%
-% (c) The AQUA Project, Glasgow University, 1997-1998
+% (c) The AQUA Project, Glasgow University, 1997-1999
%
\section[Int]{Module @Int@}
, Int16
, Int32
, Int64
+
+ , int8ToInt16 -- :: Int8 -> Int16
+ , int8ToInt32 -- :: Int8 -> Int32
+ , int8ToInt64 -- :: Int8 -> Int64
+
+ , int16ToInt8 -- :: Int16 -> Int8
+ , int16ToInt32 -- :: Int16 -> Int32
+ , int16ToInt64 -- :: Int16 -> Int64
+
+ , int32ToInt8 -- :: Int32 -> Int8
+ , int32ToInt16 -- :: Int32 -> Int16
+ , int32ToInt64 -- :: Int32 -> Int64
+
+ , int64ToInt8 -- :: Int64 -> Int8
+ , int64ToInt16 -- :: Int64 -> Int16
+ , int64ToInt32 -- :: Int64 -> Int32
+
, int8ToInt -- :: Int8 -> Int
- , intToInt8 -- :: Int -> Int8
, int16ToInt -- :: Int16 -> Int
- , intToInt16 -- :: Int -> Int16
, int32ToInt -- :: Int32 -> Int
- , intToInt32 -- :: Int -> Int32
+ , int64ToInt -- :: Int32 -> Int
- , intToInt64 -- :: Int -> Int64
- , int64ToInt -- :: Int64 -> Int
+ , intToInt8 -- :: Int -> Int8
+ , intToInt16 -- :: Int -> Int16
+ , intToInt32 -- :: Int -> Int32
+ , intToInt64 -- :: Int -> Int32
+ , integerToInt8 -- :: Integer -> Int8
+ , integerToInt16 -- :: Integer -> Int16
+ , integerToInt32 -- :: Integer -> Int32
, integerToInt64 -- :: Integer -> Int64
+
+ , int8ToInteger -- :: Int8 -> Integer
+ , int16ToInteger -- :: Int16 -> Integer
+ , int32ToInteger -- :: Int32 -> Integer
, int64ToInteger -- :: Int64 -> Integer
-- plus Eq, Ord, Num, Bounded, Real, Integral, Ix, Enum, Read,
-- Show and Bits instances for each of Int8, Int16, Int32 and Int64
- -- The "official" place to get these from is Addr.
+ -- The "official" place to get these from is Addr, importing
+ -- them from Int is a non-standard thing to do.
, indexInt8OffAddr
, indexInt16OffAddr
, indexInt32OffAddr
, sizeofInt16
, sizeofInt32
, sizeofInt64
+
+ -- The "official" place to get these from is Foreign
+#ifndef __PARALLEL_HASKELL__
+ , indexInt8OffForeignObj
+ , indexInt16OffForeignObj
+ , indexInt32OffForeignObj
+ , indexInt64OffForeignObj
+
+ , readInt8OffForeignObj
+ , readInt16OffForeignObj
+ , readInt32OffForeignObj
+ , readInt64OffForeignObj
+
+ , writeInt8OffForeignObj
+ , writeInt16OffForeignObj
+ , writeInt32OffForeignObj
+ , writeInt64OffForeignObj
+#endif
+
+ -- non-standard, GHC specific
+ , intToWord
+
+ -- Internal, do not use.
+ , int8ToInt#
+ , int16ToInt#
+ , int32ToInt#
) where
-import GlaExts
+#ifdef __HUGS__
+import PreludeBuiltin
+#else
+import PrelBase
+import CCall
+import PrelForeign
+import PrelIOBase
+import PrelAddr ( Int64(..), Word64(..), Addr(..), Word(..) )
+#endif
import Ix
import Bits
-import PrelGHC
-import CCall
+import Ratio ( (%) )
import Numeric ( readDec )
import Word ( Word32 )
-----------------------------------------------------------------------------
int8ToInt :: Int8 -> Int
-intToInt8 :: Int -> Int8
int16ToInt :: Int16 -> Int
-intToInt16 :: Int -> Int16
int32ToInt :: Int32 -> Int
-intToInt32 :: Int -> Int32
--- And some non-exported ones
+int8ToInt# :: Int8 -> Int#
+int16ToInt# :: Int16 -> Int#
+int32ToInt# :: Int32 -> Int#
+
+intToInt8 :: Int -> Int8
+intToInt16 :: Int -> Int16
+intToInt32 :: Int -> Int32
int8ToInt16 :: Int8 -> Int16
int8ToInt32 :: Int8 -> Int32
+
int16ToInt8 :: Int16 -> Int8
int16ToInt32 :: Int16 -> Int32
+
int32ToInt8 :: Int32 -> Int8
int32ToInt16 :: Int32 -> Int16
int8ToInt16 (I8# x) = I16# x
int8ToInt32 (I8# x) = I32# x
+int8ToInt64 = int32ToInt64 . int8ToInt32
+
int16ToInt8 (I16# x) = I8# x
int16ToInt32 (I16# x) = I32# x
+int16ToInt64 = int32ToInt64 . int16ToInt32
+
int32ToInt8 (I32# x) = I8# x
int32ToInt16 (I32# x) = I16# x
+
+--GHC specific
+intToWord :: Int -> Word
+intToWord (I# i#) = W# (int2Word# i#)
\end{code}
\subsection[Int8]{The @Int8@ interface}
instance CCallable Int8
instance CReturnable Int8
-int8ToInt (I8# x) = I# (int8ToInt# x)
-int8ToInt# x = if x' <=# 0x7f# then x' else x' -# 0x100#
+int8ToInt (I8# x) = I# (i8ToInt# x)
+int8ToInt# (I8# x) = i8ToInt# x
+
+i8ToInt# :: Int# -> Int#
+i8ToInt# x = if x' <=# 0x7f# then x' else x' -# 0x100#
where x' = word2Int# (int2Word# x `and#` int2Word# 0xff#)
--
-- i.e., show (intToInt8 511) => "-1"
--
intToInt8 (I# x) = I8# (intToInt8# x)
+
+intToInt8# :: Int# -> Int#
intToInt8# i# = word2Int# ((int2Word# i#) `and#` int2Word# 0xff#)
instance Eq Int8 where
(I8# x#) /= (I8# y#) = x# /=# y#
instance Ord Int8 where
- compare (I8# x#) (I8# y#) = compareInt# (int8ToInt# x#) (int8ToInt# y#)
+ compare (I8# x#) (I8# y#) = compareInt# (i8ToInt# x#) (i8ToInt# y#)
compareInt# :: Int# -> Int# -> Ordering
compareInt# x# y#
abs = absReal
signum = signumReal
- fromInteger (J# a# s# d#)
- = case (integer2Int# a# s# d#) of { i# -> I8# (intToInt8# i#) }
+ fromInteger (S# i#) = I8# (intToInt8# i#)
+ fromInteger (J# s# d#) = I8# (intToInt8# (integer2Int# s# d#))
fromInt = intToInt8
instance Bounded Int8 where
