[Haskell-cafe] generalized newtype deriving allows the definition of otherwise undefinable functions

Hello, some time ago, it was pointed out that generalized newtype deriving could be used to circumvent module borders. Now, I found out that generalized newtype deriving can even be used to define functions that would be impossible to define otherwise. To me, this is surprising since I thought that generalized newtype deriving was only intended to save the programmer from writing boilerplate code, not to extend expressiveness. Have a look at the following code: > {-# LANGUAGE > GeneralizedNewtypeDeriving, > MultiParamTypeClasses, > FlexibleInstances > #-} > > class Iso a b where > > conv :: item a -> item b > > instance Iso a a where > > conv = id > > newtype Wrapped a = Wrap a deriving (Iso a, Show) Now any value whose type contains some type t can be converted into a value of the type that you get if you replace t by Wrap t. Here is some code to demonstrate this for binary operations: > newtype BinOp a = BinOp (a -> a -> a) > > convBinOp :: (a -> a -> a) -> (Wrapped a -> Wrapped a -> Wrapped a) > convBinOp op = let BinOp op' = conv (BinOp op) in op' Now, you can enter convBinOp (*) (Wrap 5) (Wrap 3) into GHCi, and you will get Wrap 15 as the result. The point is, of course, that such conversions are not only possible for binary operations but for arbitrary values and that these conversions are done by a single generic function conv. I don’t think it would be possible to implement conv without generalized newtype deriving. Any thoughts? Best wishes, Wolfgang