{-# LANGUAGE TypeFamilies, FlexibleInstances, TypeOperators, MultiParamTypeClasses, FunctionalDependencies, UndecidableInstances, PatternGuards, IncoherentInstances, TypeOperators #-} module TrieMap.TrieAlgebraic where import Control.Arrow ((***)) import Data.Traversable import Data.Foldable import Data.Either import Data.Sequence (Seq) import Data.Maybe import Data.Monoid import Data.IntMap (IntMap) import Data.Map (Map) import qualified Data.Sequence as Seq import qualified Data.IntMap as IMap import qualified Data.Map as Map import Control.Monad import Control.Applicative hiding (Alternative(..), Const(..)) import GHC.Exts (build) import TrieMap.Applicative -- import TrieMap.Algebraic (Ordered (..)) import TrieMap.MapTypes import Prelude hiding (foldr, foldl, all, any) newtype Ordered k = Ord {unOrd :: k} deriving (Eq, Ord) instance Show k => Show (Ordered k) where show = show . unOrd showsPrec x = showsPrec x . unOrd instance Functor Ordered where fmap f (Ord x) = Ord (f x) type L a = Fix (Const () :+: (Const a :*: Id)) class EqT f => TrieKeyT f t | f -> t, t -> f where compareKeyT :: TrieKey k m => f k -> f k -> Ordering emptyT :: (Sized a, TrieKey k m) => t k m a nullT :: (Sized a, TrieKey k m) => t k m a -> Bool guardNullT :: (Sized a, TrieKey k m) => t k m a -> Maybe (t k m a) sizeT :: (Sized a, TrieKey k m) => t k m a -> Int getSingleT :: (Sized a, TrieKey k m) => t k m a -> Maybe (f k, a) alterLookupT :: (Sized a, TrieKey k m) => (Maybe a -> (b, Maybe a)) -> f k -> t k m a -> (b, t k m a) lookupT :: (Sized a, TrieKey k m) => f k -> t k m a -> Maybe a foldWithKeyT :: (TrieKey k m) => (f k -> a -> b -> b) -> b -> t k m a -> b mapAppT :: (Applicative g, Sized a, Sized b, TrieKey k m) => (f k -> a -> g b) -> t k m a -> g (t k m b) mapMaybeT :: (Sized a, Sized b, TrieKey k m) => (f k -> a -> Maybe b) -> t k m a -> t k m b mapEitherT :: (Sized a, Sized b, Sized c, TrieKey k m) => (f k -> a -> (Maybe b, Maybe c)) -> t k m a -> (t k m b, t k m c) unionT :: (Sized a, TrieKey k m) => (f k -> a -> a -> Maybe a) -> t k m a -> t k m a -> t k m a intersectT :: (Sized a, Sized b, Sized c, TrieKey k m) => (f k -> a -> b -> Maybe c) -> t k m a -> t k m b -> t k m c differenceT :: (Sized a, Sized b, TrieKey k m) => (f k -> a -> b -> Maybe a) -> t k m a -> t k m b -> t k m a fromDistAscListT :: (Sized a, TrieKey k m) => [(f k, a)] -> t k m a fromAscListT :: (Sized a, TrieKey k m) => (f k -> a -> a -> a) -> [(f k, a)] -> t k m a fromListT :: (Sized a, TrieKey k m) => (f k -> a -> a -> a) -> [(f k, a)] -> t k m a getMinT :: (Sized a, TrieKey k m) => t k m a -> Maybe ((f k, a), t k m a) getMaxT :: (Sized a, TrieKey k m) => t k m a -> Maybe ((f k, a), t k m a) updateMinT :: (Sized a, TrieKey k m) => (f k -> a -> (Bool, Maybe a)) -> t k m a -> (Bool, t k m a) updateMaxT :: (Sized a, TrieKey k m) => (f k -> a -> (Bool, Maybe a)) -> t k m a -> (Bool, t k m a) isSubmapT :: (Sized a, Sized b, TrieKey k m) => (a -> b -> Bool) -> t k m a -> t k m b -> Bool splitLookupT :: (Sized a, TrieKey k m) => (a -> (Maybe a, Maybe b, Maybe a)) -> f k -> t k m a -> (t k m a, Maybe b, t k m a) guardNullT m | nullT m = Nothing | otherwise = Just m eqKey :: TrieKey k m => k -> k -> Bool eqKey a b = compareKey a b == EQ eqKeyT :: (TrieKey k m, TrieKeyT f t) => f k -> f k -> Bool eqKeyT a b = compareKeyT a b == EQ -- | TrieKey defines a bijection between map types and algebraic key types. class Eq k => TrieKey k m | k -> m, m -> k where compareKey :: k -> k -> Ordering emptyAlg :: Sized a => m a nullAlg :: Sized a => m a -> Bool sizeAlg :: Sized a => m a -> Int getSingleAlg :: Sized a => m a -> Maybe (k, a) guardNullAlg :: Sized a => m a -> Maybe (m a) -- {-# SPECIALIZE alterAlg :: Sized v => (Maybe v -> Id (b, Maybe v)) -> a -> m v -> Id (b, m v) #-} alterLookupAlg :: Sized a => (Maybe a -> (b, Maybe a)) -> k -> m a -> (b, m a) lookupAlg :: Sized a => k -> m a -> Maybe a foldWithKeyAlg :: (k -> a -> b -> b) -> b -> m a -> b mapAppAlg :: (Applicative f, Sized a, Sized b) => (k -> a -> f b) -> m a -> f (m b) mapMaybeAlg :: (Sized a, Sized b) => (k -> a -> Maybe b) -> m a -> m b mapEitherAlg :: (Sized a, Sized b, Sized c) => (k -> a -> (Maybe b, Maybe c)) -> m a -> (m b, m c) unionMaybeAlg :: Sized a => (k -> a -> a -> Maybe a) -> m a -> m a -> m a intersectAlg :: (Sized a, Sized b, Sized c) => (k -> a -> b -> Maybe c) -> m a -> m b -> m c differenceAlg :: (Sized a, Sized b) => (k -> a -> b -> Maybe a) -> m a -> m b -> m a fromDistAscListAlg :: Sized a => [(k, a)] -> m a fromAscListAlg :: Sized a => (k -> a -> a -> a) -> [(k, a)] -> m a fromListAlg :: Sized a => (k -> a -> a -> a) -> [(k, a)] -> m a getMinAlg :: Sized a => m a -> Maybe ((k, a), m a) getMaxAlg :: Sized a => m a -> Maybe ((k, a), m a) updateMinAlg :: Sized a => (k -> a -> (Bool, Maybe a)) -> m a -> (Bool, m a) updateMaxAlg :: Sized a => (k -> a -> (Bool, Maybe a)) -> m a -> (Bool, m a) valid :: Sized a => m a -> Bool isSubmapAlg :: (Sized a, Sized b) => (a -> b -> Bool) -> m a -> m b -> Bool splitLookupAlg :: (Sized a) => (a -> (Maybe a, Maybe b, Maybe a)) -> k -> m a -> (m a, Maybe b, m a) lookupAlg k = fst . alterLookupAlg (\ v -> (v, v)) k guardNullAlg m | nullAlg m = Nothing | otherwise = Just m getSingleAlg m = do ((k, v), m') <- getMinAlg m guard (nullAlg m') return (k, v) fromListAlg f = foldr (\ (k, v) -> alterAlg (Just . maybe v (f k v)) k) emptyAlg fromAscListAlg _ [] = emptyAlg fromAscListAlg f ((k, v):xs) = fromDistAscListAlg (distinct k v xs) where distinct k v ((k', v'):xs) | k `eqKey` k' = distinct k (f k v v') xs | otherwise = (k, v):distinct k' v' xs distinct k v [] = [(k, v)] fromDistAscListAlg = fromListAlg' sizeAlg = foldWithKeyAlg (\ _ x n -> n + getSize x) 0 updateMinAlg f m = maybe (False, m) (\ ((k, v), m') -> maybe m' (\ v' -> insertAlg k v' m) <$> f k v) (getMinAlg m) updateMaxAlg f m = maybe (False, m) (\ ((k, v), m') -> maybe m' (\ v' -> insertAlg k v' m) <$> f k v) (getMaxAlg m) valid = (`seq` True) instance TrieKeyT f t => TrieKey (Fix f) (FixMap f t) where compareKey (Fix a) (Fix b) = compareKeyT a b emptyAlg = FixMap emptyT nullAlg (FixMap m) = nullT m sizeAlg (FixMap m) = sizeT m getSingleAlg (FixMap m) = do (k, v) <- getSingleT m return (Fix k, v) lookupAlg (Fix k) (FixMap m) = lookupT k m alterLookupAlg f (Fix k) (FixMap m) = FixMap <$> alterLookupT f k m foldWithKeyAlg f z (FixMap m) = foldWithKeyT (f . Fix) z m mapAppAlg f (FixMap m) = FixMap <$> mapAppT (f . Fix) m mapMaybeAlg f (FixMap m) = FixMap (mapMaybeT (f . Fix) m) mapEitherAlg f (FixMap m) = case mapEitherT (f . Fix) m of (mL, mR) -> (FixMap mL, FixMap mR) unionMaybeAlg f (FixMap m1) (FixMap m2) = FixMap (unionT (f . Fix) m1 m2) intersectAlg f (FixMap m1) (FixMap m2) = FixMap (intersectT (f . Fix) m1 m2) differenceAlg f (FixMap m1) (FixMap m2) = FixMap (differenceT (f . Fix) m1 m2) getMinAlg (FixMap m) = do (~(k, v), m') <- getMinT m return ((Fix k, v), FixMap m') getMaxAlg (FixMap m) = do (~(k, v), m') <- getMaxT m return ((Fix k, v), FixMap m') updateMinAlg f (FixMap m) = FixMap <$> updateMinT (f . Fix) m updateMaxAlg f (FixMap m) = FixMap <$> updateMaxT (f . Fix) m isSubmapAlg (<=) (FixMap m1) (FixMap m2) = isSubmapT (<=) m1 m2 splitLookupAlg f (Fix k) (FixMap m) = case splitLookupT f k m of (mL, ans, mR) -> (FixMap mL, ans, FixMap mR) instance (Sized a, TrieKey k m) => Sized (m a) where getSize = sizeAlg instance (Sized a, TrieKey k m, TrieKeyT f t) => Sized (t k m a) where getSize = sizeT fromListAlg' :: (Sized v, TrieKey k m) => [(k, v)] -> m v fromListAlg' = fromListAlg (const const) singletonAlg :: (Sized v, TrieKey k m) => k -> v -> m v singletonAlg k v = insertAlg k v emptyAlg mapWithKeyAlg :: (Sized v, Sized w, TrieKey k m) => (k -> v -> w) -> m v -> m w mapWithKeyAlg f m = unId (mapAppAlg (\ k v -> Id (f k v)) m) mapWithKeyT :: (Sized v, Sized w, TrieKeyT f t, TrieKey k m) => (f k -> v -> w) -> t k m v -> t k m w mapWithKeyT f m = unId (mapAppT (\ k v -> Id (f k v)) m) mapAlg :: (Sized v, Sized w, TrieKey k m) => (v -> w) -> m v -> m w mapAlg = mapWithKeyAlg . const mapT :: (Sized v, Sized w, TrieKeyT f t, TrieKey k m) => (v -> w) -> t k m v -> t k m w mapT = mapWithKeyT . const -- mapMaybeWithKeyAlg :: TrieKey k m => (k -> v -> Maybe w) -> m v -> m w -- mapMaybeWithKeyAlg f m = unId (mapAppMaybeAlg (\ k v -> Id (f k v)) m) insertAlg :: (Sized v, TrieKey k m) => k -> v -> m v -> m v insertAlg k v = alterAlg (const (Just v)) k insertT :: (Sized v, TrieKey k m, TrieKeyT f t) => f k -> v -> t k m v -> t k m v insertT k v = alterT (const (Just v)) k alterAlg :: (Sized v, TrieKey k m) => (Maybe v -> Maybe v) -> k -> m v -> m v alterAlg f k = snd . alterLookupAlg (\ x -> ((), f x)) k alterT :: (Sized v, TrieKey k m, TrieKeyT f t) => (Maybe v -> Maybe v) -> f k -> t k m v -> t k m v alterT f k = snd . alterLookupT (\ x -> ((), f x)) k -- alterLookupAlg :: TrieKey k m => (Maybe a -> (b, Maybe a)) -> k -> m a -> (b, m a) -- alterLookupAlg f = unId .: alterAppAlg (Id . f) foldrAlg :: (Sized a, TrieKey k m) => (a -> b -> b) -> b -> m a -> b foldrAlg = foldWithKeyAlg . const unionMaybe :: (a -> a -> Maybe a) -> Maybe a -> Maybe a -> Maybe a unionMaybe f (Just x) (Just y) = f x y unionMaybe _ Nothing y = y unionMaybe _ x Nothing = x intersectMaybe :: (a -> b -> Maybe c) -> Maybe a -> Maybe b -> Maybe c intersectMaybe f (Just x) (Just y) = f x y intersectMaybe _ _ _ = Nothing differenceMaybe :: (a -> b -> Maybe a) -> Maybe a -> Maybe b -> Maybe a differenceMaybe _ Nothing _ = Nothing differenceMaybe _ x Nothing = x differenceMaybe f (Just x) (Just y) = f x y filterLeft :: a -> Either b c -> Maybe b filterLeft _ (Left x) = Just x filterLeft _ _ = Nothing filterRight :: a -> Either b c -> Maybe c filterRight _ (Right x) = Just x filterRight _ _ = Nothing {-# INLINE assocsAlg #-} assocsAlg :: (TrieKey k m) => m a -> [(k, a)] assocsAlg m = build (\ c n -> foldWithKeyAlg (\ k v xs -> (k,v) `c` xs) n m) instance (TrieKeyT f1 t1, TrieKeyT f2 t2) => TrieKeyT (f1 :*: f2) (t1 `ProdMap` t2) where compareKeyT (a :*: x) (b :*: y) = compareKeyT a b `mappend` compareKeyT x y emptyT = PMap emptyT nullT (PMap m) = nullT m sizeT (PMap m) = sizeT m getSingleT (PMap m) = do (k1, m') <- getSingleT m (k2, v) <- getSingleT m' return (k1 :*: k2, v) lookupT (k1 :*: k2) (PMap m) = lookupT k1 m >>= lookupT k2 alterLookupT f (k1 :*: k2) (PMap m) = PMap <$> alterLookupT g k1 m where g = fmap guardNullT . alterLookupT f k2 . fromMaybe emptyT foldWithKeyT f z (PMap m) = foldWithKeyT (\ k1 -> flip (foldWithKeyT (\ k2 -> f (k1 :*: k2)))) z m mapAppT f (PMap m) = PMap <$> mapAppT (\ k1 -> mapAppT (\ k2 -> f (k1 :*: k2))) m mapMaybeT f (PMap m) = PMap (mapMaybeT (\ k1 -> guardNullT . mapMaybeT (\ k2 -> f (k1 :*: k2))) m) mapEitherT f (PMap m) = (PMap *** PMap) (mapEitherT (\ k1 -> (guardNullT *** guardNullT) . mapEitherT (\ k2 -> f (k1 :*: k2))) m) unionT f (PMap m1) (PMap m2) = PMap (unionT (\ k1 -> guardNullT .: unionT (\ k2 -> f (k1 :*: k2))) m1 m2) intersectT f (PMap m1) (PMap m2) = PMap (intersectT (\ k1 -> guardNullT .: intersectT (\ k2 -> f (k1 :*: k2))) m1 m2) differenceT f (PMap m1) (PMap m2) = PMap (differenceT (\ k1 -> guardNullT .: differenceT (\ k2 -> f (k1 :*: k2))) m1 m2) fromListT f xs = PMap $ mapWithKeyT (\ k1 (Elem xs) -> fromListT (\ k2 -> f (k1 :*: k2)) xs) $ fromListT (\ _ (Elem x) (Elem y) -> Elem (x ++ y)) [(k1, Elem [(k2, v)]) | ((k1 :*: k2), v) <- xs] fromDistAscListT xs = PMap $ fromDistAscListT [(k1, fromDistAscListT ys) | (k1, ys) <- breakFst eqKeyT xs] fromAscListT f xs = PMap $ fromDistAscListT [(k1, fromAscListT (\ k2 -> f (k1 :*: k2)) ys) | (k1, ys) <- breakFst eqKeyT xs] getMinT (PMap m) = do ((k1, m'), m1') <- getMinT m ((k2, v), m2') <- getMinT m' return ((k1 :*: k2, v), PMap (maybe m1' (\ m2' -> insertT k1 m2' m) (guardNullT m2'))) getMaxT (PMap m) = do ((k1, m'), m1') <- getMaxT m ((k2, v), m2') <- getMaxT m' return ((k1 :*: k2, v), PMap (maybe m1' (\ m2' -> insertT k1 m2' m) (guardNullT m2'))) updateMinT f (PMap m) = PMap <$> updateMinT (\ k1 -> guardNullT <.> updateMinT (\ k2 -> f (k1 :*: k2))) m updateMaxT f (PMap m) = PMap <$> updateMaxT (\ k1 -> guardNullT <.> updateMaxT (\ k2 -> f (k1 :*: k2))) m isSubmapT (<=) (PMap m1) (PMap m2) = isSubmapT (isSubmapT (<=)) m1 m2 splitLookupT f (k1 :*: k2) (PMap m) = case splitLookupT g k1 m of (mL, ans, mR) -> (PMap mL, ans, PMap mR) where g m' = case splitLookupT f k2 m' of (mL, ans, mR) -> (guardNullT mL, ans, guardNullT mR) instance (Eq (f1 k), Eq (f2 k), TrieKey k m, TrieKeyT f1 t1, TrieKeyT f2 t2) => TrieKey ((f1 :*: f2) k) (ProdMap t1 t2 k m) where compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT breakFst :: (f1 k -> f1 k -> Bool) -> [((f1 :*: f2) k, v)] -> [(f1 k, [(f2 k, v)])] breakFst _ [] = [] breakFst eq (((k1 :*: k2), x):xs) = breakFst' k1 (Seq.singleton (k2, x)) xs where breakFst' k xs (((k' :*: k2), x):xss) | k `eq` k' = breakFst' k ((Seq.|>) xs (k2, x)) xss | otherwise = (k, toList xs):breakFst' k' (Seq.singleton (k2, x)) xss breakFst' k xs [] = [(k, toList xs)] instance (TrieKeyT f1 t1, TrieKeyT f2 t2) => TrieKeyT (f1 :+: f2) (UnionMap t1 t2) where compareKeyT (A a) (A b) = compareKeyT a b compareKeyT (B x) (B y) = compareKeyT x y compareKeyT A{} B{} = LT compareKeyT B{} A{} = GT emptyT = UMap emptyT emptyT nullT (UMap m1 m2) = nullT m1 && nullT m2 getSingleT (UMap m1 m2) = case (getSingleT m1, getSingleT m2) of (Just (k, v), Nothing) -> Just (A k, v) (Nothing, Just (k, v)) -> Just (B k, v) _ -> Nothing sizeT (UMap m1 m2) = sizeT m1 + sizeT m2 lookupT (A k) (UMap m1 _) = lookupT k m1 lookupT (B k) (UMap _ m2) = lookupT k m2 alterLookupT f (A k) (UMap m1 m2) = (`UMap` m2) <$> alterLookupT f k m1 alterLookupT f (B k) (UMap