{-# LANGUAGE CPP #-}
{-# LANGUAGE FlexibleInstances #-}
{-# LANGUAGE GADTs #-}
{-# LANGUAGE InstanceSigs #-}
{-# LANGUAGE KindSignatures #-}
{-# LANGUAGE MultiParamTypeClasses #-}
{-# LANGUAGE PolyKinds #-}
{-# LANGUAGE RankNTypes #-}
{-# LANGUAGE ScopedTypeVariables #-}
{-# LANGUAGE TypeOperators #-}
{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE TypeFamilies #-}
{-# LANGUAGE TypeInType #-}
module Data.Parameterized.Map
( MapF
, Data.Parameterized.Map.empty
, singleton
, insert
, insertWith
, delete
, union
, intersectWithKeyMaybe
, null
, lookup
, findWithDefault
, member
, notMember
, size
, keys
, elems
, fromList
, toList
, toAscList
, toDescList
, fromKeys
, fromKeysM
, filter
, filterWithKey
, filterGt
, filterLt
, foldlWithKey
, foldlWithKey'
, foldrWithKey
, foldrWithKey'
, foldMapWithKey
, foldlMWithKey
, foldrMWithKey
, map
, mapWithKey
, mapMaybe
, mapMaybeWithKey
, traverseWithKey
, traverseWithKey_
, traverseMaybeWithKey
, UpdateRequest(..)
, Updated(..)
, updatedValue
, updateAtKey
, mergeWithKey
, mergeWithKeyM
, module Data.Parameterized.Classes
, Pair(..)
) where
import Control.Applicative hiding (empty)
import Control.Lens (Traversal', Lens')
import Control.Monad.Identity
import Data.Kind (Type)
import Data.List (intercalate, foldl')
import Data.Monoid
import Data.Parameterized.Classes
import Data.Parameterized.Some
import Data.Parameterized.Pair ( Pair(..) )
import Data.Parameterized.TraversableF
import Data.Parameterized.Utils.BinTree
( MaybeS(..)
, fromMaybeS
, Updated(..)
, updatedValue
, TreeApp(..)
, bin
, IsBinTree(..)
, balanceL
, balanceR
, glue
)
import qualified Data.Parameterized.Utils.BinTree as Bin
#if MIN_VERSION_base(4,8,0)
import Prelude hiding (filter, lookup, map, traverse, null)
#else
import Prelude hiding (filter, lookup, map, null)
#endif
comparePairKeys :: OrdF k => Pair k a -> Pair k a -> Ordering
comparePairKeys (Pair x _) (Pair y _) = toOrdering (compareF x y)
{-# INLINABLE comparePairKeys #-}
data MapF (k :: v -> Type) (a :: v -> Type) where
Bin :: {-# UNPACK #-}
!Size
-> !(k x)
-> !(a x)
-> !(MapF k a)
-> !(MapF k a)
-> MapF k a
Tip :: MapF k a
type Size = Int
empty :: MapF k a
empty = Tip
null :: MapF k a -> Bool
null Tip = True
null Bin{} = False
singleton :: k tp -> a tp -> MapF k a
singleton k x = Bin 1 k x Tip Tip
instance Bin.IsBinTree (MapF k a) (Pair k a) where
asBin (Bin _ k v l r) = BinTree (Pair k v) l r
asBin Tip = TipTree
tip = Tip
bin (Pair k v) l r = Bin (size l + size r + 1) k v l r
size Tip = 0
size (Bin sz _ _ _ _) = sz
instance (TestEquality k, EqF a) => Eq (MapF k a) where
x == y = size x == size y && toList x == toList y
#ifdef __GLASGOW_HASKELL__
{-# NOINLINE [1] map #-}
{-# NOINLINE [1] traverse #-}
{-# RULES
"map/map" forall (f :: (forall tp . f tp -> g tp)) (g :: (forall tp . g tp -> h tp)) xs
