module Haskus.Utils.HList
( HList (..)
, hHead
, hTail
, hLength
, hAppend
, HFoldr' (..)
, HFoldl' (..)
, HTuple' (..)
, Apply (..)
, HZipList
, hZipList
, HFoldr
, hFoldr
, HFoldl
, hFoldl
, HReverse (..)
)
where
import Haskus.Utils.Tuple
import Haskus.Utils.Types
import Haskus.Utils.Types.List
data family HList (l :: [*])
data instance HList '[] = HNil
data instance HList (x ': xs) = x `HCons` HList xs
infixr 2 `HCons`
deriving instance Eq (HList '[])
deriving instance (Eq x, Eq (HList xs)) => Eq (HList (x ': xs))
deriving instance Ord (HList '[])
deriving instance (Ord x, Ord (HList xs)) => Ord (HList (x ': xs))
instance Show (HList '[]) where
show _ = "H[]"
instance (Show e, Show (HList l)) => Show (HList (e ': l)) where
show (HCons x l) = let 'H':'[':s = show l
in "H[" ++ show x ++
(if s == "]" then s else "," ++ s)
hHead :: HList (e ': l) -> e
hHead (HCons x _) = x
hTail :: HList (e ': l) -> HList l
hTail (HCons _ l) = l
hLength :: forall xs. (KnownNat (Length xs)) => HList xs -> Word
hLength _ = natValue' @(Length xs)
class HAppendList l1 l2 where
hAppend :: HList l1 -> HList l2 -> HList (Concat l1 l2)
instance HAppendList '[] l2 where
hAppend HNil l = l
instance HAppendList l l' => HAppendList (x ': l) l' where
hAppend (HCons x l) l' = HCons x (hAppend l l')
class Apply f a b where
apply :: f -> a -> b
class HFoldr f v (l :: [*]) r where
hFoldr :: f -> v -> HList l -> r
instance (v ~ v') => HFoldr f v '[] v' where
hFoldr _ v _ = v
instance
( Apply f (e, r) r'
, HFoldr f v l r
) => HFoldr f v (e ': l) r'
where
hFoldr f v (HCons x l) = apply f (x, hFoldr f v l :: r)
class HFoldr' f v (l :: [*]) r where
hFoldr' :: f -> v -> HList l -> r
instance (v ~ v') => HFoldr' f v '[] v' where
hFoldr' _ v _ = v
instance
( Apply f (e, r) r'
, HFoldr' f v l r
) => HFoldr' f v (e ': l) r'
where
hFoldr' f v _ = apply f (undefined :: e, hFoldr' f v (undefined :: HList l) :: r)
class HFoldl f (z :: *) xs (r :: *) where
hFoldl :: f -> z -> HList xs -> r
instance forall f z z' r x zx xs.
( zx ~ (z,x)
, Apply f zx z'
, HFoldl f z' xs r
) => HFoldl f z (x ': xs) r
where
hFoldl f z (x `HCons` xs) = hFoldl f (apply f (z,x) :: z') xs
instance (z ~ z') => HFoldl f z '[] z' where
hFoldl _ z _ = z
class HFoldl' f (z :: *) xs (r :: *) where
hFoldl' :: f -> z -> HList xs -> r
instance forall f z z' r x zx xs.
( zx ~ (z,x)
, Apply f zx z'
, HFoldl' f z' xs r
) => HFoldl' f z (x ': xs) r
where
hFoldl' f z (_ `HCons` xs) = hFoldl' f (apply f (z,(undefined :: x)) :: z') xs
instance (z ~ z') => HFoldl' f z '[] z' where
hFoldl' _ z _ = z
class HZipList x y l | x y -> l, l -> x y where
hZipList :: HList x -> HList y -> HList l
hUnzipList :: HList l -> (HList x, HList y)
instance HZipList '[] '[] '[] where
hZipList _ _ = HNil
hUnzipList _ = (HNil, HNil)
instance ((x,y)~z, HZipList xs ys zs) => HZipList (x ': xs) (y ': ys) (z ': zs) where
hZipList (HCons x xs) (HCons y ys) = (x,y) `HCons` hZipList xs ys
hUnzipList (HCons ~(x,y) zs) = let ~(xs,ys) = hUnzipList zs in (x `HCons` xs, y `HCons` ys)
class HRevApp l1 l2 l3 | l1 l2 -> l3 where
hRevApp :: HList l1 -> HList l2 -> HList l3
instance HRevApp '[] l2 l2 where
hRevApp _ l = l
instance HRevApp l (x ': l') z => HRevApp (x ': l) l' z where
hRevApp (HCons x l) l' = hRevApp l (HCons x l')
class HReverse xs sx | xs -> sx, sx -> xs where
hReverse :: HList xs -> HList sx
instance
( HRevApp xs '[] sx
, HRevApp sx '[] xs
) => HReverse xs sx
where
hReverse l = hRevApp l HNil
class HTuple' v t | v -> t, t -> v where
hToTuple' :: HList v -> t
hFromTuple' :: t -> HList v
instance HTuple' '[] () where
hToTuple' HNil = ()
hFromTuple' () = HNil
instance HTuple' '[a] (Single a) where
hToTuple' (a `HCons` HNil) = Single a
hFromTuple' (Single a) = a `HCons` HNil
instance HTuple' '[a,b] (a,b) where
hToTuple' (a `HCons` b `HCons` HNil) = (a,b)
hFromTuple' (a,b) = a `HCons` b `HCons` HNil
instance HTuple' '[a,b,c] (a,b,c) where
hToTuple' (a `HCons` b `HCons` c `HCons` HNil) = (a,b,c)
hFromTuple' (a,b,c) = a `HCons` b `HCons` c `HCons` HNil
instance HTuple' '[a,b,c,d] (a,b,c,d) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` HNil) = (a,b,c,d)
hFromTuple' (a,b,c,d) = a `HCons` b `HCons` c `HCons` d `HCons` HNil
instance HTuple' '[a,b,c,d,e] (a,b,c,d,e) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` HNil) = (a,b,c,d,e)
hFromTuple' (a,b,c,d,e) = a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` HNil
instance HTuple' '[a,b,c,d,e,f] (a,b,c,d,e,f) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` HNil) = (a,b,c,d,e,f)
hFromTuple' (a,b,c,d,e,f) = a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` HNil
instance HTuple' '[a,b,c,d,e,f,g] (a,b,c,d,e,f,g) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` HNil) = (a,b,c,d,e,f,g)
hFromTuple' (a,b,c,d,e,f,g) = a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` HNil
instance HTuple' '[a,b,c,d,e,f,g,h] (a,b,c,d,e,f,g,h) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` h `HCons` HNil) = (a,b,c,d,e,f,g,h)
hFromTuple' (a,b,c,d,e,f,g,h) = a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` h `HCons` HNil
instance HTuple' '[a,b,c,d,e,f,g,h,i] (a,b,c,d,e,f,g,h,i) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` h `HCons` i `HCons` HNil) = (a,b,c,d,e,f,g,h,i)
hFromTuple' (a,b,c,d,e,f,g,h,i) = a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` h `HCons` i `HCons` HNil
instance HTuple' '[a,b,c,d,e,f,g,h,i,j] (a,b,c,d,e,f,g,h,i,j) where
hToTuple' (a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` h `HCons` i `HCons` j `HCons` HNil) = (a,b,c,d,e,f,g,h,i,j)
hFromTuple' (a,b,c,d,e,f,g,h,i,j) = a `HCons` b `HCons` c `HCons` d `HCons` e `HCons` f `HCons` g `HCons` h `HCons` i `HCons` j `HCons` HNil