flightgear/src/FDM/JSBSim/FGState.cpp

/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
                                                                       
 Module:       FGState.cpp
 Author:       Jon Berndt
 Date started: 11/17/98
 Called by:    FGFDMExec and accessed by all models.
 
 ------------- Copyright (C) 1999  Jon S. Berndt (jsb@hal-pc.org) -------------
 
 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., 59 Temple
 Place - Suite 330, Boston, MA  02111-1307, USA.
 
 Further information about the GNU General Public License can also be found on
 the world wide web at http://www.gnu.org.
 
FUNCTIONAL DESCRIPTION
--------------------------------------------------------------------------------
See header file.
 
HISTORY
--------------------------------------------------------------------------------
11/17/98   JSB   Created
 
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
INCLUDES
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/

#ifdef FGFS
#  include <simgear/compiler.h>
#  ifdef SG_HAVE_STD_INCLUDES
#    include <cmath>
#  else
#    include <math.h>
#  endif
#else
#  include <cmath>
#endif

#ifndef M_PI 
#  include <simgear/constants.h>
#  define M_PI FG_PI
#endif

#include "FGState.h"
#include "FGFDMExec.h"
#include "FGAtmosphere.h"
#include "FGFCS.h"
#include "FGAircraft.h"
#include "FGTranslation.h"
#include "FGRotation.h"
#include "FGPosition.h"
#include "FGAuxiliary.h"
#include "FGOutput.h"

static const char *IdSrc = "$Header$";
static const char *IdHdr = ID_STATE;

/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
MACROS
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/

#define RegisterVariable(ID,DEF) coeffdef[#ID] = ID; paramdef[ID] = DEF

/*%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
CLASS IMPLEMENTATION
%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%*/

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%
//
// For every term registered here there must be a corresponding handler in
// GetParameter() below that retrieves that parameter. Also, there must be an
// entry in the enum eParam definition in FGDefs.h. The ID is what must be used
// in any config file entry which references that item.

FGState::FGState(FGFDMExec* fdex) : mTb2l(3,3),
    mTl2b(3,3),
    mTs2b(3,3),
    vQtrn(4)
{
  FDMExec = fdex;

  a = 1000.0;
  sim_time = 0.0;
  dt = 1.0/120.0;

  RegisterVariable(FG_QBAR,           " qbar "           );
  RegisterVariable(FG_WINGAREA,       " wing_area "      );
  RegisterVariable(FG_WINGSPAN,       " wingspan "       );
  RegisterVariable(FG_CBAR,           " cbar "           );
  RegisterVariable(FG_ALPHA,          " alpha "          );
  RegisterVariable(FG_ALPHADOT,       " alphadot "       );
  RegisterVariable(FG_BETA,           " beta "           );
  RegisterVariable(FG_BETADOT,        " betadot "        );
  RegisterVariable(FG_PITCHRATE,      " pitch_rate "     );
  RegisterVariable(FG_ROLLRATE,       " roll_rate "      );
  RegisterVariable(FG_YAWRATE,        " yaw_rate "       );
  RegisterVariable(FG_MACH,           " mach "           );
  RegisterVariable(FG_ALTITUDE,       " altitude "       );
  RegisterVariable(FG_BI2VEL,         " BI2Vel "         );
  RegisterVariable(FG_CI2VEL,         " CI2Vel "         );
  RegisterVariable(FG_ELEVATOR_POS,   " elevator_pos "   );
  RegisterVariable(FG_AILERON_POS,    " aileron_pos "    );
  RegisterVariable(FG_RUDDER_POS,     " rudder_pos "     );
  RegisterVariable(FG_SPDBRAKE_POS,   " speedbrake_pos " );
  RegisterVariable(FG_SPOILERS_POS,   " spoiler_pos "    );
  RegisterVariable(FG_FLAPS_POS,      " flaps_pos "      );
  RegisterVariable(FG_ELEVATOR_CMD,   " elevator_cmd "   );
  RegisterVariable(FG_AILERON_CMD,    " aileron_cmd "    );
  RegisterVariable(FG_RUDDER_CMD,     " rudder_cmd "     );
  RegisterVariable(FG_SPDBRAKE_CMD,   " speedbrake_cmd " );
  RegisterVariable(FG_SPOILERS_CMD,   " spoiler_cmd "    );
  RegisterVariable(FG_FLAPS_CMD,      " flaps_cmd "      );
  RegisterVariable(FG_THROTTLE_CMD,   " throttle_cmd "   );
  RegisterVariable(FG_THROTTLE_POS,   " throttle_pos "   );
  RegisterVariable(FG_HOVERB,         " height/span "    );
  RegisterVariable(FG_PITCH_TRIM_CMD, " pitch_trim_cmd " );
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

