{-# LANGUAGE Trustworthy #-}
{-# LANGUAGE CPP, NoImplicitPrelude, BangPatterns, MagicHash, UnboxedTuples #-}
{-# OPTIONS_HADDOCK hide #-}
#include "MachDeps.h"
module GHC.Word (
Word(..), Word8(..), Word16(..), Word32(..), Word64(..),
uncheckedShiftL64#,
uncheckedShiftRL64#,
byteSwap16,
byteSwap32,
byteSwap64
) where
import Data.Bits
import Data.Maybe
#if WORD_SIZE_IN_BITS < 64
import GHC.IntWord64
#endif
import GHC.Base
import GHC.Enum
import GHC.Num
import GHC.Real
import GHC.Read
import GHC.Arr
import GHC.Show
data {-# CTYPE "HsWord8" #-} Word8 = W8# Word# deriving (Eq, Ord)
instance Show Word8 where
showsPrec p x = showsPrec p (fromIntegral x :: Int)
instance Num Word8 where
(W8# x#) + (W8# y#) = W8# (narrow8Word# (x# `plusWord#` y#))
(W8# x#) - (W8# y#) = W8# (narrow8Word# (x# `minusWord#` y#))
(W8# x#) * (W8# y#) = W8# (narrow8Word# (x# `timesWord#` y#))
negate (W8# x#) = W8# (narrow8Word# (int2Word# (negateInt# (word2Int# x#))))
abs x = x
signum 0 = 0
signum _ = 1
fromInteger i = W8# (narrow8Word# (integerToWord i))
instance Real Word8 where
toRational x = toInteger x % 1
instance Enum Word8 where
succ x
| x /= maxBound = x + 1
| otherwise = succError "Word8"
pred x
| x /= minBound = x - 1
| otherwise = predError "Word8"
toEnum i@(I# i#)
| i >= 0 && i <= fromIntegral (maxBound::Word8)
= W8# (int2Word# i#)
| otherwise = toEnumError "Word8" i (minBound::Word8, maxBound::Word8)
fromEnum (W8# x#) = I# (word2Int# x#)
enumFrom = boundedEnumFrom
enumFromThen = boundedEnumFromThen
instance Integral Word8 where
quot (W8# x#) y@(W8# y#)
| y /= 0 = W8# (x# `quotWord#` y#)
| otherwise = divZeroError
rem (W8# x#) y@(W8# y#)
| y /= 0 = W8# (x# `remWord#` y#)
| otherwise = divZeroError
div (W8# x#) y@(W8# y#)
| y /= 0 = W8# (x# `quotWord#` y#)
| otherwise = divZeroError
mod (W8# x#) y@(W8# y#)
| y /= 0 = W8# (x# `remWord#` y#)
| otherwise = divZeroError
quotRem (W8# x#) y@(W8# y#)
| y /= 0 = case x# `quotRemWord#` y# of
(# q, r #) ->
(W8# q, W8# r)
| otherwise = divZeroError
divMod (W8# x#) y@(W8# y#)
| y /= 0 = (W8# (x# `quotWord#` y#), W8# (x# `remWord#` y#))
| otherwise = divZeroError
toInteger (W8# x#) = smallInteger (word2Int# x#)
instance Bounded Word8 where
minBound = 0
maxBound = 0xFF
instance Ix Word8 where
range (m,n) = [m..n]
unsafeIndex (m,_) i = fromIntegral (i - m)
inRange (m,n) i = m <= i && i <= n
instance Read Word8 where
readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
instance Bits Word8 where
{-# INLINE shift #-}
{-# INLINE bit #-}
{-# INLINE testBit #-}
(W8# x#) .&. (W8# y#) = W8# (x# `and#` y#)
(W8# x#) .|. (W8# y#) = W8# (x# `or#` y#)
(W8# x#) `xor` (W8# y#) = W8# (x# `xor#` y#)
complement (W8# x#) = W8# (x# `xor#` mb#)
where !(W8# mb#) = maxBound
(W8# x#) `shift` (I# i#)
| isTrue# (i# >=# 0#) = W8# (narrow8Word# (x# `shiftL#` i#))
| otherwise = W8# (x# `shiftRL#` negateInt# i#)
(W8# x#) `shiftL` (I# i#) = W8# (narrow8Word# (x# `shiftL#` i#))
