module Data.HashPSQ.Internal
(
Bucket (..)
, mkBucket
, HashPSQ (..)
, null
, size
, member
, lookup
, findMin
, empty
, singleton
, insert
, delete
, deleteMin
, alter
, alterMin
, fromList
, toList
, keys
, insertView
, deleteView
, minView
, map
, fold'
, unsafeLookupIncreasePriority
, unsafeInsertIncreasePriority
, unsafeInsertIncreasePriorityView
, valid
) where
import Control.DeepSeq (NFData (..))
import Data.Foldable (Foldable (foldr))
import Data.Hashable
import qualified Data.List as List
import Data.Maybe (isJust)
import Prelude hiding (foldr, lookup, map, null)
import Data.Traversable
import qualified Data.IntPSQ.Internal as IntPSQ
import qualified Data.OrdPSQ as OrdPSQ
data Bucket k p v = B !k !v !(OrdPSQ.OrdPSQ k p v)
deriving (Foldable, Functor, Show, Traversable)
mkBucket
:: (Ord k, Ord p)
=> k -> p -> v -> OrdPSQ.OrdPSQ k p v -> (p, Bucket k p v)
mkBucket k p x opsq =
case toBucket (OrdPSQ.insert k p x opsq) of
Just bucket -> bucket
Nothing -> error $ "mkBucket: internal error"
toBucket :: (Ord k, Ord p) => OrdPSQ.OrdPSQ k p v -> Maybe (p, Bucket k p v)
toBucket opsq = case OrdPSQ.minView opsq of
Just (k, p, x, opsq') -> Just (p, B k x opsq')
Nothing -> Nothing
instance (NFData k, NFData p, NFData v) => NFData (Bucket k p v) where
rnf (B k v x) = rnf k `seq` rnf v `seq` rnf x
newtype HashPSQ k p v = HashPSQ (IntPSQ.IntPSQ p (Bucket k p v))
deriving (Foldable, Functor, NFData, Show, Traversable)
instance (Eq k, Eq p, Eq v, Hashable k, Ord k, Ord p) =>
Eq (HashPSQ k p v) where
x == y = case (minView x, minView y) of
(Nothing , Nothing ) -> True
(Just (xk, xp, xv, x'), (Just (yk, yp, yv, y'))) ->
xk == yk && xp == yp && xv == yv && x' == y'
(Just _ , Nothing ) -> False
(Nothing , Just _ ) -> False
null :: HashPSQ k p v -> Bool
null (HashPSQ ipsq) = IntPSQ.null ipsq
size :: HashPSQ k p v -> Int
size (HashPSQ ipsq) = IntPSQ.fold'
(\_ _ (B _ _ opsq) acc -> 1 + OrdPSQ.size opsq + acc)
0
ipsq
member :: (Hashable k, Ord k, Ord p) => k -> HashPSQ k p v -> Bool
member k = isJust . lookup k
lookup :: (Ord k, Hashable k, Ord p) => k -> HashPSQ k p v -> Maybe (p, v)
lookup k (HashPSQ ipsq) = do
(p0, B k0 v0 os) <- IntPSQ.lookup (hash k) ipsq
if k0 == k
then return (p0, v0)
else OrdPSQ.lookup k os
findMin :: (Hashable k, Ord k, Ord p) => HashPSQ k p v -> Maybe (k, p, v)
findMin (HashPSQ ipsq) = case IntPSQ.findMin ipsq of
Nothing -> Nothing
Just (_, p, B k x _) -> Just (k, p, x)
empty :: HashPSQ k p v
empty = HashPSQ IntPSQ.empty
singleton :: (Hashable k, Ord k, Ord p) => k -> p -> v -> HashPSQ k p v
singleton k p v = insert k p v empty
insert
:: (Ord k, Hashable k, Ord p)
=> k -> p -> v -> HashPSQ k p v -> HashPSQ k p v
insert k p v (HashPSQ ipsq) =
case IntPSQ.alter (\x -> ((), ins x)) (hash k) ipsq of
((), ipsq') -> HashPSQ ipsq'
where
ins Nothing = Just (p, B k v (OrdPSQ.empty))
ins (Just (p', B k' v' os))
| k' == k =
Just (mkBucket k p v os)
| p' < p || (p == p' && k' < k) =
