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https://github.com/nqrduck/LimeDriver.git
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Refactored LimeConfig_t initalization.
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d8fae232db
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bde76f6b68
1 changed files with 90 additions and 76 deletions
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@ -314,70 +314,63 @@ void dumpConfig(Config2HDFattr_t *config, size_t size) {
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std::cout << "}" << std::endl;
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std::cout << "}" << std::endl;
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}
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}
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int main(int argc, char **argv) {
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void initializeLimeConfig(LimeConfig_t *LimeCfg, int Npulses, std::ostringstream &stringstream) {
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const double pi = acos(-1);
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/* Initialize the LimeConfig_t struct
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LimeConfig_t LimeCfg;
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@param LimeCfg: Pointer to LimeConfig_t struct
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LimeCfg.Npulses = 2; // Number of pulses, default value
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*/
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// check if nPulses has been given as argument, so that all the arrays are
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LimeCfg->Npulses = Npulses;
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// initialized with proper size
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for (int ii_arg = 1; ii_arg < argc; ii_arg++) {
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if (strcmp(argv[ii_arg], "-npu") == 0 && ii_arg + 1 < argc) {
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LimeCfg.Npulses = atoi(argv[ii_arg + 1]);
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break;
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}
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}
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// ----------------------------------------------------------------------------------
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// Set all the DEFAULT parameters. Command line arguments allow for
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// set all the DEFAULT parameters. Command line arguments allow for
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// modification!
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// modification!
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LimeCfg.srate = 30.72e6; // sample rate of the IF DAC/ADC
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LimeCfg.frq = 50e6; // LO carrier frequency
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LimeCfg.RX_gain = 20; // total gain of the receiver
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LimeCfg.TX_gain = 30; // total gain of the transmitter
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LimeCfg.RX_LPF = 5e6; // IF lowpass of the receiver
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LimeCfg.TX_LPF = 130e6; // IF lowpass of the transmitter
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LimeCfg.TX_IcorrDC =
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LimeCfg->srate = 30.72e6; // sample rate of the IF DAC/ADC
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LimeCfg->frq = 50e6; // LO carrier frequency
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LimeCfg->RX_gain = 20; // total gain of the receiver
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LimeCfg->TX_gain = 30; // total gain of the transmitter
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LimeCfg->RX_LPF = 5e6; // IF lowpass of the receiver
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LimeCfg->TX_LPF = 130e6; // IF lowpass of the transmitter
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LimeCfg->TX_IcorrDC =
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-32; // DC corr to TX mixer at IF (evaluate with LimeSuiteGUI)
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-32; // DC corr to TX mixer at IF (evaluate with LimeSuiteGUI)
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LimeCfg.TX_QcorrDC = 50; // DC corr to TX mixer at IF
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LimeCfg->TX_QcorrDC = 50; // DC corr to TX mixer at IF
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// Allocate the arrays with pulse parametes
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// Allocate the arrays with pulse parametes
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LimeCfg.p_dur = new double[LimeCfg.Npulses]; // pulse duration (secs)
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LimeCfg->p_dur = new double[LimeCfg->Npulses]; // pulse duration (secs)
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LimeCfg.p_offs = new int[LimeCfg.Npulses]; // pulse time offset
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LimeCfg->p_offs = new int[LimeCfg->Npulses]; // pulse time offset
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LimeCfg.p_amp = new double[LimeCfg.Npulses]; // pulse digital IF amplitude
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LimeCfg->p_amp = new double[LimeCfg->Npulses]; // pulse digital IF amplitude
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LimeCfg.p_frq =
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LimeCfg->p_frq =
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new double[LimeCfg.Npulses]; // pulse digital IF frequency (unit: Hz)
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new double[LimeCfg->Npulses]; // pulse digital IF frequency (unit: Hz)
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LimeCfg.p_pha = new double[LimeCfg.Npulses]; // pulse digital IF phase
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LimeCfg->p_pha = new double[LimeCfg->Npulses]; // pulse digital IF phase
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LimeCfg.p_phacyc_N =
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LimeCfg->p_phacyc_N =
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new int[LimeCfg.Npulses]; // number of pulse phases (cycled within 2*pi,
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new int[LimeCfg->Npulses]; // number of pulse phases (cycled within 2*pi,
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// must be at least 1)
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// must be at least 1)
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LimeCfg.p_phacyc_lev =
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LimeCfg->p_phacyc_lev =
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new int[LimeCfg.Npulses]; // stacking level of phase cycle (for eventual
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new int[LimeCfg->Npulses]; // stacking level of phase cycle (for eventual
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// coupling)
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// coupling)
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LimeCfg.p_c0_en = new int[LimeCfg.Npulses]; // pulse-wise enable of marker c0
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LimeCfg->p_c0_en = new int[LimeCfg->Npulses]; // pulse-wise enable of marker c0
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LimeCfg.p_c1_en = new int[LimeCfg.Npulses]; // pulse-wise enable of marker c1
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LimeCfg->p_c1_en = new int[LimeCfg->Npulses]; // pulse-wise enable of marker c1
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LimeCfg.p_c2_en = new int[LimeCfg.Npulses]; // pulse-wise enable of marker c2
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LimeCfg->p_c2_en = new int[LimeCfg->Npulses]; // pulse-wise enable of marker c2
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LimeCfg.p_c3_en = new int[LimeCfg.Npulses]; // pulse-wise enable of marker c3
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LimeCfg->p_c3_en = new int[LimeCfg->Npulses]; // pulse-wise enable of marker c3
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// and set standard values
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// and set standard values
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for (int ii = 0; ii < LimeCfg.Npulses; ii++) {
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for (int ii = 0; ii < LimeCfg->Npulses; ii++) {
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LimeCfg.p_dur[ii] = 2e-6;
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LimeCfg->p_dur[ii] = 2e-6;
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LimeCfg.p_offs[ii] =
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LimeCfg->p_offs[ii] =
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(4080 * 3) /
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(4080 * 3) /
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(LimeCfg.Npulses + 1); // distribute them evenly within the buffer...