. map g (map f xs) = map (g . f) xs
"map/traverse" forall (f :: (forall tp . f tp -> m (g tp))) (g :: (forall tp . g tp -> h tp)) xs
. fmap (map g) (traverse f xs) = traverse (\v -> g <$> f v) xs
"traverse/map"
forall (f :: (forall tp . f tp -> g tp)) (g :: (forall tp . g tp -> m (h tp))) xs
. traverse g (map f xs) = traverse (\v -> g (f v)) xs
"traverse/traverse"
forall (f :: (forall tp . f tp -> m (g tp))) (g :: (forall tp . g tp -> m (h tp))) xs
. traverse f xs >>= traverse g = traverse (\v -> f v >>= g) xs
#-}
#endif
mapWithKey
:: (forall tp . ktp tp -> f tp -> g tp)
-> MapF ktp f
-> MapF ktp g
mapWithKey _ Tip = Tip
mapWithKey f (Bin sx kx x l r) = Bin sx kx (f kx x) (mapWithKey f l) (mapWithKey f r)
map :: (forall tp . f tp -> g tp) -> MapF ktp f -> MapF ktp g
map f = mapWithKey (\_ x -> f x)
mapMaybeWithKey :: (forall tp . k tp -> f tp -> Maybe (g tp)) -> MapF k f -> MapF k g
mapMaybeWithKey _ Tip = Tip
mapMaybeWithKey f (Bin _ k x l r) =
case f k x of
Just y -> Bin.link (Pair k y) (mapMaybeWithKey f l) (mapMaybeWithKey f r)
Nothing -> Bin.merge (mapMaybeWithKey f l) (mapMaybeWithKey f r)
mapMaybe :: (forall tp . f tp -> Maybe (g tp)) -> MapF ktp f -> MapF ktp g
mapMaybe f = mapMaybeWithKey (\_ x -> f x)
traverse :: Applicative m => (forall tp . f tp -> m (g tp)) -> MapF ktp f -> m (MapF ktp g)
traverse _ Tip = pure Tip
traverse f (Bin sx kx x l r) =
(\l' x' r' -> Bin sx kx x' l' r') <$> traverse f l <*> f x <*> traverse f r
traverseWithKey
:: Applicative m
=> (forall tp . ktp tp -> f tp -> m (g tp))
-> MapF ktp f
-> m (MapF ktp g)
traverseWithKey _ Tip = pure Tip
traverseWithKey f (Bin sx kx x l r) =
(\l' x' r' -> Bin sx kx x' l' r') <$> traverseWithKey f l <*> f kx x <*> traverseWithKey f r
traverseWithKey_
:: Applicative m
=> (forall tp . ktp tp -> f tp -> m ())
-> MapF ktp f
-> m ()
traverseWithKey_ = \f -> foldrWithKey (\k v r -> f k v *> r) (pure ())
{-# INLINABLE traverseWithKey_ #-}
traverseMaybeWithKey :: Applicative f
=> (forall tp . k tp -> a tp -> f (Maybe (b tp)))
-> MapF k a -> f (MapF k b)
traverseMaybeWithKey _ Tip = pure Tip
traverseMaybeWithKey f (Bin _ kx x Tip Tip) = maybe Tip (\x' -> Bin 1 kx x' Tip Tip) <$> f kx x
traverseMaybeWithKey f (Bin _ kx x l r) =
liftA3 combine (traverseMaybeWithKey f l) (f kx x) (traverseMaybeWithKey f r)
where
combine l' mx r' = seq l' $ seq r' $
case mx of
Just x' -> Bin.link (Pair kx x') l' r'
Nothing -> Bin.merge l' r'
{-# INLINABLE traverseMaybeWithKey #-}
type instance IndexF (MapF k v) = k
type instance IxValueF (MapF k v) = v
instance forall (k:: a -> Type) v. OrdF k => IxedF a (MapF k v) where
ixF :: k x -> Traversal' (MapF k v) (v x)
ixF i f m = updatedValue <$> updateAtKey i (pure Nothing) (\x -> Set <$> f x) m
instance forall (k:: a -> Type) v. OrdF k => AtF a (MapF k v) where
