X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=Data%2FBits.hs;h=cbf7b37015b3d1b8f732ee8a048dad9b9dd9a843;hb=HEAD;hp=d4e417783d1bb5681ebc6ccb471e9ed87684ef36;hpb=d95dbc7bb80eb696da3c449229d9c223ba2ed2e6;p=ghc-base.git diff --git a/Data/Bits.hs b/Data/Bits.hs index d4e4177..cbf7b37 100644 --- a/Data/Bits.hs +++ b/Data/Bits.hs @@ -1,4 +1,5 @@ -{-# OPTIONS -fno-implicit-prelude #-} +{-# LANGUAGE CPP, NoImplicitPrelude, BangPatterns, MagicHash #-} + ----------------------------------------------------------------------------- -- | -- Module : Data.Bits @@ -9,16 +10,15 @@ -- Stability : experimental -- Portability : portable -- --- This module defines bitwise operations for signed and unsigned --- integers. Instances of the class 'Bits' for the 'Int' and --- 'Integer' types are available from this module, and instances for --- explicitly sized integral types are available from the --- "Int" and "Word" modules. +-- This module defines bitwise operations for signed and unsigned +-- integers. Instances of the class 'Bits' for the 'Int' and +-- 'Integer' types are available from this module, and instances for +-- explicitly sized integral types are available from the +-- "Data.Int" and "Data.Word" modules. -- ----------------------------------------------------------------------------- module Data.Bits ( - -- * The 'Bits' class Bits( (.&.), (.|.), xor, -- :: a -> a -> a complement, -- :: a -> a @@ -31,11 +31,8 @@ module Data.Bits ( testBit, -- :: a -> Int -> Bool bitSize, -- :: a -> Int isSigned, -- :: a -> Bool - - -- * Shifts and rotates - -- $shifts - shiftL, shiftR, -- :: Bits a => a -> Int -> a - rotateL, rotateR -- :: Bits a => a -> Int -> a + shiftL, shiftR, -- :: a -> Int -> a + rotateL, rotateR -- :: a -> Int -> a ) -- instance Bits Int @@ -46,13 +43,19 @@ module Data.Bits ( -- See library document for details on the semantics of the -- individual operations. -#ifdef __GLASGOW_HASKELL__ +#if defined(__GLASGOW_HASKELL__) || defined(__HUGS__) #include "MachDeps.h" +#endif + +#ifdef __GLASGOW_HASKELL__ import GHC.Num -import GHC.Real import GHC.Base #endif +#ifdef __HUGS__ +import Hugs.Bits +#endif + infixl 8 `shift`, `rotate`, `shiftL`, `shiftR`, `rotateL`, `rotateR` infixl 7 .&. infixl 6 `xor` @@ -63,6 +66,10 @@ The 'Bits' class defines bitwise operations over integral types. * Bits are numbered from 0 with bit 0 being the least significant bit. + +Minimal complete definition: '.&.', '.|.', 'xor', 'complement', +('shift' or ('shiftL' and 'shiftR')), ('rotate' or ('rotateL' and 'rotateR')), +'bitSize' and 'isSigned'. -} class Num a => Bits a where -- | Bitwise \"and\" @@ -77,24 +84,35 @@ class Num a => Bits a where {-| Reverse all the bits in the argument -} complement :: a -> a - {-| Signed shift the argument left by the specified number of bits. - Right shifts are specified by giving a negative value. -} + {-| @'shift' x i@ shifts @x@ left by @i@ bits if @i@ is positive, + or right by @-i@ bits otherwise. + Right shifts perform sign extension on signed number types; + i.e. they fill the top bits with 1 if the @x@ is negative + and with 0 otherwise. + + An instance can define either this unified 'shift' or 'shiftL' and + 'shiftR', depending on which is more convenient for the type in + question. -} shift :: a -> Int -> a - -- An instance can define either this unified shift or shiftL+shiftR, - -- depending on which is more convenient for the type in question. - x `shift` i | i<0 = x `shiftR` (-i) - | i==0 = x - | i>0 = x `shiftL` i + x `shift` i | i<0 = x `shiftR` (-i) + | i>0 = x `shiftL` i + | otherwise = x - {-| Signed