First steps in a weather reorganization. Note especially that

[flightgear.git] / src / FDM / JSBSim / FGAircraft.h

diff --git a/src/FDM/JSBSim/FGAircraft.h b/src/FDM/JSBSim/FGAircraft.h
index 710401f36b21e469f6279f623c28c54c4756c257..b9624792d1995756abc0d29cd9cc389224d9b0b0 100644 (file)
--- a/src/FDM/JSBSim/FGAircraft.h
+++ b/src/FDM/JSBSim/FGAircraft.h
@@ -74,45 +74,6 @@ FORWARD DECLARATIONS
 COMMENTS, REFERENCES, and NOTES [use "class documentation" below for API docs]
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 
-Longitudinal
-  CL0 - Reference lift at zero alpha
-  CD0 - Reference drag at zero alpha
-  CDM - Drag due to Mach
-  CLa - Lift curve slope (w.r.t. alpha)
-  CDa - Drag curve slope (w.r.t. alpha)
-  CLq - Lift due to pitch rate
-  CLM - Lift due to Mach
-  CLadt - Lift due to alpha rate
- 
-  Cmadt - Pitching Moment due to alpha rate
-  Cm0 - Reference Pitching moment at zero alpha
-  Cma - Pitching moment slope (w.r.t. alpha)
-  Cmq - Pitch damping (pitch moment due to pitch rate)
-  CmM - Pitch Moment due to Mach
- 
-Lateral
-  Cyb - Side force due to sideslip
-  Cyr - Side force due to yaw rate
- 
-  Clb - Dihedral effect (roll moment due to sideslip)
-  Clp - Roll damping (roll moment due to roll rate)
-  Clr - Roll moment due to yaw rate
-  Cnb - Weathercocking stability (yaw moment due to sideslip)
-  Cnp - Rudder adverse yaw (yaw moment due to roll rate)
-  Cnr - Yaw damping (yaw moment due to yaw rate)
- 
-Control
-  CLDe - Lift due to elevator
-  CDDe - Drag due to elevator
-  CyDr - Side force due to rudder
-  CyDa - Side force due to aileron
- 
-  CmDe - Pitch moment due to elevator
-  ClDa - Roll moment due to aileron
-  ClDr - Roll moment due to rudder
-  CnDr - Yaw moment due to rudder
-  CnDa - Yaw moment due to aileron
-
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
 CLASS DOCUMENTATION
 %%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/
@@ -123,10 +84,7 @@ CLASS DOCUMENTATION
     landing gear, etc. These constituent parts may actually run as separate
     JSBSim models themselves, but the responsibility for initializing them and
     for retrieving their force and moment contributions falls to FGAircraft.<br>
-    When an aircraft model is loaded the config file is parsed and for each of the
-    sections of the config file (propulsion, flight control, etc.) the
-    corresponding "ReadXXX()" method is called. From within this method the 
-    "Load()" method of that system is called (e.g. LoadFCS).
+    
     @author Jon S. Berndt
     @version $Id$
     @see
@@ -172,52 +130,42 @@ public:
   inline string GetAircraftName(void) { return AircraftName; }
   
