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/**
*
* \section COPYRIGHT
*
* Copyright 2013-2014 The libLTE Developers. See the
* COPYRIGHT file at the top-level directory of this distribution.
*
* \section LICENSE
*
* This file is part of the libLTE library.
*
* libLTE is free software: you can redistribute it and/or modify
* it under the terms of the GNU Lesser General Public License as
* published by the Free Software Foundation, either version 3 of
* the License, or (at your option) any later version.
*
* libLTE 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 Lesser General Public License for more details.
*
* A copy of the GNU Lesser 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/.
*
*/
#include <stdbool.h>
#include <complex.h>
#include <stdint.h>
#include <math.h>
#include "liblte/phy/modem/modem_table.h"
#include "lte_tables.h"
/**
* Set the BPSK modulation table */
void set_BPSKtable(cf_t* table, soft_table_t *soft_table, bool compute_soft_demod)
{
// LTE-BPSK constellation:
// Q
// | 0
//---------> I
// 1 |
table[0] = BPSK_LEVEL + BPSK_LEVEL*_Complex_I;
table[1] = -BPSK_LEVEL -BPSK_LEVEL*_Complex_I;
if (!compute_soft_demod) {
return;
}
/* BSPK symbols containing a '0' and a '1' (only two symbols, 1 bit) */
soft_table->idx[0][0][0] = 0;
soft_table->idx[1][0][0] = 1;
}
/**
* Set the QPSK modulation table */
void set_QPSKtable(cf_t* table, soft_table_t *soft_table, bool compute_soft_demod)
{
uint32_t i,j;
// LTE-QPSK constellation:
// Q
// 10 | 00
//-----------> I
// 11 | 01
table[0] = QPSK_LEVEL + QPSK_LEVEL*_Complex_I;
table[1] = QPSK_LEVEL - QPSK_LEVEL*_Complex_I;
table[2] = -QPSK_LEVEL + QPSK_LEVEL*_Complex_I;
table[3] = -QPSK_LEVEL - QPSK_LEVEL*_Complex_I;
for (i=0;i<6;i++) {
for (j=0;j<32;j++) {
soft_table->idx[0][i][j] = 0;
soft_table->idx[1][i][j] = 0;
}
}
if (!compute_soft_demod) {
return;
}
/* QSPK symbols containing a '0' at the different bit positions */
soft_table->idx[0][0][0] = 0;
soft_table->idx[0][0][1] = 1;
soft_table->idx[0][1][0] = 0;
soft_table->idx[0][1][1] = 2;
/* QSPK symbols containing a '1' at the different bit positions */
soft_table->idx[1][0][0] = 2;
soft_table->idx[1][0][1] = 3;
soft_table->idx[1][1][0] = 1;
soft_table->idx[1][1][1] = 3;
}
/**
* Set the 16QAM modulation table */
void set_16QAMtable(cf_t* table, soft_table_t *soft_table, bool compute_soft_demod)
{
uint32_t i,j;
// LTE-16QAM constellation:
// Q
// 1011 1001 | 0001 0011
// 1010 1000 | 0000 0010
//---------------------------------> I
// 1110 1100 | 0100 0110
// 1111 1101 | 0101 0111
table[0] = QAM16_LEVEL_1 + QAM16_LEVEL_1*_Complex_I;
table[1] = QAM16_LEVEL_1 + QAM16_LEVEL_2*_Complex_I;
table[2] = QAM16_LEVEL_2 + QAM16_LEVEL_1*_Complex_I;
table[3] = QAM16_LEVEL_2 + QAM16_LEVEL_2*_Complex_I;
table[4] = QAM16_LEVEL_1 - QAM16_LEVEL_1*_Complex_I;
table[5] = QAM16_LEVEL_1 - QAM16_LEVEL_2*_Complex_I;
table[6] = QAM16_LEVEL_2 - QAM16_LEVEL_1*_Complex_I;
table[7] = QAM16_LEVEL_2 - QAM16_LEVEL_2*_Complex_I;
table[8] = -QAM16_LEVEL_1 + QAM16_LEVEL_1*_Complex_I;
table[9] = -QAM16_LEVEL_1 + QAM16_LEVEL_2*_Complex_I;
table[10] = -QAM16_LEVEL_2 + QAM16_LEVEL_1*_Complex_I;
