X-Git-Url: http://git.megacz.com/?a=blobdiff_plain;f=ghc%2Flib%2Fstd%2FPrelInt.lhs;h=42efc751163f55b065ec7793154c3aca372d2747;hb=ec2e177faf6ed8ff934f0bd97cf77fcb0f2210bd;hp=c1ea194df08fb2f6cdd971395e78dca66842996e;hpb=8eda4709fdb427ad135776c9584afff102246174;p=ghc-hetmet.git diff --git a/ghc/lib/std/PrelInt.lhs b/ghc/lib/std/PrelInt.lhs index c1ea194..42efc75 100644 --- a/ghc/lib/std/PrelInt.lhs +++ b/ghc/lib/std/PrelInt.lhs @@ -4,6 +4,8 @@ \section[PrelInt]{Module @PrelInt@} \begin{code} +{-# OPTIONS -fno-implicit-prelude #-} + #include "MachDeps.h" module PrelInt ( @@ -18,6 +20,7 @@ import PrelRead import PrelArr import PrelBits import PrelWord +import PrelShow ------------------------------------------------------------------------ -- type Int8 @@ -35,17 +38,17 @@ instance Show Int8 where showsPrec p x = showsPrec p (fromIntegral x :: Int) instance Num Int8 where - (I8# x#) + (I8# y#) = I8# (intToInt8# (x# +# y#)) - (I8# x#) - (I8# y#) = I8# (intToInt8# (x# -# y#)) - (I8# x#) * (I8# y#) = I8# (intToInt8# (x# *# y#)) - negate (I8# x#) = I8# (intToInt8# (negateInt# x#)) + (I8# x#) + (I8# y#) = I8# (narrow8Int# (x# +# y#)) + (I8# x#) - (I8# y#) = I8# (narrow8Int# (x# -# y#)) + (I8# x#) * (I8# y#) = I8# (narrow8Int# (x# *# y#)) + negate (I8# x#) = I8# (narrow8Int# (negateInt# x#)) abs x | x >= 0 = x | otherwise = negate x signum x | x > 0 = 1 signum 0 = 0 signum _ = -1 - fromInteger (S# i#) = I8# (intToInt8# i#) - fromInteger (J# s# d#) = I8# (intToInt8# (integer2Int# s# d#)) + fromInteger (S# i#) = I8# (narrow8Int# i#) + fromInteger (J# s# d#) = I8# (narrow8Int# (integer2Int# s# d#)) instance Real Int8 where toRational x = toInteger x % 1 @@ -67,24 +70,24 @@ instance Enum Int8 where instance Integral Int8 where quot x@(I8# x#) y@(I8# y#) - | y /= 0 = I8# (intToInt8# (x# `quotInt#` y#)) + | y /= 0 = I8# (narrow8Int# (x# `quotInt#` y#)) | otherwise = divZeroError "quot{Int8}" x rem x@(I8# x#) y@(I8# y#) - | y /= 0 = I8# (intToInt8# (x# `remInt#` y#)) + | y /= 0 = I8# (narrow8Int# (x# `remInt#` y#)) | otherwise = divZeroError "rem{Int8}" x div x@(I8# x#) y@(I8# y#) - | y /= 0 = I8# (intToInt8# (x# `divInt#` y#)) + | y /= 0 = I8# (narrow8Int# (x# `divInt#` y#)) | otherwise = divZeroError "div{Int8}" x mod x@(I8# x#) y@(I8# y#) - | y /= 0 = I8# (intToInt8# (x# `modInt#` y#)) + | y /= 0 = I8# (narrow8Int# (x# `modInt#` y#)) | otherwise = divZeroError "mod{Int8}" x quotRem x@(I8# x#) y@(I8# y#) - | y /= 0 = (I8# (intToInt8# (x# `quotInt#` y#)), - I8# (intToInt8# (x# `remInt#` y#))) + | y /= 0 = (I8# (narrow8Int# (x# `quotInt#` y#)), + I8# (narrow8Int# (x# `remInt#` y#))) | otherwise = divZeroError "quotRem{Int8}" x divMod x@(I8# x#) y@(I8# y#) - | y /= 0 = (I8# (intToInt8# (x# `divInt#` y#)), - I8# (intToInt8# (x# `modInt#` y#))) + | y /= 0 = (I8# (narrow8Int# (x# `divInt#` y#)), + I8# (narrow8Int# (x# `modInt#` y#))) | otherwise = divZeroError "divMod{Int8}" x toInteger (I8# x#) = S# x# @@ -93,11 +96,10 @@ instance Bounded Int8 where maxBound = 0x7F instance Ix Int8 where - range (m,n) = [m..n] - index b@(m,_) i - | inRange b i = fromIntegral (i - m) - | otherwise = indexError b i "Int8" - inRange (m,n) i = m <= i && i <= n + range (m,n) = [m..n] + unsafeIndex b@(m,_) i = fromIntegral (i - m) + inRange (m,n) i = m <= i && i <= n + unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1 instance Read Int8 where readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s] @@ -108,21 +110,22 @@ instance Bits Int8 where (I8# x#) `xor` (I8# y#) = I8# (word2Int# (int2Word# x# `xor#` int2Word# y#)) complement (I8# x#) = I8# (word2Int# (int2Word# x# `xor#` int2Word# (-1#))) (I8# x#) `shift` (I# i#) - | i# >=# 0# = I8# (intToInt8# (x# `iShiftL#` i#)) + | i# >=# 0# = I8# (narrow8Int# (x# `iShiftL#` i#)) | otherwise = I8# (x# `iShiftRA#` negateInt# i#) (I8# x#) `rotate` (I# i#) = - I8# (intToInt8# (word2Int# ((x'# `shiftL#` i'#) `or#` + I8# (narrow8Int# (word2Int# ((x'# `shiftL#` i'#) `or#` (x'# `shiftRL#` (8# -# i'#))))) where - x'# = wordToWord8# (int2Word# x#) + x'# = narrow8Word# (int2Word# x#) i'# = word2Int# (int2Word# i# `and#` int2Word# 7#) bitSize _ = 8 isSigned _ = True {-# RULES -"fromIntegral/a->Int8" fromIntegral = \x -> case fromIntegral x of I# x# -> I8# (intToInt8# x#) -"fromIntegral/Int8->a" fromIntegral = \(I8# x#) -> fromIntegral (I# x#) - #-} +"fromIntegral/Int8->Int8" fromIntegral = id :: Int8 -> Int8 +"fromIntegral/a->Int8" fromIntegral = \x -> case fromIntegral x of I# x# -> I8# (narrow8Int# x#) +"fromIntegral/Int8->a" fromIntegral = \(I8# x#) -> fromIntegral (I# x#) + #-} ------------------------------------------------------------------------ -- type Int16 @@ -140,17 +143,17 @@ instance Show Int16 where showsPrec p x = showsPrec p (fromIntegral x :: Int) instance Num Int16 where - (I16# x#) + (I16# y#) = I16# (intToInt16# (x# +# y#)) - (I16# x#) - (I16# y#) = I16# (intToInt16# (x# -# y#)) - (I16# x#) * (I16# y#) = I16# (intToInt16# (x# *# y#)) - negate (I16# x#) = I16# (intToInt16# (negateInt# x#)) + (I16# x#) + (I16# y#) = I16# (narrow16Int# (x# +# y#)) + (I16# x#) - (I16# y#) = I16# (narrow16Int# (x# -# y#)) + (I16# x#) * (I16# y#) = I16# (narrow16Int# (x# *# y#)) + negate (I16# x#) = I16# (narrow16Int# (negateInt# x#)) abs x | x >= 0 = x | otherwise = negate x signum x | x > 0 = 1 signum 0 = 0 signum _ = -1 - fromInteger (S# i#) = I16# (intToInt16# i#) - fromInteger (J# s# d#) = I16# (intToInt16# (integer2Int# s# d#)) + fromInteger (S# i#) = I16# (narrow16Int# i#) + fromInteger (J# s# d#) = I16# (narrow16Int# (integer2Int# s# d#)) instance Real Int16 where toRational x = toInteger x % 1 @@ -172,24 +175,24 @@ instance Enum Int16 where instance Integral Int16 where quot x@(I16# x#) y@(I16# y#) - | y /= 0 = I16# (intToInt16# (x# `quotInt#` y#)) + | y /= 0 = I16# (narrow16Int# (x# `quotInt#` y#)) | otherwise = divZeroError "quot{Int16}" x rem x@(I16# x#) y@(I16# y#) - | y /= 0 = I16# (intToInt16# (x# `remInt#` y#)) + | y /= 0 = I16# (narrow16Int# (x# `remInt#` y#)) | otherwise = divZeroError "rem{Int16}" x div x@(I16# x#) y@(I16# y#) - | y /= 0 = I16# (intToInt16# (x# `divInt#` y#)) + | y /= 0 = I16# (narrow16Int# (x# `divInt#` y#)) | otherwise = divZeroError "div{Int16}" x mod x@(I16# x#) y@(I16# y#) - | y /= 0 = I16# (intToInt16# (x# `modInt#` y#)) + | y /= 0 = I16# (narrow16Int# (x# `modInt#` y#)) | otherwise = divZeroError "mod{Int16}" x quotRem x@(I16# x#) y@(I16# y#) - | y /= 0 = (I16# (intToInt16# (x# `quotInt#` y#)), - I16# (intToInt16# (x# `remInt#` y#))) + | y /= 0 = (I16# (narrow16Int# (x# `quotInt#` y#)), + I16# (narrow16Int# (x# `remInt#` y#))) | otherwise = divZeroError "quotRem{Int16}" x divMod x@(I16# x#) y@(I16# y#) - | y /= 0 = (I16# (intToInt16# (x# `divInt#` y#)), - I16# (intToInt16# (x# `modInt#` y#))) + | y /= 0 = (I16# (narrow16Int# (x# `divInt#` y#)), + I16# (narrow16Int# (x# `modInt#` y#))) | otherwise = divZeroError "divMod{Int16}" x toInteger (I16# x#) = S# x# @@ -198,11 +201,10 @@ instance Bounded Int16 where maxBound = 0x7FFF instance Ix Int16 where - range (m,n) = [m..n] - index b@(m,_) i - | inRange b i = fromIntegral (i - m) - | otherwise = indexError b i "Int16" - inRange (m,n) i = m <= i && i <= n + range (m,n) = [m..n] + unsafeIndex b@(m,_) i = fromIntegral (i - m) + inRange (m,n) i = m <= i && i <= n + unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1 instance Read Int16 where readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s] @@ -213,55 +215,196 @@ instance Bits Int16 where (I16# x#) `xor` (I16# y#) = I16# (word2Int# (int2Word# x# `xor#` int2Word# y#)) complement (I16# x#) = I16# (word2Int# (int2Word# x# `xor#` int2Word# (-1#))) (I16# x#) `shift` (I# i#) - | i# >=# 0# = I16# (intToInt16# (x# `iShiftL#` i#)) + | i# >=# 0# = I16# (narrow16Int# (x# `iShiftL#` i#)) | otherwise = I16# (x# `iShiftRA#` negateInt# i#) (I16# x#) `rotate` (I# i#) = - I16# (intToInt16# (word2Int# ((x'# `shiftL#` i'#) `or#` + I16# (narrow16Int# (word2Int# ((x'# `shiftL#` i'#) `or#` (x'# `shiftRL#` (16# -# i'#))))) where - x'# = wordToWord16# (int2Word# x#) + x'# = narrow16Word# (int2Word# x#) i'# = word2Int# (int2Word# i# `and#` int2Word# 15#) bitSize _ = 16 isSigned _ = True {-# RULES -"fromIntegral/a->Int16" fromIntegral = \x -> case fromIntegral x of I# x# -> I16# (intToInt16# x#) -"fromIntegral/Int16->a" fromIntegral = \(I16# x#) -> fromIntegral (I# x#) - #-} +"fromIntegral/Word8->Int16" fromIntegral = \(W8# x#) -> I16# (word2Int# x#) +"fromIntegral/Int8->Int16" fromIntegral = \(I8# x#) -> I16# x# +"fromIntegral/Int16->Int16" fromIntegral = id :: Int16 -> Int16 +"fromIntegral/a->Int16" fromIntegral = \x -> case fromIntegral x of