3

I'm trying to write two functions to extract a value from an HList, but I can't seem to make GHC happy.

The first function would have signature extract :: HList a -> [b] which extracts all the elements of type b from the list. I only succeeded in writing it by asking the types in a to have Typeable instances.

class OfType a b where
    oftype :: a -> [Maybe b]

instance OfType (HList '[]) b where
    oftype = const []

instance (Typeable t, Typeable b, OfType (HList ts) b) => OfType (HList (t ': ts)) b where
    oftype (x :- xs) = (cast x :: Maybe b) : oftype xs

extract :: OfType a b => a -> [b]
extract = catMaybes . oftype

Which is suboptimal, as one doesn't really need the Typeable constraint to write any instance of extract.

I tried to use type equalities and inequalities in constraints, but this only gave me overlapping instances.

The second function I'm trying to write would have signature extract' :: Contains h n => HList h -> n which extracts the first element of type n in the list, and the context says that the list actually contains one element of that type.

Is it possible to write extract without Typeable constraints?

Is it possible to write extract' without Typeable constraints? How can one write Contains?

  • 2
    What you want are hOccurs and hOccursMany in Data.HList.Occurs. They don't support things like Num a => HList '[Char, a, Char] well though. – zakyggaps Feb 7 '16 at 11:51
  • I can't seem to make hOccurs work, I'm tring with hOccursFst (HCons 'a' HNil) :: Char. Am I missing something? – miniBill Feb 7 '16 at 12:29
  • Sorry I hadn't checked that carefully enough. It's hOccursFst but not hOccurs that fulfills your requirement. Sorry again. – zakyggaps Feb 7 '16 at 13:02
  • I meant that hOccursFst is not working for me, sorry – miniBill Feb 7 '16 at 13:04
  • Can you please append your exact use case to your question? hOccursFst (HCons 'a' HNil) :: Char works for me in ghci. No language extensions and the only thing I imported is Data.HList. – zakyggaps Feb 7 '16 at 13:10
3

Since you want to check for type equality at compile time, I believe overlapping instances are unavoidable (and I'm not a fan of those...).

Also, I'm not 100% sure I got the overlapping pragmas right.

{-# LANGUAGE DataKinds, TypeOperators, ScopedTypeVariables,
    MultiParamTypeClasses, FlexibleInstances, FlexibleContexts #-}
{-# OPTIONS -Wall #-}
module HListFilter where

import Data.HList.HList

class OfType a b where
    oftype :: a -> [b]

instance OfType (HList '[]) b where
    oftype = const []

instance {-# OVERLAPS #-} (OfType (HList ts) t) => OfType (HList (t ': ts)) t where
    oftype (HCons x xs) = x : oftype xs

instance {-# OVERLAPPABLE #-} (OfType (HList ts) b) => OfType (HList (t ': ts)) b where
    oftype (HCons _ xs) = oftype xs

test :: HList '[Int, Char, [Char], Char, Bool]
test = HCons (1::Int) (HCons 'a' (HCons "foo" (HCons 'b' (HCons True HNil))))

test_result :: [Char]
test_result = oftype test  -- "ab"
  • 3
    Overlapping instances are avoidable. We can compute a [Bool] lifted list from [*] with a closed type family that indicates the positions of the target type, then implement extract with a non-overlapping class based on that. – András Kovács Feb 7 '16 at 12:12
  • @AndrásKovács can you elaborate on that? – miniBill Feb 7 '16 at 12:30
  • 1
    @AndrásKovács That would indeed be cleaner. I somehow think of type families defined through overlapping equations to live in the same realm of overlapping instances -- I don't know if they can raise similar issues. – chi Feb 7 '16 at 13:09
  • 1
    AFAIK closed type families remove all the evil of overlapping instances. GHC won't reduce a type family by an equation unless it can prove none of the earlier equations can be matched. The dubious advantage of overlapping instances is that you can define an overlapping instance in a different module than the instance it overlaps, which is also where the coherence problems come in. That's not possible with closed type families since they are defined in a single declaration. – Reid Barton Feb 7 '16 at 14:59
  • @chi, I don't think they raise the same coherence issues, but I think they may raise some similar flexibility issues. You may have to deal with explicit evidence of equality, or, worse, the right sort of inequality, to deal with dynamic matters. I'm not really sure how bad it gets, but I'm pretty suspicious of them myself. – dfeuer Feb 7 '16 at 21:38
3

András Kovács referred to a type family approach. This is one way to do it:

type family Equal (x :: *) (y :: *) where
  Equal x x = 'True
  Equal x y = 'False

type family Check (b :: *) (as :: [*]) :: [Bool] where
  Check b '[] = '[]
  Check b (a ': as) = (b `Equal` a) ': Check b as

class ps ~ Check b as =>
    OfType (ps :: [Bool]) (as :: [*]) b where
  extract :: HList as -> [b]

The ps ~ Check b as superclass context is critical here, as a matter of timing. GHC always commits to an instance before checking the instance constraints, but it doesn't even try to find an instance until after solving the superclass constraints. So we need to use the superclass constraint to fix which instances to select.

instance OfType '[] '[] b where
  extract HNil = []

instance (OfType ps as b, a ~ b) =>
           OfType ('True ': ps) (a ': as) b where
  extract (HCons x xs) = x : extract xs

instance (OfType ps as b, Equal b a ~ 'False) =>
    OfType ('False ': ps) (a ': as) b where
  extract (HCons _ xs) = extract xs

Once you've done this, you can actually write an interface that avoids the "extra" class parameter:

class OfType' (as :: [*]) (b :: *) where
  extract' :: HList as -> [b]

instance OfType ps as b => OfType' as b where
  extract' = extract

It's quite easy to write Contains and extract'. However, writing good instances of Contains necessitates exactly the same sort of hoop jumping as OfType. The class you'd like to have is this:

class Contains xs y where
  contains :: y `Elem` xs

-- Elem is part of the dependently typed folklore.
data Elem y xs where
  Here :: Elem y (y ': xs)
  There :: Elem y xs -> Elem y (x ': xs)

But writing instances will again force you into overlapping or closed type families. I know I've written this code somewhere around SO, but you should probably be able to work out the overlapping version pretty easily; the type family version will follow the same pattern as OfType, generally.

  • Not much to add here. There's a minor stylistic difference to how other have done this, for example here or here, that is, they use a class with a Proxy-ed method and (possibly) an additional Proxy-less top-level function. Looks like this in the current case. – András Kovács Feb 11 '16 at 11:05
  • @AndrásKovács, does that technique of holding off on the big equality constraint till escaping the class make type checking faster? – dfeuer Feb 11 '16 at 16:50
  • I have no idea. – András Kovács Feb 12 '16 at 10:44

Your Answer

By clicking "Post Your Answer", you acknowledge that you have read our updated terms of service, privacy policy and cookie policy, and that your continued use of the website is subject to these policies.

Not the answer you're looking for? Browse other questions tagged or ask your own question.