| /* |
| Implementation by the Keccak, Keyak and Ketje Teams, namely, Guido Bertoni, |
| Joan Daemen, Michaƫl Peeters, Gilles Van Assche and Ronny Van Keer, hereby |
| denoted as "the implementer". |
| |
| For more information, feedback or questions, please refer to our websites: |
| http://keccak.noekeon.org/ |
| http://keyak.noekeon.org/ |
| http://ketje.noekeon.org/ |
| |
| To the extent possible under law, the implementer has waived all copyright |
| and related or neighboring rights to the source code in this file. |
| http://creativecommons.org/publicdomain/zero/1.0/ |
| */ |
| |
| #define declareABCDE \ |
| UINT64 Aba, Abe, Abi, Abo, Abu; \ |
| UINT64 Aga, Age, Agi, Ago, Agu; \ |
| UINT64 Aka, Ake, Aki, Ako, Aku; \ |
| UINT64 Ama, Ame, Ami, Amo, Amu; \ |
| UINT64 Asa, Ase, Asi, Aso, Asu; \ |
| UINT64 Bba, Bbe, Bbi, Bbo, Bbu; \ |
| UINT64 Bga, Bge, Bgi, Bgo, Bgu; \ |
| UINT64 Bka, Bke, Bki, Bko, Bku; \ |
| UINT64 Bma, Bme, Bmi, Bmo, Bmu; \ |
| UINT64 Bsa, Bse, Bsi, Bso, Bsu; \ |
| UINT64 Ca, Ce, Ci, Co, Cu; \ |
| UINT64 Da, De, Di, Do, Du; \ |
| UINT64 Eba, Ebe, Ebi, Ebo, Ebu; \ |
| UINT64 Ega, Ege, Egi, Ego, Egu; \ |
| UINT64 Eka, Eke, Eki, Eko, Eku; \ |
| UINT64 Ema, Eme, Emi, Emo, Emu; \ |
| UINT64 Esa, Ese, Esi, Eso, Esu; \ |
| |
| #define prepareTheta \ |
| Ca = Aba^Aga^Aka^Ama^Asa; \ |
| Ce = Abe^Age^Ake^Ame^Ase; \ |
| Ci = Abi^Agi^Aki^Ami^Asi; \ |
| Co = Abo^Ago^Ako^Amo^Aso; \ |
| Cu = Abu^Agu^Aku^Amu^Asu; \ |
| |
| #ifdef UseBebigokimisa |
| /* --- Code for round, with prepare-theta (lane complementing pattern 'bebigokimisa') */ |
| |
| /* --- 64-bit lanes mapped to 64-bit words */ |
| |
| #define thetaRhoPiChiIotaPrepareTheta(i, A, E) \ |
| Da = Cu^ROL64(Ce, 1); \ |
| De = Ca^ROL64(Ci, 1); \ |
| Di = Ce^ROL64(Co, 1); \ |
| Do = Ci^ROL64(Cu, 1); \ |
| Du = Co^ROL64(Ca, 1); \ |
| \ |
| A##ba ^= Da; \ |
| Bba = A##ba; \ |
| A##ge ^= De; \ |
| Bbe = ROL64(A##ge, 44); \ |
| A##ki ^= Di; \ |
| Bbi = ROL64(A##ki, 43); \ |
| A##mo ^= Do; \ |
| Bbo = ROL64(A##mo, 21); \ |
| A##su ^= Du; \ |
| Bbu = ROL64(A##su, 14); \ |
| E##ba = Bba ^( Bbe | Bbi ); \ |
| E##ba ^= KeccakF1600RoundConstants[i]; \ |
| Ca = E##ba; \ |
| E##be = Bbe ^((~Bbi)| Bbo ); \ |
| Ce = E##be; \ |
| E##bi = Bbi ^( Bbo & Bbu ); \ |
| Ci = E##bi; \ |
| E##bo = Bbo ^( Bbu | Bba ); \ |
| Co = E##bo; \ |
| E##bu = Bbu ^( Bba & Bbe ); \ |
| Cu = E##bu; \ |
| \ |
| A##bo ^= Do; \ |
| Bga = ROL64(A##bo, 28); \ |
| A##gu ^= Du; \ |
| Bge = ROL64(A##gu, 20); \ |
| A##ka ^= Da; \ |
| Bgi = ROL64(A##ka, 3); \ |
| A##me ^= De; \ |
| Bgo = ROL64(A##me, 45); \ |
| A##si ^= Di; \ |
| Bgu = ROL64(A##si, 61); \ |
| E##ga = Bga ^( Bge | Bgi ); \ |
| Ca ^= E##ga; \ |
| E##ge = Bge ^( Bgi & Bgo ); \ |
| Ce ^= E##ge; \ |
| E##gi = Bgi ^( Bgo |(~Bgu)); \ |
| Ci ^= E##gi; \ |
| E##go = Bgo ^( Bgu | Bga ); \ |
| Co ^= E##go; \ |
| E##gu = Bgu ^( Bga & Bge ); \ |
| Cu ^= E##gu; \ |
| \ |
| A##be ^= De; \ |
| Bka = ROL64(A##be, 1); \ |
| A##gi ^= Di; \ |
| Bke = ROL64(A##gi, 6); \ |
| A##ko ^= Do; \ |
| Bki = ROL64(A##ko, 25); \ |
| A##mu ^= Du; \ |
| Bko = ROL64(A##mu, 8); \ |
| A##sa ^= Da; \ |
| Bku = ROL64(A##sa, 18); \ |
| E##ka = Bka ^( Bke | Bki ); \ |
| Ca ^= E##ka; \ |
| E##ke = Bke ^( Bki & Bko ); \ |
| Ce ^= E##ke; \ |
| E##ki = Bki ^((~Bko)& Bku ); \ |
| Ci ^= E##ki; \ |
| E##ko = (~Bko)^( Bku | Bka ); \ |
| Co ^= E##ko; \ |
| E##ku = Bku ^( Bka & Bke ); \ |
| Cu ^= E##ku; \ |
| \ |
| A##bu ^= Du; \ |
| Bma = ROL64(A##bu, 27); \ |
| A##ga ^= Da; \ |
| Bme = ROL64(A##ga, 36); \ |
| A##ke ^= De; \ |
| Bmi = ROL64(A##ke, 10); \ |
| A##mi ^= Di; \ |
| Bmo = ROL64(A##mi, 15); \ |
| A##so ^= Do; \ |
| Bmu = ROL64(A##so, 56); \ |
| E##ma = Bma ^( Bme & Bmi ); \ |
| Ca ^= E##ma; \ |
| E##me = Bme ^( Bmi | Bmo ); \ |
| Ce ^= E##me; \ |
| E##mi = Bmi ^((~Bmo)| Bmu ); \ |
| Ci ^= E##mi; \ |
| E##mo = (~Bmo)^( Bmu & Bma ); \ |
| Co ^= E##mo; \ |
| E##mu = Bmu ^( Bma | Bme ); \ |
| Cu ^= E##mu; \ |
| \ |
| A##bi ^= Di; \ |
| Bsa = ROL64(A##bi, 62); \ |
| A##go ^= Do; \ |
| Bse = ROL64(A##go, 55); \ |
| A##ku ^= Du; \ |
| Bsi = ROL64(A##ku, 39); \ |
| A##ma ^= Da; \ |
| Bso = ROL64(A##ma, 41); \ |
| A##se ^= De; \ |
| Bsu = ROL64(A##se, 2); \ |
| E##sa = Bsa ^((~Bse)& Bsi ); \ |
| Ca ^= E##sa; \ |
| E##se = (~Bse)^( Bsi | Bso ); \ |
| Ce ^= E##se; \ |
| E##si = Bsi ^( Bso & Bsu ); \ |
| Ci ^= E##si; \ |
| E##so = Bso ^( Bsu | Bsa ); \ |
| Co ^= E##so; \ |
| E##su = Bsu ^( Bsa & Bse ); \ |
| Cu ^= E##su; \ |
| \ |
| |
| /* --- Code for round (lane complementing pattern 'bebigokimisa') */ |
| |
| /* --- 64-bit lanes mapped to 64-bit words */ |
| |
| #define thetaRhoPiChiIota(i, A, E) \ |
| Da = Cu^ROL64(Ce, 1); \ |
| De = Ca^ROL64(Ci, 1); \ |
| Di = Ce^ROL64(Co, 1); \ |
| Do = Ci^ROL64(Cu, 1); \ |
| Du = Co^ROL64(Ca, 1); \ |
| \ |
| A##ba ^= Da; \ |
| Bba = A##ba; \ |
| A##ge ^= De; \ |
| Bbe = ROL64(A##ge, 44); \ |
| A##ki ^= Di; \ |
| Bbi = ROL64(A##ki, 43); \ |
| A##mo ^= Do; \ |
| Bbo = ROL64(A##mo, 21); \ |
| A##su ^= Du; \ |
| Bbu = ROL64(A##su, 14); \ |
| E##ba = Bba ^( Bbe | Bbi ); \ |
| E##ba ^= KeccakF1600RoundConstants[i]; \ |
| E##be = Bbe ^((~Bbi)| Bbo ); \ |
| E##bi = Bbi ^( Bbo & Bbu ); \ |
| E##bo = Bbo ^( Bbu | Bba ); \ |
| E##bu = Bbu ^( Bba & Bbe ); \ |
| \ |
| A##bo ^= Do; \ |
| Bga = ROL64(A##bo, 28); \ |
| A##gu ^= Du; \ |
| Bge = ROL64(A##gu, 20); \ |
| A##ka ^= Da; \ |
| Bgi = ROL64(A##ka, 3); \ |
| A##me ^= De; \ |
| Bgo = ROL64(A##me, 45); \ |
| A##si ^= Di; \ |
| Bgu = ROL64(A##si, 61); \ |
| E##ga = Bga ^( Bge | Bgi ); \ |
| E##ge = Bge ^( Bgi & Bgo ); \ |
| E##gi = Bgi ^( Bgo |(~Bgu)); \ |
| E##go = Bgo ^( Bgu | Bga ); \ |
| E##gu = Bgu ^( Bga & Bge ); \ |
| \ |
| A##be ^= De; \ |
| Bka = ROL64(A##be, 1); \ |
| A##gi ^= Di; \ |
| Bke = ROL64(A##gi, 6); \ |
| A##ko ^= Do; \ |
| Bki = ROL64(A##ko, 25); \ |
| A##mu ^= Du; \ |
| Bko = ROL64(A##mu, 8); \ |
| A##sa ^= Da; \ |
| Bku = ROL64(A##sa, 18); \ |
| E##ka = Bka ^( Bke | Bki ); \ |
| E##ke = Bke ^( Bki & Bko ); \ |
| E##ki = Bki ^((~Bko)& Bku ); \ |
| E##ko = (~Bko)^( Bku | Bka ); \ |
| E##ku = Bku ^( Bka & Bke ); \ |
| \ |
| A##bu ^= Du; \ |
| Bma = ROL64(A##bu, 27); \ |
| A##ga ^= Da; \ |
| Bme = ROL64(A##ga, 36); \ |
| A##ke ^= De; \ |
| Bmi = ROL64(A##ke, 10); \ |
| A##mi ^= Di; \ |
