1 {-# OPTIONS -fno-implicit-prelude #-}
2 -----------------------------------------------------------------------------
5 -- Copyright : (c) The University of Glasgow, 1997-2002
6 -- License : see libraries/base/LICENSE
8 -- Maintainer : cvs-ghc@haskell.org
9 -- Stability : internal
10 -- Portability : non-portable (GHC Extensions)
12 -- Sized unsigned integral types: 'Word', 'Word8', 'Word16', 'Word32', and
15 -----------------------------------------------------------------------------
20 Word(..), Word8(..), Word16(..), Word32(..), Word64(..),
21 toEnumError, fromEnumError, succError, predError)
26 import {-# SOURCE #-} GHC.Err
35 ------------------------------------------------------------------------
37 ------------------------------------------------------------------------
39 {-# NOINLINE toEnumError #-}
40 toEnumError :: (Show a) => String -> Int -> (a,a) -> b
41 toEnumError inst_ty i bnds =
42 error $ "Enum.toEnum{" ++ inst_ty ++ "}: tag (" ++
44 ") is outside of bounds " ++
47 {-# NOINLINE fromEnumError #-}
48 fromEnumError :: (Show a) => String -> a -> b
49 fromEnumError inst_ty x =
50 error $ "Enum.fromEnum{" ++ inst_ty ++ "}: value (" ++
52 ") is outside of Int's bounds " ++
53 show (minBound::Int, maxBound::Int)
55 {-# NOINLINE succError #-}
56 succError :: String -> a
58 error $ "Enum.succ{" ++ inst_ty ++ "}: tried to take `succ' of maxBound"
60 {-# NOINLINE predError #-}
61 predError :: String -> a
63 error $ "Enum.pred{" ++ inst_ty ++ "}: tried to take `pred' of minBound"
65 ------------------------------------------------------------------------
67 ------------------------------------------------------------------------
69 -- |A 'Word' is an unsigned integral type, with the same size as 'Int'.
70 data Word = W# Word# deriving (Eq, Ord)
72 instance CCallable Word
73 instance CReturnable Word
75 instance Show Word where
76 showsPrec p x = showsPrec p (toInteger x)
78 instance Num Word where
79 (W# x#) + (W# y#) = W# (x# `plusWord#` y#)
80 (W# x#) - (W# y#) = W# (x# `minusWord#` y#)
81 (W# x#) * (W# y#) = W# (x# `timesWord#` y#)
82 negate (W# x#) = W# (int2Word# (negateInt# (word2Int# x#)))
86 fromInteger (S# i#) = W# (int2Word# i#)
87 fromInteger (J# s# d#) = W# (integer2Word# s# d#)
89 instance Real Word where
90 toRational x = toInteger x % 1
92 instance Enum Word where
94 | x /= maxBound = x + 1
95 | otherwise = succError "Word"
97 | x /= minBound = x - 1
98 | otherwise = predError "Word"
100 | i >= 0 = W# (int2Word# i#)
101 | otherwise = toEnumError "Word" i (minBound::Word, maxBound::Word)
103 | x <= fromIntegral (maxBound::Int)
105 | otherwise = fromEnumError "Word" x
106 enumFrom = integralEnumFrom
107 enumFromThen = integralEnumFromThen
108 enumFromTo = integralEnumFromTo
109 enumFromThenTo = integralEnumFromThenTo
111 instance Integral Word where
112 quot x@(W# x#) y@(W# y#)
113 | y /= 0 = W# (x# `quotWord#` y#)
114 | otherwise = divZeroError
115 rem x@(W# x#) y@(W# y#)
116 | y /= 0 = W# (x# `remWord#` y#)
117 | otherwise = divZeroError
118 div x@(W# x#) y@(W# y#)
119 | y /= 0 = W# (x# `quotWord#` y#)
120 | otherwise = divZeroError
121 mod x@(W# x#) y@(W# y#)
122 | y /= 0 = W# (x# `remWord#` y#)
123 | otherwise = divZeroError
124 quotRem x@(W# x#) y@(W# y#)
125 | y /= 0 = (W# (x# `quotWord#` y#), W# (x# `remWord#` y#))
126 | otherwise = divZeroError
127 divMod x@(W# x#) y@(W# y#)
128 | y /= 0 = (W# (x# `quotWord#` y#), W# (x# `remWord#` y#))
129 | otherwise = divZeroError
132 | otherwise = case word2Integer# x# of (# s, d #) -> J# s d
136 instance Bounded Word where
138 #if WORD_SIZE_IN_BITS == 31
139 maxBound = 0x7FFFFFFF
140 #elif WORD_SIZE_IN_BITS == 32
141 maxBound = 0xFFFFFFFF
143 maxBound = 0xFFFFFFFFFFFFFFFF
146 instance Ix Word where
148 unsafeIndex b@(m,_) i = fromIntegral (i - m)
149 inRange (m,n) i = m <= i && i <= n
150 unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1
152 instance Read Word where
153 readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]
155 instance Bits Word where
156 (W# x#) .&. (W# y#) = W# (x# `and#` y#)
157 (W# x#) .|. (W# y#) = W# (x# `or#` y#)
158 (W# x#) `xor` (W# y#) = W# (x# `xor#` y#)
159 complement (W# x#) = W# (x# `xor#` mb#) where W# mb# = maxBound
160 (W# x#) `shift` (I# i#)
161 | i# >=# 0# = W# (x# `shiftL#` i#)
162 | otherwise = W# (x# `shiftRL#` negateInt# i#)
163 (W# x#) `rotate` (I# i#)
165 | otherwise = W# ((x# `shiftL#` i'#) `or#` (x# `shiftRL#` (wsib -# i'#)))
167 i'# = word2Int# (int2Word# i# `and#` int2Word# (wsib -# 1#))
168 wsib = WORD_SIZE_IN_BITS# {- work around preprocessor problem (??) -}
169 bitSize _ = WORD_SIZE_IN_BITS
173 "fromIntegral/Int->Word" fromIntegral = \(I# x#) -> W# (int2Word# x#)
174 "fromIntegral/Word->Int" fromIntegral = \(W# x#) -> I# (word2Int# x#)
175 "fromIntegral/Word->Word" fromIntegral = id :: Word -> Word
178 ------------------------------------------------------------------------
180 ------------------------------------------------------------------------
182 -- Word8 is represented in the same way as Word. Operations may assume
183 -- and must ensure that it holds only values from its logical range.
