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334 lines
7.8 KiB
C
334 lines
7.8 KiB
C
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/**
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*
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* \section COPYRIGHT
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*
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* Copyright 2013-2015 Software Radio Systems Limited
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*
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* \section LICENSE
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*
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* This file is part of the srsLTE library.
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*
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* srsLTE is free software: you can redistribute it and/or modify
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* it under the terms of the GNU Affero General Public License as
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* published by the Free Software Foundation, either version 3 of
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* the License, or (at your option) any later version.
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*
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* srsLTE is distributed in the hope that it will be useful,
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* but WITHOUT ANY WARRANTY; without even the implied warranty of
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* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
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* GNU Affero General Public License for more details.
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*
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* A copy of the GNU Affero General Public License can be found in
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* the LICENSE file in the top-level directory of this distribution
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* and at http://www.gnu.org/licenses/.
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*
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*/
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#include <stdio.h>
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#include <stdint.h>
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#include <string.h>
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#include <stdlib.h>
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#include "srslte/fec/cbsegm.h"
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#include "srslte/fec/turbocoder.h"
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#include "srslte/utils/bit.h"
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#include "srslte/utils/vector.h"
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#define NOF_REGS 3
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#define RATE 3
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#define TOTALTAIL 12
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uint8_t tcod_lut_next_state[188][8][256];
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uint8_t tcod_lut_output[188][8][256];
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uint16_t tcod_per_fw[188][6144];
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static bool table_initiated = false;
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int srslte_tcod_init(srslte_tcod_t *h, uint32_t max_long_cb) {
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h->max_long_cb = max_long_cb;
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h->temp = srslte_vec_malloc(max_long_cb/8);
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if (!table_initiated) {
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table_initiated = true;
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srslte_tcod_gentable();
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}
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return 0;
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}
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void srslte_tcod_free(srslte_tcod_t *h) {
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h->max_long_cb = 0;
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if (h->temp) {
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free(h->temp);
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}
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}
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/* Expects bits (1 byte = 1 bit) and produces bits. The systematic and parity bits are interlaced in the output */
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int srslte_tcod_encode(srslte_tcod_t *h, uint8_t *input, uint8_t *output, uint32_t long_cb)
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{
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uint8_t reg1_0, reg1_1, reg1_2, reg2_0, reg2_1, reg2_2;
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uint32_t i, k = 0, j;
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uint8_t bit;
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uint8_t in, out;
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uint16_t *per;
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if (long_cb > h->max_long_cb) {
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fprintf(stderr, "Turbo coder initiated for max_long_cb=%d\n",
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h->max_long_cb);
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return -1;
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}
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int longcb_idx = srslte_cbsegm_cbindex(long_cb);
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if (longcb_idx < 0) {
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fprintf(stderr, "Invalid CB size %d\n", long_cb);
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return -1;
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}
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per = tcod_per_fw[longcb_idx];
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reg1_0 = 0;
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reg1_1 = 0;
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reg1_2 = 0;
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reg2_0 = 0;
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reg2_1 = 0;
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reg2_2 = 0;
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k = 0;
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for (i = 0; i < long_cb; i++) {
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if (input[i] == SRSLTE_TX_NULL) {
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bit = 0;
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} else {
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bit = input[i];
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}
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output[k] = input[i];
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k++;
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in = bit ^ (reg1_2 ^ reg1_1);
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out = reg1_2 ^ (reg1_0 ^ in);
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reg1_2 = reg1_1;
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reg1_1 = reg1_0;
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reg1_0 = in;
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if (input[i] == SRSLTE_TX_NULL) {
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output[k] = SRSLTE_TX_NULL;
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} else {
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output[k] = out;
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}
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k++;
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bit = input[per[i]];
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if (bit == SRSLTE_TX_NULL) {
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bit = 0;
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}
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in = bit ^ (reg2_2 ^ reg2_1);
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out = reg2_2 ^ (reg2_0 ^ in);
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reg2_2 = reg2_1;
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reg2_1 = reg2_0;
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reg2_0 = in;
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output[k] = out;
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k++;
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}
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k = 3 * long_cb;
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/* TAILING CODER #1 */
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for (j = 0; j < NOF_REGS; j++) {
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bit = reg1_2 ^ reg1_1;
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output[k] = bit;
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k++;
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in = bit ^ (reg1_2 ^ reg1_1);
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out = reg1_2 ^ (reg1_0 ^ in);
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reg1_2 = reg1_1;
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reg1_1 = reg1_0;
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reg1_0 = in;
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output[k] = out;
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k++;
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}
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/* TAILING CODER #2 */
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for (j = 0; j < NOF_REGS; j++) {
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bit = reg2_2 ^ reg2_1;
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output[k] = bit;
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k++;
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in = bit ^ (reg2_2 ^ reg2_1);
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out = reg2_2 ^ (reg2_0 ^ in);
