X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=Data%2FIntSet.hs;h=36cac361a07f717f03a9aeba141b5494253c573b;hb=a70f356e023abdd0abb130cc149b0e3de7469044;hp=4dc1bf7f75ccfcf5bcaebd4fb45aacef5585b686;hpb=6cd8e25a9ad88133e04f424b6daf0c6a7db2bba8;p=haskell-directory.git diff --git a/Data/IntSet.hs b/Data/IntSet.hs index 4dc1bf7..36cac36 100644 --- a/Data/IntSet.hs +++ b/Data/IntSet.hs @@ -10,10 +10,11 @@ -- -- An efficient implementation of integer sets. -- --- This module is intended to be imported @qualified@, to avoid name --- clashes with "Prelude" functions. eg. +-- Since many function names (but not the type name) clash with +-- "Prelude" names, this module is usually imported @qualified@, e.g. -- --- > import Data.IntSet as Set +-- > import Data.IntSet (IntSet) +-- > import qualified Data.IntSet as IntSet -- -- The implementation is based on /big-endian patricia trees/. This data -- structure performs especially well on binary operations like 'union' @@ -46,6 +47,7 @@ module Data.IntSet ( , null , size , member + , notMember , isSubsetOf , isProperSubsetOf @@ -94,6 +96,7 @@ import Data.Bits import Data.Int import qualified Data.List as List +import Data.Monoid (Monoid(..)) import Data.Typeable {- @@ -104,6 +107,7 @@ import qualified List -} #if __GLASGOW_HASKELL__ +import Text.Read import Data.Generics.Basics import Data.Generics.Instances #endif @@ -158,6 +162,11 @@ data IntSet = Nil type Prefix = Int type Mask = Int +instance Monoid IntSet where + mempty = empty + mappend = union + mconcat = unions + #if __GLASGOW_HASKELL__ {-------------------------------------------------------------------- @@ -202,6 +211,10 @@ member x t Tip y -> (x==y) Nil -> False +-- | /O(log n)/. Is the element not in the set? +notMember :: Int -> IntSet -> Bool +notMember k = not . member k + -- 'lookup' is used by 'intersection' for left-biasing lookup :: Int -> IntSet -> Maybe Int lookup k t @@ -454,8 +467,24 @@ split :: Int -> IntSet -> (IntSet,IntSet) split x t = case t of Bin p m l r - | zero x m -> let (lt,gt) = split x l in (lt,union gt r) - | otherwise -> let (lt,gt) = split x r in (union l lt,gt) + | m < 0 -> if x >= 0 then let (lt,gt) = split' x l in (union r lt, gt) + else let (lt,gt) = split' x r in (lt, union gt l) + -- handle negative numbers. + | otherwise -> split' x t + Tip y + | x>y -> (t,Nil) + | x (Nil,t) + | otherwise -> (Nil,Nil) + Nil -> (Nil, Nil) + +split' :: Int -> IntSet -> (IntSet,IntSet) +split' x t + = case t of + Bin p m l r + | match x p m -> if zero x m then let (lt,gt) = split' x l in (lt,union gt r) + else let (lt,gt) = split' x r in (union l lt,gt) + | otherwise -> if x < p then (Nil, t) + else (t, Nil) Tip y | x>y -> (t,Nil) | x (Nil,t) @@ -468,8 +497,24 @@ splitMember :: Int -> IntSet -> (IntSet,Bool,IntSet) splitMember x t = case t of Bin p m l r - | zero x m -> let (lt,found,gt) = splitMember x l in (lt,found,union gt r) - | otherwise -> let (lt,found,gt) = splitMember x r in (union l lt,found,gt) + | m < 0 -> if x >= 0 then let (lt,found,gt) = splitMember' x l in (union r lt, found, gt) + else let (lt,found,gt) = splitMember' x r in (lt, found, union gt l) + -- handle negative numbers. + | otherwise -> splitMember' x t + Tip y + | x>y -> (t,False,Nil) + | x (Nil,False,t) + | otherwise -> (Nil,True,Nil) + Nil -> (Nil,False,Nil) + +splitMember' :: Int -> IntSet -> (IntSet,Bool,IntSet) +splitMember' x t + = case t of + Bin p m l r + | match x p m -> if zero x m then let (lt,found,gt) = splitMember x l in (lt,found,union gt r) + else let (lt,found,gt) = splitMember x r in (union l lt,found,gt) + | otherwise -> if x < p then (Nil, False, t) + else (t, False, Nil) Tip y | x>y -> (t,False,Nil) | x (Nil,False,t) @@ -498,7 +543,12 @@ map f = fromList . List.map f . toList -- > elems set == fold (:) [] set fold :: (Int -> b -> b) -> b -> IntSet -> b fold f z t - = foldr f z t + = case t of + Bin 0 m l r | m < 0 -> foldr f (foldr f z l) r + -- put negative numbers before. + Bin p m l r -> foldr f z t + Tip x -> f x z + Nil -> z foldr :: (Int -> b -> b) -> b -> IntSet -> b foldr f z t @@ -525,9 +575,7 @@ toList t -- | /O(n)/. Convert the set to an ascending list of elements. toAscList :: IntSet -> [Int] -toAscList t - = -- NOTE: the following algorithm only works for big-endian trees - let (pos,neg) = span (>=0) (foldr (:) [] t) in neg ++ pos +toAscList t = toList t -- | /O(n*min(n,W))/. Create a set from a list of integers. fromList :: [Int] -> IntSet @@ -582,7 +630,8 @@ instance Ord IntSet where Show --------------------------------------------------------------------} instance Show IntSet where - showsPrec d s = showSet (toList s) + showsPrec p xs = showParen (p > 10) $ + showString "fromList " . shows (toList xs) showSet :: [Int] -> ShowS showSet [] @@ -594,6 +643,24 @@ showSet (x:xs) showTail (x:xs) = showChar ',' . shows x . showTail xs {-------------------------------------------------------------------- + Read +--------------------------------------------------------------------} +instance Read IntSet where +#ifdef __GLASGOW_HASKELL__ + readPrec = parens $ prec 10 $ do + Ident "fromList" <- lexP + xs <- readPrec + return (fromList xs) + + readListPrec = readListPrecDefault +#else + readsPrec p = readParen (p > 10) $ \ r -> do + ("fromList",s) <- lex r + (xs,t) <- reads s + return (fromList xs,t) +#endif + +{-------------------------------------------------------------------- Typeable --------------------------------------------------------------------}