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00001 #ifndef CurvilinearState_H
00002 #define CurvilinearState_H
00003 
00004 #include "DataFormats/GeometryVector/interface/Basic2DVector.h"
00005 #include "DataFormats/GeometryVector/interface/Basic3DVector.h"
00006 #include "TrackPropagation/RungeKutta/interface/VectorDoublet.h"
00007 
00020 class CurvilinearState {
00021 public:
00022 
00023   typedef double                            Scalar;
00024   typedef Basic2DVector<Scalar>             Vector2D;
00025   typedef Basic3DVector<Scalar>             Vector3D;
00026   typedef VectorDoublet<Vector2D,Vector3D>  Vector;
00027 
00028   CurvilinearState() {}
00029 
00030   CurvilinearState( const Vector& v, Scalar z, Scalar pzsign) : 
00031     par_(v), z_(z), pzSign_(pzsign) {}
00032 
00033   CurvilinearState( const Vector3D& pos, const Vector3D& p, Scalar ch) : 
00034     par_(Vector2D(pos.x(),pos.y()), Vector3D( p.x()/p.z(), p.y()/p.z(), ch/p.mag())), 
00035     z_(pos.z()), pzSign_(p.z()>0. ? 1.:-1.) {}
00036        
00037   const Vector3D position() const { 
00038     return Vector3D(par_.first().x(),par_.first().y(),z_);
00039   }
00040 
00041   const Vector3D momentum() const {
00042     Scalar p = 1./fabs(par_.second().z());
00043     if ( p>1.e9 )  p = 1.e9;
00044     Scalar dxdz = par_.second().x();
00045     Scalar dydz = par_.second().y();
00046     Scalar dz = pzSign_/sqrt(1. + dxdz*dxdz + dydz*dydz);
00047     Scalar dx = dz*dxdz;
00048     Scalar dy = dz*dydz;
00049     return Vector3D(dx*p, dy*p, dz*p);
00050   }
00051 
00052   const Vector& parameters() const { return par_;}
00053 
00054   Scalar charge() const { return par_.second().z()>0 ? 1 : -1;}
00055 
00056   Scalar z() const {return z_;}
00057 
00058   double pzSign() const {return pzSign_;}
00059 
00060 private:
00061 
00062   Vector par_;
00063   Scalar z_;
00064   Scalar pzSign_; 
00065 
00066 };
00067 
00068 inline CurvilinearState
00069 operator+( const CurvilinearState& a, const CurvilinearState& b) {
00070   return CurvilinearState(a.parameters()+b.parameters(), a.z()+b.z(), a.pzSign());
00071 }
00072 
00073 inline CurvilinearState
00074 operator-( const CurvilinearState& a, const CurvilinearState& b) {
00075   return CurvilinearState(a.parameters()-b.parameters(), a.z()-b.z(), a.pzSign());
00076 }
00077 
00078 inline CurvilinearState operator*( const CurvilinearState& v, 
00079                                    const CurvilinearState::Scalar& s) {
00080   return CurvilinearState( v.parameters()*s, v.z()*s, v.pzSign());
00081 }
00082 inline CurvilinearState operator*( const CurvilinearState::Scalar& s,
00083                                    const CurvilinearState& v) {
00084   return CurvilinearState( v.parameters()*s, v.z()*s, v.pzSign());
00085 }
00086 
00087 inline CurvilinearState operator/( const CurvilinearState& v, 
00088                                    const CurvilinearState::Scalar& s) {
00089   return CurvilinearState( v.parameters()/s, v.z()/s, v.pzSign());
00090 }
00091 
00092 
00093 #endif