{-# LANGUAGE NoImplicitPrelude #-}
{-# LANGUAGE BangPatterns #-}
{-# LANGUAGE CPP #-}
{-# LANGUAGE DeriveDataTypeable #-}
{-# LANGUAGE GHCForeignImportPrim #-}
{-# LANGUAGE MagicHash #-}
{-# LANGUAGE UnboxedTuples #-}
{-# LANGUAGE UnliftedFFITypes #-}
{-# LANGUAGE NegativeLiterals #-}
{-# LANGUAGE BlockArguments #-}
{-# LANGUAGE LambdaCase #-}
{-# OPTIONS_GHC -Wno-name-shadowing #-}
module GHC.Num.Backend.GMP where
#include "MachDeps.h"
#include "WordSize.h"
import GHC.Num.WordArray
import GHC.Num.Primitives
import GHC.Prim
import GHC.Types
import GHC.Magic (runRW#)
import {-# SOURCE #-} GHC.Num.Integer
import {-# SOURCE #-} GHC.Num.BigNat
import {-# SOURCE #-} GHC.Num.Natural
default ()
backendName :: [Char]
backendName :: [Char]
backendName = [Char]
"gmp"
type GmpLimb = Word
type GmpLimb# = Word#
type GmpSize = Int
type GmpSize# = Int#
narrowGmpSize# :: Int# -> Int#
#if SIZEOF_LONG == SIZEOF_HSWORD
narrowGmpSize# :: Int# -> Int#
narrowGmpSize# Int#
x = Int#
x
#elif (SIZEOF_LONG == 4) && (SIZEOF_HSWORD == 8)
narrowGmpSize# = narrow32Int#
#endif
narrowCInt# :: Int# -> Int#
narrowCInt# :: Int# -> Int#
narrowCInt# = Int# -> Int#
narrow32Int#
bignat_compare :: WordArray# -> WordArray# -> Int#
bignat_compare :: WordArray# -> WordArray# -> Int#
bignat_compare WordArray#
x WordArray#
y = Int# -> Int#
narrowCInt# (WordArray# -> WordArray# -> Int# -> Int#
c_mpn_cmp WordArray#
x WordArray#
y (WordArray# -> Int#
wordArraySize# WordArray#
x))
bignat_add
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_add #-}
bignat_add :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_add MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s
| Int# -> Bool
isTrue# (WordArray# -> Int#
wordArraySize# WordArray#
wb Int# -> Int# -> Int#
># WordArray# -> Int#
wordArraySize# WordArray#
wa)
= case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
c_mpn_add MutableWordArray# RealWorld
mwa WordArray#
wb (WordArray# -> Int#
wordArraySize# WordArray#
wb) WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa)) State# RealWorld
s of
(# State# RealWorld
s', Word#
c #) -> MutableWordArray# RealWorld
-> Word# -> State# RealWorld -> State# RealWorld
forall s. MutableWordArray# s -> Word# -> State# s -> State# s
mwaWriteMostSignificant MutableWordArray# RealWorld
mwa Word#
c State# RealWorld
s'
| Bool
True
= case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
c_mpn_add MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) WordArray#
wb (WordArray# -> Int#
wordArraySize# WordArray#
wb)) State# RealWorld
s of
(# State# RealWorld
s', Word#
c #) -> MutableWordArray# RealWorld
-> Word# -> State# RealWorld -> State# RealWorld
forall s. MutableWordArray# s -> Word# -> State# s -> State# s
mwaWriteMostSignificant MutableWordArray# RealWorld
mwa Word#
c State# RealWorld
s'
bignat_add_word
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_add_word #-}
bignat_add_word :: MutableWordArray# RealWorld
-> WordArray# -> Word# -> State# RealWorld -> State# RealWorld
bignat_add_word MutableWordArray# RealWorld
mwa WordArray#
wa Word#
b State# RealWorld
s = do
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_add_1 MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
b) State# RealWorld
s of
(# State# RealWorld
s', Word#
c #) -> MutableWordArray# RealWorld
-> Word# -> State# RealWorld -> State# RealWorld
forall s. MutableWordArray# s -> Word# -> State# s -> State# s
mwaWriteMostSignificant MutableWordArray# RealWorld
mwa Word#
c State# RealWorld
s'
bignat_sub
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> (# State# RealWorld, Bool# #)
{-# INLINE bignat_sub #-}
bignat_sub :: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> (# State# RealWorld, Int# #)
bignat_sub MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s =
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
c_mpn_sub MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) WordArray#
wb (WordArray# -> Int#
wordArraySize# WordArray#
wb)) State# RealWorld
s of
(# State# RealWorld
s', Word#
1## #) -> (# State# RealWorld
s', Int#
0# #)
(# State# RealWorld
s', Word#
_ #) -> (# State# RealWorld
s', Int#
1# #)
bignat_sub_word
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> (# State# RealWorld, Bool# #)
{-# INLINE bignat_sub_word #-}
bignat_sub_word :: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> (# State# RealWorld, Int# #)
bignat_sub_word MutableWordArray# RealWorld
mwa WordArray#
wa Word#
b State# RealWorld
s =
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_sub_1 MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
b) State# RealWorld
s of
(# State# RealWorld
s', Word#
1## #) -> (# State# RealWorld
s', Int#
0# #)
(# State# RealWorld
s', Word#
_ #) -> (# State# RealWorld
s', Int#
1# #)
bignat_mul