| Bmo = ROL64(A##mi, 15); \ |
| A##so ^= Do; \ |
| Bmu = ROL64(A##so, 56); \ |
| E##ma = Bma ^( Bme & Bmi ); \ |
| E##me = Bme ^( Bmi | Bmo ); \ |
| E##mi = Bmi ^((~Bmo)| Bmu ); \ |
| E##mo = (~Bmo)^( Bmu & Bma ); \ |
| E##mu = Bmu ^( Bma | Bme ); \ |
| \ |
| A##bi ^= Di; \ |
| Bsa = ROL64(A##bi, 62); \ |
| A##go ^= Do; \ |
| Bse = ROL64(A##go, 55); \ |
| A##ku ^= Du; \ |
| Bsi = ROL64(A##ku, 39); \ |
| A##ma ^= Da; \ |
| Bso = ROL64(A##ma, 41); \ |
| A##se ^= De; \ |
| Bsu = ROL64(A##se, 2); \ |
| E##sa = Bsa ^((~Bse)& Bsi ); \ |
| E##se = (~Bse)^( Bsi | Bso ); \ |
| E##si = Bsi ^( Bso & Bsu ); \ |
| E##so = Bso ^( Bsu | Bsa ); \ |
| E##su = Bsu ^( Bsa & Bse ); \ |
| \ |
| |
| #else /* UseBebigokimisa */ |
| |
| /* --- Code for round, with prepare-theta */ |
| |
| /* --- 64-bit lanes mapped to 64-bit words */ |
| |
| #define thetaRhoPiChiIotaPrepareTheta(i, A, E) \ |
| Da = Cu^ROL64(Ce, 1); \ |
| De = Ca^ROL64(Ci, 1); \ |
| Di = Ce^ROL64(Co, 1); \ |
| Do = Ci^ROL64(Cu, 1); \ |
| Du = Co^ROL64(Ca, 1); \ |
| \ |
| A##ba ^= Da; \ |
| Bba = A##ba; \ |
| A##ge ^= De; \ |
| Bbe = ROL64(A##ge, 44); \ |
| A##ki ^= Di; \ |
| Bbi = ROL64(A##ki, 43); \ |
| A##mo ^= Do; \ |
| Bbo = ROL64(A##mo, 21); \ |
| A##su ^= Du; \ |
| Bbu = ROL64(A##su, 14); \ |
| E##ba = Bba ^((~Bbe)& Bbi ); \ |
| E##ba ^= KeccakF1600RoundConstants[i]; \ |
| Ca = E##ba; \ |
| E##be = Bbe ^((~Bbi)& Bbo ); \ |
| Ce = E##be; \ |
| E##bi = Bbi ^((~Bbo)& Bbu ); \ |
| Ci = E##bi; \ |
| E##bo = Bbo ^((~Bbu)& Bba ); \ |
| Co = E##bo; \ |
| E##bu = Bbu ^((~Bba)& Bbe ); \ |
| Cu = E##bu; \ |
| \ |
| A##bo ^= Do; \ |
| Bga = ROL64(A##bo, 28); \ |
| A##gu ^= Du; \ |
| Bge = ROL64(A##gu, 20); \ |
| A##ka ^= Da; \ |
| Bgi = ROL64(A##ka, 3); \ |
| A##me ^= De; \ |
| Bgo = ROL64(A##me, 45); \ |
| A##si ^= Di; \ |
| Bgu = ROL64(A##si, 61); \ |
| E##ga = Bga ^((~Bge)& Bgi ); \ |
| Ca ^= E##ga; \ |
| E##ge = Bge ^((~Bgi)& Bgo ); \ |
| Ce ^= E##ge; \ |
| E##gi = Bgi ^((~Bgo)& Bgu ); \ |
| Ci ^= E##gi; \ |
| E##go = Bgo ^((~Bgu)& Bga ); \ |
| Co ^= E##go; \ |
| E##gu = Bgu ^((~Bga)& Bge ); \ |
| Cu ^= E##gu; \ |
| \ |
| A##be ^= De; \ |
| Bka = ROL64(A##be, 1); \ |
| A##gi ^= Di; \ |
| Bke = ROL64(A##gi, 6); \ |
| A##ko ^= Do; \ |
| Bki = ROL64(A##ko, 25); \ |
| A##mu ^= Du; \ |
| Bko = ROL64(A##mu, 8); \ |
| A##sa ^= Da; \ |
| Bku = ROL64(A##sa, 18); \ |
| E##ka = Bka ^((~Bke)& Bki ); \ |
| Ca ^= E##ka; \ |
| E##ke = Bke ^((~Bki)& Bko ); \ |
| Ce ^= E##ke; \ |
| E##ki = Bki ^((~Bko)& Bku ); \ |
| Ci ^= E##ki; \ |
| E##ko = Bko ^((~Bku)& Bka ); \ |
| Co ^= E##ko; \ |
| E##ku = Bku ^((~Bka)& Bke ); \ |
| Cu ^= E##ku; \ |
| \ |
| A##bu ^= Du; \ |
| Bma = ROL64(A##bu, 27); \ |
| A##ga ^= Da; \ |
| Bme = ROL64(A##ga, 36); \ |
| A##ke ^= De; \ |
| Bmi = ROL64(A##ke, 10); \ |
| A##mi ^= Di; \ |
| Bmo = ROL64(A##mi, 15); \ |
| A##so ^= Do; \ |
| Bmu = ROL64(A##so, 56); \ |
| E##ma = Bma ^((~Bme)& Bmi ); \ |
| Ca ^= E##ma; \ |
| E##me = Bme ^((~Bmi)& Bmo ); \ |
| Ce ^= E##me; \ |
| E##mi = Bmi ^((~Bmo)& Bmu ); \ |
| Ci ^= E##mi; \ |
| E##mo = Bmo ^((~Bmu)& Bma ); \ |
| Co ^= E##mo; \ |
| E##mu = Bmu ^((~Bma)& Bme ); \ |
| Cu ^= E##mu; \ |
| \ |
| A##bi ^= Di; \ |
| Bsa = ROL64(A##bi, 62); \ |
| A##go ^= Do; \ |
| Bse = ROL64(A##go, 55); \ |
| A##ku ^= Du; \ |
| Bsi = ROL64(A##ku, 39); \ |
| A##ma ^= Da; \ |
| Bso = ROL64(A##ma, 41); \ |
| A##se ^= De; \ |
| Bsu = ROL64(A##se, 2); \ |
| E##sa = Bsa ^((~Bse)& Bsi ); \ |
| Ca ^= E##sa; \ |
| E##se = Bse ^((~Bsi)& Bso ); \ |
| Ce ^= E##se; \ |
| E##si = Bsi ^((~Bso)& Bsu ); \ |
| Ci ^= E##si; \ |
| E##so = Bso ^((~Bsu)& Bsa ); \ |
| Co ^= E##so; \ |
| E##su = Bsu ^((~Bsa)& Bse ); \ |
| Cu ^= E##su; \ |
| \ |
| |
| /* --- Code for round */ |
| |
| /* --- 64-bit lanes mapped to 64-bit words */ |
| |
| #define thetaRhoPiChiIota(i, A, E) \ |
| Da = Cu^ROL64(Ce, 1); \ |
| De = Ca^ROL64(Ci, 1); \ |
| Di = Ce^ROL64(Co, 1); \ |
| Do = Ci^ROL64(Cu, 1); \ |
| Du = Co^ROL64(Ca, 1); \ |
| \ |
| A##ba ^= Da; \ |
| Bba = A##ba; \ |
| A##ge ^= De; \ |
| Bbe = ROL64(A##ge, 44); \ |
| A##ki ^= Di; \ |
| Bbi = ROL64(A##ki, 43); \ |
| A##mo ^= Do; \ |
| Bbo = ROL64(A##mo, 21); \ |
| A##su ^= Du; \ |
| Bbu = ROL64(A##su, 14); \ |
| E##ba = Bba ^((~Bbe)& Bbi ); \ |
| E##ba ^= KeccakF1600RoundConstants[i]; \ |
| E##be = Bbe ^((~Bbi)& Bbo ); \ |
| E##bi = Bbi ^((~Bbo)& Bbu ); \ |
| E##bo = Bbo ^((~Bbu)& Bba ); \ |
| E##bu = Bbu ^((~Bba)& Bbe ); \ |
| \ |
| A##bo ^= Do; \ |
| Bga = ROL64(A##bo, 28); \ |
| A##gu ^= Du; \ |
| Bge = ROL64(A##gu, 20); \ |
| A##ka ^= Da; \ |
| Bgi = ROL64(A##ka, 3); \ |
| A##me ^= De; \ |
| Bgo = ROL64(A##me, 45); \ |
| A##si ^= Di; \ |
| Bgu = ROL64(A##si, 61); \ |
| E##ga = Bga ^((~Bge)& Bgi ); \ |
| E##ge = Bge ^((~Bgi)& Bgo ); \ |
| E##gi = Bgi ^((~Bgo)& Bgu ); \ |
| E##go = Bgo ^((~Bgu)& Bga ); \ |
| E##gu = Bgu ^((~Bga)& Bge ); \ |
| \ |
| A##be ^= De; \ |
| Bka = ROL64(A##be, 1); \ |
| A##gi ^= Di; \ |
| Bke = ROL64(A##gi, 6); \ |
| A##ko ^= Do; \ |
| Bki = ROL64(A##ko, 25); \ |
| A##mu ^= Du; \ |
| Bko = ROL64(A##mu, 8); \ |
| A##sa ^= Da; \ |
| Bku = ROL64(A##sa, 18); \ |
| E##ka = Bka ^((~Bke)& Bki ); \ |
| E##ke = Bke ^((~Bki)& Bko ); \ |
| E##ki = Bki ^((~Bko)& Bku ); \ |
| E##ko = Bko ^((~Bku)& Bka ); \ |
| E##ku = Bku ^((~Bka)& Bke ); \ |
| \ |
| A##bu ^= Du; \ |
| Bma = ROL64(A##bu, 27); \ |
| A##ga ^= Da; \ |
| Bme = ROL64(A##ga, 36); \ |
| A##ke ^= De; \ |
| Bmi = ROL64(A##ke, 10); \ |
| A##mi ^= Di; \ |
| Bmo = ROL64(A##mi, 15); \ |
| A##so ^= Do; \ |
| Bmu = ROL64(A##so, 56); \ |
| E##ma = Bma ^((~Bme)& Bmi ); \ |
| E##me = Bme ^((~Bmi)& Bmo ); \ |
| E##mi = Bmi ^((~Bmo)& Bmu ); \ |
| E##mo = Bmo ^((~Bmu)& Bma ); \ |
| E##mu = Bmu ^((~Bma)& Bme ); \ |
| \ |
| A##bi ^= Di; \ |
| Bsa = ROL64(A##bi, 62); \ |
| A##go ^= Do; \ |
| Bse = ROL64(A##go, 55); \ |
| A##ku ^= Du; \ |
| Bsi = ROL64(A##ku, 39); \ |
| A##ma ^= Da; \ |
| Bso = ROL64(A##ma, 41); \ |
| A##se ^= De; \ |
| Bsu = ROL64(A##se, 2); \ |
| E##sa = Bsa ^((~Bse)& Bsi ); \ |
| E##se = Bse ^((~Bsi)& Bso ); \ |
| E##si = Bsi ^((~Bso)& Bsu ); \ |
| E##so = Bso ^((~Bsu)& Bsa ); \ |
| E##su = Bsu ^((~Bsa)& Bse ); \ |
| \ |
| |
| #endif /* UseBebigokimisa */ |
| |
| |
| #define copyFromState(X, state) \ |
| X##ba = state[ 0]; \ |
| X##be = state[ 1]; \ |
