#if __GLASGOW_HASKELL__
#endif
#if !defined(TESTING) && __GLASGOW_HASKELL__ >= 703
#endif
module Data.IntSet.Base (
IntSet(..), Key
, (\\)
, null
, size
, member
, notMember
, lookupLT
, lookupGT
, lookupLE
, lookupGE
, isSubsetOf
, isProperSubsetOf
, empty
, singleton
, insert
, delete
, union
, unions
, difference
, intersection
, filter
, partition
, split
, splitMember
, splitRoot
, map
, foldr
, foldl
, foldr'
, foldl'
, fold
, findMin
, findMax
, deleteMin
, deleteMax
, deleteFindMin
, deleteFindMax
, maxView
, minView
, elems
, toList
, fromList
, toAscList
, toDescList
, fromAscList
, fromDistinctAscList
, showTree
, showTreeWith
, match
, suffixBitMask
, prefixBitMask
, bitmapOf
) where
#define MIN_VERSION_base_4_5_0 0
#ifdef MIN_VERSION_base
#if MIN_VERSION_base(4,5,0)
#undef MIN_VERSION_base_4_5_0
#define MIN_VERSION_base_4_5_0 1
#endif
#endif
#define MIN_VERSION_base_4_7_0 0
#ifdef MIN_VERSION_base
#if MIN_VERSION_base(4,7,0)
#undef MIN_VERSION_base_4_7_0
#define MIN_VERSION_base_4_7_0 1
#endif
#endif
import Control.DeepSeq (NFData)
import Data.Bits
import qualified Data.List as List
import Data.Maybe (fromMaybe)
import Data.Monoid (Monoid(..))
import Data.Typeable
import Data.Word (Word)
import Prelude hiding (filter, foldr, foldl, null, map)
import Data.BitUtil
import Data.StrictPair
#if __GLASGOW_HASKELL__
import Data.Data (Data(..), Constr, mkConstr, constrIndex, Fixity(Prefix), DataType, mkDataType)
import Text.Read
#endif
#if __GLASGOW_HASKELL__
import GHC.Exts (Int(..), build)
import GHC.Prim (indexInt8OffAddr#)
#endif
#if defined(__GLASGOW_HASKELL__)
# include "MachDeps.h"
#endif
#define STRICT_1_OF_2(fn) fn arg _ | arg `seq` False = undefined
#define STRICT_2_OF_2(fn) fn _ arg | arg `seq` False = undefined
#define STRICT_1_OF_3(fn) fn arg _ _ | arg `seq` False = undefined
#define STRICT_2_OF_3(fn) fn _ arg _ | arg `seq` False = undefined
infixl 9 \\
type Nat = Word
natFromInt :: Int -> Nat
natFromInt i = fromIntegral i
intFromNat :: Nat -> Int
intFromNat w = fromIntegral w
(\\) :: IntSet -> IntSet -> IntSet
m1 \\ m2 = difference m1 m2
data IntSet = Bin !Prefix !Mask !IntSet !IntSet
| Tip !Prefix !BitMap
| Nil
type Prefix = Int
type Mask = Int
type BitMap = Word
type Key = Int
instance Monoid IntSet where
mempty = empty
mappend = union
mconcat = unions
#if __GLASGOW_HASKELL__
instance Data IntSet where
gfoldl f z is = z fromList `f` (toList is)
toConstr _ = fromListConstr
gunfold k z c = case constrIndex c of
1 -> k (z fromList)
_ -> error "gunfold"
dataTypeOf _ = intSetDataType
fromListConstr :: Constr
fromListConstr = mkConstr intSetDataType "fromList" [] Prefix
intSetDataType :: DataType
intSetDataType = mkDataType "Data.IntSet.Base.IntSet" [fromListConstr]
#endif
null :: IntSet -> Bool
null Nil = True
null _ = False
size :: IntSet -> Int
size t
= case t of
Bin _ _ l r -> size l + size r
Tip _ bm -> bitcount 0 bm
Nil -> 0
member :: Key -> IntSet -> Bool
member x = x `seq` go
where
go (Bin p m l r)
| nomatch x p m = False
| zero x m = go l
| otherwise = go r
go (Tip y bm) = prefixOf x == y && bitmapOf x .&. bm /= 0
go Nil = False
notMember :: Key -> IntSet -> Bool
notMember k = not . member k
lookupLT :: Key -> IntSet -> Maybe Key
lookupLT x t = x `seq` case t of
Bin _ m l r | m < 0 -> if x >= 0 then go r l else go Nil r
_ -> go Nil t
where
go def (Bin p m l r) | nomatch x p m = if x < p then unsafeFindMax def else unsafeFindMax r