185 data Word8 = W8# Word# deriving (Eq, Ord)
186 -- ^ 8-bit unsigned integer type
188 instance CCallable Word8
189 instance CReturnable Word8
191 instance Show Word8 where
192 showsPrec p x = showsPrec p (fromIntegral x :: Int)
194 instance Num Word8 where
195 (W8# x#) + (W8# y#) = W8# (narrow8Word# (x# `plusWord#` y#))
196 (W8# x#) - (W8# y#) = W8# (narrow8Word# (x# `minusWord#` y#))
197 (W8# x#) * (W8# y#) = W8# (narrow8Word# (x# `timesWord#` y#))
198 negate (W8# x#) = W8# (narrow8Word# (int2Word# (negateInt# (word2Int# x#))))
202 fromInteger (S# i#) = W8# (narrow8Word# (int2Word# i#))
203 fromInteger (J# s# d#) = W8# (narrow8Word# (integer2Word# s# d#))
205 instance Real Word8 where
206 toRational x = toInteger x % 1
208 instance Enum Word8 where
210 | x /= maxBound = x + 1
211 | otherwise = succError "Word8"
213 | x /= minBound = x - 1
214 | otherwise = predError "Word8"
216 | i >= 0 && i <= fromIntegral (maxBound::Word8)
218 | otherwise = toEnumError "Word8" i (minBound::Word8, maxBound::Word8)
219 fromEnum (W8# x#) = I# (word2Int# x#)
220 enumFrom = boundedEnumFrom
221 enumFromThen = boundedEnumFromThen
223 instance Integral Word8 where
224 quot x@(W8# x#) y@(W8# y#)
225 | y /= 0 = W8# (x# `quotWord#` y#)
226 | otherwise = divZeroError
227 rem x@(W8# x#) y@(W8# y#)
228 | y /= 0 = W8# (x# `remWord#` y#)
229 | otherwise = divZeroError
230 div x@(W8# x#) y@(W8# y#)
231 | y /= 0 = W8# (x# `quotWord#` y#)
232 | otherwise = divZeroError
233 mod x@(W8# x#) y@(W8# y#)
234 | y /= 0 = W8# (x# `remWord#` y#)
235 | otherwise = divZeroError
236 quotRem x@(W8# x#) y@(W8# y#)
237 | y /= 0 = (W8# (x# `quotWord#` y#), W8# (x# `remWord#` y#))
238 | otherwise = divZeroError
239 divMod x@(W8# x#) y@(W8# y#)
240 | y /= 0 = (W8# (x# `quotWord#` y#), W8# (x# `remWord#` y#))
241 | otherwise = divZeroError
242 toInteger (W8# x#) = S# (word2Int# x#)
244 instance Bounded Word8 where
248 instance Ix Word8 where
250 unsafeIndex b@(m,_) i = fromIntegral (i - m)
251 inRange (m,n) i = m <= i && i <= n
252 unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1
254 instance Read Word8 where
255 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
257 instance Bits Word8 where
258 (W8# x#) .&. (W8# y#) = W8# (x# `and#` y#)
259 (W8# x#) .|. (W8# y#) = W8# (x# `or#` y#)
260 (W8# x#) `xor` (W8# y#) = W8# (x# `xor#` y#)
261 complement (W8# x#) = W8# (x# `xor#` mb#) where W8# mb# = maxBound
262 (W8# x#) `shift` (I# i#)
263 | i# >=# 0# = W8# (narrow8Word# (x# `shiftL#` i#))
264 | otherwise = W8# (x# `shiftRL#` negateInt# i#)
265 (W8# x#) `rotate` (I# i#)
266 | i'# ==# 0# = W8# x#
267 | otherwise = W8# (narrow8Word# ((x# `shiftL#` i'#) `or#`
268 (x# `shiftRL#` (8# -# i'#))))
270 i'# = word2Int# (int2Word# i# `and#` int2Word# 7#)
275 "fromIntegral/Word8->Word8" fromIntegral = id :: Word8 -> Word8
276 "fromIntegral/Word8->Integer" fromIntegral = toInteger :: Word8 -> Integer
277 "fromIntegral/a->Word8" fromIntegral = \x -> case fromIntegral x of W# x# -> W8# (narrow8Word# x#)
278 "fromIntegral/Word8->a" fromIntegral = \(W8# x#) -> fromIntegral (W# x#)
281 ------------------------------------------------------------------------
283 ------------------------------------------------------------------------
285 -- Word16 is represented in the same way as Word. Operations may assume
286 -- and must ensure that it holds only values from its logical range.
