BOSS 7.0.5
BESIII Offline Software System
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Analysis/VertexFit/VertexFit-00-02-85/VertexFit/HTrackParameter.h
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1#ifndef HTrack_Parameter_H
2#define HTrack_Parameter_H
3//
4//
5// Track Parameters in Helix format (drho, phi0, kappa, dz, lambda)
6// The helix parameters are used in track fit
7// Author: K.L He date: 04/12/2007, created for Kalman vertex fit
8//
9//
10
11#include "CLHEP/Matrix/Vector.h"
12#include "CLHEP/Vector/LorentzVector.h"
13#include "CLHEP/Vector/ThreeVector.h"
14#include "CLHEP/Matrix/SymMatrix.h"
15#include "CLHEP/Matrix/Matrix.h"
16using CLHEP::HepVector;
17using CLHEP::HepLorentzVector;
18using CLHEP::Hep3Vector;
19using CLHEP::HepMatrix;
20using CLHEP::HepSymMatrix;
21#include "CLHEP/Geometry/Point3D.h"
22#ifndef ENABLE_BACKWARDS_COMPATIBILITY
24#endif
25
26class WTrackParameter;
27
29
30 public:
35 HTrackParameter(const HepVector helix, const HepSymMatrix eMatrix, const int trackid, const int partid);
36 HTrackParameter(const HepVector helix, const double error[], const int trackid, const int partid);
37
38 //
39 // HTrackParameter from WTrackParameter
40 //
42 //
43 // measurement equation and derivative matrices
44 //
45 HTrackParameter(const int charge, const HepVector p, const HepVector x);
46 HepMatrix dHdx(const HepVector p, const HepVector x);
47 HepMatrix dHdp(const HepVector p, const HepVector x);
48
49 HepVector hel() const {return m_hel;}
50 HepVector helix() const {return m_hel;}
51 HepSymMatrix eHel() const {return m_eHel;}
52 int trackID() const {return m_trackID;}
53 int partID() const {return m_partID;}
54
55 // charge
56 inline int charge() const;
57 // 3-momentum and 3-position
58 inline double pxy() const;
59 inline HepVector p() const;
60 inline HepVector x() const;
61 inline Hep3Vector p3() const;
62 inline HepPoint3D x3() const;
63 inline HepLorentzVector p(const double mass) const;
64 HepPoint3D center() const;
65 double radius() const;
66 // helix parameter
67 double drho() const {return m_hel[0];}
68 double phi0() const {return m_hel[1];}
69 double kappa() const {return m_hel[2];}
70 double dz() const {return m_hel[3];}
71 double lambda() const {return m_hel[4];}
72
73
74 // WTrackParameter
75 WTrackParameter wTrack() const;
76 WTrackParameter wTrack(const double mass) const;
77
78 // set partID, trackID
79 void setTrackID(const int trackID) {m_trackID = trackID;}
80 void setPartID(const int partID) { m_partID = partID;}
81 // set helix parameter and covariance matrix
82 void setHel(const HepVector he) {m_hel = he;}
83 void setEHel(const HepSymMatrix eH) {m_eHel = eH;}
84 //
85 // some utility function
86 //
87 // mass
88 double xmass(const int i) const;
89 //
90 // int section position with helix, plane, cylinder, cone, etc
91 //
92 HepPoint3D positionTwoHelix(const HTrackParameter) const; // intersection position in x-y plane
93 HepPoint3D positionPlane(const double) const;
94 HepPoint3D positionCylinder(const double) const;
96 //
97 // Mininum distance between helix and helix, helix and line
98 //
100 private:
101 int m_trackID; // for vertex reconstruction
102 int m_partID; // for Kalman track, 0:e, 1:mu, 2:pi, 3:K, 4:p
103 HepVector m_hel; // 5 helix parameter
104 HepSymMatrix m_eHel; // 5x5 error matrix
105};
106
107inline int HTrackParameter::charge() const {
108 return (m_hel[2]>0 ? +1 :-1);
109}
110
111inline double HTrackParameter::pxy() const {
112 return fabs(1/m_hel[2]);
113}
114
115inline HepVector HTrackParameter::p() const {
116 HepVector p0(3, 0);
117 double pxy = 1./fabs(m_hel[2]);
118 p0[0] = 0 - pxy*sin(m_hel[1]);
119 p0[1] = pxy*cos(m_hel[1]);
120 p0[2] = pxy * m_hel[4];
121 return p0;
122}
123
124
125inline HepVector HTrackParameter::x() const {
126 HepVector v0(3, 0);
127 v0[0] = m_hel[0]*cos(m_hel[1]);
128 v0[1] = m_hel[0]*sin(m_hel[1]);
129 v0[2] = m_hel[3];
130 return v0;
131}
132
134 return HepPoint3D(m_hel[0]*cos(m_hel[1]), m_hel[0]*sin(m_hel[1]), m_hel[3]);
135}
136
137inline Hep3Vector HTrackParameter::p3() const {
138 double pxy = 1./fabs(m_hel[2]);
139 return Hep3Vector(0-pxy*sin(m_hel[1]), pxy*cos(m_hel[1]), pxy*m_hel[4]);
140}
141
142inline HepLorentzVector HTrackParameter::p(const double mass) const{
143// // xum 2007-12-28
144// //Hep3Vector ptrk = (p3()).rho();
145// Hep3Vector ptrk = (p3()).r();
146// double e = sqrt(ptrk*ptrk+mass*mass);
147// return HepLorentzVector(p3(), e);
148
149 // nefedov 2011-11-17
150 Hep3Vector p3tmp = p3();
151 double ptrk = p3tmp.r();
152 double e = sqrt(ptrk*ptrk+mass*mass);
153 return HepLorentzVector(p3tmp, e);
154}
155
156#endif
double mass
const double xmass[5]
Definition: Gam4pikp.cxx:50
double sin(const BesAngle a)
double cos(const BesAngle a)
HepGeom::Point3D< double > HepPoint3D
HepPoint3D positionCylinder(const double) const
HepPoint3D positionTwoHelix(const HTrackParameter) const
HepMatrix dHdp(const HepVector p, const HepVector x)
double minDistanceTwoHelix(const HTrackParameter G, HepPoint3D &pos)
HepMatrix dHdx(const HepVector p, const HepVector x)
WTrackParameter wTrack() const
HepPoint3D positionPlane(const double) const
HepPoint3D center() const
HTrackParameter & operator=(const HTrackParameter &htrk)
double radius() const
HepPoint3D positionCone() const
float ptrk