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https://github.com/gnss-sdr/gnss-sdr
synced 2024-11-15 14:25:00 +00:00
make clang-format happy
This commit is contained in:
M.A. Gomez
parent
3f186a0684
commit
d78dccdd7c
@ -62,7 +62,7 @@ Rtklib_Solver::Rtklib_Solver(const rtk_t &rtk,
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{
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// TODO: temporal VTL config parameters are hardcoded here. Move it to PVT adapter config (javi)
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Vtl_Conf new_vtl_conf;
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//TODO: new_vtl_conf.parameter1=blablabla
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// TODO: new_vtl_conf.parameter1=blablabla
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vtl_engine.configure(new_vtl_conf);
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vtl_engine.reset();
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@ -1846,9 +1846,9 @@ bool Rtklib_Solver::get_PVT(const std::map<int, Gnss_Synchro> &gnss_observables_
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dops(index_aux, azel.data(), 0.0, d_dop.data());
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}
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this->set_valid_position(true);
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//this->set_averaging_flag(true);
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//this->set_averaging_depth(100);
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//this->perform_pos_averaging();
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// this->set_averaging_flag(true);
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// this->set_averaging_depth(100);
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// this->perform_pos_averaging();
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std::array<double, 4> rx_position_and_time{};
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if (d_conf.enable_pvt_kf == true)
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@ -1902,7 +1902,7 @@ bool Rtklib_Solver::get_PVT(const std::map<int, Gnss_Synchro> &gnss_observables_
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if (enable_vtl == true)
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{
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//VTL input data extraction from rtklib structures
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// VTL input data extraction from rtklib structures
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/* satellite positions, velocities and clocks */
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prcopt_t *opt = &d_rtk.opt;
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/* count rover/base station observations */
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@ -1927,7 +1927,7 @@ bool Rtklib_Solver::get_PVT(const std::map<int, Gnss_Synchro> &gnss_observables_
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/* satellite positions, velocities and clocks */
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satposs(d_rtk.sol.time, d_obs_data.data(), valid_obs + glo_valid_obs, &d_nav_data, opt->sateph, rs, dts, var, svh.data());
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//Vtl_Data vtl_data;
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// Vtl_Data vtl_data;
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vtl_data.init_storage(n_sats);
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vtl_data.epoch_tow_s = gnss_observables_map.cbegin()->second.RX_time;
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vtl_data.sample_counter = gnss_observables_map.cbegin()->second.Tracking_sample_counter; // TODO: check if the different tracking instants (different sample_counters) affect the VTL commands
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@ -1947,14 +1947,14 @@ bool Rtklib_Solver::get_PVT(const std::map<int, Gnss_Synchro> &gnss_observables_
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vtl_data.sat_health_flag(n) = svh.at(n);
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vtl_data.sat_CN0_dB_hz(n) = d_obs_data.at(n).SNR[0] * 0.25; //(0.25 dBHz)
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// TODO: first version of VTL works only with ONE frequency band (band #0 is L1)
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//To.Do: check it VTL uses all the information as in rtklib rescode function: v[nv] = P - (r + dtr - SPEED_OF_LIGHT_M_S * dts[i * 2] + dion + dtrp);
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//corrected pr with code bias, iono and tropo. Still needs the dtr(rx clock bias) and satellite clock bias (dts)
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// To.Do: check it VTL uses all the information as in rtklib rescode function: v[nv] = P - (r + dtr - SPEED_OF_LIGHT_M_S * dts[i * 2] + dion + dtrp);
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// corrected pr with code bias, iono and tropo. Still needs the dtr(rx clock bias) and satellite clock bias (dts)
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vtl_data.pr_m(n) = pr_corrected_code_bias_vec[n] - tropo_vec[n] - iono_vec[n] + SPEED_OF_LIGHT_M_S * dts[n * 2];
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vtl_data.doppler_hz(n) = d_obs_data.at(n).D[0] - SPEED_OF_LIGHT_M_S * dts[1 + 2 * n] / Lambda_GPS_L1;
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vtl_data.carrier_phase_rads(n) = d_obs_data.at(n).L[0];
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vtl_data.pr_res(n) = pr_residual_vec[n];
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}
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//VTL input data extraction from rtklib structures
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// VTL input data extraction from rtklib structures
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/* Receiver position, velocity and clock */
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/* position/velocity (m|m/s):{x,y,z,vx,vy,vz} or {e,n,u,ve,vn,vu} */
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vtl_data.rx_p(0) = pvt_sol.rr[0];
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@ -1967,13 +1967,13 @@ bool Rtklib_Solver::get_PVT(const std::map<int, Gnss_Synchro> &gnss_observables_
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vtl_data.rx_pvt_var[0] = pvt_sol.qr[0];
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vtl_data.rx_pvt_var[1] = pvt_sol.qr[1];
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vtl_data.rx_pvt_var[2] = pvt_sol.qr[2];
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//TODO: get direct estimations for V T variances, instead:
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vtl_data.rx_pvt_var[3] = pvt_sol.qr[0]; //in general minor than position.
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// TODO: get direct estimations for V T variances, instead:
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vtl_data.rx_pvt_var[3] = pvt_sol.qr[0]; // in general minor than position.