288 data Word16 = W16# Word# deriving (Eq, Ord)
289 -- ^ 16-bit unsigned integer type
291 instance CCallable Word16
292 instance CReturnable Word16
294 instance Show Word16 where
295 showsPrec p x = showsPrec p (fromIntegral x :: Int)
297 instance Num Word16 where
298 (W16# x#) + (W16# y#) = W16# (narrow16Word# (x# `plusWord#` y#))
299 (W16# x#) - (W16# y#) = W16# (narrow16Word# (x# `minusWord#` y#))
300 (W16# x#) * (W16# y#) = W16# (narrow16Word# (x# `timesWord#` y#))
301 negate (W16# x#) = W16# (narrow16Word# (int2Word# (negateInt# (word2Int# x#))))
305 fromInteger (S# i#) = W16# (narrow16Word# (int2Word# i#))
306 fromInteger (J# s# d#) = W16# (narrow16Word# (integer2Word# s# d#))
308 instance Real Word16 where
309 toRational x = toInteger x % 1
311 instance Enum Word16 where
313 | x /= maxBound = x + 1
314 | otherwise = succError "Word16"
316 | x /= minBound = x - 1
317 | otherwise = predError "Word16"
319 | i >= 0 && i <= fromIntegral (maxBound::Word16)
320 = W16# (int2Word# i#)
321 | otherwise = toEnumError "Word16" i (minBound::Word16, maxBound::Word16)
322 fromEnum (W16# x#) = I# (word2Int# x#)
323 enumFrom = boundedEnumFrom
324 enumFromThen = boundedEnumFromThen
326 instance Integral Word16 where
327 quot x@(W16# x#) y@(W16# y#)
328 | y /= 0 = W16# (x# `quotWord#` y#)
329 | otherwise = divZeroError
330 rem x@(W16# x#) y@(W16# y#)
331 | y /= 0 = W16# (x# `remWord#` y#)
332 | otherwise = divZeroError
333 div x@(W16# x#) y@(W16# y#)
334 | y /= 0 = W16# (x# `quotWord#` y#)
335 | otherwise = divZeroError
336 mod x@(W16# x#) y@(W16# y#)
337 | y /= 0 = W16# (x# `remWord#` y#)
338 | otherwise = divZeroError
339 quotRem x@(W16# x#) y@(W16# y#)
340 | y /= 0 = (W16# (x# `quotWord#` y#), W16# (x# `remWord#` y#))
341 | otherwise = divZeroError
342 divMod x@(W16# x#) y@(W16# y#)
343 | y /= 0 = (W16# (x# `quotWord#` y#), W16# (x# `remWord#` y#))
344 | otherwise = divZeroError
345 toInteger (W16# x#) = S# (word2Int# x#)
347 instance Bounded Word16 where
351 instance Ix Word16 where
353 unsafeIndex b@(m,_) i = fromIntegral (i - m)
354 inRange (m,n) i = m <= i && i <= n
355 unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1
357 instance Read Word16 where
358 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
360 instance Bits Word16 where
361 (W16# x#) .&. (W16# y#) = W16# (x# `and#` y#)
362 (W16# x#) .|. (W16# y#) = W16# (x# `or#` y#)
363 (W16# x#) `xor` (W16# y#) = W16# (x# `xor#` y#)
364 complement (W16# x#) = W16# (x# `xor#` mb#) where W16# mb# = maxBound
365 (W16# x#) `shift` (I# i#)
366 | i# >=# 0# = W16# (narrow16Word# (x# `shiftL#` i#))
367 | otherwise = W16# (x# `shiftRL#` negateInt# i#)
368 (W16# x#) `rotate` (I# i#)
369 | i'# ==# 0# = W16# x#
370 | otherwise = W16# (narrow16Word# ((x# `shiftL#` i'#) `or#`
371 (x# `shiftRL#` (16# -# i'#))))
373 i'# = word2Int# (int2Word# i# `and#` int2Word# 15#)
378 "fromIntegral/Word8->Word16" fromIntegral = \(W8# x#) -> W16# x#
379 "fromIntegral/Word16->Word16" fromIntegral = id :: Word16 -> Word16
380 "fromIntegral/Word16->Integer" fromIntegral = toInteger :: Word16 -> Integer
381 "fromIntegral/a->Word16" fromIntegral = \x -> case fromIntegral x of W# x# -> W16# (narrow16Word# x#)
382 "fromIntegral/Word16->a" fromIntegral = \(W16# x#) -> fromIntegral (W# x#)
385 ------------------------------------------------------------------------
387 ------------------------------------------------------------------------
389 #if WORD_SIZE_IN_BITS < 32
391 data Word32 = W32# Word32#
392 -- ^ 32-bit unsigned integer type
394 instance Eq Word32 where
395 (W32# x#) == (W32# y#) = x# `eqWord32#` y#
396 (W32# x#) /= (W32# y#) = x# `neWord32#` y#
398 instance Ord Word32 where
399 (W32# x#) < (W32# y#) = x# `ltWord32#` y#
400 (W32# x#) <= (W32# y#) = x# `leWord32#` y#
401 (W32# x#) > (W32# y#) = x# `gtWord32#` y#