toRational x = toInteger x % 1
instance Integral Int8 where
- div x@(I8# x#) y@(I8# y#) =
- if x > 0 && y < 0 then quotInt8 (x-y-1) y
- else if x < 0 && y > 0 then quotInt8 (x-y+1) y
- else quotInt8 x y
- quot x@(I8# _) y@(I8# y#) =
- if y# /=# 0#
- then x `quotInt8` y
- else error "Integral.Int8.quot: divide by 0\n"
- rem x@(I8# _) y@(I8# y#) =
- if y# /=# 0#
- then x `remInt8` y
- else error "Integral.Int8.rem: divide by 0\n"
- mod x@(I8# x#) y@(I8# y#) =
- if x > 0 && y < 0 || x < 0 && y > 0 then
- if r/=0 then r+y else 0
- else
- r
+ div x y
+ | x > 0 && y < 0 = quotInt8 (x-y-1) y
+ | x < 0 && y > 0 = quotInt8 (x-y+1) y
+ | otherwise = quotInt8 x y
+
+ quot x@(I8# _) y@(I8# y#)
+ | y# /=# 0# = x `quotInt8` y
+ | otherwise = divZeroError "quot{Int8}" x
+ rem x@(I8# _) y@(I8# y#)
+ | y# /=# 0# = x `remInt8` y
+ | otherwise = divZeroError "rem{Int8}" x
+ mod x y
+ | x > 0 && y < 0 || x < 0 && y > 0 = if r/=0 then r+y else 0
+ | otherwise = r
where r = remInt8 x y
+
a@(I8# _) `quotRem` b@(I8# _) = (a `quotInt8` b, a `remInt8` b)
toInteger i8 = toInteger (int8ToInt i8)
toInt i8 = int8ToInt i8
-remInt8 (I8# x) (I8# y) = I8# (intToInt8# ((int8ToInt# x) `remInt#` (int8ToInt# y)))
-quotInt8 (I8# x) (I8# y) = I8# (intToInt8# ((int8ToInt# x) `quotInt#` (int8ToInt# y)))
+remInt8, quotInt8 :: Int8 -> Int8 -> Int8
+remInt8 (I8# x) (I8# y) = I8# (intToInt8# ((i8ToInt# x) `remInt#` (i8ToInt# y)))
+quotInt8 (I8# x) (I8# y) = I8# (intToInt8# ((i8ToInt# x) `quotInt#` (i8ToInt# y)))
instance Ix Int8 where
range (m,n) = [m..n]
- index b@(m,n) i
+ index b@(m,_) i
| inRange b i = int8ToInt (i - m)
- | otherwise = error (showString "Ix{Int8}.index: Index " .
- showParen True (showsPrec 0 i) .
- showString " out of range " $
- showParen True (showsPrec 0 b) "")
+ | otherwise = indexError i b "Int8"
inRange (m,n) i = m <= i && i <= n
instance Enum Int8 where
- toEnum = intToInt8
- fromEnum = int8ToInt
- enumFrom c = map toEnum [fromEnum c .. fromEnum (maxBound::Int8)]
- enumFromThen c d = map toEnum [fromEnum c, fromEnum d .. fromEnum (last::Int8)]
- where last = if d < c then minBound else maxBound
+ succ i
+ | i == maxBound = succError "Int8"
+ | otherwise = i+1
+ pred i
+ | i == minBound = predError "Int8"
+ | otherwise = i-1
+
+ toEnum x
+ | x >= toInt (minBound::Int8) && x <= toInt (maxBound::Int8)
+ = intToInt8 x
+ | otherwise
+ = toEnumError "Int8" x (minBound::Int8,maxBound::Int8)
+
+ fromEnum = int8ToInt
+ enumFrom e1 = map toEnum [fromEnum e1 .. fromEnum (maxBound::Int8)]
+ enumFromThen e1 e2 =
+ map toEnum [fromEnum e1, fromEnum e2 .. fromEnum (last::Int8)]
+ where
+ last
+ | e2 < e1 = minBound
+ | otherwise = maxBound
instance Read Int8 where
readsPrec p s = [ (intToInt8 x,r) | (x,r) <- readsPrec p s ]
(I8# x) `xor` (I8# y) = I8# (word2Int# ((int2Word# x) `xor#` (int2Word# y)))
complement (I8# x) = I8# (word2Int# ((int2Word# x) `xor#` (int2Word# 0xff#)))
shift (I8# x) i@(I# i#)
- | i > 0 = I8# (intToInt8# (iShiftL# (int8ToInt# x) i#))
- | otherwise = I8# (intToInt8# (iShiftRA# (int8ToInt# x) i#))
+ | i > 0 = I8# (intToInt8# (iShiftL# (i8ToInt# x) i#))
+ | otherwise = I8# (intToInt8# (iShiftRA# (i8ToInt# x) (negateInt# i#)))
i8@(I8# x) `rotate` (I# i)
| i ==# 0# = i8
| i ># 0# =
I8# (intToInt8# ( word2Int# (
- (int2Word# (iShiftL# (int8ToInt# x) i'))
+ (int2Word# (iShiftL# (i8ToInt# x) i'))
`or#`
(int2Word# (iShiftRA# (word2Int# (
(int2Word# x) `and#`
pow2# :: Int# -> Int#
pow2# x# = iShiftL# 1# x#
+pow2_64# :: Int# -> Int64#
+pow2_64# x# = word64ToInt64# (shiftL64# (wordToWord64# (int2Word# 1#)) x#)
+
sizeofInt8 :: Word32
sizeofInt8 = 1
\end{code}
instance CCallable Int16
instance CReturnable Int16
-int16ToInt (I16# x) = I# (int16ToInt# x)
+int16ToInt (I16# x) = I# (i16ToInt# x)
+int16ToInt# (I16# x) = i16ToInt# x
-int16ToInt# x = if x' <=# 0x7fff# then x' else x' -# 0x10000#
+i16ToInt# :: Int# -> Int#
+i16ToInt# x = if x' <=# 0x7fff# then x' else x' -# 0x10000#
where x' = word2Int# (int2Word# x `and#` int2Word# 0xffff#)
intToInt16 (I# x) = I16# (intToInt16# x)
+
+intToInt16# :: Int# -> Int#
intToInt16# i# = word2Int# ((int2Word# i#) `and#` int2Word# 0xffff#)
instance Eq Int16 where
(I16# x#) /= (I16# y#) = x# /=# y#
instance Ord Int16 where
- compare (I16# x#) (I16# y#) = compareInt# (int16ToInt# x#) (int16ToInt# y#)
+ compare (I16# x#) (I16# y#) = compareInt# (i16ToInt# x#) (i16ToInt# y#)
instance Num Int16 where
(I16# x#) + (I16# y#) = I16# (intToInt16# (x# +# y#))
else I16# (0x10000# -# x#)
abs = absReal
signum = signumReal
- fromInteger (J# a# s# d#)
- = case (integer2Int# a# s# d#) of { i# -> I16# (intToInt16# i#) }
+ fromInteger (S# i#) = I16# (intToInt16# i#)
+ fromInteger (J# s# d#) = I16# (intToInt16# (integer2Int# s# d#))
fromInt = intToInt16
instance Bounded Int16 where
toRational x = toInteger x % 1
