It's not possible. Infinite types (that aren't data types) are explicitly forbidden in Haskell, and it's easy to produce code which would require them, and thus produces an error (for example, try
let foo = (42, foo) in foo).
You can, of course, create them with
data, like you did, but then you have to explicitly wrap and unwrap the values in and out of constructors.
This is an explicit design decision: with infinite types, many obviously wrong expressions that we would like the compiler to reject would have to be allowed, and since many more programs would be allowed, a lot of previously unambiguously-typed programs would become ambiguously typed,1 requiring explicit type annotations. So a tradeoff is made: requiring you to be explicit about the fairly rare uses of infinite types in return for getting much more help from the type system than we otherwise would.
That said, there is a way to define something similar to your
eat function, using typeclasses, but it can't stop only when you give it a 3: whether you've given it a 3 or not can only be determined at runtime, and types are decided at compile time. However, here's an overloaded value that can be both an
Integer, and a function that just eats up its argument:
class Eat a where
eat :: a
instance Eat Integer where
eat = 3
instance (Eat r) => Eat (a -> r) where
eat _ = eat
The catch is that you need to specify the types precisely when you use it:
*Main> eat 1 foldr ()
Ambiguous type variable `t0' in the constraint:
(Eat t0) arising from a use of `eat'
Probable fix: add a type signature that fixes these type variable(s)
In the expression: eat 1 foldr ()
In an equation for `it': it = eat 1 foldr ()
*Main> eat 1 foldr () :: Integer
This is because
eat 1 foldr () could be an
Integer, but it could also be another function, just as we used
eat 1 and
eat 1 foldr as functions in the same expression. Again, we get flexible typing, but have to explicitly specify the types we want in return.
1 Think typeclass overloading, like the overloaded numeric literals (
42 can be any type that's an instance of