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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 /// \file electromagnetic/TestEm9/src/HistoMan 26 /// \file electromagnetic/TestEm9/src/HistoManager.cc 27 /// \brief Implementation of the HistoManager 27 /// \brief Implementation of the HistoManager class 28 // 28 // 29 // << 30 //-------------------------------------------- 29 //--------------------------------------------------------------------------- 31 // 30 // 32 // ClassName: HistoManager 31 // ClassName: HistoManager 33 // 32 // 34 // 33 // 35 // Author: V.Ivanchenko 30/01/01 34 // Author: V.Ivanchenko 30/01/01 36 // 35 // 37 //-------------------------------------------- 36 //---------------------------------------------------------------------------- 38 // 37 // 39 38 40 //....oooOO0OOooo........oooOO0OOooo........oo 39 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 41 //....oooOO0OOooo........oooOO0OOooo........oo 40 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 42 41 43 #include "HistoManager.hh" 42 #include "HistoManager.hh" 44 << 43 #include "G4MaterialCutsCouple.hh" 45 #include "EmAcceptance.hh" << 46 #include "Histo.hh" << 47 << 48 #include "G4Electron.hh" << 49 #include "G4EmProcessSubType.hh" 44 #include "G4EmProcessSubType.hh" >> 45 #include "G4VProcess.hh" >> 46 #include "G4VEmProcess.hh" >> 47 #include "G4VEnergyLossProcess.hh" >> 48 #include "G4UnitsTable.hh" >> 49 #include "Histo.hh" >> 50 #include "EmAcceptance.hh" 50 #include "G4Gamma.hh" 51 #include "G4Gamma.hh" 51 #include "G4GammaGeneralProcess.hh" << 52 #include "G4Electron.hh" 52 #include "G4MaterialCutsCouple.hh" << 53 #include "G4Positron.hh" 53 #include "G4Positron.hh" 54 #include "G4SystemOfUnits.hh" 54 #include "G4SystemOfUnits.hh" 55 #include "G4UnitsTable.hh" << 56 #include "G4VEmProcess.hh" << 57 #include "G4VEnergyLossProcess.hh" << 58 #include "G4VProcess.hh" << 59 55 60 //....oooOO0OOooo........oooOO0OOooo........oo 56 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 61 57 62 HistoManager* HistoManager::fManager = nullptr << 58 HistoManager* HistoManager::fManager = 0; 63 59 64 //....oooOO0OOooo........oooOO0OOooo........oo 60 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 65 61 66 HistoManager* HistoManager::GetPointer() 62 HistoManager* HistoManager::GetPointer() 67 { 63 { 68 if (nullptr == fManager) { << 64 if(!fManager) { 69 fManager = new HistoManager(); 65 fManager = new HistoManager(); 70 } 66 } 71 return fManager; 67 return fManager; 72 } 68 } 73 69 74 //....oooOO0OOooo........oooOO0OOooo........oo 70 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 75 71 76 HistoManager::HistoManager() 72 HistoManager::HistoManager() 77 : fGamma(G4Gamma::Gamma()), << 78 fElectron(G4Electron::Electron()), << 79 fPositron(G4Positron::Positron()), << 80 fHisto(new Histo()) << 81 { 73 { 82 fVerbose = 1; 74 fVerbose = 1; 83 fEvt1 = -1; << 75 fEvt1 = -1; 84 fEvt2 = -1; << 76 fEvt2 = -1; 85 fNmax = 3; << 77 fNmax = 3; 86 fMaxEnergy = 50.0 * MeV; << 78 fMaxEnergy = 50.0*MeV; 87 fBeamEnergy = 1. * GeV; << 79 fBeamEnergy= 1.*GeV; 88 fMaxEnergyAbs = 10. * MeV; << 80 fMaxEnergyAbs = 10.