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OpenXG-RAN
Commit f5022585 authored by Laurent THOMAS's avatar Laurent THOMAS
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format astyle only

parent 68a81f65
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openair1/PHY/TOOLS/lte_phy_scope.c
View file @ f5022585
......@@ -184,8 +184,7 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
chest_f_abs = (float *) calloc(nsymb_ce*nb_antennas_rx*nb_antennas_tx,sizeof(float));
llr = (float *) calloc(coded_bits_per_codeword,sizeof(float)); // init to zero
bit = malloc(coded_bits_per_codeword*sizeof(float));
rxsig_t = (int16_t**) phy_vars_enb->RU_list[0]->common.rxdata;
rxsig_t = (int16_t **) phy_vars_enb->RU_list[0]->common.rxdata;
chest_t = (int16_t **) phy_vars_enb->srs_vars[UE_id].srs_ch_estimates;
chest_f = (int16_t **) phy_vars_enb->pusch_vars[UE_id]->drs_ch_estimates;
pusch_llr = (int16_t *) phy_vars_enb->pusch_vars[UE_id]->llr;
......
openair1/PHY/TOOLS/lte_phy_scope_tm4.c
View file @ f5022585
......@@ -32,8 +32,7 @@ float tput_time_ue[NUMBER_OF_UE_MAX][TPUT_WINDOW_LENGTH] = {{0}};
float tput_ue[NUMBER_OF_UE_MAX][TPUT_WINDOW_LENGTH] = {{0}};
float tput_ue_max[NUMBER_OF_UE_MAX] = {0};
static void ia_receiver_on_off( FL_OBJECT *button, long arg)
{
static void ia_receiver_on_off( FL_OBJECT *button, long arg) {
if (fl_get_button(button)) {
fl_set_object_label(button, "IA Receiver ON");
// PHY_vars_UE_g[0][0]->use_ia_receiver = 1;
......@@ -45,8 +44,7 @@ static void ia_receiver_on_off( FL_OBJECT *button, long arg)
}
}
static void dl_traffic_on_off( FL_OBJECT *button, long arg)
{
static void dl_traffic_on_off( FL_OBJECT *button, long arg) {
if (fl_get_button(button)) {
fl_set_object_label(button, "DL Traffic ON");
otg_enabled = 1;
......@@ -58,9 +56,7 @@ static void dl_traffic_on_off( FL_OBJECT *button, long arg)
}
}
static void sic_receiver_on_off( FL_OBJECT *button, long arg)
{
static void sic_receiver_on_off( FL_OBJECT *button, long arg) {
if (fl_get_button(button)) {
fl_set_object_label(button, "SIC Receiver ON");
use_sic_receiver = 1;
......@@ -72,8 +68,7 @@ static void sic_receiver_on_off( FL_OBJECT *button, long arg)
}
}
FD_lte_phy_scope_enb *create_lte_phy_scope_enb( void )
{
FD_lte_phy_scope_enb *create_lte_phy_scope_enb( void ) {
FL_OBJECT *obj;
FD_lte_phy_scope_enb *fdui = fl_malloc( sizeof *fdui );
// Define form
......@@ -145,8 +140,7 @@ FD_lte_phy_scope_enb *create_lte_phy_scope_enb( void )
void phy_scope_eNB(FD_lte_phy_scope_enb *form,
PHY_VARS_eNB *phy_vars_enb,
int UE_id)
{
int UE_id) {
int eNB_id = 0;
int i,i2,arx,atx,ind,k;
LTE_DL_FRAME_PARMS *frame_parms = &phy_vars_enb->frame_parms;
......@@ -176,24 +170,27 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
int coded_bits_per_codeword = 0;
uint8_t harq_pid; // in TDD config 3 it is sf-2, i.e., can be 0,1,2
int mcs = 0;
// choose max MCS to compute coded_bits_per_codeword
if (phy_vars_enb->ulsch[UE_id]!=NULL) {
for (harq_pid=0; harq_pid<3; harq_pid++) {
mcs = cmax(phy_vars_enb->ulsch[UE_id]->harq_processes[harq_pid]->mcs,mcs);
}
}
coded_bits_per_codeword = frame_parms->N_RB_UL*12*get_Qm(mcs)*frame_parms->symbols_per_tti;
