{-# LANGUAGE BangPatterns #-} -- This is a non-exposed internal module -- -- The code in this module has been ripped from containers-0.5.5.1:Data.Map.Base [1] almost -- verbatimely to avoid a dependency of 'template-haskell' on the containers package. -- -- [1] see https://hackage.haskell.org/package/containers-0.5.5.1 -- -- The original code is BSD-licensed and copyrighted by Daan Leijen, Andriy Palamarchuk, et al. module Language.Haskell.TH.Lib.Map ( Map , empty , insert , Language.Haskell.TH.Lib.Map.lookup ) where data Map k a = Bin {-# UNPACK #-} !Size !k a !(Map k a) !(Map k a) | Tip type Size = Int empty :: Map k a empty = Tip {-# INLINE empty #-} singleton :: k -> a -> Map k a singleton k x = Bin 1 k x Tip Tip {-# INLINE singleton #-} size :: Map k a -> Int size Tip = 0 size (Bin sz _ _ _ _) = sz {-# INLINE size #-} lookup :: Ord k => k -> Map k a -> Maybe a lookup = go where go _ Tip = Nothing go !k (Bin _ kx x l r) = case compare k kx of LT -> go k l GT -> go k r EQ -> Just x {-# INLINABLE lookup #-} insert :: Ord k => k -> a -> Map k a -> Map k a insert = go where go :: Ord k => k -> a -> Map k a -> Map k a go !kx x Tip = singleton kx x go !kx x (Bin sz ky y l r) = case compare kx ky of LT -> balanceL ky y (go kx x l) r GT -> balanceR ky y l (go kx x r) EQ -> Bin sz kx x l r {-# INLINABLE insert #-} balanceL :: k -> a -> Map k a -> Map k a -> Map k a balanceL k x l r = case r of Tip -> case l of Tip -> Bin 1 k x Tip Tip (Bin _ _ _ Tip Tip) -> Bin 2 k x l Tip (Bin _ lk lx Tip (Bin _ lrk lrx _ _)) -> Bin 3 lrk lrx (Bin 1 lk lx Tip Tip) (Bin 1 k x Tip Tip) (Bin _ lk lx ll@(Bin _ _ _ _ _) Tip) -> Bin 3 lk lx ll (Bin 1 k x Tip Tip) (Bin ls lk lx ll@(Bin lls _ _ _ _) lr@(Bin lrs lrk lrx lrl lrr)) | lrs < ratio*lls -> Bin (1+ls) lk lx ll (Bin (1+lrs) k x lr Tip) | otherwise -> Bin (1+ls) lrk lrx (Bin (1+lls+size lrl) lk lx ll lrl) (Bin (1+size lrr) k x lrr Tip) (Bin rs _ _ _ _) -> case l of Tip -> Bin (1+rs) k x Tip r (Bin ls lk lx ll lr) | ls > delta*rs -> case (ll, lr) of (Bin lls _ _ _ _, Bin lrs lrk lrx lrl lrr) | lrs < ratio*lls -> Bin (1+ls+rs) lk lx ll (Bin (1+rs+lrs) k x lr r) | otherwise -> Bin (1+ls+rs) lrk lrx (Bin (1+lls+size lrl) lk lx ll lrl) (Bin (1+rs+size lrr) k x lrr r) (_, _) -> error "Failure in Data.Map.balanceL" | otherwise -> Bin (1+ls+rs) k x l r {-# NOINLINE balanceL #-} balanceR :: k -> a -> Map k a -> Map k a -> Map k a balanceR k x l r = case l of Tip -> case r of Tip -> Bin 1 k x Tip Tip (Bin _ _ _ Tip Tip) -> Bin 2 k x Tip r (Bin _ rk rx Tip rr@(Bin _ _ _ _ _)) -> Bin 3 rk rx (Bin 1 k x Tip Tip) rr (Bin _ rk rx (Bin _ rlk rlx _ _) Tip) -> Bin 3 rlk rlx (Bin 1 k x Tip Tip) (Bin 1 rk rx Tip Tip) (Bin rs rk rx rl@(Bin rls rlk rlx rll rlr) rr@(Bin rrs _ _ _ _)) | rls < ratio*rrs -> Bin (1+rs) rk rx (Bin (1+rls) k x Tip rl) rr | otherwise -> Bin (1+rs) rlk rlx (Bin (1+size rll) k x Tip rll) (Bin (1+rrs+size rlr) rk rx rlr rr) (Bin ls _ _ _ _) -> case r of Tip -> Bin (1+ls) k x l Tip (Bin rs rk rx rl rr) | rs > delta*ls -> case (rl, rr) of (Bin rls rlk rlx rll rlr, Bin rrs _ _ _ _) | rls < ratio*rrs -> Bin (1+ls+rs) rk rx (Bin (1+ls+rls) k x l rl) rr | otherwise -> Bin (1+ls+rs) rlk rlx (Bin (1+ls+size rll) k x l rll) (Bin (1+rrs+size rlr) rk rx rlr rr) (_, _) -> error "Failure in Data.Map.balanceR" | otherwise -> Bin (1+ls+rs) k x l r {-# NOINLINE balanceR #-} delta,ratio :: Int delta = 3 ratio = 2