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C

/**
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*
* \section COPYRIGHT
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*
* Copyright 2013-2015 Software Radio Systems Limited
*
* \section LICENSE
*
* This file is part of the srsLTE library.
*
* srsLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Affero General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* 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
* MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU Affero General Public License for more details.
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*
* A copy of the GNU Affero General Public License can be found in
* the LICENSE file in the top-level directory of this distribution
* and at http://www.gnu.org/licenses/.
*
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*/
#include <string.h>
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#include <strings.h>
#include <stdlib.h>
#include <complex.h>
#include <math.h>
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#include "srslte/common/phy_common.h"
#include "srslte/dft/dft.h"
#include "srslte/dft/ofdm.h"
#include "srslte/utils/debug.h"
#include "srslte/utils/vector.h"
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int srslte_ofdm_init_(srslte_ofdm_t *q, srslte_cp_t cp, int symbol_sz, int nof_prb, srslte_dft_dir_t dir) {
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if (srslte_dft_plan_c(&q->fft_plan, symbol_sz, dir)) {
fprintf(stderr, "Error: Creating DFT plan\n");
return -1;
}
q->tmp = srslte_vec_malloc((uint32_t) symbol_sz * sizeof(cf_t));
if (!q->tmp) {
perror("malloc");
return -1;
}
srslte_dft_plan_set_mirror(&q->fft_plan, true);
srslte_dft_plan_set_dc(&q->fft_plan, true);
q->symbol_sz = (uint32_t) symbol_sz;
q->nof_symbols = SRSLTE_CP_NSYMB(cp);
q->cp = cp;
q->freq_shift = false;
q->shift_buffer = NULL;
q->nof_re = nof_prb * SRSLTE_NRE;
q->nof_guards = ((symbol_sz - q->nof_re) / 2);
q->slot_sz = SRSLTE_SLOT_LEN(symbol_sz);
DEBUG("Init %s symbol_sz=%d, nof_symbols=%d, cp=%s, nof_re=%d, nof_guards=%d\n",
dir==SRSLTE_DFT_FORWARD?"FFT":"iFFT", q->symbol_sz, q->nof_symbols,
q->cp==SRSLTE_CP_NORM?"Normal":"Extended", q->nof_re, q->nof_guards);
return SRSLTE_SUCCESS;
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}
void srslte_ofdm_free_(srslte_ofdm_t *q) {
srslte_dft_plan_free(&q->fft_plan);
if (q->tmp) {
free(q->tmp);
}
if (q->shift_buffer) {
free(q->shift_buffer);
}
bzero(q, sizeof(srslte_ofdm_t));
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}
int srslte_ofdm_rx_init(srslte_ofdm_t *q, srslte_cp_t cp, uint32_t nof_prb) {
int symbol_sz = srslte_symbol_sz(nof_prb);
if (symbol_sz < 0) {
fprintf(stderr, "Error: Invalid nof_prb=%d\n", nof_prb);
return -1;
}
return srslte_ofdm_init_(q, cp, symbol_sz, nof_prb, SRSLTE_DFT_FORWARD);
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}
void srslte_ofdm_rx_free(srslte_ofdm_t *q) {
srslte_ofdm_free_(q);
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}
int srslte_ofdm_tx_init(srslte_ofdm_t *q, srslte_cp_t cp, uint32_t nof_prb) {
uint32_t i;
int ret;
int symbol_sz = srslte_symbol_sz(nof_prb);
if (symbol_sz < 0) {
fprintf(stderr, "Error: Invalid nof_prb=%d\n", nof_prb);
return -1;
}
ret = srslte_ofdm_init_(q, cp, symbol_sz, nof_prb, SRSLTE_DFT_BACKWARD);
if (ret == SRSLTE_SUCCESS) {
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srslte_dft_plan_set_norm(&q->fft_plan, false);
/* set now zeros at CP */
for (i=0;i<q->nof_symbols;i++) {
bzero(q->tmp, q->nof_guards * sizeof(cf_t));
bzero(&q->tmp[q->nof_re + q->nof_guards], q->nof_guards * sizeof(cf_t));
}
}
return ret;
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}
/* Shifts the signal after the iFFT or before the FFT.
* Freq_shift is relative to inter-carrier spacing.
