1 {-# OPTIONS_GHC -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 -- The sized integral datatypes, 'Int8', 'Int16', 'Int32', and 'Int64'.
14 -----------------------------------------------------------------------------
20 Int8(..), Int16(..), Int32(..), Int64(..))
25 import {-# SOURCE #-} GHC.Err
35 ------------------------------------------------------------------------
37 ------------------------------------------------------------------------
39 -- Int8 is represented in the same way as Int. Operations may assume
40 -- and must ensure that it holds only values from its logical range.
42 data Int8 = I8# Int# deriving (Eq, Ord)
43 -- ^ 8-bit signed integer type
45 instance Show Int8 where
46 showsPrec p x = showsPrec p (fromIntegral x :: Int)
48 instance Num Int8 where
49 (I8# x#) + (I8# y#) = I8# (narrow8Int# (x# +# y#))
50 (I8# x#) - (I8# y#) = I8# (narrow8Int# (x# -# y#))
51 (I8# x#) * (I8# y#) = I8# (narrow8Int# (x# *# y#))
52 negate (I8# x#) = I8# (narrow8Int# (negateInt# x#))
54 | otherwise = negate x
58 fromInteger (S# i#) = I8# (narrow8Int# i#)
59 fromInteger (J# s# d#) = I8# (narrow8Int# (integer2Int# s# d#))
61 instance Real Int8 where
62 toRational x = toInteger x % 1
64 instance Enum Int8 where
66 | x /= maxBound = x + 1
67 | otherwise = succError "Int8"
69 | x /= minBound = x - 1
70 | otherwise = predError "Int8"
72 | i >= fromIntegral (minBound::Int8) && i <= fromIntegral (maxBound::Int8)
74 | otherwise = toEnumError "Int8" i (minBound::Int8, maxBound::Int8)
75 fromEnum (I8# x#) = I# x#
76 enumFrom = boundedEnumFrom
77 enumFromThen = boundedEnumFromThen
79 instance Integral Int8 where
80 quot x@(I8# x#) y@(I8# y#)
81 | y == 0 = divZeroError
82 | x == minBound && y == (-1) = overflowError
83 | otherwise = I8# (narrow8Int# (x# `quotInt#` y#))
84 rem x@(I8# x#) y@(I8# y#)
85 | y == 0 = divZeroError
86 | x == minBound && y == (-1) = overflowError
87 | otherwise = I8# (narrow8Int# (x# `remInt#` y#))
88 div x@(I8# x#) y@(I8# y#)
89 | y == 0 = divZeroError
90 | x == minBound && y == (-1) = overflowError
91 | otherwise = I8# (narrow8Int# (x# `divInt#` y#))
92 mod x@(I8# x#) y@(I8# y#)
93 | y == 0 = divZeroError
94 | x == minBound && y == (-1) = overflowError
95 | otherwise = I8# (narrow8Int# (x# `modInt#` y#))
96 quotRem x@(I8# x#) y@(I8# y#)
97 | y == 0 = divZeroError
98 | x == minBound && y == (-1) = overflowError
99 | otherwise = (I8# (narrow8Int# (x# `quotInt#` y#)),
100 I8# (narrow8Int# (x# `remInt#` y#)))
101 divMod x@(I8# x#) y@(I8# y#)
102 | y == 0 = divZeroError
103 | x == minBound && y == (-1) = overflowError
104 | otherwise = (I8# (narrow8Int# (x# `divInt#` y#)),
105 I8# (narrow8Int# (x# `modInt#` y#)))
106 toInteger (I8# x#) = S# x#
108 instance Bounded Int8 where
112 instance Ix Int8 where
114 unsafeIndex b@(m,_) i = fromIntegral i - fromIntegral m
115 inRange (m,n) i = m <= i && i <= n
117 instance Read Int8 where
118 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
120 instance Bits Int8 where
123 (I8# x#) .&. (I8# y#) = I8# (word2Int# (int2Word# x# `and#` int2Word# y#))
124 (I8# x#) .|. (I8# y#) = I8# (word2Int# (int2Word# x# `or#` int2Word# y#))
125 (I8# x#) `xor` (I8# y#) = I8# (word2Int# (int2Word# x# `xor#` int2Word# y#))
126 complement (I8# x#) = I8# (word2Int# (int2Word# x# `xor#` int2Word# (-1#)))
127 (I8# x#) `shift` (I# i#)
128 | i# >=# 0# = I8# (narrow8Int# (x# `iShiftL#` i#))
129 | otherwise = I8# (x# `iShiftRA#` negateInt# i#)
130 (I8# x#) `rotate` (I# i#)
134 = I8# (narrow8Int# (word2Int# ((x'# `uncheckedShiftL#` i'#) `or#`
135 (x'# `uncheckedShiftRL#` (8# -# i'#)))))
137 x'# = narrow8Word# (int2Word# x#)
138 i'# = word2Int# (int2Word# i# `and#` int2Word# 7#)
143 "fromIntegral/Int8->Int8" fromIntegral = id :: Int8 -> Int8
144 "fromIntegral/a->Int8" fromIntegral = \x -> case fromIntegral x of I# x# -> I8# (narrow8Int# x#)
145 "fromIntegral/Int8->a" fromIntegral = \(I8# x#) -> fromIntegral (I# x#)
148 ------------------------------------------------------------------------
150 ------------------------------------------------------------------------
152 -- Int16 is represented in the same way as Int. Operations may assume
153 -- and must ensure that it holds only values from its logical range.
