Instances are defined for types as a whole, not individual constructors, which is why it complains about
Fun not being a type.
I assume your overall goal is to have a
Show instance for
A, which can't be derived because functions can't (in general) have a
Show instance. You have a couple options here:
Write your own
Show instance outright:
That is, something like:
instance Show A where
show (Num n) = "Num " ++ show n
show (Fun _ s) = s
In many cases, this makes the most sense. But sometimes it's nicer to derive
Show, especially on complex recursive types where only one case of many is not automatically
You can only derive
Show for types that contain types that themselves have
Show instances. There's no instance for
A -> A, so deriving doesn't work. But you can write one that uses a placeholder of some sort:
instance Show (A -> A) where
show _ = "(A -> A)"
Or even just an empty string, if you prefer.
Note that this requires the
FlexibleInstances language extension; it's one of the most harmless and commonly used extensions, is supported by multiple Haskell implementations, and the restrictions it relaxes are (in my opinion) a bit silly to begin with, so there's little reason to avoid it.
An alternate approach would be to have a wrapper type, as you mention in the question. You could even make this more generic:
data ShowAs a = ShowAs a String
instance Show (ShowAs a) where
show (ShowAs _ s) = s
...and then use
(ShowAs (A -> A)) in the
Fun constructor. This makes it a bit awkward by forcing you to do extra pattern matching any time you want to use the wrapped type, but it gives you lots of flexibility to "tag" stuff with how it should be displayed, e.g.
showId = id `ShowAs` "id" or suchlike.