chest_f_abs = (float*) calloc(nsymb_ce*nb_antennas_rx*nb_antennas_tx,sizeof(float));
llr = (float*) calloc(coded_bits_per_codeword,sizeof(float)); // init to zero
chest_f_abs = (float *) calloc(nsymb_ce*nb_antennas_rx*nb_antennas_tx,sizeof(float));
llr = (float *) calloc(coded_bits_per_codeword,sizeof(float)); // init to zero
bit = malloc(coded_bits_per_codeword*sizeof(float));
rxsig_t = (int16_t**) phy_vars_enb->common_vars.rxdata[eNB_id];
chest_t = (int16_t**) phy_vars_enb->pusch_vars[UE_id]->drs_ch_estimates_time[eNB_id];
chest_f = (int16_t**) phy_vars_enb->pusch_vars[UE_id]->drs_ch_estimates[eNB_id];
pusch_llr = (int16_t*) phy_vars_enb->pusch_vars[UE_id]->llr;
pusch_comp = (int16_t*) phy_vars_enb->pusch_vars[UE_id]->rxdataF_comp[eNB_id][0];
pucch1_comp = (int32_t*) phy_vars_enb->pucch1_stats[UE_id];
pucch1_thres = (int32_t*) phy_vars_enb->pucch1_stats_thres[UE_id];
pucch1ab_comp = (int32_t*) phy_vars_enb->pucch1ab_stats[UE_id];
rxsig_t = (int16_t **) phy_vars_enb->common_vars.rxdata[eNB_id];
chest_t = (int16_t **) phy_vars_enb->pusch_vars[UE_id]->drs_ch_estimates_time[eNB_id];
chest_f = (int16_t **) phy_vars_enb->pusch_vars[UE_id]->drs_ch_estimates[eNB_id];
pusch_llr = (int16_t *) phy_vars_enb->pusch_vars[UE_id]->llr;
pusch_comp = (int16_t *) phy_vars_enb->pusch_vars[UE_id]->rxdataF_comp[eNB_id][0];
pucch1_comp = (int32_t *) phy_vars_enb->pucch1_stats[UE_id];
pucch1_thres = (int32_t *) phy_vars_enb->pucch1_stats_thres[UE_id];
pucch1ab_comp = (int32_t *) phy_vars_enb->pucch1ab_stats[UE_id];
// Received signal in time domain of receive antenna 0
if (rxsig_t != NULL) {
if (rxsig_t[0] != NULL) {
......@@ -201,48 +198,61 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
rxsig_t_dB[0][i] = 10*log10(1.0+(float) ((rxsig_t[0][2*i])*(rxsig_t[0][2*i])+(rxsig_t[0][2*i+1])*(rxsig_t[0][2*i+1])));
time[i] = (float) i;
}
fl_set_xyplot_data(form->rxsig_t,time,rxsig_t_dB[0],FRAME_LENGTH_COMPLEX_SAMPLES,"","","");
}
for (arx=1; arx<nb_antennas_rx; arx++) {
if (rxsig_t[arx] != NULL) {
for (i=0; i<FRAME_LENGTH_COMPLEX_SAMPLES; i++) {
rxsig_t_dB[arx][i] = 10*log10(1.0+(float) ((rxsig_t[arx][2*i])*(rxsig_t[arx][2*i])+(rxsig_t[arx][2*i+1])*(rxsig_t[arx][2*i+1])));
}
fl_add_xyplot_overlay(form->rxsig_t,arx,time,rxsig_t_dB[arx],FRAME_LENGTH_COMPLEX_SAMPLES,rx_antenna_colors[arx]);
}
}
}
// Channel Impulse Response
if (chest_t != NULL) {
ymax = 0;
if (chest_t[0] !=NULL) {
for (i=0; i<(frame_parms->ofdm_symbol_size); i++) {
i2 = (i+(frame_parms->ofdm_symbol_size>>1))%frame_parms->ofdm_symbol_size;
time2[i] = (float)(i-(frame_parms->ofdm_symbol_size>>1));
chest_t_abs[0][i] = 10*log10((float) (1+chest_t[0][2*i2]*chest_t[0][2*i2]+chest_t[0][2*i2+1]*chest_t[0][2*i2+1]));
if (chest_t_abs[0][i] > ymax)
ymax = chest_t_abs[0][i];
}
fl_set_xyplot_data(form->chest_t,time2,chest_t_abs[0],(frame_parms->ofdm_symbol_size),"","","");
}
for (arx=1; arx<nb_antennas_rx; arx++) {
if (chest_t[arx] !=NULL) {
for (i=0; i<(frame_parms->ofdm_symbol_size>>3); i++) {
chest_t_abs[arx][i] = 10*log10((float) (1+chest_t[arx][2*i]*chest_t[arx][2*i]+chest_t[arx][2*i+1]*chest_t[arx][2*i+1]));