rotate the argument left by the specified number of bits. - Right rotates are specified by giving a negative value. + {-| @'rotate' x i@ rotates @x@ left by @i@ bits if @i@ is positive, + or right by @-i@ bits otherwise. - 'rotate' is well defined only if 'bitSize' is also well defined - ('bitSize' is undefined for 'Integer', for example). - -} + For unbounded types like 'Integer', 'rotate' is equivalent to 'shift'. + + An instance can define either this unified 'rotate' or 'rotateL' and + 'rotateR', depending on which is more convenient for the type in + question. -} rotate :: a -> Int -> a + x `rotate` i | i<0 = x `rotateR` (-i) + | i>0 = x `rotateL` i + | otherwise = x + {- -- Rotation can be implemented in terms of two shifts, but care is -- needed for negative values. This suggested implementation assumes @@ -109,7 +127,7 @@ class Num a => Bits a where | i>0 = (x `shift` i) .|. (x `shift` (i-bitSize x)) -} - -- | @bit i@ is a value with the @i@th bit set + -- | @bit i@ is a value with the @i@th bit set and all other bits clear bit :: Int -> a -- | @x \`setBit\` i@ is the same as @x .|. bit i@ @@ -125,112 +143,225 @@ class Num a => Bits a where testBit :: a -> Int -> Bool {-| Return the number of bits in the type of the argument. The actual - value of the argument is ignored -} + value of the argument is ignored. The function 'bitSize' is + undefined for types that do not have a fixed bitsize, like 'Integer'. + -} bitSize :: a -> Int {-| Return 'True' if the argument is a signed type. The actual value of the argument is ignored -} isSigned :: a -> Bool + {-# INLINE bit #-} + {-# INLINE setBit #-} + {-# INLINE clearBit #-} + {-# INLINE complementBit #-} + {-# INLINE testBit #-} bit i = 1 `shiftL` i x `setBit` i = x .|. bit i x `clearBit` i = x .&. complement (bit i) x `complementBit` i = x `xor` bit i x `testBit` i = (x .&. bit i) /= 0 - -- $shifts - -- These functions might sometimes be more convenient than the unified - -- versions 'shift' and 'rotate'. - - shiftL, shiftR :: a -> Int -> a - rotateL, rotateR :: a -> Int -> a + {-| Shift the argument left by the specified number of bits + (which must be non-negative). + + An instance can define either this and 'shiftR' or the unified + 'shift', depending on which is more convenient for the type in + question. -} + shiftL :: a -> Int -> a + {-# INLINE shiftL #-} x `shiftL` i = x `shift` i + + {-| Shift the first argument right by the specified number of bits + (which must be non-negative). + Right shifts perform sign extension on signed number types; + i.e. they fill the top bits with 1 if the @x@ is negative + and with 0 otherwise. + + An instance can define either this and 'shiftL' or the unified + 'shift', depending on which is more convenient for the type in + question. -} + shiftR :: a -> Int -> a + {-# INLINE shiftR #-} x `shiftR` i = x `shift` (-i) + + {-| Rotate the argument left by the specified number of bits + (which must be non-negative). + + An instance can define either this and 'rotateR' or the unified + 'rotate', depending on which is more convenient for the type in + question. -} + rotateL :: a -> Int -> a + {-# INLINE rotateL #-} x `rotateL` i = x `rotate` i + + {-| Rotate the argument right by the specified number of bits + (which must be non-negative). + + An instance can define either this and 'rotateL' or the unified + 'rotate', depending on which is more convenient for the type in + question. -} + rotateR :: a -> Int -> a + {-# INLINE rotateR #-} x `rotateR` i = x `rotate` (-i) -#ifdef __GLASGOW_HASKELL__ instance Bits Int where + {-# INLINE shift #-} + +#ifdef __GLASGOW_HASKELL__ (I# x#) .