#ifndef _FG_MIDG_II_HXX #define _FG_MIDG_II_HXX #ifdef HAVE_CONFIG_H # include #endif #include #include #include #include #ifdef HAVE_STDINT_H # include #elif defined( _MSC_VER ) || defined(__MINGW32__) || defined(sun) typedef signed short int16_t; typedef signed int int32_t; typedef unsigned short uint16_t; typedef unsigned int uint32_t; #else # error "Port me! Platforms that don't have need to define int8_t, et. al." #endif #include SG_USING_STD(cout); SG_USING_STD(endl); SG_USING_STD(string); SG_USING_STD(vector); // encapsulate a midg integer time (fixme, assumes all times in a track // are from the same day, so we don't handle midnight roll over) class MIDGTime { public: uint32_t msec; double seconds; inline MIDGTime( const int dd, const int hh, const int mm, const double ss ) { seconds = dd*86400.0 + hh*3600.0 + mm*60.0 + ss; msec = (uint32_t)(seconds * 1000); } inline MIDGTime( const uint32_t midgtime_msec ) { msec = midgtime_msec; seconds = (double)midgtime_msec / 1000.0; // cout << midgtime << " = " << seconds << endl; } inline ~MIDGTime() {} inline double get_seconds() const { return seconds; } inline uint32_t get_msec() const { return msec; } inline double diff_seconds( const MIDGTime t ) const { return seconds - t.seconds; } }; // base class for MIDG data types class MIDGpoint { public: MIDGTime midg_time; MIDGpoint() : midg_time(MIDGTime(0)) { } inline double get_seconds() const { return midg_time.get_seconds(); } inline uint32_t get_msec() const { return midg_time.get_msec(); } }; // encapsulate the interesting midg data for a moment in time class MIDGpos : public MIDGpoint { public: double lat_deg; double lon_deg; double altitude_msl; int fix_quality; int num_satellites; double hdop; double speed_kts; double course_true; MIDGpos() : lat_deg(0.0), lon_deg(0.0), altitude_msl(0.0), fix_quality(0), num_satellites(0), hdop(0.0), speed_kts(0.0), course_true(0.0) { } }; // encapsulate the interesting midg data for a moment in time class MIDGatt : public MIDGpoint { public: double yaw_rad; double pitch_rad; double roll_rad; MIDGatt() : yaw_rad(0.0), pitch_rad(0.0), roll_rad(0.0) { } }; // Manage a saved midg log (track file) class MIDGTrack { private: vector pos_data; vector att_data; // parse message and put current data into vector if message has a // newer time stamp than existing data. void parse_msg( const int id, char *buf, MIDGpos *pos, MIDGatt *att ); public: MIDGTrack(); ~MIDGTrack(); // read/parse the next message from the specified data stream, // returns id # if a valid message found. int next_message( SGIOChannel *ch, SGIOChannel *log, MIDGpos *pos, MIDGatt *att ); // load the named file into internal buffers bool load( const string &file ); inline int pos_size() const { return pos_data.size(); } inline int att_size() const { return att_data.size(); } inline MIDGpos get_pospt( const unsigned int i ) { if ( i < pos_data.size() ) { return pos_data[i]; } else { return MIDGpos(); } } inline MIDGatt get_attpt( const unsigned int i ) { if ( i < att_data.size() ) { return att_data[i]; } else { return MIDGatt(); } } }; MIDGpos MIDGInterpPos( const MIDGpos A, const MIDGpos B, const double percent ); MIDGatt MIDGInterpAtt( const MIDGatt A, const MIDGatt B, const double percent ); #endif // _FG_MIDG_II_HXX