Still working on my SHA1 implementation in Haskell. I've now got a working implementation and this is the inner loop:
iterateBlock' :: Int -> [Word32] -> Word32 -> Word32 -> Word32 -> Word32 -> Word32 -> [Word32] iterateBlock' 80 ws a b c d e = [a, b, c, d, e] iterateBlock' t (w:ws) a b c d e = iterateBlock' (t+1) ws a' b' c' d' e' where a' = rotate a 5 + f t b c d + e + w + k t b' = a c' = rotate b 30 d' = c e' = d
The profiler tells me that this function takes 1/3 of the runtime of my implementation. I can think of no way to further optimize it other than maybe inlining the temp variables but I believe -O2 will do that for me anyway.
Can anyone see a significant optimization that can be further applied?
FYI the k and f calls are below. They are so simple I don't think there is a way to optimize these other. Unless the Data.Bits module is slow?
f :: Int -> Word32 -> Word32 -> Word32 -> Word32 f t b c d | t <= 19 = (b .&. c) .|. ((complement b) .&. d) | t <= 39 = b `xor` c `xor` d | t <= 59 = (b .&. c) .|. (b .&. d) .|. (c .&. d) | otherwise = b `xor` c `xor` d k :: Int -> Word32 k t | t <= 19 = 0x5A827999 | t <= 39 = 0x6ED9EBA1 | t <= 59 = 0x8F1BBCDC | otherwise = 0xCA62C1D6