module Data.EnumMap ( EnumMap,
empty,
insert, insertWith, insertLookupWithKey,
delete, update,
lookup, (!), member,
null, size,
elems )
where
import Prelude hiding ( lookup, null )
import Data.IntMap ( IntMap )
import qualified Data.IntMap as IntMap
newtype EnumMap a b = EM{unEM :: IntMap b}
deriving ( Eq,
Ord,
Foldable,
Functor,
Monoid )
empty :: Enum a => EnumMap a b
empty = EM IntMap.empty
insert :: Enum a => a -> b -> EnumMap a b -> EnumMap a b
insert k v (EM m) = EM $ IntMap.insert (fromEnum k) v m
insertWith :: Enum a => (b -> b -> b) -> a -> b -> EnumMap a b -> EnumMap a b
insertWith f k v (EM m) = EM $ IntMap.insertWith f (fromEnum k) v m
insertLookupWithKey :: Enum a
=> (a -> b -> b -> b)
-> a -> b -> EnumMap a b -> (Maybe b, EnumMap a b)
insertLookupWithKey f k v (EM m) = (m_b, EM m')
where f' = f . toEnum
k' = fromEnum k
(m_b, m') = IntMap.insertLookupWithKey f' k' v m
delete :: Enum a => a -> EnumMap a b -> EnumMap a b
delete k (EM m) = EM $ IntMap.delete (fromEnum k) m
update :: Enum a => (b -> Maybe b) -> a -> EnumMap a b -> EnumMap a b
update f k (EM m) = EM $ IntMap.update f (fromEnum k) m
lookup :: Enum a => a -> EnumMap a b -> Maybe b
lookup k (EM m) = IntMap.lookup (fromEnum k) m
(!) :: Enum a => EnumMap a b -> a -> b
(EM m) ! k = m IntMap.! (fromEnum k)
member :: Enum a => a -> EnumMap a b -> Bool
member k (EM m) = IntMap.member (fromEnum k) m
null :: EnumMap a b -> Bool
null = IntMap.null . unEM
size :: EnumMap a b -> Int
size = IntMap.size . unEM
elems :: EnumMap a b -> [b]
elems = IntMap.elems . unEM
instance (Show a, Show b) => Show (EnumMap a b) where
showsPrec p = showsPrec p . unEM
instance (Read a, Read b) => Read (EnumMap a b) where
readsPrec p = map (\(a,s) -> (EM a,s)) . readsPrec p