Question

I want to write code that is decouple and clean, and I know that by programming to an interface instead of the implementation, my code will be more flexible and extensible. So, instead of writing methods like:

  bool IsProductAvailable(ProductTypeA product);

I write methods like:

  bool IsProductAvailable(IProduct product);

As long as my products implement IProduct:

  class ProductTypeA : IProduct

I should be OK. All is well until I start using generic collections. Since C# 3.0 doesn't support covariant and contravariant, even though both ProuctTypeA and ProductTypeB implements IProduct, you cannot put List in List. This is pretty troublesome because a lot of times I want to write something like:

bool AreProductsAvailable(List<IProduct> products);

So that I can check product avaialbility by writing:

List<ProductA> productsArrived = GetDataFromDataabase();
bool result = AreProductsAvailable(productsArrived);

And I want to write just one AreProductsAvailable() method that works with all IProduct collections.

I know that C# 4.0 is going to support covariant and contravariant, but I also realize that there other libraries that seemed to have the problem solved. For instance, I was trying out ILOG Gantt the gantt chart control, and found that they have a lot of collection intefaces that looks like this:

IActivityCollection
ILinkCollection

So it seems like their approach is wrapping the generic collection with an interface. So instead of "bool AreProductsAvailable(List products);", I can do:

bool AreProductsAvailable(IProductCollection products);

And then write some code so that IProductCollection takes whatever generic collection of IProduct, be it List or List.

However, I don't know how to write an IProductCollection interface that does that "magic". :-< (ashame) ....

Could someone shed me some light? This has been bugging me for so long, and I so wanted to do the "right thing". Well, thanks!

Answer 1

I know this part doesn't answer your question, but you may be over using interfaces.

The thumb-rule to using interfaces is:

If B is your class and it does A, A should be an interface.

If B is your class and it is an A, A should be a base class.

Examples for possible interfaces for your design:
I Serializeable, I Tradeable, I Shippable

Examples for possible classes/base-classes for your design:
Product, Client

---

This part may answer your question:

Use ICollection<Product> or IEnumerable<Product> (or IProduct/ProductBase).
Collections such List<>, ObservableCollection<>, Dictionary<,> implement these interfaces and you can easily define a new collection that implements them.

Then your code will be:
bool AreProductsAvailable(ICollection<IProduct> products)
{
    foreach (var product in products)
        if (product.IsAvailable) ...
}

Just make sure all your GetProducts() methods return a collection of the base type/interface.

Answer 2

Even with .NET 4.0, List<T> won't be variant, for two reasons:

• It's a class, not an interface or a delegate
• It uses T in both input and output positions (which is why IList<T> isn't variant either in .NET 4.0)

One common solution to this problem is to add another type parameter:

bool AreProductsAvailable<T>(IList<T> products) where T : IProduct

You can then iterate through the list, accessing each element as just an IProduct - but the caller can use any compatible list type.

Answer 3

public bool AreProductsAvailable<T>(List<T> products) where T : IProduct { ... }

Answer 4

How about AreProductsAvailable(IEnumerable<IProduct> products)?

Call it like this:

using System.Linq;

List<ProductTypeA> products = ...;
AreProductsAvailable(products.Cast<IProduct>());