m1 m2) = UMap m1 <$> alterLookupT f k m2 foldWithKeyT f z (UMap m1 m2) = foldWithKeyT (f . A) (foldWithKeyT (f . B) z m2) m1 mapAppT f (UMap m1 m2) = UMap <$> mapAppT (f . A) m1 <*> mapAppT (f . B) m2 mapMaybeT f (UMap m1 m2) = UMap (mapMaybeT (f . A) m1) (mapMaybeT (f . B) m2) mapEitherT f (UMap m1 m2) = (UMap m1L m2L, UMap m1R m2R) where (m1L, m1R) = mapEitherT (f . A) m1 (m2L, m2R) = mapEitherT (f . B) m2 unionT f (UMap m11 m12) (UMap m21 m22) = UMap (unionT (f . A) m11 m21) (unionT (f . B) m12 m22) intersectT f (UMap m11 m12) (UMap m21 m22) = UMap (intersectT (f . A) m11 m21) (intersectT (f . B) m12 m22) differenceT f (UMap m11 m12) (UMap m21 m22) = UMap (differenceT (f . A) m11 m21) (differenceT (f . B) m12 m22) getMinT (UMap m1 m2) | Just ~(~(k, v), m1') <- getMinT m1 = Just ((A k, v), UMap m1' m2) | Just ~(~(k, v), m2') <- getMinT m2 = Just ((B k, v), UMap m1 m2') | otherwise = Nothing getMaxT (UMap m1 m2) | Just ~(~(k, v), m2') <- getMaxT m2 = Just ((B k, v), UMap m1 m2') | Just ~(~(k, v), m1') <- getMaxT m1 = Just ((A k, v), UMap m1' m2) | otherwise = Nothing updateMinT f (UMap m1 m2) | nullT m1 = UMap m1 <$> updateMinT (f . B) m2 | otherwise = (`UMap` m2) <$> updateMinT (f . A) m1 updateMaxT f (UMap m1 m2) | nullT m2 = (`UMap` m2) <$> updateMaxT (f . A) m1 | otherwise = UMap m1 <$> updateMaxT (f . B) m2 fromDistAscListT xs = UMap (fromDistAscListT ys) (fromDistAscListT zs) where (ys, zs) = partitionEithers' (map pullEither xs) fromAscListT f xs = UMap (fromAscListT (f . A) ys) (fromAscListT (f . B) zs) where (ys, zs) = partitionEithers' (map pullEither xs) fromListT f xs = UMap (fromListT (f . A) ys) (fromListT (f . B) zs) where (ys, zs) = partitionEithers' (map pullEither xs) isSubmapT (<=) (UMap m11 m12) (UMap m21 m22) = isSubmapT (<=) m11 m21 && isSubmapT (<=) m12 m22 splitLookupT f (A k) (UMap m1 m2) = case splitLookupT f k m1 of (m1L, ans, m1R) -> (UMap m1L emptyT, ans, UMap m1R m2) splitLookupT f (B k) (UMap m1 m2) = case splitLookupT f k m2 of (m2L, ans, m2R) -> (UMap m1 m2L, ans, UMap emptyT m2R) instance (Eq (f1 k), Eq (f2 k), TrieKey k m, TrieKeyT f1 t1, TrieKeyT f2 t2) => TrieKey ((f1 :+: f2) k) (UnionMap t1 t2 k m) where compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT instance TrieKey k m => TrieKeyT ((,) k) (CProdMap m) where compareKeyT (a, x) (b, y) = compareKey a b `mappend` compareKey x y emptyT = CPMap emptyAlg nullT (CPMap m) = nullAlg m getSingleT (CPMap m) = do (k1, m') <- getSingleAlg m (k2, v) <- getSingleAlg m' return ((k1, k2), v) guardNullT (CPMap m) = CPMap <$> guardNullAlg m sizeT (CPMap m) = sizeAlg m lookupT (k1, k2) (CPMap m) = lookupAlg k1 m >>= lookupAlg k2 alterLookupT f (k1, k2) (CPMap m) = CPMap <$> alterLookupAlg g k1 m where g = guardNullAlg <.> alterLookupAlg f k2 . fromMaybe emptyAlg foldWithKeyT f z (CPMap m) = foldWithKeyAlg (\ k1 -> flip $ foldWithKeyAlg (\ k2 -> f (k1, k2))) z m mapAppT f (CPMap m) = CPMap <$> mapAppAlg (\ k1 -> mapAppAlg (\ k2 -> f (k1, k2))) m mapMaybeT f (CPMap m) = CPMap (mapMaybeAlg (\ k1 -> guardNullAlg . mapMaybeAlg (\ k2 -> f (k1, k2))) m) mapEitherT f (CPMap m) = (CPMap *** CPMap) (mapEitherAlg (\ k1 -> (guardNullAlg *** guardNullAlg) . mapEitherAlg (\ k2 -> f (k1, k2))) m) unionT f (CPMap m1) (CPMap m2) = CPMap (unionMaybeAlg (\ k1 -> guardNullAlg .: unionMaybeAlg (\ k2 -> f (k1, k2))) m1 m2) intersectT f (CPMap m1) (CPMap m2) = CPMap (intersectAlg (\ k1 -> guardNullAlg .: intersectAlg (\ k2 -> f (k1, k2))) m1 m2) differenceT f (CPMap m1) (CPMap m2) = CPMap (differenceAlg (\ k1 -> guardNullAlg .: differenceAlg (\ k2 -> f (k1, k2))) m1 m2) getMinT (CPMap m) = do ((k1, m1), m') <- getMinAlg m ((k2, v), m1') <- getMinAlg m1 return (((k1, k2), v), CPMap $ maybe m' (\ m1' -> snd $ updateMinAlg (\ _ _ -> (False, Just m1')) m) (guardNullAlg m1')) getMaxT (CPMap m) = do ((k1, m1), m') <- getMaxAlg m ((k2, v), m1') <- getMaxAlg m1 return (((k1, k2), v), CPMap $ maybe m' (\ m1' -> snd $ updateMaxAlg (\ _ _ -> (False, Just m1')) m) (guardNullAlg m1')) updateMinT f (CPMap m) = CPMap <$> updateMinAlg (\ k1 -> guardNullAlg <.> updateMinAlg (\ k2 -> f (k1, k2))) m updateMaxT f (CPMap m) = CPMap <$> updateMaxAlg (\ k1 -> guardNullAlg <.