| X##bi = state[ 2]; \ |
| X##bo = state[ 3]; \ |
| X##bu = state[ 4]; \ |
| X##ga = state[ 5]; \ |
| X##ge = state[ 6]; \ |
| X##gi = state[ 7]; \ |
| X##go = state[ 8]; \ |
| X##gu = state[ 9]; \ |
| X##ka = state[10]; \ |
| X##ke = state[11]; \ |
| X##ki = state[12]; \ |
| X##ko = state[13]; \ |
| X##ku = state[14]; \ |
| X##ma = state[15]; \ |
| X##me = state[16]; \ |
| X##mi = state[17]; \ |
| X##mo = state[18]; \ |
| X##mu = state[19]; \ |
| X##sa = state[20]; \ |
| X##se = state[21]; \ |
| X##si = state[22]; \ |
| X##so = state[23]; \ |
| X##su = state[24]; \ |
| |
| #define copyToState(state, X) \ |
| state[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| state[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| state[ 7] = X##gi; \ |
| state[ 8] = X##go; \ |
| state[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| state[11] = X##ke; \ |
| state[12] = X##ki; \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| state[15] = X##ma; \ |
| state[16] = X##me; \ |
| state[17] = X##mi; \ |
| state[18] = X##mo; \ |
| state[19] = X##mu; \ |
| state[20] = X##sa; \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| state[23] = X##so; \ |
| state[24] = X##su; \ |
| |
| #define copyStateVariables(X, Y) \ |
| X##ba = Y##ba; \ |
| X##be = Y##be; \ |
| X##bi = Y##bi; \ |
| X##bo = Y##bo; \ |
| X##bu = Y##bu; \ |
| X##ga = Y##ga; \ |
| X##ge = Y##ge; \ |
| X##gi = Y##gi; \ |
| X##go = Y##go; \ |
| X##gu = Y##gu; \ |
| X##ka = Y##ka; \ |
| X##ke = Y##ke; \ |
| X##ki = Y##ki; \ |
| X##ko = Y##ko; \ |
| X##ku = Y##ku; \ |
| X##ma = Y##ma; \ |
| X##me = Y##me; \ |
| X##mi = Y##mi; \ |
| X##mo = Y##mo; \ |
| X##mu = Y##mu; \ |
| X##sa = Y##sa; \ |
| X##se = Y##se; \ |
| X##si = Y##si; \ |
| X##so = Y##so; \ |
| X##su = Y##su; \ |
| |
| #define copyFromStateAndAdd(X, state, input, laneCount) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| if (laneCount < 1) { \ |
| X##ba = state[ 0]; \ |
| } \ |
| else { \ |
| X##ba = state[ 0]^input[ 0]; \ |
| } \ |
| X##be = state[ 1]; \ |
| X##bi = state[ 2]; \ |
| } \ |
| else { \ |
| X##ba = state[ 0]^input[ 0]; \ |
| X##be = state[ 1]^input[ 1]; \ |
| if (laneCount < 3) { \ |
| X##bi = state[ 2]; \ |
| } \ |
| else { \ |
| X##bi = state[ 2]^input[ 2]; \ |
| } \ |
| } \ |
| X##bo = state[ 3]; \ |
| X##bu = state[ 4]; \ |
| X##ga = state[ 5]; \ |
| X##ge = state[ 6]; \ |
| } \ |
| else { \ |
| X##ba = state[ 0]^input[ 0]; \ |
| X##be = state[ 1]^input[ 1]; \ |
| X##bi = state[ 2]^input[ 2]; \ |
| X##bo = state[ 3]^input[ 3]; \ |
| if (laneCount < 6) { \ |
| if (laneCount < 5) { \ |
| X##bu = state[ 4]; \ |
| } \ |
| else { \ |
| X##bu = state[ 4]^input[ 4]; \ |
| } \ |
| X##ga = state[ 5]; \ |
| X##ge = state[ 6]; \ |
| } \ |
| else { \ |
| X##bu = state[ 4]^input[ 4]; \ |
| X##ga = state[ 5]^input[ 5]; \ |
| if (laneCount < 7) { \ |
| X##ge = state[ 6]; \ |
| } \ |
| else { \ |
| X##ge = state[ 6]^input[ 6]; \ |
| } \ |
| } \ |
| } \ |
| X##gi = state[ 7]; \ |
| X##go = state[ 8]; \ |
| X##gu = state[ 9]; \ |
| X##ka = state[10]; \ |
| X##ke = state[11]; \ |
| X##ki = state[12]; \ |
| X##ko = state[13]; \ |
| X##ku = state[14]; \ |
| } \ |
| else { \ |
| X##ba = state[ 0]^input[ 0]; \ |
| X##be = state[ 1]^input[ 1]; \ |
| X##bi = state[ 2]^input[ 2]; \ |
| X##bo = state[ 3]^input[ 3]; \ |
| X##bu = state[ 4]^input[ 4]; \ |
| X##ga = state[ 5]^input[ 5]; \ |
| X##ge = state[ 6]^input[ 6]; \ |
| X##gi = state[ 7]^input[ 7]; \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| if (laneCount < 9) { \ |
| X##go = state[ 8]; \ |
| } \ |
| else { \ |
| X##go = state[ 8]^input[ 8]; \ |
| } \ |
| X##gu = state[ 9]; \ |
| X##ka = state[10]; \ |
| } \ |
| else { \ |
| X##go = state[ 8]^input[ 8]; \ |
| X##gu = state[ 9]^input[ 9]; \ |
| if (laneCount < 11) { \ |
| X##ka = state[10]; \ |
| } \ |
| else { \ |
| X##ka = state[10]^input[10]; \ |
| } \ |
| } \ |
| X##ke = state[11]; \ |
| X##ki = state[12]; \ |
| X##ko = state[13]; \ |
| X##ku = state[14]; \ |
| } \ |
| else { \ |
| X##go = state[ 8]^input[ 8]; \ |
| X##gu = state[ 9]^input[ 9]; \ |
| X##ka = state[10]^input[10]; \ |
| X##ke = state[11]^input[11]; \ |
| if (laneCount < 14) { \ |
| if (laneCount < 13) { \ |
| X##ki = state[12]; \ |
| } \ |
| else { \ |
| X##ki = state[12]^input[12]; \ |
| } \ |
| X##ko = state[13]; \ |
| X##ku = state[14]; \ |
| } \ |
| else { \ |
| X##ki = state[12]^input[12]; \ |
| X##ko = state[13]^input[13]; \ |
| if (laneCount < 15) { \ |
| X##ku = state[14]; \ |
| } \ |
| else { \ |
| X##ku = state[14]^input[14]; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| X##ma = state[15]; \ |
| X##me = state[16]; \ |
| X##mi = state[17]; \ |
| X##mo = state[18]; \ |
| X##mu = state[19]; \ |
| X##sa = state[20]; \ |
| X##se = state[21]; \ |
| X##si = state[22]; \ |
| X##so = state[23]; \ |
| X##su = state[24]; \ |
| } \ |
| else { \ |
| X##ba = state[ 0]^input[ 0]; \ |
| X##be = state[ 1]^input[ 1]; \ |
| X##bi = state[ 2]^input[ 2]; \ |
| X##bo = state[ 3]^input[ 3]; \ |
| X##bu = state[ 4]^input[ 4]; \ |
| X##ga = state[ 5]^input[ 5]; \ |
| X##ge = state[ 6]^input[ 6]; \ |
| X##gi = state[ 7]^input[ 7]; \ |
| X##go = state[ 8]^input[ 8]; \ |
| X##gu = state[ 9]^input[ 9]; \ |
| X##ka = state[10]^input[10]; \ |
| X##ke = state[11]^input[11]; \ |
| X##ki = state[12]^input[12]; \ |
| X##ko = state[13]^input[13]; \ |
| X##ku = state[14]^input[14]; \ |
| X##ma = state[15]^input[15]; \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| if (laneCount < 17) { \ |
| X##me = state[16]; \ |
| } \ |
| else { \ |
| X##me = state[16]^input[16]; \ |
| } \ |
| X##mi = state[17]; \ |
| X##mo = state[18]; \ |
| } \ |
| else { \ |
| X##me = state[16]^input[16]; \ |
| X##mi = state[17]^input[17]; \ |
| if (laneCount < 19) { \ |
| X##mo = state[18]; \ |
| } \ |
| else { \ |
| X##mo = state[18]^input[18]; \ |
| } \ |
| } \ |
| X##mu = state[19]; \ |
| X##sa = state[20]; \ |
| X##se = state[21]; \ |
| X##si = state[22]; \ |
| } \ |
| else { \ |
| X##me = state[16]^input[16]; \ |
| X##mi = state[17]^input[17]; \ |
| X##mo = state[18]^input[18]; \ |
| X##mu = state[19]^input[19]; \ |
| if (laneCount < 22) { \ |
| if (laneCount < 21) { \ |
| X##sa = state[20]; \ |
| } \ |
| else { \ |
| X##sa = state[20]^input[20]; \ |
| } \ |