| zero x m = go def l
| otherwise = go l r
go def (Tip kx bm) | prefixOf x > kx = Just $ kx + highestBitSet bm
| prefixOf x == kx && maskLT /= 0 = Just $ kx + highestBitSet maskLT
| otherwise = unsafeFindMax def
where maskLT = (bitmapOf x 1) .&. bm
go def Nil = unsafeFindMax def
lookupGT :: Key -> IntSet -> Maybe Key
lookupGT x t = x `seq` case t of
Bin _ m l r | m < 0 -> if x >= 0 then go Nil l else go l r
_ -> go Nil t
where
go def (Bin p m l r) | nomatch x p m = if x < p then unsafeFindMin l else unsafeFindMin def
| zero x m = go r l
| otherwise = go def r
go def (Tip kx bm) | prefixOf x < kx = Just $ kx + lowestBitSet bm
| prefixOf x == kx && maskGT /= 0 = Just $ kx + lowestBitSet maskGT
| otherwise = unsafeFindMin def
where maskGT = ( ((bitmapOf x) `shiftLL` 1)) .&. bm
go def Nil = unsafeFindMin def
lookupLE :: Key -> IntSet -> Maybe Key
lookupLE x t = x `seq` case t of
Bin _ m l r | m < 0 -> if x >= 0 then go r l else go Nil r
_ -> go Nil t
where
go def (Bin p m l r) | nomatch x p m = if x < p then unsafeFindMax def else unsafeFindMax r
| zero x m = go def l
| otherwise = go l r
go def (Tip kx bm) | prefixOf x > kx = Just $ kx + highestBitSet bm
| prefixOf x == kx && maskLE /= 0 = Just $ kx + highestBitSet maskLE
| otherwise = unsafeFindMax def
where maskLE = (((bitmapOf x) `shiftLL` 1) 1) .&. bm
go def Nil = unsafeFindMax def
lookupGE :: Key -> IntSet -> Maybe Key
lookupGE x t = x `seq` case t of
Bin _ m l r | m < 0 -> if x >= 0 then go Nil l else go l r
_ -> go Nil t
where
go def (Bin p m l r) | nomatch x p m = if x < p then unsafeFindMin l else unsafeFindMin def
| zero x m = go r l
| otherwise = go def r
go def (Tip kx bm) | prefixOf x < kx = Just $ kx + lowestBitSet bm
| prefixOf x == kx && maskGE /= 0 = Just $ kx + lowestBitSet maskGE
| otherwise = unsafeFindMin def
where maskGE = ( (bitmapOf x)) .&. bm
go def Nil = unsafeFindMin def
unsafeFindMin :: IntSet -> Maybe Key
unsafeFindMin Nil = Nothing
unsafeFindMin (Tip kx bm) = Just $ kx + lowestBitSet bm
unsafeFindMin (Bin _ _ l _) = unsafeFindMin l
unsafeFindMax :: IntSet -> Maybe Key
unsafeFindMax Nil = Nothing
unsafeFindMax (Tip kx bm) = Just $ kx + highestBitSet bm
unsafeFindMax (Bin _ _ _ r) = unsafeFindMax r
empty :: IntSet
empty
= Nil
singleton :: Key -> IntSet
singleton x
= Tip (prefixOf x) (bitmapOf x)
insert :: Key -> IntSet -> IntSet
insert x = x `seq` insertBM (prefixOf x) (bitmapOf x)
insertBM :: Prefix -> BitMap -> IntSet -> IntSet
insertBM kx bm t = kx `seq` bm `seq`
case t of
Bin p m l r
| nomatch kx p m -> link kx (Tip kx bm) p t
| zero kx m -> Bin p m (insertBM kx bm l) r
| otherwise -> Bin p m l (insertBM kx bm r)
Tip kx' bm'
| kx' == kx -> Tip kx' (bm .|. bm')
| otherwise -> link kx (Tip kx bm) kx' t
Nil -> Tip kx bm
delete :: Key -> IntSet -> IntSet
delete x = x `seq` deleteBM (prefixOf x) (bitmapOf x)
deleteBM :: Prefix -> BitMap -> IntSet -> IntSet
deleteBM kx bm t = kx `seq` bm `seq`
case t of
Bin p m l r
| nomatch kx p m -> t
| zero kx m -> bin p m (deleteBM kx bm l) r
| otherwise -> bin p m l (deleteBM kx bm r)
Tip kx' bm'
| kx' == kx -> tip kx (bm' .&. complement bm)
| otherwise -> t
Nil -> Nil
unions :: [IntSet] -> IntSet
unions xs
= foldlStrict union empty xs
union :: IntSet -> IntSet -> IntSet
union t1@(Bin p1 m1 l1 r1) t2@(Bin p2 m2 l2 r2)
| shorter m1 m2 = union1
| shorter m2 m1 = union2
| p1 == p2 = Bin p1 m1 (union l1 l2) (union r1 r2)