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_mul #-}
bignat_mul :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_mul MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s = do
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Word
c_mpn_mul MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) WordArray#
wb (WordArray# -> Int#
wordArraySize# WordArray#
wb)) State# RealWorld
s of
(# State# RealWorld
s', Word#
_msl #) -> State# RealWorld
s'
bignat_mul_word
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_mul_word #-}
bignat_mul_word :: MutableWordArray# RealWorld
-> WordArray# -> Word# -> State# RealWorld -> State# RealWorld
bignat_mul_word MutableWordArray# RealWorld
mwa WordArray#
wa Word#
b State# RealWorld
s =
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_mul_1 MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
b) State# RealWorld
s of
(# State# RealWorld
s', Word#
c #) -> MutableWordArray# RealWorld
-> Word# -> State# RealWorld -> State# RealWorld
forall s. MutableWordArray# s -> Word# -> State# s -> State# s
mwaWriteMostSignificant MutableWordArray# RealWorld
mwa Word#
c State# RealWorld
s'
bignat_popcount :: WordArray# -> Word#
{-# INLINE bignat_popcount #-}
bignat_popcount :: WordArray# -> Word#
bignat_popcount WordArray#
wa = WordArray# -> Int# -> Word#
c_mpn_popcount WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa)
bignat_shiftl
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_shiftl #-}
bignat_shiftl :: MutableWordArray# RealWorld
-> WordArray# -> Word# -> State# RealWorld -> State# RealWorld
bignat_shiftl MutableWordArray# RealWorld
mwa WordArray#
wa Word#
n State# RealWorld
s =
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_lshift MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
n) State# RealWorld
s of
(# State# RealWorld
s', Word#
_msl #) -> State# RealWorld
s'
bignat_shiftr
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_shiftr #-}
bignat_shiftr :: MutableWordArray# RealWorld
-> WordArray# -> Word# -> State# RealWorld -> State# RealWorld
bignat_shiftr MutableWordArray# RealWorld
mwa WordArray#
wa Word#
n State# RealWorld
s =
case IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_rshift MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
n) State# RealWorld
s of
(# State# RealWorld
s', Word#
_msl #) -> State# RealWorld
s'
bignat_or
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_or #-}
bignat_or :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_or MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s1
| Int# -> Bool
isTrue# (Int#
szA Int# -> Int# -> Int#
>=# Int#
szB) = WordArray#
-> Int#
-> WordArray#
-> Int#
-> State# RealWorld
-> State# RealWorld
go WordArray#
wa Int#
szA WordArray#
wb Int#
szB State# RealWorld
s1
| Bool
True = WordArray#
-> Int#
-> WordArray#
-> Int#
-> State# RealWorld
-> State# RealWorld
go WordArray#
wb Int#
szB WordArray#
wa Int#
szA State# RealWorld
s1
where
!szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
!szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
go :: WordArray#
-> Int#
-> WordArray#
-> Int#
-> State# RealWorld
-> State# RealWorld
go WordArray#
wx Int#
nx WordArray#
wy Int#
ny State# RealWorld
s = case IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> Int# -> IO ()
forall s.
MutableByteArray# s -> WordArray# -> WordArray# -> Int# -> IO ()
c_mpn_ior_n MutableWordArray# RealWorld
mwa WordArray#
wx WordArray#
wy Int#
ny) State# RealWorld
s of
State# RealWorld
s' -> MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> Int#
-> Int#
-> State# RealWorld
-> State# RealWorld
forall s.
MutableByteArray# s
-> Int# -> WordArray# -> Int# -> Int# -> State# s -> State# s
mwaArrayCopy# MutableWordArray# RealWorld
mwa Int#
ny WordArray#
wx Int#
ny (Int#
nx Int# -> Int# -> Int#
-# Int#
ny) State# RealWorld
s'
bignat_xor
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_xor #-}
bignat_xor :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_xor MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s1
| Int# -> Bool
isTrue# (Int#
szA Int# -> Int# -> Int#
>=# Int#
szB) = WordArray#
-> Int#
-> WordArray#
-> Int#
-> State# RealWorld
-> State# RealWorld
go WordArray#
wa Int#
szA WordArray#
wb Int#
szB State# RealWorld
s1
| Bool
True = WordArray#
-> Int#
-> WordArray#
-> Int#
-> State# RealWorld
-> State# RealWorld
go WordArray#
wb Int#
szB WordArray#
wa Int#
szA State# RealWorld
s1
where
!szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
!szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
go :: WordArray#
-> Int#
-> WordArray#
-> Int#
-> State# RealWorld
-> State# RealWorld
go WordArray#
wx Int#
nx WordArray#
wy Int#
ny State# RealWorld
s = case IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> Int# -> IO ()
forall s.