402 (W32# x#) >= (W32# y#) = x# `geWord32#` y#
404 instance Num Word32 where
405 (W32# x#) + (W32# y#) = W32# (int32ToWord32# (word32ToInt32# x# `plusInt32#` word32ToInt32# y#))
406 (W32# x#) - (W32# y#) = W32# (int32ToWord32# (word32ToInt32# x# `minusInt32#` word32ToInt32# y#))
407 (W32# x#) * (W32# y#) = W32# (int32ToWord32# (word32ToInt32# x# `timesInt32#` word32ToInt32# y#))
408 negate (W32# x#) = W32# (int32ToWord32# (negateInt32# (word32ToInt32# x#)))
412 fromInteger (S# i#) = W32# (int32ToWord32# (intToInt32# i#))
413 fromInteger (J# s# d#) = W32# (integerToWord32# s# d#)
415 instance Enum Word32 where
417 | x /= maxBound = x + 1
418 | otherwise = succError "Word32"
420 | x /= minBound = x - 1
421 | otherwise = predError "Word32"
423 | i >= 0 = W32# (wordToWord32# (int2Word# i#))
424 | otherwise = toEnumError "Word32" i (minBound::Word32, maxBound::Word32)
426 | x <= fromIntegral (maxBound::Int)
427 = I# (word2Int# (word32ToWord# x#))
428 | otherwise = fromEnumError "Word32" x
429 enumFrom = integralEnumFrom
430 enumFromThen = integralEnumFromThen
431 enumFromTo = integralEnumFromTo
432 enumFromThenTo = integralEnumFromThenTo
434 instance Integral Word32 where
435 quot x@(W32# x#) y@(W32# y#)
436 | y /= 0 = W32# (x# `quotWord32#` y#)
437 | otherwise = divZeroError
438 rem x@(W32# x#) y@(W32# y#)
439 | y /= 0 = W32# (x# `remWord32#` y#)
440 | otherwise = divZeroError
441 div x@(W32# x#) y@(W32# y#)
442 | y /= 0 = W32# (x# `quotWord32#` y#)
443 | otherwise = divZeroError
444 mod x@(W32# x#) y@(W32# y#)
445 | y /= 0 = W32# (x# `remWord32#` y#)
446 | otherwise = divZeroError
447 quotRem x@(W32# x#) y@(W32# y#)
448 | y /= 0 = (W32# (x# `quotWord32#` y#), W32# (x# `remWord32#` y#))
449 | otherwise = divZeroError
450 divMod x@(W32# x#) y@(W32# y#)
451 | y /= 0 = (W32# (x# `quotWord32#` y#), W32# (x# `remWord32#` y#))
452 | otherwise = divZeroError
453 toInteger x@(W32# x#)
454 | x <= fromIntegral (maxBound::Int) = S# (word2Int# (word32ToWord# x#))
455 | otherwise = case word32ToInteger# x# of (# s, d #) -> J# s d
457 instance Bits Word32 where
458 (W32# x#) .&. (W32# y#) = W32# (x# `and32#` y#)
459 (W32# x#) .|. (W32# y#) = W32# (x# `or32#` y#)
460 (W32# x#) `xor` (W32# y#) = W32# (x# `xor32#` y#)
461 complement (W32# x#) = W32# (not32# x#)
462 (W32# x#) `shift` (I# i#)
463 | i# >=# 0# = W32# (x# `shiftL32#` i#)
464 | otherwise = W32# (x# `shiftRL32#` negateInt# i#)
465 (W32# x#) `rotate` (I# i#)
466 | i'# ==# 0# = W32# x#
467 | otherwise = W32# ((x# `shiftL32#` i'#) `or32#`
468 (x# `shiftRL32#` (32# -# i'#)))
470 i'# = word2Int# (int2Word# i# `and#` int2Word# 31#)
474 foreign import unsafe "stg_eqWord32" eqWord32# :: Word32# -> Word32# -> Bool
475 foreign import unsafe "stg_neWord32" neWord32# :: Word32# -> Word32# -> Bool
476 foreign import unsafe "stg_ltWord32" ltWord32# :: Word32# -> Word32# -> Bool
477 foreign import unsafe "stg_leWord32" leWord32# :: Word32# -> Word32# -> Bool
478 foreign import unsafe "stg_gtWord32" gtWord32# :: Word32# -> Word32# -> Bool
479 foreign import unsafe "stg_geWord32" geWord32# :: Word32# -> Word32# -> Bool
480 foreign import unsafe "stg_int32ToWord32" int32ToWord32# :: Int32# -> Word32#
481 foreign import unsafe "stg_word32ToInt32" word32ToInt32# :: Word32# -> Int32#
482 foreign import unsafe "stg_intToInt32" intToInt32# :: Int# -> Int32#
483 foreign import unsafe "stg_wordToWord32" wordToWord32# :: Word# -> Word32#
484 foreign import unsafe "stg_word32ToWord" word32ToWord# :: Word32# -> Word#
485 foreign import unsafe "stg_plusInt32" plusInt32# :: Int32# -> Int32# -> Int32#
486 foreign import unsafe "stg_minusInt32" minusInt32# :: Int32# -> Int32# -> Int32#
487 foreign import unsafe "stg_timesInt32" timesInt32# :: Int32# -> Int32# -> Int32#
488 foreign import unsafe "stg_negateInt32" negateInt32# :: Int32# -> Int32#