Just (p', B k' v' (OrdPSQ.insert k p v os))
| OrdPSQ.member k os =
Just (p, B k v (OrdPSQ.insert k' p' v' (OrdPSQ.delete k os)))
| otherwise =
Just (p , B k v (OrdPSQ.insert k' p' v' os))
delete
:: (Hashable k, Ord k, Ord p) => k -> HashPSQ k p v -> HashPSQ k p v
delete k t = case deleteView k t of
Nothing -> t
Just (_, _, t') -> t'
deleteMin
:: (Hashable k, Ord k, Ord p) => HashPSQ k p v -> HashPSQ k p v
deleteMin t = case minView t of
Nothing -> t
Just (_, _, _, t') -> t'
alter :: (Hashable k, Ord k, Ord p)
=> (Maybe (p, v) -> (b, Maybe (p, v)))
-> k -> HashPSQ k p v -> (b, HashPSQ k p v)
alter f k (HashPSQ ipsq) = case IntPSQ.deleteView h ipsq of
Nothing -> case f Nothing of
(b, Nothing) -> (b, HashPSQ ipsq)
(b, Just (p, x)) ->
(b, HashPSQ $ IntPSQ.unsafeInsertNew h p (B k x OrdPSQ.empty) ipsq)
Just (bp, B bk bx opsq, ipsq')
| k == bk -> case f (Just (bp, bx)) of
(b, Nothing) -> case toBucket opsq of
Nothing -> (b, HashPSQ ipsq')
Just (bp', bucket') ->
(b, HashPSQ $ IntPSQ.unsafeInsertNew h bp' bucket' ipsq')
(b, Just (p, x)) -> case mkBucket k p x opsq of
(bp', bucket') ->
(b, HashPSQ $ IntPSQ.unsafeInsertNew h bp' bucket' ipsq')
| otherwise -> case OrdPSQ.alter f k opsq of
(b, opsq') -> case mkBucket bk bp bx opsq' of
(bp', bucket') ->
(b, HashPSQ $ IntPSQ.unsafeInsertNew h bp' bucket' ipsq')
where
h = hash k
alterMin
:: (Hashable k, Ord k, Ord p)
=> (Maybe (k, p, v) -> (b, Maybe (k, p, v)))
-> HashPSQ k p v
-> (b, HashPSQ k p v)
alterMin f t0 =
let (t, mbX) = case minView t0 of
Nothing -> (t0, Nothing)
Just (k, p, x, t0') -> (t0', Just (k, p, x))
in case f mbX of
(b, mbX') ->
(b, maybe t (\(k, p, x) -> insert k p x t) mbX')
fromList :: (Hashable k, Ord k, Ord p) => [(k, p, v)] -> HashPSQ k p v
fromList = List.foldl' (\psq (k, p, x) -> insert k p x psq) empty
toList :: (Hashable k, Ord k, Ord p) => HashPSQ k p v -> [(k, p, v)]
toList (HashPSQ ipsq) =
[ (k', p', x')
| (_, p, (B k x opsq)) <- IntPSQ.toList ipsq
, (k', p', x') <- (k, p, x) : OrdPSQ.toList opsq
]
keys :: (Hashable k, Ord k, Ord p) => HashPSQ k p v -> [k]
keys t = [k | (k, _, _) <- toList t]
insertView
:: (Hashable k, Ord k, Ord p)
=> k -> p -> v -> HashPSQ k p v -> (Maybe (p, v), HashPSQ k p v)
insertView k p x t =
case deleteView k t of
Nothing -> (Nothing, insert k p x t)
Just (p', x', _) -> (Just (p', x'), insert k p x t)
deleteView
:: forall k p v. (Hashable k, Ord k, Ord p)
=> k -> HashPSQ k p v -> Maybe (p, v, HashPSQ k p v)
deleteView k (HashPSQ ipsq) = case IntPSQ.alter f (hash k) ipsq of
(Nothing, _ ) -> Nothing
(Just (p, x), ipsq') -> Just (p, x, HashPSQ ipsq')
where
f :: Maybe (p, Bucket k p v) -> (Maybe (p, v), Maybe (p, Bucket k p v))
f Nothing = (Nothing, Nothing)
f (Just (p, B bk bx opsq))
| k == bk = case OrdPSQ.minView opsq of
Nothing -> (Just (p, bx), Nothing)
Just (k', p', x', opsq') -> (Just (p, bx), Just (p', B k' x' opsq'))
| otherwise = case OrdPSQ.deleteView k opsq of
