#ifndef EPHEMERIS_H
#define EPHEMERIS_H
#include <newmat.h>
#include <QtCore>
#include <stdio.h>
#include <string>
#include "bnctime.h"
#include "bncconst.h"
#include "t_prn.h"
#include "gnss.h"
class t_orbCorr;
class t_clkCorr;
class t_eph {
public:
enum e_type {unknown, GPS, QZSS, GLONASS, Galileo, SBAS, BDS};
enum e_checkState {unchecked, ok, bad};
t_eph();
virtual ~t_eph() {};
virtual e_type type() const = 0;
virtual QString toString(double version) const = 0;
virtual unsigned long IOD() const = 0;
virtual int slotNum() const {return 0;}
bncTime TOC() const {return _TOC;}
bool isNewerThan(const t_eph* eph) const {return earlierTime(eph, this);}
e_checkState checkState() const {return _checkState;}
void setCheckState(e_checkState checkState) {_checkState = checkState;}
t_prn prn() const {return _prn;}
t_irc getCrd(const bncTime& tt, ColumnVector& xc, ColumnVector& vv, bool useCorr) const;
void setOrbCorr(const t_orbCorr* orbCorr);
void setClkCorr(const t_clkCorr* clkCorr);
const QDateTime& receptDateTime() const {return _receptDateTime;}
static QString rinexDateStr(const bncTime& tt, const t_prn& prn, double version);
static QString rinexDateStr(const bncTime& tt, const QString& prnStr, double version);
static bool earlierTime(const t_eph* eph1, const t_eph* eph2) {return eph1->_TOC < eph2->_TOC;}
protected:
virtual t_irc position(int GPSweek, double GPSweeks, double* xc, double* vv) const = 0;
t_prn _prn;
bncTime _TOC;
QDateTime _receptDateTime;
e_checkState _checkState;
t_orbCorr* _orbCorr;
t_clkCorr* _clkCorr;
};
class t_ephGPS : public t_eph {
friend class t_ephEncoder;
friend class RTCM3Decoder;
public:
t_ephGPS() { }
t_ephGPS(float rnxVersion, const QStringList& lines);
virtual ~t_ephGPS() {}
virtual e_type type() const {return (_prn.system() == 'J' ? t_eph::QZSS : t_eph::GPS); }
virtual QString toString(double version) const;
virtual unsigned long IOD() const { return static_cast<unsigned long>(_IODC); }
double TGD() const {return _TGD;} // Timing Group Delay (P1-P2 DCB)
private:
virtual t_irc position(int GPSweek, double GPSweeks, double* xc, double* vv) const;
double _clock_bias; // [s]
double _clock_drift; // [s/s]
double _clock_driftrate; // [s/s^2]
double _IODE;
double _Crs; // [m]
double _Delta_n; // [rad/s]
double _M0; // [rad]
double _Cuc; // [rad]
double _e; //
double _Cus; // [rad]
double _sqrt_A; // [m^0.5]
double _TOEsec; // [s]
double _Cic; // [rad]
double _OMEGA0; // [rad]
double _Cis; // [rad]
double _i0; // [rad]
double _Crc; // [m]
double _omega; // [rad]
double _OMEGADOT; // [rad/s]
double _IDOT; // [rad/s]
double _L2Codes; // Codes on L2 channel
double _TOEweek;
double _L2PFlag; // L2 P data flag
mutable double _ura; // SV accuracy
double _health; // SV health
double _TGD; // [s]
double _IODC;
double _TOT; // Transmisstion time
double _fitInterval; // Fit interval
};
class t_ephGlo : public t_eph {
friend class t_ephEncoder;
friend class RTCM3Decoder;
public:
t_ephGlo() { _xv.ReSize(6); }
t_ephGlo(float rnxVersion, const QStringList& lines);
virtual ~t_ephGlo() {}
virtual e_type type() const {return t_eph::GLONASS;}
virtual QString toString(double version) const;
virtual unsigned long IOD() const;
virtual int slotNum() const {return int(_frequency_number);}
private:
virtual t_irc position(int GPSweek, double GPSweeks, double* xc, double* vv) const;
static ColumnVector glo_deriv(double /* tt */, const ColumnVector& xv, double* acc);
mutable bncTime _tt; // time
mutable ColumnVector _xv; // status vector (position, velocity) at time _tt
double _gps_utc;
double _tau; // [s]
double _gamma; //
mutable double _tki; // message frame time
double _x_pos; // [km]
double _x_velocity; // [km/s]
double _x_acceleration; // [km/s^2]
double _health; // 0 = O.K.