> updateMaxAlg (\ k2 -> f (k1, k2))) m isSubmapT (<=) (CPMap m1) (CPMap m2) = isSubmapAlg (isSubmapAlg (<=)) m1 m2 splitLookupT f (k1, k2) (CPMap m) = case splitLookupAlg g k1 m of (mL, ans, mR) -> (CPMap mL, ans, CPMap mR) where g m = case splitLookupAlg f k2 m of (mL, ans, mR) -> (guardNullAlg mL, ans, guardNullAlg mR) fromDistAscListT xs = CPMap (fromDistAscListAlg [(k1, fromDistAscListAlg ys) | (k1, ys) <- breakFst' (==) xs]) fromAscListT f xs = CPMap (fromDistAscListAlg [(k1, fromAscListAlg (\ k2 -> f (k1, k2)) ys) | (k1, ys) <- breakFst' (==) xs]) fromListT f xs = CPMap (mapWithKeyAlg (\ k1 (Elem ys) -> fromListAlg (\ k2 -> f (k1, k2)) ys) $ fromListAlg (\ _ (Elem ys) (Elem zs) -> Elem (ys ++ zs)) [(k1, Elem [(k2, v)]) | ((k1, k2), v) <- xs]) breakFst' :: (k1 -> k1 -> Bool) -> [((k1, k2), v)] -> [(k1, [(k2, v)])] breakFst' _ [] = [] breakFst' eq (((k1, k2), x):xs) = breakFst'' k1 (Seq.singleton (k2, x)) xs where breakFst'' k xs (((k', k2), x):xss) | k `eq` k' = breakFst'' k ((Seq.|>) xs (k2, x)) xss | otherwise = (k, toList xs):breakFst'' k' (Seq.singleton (k2, x)) xss breakFst'' k xs [] = [(k, toList xs)] instance (TrieKey k1 m1, TrieKey k2 m2) => TrieKey (k1, k2) (CProdMap m1 k2 m2) where compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT instance TrieKey k m => TrieKeyT (Either k) (CUnionMap m) where {-# SPECIALIZE instance TrieKeyT (Either ()) (CUnionMap Maybe) #-} compareKeyT (Left a) (Left b) = compareKey a b compareKeyT (Right a) (Right b) = compareKey a b compareKeyT Left{} Right{} = LT compareKeyT Right{} Left{} = GT emptyT = CUMap emptyAlg emptyAlg nullT (CUMap m1 m2) = nullAlg m1 && nullAlg m2 sizeT (CUMap m1 m2) = sizeAlg m1 + sizeAlg m2 getSingleT (CUMap m1 m2) = case (getSingleAlg m1, getSingleAlg m2) of (Just (k, v), Nothing) -> Just (Left k, v) (Nothing, Just (k, v)) -> Just (Right k, v) _ -> Nothing lookupT k (CUMap m1 m2) = either (`lookupAlg` m1) (`lookupAlg` m2) k alterLookupT f (Left k) (CUMap m1 m2) = (`CUMap` m2) <$> alterLookupAlg f k m1 alterLookupT f (Right k) (CUMap m1 m2) = CUMap m1 <$> alterLookupAlg f k m2 foldWithKeyT f z (CUMap m1 m2) = foldWithKeyAlg (f . Left) (foldWithKeyAlg (f . Right) z m2) m1 mapAppT f (CUMap m1 m2) = CUMap <$> mapAppAlg (f . Left) m1 <*> mapAppAlg (f . Right) m2 mapMaybeT f (CUMap m1 m2) = CUMap (mapMaybeAlg (f . Left) m1) (mapMaybeAlg (f . Right) m2) mapEitherT f (CUMap m1 m2) = (CUMap m1L m2L, CUMap m1R m2R) where (m1L, m1R) = mapEitherAlg (f . Left) m1 (m2L, m2R) = mapEitherAlg (f . Right) m2 unionT f (CUMap m11 m12) (CUMap m21 m22) = CUMap (unionMaybeAlg (f . Left) m11 m21) (unionMaybeAlg (f . Right) m12 m22) intersectT f (CUMap m11 m12) (CUMap m21 m22) = CUMap (intersectAlg (f . Left) m11 m21) (intersectAlg (f . Right) m12 m22) differenceT f (CUMap m11 m12) (CUMap m21 m22) = CUMap (differenceAlg (f . Left) m11 m21) (differenceAlg (f . Right) m12 m22) isSubmapT (<=) (CUMap m11 m12) (CUMap m21 m22) = isSubmapAlg (<=) m11 m21 && isSubmapAlg (<=) m12 m22 splitLookupT f (Left k) (CUMap m1 m2) = case splitLookupAlg f k m1 of (m1L, ans, m1R) -> (CUMap m1L emptyAlg, ans, CUMap m1R m2) splitLookupT f (Right k) (CUMap m1 m2) = case splitLookupAlg f k m2 of (m2L, ans, m2R) -> (CUMap m1 m2L, ans, CUMap emptyAlg m2R) getMinT (CUMap m1 m2) = case (getMinAlg m1, getMinAlg m2) of (Just ((k, v), m1'), _) -> Just ((Left k, v), CUMap m1' m2) (_, Just ((k, v), m2')) -> Just ((Right k, v), CUMap m1 m2') _ -> Nothing getMaxT (CUMap m1 m2) = case (getMaxAlg m1, getMaxAlg m2) of (_, Just ((k, v), m2')) -> Just ((Right k, v), CUMap m1 m2') (Just ((k, v), m1'), _) -> Just ((Left k, v), CUMap m1' m2) _ -> Nothing updateMinT f (CUMap m1 m2) | nullAlg m1 = CUMap m1 <$> updateMinAlg (f . Right) m2 | otherwise = (`CUMap` m2) <$> updateMinAlg (f . Left) m1 updateMaxT f (CUMap m1 m2) | nullAlg m2 = (`CUMap` m2) <$> updateMaxAlg (f . Left) m1 | otherwise = CUMap m1 <$> updateMaxAlg (f . Right) m2 fromListT f xs = CUMap (fromListAlg (f . Left) ys) (fromListAlg (f . Right) zs) where (ys, zs) = partitionEithers (map pullEither' xs) fromAscListT f xs = CUMap (fromAscListAlg (f . Left) ys) (fromAscListAlg (f . Right) zs) where (ys, zs) = partitionEithers (map pullEither' xs) fromDistAscListT xs = CUMap (fromDistAscListAlg ys) (fromDistAscListAlg zs) where (ys, zs) = partitionEithers (map pullEither' xs) instance (TrieKey k1 m1, TrieKey k2 m2) => TrieKey (Either k1 k2) (CUnionMap m1 k2 m2) where {-# SPECIALIZE instance TrieKey k m => TrieKey (Either () k) (CUnionMap Maybe k m) #-} compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT partitionEithers' :: [Either a b] -> ([a], [b]) partitionEithers' = foldr part ([], []) where part (Left x) (xs, ys) = (x:xs, ys) part (Right y) (xs, ys) = (xs, y:ys) pullEither :: ((f1 :+: f2) k, v) -> Either (f1 k, v) (f2 k, v) pullEither (A k, v) = Left (k, v) pullEither (B k, v) = Right (k, v) pullEither' :: (Either k1 k2, v) -> Either (k1, v) (k2, v) pullEither' (Left