{-# LANGUAGE FlexibleContexts #-} {-# LANGUAGE FlexibleInstances #-} {-# LANGUAGE InstanceSigs #-} {-# LANGUAGE ScopedTypeVariables #-} module HaskellWorks.Data.BalancedParens.Broadword.Word8 ( findCloseFar ) where import Data.Int import Data.Word import HaskellWorks.Data.Bits.BitWise import HaskellWorks.Data.Bits.Broadword.Word8 muk1 :: Word8 muk1 = 0x33 {-# INLINE muk1 #-} muk2 :: Word8 muk2 = 0x0f {-# INLINE muk2 #-} findCloseFar :: Word8 -> Word8 -> Word8 findCloseFar p w = let x = w .>. fromIntegral p in let wsz = 8 :: Int8 in let k1 = 1 in let k2 = 2 in let k3 = 3 in let mask3 = (1 .<. (1 .<. k3)) - 1 in let mask2 = (1 .<. (1 .<. k2)) - 1 in let mask1 = (1 .<. (1 .<. k1)) - 1 in let t64k1 = 1 .<. k1 :: Word64 in let t64k2 = 1 .<. k2 :: Word64 in let t8k1 = 1 .<. k1 :: Word8 in let t8k2 = 1 .<. k2 :: Word8 in let t8k3 = 1 .<. k3 :: Word8 in let b0 = x .&. 0x55 in let b1 = ( x .&. 0xaa) .>. 1 in let ll = (b0 .^. b1 ) .&. b1 in let ok1 = ( (b0 .&. b1 ) .<. 1) .|. ll in let ck1 = (((b0 .|. b1 ) .^. 0x55) .<. 1) .|. ll in let eok1 = ok1 .&. muk1 in let eck1 = (ck1 .&. (muk1 .<. t64k1)) .>. t64k1 in let ok2L = (ok1 .&. (muk1 .<. t64k1)) .>. t64k1 in let ok2R = kBitDiffPos 4 eok1 eck1 in let ok2 = ok2L + ok2R in let ck2 = (ck1 .&. muk1) + kBitDiffPos 4 eck1 eok1 in let eok2 = ok2 .&. muk2 in let eck2 = (ck2 .&. (muk2 .<. t64k2)) .>. t64k2 in let ok3L = (ok2 .&. (muk2 .<. t64k2)) .>. t64k2 in let ok3R = kBitDiffPos 8 eok2 eck2 in let ok3 = ok3L + ok3R in let ck3 = (ck2 .&. muk2) + kBitDiffPos 8 eck2 eok2 in let pak3 = 0 in let sak3 = 0 in let fk3 = (ck3 .>. fromIntegral sak3) .&. mask3 in let bk3 = ((pak3 - fk3) .>. fromIntegral (wsz - 1)) - 1 in let mk3 = bk3 .&. mask3 in let pbk3 = pak3 - ((ck3 .>. fromIntegral sak3) .&. mk3) in let pck3 = pbk3 + ((ok3 .>. fromIntegral sak3) .&. mk3) in let sbk3 = sak3 + (t8k3 .&. bk3) in let pak2 = pck3 in let sak2 = sbk3 in let ek2 = 0xaa .&. comp (0xff .>. fromIntegral sak2) in let fk2 = ((ck2 .>. fromIntegral sak2) .|. ek2) .&. mask2 in let bk2 = ((pak2 - fk2) .>. fromIntegral (wsz - 1)) - 1 in let mk2 = bk2 .&. mask2 in let pbk2 = pak2 - (((ck2 .>. fromIntegral sak2) .|. ek2) .&. mk2) in let pck2 = pbk2 + ( (ok2 .>. fromIntegral sak2) .&. mk2) in let sbk2 = sak2 + (t8k2 .&. bk2) in let pak1 = pck2 in let sak1 = sbk2 in let ek1 = 0xaa .&. comp (0xff .>. fromIntegral sak1) in let fk1 = ((ck1 .>. fromIntegral sak1) .|. ek1) .&. mask1 in let bk1 = ((pak1 - fk1) .>. fromIntegral (wsz - 1)) - 1 in let mk1 = bk1 .&. mask1 in let pbk1 = pak1 - (((ck1 .>. fromIntegral sak1) .|. ek1) .&. mk1) in let pck1 = pbk1 + ( (ok1 .>. fromIntegral sak1) .&. mk1) in let sbk1 = sak1 + (t8k1 .&. bk1) in let rrr = sbk1 + pck1 + (((x .>. fromIntegral sbk1) .&. ((pck1 .<. 1) .|. 1)) .<. 1) in rrr + p {-# INLINE findCloseFar #-}