MutableByteArray# s -> WordArray# -> WordArray# -> Int# -> IO ()
c_mpn_xor_n MutableWordArray# RealWorld
mwa WordArray#
wx WordArray#
wy Int#
ny) State# RealWorld
s of
State# RealWorld
s' -> MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> Int#
-> Int#
-> State# RealWorld
-> State# RealWorld
forall s.
MutableByteArray# s
-> Int# -> WordArray# -> Int# -> Int# -> State# s -> State# s
mwaArrayCopy# MutableWordArray# RealWorld
mwa Int#
ny WordArray#
wx Int#
ny (Int#
nx Int# -> Int# -> Int#
-# Int#
ny) State# RealWorld
s'
bignat_and
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_and #-}
bignat_and :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_and MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s = IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> Int# -> IO ()
forall s.
MutableByteArray# s -> WordArray# -> WordArray# -> Int# -> IO ()
c_mpn_and_n MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb Int#
sz) State# RealWorld
s
where
!szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
!szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
!sz :: Int#
sz = Int# -> Int# -> Int#
minI# Int#
szA Int#
szB
bignat_and_not
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
{-# INLINE bignat_and_not #-}
bignat_and_not :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_and_not MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb State# RealWorld
s =
case IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> Int# -> IO ()
forall s.
MutableByteArray# s -> WordArray# -> WordArray# -> Int# -> IO ()
c_mpn_andn_n MutableWordArray# RealWorld
mwa WordArray#
wa WordArray#
wb Int#
n) State# RealWorld
s of
State# RealWorld
s' -> MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> Int#
-> Int#
-> State# RealWorld
-> State# RealWorld
forall s.
MutableByteArray# s
-> Int# -> WordArray# -> Int# -> Int# -> State# s -> State# s
mwaArrayCopy# MutableWordArray# RealWorld
mwa Int#
szB WordArray#
wa Int#
szB (Int#
szA Int# -> Int# -> Int#
-# Int#
szB) State# RealWorld
s'
where
!szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
!szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
!n :: Int#
n = Int# -> Int# -> Int#
minI# Int#
szA Int#
szB
bignat_quotrem
:: MutableWordArray# RealWorld
-> MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_quotrem :: MutableWordArray# RealWorld
-> MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_quotrem MutableWordArray# RealWorld
mwq MutableWordArray# RealWorld
mwr WordArray#
wa WordArray#
wb State# RealWorld
s =
IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> Int#
-> WordArray#
-> Int#
-> IO ()
forall s.
MutableByteArray# s
-> MutableByteArray# s
-> Int#
-> WordArray#
-> Int#
-> WordArray#
-> Int#
-> IO ()
c_mpn_tdiv_qr MutableWordArray# RealWorld
mwq MutableWordArray# RealWorld
mwr Int#
0# WordArray#
wa Int#
szA WordArray#
wb Int#
szB) State# RealWorld
s
where
szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
bignat_quot
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_quot :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_quot MutableWordArray# RealWorld
mwq WordArray#
wa WordArray#
wb State# RealWorld
s =
IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO ()
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO ()
c_mpn_tdiv_q MutableWordArray# RealWorld
mwq WordArray#
wa Int#
szA WordArray#
wb Int#
szB) State# RealWorld
s
where
szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
bignat_rem
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_rem :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_rem MutableWordArray# RealWorld
mwr WordArray#
wa WordArray#
wb State# RealWorld
s =
IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO ()
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO ()
c_mpn_tdiv_r MutableWordArray# RealWorld
mwr WordArray#
wa Int#
szA WordArray#
wb Int#
szB) State# RealWorld
s
where
szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
szB :: Int#
szB = WordArray# -> Int#
wordArraySize# WordArray#
wb
bignat_quotrem_word
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> (# State# RealWorld, Word# #)
bignat_quotrem_word :: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> (# State# RealWorld, Word# #)
bignat_quotrem_word MutableWordArray# RealWorld
mwq WordArray#
wa Word#
b State# RealWorld
s =
IO Word -> State# RealWorld -> (# State# RealWorld, Word# #)
ioWord# (MutableWordArray# RealWorld
-> Int# -> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s
-> Int# -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_divrem_1 MutableWordArray# RealWorld
mwq Int#
0# WordArray#
wa Int#
szA Word#
b) State# RealWorld
s
where
szA :: Int#
szA = WordArray# -> Int#
wordArraySize# WordArray#
wa
bignat_quot_word
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> State# RealWorld
bignat_quot_word :: MutableWordArray# RealWorld
-> WordArray# -> Word# -> State# RealWorld -> State# RealWorld
bignat_quot_word MutableWordArray# RealWorld
mwq WordArray#
wa Word#
b State# RealWorld
s =
case MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> (# State# RealWorld, Word# #)
bignat_quotrem_word MutableWordArray# RealWorld
mwq WordArray#
wa Word#
b State# RealWorld
s of
(# State# RealWorld
s', Word#
_ #) -> State# RealWorld
s'
bignat_rem_word
:: WordArray#
-> Word#
-> Word#
bignat_rem_word :: WordArray# -> Word# -> Word#
bignat_rem_word WordArray#
wa Word#
b =
WordArray# -> Int# -> Word# -> Word#
c_mpn_mod_1 WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
b
bignat_gcd
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_gcd :: MutableWordArray# RealWorld
-> WordArray# -> WordArray# -> State# RealWorld -> State# RealWorld
bignat_gcd MutableWordArray# RealWorld
mwr WordArray#
wa WordArray#
wb State# RealWorld
s =
case IO Int -> State# RealWorld -> (# State# RealWorld, Int# #)
ioInt# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Int
forall s.