(W8# x#) `unsafeShiftL` (I# i#) =
W8# (narrow8Word# (x# `uncheckedShiftL#` i#))
(W8# x#) `shiftR` (I# i#) = W8# (x# `shiftRL#` i#)
(W8# x#) `unsafeShiftR` (I# i#) = W8# (x# `uncheckedShiftRL#` i#)
(W8# x#) `rotate` (I# i#)
| isTrue# (i'# ==# 0#) = W8# x#
| otherwise = W8# (narrow8Word# ((x# `uncheckedShiftL#` i'#) `or#`
(x# `uncheckedShiftRL#` (8# -# i'#))))
where
!i'# = word2Int# (int2Word# i# `and#` 7##)
bitSizeMaybe i = Just (finiteBitSize i)
bitSize i = finiteBitSize i
isSigned _ = False
popCount (W8# x#) = I# (word2Int# (popCnt8# x#))
bit = bitDefault
testBit = testBitDefault
instance FiniteBits Word8 where
finiteBitSize _ = 8
countLeadingZeros (W8# x#) = I# (word2Int# (clz8# x#))
countTrailingZeros (W8# x#) = I# (word2Int# (ctz8# x#))
{-# RULES
"fromIntegral/Word8->Word8" fromIntegral = id :: Word8 -> Word8
"fromIntegral/Word8->Integer" fromIntegral = toInteger :: Word8 -> Integer
"fromIntegral/a->Word8" fromIntegral = \x -> case fromIntegral x of W# x# -> W8# (narrow8Word# x#)
"fromIntegral/Word8->a" fromIntegral = \(W8# x#) -> fromIntegral (W# x#)
#-}
{-# RULES
"properFraction/Float->(Word8,Float)"
properFraction = \x ->
case properFraction x of {
(n, y) -> ((fromIntegral :: Int -> Word8) n, y :: Float) }
"truncate/Float->Word8"
truncate = (fromIntegral :: Int -> Word8) . (truncate :: Float -> Int)
"floor/Float->Word8"
floor = (fromIntegral :: Int -> Word8) . (floor :: Float -> Int)
"ceiling/Float->Word8"
ceiling = (fromIntegral :: Int -> Word8) . (ceiling :: Float -> Int)
"round/Float->Word8"
round = (fromIntegral :: Int -> Word8) . (round :: Float -> Int)
#-}
{-# RULES
"properFraction/Double->(Word8,Double)"
properFraction = \x ->
case properFraction x of {
(n, y) -> ((fromIntegral :: Int -> Word8) n, y :: Double) }
"truncate/Double->Word8"
truncate = (fromIntegral :: Int -> Word8) . (truncate :: Double -> Int)
"floor/Double->Word8"
floor = (fromIntegral :: Int -> Word8) . (floor :: Double -> Int)
"ceiling/Double->Word8"
ceiling = (fromIntegral :: Int -> Word8) . (ceiling :: Double -> Int)
"round/Double->Word8"
round = (fromIntegral :: Int -> Word8) . (round :: Double -> Int)
#-}
data {-# CTYPE "HsWord16" #-} Word16 = W16# Word# deriving (Eq, Ord)
instance Show Word16 where
showsPrec p x = showsPrec p (fromIntegral x :: Int)
instance Num Word16 where
(W16# x#) + (W16# y#) = W16# (narrow16Word# (x# `plusWord#` y#))
(W16# x#) - (W16# y#) = W16# (narrow16Word# (x# `minusWord#` y#))
(W16# x#) * (W16# y#) = W16# (narrow16Word# (x# `timesWord#` y#))
negate (W16# x#) = W16# (narrow16Word# (int2Word# (negateInt# (word2Int# x#))))
abs x = x
signum 0 = 0
signum _ = 1
fromInteger i = W16# (narrow16Word# (integerToWord i))
instance Real Word16 where
toRational x = toInteger x % 1
instance Enum Word16 where
succ x
| x /= maxBound = x + 1
| otherwise = succError "Word16"
pred x
| x /= minBound = x - 1
| otherwise = predError "Word16"