I# x# -> I16# (narrow16Int# x#) +"fromIntegral/Int16->a" fromIntegral = \(I16# x#) -> fromIntegral (I# x#) + #-} ------------------------------------------------------------------------ -- type Int32 ------------------------------------------------------------------------ +#if WORD_SIZE_IN_BITS < 32 + +data Int32 = I32# Int32# + +instance Eq Int32 where + (I32# x#) == (I32# y#) = x# `eqInt32#` y# + (I32# x#) /= (I32# y#) = x# `neInt32#` y# + +instance Ord Int32 where + (I32# x#) < (I32# y#) = x# `ltInt32#` y# + (I32# x#) <= (I32# y#) = x# `leInt32#` y# + (I32# x#) > (I32# y#) = x# `gtInt32#` y# + (I32# x#) >= (I32# y#) = x# `geInt32#` y# + +instance Show Int32 where + showsPrec p x = showsPrec p (toInteger x) + +instance Num Int32 where + (I32# x#) + (I32# y#) = I32# (x# `plusInt32#` y#) + (I32# x#) - (I32# y#) = I32# (x# `minusInt32#` y#) + (I32# x#) * (I32# y#) = I32# (x# `timesInt32#` y#) + negate (I32# x#) = I32# (negateInt32# x#) + abs x | x >= 0 = x + | otherwise = negate x + signum x | x > 0 = 1 + signum 0 = 0 + signum _ = -1 + fromInteger (S# i#) = I32# (intToInt32# i#) + fromInteger (J# s# d#) = I32# (integerToInt32# s# d#) + +instance Enum Int32 where + succ x + | x /= maxBound = x + 1 + | otherwise = succError "Int32" + pred x + | x /= minBound = x - 1 + | otherwise = predError "Int32" + toEnum (I# i#) = I32# (intToInt32# i#) + fromEnum x@(I32# x#) + | x >= fromIntegral (minBound::Int) && x <= fromIntegral (maxBound::Int) + = I# (int32ToInt# x#) + | otherwise = fromEnumError "Int32" x + enumFrom = integralEnumFrom + enumFromThen = integralEnumFromThen + enumFromTo = integralEnumFromTo + enumFromThenTo = integralEnumFromThenTo + +instance Integral Int32 where + quot x@(I32# x#) y@(I32# y#) + | y /= 0 = I32# (x# `quotInt32#` y#) + | otherwise = divZeroError "quot{Int32}" x + rem x@(I32# x#) y@(I32# y#) + | y /= 0 = I32# (x# `remInt32#` y#) + | otherwise = divZeroError "rem{Int32}" x + div x@(I32# x#) y@(I32# y#) + | y /= 0 = I32# (x# `divInt32#` y#) + | otherwise = divZeroError "div{Int32}" x + mod x@(I32# x#) y@(I32# y#) + | y /= 0 = I32# (x# `modInt32#` y#) + | otherwise = divZeroError "mod{Int32}" x + quotRem x@(I32# x#) y@(I32# y#) + | y /= 0 = (I32# (x# `quotInt32#` y#), I32# (x# `remInt32#` y#)) + | otherwise = divZeroError "quotRem{Int32}" x + divMod x@(I32# x#) y@(I32# y#) + | y /= 0 = (I32# (x# `divInt32#` y#), I32# (x# `modInt32#` y#)) + | otherwise = divZeroError "divMod{Int32}" x + toInteger x@(I32# x#) + | x >= fromIntegral (minBound::Int) && x <= fromIntegral (maxBound::Int) + = S# (int32ToInt# x#) + | otherwise = case int32ToInteger# x# of (# s, d #) -> J# s d + +divInt32#, modInt32# :: Int32# -> Int32# -> Int32# +x# `divInt32#` y# + | (x# `gtInt32#` intToInt32# 0#) && (y# `ltInt32#` intToInt32# 0#) + = ((x# `minusInt32#` y#) `minusInt32#` intToInt32# 1#) `quotInt32#` y# + | (x# `ltInt32#` intToInt32# 