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Geant4/processes/hadronic/models/inclxx/utils/src/G4INCLEventInfo.cc

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Diff markup

Differences between /processes/hadronic/models/inclxx/utils/src/G4INCLEventInfo.cc (Version 11.3.0) and /processes/hadronic/models/inclxx/utils/src/G4INCLEventInfo.cc (Version 11.1.3)


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 25 //                                                 25 //
 26 // INCL++ intra-nuclear cascade model              26 // INCL++ intra-nuclear cascade model
 27 // Alain Boudard, CEA-Saclay, France               27 // Alain Boudard, CEA-Saclay, France
 28 // Joseph Cugnon, University of Liege, Belgium     28 // Joseph Cugnon, University of Liege, Belgium
 29 // Jean-Christophe David, CEA-Saclay, France       29 // Jean-Christophe David, CEA-Saclay, France
 30 // Pekka Kaitaniemi, CEA-Saclay, France, and H     30 // Pekka Kaitaniemi, CEA-Saclay, France, and Helsinki Institute of Physics, Finland
 31 // Sylvie Leray, CEA-Saclay, France                31 // Sylvie Leray, CEA-Saclay, France
 32 // Davide Mancusi, CEA-Saclay, France              32 // Davide Mancusi, CEA-Saclay, France
 33 //                                                 33 //
 34 #define INCLXX_IN_GEANT4_MODE 1                    34 #define INCLXX_IN_GEANT4_MODE 1
 35                                                    35 
 36 #include "globals.hh"                              36 #include "globals.hh"
 37                                                    37 
 38 /** \file G4INCLEventInfo.cc                       38 /** \file G4INCLEventInfo.cc
 39  * \brief Simple container for output of event     39  * \brief Simple container for output of event results.
 40  *                                                 40  *
 41  * Contains the results of an INCL cascade.        41  * Contains the results of an INCL cascade.
 42  *                                                 42  *
 43  * \date 21 January 2011                           43  * \date 21 January 2011
 44  * \author Davide Mancusi                          44  * \author Davide Mancusi
 45  */                                                45  */
 46                                                    46 
 47 #include "G4INCLEventInfo.hh"                      47 #include "G4INCLEventInfo.hh"
 48 #include "G4INCLGlobals.hh"                        48 #include "G4INCLGlobals.hh"
 49 #include "G4INCLParticleTable.hh"                  49 #include "G4INCLParticleTable.hh"
 50 #include "G4INCLParticle.hh"                       50 #include "G4INCLParticle.hh"
 51 #include <cmath>                                   51 #include <cmath>
 52                                                    52 
 53 namespace G4INCL {                                 53 namespace G4INCL {
 54                                                    54 
 55   G4ThreadLocal Int_t EventInfo::eventNumber =     55   G4ThreadLocal Int_t EventInfo::eventNumber = 0;
 56                                                    56 
 57   void EventInfo::fillInverseKinematics(const      57   void EventInfo::fillInverseKinematics(const Double_t gamma) {
 58     const Double_t beta = std::sqrt(1.-1./(gam     58     const Double_t beta = std::sqrt(1.-1./(gamma*gamma));
 59     for(Int_t i=0; i<nParticles; ++i) {            59     for(Int_t i=0; i<nParticles; ++i) {
 60       // determine the particle mass from the      60       // determine the particle mass from the kinetic energy and the momentum;
 61       // this ensures consistency with the mas     61       // this ensures consistency with the masses uses by the models
 62       Double_t mass;                               62       Double_t mass;
 63       if(EKin[i]>0.) {                             63       if(EKin[i]>0.) {
 64         mass = std::max(                           64         mass = std::max(
 65                         0.5 * (px[i]*px[i]+py[     65                         0.5 * (px[i]*px[i]+py[i]*py[i]+pz[i]*pz[i]-EKin[i]*EKin[i]) / EKin[i],
 66                         0.0);                      66                         0.0);
 67       } else {                                     67       } else {
 68         INCL_WARN("Particle with null kinetic      68         INCL_WARN("Particle with null kinetic energy in fillInverseKinematics, cannot determine its mass:\n"
 69                   << "  A=" << A[i] << ", Z="      69                   << "  A=" << A[i] << ", Z=" << Z[i] << ", S=" << S[i] << '\n'
 70                   << "  EKin=" << EKin[i] << "     70                   << "  EKin=" << EKin[i] << ", px=" << px[i] << ", py=" << py[i] << ", pz=" << pz[i] << '\n'
 71                   << "  Falling back to the ma     71                   << "  Falling back to the mass from the INCL ParticleTable" << '\n');
 72         mass = ParticleTable::getRealMass(A[i]     72         mass = ParticleTable::getRealMass(A[i], Z[i], S[i]);
 73       }                                            73       }
 74                                                    74 
 75       const Double_t ETot = EKin[i] + mass;        75       const Double_t ETot = EKin[i] + mass;
 76       const Double_t ETotPrime = gamma*(ETot -     76       const Double_t ETotPrime = gamma*(ETot - beta*pz[i]);
 77       EKinPrime[i] = ETotPrime - mass;             77       EKinPrime[i] = ETotPrime - mass;
