/[PAMELA software]/DarthVader/OrbitalInfo/src/InclinationInfo.cpp

Diff of /DarthVader/OrbitalInfo/src/InclinationInfo.cpp

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-revision 1.4 by mocchiut,
Wed Apr 18 14:06:44 2007 UTC
+revision 1.9 by pam-mep,
Fri Mar 28 20:47:15 2014 UTC
 Line 18
   *   59 Temple Place - Suite 330, Boston, MA  02111-1307, USA.             *
   ***************************************************************************/
  #include <InclinationInfo.h>
- #include <TMath.h>
- #include <TMatrixD.h>
  using namespace std;
-Line 77 
 InclinationInfo::~InclinationInfo()
+Line 75 
 InclinationInfo::~InclinationInfo()
  {
  }
+ /*Sine::Sine()
+   : TObject()
+ {
+ }
+ Sine::~Sine()
+ {
+ }*/
  short int Sign_1(double_t a, Int_t b){
    if(a>0){b=1;}
    if(a<0){b=-1;}
-Line 130 
 short int Sign_1(double_t a, Int_t b){
+Line 137 
 short int Sign_1(double_t a, Int_t b){
  void InclinationInfo::TransAngle(Double_t x0, Double_t y0, Double_t z0, Double_t Vx0, Double_t Vy0, Double_t Vz0, Double_t q0, Double_t q1, Double_t q2, Double_t q3){
+     cout.precision(12);
      double_t a = 360/(2*TMath::Pi());
      TMatrixD Xij(3,3);
-Line 138 
 void InclinationInfo::TransAngle(Double_
+Line 147 
 void InclinationInfo::TransAngle(Double_
      Xij(2,0) = 0; Xij(2,1) = -1; Xij(2,2) = 0;
      TMatrixD Zij(3,3);
-     Zij(0,0) = 0; Zij(0,1) = 0; Zij(0,2) = -1;
+     Zij(0,0) = 0.0; Zij(0,1) = 0.0; Zij(0,2) = -1.0;
-     Zij(1,0) = -1; Zij(1,1) = 0; Zij(1,2) = 0;
+     Zij(1,0) = -1.0; Zij(1,1) = 0.0; Zij(1,2) = 0.0;
-     Zij(2,0) = 0; Zij(2,1) = 1; Zij(2,2) = 0;
+     Zij(2,0) = 0.0; Zij(2,1) = 1.0; Zij(2,2) = 0.0;
      TMatrixD Pij(3,3);
      Pij(0,0) = pow(q0,2)+pow(q1,2)-pow(q2,2)-pow(q3,2);
-Line 161 
 void InclinationInfo::TransAngle(Double_
+Line 170 
 void InclinationInfo::TransAngle(Double_
      Double_t C  = sqrt(pow(C1,2) + pow(C2,2) + pow(C3,2));
      Double_t V0 = sqrt(pow(Vx0,2)+pow(Vy0,2) + pow(Vz0,2));
      //    Double_t R0 = sqrt(pow(x0,2)+pow(y0,2) + pow(z0,2));
-     Aij(0,0) = /*(C2*z0-C3*y0)/(C*R0);/*/Vx0/V0;
+     Aij(0,0) = Vx0/V0;
      Aij(0,1) = C1/C;
-     Aij(0,2) = /*x0/R0;/*/(Vy0*C3-Vz0*C2)/(V0*C);
+     Aij(0,2) = (Vy0*C3-Vz0*C2)/(V0*C);
-     Aij(1,0) = /*(C3*x0-C1*z0)/(C*R0);/*/Vy0/V0;
+     Aij(1,0) = Vy0/V0;
      Aij(1,1) = C2/C;
-     Aij(1,2) = /*y0/R0;/*/(Vz0*C1-Vx0*C3)/(V0*C);
+     Aij(1,2) = (Vz0*C1-Vx0*C3)/(V0*C);
-     Aij(2,0) = /*(C1*y0-C2*x0)/(C*R0);/*/Vz0/V0;
+     Aij(2,0) = Vz0/V0;
      Aij(2,1) = C3/C;
-     Aij(2,2) = /*x0/R0;/*/(Vx0*C2-Vy0*C1)/(V0*C);