toEnum i@(I# i#)
| i >= 0 && i <= fromIntegral (maxBound::Word16)
= W16# (int2Word# i#)
| otherwise = toEnumError "Word16" i (minBound::Word16, maxBound::Word16)
fromEnum (W16# x#) = I# (word2Int# x#)
enumFrom = boundedEnumFrom
enumFromThen = boundedEnumFromThen
instance Integral Word16 where
quot (W16# x#) y@(W16# y#)
| y /= 0 = W16# (x# `quotWord#` y#)
| otherwise = divZeroError
rem (W16# x#) y@(W16# y#)
| y /= 0 = W16# (x# `remWord#` y#)
| otherwise = divZeroError
div (W16# x#) y@(W16# y#)
| y /= 0 = W16# (x# `quotWord#` y#)
| otherwise = divZeroError
mod (W16# x#) y@(W16# y#)
| y /= 0 = W16# (x# `remWord#` y#)
| otherwise = divZeroError
quotRem (W16# x#) y@(W16# y#)
| y /= 0 = case x# `quotRemWord#` y# of
(# q, r #) ->
(W16# q, W16# r)
| otherwise = divZeroError
divMod (W16# x#) y@(W16# y#)
| y /= 0 = (W16# (x# `quotWord#` y#), W16# (x# `remWord#` y#))
| otherwise = divZeroError
toInteger (W16# x#) = smallInteger (word2Int# x#)
instance Bounded Word16 where
minBound = 0
maxBound = 0xFFFF
instance Ix Word16 where
range (m,n) = [m..n]
unsafeIndex (m,_) i = fromIntegral (i - m)
inRange (m,n) i = m <= i && i <= n
instance Read Word16 where
readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
instance Bits Word16 where
{-# INLINE shift #-}
{-# INLINE bit #-}
{-# INLINE testBit #-}
(W16# x#) .&. (W16# y#) = W16# (x# `and#` y#)
(W16# x#) .|. (W16# y#) = W16# (x# `or#` y#)
(W16# x#) `xor` (W16# y#) = W16# (x# `xor#` y#)
complement (W16# x#) = W16# (x# `xor#` mb#)
where !(W16# mb#) = maxBound
(W16# x#) `shift` (I# i#)
| isTrue# (i# >=# 0#) = W16# (narrow16Word# (x# `shiftL#` i#))
| otherwise = W16# (x# `shiftRL#` negateInt# i#)
(W16# x#) `shiftL` (I# i#) = W16# (narrow16Word# (x# `shiftL#` i#))
(W16# x#) `unsafeShiftL` (I# i#) =
W16# (narrow16Word# (x# `uncheckedShiftL#` i#))
(W16# x#) `shiftR` (I# i#) = W16# (x# `shiftRL#` i#)
(W16# x#) `unsafeShiftR` (I# i#) = W16# (x# `uncheckedShiftRL#` i#)
(W16# x#) `rotate` (I# i#)
| isTrue# (i'# ==# 0#) = W16# x#
| otherwise = W16# (narrow16Word# ((x# `uncheckedShiftL#` i'#) `or#`
(x# `uncheckedShiftRL#` (16# -# i'#))))
where
!i'# = word2Int# (int2Word# i# `and#` 15##)
bitSizeMaybe i = Just (finiteBitSize i)
bitSize i = finiteBitSize i
isSigned _ = False
popCount (W16# x#) = I# (word2Int# (popCnt16# x#))
bit = bitDefault
testBit = testBitDefault
instance FiniteBits Word16 where
finiteBitSize _ = 16
countLeadingZeros (W16# x#) = I# (word2Int# (clz16# x#))
countTrailingZeros (W16# x#) = I# (word2Int# (ctz16# x#))
byteSwap16 :: Word16 -> Word16
byteSwap16 (W16# w#) = W16# (narrow16Word# (byteSwap16# w#))
{-# RULES
"fromIntegral/Word8->Word16" fromIntegral = \(W8# x#) -> W16# x#
"fromIntegral/Word16->Word16" fromIntegral = id :: Word16 -> Word16
"fromIntegral/Word16->Integer" fromIntegral = toInteger :: Word16 -> Integer
"fromIntegral/a->Word16" fromIntegral = \x -> case fromIntegral x of W# x# -> W16# (narrow16Word# x#)