0#) && (y# `gtInt32#` intToInt32# 0#) + = ((x# `minusInt32#` y#) `plusInt32#` intToInt32# 1#) `quotInt32#` y# + | otherwise = x# `quotInt32#` y# +x# `modInt32#` y# + | (x# `gtInt32#` intToInt32# 0#) && (y# `ltInt32#` intToInt32# 0#) || + (x# `ltInt32#` intToInt32# 0#) && (y# `gtInt32#` intToInt32# 0#) + = if r# `neInt32#` intToInt32# 0# then r# `plusInt32#` y# else intToInt32# 0# + | otherwise = r# + where + r# = x# `remInt32#` y# + +instance Read Int32 where + readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s] + +instance Bits Int32 where + (I32# x#) .&. (I32# y#) = I32# (word32ToInt32# (int32ToWord32# x# `and32#` int32ToWord32# y#)) + (I32# x#) .|. (I32# y#) = I32# (word32ToInt32# (int32ToWord32# x# `or32#` int32ToWord32# y#)) + (I32# x#) `xor` (I32# y#) = I32# (word32ToInt32# (int32ToWord32# x# `xor32#` int32ToWord32# y#)) + complement (I32# x#) = I32# (word32ToInt32# (not32# (int32ToWord32# x#))) + (I32# x#) `shift` (I# i#) + | i# >=# 0# = I32# (x# `iShiftL32#` i#) + | otherwise = I32# (x# `iShiftRA32#` negateInt# i#) + (I32# x#) `rotate` (I# i#) = + I32# (word32ToInt32# ((x'# `shiftL32#` i'#) `or32#` + (x'# `shiftRL32#` (32# -# i'#)))) + where + x'# = int32ToWord32# x# + i'# = word2Int# (int2Word# i# `and#` int2Word# 63#) + bitSize _ = 32 + isSigned _ = True + +foreign import "stg_eqInt32" unsafe eqInt32# :: Int32# -> Int32# -> Bool +foreign import "stg_neInt32" unsafe neInt32# :: Int32# -> Int32# -> Bool +foreign import "stg_ltInt32" unsafe ltInt32# :: Int32# -> Int32# -> Bool +foreign import "stg_leInt32" unsafe leInt32# :: Int32# -> Int32# -> Bool +foreign import "stg_gtInt32" unsafe gtInt32# :: Int32# -> Int32# -> Bool +foreign import "stg_geInt32" unsafe geInt32# :: Int32# -> Int32# -> Bool +foreign import "stg_plusInt32" unsafe plusInt32# :: Int32# -> Int32# -> Int32# +foreign import "stg_minusInt32" unsafe minusInt32# :: Int32# -> Int32# -> Int32# +foreign import "stg_timesInt32" unsafe timesInt32# :: Int32# -> Int32# -> Int32# +foreign import "stg_negateInt32" unsafe negateInt32# :: Int32# -> Int32# +foreign import "stg_quotInt32" unsafe quotInt32# :: Int32# -> Int32# -> Int32# +foreign import "stg_remInt32" unsafe remInt32# :: Int32# -> Int32# -> Int32# +foreign import "stg_intToInt32" unsafe intToInt32# :: Int# -> Int32# +foreign import "stg_int32ToInt" unsafe int32ToInt# :: Int32# -> Int# +foreign import "stg_wordToWord32" unsafe wordToWord32# :: Word# -> Word32# +foreign import "stg_int32ToWord32" unsafe int32ToWord32# :: Int32# -> Word32# +foreign import "stg_word32ToInt32" unsafe word32ToInt32# :: Word32# -> Int32# +foreign import "stg_and32" unsafe and32# :: Word32# -> Word32# -> Word32# +foreign import "stg_or32" unsafe or32# :: Word32# -> Word32# -> Word32# +foreign import "stg_xor32" unsafe xor32# :: Word32# -> Word32# -> Word32# +foreign import "stg_not32" unsafe not32# :: Word32# -> Word32# +foreign