table[11] = -QAM16_LEVEL_2 + QAM16_LEVEL_2*_Complex_I;
table[12] = -QAM16_LEVEL_1 - QAM16_LEVEL_1*_Complex_I;
table[13] = -QAM16_LEVEL_1 - QAM16_LEVEL_2*_Complex_I;
table[14] = -QAM16_LEVEL_2 - QAM16_LEVEL_1*_Complex_I;
table[15] = -QAM16_LEVEL_2 - QAM16_LEVEL_2*_Complex_I;
for (i=0;i<6;i++) {
for (j=0;j<32;j++) {
soft_table->idx[0][i][j] = 0;
soft_table->idx[1][i][j] = 0;
}
}
if (!compute_soft_demod) {
return;
}
/* Matrices identifying the zeros and ones of LTE-16QAM constellation */
for (i=0;i<8;i++) {
soft_table->idx[0][0][i] = i; /* symbols with a '0' at the bit0 (leftmost)*/
soft_table->idx[1][0][i] = i+8; /* symbols with a '1' at the bit0 (leftmost)*/
}
/* symbols with a '0' ans '1' at the bit position 1: */
for (i=0;i<4;i++) {
soft_table->idx[0][1][i] = i;
soft_table->idx[0][1][i+4] = i+8;
soft_table->idx[1][1][i] = i+4;
soft_table->idx[1][1][i+4] = i+12;
}
/* symbols with a '0' ans '1' at the bit position 2: */
for (j=0;j<4;j++) {
for (i=0;i<2;i++) {
soft_table->idx[0][2][i+2*j] = i + 4*j;
soft_table->idx[1][2][i+2*j] = i+2 + 4*j;
}
}
/* symbols with a '0' ans '1' at the bit position 3: */
for (i=0;i<8;i++) {
soft_table->idx[0][3][i] = 2*i;
soft_table->idx[1][3][i] = 2*i+1;
}
}
/**
* Set the 64QAM modulation table */
void set_64QAMtable(cf_t* table, soft_table_t *soft_table, bool compute_soft_demod)
{
uint32_t i,j;
// LTE-64QAM constellation:
// see [3GPP TS 36.211 version 10.5.0 Release 10, Section 7.1.4]
table[0] = QAM64_LEVEL_2 + QAM64_LEVEL_2*_Complex_I;
table[1] = QAM64_LEVEL_2 + QAM64_LEVEL_1*_Complex_I;
table[2] = QAM64_LEVEL_1 + QAM64_LEVEL_2*_Complex_I;
table[3] = QAM64_LEVEL_1 + QAM64_LEVEL_1*_Complex_I;
table[4] = QAM64_LEVEL_2 + QAM64_LEVEL_3*_Complex_I;
table[5] = QAM64_LEVEL_2 + QAM64_LEVEL_4*_Complex_I;
table[6] = QAM64_LEVEL_1 + QAM64_LEVEL_3*_Complex_I;
table[7] = QAM64_LEVEL_1 + QAM64_LEVEL_4*_Complex_I;
table[8] = QAM64_LEVEL_3 + QAM64_LEVEL_2*_Complex_I;
table[9] = QAM64_LEVEL_3 + QAM64_LEVEL_1*_Complex_I;
table[10] = QAM64_LEVEL_4 + QAM64_LEVEL_2*_Complex_I;
table[11] = QAM64_LEVEL_4 + QAM64_LEVEL_1*_Complex_I;
table[12] = QAM64_LEVEL_3 + QAM64_LEVEL_3*_Complex_I;
table[13] = QAM64_LEVEL_3 + QAM64_LEVEL_4*_Complex_I;
table[14] = QAM64_LEVEL_4 + QAM64_LEVEL_3*_Complex_I;
table[15] = QAM64_LEVEL_4 + QAM64_LEVEL_4*_Complex_I;
table[16] = QAM64_LEVEL_2 - QAM64_LEVEL_2*_Complex_I;
table[17] = QAM64_LEVEL_2 - QAM64_LEVEL_1*_Complex_I;
table[18] = QAM64_LEVEL_1 - QAM64_LEVEL_2*_Complex_I;
table[19] = QAM64_LEVEL_1 - QAM64_LEVEL_1*_Complex_I;
table[20] = QAM64_LEVEL_2 - QAM64_LEVEL_3*_Complex_I;
table[21] = QAM64_LEVEL_2 - QAM64_LEVEL_4*_Complex_I;
table[22] = QAM64_LEVEL_1 - QAM64_LEVEL_3*_Complex_I;
table[23] = QAM64_LEVEL_1 - QAM64_LEVEL_4*_Complex_I;
table[24] = QAM64_LEVEL_3 - QAM64_LEVEL_2*_Complex_I;
table[25] = QAM64_LEVEL_3 - QAM64_LEVEL_1*_Complex_I;
table[26] = QAM64_LEVEL_4 - QAM64_LEVEL_2*_Complex_I;
table[27] = QAM64_LEVEL_4 - QAM64_LEVEL_1*_Complex_I;
table[28] = QAM64_LEVEL_3 - QAM64_LEVEL_3*_Complex_I;
table[29] = QAM64_LEVEL_3 - QAM64_LEVEL_4*_Complex_I;
table[30] = QAM64_LEVEL_4 - QAM64_LEVEL_3*_Complex_I;
table[31] = QAM64_LEVEL_4 - QAM64_LEVEL_4*_Complex_I;