instance Integral Int16 where
- div x@(I16# x#) y@(I16# y#) =
- if x > 0 && y < 0 then quotInt16 (x-y-1) y
- else if x < 0 && y > 0 then quotInt16 (x-y+1) y
- else quotInt16 x y
- quot x@(I16# _) y@(I16# y#) =
- if y# /=# 0#
- then x `quotInt16` y
- else error "Integral.Int16.quot: divide by 0\n"
- rem x@(I16# _) y@(I16# y#) =
- if y# /=# 0#
- then x `remInt16` y
- else error "Integral.Int16.rem: divide by 0\n"
- mod x@(I16# x#) y@(I16# y#) =
- if x > 0 && y < 0 || x < 0 && y > 0 then
- if r/=0 then r+y else 0
- else
- r
+ div x y
+ | x > 0 && y < 0 = quotInt16 (x-y-1) y
+ | x < 0 && y > 0 = quotInt16 (x-y+1) y
+ | otherwise = quotInt16 x y
+
+ quot x@(I16# _) y@(I16# y#)
+ | y# /=# 0# = x `quotInt16` y
+ | otherwise = divZeroError "quot{Int16}" x
+ rem x@(I16# _) y@(I16# y#)
+ | y# /=# 0# = x `remInt16` y
+ | otherwise = divZeroError "rem{Int16}" x
+ mod x y
+ | x > 0 && y < 0 || x < 0 && y > 0 = if r/=0 then r+y else 0
+ | otherwise = r
where r = remInt16 x y
+
a@(I16# _) `quotRem` b@(I16# _) = (a `quotInt16` b, a `remInt16` b)
toInteger i16 = toInteger (int16ToInt i16)
toInt i16 = int16ToInt i16
-remInt16 (I16# x) (I16# y) = I16# (intToInt16# ((int16ToInt# x) `remInt#` (int16ToInt# y)))
-quotInt16 (I16# x) (I16# y) = I16# (intToInt16# ((int16ToInt# x) `quotInt#` (int16ToInt# y)))
+remInt16, quotInt16 :: Int16 -> Int16 -> Int16
+remInt16 (I16# x) (I16# y) = I16# (intToInt16# ((i16ToInt# x) `remInt#` (i16ToInt# y)))
+quotInt16 (I16# x) (I16# y) = I16# (intToInt16# ((i16ToInt# x) `quotInt#` (i16ToInt# y)))
instance Ix Int16 where
range (m,n) = [m..n]
- index b@(m,n) i
+ index b@(m,_) i
| inRange b i = int16ToInt (i - m)
- | otherwise = error (showString "Ix{Int16}.index: Index " .
- showParen True (showsPrec 0 i) .
- showString " out of range " $
- showParen True (showsPrec 0 b) "")
+ | otherwise = indexError i b "Int16"
inRange (m,n) i = m <= i && i <= n
instance Enum Int16 where
- toEnum = intToInt16
- fromEnum = int16ToInt
- enumFrom c = map toEnum [fromEnum c .. fromEnum (maxBound::Int16)]
- enumFromThen c d = map toEnum [fromEnum c, fromEnum d .. fromEnum (last::Int16)]
- where last = if d < c then minBound else maxBound
+ succ i
+ | i == maxBound = succError "Int16"
+ | otherwise = i+1
+
+ pred i
+ | i == minBound = predError "Int16"
+ | otherwise = i-1
+
+ toEnum x
+ | x >= toInt (minBound::Int16) && x <= toInt (maxBound::Int16)
+ = intToInt16 x
+ | otherwise
+ = toEnumError "Int16" x (minBound::Int16, maxBound::Int16)
+
+ fromEnum = int16ToInt
+
+ enumFrom e1 = map toEnum [fromEnum e1 .. fromEnum (maxBound::Int16)]
+ enumFromThen e1 e2 = map toEnum [fromEnum e1, fromEnum e2 .. fromEnum (last::Int16)]
+ where last
+ | e2 < e1 = minBound
+ | otherwise = maxBound
instance Read Int16 where
readsPrec p s = [ (intToInt16 x,r) | (x,r) <- readsPrec p s ]
(I16# x) `xor` (I16# y) = I16# (word2Int# ((int2Word# x) `xor#` (int2Word# y)))
complement (I16# x) = I16# (word2Int# ((int2Word# x) `xor#` (int2Word# 0xffff#)))
shift (I16# x) i@(I# i#)
- | i > 0 = I16# (intToInt16# (iShiftL# (int16ToInt# x) i#))
- | otherwise = I16# (intToInt16# (iShiftRA# (int16ToInt# x) i#))
+ | i > 0 = I16# (intToInt16# (iShiftL# (i16ToInt# x) i#))
+ | otherwise = I16# (intToInt16# (iShiftRA# (i16ToInt# x) (negateInt# i#)))
i16@(I16# x) `rotate` (I# i)
| i ==# 0# = i16
| i ># 0# =
I16# (intToInt16# (word2Int# (
- (int2Word# (iShiftL# (int16ToInt# x) i'))
+ (int2Word# (iShiftL# (i16ToInt# x) i'))
`or#`
(int2Word# (iShiftRA# ( word2Int# (
(int2Word# x) `and#` (int2Word# (0x100# -# pow2# i2))))
instance CCallable Int32
instance CReturnable Int32
-int32ToInt (I32# x) = I# (int32ToInt# x)
+int32ToInt (I32# x) = I# (i32ToInt# x)
+int32ToInt# (I32# x) = i32ToInt# x
-int32ToInt# :: Int# -> Int#
+i32ToInt# :: Int# -> Int#
#if WORD_SIZE_IN_BYTES > 4
-int32ToInt# x = if x' <=# 0x7fffffff# then x' else x' -# 0x100000000#
+i32ToInt# x = if x' <=# 0x7fffffff# then x' else x' -# 0x100000000#
where x' = word2Int# (int2Word# x `and#` int2Word# 0xffffffff#)
#else
-int32ToInt# x = x
+i32ToInt# x = x
#endif
intToInt32 (I# x) = I32# (intToInt32# x)
(I32# x#) /= (I32# y#) = x# /=# y#
instance Ord Int32 where
- compare (I32# x#) (I32# y#) = compareInt# (int32ToInt# x#) (int32ToInt# y#)
+ compare (I32# x#) (I32# y#) = compareInt# (i32ToInt# x#) (i32ToInt# y#)
instance Num Int32 where
(I32# x#) + (I32# y#) = I32# (intToInt32# (x# +# y#))
#endif
abs = absReal
signum = signumReal
- fromInteger (J# a# s# d#)
- = case (integer2Int# a# s# d#) of { i# -> I32# (intToInt32# i#) }
+ fromInteger (S# i#) = I32# (intToInt32# i#)
+ fromInteger (J# s# d#) = I32# (intToInt32# (integer2Int# s# d#))
fromInt = intToInt32
--- ToDo: remove LitLit when minBound::Int is fixed (currently it's one
--- too high, and doesn't allow the correct minBound to be defined here).
