standalone/android/haskell-patches/crypto-numbers_build-fix.patch


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From 0cfdb30120976290068f4bcbebbf236b960afbb6 Mon Sep 17 00:00:00 2001
From: dummy <dummy@example.com>
Date: Thu, 26 Dec 2013 20:01:30 -0400
Subject: [PATCH] hack to build

---
 Crypto/Number/Basic.hs         |   14 --------------
 Crypto/Number/ModArithmetic.hs |   29 -----------------------------
 Crypto/Number/Prime.hs         |   18 ------------------
 crypto-numbers.cabal           |    2 +-
 4 files changed, 1 insertion(+), 62 deletions(-)

diff --git a/Crypto/Number/Basic.hs b/Crypto/Number/Basic.hs
index 65c14b3..eaee853 100644
--- a/Crypto/Number/Basic.hs
+++ b/Crypto/Number/Basic.hs
@@ -20,11 +20,7 @@ module Crypto.Number.Basic
     , areEven
     ) where
 
-#if MIN_VERSION_integer_gmp(0,5,1)
-import GHC.Integer.GMP.Internals
-#else
 import Data.Bits
-#endif
 
 -- | sqrti returns two integer (l,b) so that l <= sqrt i <= b
 -- the implementation is quite naive, use an approximation for the first number
@@ -63,25 +59,16 @@ sqrti i
 -- gcde 'a' 'b' find (x,y,gcd(a,b)) where ax + by = d
 --
 gcde :: Integer -> Integer -> (Integer, Integer, Integer)
-#if MIN_VERSION_integer_gmp(0,5,1)
-gcde a b = (s, t, g)
-  where (# g, s #) = gcdExtInteger a b
-        t = (g - s * a) `div` b
-#else
 gcde a b = if d < 0 then (-x,-y,-d) else (x,y,d) where
     (d, x, y)                     = f (a,1,0) (b,0,1)
     f t              (0, _, _)    = t
     f (a', sa, ta) t@(b', sb, tb) =
         let (q, r) = a' `divMod` b' in
         f t (r, sa - (q * sb), ta - (q * tb))
-#endif
 
 -- | get the extended GCD of two integer using the extended binary algorithm (HAC 14.61)
 -- get (x,y,d) where d = gcd(a,b) and x,y satisfying ax + by = d
 gcde_binary :: Integer -> Integer -> (Integer, Integer, Integer)
-#if MIN_VERSION_integer_gmp(0,5,1)
-gcde_binary = gcde
-#else
 gcde_binary a' b'
     | b' == 0   = (1,0,a')
     | a' >= b'  = compute a' b'
@@ -105,7 +92,6 @@ gcde_binary a' b'
              in if u2 >= v2
                 then loop g x y (u2 - v2) v2 (a2 - c2) (b2 - d2) c2 d2
                 else loop g x y u2 (v2 - u2) a2 b2 (c2 - a2) (d2 - b2)
-#endif
 
 -- | check if a list of integer are all even
 areEven :: [Integer] -> Bool
diff --git a/Crypto/Number/ModArithmetic.hs b/Crypto/Number/ModArithmetic.hs
index 942c12f..f8cfc32 100644
--- a/Crypto/Number/ModArithmetic.hs
+++ b/Crypto/Number/ModArithmetic.hs
@@ -29,12 +29,8 @@ module Crypto.Number.ModArithmetic
 import Control.Exception (throw, Exception)
 import Data.Typeable
 
-#if MIN_VERSION_integer_gmp(0,5,1)
-import GHC.Integer.GMP.Internals
-#else
 import Crypto.Number.Basic (gcde_binary)
 import Data.Bits
-#endif
 
 -- | Raised when two numbers are supposed to be coprimes but are not.
 data CoprimesAssertionError = CoprimesAssertionError
@@ -55,13 +51,7 @@ expSafe :: Integer -- ^ base
         -> Integer -- ^ exponant
         -> Integer -- ^ modulo
         -> Integer -- ^ result
-#if MIN_VERSION_integer_gmp(0,5,1)
-expSafe b e m
-    | odd m     = powModSecInteger b e m
-    | otherwise = powModInteger b e m
-#else
 expSafe = exponentiation
-#endif
 
 -- | Compute the modular exponentiation of base^exponant using
 -- the fastest algorithm without any consideration for
@@ -74,11 +64,7 @@ expFast :: Integer -- ^ base
         -> Integer -- ^ modulo
         -> Integer -- ^ result
 expFast =
-#if MIN_VERSION_integer_gmp(0,5,1)
-    powModInteger
-#else
     exponentiation
-#endif
 