| otherwise = link p1 t1 p2 t2
where
union1 | nomatch p2 p1 m1 = link p1 t1 p2 t2
| zero p2 m1 = Bin p1 m1 (union l1 t2) r1
| otherwise = Bin p1 m1 l1 (union r1 t2)
union2 | nomatch p1 p2 m2 = link p1 t1 p2 t2
| zero p1 m2 = Bin p2 m2 (union t1 l2) r2
| otherwise = Bin p2 m2 l2 (union t1 r2)
union t@(Bin _ _ _ _) (Tip kx bm) = insertBM kx bm t
union t@(Bin _ _ _ _) Nil = t
union (Tip kx bm) t = insertBM kx bm t
union Nil t = t
difference :: IntSet -> IntSet -> IntSet
difference t1@(Bin p1 m1 l1 r1) t2@(Bin p2 m2 l2 r2)
| shorter m1 m2 = difference1
| shorter m2 m1 = difference2
| p1 == p2 = bin p1 m1 (difference l1 l2) (difference r1 r2)
| otherwise = t1
where
difference1 | nomatch p2 p1 m1 = t1
| zero p2 m1 = bin p1 m1 (difference l1 t2) r1
| otherwise = bin p1 m1 l1 (difference r1 t2)
difference2 | nomatch p1 p2 m2 = t1
| zero p1 m2 = difference t1 l2
| otherwise = difference t1 r2
difference t@(Bin _ _ _ _) (Tip kx bm) = deleteBM kx bm t
difference t@(Bin _ _ _ _) Nil = t
difference t1@(Tip kx bm) t2 = differenceTip t2
where differenceTip (Bin p2 m2 l2 r2) | nomatch kx p2 m2 = t1
| zero kx m2 = differenceTip l2
| otherwise = differenceTip r2
differenceTip (Tip kx2 bm2) | kx == kx2 = tip kx (bm .&. complement bm2)
| otherwise = t1
differenceTip Nil = t1
difference Nil _ = Nil
intersection :: IntSet -> IntSet -> IntSet
intersection t1@(Bin p1 m1 l1 r1) t2@(Bin p2 m2 l2 r2)
| shorter m1 m2 = intersection1
| shorter m2 m1 = intersection2
| p1 == p2 = bin p1 m1 (intersection l1 l2) (intersection r1 r2)
| otherwise = Nil
where
intersection1 | nomatch p2 p1 m1 = Nil
| zero p2 m1 = intersection l1 t2
| otherwise = intersection r1 t2
intersection2 | nomatch p1 p2 m2 = Nil
| zero p1 m2 = intersection t1 l2
| otherwise = intersection t1 r2
intersection t1@(Bin _ _ _ _) (Tip kx2 bm2) = intersectBM t1
where intersectBM (Bin p1 m1 l1 r1) | nomatch kx2 p1 m1 = Nil
| zero kx2 m1 = intersectBM l1
| otherwise = intersectBM r1
intersectBM (Tip kx1 bm1) | kx1 == kx2 = tip kx1 (bm1 .&. bm2)
| otherwise = Nil
intersectBM Nil = Nil
intersection (Bin _ _ _ _) Nil = Nil
intersection (Tip kx1 bm1) t2 = intersectBM t2
where intersectBM (Bin p2 m2 l2 r2) | nomatch kx1 p2 m2 = Nil
| zero kx1 m2 = intersectBM l2
| otherwise = intersectBM r2
intersectBM (Tip kx2 bm2) | kx1 == kx2 = tip kx1 (bm1 .&. bm2)
| otherwise = Nil
intersectBM Nil = Nil
intersection Nil _ = Nil
isProperSubsetOf :: IntSet -> IntSet -> Bool
isProperSubsetOf t1 t2
= case subsetCmp t1 t2 of
LT -> True
_ -> False
subsetCmp :: IntSet -> IntSet -> Ordering
subsetCmp t1@(Bin p1 m1 l1 r1) (Bin p2 m2 l2 r2)
| shorter m1 m2 = GT
| shorter m2 m1 = case subsetCmpLt of
GT -> GT
_ -> LT
| p1 == p2 = subsetCmpEq
| otherwise = GT
where
subsetCmpLt | nomatch p1 p2 m2 = GT
| zero p1 m2 = subsetCmp t1 l2
| otherwise = subsetCmp t1 r2
subsetCmpEq = case (subsetCmp l1 l2, subsetCmp r1 r2) of
(GT,_ ) -> GT
(_ ,GT) -> GT
(EQ,EQ) -> EQ
_ -> LT
subsetCmp (Bin _ _ _ _) _ = GT
subsetCmp (Tip kx1 bm1) (Tip kx2 bm2)
| kx1 /= kx2 = GT
| bm1 == bm2 = EQ
| bm1 .&. complement bm2 == 0 = LT
| otherwise = GT
subsetCmp t1@(Tip kx _) (Bin p m l r)
| nomatch kx p m = GT
| zero kx m = case subsetCmp t1 l of GT -> GT ; _ -> LT
| otherwise = case subsetCmp t1 r of GT -> GT ; _ -> LT
subsetCmp (Tip _ _) Nil = GT
subsetCmp Nil Nil = EQ
subsetCmp Nil _ = LT
isSubsetOf :: IntSet -> IntSet -> Bool
