# ghc-7.6 class instances for dependent types

Heterogeneous lists are one of the examples given for the new dependent type facility of ghc 7.6:

``````data HList :: [*] -> * where
HNil :: HList '[]
HCons:: a -> HList t -> HList (a ': t)
``````

The example list "li" compiles fine:

``````li  = HCons "Int: " (HCons 234 (HCons "Integer: " (HCons 129877645 HNil)))
``````

Obviously we would like HList to be in the Show class, but I can only come up with the following working class instantiation that uses mutually recursive constraints (superclasses):

``````instance Show (HList '[]) where
show HNil = "[]"

instance (Show a, Show' (HList t)) => Show (HList (a ': t)) where
show l  = "[" ++ show' l ++ "]"

class Show' a where
show' :: a -> String

instance Show' (HList '[]) where
show' HNil = ""

instance (Show a, Show' (HList t)) => Show' (HList (a ': t)) where
show' (HCons h l) = case l of
HNil      -> show h
HCons _ _ -> show h ++ ", " ++ (show' l)
``````

The code compiles fine and li is shown properly. Compile flags needed are:

``````{-# LANGUAGE DataKinds, TypeOperators, KindSignatures,
``````

I tried many variants of the following far more direct definition, but it doesn't compile without me being able to understand the ghc error messages:

``````instance Show (HList '[]) where
show HNil = "[]"

instance (Show a, Show (HList t)) => Show (HList (a ': t)) where
show l  = "[" ++ (show' l) ++ "]" where
show' (HCons h s) = case s of
HNil      -> show h
HCons _ _ -> show h ++ ", " ++ (show' s)
``````

Some Haskell / ghc specialist might understand why this can't work and I would be happy to hear the reason.

Thank you

Hans Peter

Thank you, hammar, for your two nice working examples, improving on my first example.

But I still don't understand why my second example doesn't work. You say that "... show' only knows how to show the current element type and not the remaining ones." But wouldn't that comment not also apply in the following (working) code:

``````instance Show (HList '[]) where show HNil = ""

instance (Show a, Show (HList t)) => Show (HList (a ': t)) where
show (HCons h t) = case t of
HNil      -> show h
HCons _ _ -> show h ++ ", " ++ (show t)
``````
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Did you try `show' (HCons h HNil) = show h`, `show' (HCons h s) = show h ++ ", " ++ show' s`? –  dbaupp Oct 20 '12 at 15:00
`show' :: forall a t. (Show a, Show (HList t)) => HList (a ': t) -> String` doesn't provide any constraint that says that you can show the next element in the list. Defining it like `HCons _ _ -> show h ++ ", " ++ show s` would work but won't be formatted the same as your original example. –  Nathan Howell Oct 20 '12 at 16:22
To dbaupp: yes I tried, but Nathan's remark applies to both my original non-working solution as well as your proposal. But I don't really understand it. (See below why.) –  wurmli Oct 20 '12 at 19:41
@wurmli A `Show a, Show (HList t))` constraint states that you can `show` the head and tail of the list. It doesn't say anything about the Nth element (where N > 0), just the head and tail. Type families with constraint kinds (Hammar's example) or a helper type class (your alternative solution) are two ways around this. –  Nathan Howell Oct 20 '12 at 20:46

As Nathan said in the comments, `show'` only knows how to show the current element type and not the remaining ones.

As in your first example, we can get around this by making a new type class for `show'`, although you can get away with only one `Show` instance:

``````-- Specializing show' to HLists avoids needing a Show' (HList ts) constraint
-- here, which would require UndecidableInstances.
instance (Show' ts) => Show (HList ts) where
show xs = "[" ++ show' xs ++ "]"

class Show' ts where
show' :: HList ts -> String

instance Show' '[] where
show' HNil = ""

instance (Show a, Show' ts) => Show' (a ': ts) where
show' (HCons a s) = case s of
HNil     -> show a
HCons {} -> show a ++ ", " ++ show' s
``````

Another more hackish way of getting all the necessary `Show` constraints into `show'` is to use `ConstraintKinds` to directly build a list of all the necessary constraints.

``````-- In addition to the extensions in the original code:
{-# LANGUAGE TypeFamilies, ConstraintKinds, UndecidableInstances #-}
import GHC.Exts

-- ShowTypes [a, b, c, ...] = (Show a, Show b, Show c, ...)
type family ShowTypes (a :: [*]) :: Constraint
type instance ShowTypes '[] = ()
type instance ShowTypes (a ': t) = (Show a, ShowTypes t)

instance ShowTypes ts => Show (HList ts) where
show xs = "[" ++ show' xs ++ "]"
where
show' :: ShowTypes ts => HList ts -> String
show' HNil = ""
show' (HCons h s) = case s of
HNil     -> show h
HCons {} -> show h ++ ", " ++ show' s
``````
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Reexamining your second solution I actually don't only find it "nice", but exactly answering my question and by no means hackish. I had looked for a way to formulate the Constraint, which you express as a type family. I had hoped to be able to express the induction of the supertype with the instance definition. Thank you again for your good help. –  wurmli Oct 21 '12 at 4:45

Thanks to hammar's second solution I can now offer an even more general approach, which works for a general class (but I suppose that he had this in mind anyway):

``````type family ConstrainedTypes (a :: [*]) (f :: * -> Constraint) :: Constraint
type instance ConstrainedTypes '[] b = ()
type instance ConstrainedTypes (a ': t) b = (b a, ConstrainedTypes t b)

instance ConstrainedTypes ts Show => Show (HList ts) where
show xs = "[" ++ show' xs ++ "]"
where
show' :: ConstrainedTypes ts Show => HList ts -> String
show' HNil = ""
show' (HCons h s) = case s of
HNil     -> show h
HCons {} -> show h ++ ", " ++ show' s
``````

Thank you again for the great help.

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