if (chest_t_abs[arx][i] > ymax)
ymax = chest_t_abs[arx][i];
}
fl_add_xyplot_overlay(form->chest_t,arx,time,chest_t_abs[arx],(frame_parms->ofdm_symbol_size>>3),rx_antenna_colors[arx]);
fl_set_xyplot_overlay_type(form->chest_t,arx,FL_DASHED_XYPLOT);
}
}
// Avoid flickering effect
// fl_get_xyplot_ybounds(form->chest_t,&ymin,&ymax);
fl_set_xyplot_ybounds(form->chest_t,0,ymax);
}
// Channel Frequency Response
if (chest_f != NULL) {
ind = 0;
for (atx=0; atx<nb_antennas_tx; atx++) {
for (arx=0; arx<nb_antennas_rx; arx++) {
if (chest_f[(atx<<1)+arx] != NULL) {
......@@ -256,14 +266,17 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
}
}
}
// tx antenna 0
fl_set_xyplot_xbounds(form->chest_f,0,nb_antennas_rx*nb_antennas_tx*nsymb_ce);
fl_set_xyplot_xtics(form->chest_f,nb_antennas_rx*nb_antennas_tx*frame_parms->symbols_per_tti,3);
fl_set_xyplot_xgrid(form->chest_f,FL_GRID_MAJOR);
fl_set_xyplot_data(form->chest_f,freq,chest_f_abs,nsymb_ce,"","","");
for (arx=1; arx<nb_antennas_rx; arx++) {
fl_add_xyplot_overlay(form->chest_f,1,&freq[arx*nsymb_ce],&chest_f_abs[arx*nsymb_ce],nsymb_ce,rx_antenna_colors[arx]);
}
// other tx antennas
if (nb_antennas_tx > 1) {
if (nb_antennas_rx > 1) {
......@@ -279,17 +292,21 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
}
}
}
// PUSCH LLRs
if (pusch_llr != NULL) {
for (i=0; i<coded_bits_per_codeword; i++) {
llr[i] = (float) pusch_llr[i];
bit[i] = (float) i;
}
fl_set_xyplot_data(form->pusch_llr,bit,llr,coded_bits_per_codeword,"","","");
}
// PUSCH I/Q of MF Output
if (pusch_comp!=NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_UL; i++) {
I[ind] = pusch_comp[(2*frame_parms->N_RB_UL*12*k)+2*i];
......@@ -297,8 +314,10 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
ind++;
}
}
fl_set_xyplot_data(form->pusch_comp,I,Q,ind,"","","");
}
// PUSCH I/Q of MF Output
if (pucch1ab_comp!=NULL) {
for (ind=0; ind<10240; ind++) {
......@@ -308,6 +327,7 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
B_pucch[ind] = ind;
C_pucch[ind] = (float)pucch1_thres[ind];
}
fl_set_xyplot_data(form->pucch_comp,I_pucch,Q_pucch,10240,"","","");
fl_set_xyplot_data(form->pucch_comp1,B_pucch,A_pucch,1024,"","","");
fl_add_xyplot_overlay(form->pucch_comp1,1,B_pucch,C_pucch,1024,FL_RED);
......@@ -315,6 +335,7 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
fl_set_xyplot_xbounds(form->pucch_comp,-5000,5000);
fl_set_xyplot_ybounds(form->pucch_comp1,0,80);
}
// PUSCH Throughput
memmove( tput_time_enb[UE_id], &tput_time_enb[UE_id][1], (TPUT_WINDOW_LENGTH-1)*sizeof(float) );
memmove( tput_enb[UE_id], &tput_enb[UE_id][1], (TPUT_WINDOW_LENGTH-1)*sizeof(float) );
......@@ -329,8 +350,7 @@ void phy_scope_eNB(FD_lte_phy_scope_enb *form,
free(chest_f_abs);
}
FD_lte_phy_scope_ue *create_lte_phy_scope_ue( void )
{
FD_lte_phy_scope_ue *create_lte_phy_scope_ue( void ) {
FL_OBJECT *obj;
FD_lte_phy_scope_ue *fdui = fl_malloc( sizeof *fdui );
// Define form
......@@ -429,7 +449,6 @@ FD_lte_phy_scope_ue *create_lte_phy_scope_ue( void )
fl_set_object_color(fdui->button_0, FL_RED, FL_RED);
fl_set_object_callback(fdui->button_0, sic_receiver_on_off, 0 );