isSubsetOf t1@(Bin p1 m1 l1 r1) (Bin p2 m2 l2 r2)
| shorter m1 m2 = False
| shorter m2 m1 = match p1 p2 m2 && (if zero p1 m2 then isSubsetOf t1 l2
else isSubsetOf t1 r2)
| otherwise = (p1==p2) && isSubsetOf l1 l2 && isSubsetOf r1 r2
isSubsetOf (Bin _ _ _ _) _ = False
isSubsetOf (Tip kx1 bm1) (Tip kx2 bm2) = kx1 == kx2 && bm1 .&. complement bm2 == 0
isSubsetOf t1@(Tip kx _) (Bin p m l r)
| nomatch kx p m = False
| zero kx m = isSubsetOf t1 l
| otherwise = isSubsetOf t1 r
isSubsetOf (Tip _ _) Nil = False
isSubsetOf Nil _ = True
filter :: (Key -> Bool) -> IntSet -> IntSet
filter predicate t
= case t of
Bin p m l r
-> bin p m (filter predicate l) (filter predicate r)
Tip kx bm
-> tip kx (foldl'Bits 0 (bitPred kx) 0 bm)
Nil -> Nil
where bitPred kx bm bi | predicate (kx + bi) = bm .|. bitmapOfSuffix bi
| otherwise = bm
partition :: (Key -> Bool) -> IntSet -> (IntSet,IntSet)
partition predicate0 t0 = toPair $ go predicate0 t0
where
go predicate t
= case t of
Bin p m l r
-> let (l1 :*: l2) = go predicate l
(r1 :*: r2) = go predicate r
in bin p m l1 r1 :*: bin p m l2 r2
Tip kx bm
-> let bm1 = foldl'Bits 0 (bitPred kx) 0 bm
in tip kx bm1 :*: tip kx (bm `xor` bm1)
Nil -> (Nil :*: Nil)
where bitPred kx bm bi | predicate (kx + bi) = bm .|. bitmapOfSuffix bi
| otherwise = bm
split :: Key -> IntSet -> (IntSet,IntSet)
split x t =
case t of
Bin _ m l r
| m < 0 -> if x >= 0
then case go x l of (lt :*: gt) -> let lt' = union lt r
in lt' `seq` (lt', gt)
else case go x r of (lt :*: gt) -> let gt' = union gt l
in gt' `seq` (lt, gt')
_ -> case go x t of
(lt :*: gt) -> (lt, gt)
where
go !x' t'@(Bin p m l r)
| match x' p m = if zero x' m
then case go x' l of
(lt :*: gt) -> lt :*: union gt r
else case go x' r of
(lt :*: gt) -> union lt l :*: gt
| otherwise = if x' < p then (Nil :*: t')
else (t' :*: Nil)
go x' t'@(Tip kx' bm)
| kx' > x' = (Nil :*: t')
| kx' < prefixOf x' = (t' :*: Nil)
| otherwise = tip kx' (bm .&. lowerBitmap) :*: tip kx' (bm .&. higherBitmap)
where lowerBitmap = bitmapOf x' 1
higherBitmap = complement (lowerBitmap + bitmapOf x')
go _ Nil = (Nil :*: Nil)
splitMember :: Key -> IntSet -> (IntSet,Bool,IntSet)
splitMember x t =
case t of
Bin _ m l r | m < 0 -> if x >= 0
then case go x l of
(lt, fnd, gt) -> let lt' = union lt r
in lt' `seq` (lt', fnd, gt)
else case go x r of
(lt, fnd, gt) -> let gt' = union gt l
in gt' `seq` (lt, fnd, gt')
_ -> go x t
where
go x' t'@(Bin p m l r)
| match x' p m = if zero x' m
then case go x' l of
(lt, fnd, gt) -> (lt, fnd, union gt r)
else case go x' r of
(lt, fnd, gt) -> (union lt l, fnd, gt)
| otherwise = if x' < p then (Nil, False, t') else (t', False, Nil)
go x' t'@(Tip kx' bm)
| kx' > x' = (Nil, False, t')
| kx' < prefixOf x' = (t', False, Nil)
| otherwise = let lt = tip kx' (bm .&. lowerBitmap)
found = (bm .&. bitmapOfx') /= 0
gt = tip kx' (bm .&. higherBitmap)
in lt `seq` found `seq` gt `seq` (lt, found, gt)
where bitmapOfx' = bitmapOf x'
lowerBitmap = bitmapOfx' 1
higherBitmap = complement (lowerBitmap + bitmapOfx')
go _ Nil = (Nil, False, Nil)
maxView :: IntSet -> Maybe (Key, IntSet)
maxView t =
case t of Nil -> Nothing
Bin p m l r | m < 0 -> case go l of (result, l') -> Just (result, bin p m l' r)
_ -> Just (go t)
where
go (Bin p m l r) = case go r of (result, r') -> (result, bin p m l r')
go (Tip kx bm) = case highestBitSet bm of bi -> (kx + bi, tip kx (bm .&. complement (bitmapOfSuffix bi)))