import "stg_iShiftL32" unsafe iShiftL32# :: Int32# -> Int# -> Int32# +foreign import "stg_iShiftRA32" unsafe iShiftRA32# :: Int32# -> Int# -> Int32# +foreign import "stg_shiftL32" unsafe shiftL32# :: Word32# -> Int# -> Word32# +foreign import "stg_shiftRL32" unsafe shiftRL32# :: Word32# -> Int# -> Word32# + +{-# RULES +"fromIntegral/Int->Int32" fromIntegral = \(I# x#) -> I32# (intToInt32# x#) +"fromIntegral/Word->Int32" fromIntegral = \(W# x#) -> I32# (word32ToInt32# (wordToWord32# x#)) +"fromIntegral/Word32->Int32" fromIntegral = \(W32# x#) -> I32# (word32ToInt32# x#) +"fromIntegral/Int32->Int" fromIntegral = \(I32# x#) -> I# (int32ToInt# x#) +"fromIntegral/Int32->Word" fromIntegral = \(I32# x#) -> W# (int2Word# (int32ToInt# x#)) +"fromIntegral/Int32->Word32" fromIntegral = \(I32# x#) -> W32# (int32ToWord32# x#) +"fromIntegral/Int32->Int32" fromIntegral = id :: Int32 -> Int32 + #-} + +#else + -- Int32 is represented in the same way as Int. -#if WORD_SIZE_IN_BYTES == 8 +#if WORD_SIZE_IN_BITS > 32 -- Operations may assume and must ensure that it holds only values -- from its logical range. #endif data Int32 = I32# Int# deriving (Eq, Ord) -instance CCallable Int32 -instance CReturnable Int32 - instance Show Int32 where showsPrec p x = showsPrec p (fromIntegral x :: Int) instance Num Int32 where - (I32# x#) + (I32# y#) = I32# (intToInt32# (x# +# y#)) - (I32# x#) - (I32# y#) = I32# (intToInt32# (x# -# y#)) - (I32# x#) * (I32# y#) = I32# (intToInt32# (x# *# y#)) - negate (I32# x#) = I32# (intToInt32# (negateInt# x#)) + (I32# x#) + (I32# y#) = I32# (narrow32Int# (x# +# y#)) + (I32# x#) - (I32# y#) = I32# (narrow32Int# (x# -# y#)) + (I32# x#) * (I32# y#) = I32# (narrow32Int# (x# *# y#)) + negate (I32# x#) = I32# (narrow32Int# (negateInt# x#)) abs x | x >= 0 = x | otherwise = negate x signum x | x > 0 = 1 signum 0 = 0 signum _ = -1 - fromInteger (S# i#) = I32# (intToInt32# i#) - fromInteger (J# s# d#) = I32# (intToInt32# (integer2Int# s# d#)) - -instance Real Int32 where - toRational x = toInteger x % 1 + fromInteger (S# i#) = I32# (narrow32Int# i#) + fromInteger (J# s# d#) = I32# (narrow32Int# (integer2Int# s# d#)) instance Enum Int32 where succ x @@ -270,7 +413,7 @@ instance Enum Int32 where pred x | x /= minBound = x - 1 | otherwise = predError "Int32" -#if WORD_SIZE_IN_BYTES == 4 +#if WORD_SIZE_IN_BITS == 32 toEnum (I# i#) = I32# i# #else toEnum i@(I# i#) @@ -284,38 +427,27 @@ instance Enum Int32 where instance Integral Int32 where quot x@(I32# x#) y@(I32# y#) - | y /= 0 = I32# (intToInt32# (x# `quotInt#` y#)) + | y /= 0 = I32# (narrow32Int# (x# `quotInt#` y#)) | otherwise = divZeroError "quot{Int32}" x rem x@(I32# x#) y@(I32# y#) - | y /= 0 = I32# (intToInt32# (x# `remInt#` y#)) + | y /= 0 = I32# (narrow32Int# (x# `remInt#` y#)) | otherwise = divZeroError "rem{Int32}" x div x@(I32# x#) y@(I32# y#) - | y /= 0 = I32# (intToInt32# (x# `divInt#` y#)) + | y /= 0 = I32# (narrow32Int# (x# `divInt#` y#)) | otherwise = divZeroError "div{Int32}" x mod x@(I32# x#) y@(I32# y#) - | y /= 0 = I32# (intToInt32# (x# `modInt#` y#)) + | y /= 0 = I32# (narrow32Int# (x# `modInt#` y#)) | otherwise = divZeroError "mod{Int32}" x quotRem x@(I32# x#) y@(I32# y#) - | y /= 0 = (I32# (intToInt32# (x# `quotInt#` y#)), - I32# (intToInt32# (x# `remInt#` y#))) + | y /= 0 = (I32# (narrow32Int# (x# `quotInt#` y#)), + I32# (narrow32Int# (x# `remInt#` y#))) | otherwise = divZeroError "quotRem{Int32}" x divMod x@(I32# x#) y@(I32# y#) - | y /= 0 = (I32# (intToInt32# (x# `divInt#` y#)), - I32# (intToInt32# (x# `modInt#` y#))) + | y /= 0 = (I32# (narrow32Int# (x# `divInt#` y#)), + I32# (narrow32Int# (x# `modInt#` y#))) | otherwise = divZeroError "divMod{Int32}" x toInteger (I32# x#) = S# x# -instance Bounded Int32 where - minBound = -0x80000000 - maxBound = 0x7FFFFFFF - -instance Ix Int32 where - range (m,n) = [m..n] - index b@(m,_) i - | inRange b i = fromIntegral (i - m) - | otherwise = indexError b i "Int32" - inRange (m,n) i = m <= i && i <= n - instance Read Int32 where readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s] @@ -325,27 +457,50 @@ instance Bits Int32 where (I32# x#) `xor` (I32# y#) = I32# (word2Int# (int2Word# x# `xor#` int2Word# y#)) complement (I32# x#) = I32# (word2Int# (int2Word# x# `xor#` int2Word# (-1#))) (I32# x#) `shift` (I# i#) - | i# >=# 0# = I32# (intToInt32# (x# `iShiftL#` i#)) + | i# >=# 0# = I32# (narrow32Int# (x# `iShiftL#` i#)) | otherwise = I32# (x# `iShiftRA#` negateInt# i#) (I32# x#) `rotate` (I# i#) = - I32# (intToInt32# (word2Int# ((x'# `shiftL#` i'#) `or#` + I32# (narrow32Int# (word2Int# ((x'# `shiftL#` i'#) `or#` (x'# `shiftRL#` (32# -# i'#))))) where - x'# = wordToWord32# (int2Word# x#) + x'# = narrow32Word# (int2Word# x#) i'# = word2Int# (int2Word# i# `and#` int2Word# 31#) bitSize _ = 32 isSigned _ = True {-# RULES -"fromIntegral/a->Int32" fromIntegral = \x -> case fromIntegral x of I# x# -> I32# (intToInt32# x#) -"fromIntegral/Int32->a" fromIntegral = \(I32# x#) -> fromIntegral (I# x#) - #-} +"fromIntegral/Word8->Int32" fromIntegral = \(W8# x#) -> I32# (word2Int# x#) +"fromIntegral/Word16->Int32" fromIntegral = \(W16# x#) -> I32# (word2Int# x#) +"fromIntegral/Int8->Int32" fromIntegral = \(I8# x#) -> I32# x# +"fromIntegral/Int16->Int32" fromIntegral = \(I16# x#) -> I32# x# +"fromIntegral/Int32->Int32" fromIntegral = id :: Int32 -> Int32 +"fromIntegral/a->Int32" fromIntegral = \x -> case fromIntegral x of I# x# -> I32# (narrow32Int# x#) +"fromIntegral/Int32->a" fromIntegral = \(I32# x#) -> fromIntegral (I# x#) + #-} + +#endif + +instance CCallable Int32 +instance CReturnable Int32 + +instance Real Int32 where + toRational x = toInteger x % 1 + +instance Bounded Int32 where + minBound = -0x80000000 + maxBound = 0x7FFFFFFF + +instance Ix Int32 