atF :: k x -> Lens' (MapF k v) (Maybe (v x))
atF i f m = updatedValue <$> updateAtKey i (f Nothing) (\x -> maybe Delete Set <$> f (Just x)) m
lookup :: OrdF k => k tp -> MapF k a -> Maybe (a tp)
lookup k0 = seq k0 (go k0)
where
go :: OrdF k => k tp -> MapF k a -> Maybe (a tp)
go _ Tip = Nothing
go k (Bin _ kx x l r) =
case compareF k kx of
LTF -> go k l
GTF -> go k r
EQF -> Just x
{-# INLINABLE lookup #-}
findWithDefault :: OrdF k => a tp -> k tp -> MapF k a -> a tp
findWithDefault = \def k -> seq k (go def k)
where
go :: OrdF k => a tp -> k tp -> MapF k a -> a tp
go d _ Tip = d
go d k (Bin _ kx x l r) =
case compareF k kx of
LTF -> go d k l
GTF -> go d k r
EQF -> x
{-# INLINABLE findWithDefault #-}
member :: OrdF k => k tp -> MapF k a -> Bool
member k0 = seq k0 (go k0)
where
go :: OrdF k => k tp -> MapF k a -> Bool
go _ Tip = False
go k (Bin _ kx _ l r) =
case compareF k kx of
LTF -> go k l
GTF -> go k r
EQF -> True
{-# INLINABLE member #-}
notMember :: OrdF k => k tp -> MapF k a -> Bool
notMember k m = not $ member k m
{-# INLINABLE notMember #-}
instance FunctorF (MapF ktp) where
fmapF = map
instance FoldableF (MapF ktp) where
foldrF f z = go z
where go z' Tip = z'
go z' (Bin _ _ x l r) = go (f x (go z' r)) l
instance TraversableF (MapF ktp) where
traverseF = traverse
instance (ShowF ktp, ShowF rtp) => Show (MapF ktp rtp) where
show m = showMap showF showF m
keys :: MapF k a -> [Some k]
keys = foldrWithKey (\k _ l -> Some k : l) []
elems :: MapF k a -> [Some a]
elems = foldrF (\e l -> Some e : l) []
foldlWithKey :: (forall s . b -> k s -> a s -> b) -> b -> MapF k a -> b
foldlWithKey _ z Tip = z
foldlWithKey f z (Bin _ kx x l r) =
let lz = foldlWithKey f z l
kz = f lz kx x
in foldlWithKey f kz r
foldlWithKey' :: (forall s . b -> k s -> a s -> b) -> b -> MapF k a -> b
foldlWithKey' _ z Tip = z
foldlWithKey' f z (Bin _ kx x l r) =
let lz = foldlWithKey f z l
kz = seq lz $ f lz kx x
in seq kz $ foldlWithKey f kz r
foldrWithKey :: (forall s . k s -> a s -> b -> b) -> b -> MapF k a -> b
foldrWithKey _ z Tip = z
foldrWithKey f z (Bin _ kx x l r) =
foldrWithKey f (f kx x (foldrWithKey f z r)) l
foldrWithKey' :: (forall s . k s -> a s -> b -> b) -> b -> MapF k a -> b
foldrWithKey' _ z Tip = z
foldrWithKey' f z (Bin _ kx x l r) =
let rz = foldrWithKey f z r
kz = seq rz $ f kx x rz
in seq kz $ foldrWithKey f kz l
foldMapWithKey :: Monoid m => (forall s . k s -> a s -> m) -> MapF k a -> m
foldMapWithKey _ Tip = mempty
foldMapWithKey f (Bin _ kx x l r) = foldMapWithKey f l <> f kx x <> foldMapWithKey f r
foldlMWithKey :: Monad m => (forall s . b -> k s -> a s -> m b) -> b -> MapF k a -> m b
foldlMWithKey f z0 m = foldrWithKey (\k a r z -> f z k a >>= r) pure m z0
foldrMWithKey :: Monad m => (forall s . k s -> a s -> b -> m b) -> b -> MapF k a -> m b