go Nil = error "maxView Nil"
minView :: IntSet -> Maybe (Key, IntSet)
minView t =
case t of Nil -> Nothing
Bin p m l r | m < 0 -> case go r of (result, r') -> Just (result, bin p m l r')
_ -> Just (go t)
where
go (Bin p m l r) = case go l of (result, l') -> (result, bin p m l' r)
go (Tip kx bm) = case lowestBitSet bm of bi -> (kx + bi, tip kx (bm .&. complement (bitmapOfSuffix bi)))
go Nil = error "minView Nil"
deleteFindMin :: IntSet -> (Key, IntSet)
deleteFindMin = fromMaybe (error "deleteFindMin: empty set has no minimal element") . minView
deleteFindMax :: IntSet -> (Key, IntSet)
deleteFindMax = fromMaybe (error "deleteFindMax: empty set has no maximal element") . maxView
findMin :: IntSet -> Key
findMin Nil = error "findMin: empty set has no minimal element"
findMin (Tip kx bm) = kx + lowestBitSet bm
findMin (Bin _ m l r)
| m < 0 = find r
| otherwise = find l
where find (Tip kx bm) = kx + lowestBitSet bm
find (Bin _ _ l' _) = find l'
find Nil = error "findMin Nil"
findMax :: IntSet -> Key
findMax Nil = error "findMax: empty set has no maximal element"
findMax (Tip kx bm) = kx + highestBitSet bm
findMax (Bin _ m l r)
| m < 0 = find l
| otherwise = find r
where find (Tip kx bm) = kx + highestBitSet bm
find (Bin _ _ _ r') = find r'
find Nil = error "findMax Nil"
deleteMin :: IntSet -> IntSet
deleteMin = maybe Nil snd . minView
deleteMax :: IntSet -> IntSet
deleteMax = maybe Nil snd . maxView
map :: (Key -> Key) -> IntSet -> IntSet
map f = fromList . List.map f . toList
fold :: (Key -> b -> b) -> b -> IntSet -> b
fold = foldr
foldr :: (Key -> b -> b) -> b -> IntSet -> b
foldr f z = \t ->
case t of Bin _ m l r | m < 0 -> go (go z l) r
| otherwise -> go (go z r) l
_ -> go z t
where
go z' Nil = z'
go z' (Tip kx bm) = foldrBits kx f z' bm
go z' (Bin _ _ l r) = go (go z' r) l
foldr' :: (Key -> b -> b) -> b -> IntSet -> b
foldr' f z = \t ->
case t of Bin _ m l r | m < 0 -> go (go z l) r
| otherwise -> go (go z r) l
_ -> go z t
where
STRICT_1_OF_2(go)
go z' Nil = z'
go z' (Tip kx bm) = foldr'Bits kx f z' bm
go z' (Bin _ _ l r) = go (go z' r) l
foldl :: (a -> Key -> a) -> a -> IntSet -> a
foldl f z = \t ->
case t of Bin _ m l r | m < 0 -> go (go z r) l
| otherwise -> go (go z l) r
_ -> go z t
where
STRICT_1_OF_2(go)
go z' Nil = z'
go z' (Tip kx bm) = foldlBits kx f z' bm
go z' (Bin _ _ l r) = go (go z' l) r
foldl' :: (a -> Key -> a) -> a -> IntSet -> a
foldl' f z = \t ->
case t of Bin _ m l r | m < 0 -> go (go z r) l
| otherwise -> go (go z l) r
_ -> go z t
where
STRICT_1_OF_2(go)
go z' Nil = z'
go z' (Tip kx bm) = foldl'Bits kx f z' bm
go z' (Bin _ _ l r) = go (go z' l) r
elems :: IntSet -> [Key]
elems
= toAscList
toList :: IntSet -> [Key]
toList
= toAscList
toAscList :: IntSet -> [Key]
toAscList = foldr (:) []
toDescList :: IntSet -> [Key]
toDescList = foldl (flip (:)) []
#if __GLASGOW_HASKELL__
foldrFB :: (Key -> b -> b) -> b -> IntSet -> b
foldrFB = foldr
foldlFB :: (a -> Key -> a) -> a -> IntSet -> a
foldlFB = foldl
#endif
fromList :: [Key] -> IntSet
fromList xs
= foldlStrict ins empty xs
where
ins t x = insert x t
fromAscList :: [Key] -> IntSet
fromAscList [] = Nil
fromAscList (x0 : xs0) = fromDistinctAscList (combineEq x0 xs0)
where
combineEq x' [] = [x']
combineEq x' (x:xs)
| x==x' = combineEq x' xs
| otherwise = x' : combineEq x xs
fromDistinctAscList :: [Key] -> IntSet
fromDistinctAscList [] = Nil
fromDistinctAscList (z0 : zs0) = work (prefixOf z0) (bitmapOf z0) zs0 Nada