"fromIntegral/Word16->a" fromIntegral = \(W16# x#) -> fromIntegral (W# x#)
#-}
{-# RULES
"properFraction/Float->(Word16,Float)"
properFraction = \x ->
case properFraction x of {
(n, y) -> ((fromIntegral :: Int -> Word16) n, y :: Float) }
"truncate/Float->Word16"
truncate = (fromIntegral :: Int -> Word16) . (truncate :: Float -> Int)
"floor/Float->Word16"
floor = (fromIntegral :: Int -> Word16) . (floor :: Float -> Int)
"ceiling/Float->Word16"
ceiling = (fromIntegral :: Int -> Word16) . (ceiling :: Float -> Int)
"round/Float->Word16"
round = (fromIntegral :: Int -> Word16) . (round :: Float -> Int)
#-}
{-# RULES
"properFraction/Double->(Word16,Double)"
properFraction = \x ->
case properFraction x of {
(n, y) -> ((fromIntegral :: Int -> Word16) n, y :: Double) }
"truncate/Double->Word16"
truncate = (fromIntegral :: Int -> Word16) . (truncate :: Double -> Int)
"floor/Double->Word16"
floor = (fromIntegral :: Int -> Word16) . (floor :: Double -> Int)
"ceiling/Double->Word16"
ceiling = (fromIntegral :: Int -> Word16) . (ceiling :: Double -> Int)
"round/Double->Word16"
round = (fromIntegral :: Int -> Word16) . (round :: Double -> Int)
#-}
#if WORD_SIZE_IN_BITS > 32
{-# RULES
"properFraction/Float->(Word32,Float)"
properFraction = \x ->
case properFraction x of {
(n, y) -> ((fromIntegral :: Int -> Word32) n, y :: Float) }
"truncate/Float->Word32"
truncate = (fromIntegral :: Int -> Word32) . (truncate :: Float -> Int)
"floor/Float->Word32"
floor = (fromIntegral :: Int -> Word32) . (floor :: Float -> Int)
"ceiling/Float->Word32"
ceiling = (fromIntegral :: Int -> Word32) . (ceiling :: Float -> Int)
"round/Float->Word32"
round = (fromIntegral :: Int -> Word32) . (round :: Float -> Int)
#-}
{-# RULES
"properFraction/Double->(Word32,Double)"
properFraction = \x ->
case properFraction x of {
(n, y) -> ((fromIntegral :: Int -> Word32) n, y :: Double) }
"truncate/Double->Word32"
truncate = (fromIntegral :: Int -> Word32) . (truncate :: Double -> Int)
"floor/Double->Word32"
floor = (fromIntegral :: Int -> Word32) . (floor :: Double -> Int)
"ceiling/Double->Word32"
ceiling = (fromIntegral :: Int -> Word32) . (ceiling :: Double -> Int)
"round/Double->Word32"
round = (fromIntegral :: Int -> Word32) . (round :: Double -> Int)
#-}
#endif
data {-# CTYPE "HsWord32" #-} Word32 = W32# Word# deriving (Eq, Ord)
instance Num Word32 where
(W32# x#) + (W32# y#) = W32# (narrow32Word# (x# `plusWord#` y#))
(W32# x#) - (W32# y#) = W32# (narrow32Word# (x# `minusWord#` y#))
(W32# x#) * (W32# y#) = W32# (narrow32Word# (x# `timesWord#` y#))
negate (W32# x#) = W32# (narrow32Word# (int2Word# (negateInt# (word2Int# x#))))
abs x = x
signum 0 = 0
signum _ = 1
fromInteger i = W32# (narrow32Word# (integerToWord i))
instance Enum Word32 where
succ x
| x /= maxBound = x + 1
| otherwise = succError "Word32"
pred x
| x /= minBound = x - 1
| otherwise = predError "Word32"
toEnum i@(I# i#)
| i >= 0