*MeV; 89 fBinsE = 100; 81 fBinsE = 100; 90 fBinsEA = 40; << 82 fBinsEA= 40; 91 fBinsED = 100; << 83 fBinsED= 100; 92 fNHisto = 13; 84 fNHisto = 13; 93 85 94 BookHisto(); << 86 fHisto = new Histo(); >> 87 bookHisto(); >> 88 >> 89 fGamma = G4Gamma::Gamma(); >> 90 fElectron = G4Electron::Electron(); >> 91 fPositron = G4Positron::Positron(); 95 } 92 } 96 93 97 //....oooOO0OOooo........oooOO0OOooo........oo 94 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 98 95 99 HistoManager::~HistoManager() 96 HistoManager::~HistoManager() 100 { 97 { 101 delete fHisto; 98 delete fHisto; 102 } 99 } 103 100 104 //....oooOO0OOooo........oooOO0OOooo........oo 101 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 105 102 106 void HistoManager::BookHisto() << 103 void HistoManager::bookHisto() 107 { 104 { 108 fHisto->Add1D("10", "Evis/E0 in central crys << 105 fHisto->Add1D("10","Evis/E0 in central crystal",fBinsED,0.0,1,1.0); 109 fHisto->Add1D("11", "Evis/E0 in 3x3", fBinsE << 106 fHisto->Add1D("11","Evis/E0 in 3x3",fBinsED,0.0,1.0,1.0); 110 fHisto->Add1D("12", "Evis/E0 in 5x5", fBinsE << 107 fHisto->Add1D("12","Evis/E0 in 5x5",fBinsED,0.0,1.0,1.0); 111 fHisto->Add1D("13", "Energy (MeV) of delta-e << 108 fHisto->Add1D("13","Energy (MeV) of delta-electrons", 112 fHisto->Add1D("14", "Energy (MeV) of gammas" << 109 fBinsE,0.0,fMaxEnergy,MeV); 113 fHisto->Add1D("15", "Energy (MeV) in abs1", << 110 fHisto->Add1D("14","Energy (MeV) of gammas",fBinsE,0.0,fMaxEnergy,MeV); 114 fHisto->Add1D("16", "Energy (MeV) in abs2", << 111 fHisto->Add1D("15","Energy (MeV) in abs1",fBinsEA,0.0,fMaxEnergyAbs,MeV); 115 fHisto->Add1D("17", "Energy (MeV) in abs3", << 112 fHisto->Add1D("16","Energy (MeV) in abs2",fBinsEA,0.0,fMaxEnergyAbs,MeV); 116 fHisto->Add1D("18", "Energy (MeV) in abs4", << 113 fHisto->Add1D("17","Energy (MeV) in abs3",fBinsEA,0.0,fMaxEnergyAbs,MeV); 117 fHisto->Add1D("19", "Number of vertex hits", << 114 fHisto->Add1D("18","Energy (MeV) in abs4",fBinsEA,0.0,fMaxEnergyAbs,MeV); 118 fHisto->Add1D("20", "E1/E9 Ratio", fBinsED, << 115 fHisto->Add1D("19","Number of vertex hits",20,-0.5,19.5,1.0); 119 fHisto->Add1D("21", "E1/E25 Ratio", fBinsED, << 116 fHisto->Add1D("20","E1/E9 Ratio",fBinsED,0.0,1,1.0); 120 fHisto->Add1D("22", "E9/E25 Ratio", fBinsED, << 117 fHisto->Add1D("21","E1/E25 Ratio",fBinsED,0.0,1.0,1.0); >> 118 fHisto->Add1D("22","E9/E25 Ratio",fBinsED,0.0,1.0,1.0); 121 } 119 } 122 120 123 //....oooOO0OOooo........oooOO0OOooo........oo 121 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 124 122 125 void HistoManager::BeginOfRun() 123 void HistoManager::BeginOfRun() 126 { 124 { 127 // initilise scoring 125 // initilise scoring 128 fEvt = 0; << 126 fEvt = 0; 129 fElec = 0; 127 fElec = 0; 130 fPosit = 0; << 128 fPosit= 0; 131 fGam = 0; << 129 fGam = 0; 132 fStep = 0; 130 fStep = 0; 133 fLowe = 0; 131 fLowe = 0; 134 132 135 for (G4int i = 0; i < 6; i++) { << 133 for(G4int i=0; i<6; i++) { 136 fStat[i] = 0; 134 fStat[i] = 0; 137 fEdep[i] = 0.0; 135 fEdep[i] = 0.0; 138 fErms[i] = 0.0; 136 fErms[i] = 0.0; 139 if (i < 3) { << 137 if(i < 3) { 140 fEdeptr[i] = 0.0; 138 fEdeptr[i] = 0.0; 141 fErmstr[i] = 0.0; 139 fErmstr[i] = 0.0; 142 } 140 } 143 } 141 } 144 142 145 // initialise counters 143 // initialise counters 146 fBrem.resize(93, 0.0); << 144 fBrem.resize(93,0.0); 147 fPhot.resize(93, 0.0); << 145 fPhot.resize(93,0.0); 148 fComp.resize(93, 0.0); << 146 fComp.resize(93,0.0); 149 fConv.resize(93, 0.0); << 147 fConv.resize(93,0.0); 150 148 151 // initialise acceptance - by default is not 149 // initialise acceptance - by default is not applied 152 for (G4int i = 0; i < fNmax; i++) { << 150 for(G4int i=0; i<fNmax; i++) { 153 fEdeptrue[i] = 1.0; 151 fEdeptrue[i] = 1.0; 154 fRmstrue[i] = 1.0; << 152 fRmstrue[i] = 1.0; 155 fLimittrue[i] = 10.; << 153 fLimittrue[i]= 10.; 156 } 154 } 157 155 158 if (fHisto->IsActive()) { << 