module StringTable.AtomMap ( -- * Map type AtomMap(..), Key -- instance Eq,Show -- * Operators , (!), (\\) -- * Query , null , size , member , notMember , lookup , findWithDefault -- * Construction , empty , singleton -- ** Insertion , insert , insertWith, insertWithKey, insertLookupWithKey -- ** Delete\/Update , delete , adjust , adjustWithKey , update , updateWithKey , updateLookupWithKey , alter -- * Combine -- ** Union , union , unionWith , unionWithKey , unions , unionsWith -- ** Difference , difference , differenceWith , differenceWithKey -- ** Intersection , intersection , intersectionWith , intersectionWithKey -- * Traversal -- ** Map , map , mapWithKey , mapAccum , mapAccumWithKey -- ** Fold , fold , foldWithKey -- * Conversion , elems , keys , keysSet , assocs -- ** Lists , toList , fromList , fromListWith , fromListWithKey -- ** Ordered lists , toAscList , fromAscList , fromAscListWith , fromAscListWithKey , fromDistinctAscList -- * Filter , filter , filterWithKey , partition , partitionWithKey , mapMaybe , mapMaybeWithKey , mapEither , mapEitherWithKey , split , splitLookup -- * Submap , isSubmapOf, isSubmapOfBy , isProperSubmapOf, isProperSubmapOfBy -- * Min\/Max , maxView , minView , findMin , findMax , deleteMin , deleteMax , deleteFindMin , deleteFindMax , updateMin , updateMax , updateMinWithKey , updateMaxWithKey , minViewWithKey , maxViewWithKey -- * Debugging , showTree , showTreeWith ) where import Prelude hiding (lookup, filter) import StringTable.Atom import qualified Data.IntMap as IM import qualified StringTable.AtomSet as AtomSet import Data.Monoid import Control.Monad (liftM) type Key = Atom newtype AtomMap a = MkAtomMap { fromAtomMap :: IM.IntMap a } deriving (Eq, Ord, Functor, Monoid) instance Show a => Show (AtomMap a) where show = show . toList fromList :: [(Atom, a)] -> AtomMap a fromList ps = MkAtomMap $ IM.fromList [ (fromAtom l, x) | (l, x) <- ps ] fromListWith :: (a -> a -> a) -> [(Atom, a)] -> AtomMap a fromListWith f ps = MkAtomMap $ IM.fromListWith f [ (fromAtom l, x) | (l, x) <- ps ] toList :: AtomMap a -> [(Atom, a)] toList lm = [ (unsafeIntToAtom l, x) | (l, x) <- IM.toList $ fromAtomMap lm ] mapWithKey :: (Atom -> a -> b) -> AtomMap a -> AtomMap b mapWithKey f lm = MkAtomMap $ IM.mapWithKey (f . unsafeIntToAtom) (fromAtomMap lm) elems :: AtomMap a -> [a] elems = IM.elems . fromAtomMap union :: AtomMap a -> AtomMap a -> AtomMap a union (MkAtomMap x) (MkAtomMap y) = MkAtomMap (IM.union x y) unionWith :: (a -> a -> a) -> AtomMap a -> AtomMap a -> AtomMap a unionWith f (MkAtomMap x) (MkAtomMap y) = MkAtomMap (IM.unionWith f x y) unions :: [AtomMap a] -> AtomMap a unions = MkAtomMap . IM.unions . Prelude.map fromAtomMap unionsWith :: (a -> a -> a) -> [AtomMap a] -> AtomMap a unionsWith f = MkAtomMap . IM.unionsWith f . Prelude.map fromAtomMap lookup :: Atom -> AtomMap a -> Maybe a lookup l = IM.lookup (fromAtom l) . fromAtomMap insert :: Atom -> a -> AtomMap a -> AtomMap a insert l v = MkAtomMap . IM.insert (fromAtom l) v . fromAtomMap insertWith :: (a -> a -> a) -> Atom -> a -> AtomMap a -> AtomMap a insertWith f l v = MkAtomMap . IM.insertWith f (fromAtom l) v . fromAtomMap member :: Atom -> AtomMap a -> Bool member l = IM.member (fromAtom l) . fromAtomMap keys :: AtomMap a -> [Atom] keys = Prelude.map unsafeIntToAtom . IM.keys . fromAtomMap keysSet :: AtomMap a -> AtomSet.AtomSet keysSet x = AtomSet.MkAtomSet (IM.keysSet (fromAtomMap x)) filter :: (a -> Bool) -> AtomMap a -> AtomMap a filter f = MkAtomMap . IM.filter f . fromAtomMap mapMaybe :: (a -> Maybe b) -> AtomMap a -> AtomMap b mapMaybe f = MkAtomMap . IM.mapMaybe f . fromAtomMap mapMaybeWithKey :: (Atom -> a -> Maybe b) -> AtomMap a -> AtomMap b mapMaybeWithKey f = MkAtomMap . IM.mapMaybeWithKey (f . unsafeIntToAtom) . fromAtomMap intersection :: AtomMap a -> AtomMap b -> AtomMap a intersection (MkAtomMap x) (MkAtomMap y) = MkAtomMap (IM.intersection x y) (!) :: AtomMap a -> Key -> a m ! k = (IM.!) (fromAtomMap m) (fromAtom k) (\\) :: AtomMap a -> AtomMap b -> AtomMap a (\\) (MkAtomMap x) (MkAtomMap y) = MkAtomMap ((IM.\\) x y) fromAscList :: [(Key,a)] -> AtomMap a fromAscList xs = fromList xs fromDistinctAscList :: [(Key,a)] -> AtomMap a fromDistinctAscList xs = fromList xs delete :: Key -> AtomMap a -> AtomMap a delete x y = MkAtomMap (IM.delete (fromAtom x) (fromAtomMap y)) adjust :: (a -> a) -> Key -> AtomMap a -> AtomMap a adjust x y z = MkAtomMap (IM.adjust ( x) (fromAtom y) (fromAtomMap z)) adjustWithKey :: (Key -> a -> a) -> Key -> AtomMap a -> AtomMap a adjustWithKey x y z = MkAtomMap (IM.adjustWithKey ((. unsafeIntToAtom) x) (fromAtom y) (fromAtomMap z)) assocs :: AtomMap a -> [(Key,a)] assocs x = map (\(k, v) -> (unsafeIntToAtom k, v)) (IM.assocs (fromAtomMap x)) difference :: AtomMap a -> AtomMap b -> AtomMap a difference x y = MkAtomMap (IM.difference (fromAtomMap x) (fromAtomMap y)) differenceWith :: (a -> b -> Maybe a) -> AtomMap a -> AtomMap b -> AtomMap a differenceWith x y z = MkAtomMap (IM.differenceWith ( x) (fromAtomMap y) (fromAtomMap z)) differenceWithKey :: (Key -> a -> b -> Maybe a) -> AtomMap a -> AtomMap b -> AtomMap a differenceWithKey x y z = MkAtomMap (IM.differenceWithKey ((. unsafeIntToAtom) x) (fromAtomMap y) (fromAtomMap z)) empty :: AtomMap a empty = MkAtomMap (IM.empty ) filterWithKey :: (Key -> a -> Bool) -> AtomMap a -> AtomMap a filterWithKey x y = MkAtomMap (IM.filterWithKey ((. unsafeIntToAtom) x) (fromAtomMap y)) findWithDefault :: a -> Key -> AtomMap a -> a findWithDefault x y z = (IM.findWithDefault ( x) (fromAtom y) (fromAtomMap z)) fold :: (a -> b -> b) -> b -> AtomMap a -> b fold x y z = (IM.fold ( x) ( y) (fromAtomMap z)) foldWithKey :: (Key -> a -> b -> b) -> b -> AtomMap a -> b foldWithKey x y z = (IM.foldWithKey ((. unsafeIntToAtom) x) ( y) (fromAtomMap z)) fromAscListWith :: (a -> a -> a) -> [(Key,a)] -> AtomMap a fromAscListWith x y = MkAtomMap (IM.fromAscListWith ( x) (map (\(k, v) -> (fromAtom k, v)) y)) fromAscListWithKey :: (Key -> a -> a -> a) -> [(Key,a)] -> AtomMap a fromAscListWithKey x y = MkAtomMap (IM.fromAscListWithKey ((. unsafeIntToAtom) x) (map (\(k, v) -> (fromAtom k, v)) y)) fromListWithKey :: (Key -> a -> a -> a) -> [(Key,a)] -> AtomMap a fromListWithKey x y = MkAtomMap (IM.fromListWithKey ((. unsafeIntToAtom) x) (map (\(k, v) -> (fromAtom k, v)) y)) insertLookupWithKey :: (Key -> a -> a -> a) -> Key -> a -> AtomMap a -> (Maybe a, AtomMap a) insertLookupWithKey x y z w = (\(x, y) -> (x, MkAtomMap y)) (IM.insertLookupWithKey ((. unsafeIntToAtom) x) (fromAtom y) ( z) (fromAtomMap w)) insertWithKey :: (Key -> a -> a -> a) -> Key -> a -> AtomMap a -> AtomMap a insertWithKey x y z w = MkAtomMap (IM.insertWithKey ((. unsafeIntToAtom) x) (fromAtom y) ( z) (fromAtomMap w)) intersectionWith :: (a -> b -> a) -> AtomMap a -> AtomMap b -> AtomMap a intersectionWith x y z = MkAtomMap (IM.intersectionWith ( x) (fromAtomMap y) (fromAtomMap z)) intersectionWithKey :: (Key -> a -> b -> a) -> AtomMap a -> AtomMap b -> AtomMap a intersectionWithKey x y z = MkAtomMap (IM.intersectionWithKey ((. unsafeIntToAtom) x) (fromAtomMap y) (fromAtomMap z)) isProperSubmapOf :: Eq a => AtomMap a -> AtomMap a -> Bool isProperSubmapOf x y = (IM.isProperSubmapOf (fromAtomMap x) (fromAtomMap y)) isProperSubmapOfBy :: (a -> b -> Bool) -> AtomMap a -> AtomMap b -> Bool isProperSubmapOfBy x y z = (IM.isProperSubmapOfBy ( x) (fromAtomMap y) (fromAtomMap z)) isSubmapOf :: Eq a => AtomMap a -> AtomMap a -> Bool isSubmapOf x y = (IM.isSubmapOf (fromAtomMap x) (fromAtomMap y)) isSubmapOfBy :: (a -> b -> Bool) -> AtomMap a -> AtomMap b -> Bool isSubmapOfBy x y z = (IM.isSubmapOfBy ( x) (fromAtomMap y) (fromAtomMap z)) mapAccum :: (a -> b -> (a,c)) -> a -> AtomMap b -> (a,AtomMap c) mapAccum x y z = (\(x, y) -> (x, MkAtomMap y)) (IM.mapAccum ( x) ( y) (fromAtomMap z)) mapAccumWithKey :: (a -> Key -> b -> (a,c)) -> a -> AtomMap b -> (a,AtomMap c) mapAccumWithKey x y z = (\(x, y) -> (x, MkAtomMap y)) (IM.mapAccumWithKey ((\f x y -> f x (unsafeIntToAtom y)) x) ( y) (fromAtomMap z)) mapEither :: (a -> Either b c) -> AtomMap a -> (AtomMap b, AtomMap c) mapEither x y = (\(x, y) -> (MkAtomMap x, MkAtomMap y)) (IM.mapEither ( x) (fromAtomMap y)) mapEitherWithKey :: (Key -> a -> Either b c) -> AtomMap a -> (AtomMap b, AtomMap c) mapEitherWithKey x y = (\(x, y) -> (MkAtomMap x, MkAtomMap y)) (IM.mapEitherWithKey ((. unsafeIntToAtom) x) (fromAtomMap y)) maxViewWithKey :: (Monad m) => AtomMap a -> m ((Key, a), AtomMap a) maxViewWithKey x = liftM (\((x, y), z) -> ((unsafeIntToAtom x, y), MkAtomMap z)) (IM.maxViewWithKey (fromAtomMap x)) minViewWithKey :: (Monad m) => AtomMap a -> m ((Key, a), AtomMap a) minViewWithKey x = liftM (\((x, y), z) -> ((unsafeIntToAtom x, y), MkAtomMap z)) (IM.minViewWithKey (fromAtomMap x)) notMember :: Key -> AtomMap a -> Bool notMember x y = (IM.notMember (fromAtom x) (fromAtomMap y)) partition :: (a -> Bool) -> AtomMap a -> (AtomMap a,AtomMap a) partition x y = (\(x, y) -> (MkAtomMap x, MkAtomMap y)) (IM.partition ( x) (fromAtomMap y)) partitionWithKey :: (Key -> a -> Bool) -> AtomMap a -> (AtomMap a,AtomMap a) partitionWithKey x y = (\(x, y) -> (MkAtomMap x, MkAtomMap y)) (IM.partitionWithKey ((. unsafeIntToAtom) x) (fromAtomMap y)) showTree :: Show a => AtomMap a -> String showTree x = (IM.showTree (fromAtomMap x)) showTreeWith :: Show a => Bool -> Bool -> AtomMap a -> String showTreeWith x y z = (IM.showTreeWith ( x) ( y) (fromAtomMap z)) singleton :: Key -> a -> AtomMap a singleton x y = MkAtomMap (IM.singleton (fromAtom x) ( y)) size :: AtomMap a -> Int size x = (IM.size (fromAtomMap x)) split :: Key -> AtomMap a -> (AtomMap a,AtomMap a) split x y = (\(x, y) -> (MkAtomMap x, MkAtomMap y)) (IM.split (fromAtom x) (fromAtomMap y)) splitLookup :: Key -> AtomMap a -> (AtomMap a,Maybe a,AtomMap a) splitLookup x y = (\(x, y, z) -> (MkAtomMap x, y, MkAtomMap z)) (IM.splitLookup (fromAtom x) (fromAtomMap y)) toAscList :: AtomMap a -> [(Key,a)] toAscList x = map (\(k, v) -> (unsafeIntToAtom k, v)) (IM.toAscList (fromAtomMap x)) unionWithKey :: (Key -> a -> a -> a) -> AtomMap a -> AtomMap a -> AtomMap a unionWithKey x y z = MkAtomMap (IM.unionWithKey ((. unsafeIntToAtom) x) (fromAtomMap y) (fromAtomMap z)) update :: (a -> Maybe a) -> Key -> AtomMap a -> AtomMap a update x y z = MkAtomMap (IM.update ( x) (fromAtom y) (fromAtomMap z)) updateLookupWithKey :: (Key -> a -> Maybe a) -> Key -> AtomMap a -> (Maybe a,AtomMap a) updateLookupWithKey x y z = (\(x, y) -> (x, MkAtomMap y)) (IM.updateLookupWithKey ((. unsafeIntToAtom) x) (fromAtom y) (fromAtomMap z)) updateMax :: (a -> a) -> AtomMap a -> AtomMap a updateMax x y = MkAtomMap (IM.updateMax ( x) (fromAtomMap y)) updateMaxWithKey :: (Key -> a -> a) -> AtomMap a -> AtomMap a updateMaxWithKey x y = MkAtomMap (IM.updateMaxWithKey ((. unsafeIntToAtom) x) (fromAtomMap y)) updateMin :: (a -> a) -> AtomMap a -> AtomMap a updateMin x y = MkAtomMap (IM.updateMin ( x) (fromAtomMap y)) updateMinWithKey :: (Key -> a -> a) -> AtomMap a -> AtomMap a updateMinWithKey x y = MkAtomMap (IM.updateMinWithKey ((. unsafeIntToAtom) x) (fromAtomMap y)) updateWithKey :: (Key -> a -> Maybe a) -> Key -> AtomMap a -> AtomMap a updateWithKey x y z = MkAtomMap (IM.updateWithKey ((. unsafeIntToAtom) x) (fromAtom y) (fromAtomMap z)) alter :: (Maybe a -> Maybe a) -> Key -> AtomMap a -> AtomMap a alter x y z = MkAtomMap (IM.alter ( x) (fromAtom y) (fromAtomMap z)) maxView :: (Monad m) => AtomMap a -> m (a, AtomMap a) maxView x = liftM (\(x, y) -> (x, MkAtomMap y)) (IM.maxView (fromAtomMap x)) minView :: (Monad m) => AtomMap a -> m (a, AtomMap a) minView x = liftM (\(x, y) -> (x, MkAtomMap y)) (IM.minView (fromAtomMap x)) findMax :: AtomMap a -> a findMax x = (IM.findMax (fromAtomMap x)) findMin :: AtomMap a -> a findMin x = (IM.findMin (fromAtomMap x)) deleteMax :: AtomMap a -> AtomMap a deleteMax x = MkAtomMap (IM.deleteMax (fromAtomMap x)) deleteMin :: AtomMap a -> AtomMap a deleteMin x = MkAtomMap (IM.deleteMin (fromAtomMap x)) deleteFindMax :: AtomMap a -> (a, AtomMap a) deleteFindMax x = (\(x, y) -> (x, MkAtomMap y)) (IM.deleteFindMax (fromAtomMap x)) deleteFindMin :: AtomMap a -> (a, AtomMap a) deleteFindMin x = (\(x, y) -> (x, MkAtomMap y)) (IM.deleteFindMin (fromAtomMap x))