155 data Int16 = I16# Int# deriving (Eq, Ord)
156 -- ^ 16-bit signed integer type
158 instance Show Int16 where
159 showsPrec p x = showsPrec p (fromIntegral x :: Int)
161 instance Num Int16 where
162 (I16# x#) + (I16# y#) = I16# (narrow16Int# (x# +# y#))
163 (I16# x#) - (I16# y#) = I16# (narrow16Int# (x# -# y#))
164 (I16# x#) * (I16# y#) = I16# (narrow16Int# (x# *# y#))
165 negate (I16# x#) = I16# (narrow16Int# (negateInt# x#))
167 | otherwise = negate x
171 fromInteger (S# i#) = I16# (narrow16Int# i#)
172 fromInteger (J# s# d#) = I16# (narrow16Int# (integer2Int# s# d#))
174 instance Real Int16 where
175 toRational x = toInteger x % 1
177 instance Enum Int16 where
179 | x /= maxBound = x + 1
180 | otherwise = succError "Int16"
182 | x /= minBound = x - 1
183 | otherwise = predError "Int16"
185 | i >= fromIntegral (minBound::Int16) && i <= fromIntegral (maxBound::Int16)
187 | otherwise = toEnumError "Int16" i (minBound::Int16, maxBound::Int16)
188 fromEnum (I16# x#) = I# x#
189 enumFrom = boundedEnumFrom
190 enumFromThen = boundedEnumFromThen
192 instance Integral Int16 where
193 quot x@(I16# x#) y@(I16# y#)
194 | y == 0 = divZeroError
195 | x == minBound && y == (-1) = overflowError
196 | otherwise = I16# (narrow16Int# (x# `quotInt#` y#))
197 rem x@(I16# x#) y@(I16# y#)
198 | y == 0 = divZeroError
199 | x == minBound && y == (-1) = overflowError
200 | otherwise = I16# (narrow16Int# (x# `remInt#` y#))
201 div x@(I16# x#) y@(I16# y#)
202 | y == 0 = divZeroError
203 | x == minBound && y == (-1) = overflowError
204 | otherwise = I16# (narrow16Int# (x# `divInt#` y#))
205 mod x@(I16# x#) y@(I16# y#)
206 | y == 0 = divZeroError
207 | x == minBound && y == (-1) = overflowError
208 | otherwise = I16# (narrow16Int# (x# `modInt#` y#))
209 quotRem x@(I16# x#) y@(I16# y#)
210 | y == 0 = divZeroError
211 | x == minBound && y == (-1) = overflowError
212 | otherwise = (I16# (narrow16Int# (x# `quotInt#` y#)),
213 I16# (narrow16Int# (x# `remInt#` y#)))
214 divMod x@(I16# x#) y@(I16# y#)
215 | y == 0 = divZeroError
216 | x == minBound && y == (-1) = overflowError
217 | otherwise = (I16# (narrow16Int# (x# `divInt#` y#)),
218 I16# (narrow16Int# (x# `modInt#` y#)))
219 toInteger (I16# x#) = S# x#
221 instance Bounded Int16 where
225 instance Ix Int16 where
227 unsafeIndex b@(m,_) i = fromIntegral i - fromIntegral m
228 inRange (m,n) i = m <= i && i <= n
230 instance Read Int16 where
231 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
233 instance Bits Int16 where
236 (I16# x#) .&. (I16# y#) = I16# (word2Int# (int2Word# x# `and#` int2Word# y#))
237 (I16# x#) .|. (I16# y#) = I16# (word2Int# (int2Word# x# `or#` int2Word# y#))
238 (I16# x#) `xor` (I16# y#) = I16# (word2Int# (int2Word# x# `xor#` int2Word# y#))
239 complement (I16# x#) = I16# (word2Int# (int2Word# x# `xor#` int2Word# (-1#)))
240 (I16# x#) `shift` (I# i#)
241 | i# >=# 0# = I16# (narrow16Int# (x# `iShiftL#` i#))
242 | otherwise = I16# (x# `iShiftRA#` negateInt# i#)
243 (I16# x#) `rotate` (I# i#)
247 = I16# (narrow16Int# (word2Int# ((x'# `uncheckedShiftL#` i'#) `or#`
248 (x'# `uncheckedShiftRL#` (16# -# i'#)))))
250 x'# = narrow16Word# (int2Word# x#)
251 i'# = word2Int# (int2Word# i# `and#` int2Word# 15#)
256 "fromIntegral/Word8->Int16" fromIntegral = \(W8# x#) -> I16# (word2Int# x#)
257 "fromIntegral/Int8->Int16" fromIntegral = \(I8# x#) -> I16# x#
258 "fromIntegral/Int16->Int16" fromIntegral = id :: Int16 -> Int16
259 "fromIntegral/a->Int16" fromIntegral = \x -> case fromIntegral x of I# x# -> I16# (narrow16Int# x#)