FGState::~FGState(void) {}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

float FGState::GetParameter(eParam val_idx) {
  switch(val_idx) {
  case FG_QBAR:
    return FDMExec->GetTranslation()->Getqbar();
  case FG_WINGAREA:
    return FDMExec->GetAircraft()->GetWingArea();
  case FG_WINGSPAN:
    return FDMExec->GetAircraft()->GetWingSpan();
  case FG_CBAR:
    return FDMExec->GetAircraft()->Getcbar();
  case FG_ALPHA:
    return FDMExec->GetTranslation()->Getalpha();
  case FG_ALPHADOT:
    return FDMExec->GetTranslation()->Getadot();
  case FG_BETA:
    return FDMExec->GetTranslation()->Getbeta();
  case FG_BETADOT:
    return FDMExec->GetTranslation()->Getbdot();
  case FG_PITCHRATE:
    return (FDMExec->GetRotation()->GetPQR())(2);
  case FG_ROLLRATE:
    return (FDMExec->GetRotation()->GetPQR())(1);
  case FG_YAWRATE:
    return (FDMExec->GetRotation()->GetPQR())(3);
  case FG_ELEVATOR_POS:
    return FDMExec->GetFCS()->GetDePos();
  case FG_AILERON_POS:
    return FDMExec->GetFCS()->GetDaPos();
  case FG_RUDDER_POS:
    return FDMExec->GetFCS()->GetDrPos();
  case FG_SPDBRAKE_POS:
    return FDMExec->GetFCS()->GetDsbPos();
  case FG_SPOILERS_POS:
    return FDMExec->GetFCS()->GetDspPos();
  case FG_FLAPS_POS:
    return FDMExec->GetFCS()->GetDfPos();
  case FG_ELEVATOR_CMD:
    return FDMExec->GetFCS()->GetDeCmd();
  case FG_AILERON_CMD:
    return FDMExec->GetFCS()->GetDaCmd();
  case FG_RUDDER_CMD:
    return FDMExec->GetFCS()->GetDrCmd();
  case FG_SPDBRAKE_CMD:
    return FDMExec->GetFCS()->GetDsbCmd();
  case FG_SPOILERS_CMD:
    return FDMExec->GetFCS()->GetDspCmd();
  case FG_FLAPS_CMD:
    return FDMExec->GetFCS()->GetDfCmd();
  case FG_MACH:
    return FDMExec->GetTranslation()->GetMach();
  case FG_ALTITUDE:
    return FDMExec->GetPosition()->Geth();
  case FG_BI2VEL:
    if(FDMExec->GetTranslation()->GetVt() > 0)
        return FDMExec->GetAircraft()->GetWingSpan()/(2.0 * FDMExec->GetTranslation()->GetVt());
    else
        return 0;
  case FG_CI2VEL:
    if(FDMExec->GetTranslation()->GetVt() > 0)
        return FDMExec->GetAircraft()->Getcbar()/(2.0 * FDMExec->GetTranslation()->GetVt());
    else
        return 0;
  case FG_THROTTLE_CMD:
    return FDMExec->GetFCS()->GetThrottleCmd(0);
  case FG_THROTTLE_POS:
    return FDMExec->GetFCS()->GetThrottlePos(0);
  case FG_HOVERB:
    return FDMExec->GetPosition()->GetHOverB();
  case FG_PITCH_TRIM_CMD:
    return FDMExec->GetFCS()->GetPitchTrimCmd();
  default:
    cerr << "FGState::GetParameter() - No handler for parameter " << val_idx << endl;
    return 0.0;
  }
  return 0;
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