MutableByteArray# s
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Int
c_mpn_gcd# MutableWordArray# RealWorld
mwr WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) WordArray#
wb (WordArray# -> Int#
wordArraySize# WordArray#
wb)) State# RealWorld
s of
(# State# RealWorld
s', Int#
sz #) -> MutableWordArray# RealWorld
-> Int# -> State# RealWorld -> State# RealWorld
forall s. MutableByteArray# s -> Int# -> State# s -> State# s
mwaSetSize# MutableWordArray# RealWorld
mwr (Int# -> Int#
narrowGmpSize# Int#
sz) State# RealWorld
s'
bignat_gcd_word
:: WordArray#
-> Word#
-> Word#
bignat_gcd_word :: WordArray# -> Word# -> Word#
bignat_gcd_word WordArray#
wa Word#
b = WordArray# -> Int# -> Word# -> Word#
c_mpn_gcd_1# WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
b
bignat_gcd_word_word
:: Word#
-> Word#
-> Word#
bignat_gcd_word_word :: Word# -> Word# -> Word#
bignat_gcd_word_word = Word# -> Word# -> Word#
integer_gmp_gcd_word
bignat_encode_double :: WordArray# -> Int# -> Double#
bignat_encode_double :: WordArray# -> Int# -> Double#
bignat_encode_double WordArray#
wa Int#
e = WordArray# -> Int# -> Int# -> Double#
c_mpn_get_d WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Int#
e
bignat_shiftr_neg
:: MutableWordArray# RealWorld
-> WordArray#
-> Word#
-> State# RealWorld
-> State# RealWorld
bignat_shiftr_neg :: MutableWordArray# RealWorld
-> WordArray# -> Word# -> State# RealWorld -> State# RealWorld
bignat_shiftr_neg MutableWordArray# RealWorld
mwa WordArray#
wa Word#
n State# RealWorld
s =
IO Word -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> WordArray# -> Int# -> Word# -> IO Word
forall s.
MutableByteArray# s -> WordArray# -> Int# -> Word# -> IO Word
c_mpn_rshift_2c MutableWordArray# RealWorld
mwa WordArray#
wa (WordArray# -> Int#
wordArraySize# WordArray#
wa) Word#
n) State# RealWorld
s
bignat_powmod_word
:: WordArray#
-> WordArray#
-> Word#
-> Word#
bignat_powmod_word :: WordArray# -> WordArray# -> Word# -> Word#
bignat_powmod_word WordArray#
b WordArray#
e Word#
m =
WordArray# -> Int# -> WordArray# -> Int# -> Word# -> Word#
integer_gmp_powm1# WordArray#
b (WordArray# -> Int#
wordArraySize# WordArray#
b) WordArray#
e (WordArray# -> Int#
wordArraySize# WordArray#
e) Word#
m
bignat_powmod_words
:: Word#
-> Word#
-> Word#
-> Word#
bignat_powmod_words :: Word# -> Word# -> Word# -> Word#
bignat_powmod_words = Word# -> Word# -> Word# -> Word#
integer_gmp_powm_word
bignat_powmod
:: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_powmod :: MutableWordArray# RealWorld
-> WordArray#
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
bignat_powmod MutableWordArray# RealWorld
r WordArray#
b WordArray#
e WordArray#
m State# RealWorld
s = MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
sbignat_powmod MutableWordArray# RealWorld
r (WordArray# -> Int#
wordArraySize# WordArray#
b) WordArray#
b WordArray#
e WordArray#
m State# RealWorld
s
integer_powmod
:: Integer
-> Natural
-> Natural
-> Natural
integer_powmod :: Integer -> Natural -> Natural -> Natural
integer_powmod Integer
b Natural
e Natural
m = WordArray# -> Natural
naturalFromBigNat# (Int#
-> (MutableWordArray# RealWorld
-> State# RealWorld -> State# RealWorld)
-> WordArray#
withNewWordArray# Int#
szm MutableWordArray# RealWorld -> State# RealWorld -> State# RealWorld
io)
where
!be :: WordArray#
be = Natural -> WordArray#
naturalToBigNat# Natural
e
!bm :: WordArray#
bm = Natural -> WordArray#
naturalToBigNat# Natural
m
!(# Int#
sb, WordArray#
bb #) = Integer -> (# Int#, WordArray# #)
integerToBigNatSign# Integer
b
!szb :: Int#
szb = WordArray# -> Int#
bigNatSize# WordArray#
bb
!szm :: Int#
szm = WordArray# -> Int#
bigNatSize# WordArray#
bm
!ssb :: Int#
ssb = case Int#
sb of
Int#
0# -> Int#
szb
Int#
_ -> Int# -> Int#
negateInt# Int#
szb