foldrMWithKey f z0 m = foldlWithKey (\r k a z -> f k a z >>= r) pure m z0
showMap :: (forall tp . ktp tp -> String)
-> (forall tp . rtp tp -> String)
-> MapF ktp rtp
-> String
showMap ppk ppv m = "{ " ++ intercalate ", " l ++ " }"
where l = foldrWithKey (\k a l0 -> (ppk k ++ " -> " ++ ppv a) : l0) [] m
filter :: (forall tp . f tp -> Bool) -> MapF k f -> MapF k f
filter f = filterWithKey (\_ v -> f v)
filterWithKey :: (forall tp . k tp -> f tp -> Bool) -> MapF k f -> MapF k f
filterWithKey _ Tip = Tip
filterWithKey f (Bin _ k x l r)
| f k x = Bin.link (Pair k x) (filterWithKey f l) (filterWithKey f r)
| otherwise = Bin.merge (filterWithKey f l) (filterWithKey f r)
compareKeyPair :: OrdF k => k tp -> Pair k a -> Ordering
compareKeyPair k = \(Pair x _) -> toOrdering (compareF k x)
filterGt :: OrdF k => k tp -> MapF k v -> MapF k v
filterGt k m = fromMaybeS m (Bin.filterGt (compareKeyPair k) m)
{-# INLINABLE filterGt #-}
filterLt :: OrdF k => k tp -> MapF k v -> MapF k v
filterLt k m = fromMaybeS m (Bin.filterLt (compareKeyPair k) m)
{-# INLINABLE filterLt #-}
insert :: OrdF k => k tp -> a tp -> MapF k a -> MapF k a
insert = \k v m -> seq k $ updatedValue (Bin.insert comparePairKeys (Pair k v) m)
{-# INLINABLE insert #-}
insertWithImpl :: OrdF k => (a tp -> a tp -> a tp) -> k tp -> a tp -> MapF k a -> Updated (MapF k a)
insertWithImpl f k v t = seq k $
case t of
Tip -> Bin.Updated (Bin 1 k v Tip Tip)
Bin sz yk yv l r ->
case compareF k yk of
LTF ->
case insertWithImpl f k v l of
Bin.Updated l' -> Bin.Updated (Bin.balanceL (Pair yk yv) l' r)
Bin.Unchanged l' -> Bin.Unchanged (Bin sz yk yv l' r)
GTF ->
case insertWithImpl f k v r of
Bin.Updated r' -> Bin.Updated (Bin.balanceR (Pair yk yv) l r')
Bin.Unchanged r' -> Bin.Unchanged (Bin sz yk yv l r')
EQF -> Bin.Unchanged (Bin sz yk (f v yv) l r)
{-# INLINABLE insertWithImpl #-}
insertWith :: OrdF k => (a tp -> a tp -> a tp) -> k tp -> a tp -> MapF k a -> MapF k a
insertWith = \f k v t -> seq k $ updatedValue (insertWithImpl f k v t)
{-# INLINABLE insertWith #-}
delete :: OrdF k => k tp -> MapF k a -> MapF k a
delete = \k m -> seq k $ fromMaybeS m $ Bin.delete (p k) m
where p :: OrdF k => k tp -> Pair k a -> Ordering
p k (Pair kx _) = toOrdering (compareF k kx)
{-# INLINABLE delete #-}
{-# SPECIALIZE Bin.delete :: (Pair k a -> Ordering) -> MapF k a -> MaybeS (MapF k a) #-}
union :: OrdF k => MapF k a -> MapF k a -> MapF k a
union t1 t2 = Bin.union comparePairKeys t1 t2
{-# INLINABLE union #-}
data UpdateRequest v
=
Keep
| Set !v
| Delete
data AtKeyResult k a where
AtKeyUnchanged :: AtKeyResult k a
AtKeyInserted :: MapF k a -> AtKeyResult k a
AtKeyModified :: MapF k a -> AtKeyResult k a
AtKeyDeleted :: MapF k a -> AtKeyResult k a
atKey' :: (OrdF k, Functor f)
=> k tp
-> f (Maybe (a tp))
-> (a tp -> f (UpdateRequest (a tp)))