489 foreign import unsafe "stg_quotWord32" quotWord32# :: Word32# -> Word32# -> Word32#
490 foreign import unsafe "stg_remWord32" remWord32# :: Word32# -> Word32# -> Word32#
491 foreign import unsafe "stg_and32" and32# :: Word32# -> Word32# -> Word32#
492 foreign import unsafe "stg_or32" or32# :: Word32# -> Word32# -> Word32#
493 foreign import unsafe "stg_xor32" xor32# :: Word32# -> Word32# -> Word32#
494 foreign import unsafe "stg_not32" not32# :: Word32# -> Word32#
495 foreign import unsafe "stg_shiftL32" shiftL32# :: Word32# -> Int# -> Word32#
496 foreign import unsafe "stg_shiftRL32" shiftRL32# :: Word32# -> Int# -> Word32#
499 "fromIntegral/Int->Word32" fromIntegral = \(I# x#) -> W32# (int32ToWord32# (intToInt32# x#))
500 "fromIntegral/Word->Word32" fromIntegral = \(W# x#) -> W32# (wordToWord32# x#)
501 "fromIntegral/Word32->Int" fromIntegral = \(W32# x#) -> I# (word2Int# (word32ToWord# x#))
502 "fromIntegral/Word32->Word" fromIntegral = \(W32# x#) -> W# (word32ToWord# x#)
503 "fromIntegral/Word32->Word32" fromIntegral = id :: Word32 -> Word32
508 -- Word32 is represented in the same way as Word.
509 #if WORD_SIZE_IN_BITS > 32
510 -- Operations may assume and must ensure that it holds only values
511 -- from its logical range.
514 data Word32 = W32# Word# deriving (Eq, Ord)
515 -- ^ 32-bit unsigned integer type
517 instance Num Word32 where
518 (W32# x#) + (W32# y#) = W32# (narrow32Word# (x# `plusWord#` y#))
519 (W32# x#) - (W32# y#) = W32# (narrow32Word# (x# `minusWord#` y#))
520 (W32# x#) * (W32# y#) = W32# (narrow32Word# (x# `timesWord#` y#))
521 negate (W32# x#) = W32# (narrow32Word# (int2Word# (negateInt# (word2Int# x#))))
525 fromInteger (S# i#) = W32# (narrow32Word# (int2Word# i#))
526 fromInteger (J# s# d#) = W32# (narrow32Word# (integer2Word# s# d#))
528 instance Enum Word32 where
530 | x /= maxBound = x + 1
531 | otherwise = succError "Word32"
533 | x /= minBound = x - 1
534 | otherwise = predError "Word32"
537 #if WORD_SIZE_IN_BITS > 32
538 && i <= fromIntegral (maxBound::Word32)
540 = W32# (int2Word# i#)
541 | otherwise = toEnumError "Word32" i (minBound::Word32, maxBound::Word32)
542 #if WORD_SIZE_IN_BITS == 32
544 | x <= fromIntegral (maxBound::Int)
546 | otherwise = fromEnumError "Word32" x
547 enumFrom = integralEnumFrom
548 enumFromThen = integralEnumFromThen
549 enumFromTo = integralEnumFromTo
550 enumFromThenTo = integralEnumFromThenTo
552 fromEnum (W32# x#) = I# (word2Int# x#)
553 enumFrom = boundedEnumFrom
554 enumFromThen = boundedEnumFromThen
557 instance Integral Word32 where
558 quot x@(W32# x#) y@(W32# y#)
559 | y /= 0 = W32# (x# `quotWord#` y#)
560 | otherwise = divZeroError
561 rem x@(W32# x#) y@(W32# y#)
562 | y /= 0 = W32# (x# `remWord#` y#)
563 | otherwise = divZeroError
564 div x@(W32# x#) y@(W32# y#)
565 | y /= 0 = W32# (x# `quotWord#` y#)
566 | otherwise = divZeroError
567 mod x@(W32# x#) y@(W32# y#)
568 | y /= 0 = W32# (x# `remWord#` y#)
569 | otherwise = divZeroError
570 quotRem x@(W32# x#) y@(W32# y#)
571 | y /= 0 = (W32# (x# `quotWord#` y#), W32# (x# `remWord#` y#))
572 | otherwise = divZeroError
573 divMod x@(W32# x#) y@(W32# y#)
574 | y /= 0 = (W32# (x# `quotWord#` y#), W32# (x# `remWord#` y#))
575 | otherwise = divZeroError
577 #if WORD_SIZE_IN_BITS == 32
579 | otherwise = case word2Integer# x# of (# s, d #) -> J# s d
586 instance Bits Word32 where
587 (W32# x#) .&. (W32# y#) = W32# (x# `and#` y#)
588 (W32# x#) .|. (W32# y#) = W32# (x# `or#` y#)
589 (W32# x#) `xor` (W32# y#) = W32# (x# `xor#` y#)
590 complement (W32# x#) = W32# (x# `xor#` mb#) where W32# mb# = maxBound
591 (W32# x#) `shift` (I# i#)
592 | i# >=# 0# = W32# (narrow32Word# (x# `shiftL#` i#))
593 | otherwise = W32# (x# `shiftRL#` negateInt# i#)
594 (W32# x#) `rotate` (I# i#)
595 | i'# ==# 0# = W32# x#