k, v) = Left (k, v) pullEither' (Right k, v) = Right (k, v) instance TrieKey k m => TrieKeyT (Const k) (ConstMap m) where compareKeyT (Const a) (Const b) = compareKey a b emptyT = ConstMap emptyAlg nullT (ConstMap m) = nullAlg m sizeT (ConstMap m) = sizeAlg m getSingleT (ConstMap m) = do (k, v) <- getSingleAlg m return (Const k, v) lookupT (Const k) (ConstMap m) = lookupAlg k m alterLookupT f (Const k) (ConstMap m) = ConstMap <$> alterLookupAlg f k m foldWithKeyT f z (ConstMap m) = foldWithKeyAlg (f . Const) z m mapAppT f (ConstMap m) = ConstMap <$> mapAppAlg (f . Const) m mapMaybeT f (ConstMap m) = ConstMap (mapMaybeAlg (f . Const) m) mapEitherT f (ConstMap m) = case mapEitherAlg (f . Const) m of (mL, mR) -> (ConstMap mL, ConstMap mR) unionT f (ConstMap m1) (ConstMap m2) = ConstMap (unionMaybeAlg (f . Const) m1 m2) intersectT f (ConstMap m1) (ConstMap m2) = ConstMap (intersectAlg (f . Const) m1 m2) differenceT f (ConstMap m1) (ConstMap m2) = ConstMap (differenceAlg (f . Const) m1 m2) fromDistAscListT xs = ConstMap (fromDistAscListAlg [(k, v) | (Const k, v) <- xs]) fromAscListT f xs = ConstMap (fromAscListAlg (f . Const) [(k, v) | (Const k, v) <- xs]) fromListT f xs = ConstMap (fromListAlg (f . Const) [(k, v) | (Const k, v) <- xs]) getMinT (ConstMap m) = do (~(k, v), m') <- getMinAlg m return ((Const k, v), ConstMap m') getMaxT (ConstMap m) = do (~(k, v), m') <- getMaxAlg m return ((Const k, v), ConstMap m') updateMinT f (ConstMap m) = ConstMap <$> updateMinAlg (f . Const) m updateMaxT f (ConstMap m) = ConstMap <$> updateMaxAlg (f . Const) m isSubmapT (<=) (ConstMap m1) (ConstMap m2) = isSubmapAlg (<=) m1 m2 splitLookupT f (Const k) (ConstMap m) = case splitLookupAlg f k m of (mL, ans, mR) -> (ConstMap mL, ans, ConstMap mR) instance (TrieKey k m, TrieKey k' m') => TrieKey (Const k k') (ConstMap m k' m') where compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT instance TrieKeyT Id IdMap where compareKeyT (Id a) (Id b) = compareKey a b emptyT = IdMap emptyAlg nullT (IdMap m) = nullAlg m sizeT (IdMap m) = sizeAlg m getSingleT (IdMap m) = do (k, v) <- getSingleAlg m return (Id k, v) lookupT (Id k) (IdMap m) = lookupAlg k m alterLookupT f (Id k) (IdMap m) = IdMap <$> alterLookupAlg f k m foldWithKeyT f z (IdMap m) = foldWithKeyAlg (f . Id) z m mapAppT f (IdMap m) = IdMap <$> mapAppAlg (f . Id) m mapMaybeT f (IdMap m) = IdMap (mapMaybeAlg (f . Id) m) mapEitherT f (IdMap m) = case mapEitherAlg (f . Id) m of (mL, mR) -> (IdMap mL, IdMap mR) unionT f (IdMap m1) (IdMap m2) = IdMap (unionMaybeAlg (f . Id) m1 m2) intersectT f (IdMap m1) (IdMap m2) = IdMap (intersectAlg (f . Id) m1 m2) differenceT f (IdMap m1) (IdMap m2) = IdMap (differenceAlg (f . Id) m1 m2) fromDistAscListT xs = IdMap (fromDistAscListAlg [(k, v) | (Id k, v) <- xs]) fromAscListT f xs = IdMap (fromAscListAlg (f . Id) [(k, v) | (Id k, v) <- xs]) fromListT f xs = IdMap (fromListAlg (f . Id) [(k, v) | (Id k, v) <- xs]) getMinT (IdMap m) = do (~(k, v), m') <- getMinAlg m return ((Id k, v), IdMap m') getMaxT (IdMap m) = do (~(k, v), m') <- getMaxAlg m return ((Id k, v), IdMap m') updateMinT f (IdMap m) = IdMap <$> updateMinAlg (f . Id) m updateMaxT f (IdMap m) = IdMap <$> updateMaxAlg (f . Id) m isSubmapT (<=) (IdMap m1) (IdMap m2) = isSubmapAlg (<=) m1 m2 splitLookupT f (Id k) (IdMap m) = case splitLookupAlg f k m of (mL, ans, mR) -> (IdMap mL, ans, IdMap mR) instance TrieKey k m => TrieKey (Id k) (IdMap k m) where compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT -- instance (Sized k, TrieKey k m) => TrieKey (SizeElem k) (SizedMap k m) where -- compareKey (SElem a) (SElem b) = compareKey a b -- emptyAlg = SizedMap emptyAlg -- nullAlg (SizedMap m) = nullAlg m -- sizeAlg (SizedMap m) = sizeAlg m -- getSingleAlg (SizedMap m) = do -- (k, v) <- getSingleAlg m -- return (SElem k, v) -- lookupAlg (SElem k) (SizedMap m) = lookupAlg k m -- alterLookupAlg f (SElem k) (SizedMap m) = SizedMap <$> alterLookupAlg f k m -- foldWithKeyAlg f z (SizedMap m) = foldWithKeyAlg (f . SElem) z m -- mapAppAlg f (SizedMap m) = SizedMap <$> mapAppAlg (f . SElem) m -- mapMaybeAlg f (SizedMap m) = SizedMap (mapMaybeAlg (f . SElem) m) -- mapEitherAlg f (SizedMap m) = case mapEitherAlg (f . SElem) m of -- (mL, mR) -> (SizedMap mL, SizedMap mR) -- unionMaybeAlg f (SizedMap m1) (SizedMap m2) = SizedMap (unionMaybeAlg (f . SElem) m1 m2) -- intersectAlg f (SizedMap m1) (SizedMap m2) = SizedMap (intersectAlg (f . SElem) m1 m2) -- differenceAlg f (SizedMap m1) (SizedMap m2) = SizedMap (differenceAlg (f . SElem) m1 m2) -- fromDistAscListAlg