+     Aij(2,2) = (Vx0*C2-Vy0*C1)/(V0*C);
-     Aij.Invert();
+     TMatrixD Bij(3,3);
+     Bij(0,0) = Vx0/V0;
+     Bij(1,0) = C1/C;
+     Bij(2,0) = (Vy0*C3-Vz0*C2)/(V0*C);
+     Bij(0,1) = Vy0/V0;
+     Bij(1,1) = C2/C;
+     Bij(2,1) = (Vz0*C1-Vx0*C3)/(V0*C);
+     Bij(0,2) = Vz0/V0;
+     Bij(1,2) = C3/C;
+     Bij(2,2) = (Vx0*C2-Vy0*C1)/(V0*C);
+ /*
+     cout<<"Coordinates:"<<endl;
+     cout<<x0<<"\t"<<y0<<"\t"<<z0<<"\t"<<Vx0/V0<<"\t"<<Vy0/V0<<"\t"<<Vz0/V0<<endl;
+     cout<<"Pij"<<endl;
+     cout<<Pij(0,0)<<"\t"<<Pij(0,1)<<"\t"<<Pij(0,2)<<endl;
+     cout<<Pij(1,0)<<"\t"<<Pij(1,1)<<"\t"<<Pij(1,2)<<endl;
+     cout<<Pij(2,0)<<"\t"<<Pij(2,1)<<"\t"<<Pij(2,2)<<endl;
+ */
+     //Aij.Invert();
      TMatrixD Full_(3,3);
-     Full_ = Aij*(Pij*Zij);
+     Full_ = Bij*(Pij*Zij);
+ /*/temprary
-     //Double_t u13 = Full_(0,2);
+     TMatrixD Tmp(3,3);
-     //Double_t u23 = Full_(1,2);
+     Tmp=Pij*Zij;
+     cout<<"Quaternion matrix (Tmp)"<<endl;
+     cout<<Tmp(0,0)<<"\t"<<Tmp(0,1)<<"\t"<<Tmp(0,2)<<endl;
+     cout<<Tmp(1,0)<<"\t"<<Tmp(1,1)<<"\t"<<Tmp(1,2)<<endl;
+     cout<<Tmp(2,0)<<"\t"<<Tmp(2,1)<<"\t"<<Tmp(2,2)<<endl;
+     cout<<"Orientation based on Velocity"<<endl;
+     cout<<Aij(0,0)<<"\t"<<Aij(0,1)<<"\t"<<Aij(0,2)<<endl;
+     cout<<Aij(1,0)<<"\t"<<Aij(1,1)<<"\t"<<Aij(1,2)<<endl;
+     cout<<Aij(2,0)<<"\t"<<Aij(2,1)<<"\t"<<Aij(2,2)<<endl;
+     cout<<"Satellite Axis in Velocity Reference frame (Full_):"<<endl;
+     cout<<Full_(0,0)<<"\t"<<Full_(0,1)<<"\t"<<Full_(0,2)<<endl;
+     cout<<Full_(1,0)<<"\t"<<Full_(1,1)<<"\t"<<Full_(1,2)<<endl;
+     cout<<Full_(2,0)<<"\t"<<Full_(2,1)<<"\t"<<Full_(2,2)<<endl;
+ */
+     Double_t u00 = Full_(0,0);
+     Double_t u10 = Full_(1,0);
+     Double_t u11 = Full_(1,1);
+     Double_t u20 = Full_(2,0);
+     Double_t u12 = Full_(1,2);
+     //Double_t u13 = Full_(0,0);
+     //Double_t u23 = -Full_(1,0);
      //Double_t u22 = Full_(1,1);
-     //Double_t u33 = Full_(2,2);
+     //Double_t u33 = Full_(2,0);
-     //Double_t u21 = Full_(1,0);
+     //Double_t u21 = Full_(1,2);
-     Double_t u13 = Full_(0,0);
+     Tangazh = a*atan(-u00/u20);
-     Double_t u23 = -Full_(1,0);
+     Kren = a*atan(u10/sqrt(1 - pow(u10,2)));
-     Double_t u22 = Full_(1,1);
+     Ryskanie = a*atan(u12/u11);
-     Double_t u33 = Full_(2,0);
-     Double_t u21 = Full_(1,2);
+     //Tangazh = a*atan(-u13/u33);
+     //Kren = a*atan(-u23/sqrt(1 - pow(u23,2)));
-     Tangazh = a*atan(-u13/u33);
+     //Ryskanie = a*atan(u21/u22);
-     Kren = a*atan(-u23/sqrt(1 - pow(u23,2)));
+ // end temprary
-     Ryskanie = a*atan(u21/u22);