156 if(fHisto->IsActive()) { 159 for (G4int i = 0; i < fNHisto; ++i) { << 157 for(G4int i=0; i<fNHisto; ++i) {fHisto->Activate(i, true); } 160 fHisto->Activate(i, true); << 161 } << 162 fHisto->Book(); 158 fHisto->Book(); 163 159 164 if (fVerbose > 0) { << 160 if(fVerbose > 0) { 165 G4cout << "HistoManager: Histograms are << 161 G4cout << "HistoManager: Histograms are booked and run has been started" >> 162 << G4endl; 166 } 163 } 167 } 164 } 168 } 165 } 169 166 170 //....oooOO0OOooo........oooOO0OOooo........oo 167 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 171 168 172 void HistoManager::EndOfRun(G4int runID) 169 void HistoManager::EndOfRun(G4int runID) 173 { 170 { 174 G4cout << "HistoManager: End of run actions << 171 >> 172 G4cout << "HistoManager: End of run actions are started RunID# " >> 173 << runID << G4endl; 175 G4String nam[6] = {"1x1", "3x3", "5x5", "E1/ 174 G4String nam[6] = {"1x1", "3x3", "5x5", "E1/E9 ", "E1/E25", "E9/E25"}; 176 175 177 // average 176 // average 178 177 179 G4cout << "================================= << 178 G4cout<<"=================================================================" >> 179 <<G4endl; 180 G4double x = (G4double)fEvt; 180 G4double x = (G4double)fEvt; 181 if (fEvt > 0) x = 1.0 / x; << 181 if(fEvt > 0) x = 1.0/x; 182 G4int j; 182 G4int j; 183 for (j = 0; j < fNmax; j++) { << 183 for(j=0; j<fNmax; j++) { >> 184 184 // total mean 185 // total mean 185 fEdep[j] *= x; 186 fEdep[j] *= x; 186 G4double y = fErms[j] * x - fEdep[j] * fEd << 187 G4double y = fErms[j]*x - fEdep[j]*fEdep[j]; 187 if (y < 0.0) y = 0.0; << 188 if(y < 0.0) y = 0.0; 188 fErms[j] = std::sqrt(y); 189 fErms[j] = std::sqrt(y); 189 190 190 // trancated mean 191 // trancated mean 191 G4double xx = G4double(fStat[j]); 192 G4double xx = G4double(fStat[j]); 192 if (xx > 0.0) xx = 1.0 / xx; << 193 if(xx > 0.0) xx = 1.0/xx; 193 fEdeptr[j] *= xx; 194 fEdeptr[j] *= xx; 194 y = fErmstr[j] * xx - fEdeptr[j] * fEdeptr << 195 y = fErmstr[j]*xx - fEdeptr[j]*fEdeptr[j]; 195 if (y < 0.0) y = 0.0; << 196 if(y < 0.0) y = 0.0; 196 fErmstr[j] = std::sqrt(y); 197 fErmstr[j] = std::sqrt(y); 197 } 198 } 198 G4double xe = x * (G4double)fElec; << 199 G4double xe = x*(G4double)fElec; 199 G4double xg = x * (G4double)fGam; << 200 G4double xg = x*(G4double)fGam; 200 G4double xp = x * (G4double)fPosit; << 201 G4double xp = x*(G4double)fPosit; 201 G4double xs = x * fStep; << 202 G4double xs = x*fStep; 202 203 203 G4double f = 100. * std::sqrt(fBeamEnergy / << 204 G4double f = 100.*std::sqrt(fBeamEnergy/GeV); 204 205 205 G4cout << "Number of events " << << 206 G4cout << "Number of events " << fEvt <<G4endl; 206 G4cout << std::setprecision(4) << "Average n 207 G4cout << std::setprecision(4) << "Average number of e- " << xe << G4endl; 207 G4cout << std::setprecision(4) << "Average n 208 G4cout << std::setprecision(4) << "Average number of gamma " << xg << G4endl; 208 G4cout << std::setprecision(4) << "Average n 209 G4cout << std::setprecision(4) << "Average number of e+ " << xp << G4endl; 209 G4cout << std::setprecision(4) << "Average n 210 G4cout << std::setprecision(4) << "Average number of steps " << xs << G4endl; 210 << 211 211 for (j = 0; j < 3; ++j) { << 212 for(j=0; j<3; j++) { 212 G4double ex = fEdeptr[j]; 213 G4double ex = fEdeptr[j]; 213 G4double sx = fErmstr[j]; 214 G4double sx = fErmstr[j]; 214 G4double xx = G4double(fStat[j]); << 215 G4double xx= G4double(fStat[j]); 215 if (xx > 0.0) xx = 1.0 / xx; << 216 if(xx > 0.0) xx = 1.0/xx; 216 G4double