io :: MutableWordArray# RealWorld -> State# RealWorld -> State# RealWorld
io MutableWordArray# RealWorld
r State# RealWorld
s = MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
sbignat_powmod MutableWordArray# RealWorld
r Int#
ssb WordArray#
bb WordArray#
be WordArray#
bm State# RealWorld
s
sbignat_powmod
:: MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
sbignat_powmod :: MutableWordArray# RealWorld
-> Int#
-> WordArray#
-> WordArray#
-> WordArray#
-> State# RealWorld
-> State# RealWorld
sbignat_powmod MutableWordArray# RealWorld
r Int#
b_signed_size WordArray#
b WordArray#
e WordArray#
m State# RealWorld
s =
case IO Int -> State# RealWorld -> (# State# RealWorld, Int# #)
ioInt# (MutableWordArray# RealWorld
-> WordArray#
-> Int#
-> WordArray#
-> Int#
-> WordArray#
-> Int#
-> IO Int
integer_gmp_powm# MutableWordArray# RealWorld
r WordArray#
b Int#
b_signed_size WordArray#
e (WordArray# -> Int#
wordArraySize# WordArray#
e) WordArray#
m (WordArray# -> Int#
wordArraySize# WordArray#
m)) State# RealWorld
s of
(# State# RealWorld
s', Int#
n #) -> MutableWordArray# RealWorld
-> Int# -> State# RealWorld -> State# RealWorld
forall s. MutableByteArray# s -> Int# -> State# s -> State# s
mwaSetSize# MutableWordArray# RealWorld
r (Int# -> Int#
narrowGmpSize# Int#
n) State# RealWorld
s'
integer_gcde
:: Integer
-> Integer
-> (# Integer, Integer, Integer #)
integer_gcde :: Integer -> Integer -> (# Integer, Integer, Integer #)
integer_gcde Integer
a Integer
b = case (State# RealWorld
-> (# State# RealWorld, (# Integer, Integer, Integer #) #))
-> (# State# RealWorld, (# Integer, Integer, Integer #) #)
forall o. (State# RealWorld -> o) -> o
runRW# State# RealWorld
-> (# State# RealWorld, (# Integer, Integer, Integer #) #)
io of (# State# RealWorld
_, (# Integer, Integer, Integer #)
a #) -> (# Integer, Integer, Integer #)
a
where
!(# Int#
sa, WordArray#
ba #) = Integer -> (# Int#, WordArray# #)
integerToBigNatSign# Integer
a
!(# Int#
sb, WordArray#
bb #) = Integer -> (# Int#, WordArray# #)
integerToBigNatSign# Integer
b
!sza :: Int#
sza = WordArray# -> Int#
bigNatSize# WordArray#
ba
!szb :: Int#
szb = WordArray# -> Int#
bigNatSize# WordArray#
bb
!ssa :: Int#
ssa = case Int#
sa of
Int#
0# -> Int#
sza
Int#
_ -> Int# -> Int#
negateInt# Int#
sza
!ssb :: Int#
ssb = case Int#
sb of
Int#
0# -> Int#
szb
Int#
_ -> Int# -> Int#
negateInt# Int#
szb
!g_init_sz :: Int#
g_init_sz = Int# -> Int# -> Int#
minI# Int#
sza Int#
szb
!x_init_sz :: Int#
x_init_sz = Int#
szb
!y_init_sz :: Int#
y_init_sz = Int#
sza
io :: State# RealWorld
-> (# State# RealWorld, (# Integer, Integer, Integer #) #)
io State# RealWorld
s =
case Int#
-> State# RealWorld
-> (# State# RealWorld, MutableWordArray# RealWorld #)
forall s. Int# -> State# s -> (# State# s, MutableWordArray# s #)
newWordArray# Int#
g_init_sz State# RealWorld
s of { (# State# RealWorld
s, MutableWordArray# RealWorld
mbg #) ->
case Int#
-> State# RealWorld
-> (# State# RealWorld, MutableWordArray# RealWorld #)
forall s. Int# -> State# s -> (# State# s, MutableWordArray# s #)
newWordArray# Int#
x_init_sz State# RealWorld
s of { (# State# RealWorld
s, MutableWordArray# RealWorld
mbx #) ->
case Int#
-> State# RealWorld
-> (# State# RealWorld, MutableWordArray# RealWorld #)
forall s. Int# -> State# s -> (# State# s, MutableWordArray# s #)
newWordArray# Int#
y_init_sz State# RealWorld
s of { (# State# RealWorld
s, MutableWordArray# RealWorld
mby #) ->
case Int#
-> State# RealWorld
-> (# State# RealWorld, MutableWordArray# RealWorld #)
forall s. Int# -> State# s -> (# State# s, MutableWordArray# s #)
newPinnedByteArray# Int#
12# State# RealWorld
s of { (# State# RealWorld
s, MutableWordArray# RealWorld
mszs #) ->
case MutableWordArray# RealWorld
-> State# RealWorld -> (# State# RealWorld, WordArray# #)
forall d.