596 | otherwise = W32# (narrow32Word# ((x# `shiftL#` i'#) `or#`
597 (x# `shiftRL#` (32# -# i'#))))
599 i'# = word2Int# (int2Word# i# `and#` int2Word# 31#)
604 "fromIntegral/Word8->Word32" fromIntegral = \(W8# x#) -> W32# x#
605 "fromIntegral/Word16->Word32" fromIntegral = \(W16# x#) -> W32# x#
606 "fromIntegral/Word32->Word32" fromIntegral = id :: Word32 -> Word32
607 "fromIntegral/Word32->Integer" fromIntegral = toInteger :: Word32 -> Integer
608 "fromIntegral/a->Word32" fromIntegral = \x -> case fromIntegral x of W# x# -> W32# (narrow32Word# x#)
609 "fromIntegral/Word32->a" fromIntegral = \(W32# x#) -> fromIntegral (W# x#)
614 instance CCallable Word32
615 instance CReturnable Word32
617 instance Show Word32 where
618 #if WORD_SIZE_IN_BITS < 33
619 showsPrec p x = showsPrec p (toInteger x)
621 showsPrec p x = showsPrec p (fromIntegral x :: Int)
625 instance Real Word32 where
626 toRational x = toInteger x % 1
628 instance Bounded Word32 where
630 maxBound = 0xFFFFFFFF
632 instance Ix Word32 where
634 unsafeIndex b@(m,_) i = fromIntegral (i - m)
635 inRange (m,n) i = m <= i && i <= n
636 unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1
638 instance Read Word32 where
639 #if WORD_SIZE_IN_BITS < 33
640 readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]
642 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
645 ------------------------------------------------------------------------
647 ------------------------------------------------------------------------
649 #if WORD_SIZE_IN_BITS < 64
651 data Word64 = W64# Word64#
652 -- ^ 64-bit unsigned integer type
654 instance Eq Word64 where
655 (W64# x#) == (W64# y#) = x# `eqWord64#` y#
656 (W64# x#) /= (W64# y#) = x# `neWord64#` y#
658 instance Ord Word64 where
659 (W64# x#) < (W64# y#) = x# `ltWord64#` y#
660 (W64# x#) <= (W64# y#) = x# `leWord64#` y#
661 (W64# x#) > (W64# y#) = x# `gtWord64#` y#
662 (W64# x#) >= (W64# y#) = x# `geWord64#` y#
664 instance Num Word64 where
665 (W64# x#) + (W64# y#) = W64# (int64ToWord64# (word64ToInt64# x# `plusInt64#` word64ToInt64# y#))
666 (W64# x#) - (W64# y#) = W64# (int64ToWord64# (word64ToInt64# x# `minusInt64#` word64ToInt64# y#))
667 (W64# x#) * (W64# y#) = W64# (int64ToWord64# (word64ToInt64# x# `timesInt64#` word64ToInt64# y#))
668 negate (W64# x#) = W64# (int64ToWord64# (negateInt64# (word64ToInt64# x#)))
672 fromInteger (S# i#) = W64# (int64ToWord64# (intToInt64# i#))
673 fromInteger (J# s# d#) = W64# (integerToWord64# s# d#)
675 instance Enum Word64 where
677 | x /= maxBound = x + 1
678 | otherwise = succError "Word64"
680 | x /= minBound = x - 1
681 | otherwise = predError "Word64"
683 | i >= 0 = W64# (wordToWord64# (int2Word# i#))
684 | otherwise = toEnumError "Word64" i (minBound::Word64, maxBound::Word64)
686 | x <= fromIntegral (maxBound::Int)
687 = I# (word2Int# (word64ToWord# x#))
688 | otherwise = fromEnumError "Word64" x
689 enumFrom = integralEnumFrom
690 enumFromThen = integralEnumFromThen
691 enumFromTo = integralEnumFromTo
692 enumFromThenTo = integralEnumFromThenTo
694 instance Integral Word64 where
695 quot x@(W64# x#) y@(W64# y#)
696 | y /= 0 = W64# (x# `quotWord64#` y#)
697 | otherwise = divZeroError
698 rem x@(W64# x#) y@(W64# y#)
699 | y /= 0 = W64# (x# `remWord64#` y#)
700 | otherwise = divZeroError
701 div x@(W64# x#) y@(W64# y#)
702 | y /= 0 = W64# (x# `quotWord64#` y#)
703 | otherwise = divZeroError
704 mod x@(W64# x#) y@(W64# y#)
705 | y /= 0 = W64# (x# `remWord64#` y#)
706 | otherwise = divZeroError
707 quotRem x@(W64# x#) y@(W64# y#)
708 | y /= 0 = (W64# (x# `quotWord64#` y#), W64# (x# `remWord64#` y#))
709 | otherwise = divZeroError
710 divMod x@(W64# x#) y@(W64# y#)
711 | y /= 0 = (W64# (x# `quotWord64#` y#), W64# (x# `remWord64#` y#))
712 | otherwise = divZeroError
713 toInteger x@(W64# x#)
714 | x <= 0x7FFFFFFF = S# (word2Int# (word64ToWord# x#))
