{-# LANGUAGE ScopedTypeVariables #-}
module Data.LSeq( LSeq
, toSeq
, empty
, fromList
, fromNonEmpty
, fromSeq
, toNonEmpty
, (<|), (|>)
, (><)
, eval
, index
, adjust
, partition
, mapWithIndex
, take
, drop
, unstableSort, unstableSortBy
, head, last
, append
, ViewL(..)
, viewl
, pattern (:<|)
, pattern (:<<)
, pattern EmptyL
, ViewR(..)
, viewr
, pattern (:|>)
, promise
, forceLSeq
) where
import Control.DeepSeq
import Control.Lens ((%~), (&), (<&>), (^?), bimap)
import Control.Lens.At (Ixed(..), Index, IxValue)
import qualified Data.Foldable as F
import qualified Data.List.NonEmpty as NonEmpty
import Data.Maybe (fromJust)
import qualified Data.Sequence as S
import GHC.Generics (Generic)
import qualified Data.Traversable as Tr
import GHC.TypeLits
import Prelude hiding (drop,take,head,last)
newtype LSeq (n :: Nat) a = LSeq (S.Seq a)
deriving (Show,Read,Eq,Ord,Foldable,Functor,Traversable
,Generic,NFData)
toSeq :: LSeq n a -> S.Seq a
toSeq (LSeq s) = s
instance Semigroup (LSeq n a) where
(LSeq s) <> (LSeq s') = LSeq (s <> s')
instance Monoid (LSeq 0 a) where
mempty = empty
mappend = (<>)
type instance Index (LSeq n a) = Int
type instance IxValue (LSeq n a) = a
instance Ixed (LSeq n a) where
ix i f s@(LSeq xs)
| 0 <= i && i < S.length xs = f (S.index xs i) <&> \x -> LSeq $ S.update i x xs
| otherwise = pure s
empty :: LSeq 0 a
empty = LSeq S.empty
(<|) :: a -> LSeq n a -> LSeq (1 + n) a
x <| xs = LSeq (x S.<| toSeq xs)
(|>) :: LSeq n a -> a -> LSeq (1 + n) a
xs |> x = LSeq (toSeq xs S.|> x)
infixr 5 <|
infixl 5 |>
(><) :: LSeq n a -> LSeq m a -> LSeq (n + m) a
xs >< ys = LSeq (toSeq xs <> toSeq ys)
infix 5 ><
eval :: forall proxy n m a. KnownNat n => proxy n -> LSeq m a -> Maybe (LSeq n a)
eval n (LSeq xs)
| toInteger (S.length xs) >= natVal n = Just $ LSeq xs
| otherwise = Nothing
promise :: LSeq m a -> LSeq n a
promise = LSeq . toSeq
forceLSeq :: KnownNat n => proxy n -> LSeq m a -> LSeq n a
forceLSeq n = promise . go (fromInteger $ natVal n)
where
go :: Int -> LSeq m a -> LSeq m a
go n' s | n' <= l = s
| otherwise = error msg
where
l = S.length . S.take n' . toSeq $ s
msg = "forceLSeq: too few elements. expected " <> show n' <> " but found " <> show l
toNonEmpty :: LSeq (1 + n) a -> NonEmpty.NonEmpty a
toNonEmpty = NonEmpty.fromList . F.toList
append :: LSeq n a -> LSeq m a -> LSeq (n + m) a
sa `append` sb = LSeq $ (toSeq sa) <> toSeq sb
index :: LSeq n a -> Int -> a
index s i = fromJust $ s^?ix i
adjust :: (a -> a) -> Int -> LSeq n a -> LSeq n a
adjust f i s = s&ix i %~ f
partition :: (a -> Bool) -> LSeq n a -> (LSeq 0 a, LSeq 0 a)
partition p = bimap LSeq LSeq . S.partition p . toSeq
mapWithIndex :: (Int -> a -> b) -> LSeq n a -> LSeq n b
mapWithIndex f = wrapUnsafe (S.mapWithIndex f)
take :: Int -> LSeq n a -> LSeq 0 a
take i = wrapUnsafe (S.take i)
drop :: Int -> LSeq n a -> LSeq 0 a