r = sx * std::sqrt(xx); << 217 G4double r = sx*std::sqrt(xx); 217 G4cout << std::setprecision(4) << "Edep " << 218 G4cout << std::setprecision(4) << "Edep " << nam[j] 218 << r; << 219 << " = " << ex 219 if (ex > 0.1) G4cout << " res= " << f * << 220 << " +- " << r; >> 221 if(ex > 0.1) G4cout << " res= " << f*sx/ex << " % " << fStat[j]; 220 G4cout << G4endl; 222 G4cout << G4endl; 221 } 223 } 222 if (fLimittrue[0] < 10. || fLimittrue[1] < 1 << 224 if(fLimittrue[0] < 10. || fLimittrue[1] < 10. || fLimittrue[2] < 10.) { 223 G4cout << "=========== Mean values withou << 225 G4cout<<"=========== Mean values without trancating ====================="<<G4endl; 224 for (j = 0; j < fNmax; j++) { << 226 for(j=0; j<fNmax; j++) { 225 G4double ex = fEdep[j]; 227 G4double ex = fEdep[j]; 226 G4double sx = fErms[j]; 228 G4double sx = fErms[j]; 227 G4double rx = sx * std::sqrt(x); << 229 G4double rx = sx*std::sqrt(x); 228 G4cout << std::setprecision(4) << "Edep << 230 G4cout << std::setprecision(4) << "Edep " << nam[j] 229 << rx; << 231 << " = " << ex 230 if (ex > 0.0) G4cout << " res= " << f << 232 << " +- " << rx; >> 233 if(ex > 0.0) G4cout << " res= " << f*sx/ex << " %"; 231 G4cout << G4endl; 234 G4cout << G4endl; 232 } 235 } 233 } 236 } 234 G4cout << "=========== Ratios without tranc << 237 G4cout<<"=========== Ratios without trancating ==========================="<<G4endl; 235 for (j = 3; j < 6; ++j) { << 238 for(j=3; j<6; j++) { 236 G4double e = fEdep[j]; 239 G4double e = fEdep[j]; 237 G4double xx = G4double(fStat[j]); << 240 G4double xx= G4double(fStat[j]); 238 if (xx > 0.0) xx = 1.0 / xx; << 241 if(xx > 0.0) xx = 1.0/xx; 239 e *= xx; 242 e *= xx; 240 G4double y = fErms[j] * xx - e * e; << 243 G4double y = fErms[j]*xx - e*e; 241 G4double r = 0.0; 244 G4double r = 0.0; 242 if (y > 0.0) r = std::sqrt(y * xx); << 245 if(y > 0.0) r = std::sqrt(y*xx); 243 G4cout << " " << nam[j] << " = << 246 G4cout << " " << nam[j] << " = " << e >> 247 << " +- " << r; 244 G4cout << G4endl; 248 G4cout << G4endl; 245 } 249 } 246 G4cout << std::setprecision(4) << "Beam Ener << 250 G4cout << std::setprecision(4) << "Beam Energy " << fBeamEnergy/GeV 247 << G4endl; << 251 << " GeV" << G4endl; 248 if (fLowe > 0) G4cout << "Number of events E << 252 if(fLowe > 0) G4cout << "Number of events E/E0<0.8 " << fLowe << G4endl; 249 G4cout << "================================= << 253 G4cout<<"=================================================================="<<G4endl; 250 G4cout << G4endl; << 254 G4cout<<G4endl; 251 255 252 // normalise histograms 256 // normalise histograms 253 if (fHisto->IsActive()) { << 257 if(fHisto->IsActive()) { 254 for (G4int i = 0; i < fNHisto; ++i) { << 258 for(G4int i=0; i<fNHisto; i++) { 255 fHisto->ScaleH1(i, x); << 259 fHisto->ScaleH1(i,x); 256 } 260 } 257 fHisto->Save(); 261 fHisto->Save(); 258 } 262 } 259 if (0 < runID) { << 263 if(0 < runID) { return; } 260 return; << 261 } << 262 264 263 // Acceptance only for the first run 265 // Acceptance only for the first run 264 EmAcceptance acc; 266 EmAcceptance acc; 265 G4bool isStarted = false; 267 G4bool isStarted = false; 266 for (j = 0; j < fNmax; j++) { << 268 for (j=0; j<fNmax; j++) { >> 269 267 G4double ltrue = fLimittrue[j]; 270 G4double ltrue = fLimittrue[j]; 268 if (ltrue < DBL_MAX) { 271 if (ltrue < DBL_MAX) { 269 if (!isStarted) { 272 if (!isStarted) { 270 acc.BeginOfAcceptance("Crystal Calorim << 273 acc.BeginOfAcceptance("Crystal Calorimeter",fEvt); 271 isStarted = true; 274 isStarted = true; 272 } 275 } 