#if WORD_SIZE_IN_BITS > 32
&& i <= fromIntegral (maxBound::Word32)
#endif
= W32# (int2Word# i#)
| otherwise = toEnumError "Word32" i (minBound::Word32, maxBound::Word32)
#if WORD_SIZE_IN_BITS == 32
fromEnum x@(W32# x#)
| x <= fromIntegral (maxBound::Int)
= I# (word2Int# x#)
| otherwise = fromEnumError "Word32" x
enumFrom = integralEnumFrom
enumFromThen = integralEnumFromThen
enumFromTo = integralEnumFromTo
enumFromThenTo = integralEnumFromThenTo
#else
fromEnum (W32# x#) = I# (word2Int# x#)
enumFrom = boundedEnumFrom
enumFromThen = boundedEnumFromThen
#endif
instance Integral Word32 where
quot (W32# x#) y@(W32# y#)
| y /= 0 = W32# (x# `quotWord#` y#)
| otherwise = divZeroError
rem (W32# x#) y@(W32# y#)
| y /= 0 = W32# (x# `remWord#` y#)
| otherwise = divZeroError
div (W32# x#) y@(W32# y#)
| y /= 0 = W32# (x# `quotWord#` y#)
| otherwise = divZeroError
mod (W32# x#) y@(W32# y#)
| y /= 0 = W32# (x# `remWord#` y#)
| otherwise = divZeroError
quotRem (W32# x#) y@(W32# y#)
| y /= 0 = case x# `quotRemWord#` y# of
(# q, r #) ->
(W32# q, W32# r)
| otherwise = divZeroError
divMod (W32# x#) y@(W32# y#)
| y /= 0 = (W32# (x# `quotWord#` y#), W32# (x# `remWord#` y#))
| otherwise = divZeroError
toInteger (W32# x#)
#if WORD_SIZE_IN_BITS == 32
| isTrue# (i# >=# 0#) = smallInteger i#
| otherwise = wordToInteger x#
where
!i# = word2Int# x#
#else
= smallInteger (word2Int# x#)
#endif
instance Bits Word32 where
{-# INLINE shift #-}
{-# INLINE bit #-}
{-# INLINE testBit #-}
(W32# x#) .&. (W32# y#) = W32# (x# `and#` y#)
(W32# x#) .|. (W32# y#) = W32# (x# `or#` y#)
(W32# x#) `xor` (W32# y#) = W32# (x# `xor#` y#)
complement (W32# x#) = W32# (x# `xor#` mb#)
where !(W32# mb#) = maxBound
(W32# x#) `shift` (I# i#)
| isTrue# (i# >=# 0#) = W32# (narrow32Word# (x# `shiftL#` i#))
| otherwise = W32# (x# `shiftRL#` negateInt# i#)
(W32# x#) `shiftL` (I# i#) = W32# (narrow32Word# (x# `shiftL#` i#))
(W32# x#) `unsafeShiftL` (I# i#) =
W32# (narrow32Word# (x# `uncheckedShiftL#` i#))
(W32# x#) `shiftR` (I# i#) = W32# (x# `shiftRL#` i#)
(W32# x#) `unsafeShiftR` (I# i#) = W32# (x# `uncheckedShiftRL#` i#)
(W32# x#) `rotate` (I# i#)
| isTrue# (i'# ==# 0#) = W32# x#
| otherwise = W32# (narrow32Word# ((x# `uncheckedShiftL#` i'#) `or#`
(x# `uncheckedShiftRL#` (32# -# i'#))))
where
!i'# = word2Int# (int2Word# i# `and#` 31##)
bitSizeMaybe i = Just (finiteBitSize i)
bitSize i = finiteBitSize i
isSigned _ = False
popCount (W32# x#) = I# (word2Int# (popCnt32# x#))
bit = bitDefault
testBit = testBitDefault
instance FiniteBits Word32 where
finiteBitSize _ = 32
countLeadingZeros (W32# x#) = I# (word2Int# (clz32# x#))
countTrailingZeros (W32# x#) = I# (word2Int# (ctz32# x#))
{-# RULES
"fromIntegral/Word8->Word32" fromIntegral = \(W8# x#) -> W32# x#
"fromIntegral/Word16->Word32" fromIntegral = \(W16# x#) -> W32# x#
"fromIntegral/Word32->Word32" fromIntegral = id :: Word32 -> Word32