double _y_pos; // [km]
double _y_velocity; // [km/s]
double _y_acceleration; // [km/s^2]
double _frequency_number; // ICD-GLONASS data position
double _z_pos; // [km]
double _z_velocity; // [km/s]
double _z_acceleration; // [km/s^2]
double _E; // Age of Information [days]
};
class t_ephGal : public t_eph {
friend class t_ephEncoder;
friend class RTCM3Decoder;
public:
t_ephGal() { };
t_ephGal(float rnxVersion, const QStringList& lines);
virtual ~t_ephGal() {}
virtual QString toString(double version) const;
virtual e_type type() const {return t_eph::Galileo;}
virtual unsigned long IOD() const { return static_cast<unsigned long>(_IODnav); }
private:
virtual t_irc position(int GPSweek, double GPSweeks, double* xc, double* vv) const;
double _clock_bias; // [s]
double _clock_drift; // [s/s]
double _clock_driftrate; // [s/s^2]
double _IODnav;
double _Crs; // [m]
double _Delta_n; // [rad/s]
double _M0; // [rad]
double _Cuc; // [rad]
double _e; //
double _Cus; // [rad]
double _sqrt_A; // [m^0.5]
double _TOEsec; // [s]
double _Cic; // [rad]
double _OMEGA0; // [rad]
double _Cis; // [rad]
double _i0; // [rad]
double _Crc; // [m]
double _omega; // [rad]
double _OMEGADOT; // [rad/s]
double _IDOT; // [rad/s]
double _TOEweek;
// spare
mutable double _SISA; // Signal In Space Accuracy
double _E5aHS; // [0..3] E5a Health Status
double _E5bHS; // [0..3] E5b Health Status
double _E1_bHS; // [0..3] E1-b Health Status
double _BGD_1_5A; // group delay [s]
double _BGD_1_5B; // group delay [s]
double _TOT; // [s]
/** Data comes from I/NAV when <code>true</code> */
bool _inav;
/** Data comes from F/NAV when <code>true</code> */
bool _fnav;
/** EE Data is not valid */
bool _e1DataInValid;
/** E5A Data is not valid */
bool _e5aDataInValid;
/** E5B Data is not valid */
bool _e5bDataInValid;
};
class t_ephSBAS : public t_eph {
friend class t_ephEncoder;
friend class RTCM3Decoder;
public:
t_ephSBAS() {}
t_ephSBAS(float rnxVersion, const QStringList& lines);
virtual ~t_ephSBAS() {}
virtual e_type type() const {return t_eph::SBAS;}
virtual unsigned long IOD() const;
virtual QString toString(double version) const;
private:
virtual t_irc position(int GPSweek, double GPSweeks, double* xc, double* vv) const;
int _IODN;
double _TOW; // not used (set to 0.9999e9)
double _agf0; // [s] clock correction
double _agf1; // [s/s] clock correction drift
double _x_pos; // [m]
double _x_velocity; // [m/s]
double _x_acceleration; // [m/s^2]
double _y_pos; // [m]
double _y_velocity; // [m/s]
double _y_acceleration; // [m/s^2]
double _z_pos; // [m]
double _z_velocity; // [m/s]
double _z_acceleration; // [m/s^2]
mutable double _ura;
double _health;
};
class t_ephBDS : public t_eph {
friend class t_ephEncoder;
friend class RTCM3Decoder;
public:
t_ephBDS() : _TOEweek(-1.0) {}
t_ephBDS(float rnxVersion, const QStringList& lines);
virtual ~t_ephBDS() {}
virtual e_type type() const {return t_eph::BDS;}
virtual unsigned long IOD() const;
virtual QString toString(double version) const;
private:
virtual t_irc position(int GPSweek, double GPSweeks, double* xc, double* vv) const;
double _TOT;
bncTime _TOE;
int _AODE;
int _AODC;
int _URAI; // [0..15] index from RTCM stream
mutable double _URA; // user range accuracy
double _clock_bias; // [s]
double _clock_drift; // [s/s]
double _clock_driftrate; // [s/s^2]
double _Crs; // [m]
double _Delta_n; // [rad/s]
double _M0; // [rad]
double _Cuc; // [rad]
double _e; //
double _Cus; // [rad]
double _sqrt_A; // [m^0.5]
double _Cic; // [rad]
double _OMEGA0; // [rad]
double _Cis; // [rad]
double _i0; // [rad]
double _Crc; // [m]
double _omega; // [rad]
double _OMEGADOT; // [rad/s]
double _IDOT; // [rad/s]
double _TGD1; // [s]
double _TGD2; // [s]
int _SatH1; //
double _TOW; // [s] of BDT week
double _TOEsec; // [s] of BDT week
double _TOEweek; // BDT week will be set only in case of RINEX file input
};
#endif