#if __GLASGOW_HASKELL__ >= 702
#endif
module Data.HashMap.Strict
(
HashMap
, empty
, singleton
, HM.null
, size
, HM.member
, HM.lookup
, lookupDefault
, (!)
, insert
, insertWith
, delete
, adjust
, union
, unionWith
, unions
, map
, traverseWithKey
, difference
, intersection
, intersectionWith
, foldl'
, foldlWithKey'
, HM.foldr
, foldrWithKey
, HM.filter
, filterWithKey
, keys
, elems
, toList
, fromList
, fromListWith
) where
import Data.Bits ((.&.), (.|.))
import qualified Data.List as L
import Data.Hashable (Hashable)
import Prelude hiding (map)
import qualified Data.HashMap.Array as A
import qualified Data.HashMap.Base as HM
import Data.HashMap.Base hiding (
adjust, fromList, fromListWith, insert, insertWith, intersectionWith,
lookupDefault, map, singleton, unionWith)
import Data.HashMap.Unsafe (runST)
singleton :: (Hashable k) => k -> v -> HashMap k v
singleton k !v = HM.singleton k v
lookupDefault :: (Eq k, Hashable k)
=> v
-> k -> HashMap k v -> v
lookupDefault !def k t = HM.lookupDefault def k t
insert :: (Eq k, Hashable k) => k -> v -> HashMap k v -> HashMap k v
insert k !v = HM.insert k v
#if __GLASGOW_HASKELL__ >= 700
#endif
insertWith :: (Eq k, Hashable k) => (v -> v -> v) -> k -> v -> HashMap k v
-> HashMap k v
insertWith f k0 !v0 m0 = go h0 k0 v0 0 m0
where
h0 = hash k0
go !h !k x !_ Empty = Leaf h (L k x)
go h k x s (Leaf hy l@(L ky y))
| hy == h = if ky == k
then let !v' = f x y in Leaf h (L k v')
else collision h l (L k x)
| otherwise = runST (two s h k x hy ky y)
go h k x s (BitmapIndexed b ary)
| b .&. m == 0 =
let ary' = A.insert ary i $! Leaf h (L k x)
in bitmapIndexedOrFull (b .|. m) ary'
| otherwise =
let st = A.index ary i
st' = go h k x (s+bitsPerSubkey) st
ary' = A.update ary i $! st'
in BitmapIndexed b ary'
where m = mask h s
i = sparseIndex b m
go h k x s (Full ary) =
let st = A.index ary i
st' = go h k x (s+bitsPerSubkey) st
ary' = update16 ary i $! st'
in Full ary'
where i = index h s
go h k x s t@(Collision hy v)
| h == hy = Collision h (updateOrSnocWith f k x v)
| otherwise = go h k x s $ BitmapIndexed (mask hy s) (A.singleton t)
#if __GLASGOW_HASKELL__ >= 700
#endif
unsafeInsertWith :: (Eq k, Hashable k) => (v -> v -> v) -> k -> v -> HashMap k v
-> HashMap k v
unsafeInsertWith f k0 v0 m0 = runST (go h0 k0 v0 0 m0)
where
h0 = hash k0
go !h !k x !_ Empty = return $! Leaf h (L k x)
go h k x s (Leaf hy l@(L ky y))
| hy == h = if ky == k
then let !v' = f x y in return $! Leaf h (L k v')
else return $! collision h l (L k x)
| otherwise = two s h k x hy ky y
go h k x s t@(BitmapIndexed b ary)
| b .&. m == 0 = do
ary' <- A.insertM ary i $! Leaf h (L k x)
return $! bitmapIndexedOrFull (b .|. m) ary'
| otherwise = do
st <- A.indexM ary i
st' <- go h k x (s+bitsPerSubkey) st