where + range (m,n) = [m..n] + unsafeIndex b@(m,_) i = fromIntegral (i - m) + inRange (m,n) i = m <= i && i <= n + unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1 ------------------------------------------------------------------------ -- type Int64 ------------------------------------------------------------------------ -#if WORD_SIZE_IN_BYTES == 4 +#if WORD_SIZE_IN_BITS < 64 data Int64 = I64# Int64# @@ -412,10 +567,11 @@ instance Integral Int64 where | y /= 0 = (I64# (x# `divInt64#` y#), I64# (x# `modInt64#` y#)) | otherwise = divZeroError "divMod{Int64}" x toInteger x@(I64# x#) - | x >= -0x80000000 && x <= 0x7FFFFFFF + | x >= fromIntegral (minBound::Int) && x <= fromIntegral (maxBound::Int) = S# (int64ToInt# x#) | otherwise = case int64ToInteger# x# of (# s, d #) -> J# s d + divInt64#, modInt64# :: Int64# -> Int64# -> Int64# x# `divInt64#` y# | (x# `gtInt64#` intToInt64# 0#) && (y# `ltInt64#` intToInt64# 0#) @@ -466,7 +622,6 @@ foreign import "stg_remInt64" unsafe remInt64# :: Int64# -> Int64# -> foreign import "stg_intToInt64" unsafe intToInt64# :: Int# -> Int64# foreign import "stg_int64ToInt" unsafe int64ToInt# :: Int64# -> Int# foreign import "stg_wordToWord64" unsafe wordToWord64# :: Word# -> Word64# -foreign import "stg_word64ToWord" unsafe word64ToWord# :: Word64# -> Word# foreign import "stg_int64ToWord64" unsafe int64ToWord64# :: Int64# -> Word64# foreign import "stg_word64ToInt64" unsafe word64ToInt64# :: Word64# -> Int64# foreign import "stg_and64" unsafe and64# :: Word64# -> Word64# -> Word64# @@ -486,9 +641,13 @@ foreign import "stg_shiftRL64" unsafe shiftRL64# :: Word64# -> Int# -> W "fromIntegral/Int64->Word" fromIntegral = \(I64# x#) -> W# (int2Word# (int64ToInt# x#)) "fromIntegral/Int64->Word64" fromIntegral = \(I64# x#) -> W64# (int64ToWord64# x#) "fromIntegral/Int64->Int64" fromIntegral = id :: Int64 -> Int64 - #-} + #-} -#else +#else + +-- Int64 is represented in the same way as Int. +-- Operations may assume and must ensure that it holds only values +-- from its logical range. data Int64 = I64# Int# deriving (Eq, Ord) @@ -562,9 +721,9 @@ instance Bits Int64 where isSigned _ = True {-# RULES -"fromIntegral/a->Int64" fromIntegral = \x -> case fromIntegral x of I# x# -> I64# (intToInt64# x#) +"fromIntegral/a->Int64" fromIntegral = \x -> case fromIntegral x of I# x# -> I64# x# "fromIntegral/Int64->a" fromIntegral = \(I64# x#) -> fromIntegral (I# x#) - #-} + #-} #endif @@ -579,9 +738,8 @@ instance Bounded Int64 where maxBound = 0x7FFFFFFFFFFFFFFF instance Ix Int64 where - range (m,n) = [m..n] - index b@(m,_) i - | inRange b i = fromIntegral (i - m) - | otherwise = indexError b i "Int64" - inRange (m,n) i = m <= i && i <= n + range (m,n) = [m..n] + unsafeIndex b@(m,_) i = fromIntegral (i - m) + inRange (m,n) i = m <= i && i <= n + unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1 \end{code}