xs = SizedMap (fromDistAscListAlg [(k, v) | (SElem k, v) <- xs]) -- fromAscListAlg f xs = SizedMap (fromAscListAlg (f . SElem) [(k, v) | (SElem k, v) <- xs]) -- fromListAlg f xs = SizedMap (fromListAlg (f . SElem) [(k, v) | (SElem k, v) <- xs]) -- getMinAlg (SizedMap m) = do -- (~(k, v), m') <- getMinAlg m -- return ((SElem k, v), SizedMap m') -- getMaxAlg (SizedMap m) = do -- (~(k, v), m') <- getMaxAlg m -- return ((SElem k, v), SizedMap m') -- updateMinAlg f (SizedMap m) = SizedMap <$> updateMinAlg (f . SElem) m -- updateMaxAlg f (SizedMap m) = SizedMap <$> updateMaxAlg (f . SElem) m -- isSubmapAlg (<=) (SizedMap m1) (SizedMap m2) = isSubmapAlg (<=) m1 m2 -- splitLookupAlg f (SElem k) (SizedMap m) = case splitLookupAlg f k m of -- (mL, ans, mR) -> (SizedMap mL, ans, SizedMap mR) instance TrieKey Int IntMap where compareKey = compare emptyAlg = IMap.empty nullAlg = IMap.null getSingleAlg m | IMap.size m == 1, [(k, v)] <- IMap.toList m = Just (k, v) getSingleAlg _ = Nothing lookupAlg = IMap.lookup alterLookupAlg f k m = fmap (\ v' -> IMap.alter (const v') k m) (f x) where x = IMap.lookup k m foldWithKeyAlg = IMap.foldWithKey mapAppAlg = sequenceA .: IMap.mapWithKey mapMaybeAlg = IMap.mapMaybeWithKey mapEitherAlg f m = (IMap.mapMaybeWithKey (fst .: f) m, IMap.mapMaybeWithKey (snd .: f) m) unionMaybeAlg f m1 m2 = IMap.mapMaybe (either Just id) (IMap.unionWithKey g (fmap Left m1) (fmap Left m2)) where g k (Left v1) (Left v2) = Right (f k v1 v2) g k (Right v) _ = Right v g k _ (Right v) = Right v intersectAlg f m1 m2 = IMap.mapMaybe (either (const Nothing) Just) $ IMap.intersectionWithKey g (fmap Left m1) m2 where g k (Left x) = maybe (Left x) Right . f k x g _ (Right x) = const (Right x) differenceAlg = IMap.differenceWithKey fromListAlg = IMap.fromListWithKey fromAscListAlg = IMap.fromAscListWithKey fromDistAscListAlg = IMap.fromDistinctAscList getMinAlg = IMap.minViewWithKey getMaxAlg = IMap.maxViewWithKey updateMinAlg f m = case IMap.minViewWithKey m of Just ((k, v), m') -> let (ans, v') = f k v in (ans, maybe m' (\ v' -> IMap.updateMin (const v') m) v') _ -> (False, m) updateMaxAlg f m = case IMap.maxViewWithKey m of Just ((k, v), m') -> let (ans, v') = f k v in (ans, maybe m' (\ v' -> IMap.updateMax (const v') m) v') _ -> (False, m) isSubmapAlg = IMap.isSubmapOfBy splitLookupAlg f k m = case IMap.splitLookup k m of (mL, Nothing, mR) -> (mL, Nothing, mR) (mL, Just v, mR) -> case f v of (vL, ans, vR) -> (maybe mL (flip (IMap.insert k) mL) vL, ans, maybe mR (flip (IMap.insert k) mR) vR) instance Ord k => TrieKey (Ordered k) (Map k) where compareKey = compare emptyAlg = Map.empty nullAlg = Map.null -- sizeAlg = foldl' (\ n x -> n + getSize x) 0 getSingleAlg m | Map.size m == 1, (k, v) <- Map.findMin m = Just (Ord k, v) lookupAlg = Map.lookup . unOrd alterLookupAlg f (Ord k) m = fmap (\ v -> Map.alter (const v) k m) (f x) where x = Map.lookup k m foldWithKeyAlg f = Map.foldWithKey (f . Ord) mapAppAlg f = sequenceA . Map.mapWithKey (f . Ord) mapMaybeAlg f = Map.mapMaybeWithKey (f . Ord) mapEitherAlg f m = (Map.mapMaybeWithKey (fst .: f . Ord) m, Map.mapMaybeWithKey (snd .: f . Ord) m) unionMaybeAlg f m1 m2 = Map.mapMaybe (either Just id) (Map.unionWithKey g (fmap Left m1) (fmap Left m2)) where g k (Left v1) (Left v2) = Right (f (Ord k) v1 v2) g k (Right v) _ = Right v g k _ (Right v) = Right v intersectAlg f = Map.mapMaybe id .: Map.intersectionWithKey (f . Ord) differenceAlg f = Map.differenceWithKey (f . Ord) fromListAlg f xs = Map.fromListWithKey (f . Ord) [(k, v) | (Ord k, v) <- xs] fromAscListAlg f xs = Map.fromAscListWithKey (f . Ord) [(k, v) | (Ord k, v) <- xs] fromDistAscListAlg xs = Map.fromDistinctAscList [(k, v) | (Ord k, v) <- xs] getMinAlg m = do (~(k, v), m') <- Map.minViewWithKey m return ((Ord k, v), m') getMaxAlg m = do (~(k, v), m') <- Map.maxViewWithKey m return ((Ord k, v), m') updateMinAlg f m | Map.null m = (False, m) | otherwise = case Map.findMin m of (k, v) -> let (ans, v') = f (Ord k) v in (ans, Map.updateMin (const v') m) updateMaxAlg f m | Map.null m = (False, m) | otherwise = case Map.findMin m of (k, v) -> let (ans, v') = f (Ord k) v in (ans, Map.updateMax (const v') m) isSubmapAlg = Map.isSubmapOfBy splitLookupAlg f (Ord k) m = case Map.splitLookup k m of (mL, Nothing, mR) -> (mL, Nothing, mR) (mL, Just v, mR) -> case f v of (vL, ans, vR) -> (maybe mL (flip (Map.insert k) mL) vL, ans, maybe mR (flip (Map.insert k) mR) vR) instance TrieKey () Maybe where compareKey _ _ = EQ emptyAlg = Nothing nullAlg = isNothing sizeAlg = maybe 0 getSize getSingleAlg = fmap ((,) ()) lookupAlg _ = id alterLookupAlg f _ = f foldWithKeyAlg f = foldr (f ()) mapAppAlg f = traverse (f ()) mapMaybeAlg f = (>>= f ()) mapEitherAlg f = maybe (Nothing, Nothing) (f ()) unionMaybeAlg f = unionMaybe (f ()) intersectAlg f = intersectMaybe (f ()) differenceAlg f = differenceMaybe (f ()) fromListAlg _ [] = Nothing fromListAlg f ((_, v):xs) = Just (foldr (f () . snd) v xs) fromAscListAlg = fromListAlg fromDistAscListAlg = fmap snd . listToMaybe getMinAlg = fmap g where g v = (((), v), Nothing) getMaxAlg = fmap g where g v = (((), v), Nothing) updateMinAlg f = maybe (False, Nothing) (f ()) updateMaxAlg f = maybe (False, Nothing) (f ()) isSubmapAlg _ Nothing _ = True isSubmapAlg _ _ Nothing = False isSubmapAlg (<=) (Just x) (Just y) = x <= y splitLookupAlg f _ = maybe (Nothing, Nothing, Nothing) f {-# RULES "sizeAlg/Map/Elem" forall (m :: Map k (Elem v)) . sizeAlg m = Map.size m; "sizeAlg/IMap/Elem" forall (m :: IntMap (Elem v)) . sizeAlg m = IMap.size m; #-} instance (TrieKeyT f t, TrieKey k m) => TrieKey (App f k) (App (t k m)) where compareKey (App a) (App b) = compareKeyT a b emptyAlg = App emptyT nullAlg (App m) = nullT m getSingleAlg (App m) = do (k, v) <- getSingleT m return (App k, v) alterLookupAlg f (App k) (App m) = App <$> alterLookupT f k m foldWithKeyAlg f z (App m) = foldWithKeyT (f . App) z m mapAppAlg f (App m) = App <$> mapAppT (f . App) m mapMaybeAlg f (App m) = App (mapMaybeT (f . App) m) mapEitherAlg f (App m) = (App *** App) (mapEitherT (f . App) m) fromListAlg f xs = App (fromListT (f . App) [(k, v) | (App k, v) <- xs]) fromAscListAlg f xs = App (fromAscListT (f . App) [(k, v) | (App k, v) <- xs]) fromDistAscListAlg xs = App (fromDistAscListT [(k, v) | (App k, v) <- xs]) unionMaybeAlg f (App m1) (App m2) = App (unionT (f . App) m1 m2) intersectAlg f (App m1) (App m2) = App (intersectT (f . App) m1 m2) differenceAlg f (App m1) (App m2) = App (differenceT (f . App) m1 m2) getMinAlg (App m) = do ((k, v), m') <- getMinT m return ((App k, v), App m') getMaxAlg (App m) = do ((k, v), m') <- getMaxT m return ((App k, v), App m') updateMinAlg f (App m) = App <$> updateMinT (f . App) m updateMaxAlg f (App m) = App <$> updateMaxT (f . App) m isSubmapAlg (<=) (App m1) (App m2) = isSubmapT (<=) m1 m2 splitLookupAlg f (App k) (App m) = case splitLookupT f k m of (mL, ans, mR) -> (App mL, ans, App mR) instance (TrieKeyT f1 t1, TrieKeyT f2 t2) => TrieKeyT (f1 `O` f2) (CompMap t1 f2 t2) where compareKeyT (O a) (O b) = compareKeyT a b emptyT = CompMap emptyT nullT (CompMap m) = nullT m guardNullT (CompMap m) = CompMap <$> guardNullT m sizeT (CompMap m) = sizeT m getSingleT (CompMap m) = do (k, v) <- getSingleT m return (O k, v) lookupT (O k) (CompMap m) = lookupT k m alterLookupT f (O k) (CompMap m) = CompMap <$> alterLookupT f k m foldWithKeyT f z (CompMap m) = foldWithKeyT (f . O) z m mapAppT f (CompMap m) = CompMap <$> mapAppT (f . O) m mapMaybeT f (CompMap m) = CompMap (mapMaybeT (f . O) m) mapEitherT f (CompMap m) = (CompMap *** CompMap) (mapEitherT (f . O) m) unionT f (CompMap m1) (CompMap m2) = CompMap (unionT (f . O) m1 m2) intersectT f (CompMap m1) (CompMap m2) = CompMap (intersectT (f . O) m1 m2) differenceT f (CompMap m1) (CompMap m2) = CompMap (differenceT (f . O) m1 m2) fromDistAscListT xs = CompMap (fromDistAscListT [(k, v) | (O k, v) <- xs]) fromAscListT f xs = CompMap (fromAscListT (f . O) [(k, v) | (O k, v) <- xs]) fromListT f xs = CompMap (fromListT (f . O) [(k, v) | (O k, v) <- xs]) getMinT (CompMap m) = do ((k, v), m') <- getMinT m return ((O k, v), CompMap m') getMaxT (CompMap m) = do ((k, v), m') <- getMaxT m return ((O k, v), CompMap m') updateMinT f (CompMap m) = CompMap <$> updateMinT (f . O) m updateMaxT f (CompMap m) = CompMap <$> updateMaxT (f . O) m isSubmapT (<=) (CompMap m1) (CompMap m2) = isSubmapT (<=) m1 m2 splitLookupT f (O k) (CompMap m) = case splitLookupT f k m of (mL, ans, mR) -> (CompMap mL, ans, CompMap mR) instance (TrieKey k m, TrieKeyT f1 t1, TrieKeyT f2 t2) => TrieKey ((f1 `O` f2) k) (CompMap t1 f2 t2 k m) where compareKey = compareKeyT emptyAlg = emptyT nullAlg = nullT getSingleAlg = getSingleT guardNullAlg = guardNullT sizeAlg = sizeT lookupAlg = lookupT alterLookupAlg = alterLookupT mapAppAlg = mapAppT mapMaybeAlg = mapMaybeT mapEitherAlg = mapEitherT foldWithKeyAlg = foldWithKeyT unionMaybeAlg = unionT intersectAlg = intersectT differenceAlg = differenceT getMinAlg = getMinT getMaxAlg = getMaxT updateMinAlg = updateMinT updateMaxAlg = updateMaxT isSubmapAlg = isSubmapT splitLookupAlg = splitLookupT