instance Bounded Int32 where
- minBound = case ``0x80000000'' of { I# x -> I32# x }
- maxBound = I32# 0x7fffffff#
+ minBound = fromInt minBound
+ maxBound = fromInt maxBound
instance Real Int32 where
toRational x = toInteger x % 1
instance Integral Int32 where
- div x@(I32# x#) y@(I32# y#) =
- if x > 0 && y < 0 then quotInt32 (x-y-1) y
- else if x < 0 && y > 0 then quotInt32 (x-y+1) y
- else quotInt32 x y
- quot x@(I32# _) y@(I32# y#) =
- if y# /=# 0#
- then x `quotInt32` y
- else error "Integral.Int32.quot: divide by 0\n"
- rem x@(I32# _) y@(I32# y#) =
- if y# /=# 0#
- then x `remInt32` y
- else error "Integral.Int32.rem: divide by 0\n"
- mod x@(I32# x#) y@(I32# y#) =
- if x > 0 && y < 0 || x < 0 && y > 0 then
- if r/=0 then r+y else 0
- else
- r
+ div x y
+ | x > 0 && y < 0 = quotInt32 (x-y-1) y
+ | x < 0 && y > 0 = quotInt32 (x-y+1) y
+ | otherwise = quotInt32 x y
+ quot x@(I32# _) y@(I32# y#)
+ | y# /=# 0# = x `quotInt32` y
+ | otherwise = divZeroError "quot{Int32}" x
+ rem x@(I32# _) y@(I32# y#)
+ | y# /=# 0# = x `remInt32` y
+ | otherwise = divZeroError "rem{Int32}" x
+ mod x y
+ | x > 0 && y < 0 || x < 0 && y > 0 = if r/=0 then r+y else 0
+ | otherwise = r
where r = remInt32 x y
+
a@(I32# _) `quotRem` b@(I32# _) = (a `quotInt32` b, a `remInt32` b)
toInteger i32 = toInteger (int32ToInt i32)
toInt i32 = int32ToInt i32
-remInt32 (I32# x) (I32# y) = I32# (intToInt32# ((int32ToInt# x) `remInt#` (int32ToInt# y)))
-quotInt32 (I32# x) (I32# y) = I32# (intToInt32# ((int32ToInt# x) `quotInt#` (int32ToInt# y)))
+remInt32, quotInt32 :: Int32 -> Int32 -> Int32
+remInt32 (I32# x) (I32# y) = I32# (intToInt32# ((i32ToInt# x) `remInt#` (i32ToInt# y)))
+quotInt32 (I32# x) (I32# y) = I32# (intToInt32# ((i32ToInt# x) `quotInt#` (i32ToInt# y)))
instance Ix Int32 where
range (m,n) = [m..n]
- index b@(m,n) i
+ index b@(m,_) i
| inRange b i = int32ToInt (i - m)
- | otherwise = error (showString "Ix{Int32}.index: Index " .
- showParen True (showsPrec 0 i) .
- showString " out of range " $
- showParen True (showsPrec 0 b) "")
+ | otherwise = indexError i b "Int32"
inRange (m,n) i = m <= i && i <= n
instance Enum Int32 where
- toEnum = intToInt32
- fromEnum = int32ToInt
- enumFrom c = map toEnum [fromEnum c .. fromEnum (maxBound::Int32)]
- enumFromThen c d = map toEnum [fromEnum c, fromEnum d .. fromEnum (last::Int32)]
- where last = if d < c then minBound else maxBound
+ succ i
+ | i == maxBound = succError "Int32"
+ | otherwise = i+1
+
+ pred i
+ | i == minBound = predError "Int32"
+ | otherwise = i-1
+
+ toEnum x
+ -- with Int having the same range as Int32, the following test
+ -- shouldn't fail. However, having it here
+ | x >= toInt (minBound::Int32) && x <= toInt (maxBound::Int32)
+ = intToInt32 x
+ | otherwise
+ = toEnumError "Int32" x (minBound::Int32, maxBound::Int32)
+
+ fromEnum = int32ToInt
+
+ enumFrom e1 = map toEnum [fromEnum e1 .. fromEnum (maxBound::Int32)]
+ enumFromThen e1 e2 = map toEnum [fromEnum e1, fromEnum e2 .. fromEnum (last::Int32)]
+ where
+ last
+ | e2 < e1 = minBound
+ | otherwise = maxBound
instance Read Int32 where
readsPrec p s = [ (intToInt32 x,r) | (x,r) <- readsPrec p s ]
complement (I32# x) = I32# (word2Int# ((int2Word# x) `xor#` (int2Word# (negateInt# 1#))))
#endif
shift (I32# x) i@(I# i#)
- | i > 0 = I32# (intToInt32# (iShiftL# (int32ToInt# x) i#))
- | otherwise = I32# (intToInt32# (iShiftRA# (int32ToInt# x) i#))
+ | i > 0 = I32# (intToInt32# (iShiftL# (i32ToInt# x) i#))
+ | otherwise = I32# (intToInt32# (iShiftRA# (i32ToInt# x) (negateInt# i#)))
i32@(I32# x) `rotate` (I# i)
| i ==# 0# = i32
| i ># 0# =
-- ( (x<<i') | ((x&(0x100000000-2^i2))>>i2)
I32# (intToInt32# ( word2Int# (
- (int2Word# (iShiftL# (int32ToInt# x) i'))
+ (int2Word# (iShiftL# (i32ToInt# x) i'))
`or#`
(int2Word# (iShiftRA# (word2Int# (
(int2Word# x)
\begin{code}
-data Int64 = I64 {lo,hi::Int32} deriving (Eq, Ord, Bounded)
+#if WORD_SIZE_IN_BYTES == 8
+--data Int64 = I64# Int#
+
+int32ToInt64 :: Int32 -> Int64
+int32ToInt64 (I32# i#) = I64# i#
+
+intToInt32# :: Int# -> Int#
+intToInt32# i# = word2Int# ((int2Word# i#) `and#` (case (maxBound::Word32) of W# x# -> x#))
+
+int64ToInt32 :: Int64 -> Int32
+int64ToInt32 (I64# i#) = I32# (intToInt32# w#)
+
+instance Eq Int64 where
+ (I64# x) == (I64# y) = x `eqInt#` y
+ (I64# x) /= (I64# y) = x `neInt#` y
+
+instance Ord Int32 where
+ compare (I64# x#) (I64# y#) = compareInt# x# y#
+
+instance Num Int64 where
+ (I64# x) + (I64# y) = I64# (x +# y)
+ (I64# x) - (I64# y) = I64# (x -# y)
+ (I64# x) * (I64# y) = I64# (x *# y)