Nothing -> (Nothing, Nothing)
Just (p', x', opsq') -> (Just (p', x'), Just (p, B bk bx opsq'))
minView
:: (Hashable k, Ord k, Ord p)
=> HashPSQ k p v -> Maybe (k, p, v, HashPSQ k p v)
minView (HashPSQ ipsq ) =
case IntPSQ.alterMin f ipsq of
(Nothing , _ ) -> Nothing
(Just (k, p, x), ipsq') -> Just (k, p, x, HashPSQ ipsq')
where
f Nothing = (Nothing, Nothing)
f (Just (h, p, B k x os)) = case OrdPSQ.minView os of
Nothing ->
(Just (k, p, x), Nothing)
Just (k', p', x', os') ->
(Just (k, p, x), Just (h, p', B k' x' os'))
map :: (k -> p -> v -> w) -> HashPSQ k p v -> HashPSQ k p w
map f (HashPSQ ipsq) = HashPSQ (IntPSQ.map (\_ p v -> mapBucket p v) ipsq)
where
mapBucket p (B k v opsq) = B k (f k p v) (OrdPSQ.map f opsq)
fold' :: (k -> p -> v -> a -> a) -> a -> HashPSQ k p v -> a
fold' f acc0 (HashPSQ ipsq) = IntPSQ.fold' goBucket acc0 ipsq
where
goBucket _ p (B k v opsq) acc =
let !acc1 = f k p v acc
!acc2 = OrdPSQ.fold' f acc1 opsq
in acc2
unsafeLookupIncreasePriority
:: (Hashable k, Ord k, Ord p)
=> k -> p -> HashPSQ k p v -> (Maybe (p, v), HashPSQ k p v)
unsafeLookupIncreasePriority k p (HashPSQ ipsq) =
(mbPV, HashPSQ ipsq')
where
(!mbPV, !ipsq') = IntPSQ.unsafeLookupIncreasePriority
(\bp b@(B bk bx opsq) ->
if k == bk
then let (bp', b') = mkBucket k p bx opsq
in (Just (bp, bx), bp', b')
else case OrdPSQ.lookup k opsq of
Nothing -> (Nothing, bp, b)
Just (p', x) ->
let b' = B bk bx (OrdPSQ.insert k p x opsq)
in (Just (p', x), bp, b'))
(hash k)
ipsq
unsafeInsertIncreasePriority
:: (Hashable k, Ord k, Ord p)
=> k -> p -> v -> HashPSQ k p v -> HashPSQ k p v
unsafeInsertIncreasePriority k p x (HashPSQ ipsq) = HashPSQ $
IntPSQ.unsafeInsertWithIncreasePriority
(\_ _ bp (B bk bx opsq) ->
if k == bk
then mkBucket k p x opsq
else (bp, B bk bx (OrdPSQ.insert k p x opsq)))
(hash k)
p
(B k x OrdPSQ.empty)
ipsq
unsafeInsertIncreasePriorityView
:: (Hashable k, Ord k, Ord p)
=> k -> p -> v -> HashPSQ k p v -> (Maybe (p, v), HashPSQ k p v)
unsafeInsertIncreasePriorityView k p x (HashPSQ ipsq) =
(mbEvicted, HashPSQ ipsq')
where
(mbBucket, ipsq') = IntPSQ.unsafeInsertWithIncreasePriorityView
(\_ _ bp (B bk bx opsq) ->
if k == bk
then mkBucket k p x opsq
else (bp, B bk bx (OrdPSQ.insert k p x opsq)))
(hash k)
p
(B k x OrdPSQ.empty)
ipsq
mbEvicted = case mbBucket of
Nothing -> Nothing
Just (bp, B bk bv opsq)
| k == bk -> Just (bp, bv)
| otherwise -> OrdPSQ.lookup k opsq
valid :: (Hashable k, Ord k, Ord p) => HashPSQ k p v -> Bool
valid t@(HashPSQ ipsq) =
not (hasDuplicateKeys t) &&
and [validBucket k p bucket | (k, p, bucket) <- IntPSQ.toList ipsq]
hasDuplicateKeys :: (Hashable k, Ord k, Ord p) => HashPSQ k p v -> Bool
hasDuplicateKeys = any (> 1) . List.map length . List.group . List.sort . keys
validBucket :: (Hashable k, Ord k, Ord p) => Int -> p -> Bucket k p v -> Bool
validBucket h p (B k _ opsq) =
OrdPSQ.valid opsq &&
and [(p, k) < (p', k') && hash k' == h | (k', p', _) <- OrdPSQ.toList opsq]