Geant4 Cross Reference |
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Kelsey -- Use reference to G4H << 27 << 28 #include "G4HadLeadBias.hh" 26 #include "G4HadLeadBias.hh" 29 #include "G4Gamma.hh" 27 #include "G4Gamma.hh" 30 #include "G4PionZero.hh" 28 #include "G4PionZero.hh" 31 #include "Randomize.hh" 29 #include "Randomize.hh" 32 #include "G4HadFinalState.hh" 30 #include "G4HadFinalState.hh" 33 31 34 G4HadFinalState * G4HadLeadBias::Bias(G4HadF 32 G4HadFinalState * G4HadLeadBias::Bias(G4HadFinalState * result) 35 { 33 { 36 // G4cerr << "bias enter"<<G4endl; 34 // G4cerr << "bias enter"<<G4endl; 37 G4int nMeson(0), nBaryon(0), npi0(0), ngam 35 G4int nMeson(0), nBaryon(0), npi0(0), ngamma(0), nLepton(0); 38 G4int i(0); 36 G4int i(0); 39 G4int maxE = -1; 37 G4int maxE = -1; 40 G4double emax = 0; 38 G4double emax = 0; 41 if(result->GetStatusChange()==isAlive) 39 if(result->GetStatusChange()==isAlive) 42 { 40 { 43 emax = result->GetEnergyChange(); 41 emax = result->GetEnergyChange(); 44 } 42 } 45 //G4cout << "max energy "<<G4endl; 43 //G4cout << "max energy "<<G4endl; 46 for(i=0;i<static_cast<G4int>(result->GetNu << 44 for(i=0;i<result->GetNumberOfSecondaries();i++) 47 { 45 { 48 if(result->GetSecondary(i)->GetParticle( 46 if(result->GetSecondary(i)->GetParticle()->GetKineticEnergy()>emax) 49 { 47 { 50 maxE = i; 48 maxE = i; 51 emax = result->GetSecondary(i)->GetParticle( 49 emax = result->GetSecondary(i)->GetParticle()->GetKineticEnergy(); 52 } 50 } 53 } 51 } 54 //G4cout <<"loop1"<<G4endl; 52 //G4cout <<"loop1"<<G4endl; 55 for(i=0; i<static_cast<G4int>(result->GetN << 53 for(i=0; i<result->GetNumberOfSecondaries(); i++) 56 { 54 { 57 const G4DynamicParticle* aSecTrack = res 55 const G4DynamicParticle* aSecTrack = result->GetSecondary(i)->GetParticle(); 58 if(i==maxE) 56 if(i==maxE) 59 { 57 { 60 } 58 } 61 else if(aSecTrack->GetDefinition()->GetB 59 else if(aSecTrack->GetDefinition()->GetBaryonNumber()!=0) 62 { 60 { 63 nBaryon++; 61 nBaryon++; 64 } 62 } 65 else if(aSecTrack->GetDefinition()->GetL 63 else if(aSecTrack->GetDefinition()->GetLeptonNumber()!=0) 66 { 64 { 67 nLepton++; 65 nLepton++; 68 } 66 } 69 else if(aSecTrack->GetDefinition()==G4Ga 67 else if(aSecTrack->GetDefinition()==G4Gamma::Gamma()) 70 { 68 { 71 ngamma++; 69 ngamma++; 72 } 70 } 73 else if(aSecTrack->GetDefinition()==G4Pi 71 else if(aSecTrack->GetDefinition()==G4PionZero::PionZero()) 74 { 72 { 75 npi0++; 73 npi0++; 76 } 74 } 77 else 75 else 78 { 76 { 79 nMeson++; 77 nMeson++; 80 } 78 } 81 } 79 } 82 //G4cout << "BiasDebug 1 = "<<result->Get 80 //G4cout << "BiasDebug 1 = "<<result->GetNumberOfSecondaries()<<" " 83 // <<nMeson<<" "<< nBaryon<<" "<< n 81 // <<nMeson<<" "<< nBaryon<<" "<< npi0<<" "<< ngamma<<" "<< nLepton<<G4endl; 84 G4double mesonWeight = nMeson; 82 G4double mesonWeight = nMeson; 85 G4double baryonWeight = nBaryon; 83 G4double baryonWeight = nBaryon; 86 G4double gammaWeight = ngamma; 84 G4double gammaWeight = ngamma; 87 G4double npi0Weight = npi0; 85 G4double npi0Weight = npi0; 88 G4double leptonWeight = nLepton; 86 G4double leptonWeight = nLepton; 89 G4int randomMeson = static_cast<G4int>((nM 87 G4int randomMeson = static_cast<G4int>((nMeson+1)*G4UniformRand()); 90 G4int randomBaryon = static_cast<G4int>((n 88 G4int randomBaryon = static_cast<G4int>((nBaryon+1)*G4UniformRand()); 