715 | otherwise = case word64ToInteger# x# of (# s, d #) -> J# s d
717 instance Bits Word64 where
718 (W64# x#) .&. (W64# y#) = W64# (x# `and64#` y#)
719 (W64# x#) .|. (W64# y#) = W64# (x# `or64#` y#)
720 (W64# x#) `xor` (W64# y#) = W64# (x# `xor64#` y#)
721 complement (W64# x#) = W64# (not64# x#)
722 (W64# x#) `shift` (I# i#)
723 | i# >=# 0# = W64# (x# `shiftL64#` i#)
724 | otherwise = W64# (x# `shiftRL64#` negateInt# i#)
725 (W64# x#) `rotate` (I# i#)
726 | i'# ==# 0# = W64# x#
727 | otherwise = W64# ((x# `uncheckedShiftL64#` i'#) `or64#`
728 (x# `uncheckedShiftRL64#` (64# -# i'#)))
730 i'# = word2Int# (int2Word# i# `and#` int2Word# 63#)
734 -- give the 64-bit shift operations the same treatment as the 32-bit
735 -- ones (see GHC.Base), namely we wrap them in tests to catch the
736 -- cases when we're shifting more than 64 bits to avoid unspecified
737 -- behaviour in the C shift operations.
739 shiftL64#, shiftRL64# :: Word64# -> Int# -> Word64#
741 a `shiftL64#` b | b >=# 64# = wordToWord64# (int2Word# 0#)
742 | otherwise = a `uncheckedShiftL64#` b
744 a `shiftRL64#` b | b >=# 64# = wordToWord64# (int2Word# 0#)
745 | otherwise = a `uncheckedShiftRL64#` b
748 foreign import ccall unsafe "stg_eqWord64" eqWord64# :: Word64# -> Word64# -> Bool
749 foreign import ccall unsafe "stg_neWord64" neWord64# :: Word64# -> Word64# -> Bool
750 foreign import ccall unsafe "stg_ltWord64" ltWord64# :: Word64# -> Word64# -> Bool
751 foreign import ccall unsafe "stg_leWord64" leWord64# :: Word64# -> Word64# -> Bool
752 foreign import ccall unsafe "stg_gtWord64" gtWord64# :: Word64# -> Word64# -> Bool
753 foreign import ccall unsafe "stg_geWord64" geWord64# :: Word64# -> Word64# -> Bool
754 foreign import ccall unsafe "stg_int64ToWord64" int64ToWord64# :: Int64# -> Word64#
755 foreign import ccall unsafe "stg_word64ToInt64" word64ToInt64# :: Word64# -> Int64#
756 foreign import ccall unsafe "stg_intToInt64" intToInt64# :: Int# -> Int64#
757 foreign import ccall unsafe "stg_wordToWord64" wordToWord64# :: Word# -> Word64#
758 foreign import ccall unsafe "stg_word64ToWord" word64ToWord# :: Word64# -> Word#
759 foreign import ccall unsafe "stg_plusInt64" plusInt64# :: Int64# -> Int64# -> Int64#
760 foreign import ccall unsafe "stg_minusInt64" minusInt64# :: Int64# -> Int64# -> Int64#
761 foreign import ccall unsafe "stg_timesInt64" timesInt64# :: Int64# -> Int64# -> Int64#
762 foreign import ccall unsafe "stg_negateInt64" negateInt64# :: Int64# -> Int64#
763 foreign import ccall unsafe "stg_quotWord64" quotWord64# :: Word64# -> Word64# -> Word64#
764 foreign import ccall unsafe "stg_remWord64" remWord64# :: Word64# -> Word64# -> Word64#
765 foreign import ccall unsafe "stg_and64" and64# :: Word64# -> Word64# -> Word64#
766 foreign import ccall unsafe "stg_or64" or64# :: Word64# -> Word64# -> Word64#
767 foreign import ccall unsafe "stg_xor64" xor64# :: Word64# -> Word64# -> Word64#
768 foreign import ccall unsafe "stg_not64" not64# :: Word64# -> Word64#
769 foreign import ccall unsafe "stg_uncheckedShiftL64" uncheckedShiftL64# :: Word64# -> Int# -> Word64#
770 foreign import ccall unsafe "stg_uncheckedShiftRL64" uncheckedShiftRL64# :: Word64# -> Int# -> Word64#
772 foreign import ccall unsafe "stg_integerToWord64" integerToWord64# :: Int# -> ByteArray# -> Word64#
776 "fromIntegral/Int->Word64" fromIntegral = \(I# x#) -> W64# (int64ToWord64# (intToInt64# x#))
777 "fromIntegral/Word->Word64" fromIntegral = \(W# x#) -> W64# (wordToWord64# x#)
778 "fromIntegral/Word64->Int" fromIntegral = \(W64# x#) -> I# (word2Int# (word64ToWord# x#))
779 "fromIntegral/Word64->Word" fromIntegral = \(W64# x#) -> W# (word64ToWord# x#)
780 "fromIntegral/Word64->Word64" fromIntegral = id :: Word64 -> Word64
785 -- Word64 is represented in the same way as Word.
