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Let's say I want to have a generic Box class that can contain something inside, so it's a Box<T>. Box<T> has a Transform method that returns a Box<U>:

public Box<U> Transform<U>(Func<T, U> transform)

So far this has been quite simple. However, I actually need an abstract Box, since the way the values are boxed and transformed is implementation-specific. (I can't have an interface since there are other methods that are implemented via composition of abstract methods, but this doesn't change anything anyway).

Of course, I want my overridden Transform methods to return an appropriate subclass of Box, not Box itself. Since return types of overriding methods are invariant in C#, I turn to the curiously recurring template pattern (see IComparable<T>):

public abstract class Box<B, T> where B : Box<B, T>

Now every class I inherit from Box<B, T> should refer to itself or all hell breaks loose:

public class FooBox<T> : Box<FooBox, T>

However, this completely destroys the Transform method:

public abstract Box<B, U> Transform<U>(Func<T, U> transform);

fails to compile with The type 'B' cannot be used as type parameter 'B' in the generic type or method 'Test.Box<B,T>'. There is no implicit reference conversion from 'B' to 'Test.Box<B,U>'. (CS0311). That makes sense, since the return type is now Box<B, U> and B is Box<B, T>, which is not Box<B, U>.

The straightforward fix won't work:

public abstract Box<B, U> Transform<U>(Func<T, U> transform) where B : Box<B, U>;

fails to compile with 'Test.Box<B,T>.Transform<U>()' does not define type parameter 'B' (CS0699).

Is there any way to resolve this, or have I really painted myself into a corner?

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  • Can you just make it a Box<U> and pass implementation specific information in through factory methods? – Millie Smith Apr 23 '15 at 15:27
  • @MillieSmith removing CRTP would work, of course, but that would result in not being able to control that methods like Box<B, V> Merge<U, V>(Box<B, U> another, Func<T, U, V> merge) actually accept compatible Boxes. – Alexey Apr 23 '15 at 15:42
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I think the problem with the straight forward fix is the reuse of the B type parameter. Try something else, and include it as a type parameter:

public abstract Box<B2, U> Transform<B2,U>(Func<T, U> transform) where B2 : Box<B2, U>;

Update: you stated:

now I cannot guarantee that B2 and B are actually the same derived class, which was my goal

This isn't the case though, B2 does not (cannot?) inherit from B, U might inherit T if you wish. You can include that as a constraint. That's not strictly necessary for the pattern though, since its up to the body of Transform to sort it out.

e.g:

public abstract Box<B2, U> Transform<B2,U>(Func<T, U> transform) 
    where B2 : Box<B2, U>
    where U : T
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  • Not 100% that you need B2 instead of B, but you definitely need it as a type parameter for Transform – Jon Egerton Apr 23 '15 at 15:31
  • That compiles (if I add B2 to the method's generic parameters), but now I cannot guarantee that B2 and B are actually the same derived class, which was my goal. – Alexey Apr 23 '15 at 15:32
  • I actually want to ensure that B2 and B are the same class, U and T are completely independent types. Let's say InfiniteSequence is one of the derived classes, I want to receive an infinite sequence from the transformation, not an abstract box. – Alexey Apr 23 '15 at 16:17
  • I think what you're trying to say is that while B and B2 are not the same type, they should be same instance, but without any inheritance relationship between the two right? I don't think you're going to get that. Think about cloning Box and casting T -> U in the process maybe. – Jon Egerton Apr 23 '15 at 16:23
  • No, I am trying to set the generic constraint that will allow me to override the method in FooBox<T> : Box<FooBox, T> using the following signature FooBox<U> Transform<U>(Func<T, U> transform), but not BarBox<U> Transform<U>(Func<T, U> transform) or any other child of Box<B, T>. – Alexey Apr 23 '15 at 20:16

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