| X##se = state[21]; \ |
| X##si = state[22]; \ |
| } \ |
| else { \ |
| X##sa = state[20]^input[20]; \ |
| X##se = state[21]^input[21]; \ |
| if (laneCount < 23) { \ |
| X##si = state[22]; \ |
| } \ |
| else { \ |
| X##si = state[22]^input[22]; \ |
| } \ |
| } \ |
| } \ |
| X##so = state[23]; \ |
| X##su = state[24]; \ |
| } \ |
| else { \ |
| X##me = state[16]^input[16]; \ |
| X##mi = state[17]^input[17]; \ |
| X##mo = state[18]^input[18]; \ |
| X##mu = state[19]^input[19]; \ |
| X##sa = state[20]^input[20]; \ |
| X##se = state[21]^input[21]; \ |
| X##si = state[22]^input[22]; \ |
| X##so = state[23]^input[23]; \ |
| if (laneCount < 25) { \ |
| X##su = state[24]; \ |
| } \ |
| else { \ |
| X##su = state[24]^input[24]; \ |
| } \ |
| } \ |
| } |
| |
| #define addInput(X, input, laneCount) \ |
| if (laneCount == 21) { \ |
| X##ba ^= input[ 0]; \ |
| X##be ^= input[ 1]; \ |
| X##bi ^= input[ 2]; \ |
| X##bo ^= input[ 3]; \ |
| X##bu ^= input[ 4]; \ |
| X##ga ^= input[ 5]; \ |
| X##ge ^= input[ 6]; \ |
| X##gi ^= input[ 7]; \ |
| X##go ^= input[ 8]; \ |
| X##gu ^= input[ 9]; \ |
| X##ka ^= input[10]; \ |
| X##ke ^= input[11]; \ |
| X##ki ^= input[12]; \ |
| X##ko ^= input[13]; \ |
| X##ku ^= input[14]; \ |
| X##ma ^= input[15]; \ |
| X##me ^= input[16]; \ |
| X##mi ^= input[17]; \ |
| X##mo ^= input[18]; \ |
| X##mu ^= input[19]; \ |
| X##sa ^= input[20]; \ |
| } \ |
| else if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| if (laneCount < 1) { \ |
| } \ |
| else { \ |
| X##ba ^= input[ 0]; \ |
| } \ |
| } \ |
| else { \ |
| X##ba ^= input[ 0]; \ |
| X##be ^= input[ 1]; \ |
| if (laneCount < 3) { \ |
| } \ |
| else { \ |
| X##bi ^= input[ 2]; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| X##ba ^= input[ 0]; \ |
| X##be ^= input[ 1]; \ |
| X##bi ^= input[ 2]; \ |
| X##bo ^= input[ 3]; \ |
| if (laneCount < 6) { \ |
| if (laneCount < 5) { \ |
| } \ |
| else { \ |
| X##bu ^= input[ 4]; \ |
| } \ |
| } \ |
| else { \ |
| X##bu ^= input[ 4]; \ |
| X##ga ^= input[ 5]; \ |
| if (laneCount < 7) { \ |
| } \ |
| else { \ |
| X##ge ^= input[ 6]; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| X##ba ^= input[ 0]; \ |
| X##be ^= input[ 1]; \ |
| X##bi ^= input[ 2]; \ |
| X##bo ^= input[ 3]; \ |
| X##bu ^= input[ 4]; \ |
| X##ga ^= input[ 5]; \ |
| X##ge ^= input[ 6]; \ |
| X##gi ^= input[ 7]; \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| if (laneCount < 9) { \ |
| } \ |
| else { \ |
| X##go ^= input[ 8]; \ |
| } \ |
| } \ |
| else { \ |
| X##go ^= input[ 8]; \ |
| X##gu ^= input[ 9]; \ |
| if (laneCount < 11) { \ |
| } \ |
| else { \ |
| X##ka ^= input[10]; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| X##go ^= input[ 8]; \ |
| X##gu ^= input[ 9]; \ |
| X##ka ^= input[10]; \ |
| X##ke ^= input[11]; \ |
| if (laneCount < 14) { \ |
| if (laneCount < 13) { \ |
| } \ |
| else { \ |
| X##ki ^= input[12]; \ |
| } \ |
| } \ |
| else { \ |
| X##ki ^= input[12]; \ |
| X##ko ^= input[13]; \ |
| if (laneCount < 15) { \ |
| } \ |
| else { \ |
| X##ku ^= input[14]; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| X##ba ^= input[ 0]; \ |
| X##be ^= input[ 1]; \ |
| X##bi ^= input[ 2]; \ |
| X##bo ^= input[ 3]; \ |
| X##bu ^= input[ 4]; \ |
| X##ga ^= input[ 5]; \ |
| X##ge ^= input[ 6]; \ |
| X##gi ^= input[ 7]; \ |
| X##go ^= input[ 8]; \ |
| X##gu ^= input[ 9]; \ |
| X##ka ^= input[10]; \ |
| X##ke ^= input[11]; \ |
| X##ki ^= input[12]; \ |
| X##ko ^= input[13]; \ |
| X##ku ^= input[14]; \ |
| X##ma ^= input[15]; \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| if (laneCount < 17) { \ |
| } \ |
| else { \ |
| X##me ^= input[16]; \ |
| } \ |
| } \ |
| else { \ |
| X##me ^= input[16]; \ |
| X##mi ^= input[17]; \ |
| if (laneCount < 19) { \ |
| } \ |
| else { \ |
| X##mo ^= input[18]; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| X##me ^= input[16]; \ |
| X##mi ^= input[17]; \ |
| X##mo ^= input[18]; \ |
| X##mu ^= input[19]; \ |
| if (laneCount < 22) { \ |
| if (laneCount < 21) { \ |
| } \ |
| else { \ |
| X##sa ^= input[20]; \ |
| } \ |
| } \ |
| else { \ |
| X##sa ^= input[20]; \ |
| X##se ^= input[21]; \ |
| if (laneCount < 23) { \ |
| } \ |
| else { \ |
| X##si ^= input[22]; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| X##me ^= input[16]; \ |
| X##mi ^= input[17]; \ |
| X##mo ^= input[18]; \ |
| X##mu ^= input[19]; \ |
| X##sa ^= input[20]; \ |
| X##se ^= input[21]; \ |
| X##si ^= input[22]; \ |
| X##so ^= input[23]; \ |
| if (laneCount < 25) { \ |
| } \ |
| else { \ |
| X##su ^= input[24]; \ |
| } \ |
| } \ |
| } |
| |
| #ifdef UseBebigokimisa |
| |
| #define copyToStateAndOutput(X, state, output, laneCount) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| state[ 0] = X##ba; \ |
| if (laneCount >= 1) { \ |
| output[ 0] = X##ba; \ |
| } \ |
| state[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = ~X##be; \ |
| state[ 2] = X##bi; \ |
| if (laneCount >= 3) { \ |
| output[ 2] = ~X##bi; \ |
| } \ |
| } \ |
| state[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = ~X##be; \ |
| state[ 2] = X##bi; \ |
| output[ 2] = ~X##bi; \ |
| state[ 3] = X##bo; \ |
| output[ 3] = X##bo; \ |
| if (laneCount < 6) { \ |
| state[ 4] = X##bu; \ |
| if (laneCount >= 5) { \ |
| output[ 4] = X##bu; \ |
| } \ |
| state[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| } \ |
| else { \ |
| state[ 4] = X##bu; \ |
| output[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| output[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| if (laneCount >= 7) { \ |
| output[ 6] = X##ge; \ |
| } \ |
| } \ |
| } \ |
| state[ 7] = X##gi; \ |
| state[ 8] = X##go; \ |
| state[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| state[11] = X##ke; \ |
| state[12] = X##ki; \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = ~X##be; \ |
| state[ 2] = X##bi; \ |
| output[ 2] = ~X##bi; \ |
| state[ 3] = X##bo; \ |
| output[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| output[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| output[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| output[ 6] = X##ge; \ |
| state[ 7] = X##gi; \ |
| output[ 7] = X##gi; \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| state[ 8] = X##go; \ |
| if (laneCount >= 9) { \ |