"fromIntegral/Word32->Integer" fromIntegral = toInteger :: Word32 -> Integer
"fromIntegral/a->Word32" fromIntegral = \x -> case fromIntegral x of W# x# -> W32# (narrow32Word# x#)
"fromIntegral/Word32->a" fromIntegral = \(W32# x#) -> fromIntegral (W# x#)
#-}
instance Show Word32 where
#if WORD_SIZE_IN_BITS < 33
showsPrec p x = showsPrec p (toInteger x)
#else
showsPrec p x = showsPrec p (fromIntegral x :: Int)
#endif
instance Real Word32 where
toRational x = toInteger x % 1
instance Bounded Word32 where
minBound = 0
maxBound = 0xFFFFFFFF
instance Ix Word32 where
range (m,n) = [m..n]
unsafeIndex (m,_) i = fromIntegral (i - m)
inRange (m,n) i = m <= i && i <= n
instance Read Word32 where
#if WORD_SIZE_IN_BITS < 33
readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]
#else
readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
#endif
byteSwap32 :: Word32 -> Word32
byteSwap32 (W32# w#) = W32# (narrow32Word# (byteSwap32# w#))
#if WORD_SIZE_IN_BITS < 64
data {-# CTYPE "HsWord64" #-} Word64 = W64# Word64#
instance Eq Word64 where
(W64# x#) == (W64# y#) = isTrue# (x# `eqWord64#` y#)
(W64# x#) /= (W64# y#) = isTrue# (x# `neWord64#` y#)
instance Ord Word64 where
(W64# x#) < (W64# y#) = isTrue# (x# `ltWord64#` y#)
(W64# x#) <= (W64# y#) = isTrue# (x# `leWord64#` y#)
(W64# x#) > (W64# y#) = isTrue# (x# `gtWord64#` y#)
(W64# x#) >= (W64# y#) = isTrue# (x# `geWord64#` y#)
instance Num Word64 where
(W64# x#) + (W64# y#) = W64# (int64ToWord64# (word64ToInt64# x# `plusInt64#` word64ToInt64# y#))
(W64# x#) - (W64# y#) = W64# (int64ToWord64# (word64ToInt64# x# `minusInt64#` word64ToInt64# y#))
(W64# x#) * (W64# y#) = W64# (int64ToWord64# (word64ToInt64# x# `timesInt64#` word64ToInt64# y#))
negate (W64# x#) = W64# (int64ToWord64# (negateInt64# (word64ToInt64# x#)))
abs x = x
signum 0 = 0
signum _ = 1
fromInteger i = W64# (integerToWord64 i)
instance Enum Word64 where
succ x
| x /= maxBound = x + 1
| otherwise = succError "Word64"
pred x
| x /= minBound = x - 1
| otherwise = predError "Word64"
toEnum i@(I# i#)
| i >= 0 = W64# (wordToWord64# (int2Word# i#))
| otherwise = toEnumError "Word64" i (minBound::Word64, maxBound::Word64)
fromEnum x@(W64# x#)
| x <= fromIntegral (maxBound::Int)
= I# (word2Int# (word64ToWord# x#))
| otherwise = fromEnumError "Word64" x
enumFrom = integralEnumFrom
enumFromThen = integralEnumFromThen
enumFromTo = integralEnumFromTo
enumFromThenTo = integralEnumFromThenTo
instance Integral Word64 where
quot (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `quotWord64#` y#)
| otherwise = divZeroError
rem (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `remWord64#` y#)
| otherwise = divZeroError
div (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `quotWord64#` y#)
| otherwise = divZeroError
mod (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `remWord64#` y#)
| otherwise = divZeroError
quotRem (W64# x#) y@(W64# y#)