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(LimeCfg->Npulses + 1); // distribute them evenly within the buffer...
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LimeCfg.p_amp[ii] = 1.0;
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LimeCfg->p_amp[ii] = 1.0;
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LimeCfg.p_frq[ii] = 4.0 / LimeCfg.p_dur[0];
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LimeCfg->p_frq[ii] = 4.0 / LimeCfg->p_dur[0];
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LimeCfg.p_pha[ii] = 0.0;
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LimeCfg->p_pha[ii] = 0.0;
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LimeCfg.p_phacyc_N[ii] = 1;
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LimeCfg->p_phacyc_N[ii] = 1;
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LimeCfg.p_phacyc_lev[ii] = 0;
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LimeCfg->p_phacyc_lev[ii] = 0;
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LimeCfg.p_c0_en[ii] = 1;
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LimeCfg->p_c0_en[ii] = 1;
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LimeCfg.p_c1_en[ii] = 1;
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LimeCfg->p_c1_en[ii] = 1;
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LimeCfg.p_c2_en[ii] = 1;
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LimeCfg->p_c2_en[ii] = 1;
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LimeCfg.p_c3_en[ii] = 1;
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LimeCfg->p_c3_en[ii] = 1;
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}
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}
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// Timing of TTL controls: [enabled? , pre, offs, post]
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// Timing of TTL controls: [enabled? , pre, offs, post]
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@ -393,43 +386,64 @@ int main(int argc, char **argv) {
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int c2_synth[5] = {0, 500, 0, 0, 0};
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int c2_synth[5] = {0, 500, 0, 0, 0};
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int c3_synth[5] = {0, 500, 0, 0, 0};
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int c3_synth[5] = {0, 500, 0, 0, 0};
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LimeCfg.averages = 6; // number of averages
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LimeCfg->averages = 6; // number of averages
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LimeCfg.repetitions = 4; // number of repetions
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LimeCfg->repetitions = 4; // number of repetions
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LimeCfg.reptime_secs = 4e-3; // repetition time
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LimeCfg->reptime_secs = 4e-3; // repetition time
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LimeCfg.rectime_secs = 0.2e-3; // duration of acquisition window
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LimeCfg->rectime_secs = 0.2e-3; // duration of acquisition window
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LimeCfg.buffersize = 4080 * 3; // number of samples in buffer
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LimeCfg->buffersize = 4080 * 3; // number of samples in buffer
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LimeCfg.pcyc_bef_avg = 0; // phase cycle before average
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LimeCfg->pcyc_bef_avg = 0; // phase cycle before average
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LimeCfg.file_pattern = "test"; // identifier when saving the file
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LimeCfg->file_pattern = "test"; // identifier when saving the file
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LimeCfg.save_path = "./data/"; // path to save the file to
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LimeCfg->save_path = "./data/"; // path to save the file to
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LimeCfg.override_save = 0; // default: save data
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LimeCfg->override_save = 0; // default: save data
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// that's it for the parameters
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// that's it for the parameters
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// ----------------------------------------------------------------------------------
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// ----------------------------------------------------------------------------------
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// .. copy here those arrays ...
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// .. copy here those arrays ...