+ negate w@(I64# x) = I64# (negateInt# x)
+ abs x = absReal
+ signum = signumReal
+ fromInteger (S# i#) = I64# i#
+ fromInteger (J# s# d#) = I64# (integer2Int# s# d#)
+ fromInt = intToInt64
+
+instance Bounded Int64 where
+ minBound = integerToInt64 (-0x8000000000000000)
+ maxBound = integerToInt64 0x7fffffffffffffff
+
+instance Integral Int64 where
+ div x y
+ | x > 0 && y < 0 = quotInt64 (x-y-1) y
+ | x < 0 && y > 0 = quotInt64 (x-y+1) y
+ | otherwise = quotInt64 x y
+
+ quot x@(I64# _) y@(I64# y#)
+ | y# /=# 0# = x `quotInt64` y
+ | otherwise = divZeroError "quot{Int64}" x
+
+ rem x@(I64# _) y@(I64# y#)
+ | y# /=# 0# = x `remInt64` y
+ | otherwise = divZeroError "rem{Int64}" x
+
+ mod x y
+ | x > 0 && y < 0 || x < 0 && y > 0 = if r/=0 then r+y else 0
+ | otherwise = r
+ where r = remInt64 x y
+
+ a@(I64# _) `quotRem` b@(I64# _) = (a `quotInt64` b, a `remInt64` b)
+ toInteger (I64# i#) = toInteger (I# i#)
+ toInt (I64# i#) = I# i#
+
+instance Bits Int64 where
+ (I64# x) .&. (I64# y) = I64# (word2Int# ((int2Word# x) `and#` (int2Word# y)))
+ (I64# x) .|. (I64# y) = I64# (word2Int# ((int2Word# x) `or#` (int2Word# y)))
+ (I64# x) `xor` (I64# y) = I64# (word2Int# ((int2Word# x) `xor#` (int2Word# y)))
+ complement (I64# x) = I64# (negateInt# x)
+ shift (I64# x) i@(I# i#)
+ | i > 0 = I64# (iShiftL# x i#)
+ | otherwise = I64# (iShiftRA# x (negateInt# i#))
+ i64@(I64# x) `rotate` (I# i)
+ | i ==# 0# = i64
+ | i ># 0# =
+ -- ( (x<<i') | ((x&(0x10000000000000000-2^i2))>>i2) )
+ I64# (word2Int# (
+ (int2Word# (iShiftL# x i'))
+ `or#`
+ (int2Word# (iShiftRA# (word2Int# (
+ (int2Word# x)
+ `and#`
+ (int2Word# (maxBound# -# pow2# i2 +# 1#))))
+ i2))))
+ | otherwise = rotate i64 (I# (64# +# i))
+ where
+ i' = word2Int# (int2Word# i `and#` int2Word# 63#)
+ i2 = 64# -# i'
+ (I64# maxBound#) = maxBound
+ bit i = shift 1 i
+ setBit x i = x .|. bit i
+ clearBit x i = x .&. complement (bit i)
+ complementBit x i = x `xor` bit i
+ testBit x i = (x .&. bit i) /= 0
+ bitSize _ = 64
+ isSigned _ = True
+
+
+
+remInt64 (I64# x) (I64# y) = I64# (x `remInt#` y)
+quotInt64 (I64# x) (I64# y) = I64# (x `quotInt#` y)
+
+int64ToInteger :: Int64 -> Integer
+int64ToInteger (I64# i#) = toInteger (I# i#)
+
+integerToInt64 :: Integer -> Int64
+integerToInt64 i = case fromInteger i of { I# i# -> I64# i# }
+
+intToInt64 :: Int -> Int64
+intToInt64 (I# i#) = I64# i#
+
+int64ToInt :: Int64 -> Int
+int64ToInt (I64# i#) = I# i#
+
+#else
+--assume: support for long-longs
+--data Int64 = I64 Int64# deriving (Eq, Ord, Bounded)
+
+int32ToInt64 :: Int32 -> Int64
+int32ToInt64 (I32# i#) = I64# (intToInt64# i#)
+
+int64ToInt32 :: Int64 -> Int32
+int64ToInt32 (I64# i#) = I32# (int64ToInt# i#)
int64ToInteger :: Int64 -> Integer
-int64ToInteger I64{lo,hi} = toInteger lo + 0x100000000 * toInteger hi
+int64ToInteger (I64# x#) =
+ case int64ToInteger# x# of
+ (# s#, p# #) -> J# s# p#
integerToInt64 :: Integer -> Int64
-integerToInt64 x = case x `quotRem` 0x100000000 of
- (h,l) -> I64{lo=fromInteger l, hi=fromInteger h}
+integerToInt64 (S# i#) = I64# (intToInt64# i#)
+integerToInt64 (J# s# d#) = I64# (integerToInt64# s# d#)
+
+instance Eq Int64 where
+ (I64# x) == (I64# y) = x `eqInt64#` y
+ (I64# x) /= (I64# y) = x `neInt64#` y
+
+instance Ord Int64 where
+ compare (I64# x) (I64# y) = compareInt64# x y
+ (<) (I64# x) (I64# y) = x `ltInt64#` y
+ (<=) (I64# x) (I64# y) = x `leInt64#` y
+ (>=) (I64# x) (I64# y) = x `geInt64#` y
+ (>) (I64# x) (I64# y) = x `gtInt64#` y
+ max x@(I64# x#) y@(I64# y#) =
+ case (compareInt64# x# y#) of { LT -> y ; EQ -> x ; GT -> x }
+ min x@(I64# x#) y@(I64# y#) =
+ case (compareInt64# x# y#) of { LT -> x ; EQ -> x ; GT -> y }
+
+instance Num Int64 where
+ (I64# x) + (I64# y) = I64# (x `plusInt64#` y)
+ (I64# x) - (I64# y) = I64# (x `minusInt64#` y)
+ (I64# x) * (I64# y) = I64# (x `timesInt64#` y)
+ negate (I64# x) = I64# (negateInt64# x)
+ abs x = absReal x
+ signum = signumReal
+ fromInteger i = integerToInt64 i
+ fromInt i = intToInt64 i
+
+compareInt64# :: Int64# -> Int64# -> Ordering
+compareInt64# i# j#
+ | i# `ltInt64#` j# = LT
+ | i# `eqInt64#` j# = EQ
+ | otherwise = GT
+
+instance Bounded Int64 where
+ minBound = integerToInt64 (-0x8000000000000000)
+ maxBound = integerToInt64 0x7fffffffffffffff
+
+instance Integral Int64 where
+ div x y
+ | x > 0 && y < 0 = quotInt64 (x-y-1) y
+ | x < 0 && y > 0 = quotInt64 (x-y+1) y
+ | otherwise = quotInt64 x y
+
+ quot x@(I64# _) y@(I64# y#)
+ | y# `neInt64#` (intToInt64# 0#) = x `quotInt64` y