260 "fromIntegral/Int16->a" fromIntegral = \(I16# x#) -> fromIntegral (I# x#)
263 ------------------------------------------------------------------------
265 ------------------------------------------------------------------------
267 #if WORD_SIZE_IN_BITS < 32
269 data Int32 = I32# Int32#
270 -- ^ 32-bit signed integer type
272 instance Eq Int32 where
273 (I32# x#) == (I32# y#) = x# `eqInt32#` y#
274 (I32# x#) /= (I32# y#) = x# `neInt32#` y#
276 instance Ord Int32 where
277 (I32# x#) < (I32# y#) = x# `ltInt32#` y#
278 (I32# x#) <= (I32# y#) = x# `leInt32#` y#
279 (I32# x#) > (I32# y#) = x# `gtInt32#` y#
280 (I32# x#) >= (I32# y#) = x# `geInt32#` y#
282 instance Show Int32 where
283 showsPrec p x = showsPrec p (toInteger x)
285 instance Num Int32 where
286 (I32# x#) + (I32# y#) = I32# (x# `plusInt32#` y#)
287 (I32# x#) - (I32# y#) = I32# (x# `minusInt32#` y#)
288 (I32# x#) * (I32# y#) = I32# (x# `timesInt32#` y#)
289 negate (I32# x#) = I32# (negateInt32# x#)
291 | otherwise = negate x
295 fromInteger (S# i#) = I32# (intToInt32# i#)
296 fromInteger (J# s# d#) = I32# (integerToInt32# s# d#)
298 instance Enum Int32 where
300 | x /= maxBound = x + 1
301 | otherwise = succError "Int32"
303 | x /= minBound = x - 1
304 | otherwise = predError "Int32"
305 toEnum (I# i#) = I32# (intToInt32# i#)
307 | x >= fromIntegral (minBound::Int) && x <= fromIntegral (maxBound::Int)
308 = I# (int32ToInt# x#)
309 | otherwise = fromEnumError "Int32" x
310 enumFrom = integralEnumFrom
311 enumFromThen = integralEnumFromThen
312 enumFromTo = integralEnumFromTo
313 enumFromThenTo = integralEnumFromThenTo
315 instance Integral Int32 where
316 quot x@(I32# x#) y@(I32# y#)
317 | y == 0 = divZeroError
318 | x == minBound && y == (-1) = overflowError
319 | otherwise = I32# (x# `quotInt32#` y#)
320 rem x@(I32# x#) y@(I32# y#)
321 | y == 0 = divZeroError
322 | x == minBound && y == (-1) = overflowError
323 | otherwise = I32# (x# `remInt32#` y#)
324 div x@(I32# x#) y@(I32# y#)
325 | y == 0 = divZeroError
326 | x == minBound && y == (-1) = overflowError
327 | otherwise = I32# (x# `divInt32#` y#)
328 mod x@(I32# x#) y@(I32# y#)
329 | y == 0 = divZeroError
330 | x == minBound && y == (-1) = overflowError
331 | otherwise = I32# (x# `modInt32#` y#)
332 quotRem x@(I32# x#) y@(I32# y#)
333 | y == 0 = divZeroError
334 | x == minBound && y == (-1) = overflowError
335 | otherwise = (I32# (x# `quotInt32#` y#),
336 I32# (x# `remInt32#` y#))
337 divMod x@(I32# x#) y@(I32# y#)
338 | y == 0 = divZeroError
339 | x == minBound && y == (-1) = overflowError
340 | otherwise = (I32# (x# `divInt32#` y#),
341 I32# (x# `modInt32#` y#))
342 toInteger x@(I32# x#)
343 | x >= fromIntegral (minBound::Int) && x <= fromIntegral (maxBound::Int)
344 = S# (int32ToInt# x#)
345 | otherwise = case int32ToInteger# x# of (# s, d #) -> J# s d
347 divInt32#, modInt32# :: Int32# -> Int32# -> Int32#
349 | (x# `gtInt32#` intToInt32# 0#) && (y# `ltInt32#` intToInt32# 0#)
350 = ((x# `minusInt32#` y#) `minusInt32#` intToInt32# 1#) `quotInt32#` y#
351 | (x# `ltInt32#` intToInt32# 0#) && (y# `gtInt32#` intToInt32# 0#)
352 = ((x# `minusInt32#` y#) `plusInt32#` intToInt32# 1#) `quotInt32#` y#
353 | otherwise = x# `quotInt32#` y#
355 | (x# `gtInt32#` intToInt32# 0#) && (y# `ltInt32#` intToInt32# 0#) ||
356 (x# `ltInt32#` intToInt32# 0#) && (y# `gtInt32#` intToInt32# 0#)
357 = if r# `neInt32#` intToInt32# 0# then r# `plusInt32#` y# else intToInt32# 0#
360 r# = x# `remInt32#` y#
362 instance Read Int32 where
363 readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]