where
work kx bm [] stk = finish kx (Tip kx bm) stk
work kx bm (z:zs) stk | kx == prefixOf z = work kx (bm .|. bitmapOf z) zs stk
work kx bm (z:zs) stk = reduce z zs (branchMask z kx) kx (Tip kx bm) stk
reduce z zs _ px tx Nada = work (prefixOf z) (bitmapOf z) zs (Push px tx Nada)
reduce z zs m px tx stk@(Push py ty stk') =
let mxy = branchMask px py
pxy = mask px mxy
in if shorter m mxy
then reduce z zs m pxy (Bin pxy mxy ty tx) stk'
else work (prefixOf z) (bitmapOf z) zs (Push px tx stk)
finish _ t Nada = t
finish px tx (Push py ty stk) = finish p (link py ty px tx) stk
where m = branchMask px py
p = mask px m
data Stack = Push !Prefix !IntSet !Stack | Nada
instance Eq IntSet where
t1 == t2 = equal t1 t2
t1 /= t2 = nequal t1 t2
equal :: IntSet -> IntSet -> Bool
equal (Bin p1 m1 l1 r1) (Bin p2 m2 l2 r2)
= (m1 == m2) && (p1 == p2) && (equal l1 l2) && (equal r1 r2)
equal (Tip kx1 bm1) (Tip kx2 bm2)
= kx1 == kx2 && bm1 == bm2
equal Nil Nil = True
equal _ _ = False
nequal :: IntSet -> IntSet -> Bool
nequal (Bin p1 m1 l1 r1) (Bin p2 m2 l2 r2)
= (m1 /= m2) || (p1 /= p2) || (nequal l1 l2) || (nequal r1 r2)
nequal (Tip kx1 bm1) (Tip kx2 bm2)
= kx1 /= kx2 || bm1 /= bm2
nequal Nil Nil = False
nequal _ _ = True
instance Ord IntSet where
compare s1 s2 = compare (toAscList s1) (toAscList s2)
instance Show IntSet where
showsPrec p xs = showParen (p > 10) $
showString "fromList " . shows (toList xs)
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
#include "Typeable.h"
INSTANCE_TYPEABLE0(IntSet,intSetTc,"IntSet")
instance NFData IntSet
showTree :: IntSet -> String
showTree s
= showTreeWith True False s
showTreeWith :: Bool -> Bool -> IntSet -> String
showTreeWith hang wide t
| hang = (showsTreeHang wide [] t) ""
| otherwise = (showsTree wide [] [] t) ""
showsTree :: Bool -> [String] -> [String] -> IntSet -> ShowS
showsTree wide lbars rbars t
= case t of
Bin p m l r
-> showsTree wide (withBar rbars) (withEmpty rbars) r .
showWide wide rbars .
showsBars lbars . showString (showBin p m) . showString "\n" .
showWide wide lbars .
showsTree wide (withEmpty lbars) (withBar lbars) l
Tip kx bm
-> showsBars lbars . showString " " . shows kx . showString " + " .
showsBitMap bm . showString "\n"
Nil -> showsBars lbars . showString "|\n"
showsTreeHang :: Bool -> [String] -> IntSet -> ShowS
showsTreeHang wide bars t
= case t of
Bin p m l r
-> showsBars bars . showString (showBin p m) . showString "\n" .
showWide wide bars .
showsTreeHang wide (withBar bars) l .
showWide wide bars .
showsTreeHang wide (withEmpty bars) r
Tip kx bm
-> showsBars bars . showString " " . shows kx . showString " + " .
showsBitMap bm . showString "\n"
Nil -> showsBars bars . showString "|\n"
showBin :: Prefix -> Mask -> String
showBin _ _
= "*"
showWide :: Bool -> [String] -> String -> String
showWide wide bars
| wide = showString (concat (reverse bars)) . showString "|\n"
| otherwise = id
showsBars :: [String] -> ShowS
showsBars bars
= case bars of
[] -> id
_ -> showString (concat (reverse (tail bars))) . showString node
showsBitMap :: Word -> ShowS
showsBitMap = showString . showBitMap
showBitMap :: Word -> String
showBitMap w = show $ foldrBits 0 (:) [] w
node :: String
node = "+--"
withBar, withEmpty :: [String] -> [String]
withBar bars = "| ":bars
withEmpty bars = " ":bars
link :: Prefix -> IntSet -> Prefix -> IntSet -> IntSet
link p1 t1 p2 t2