273 G4double etrue = fEdeptrue[j]; 276 G4double etrue = fEdeptrue[j]; 274 G4double rtrue = fRmstrue[j]; 277 G4double rtrue = fRmstrue[j]; 275 acc.EmAcceptanceGauss("Edep" + nam[j], f << 278 acc.EmAcceptanceGauss("Edep"+nam[j],fEvt,fEdeptr[j],etrue,rtrue,ltrue); 276 acc.EmAcceptanceGauss("Erms" + nam[j], f << 279 acc.EmAcceptanceGauss("Erms"+nam[j],fEvt,fErmstr[j],rtrue,rtrue,2.0*ltrue); 277 } 280 } 278 } 281 } 279 if (isStarted) acc.EndOfAcceptance(); << 282 if(isStarted) acc.EndOfAcceptance(); 280 283 281 // atom frequency 284 // atom frequency 282 G4cout << " Z bremsstrahlung photoeffect 285 G4cout << " Z bremsstrahlung photoeffect compton conversion" << G4endl; 283 for (j = 1; j < 93; ++j) { << 286 for(j=1; j<93; ++j) { 284 G4int n1 = G4int(fBrem[j] * x); << 287 G4int n1 = G4int(fBrem[j]*x); 285 G4int n2 = G4int(fPhot[j] * x); << 288 G4int n2 = G4int(fPhot[j]*x); 286 G4int n3 = G4int(fComp[j] * x); << 289 G4int n3 = G4int(fComp[j]*x); 287 G4int n4 = G4int(fConv[j] * x); << 290 G4int n4 = G4int(fConv[j]*x); 288 if (n1 + n2 + n3 + n4 > 0) { << 291 if(n1 + n2 + n3 + n4 > 0) { 289 G4cout << std::setw(4) << j << std::setw << 292 G4cout << std::setw(4) << j << std::setw(12) << n1 << std::setw(12) << n2 290 << n3 << std::setw(12) << n4 << G << 293 << std::setw(12) << n3 << std::setw(12) << n4 << G4endl; 291 } 294 } 292 } 295 } 293 } 296 } 294 297 295 //....oooOO0OOooo........oooOO0OOooo........oo 298 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 296 299 297 void HistoManager::BeginOfEvent() 300 void HistoManager::BeginOfEvent() 298 { 301 { 299 ++fEvt; 302 ++fEvt; 300 303 301 fEabs1 = 0.0; << 304 fEabs1 = 0.0; 302 fEabs2 = 0.0; << 305 fEabs2 = 0.0; 303 fEabs3 = 0.0; << 306 fEabs3 = 0.0; 304 fEabs4 = 0.0; << 307 fEabs4 = 0.0; 305 fEvertex.clear(); 308 fEvertex.clear(); 306 fNvertex.clear(); 309 fNvertex.clear(); 307 for (G4int i = 0; i < 25; i++) { << 310 for (G4int i=0; i<25; i++) { 308 fE[i] = 0.0; 311 fE[i] = 0.0; 309 } 312 } 310 } 313 } 311 314 312 //....oooOO0OOooo........oooOO0OOooo........oo 315 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 313 316 314 void HistoManager::EndOfEvent() 317 void HistoManager::EndOfEvent() 315 { 318 { 316 G4double e9 = 0.0; 319 G4double e9 = 0.0; 317 G4double e25 = 0.0; << 320 G4double e25= 0.0; 318 for (G4int i = 0; i < 25; i++) { << 321 for (G4int i=0; i<25; i++) { 319 fE[i] /= fBeamEnergy; 322 fE[i] /= fBeamEnergy; 320 e25 += fE[i]; 323 e25 += fE[i]; 321 if ((6 <= i && 8 >= i) || (11 <= i && 13 > << 324 if( ( 6<=i && 8>=i) || (11<=i && 13>=i) || (16<=i && 18>=i)) e9 += fE[i]; 322 } 325 } 323 326 324 if (1 < fVerbose && e25 < 0.8) { << 327 if(1 < fVerbose && e25 < 0.8) { 325 ++fLowe; 328 ++fLowe; 326 G4cout << "### in the event# " << fEvt << 329 G4cout << "### in the event# " << fEvt << " E25= " << e25 << G4endl; 327 } 330 } 328 331 329 // compute ratios 332 // compute ratios 330 G4double e0 = fE[12]; 333 G4double e0 = fE[12]; 331 G4double e19 = 0.0; << 334 G4double e19 = 0.0; 332 G4double e125 = 0.0; 335 G4double e125 = 0.0; 333 G4double e925 = 0.0; 336 G4double e925 = 0.0; 334 if (e9 > 0.0) { << 337 if(e9 > 0.0) { 335 e19 = e0 / e9; << 338 e19 = e0/e9; 336 e125 = e0 / e25; << 339 e125 = e0/e25; 337 e925 = e9 / e25; << 340 e925 = e9/e25; 338 fEdep[3] += e19; 341 fEdep[3] += e19; 339 fErms[3] += e19 * e19; << 342 fErms[3] += e19*e19; 340 fEdep[4] += e125; 343 fEdep[4] += e125; 341 fErms[4] += e125 * e125; << 344 fErms[4] += e125*e125; 342 fEdep[5] += e925; 345 fEdep[5] += e925; 343 fErms[5] += e925 * e925; << 346 fErms[5] += e925*e925; 344 fStat[3] += 1; 347 fStat[3] += 1; 345 fStat[4] += 1; 348 fStat[4] += 1; 346 fStat[5] += 1; 349 fStat[5] += 1; 347 } 350 } 348 351 349 // Fill histo 352 // Fill histo 350 fHisto->Fill(0, e0, 1.0); << 353 fHisto->Fill(0,e0,1.0); 351 fHisto->Fill(1, e9, 1.0); << 354 fHisto->Fill(1,e9,1.0); 352 fHisto->Fill(2, e25, 1.0); << 355 fHisto->Fill(2,e25,1.0); 353 fHisto->Fill(5, fEabs1, 1.0); << 356 fHisto->Fill(5,fEabs1,1.0); 354 fHisto->Fill(6, fEabs2, 1.0); << 357 fHisto->Fill(6,fEabs2,1.0); 355 fHisto->Fill(7, fEabs3, 1.0); << 358 fHisto->Fill(7,fEabs3,1.0); 356 fHisto->Fill(8, fEabs4, 1.0); << 359 fHisto->Fill(8,fEabs4,1.0); 357 fHisto->Fill(9, G4double(fNvertex.size()), 1 << 360 fHisto->Fill(9,G4double(fNvertex.size()),1.0); 358 fHisto->Fill(10, e19, 1.0); << 361 fHisto->Fill(10,e19,1.0); 359 fHisto->Fill(11, e125, 1.0); << 362 fHisto->Fill(11,e125,1.0); 360 fHisto->Fill(12, e925, 1.0); << 363 fHisto->Fill(12,e925,1.0); 361 364 362 // compute sums 365 // compute sums 363 fEdep[0] += e0; 366 fEdep[0] += e0; 364 fErms[0] += e0 * e0; << 367 fErms[0] += e0*e0; 365 fEdep[1] += e9; 368 fEdep[1] += e9; 366 fErms[1] += e9 * e9; << 369 fErms[1] += e9*e9; 367 fEdep[2] += e25; 370 fEdep[2] += e25; 368 fErms[2] += e25 * e25; << 371 fErms[2] += e25*e25; 369 372 370 // trancated mean 373 // trancated mean 371 if (std::abs(e0 - fEdeptrue[0]) < fRmstrue[0 << 374 if(std::abs(e0-fEdeptrue[0])<fRmstrue[0]*fLimittrue[0]) { 372 fStat[0] += 1; 375 fStat[0] += 1; 373 fEdeptr[0] += e0; 376 fEdeptr[0] += e0; 374 fErmstr[0] += e0 * e0; << 377 fErmstr[0] += e0*e0; 375 } 378 } 376 if (std::abs(e9 - fEdeptrue[1]) < fRmstrue[1 << 379 if(std::abs(e9-fEdeptrue[1])<fRmstrue[1]*fLimittrue[1]) { 377 fStat[1] += 1; 380 fStat[1] += 1; 378 fEdeptr[1] += e9; 381 fEdeptr[1] += e9; 379 fErmstr[1] += e9 * e9; << 382 fErmstr[1] += e9*e9; 380 } 383 } 381 if (std::abs(e25 - fEdeptrue[2]) < fRmstrue[ << 384 if(std::abs(e25-fEdeptrue[2])<fRmstrue[2]*fLimittrue[2]) { 382 fStat[2] += 1; 385 fStat[2] += 1; 383 fEdeptr[2] += e25; 386 fEdeptr[2] += e25; 384 fErmstr[2] += e25 * e25; << 387 fErmstr[2] += e25*e25; 385 } 388 } 386 } 389 } 387 390 388 //....oooOO0OOooo........oooOO0OOooo........oo 391 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 389 392 390 void HistoManager::ScoreNewTrack(const G4Track 393 void HistoManager::ScoreNewTrack(const G4Track* aTrack) 391 { 394 { 392 // Save primary parameters << 395 //Save primary parameters 393 ResetTrackLength(); 396 ResetTrackLength(); 394 const G4ParticleDefinition* particle = aTrac 397 const G4ParticleDefinition* particle = aTrack->GetDefinition(); 395 const G4DynamicParticle* dynParticle = aTrac 398 const G4DynamicParticle* dynParticle = aTrack->GetDynamicParticle(); 396 399 397 G4int pid = aTrack->GetParentID(); 400 G4int pid = aTrack->GetParentID(); 398 G4double kinE = dynParticle->GetKineticEnerg 401 G4double kinE = dynParticle->GetKineticEnergy(); 399 G4ThreeVector pos = aTrack->GetVertexPositio 402 G4ThreeVector pos = aTrack->GetVertexPosition(); 400 403 401 // primary 404 // primary 402 if (0 == pid) { << 405 if(0 == pid) { >> 406 403 G4double mass = 0.0; 407 G4double mass = 0.0; 404 if (particle) { << 408 if(particle) { 405 mass = particle->GetPDGMass(); 409 mass = particle->GetPDGMass(); 406 } 410 } 407 411 408 G4ThreeVector dir = dynParticle->GetMoment 412 G4ThreeVector dir = dynParticle->GetMomentumDirection(); 409 if (1 < fVerbose) { << 413 if(1 < fVerbose) { 410 G4cout << "TrackingAction: Primary