| output[ 8] = ~X##go; \ |
| } \ |
| state[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| } \ |
| else { \ |
| state[ 8] = X##go; \ |
| output[ 8] = ~X##go; \ |
| state[ 9] = X##gu; \ |
| output[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| if (laneCount >= 11) { \ |
| output[10] = X##ka; \ |
| } \ |
| } \ |
| state[11] = X##ke; \ |
| state[12] = X##ki; \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| } \ |
| else { \ |
| state[ 8] = X##go; \ |
| output[ 8] = ~X##go; \ |
| state[ 9] = X##gu; \ |
| output[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| output[10] = X##ka; \ |
| state[11] = X##ke; \ |
| output[11] = X##ke; \ |
| if (laneCount < 14) { \ |
| state[12] = X##ki; \ |
| if (laneCount >= 13) { \ |
| output[12] = ~X##ki; \ |
| } \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| } \ |
| else { \ |
| state[12] = X##ki; \ |
| output[12] = ~X##ki; \ |
| state[13] = X##ko; \ |
| output[13] = X##ko; \ |
| state[14] = X##ku; \ |
| if (laneCount >= 15) { \ |
| output[14] = X##ku; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| state[15] = X##ma; \ |
| state[16] = X##me; \ |
| state[17] = X##mi; \ |
| state[18] = X##mo; \ |
| state[19] = X##mu; \ |
| state[20] = X##sa; \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| state[23] = X##so; \ |
| state[24] = X##su; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = ~X##be; \ |
| state[ 2] = X##bi; \ |
| output[ 2] = ~X##bi; \ |
| state[ 3] = X##bo; \ |
| output[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| output[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| output[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| output[ 6] = X##ge; \ |
| state[ 7] = X##gi; \ |
| output[ 7] = X##gi; \ |
| state[ 8] = X##go; \ |
| output[ 8] = ~X##go; \ |
| state[ 9] = X##gu; \ |
| output[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| output[10] = X##ka; \ |
| state[11] = X##ke; \ |
| output[11] = X##ke; \ |
| state[12] = X##ki; \ |
| output[12] = ~X##ki; \ |
| state[13] = X##ko; \ |
| output[13] = X##ko; \ |
| state[14] = X##ku; \ |
| output[14] = X##ku; \ |
| state[15] = X##ma; \ |
| output[15] = X##ma; \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| state[16] = X##me; \ |
| if (laneCount >= 17) { \ |
| output[16] = X##me; \ |
| } \ |
| state[17] = X##mi; \ |
| state[18] = X##mo; \ |
| } \ |
| else { \ |
| state[16] = X##me; \ |
| output[16] = X##me; \ |
| state[17] = X##mi; \ |
| output[17] = ~X##mi; \ |
| state[18] = X##mo; \ |
| if (laneCount >= 19) { \ |
| output[18] = X##mo; \ |
| } \ |
| } \ |
| state[19] = X##mu; \ |
| state[20] = X##sa; \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| } \ |
| else { \ |
| state[16] = X##me; \ |
| output[16] = X##me; \ |
| state[17] = X##mi; \ |
| output[17] = ~X##mi; \ |
| state[18] = X##mo; \ |
| output[18] = X##mo; \ |
| state[19] = X##mu; \ |
| output[19] = X##mu; \ |
| if (laneCount < 22) { \ |
| state[20] = X##sa; \ |
| if (laneCount >= 21) { \ |
| output[20] = ~X##sa; \ |
| } \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| } \ |
| else { \ |
| state[20] = X##sa; \ |
| output[20] = ~X##sa; \ |
| state[21] = X##se; \ |
| output[21] = X##se; \ |
| state[22] = X##si; \ |
| if (laneCount >= 23) { \ |
| output[22] = X##si; \ |
| } \ |
| } \ |
| } \ |
| state[23] = X##so; \ |
| state[24] = X##su; \ |
| } \ |
| else { \ |
| state[16] = X##me; \ |
| output[16] = X##me; \ |
| state[17] = X##mi; \ |
| output[17] = ~X##mi; \ |
| state[18] = X##mo; \ |
| output[18] = X##mo; \ |
| state[19] = X##mu; \ |
| output[19] = X##mu; \ |
| state[20] = X##sa; \ |
| output[20] = ~X##sa; \ |
| state[21] = X##se; \ |
| output[21] = X##se; \ |
| state[22] = X##si; \ |
| output[22] = X##si; \ |
| state[23] = X##so; \ |
| output[23] = X##so; \ |
| state[24] = X##su; \ |
| if (laneCount >= 25) { \ |
| output[24] = X##su; \ |
| } \ |
| } \ |
| } |
| |
| #define output(X, output, laneCount) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| if (laneCount >= 1) { \ |
| output[ 0] = X##ba; \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = ~X##be; \ |
| if (laneCount >= 3) { \ |
| output[ 2] = ~X##bi; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = ~X##be; \ |
| output[ 2] = ~X##bi; \ |
| output[ 3] = X##bo; \ |
| if (laneCount < 6) { \ |
| if (laneCount >= 5) { \ |
| output[ 4] = X##bu; \ |
| } \ |
| } \ |
| else { \ |
| output[ 4] = X##bu; \ |
| output[ 5] = X##ga; \ |
| if (laneCount >= 7) { \ |
| output[ 6] = X##ge; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = ~X##be; \ |
| output[ 2] = ~X##bi; \ |
| output[ 3] = X##bo; \ |
| output[ 4] = X##bu; \ |
| output[ 5] = X##ga; \ |
| output[ 6] = X##ge; \ |
| output[ 7] = X##gi; \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| if (laneCount >= 9) { \ |
| output[ 8] = ~X##go; \ |
| } \ |
| } \ |
| else { \ |
| output[ 8] = ~X##go; \ |
| output[ 9] = X##gu; \ |
| if (laneCount >= 11) { \ |
| output[10] = X##ka; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 8] = ~X##go; \ |
| output[ 9] = X##gu; \ |
| output[10] = X##ka; \ |
| output[11] = X##ke; \ |
| if (laneCount < 14) { \ |
| if (laneCount >= 13) { \ |
| output[12] = ~X##ki; \ |
| } \ |
| } \ |
| else { \ |
| output[12] = ~X##ki; \ |
| output[13] = X##ko; \ |
| if (laneCount >= 15) { \ |
| output[14] = X##ku; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = ~X##be; \ |
| output[ 2] = ~X##bi; \ |
| output[ 3] = X##bo; \ |
| output[ 4] = X##bu; \ |
| output[ 5] = X##ga; \ |
| output[ 6] = X##ge; \ |
| output[ 7] = X##gi; \ |
| output[ 8] = ~X##go; \ |
| output[ 9] = X##gu; \ |
| output[10] = X##ka; \ |
| output[11] = X##ke; \ |
| output[12] = ~X##ki; \ |
| output[13] = X##ko; \ |
| output[14] = X##ku; \ |
| output[15] = X##ma; \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| if (laneCount >= 17) { \ |
| output[16] = X##me; \ |
| } \ |
| } \ |
| else { \ |
| output[16] = X##me; \ |
| output[17] = ~X##mi; \ |
| if (laneCount >= 19) { \ |
| output[18] = X##mo; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[16] = X##me; \ |
| output[17] = ~X##mi; \ |
| output[18] = X##mo; \ |
| output[19] = X##mu; \ |
| if (laneCount < 22) { \ |
| if (laneCount >= 21) { \ |
| output[20] = ~X##sa; \ |
| } \ |
| } \ |
| else { \ |
| output[20] = ~X##sa; \ |