MutableByteArray# d -> State# d -> (# State# d, WordArray# #)
unsafeFreezeByteArray# MutableWordArray# RealWorld
mszs State# RealWorld
s of { (# State# RealWorld
s, WordArray#
szs #) ->
let !ssx_ptr :: Addr#
ssx_ptr = WordArray# -> Addr#
byteArrayContents# WordArray#
szs in
let !ssy_ptr :: Addr#
ssy_ptr = Addr#
ssx_ptr Addr# -> Int# -> Addr#
`plusAddr#` Int#
4# in
let !sg_ptr :: Addr#
sg_ptr = Addr#
ssy_ptr Addr# -> Int# -> Addr#
`plusAddr#` Int#
4# in
case IO () -> State# RealWorld -> State# RealWorld
forall a. IO a -> State# RealWorld -> State# RealWorld
ioVoid (MutableWordArray# RealWorld
-> Addr#
-> MutableWordArray# RealWorld
-> Addr#
-> MutableWordArray# RealWorld
-> Addr#
-> WordArray#
-> Int#
-> WordArray#
-> Int#
-> IO ()
forall s.
MutableByteArray# s
-> Addr#
-> MutableByteArray# s
-> Addr#
-> MutableByteArray# s
-> Addr#
-> WordArray#
-> Int#
-> WordArray#
-> Int#
-> IO ()
integer_gmp_gcdext# MutableWordArray# RealWorld
mbx Addr#
ssx_ptr MutableWordArray# RealWorld
mby Addr#
ssy_ptr MutableWordArray# RealWorld
mbg Addr#
sg_ptr WordArray#
ba Int#
ssa WordArray#
bb Int#
ssb) State# RealWorld
s of { State# RealWorld
s ->
case Addr# -> Int# -> State# RealWorld -> (# State# RealWorld, Int32# #)
forall d. Addr# -> Int# -> State# d -> (# State# d, Int32# #)
readInt32OffAddr# Addr#
ssx_ptr Int#
0# State# RealWorld
s of { (# State# RealWorld
s, Int32#
ssx #) ->
case Addr# -> Int# -> State# RealWorld -> (# State# RealWorld, Int32# #)
forall d. Addr# -> Int# -> State# d -> (# State# d, Int32# #)
readInt32OffAddr# Addr#
ssy_ptr Int#
0# State# RealWorld
s of { (# State# RealWorld
s, Int32#
ssy #) ->
case Addr# -> Int# -> State# RealWorld -> (# State# RealWorld, Int32# #)
forall d. Addr# -> Int# -> State# d -> (# State# d, Int32# #)
readInt32OffAddr# Addr#
sg_ptr Int#
0# State# RealWorld
s of { (# State# RealWorld
s, Int32#
sg #) ->
case WordArray# -> State# RealWorld -> State# RealWorld
forall a d. a -> State# d -> State# d
touch# WordArray#
szs State# RealWorld
s of { State# RealWorld
s ->
let !sx :: Int#
sx = Int# -> Int#
absI# (Int32# -> Int#
int32ToInt# Int32#
ssx) in
let !sy :: Int#
sy = Int# -> Int#
absI# (Int32# -> Int#
int32ToInt# Int32#
ssy) in
case MutableWordArray# RealWorld
-> Int# -> State# RealWorld -> State# RealWorld
forall s. MutableByteArray# s -> Int# -> State# s -> State# s
mwaSetSize# MutableWordArray# RealWorld
mbx Int#
sx State# RealWorld
s of { State# RealWorld
s ->
case MutableWordArray# RealWorld
-> Int# -> State# RealWorld -> State# RealWorld
forall s. MutableByteArray# s -> Int# -> State# s -> State# s
mwaSetSize# MutableWordArray# RealWorld
mby Int#
sy State# RealWorld
s of { State# RealWorld
s ->
case MutableWordArray# RealWorld
-> Int# -> State# RealWorld -> State# RealWorld
forall s. MutableByteArray# s -> Int# -> State# s -> State# s
mwaSetSize# MutableWordArray# RealWorld
mbg (Int32# -> Int#
int32ToInt# Int32#
sg) State# RealWorld
s of { State# RealWorld
s ->
case MutableWordArray# RealWorld
-> State# RealWorld -> (# State# RealWorld, WordArray# #)
forall d.