float FGState::GetParameter(string val_string) {
  return GetParameter(coeffdef[val_string]);
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

eParam FGState::GetParameterIndex(string val_string) {
  return coeffdef[val_string];
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

void FGState::SetParameter(eParam val_idx, float val) {
  switch(val_idx) {
  case FG_ELEVATOR_POS:
    FDMExec->GetFCS()->SetDePos(val);
    break;
  case FG_AILERON_POS:
    FDMExec->GetFCS()->SetDaPos(val);
    break;
  case FG_RUDDER_POS:
    FDMExec->GetFCS()->SetDrPos(val);
    break;
  case FG_SPDBRAKE_POS:
    FDMExec->GetFCS()->SetDsbPos(val);
    break;
  case FG_SPOILERS_POS:
    FDMExec->GetFCS()->SetDspPos(val);
    break;
  case FG_FLAPS_POS:
    FDMExec->GetFCS()->SetDfPos(val);
    break;
  case FG_THROTTLE_POS:
    FDMExec->GetFCS()->SetThrottlePos(-1,val);
  }
}

//***************************************************************************
//
// Reset: Assume all angles READ FROM FILE IN DEGREES !!
//

bool FGState::Reset(string path, string acname, string fname) {
  string resetDef;
  float U, V, W;
  float phi, tht, psi;
  float latitude, longitude, h;

  resetDef = path + "/" + acname + "/" + fname + ".xml";

  ifstream resetfile(resetDef.c_str());

  if (resetfile) {
    resetfile >> U;
    resetfile >> V;
    resetfile >> W;
    resetfile >> latitude;
    resetfile >> longitude;
    resetfile >> phi;
    resetfile >> tht;
    resetfile >> psi;
    resetfile >> h;
    resetfile.close();

    FDMExec->GetPosition()->SetLatitude(latitude*DEGTORAD);
    FDMExec->GetPosition()->SetLongitude(longitude*DEGTORAD);
    FDMExec->GetPosition()->Seth(h);

    Initialize(U, V, W, phi*DEGTORAD, tht*DEGTORAD, psi*DEGTORAD,
               latitude*DEGTORAD, longitude*DEGTORAD, h);

    return true;
  } else {
    cerr << "Unable to load reset file " << fname << endl;
    return false;
  }
}

//***************************************************************************
//
// Initialize: Assume all angles GIVEN IN RADIANS !!
//

void FGState::Initialize(float U, float V, float W,
                         float phi, float tht, float psi,
                         float Latitude, float Longitude, float H) {
  FGColumnVector vUVW(3);
  FGColumnVector vLocalVelNED(3);
  FGColumnVector vEuler(3);
  float alpha, beta;
  float qbar, Vt;

  FDMExec->GetPosition()->SetLatitude(Latitude);
  FDMExec->GetPosition()->SetLongitude(Longitude);
  FDMExec->GetPosition()->Seth(H);

  FDMExec->GetAtmosphere()->Run();

  if (W != 0.0)
    alpha = U*U > 0.0 ? atan2(W, U) : 0.0;
  else
    alpha = 0.0;
  if (V != 0.0)
    beta = U*U+W*W > 0.0 ? atan2(V, (fabs(U)/U)*sqrt(U*U + W*W)) : 0.0;
  else
    beta = 0.0;

  vUVW << U << V << W;
  FDMExec->GetTranslation()->SetUVW(vUVW);

  vEuler << phi << tht << psi;
  FDMExec->GetRotation()->SetEuler(vEuler);

  FDMExec->GetTranslation()->SetAB(alpha, beta);

  Vt = sqrt(U*U + V*V + W*W);
  FDMExec->GetTranslation()->SetVt(Vt);