91 G4int randomGamma = static_cast<G4int>((ng 89 G4int randomGamma = static_cast<G4int>((ngamma+1)*G4UniformRand()); 92 G4int randomPi0 = static_cast<G4int>((npi0 90 G4int randomPi0 = static_cast<G4int>((npi0+1)*G4UniformRand()); 93 G4int randomLepton = static_cast<G4int>((n 91 G4int randomLepton = static_cast<G4int>((nLepton+1)*G4UniformRand()); 94 92 95 std::vector<G4HadSecondary> buffer; << 93 std::vector<G4HadSecondary *> buffer; 96 G4int cMeson(0), cBaryon(0), cpi0(0), cgam 94 G4int cMeson(0), cBaryon(0), cpi0(0), cgamma(0), cLepton(0); 97 for(i=0; i<static_cast<G4int>(result->GetN << 95 for(i=0; i<result->GetNumberOfSecondaries(); i++) 98 { 96 { 99 G4bool aCatch = false; 97 G4bool aCatch = false; 100 G4double weight = 1; 98 G4double weight = 1; 101 const G4HadSecondary* aSecTrack = result << 99 G4HadSecondary * aSecTrack = result->GetSecondary(i); 102 G4ParticleDefinition* aSecDef = aSecTrac << 103 if(i==maxE) 100 if(i==maxE) 104 { 101 { 105 aCatch = true; 102 aCatch = true; 106 weight = 1; 103 weight = 1; 107 } 104 } 108 else if(aSecDef->GetBaryonNumber()!=0) << 105 else if(aSecTrack->GetParticle()->GetDefinition()->GetBaryonNumber()!=0) 109 { 106 { 110 if(++cBaryon==randomBaryon) 107 if(++cBaryon==randomBaryon) 111 { 108 { 112 aCatch = true; 109 aCatch = true; 113 weight = baryonWeight; 110 weight = baryonWeight; 114 } 111 } 115 } 112 } 116 else if(aSecDef->GetLeptonNumber()!=0) << 113 else if(aSecTrack->GetParticle()->GetDefinition()->GetLeptonNumber()!=0) 117 { 114 { 118 if(++cLepton==randomLepton) 115 if(++cLepton==randomLepton) 119 { 116 { 120 aCatch = true; 117 aCatch = true; 121 weight = leptonWeight; 118 weight = leptonWeight; 122 } 119 } 123 } 120 } 124 else if(aSecDef==G4Gamma::Gamma()) << 121 else if(aSecTrack->GetParticle()->GetDefinition()==G4Gamma::Gamma()) 125 { 122 { 126 if(++cgamma==randomGamma) 123 if(++cgamma==randomGamma) 127 { 124 { 128 aCatch = true; 125 aCatch = true; 129 weight = gammaWeight; 126 weight = gammaWeight; 130 } 127 } 131 } 128 } 132 else if(aSecDef==G4PionZero::PionZero()) << 129 else if(aSecTrack->GetParticle()->GetDefinition()==G4PionZero::PionZero()) 133 { 130 { 134 if(++cpi0==randomPi0) 131 if(++cpi0==randomPi0) 135 { 132 { 136 aCatch = true; 133 aCatch = true; 137 weight = npi0Weight; 134 weight = npi0Weight; 138 } 135 } 139 } 136 } 140 else 137 else 141 { 138 { 142 if(++cMeson==randomMeson) 139 if(++cMeson==randomMeson) 143 { 140 { 144 aCatch = true; 141 aCatch = true; 145 weight = mesonWeight; 142 weight = mesonWeight; 146 } 143 } 147 } 144 } 148 if(aCatch) 145 if(aCatch) 149 { 146 { 150 buffer.push_back(*aSecTrack); << 147 buffer.push_back(aSecTrack); 151 buffer.back().SetWeight(aSecTrack->GetWeight << 148 aSecTrack->SetWeight(aSecTrack->GetWeight()*weight); 152 } 149 } 153 else 150 else 154 { 151 { 155 delete aSecTrack; 152 delete aSecTrack; 156 } 153 } 157 } 154 } 158 result->ClearSecondaries(); 155 result->ClearSecondaries(); 159 // G4cerr << "pre"<<G4endl; 156 // G4cerr << "pre"<<G4endl; 160 result->AddSecondaries(buffer); << 157 for(i=0;i<static_cast<G4int>(buffer.size());i++) >> 158 { >> 159 result->AddSecondary(buffer[i]); >> 160 } 161 // G4cerr << "bias exit"<<G4endl; 161 // G4cerr << "bias exit"<<G4endl; 162 162 163 return result; 163 return result; 164 } 164 } 165 165