365 instance Bits Int32 where
368 (I32# x#) .&. (I32# y#) = I32# (word32ToInt32# (int32ToWord32# x# `and32#` int32ToWord32# y#))
369 (I32# x#) .|. (I32# y#) = I32# (word32ToInt32# (int32ToWord32# x# `or32#` int32ToWord32# y#))
370 (I32# x#) `xor` (I32# y#) = I32# (word32ToInt32# (int32ToWord32# x# `xor32#` int32ToWord32# y#))
371 complement (I32# x#) = I32# (word32ToInt32# (not32# (int32ToWord32# x#)))
372 (I32# x#) `shift` (I# i#)
373 | i# >=# 0# = I32# (x# `iShiftL32#` i#)
374 | otherwise = I32# (x# `iShiftRA32#` negateInt# i#)
375 (I32# x#) `rotate` (I# i#)
379 = I32# (word32ToInt32# ((x'# `shiftL32#` i'#) `or32#`
380 (x'# `shiftRL32#` (32# -# i'#))))
382 x'# = int32ToWord32# x#
383 i'# = word2Int# (int2Word# i# `and#` int2Word# 31#)
387 foreign import "stg_eqInt32" unsafe eqInt32# :: Int32# -> Int32# -> Bool
388 foreign import "stg_neInt32" unsafe neInt32# :: Int32# -> Int32# -> Bool
389 foreign import "stg_ltInt32" unsafe ltInt32# :: Int32# -> Int32# -> Bool
390 foreign import "stg_leInt32" unsafe leInt32# :: Int32# -> Int32# -> Bool
391 foreign import "stg_gtInt32" unsafe gtInt32# :: Int32# -> Int32# -> Bool
392 foreign import "stg_geInt32" unsafe geInt32# :: Int32# -> Int32# -> Bool
393 foreign import "stg_plusInt32" unsafe plusInt32# :: Int32# -> Int32# -> Int32#
394 foreign import "stg_minusInt32" unsafe minusInt32# :: Int32# -> Int32# -> Int32#
395 foreign import "stg_timesInt32" unsafe timesInt32# :: Int32# -> Int32# -> Int32#
396 foreign import "stg_negateInt32" unsafe negateInt32# :: Int32# -> Int32#
397 foreign import "stg_quotInt32" unsafe quotInt32# :: Int32# -> Int32# -> Int32#
398 foreign import "stg_remInt32" unsafe remInt32# :: Int32# -> Int32# -> Int32#
399 foreign import "stg_intToInt32" unsafe intToInt32# :: Int# -> Int32#
400 foreign import "stg_int32ToInt" unsafe int32ToInt# :: Int32# -> Int#
401 foreign import "stg_wordToWord32" unsafe wordToWord32# :: Word# -> Word32#
402 foreign import "stg_int32ToWord32" unsafe int32ToWord32# :: Int32# -> Word32#
403 foreign import "stg_word32ToInt32" unsafe word32ToInt32# :: Word32# -> Int32#
404 foreign import "stg_and32" unsafe and32# :: Word32# -> Word32# -> Word32#
405 foreign import "stg_or32" unsafe or32# :: Word32# -> Word32# -> Word32#
406 foreign import "stg_xor32" unsafe xor32# :: Word32# -> Word32# -> Word32#
407 foreign import "stg_not32" unsafe not32# :: Word32# -> Word32#
408 foreign import "stg_iShiftL32" unsafe iShiftL32# :: Int32# -> Int# -> Int32#
409 foreign import "stg_iShiftRA32" unsafe iShiftRA32# :: Int32# -> Int# -> Int32#
410 foreign import "stg_shiftL32" unsafe shiftL32# :: Word32# -> Int# -> Word32#
411 foreign import "stg_shiftRL32" unsafe shiftRL32# :: Word32# -> Int# -> Word32#
414 "fromIntegral/Int->Int32" fromIntegral = \(I# x#) -> I32# (intToInt32# x#)
415 "fromIntegral/Word->Int32" fromIntegral = \(W# x#) -> I32# (word32ToInt32# (wordToWord32# x#))
416 "fromIntegral/Word32->Int32" fromIntegral = \(W32# x#) -> I32# (word32ToInt32# x#)
417 "fromIntegral/Int32->Int" fromIntegral = \(I32# x#) -> I# (int32ToInt# x#)
418 "fromIntegral/Int32->Word" fromIntegral = \(I32# x#) -> W# (int2Word# (int32ToInt# x#))
419 "fromIntegral/Int32->Word32" fromIntegral = \(I32# x#) -> W32# (int32ToWord32# x#)
420 "fromIntegral/Int32->Int32" fromIntegral = id :: Int32 -> Int32
425 -- Int32 is represented in the same way as Int.
426 #if WORD_SIZE_IN_BITS > 32
427 -- Operations may assume and must ensure that it holds only values
428 -- from its logical range.