| output[21] = X##se; \ |
| if (laneCount >= 23) { \ |
| output[22] = X##si; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[16] = X##me; \ |
| output[17] = ~X##mi; \ |
| output[18] = X##mo; \ |
| output[19] = X##mu; \ |
| output[20] = ~X##sa; \ |
| output[21] = X##se; \ |
| output[22] = X##si; \ |
| output[23] = X##so; \ |
| if (laneCount >= 25) { \ |
| output[24] = X##su; \ |
| } \ |
| } \ |
| } |
| |
| #define wrapOne(X, input, output, index, name) \ |
| X##name ^= input[index]; \ |
| output[index] = X##name; |
| |
| #define wrapOneInvert(X, input, output, index, name) \ |
| X##name ^= input[index]; \ |
| output[index] = ~X##name; |
| |
| #define unwrapOne(X, input, output, index, name) \ |
| output[index] = input[index] ^ X##name; \ |
| X##name ^= output[index]; |
| |
| #define unwrapOneInvert(X, input, output, index, name) \ |
| output[index] = ~(input[index] ^ X##name); \ |
| X##name ^= output[index]; \ |
| |
| #else /* UseBebigokimisa */ |
| |
| |
| #define copyToStateAndOutput(X, state, output, laneCount) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| state[ 0] = X##ba; \ |
| if (laneCount >= 1) { \ |
| output[ 0] = X##ba; \ |
| } \ |
| state[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| if (laneCount >= 3) { \ |
| output[ 2] = X##bi; \ |
| } \ |
| } \ |
| state[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| output[ 2] = X##bi; \ |
| state[ 3] = X##bo; \ |
| output[ 3] = X##bo; \ |
| if (laneCount < 6) { \ |
| state[ 4] = X##bu; \ |
| if (laneCount >= 5) { \ |
| output[ 4] = X##bu; \ |
| } \ |
| state[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| } \ |
| else { \ |
| state[ 4] = X##bu; \ |
| output[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| output[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| if (laneCount >= 7) { \ |
| output[ 6] = X##ge; \ |
| } \ |
| } \ |
| } \ |
| state[ 7] = X##gi; \ |
| state[ 8] = X##go; \ |
| state[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| state[11] = X##ke; \ |
| state[12] = X##ki; \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| output[ 2] = X##bi; \ |
| state[ 3] = X##bo; \ |
| output[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| output[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| output[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| output[ 6] = X##ge; \ |
| state[ 7] = X##gi; \ |
| output[ 7] = X##gi; \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| state[ 8] = X##go; \ |
| if (laneCount >= 9) { \ |
| output[ 8] = X##go; \ |
| } \ |
| state[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| } \ |
| else { \ |
| state[ 8] = X##go; \ |
| output[ 8] = X##go; \ |
| state[ 9] = X##gu; \ |
| output[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| if (laneCount >= 11) { \ |
| output[10] = X##ka; \ |
| } \ |
| } \ |
| state[11] = X##ke; \ |
| state[12] = X##ki; \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| } \ |
| else { \ |
| state[ 8] = X##go; \ |
| output[ 8] = X##go; \ |
| state[ 9] = X##gu; \ |
| output[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| output[10] = X##ka; \ |
| state[11] = X##ke; \ |
| output[11] = X##ke; \ |
| if (laneCount < 14) { \ |
| state[12] = X##ki; \ |
| if (laneCount >= 13) { \ |
| output[12]= X##ki; \ |
| } \ |
| state[13] = X##ko; \ |
| state[14] = X##ku; \ |
| } \ |
| else { \ |
| state[12] = X##ki; \ |
| output[12]= X##ki; \ |
| state[13] = X##ko; \ |
| output[13] = X##ko; \ |
| state[14] = X##ku; \ |
| if (laneCount >= 15) { \ |
| output[14] = X##ku; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| state[15] = X##ma; \ |
| state[16] = X##me; \ |
| state[17] = X##mi; \ |
| state[18] = X##mo; \ |
| state[19] = X##mu; \ |
| state[20] = X##sa; \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| state[23] = X##so; \ |
| state[24] = X##su; \ |
| } \ |
| else { \ |
| state[ 0] = X##ba; \ |
| output[ 0] = X##ba; \ |
| state[ 1] = X##be; \ |
| output[ 1] = X##be; \ |
| state[ 2] = X##bi; \ |
| output[ 2] = X##bi; \ |
| state[ 3] = X##bo; \ |
| output[ 3] = X##bo; \ |
| state[ 4] = X##bu; \ |
| output[ 4] = X##bu; \ |
| state[ 5] = X##ga; \ |
| output[ 5] = X##ga; \ |
| state[ 6] = X##ge; \ |
| output[ 6] = X##ge; \ |
| state[ 7] = X##gi; \ |
| output[ 7] = X##gi; \ |
| state[ 8] = X##go; \ |
| output[ 8] = X##go; \ |
| state[ 9] = X##gu; \ |
| output[ 9] = X##gu; \ |
| state[10] = X##ka; \ |
| output[10] = X##ka; \ |
| state[11] = X##ke; \ |
| output[11] = X##ke; \ |
| state[12] = X##ki; \ |
| output[12]= X##ki; \ |
| state[13] = X##ko; \ |
| output[13] = X##ko; \ |
| state[14] = X##ku; \ |
| output[14] = X##ku; \ |
| state[15] = X##ma; \ |
| output[15] = X##ma; \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| state[16] = X##me; \ |
| if (laneCount >= 17) { \ |
| output[16] = X##me; \ |
| } \ |
| state[17] = X##mi; \ |
| state[18] = X##mo; \ |
| } \ |
| else { \ |
| state[16] = X##me; \ |
| output[16] = X##me; \ |
| state[17] = X##mi; \ |
| output[17] = X##mi; \ |
| state[18] = X##mo; \ |
| if (laneCount >= 19) { \ |
| output[18] = X##mo; \ |
| } \ |
| } \ |
| state[19] = X##mu; \ |
| state[20] = X##sa; \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| } \ |
| else { \ |
| state[16] = X##me; \ |
| output[16] = X##me; \ |
| state[17] = X##mi; \ |
| output[17] = X##mi; \ |
| state[18] = X##mo; \ |
| output[18] = X##mo; \ |
| state[19] = X##mu; \ |
| output[19] = X##mu; \ |
| if (laneCount < 22) { \ |
| state[20] = X##sa; \ |
| if (laneCount >= 21) { \ |
| output[20] = X##sa; \ |
| } \ |
| state[21] = X##se; \ |
| state[22] = X##si; \ |
| } \ |
| else { \ |
| state[20] = X##sa; \ |
| output[20] = X##sa; \ |
| state[21] = X##se; \ |
| output[21] = X##se; \ |
| state[22] = X##si; \ |
| if (laneCount >= 23) { \ |
| output[22] = X##si; \ |
| } \ |
| } \ |
| } \ |
| state[23] = X##so; \ |
| state[24] = X##su; \ |
| } \ |
| else { \ |
| state[16] = X##me; \ |
| output[16] = X##me; \ |
| state[17] = X##mi; \ |
| output[17] = X##mi; \ |
| state[18] = X##mo; \ |
| output[18] = X##mo; \ |
| state[19] = X##mu; \ |
| output[19] = X##mu; \ |
| state[20] = X##sa; \ |
| output[20] = X##sa; \ |
| state[21] = X##se; \ |
| output[21] = X##se; \ |
| state[22] = X##si; \ |
| output[22] = X##si; \ |
| state[23] = X##so; \ |
