{-# LANGUAGE Trustworthy #-} {-# LANGUAGE NoImplicitPrelude #-} {-# LANGUAGE MagicHash #-} {-# LANGUAGE PatternSynonyms #-} {-# LANGUAGE ViewPatterns #-} {-# LANGUAGE UnboxedSums #-} {-# OPTIONS_HADDOCK not-home #-} -- | Compatibility module for pre ghc-bignum code. module GHC.Natural ( Natural (NatS#, NatJ#) , B.BigNat (..) , mkNatural , isValidNatural -- * Arithmetic , plusNatural , minusNatural , minusNaturalMaybe , timesNatural , negateNatural , signumNatural , quotRemNatural , quotNatural , remNatural , gcdNatural , lcmNatural -- * Bits , andNatural , orNatural , xorNatural , bitNatural , testBitNatural , popCountNatural , shiftLNatural , shiftRNatural -- * Conversions , naturalToInteger , naturalToWord , naturalToWordMaybe , wordToNatural , wordToNatural# , naturalFromInteger -- * Modular arithmetic , powModNatural ) where import GHC.Prim import GHC.Types import GHC.Maybe import GHC.Num.Natural (Natural) import GHC.Num.Integer (Integer) import qualified GHC.Num.BigNat as B import qualified GHC.Num.Natural as N import qualified GHC.Num.Integer as I {-# COMPLETE NatS#, NatJ# #-} pattern NatS# :: Word# -> Natural pattern NatS# w = N.NS w pattern NatJ# :: B.BigNat -> Natural pattern NatJ# b <- N.NB (B.BN# -> b) where NatJ# b = N.NB (B.unBigNat b) int2Word :: Int -> Word int2Word (I# i) = W# (int2Word# i) word2Int :: Word -> Int word2Int (W# w) = I# (word2Int# w) -- | Construct 'Natural' value from list of 'Word's. mkNatural :: [Word] -> Natural mkNatural = N.naturalFromWordList -- | Test whether all internal invariants are satisfied by 'Natural' value -- -- This operation is mostly useful for test-suites and/or code which -- constructs 'Integer' values directly. -- -- @since 4.8.0.0 isValidNatural :: Natural -> Bool isValidNatural = N.naturalCheck -- | 'Natural' Addition plusNatural :: Natural -> Natural -> Natural plusNatural = N.naturalAdd -- | 'Natural' subtraction. May @'Control.Exception.throw' -- 'Control.Exception.Underflow'@. minusNatural :: Natural -> Natural -> Natural minusNatural = N.naturalSubThrow -- | 'Natural' subtraction. Returns 'Nothing's for non-positive results. -- -- @since 4.8.0.0 minusNaturalMaybe :: Natural -> Natural -> Maybe Natural minusNaturalMaybe x y = case N.naturalSub x y of (# _ | #) -> Nothing (# | n #) -> Just n -- | 'Natural' multiplication timesNatural :: Natural -> Natural -> Natural timesNatural = N.naturalMul negateNatural :: Natural -> Natural negateNatural = N.naturalNegate signumNatural :: Natural -> Natural signumNatural = N.naturalSignum quotRemNatural :: Natural -> Natural -> (Natural, Natural) quotRemNatural = N.naturalQuotRem remNatural :: Natural -> Natural -> Natural remNatural = N.naturalRem quotNatural :: Natural -> Natural -> Natural quotNatural = N.naturalQuot -- | Compute greatest common divisor. gcdNatural :: Natural -> Natural -> Natural gcdNatural = N.naturalGcd -- | Compute least common multiple. lcmNatural :: Natural -> Natural -> Natural lcmNatural = N.naturalLcm andNatural :: Natural -> Natural -> Natural andNatural = N.naturalAnd orNatural :: Natural -> Natural -> Natural orNatural = N.naturalOr xorNatural :: Natural -> Natural -> Natural xorNatural = N.naturalXor bitNatural :: Int# -> Natural bitNatural i = N.naturalBit# (int2Word# i) testBitNatural :: Natural -> Int -> Bool testBitNatural n i = N.naturalTestBit n (int2Word i) popCountNatural :: Natural -> Int popCountNatural n = word2Int (N.naturalPopCount n) shiftLNatural :: Natural -> Int -> Natural shiftLNatural n i = N.naturalShiftL n (int2Word i) shiftRNatural :: Natural -> Int -> Natural shiftRNatural n i = N.naturalShiftR n (int2Word i) -- | @since 4.12.0.0 naturalToInteger :: Natural -> Integer naturalToInteger = I.integerFromNatural naturalToWord :: Natural -> Word naturalToWord = N.naturalToWord -- | @since 4.10.0.0 naturalFromInteger :: Integer -> Natural naturalFromInteger = I.integerToNatural -- | Construct 'Natural' from 'Word' value. -- -- @since 4.8.0.0 wordToNatural :: Word -> Natural wordToNatural = N.naturalFromWord -- | Try downcasting 'Natural' to 'Word' value. -- Returns 'Nothing' if value doesn't fit in 'Word'. -- -- @since 4.8.0.0 naturalToWordMaybe :: Natural -> Maybe Word naturalToWordMaybe n = case N.naturalToWordMaybe# n of (# | w #) -> Just (W# w) (# (# #) | #) -> Nothing wordToNatural# :: Word -> Natural wordToNatural# = N.naturalFromWord -- | \"@'powModNatural' /b/ /e/ /m/@\" computes base @/b/@ raised to -- exponent @/e/@ modulo @/m/@. -- -- @since 4.8.0.0 powModNatural :: Natural -> Natural -> Natural -> Natural powModNatural = N.naturalPowMod