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reg2_2 = reg2_1;
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reg2_1 = reg2_0;
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reg2_0 = in;
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output[k] = out;
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k++;
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}
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return 0;
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}
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/* Expects bytes and produces bytes. The systematic and parity bits are interlaced in the output */
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int srslte_tcod_encode_lut(srslte_tcod_t *h, uint8_t *input, uint8_t *parity, uint32_t cblen_idx)
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{
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if (cblen_idx < 188) {
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uint32_t long_cb = srslte_cbsegm_cbsize(cblen_idx);
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if (long_cb % 8) {
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fprintf(stderr, "Turbo coder LUT implementation long_cb must be multiple of 8\n");
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return -1;
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}
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/* Parity bits for the 1st constituent encoders */
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uint8_t state0 = 0;
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for (uint32_t i=0;i<long_cb/8;i++) {
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parity[i] = tcod_lut_output[cblen_idx][state0][input[i]];
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state0 = tcod_lut_next_state[cblen_idx][state0][input[i]] % 8;
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}
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parity[long_cb/8] = 0; // will put tail here later
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/* Interleave input */
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srslte_bit_interleave(input, h->temp, tcod_per_fw[cblen_idx], long_cb);
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/* Parity bits for the 2nd constituent encoders */
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uint8_t state1 = 0;
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for (uint32_t i=0;i<long_cb/8;i++) {
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uint8_t out = tcod_lut_output[cblen_idx][state1][h->temp[i]];
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parity[long_cb/8+i] |= (out&0xf0)>>4;
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parity[long_cb/8+i+1] = (out&0xf)<<4;
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state1 = tcod_lut_next_state[cblen_idx][state1][h->temp[i]] % 8;
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}
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/* Tail bits */
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uint8_t reg1_0, reg1_1, reg1_2, reg2_0, reg2_1, reg2_2;
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uint8_t bit, in, out;
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uint8_t k=0;
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uint8_t tail[12];
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reg2_0 = (state1&4)>>2;
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reg2_1 = (state1&2)>>1;
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reg2_2 = state1&1;
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reg1_0 = (state0&4)>>2;
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reg1_1 = (state0&2)>>1;
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reg1_2 = state0&1;
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/* TAILING CODER #1 */
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for (uint32_t j = 0; j < NOF_REGS; j++) {
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bit = reg1_2 ^ reg1_1;
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tail[k] = bit;
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k++;
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in = bit ^ (reg1_2 ^ reg1_1);
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out = reg1_2 ^ (reg1_0 ^ in);
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reg1_2 = reg1_1;
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reg1_1 = reg1_0;
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reg1_0 = in;
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tail[k] = out;
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k++;
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}
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/* TAILING CODER #2 */
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for (uint32_t j = 0; j < NOF_REGS; j++) {
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bit = reg2_2 ^ reg2_1;
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tail[k] = bit;
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k++;
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in = bit ^ (reg2_2 ^ reg2_1);
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out = reg2_2 ^ (reg2_0 ^ in);
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reg2_2 = reg2_1;
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reg2_1 = reg2_0;
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reg2_0 = in;
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tail[k] = out;
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k++;
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}
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uint8_t tailv[3][4];
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for (int i=0;i<4;i++) {
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for (int j=0;j<3;j++) {
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tailv[j][i] = tail[3*i+j];
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}
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}
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uint8_t *x = tailv[0];
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input[long_cb/8] = (srslte_bit_pack(&x, 4)<<4);
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x = tailv[1];
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parity[long_cb/8] |= (srslte_bit_pack(&x, 4)<<4);
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x = tailv[2];
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parity[2*long_cb/8] |= (srslte_bit_pack(&x, 4)&0xf);
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return 3*long_cb+TOTALTAIL;
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} else {
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return -1;
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}
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}
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void srslte_tcod_gentable() {
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srslte_tc_interl_t interl;
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if (srslte_tc_interl_init(&interl, 6144)) {
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fprintf(stderr, "Error initiating interleave\n");
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return;
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}
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for (uint32_t len=0;len<188;len++) {
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uint32_t long_cb = srslte_cbsegm_cbsize(len);
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if (srslte_tc_interl_LTE_gen(&interl, long_cb)) {
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fprintf(stderr, "Error initiating TC interleaver for long_cb=%d\n", long_cb);
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return;
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}
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// Save fw/bw permutation tables
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for (uint32_t i=0;i<long_cb;i++) {
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tcod_per_fw[len][i] = interl.forward[i];
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}
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for (uint32_t i=long_cb;i<6144;i++) {
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tcod_per_fw[len][i] = 0;
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}
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// Compute state transitions
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for (uint32_t state=0;state<8;state++) {
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for (uint32_t data=0;data<256;data++) {
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uint8_t reg_0, reg_1, reg_2;
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reg_0 = (state&4)>>2;
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reg_1 = (state&2)>>1;
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reg_2 = state&1;
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tcod_lut_output[len][state][data] = 0;
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uint8_t bit, in, out;
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for (uint32_t i = 0; i < 8; i++) {
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bit = (data&(1<<(7-i)))?1:0;
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in = bit ^ (reg_2 ^ reg_1);
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out = reg_2 ^ (reg_0 ^ in);
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reg_2 = reg_1;
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reg_1 = reg_0;
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reg_0 = in;
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tcod_lut_output[len][state][data] |= out<<(7-i);
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}
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tcod_lut_next_state[len][state][data] = reg_0<<2 | reg_1<<1 | reg_2;
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}
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}
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}
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srslte_tc_interl_free(&interl);
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}
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