| output[23] = X##so; \ |
| state[24] = X##su; \ |
| if (laneCount >= 25) { \ |
| output[24] = X##su; \ |
| } \ |
| } \ |
| } |
| |
| #define output(X, output, laneCount) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| if (laneCount >= 1) { \ |
| output[ 0] = X##ba; \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = X##be; \ |
| if (laneCount >= 3) { \ |
| output[ 2] = X##bi; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = X##be; \ |
| output[ 2] = X##bi; \ |
| output[ 3] = X##bo; \ |
| if (laneCount < 6) { \ |
| if (laneCount >= 5) { \ |
| output[ 4] = X##bu; \ |
| } \ |
| } \ |
| else { \ |
| output[ 4] = X##bu; \ |
| output[ 5] = X##ga; \ |
| if (laneCount >= 7) { \ |
| output[ 6] = X##ge; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = X##be; \ |
| output[ 2] = X##bi; \ |
| output[ 3] = X##bo; \ |
| output[ 4] = X##bu; \ |
| output[ 5] = X##ga; \ |
| output[ 6] = X##ge; \ |
| output[ 7] = X##gi; \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| if (laneCount >= 9) { \ |
| output[ 8] = X##go; \ |
| } \ |
| } \ |
| else { \ |
| output[ 8] = X##go; \ |
| output[ 9] = X##gu; \ |
| if (laneCount >= 11) { \ |
| output[10] = X##ka; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 8] = X##go; \ |
| output[ 9] = X##gu; \ |
| output[10] = X##ka; \ |
| output[11] = X##ke; \ |
| if (laneCount < 14) { \ |
| if (laneCount >= 13) { \ |
| output[12] = X##ki; \ |
| } \ |
| } \ |
| else { \ |
| output[12] = X##ki; \ |
| output[13] = X##ko; \ |
| if (laneCount >= 15) { \ |
| output[14] = X##ku; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[ 0] = X##ba; \ |
| output[ 1] = X##be; \ |
| output[ 2] = X##bi; \ |
| output[ 3] = X##bo; \ |
| output[ 4] = X##bu; \ |
| output[ 5] = X##ga; \ |
| output[ 6] = X##ge; \ |
| output[ 7] = X##gi; \ |
| output[ 8] = X##go; \ |
| output[ 9] = X##gu; \ |
| output[10] = X##ka; \ |
| output[11] = X##ke; \ |
| output[12] = X##ki; \ |
| output[13] = X##ko; \ |
| output[14] = X##ku; \ |
| output[15] = X##ma; \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| if (laneCount >= 17) { \ |
| output[16] = X##me; \ |
| } \ |
| } \ |
| else { \ |
| output[16] = X##me; \ |
| output[17] = X##mi; \ |
| if (laneCount >= 19) { \ |
| output[18] = X##mo; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[16] = X##me; \ |
| output[17] = X##mi; \ |
| output[18] = X##mo; \ |
| output[19] = X##mu; \ |
| if (laneCount < 22) { \ |
| if (laneCount >= 21) { \ |
| output[20] = X##sa; \ |
| } \ |
| } \ |
| else { \ |
| output[20] = X##sa; \ |
| output[21] = X##se; \ |
| if (laneCount >= 23) { \ |
| output[22] = X##si; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| output[16] = X##me; \ |
| output[17] = X##mi; \ |
| output[18] = X##mo; \ |
| output[19] = X##mu; \ |
| output[20] = X##sa; \ |
| output[21] = X##se; \ |
| output[22] = X##si; \ |
| output[23] = X##so; \ |
| if (laneCount >= 25) { \ |
| output[24] = X##su; \ |
| } \ |
| } \ |
| } |
| |
| #define wrapOne(X, input, output, index, name) \ |
| X##name ^= input[index]; \ |
| output[index] = X##name; |
| |
| #define wrapOneInvert(X, input, output, index, name) \ |
| X##name ^= input[index]; \ |
| output[index] = X##name; |
| |
| #define unwrapOne(X, input, output, index, name) \ |
| output[index] = input[index] ^ X##name; \ |
| X##name ^= output[index]; |
| |
| #define unwrapOneInvert(X, input, output, index, name) \ |
| output[index] = input[index] ^ X##name; \ |
| X##name ^= output[index]; |
| |
| #endif |
| |
| #define wrap(X, input, output, laneCount, trailingBits) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| if (laneCount < 1) { \ |
| X##ba ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 0, ba) \ |
| X##be ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 0, ba) \ |
| wrapOneInvert(X, input, output, 1, be) \ |
| if (laneCount < 3) { \ |
| X##bi ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 2, bi) \ |
| X##bo ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 0, ba) \ |
| wrapOneInvert(X, input, output, 1, be) \ |
| wrapOneInvert(X, input, output, 2, bi) \ |
| wrapOne(X, input, output, 3, bo) \ |
| if (laneCount < 6) { \ |
| if (laneCount < 5) { \ |
| X##bu ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 4, bu) \ |
| X##ga ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 4, bu) \ |
| wrapOne(X, input, output, 5, ga) \ |
| if (laneCount < 7) { \ |
| X##ge ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 6, ge) \ |
| X##gi ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 0, ba) \ |
| wrapOneInvert(X, input, output, 1, be) \ |
| wrapOneInvert(X, input, output, 2, bi) \ |
| wrapOne(X, input, output, 3, bo) \ |
| wrapOne(X, input, output, 4, bu) \ |
| wrapOne(X, input, output, 5, ga) \ |
| wrapOne(X, input, output, 6, ge) \ |
| wrapOne(X, input, output, 7, gi) \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| if (laneCount < 9) { \ |
| X##go ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 8, go) \ |
| X##gu ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 8, go) \ |
| wrapOne(X, input, output, 9, gu) \ |
| if (laneCount < 11) { \ |
| X##ka ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 10, ka) \ |
| X##ke ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 8, go) \ |
| wrapOne(X, input, output, 9, gu) \ |
| wrapOne(X, input, output, 10, ka) \ |
| wrapOne(X, input, output, 11, ke) \ |
| if (laneCount < 14) { \ |
| if (laneCount < 13) { \ |
| X##ki ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 12, ki) \ |
| X##ko ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 12, ki) \ |
| wrapOne(X, input, output, 13, ko) \ |
| if (laneCount < 15) { \ |
| X##ku ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 14, ku) \ |
| X##ma ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 0, ba) \ |
| wrapOneInvert(X, input, output, 1, be) \ |
| wrapOneInvert(X, input, output, 2, bi) \ |
| wrapOne(X, input, output, 3, bo) \ |
| wrapOne(X, input, output, 4, bu) \ |
| wrapOne(X, input, output, 5, ga) \ |
| wrapOne(X, input, output, 6, ge) \ |
| wrapOne(X, input, output, 7, gi) \ |
| wrapOneInvert(X, input, output, 8, go) \ |
| wrapOne(X, input, output, 9, gu) \ |
| wrapOne(X, input, output, 10, ka) \ |
| wrapOne(X, input, output, 11, ke) \ |