  FDMExec->GetTranslation()->SetMach(Vt/FDMExec->GetAtmosphere()->GetSoundSpeed());

  qbar = 0.5*(U*U + V*V + W*W)*FDMExec->GetAtmosphere()->GetDensity();
  FDMExec->GetTranslation()->Setqbar(qbar);

  InitMatrices(phi, tht, psi);

  vLocalVelNED = mTb2l*vUVW;
  FDMExec->GetPosition()->SetvVel(vLocalVelNED);
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

void FGState::Initialize(FGInitialCondition *FGIC) {

  float tht,psi,phi;
  float U, V, W, h;
  float latitude, longitude;

  latitude = FGIC->GetLatitudeRadIC();
  longitude = FGIC->GetLongitudeRadIC();
  h = FGIC->GetAltitudeFtIC();
  U = FGIC->GetUBodyFpsIC();
  V = FGIC->GetVBodyFpsIC();
  W = FGIC->GetWBodyFpsIC();
  tht = FGIC->GetThetaRadIC();
  phi = FGIC->GetPhiRadIC();
  psi = FGIC->GetPsiRadIC();

  Initialize(U, V, W, phi, tht, psi, latitude, longitude, h);
  
  FDMExec->GetPosition()->SetSeaLevelRadius( FGIC->GetSeaLevelRadiusFtIC() );
  FDMExec->GetPosition()->SetRunwayRadius( FGIC->GetSeaLevelRadiusFtIC() + 
                                             FGIC->GetTerrainAltitudeFtIC() );

}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

bool FGState::StoreData(string fname) {
  ofstream datafile(fname.c_str());

  if (datafile) {
    datafile << (FDMExec->GetTranslation()->GetUVW())(1);
    datafile << (FDMExec->GetTranslation()->GetUVW())(2);
    datafile << (FDMExec->GetTranslation()->GetUVW())(3);
    datafile << FDMExec->GetPosition()->GetLatitude();
    datafile << FDMExec->GetPosition()->GetLongitude();
    datafile << (FDMExec->GetRotation()->GetEuler())(1);
    datafile << (FDMExec->GetRotation()->GetEuler())(2);
    datafile << (FDMExec->GetRotation()->GetEuler())(3);
    datafile << FDMExec->GetPosition()->Geth();
    datafile.close();
    return true;
  } else {
    cerr << "Could not open dump file " << fname << endl;
    return false;
  }
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

void FGState::InitMatrices(float phi, float tht, float psi) {
  float thtd2, psid2, phid2;
  float Sthtd2, Spsid2, Sphid2;
  float Cthtd2, Cpsid2, Cphid2;
  float Cphid2Cthtd2;
  float Cphid2Sthtd2;
  float Sphid2Sthtd2;
  float Sphid2Cthtd2;

  thtd2 = tht/2.0;
  psid2 = psi/2.0;
  phid2 = phi/2.0;

  Sthtd2 = sin(thtd2);
  Spsid2 = sin(psid2);
  Sphid2 = sin(phid2);

  Cthtd2 = cos(thtd2);
  Cpsid2 = cos(psid2);
  Cphid2 = cos(phid2);

  Cphid2Cthtd2 = Cphid2*Cthtd2;
  Cphid2Sthtd2 = Cphid2*Sthtd2;
  Sphid2Sthtd2 = Sphid2*Sthtd2;
  Sphid2Cthtd2 = Sphid2*Cthtd2;

  vQtrn(1) = Cphid2Cthtd2*Cpsid2 + Sphid2Sthtd2*Spsid2;
  vQtrn(2) = Sphid2Cthtd2*Cpsid2 - Cphid2Sthtd2*Spsid2;
  vQtrn(3) = Cphid2Sthtd2*Cpsid2 + Sphid2Cthtd2*Spsid2;
  vQtrn(4) = Cphid2Cthtd2*Spsid2 - Sphid2Sthtd2*Cpsid2;

  CalcMatrices();
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

void FGState::CalcMatrices(void) {
  float Q0Q0, Q1Q1, Q2Q2, Q3Q3;
  float Q0Q1, Q0Q2, Q0Q3, Q1Q2;
  float Q1Q3, Q2Q3;

