// FGAIBase - abstract base class for AI objects // Written by David Culp, started Nov 2003, based on // David Luff's FGAIEntity class. // - davidculp2@comcast.net // // This program is free software; you can redistribute it and/or // modify it under the terms of the GNU General Public License as // published by the Free Software Foundation; either version 2 of the // License, or (at your option) any later version. // // This program is distributed in the hope that it will be useful, but // WITHOUT ANY WARRANTY; without even the implied warranty of // MERCHANTABILITY or FITNESS FOR A PARTICULAR PURPOSE. See the GNU // General Public License for more details. // // You should have received a copy of the GNU General Public License // along with this program; if not, write to the Free Software // Foundation, Inc., 675 Mass Ave, Cambridge, MA 02139, USA. #ifndef _FG_AIBASE_HXX #define _FG_AIBASE_HXX #include #include #include #include #include
SG_USING_STD(string); class FGAIManager; class FGAIFlightPlan; typedef struct { string callsign; // can be aircraft, ship, storm, thermal or ballistic const char* m_type; const char* m_class; const char* path; const char* flightplan; FGAIFlightPlan *fp; double repeat; // in seconds double latitude; // used if no flightplan defined double longitude; // used if no flightplan defined double altitude; // used if no flightplan defined double speed; // used if no flightplan defined double heading; // used if no flightplan defined double roll; // used if no flightplan defined double azimuth; // used by ballistic objects double elevation; // used by ballistic objects double rudder; // used by ship objects double strength; // used by thermal objects double diameter; // used by thermal objects double eda; // used by ballistic objects double life; // life span in seconds double buoyancy; // acceleration in ft per sec2 double wind_from_east; // in feet per second double wind_from_north; // in feet per second bool wind; } FGAIModelEntity; class FGAIBase { public: FGAIBase(); virtual ~FGAIBase(); virtual void update(double dt); inline Point3D GetPos() { return(pos); } enum object_type { otNull = 0, otAircraft, otShip, otBallistic, otRocket, otStorm, otThermal, MAX_OBJECTS }; // Needs to be last!!! virtual bool init(); virtual void bind(); virtual void unbind(); void setPath( const char* model ); void setSpeed( double speed_KTAS ); void setAltitude( double altitude_ft ); void setHeading( double heading ); void setLatitude( double latitude ); void setLongitude( double longitude ); void setBank( double bank ); void* getID(); void setDie( bool die ); bool getDie(); protected: SGPropertyNode *props; FGAIManager* manager; // these describe the model's actual state Point3D pos; // WGS84 lat & lon in degrees, elev above sea-level in meters double hdg; // True heading in degrees double roll; // degrees, left is negative double pitch; // degrees, nose-down is negative double speed; // knots true airspeed double altitude; // meters above sea level double vs; // vertical speed, feet per minute double ft_per_deg_lon; double ft_per_deg_lat; // these describe the model's desired state double tgt_heading; // target heading, degrees true double tgt_altitude; // target altitude, *feet* above sea level double tgt_speed; // target speed, KTAS double tgt_roll; double tgt_pitch; double tgt_yaw; double tgt_vs; // these describe radar information for the user bool in_range; // true if in range of the radar, otherwise false double bearing; // true bearing from user to this model double elevation; // elevation in degrees from user to this model double range; // range from user to this model, nm double rdot; // range rate, in knots double horiz_offset; // look left/right from user to me, deg double vert_offset; // look up/down from user to me, deg double x_shift; // value used by radar display instrument double y_shift; // value used by radar display instrument double rotation; // value used by radar display instrument string model_path; //Path to the 3D model ssgBranch * model; //The 3D model object SGModelPlacement aip; bool delete_me; bool invisible; bool no_roll; double life; FGAIFlightPlan *fp; void Transform(); double UpdateRadar(FGAIManager* manager); string _type_str; object_type _otype; int index; public: object_type getType(); bool isa( object_type otype ); double _getVS_fps() const; void _setVS_fps( double _vs ); double _getAltitude() const; void _setAltitude( double _alt ); void _setLongitude( double longitude ); void _setLatitude ( double latitude ); double _getLongitude() const; double _getLatitude () const; double _getBearing() const; double _getElevation() const; double _getRdot() const; double _getH_offset() const; double _getV_offset() const; double _getX_shift() const; double _getY_shift() const; double _getRotation() const; int _getID() const; inline double _getRange() { return range; }; static bool _isNight(); }; inline void FGAIBase::setPath( const char* model ) { model_path.append(model); } inline void FGAIBase::setSpeed( double speed_KTAS ) { speed = tgt_speed = speed_KTAS; } inline void FGAIBase::setHeading( double heading ) { hdg = tgt_heading = heading; } inline void FGAIBase::setAltitude( double altitude_ft ) { altitude = tgt_altitude = altitude_ft; pos.setelev(altitude * SG_FEET_TO_METER); } inline void FGAIBase::setBank( double bank ) { roll = tgt_roll = bank; no_roll = false; } inline void FGAIBase::setLongitude( double longitude ) { pos.setlon( longitude ); } inline void FGAIBase::setLatitude ( double latitude ) { pos.setlat( latitude ); } inline void FGAIBase::setDie( bool die ) { delete_me = die; } inline bool FGAIBase::getDie() { return delete_me; } inline FGAIBase::object_type FGAIBase::getType() { return _otype; } inline void* FGAIBase::getID() { return this; } #endif // _FG_AIBASE_HXX