I have a collection of models, each of which exposes a next(...) method which moves the model forward by a discrete step. Each next() method has a parameter given by the abstract type T.

I want to be able to wrap each model with another class, where the wrapper will also inherit the type T (which is different for each model), but provide additional logic. This would be trivial by letting the wrapper also extend a model, but this is not feasible with the internal logic of my actual model implementations.

My solution would be to use type projections like so:

```
trait Model {
type T // works fine when this is a concrete implementation, but then cannot be overridden
def next(input : T) = println(input)
}
abstract class Parent {
type S <: Model
type T = S#T
val model : S
def next(input : T) = model.next(input)
}
```

This fails with the compiler error: *type mismatch; found : input.type (with underlying type Parent.this.T) required: Parent.this.model.T*

Note that in any concrete implementation of Parent, Parent.this.T should be equal to Parent.this.model.T.

So far my workaround is to abandon using the type system, and just creating unique Parent classes for each Model (ie duplicating all of the other logic that a Parent may expose). What is the correct way to do this?

`type T = S#T`

with`type T = model.T`

, but I can't understand your goal. – senia May 9 '13 at 21:25`T = Int`

and`T = String`

, how could they be compatible? – senia May 9 '13 at 21:46