kinE( << 414 G4cout << "TrackingAction: Primary kinE(MeV)= " << kinE/MeV 411 << "; pos= " << pos << "; dir= " << 415 << "; m(MeV)= " << mass/MeV >> 416 << "; pos= " << pos << "; dir= " << dir << G4endl; 412 } 417 } 413 418 414 // secondary 419 // secondary 415 } << 420 } else { 416 else { << 417 const G4VProcess* proc = aTrack->GetCreato 421 const G4VProcess* proc = aTrack->GetCreatorProcess(); 418 G4int type = proc->GetProcessSubType(); 422 G4int type = proc->GetProcessSubType(); 419 << 423 if(type == fBremsstrahlung) { 420 if (type == fBremsstrahlung) { << 424 const G4Element* elm = 421 auto elm = static_cast<const G4VEnergyLo << 425 static_cast<const G4VEnergyLossProcess*>(proc)->GetCurrentElement(); 422 if (nullptr != elm) { << 426 if(elm) { 423 G4int Z = elm->GetZasInt(); << 427 G4int Z = G4lrint(elm->GetZ()); 424 if (Z > 0 && Z < 93) { << 428 if(Z > 0 && Z < 93) { fBrem[Z] += 1.0; } 425 fBrem[Z] += 1.0; << 426 } << 427 } 429 } 428 } << 430 } else if(type == fPhotoElectricEffect) { 429 else if (type == fPhotoElectricEffect) { << 431 const G4Element* elm = 430 auto elm = static_cast<const G4VEmProces << 432 static_cast<const G4VEmProcess*>(proc)->GetCurrentElement(); 431 if (nullptr != elm) { << 433 if(elm) { 432 G4int Z = elm->GetZasInt(); << 434 G4int Z = G4lrint(elm->GetZ()); 433 if (Z > 0 && Z < 93) { << 435 if(Z > 0 && Z < 93) { fPhot[Z] += 1.0; } 434 fPhot[Z] += 1.0; << 435 } << 436 } 436 } 437 } << 437 } else if(type == fGammaConversion) { 438 else if (type == fGammaConversion) { << 438 const G4Element* elm = 439 auto elm = static_cast<const G4VEmProces << 439 static_cast<const G4VEmProcess*>(proc)->GetCurrentElement(); 440 if (nullptr != elm) { << 440 if(elm) { 441 G4int Z = elm->GetZasInt(); << 441 G4int Z = G4lrint(elm->GetZ()); 442 if (Z > 0 && Z < 93) { << 442 if(Z > 0 && Z < 93) { fConv[Z] += 1.0; } 443 fConv[Z] += 1.0; << 444 } << 445 } 443 } 446 } << 444 } else if(type == fComptonScattering) { 447 else if (type == fComptonScattering) { << 445 const G4Element* elm = 448 auto elm = static_cast<const G4VEmProces << 446 static_cast<const G4VEmProcess*>(proc)->GetCurrentElement(); 449 if (nullptr != elm) { << 447 if(elm) { 450 G4int Z = elm->GetZasInt(); << 448 G4int Z = G4lrint(elm->GetZ()); 451 if (Z > 0 && Z < 93) { << 449 if(Z > 0 && Z < 93) { fComp[Z] += 1.0; } 452 fComp[Z] += 1.0; << 453 } << 454 } 450 } 455 } 451 } 456 452 457 // delta-electron 453 // delta-electron 458 if (particle == fElectron) { 454 if (particle == fElectron) { 459 if (1 < fVerbose) { << 455 if(1 < fVerbose) { 460 G4cout << "TrackingAction: Secondary e 456 G4cout << "TrackingAction: Secondary electron " << G4endl; 461 } 457 } 462 AddDeltaElectron(dynParticle); 458 AddDeltaElectron(dynParticle); 463 } << 459 464 else if (particle == fPositron) { << 460 } else if (particle == fPositron) { 465 if (1 < fVerbose) { << 461 if(1 < fVerbose) { 466 G4cout << "TrackingAction: Secondary p 462 G4cout << "TrackingAction: Secondary positron " << G4endl; 467 } 463 } 468 AddPositron(dynParticle); 464 AddPositron(dynParticle); 469 } << 465 470 else if (particle == fGamma) { << 466 } else if (particle == fGamma) { 471 if (1 < fVerbose) { << 467 if(1 < fVerbose) { 472 G4cout << "TrackingAction: Secondary g << 468 G4cout << "TrackingAction: Secondary gamma; parentID= " << pid >> 469 << " E= " << kinE << G4endl; 473 } 470 } 474 AddPhoton(dynParticle); 471 AddPhoton(dynParticle); 475 } 472 } 476 } 473 } 477 } 474 } 478 475 479 //....oooOO0OOooo........oooOO0OOooo........oo 