786 -- Operations may assume and must ensure that it holds only values
787 -- from its logical range.
789 data Word64 = W64# Word# deriving (Eq, Ord)
790 -- ^ 64-bit unsigned integer type
792 instance Num Word64 where
793 (W64# x#) + (W64# y#) = W64# (x# `plusWord#` y#)
794 (W64# x#) - (W64# y#) = W64# (x# `minusWord#` y#)
795 (W64# x#) * (W64# y#) = W64# (x# `timesWord#` y#)
796 negate (W64# x#) = W64# (int2Word# (negateInt# (word2Int# x#)))
800 fromInteger (S# i#) = W64# (int2Word# i#)
801 fromInteger (J# s# d#) = W64# (integer2Word# s# d#)
803 instance Enum Word64 where
805 | x /= maxBound = x + 1
806 | otherwise = succError "Word64"
808 | x /= minBound = x - 1
809 | otherwise = predError "Word64"
811 | i >= 0 = W64# (int2Word# i#)
812 | otherwise = toEnumError "Word64" i (minBound::Word64, maxBound::Word64)
814 | x <= fromIntegral (maxBound::Int)
816 | otherwise = fromEnumError "Word64" x
817 enumFrom = integralEnumFrom
818 enumFromThen = integralEnumFromThen
819 enumFromTo = integralEnumFromTo
820 enumFromThenTo = integralEnumFromThenTo
822 instance Integral Word64 where
823 quot x@(W64# x#) y@(W64# y#)
824 | y /= 0 = W64# (x# `quotWord#` y#)
825 | otherwise = divZeroError
826 rem x@(W64# x#) y@(W64# y#)
827 | y /= 0 = W64# (x# `remWord#` y#)
828 | otherwise = divZeroError
829 div x@(W64# x#) y@(W64# y#)
830 | y /= 0 = W64# (x# `quotWord#` y#)
831 | otherwise = divZeroError
832 mod x@(W64# x#) y@(W64# y#)
833 | y /= 0 = W64# (x# `remWord#` y#)
834 | otherwise = divZeroError
835 quotRem x@(W64# x#) y@(W64# y#)
836 | y /= 0 = (W64# (x# `quotWord#` y#), W64# (x# `remWord#` y#))
837 | otherwise = divZeroError
838 divMod x@(W64# x#) y@(W64# y#)
839 | y /= 0 = (W64# (x# `quotWord#` y#), W64# (x# `remWord#` y#))
840 | otherwise = divZeroError
843 | otherwise = case word2Integer# x# of (# s, d #) -> J# s d
847 instance Bits Word64 where
848 (W64# x#) .&. (W64# y#) = W64# (x# `and#` y#)
849 (W64# x#) .|. (W64# y#) = W64# (x# `or#` y#)
850 (W64# x#) `xor` (W64# y#) = W64# (x# `xor#` y#)
851 complement (W64# x#) = W64# (x# `xor#` mb#) where W64# mb# = maxBound
852 (W64# x#) `shift` (I# i#)
853 | i# >=# 0# = W64# (x# `shiftL#` i#)
854 | otherwise = W64# (x# `shiftRL#` negateInt# i#)
855 (W64# x#) `rotate` (I# i#)
856 | i'# ==# 0# = W64# x#
857 | otherwise = W64# ((x# `shiftL#` i'#) `or#`
858 (x# `shiftRL#` (64# -# i'#)))
860 i'# = word2Int# (int2Word# i# `and#` int2Word# 63#)
865 "fromIntegral/a->Word64" fromIntegral = \x -> case fromIntegral x of W# x# -> W64# x#
866 "fromIntegral/Word64->a" fromIntegral = \(W64# x#) -> fromIntegral (W# x#)
871 instance CCallable Word64
872 instance CReturnable Word64
874 instance Show Word64 where
875 showsPrec p x = showsPrec p (toInteger x)
877 instance Real Word64 where
878 toRational x = toInteger x % 1
880 instance Bounded Word64 where
882 maxBound = 0xFFFFFFFFFFFFFFFF
884 instance Ix Word64 where
886 unsafeIndex b@(m,_) i = fromIntegral (i - m)
887 inRange (m,n) i = m <= i && i <= n
888 unsafeRangeSize b@(_l,h) = unsafeIndex b h + 1
890 instance Read Word64 where
891 readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]