factory method that returns an instance of a class derived from CollectionBase<T>. I understand that the usual approach would be:

public CollectionBase<T> CreateCollection<T>();

... or maybe ...

public T Create CreateCollection<T>();

However, the problem is that the calling routine does not know what "T" is required. It is the factory method itself that must determine the specific type of collection to return. So I need a non-generic method signature that says "the return type will derive from CollectionBase<T>". I envisage something like this (if it were legal) ...

public CollectionBase<> CreateCollection();

I assume this is another of those thorny generic variance issues, but even after reading Eric Lippert's extensive explanation on the subject, I am still unclear whether what I am trying to do is likely to be feasible in C# 4.0, and whether there is a simple workaround in C# 3.0.

Thanks in advance for your ideas.

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This is a tricky problem. Rather than approaching the problem from the side of the provider, can you talk a bit about it from the perspective of the consumer? The consumer calls your method, they get back a collection of "something", and then what do they do with it? If they don't know what "something" is, how are they going to safely read or write the collection object they've been given? –  Eric Lippert Sep 20 '09 at 14:52
    
Thanks for your interest Eric. The consumer of this collection will only need to iterate over it and access its items using methods that are defined in their base class. It would almost be acceptable to define the collection class as a collection of "base class", except that this does not have the required type safety. –  Tim Coulter Sep 20 '09 at 17:01
    
Update: I have finally realized why this is presenting such a challenge. From the consumer perspective, it is quite acceptable to return Collection<ItemBase> but the factory method is creating this collection by deserializing JSON data, so it needs to choose a specific derived type to seed the deserialization process. And this created instance is then impossible to cast to Collection<ItemBase>. –  Tim Coulter Sep 20 '09 at 20:27
    
If you only need to read the collection on the consumer side then can you return IEnumerable<something> rather than a collection? The reason I ask is because we are making IE<T> covariant in T in the next release, which means that I think your scenario will work as you'd expect. Not much help now I know, but something to consider for the future. (See my blog articles on covariance and contravariance for details on this feature.) –  Eric Lippert Sep 21 '09 at 14:04
    
Thanks for the update Eric. I tried what you suggested on the C# 4.0 Beta and it works perfectly with my existing code. To bridge the gap in the meantime, I have resorted to manually re-casting each of the collection members to their base class and returning a new collection of base class (as IEnumerable<ItemBase>). It's not very elegant, but it solves the short term problem. –  Tim Coulter Sep 22 '09 at 11:08

4 Answers 4

up vote 1 down vote accepted

Let's say the factory method were creating a single item. You would have:

public ItemBase CreateItem();

You have to use ItemBase because you can't know anything more specific. Applying that principle to the collection method, you get:

public CollectionBase<ItemBase> CreateCollection();

Due to lack of variance, you need an adapter class which derives from CollectionBase<ItemBase> and wraps the actual collection which is created.

In C# 4.0 you would just return the actual collection.

Edit: The factory might look like this, with the adapter embedded:

public class CollectionFactory
{
    public CollectionBase<ItemBase> CreateCollection()
    {
        if(someCondition)
        {
            return CreateAdapter(new MyCollection());
        }
        else
        {
            return CreateAdapter(new MyOtherCollection());
        }
    }

    private static CollectionAdapter<T> CreateAdapter<T>(CollectionBase<T> collection) where T : ItemBase, new()
    {
        return new CollectionAdapter<T>(collection);
    }

    private class CollectionAdapter<T> : CollectionBase<ItemBase> where T : ItemBase, new()
    {
        private CollectionBase<T> _collection;

        internal CollectionAdapter(CollectionBase<T> collection)
        {
            _collection = collection;
        }

        // Implement CollectionBase API by passing through to _collection
    }
}
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Yes, this idea is looking promising. But I don't see how to create the wrapper class without the need for T. –  Tim Coulter Sep 20 '09 at 10:41
    
Updated to include a possible implementation of the factory. The CreateAdapter method infers the item type from whatever collection you instantiate. –  Bryan Watts Sep 20 '09 at 11:06
    
It was a good try, but the compile still doesn't like it ... "ItemBase must be a non-abstract type with a public parameterless constructor in order to use it as a parameter in the generic type or method CollectionBase&lt;T&gt;" –  Tim Coulter Sep 20 '09 at 12:40
    
Ah, right, you can't create instances of an abstract class. Makes sense, but it complicates your problem. I'm not sure there is a type-safe way to accomplish what you need if you must have both the new() constraint and and the abstract ItemBase. –  Bryan Watts Sep 20 '09 at 16:27
    
Thanks anyway. Your answer was innovative and I have implemented it by removing the new() constraint (and replacing it by a runtime check) until I can properly achieve what I am seeking in C# 4.0. –  Tim Coulter Sep 20 '09 at 16:39

Probably what you need is:

public CollectionBase<Object> CreateCollection();

Since every class directly or indirectly inherits from the Object class.

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but that is hardly going to ensure any type safety, right? –  Mitch Wheat Sep 20 '09 at 10:28
    
@Mitch Wheat: My read of the question was that he couldn't ensure type safety in this function. –  T.J. Crowder Sep 20 '09 at 10:30
    
@Mitch Wheat You're right, but the purpose is to have "collection of anything", so the price is to have explicit type checks wherever required. –  quosoo Sep 20 '09 at 10:30
    
Unfortunately, aside from the type safety issue, it doesn't work, because "object" doesn't ensure that subclasses will meet the default constructor rule, therefore the compiler rejects it. –  Tim Coulter Sep 20 '09 at 10:35

I haven't actually done this, and apologies if it's completely naive, but...

public CollectionBase<Object> CreateCollection();

?

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If you really want it to be anything, you could just return ICollection, and then your consumers could call the .Cast<ItemBase>() extension method as they need.

From what I understand, in .NET 4.0 you would be able to return CollectionBase<ItemBase>, but I haven't tried it on the Beta yet.

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