fl_hide_object(fdui->button_0);
fl_end_form( );
fdui->lte_phy_scope_ue->fdui = fdui;
return fdui;
......@@ -439,8 +458,7 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
PHY_VARS_UE *phy_vars_ue,
int eNB_id,
int UE_id,
uint8_t subframe)
{
uint8_t subframe) {
int i,arx,atx,ind,k;
LTE_DL_FRAME_PARMS *frame_parms = &phy_vars_ue->frame_parms;
int nsymb_ce = frame_parms->ofdm_symbol_size*frame_parms->symbols_per_tti;
......@@ -472,10 +490,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
int mcs1=0;
unsigned char harq_pid = 0;
int beamforming_mode = phy_vars_ue->transmission_mode[eNB_id]>6 ? phy_vars_ue->transmission_mode[eNB_id] : 0;
if (phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][0]!=NULL) {
harq_pid = phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][0]->current_harq_pid;
if (harq_pid>=8)
return;
mcs0 = phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][0]->harq_processes[harq_pid]->mcs;
// Button 0
/*
......@@ -485,16 +506,22 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
}
*/
}
fl_show_object(form->button_0);
if (phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][1]!=NULL) {
harq_pid = phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][1]->current_harq_pid;
if (harq_pid>=8)
return;
mcs1 = phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][1]->harq_processes[harq_pid]->mcs;
}
if (phy_vars_ue->pdcch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]!=NULL) {
num_pdcch_symbols = phy_vars_ue->pdcch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->num_pdcch_symbols;
}
// coded_bits_per_codeword = frame_parms->N_RB_DL*12*get_Qm(mcs)*(frame_parms->symbols_per_tti);
if (phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][0]!=NULL) {
mod0 = get_Qm(mcs0);
......@@ -511,6 +538,7 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
coded_bits_per_codeword0 = 0; //frame_parms->N_RB_DL*12*get_Qm(mcs)*(frame_parms->symbols_per_tti);
mod0=0;
}
if (phy_vars_ue->dlsch[phy_vars_ue->current_thread_id[subframe]][eNB_id][1]!=NULL) {
mod1 = get_Qm(mcs1);
coded_bits_per_codeword1 = get_G(frame_parms,
......@@ -526,43 +554,46 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
coded_bits_per_codeword1 = 0; //frame_parms->N_RB_DL*12*get_Qm(mcs)*(frame_parms->symbols_per_tti);
mod1=0;
}
I = (float*) calloc(nsymb_ce*2,sizeof(float));
Q = (float*) calloc(nsymb_ce*2,sizeof(float));
chest_t_abs = (float**) malloc(nb_antennas_rx*sizeof(float*));
for (arx=0;arx<nb_antennas_rx;arx++) {
chest_t_abs[arx] = (float*) calloc(frame_parms->ofdm_symbol_size,sizeof(float));
I = (float *) calloc(nsymb_ce*2,sizeof(float));
Q = (float *) calloc(nsymb_ce*2,sizeof(float));
chest_t_abs = (float **) malloc(nb_antennas_rx*sizeof(float *));
for (arx=0; arx<nb_antennas_rx; arx++) {
chest_t_abs[arx] = (float *) calloc(frame_parms->ofdm_symbol_size,sizeof(float));
}
chest_f_abs = (float*) calloc(nsymb_ce*nb_antennas_rx*nb_antennas_tx,sizeof(float));
chest_f_abs = (float *) calloc(nsymb_ce*nb_antennas_rx*nb_antennas_tx,sizeof(float));
//llr0 = (float*) calloc(coded_bits_per_codeword0,sizeof(float)); // Cppcheck returns "invalidFunctionArg" error.