| y /= 0 = (W64# (x# `quotWord64#` y#), W64# (x# `remWord64#` y#))
| otherwise = divZeroError
divMod (W64# x#) y@(W64# y#)
| y /= 0 = (W64# (x# `quotWord64#` y#), W64# (x# `remWord64#` y#))
| otherwise = divZeroError
toInteger (W64# x#) = word64ToInteger x#
instance Bits Word64 where
{-# INLINE shift #-}
{-# INLINE bit #-}
{-# INLINE testBit #-}
(W64# x#) .&. (W64# y#) = W64# (x# `and64#` y#)
(W64# x#) .|. (W64# y#) = W64# (x# `or64#` y#)
(W64# x#) `xor` (W64# y#) = W64# (x# `xor64#` y#)
complement (W64# x#) = W64# (not64# x#)
(W64# x#) `shift` (I# i#)
| isTrue# (i# >=# 0#) = W64# (x# `shiftL64#` i#)
| otherwise = W64# (x# `shiftRL64#` negateInt# i#)
(W64# x#) `shiftL` (I# i#) = W64# (x# `shiftL64#` i#)
(W64# x#) `unsafeShiftL` (I# i#) = W64# (x# `uncheckedShiftL64#` i#)
(W64# x#) `shiftR` (I# i#) = W64# (x# `shiftRL64#` i#)
(W64# x#) `unsafeShiftR` (I# i#) = W64# (x# `uncheckedShiftRL64#` i#)
(W64# x#) `rotate` (I# i#)
| isTrue# (i'# ==# 0#) = W64# x#
| otherwise = W64# ((x# `uncheckedShiftL64#` i'#) `or64#`
(x# `uncheckedShiftRL64#` (64# -# i'#)))
where
!i'# = word2Int# (int2Word# i# `and#` 63##)
bitSizeMaybe i = Just (finiteBitSize i)
bitSize i = finiteBitSize i
isSigned _ = False
popCount (W64# x#) = I# (word2Int# (popCnt64# x#))
bit = bitDefault
testBit = testBitDefault
shiftL64#, shiftRL64# :: Word64# -> Int# -> Word64#
a `shiftL64#` b | isTrue# (b >=# 64#) = wordToWord64# 0##
| otherwise = a `uncheckedShiftL64#` b
a `shiftRL64#` b | isTrue# (b >=# 64#) = wordToWord64# 0##
| otherwise = a `uncheckedShiftRL64#` b
{-# RULES
"fromIntegral/Int->Word64" fromIntegral = \(I# x#) -> W64# (int64ToWord64# (intToInt64# x#))
"fromIntegral/Word->Word64" fromIntegral = \(W# x#) -> W64# (wordToWord64# x#)
"fromIntegral/Word64->Int" fromIntegral = \(W64# x#) -> I# (word2Int# (word64ToWord# x#))
"fromIntegral/Word64->Word" fromIntegral = \(W64# x#) -> W# (word64ToWord# x#)
"fromIntegral/Word64->Word64" fromIntegral = id :: Word64 -> Word64
#-}
#else
data {-# CTYPE "HsWord64" #-} Word64 = W64# Word# deriving (Eq, Ord)
instance Num Word64 where
(W64# x#) + (W64# y#) = W64# (x# `plusWord#` y#)
(W64# x#) - (W64# y#) = W64# (x# `minusWord#` y#)
(W64# x#) * (W64# y#) = W64# (x# `timesWord#` y#)
negate (W64# x#) = W64# (int2Word# (negateInt# (word2Int# x#)))
abs x = x
signum 0 = 0
signum _ = 1
fromInteger i = W64# (integerToWord i)
instance Enum Word64 where
succ x
| x /= maxBound = x + 1
| otherwise = succError "Word64"
pred x
| x /= minBound = x - 1
| otherwise = predError "Word64"
toEnum i@(I# i#)
| i >= 0 = W64# (int2Word# i#)
| otherwise = toEnumError "Word64" i (minBound::Word64, maxBound::Word64)
fromEnum x@(W64# x#)
| x <= fromIntegral (maxBound::Int)
= I# (word2Int# x#)
| otherwise = fromEnumError "Word64" x
enumFrom = integralEnumFrom
enumFromThen = integralEnumFromThen
enumFromTo = integralEnumFromTo
enumFromThenTo = integralEnumFromThenTo
instance Integral Word64 where
