#ifndef BNSEPH_H
#define BNSEPH_H
#include <math.h>
#include <newmat.h>
#include <QtCore>
#include <QThread>
#include <QtNetwork>
#include "bnsutils.h"
class t_eph {
public:
virtual ~t_eph() {};
bool isNewerThan(const t_eph* eph) const;
QString prn() const {return _prn;}
void setRecepDateTime(const QDateTime& dateTime) {
_receptDateTime = dateTime;
}
const QDateTime& receptDateTime() const {return _receptDateTime;}
virtual void position(int GPSweek, double GPSweeks, ColumnVector& xc,
ColumnVector& vv) const = 0;
virtual BNS::t_irc read(const QStringList& lines) = 0;
virtual int IOD() const = 0;
virtual int RTCM3(unsigned char *) = 0;
protected:
QString _prn;
int _GPSweek;
double _GPSweeks;
QDateTime _receptDateTime;
};
class t_ephGlo : public t_eph {
public:
t_ephGlo() {
_gps_utc = 0.0;
_xv.ReSize(6);
};
virtual ~t_ephGlo() {};
virtual BNS::t_irc read(const QStringList& lines);
virtual void position(int GPSweek, double GPSweeks, ColumnVector& xc,
ColumnVector& vv) const;
virtual int IOD() const;
virtual int RTCM3(unsigned char *);
private:
static ColumnVector glo_deriv(double /* tt */, const ColumnVector& xv,
double* acc);
mutable double _tt; // time in seconds of GPSweek
mutable ColumnVector _xv; // status vector (position, velocity) at time _tt
double _gps_utc; // GPS - UTC in seconds
double _E; // [days]
double _tau; // [s]
double _gamma; //
double _x_pos; // [km]
double _x_velocity; // [km/s]
double _x_acceleration; // [km/s^2]
double _y_pos; // [km]
double _y_velocity; // [km/s]
double _y_acceleration; // [km/s^2]
double _z_pos; // [km]
double _z_velocity; // [km/s]
double _z_acceleration; // [km/s^2]
double _health; // 0 = O.K.
double _frequency_number; // ICD-GLONASS data position
double _tki; // message frame time
};
class t_ephGPS : public t_eph {
public:
t_ephGPS() {};
virtual ~t_ephGPS() {};
virtual BNS::t_irc read(const QStringList& lines);
virtual void position(int GPSweek, double GPSweeks, ColumnVector& xc,
ColumnVector& vv) const;
virtual int IOD() const {return int(_IODE);}
virtual int RTCM3(unsigned char *);
private:
double _TOW; // [s]
double _TOC; // [s]
double _TOE; // [s]
double _IODE;
double _IODC;
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 _TGD; // [s]
double _health; // SV health
double _ura; // SV accuracy
double _L2PFlag; // L2 P data flag
double _L2Codes; // Codes on L2 channel
};
class t_ephGal : public t_eph {
public:
t_ephGal() { }
virtual ~t_ephGal() {}
virtual BNS::t_irc read(const QStringList& lines);
virtual void position(int GPSweek, double GPSweeks, ColumnVector& xc,
ColumnVector& vv) const;
virtual int IOD() const { return static_cast<int>(_IODnav); }
virtual int RTCM3(unsigned char *);
private:
double _IODnav;
double _TOC; // [s]
double _TOE; // [s]
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 _BGD_1_5A; // group delay [s]
double _BGD_1_5B; // group delay [s]
int _SISA; // Signal In Space Accuracy
int _E5aHS; // E5a Health Status
};
class t_bnseph : public QThread {
Q_OBJECT
public:
t_bnseph(QObject* parent = 0);
virtual ~t_bnseph();
virtual void run();
signals:
void newEph(t_eph* eph, int nBytes);
void newMessage(const QByteArray msg);
void error(const QByteArray msg);
private:
void reconnect();
void readEph();
QTcpSocket* _socket;
QFile* _echoFile;
QTextStream* _echoStream;
};
#endif