431 data Int32 = I32# Int# deriving (Eq, Ord)
432 -- ^ 32-bit signed integer type
434 instance Show Int32 where
435 showsPrec p x = showsPrec p (fromIntegral x :: Int)
437 instance Num Int32 where
438 (I32# x#) + (I32# y#) = I32# (narrow32Int# (x# +# y#))
439 (I32# x#) - (I32# y#) = I32# (narrow32Int# (x# -# y#))
440 (I32# x#) * (I32# y#) = I32# (narrow32Int# (x# *# y#))
441 negate (I32# x#) = I32# (narrow32Int# (negateInt# x#))
443 | otherwise = negate x
447 fromInteger (S# i#) = I32# (narrow32Int# i#)
448 fromInteger (J# s# d#) = I32# (narrow32Int# (integer2Int# s# d#))
450 instance Enum Int32 where
452 | x /= maxBound = x + 1
453 | otherwise = succError "Int32"
455 | x /= minBound = x - 1
456 | otherwise = predError "Int32"
457 #if WORD_SIZE_IN_BITS == 32
458 toEnum (I# i#) = I32# i#
461 | i >= fromIntegral (minBound::Int32) && i <= fromIntegral (maxBound::Int32)
463 | otherwise = toEnumError "Int32" i (minBound::Int32, maxBound::Int32)
465 fromEnum (I32# x#) = I# x#
466 enumFrom = boundedEnumFrom
467 enumFromThen = boundedEnumFromThen
469 instance Integral Int32 where
470 quot x@(I32# x#) y@(I32# y#)
471 | y == 0 = divZeroError
472 | x == minBound && y == (-1) = overflowError
473 | otherwise = I32# (narrow32Int# (x# `quotInt#` y#))
474 rem x@(I32# x#) y@(I32# y#)
475 | y == 0 = divZeroError
476 | x == minBound && y == (-1) = overflowError
477 | otherwise = I32# (narrow32Int# (x# `remInt#` y#))
478 div x@(I32# x#) y@(I32# y#)
479 | y == 0 = divZeroError
480 | x == minBound && y == (-1) = overflowError
481 | otherwise = I32# (narrow32Int# (x# `divInt#` y#))
482 mod x@(I32# x#) y@(I32# y#)
483 | y == 0 = divZeroError
484 | x == minBound && y == (-1) = overflowError
485 | otherwise = I32# (narrow32Int# (x# `modInt#` y#))
486 quotRem x@(I32# x#) y@(I32# y#)
487 | y == 0 = divZeroError
488 | x == minBound && y == (-1) = overflowError
489 | otherwise = (I32# (narrow32Int# (x# `quotInt#` y#)),
490 I32# (narrow32Int# (x# `remInt#` y#)))
491 divMod x@(I32# x#) y@(I32# y#)
492 | y == 0 = divZeroError
493 | x == minBound && y == (-1) = overflowError
494 | otherwise = (I32# (narrow32Int# (x# `divInt#` y#)),
495 I32# (narrow32Int# (x# `modInt#` y#)))
496 toInteger (I32# x#) = S# x#
498 instance Read Int32 where
499 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
501 instance Bits Int32 where
504 (I32# x#) .&. (I32# y#) = I32# (word2Int# (int2Word# x# `and#` int2Word# y#))
505 (I32# x#) .|. (I32# y#) = I32# (word2Int# (int2Word# x# `or#` int2Word# y#))
506 (I32# x#) `xor` (I32# y#) = I32# (word2Int# (int2Word# x# `xor#` int2Word# y#))
507 complement (I32# x#) = I32# (word2Int# (int2Word# x# `xor#` int2Word# (-1#)))
508 (I32# x#) `shift` (I# i#)
509 | i# >=# 0# = I32# (narrow32Int# (x# `iShiftL#` i#))
510 | otherwise = I32# (x# `iShiftRA#` negateInt# i#)
511 (I32# x#) `rotate` (I# i#)
515 = I32# (narrow32Int# (word2Int# ((x'# `uncheckedShiftL#` i'#) `or#`
516 (x'# `uncheckedShiftRL#` (32# -# i'#)))))
518 x'# = narrow32Word# (int2Word# x#)
519 i'# = word2Int# (int2Word# i# `and#` int2Word# 31#)
524 "fromIntegral/Word8->Int32" fromIntegral = \(W8# x#) -> I32# (word2Int# x#)
525 "fromIntegral/Word16->Int32" fromIntegral = \(W16# x#) -> I32# (word2Int# x#)
526 "fromIntegral/Int8->Int32" fromIntegral = \(I8# x#) -> I32# x#
527 "fromIntegral/Int16->Int32" fromIntegral = \(I16# x#) -> I32# x#
528 "fromIntegral/Int32->Int32" fromIntegral = id :: Int32 -> Int32
529 "fromIntegral/a->Int32" fromIntegral = \x -> case fromIntegral x of I# x# -> I32# (narrow32Int# x#)
530 "fromIntegral/Int32->a" fromIntegral = \(I32# x#) -> fromIntegral (I# x#)
535 instance Real Int32 where
536 toRational x = toInteger x % 1
538 instance Bounded Int32 where
539 minBound = -0x80000000
540 maxBound = 0x7FFFFFFF
542 instance Ix Int32 where
544 unsafeIndex b@(m,_) i = fromIntegral i - fromIntegral m
545 inRange (m,n) i = m <= i && i <= n
547 ------------------------------------------------------------------------
549 ------------------------------------------------------------------------
551 #if WORD_SIZE_IN_BITS < 64
553 data Int64 = I64# Int64#
554 -- ^ 64-bit signed integer type
556 instance Eq Int64 where
557 (I64# x#) == (I64# y#) = x# `eqInt64#` y#
