X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=Data%2FIntSet.hs;h=a3cb7666f7c26f43f1619c29ea1c94e9bf45bce2;hb=ad2464d7646b2b0745615f4a23967444e23fea40;hp=e06c6da2cdd4c2b93e6f39c0f8f4755c207cb32c;hpb=0d6c1599c246100deb2fa54315811ed94d1a300c;p=ghc-base.git diff --git a/Data/IntSet.hs b/Data/IntSet.hs index e06c6da..a3cb766 100644 --- a/Data/IntSet.hs +++ b/Data/IntSet.hs @@ -159,12 +159,12 @@ data IntSet = Nil type Prefix = Int type Mask = Int +#if __GLASGOW_HASKELL__ + {-------------------------------------------------------------------- A Data instance --------------------------------------------------------------------} -#if __GLASGOW_HASKELL__ - -- This instance preserves data abstraction at the cost of inefficiency. -- We omit reflection services for the sake of data abstraction. @@ -405,7 +405,7 @@ subsetCmp Nil Nil = EQ subsetCmp Nil t = LT -- | /O(n+m)/. Is this a subset? --- @(s1 `isSubsetOf` s2)@ tells whether s1 is a subset of s2. +-- @(s1 `isSubsetOf` s2)@ tells whether @s1@ is a subset of @s2@. isSubsetOf :: IntSet -> IntSet -> Bool isSubsetOf t1@(Bin p1 m1 l1 r1) t2@(Bin p2 m2 l2 r2) @@ -446,7 +446,7 @@ partition pred t Nil -> (Nil,Nil) --- | /O(log n)/. The expression (@split x set@) is a pair @(set1,set2)@ +-- | /O(log n)/. The expression (@'split' x set@) is a pair @(set1,set2)@ -- where all elements in @set1@ are lower than @x@ and all elements in -- @set2@ larger than @x@. -- @@ -465,24 +465,24 @@ split x t -- | /O(log n)/. Performs a 'split' but also returns whether the pivot -- element was found in the original set. -splitMember :: Int -> IntSet -> (Bool,IntSet,IntSet) +splitMember :: Int -> IntSet -> (IntSet,Bool,IntSet) splitMember x t = case t of Bin p m l r - | zero x m -> let (found,lt,gt) = splitMember x l in (found,lt,union gt r) - | otherwise -> let (found,lt,gt) = splitMember x r in (found,union l lt,gt) + | 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) Tip y - | x>y -> (False,t,Nil) - | x (False,Nil,t) - | otherwise -> (True,Nil,Nil) - Nil -> (False,Nil,Nil) + | x>y -> (t,False,Nil) + | x (Nil,False,t) + | otherwise -> (Nil,True,Nil) + Nil -> (Nil,False,Nil) {---------------------------------------------------------------------- Map ----------------------------------------------------------------------} -- | /O(n*min(n,W))/. --- @map f s@ is the set obtained by applying @f@ to each element of @s@. +-- @'map' f s@ is the set obtained by applying @f@ to each element of @s@. -- -- It's worth noting that the size of the result may be smaller if, -- for some @(x,y)@, @x \/= y && f x == f y@ @@ -620,10 +620,10 @@ showTree s = showTreeWith True False s -{- | /O(n)/. The expression (@showTreeWith hang wide map@) shows +{- | /O(n)/. The expression (@'showTreeWith' hang wide map@) shows the tree that implements the set. If @hang@ is - @True@, a /hanging/ tree is shown otherwise a rotated tree is shown. If - @wide@ is true, an extra wide version is shown. + 'True', a /hanging/ tree is shown otherwise a rotated tree is shown. If + @wide@ is 'True', an extra wide version is shown. -} showTreeWith :: Bool -> Bool -> IntSet -> String showTreeWith hang wide t