A.unsafeUpdateM ary i st'
return t
where m = mask h s
i = sparseIndex b m
go h k x s t@(Full ary) = do
st <- A.indexM ary i
st' <- go h k x (s+bitsPerSubkey) st
A.unsafeUpdateM ary i st'
return t
where i = index h s
go h k x s t@(Collision hy v)
| h == hy = return $! Collision h (updateOrSnocWith f k x v)
| otherwise = go h k x s $ BitmapIndexed (mask hy s) (A.singleton t)
#if __GLASGOW_HASKELL__ >= 700
#endif
adjust :: (Eq k, Hashable k) => (v -> v) -> k -> HashMap k v -> HashMap k v
adjust f k0 = go h0 k0 0
where
h0 = hash k0
go !_ !_ !_ Empty = Empty
go h k _ t@(Leaf hy (L ky y))
| hy == h && ky == k = let !v' = f y in Leaf h (L k v')
| otherwise = t
go h k s t@(BitmapIndexed b ary)
| b .&. m == 0 = t
| otherwise = let st = A.index ary i
st' = go h k (s+bitsPerSubkey) st
ary' = A.update ary i $! st'
in BitmapIndexed b ary'
where m = mask h s
i = sparseIndex b m
go h k s (Full ary) =
let i = index h s
st = A.index ary i
st' = go h k (s+bitsPerSubkey) st
ary' = update16 ary i $! st'
in Full ary'
go h k _ t@(Collision hy v)
| h == hy = Collision h (updateWith f k v)
| otherwise = t
#if __GLASGOW_HASKELL__ >= 700
#endif
unionWith :: (Eq k, Hashable k) => (v -> v -> v) -> HashMap k v -> HashMap k v
-> HashMap k v
unionWith f = go 0
where
go !_ t1 Empty = t1
go _ Empty t2 = t2
go s t1@(Leaf h1 l1@(L k1 v1)) t2@(Leaf h2 l2@(L k2 v2))
| h1 == h2 = if k1 == k2
then Leaf h1 . L k1 $! f v1 v2
else collision h1 l1 l2
| otherwise = goDifferentHash s h1 h2 t1 t2
go s t1@(Leaf h1 (L k1 v1)) t2@(Collision h2 ls2)
| h1 == h2 = Collision h1 (updateOrSnocWith f k1 v1 ls2)
| otherwise = goDifferentHash s h1 h2 t1 t2
go s t1@(Collision h1 ls1) t2@(Leaf h2 (L k2 v2))
| h1 == h2 = Collision h1 (updateOrSnocWith (flip f) k2 v2 ls1)
| otherwise = goDifferentHash s h1 h2 t1 t2
go s t1@(Collision h1 ls1) t2@(Collision h2 ls2)
| h1 == h2 = Collision h1 (updateOrConcatWith f ls1 ls2)
| otherwise = goDifferentHash s h1 h2 t1 t2
go s (BitmapIndexed b1 ary1) (BitmapIndexed b2 ary2) =
let b' = b1 .|. b2
ary' = unionArrayBy (go (s+bitsPerSubkey)) b1 b2 ary1 ary2
in bitmapIndexedOrFull b' ary'
go s (BitmapIndexed b1 ary1) (Full ary2) =
let ary' = unionArrayBy (go (s+bitsPerSubkey)) b1 fullNodeMask ary1 ary2
in Full ary'
go s (Full ary1) (BitmapIndexed b2 ary2) =
let ary' = unionArrayBy (go (s+bitsPerSubkey)) fullNodeMask b2 ary1 ary2
in Full ary'
go s (Full ary1) (Full ary2) =
let ary' = unionArrayBy (go (s+bitsPerSubkey)) fullNodeMask fullNodeMask
ary1 ary2
in Full ary'
go s (BitmapIndexed b1 ary1) t2
| b1 .&. m2 == 0 = let ary' = A.insert ary1 i t2
b' = b1 .|. m2
in bitmapIndexedOrFull b' ary'
| otherwise = let ary' = A.updateWith' ary1 i $ \st1 ->
go (s+bitsPerSubkey) st1 t2
in BitmapIndexed b1 ary'
where
h2 = leafHashCode t2
m2 = mask h2 s