table[32] = -QAM64_LEVEL_2 + QAM64_LEVEL_2*_Complex_I;
table[33] = -QAM64_LEVEL_2 + QAM64_LEVEL_1*_Complex_I;
table[34] = -QAM64_LEVEL_1 + QAM64_LEVEL_2*_Complex_I;
table[35] = -QAM64_LEVEL_1 + QAM64_LEVEL_1*_Complex_I;
table[36] = -QAM64_LEVEL_2 + QAM64_LEVEL_3*_Complex_I;
table[37] = -QAM64_LEVEL_2 + QAM64_LEVEL_4*_Complex_I;
table[38] = -QAM64_LEVEL_1 + QAM64_LEVEL_3*_Complex_I;
table[39] = -QAM64_LEVEL_1 + QAM64_LEVEL_4*_Complex_I;
table[40] = -QAM64_LEVEL_3 + QAM64_LEVEL_2*_Complex_I;
table[41] = -QAM64_LEVEL_3 + QAM64_LEVEL_1*_Complex_I;
table[42] = -QAM64_LEVEL_4 + QAM64_LEVEL_2*_Complex_I;
table[43] = -QAM64_LEVEL_4 + QAM64_LEVEL_1*_Complex_I;
table[44] = -QAM64_LEVEL_3 + QAM64_LEVEL_3*_Complex_I;
table[45] = -QAM64_LEVEL_3 + QAM64_LEVEL_4*_Complex_I;
table[46] = -QAM64_LEVEL_4 + QAM64_LEVEL_3*_Complex_I;
table[47] = -QAM64_LEVEL_4 + QAM64_LEVEL_4*_Complex_I;
table[48] = -QAM64_LEVEL_2 - QAM64_LEVEL_2*_Complex_I;
table[49] = -QAM64_LEVEL_2 - QAM64_LEVEL_1*_Complex_I;
table[50] = -QAM64_LEVEL_1 - QAM64_LEVEL_2*_Complex_I;
table[51] = -QAM64_LEVEL_1 - QAM64_LEVEL_1*_Complex_I;
table[52] = -QAM64_LEVEL_2 - QAM64_LEVEL_3*_Complex_I;
table[53] = -QAM64_LEVEL_2 - QAM64_LEVEL_4*_Complex_I;
table[54] = -QAM64_LEVEL_1 - QAM64_LEVEL_3*_Complex_I;
table[55] = -QAM64_LEVEL_1 - QAM64_LEVEL_4*_Complex_I;
table[56] = -QAM64_LEVEL_3 - QAM64_LEVEL_2*_Complex_I;
table[57] = -QAM64_LEVEL_3 - QAM64_LEVEL_1*_Complex_I;
table[58] = -QAM64_LEVEL_4 - QAM64_LEVEL_2*_Complex_I;
table[59] = -QAM64_LEVEL_4 - QAM64_LEVEL_1*_Complex_I;
table[60] = -QAM64_LEVEL_3 - QAM64_LEVEL_3*_Complex_I;
table[61] = -QAM64_LEVEL_3 - QAM64_LEVEL_4*_Complex_I;
table[62] = -QAM64_LEVEL_4 - QAM64_LEVEL_3*_Complex_I;
table[63] = -QAM64_LEVEL_4 - QAM64_LEVEL_4*_Complex_I;
if (!compute_soft_demod) {
return;
}
/* Matrices identifying the zeros and ones of LTE-64QAM constellation */
for (i=0;i<32;i++) {
soft_table->idx[0][0][i] = i; /* symbols with a '0' at the bit0 (leftmost)*/
soft_table->idx[1][0][i] = i+32; /* symbols with a '1' at the bit0 (leftmost)*/
}
/* symbols with a '0' ans '1' at the bit position 1: */
for (i=0;i<16;i++) {
soft_table->idx[0][1][i] = i;
soft_table->idx[0][1][i+16] = i+32;
soft_table->idx[1][1][i] = i+16;
soft_table->idx[1][1][i+16] = i+48;
}
/* symbols with a '0' ans '1' at the bit position 2: */
for (i=0;i<8;i++) {
soft_table->idx[0][2][i] = i;
soft_table->idx[0][2][i+8] = i+16;
soft_table->idx[0][2][i+16] = i+32;
soft_table->idx[0][2][i+24] = i+48;
soft_table->idx[1][2][i] = i+8;
soft_table->idx[1][2][i+8] = i+24;
soft_table->idx[1][2][i+16] = i+40;
soft_table->idx[1][2][i+24] = i+56;
}
/* symbols with a '0' ans '1' at the bit position 3: */
for (j=0;j<8;j++) {
for (i=0;i<4;i++) {
soft_table->idx[0][3][i+4*j] = i + 8*j;
soft_table->idx[1][3][i+4*j] = i+4 + 8*j;
}
}
/* symbols with a '0' ans '1' at the bit position 4: */
for (j=0;j<16;j++) {
for (i=0;i<2;i++) {
soft_table->idx[0][4][i+2*j] = i + 4*j;
soft_table->idx[1][4][i+2*j] = i+2 + 4*j;
}
}
/* symbols with a '0' ans '1' at the bit position 5: */
for (i=0;i<32;i++) {
soft_table->idx[0][5][i] = 2*i;
soft_table->idx[1][5][i] = 2*i+1;
}
}