&. (I# y#) = I# (word2Int# (int2Word# x# `and#` int2Word# y#)) + (I# x#) .|. (I# y#) = I# (word2Int# (int2Word# x# `or#` int2Word# y#)) - (I# x#) `xor` (I# y#) = I# (word2Int# (int2Word# x# `xor#` int2Word# y#)) - complement (I# x#) = I# (word2Int# (int2Word# x# `xor#` int2Word# (-1#))) - (I# x#) `shift` (I# i#) - | i# >=# 0# = I# (x# `iShiftL#` i#) - | otherwise = I# (x# `iShiftRA#` negateInt# i#) - (I# x#) `rotate` (I# i#) = - I# (word2Int# ((x'# `shiftL#` i'#) `or#` - (x'# `shiftRL#` (wsib -# i'#)))) - where - x'# = int2Word# x# - i'# = word2Int# (int2Word# i# `and#` int2Word# (wsib -# 1#)) - wsib = WORD_SIZE_IN_BITS# {- work around preprocessor problem (??) -} - bitSize _ = WORD_SIZE_IN_BITS - isSigned _ = True -instance Bits Integer where - (S# x) .&. (S# y) = S# (word2Int# (int2Word# x `and#` int2Word# y)) - x@(S# _) .&. y = toBig x .&. y - x .&. y@(S# _) = x .&. toBig y - (J# s1 d1) .&. (J# s2 d2) = - case andInteger# s1 d1 s2 d2 of - (# s, d #) -> J# s d - - (S# x) .|. (S# y) = S# (word2Int# (int2Word# x `or#` int2Word# y)) - x@(S# _) .|. y = toBig x .|. y - x .|. y@(S# _) = x .|. toBig y - (J# s1 d1) .|. (J# s2 d2) = - case orInteger# s1 d1 s2 d2 of - (# s, d #) -> J# s d - - (S# x) `xor` (S# y) = S# (word2Int# (int2Word# x `xor#` int2Word# y)) - x@(S# _) `xor` y = toBig x `xor` y - x `xor` y@(S# _) = x `xor` toBig y - (J# s1 d1) `xor` (J# s2 d2) = - case xorInteger# s1 d1 s2 d2 of - (# s, d #) -> J# s d - - complement (S# x) = S# (word2Int# (int2Word# x `xor#` int2Word# (0# -# 1#))) - complement (J# s d) = case complementInteger# s d of (# s, d #) -> J# s d + (I# x#) `xor` (I# y#) = I# (word2Int# (int2Word# x# `xor#` int2Word# y#)) - shift x i | i >= 0 = x * 2^i - | otherwise = x `div` 2^(-i) + complement (I# x#) = I# (word2Int# (int2Word# x# `xor#` int2Word# (-1#))) - rotate x i = shift x i -- since an Integer never wraps around + (I# x#) `shift` (I# i#) + | i# >=# 0# = I# (x# `iShiftL#` i#) + | otherwise = I# (x# `iShiftRA#` negateInt# i#) - bitSize _ = error "Bits.bitSize(Integer)" - isSigned _ = True -#endif + {-# INLINE rotate #-} -- See Note [Constant folding for rotate] + (I# x#) `rotate` (I# i#) = + I# (word2Int# ((x'# `uncheckedShiftL#` i'#) `or#` + (x'# `uncheckedShiftRL#` (wsib -# i'#)))) + where + !x'# = int2Word# x# + !i'# = word2Int# (int2Word# i# `and#` int2Word# (wsib -# 1#)) + !wsib = WORD_SIZE_IN_BITS# {- work around preprocessor problem (??) -} + bitSize _ = WORD_SIZE_IN_BITS + +#else /* !__GLASGOW_HASKELL__ */ + +#ifdef __HUGS__ + (.&.) = primAndInt + (.|.) = primOrInt + xor = primXorInt + complement = primComplementInt + shift = primShiftInt + bit = primBitInt + testBit = primTestInt + bitSize _ = SIZEOF_HSINT*8 +#elif defined(__NHC__) + (.&.) = nhc_primIntAnd + (.|.) = nhc_primIntOr + xor = nhc_primIntXor + complement = nhc_primIntCompl + shiftL = nhc_primIntLsh + shiftR = nhc_primIntRsh + bitSize _ = 32 +#endif /* __NHC__ */ + + x `rotate` i + | i<0 && x<0 = let left = i+bitSize x in + ((x `shift` i) .&. complement ((-1) `shift` left)) + .|. (x `shift` left) + | i<0 = (x `shift` i) .|. (x `shift` (i+bitSize x)) + | i==0 = x + | i>0 = (x `shift` i) .|. (x `shift` (i-bitSize x)) + +#endif /* !__GLASGOW_HASKELL__ */ + + isSigned _ = True #ifdef __NHC__ -instance Bits Int where - (.&.) = nhc_primIntAnd - (.