+ | otherwise = divZeroError "quot{Int64}" x
+
+ rem x@(I64# _) y@(I64# y#)
+ | y# `neInt64#` (intToInt64# 0#) = x `remInt64` y
+ | otherwise = divZeroError "rem{Int64}" x
+
+ mod x y
+ | x > 0 && y < 0 || x < 0 && y > 0 = if r/=0 then r+y else 0
+ | otherwise = r
+ where r = remInt64 x y
+
+ a@(I64# _) `quotRem` b@(I64# _) = (a `quotInt64` b, a `remInt64` b)
+ toInteger i = int64ToInteger i
+ toInt i = int64ToInt i
+
+instance Bits Int64 where
+ (I64# x) .&. (I64# y) = I64# (word64ToInt64# ((int64ToWord64# x) `and64#` (int64ToWord64# y)))
+ (I64# x) .|. (I64# y) = I64# (word64ToInt64# ((int64ToWord64# x) `or64#` (int64ToWord64# y)))
+ (I64# x) `xor` (I64# y) = I64# (word64ToInt64# ((int64ToWord64# x) `xor64#` (int64ToWord64# y)))
+ complement (I64# x) = I64# (negateInt64# x)
+ shift (I64# x) i@(I# i#)
+ | i > 0 = I64# (iShiftL64# x i#)
+ | otherwise = I64# (iShiftRA64# x (negateInt# i#))
+ i64@(I64# x) `rotate` (I# i)
+ | i ==# 0# = i64
+ | i ># 0# =
+ -- ( (x<<i') | ((x&(0x10000000000000000-2^i2))>>i2) )
+ I64# (word64ToInt64# (
+ (int64ToWord64# (iShiftL64# x i')) `or64#`
+ (int64ToWord64# (iShiftRA64# (word64ToInt64# ((int64ToWord64# x) `and64#`
+ (int64ToWord64# (maxBound# `minusInt64#` (pow2_64# i2 `plusInt64#` (intToInt64# 1#))))))
+ i2))))
+ | otherwise = rotate i64 (I# (64# +# i))
+ where
+ i' = word2Int# (int2Word# i `and#` int2Word# 63#)
+ i2 = 64# -# i'
+ (I64# maxBound#) = maxBound
+ bit i = shift 1 i
+ setBit x i = x .|. bit i
+ clearBit x i = x .&. complement (bit i)
+ complementBit x i = x `xor` bit i
+ testBit x i = (x .&. bit i) /= 0
+ bitSize _ = 64
+ isSigned _ = True
+
+remInt64, quotInt64 :: Int64 -> Int64 -> Int64
+remInt64 (I64# x) (I64# y) = I64# (x `remInt64#` y)
+quotInt64 (I64# x) (I64# y) = I64# (x `quotInt64#` y)
intToInt64 :: Int -> Int64
-intToInt64 x = I64{lo=intToInt32 x, hi=0}
+intToInt64 (I# i#) = I64# (intToInt64# i#)
int64ToInt :: Int64 -> Int
-int64ToInt (I64 lo _) = int32ToInt lo
+int64ToInt (I64# i#) = I# (int64ToInt# i#)
+
+-- Word64# primop wrappers:
+
+ltInt64# :: Int64# -> Int64# -> Bool
+ltInt64# x# y# = unsafePerformIO $ do
+ v <- _ccall_ stg_ltInt64 x# y#
+ case (v::Int) of
+ 0 -> return False
+ _ -> return True
+
+leInt64# :: Int64# -> Int64# -> Bool
+leInt64# x# y# = unsafePerformIO $ do
+ v <- _ccall_ stg_leInt64 x# y#
+ case (v::Int) of
+ 0 -> return False
+ _ -> return True
+
+eqInt64# :: Int64# -> Int64# -> Bool
+eqInt64# x# y# = unsafePerformIO $ do
+ v <- _ccall_ stg_eqInt64 x# y#
+ case (v::Int) of
+ 0 -> return False
+ _ -> return True
+
+neInt64# :: Int64# -> Int64# -> Bool
+neInt64# x# y# = unsafePerformIO $ do
+ v <- _ccall_ stg_neInt64 x# y#
+ case (v::Int) of
+ 0 -> return False
+ _ -> return True
+
+geInt64# :: Int64# -> Int64# -> Bool
+geInt64# x# y# = unsafePerformIO $ do
+ v <- _ccall_ stg_geInt64 x# y#
+ case (v::Int) of
+ 0 -> return False
+ _ -> return True
+
+gtInt64# :: Int64# -> Int64# -> Bool
+gtInt64# x# y# = unsafePerformIO $ do
+ v <- _ccall_ stg_gtInt64 x# y#
+ case (v::Int) of
+ 0 -> return False
+ _ -> return True
+
+plusInt64# :: Int64# -> Int64# -> Int64#
+plusInt64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_plusInt64 a# b#)) of
+ I64# i# -> i#
+
+minusInt64# :: Int64# -> Int64# -> Int64#
+minusInt64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_minusInt64 a# b#)) of
+ I64# i# -> i#
+
+timesInt64# :: Int64# -> Int64# -> Int64#
+timesInt64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_timesInt64 a# b#)) of
+ I64# i# -> i#
+
+quotInt64# :: Int64# -> Int64# -> Int64#
+quotInt64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_quotInt64 a# b#)) of
+ I64# i# -> i#
+
+remInt64# :: Int64# -> Int64# -> Int64#
+remInt64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_remInt64 a# b#)) of
+ I64# i# -> i#
+
+negateInt64# :: Int64# -> Int64#
+negateInt64# a# =
+ case (unsafePerformIO (_ccall_ stg_negateInt64 a#)) of
+ I64# i# -> i#
+
+and64# :: Word64# -> Word64# -> Word64#
+and64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_and64 a# b#)) of
+ W64# w# -> w#
+
+or64# :: Word64# -> Word64# -> Word64#
+or64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_or64 a# b#)) of
+ W64# w# -> w#
+
+xor64# :: Word64# -> Word64# -> Word64#
+xor64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_xor64 a# b#)) of
+ W64# w# -> w#
+
+not64# :: Word64# -> Word64#
+not64# a# =
+ case (unsafePerformIO (_ccall_ stg_not64 a#)) of
+ W64# w# -> w#
+
+shiftL64# :: Word64# -> Int# -> Word64#
+shiftL64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_shiftL64 a# b#)) of