llr0 = (float*) malloc(coded_bits_per_codeword0*sizeof(float));
llr0 = (float *) malloc(coded_bits_per_codeword0*sizeof(float));
memset((void *)llr0, 0,coded_bits_per_codeword0*sizeof(float)); // init to zero
bit0 = malloc(coded_bits_per_codeword0*sizeof(float));
//llr1 = (float*) calloc(coded_bits_per_codeword1,sizeof(float)); // Cppcheck returns "invalidFunctionArg" error.
llr1 = (float*) malloc(coded_bits_per_codeword1*sizeof(float));
llr1 = (float *) malloc(coded_bits_per_codeword1*sizeof(float));
memset((void *)llr1, 0,coded_bits_per_codeword1*sizeof(float)); // init to zero
bit1 = malloc(coded_bits_per_codeword1*sizeof(float));
llr_pdcch = (float*) calloc(12*frame_parms->N_RB_DL*num_pdcch_symbols*2,sizeof(float)); // init to zero
bit_pdcch = (float*) calloc(12*frame_parms->N_RB_DL*num_pdcch_symbols*2,sizeof(float));
rxsig_t = (int16_t**) phy_vars_ue->common_vars.rxdata;
chest_t = (int16_t**) phy_vars_ue->common_vars.common_vars_rx_data_per_thread[phy_vars_ue->current_thread_id[subframe]].dl_ch_estimates_time[eNB_id];
chest_f = (int16_t**) phy_vars_ue->common_vars.common_vars_rx_data_per_thread[phy_vars_ue->current_thread_id[subframe]].dl_ch_estimates[eNB_id];
pbch_llr = (int8_t*) phy_vars_ue->pbch_vars[eNB_id]->llr;
pbch_comp = (int16_t*) phy_vars_ue->pbch_vars[eNB_id]->rxdataF_comp[0];
pdcch_llr = (int8_t*) phy_vars_ue->pdcch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->llr;
pdcch_comp = (int16_t*) phy_vars_ue->pdcch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_comp[0];
pdsch_llr = (int16_t*) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->llr[0]; // stream 0
pdsch_llr1 = (int16_t*) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->llr[1]; // stream 1
pdsch_comp = (int16_t*) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_comp0[0];
llr_pdcch = (float *) calloc(12*frame_parms->N_RB_DL*num_pdcch_symbols*2,sizeof(float)); // init to zero
bit_pdcch = (float *) calloc(12*frame_parms->N_RB_DL*num_pdcch_symbols*2,sizeof(float));
rxsig_t = (int16_t **) phy_vars_ue->common_vars.rxdata;
chest_t = (int16_t **) phy_vars_ue->common_vars.common_vars_rx_data_per_thread[phy_vars_ue->current_thread_id[subframe]].dl_ch_estimates_time[eNB_id];
chest_f = (int16_t **) phy_vars_ue->common_vars.common_vars_rx_data_per_thread[phy_vars_ue->current_thread_id[subframe]].dl_ch_estimates[eNB_id];
pbch_llr = (int8_t *) phy_vars_ue->pbch_vars[eNB_id]->llr;
pbch_comp = (int16_t *) phy_vars_ue->pbch_vars[eNB_id]->rxdataF_comp[0];
pdcch_llr = (int8_t *) phy_vars_ue->pdcch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->llr;
pdcch_comp = (int16_t *) phy_vars_ue->pdcch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_comp[0];
pdsch_llr = (int16_t *) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->llr[0]; // stream 0
pdsch_llr1 = (int16_t *) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->llr[1]; // stream 1