MutableByteArray# d -> State# d -> (# State# d, WordArray# #)
unsafeFreezeByteArray# MutableWordArray# RealWorld
mbx State# RealWorld
s of { (# State# RealWorld
s, WordArray#
bx #) ->
case MutableWordArray# RealWorld
-> State# RealWorld -> (# State# RealWorld, WordArray# #)
forall d.
MutableByteArray# d -> State# d -> (# State# d, WordArray# #)
unsafeFreezeByteArray# MutableWordArray# RealWorld
mby State# RealWorld
s of { (# State# RealWorld
s, WordArray#
by #) ->
case MutableWordArray# RealWorld
-> State# RealWorld -> (# State# RealWorld, WordArray# #)
forall d.
MutableByteArray# d -> State# d -> (# State# d, WordArray# #)
unsafeFreezeByteArray# MutableWordArray# RealWorld
mbg State# RealWorld
s of { (# State# RealWorld
s, WordArray#
bg #) ->
(# State# RealWorld
s, (# WordArray# -> Integer
integerFromBigNat# WordArray#
bg
, Int# -> WordArray# -> Integer
integerFromBigNatSign# (Int32# -> Int#
int32ToInt# Int32#
ssx Int# -> Int# -> Int#
<# Int#
0#) WordArray#
bx
, Int# -> WordArray# -> Integer
integerFromBigNatSign# (Int32# -> Int#
int32ToInt# Int32#
ssy Int# -> Int# -> Int#
<# Int#
0#) WordArray#
by #) #)
}}}}}}}}}}}}}}}}
integer_recip_mod
:: Integer
-> Natural
-> (# Natural | () #)
integer_recip_mod :: Integer -> Natural -> (# Natural | () #)
integer_recip_mod Integer
x Natural
m =
let
!(# Int#
sign_x, WordArray#
bx #) = Integer -> (# Int#, WordArray# #)
integerToBigNatSign# Integer
x
!bm :: WordArray#
bm = Natural -> WordArray#
naturalToBigNat# Natural
m
!br :: WordArray#
br = Int# -> WordArray# -> WordArray# -> WordArray#
sbignat_recip_mod Int#
sign_x WordArray#
bx WordArray#
bm
in if Int# -> Bool
isTrue# (WordArray# -> Int#
bigNatIsZero# WordArray#
br)
then (# | () #)
else (# WordArray# -> Natural
naturalFromBigNat# WordArray#
br | #)
sbignat_recip_mod :: Int# -> BigNat# -> BigNat# -> BigNat#
sbignat_recip_mod :: Int# -> WordArray# -> WordArray# -> WordArray#
sbignat_recip_mod Int#
sign_x WordArray#
x WordArray#
m = Int#
-> (MutableWordArray# RealWorld
-> State# RealWorld -> State# RealWorld)
-> WordArray#
withNewWordArray# Int#
szm MutableWordArray# RealWorld -> State# RealWorld -> State# RealWorld
io
where
io :: MutableWordArray# RealWorld -> State# RealWorld -> State# RealWorld
io MutableWordArray# RealWorld
r State# RealWorld
s = case IO Int -> State# RealWorld -> (# State# RealWorld, Int# #)
ioInt# (MutableWordArray# RealWorld
-> WordArray# -> Int# -> WordArray# -> Int# -> IO Int
integer_gmp_invert# MutableWordArray# RealWorld
r WordArray#
x Int#
ssx WordArray#
m Int#
szm) State# RealWorld
s of
(# State# RealWorld
s, Int#
rn #) -> MutableWordArray# RealWorld
-> Int# -> State# RealWorld -> State# RealWorld
forall s. MutableByteArray# s -> Int# -> State# s -> State# s
mwaSetSize# MutableWordArray# RealWorld
r (Int# -> Int#
narrowGmpSize# Int#
rn) State# RealWorld
s
!szx :: Int#
szx = WordArray# -> Int#
bigNatSize# WordArray#
x
!szm :: Int#
szm = WordArray# -> Int#
bigNatSize# WordArray#
m
!ssx :: Int#
ssx = case Int#
sign_x of
Int#
0# -> Int#
szx
Int#
_ -> Int# -> Int#
negateInt# Int#
szx
foreign import ccall unsafe "integer_gmp_gcd_word"
integer_gmp_gcd_word :: GmpLimb# -> GmpLimb# -> GmpLimb#
foreign import ccall unsafe "integer_gmp_mpn_gcd_1"
c_mpn_gcd_1# :: ByteArray# -> GmpSize# -> GmpLimb# -> GmpLimb#
foreign import ccall unsafe "integer_gmp_mpn_gcd"
c_mpn_gcd# :: MutableByteArray# s -> ByteArray# -> GmpSize#
-> ByteArray# -> GmpSize# -> IO GmpSize
foreign import ccall unsafe "integer_gmp_gcdext" integer_gmp_gcdext#
:: MutableByteArray# s -> Addr#
-> MutableByteArray# s -> Addr#