| wrapOneInvert(X, input, output, 12, ki) \ |
| wrapOne(X, input, output, 13, ko) \ |
| wrapOne(X, input, output, 14, ku) \ |
| wrapOne(X, input, output, 15, ma) \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| if (laneCount < 17) { \ |
| X##me ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 16, me) \ |
| X##mi ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 16, me) \ |
| wrapOneInvert(X, input, output, 17, mi) \ |
| if (laneCount < 19) { \ |
| X##mo ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 18, mo) \ |
| X##mu ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 16, me) \ |
| wrapOneInvert(X, input, output, 17, mi) \ |
| wrapOne(X, input, output, 18, mo) \ |
| wrapOne(X, input, output, 19, mu) \ |
| if (laneCount < 22) { \ |
| if (laneCount < 21) { \ |
| X##sa ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 20, sa) \ |
| X##se ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| wrapOneInvert(X, input, output, 20, sa) \ |
| wrapOne(X, input, output, 21, se) \ |
| if (laneCount < 23) { \ |
| X##si ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 22, si) \ |
| X##so ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 16, me) \ |
| wrapOneInvert(X, input, output, 17, mi) \ |
| wrapOne(X, input, output, 18, mo) \ |
| wrapOne(X, input, output, 19, mu) \ |
| wrapOneInvert(X, input, output, 20, sa) \ |
| wrapOne(X, input, output, 21, se) \ |
| wrapOne(X, input, output, 22, si) \ |
| wrapOne(X, input, output, 23, so) \ |
| if (laneCount < 25) { \ |
| X##su ^= trailingBits; \ |
| } \ |
| else { \ |
| wrapOne(X, input, output, 24, su) \ |
| } \ |
| } \ |
| } |
| |
| #define unwrap(X, input, output, laneCount, trailingBits) \ |
| if (laneCount < 16) { \ |
| if (laneCount < 8) { \ |
| if (laneCount < 4) { \ |
| if (laneCount < 2) { \ |
| if (laneCount < 1) { \ |
| X##ba ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 0, ba) \ |
| X##be ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 0, ba) \ |
| unwrapOneInvert(X, input, output, 1, be) \ |
| if (laneCount < 3) { \ |
| X##bi ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 2, bi) \ |
| X##bo ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 0, ba) \ |
| unwrapOneInvert(X, input, output, 1, be) \ |
| unwrapOneInvert(X, input, output, 2, bi) \ |
| unwrapOne(X, input, output, 3, bo) \ |
| if (laneCount < 6) { \ |
| if (laneCount < 5) { \ |
| X##bu ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 4, bu) \ |
| X##ga ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 4, bu) \ |
| unwrapOne(X, input, output, 5, ga) \ |
| if (laneCount < 7) { \ |
| X##ge ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 6, ge) \ |
| X##gi ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 0, ba) \ |
| unwrapOneInvert(X, input, output, 1, be) \ |
| unwrapOneInvert(X, input, output, 2, bi) \ |
| unwrapOne(X, input, output, 3, bo) \ |
| unwrapOne(X, input, output, 4, bu) \ |
| unwrapOne(X, input, output, 5, ga) \ |
| unwrapOne(X, input, output, 6, ge) \ |
| unwrapOne(X, input, output, 7, gi) \ |
| if (laneCount < 12) { \ |
| if (laneCount < 10) { \ |
| if (laneCount < 9) { \ |
| X##go ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 8, go) \ |
| X##gu ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 8, go) \ |
| unwrapOne(X, input, output, 9, gu) \ |
| if (laneCount < 11) { \ |
| X##ka ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 10, ka) \ |
| X##ke ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 8, go) \ |
| unwrapOne(X, input, output, 9, gu) \ |
| unwrapOne(X, input, output, 10, ka) \ |
| unwrapOne(X, input, output, 11, ke) \ |
| if (laneCount < 14) { \ |
| if (laneCount < 13) { \ |
| X##ki ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 12, ki) \ |
| X##ko ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 12, ki) \ |
| unwrapOne(X, input, output, 13, ko) \ |
| if (laneCount < 15) { \ |
| X##ku ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 14, ku) \ |
| X##ma ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 0, ba) \ |
| unwrapOneInvert(X, input, output, 1, be) \ |
| unwrapOneInvert(X, input, output, 2, bi) \ |
| unwrapOne(X, input, output, 3, bo) \ |
| unwrapOne(X, input, output, 4, bu) \ |
| unwrapOne(X, input, output, 5, ga) \ |
| unwrapOne(X, input, output, 6, ge) \ |
| unwrapOne(X, input, output, 7, gi) \ |
| unwrapOneInvert(X, input, output, 8, go) \ |
| unwrapOne(X, input, output, 9, gu) \ |
| unwrapOne(X, input, output, 10, ka) \ |
| unwrapOne(X, input, output, 11, ke) \ |
| unwrapOneInvert(X, input, output, 12, ki) \ |
| unwrapOne(X, input, output, 13, ko) \ |
| unwrapOne(X, input, output, 14, ku) \ |
| unwrapOne(X, input, output, 15, ma) \ |
| if (laneCount < 24) { \ |
| if (laneCount < 20) { \ |
| if (laneCount < 18) { \ |
| if (laneCount < 17) { \ |
| X##me ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 16, me) \ |
| X##mi ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 16, me) \ |
| unwrapOneInvert(X, input, output, 17, mi) \ |
| if (laneCount < 19) { \ |
| X##mo ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 18, mo) \ |
| X##mu ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 16, me) \ |
| unwrapOneInvert(X, input, output, 17, mi) \ |
| unwrapOne(X, input, output, 18, mo) \ |
| unwrapOne(X, input, output, 19, mu) \ |
| if (laneCount < 22) { \ |
| if (laneCount < 21) { \ |
| X##sa ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 20, sa) \ |
| X##se ^= trailingBits; \ |
| } \ |
| } \ |
| else { \ |
| unwrapOneInvert(X, input, output, 20, sa) \ |
| unwrapOne(X, input, output, 21, se) \ |
| if (laneCount < 23) { \ |
| X##si ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 22, si) \ |
| X##so ^= trailingBits; \ |
| } \ |
| } \ |
| } \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 16, me) \ |
| unwrapOneInvert(X, input, output, 17, mi) \ |
| unwrapOne(X, input, output, 18, mo) \ |
| unwrapOne(X, input, output, 19, mu) \ |
| unwrapOneInvert(X, input, output, 20, sa) \ |
| unwrapOne(X, input, output, 21, se) \ |
| unwrapOne(X, input, output, 22, si) \ |
| unwrapOne(X, input, output, 23, so) \ |
| if (laneCount < 25) { \ |
| X##su ^= trailingBits; \ |
| } \ |
| else { \ |
| unwrapOne(X, input, output, 24, su) \ |
| } \ |
| } \ |
| } |