pdsch_comp = (int16_t *) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_comp0[0];
//pdsch_comp = (int16_t*) phy_vars_ue->lte_ue_pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_ext[0];
//pdsch_comp1 = (int16_t*) phy_vars_ue->lte_ue_pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_ext[1];
pdsch_comp1 = (int16_t*) (phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_comp1[0][0])[0];
pdsch_comp1 = (int16_t *) (phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->rxdataF_comp1[0][0])[0];
//pdsch_comp1 = (int16_t*) (phy_vars_ue->lte_ue_pdsch_vars[eNB_id]->dl_ch_rho_ext[0][0])[0];
pdsch_mag0 = (int16_t*) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_mag0[0];
pdsch_mag1 = (int16_t*) (phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_mag1[0][0])[0];
pdsch_magb0 = (int16_t*) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_magb0[0];
pdsch_magb1 = (int16_t*) (phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_magb1[0][0])[0];
pdsch_mag0 = (int16_t *) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_mag0[0];
pdsch_mag1 = (int16_t *) (phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_mag1[0][0])[0];
pdsch_magb0 = (int16_t *) phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_magb0[0];
pdsch_magb1 = (int16_t *) (phy_vars_ue->pdsch_vars[phy_vars_ue->current_thread_id[subframe]][eNB_id]->dl_ch_magb1[0][0])[0];
fl_freeze_form(form->lte_phy_scope_ue);
// Received signal in time domain of receive antenna 0
if (rxsig_t != NULL) {
if (rxsig_t[0] != NULL) {
......@@ -570,48 +601,61 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
rxsig_t_dB[0][i] = 10*log10(1.0+(float) ((rxsig_t[0][2*i])*(rxsig_t[0][2*i])+(rxsig_t[0][2*i+1])*(rxsig_t[0][2*i+1])));
time[i] = (float) i;
}
fl_set_xyplot_data(form->rxsig_t,time,rxsig_t_dB[0],FRAME_LENGTH_COMPLEX_SAMPLES,"","","");
}
for (arx=1;arx<nb_antennas_rx;arx++) {
for (arx=1; arx<nb_antennas_rx; arx++) {
if (rxsig_t[arx] != NULL) {
for (i=0; i<FRAME_LENGTH_COMPLEX_SAMPLES; i++) {
rxsig_t_dB[arx][i] = 10*log10(1.0+(float) ((rxsig_t[arx][2*i])*(rxsig_t[arx][2*i])+(rxsig_t[arx][2*i+1])*(rxsig_t[arx][2*i+1])));
}
fl_add_xyplot_overlay(form->rxsig_t,arx,time,rxsig_t_dB[arx],FRAME_LENGTH_COMPLEX_SAMPLES,rx_antenna_colors[arx]);
}
}
}
// Channel Impulse Response (still repeated format)
if (chest_t != NULL) {
ymax = 0;
if (chest_t[0] !=NULL) {
for (i=0; i<(frame_parms->ofdm_symbol_size>>3); i++) {
chest_t_abs[0][i] = (float) (chest_t[0][4*i]*chest_t[0][4*i]+chest_t[0][4*i+1]*chest_t[0][4*i+1]);
if (chest_t_abs[0][i] > ymax)
ymax = chest_t_abs[0][i];
}
fl_set_xyplot_data(form->chest_t,time,chest_t_abs[0],(frame_parms->ofdm_symbol_size>>3),"","","");
}
for (arx=1; arx<nb_antennas_rx; arx++) {
if (chest_t[arx] !=NULL) {
for (i=0; i<(frame_parms->ofdm_symbol_size>>3); i++) {
chest_t_abs[arx][i] = (float) (chest_t[arx][4*i]*chest_t[arx][4*i]+chest_t[arx][4*i+1]*chest_t[arx][4*i+1]);
if (chest_t_abs[arx][i] > ymax)
ymax = chest_t_abs[arx][i];