| zero p1 m = Bin p m t1 t2
| otherwise = Bin p m t2 t1
where
m = branchMask p1 p2
p = mask p1 m
bin :: Prefix -> Mask -> IntSet -> IntSet -> IntSet
bin _ _ l Nil = l
bin _ _ Nil r = r
bin p m l r = Bin p m l r
tip :: Prefix -> BitMap -> IntSet
tip _ 0 = Nil
tip kx bm = Tip kx bm
suffixBitMask :: Int
#if MIN_VERSION_base_4_7_0
suffixBitMask = finiteBitSize (undefined::Word) 1
#else
suffixBitMask = bitSize (undefined::Word) 1
#endif
prefixBitMask :: Int
prefixBitMask = complement suffixBitMask
prefixOf :: Int -> Prefix
prefixOf x = x .&. prefixBitMask
suffixOf :: Int -> Int
suffixOf x = x .&. suffixBitMask
bitmapOfSuffix :: Int -> BitMap
bitmapOfSuffix s = 1 `shiftLL` s
bitmapOf :: Int -> BitMap
bitmapOf x = bitmapOfSuffix (suffixOf x)
zero :: Int -> Mask -> Bool
zero i m
= (natFromInt i) .&. (natFromInt m) == 0
nomatch,match :: Int -> Prefix -> Mask -> Bool
nomatch i p m
= (mask i m) /= p
match i p m
= (mask i m) == p
mask :: Int -> Mask -> Prefix
mask i m
= maskW (natFromInt i) (natFromInt m)
maskW :: Nat -> Nat -> Prefix
maskW i m
= intFromNat (i .&. (complement (m1) `xor` m))
shorter :: Mask -> Mask -> Bool
shorter m1 m2
= (natFromInt m1) > (natFromInt m2)
branchMask :: Prefix -> Prefix -> Mask
branchMask p1 p2
= intFromNat (highestBitMask (natFromInt p1 `xor` natFromInt p2))
lowestBitSet :: Nat -> Int
highestBitSet :: Nat -> Int
foldlBits :: Int -> (a -> Int -> a) -> a -> Nat -> a
foldl'Bits :: Int -> (a -> Int -> a) -> a -> Nat -> a
foldrBits :: Int -> (Int -> a -> a) -> a -> Nat -> a
foldr'Bits :: Int -> (Int -> a -> a) -> a -> Nat -> a
#if defined(__GLASGOW_HASKELL__) && (WORD_SIZE_IN_BITS==32 || WORD_SIZE_IN_BITS==64)
indexOfTheOnlyBit :: Nat -> Int
indexOfTheOnlyBit bitmask =
I# (lsbArray `indexInt8OffAddr#` unboxInt (intFromNat ((bitmask * magic) `shiftRL` offset)))
where unboxInt (I# i) = i
#if WORD_SIZE_IN_BITS==32
magic = 0x077CB531
offset = 27
!lsbArray = "\0\1\28\2\29\14\24\3\30\22\20\15\25\17\4\8\31\27\13\23\21\19\16\7\26\12\18\6\11\5\10\9"#
#else
magic = 0x07EDD5E59A4E28C2
offset = 58
!lsbArray = "\63\0\58\1\59\47\53\2\60\39\48\27\54\33\42\3\61\51\37\40\49\18\28\20\55\30\34\11\43\14\22\4\62\57\46\52\38\26\32\41\50\36\17\19\29\10\13\21\56\45\25\31\35\16\9\12\44\24\15\8\23\7\6\5"#
#endif
lowestBitMask :: Nat -> Nat
lowestBitMask x = x .&. negate x
revNat :: Nat -> Nat
#if WORD_SIZE_IN_BITS==32
revNat x1 = case ((x1 `shiftRL` 1) .&. 0x55555555) .|. ((x1 .&. 0x55555555) `shiftLL` 1) of
x2 -> case ((x2 `shiftRL` 2) .&. 0x33333333) .|. ((x2 .&. 0x33333333) `shiftLL` 2) of
x3 -> case ((x3 `shiftRL` 4) .&. 0x0F0F0F0F) .|. ((x3 .&. 0x0F0F0F0F) `shiftLL` 4) of
x4 -> case ((x4 `shiftRL` 8) .&. 0x00FF00FF) .|. ((x4 .&. 0x00FF00FF) `shiftLL` 8) of
x5 -> ( x5 `shiftRL` 16 ) .|. ( x5 `shiftLL` 16);
#else
revNat x1 = case ((x1 `shiftRL` 1) .&. 0x5555555555555555) .|. ((x1 .&. 0x5555555555555555) `shiftLL` 1) of
x2 -> case ((x2 `shiftRL` 2) .&. 0x3333333333333333) .|. ((x2 .&. 0x3333333333333333) `shiftLL` 2) of
x3 -> case ((x3 `shiftRL` 4) .&. 0x0F0F0F0F0F0F0F0F) .|. ((x3 .&. 0x0F0F0F0F0F0F0F0F) `shiftLL` 4) of
x4 -> case ((x4 `shiftRL` 8) .&. 0x00FF00FF00FF00FF) .|. ((x4 .&. 0x00FF00FF00FF00FF) `shiftLL` 8) of
x5 -> case ((x5 `shiftRL` 16) .&. 0x0000FFFF0000FFFF) .|. ((x5 .&. 0x0000FFFF0000FFFF) `shiftLL` 16) of
x6 -> ( x6 `shiftRL` 32 ) .|. ( x6 `shiftLL` 32);
#endif
lowestBitSet x = indexOfTheOnlyBit (lowestBitMask x)
