kopia lustrzana https://github.com/f4exb/sdrangel
175 wiersze
3.9 KiB
C++
175 wiersze
3.9 KiB
C++
/*
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LDPC SISO flooding decoder
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Copyright 2018 Ahmet Inan <xdsopl@gmail.com>
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*/
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#ifndef FLOODING_DECODER_HH
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#define FLOODING_DECODER_HH
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#include <stdlib.h>
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#include "exclusive_reduce.h"
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#include "ldpc.h"
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namespace ldpctool {
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template <typename TYPE, typename ALG>
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class LDPCDecoder
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{
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void *aligned_buffer;
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TYPE *bnl, *bnv, *cnl, *cnv;
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uint8_t *cnc;
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LDPCInterface *ldpc;
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ALG alg;
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int N, K, R, CNL, LT;
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bool initialized;
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void bit_node_init(TYPE *data, TYPE *parity)
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{
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TYPE *bl = bnl;
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for (int i = 0; i < R-1; ++i) {
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bnv[i] = parity[i];
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*bl++ = parity[i];
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*bl++ = parity[i];
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}
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bnv[R-1] = parity[R-1];
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*bl++ = parity[R-1];
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ldpc->first_bit();
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for (int j = 0; j < K; ++j) {
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bnv[j+R] = data[j];
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int bit_deg = ldpc->bit_deg();
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for (int n = 0; n < bit_deg; ++n)
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*bl++ = data[j];
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ldpc->next_bit();
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}
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}
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void check_node_update()
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{
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TYPE *bl = bnl;
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cnv[0] = alg.sign(alg.one(), bnv[0]);
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cnl[0] = *bl++;
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cnc[0] = 1;
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for (int i = 1; i < R; ++i) {
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cnv[i] = alg.sign(alg.sign(alg.one(), bnv[i-1]), bnv[i]);
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cnl[CNL*i] = *bl++;
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cnl[CNL*i+1] = *bl++;
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cnc[i] = 2;
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}
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ldpc->first_bit();
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for (int j = 0; j < K; ++j) {
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int *acc_pos = ldpc->acc_pos();
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int bit_deg = ldpc->bit_deg();
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for (int n = 0; n < bit_deg; ++n) {
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int i = acc_pos[n];
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cnv[i] = alg.sign(cnv[i], bnv[j+R]);
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cnl[CNL*i+cnc[i]++] = *bl++;
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}
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ldpc->next_bit();
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}
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for (int i = 0; i < R; ++i)
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alg.finalp(cnl+CNL*i, cnc[i]);
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}
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void bit_node_update(TYPE *data, TYPE *parity)
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{
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TYPE *bl = bnl;
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bnv[0] = alg.add(parity[0], alg.add(cnl[0], cnl[CNL]));
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alg.update(bl++, alg.add(parity[0], cnl[CNL]));
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alg.update(bl++, alg.add(parity[0], cnl[0]));
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cnc[0] = 1;
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for (int i = 1; i < R-1; ++i) {
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bnv[i] = alg.add(parity[i], alg.add(cnl[CNL*i+1], cnl[CNL*(i+1)]));
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alg.update(bl++, alg.add(parity[i], cnl[CNL*(i+1)]));
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alg.update(bl++, alg.add(parity[i], cnl[CNL*i+1]));
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cnc[i] = 2;
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}
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bnv[R-1] = alg.add(parity[R-1], cnl[CNL*(R-1)+1]);
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alg.update(bl++, parity[R-1]);
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cnc[R-1] = 2;
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ldpc->first_bit();
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for (int j = 0; j < K; ++j) {
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int *acc_pos = ldpc->acc_pos();
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int bit_deg = ldpc->bit_deg();
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TYPE inp[bit_deg];
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for (int n = 0; n < bit_deg; ++n) {
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int i = acc_pos[n];
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inp[n] = cnl[CNL*i+cnc[i]++];
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}
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TYPE out[bit_deg];
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CODE::exclusive_reduce(inp, out, bit_deg, alg.add);
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bnv[j+R] = alg.add(data[j], alg.add(out[0], inp[0]));
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for (int n = 0; n < bit_deg; ++n)
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alg.update(bl++, alg.add(data[j], out[n]));
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ldpc->next_bit();
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}
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}
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bool hard_decision(int blocks)
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{
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for (int i = 0; i < R; ++i)
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if (alg.bad(cnv[i], blocks))
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return true;
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return false;
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}
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void update_user(TYPE *data, TYPE *parity)
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{
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for (int i = 0; i < R; ++i)
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parity[i] = bnv[i];
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for (int i = 0; i < K; ++i)
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data[i] = bnv[i+R];
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}
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public:
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LDPCDecoder() : initialized(false)
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{
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}
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void init(LDPCInterface *it)
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{
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if (initialized) {
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free(aligned_buffer);
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delete[] cnc;
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delete ldpc;
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}
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initialized = true;
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ldpc = it->clone();
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N = ldpc->code_len();
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K = ldpc->data_len();
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R = N - K;
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CNL = ldpc->links_max_cn();
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LT = ldpc->links_total();
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int num = LT + N + R * CNL + R;
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aligned_buffer = aligned_alloc(sizeof(TYPE), sizeof(TYPE) * num);
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TYPE *ptr = reinterpret_cast<TYPE *>(aligned_buffer);
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bnl = ptr; ptr += LT;
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bnv = ptr; ptr += N;
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cnl = ptr; ptr += R * CNL;
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cnv = ptr; ptr += R;
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cnc = new uint8_t[R];
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}
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int operator()(TYPE *data, TYPE *parity, int trials = 50, int blocks = 1)
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{
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bit_node_init(data, parity);
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check_node_update();
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if (!hard_decision(blocks))
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return trials;
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--trials;
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bit_node_update(data, parity);
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check_node_update();
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while (hard_decision(blocks) && --trials >= 0) {
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bit_node_update(data, parity);
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check_node_update();
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}
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update_user(data, parity);
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return trials;
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}
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~LDPCDecoder()
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{
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if (initialized) {
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free(aligned_buffer);
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delete[] cnc;
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delete ldpc;
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}
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}
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};
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} // namespace ldpctool
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#endif
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