558 (I64# x#) /= (I64# y#) = x# `neInt64#` y#
560 instance Ord Int64 where
561 (I64# x#) < (I64# y#) = x# `ltInt64#` y#
562 (I64# x#) <= (I64# y#) = x# `leInt64#` y#
563 (I64# x#) > (I64# y#) = x# `gtInt64#` y#
564 (I64# x#) >= (I64# y#) = x# `geInt64#` y#
566 instance Show Int64 where
567 showsPrec p x = showsPrec p (toInteger x)
569 instance Num Int64 where
570 (I64# x#) + (I64# y#) = I64# (x# `plusInt64#` y#)
571 (I64# x#) - (I64# y#) = I64# (x# `minusInt64#` y#)
572 (I64# x#) * (I64# y#) = I64# (x# `timesInt64#` y#)
573 negate (I64# x#) = I64# (negateInt64# x#)
575 | otherwise = negate x
579 fromInteger (S# i#) = I64# (intToInt64# i#)
580 fromInteger (J# s# d#) = I64# (integerToInt64# s# d#)
582 instance Enum Int64 where
584 | x /= maxBound = x + 1
585 | otherwise = succError "Int64"
587 | x /= minBound = x - 1
588 | otherwise = predError "Int64"
589 toEnum (I# i#) = I64# (intToInt64# i#)
591 | x >= fromIntegral (minBound::Int) && x <= fromIntegral (maxBound::Int)
592 = I# (int64ToInt# x#)
593 | otherwise = fromEnumError "Int64" x
594 enumFrom = integralEnumFrom
595 enumFromThen = integralEnumFromThen
596 enumFromTo = integralEnumFromTo
597 enumFromThenTo = integralEnumFromThenTo
599 instance Integral Int64 where
600 quot x@(I64# x#) y@(I64# y#)
601 | y == 0 = divZeroError
602 | x == minBound && y == (-1) = overflowError
603 | otherwise = I64# (x# `quotInt64#` y#)
604 rem x@(I64# x#) y@(I64# y#)
605 | y == 0 = divZeroError
606 | x == minBound && y == (-1) = overflowError
607 | otherwise = I64# (x# `remInt64#` y#)
608 div x@(I64# x#) y@(I64# y#)
609 | y == 0 = divZeroError
610 | x == minBound && y == (-1) = overflowError
611 | otherwise = I64# (x# `divInt64#` y#)
612 mod x@(I64# x#) y@(I64# y#)
613 | y == 0 = divZeroError
614 | x == minBound && y == (-1) = overflowError
615 | otherwise = I64# (x# `modInt64#` y#)
616 quotRem x@(I64# x#) y@(I64# y#)
617 | y == 0 = divZeroError
618 | x == minBound && y == (-1) = overflowError
619 | otherwise = (I64# (x# `quotInt64#` y#),
620 I64# (x# `remInt64#` y#))
621 divMod x@(I64# x#) y@(I64# y#)
622 | y == 0 = divZeroError
623 | x == minBound && y == (-1) = overflowError
624 | otherwise = (I64# (x# `divInt64#` y#),
625 I64# (x# `modInt64#` y#))
626 toInteger x@(I64# x#)
627 | x >= fromIntegral (minBound::Int) &&
628 x <= fromIntegral (maxBound::Int)
629 = S# (int64ToInt# x#)
630 | otherwise = case int64ToInteger# x# of
634 divInt64#, modInt64# :: Int64# -> Int64# -> Int64#
636 | (x# `gtInt64#` intToInt64# 0#) && (y# `ltInt64#` intToInt64# 0#)
637 = ((x# `minusInt64#` y#) `minusInt64#` intToInt64# 1#) `quotInt64#` y#
638 | (x# `ltInt64#` intToInt64# 0#) && (y# `gtInt64#` intToInt64# 0#)
639 = ((x# `minusInt64#` y#) `plusInt64#` intToInt64# 1#) `quotInt64#` y#
640 | otherwise = x# `quotInt64#` y#
642 | (x# `gtInt64#` intToInt64# 0#) && (y# `ltInt64#` intToInt64# 0#) ||
643 (x# `ltInt64#` intToInt64# 0#) && (y# `gtInt64#` intToInt64# 0#)
644 = if r# `neInt64#` intToInt64# 0# then r# `plusInt64#` y# else intToInt64# 0#
647 r# = x# `remInt64#` y#
649 instance Read Int64 where
650 readsPrec p s = [(fromInteger x, r) | (x, r) <- readsPrec p s]
652 instance Bits Int64 where
655 (I64# x#) .&. (I64# y#) = I64# (word64ToInt64# (int64ToWord64# x# `and64#` int64ToWord64# y#))
656 (I64# x#) .|. (I64# y#) = I64# (word64ToInt64# (int64ToWord64# x# `or64#` int64ToWord64# y#))
657 (I64# x#) `xor` (I64# y#) = I64# (word64ToInt64# (int64ToWord64# x# `xor64#` int64ToWord64# y#))
658 complement (I64# x#) = I64# (word64ToInt64# (not64# (int64ToWord64# x#)))
659 (I64# x#) `shift` (I# i#)
660 | i# >=# 0# = I64# (x# `iShiftL64#` i#)
661 | otherwise = I64# (x# `iShiftRA64#` negateInt# i#)
662 (I64# x#) `rotate` (I# i#)
666 = I64# (word64ToInt64# ((x'# `uncheckedShiftL64#` i'#) `or64#`
667 (x'# `uncheckedShiftRL64#` (64# -# i'#))))
669 x'# = int64ToWord64# x#
670 i'# = word2Int# (int2Word# i# `and#` int2Word# 63#)
675 -- give the 64-bit shift operations the same treatment as the 32-bit
676 -- ones (see GHC.Base), namely we wrap them in tests to catch the
677 -- cases when we're shifting more than 64 bits to avoid unspecified
678 -- behaviour in the C shift operations.
