#pragma once #include #include #include #include // encapsulate a gps integer time (fixme, assumes all times in a track // are from the same day, so we don't handle midnight roll over) class GPSTime { public: double seconds; inline GPSTime( const int hh, const int mm, const double ss ) { seconds = hh*3600 + mm*60 + ss; } inline GPSTime( const double gpstime ) { double tmp = gpstime; int hh = (int)(tmp / 10000); tmp -= hh * 10000; int mm = (int)(tmp / 100); tmp -= mm * 100; double ss = tmp; seconds = hh*3600 + mm*60 + ss; // std::cout << gpstime << " = " << seconds << std::endl; } inline ~GPSTime() {} inline double get_time() const { return seconds; } inline double diff_sec( const GPSTime t ) const { return seconds - t.seconds; } }; // encapsulate the interesting gps data for a moment in time class GPSPoint { public: GPSTime gps_time; double lat_deg; double lon_deg; int fix_quality; int num_satellites; double hdop; double altitude_msl; double speed_kts; double course_true; GPSPoint() : gps_time(GPSTime(0,0,0)), lat_deg(0.0), lon_deg(0.0), fix_quality(0), num_satellites(0), hdop(0.0), altitude_msl(0.0), speed_kts(0.0), course_true(0.0) { } inline double get_time() const { return gps_time.get_time(); } }; // Manage a saved gps log (track file) class GPSTrack { private: std::vector data; public: GPSTrack(); ~GPSTrack(); int load( const std::string &file ); inline int size() const { return data.size(); } inline GPSPoint get_point( const unsigned int i ) { if ( i < data.size() ) { return data[i]; } else { return GPSPoint(); } } }; GPSPoint GPSInterpolate( const GPSPoint A, const GPSPoint B, const double percent );