+ W64# w# -> w#
+
+iShiftL64# :: Int64# -> Int# -> Int64#
+iShiftL64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_iShiftL64 a# b#)) of
+ I64# i# -> i#
+
+iShiftRL64# :: Int64# -> Int# -> Int64#
+iShiftRL64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_iShiftRL64 a# b#)) of
+ I64# i# -> i#
+
+iShiftRA64# :: Int64# -> Int# -> Int64#
+iShiftRA64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_iShiftRA64 a# b#)) of
+ I64# i# -> i#
+
+shiftRL64# :: Word64# -> Int# -> Word64#
+shiftRL64# a# b# =
+ case (unsafePerformIO (_ccall_ stg_shifRtL64 a# b#)) of
+ W64# w# -> w#
+
+int64ToInt# :: Int64# -> Int#
+int64ToInt# i64# =
+ case (unsafePerformIO (_ccall_ stg_int64ToInt i64#)) of
+ I# i# -> i#
+
+wordToWord64# :: Word# -> Word64#
+wordToWord64# w# =
+ case (unsafePerformIO (_ccall_ stg_wordToWord64 w#)) of
+ W64# w64# -> w64#
+
+word64ToInt64# :: Word64# -> Int64#
+word64ToInt64# w# =
+ case (unsafePerformIO (_ccall_ stg_word64ToInt64 w#)) of
+ I64# i# -> i#
+
+int64ToWord64# :: Int64# -> Word64#
+int64ToWord64# i# =
+ case (unsafePerformIO (_ccall_ stg_int64ToWord64 i#)) of
+ W64# w# -> w#
+
+intToInt64# :: Int# -> Int64#
+intToInt64# i# =
+ case (unsafePerformIO (_ccall_ stg_intToInt64 i#)) of
+ I64# i64# -> i64#
+
+#endif
+
+--
+-- Code that's independent of Int64 rep.
+--
+instance Enum Int64 where
+ succ i
+ | i == maxBound = succError "Int64"
+ | otherwise = i+1
+
+ pred i
+ | i == minBound = predError "Int64"
+ | otherwise = i-1
+
+ toEnum i = intToInt64 i
+ fromEnum x
+ | x >= intToInt64 (minBound::Int) && x <= intToInt64 (maxBound::Int)
+ = int64ToInt x
+ | otherwise
+ = fromEnumError "Int64" x
+
+ enumFrom e1 = map integerToInt64 [int64ToInteger e1 .. int64ToInteger (maxBound::Int64)]
+ enumFromTo e1 e2 = map integerToInt64 [int64ToInteger e1 .. int64ToInteger e2]
+ enumFromThen e1 e2 = map integerToInt64 [int64ToInteger e1, int64ToInteger e2 .. int64ToInteger last]
+ where
+ last :: Int64
+ last
+ | e2 < e1 = minBound
+ | otherwise = maxBound
+
+ enumFromThenTo e1 e2 e3 = map integerToInt64 [int64ToInteger e1, int64ToInteger e2 .. int64ToInteger e3]
+
instance Show Int64 where
- showsPrec p x = showsPrec p (int64ToInteger x)
+ showsPrec p i64 = showsPrec p (int64ToInteger i64)
instance Read Int64 where
- readsPrec p s = [ (integerToInt64 x,r) | (x,r) <- readDec s ]
+ readsPrec _ s = [ (integerToInt64 x,r) | (x,r) <- readDec s ]
+
+
+instance Ix Int64 where
+ range (m,n) = [m..n]
+ index b@(m,_) i
+ | inRange b i = int64ToInt (i-m)
+ | otherwise = indexError i b "Int64"
+ inRange (m,n) i = m <= i && i <= n
+
+instance Real Int64 where
+ toRational x = toInteger x % 1
+
sizeofInt64 :: Word32
sizeofInt64 = 8
+
+int8ToInteger :: Int8 -> Integer
+int8ToInteger i = toInteger i
+
+int16ToInteger :: Int16 -> Integer
+int16ToInteger i = toInteger i
+
+int32ToInteger :: Int32 -> Integer
+int32ToInteger i = toInteger i
+
+int64ToInt8 :: Int64 -> Int8
+int64ToInt8 = int32ToInt8 . int64ToInt32
+
+int64ToInt16 :: Int64 -> Int16
+int64ToInt16 = int32ToInt16 . int64ToInt32
+
+integerToInt8 :: Integer -> Int8
+integerToInt8 = fromInteger
+
+integerToInt16 :: Integer -> Int16
+integerToInt16 = fromInteger
+
+integerToInt32 :: Integer -> Int32
+integerToInt32 = fromInteger
+
\end{code}
%
Code copied from the Prelude
\begin{code}
+absReal :: (Ord a, Num a) => a -> a
absReal x | x >= 0 = x
| otherwise = -x
+signumReal :: (Ord a, Num a) => a -> a
signumReal x | x == 0 = 0
| x > 0 = 1
| otherwise = -1
#endif
indexInt64OffAddr :: Addr -> Int -> Int64
-indexInt64OffAddr (A# i#)
+indexInt64OffAddr (A# a#) (I# i#)
#if WORD_SIZE_IN_BYTES==8
= I64# (indexIntOffAddr# a# i#)
#else
- = error "Int.indexInt64OffAddr: not implemented yet"
+ = I64# (indexInt64OffAddr# a# i#)
#endif
+#ifndef __PARALLEL_HASKELL__
+
+indexInt8OffForeignObj :: ForeignObj -> Int -> Int8
+indexInt8OffForeignObj (ForeignObj fo#) (I# i#) = intToInt8 (I# (ord# (indexCharOffForeignObj# fo# i#)))
+
+indexInt16OffForeignObj :: ForeignObj -> Int -> Int16
+indexInt16OffForeignObj fo i =
+# ifdef WORDS_BIGENDIAN
+ intToInt16 ( int8ToInt l + (int8ToInt maxBound) * int8ToInt h)
+# else
+ intToInt16 ( int8ToInt h + (int8ToInt maxBound) * int8ToInt l)
+# endif
+ where
+ byte_idx = i * 2
+ l = indexInt8OffForeignObj fo byte_idx
+ h = indexInt8OffForeignObj fo (byte_idx+1)
+
+indexInt32OffForeignObj :: ForeignObj -> Int -> Int32
+indexInt32OffForeignObj (ForeignObj fo#) i = intToInt32 (I# (indexIntOffForeignObj# fo# i'#))
+ where
+ -- adjust index to be in Int units, not Int32 ones.