680 iShiftL64#, iShiftRA64# :: Int64# -> Int# -> Int64#
682 a `iShiftL64#` b | b >=# 64# = intToInt64# 0#
683 | otherwise = a `uncheckedIShiftL64#` b
685 a `iShiftRA64#` b | b >=# 64# = if a `ltInt64#` (intToInt64# 0#)
686 then intToInt64# (-1#)
688 | otherwise = a `uncheckedIShiftRA64#` b
691 foreign import ccall unsafe "stg_eqInt64" eqInt64# :: Int64# -> Int64# -> Bool
692 foreign import ccall unsafe "stg_neInt64" neInt64# :: Int64# -> Int64# -> Bool
693 foreign import ccall unsafe "stg_ltInt64" ltInt64# :: Int64# -> Int64# -> Bool
694 foreign import ccall unsafe "stg_leInt64" leInt64# :: Int64# -> Int64# -> Bool
695 foreign import ccall unsafe "stg_gtInt64" gtInt64# :: Int64# -> Int64# -> Bool
696 foreign import ccall unsafe "stg_geInt64" geInt64# :: Int64# -> Int64# -> Bool
697 foreign import ccall unsafe "stg_plusInt64" plusInt64# :: Int64# -> Int64# -> Int64#
698 foreign import ccall unsafe "stg_minusInt64" minusInt64# :: Int64# -> Int64# -> Int64#
699 foreign import ccall unsafe "stg_timesInt64" timesInt64# :: Int64# -> Int64# -> Int64#
700 foreign import ccall unsafe "stg_negateInt64" negateInt64# :: Int64# -> Int64#
701 foreign import ccall unsafe "stg_quotInt64" quotInt64# :: Int64# -> Int64# -> Int64#
702 foreign import ccall unsafe "stg_remInt64" remInt64# :: Int64# -> Int64# -> Int64#
703 foreign import ccall unsafe "stg_intToInt64" intToInt64# :: Int# -> Int64#
704 foreign import ccall unsafe "stg_int64ToInt" int64ToInt# :: Int64# -> Int#
705 foreign import ccall unsafe "stg_wordToWord64" wordToWord64# :: Word# -> Word64#
706 foreign import ccall unsafe "stg_int64ToWord64" int64ToWord64# :: Int64# -> Word64#
707 foreign import ccall unsafe "stg_word64ToInt64" word64ToInt64# :: Word64# -> Int64#
708 foreign import ccall unsafe "stg_and64" and64# :: Word64# -> Word64# -> Word64#
709 foreign import ccall unsafe "stg_or64" or64# :: Word64# -> Word64# -> Word64#
710 foreign import ccall unsafe "stg_xor64" xor64# :: Word64# -> Word64# -> Word64#
711 foreign import ccall unsafe "stg_not64" not64# :: Word64# -> Word64#
712 foreign import ccall unsafe "stg_uncheckedShiftL64" uncheckedShiftL64# :: Word64# -> Int# -> Word64#
713 foreign import ccall unsafe "stg_uncheckedShiftRL64" uncheckedShiftRL64# :: Word64# -> Int# -> Word64#
714 foreign import ccall unsafe "stg_uncheckedIShiftL64" uncheckedIShiftL64# :: Int64# -> Int# -> Int64#
715 foreign import ccall unsafe "stg_uncheckedIShiftRA64" uncheckedIShiftRA64# :: Int64# -> Int# -> Int64#
717 foreign import ccall unsafe "stg_integerToInt64" integerToInt64# :: Int# -> ByteArray# -> Int64#
720 "fromIntegral/Int->Int64" fromIntegral = \(I# x#) -> I64# (intToInt64# x#)
721 "fromIntegral/Word->Int64" fromIntegral = \(W# x#) -> I64# (word64ToInt64# (wordToWord64# x#))
722 "fromIntegral/Word64->Int64" fromIntegral = \(W64# x#) -> I64# (word64ToInt64# x#)
723 "fromIntegral/Int64->Int" fromIntegral = \(I64# x#) -> I# (int64ToInt# x#)
724 "fromIntegral/Int64->Word" fromIntegral = \(I64# x#) -> W# (int2Word# (int64ToInt# x#))
725 "fromIntegral/Int64->Word64" fromIntegral = \(I64# x#) -> W64# (int64ToWord64# x#)
726 "fromIntegral/Int64->Int64" fromIntegral = id :: Int64 -> Int64
731 -- Int64 is represented in the same way as Int.