 78       pzPrime[i] = -gamma*(pz[i] - beta*ETot);     78       pzPrime[i] = -gamma*(pz[i] - beta*ETot);
 79       const Double_t pPrime = std::sqrt(px[i]*     79       const Double_t pPrime = std::sqrt(px[i]*px[i] + py[i]*py[i] + pzPrime[i]*pzPrime[i]);
 80       const Double_t cosThetaPrime = (pPrime>0     80       const Double_t cosThetaPrime = (pPrime>0.) ? (pzPrime[i]/pPrime) : 1.;
 81       if(cosThetaPrime>=1.)                        81       if(cosThetaPrime>=1.)
 82         thetaPrime[i] = 0.;                        82         thetaPrime[i] = 0.;
 83       else if(cosThetaPrime<=-1.)                  83       else if(cosThetaPrime<=-1.)
 84         thetaPrime[i] = 180.;                      84         thetaPrime[i] = 180.;
 85       else                                         85       else
 86         thetaPrime[i] = Math::toDegrees(Math::     86         thetaPrime[i] = Math::toDegrees(Math::arcCos(cosThetaPrime));
 87     }                                              87     }
 88   }                                                88   }
 89                                                    89 
 90   void EventInfo::remnantToParticle(const G4in     90   void EventInfo::remnantToParticle(const G4int remnantIndex) {
 91                                                    91     
 92     INCL_DEBUG("remnantToParticle function use     92     INCL_DEBUG("remnantToParticle function used\n");
 93                                                    93     
 94     A[nParticles] = ARem[remnantIndex];            94     A[nParticles] = ARem[remnantIndex];
 95     Z[nParticles] = ZRem[remnantIndex];            95     Z[nParticles] = ZRem[remnantIndex];
 96     S[nParticles] = SRem[remnantIndex];            96     S[nParticles] = SRem[remnantIndex];
 97     J[nParticles] = JRem[remnantIndex];        <<  97     
 98                                                << 
 99                                                << 
100   ParticleSpecies pt(A[nParticles],Z[nParticle     98   ParticleSpecies pt(A[nParticles],Z[nParticles],S[nParticles]);
101   PDGCode[nParticles] = pt.getPDGCode();           99   PDGCode[nParticles] = pt.getPDGCode();
102                                                   100   
103     ParticleBias[nParticles] = Particle::getTo    101     ParticleBias[nParticles] = Particle::getTotalBias();
104     emissionTime[nParticles] = stoppingTime;      102     emissionTime[nParticles] = stoppingTime;
105                                                   103 
106     px[nParticles] = pxRem[remnantIndex];         104     px[nParticles] = pxRem[remnantIndex];
107     py[nParticles] = pyRem[remnantIndex];         105     py[nParticles] = pyRem[remnantIndex];
108     pz[nParticles] = pzRem[remnantIndex];         106     pz[nParticles] = pzRem[remnantIndex];
109                                                   107 
110     const G4double plab = std::sqrt(pxRem[remn    108     const G4double plab = std::sqrt(pxRem[remnantIndex]*pxRem[remnantIndex]
111                                   +pyRem[remna    109                                   +pyRem[remnantIndex]*pyRem[remnantIndex]
112                                   +pzRem[remna    110                                   +pzRem[remnantIndex]*pzRem[remnantIndex]);
113   if(plab != 0.0){                             << 111     G4double pznorm = pzRem[remnantIndex]/plab;
114       G4double pznorm = pzRem[remnantIndex]/pl << 112     if(pznorm>1.)
115       if(pznorm>1.)       pznorm = 1.;         << 113       pznorm = 1.;
116       else if(pznorm<-1.) pznorm = -1.;        << 114     else if(pznorm<-1.)
                                                   >> 115       pznorm = -1.;
117     theta[nParticles] = Math::toDegrees(Math::    116     theta[nParticles] = Math::toDegrees(Math::arcCos(pznorm));
118     phi[nParticles] = Math::toDegrees(std::ata    117     phi[nParticles] = Math::toDegrees(std::atan2(pyRem[remnantIndex],pxRem[remnantIndex]));
                                                   >> 118 
119     EKin[nParticles] = EKinRem[remnantIndex];     119     EKin[nParticles] = EKinRem[remnantIndex];
120   }                                            << 
121   else{                                        << 
122     theta[nParticles] = 0.0;                   << 
123     phi[nParticles] = 0.0;                     << 
124     EKin[nParticles] = 0.0;                    << 
125   }                                            << 
126     origin[nParticles] = -1; // Origin: cascad    120     origin[nParticles] = -1; // Origin: cascade
127 #ifdef INCLXX_IN_GEANT4_MODE                   << 
128     parentResonancePDGCode[nParticles] = 0;  /    121     parentResonancePDGCode[nParticles] = 0;  // No parent resonance
129     parentResonanceID[nParticles] = 0;       /    122     parentResonanceID[nParticles] = 0;       // No parent resonance
130 #endif                                         << 
131     history.push_back(""); // history             123     history.push_back(""); // history
132     nParticles++;                                 124     nParticles++;
133 // assert(history.size()==(unsigned int)nParti    125 // assert(history.size()==(unsigned int)nParticles);
134   }                                               126   }
135 }                                                 127 }
136                                                   128 
137                                                   129