/////////////////////////////////////////////////////////////////////////////////// // Copyright (C) 2021 Edouard Griffiths, F4EXB // // // // This program is free software; you can redistribute it and/or modify // // it under the terms of the GNU General Public License as published by // // the Free Software Foundation as version 3 of the License, or // // (at your option) any later version. // // // // This program is distributed in the hope that it will be useful, // // but WITHOUT ANY WARRANTY; without even the implied warranty of // // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the // // GNU General Public License V3 for more details. // // // // You should have received a copy of the GNU General Public License // // along with this program. If not, see . // /////////////////////////////////////////////////////////////////////////////////// #include #include #include "golay2312.h" const unsigned int Golay2312::m_B[11] = { 0b101001001111, 0b111101101000, 0b011110110100, 0b001111011010, 0b000111101101, 0b101010111001, 0b111100010011, 0b110111000110, 0b011011100011, 0b100100111110, 0b010010011111, }; const unsigned int Golay2312::m_I11[11] = { 0b10000000000, 0b01000000000, 0b00100000000, 0b00010000000, 0b00001000000, 0b00000100000, 0b00000010000, 0b00000001000, 0b00000000100, 0b00000000010, 0b00000000001, }; const unsigned int Golay2312::m_I12[12] = { 0b100000000000, 0b010000000000, 0b001000000000, 0b000100000000, 0b000010000000, 0b000001000000, 0b000000100000, 0b000000010000, 0b000000001000, 0b000000000100, 0b000000000010, 0b000000000001, }; Golay2312::Golay2312() { initG(); initH(); buildCorrMatrix(m_corrPL, m_HPL); buildCorrMatrix(m_corrPF, m_HPF, true); } Golay2312::~Golay2312() { } void Golay2312::initG() { for (int r = 0; r < 23; r++) { // parity last if (r < 12) { m_GPL[r] = m_I12[r]; } else { m_GPL[r] = m_B[r-12]; } // parity first if (r < 11) { m_GPF[r] = m_B[r]; } else { m_GPF[r] = m_I12[r-11]; } } } void Golay2312::initH() { for (int r = 0; r < 11; r++) { m_HPL[r] = (m_B[r] << 11) + m_I11[r]; // parity last m_HPF[r] = (m_I11[r] << 12) + m_B[r]; // parity first } } void Golay2312::encodeParityLast(unsigned int msg, unsigned int *tx) { *tx = 0; for (int r = 0; r < 23; r++) { *tx += (std::bitset<32>(m_GPL[r] & msg).count() % 2) << (22-r); } } void Golay2312::encodeParityFirst(unsigned int msg, unsigned int *tx) { *tx = 0; for (int r = 0; r < 23; r++) { *tx += (std::bitset<32>(m_GPF[r] & msg).count() % 2) << (22-r); } } bool Golay2312::decodeParityLast(unsigned int *rx) { unsigned int s = syn(m_HPL, *rx); return lut(m_corrPL, s, rx); } bool Golay2312::decodeParityFirst(unsigned int *rx) { unsigned int s = syn(m_HPF, *rx); return lut(m_corrPF, s, rx); } unsigned int Golay2312::syn(unsigned int *H, unsigned int rx) { unsigned int s = 0; for (int r = 0; r < 11; r++) { s += (std::bitset<32>(H[r] & rx).count() % 2) << (10-r); } return s; } bool Golay2312::lut(unsigned char *corr, unsigned int syndrome, unsigned int *rx) { if (syndrome == 0) { return true; } int i = 0; for (; i < 3; i++) { if (corr[3*syndrome + i] == 0xFF) { break; } else { *rx ^= (1 << corr[3*syndrome + i]); // flip bit } } if (i == 0) { return false; } return true; } void Golay2312::buildCorrMatrix(unsigned char *corr, unsigned int *H, bool pf) { int shiftP = pf ? 12 : 0; // shift in position value for parity bits int shiftW = pf ? 0 : 11; // shift in position value for message word bits std::fill(corr, corr + 3*2048, 0xFF); int syndromeI; unsigned int cw; for (int i1 = 0; i1 < 12; i1++) { for (int i2 = i1+1; i2 < 12; i2++) { for (int i3 = i2+1; i3 < 12; i3++) { // 3 bit patterns (in message) cw = (1 << (i1+shiftW)) + (1 << (i2+shiftW)) + (1 << (i3+shiftW)); syndromeI = syn(H, cw); corr[3*syndromeI + 0] = i1 + shiftW; corr[3*syndromeI + 1] = i2 + shiftW; corr[3*syndromeI + 2] = i3 + shiftW; } // 2 bit patterns (in message) cw = (1 << (i1+shiftW)) + (1 << (i2+shiftW)); syndromeI = syn(H, cw); corr[3*syndromeI + 0] = i1 + shiftW; corr[3*syndromeI + 1] = i2 + shiftW; // 1 possible bit flip left in the parity part for (int ip = 0; ip < 11; ip++) { int syndromeIP = syndromeI ^ (1 << (10-ip)); corr[3*syndromeIP + 0] = i1 + shiftW; corr[3*syndromeIP + 1] = i2 + shiftW; corr[3*syndromeIP + 2] = 10 - ip + shiftP; } } // single bit patterns (in message) cw = (1 << (i1+shiftW)); syndromeI = syn(H, cw); corr[3*syndromeI + 0] = i1 + shiftW; for (int ip1 = 0; ip1 < 11; ip1++) // 1 more bit flip in parity { int syndromeIP1 = syndromeI ^ (1 << (10-ip1)); corr[3*syndromeIP1 + 0] = i1 + shiftW; corr[3*syndromeIP1 + 1] = 10 - ip1 + shiftP; for (int ip2 = ip1+1; ip2 < 11; ip2++) // 1 more bit flip in parity { int syndromeIP2 = syndromeIP1 ^ (1 << (10-ip2)); corr[3*syndromeIP2 + 0] = i1 + shiftW; corr[3*syndromeIP2 + 1] = 10 - ip1 + shiftP; corr[3*syndromeIP2 + 2] = 10 - ip2 + shiftP; } } } // no bit patterns (in message) -> all in parity for (int ip1 = 0; ip1 < 11; ip1++) // 1 bit flip in parity { int syndromeIP1 = (1 << (10-ip1)); corr[3*syndromeIP1 + 0] = 10 - ip1 + shiftP; for (int ip2 = ip1+1; ip2 < 11; ip2++) // 1 more bit flip in parity { int syndromeIP2 = syndromeIP1 ^ (1 << (10-ip2)); corr[3*syndromeIP2 + 0] = 10 - ip1 + shiftP; corr[3*syndromeIP2 + 1] = 10 - ip2 + shiftP; for (int ip3 = ip2+1; ip3 < 11; ip3++) // 1 more bit flip in parity { int syndromeIP3 = syndromeIP2 ^ (1 << (10-ip3)); corr[3*syndromeIP3 + 0] = 10 - ip1 + shiftP; corr[3*syndromeIP3 + 1] = 10 - ip2 + shiftP; corr[3*syndromeIP3 + 2] = 10 - ip3 + shiftP; } } } }