-> MapF k a
-> f (AtKeyResult k a)
atKey' k onNotFound onFound t =
case asBin t of
TipTree -> ins <$> onNotFound
where ins Nothing = AtKeyUnchanged
ins (Just v) = AtKeyInserted (singleton k v)
BinTree yp@(Pair kx y) l r ->
case compareF k kx of
LTF -> ins <$> atKey' k onNotFound onFound l
where ins AtKeyUnchanged = AtKeyUnchanged
ins (AtKeyInserted l') = AtKeyInserted (balanceL yp l' r)
ins (AtKeyModified l') = AtKeyModified (bin yp l' r)
ins (AtKeyDeleted l') = AtKeyDeleted (balanceR yp l' r)
GTF -> ins <$> atKey' k onNotFound onFound r
where ins AtKeyUnchanged = AtKeyUnchanged
ins (AtKeyInserted r') = AtKeyInserted (balanceR yp l r')
ins (AtKeyModified r') = AtKeyModified (bin yp l r')
ins (AtKeyDeleted r') = AtKeyDeleted (balanceL yp l r')
EQF -> ins <$> onFound y
where ins Keep = AtKeyUnchanged
ins (Set x) = AtKeyModified (bin (Pair kx x) l r)
ins Delete = AtKeyDeleted (glue l r)
{-# INLINABLE atKey' #-}
updateAtKey :: (OrdF k, Functor f)
=> k tp
-> f (Maybe (a tp))
-> (a tp -> f (UpdateRequest (a tp)))
-> MapF k a
-> f (Updated (MapF k a))
updateAtKey k onNotFound onFound t = ins <$> atKey' k onNotFound onFound t
where ins AtKeyUnchanged = Unchanged t
ins (AtKeyInserted t') = Updated t'
ins (AtKeyModified t') = Updated t'
ins (AtKeyDeleted t') = Updated t'
{-# INLINABLE updateAtKey #-}
fromList :: OrdF k => [Pair k a] -> MapF k a
fromList = foldl' (\m (Pair k a) -> insert k a m) Data.Parameterized.Map.empty
toAscList :: MapF k a -> [Pair k a]
toAscList = foldrWithKey (\k x l -> Pair k x : l) []
toDescList :: MapF k a -> [Pair k a]
toDescList = foldlWithKey (\l k x -> Pair k x : l) []
toList :: MapF k a -> [Pair k a]
toList = toAscList
fromKeys :: forall m (t :: Type -> Type) (a :: k -> Type) (v :: k -> Type)
. (Monad m, Foldable t, OrdF a)
=> (forall tp . a tp -> m (v tp))
-> t (Some a)
-> m (MapF a v)
fromKeys f = foldM go empty
where go :: MapF a v -> Some a -> m (MapF a v)
go m (Some k) = (\v -> insert k v m) <$> f k
fromKeysM :: forall m (t :: Type -> Type) (a :: k -> Type) (v :: k -> Type)
. (Monad m, Foldable t, OrdF a)
=> (forall tp . a tp -> m (v tp))
-> t (Some a)
-> m (MapF a v)
fromKeysM f = foldM go empty
where go :: MapF a v -> Some a -> m (MapF a v)
go m (Some k) = (\v -> insert k v m) <$> f k
filterGtMaybe :: OrdF k => MaybeS (k x) -> MapF k a -> MapF k a
filterGtMaybe NothingS m = m
filterGtMaybe (JustS k) m = filterGt k m
filterLtMaybe :: OrdF k => MaybeS (k x) -> MapF k a -> MapF k a
filterLtMaybe NothingS m = m
filterLtMaybe (JustS k) m = filterLt k m
filterMiddle :: OrdF k => k x -> k y -> MapF k a -> MapF k a
filterMiddle lo hi (Bin _ k _ _ r)
| k `leqF` lo = filterMiddle lo hi r
filterMiddle lo hi (Bin _ k _ l _)
| k `geqF` hi = filterMiddle lo hi l
filterMiddle _ _ t = t
{-# INLINABLE filterMiddle #-}