  Q0Q0 = vQtrn(1)*vQtrn(1);
  Q1Q1 = vQtrn(2)*vQtrn(2);
  Q2Q2 = vQtrn(3)*vQtrn(3);
  Q3Q3 = vQtrn(4)*vQtrn(4);
  Q0Q1 = vQtrn(1)*vQtrn(2);
  Q0Q2 = vQtrn(1)*vQtrn(3);
  Q0Q3 = vQtrn(1)*vQtrn(4);
  Q1Q2 = vQtrn(2)*vQtrn(3);
  Q1Q3 = vQtrn(2)*vQtrn(4);
  Q2Q3 = vQtrn(3)*vQtrn(4);

  mTl2b(1,1) = Q0Q0 + Q1Q1 - Q2Q2 - Q3Q3;
  mTl2b(1,2) = 2*(Q1Q2 + Q0Q3);
  mTl2b(1,3) = 2*(Q1Q3 - Q0Q2);
  mTl2b(2,1) = 2*(Q1Q2 - Q0Q3);
  mTl2b(2,2) = Q0Q0 - Q1Q1 + Q2Q2 - Q3Q3;
  mTl2b(2,3) = 2*(Q2Q3 + Q0Q1);
  mTl2b(3,1) = 2*(Q1Q3 + Q0Q2);
  mTl2b(3,2) = 2*(Q2Q3 - Q0Q1);
  mTl2b(3,3) = Q0Q0 - Q1Q1 - Q2Q2 + Q3Q3;

  mTb2l = mTl2b;
  mTb2l.T();
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

void FGState::IntegrateQuat(FGColumnVector vPQR, int rate) {
  static FGColumnVector vlastQdot(4);
  static FGColumnVector vQdot(4);

  vQdot(1) = -0.5*(vQtrn(2)*vPQR(eP) + vQtrn(3)*vPQR(eQ) + vQtrn(4)*vPQR(eR));
  vQdot(2) =  0.5*(vQtrn(1)*vPQR(eP) + vQtrn(3)*vPQR(eR) - vQtrn(4)*vPQR(eQ));
  vQdot(3) =  0.5*(vQtrn(1)*vPQR(eQ) + vQtrn(4)*vPQR(eP) - vQtrn(2)*vPQR(eR));
  vQdot(4) =  0.5*(vQtrn(1)*vPQR(eR) + vQtrn(2)*vPQR(eQ) - vQtrn(3)*vPQR(eP));

  vQtrn += 0.5*dt*rate*(vlastQdot + vQdot);

  vQtrn.Normalize();

  vlastQdot = vQdot;
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

FGColumnVector FGState::CalcEuler(void) {
  static FGColumnVector vEuler(3);

  if (mTl2b(3,3) == 0.0) mTl2b(3,3) = 0.0000001;
  if (mTl2b(1,1) == 0.0) mTl2b(1,1) = 0.0000001;

  vEuler(ePhi) = atan2(mTl2b(2,3), mTl2b(3,3));
  vEuler(eTht) = asin(-mTl2b(1,3));
  vEuler(ePsi) = atan2(mTl2b(1,2), mTl2b(1,1));

  if (vEuler(ePsi) < 0.0) vEuler(ePsi) += 2*M_PI;

  return vEuler;
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%

FGMatrix FGState::GetTs2b(float alpha, float beta) {
  float ca, cb, sa, sb;

  ca = cos(alpha);
  sa = sin(alpha);
  cb = cos(beta);
  sb = sin(beta);

  mTs2b(1,1) = -ca*cb;
  mTs2b(1,2) = -ca*sb;
  mTs2b(1,3) = sa;
  mTs2b(2,1) = -sb;
  mTs2b(2,2) = cb;
  mTs2b(2,3) = 0.0;
  mTs2b(3,1) = -sa*cb;
  mTs2b(3,2) = -sa*sb;
  mTs2b(3,3) = -ca;

  return mTs2b;
}

//%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%%