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vtl_data.rx_pvt_var[4] = pvt_sol.qr[1];
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vtl_data.rx_pvt_var[5] = pvt_sol.qr[2];
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vtl_data.rx_pvt_var[6] = pvt_sol.qr[0]; //time
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vtl_data.rx_pvt_var[7] = pvt_sol.qr[0]; //doppler
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//receiver clock offset and receiver clock drift
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vtl_data.rx_pvt_var[6] = pvt_sol.qr[0]; // time
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vtl_data.rx_pvt_var[7] = pvt_sol.qr[0]; // doppler
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// receiver clock offset and receiver clock drift
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vtl_data.rx_dts(0) = rx_position_and_time[3];
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vtl_data.rx_dts(1) = pvt_sol.dtr[5] / 1e6; // [ppm] to [s]
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@ -1981,15 +1981,15 @@ bool Rtklib_Solver::get_PVT(const std::map<int, Gnss_Synchro> &gnss_observables_
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}
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else
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{
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//MAGL: the code should not enter here once the vtl has started
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// .. but it does!
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//and not only that but pvt_sol.rr seems to have NOT reasonable values
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// pvt_sol.rr[0]=rx_position_and_time[0]; // [m]
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// pvt_sol.rr[1]=rx_position_and_time[1]; // [m]
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// pvt_sol.rr[2]=rx_position_and_time[2]; // [m]
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// pvt_sol.rr[3]=4.2e6;
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// pvt_sol.rr[4]=4.2e6;
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// pvt_sol.rr[5]=4.2e6;
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// MAGL: the code should not enter here once the vtl has started
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// .. but it does!
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// and not only that but pvt_sol.rr seems to have NOT reasonable values
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// pvt_sol.rr[0]=rx_position_and_time[0]; // [m]
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// pvt_sol.rr[1]=rx_position_and_time[1]; // [m]
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// pvt_sol.rr[2]=rx_position_and_time[2]; // [m]
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// pvt_sol.rr[3]=4.2e6;
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// pvt_sol.rr[4]=4.2e6;
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// pvt_sol.rr[5]=4.2e6;
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}
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// compute Ground speed and COG
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double ground_speed_ms = 0.0;
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@ -298,7 +298,6 @@ void Vtl_Engine::kf_H_fill(arma::mat &kf_H, int sat_number, arma::colvec ax, arm
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}
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void Vtl_Engine::kf_F_fill(arma::mat &kf_F, double kf_dt, arma::mat &kf_x)
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{
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// modulo de la velocidad
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double vx = kf_x(3);
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double vy = kf_x(4);
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@ -39,9 +39,9 @@ public:
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~Vtl_Engine();
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void configure(Vtl_Conf config_); //set config parameters
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void configure(Vtl_Conf config_); // set config parameters
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//TODO: output functions here (output for tracking KF updates, VTL computed user PVT, etc...)
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// TODO: output functions here (output for tracking KF updates, VTL computed user PVT, etc...)
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bool vtl_loop(Vtl_Data new_data);
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void reset(); // reset all internal states
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void debug_print(); // print debug information
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@ -57,11 +57,11 @@ public:
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double get_longitude(); // get_longitude
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double get_height(); // get_height
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double get_user_clock_offset_s(); // get_user_clock_offset_s;
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double get_user_clock_offset_drift_s_s(); // get_user_clock_offset_drift_s/s;
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double get_user_clock_offset_drift_s_s(); // get_user_clock_offset_drift_s/s;
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private:
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Vtl_Conf config;
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//TODO: Internal VTL persistent variables here
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// TODO: Internal VTL persistent variables here
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// Transformation variables
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arma::colvec d;
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@ -103,9 +103,9 @@ private:
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uint64_t refSampleCounter;
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double delta_t_cmd = 0;
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void kf_H_fill(arma::mat &kf_H, int sat_number, arma::colvec ax, arma::colvec ay, arma::colvec az, double kf_dt); /* */ // Observation Matrix constructor
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void kf_F_fill_rocket(arma::mat &kf_F, double kf_dt, arma::mat &kf_x); // System Matrix constructor
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void kf_F_fill(arma::mat &kf_F, double kf_dt, arma::mat &kf_x); // System Matrix constructor
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void kf_H_fill(arma::mat &kf_H, int sat_number, arma::colvec ax, arma::colvec ay, arma::colvec az, double kf_dt); /* */ // Observation Matrix constructor
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void kf_F_fill_rocket(arma::mat &kf_F, double kf_dt, arma::mat &kf_x); // System Matrix constructor
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void kf_F_fill(arma::mat &kf_F, double kf_dt, arma::mat &kf_x); // System Matrix constructor
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void obsv_calc(arma::mat &rho_pri, arma::mat &rhoDot_pri, arma::mat &rhoDot2_pri, arma::colvec &ax, arma::colvec &ay, arma::colvec &az, int sat_number, arma::mat sat_p, arma::mat sat_v, arma::mat kf_x); // Observables calculation
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void kf_measurements(arma::mat &kf_yerr, int sat_number, arma::mat rho_pri, arma::mat rhoDot_pri, arma::mat rhoDot2_pri, arma::colvec pr_m, arma::colvec doppler_hz, arma::mat kf_x);
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};
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