trim :: OrdF k => MaybeS (k x) -> MaybeS (k y) -> MapF k a -> MapF k a
trim NothingS NothingS t = t
trim (JustS lk) NothingS t = filterGt lk t
trim NothingS (JustS hk) t = filterLt hk t
trim (JustS lk) (JustS hk) t = filterMiddle lk hk t
trimLookupLo :: OrdF k => k tp -> MaybeS (k y) -> MapF k a -> Bin.PairS (Maybe (a tp)) (MapF k a)
trimLookupLo lk NothingS t = greater lk t
where greater :: OrdF k => k tp -> MapF k a -> Bin.PairS (Maybe (a tp)) (MapF k a)
greater lo t'@(Bin _ kx x l r) =
case compareF lo kx of
LTF -> Bin.PairS (lookup lo l) t'
EQF -> Bin.PairS (Just x) r
GTF -> greater lo r
greater _ Tip = Bin.PairS Nothing Tip
trimLookupLo lk (JustS hk) t = middle lk hk t
where middle :: OrdF k => k tp -> k y -> MapF k a -> Bin.PairS (Maybe (a tp)) (MapF k a)
middle lo hi t'@(Bin _ kx x l r) =
case compareF lo kx of
LTF | kx `ltF` hi -> Bin.PairS (lookup lo l) t'
| otherwise -> middle lo hi l
EQF -> Bin.PairS (Just x) (lesser hi r)
GTF -> middle lo hi r
middle _ _ Tip = Bin.PairS Nothing Tip
lesser :: OrdF k => k y -> MapF k a -> MapF k a
lesser hi (Bin _ k _ l _) | k `geqF` hi = lesser hi l
lesser _ t' = t'
mergeWithKeyM :: forall k a b c m
. (Applicative m, OrdF k)
=> (forall tp . k tp -> a tp -> b tp -> m (Maybe (c tp)))
-> (MapF k a -> m (MapF k c))
-> (MapF k b -> m (MapF k c))
-> MapF k a
-> MapF k b
-> m (MapF k c)
mergeWithKeyM f g1 g2 = go
where
go Tip t2 = g2 t2
go t1 Tip = g1 t1
go t1 t2 = hedgeMerge NothingS NothingS t1 t2
hedgeMerge :: MaybeS (k x) -> MaybeS (k y) -> MapF k a -> MapF k b -> m (MapF k c)
hedgeMerge _ _ t1 Tip = g1 t1
hedgeMerge blo bhi Tip (Bin _ kx x l r) =
g2 $ Bin.link (Pair kx x) (filterGtMaybe blo l) (filterLtMaybe bhi r)
hedgeMerge blo bhi (Bin _ kx x l r) t2 =
let Bin.PairS found trim_t2 = trimLookupLo kx bhi t2
resolve_g1 :: MapF k c -> MapF k c -> MapF k c -> MapF k c
resolve_g1 Tip = Bin.merge
resolve_g1 (Bin _ k' x' Tip Tip) = Bin.link (Pair k' x')
resolve_g1 _ = error "mergeWithKey: Bad function g1"
resolve_f Nothing = Bin.merge
resolve_f (Just x') = Bin.link (Pair kx x')
in case found of
Nothing ->
resolve_g1 <$> g1 (singleton kx x)
<*> hedgeMerge blo bmi l (trim blo bmi t2)
<*> hedgeMerge bmi bhi r trim_t2
Just x2 ->
resolve_f <$> f kx x x2
<*> hedgeMerge blo bmi l (trim blo bmi t2)
<*> hedgeMerge bmi bhi r trim_t2
where bmi = JustS kx
{-# INLINABLE mergeWithKeyM #-}
mergeWithKey :: forall k a b c
. OrdF k
=> (forall tp . k tp -> a tp -> b tp -> Maybe (c tp))
-> (MapF k a -> MapF k c)
-> (MapF k b -> MapF k c)
-> MapF k a
-> MapF k b
-> MapF k c
mergeWithKey f g1 g2 x y = runIdentity $
mergeWithKeyM (\k a b -> pure $! f k a b) (pure . g1) (pure . g2) x y
intersectWithKeyMaybe :: OrdF k
=> (forall tp . k tp -> a tp -> b tp -> Maybe (c tp))
-> MapF k a
-> MapF k b
-> MapF k c
intersectWithKeyMaybe f = mergeWithKey f (const empty) (const empty)