}
fl_add_xyplot_overlay(form->chest_t,arx,time,chest_t_abs[arx],(frame_parms->ofdm_symbol_size>>3),rx_antenna_colors[arx]);
fl_set_xyplot_overlay_type(form->chest_t,arx,FL_DASHED_XYPLOT);
}
}
// Avoid flickering effect
// fl_get_xyplot_ybounds(form->chest_t,&ymin,&ymax);
fl_set_xyplot_ybounds(form->chest_t,0,ymax);
}
// Channel Frequency Response (includes 5 complex sample for filter)
if (chest_f != NULL) {
ind = 0;
for (atx=0;atx<nb_antennas_tx;atx++) {
for (arx=0;arx<nb_antennas_rx;arx++) {
for (atx=0; atx<nb_antennas_tx; atx++) {
for (arx=0; arx<nb_antennas_rx; arx++) {
if (chest_f[(atx<<1)+arx] != NULL) {
for (k=0; k<nsymb_ce; k++) {
freq[ind] = (float)ind;
......@@ -623,29 +667,34 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
}
}
}
// tx antenna 0
fl_set_xyplot_xbounds(form->chest_f,0,nb_antennas_rx*nb_antennas_tx*nsymb_ce);
//fl_set_xyplot_xtics(form->chest_f,nb_antennas_rx*nb_antennas_tx*frame_parms->symbols_per_tti,2);
// fl_set_xyplot_xtics(form->chest_f,nb_antennas_rx*nb_antennas_tx*2,2);
fl_set_xyplot_xgrid(form->chest_f,FL_GRID_MAJOR);
fl_set_xyplot_data(form->chest_f,freq,chest_f_abs,nsymb_ce,"","","");
for (arx=1;arx<nb_antennas_rx;arx++) {
for (arx=1; arx<nb_antennas_rx; arx++) {
fl_add_xyplot_overlay(form->chest_f,1,&freq[arx*nsymb_ce],&chest_f_abs[arx*nsymb_ce],nsymb_ce,rx_antenna_colors[arx]);
}
// other tx antennas
if (nb_antennas_tx > 1) {
if (nb_antennas_rx > 1) {
for (atx=1;atx<nb_antennas_tx;atx++) {
for (arx=0;arx<nb_antennas_rx;arx++) {
for (atx=1; atx<nb_antennas_tx; atx++) {
for (arx=0; arx<nb_antennas_rx; arx++) {
fl_add_xyplot_overlay(form->chest_f,(atx<<1)+arx,&freq[((atx<<1)+arx)*nsymb_ce],&chest_f_abs[((atx<<1)+arx)*nsymb_ce],nsymb_ce,rx_antenna_colors[arx]);
}
}
} else { // 1 rx antenna
atx=1; arx=0;
atx=1;
arx=0;
fl_add_xyplot_overlay(form->chest_f,atx,&freq[atx*nsymb_ce],&chest_f_abs[atx*nsymb_ce],nsymb_ce,rx_antenna_colors[arx]);
}
}
}
/*
// PBCH LLRs
if (pbch_llr != NULL) {
......@@ -687,12 +736,15 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
llr0[i] = (float) pdsch_llr[i];
bit0[i] = (float) i;
}
fl_set_xyplot_xbounds(form->pdsch_llr,0,coded_bits_per_codeword0);
fl_set_xyplot_data(form->pdsch_llr,bit0,llr0,coded_bits_per_codeword0,"","","");
}
// PDSCH I/Q of MF Output
if (pdsch_comp!=NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] = pdsch_comp[(2*frame_parms->N_RB_DL*12*k)+4*i];
......@@ -700,10 +752,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_set_xyplot_data(form->pdsch_comp,I,Q,ind,"","","");
}
if (pdsch_mag0 != NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] = pdsch_mag0[(2*frame_parms->N_RB_DL*12*k)+4*i]*cos(i*2*M_PI/(12*frame_parms->N_RB_DL/2));
......@@ -711,10 +766,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_add_xyplot_overlay(form->pdsch_comp,1,I,Q,ind,FL_GREEN);
}
if (pdsch_magb0 != NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] = pdsch_magb0[(2*frame_parms->N_RB_DL*12*k)+4*i]*cos(i*2*M_PI/(12*frame_parms->N_RB_DL/2));