732 -- Operations may assume and must ensure that it holds only values
733 -- from its logical range.
735 data Int64 = I64# Int# deriving (Eq, Ord)
736 -- ^ 64-bit signed integer type
738 instance Show Int64 where
739 showsPrec p x = showsPrec p (fromIntegral x :: Int)
741 instance Num Int64 where
742 (I64# x#) + (I64# y#) = I64# (x# +# y#)
743 (I64# x#) - (I64# y#) = I64# (x# -# y#)
744 (I64# x#) * (I64# y#) = I64# (x# *# y#)
745 negate (I64# x#) = I64# (negateInt# x#)
747 | otherwise = negate x
751 fromInteger (S# i#) = I64# i#
752 fromInteger (J# s# d#) = I64# (integer2Int# s# d#)
754 instance Enum Int64 where
756 | x /= maxBound = x + 1
757 | otherwise = succError "Int64"
759 | x /= minBound = x - 1
760 | otherwise = predError "Int64"
761 toEnum (I# i#) = I64# i#
762 fromEnum (I64# x#) = I# x#
763 enumFrom = boundedEnumFrom
764 enumFromThen = boundedEnumFromThen
766 instance Integral Int64 where
767 quot x@(I64# x#) y@(I64# y#)
768 | y == 0 = divZeroError
769 | x == minBound && y == (-1) = overflowError
770 | otherwise = I64# (x# `quotInt#` y#)
771 rem x@(I64# x#) y@(I64# y#)
772 | y == 0 = divZeroError
773 | x == minBound && y == (-1) = overflowError
774 | otherwise = I64# (x# `remInt#` y#)
775 div x@(I64# x#) y@(I64# y#)
776 | y == 0 = divZeroError
777 | x == minBound && y == (-1) = overflowError
778 | otherwise = I64# (x# `divInt#` y#)
779 mod x@(I64# x#) y@(I64# y#)
780 | y == 0 = divZeroError
781 | x == minBound && y == (-1) = overflowError
782 | otherwise = I64# (x# `modInt#` y#)
783 quotRem x@(I64# x#) y@(I64# y#)
784 | y == 0 = divZeroError
785 | x == minBound && y == (-1) = overflowError
786 | otherwise = (I64# (x# `quotInt#` y#), I64# (x# `remInt#` y#))
787 divMod x@(I64# x#) y@(I64# y#)
788 | y == 0 = divZeroError
789 | x == minBound && y == (-1) = overflowError
790 | otherwise = (I64# (x# `divInt#` y#), I64# (x# `modInt#` y#))
791 toInteger (I64# x#) = S# x#
793 instance Read Int64 where
794 readsPrec p s = [(fromIntegral (x::Int), r) | (x, r) <- readsPrec p s]
796 instance Bits Int64 where
799 (I64# x#) .&. (I64# y#) = I64# (word2Int# (int2Word# x# `and#` int2Word# y#))
800 (I64# x#) .|. (I64# y#) = I64# (word2Int# (int2Word# x# `or#` int2Word# y#))
801 (I64# x#) `xor` (I64# y#) = I64# (word2Int# (int2Word# x# `xor#` int2Word# y#))
802 complement (I64# x#) = I64# (word2Int# (int2Word# x# `xor#` int2Word# (-1#)))
803 (I64# x#) `shift` (I# i#)
804 | i# >=# 0# = I64# (x# `iShiftL#` i#)
805 | otherwise = I64# (x# `iShiftRA#` negateInt# i#)
806 (I64# x#) `rotate` (I# i#)
810 = I64# (word2Int# ((x'# `uncheckedShiftL#` i'#) `or#`
811 (x'# `uncheckedShiftRL#` (64# -# i'#))))
814 i'# = word2Int# (int2Word# i# `and#` int2Word# 63#)
819 "fromIntegral/a->Int64" fromIntegral = \x -> case fromIntegral x of I# x# -> I64# x#
820 "fromIntegral/Int64->a" fromIntegral = \(I64# x#) -> fromIntegral (I# x#)
825 instance Real Int64 where
826 toRational x = toInteger x % 1
828 instance Bounded Int64 where
829 minBound = -0x8000000000000000
830 maxBound = 0x7FFFFFFFFFFFFFFF
832 instance Ix Int64 where
834 unsafeIndex b@(m,_) i = fromIntegral i - fromIntegral m
835 inRange (m,n) i = m <= i && i <= n