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/data/refman/pasoursint/CMSSW_6_1_2_SLHC4_patch1/src/TrackPropagation/RungeKutta/src/CylindricalState.h

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00001 #ifndef CylindricalState_H
00002 #define CylindricalState_H
00003 
00004 #include "FWCore/Utilities/interface/Visibility.h"
00005 #include "RKSmallVector.h"
00006 
00007 #include <iostream>
00008 
00021 class dso_internal CylindricalState {
00022 public:
00023 
00024   typedef double                                   Scalar;
00025   typedef RKSmallVector<Scalar,5>                  Vector;
00026 
00027   CylindricalState() {}
00028 
00029   CylindricalState( const LocalPoint& pos, const LocalVector& mom, Scalar ch) {
00030       rho_ = pos.perp();
00031       Scalar cosphi = pos.x() / rho_;
00032       Scalar sinphi = pos.y() / rho_;
00033       Scalar p_rho   =  mom.x() * cosphi + mom.y() * sinphi;
00034       Scalar p_phi   = -mom.x() * sinphi + mom.y() * cosphi;
00035 
00036       par_(0) = pos.phi();
00037       par_(1) = pos.z();
00038       par_(2) = p_phi / (p_rho * rho_);
00039       par_(3) = mom.z() / p_rho;
00040       par_(4) = ch / mom.mag();
00041 
00042       prSign_ = p_rho > 0 ? 1.0 : -1.0;
00043 
00044       std::cout << "CylindricalState built from pos " << pos << " mom " << mom << " charge " << ch << std::endl;
00045       std::cout << "p_rho " << p_rho << " p_phi " << p_phi << " dphi_drho " << par_(2) << std::endl;
00046       std::cout << "Which results in                " << position() << " mom " << momentum() 
00047            << " charge " << charge() << std::endl;
00048   }
00049   
00050   CylindricalState( Scalar rho, const Vector& par, Scalar prSign) :
00051       par_(par), rho_(rho), prSign_(prSign) {}
00052 
00053 
00054   const LocalPoint position() const { 
00055       return LocalPoint( LocalPoint::Cylindrical( rho_, par_(0), par_(1)));
00056   }
00057 
00058   const LocalVector momentum() const {
00059       Scalar cosphi = cos( par_(0));
00060       Scalar sinphi = sin( par_(0));
00061       Scalar Q = sqrt(1 + rho_*rho_ * par_(2)*par_(2) + par_(3)*par_(3));
00062       Scalar P = std::abs(1./par_(4));
00063       Scalar p_rho = prSign_*P/Q;
00064       Scalar p_phi = rho_*par_(2)*p_rho;
00065       Scalar p_z   = par_(3)*p_rho;
00066       LocalVector result( p_rho*cosphi - p_phi*sinphi,
00067                           p_rho*sinphi + p_phi*cosphi,
00068                           p_z);
00069       return result;
00070   }
00071 
00072   const Vector& parameters() const { return par_;}
00073 
00074   Scalar charge() const { return par_(4) > 0 ? 1 : -1;}
00075 
00076   Scalar rho() const {return rho_;}
00077 
00078   double prSign() const {return prSign_;}
00079 
00080 private:
00081 
00082   Vector par_;
00083   Scalar rho_;
00084   Scalar prSign_; 
00085 
00086 };
00087 
00088 #endif