|.) = nhc_primIntOr - xor = nhc_primIntXor - complement = nhc_primIntCompl - shiftL = nhc_primIntLsh - shiftR = nhc_primIntRsh - bitSize _ = 32 - isSigned _ = True - foreign import ccall nhc_primIntAnd :: Int -> Int -> Int foreign import ccall nhc_primIntOr :: Int -> Int -> Int foreign import ccall nhc_primIntXor :: Int -> Int -> Int foreign import ccall nhc_primIntLsh :: Int -> Int -> Int foreign import ccall nhc_primIntRsh :: Int -> Int -> Int foreign import ccall nhc_primIntCompl :: Int -> Int +#endif /* __NHC__ */ instance Bits Integer where - -- (.&.) a b = undefined - -- (.|.) a b = undefined - -- xor a b = undefined - complement a = (-a) - x `shift` i | i<0 = x `div` (2^(-i)) - | i==0 = x - | i>0 = x * (2^i) - x `rotate` i = x `shift` i -- an Integer never wraps - bitSize _ = error "Data.Bits: bitSize :: Integer -> Int" - isSigned _ = True +#if defined(__GLASGOW_HASKELL__) + (.&.) = andInteger + (.|.) = orInteger + xor = xorInteger + complement = complementInteger + shift x i@(I# i#) | i >= 0 = shiftLInteger x i# + | otherwise = shiftRInteger x (negateInt# i#) +#else + -- reduce bitwise binary operations to special cases we can handle + + x .&. y | x<0 && y<0 = complement (complement x `posOr` complement y) + | otherwise = x `posAnd` y + + x .|. y | x<0 || y<0 = complement (complement x `posAnd` complement y) + | otherwise = x `posOr` y + + x `xor` y | x<0 && y<0 = complement x `posXOr` complement y + | x<0 = complement (complement x `posXOr` y) + | y<0 = complement (x `posXOr` complement y) + | otherwise = x `posXOr` y + -- assuming infinite 2's-complement arithmetic + complement a = -1 - a + shift x i | i >= 0 = x * 2^i + | otherwise = x `div` 2^(-i) #endif + rotate x i = shift x i -- since an Integer never wraps around + + bitSize _ = error "Data.Bits.bitSize(Integer)" + isSigned _ = True + +#if !defined(__GLASGOW_HASKELL__) +-- Crude implementation of bitwise operations on Integers: convert them +-- to finite lists of Ints (least significant first), zip and convert +-- back again. + +-- posAnd requires at least one argument non-negative +-- posOr and posXOr require both arguments non-negative + +posAnd, posOr, posXOr :: Integer -> Integer -> Integer +posAnd x y = fromInts $ zipWith (.&.) (toInts x) (toInts y) +posOr x y = fromInts $ longZipWith (.|.) (toInts x) (toInts y) +posXOr x y = fromInts $ longZipWith xor (toInts x) (toInts y) + +longZipWith :: (a -> a -> a) -> [a] -> [a] -> [a] +longZipWith f xs [] = xs +longZipWith f [] ys = ys +longZipWith f (x:xs) (y:ys) = f x y:longZipWith f xs ys + +toInts :: Integer -> [Int] +toInts n + | n == 0 = [] + | otherwise = mkInt (n `mod` numInts):toInts (n `div` numInts) + where mkInt n | n > toInteger(maxBound::Int) = fromInteger (n-numInts) + | otherwise = fromInteger n + +fromInts :: [Int] -> Integer +fromInts = foldr catInt 0 + where catInt d n = (if d<0 then n+1 else n)*numInts + toInteger d + +numInts = toInteger (maxBound::Int) - toInteger (minBound::Int) + 1 +#endif /* !__GLASGOW_HASKELL__ */ + +{- Note [Constant folding for rotate] + ~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~~ +The INLINE on the Int instance of rotate enables it to be constant +folded. For example: + sumU . mapU (`rotate` 3) . replicateU 10000000 $ (7 :: Int) +goes to: + Main.$wfold = + \ (ww_sO7 :: Int#) (ww1_sOb :: Int#) -> + case ww1_sOb of wild_XM { + __DEFAULT -> Main.$wfold (+# ww_sO7 56) (+# wild_XM 1); + 10000000 -> ww_sO7 +whereas before it was left as a call to $wrotate. + +All other Bits instances seem to inline well enough on their +own to enable constant folding; for example 'shift': + sumU . mapU (`shift` 3) . replicateU 10000000 $ (7 :: Int) + goes to: + Main.$wfold = + \ (ww_sOb :: Int#) (ww1_sOf :: Int#) -> + case ww1_sOf of wild_XM { + __DEFAULT -> Main.$wfold (+# ww_sOb 56) (+# wild_XM 1); + 10000000 -> ww_sOb + } +-} + +