highestBitSet x = indexOfTheOnlyBit (highestBitMask x)
foldlBits prefix f z bitmap = go bitmap z
where go bm acc | bm == 0 = acc
| otherwise = case lowestBitMask bm of
bitmask -> bitmask `seq` case indexOfTheOnlyBit bitmask of
bi -> bi `seq` go (bm `xor` bitmask) ((f acc) $! (prefix+bi))
foldl'Bits prefix f z bitmap = go bitmap z
where STRICT_2_OF_2(go)
go bm acc | bm == 0 = acc
| otherwise = case lowestBitMask bm of
bitmask -> bitmask `seq` case indexOfTheOnlyBit bitmask of
bi -> bi `seq` go (bm `xor` bitmask) ((f acc) $! (prefix+bi))
foldrBits prefix f z bitmap = go (revNat bitmap) z
where go bm acc | bm == 0 = acc
| otherwise = case lowestBitMask bm of
bitmask -> bitmask `seq` case indexOfTheOnlyBit bitmask of
bi -> bi `seq` go (bm `xor` bitmask) ((f $! (prefix+(WORD_SIZE_IN_BITS1)bi)) acc)
foldr'Bits prefix f z bitmap = go (revNat bitmap) z
where STRICT_2_OF_2(go)
go bm acc | bm == 0 = acc
| otherwise = case lowestBitMask bm of
bitmask -> bitmask `seq` case indexOfTheOnlyBit bitmask of
bi -> bi `seq` go (bm `xor` bitmask) ((f $! (prefix+(WORD_SIZE_IN_BITS1)bi)) acc)
#else
lowestBitSet n0 =
let (n1,b1) = if n0 .&. 0xFFFFFFFF /= 0 then (n0,0) else (n0 `shiftRL` 32, 32)
(n2,b2) = if n1 .&. 0xFFFF /= 0 then (n1,b1) else (n1 `shiftRL` 16, 16+b1)
(n3,b3) = if n2 .&. 0xFF /= 0 then (n2,b2) else (n2 `shiftRL` 8, 8+b2)
(n4,b4) = if n3 .&. 0xF /= 0 then (n3,b3) else (n3 `shiftRL` 4, 4+b3)
(n5,b5) = if n4 .&. 0x3 /= 0 then (n4,b4) else (n4 `shiftRL` 2, 2+b4)
b6 = if n5 .&. 0x1 /= 0 then b5 else 1+b5
in b6
highestBitSet n0 =
let (n1,b1) = if n0 .&. 0xFFFFFFFF00000000 /= 0 then (n0 `shiftRL` 32, 32) else (n0,0)
(n2,b2) = if n1 .&. 0xFFFF0000 /= 0 then (n1 `shiftRL` 16, 16+b1) else (n1,b1)
(n3,b3) = if n2 .&. 0xFF00 /= 0 then (n2 `shiftRL` 8, 8+b2) else (n2,b2)
(n4,b4) = if n3 .&. 0xF0 /= 0 then (n3 `shiftRL` 4, 4+b3) else (n3,b3)
(n5,b5) = if n4 .&. 0xC /= 0 then (n4 `shiftRL` 2, 2+b4) else (n4,b4)
b6 = if n5 .&. 0x2 /= 0 then 1+b5 else b5
in b6
foldlBits prefix f z bm = let lb = lowestBitSet bm
in go (prefix+lb) z (bm `shiftRL` lb)
where STRICT_1_OF_3(go)
go _ acc 0 = acc
go bi acc n | n `testBit` 0 = go (bi + 1) (f acc bi) (n `shiftRL` 1)
| otherwise = go (bi + 1) acc (n `shiftRL` 1)
foldl'Bits prefix f z bm = let lb = lowestBitSet bm
in go (prefix+lb) z (bm `shiftRL` lb)
where STRICT_1_OF_3(go)
STRICT_2_OF_3(go)
go _ acc 0 = acc
go bi acc n | n `testBit` 0 = go (bi + 1) (f acc bi) (n `shiftRL` 1)
| otherwise = go (bi + 1) acc (n `shiftRL` 1)
foldrBits prefix f z bm = let lb = lowestBitSet bm
in go (prefix+lb) (bm `shiftRL` lb)
where STRICT_1_OF_2(go)
go _ 0 = z
go bi n | n `testBit` 0 = f bi (go (bi + 1) (n `shiftRL` 1))
| otherwise = go (bi + 1) (n `shiftRL` 1)
foldr'Bits prefix f z bm = let lb = lowestBitSet bm
in go (prefix+lb) (bm `shiftRL` lb)
where STRICT_1_OF_2(go)
go _ 0 = z
go bi n | n `testBit` 0 = f bi $! go (bi + 1) (n `shiftRL` 1)
| otherwise = go (bi + 1) (n `shiftRL` 1)
#endif
bitcount :: Int -> Word -> Int
#if MIN_VERSION_base_4_5_0
bitcount a x = a + popCount x
#else
bitcount a0 x0 = go a0 x0
where go a 0 = a
go a x = go (a + 1) (x .&. (x1))
#endif
foldlStrict :: (a -> b -> a) -> a -> [b] -> a
foldlStrict f = go
where
go z [] = z
go z (x:xs) = let z' = f z x in z' `seq` go z' xs
splitRoot :: IntSet -> [IntSet]
splitRoot orig =
case orig of
Nil -> []
x@(Tip _ _) -> [x]
Bin _ m l r | m < 0 -> [r, l]
| otherwise -> [l, r]