-> MutableByteArray# s -> Addr#
-> ByteArray# -> GmpSize#
-> ByteArray# -> GmpSize#
-> IO ()
foreign import ccall unsafe "integer_gmp_invert"
integer_gmp_invert# :: MutableByteArray# RealWorld
-> ByteArray# -> GmpSize#
-> ByteArray# -> GmpSize# -> IO GmpSize
foreign import ccall unsafe "gmp.h __gmpn_add_1"
c_mpn_add_1 :: MutableByteArray# s -> ByteArray# -> GmpSize# -> GmpLimb#
-> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_sub_1"
c_mpn_sub_1 :: MutableByteArray# s -> ByteArray# -> GmpSize# -> GmpLimb#
-> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_mul_1"
c_mpn_mul_1 :: MutableByteArray# s -> ByteArray# -> GmpSize# -> GmpLimb#
-> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_add"
c_mpn_add :: MutableByteArray# s -> ByteArray# -> GmpSize#
-> ByteArray# -> GmpSize# -> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_sub"
c_mpn_sub :: MutableByteArray# s -> ByteArray# -> GmpSize# -> ByteArray#
-> GmpSize# -> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_mul"
c_mpn_mul :: MutableByteArray# s -> ByteArray# -> GmpSize# -> ByteArray#
-> GmpSize# -> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_cmp"
c_mpn_cmp :: ByteArray# -> ByteArray# -> GmpSize# -> Int#
foreign import ccall unsafe "gmp.h __gmpn_tdiv_qr"
c_mpn_tdiv_qr :: MutableByteArray# s -> MutableByteArray# s -> GmpSize#
-> ByteArray# -> GmpSize# -> ByteArray# -> GmpSize# -> IO ()
foreign import ccall unsafe "integer_gmp_mpn_tdiv_q"
c_mpn_tdiv_q :: MutableByteArray# s -> ByteArray# -> GmpSize# -> ByteArray#
-> GmpSize# -> IO ()
foreign import ccall unsafe "integer_gmp_mpn_tdiv_r"
c_mpn_tdiv_r :: MutableByteArray# s -> ByteArray# -> GmpSize# -> ByteArray#
-> GmpSize# -> IO ()
foreign import ccall unsafe "gmp.h __gmpn_divrem_1"
c_mpn_divrem_1 :: MutableByteArray# s -> GmpSize# -> ByteArray# -> GmpSize#
-> GmpLimb# -> IO GmpLimb
foreign import ccall unsafe "gmp.h __gmpn_mod_1"
c_mpn_mod_1 :: ByteArray# -> GmpSize# -> GmpLimb# -> GmpLimb#
foreign import ccall unsafe "integer_gmp_mpn_rshift"
c_mpn_rshift :: MutableByteArray# s -> ByteArray# -> GmpSize# -> Word#
-> IO GmpLimb
foreign import ccall unsafe "integer_gmp_mpn_rshift_2c"
c_mpn_rshift_2c :: MutableByteArray# s -> ByteArray# -> GmpSize# -> Word#
-> IO GmpLimb
foreign import ccall unsafe "integer_gmp_mpn_lshift"
c_mpn_lshift :: MutableByteArray# s -> ByteArray# -> GmpSize# -> Word#
-> IO GmpLimb
foreign import ccall unsafe "integer_gmp_mpn_and_n"
c_mpn_and_n :: MutableByteArray# s -> ByteArray# -> ByteArray# -> GmpSize#
-> IO ()
foreign import ccall unsafe "integer_gmp_mpn_andn_n"
c_mpn_andn_n :: MutableByteArray# s -> ByteArray# -> ByteArray# -> GmpSize#
-> IO ()
foreign import ccall unsafe "integer_gmp_mpn_ior_n"
c_mpn_ior_n :: MutableByteArray# s -> ByteArray# -> ByteArray# -> GmpSize#
-> IO ()
foreign import ccall unsafe "integer_gmp_mpn_xor_n"
c_mpn_xor_n :: MutableByteArray# s -> ByteArray# -> ByteArray# -> GmpSize#
-> IO ()
foreign import ccall unsafe "gmp.h __gmpn_popcount"
c_mpn_popcount :: ByteArray# -> GmpSize# -> Word#
foreign import ccall unsafe "integer_gmp_mpn_get_d"
c_mpn_get_d :: ByteArray# -> GmpSize# -> Int# -> Double#
foreign import ccall unsafe "integer_gmp_powm"
integer_gmp_powm# :: MutableByteArray# RealWorld
-> ByteArray# -> GmpSize# -> ByteArray# -> GmpSize#
-> ByteArray# -> GmpSize# -> IO GmpSize
foreign import ccall unsafe "integer_gmp_powm_word"
integer_gmp_powm_word :: GmpLimb# -> GmpLimb# -> GmpLimb# -> GmpLimb#
foreign import ccall unsafe "integer_gmp_powm1"
integer_gmp_powm1# :: ByteArray# -> GmpSize# -> ByteArray# -> GmpSize#
-> GmpLimb# -> GmpLimb#