* Caution: This function shall not be called during run-time
*/
int srslte_ofdm_set_freq_shift(srslte_ofdm_t *q, float freq_shift) {
q->shift_buffer = srslte_vec_malloc(sizeof(cf_t) * SRSLTE_SF_LEN(q->symbol_sz));
if (!q->shift_buffer) {
perror("malloc");
return -1;
}
cf_t *ptr = q->shift_buffer;
for (uint32_t n=0;n<2;n++) {
for (uint32_t i=0;i<q->nof_symbols;i++) {
uint32_t cplen = SRSLTE_CP_ISNORM(q->cp)?SRSLTE_CP_LEN_NORM(i, q->symbol_sz):SRSLTE_CP_LEN_EXT(q->symbol_sz);
for (uint32_t t=0;t<q->symbol_sz+cplen;t++) {
ptr[t] = cexpf(I*2*M_PI*((float) t-(float)cplen)*freq_shift/q->symbol_sz);
}
ptr += q->symbol_sz+cplen;
}
}
/* Disable DC carrier addition */
srslte_dft_plan_set_dc(&q->fft_plan, false);
q->freq_shift = true;
return SRSLTE_SUCCESS;
}
void srslte_ofdm_tx_free(srslte_ofdm_t *q) {
srslte_ofdm_free_(q);
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}
/* Transforms input samples into output OFDM symbols.
* Performs FFT on a each symbol and removes CP.
*/
void srslte_ofdm_rx_slot(srslte_ofdm_t *q, cf_t *input, cf_t *output) {
uint32_t i;
for (i=0;i<q->nof_symbols;i++) {
input += SRSLTE_CP_ISNORM(q->cp)?SRSLTE_CP_LEN_NORM(i, q->symbol_sz):SRSLTE_CP_LEN_EXT(q->symbol_sz);
srslte_dft_run_c(&q->fft_plan, input, q->tmp);
memcpy(output, &q->tmp[q->nof_guards], q->nof_re * sizeof(cf_t));
input += q->symbol_sz;
output += q->nof_re;
}
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}
void srslte_ofdm_rx_slot_zerocopy(srslte_ofdm_t *q, cf_t *input, cf_t *output) {
uint32_t i;
for (i=0;i<q->nof_symbols;i++) {
input += SRSLTE_CP_ISNORM(q->cp)?SRSLTE_CP_LEN_NORM(i, q->symbol_sz):SRSLTE_CP_LEN_EXT(q->symbol_sz);
srslte_dft_run_c_zerocopy(&q->fft_plan, input, q->tmp);
memcpy(output, &q->tmp[q->symbol_sz/2+q->nof_guards], sizeof(cf_t)*q->nof_re/2);
memcpy(&output[q->nof_re/2], &q->tmp[1], sizeof(cf_t)*q->nof_re/2);
input += q->symbol_sz;
output += q->nof_re;
}
}
void srslte_ofdm_rx_sf(srslte_ofdm_t *q, cf_t *input, cf_t *output) {
uint32_t n;
if (q->freq_shift) {
srslte_vec_prod_ccc(input, q->shift_buffer, input, 2*q->slot_sz);
}
for (n=0;n<2;n++) {
srslte_ofdm_rx_slot(q, &input[n*q->slot_sz], &output[n*q->nof_re*q->nof_symbols]);
}
}
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/* Transforms input OFDM symbols into output samples.
* Performs FFT on a each symbol and adds CP.
*/
void srslte_ofdm_tx_slot(srslte_ofdm_t *q, cf_t *input, cf_t *output) {
uint32_t i, cp_len;
for (i=0;i<q->nof_symbols;i++) {
cp_len = SRSLTE_CP_ISNORM(q->cp)?SRSLTE_CP_LEN_NORM(i, q->symbol_sz):SRSLTE_CP_LEN_EXT(q->symbol_sz);
memcpy(&q->tmp[q->nof_guards], input, q->nof_re * sizeof(cf_t));
srslte_dft_run_c(&q->fft_plan, q->tmp, &output[cp_len]);
input += q->nof_re;
/* add CP */
memcpy(output, &output[q->symbol_sz], cp_len * sizeof(cf_t));
output += q->symbol_sz + cp_len;
}
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}
void srslte_ofdm_set_normalize(srslte_ofdm_t *q, bool normalize_enable) {
srslte_dft_plan_set_norm(&q->fft_plan, normalize_enable);
}
void srslte_ofdm_tx_sf(srslte_ofdm_t *q, cf_t *input, cf_t *output) {
uint32_t n;
for (n=0;n<2;n++) {
srslte_ofdm_tx_slot(q, &input[n*q->nof_re*q->nof_symbols], &output[n*q->slot_sz]);
}
if (q->freq_shift) {
srslte_vec_prod_ccc(output, q->shift_buffer, output, 2*q->slot_sz);
}
}