......@@ -722,10 +780,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_add_xyplot_overlay(form->pdsch_comp,2,I,Q,ind,FL_RED);
}
if ((pdsch_mag0 != NULL) && (pdsch_magb0 != NULL)) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] =
......@@ -739,20 +800,25 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_add_xyplot_overlay(form->pdsch_comp,3,I,Q,ind,FL_BLUE);
}
// PDSCH LLRs CW1
if (pdsch_llr1 != NULL) {
for (i=0; i<coded_bits_per_codeword1; i++) {
llr1[i] = (float) pdsch_llr1[i];
bit1[i] = (float) i;
}
fl_set_xyplot_xbounds(form->pdsch_llr1,0,coded_bits_per_codeword1);
fl_set_xyplot_data(form->pdsch_llr1,bit1,llr1,coded_bits_per_codeword1,"","","");
}
// PDSCH I/Q of MF Output
if (pdsch_comp1!=NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] = pdsch_comp1[(2*frame_parms->N_RB_DL*12*k)+4*i];
......@@ -760,10 +826,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_set_xyplot_data(form->pdsch_comp1,I,Q,ind,"","","");
}
if (pdsch_mag1 != NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] = pdsch_mag1[(2*frame_parms->N_RB_DL*12*k)+4*i]*cos(i*2*M_PI/(12*frame_parms->N_RB_DL/2));
......@@ -771,10 +840,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_add_xyplot_overlay(form->pdsch_comp1,1,I,Q,ind,FL_GREEN);
}
if (pdsch_magb1 != NULL) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] = pdsch_magb1[(2*frame_parms->N_RB_DL*12*k)+4*i]*cos(i*2*M_PI/(12*frame_parms->N_RB_DL/2));
......@@ -782,10 +854,13 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_add_xyplot_overlay(form->pdsch_comp1,2,I,Q,ind,FL_RED);
}
if ((pdsch_mag1 != NULL) && (pdsch_magb1 != NULL)) {
ind=0;
for (k=0; k<frame_parms->symbols_per_tti; k++) {
for (i=0; i<12*frame_parms->N_RB_DL/2; i++) {
I[ind] =
......@@ -799,8 +874,10 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
ind++;
}
}
fl_add_xyplot_overlay(form->pdsch_comp1,3,I,Q,ind,FL_BLUE);
}
/*
// PDSCH Throughput
memcpy((void*)tput_time_ue[UE_id],(void*)&tput_time_ue[UE_id][1],(TPUT_WINDOW_LENGTH-1)*sizeof(float));
......@@ -824,7 +901,6 @@ void phy_scope_UE(FD_lte_phy_scope_ue *form,
free(bit1);
free(bit_pdcch);
free(llr_pdcch);
//This is done to avoid plotting old data when TB0 is disabled, and TB1 is mapped onto CW0
/*if (phy_vars_ue->transmission_mode[eNB_id]==3 && phy_vars_ue->transmission_mode[eNB_id]==4){
for (int i = 0; i<8; ++i)
......
openair1/PHY/TOOLS/nr_phy_scope.c
View file @ f5022585
......@@ -227,6 +227,7 @@ static void oai_xygraph(OAIgraph_t *graph, float *x, float *y, int len, int laye
static void genericWaterFall (OAIgraph_t *graph, scopeSample_t *values, const int datasize, const int divisions, const char *label) {
if ( values == NULL )
return;
fl_winset(FL_ObjWin(graph->graph));
const int samplesPerPixel=datasize/graph->w;
int displayPart=graph->waterFallh-ScaleZone;
......
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