I'm having problems getting GHC to infer a type in a place where it should be obvious. Below is a complete snippet demonstrating the problem.
{-# LANGUAGE DataKinds, ScopedTypeVariables, KindSignatures, TypeOperators, GADTs #-}
import Data.Reflection
import Data.Proxy
import Data.Tagged
-- heterogeneous list, wrapping kind [*] as *
data HList :: [*] -> * where
HNil :: HList '[]
HCons :: a -> HList as -> HList (a ': as)
main = test2
test1 = do
let x = HCons 3 HNil :: HList '[Int]
c = case x of (HCons w HNil) -> w
print c
test2 = reify True (\(_::Proxy a) -> do
let x = HCons (Tagged 3) HNil :: HList '[Tagged a Int]
c = case x of (HCons w HNil) -> w
print $ untag (c :: Tagged a Int))
In test1, I can print c without giving c and explicit type, just as I expect. The type of c is inferred by the explicit signature on x: namely, the first element in the HList has type Int.
In test2, however, the explicit signature on c is required. If I simply print $ untag c in test2, I get
Test.hs:22:32:
Couldn't match type `s0' with `s'
`s0' is untouchable
inside the constraints (as ~ '[] *)
bound at a pattern with constructor
HNil :: HList ('[] *),
in a case alternative
`s' is a rigid type variable bound by
a type expected by the context:
Reifies * s Bool => Proxy * s -> IO ()
at Test.hs:19:9
Expected type: Tagged * s0 Int
Actual type: a
In the pattern: HNil
In the pattern: HCons w HNil
In a case alternative: (HCons w HNil) -> w
Why can GHC not infer the type of c from the explicit type given to x as in test1?
data HCons a b = HCons a bdata HNil = HNildoesn't have this problem.