drop i = wrapUnsafe (S.drop i)
unstableSortBy :: (a -> a -> Ordering) -> LSeq n a -> LSeq n a
unstableSortBy f = wrapUnsafe (S.unstableSortBy f)
unstableSort :: Ord a => LSeq n a -> LSeq n a
unstableSort = wrapUnsafe (S.unstableSort)
wrapUnsafe :: (S.Seq a -> S.Seq b) -> LSeq n a -> LSeq m b
wrapUnsafe f = LSeq . f . toSeq
fromSeq :: S.Seq a -> LSeq 0 a
fromSeq = LSeq
fromList :: Foldable f => f a -> LSeq 0 a
fromList = LSeq . S.fromList . F.toList
fromNonEmpty :: NonEmpty.NonEmpty a -> LSeq 1 a
fromNonEmpty = LSeq . S.fromList . F.toList
data ViewL n a where
(:<) :: a -> LSeq n a -> ViewL (1 + n) a
infixr 5 :<
instance Semigroup (ViewL n a) where
(x :< xs) <> (y :< ys) = x :< LSeq (toSeq xs <> (y S.<| toSeq ys))
deriving instance Show a => Show (ViewL n a)
instance Functor (ViewL n) where
fmap = Tr.fmapDefault
instance Foldable (ViewL n) where
foldMap = Tr.foldMapDefault
instance Traversable (ViewL n) where
traverse f (x :< xs) = (:<) <$> f x <*> traverse f xs
instance Eq a => Eq (ViewL n a) where
s == s' = F.toList s == F.toList s'
instance Ord a => Ord (ViewL n a) where
s `compare` s' = F.toList s `compare` F.toList s'
viewl :: LSeq (1 + n) a -> ViewL (1 + n) a
viewl xs = let ~(x S.:< ys) = S.viewl $ toSeq xs in x :< LSeq ys
viewl' :: LSeq (1 + n) a -> (a, LSeq n a)
viewl' xs = let ~(x S.:< ys) = S.viewl $ toSeq xs in (x,LSeq ys)
infixr 5 :<|
pattern (:<|) :: a -> LSeq n a -> LSeq (1 + n) a
pattern x :<| xs <- (viewl' -> (x,xs))
where
x :<| xs = x <| xs
{-# COMPLETE (:<|) #-}
infixr 5 :<<
pattern (:<<) :: a -> LSeq 0 a -> LSeq n a
pattern x :<< xs <- (viewLSeq -> Just (x,xs))
pattern EmptyL :: LSeq n a
pattern EmptyL <- (viewLSeq -> Nothing)
viewLSeq :: LSeq n a -> Maybe (a,LSeq 0 a)
viewLSeq (LSeq s) = case S.viewl s of
S.EmptyL -> Nothing
(x S.:< xs) -> Just (x,LSeq xs)
data ViewR n a where
(:>) :: LSeq n a -> a -> ViewR (1 + n) a
infixl 5 :>
instance Semigroup (ViewR n a) where
(xs :> x) <> (ys :> y) = LSeq ((toSeq xs S.|> x) <> toSeq ys) :> y
deriving instance Show a => Show (ViewR n a)
instance Functor (ViewR n) where
fmap = Tr.fmapDefault
instance Foldable (ViewR n) where
foldMap = Tr.foldMapDefault
instance Traversable (ViewR n) where
traverse f (xs :> x) = (:>) <$> traverse f xs <*> f x
instance Eq a => Eq (ViewR n a) where
s == s' = F.toList s == F.toList s'
instance Ord a => Ord (ViewR n a) where
s `compare` s' = F.toList s `compare` F.toList s'
viewr :: LSeq (1 + n) a -> ViewR (1 + n) a
viewr xs = let ~(ys S.:> x) = S.viewr $ toSeq xs in LSeq ys :> x
viewr' :: LSeq (1 + n) a -> (LSeq n a, a)
viewr' xs = let ~(ys S.:> x) = S.viewr $ toSeq xs in (LSeq ys, x)
infixl 5 :|>
pattern (:|>) :: forall n a. LSeq n a -> a -> LSeq (1 + n) a
pattern xs :|> x <- (viewr' -> (xs,x))
where
xs :|> x = xs |> x
{-# COMPLETE (:|>) #-}
head :: LSeq (1 + n) a -> a
head (x :<| _) = x
last :: LSeq (1 + n) a -> a
last (_ :|> x) = x