i = sparseIndex b1 m2
go s t1 (BitmapIndexed b2 ary2)
| b2 .&. m1 == 0 = let ary' = A.insert ary2 i $! t1
b' = b2 .|. m1
in bitmapIndexedOrFull b' ary'
| otherwise = let ary' = A.updateWith' ary2 i $ \st2 ->
go (s+bitsPerSubkey) t1 st2
in BitmapIndexed b2 ary'
where
h1 = leafHashCode t1
m1 = mask h1 s
i = sparseIndex b2 m1
go s (Full ary1) t2 =
let h2 = leafHashCode t2
i = index h2 s
ary' = update16With' ary1 i $ \st1 -> go (s+bitsPerSubkey) st1 t2
in Full ary'
go s t1 (Full ary2) =
let h1 = leafHashCode t1
i = index h1 s
ary' = update16With' ary2 i $ \st2 -> go (s+bitsPerSubkey) t1 st2
in Full ary'
leafHashCode (Leaf h _) = h
leafHashCode (Collision h _) = h
leafHashCode _ = error "leafHashCode"
goDifferentHash s h1 h2 t1 t2
| m1 == m2 = BitmapIndexed m1 (A.singleton $! go (s+bitsPerSubkey) t1 t2)
| m1 < m2 = BitmapIndexed (m1 .|. m2) (A.pair t1 t2)
| otherwise = BitmapIndexed (m1 .|. m2) (A.pair t2 t1)
where
m1 = mask h1 s
m2 = mask h2 s
mapWithKey :: (k -> v1 -> v2) -> HashMap k v1 -> HashMap k v2
mapWithKey f = go
where
go Empty = Empty
go (Leaf h (L k v)) = let !v' = f k v in Leaf h $ L k v'
go (BitmapIndexed b ary) = BitmapIndexed b $ A.map' go ary
go (Full ary) = Full $ A.map' go ary
go (Collision h ary) =
Collision h $ A.map' (\ (L k v) -> let !v' = f k v in L k v') ary
map :: (v1 -> v2) -> HashMap k v1 -> HashMap k v2
map f = mapWithKey (const f)
intersectionWith :: (Eq k, Hashable k) => (v1 -> v2 -> v3) -> HashMap k v1
-> HashMap k v2 -> HashMap k v3
intersectionWith f a b = foldlWithKey' go empty a
where
go m k v = case HM.lookup k b of
Just w -> insert k (f v w) m
_ -> m
#if __GLASGOW_HASKELL__ >= 700
#endif
fromList :: (Eq k, Hashable k) => [(k, v)] -> HashMap k v
fromList = L.foldl' (\ m (k, v) -> HM.unsafeInsert k v m) empty
#if __GLASGOW_HASKELL__ >= 700
#endif
fromListWith :: (Eq k, Hashable k) => (v -> v -> v) -> [(k, v)] -> HashMap k v
fromListWith f = L.foldl' (\ m (k, v) -> unsafeInsertWith f k v m) empty
updateWith :: Eq k => (v -> v) -> k -> A.Array (Leaf k v) -> A.Array (Leaf k v)
updateWith f k0 ary0 = go k0 ary0 0 (A.length ary0)
where
go !k !ary !i !n
| i >= n = ary
| otherwise = case A.index ary i of
(L kx y) | k == kx -> let !v' = f y in A.update ary i (L k v')
| otherwise -> go k ary (i+1) n
#if __GLASGOW_HASKELL__ >= 700
#endif
updateOrSnocWith :: Eq k => (v -> v -> v) -> k -> v -> A.Array (Leaf k v)
-> A.Array (Leaf k v)
updateOrSnocWith f k0 v0 ary0 = go k0 v0 ary0 0 (A.length ary0)
where
go !k v !ary !i !n
| i >= n = A.run $ do
mary <- A.new_ (n + 1)
A.copy ary 0 mary 0 n
A.write mary n (L k v)
return mary
| otherwise = case A.index ary i of
(L kx y) | k == kx -> let !v' = f v y in A.update ary i (L k v')
| otherwise -> go k v ary (i+1) n
#if __GLASGOW_HASKELL__ >= 700
#endif