+ (I# i'#)
+# if WORD_SIZE_IN_BYTES==8
+ = i `div` 2
+# else
+ = i
+# endif
+
+indexInt64OffForeignObj :: ForeignObj -> Int -> Int64
+indexInt64OffForeignObj (ForeignObj fo#) (I# i#)
+# if WORD_SIZE_IN_BYTES==8
+ = I64# (indexIntOffForeignObj# fo# i#)
+# else
+ = I64# (indexInt64OffForeignObj# fo# i#)
+# endif
+
+#endif /* __PARALLEL_HASKELL__ */
\end{code}
Read words out of mutable memory:
#if WORD_SIZE_IN_BYTES==8
readInt64OffAddr a i = _casm_ `` %r=(StgInt)(((StgInt*)%0)[(StgInt)%1]); '' a i
#else
-readInt64OffAddr a i = error "Int.readInt64OffAddr: not implemented yet"
+readInt64OffAddr a i = _casm_ `` %r=(StgInt64)(((StgInt64*)%0)[(StgInt)%1]); '' a i
#endif
+
+#ifndef __PARALLEL_HASKELL__
+
+readInt8OffForeignObj :: ForeignObj -> Int -> IO Int8
+readInt8OffForeignObj fo i = _casm_ `` %r=(StgInt8)(((StgInt8*)%0)[(StgInt)%1]); '' fo i
+
+readInt16OffForeignObj :: ForeignObj -> Int -> IO Int16
+readInt16OffForeignObj fo i = _casm_ `` %r=(StgInt16)(((StgInt16*)%0)[(StgInt)%1]); '' fo i
+
+readInt32OffForeignObj :: ForeignObj -> Int -> IO Int32
+readInt32OffForeignObj fo i = _casm_ `` %r=(StgInt32)(((StgInt32*)%0)[(StgInt)%1]); '' fo i
+
+readInt64OffForeignObj :: ForeignObj -> Int -> IO Int64
+# if WORD_SIZE_IN_BYTES==8
+readInt64OffForeignObj fo i = _casm_ `` %r=(StgInt)(((StgInt*)%0)[(StgInt)%1]); '' fo i
+# else
+readInt64OffForeignObj fo i = _casm_ `` %r=(StgInt64)(((StgInt64*)%0)[(StgInt)%1]); '' fo i
+# endif
+
+#endif /* __PARALLEL_HASKELL__ */
\end{code}
\begin{code}
#if WORD_SIZE_IN_BYTES==8
writeInt64OffAddr a i e = _casm_ `` (((StgInt*)%0)[(StgInt)%1])=(StgInt)%2; '' a i e
#else
-writeInt64OffAddr = error "Int.writeInt64OffAddr: not implemented yet"
+writeInt64OffAddr a i e = _casm_ `` (((StgInt64*)%0)[(StgInt)%1])=(StgInt64)%2; '' a i e
#endif
+#ifndef __PARALLEL_HASKELL__
+
+writeInt8OffForeignObj :: ForeignObj -> Int -> Int8 -> IO ()
+writeInt8OffForeignObj fo i e = _casm_ `` (((StgInt8*)%0)[(StgInt)%1])=(StgInt8)%2; '' fo i e
+
+writeInt16OffForeignObj :: ForeignObj -> Int -> Int16 -> IO ()
+writeInt16OffForeignObj fo i e = _casm_ `` (((StgInt16*)%0)[(StgInt)%1])=(StgInt16)%2; '' fo i e
+
+writeInt32OffForeignObj :: ForeignObj -> Int -> Int32 -> IO ()
+writeInt32OffForeignObj fo i e = _casm_ `` (((StgInt32*)%0)[(StgInt)%1])=(StgInt32)%2; '' fo i e
+
+writeInt64OffForeignObj :: ForeignObj -> Int -> Int64 -> IO ()
+# if WORD_SIZE_IN_BYTES==8
+writeInt64OffForeignObj fo i e = _casm_ `` (((StgInt*)%0)[(StgInt)%1])=(StgInt)%2; '' fo i e
+# else
+writeInt64OffForeignObj fo i e = _casm_ `` (((StgInt64*)%0)[(StgInt)%1])=(StgInt64)%2; '' fo i e
+# endif
+
+#endif /* __PARALLEL_HASKELL__ */
+
\end{code}
+
+C&P'ed from Ix.lhs
+
+\begin{code}
+{-# NOINLINE indexError #-}
+indexError :: Show a => a -> (a,a) -> String -> b
+indexError i rng tp
+ = error (showString "Ix{" . showString tp . showString "}.index: Index " .
+ showParen True (showsPrec 0 i) .
+ showString " out of range " $
+ showParen True (showsPrec 0 rng) "")
+
+
+toEnumError :: (Show a,Show b) => String -> a -> (b,b) -> c
+toEnumError inst_ty tag bnds
+ = error ("Enum.toEnum{" ++ inst_ty ++ "}: tag " ++
+ (showParen True (showsPrec 0 tag) $
+ " is outside of bounds " ++
+ show bnds))
+
+fromEnumError :: (Show a,Show b) => String -> a -> b
+fromEnumError inst_ty tag
+ = error ("Enum.fromEnum{" ++ inst_ty ++ "}: value " ++
+ (showParen True (showsPrec 0 tag) $
+ " is outside of Int's bounds " ++
+ show (minBound::Int,maxBound::Int)))
+
+succError :: String -> a
+succError inst_ty
+ = error ("Enum.succ{" ++ inst_ty ++ "}: tried to take `succ' of maxBound")
+
+predError :: String -> a
+predError inst_ty
+ = error ("Enum.pred{" ++ inst_ty ++ "}: tried to take `pred' of minBound")
+
+divZeroError :: (Show a) => String -> a -> b
+divZeroError meth v
+ = error ("Integral." ++ meth ++ ": divide by 0 (" ++ show v ++ " / 0)")
+
+\end{code}