+ //10RED CHECK
+ /*
+ u10 = tan(Kren*TMath::DegToRad())/sqrt(pow(tan(Kren*TMath::DegToRad()),2)+1);
+ u11 = -sqrt((1-pow(u10,2))/(1+pow(tan(Ryskanie*TMath::DegToRad()),2)));
+ u12 = u11*tan(Ryskanie*TMath::DegToRad());
+ u20 = -sqrt((1-pow(u10,2))/(1+pow(tan(Tangazh*TMath::DegToRad()),2)));
+ u00 = -u20*tan(Tangazh*TMath::DegToRad());
+ Double_t aa = 1+pow((u20/u00),2);
+ Double_t by = 2*u10*u11*u20/pow(u00,2);
+ Double_t cy = (1+pow(u10/u00,2))*pow(u11,2)-1;
+ Double_t bz = 2*u10*u12*u20/pow(u00,2);
+ Double_t cz = (1+pow(u10/u00,2))*pow(u12,2)-1;
+ Int_t uj = TMath::Sign(1.,Ryskanie)*TMath::Sign(1.,Tangazh);
+ Double_t u21 = (-by+uj*sqrt(pow(by,2)-4*aa*cy))/(2*aa);
+ Double_t u21s = -TMath::Sign(1.,Kren)*TMath::Abs(u21);
+ Double_t u01 = TMath::Sign(1.,Ryskanie)*TMath::Abs((u10*u11+u20*u21)/u00);
+ Int_t fj=1;
+ if(TMath::Sign(1.,Tangazh)>0 && TMath::Sign(1.,Ryskanie)>0) fj=-1;
+ Double_t u22 = (-bz+fj*sqrt(pow(bz,2)-4*aa*cz))/(2*aa);
+ Double_t u22s = -TMath::Sign(1.,Tangazh)*TMath::Abs(u22);
+ Double_t u02 = -TMath::Abs((u10*u12+u20*u22)/u00);
+ TMatrixD Dij(3,3);
+ Dij(0,0) = u00;  Dij(0,1) = u01;  Dij(0,2) = u02;
+ Dij(1,0) = u10;  Dij(1,1) = u11;  Dij(1,2) = u12;
+ Dij(2,0) = u20;  Dij(2,1) = u21s;  Dij(2,2) = u22s;
+ //cout<<"Dij"<<endl;
+ //cout<<Dij(0,0)<<"\t"<<Dij(0,1)<<"\t"<<Dij(0,2)<<endl;
+ //cout<<Dij(1,0)<<"\t"<<Dij(1,1)<<"\t"<<Dij(1,2)<<endl;
+ //cout<<Dij(2,0)<<"\t"<<Dij(2,1)<<"\t"<<Dij(2,2)<<endl;
+ //Aij.Invert();
+ //Zij.Invert();
+ TMatrixD Shij(3,3);
+ TMatrixD Usij(3,3);
+ Usij = (Aij*Dij);
+ Usij.Invert();
+ Shij = Zij*Usij;
+ Shij.Invert();
+ cout<<"Full_ matrix having got from Euler angles"<<endl;
+ cout<<Shij(0,0)<<"\t"<<Shij(0,1)<<"\t"<<Shij(0,2)<<endl;
+ cout<<Shij(1,0)<<"\t"<<Shij(1,1)<<"\t"<<Shij(1,2)<<endl;
+ cout<<Shij(2,0)<<"\t"<<Shij(2,1)<<"\t"<<Shij(2,2)<<endl;
+     cout<<"Bank = "<<Kren<<"\tSPitch = "<<Tangazh<<"\tYaw = "<<Ryskanie<<endl;
+     if(TMath::Abs(Kren)>10.0){
+ //    if(Vz0/V0>0.99){
+       Int_t Fer;
+       cin>>Fer;
+     }
+     Full_.Delete();
+     Aij.Delete();
+     Pij.Delete();
+     Zij.Delete();
+     Xij.Delete();
+     Dij.Delete();
+     Shij.Delete();
+     Usij.Delete();
+ // END 10RED CHECK
+ */
  return ;
  }
- void InclinationInfo::Clear(){
+ void InclinationInfo::Clear(Option_t *t){
    //Int_t gyh = 0;
  }
-Line 205 
 void InclinationInfo::Clear(){
+Line 325 
 void InclinationInfo::Clear(){
  ClassImp(InclinationInfoI)
  ClassImp(Quaternions)
  ClassImp(InclinationInfo)
+ //ClassImp(Sine)

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