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memcpy(LimeCfg.c0_tim, c0_tim, 4 * sizeof *LimeCfg.c0_tim);
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memcpy(LimeCfg->c0_tim, c0_tim, 4 * sizeof *LimeCfg->c0_tim);
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memcpy(LimeCfg.c1_tim, c1_tim, 4 * sizeof *LimeCfg.c1_tim);
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memcpy(LimeCfg->c1_tim, c1_tim, 4 * sizeof *LimeCfg->c1_tim);
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memcpy(LimeCfg.c2_tim, c2_tim, 4 * sizeof *LimeCfg.c2_tim);
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memcpy(LimeCfg->c2_tim, c2_tim, 4 * sizeof *LimeCfg->c2_tim);
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memcpy(LimeCfg.c3_tim, c3_tim, 4 * sizeof *LimeCfg.c3_tim);
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memcpy(LimeCfg->c3_tim, c3_tim, 4 * sizeof *LimeCfg->c3_tim);
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memcpy(LimeCfg.c0_synth, c0_synth, 5 * sizeof *LimeCfg.c0_synth);
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memcpy(LimeCfg->c0_synth, c0_synth, 5 * sizeof *LimeCfg->c0_synth);
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memcpy(LimeCfg.c1_synth, c1_synth, 5 * sizeof *LimeCfg.c1_synth);
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memcpy(LimeCfg->c1_synth, c1_synth, 5 * sizeof *LimeCfg->c1_synth);
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memcpy(LimeCfg.c2_synth, c2_synth, 5 * sizeof *LimeCfg.c2_synth);
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memcpy(LimeCfg->c2_synth, c2_synth, 5 * sizeof *LimeCfg->c2_synth);
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memcpy(LimeCfg.c3_synth, c3_synth, 5 * sizeof *LimeCfg.c3_synth);
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memcpy(LimeCfg->c3_synth, c3_synth, 5 * sizeof *LimeCfg->c3_synth);
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// and add the timestamp for the file
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// and add the timestamp for the file
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auto now = std::chrono::system_clock::now();
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auto now = std::chrono::system_clock::now();
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auto itt = std::chrono::system_clock::to_time_t(now);
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auto itt = std::chrono::system_clock::to_time_t(now);
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std::ostringstream stringstream;
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stringstream << std::put_time(localtime(&itt), "%G%m%d_%H%M%S");
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stringstream << std::put_time(localtime(&itt), "%G%m%d_%H%M%S");
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LimeCfg.file_stamp = stringstream.str();
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LimeCfg->file_stamp = stringstream.str();
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LimeCfg.stamp_start = stringstream.str();
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LimeCfg->stamp_start = stringstream.str();
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LimeCfg.stamp_end =
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LimeCfg->stamp_end =
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stringstream.str(); // will be overwritten just before data is written
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stringstream.str(); // will be overwritten just before data is written
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// allocate other variables that depend on Npulses
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// allocate other variables that depend on Npulses
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LimeCfg.p_dur_smp = new int[LimeCfg.Npulses];
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LimeCfg->p_dur_smp = new int[LimeCfg->Npulses];
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LimeCfg.p_frq_smp = new double[LimeCfg.Npulses];
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LimeCfg->p_frq_smp = new double[LimeCfg->Npulses];
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}
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int main(int argc, char **argv) {
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const double pi = acos(-1);
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LimeConfig_t LimeCfg;
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std::ostringstream stringstream;
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int Npulses = 2; // default number of pulses
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// check if nPulses has been given as argument, so that all the arrays are
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// initialized with proper size
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for (int ii_arg = 1; ii_arg < argc; ii_arg++) {
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if (strcmp(argv[ii_arg], "-npu") == 0 && ii_arg + 1 < argc) {
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Npulses = atoi(argv[ii_arg + 1]);
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break;
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}
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}
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// Initialize the LimeConfig_t struct
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initializeLimeConfig(&LimeCfg, Npulses, stringstream);
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// LimeCfg as attributes for writing to HDF and for parsing command line input
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// LimeCfg as attributes for writing to HDF and for parsing command line input
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// This is all done 'manually', since there is no reflection in cpp.. at least
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// This is all done 'manually', since there is no reflection in cpp.. at least
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@ -1864,8 +1878,8 @@ int main(int argc, char **argv) {
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}
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}
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// get the timestamp at the end of the experiment ...
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// get the timestamp at the end of the experiment ...
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now = std::chrono::system_clock::now();
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auto now = std::chrono::system_clock::now();
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itt = std::chrono::system_clock::to_time_t(now);
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auto itt = std::chrono::system_clock::to_time_t(now);
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stringstream.str("");
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stringstream.str("");
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stringstream.clear();
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stringstream.clear();
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stringstream << std::put_time(localtime(&itt), "%G%m%d_%H%M%S");
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stringstream << std::put_time(localtime(&itt), "%G%m%d_%H%M%S");
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