   /// Gets the wing area
-  inline float GetWingArea(void) { return WingArea; }
+  inline double GetWingArea(void) { return WingArea; }
   /// Gets the wing span
-  inline float GetWingSpan(void) { return WingSpan; }
+  inline double GetWingSpan(void) { return WingSpan; }
   /// Gets the average wing chord
-  inline float Getcbar(void) { return cbar; }
-  inline float GetWingIncidence(void) { return WingIncidence; }
-  inline float GetHTailArea(void) { return HTailArea; }
-  inline float GetHTailArm(void)  { return HTailArm; }
-  inline float GetVTailArea(void) { return VTailArea; }
-  inline float GetVTailArm(void)  { return VTailArm; }
-  inline float Getlbarh(void) { return lbarh; } // HTailArm / cbar
-  inline float Getlbarv(void) { return lbarv; } // VTailArm / cbar
-  inline float Getvbarh(void) { return vbarh; } // H. Tail Volume
-  inline float Getvbarv(void) { return vbarv; } // V. Tail Volume
+  inline double Getcbar(void) { return cbar; }
+  inline double GetWingIncidence(void) { return WingIncidence; }
+  inline double GetHTailArea(void) { return HTailArea; }
+  inline double GetHTailArm(void)  { return HTailArm; }
+  inline double GetVTailArea(void) { return VTailArea; }
+  inline double GetVTailArm(void)  { return VTailArm; }
+  inline double Getlbarh(void) { return lbarh; } // HTailArm / cbar
+  inline double Getlbarv(void) { return lbarv; } // VTailArm / cbar
+  inline double Getvbarh(void) { return vbarh; } // H. Tail Volume
+  inline double Getvbarv(void) { return vbarv; } // V. Tail Volume
   inline FGColumnVector3& GetMoments(void) { return vMoments; }
+  inline double GetMoments(int idx) { return vMoments(idx); }
   inline FGColumnVector3& GetForces(void) { return vForces; }
+  inline double GetForces(int idx) { return vForces(idx); }
   inline FGColumnVector3& GetBodyAccel(void) { return vBodyAccel; }
   inline FGColumnVector3& GetNcg   (void)    { return vNcg; }
   inline FGColumnVector3& GetXYZrp(void) { return vXYZrp; }
   inline FGColumnVector3& GetXYZep(void) { return vXYZep; }
-  inline float GetXYZrp(int idx) { return vXYZrp(idx); }
-  inline float GetXYZep(int idx) { return vXYZep(idx); }
-  inline float GetAlphaCLMax(void) { return alphaclmax; }
-  inline float GetAlphaCLMin(void) { return alphaclmin; }
-
-  inline void SetAlphaCLMax(float tt) { alphaclmax=tt; }
-  inline void SetAlphaCLMin(float tt) { alphaclmin=tt; }
+  inline double GetXYZrp(int idx) { return vXYZrp(idx); }
+  inline double GetXYZep(int idx) { return vXYZep(idx); }
+  inline double GetAlphaCLMax(void) { return alphaclmax; }
+  inline double GetAlphaCLMin(void) { return alphaclmin; }
+
+  inline void SetAlphaCLMax(double tt) { alphaclmax=tt; }
+  inline void SetAlphaCLMin(double tt) { alphaclmin=tt; }
+  inline void SetAircraftName(string name) {AircraftName = name;}
+  
+  inline double GetStallWarn(void) { return impending_stall; }
+  
+  float GetNlf(void);
   
-  inline bool GetStallWarn(void) { return impending_stall; }
-
-  /// Subsystem types for specifying which will be output in the FDM data logging
-  enum  SubSystems {
-    /** Subsystem: Simulation (= 1)          */ ssSimulation      = 1,
-    /** Subsystem: Aerosurfaces (= 2)        */ ssAerosurfaces    = 2,
-    /** Subsystem: Body rates (= 4)          */ ssRates           = 4,
-    /** Subsystem: Velocities (= 8)          */ ssVelocities      = 8,
-    /** Subsystem: Forces (= 16)             */ ssForces          = 16,
-    /** Subsystem: Moments (= 32)            */ ssMoments         = 32,
-    /** Subsystem: Atmosphere (= 64)         */ ssAtmosphere      = 64,
-    /** Subsystem: Mass Properties (= 128)   */ ssMassProps       = 128,
-    /** Subsystem: Coefficients (= 256)      */ ssCoefficients    = 256,
-    /** Subsystem: Position (= 512)          */ ssPosition        = 512,
-    /** Subsystem: Ground Reactions (= 1024) */ ssGroundReactions = 1024,
-    /** Subsystem: FCS (= 2048)              */ ssFCS             = 2048,
-    /** Subsystem: Propulsion (= 4096)       */ ssPropulsion      = 4096
-  } subsystems;
+  inline FGColumnVector3& GetNwcg(void) { return vNwcg; }
 
 private:
   FGColumnVector3 vMoments;
@@ -228,23 +176,16 @@ private:
   FGColumnVector3 vDXYZcg;
   FGColumnVector3 vBodyAccel;
   FGColumnVector3 vNcg;
+  FGColumnVector3 vNwcg;
 
-  float WingArea, WingSpan, cbar, WingIncidence;
-  float HTailArea, VTailArea, HTailArm, VTailArm;
-  float lbarh,lbarv,vbarh,vbarv;
-  float alphaclmax,alphaclmin;
-  float impending_stall;
-  string CFGVersion;
+  double WingArea, WingSpan, cbar, WingIncidence;
+  double HTailArea, VTailArea, HTailArm, VTailArm;
+  double lbarh,lbarv,vbarh,vbarv;
+  double alphaclmax,alphaclmin;
+  double impending_stall;
   string AircraftName;
 
-  void ReadMetrics(FGConfigFile*);
-  void ReadPropulsion(FGConfigFile*);
-  void ReadFlightControls(FGConfigFile*);
-  void ReadAerodynamics(FGConfigFile*);
-  void ReadUndercarriage(FGConfigFile*);
-  void ReadPrologue(FGConfigFile*);
-  void ReadOutput(FGConfigFile*);
-  void Debug(void);
+  void Debug(int from);
 };
 
 //%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%