quot (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `quotWord#` y#)
| otherwise = divZeroError
rem (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `remWord#` y#)
| otherwise = divZeroError
div (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `quotWord#` y#)
| otherwise = divZeroError
mod (W64# x#) y@(W64# y#)
| y /= 0 = W64# (x# `remWord#` y#)
| otherwise = divZeroError
quotRem (W64# x#) y@(W64# y#)
| y /= 0 = case x# `quotRemWord#` y# of
(# q, r #) ->
(W64# q, W64# r)
| otherwise = divZeroError
divMod (W64# x#) y@(W64# y#)
| y /= 0 = (W64# (x# `quotWord#` y#), W64# (x# `remWord#` y#))
| otherwise = divZeroError
toInteger (W64# x#)
| isTrue# (i# >=# 0#) = smallInteger i#
| otherwise = wordToInteger x#
where
!i# = word2Int# x#
instance Bits Word64 where
{-# INLINE shift #-}
{-# INLINE bit #-}
{-# INLINE testBit #-}
(W64# x#) .&. (W64# y#) = W64# (x# `and#` y#)
(W64# x#) .|. (W64# y#) = W64# (x# `or#` y#)
(W64# x#) `xor` (W64# y#) = W64# (x# `xor#` y#)
complement (W64# x#) = W64# (x# `xor#` mb#)
where !(W64# mb#) = maxBound
(W64# x#) `shift` (I# i#)
| isTrue# (i# >=# 0#) = W64# (x# `shiftL#` i#)
| otherwise = W64# (x# `shiftRL#` negateInt# i#)
(W64# x#) `shiftL` (I# i#) = W64# (x# `shiftL#` i#)
(W64# x#) `unsafeShiftL` (I# i#) = W64# (x# `uncheckedShiftL#` i#)
(W64# x#) `shiftR` (I# i#) = W64# (x# `shiftRL#` i#)
(W64# x#) `unsafeShiftR` (I# i#) = W64# (x# `uncheckedShiftRL#` i#)
(W64# x#) `rotate` (I# i#)
| isTrue# (i'# ==# 0#) = W64# x#
| otherwise = W64# ((x# `uncheckedShiftL#` i'#) `or#`
(x# `uncheckedShiftRL#` (64# -# i'#)))
where
!i'# = word2Int# (int2Word# i# `and#` 63##)
bitSizeMaybe i = Just (finiteBitSize i)
bitSize i = finiteBitSize i
isSigned _ = False
popCount (W64# x#) = I# (word2Int# (popCnt64# x#))
bit = bitDefault
testBit = testBitDefault
{-# RULES
"fromIntegral/a->Word64" fromIntegral = \x -> case fromIntegral x of W# x# -> W64# x#
"fromIntegral/Word64->a" fromIntegral = \(W64# x#) -> fromIntegral (W# x#)
#-}
uncheckedShiftL64# :: Word# -> Int# -> Word#
uncheckedShiftL64# = uncheckedShiftL#
uncheckedShiftRL64# :: Word# -> Int# -> Word#
uncheckedShiftRL64# = uncheckedShiftRL#
#endif
instance FiniteBits Word64 where
finiteBitSize _ = 64
countLeadingZeros (W64# x#) = I# (word2Int# (clz64# x#))
countTrailingZeros (W64# x#) = I# (word2Int# (ctz64# x#))
instance Show Word64 where
showsPrec p x = showsPrec p (toInteger x)
instance Real Word64 where
toRational x = toInteger x % 1
instance Bounded Word64 where
minBound = 0
maxBound = 0xFFFFFFFFFFFFFFFF
instance Ix Word64 where
range (m,n) = [m..n]
unsafeIndex (m,_) i = fromIntegral (i - m)
inRange (m,n) i = m <= i && i <= n
instance Read Word64 where
readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]
#if WORD_SIZE_IN_BITS < 64
byteSwap64 :: Word64 -> Word64
byteSwap64 (W64# w#) = W64# (byteSwap64# w#)
#else
byteSwap64 :: Word64 -> Word64
byteSwap64 (W64# w#) = W64# (byteSwap# w#)
#endif