 -- note on exponentiation: 0^0 is treated as 1 for mimicking the standard library;
 -- the mathematic debate is still open on whether or not this is true, but pratically
@@ -87,22 +73,15 @@ expFast =
 -- | exponentiation_rtl_binary computes modular exponentiation as b^e mod m
 -- using the right-to-left binary exponentiation algorithm (HAC 14.79)
 exponentiation_rtl_binary :: Integer -> Integer -> Integer -> Integer
-#if MIN_VERSION_integer_gmp(0,5,1)
-exponentiation_rtl_binary = expSafe
-#else
 exponentiation_rtl_binary 0 0 m = 1 `mod` m
 exponentiation_rtl_binary b e m = loop e b 1
     where sq x          = (x * x) `mod` m
           loop !0 _  !a = a `mod` m
           loop !i !s !a = loop (i `shiftR` 1) (sq s) (if odd i then a * s else a)
-#endif
 
 -- | exponentiation computes modular exponentiation as b^e mod m
 -- using repetitive squaring.
 exponentiation :: Integer -> Integer -> Integer -> Integer
-#if MIN_VERSION_integer_gmp(0,5,1)
-exponentiation = expSafe
-#else
 exponentiation b e m
     | b == 1    = b
     | e == 0    = 1
@@ -110,7 +89,6 @@ exponentiation b e m
     | even e    = let p = (exponentiation b (e `div` 2) m) `mod` m
                    in (p^(2::Integer)) `mod` m
     | otherwise = (b * exponentiation b (e-1) m) `mod` m
-#endif
 
 --{-# DEPRECATED exponantiation_rtl_binary "typo in API name it's called exponentiation_rtl_binary #-}
 exponantiation_rtl_binary :: Integer -> Integer -> Integer -> Integer
@@ -122,17 +100,10 @@ exponantiation = exponentiation
 
 -- | inverse computes the modular inverse as in g^(-1) mod m
 inverse :: Integer -> Integer -> Maybe Integer
-#if MIN_VERSION_integer_gmp(0,5,1)
-inverse g m
-    | r == 0    = Nothing
-    | otherwise = Just r
-  where r = recipModInteger g m
-#else
 inverse g m
     | d > 1     = Nothing
     | otherwise = Just (x `mod` m)
   where (x,_,d) = gcde_binary g m
-#endif
 
 -- | Compute the modular inverse of 2 coprime numbers.
 -- This is equivalent to inverse except that the result
diff --git a/Crypto/Number/Prime.hs b/Crypto/Number/Prime.hs
index 0cea9da..458c94d 100644
--- a/Crypto/Number/Prime.hs
+++ b/Crypto/Number/Prime.hs
@@ -3,9 +3,7 @@
 #ifndef MIN_VERSION_integer_gmp
 #define MIN_VERSION_integer_gmp(a,b,c) 0
 #endif
-#if MIN_VERSION_integer_gmp(0,5,1)
 {-# LANGUAGE MagicHash #-}
-#endif
 -- |
 -- Module      : Crypto.Number.Prime
 -- License     : BSD-style
@@ -30,12 +28,7 @@ import Crypto.Number.Generate
 import Crypto.Number.Basic (sqrti, gcde_binary)
 import Crypto.Number.ModArithmetic (exponantiation)
 
-#if MIN_VERSION_integer_gmp(0,5,1)
-import GHC.Integer.GMP.Internals
-import GHC.Base
-#else
 import Data.Bits
-#endif
 
 -- | returns if the number is probably prime.
 -- first a list of small primes are implicitely tested for divisibility,
@@ -78,21 +71,11 @@ findPrimeFromWith rng prop !n
 -- | find a prime from a starting point with no specific property.
 findPrimeFrom :: CPRG g => g -> Integer -> (Integer, g)
 findPrimeFrom rng n =
-#if MIN_VERSION_integer_gmp(0,5,1)
-    (nextPrimeInteger n, rng)
-#else
     findPrimeFromWith rng (\g _ -> (True, g)) n
-#endif
 
 -- | Miller Rabin algorithm return if the number is probably prime or composite.
 -- the tries parameter is the number of recursion, that determines the accuracy of the test.
 primalityTestMillerRabin :: CPRG g => g -> Int -> Integer -> (Bool, g)
-#if MIN_VERSION_integer_gmp(0,5,1)
-primalityTestMillerRabin rng (I# tries) !n =
-    case testPrimeInteger n tries of
-        0# -> (False, rng)
-        _  -> (True, rng)
-#else
 primalityTestMillerRabin rng tries !n
     | n <= 3     = error "Miller-Rabin requires tested value to be > 3"
     | even n     = (False, rng)
@@ -129,7 +112,6 @@ primalityTestMillerRabin rng tries !n
                   | x2 == 1   = False
                   | x2 /= nm1 = loop' ws ((x2*x2) `mod` n) (r+1)
                   | otherwise = loop ws
-#endif
 
 {-
     n < z -> witness to test
diff --git a/crypto-numbers.cabal b/crypto-numbers.cabal
index 9610e34..6669d78 100644
--- a/crypto-numbers.cabal
+++ b/crypto-numbers.cabal
@@ -15,7 +15,7 @@ Extra-Source-Files:  Tests/*.hs
 
 Flag integer-gmp
   Description: Are we using integer-gmp?
-  Default: True
+  Default: False
 
 Library
   Build-Depends:     base >= 4 && < 5
-- 
1.7.10.4