476 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo...... 480 477 481 void HistoManager::AddEnergy(G4double edep, G4 478 void HistoManager::AddEnergy(G4double edep, G4int volIndex, G4int copyNo) 482 { 479 { 483 if (1 < fVerbose) { << 480 if(1 < fVerbose) { 484 G4cout << "HistoManager::AddEnergy: e(keV) << 481 G4cout << "HistoManager::AddEnergy: e(keV)= " << edep/keV 485 << "; copyNo= " << copyNo << G4endl << 482 << "; volIdx= " << volIndex >> 483 << "; copyNo= " << copyNo >> 484 << G4endl; 486 } 485 } 487 if (0 == volIndex) { << 486 if(0 == volIndex) { 488 fE[copyNo] += edep; 487 fE[copyNo] += edep; 489 } << 488 } else if (1 == volIndex) { 490 else if (1 == volIndex) { << 491 fEabs1 += edep; 489 fEabs1 += edep; 492 } << 490 } else if (2 == volIndex) { 493 else if (2 == volIndex) { << 494 fEabs2 += edep; 491 fEabs2 += edep; 495 } << 492 } else if (3 == volIndex) { 496 else if (3 == volIndex) { << 497 fEabs3 += edep; 493 fEabs3 += edep; 498 } << 494 } else if (4 == volIndex) { 499 else if (4 == volIndex) { << 500 fEabs4 += edep; 495 fEabs4 += edep; 501 } << 496 } else if (5 == volIndex) { 502 else if (5 == volIndex) { << 503 G4int n = fNvertex.size(); 497 G4int n = fNvertex.size(); 504 G4bool newPad = true; 498 G4bool newPad = true; 505 if (n > 0) { 499 if (n > 0) { 506 for (G4int i = 0; i < n; i++) { << 500 for(G4int i=0; i<n; i++) { 507 if (copyNo == fNvertex[i]) { 501 if (copyNo == fNvertex[i]) { 508 newPad = false; 502 newPad = false; 509 fEvertex[i] += edep; 503 fEvertex[i] += edep; 510 break; 504 break; 511 } 505 } 512 } 506 } 513 } 507 } 514 if (newPad) { << 508 if(newPad) { 515 fNvertex.push_back(copyNo); 509 fNvertex.push_back(copyNo); 516 fEvertex.push_back(edep); 510 fEvertex.push_back(edep); 517 } 511 } 518 } 512 } 519 } 513 } 520 514 521 //....oooOO0OOooo........oooOO0OOooo........oo 515 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 522 516 523 void HistoManager::AddDeltaElectron(const G4Dy 517 void HistoManager::AddDeltaElectron(const G4DynamicParticle* elec) 524 { 518 { 525 G4double e = elec->GetKineticEnergy() / MeV; << 519 G4double e = elec->GetKineticEnergy()/MeV; 526 if (e > 0.0) { << 520 if(e > 0.0) fElec++; 527 ++fElec; << 521 fHisto->Fill(3,e,1.0); 528 fHisto->Fill(3, e, 1.0); << 529 } << 530 } 522 } 531 523 532 //....oooOO0OOooo........oooOO0OOooo........oo 524 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 533 525 534 void HistoManager::AddPhoton(const G4DynamicPa 526 void HistoManager::AddPhoton(const G4DynamicParticle* ph) 535 { 527 { 536 G4double e = ph->GetKineticEnergy() / MeV; << 528 G4double e = ph->GetKineticEnergy()/MeV; 537 if (e > 0.0) { << 529 if(e > 0.0) fGam++; 538 ++fGam; << 530 fHisto->Fill(4,e,1.0); 539 fHisto->Fill(4, e, 1.0); << 540 } << 541 } 531 } 542 532 543 //....oooOO0OOooo........oooOO0OOooo........oo 533 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 544 534 545 void HistoManager::SetEdepAndRMS(G4int i, cons << 535 void HistoManager::SetEdepAndRMS(G4int i, G4ThreeVector val) 546 { 536 { 547 if (i < fNmax && i >= 0) { << 537 if(i<fNmax && i>=0) { 548 if (val[0] > 0.0) fEdeptrue[i] = val[0]; << 538 if(val[0] > 0.0) fEdeptrue[i] = val[0]; 549 if (val[1] > 0.0) fRmstrue[i] = val[1]; << 539 if(val[1] > 0.0) fRmstrue[i] = val[1]; 550 if (val[2] > 0.0) fLimittrue[i] = val[2]; << 540 if(val[2] > 0.0) fLimittrue[i] = val[2]; 551 } 541 } 552 } 542 } 553 543 554 //....oooOO0OOooo........oooOO0OOooo........oo 544 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... >> 545 555 546