Subversion Repositories f9daq

Rev

Rev 271 | Go to most recent revision | Details | Compare with Previous | Last modification | View Log | RSS feed

Rev Author Line No. Line
193 f9daq 1
//+
2
// File : BParticle.cc
3
// Description : Implementation of BTrack class //
4
//-
5
 
6
#include "BParticle.h"
7
 
8
ClassImp (BParticle)
9
 
10
 
11
 BParticle::BParticle ( float px, float py, float pz, float e,
12
                       float charge, SIMPLEPID pid ) {
13
   m_px = px;
14
   m_py = py;
15
   m_pz = pz;
16
   m_e = e;
17
   m_charge = charge;
18
   m_pid = pid;
19
 }
20
 
21
 
22
float BParticle::GetMass(SIMPLEPID pid){
23
 
24
switch (pid){
25
        case PHOTON:   return 0;
266 f9daq 26
        case ELECTRON: return 0.51;
193 f9daq 27
        case PION:     return 0.139;
266 f9daq 28
        case MUON:     return 0.105;
193 f9daq 29
        case KAON:     return 0.497;
30
        case PROTON:   return 0.938;
266 f9daq 31
        case JPSI:     return 3.1;
193 f9daq 32
        case D:        return 1.86;
33
        case DSTAR:    return 2.01;
34
        case B:        return 5.27;
271 f9daq 35
        case PHI:      return 1.02;
329 f9daq 36
        case LAMBDA0:  return 1.115683;
193 f9daq 37
        default: return 0;
38
}      
39
 
40
}
41
 
42
 float BParticle::GetMass ()
43
 {
44
   float m2 = m_e * m_e-m_px * m_px-m_py * m_py-m_pz * m_pz;
45
   if (m2<0) m2=0;
46
   return sqrt(m2);
47
 }  
48
 
49
 void BParticle::SetEnergyFromMass (float mass)
50
 {
51
   m_e = sqrt( mass * mass + m_px * m_px +m_py * m_py +m_pz * m_pz );
52
 
53
 }
54
 
55
void BParticle::SetEnergyFromPid(){
56
        SetEnergyFromMass(GetMass(m_pid));
57
}
58
 
59
int SelectParticles(TClonesArray *pin , int charge, SIMPLEPID type, TClonesArray *pout){
60
  pout->Clear();
61
  int nprt=0;
62
 
63
  for(TIter next(pin); BParticle * p =(BParticle *) next();) {
64
        if (p->charge()== charge && p->pid()== type ) {
65
          TClonesArray& list = *pout;
66
          new (list[nprt++]) BParticle ( *p );
67
        }
68
  }      
69
  return nprt;  
70
}
71
 
267 f9daq 72
int CombineParticles(TClonesArray *plist1 ,TClonesArray *plist2 , int same, float masslow, float massup, SIMPLEPID pid, TClonesArray *pout){
193 f9daq 73
 // Loop over all the particles in both lists.
74
 pout->Clear();
75
 int nprt=0;
76
 
77
 for(TIter next1(plist1);BParticle * p1 =(BParticle *) next1();) {
78
    // the second loop 
267 f9daq 79
   for( TIter next2 = (plist1!=plist2 && same==0) ?  TIter(plist2): TIter(next1) ; BParticle * p2 =(BParticle *) next2();) {  
193 f9daq 80
      BParticle  p = *p1 + *p2; // Combine two particles into a new particle   
81
      if (p.InMassRange(masslow, massup)){
82
            p.SetPid(pid);
83
                TClonesArray& list = *pout;
84
            new (list[nprt++]) BParticle ( p ); // create a new entry in kslist list of particles
85
      }
86
 
87
   }
88
 
89
 }
90
 return nprt;
91
}
92
 
93
 
94