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1 // 1 // 2 // ******************************************* 2 // ******************************************************************** 3 // * License and Disclaimer 3 // * License and Disclaimer * 4 // * 4 // * * 5 // * The Geant4 software is copyright of th 5 // * The Geant4 software is copyright of the Copyright Holders of * 6 // * the Geant4 Collaboration. It is provided 6 // * the Geant4 Collaboration. It is provided under the terms and * 7 // * conditions of the Geant4 Software License 7 // * conditions of the Geant4 Software License, included in the file * 8 // * LICENSE and available at http://cern.ch/ 8 // * LICENSE and available at http://cern.ch/geant4/license . These * 9 // * include a list of copyright holders. 9 // * include a list of copyright holders. * 10 // * 10 // * * 11 // * Neither the authors of this software syst 11 // * Neither the authors of this software system, nor their employing * 12 // * institutes,nor the agencies providing fin 12 // * institutes,nor the agencies providing financial support for this * 13 // * work make any representation or warran 13 // * work make any representation or warranty, express or implied, * 14 // * regarding this software system or assum 14 // * regarding this software system or assume any liability for its * 15 // * use. Please see the license in the file 15 // * use. 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 // 26 // 27 // ------------------------------------------- 27 // ------------------------------------------------------------------- 28 // 28 // 29 // GEANT4 Class file 29 // GEANT4 Class file 30 // 30 // 31 // 31 // 32 // File name: G4EmModelManager 32 // File name: G4EmModelManager 33 // 33 // 34 // Author: Vladimir Ivanchenko 34 // Author: Vladimir Ivanchenko 35 // 35 // 36 // Creation date: 07.05.2002 36 // Creation date: 07.05.2002 37 // 37 // 38 // Modifications: V.Ivanchenko 38 // Modifications: V.Ivanchenko 39 // 39 // 40 // Class Description: 40 // Class Description: 41 // 41 // 42 // It is the unified energy loss process it ca 42 // It is the unified energy loss process it calculates the continuous 43 // energy loss for charged particles using a s 43 // energy loss for charged particles using a set of Energy Loss 44 // models valid for different energy regions. 44 // models valid for different energy regions. There are a possibility 45 // to create and access to dE/dx and range tab 45 // to create and access to dE/dx and range tables, or to calculate 46 // that information on fly. 46 // that information on fly. 47 // ------------------------------------------- 47 // ------------------------------------------------------------------- 48 // 48 // 49 //....oooOO0OOooo........oooOO0OOooo........oo 49 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 50 //....oooOO0OOooo........oooOO0OOooo........oo 50 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 51 51 52 #include "G4EmModelManager.hh" 52 #include "G4EmModelManager.hh" 53 #include "G4SystemOfUnits.hh" 53 #include "G4SystemOfUnits.hh" 54 #include "G4PhysicsTable.hh" 54 #include "G4PhysicsTable.hh" 55 #include "G4PhysicsVector.hh" 55 #include "G4PhysicsVector.hh" 56 #include "G4VMscModel.hh" 56 #include "G4VMscModel.hh" 57 57 58 #include "G4Step.hh" 58 #include "G4Step.hh" 59 #include "G4ParticleDefinition.hh" 59 #include "G4ParticleDefinition.hh" 60 #include "G4PhysicsVector.hh" 60 #include "G4PhysicsVector.hh" 61 #include "G4MaterialCutsCouple.hh" 61 #include "G4MaterialCutsCouple.hh" 62 #include "G4ProductionCutsTable.hh" 62 #include "G4ProductionCutsTable.hh" 63 #include "G4RegionStore.hh" 63 #include "G4RegionStore.hh" 64 #include "G4Gamma.hh" 64 #include "G4Gamma.hh" 65 #include "G4Electron.hh" 65 #include "G4Electron.hh" 66 #include "G4Positron.hh" 66 #include "G4Positron.hh" 67 #include "G4UnitsTable.hh" 67 #include "G4UnitsTable.hh" 68 #include "G4DataVector.hh" 68 #include "G4DataVector.hh" 69 69 70 //....oooOO0OOooo........oooOO0OOooo........oo 70 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 71 71 72 G4RegionModels::G4RegionModels(G4int nMod, std 72 G4RegionModels::G4RegionModels(G4int nMod, std::vector<G4int>& indx, 73 G4DataVector& l 73 G4DataVector& lowE, const G4Region* reg) 74 { 74 { 75 nModelsForRegion = nMod; 75 nModelsForRegion = nMod; 76 theListOfModelIndexes = new G4int [nModelsFo 76 theListOfModelIndexes = new G4int [nModelsForRegion]; 77 lowKineticEnergy = new G4double [nModel 77 lowKineticEnergy = new G4double [nModelsForRegion+1]; 78 for (G4int i=0; i<nModelsForRegion; ++i) { 78 for (G4int i=0; i<nModelsForRegion; ++i) { 79 theListOfModelIndexes[i] = indx[i]; 79 theListOfModelIndexes[i] = indx[i]; 80 lowKineticEnergy[i] = lowE[i]; 80 lowKineticEnergy[i] = lowE[i]; 81 } 81 } 82 lowKineticEnergy[nModelsForRegion] = lowE[nM 82 lowKineticEnergy[nModelsForRegion] = lowE[nModelsForRegion]; 83 theRegion = reg; 83 theRegion = reg; 84 } 84 } 85 85 86 //....oooOO0OOooo........oooOO0OOooo........oo 86 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 87 87 88 G4RegionModels::~G4RegionModels() 88 G4RegionModels::~G4RegionModels() 89 { 89 { 90 delete [] theListOfModelIndexes; 90 delete [] theListOfModelIndexes; 91 delete [] lowKineticEnergy; 91 delete [] lowKineticEnergy; 92 } 92 } 93 93 94 //....oooOO0OOooo........oooOO0OOooo........oo 94 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 95 //....oooOO0OOooo........oooOO0OOooo........oo 95 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 96 96 97 G4EmModelManager::G4EmModelManager() 97 G4EmModelManager::G4EmModelManager() 98 { 98 { 99 models.reserve(4); 99 models.reserve(4); 100 flucModels.reserve(4); 100 flucModels.reserve(4); 101 regions.reserve(4); 101 regions.reserve(4); 102 orderOfModels.reserve(4); 102 orderOfModels.reserve(4); 103 isUsed.reserve(4); 103 isUsed.reserve(4); 104 } 104 } 105 105 106 //....oooOO0OOooo........oooOO0OOooo........oo 106 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 107 107 108 G4EmModelManager::~G4EmModelManager() 108 G4EmModelManager::~G4EmModelManager() 109 { 109 { 110 verboseLevel = 0; // no verbosity at destruc 110 verboseLevel = 0; // no verbosity at destruction 111 Clear(); 111 Clear(); 112 delete theCutsNew; 112 delete theCutsNew; 113 } 113 } 114 114 115 //....oooOO0OOooo........oooOO0OOooo........oo 115 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 116 116 117 void G4EmModelManager::Clear() 117 void G4EmModelManager::Clear() 118 { 118 { 119 if(1 < verboseLevel) { 119 if(1 < verboseLevel) { 120 G4cout << "G4EmModelManager::Clear()" << G 120 G4cout << "G4EmModelManager::Clear()" << G4endl; 121 } 121 } 122 std::size_t n = setOfRegionModels.size(); 122 std::size_t n = setOfRegionModels.size(); 123 for(std::size_t i=0; i<n; ++i) { 123 for(std::size_t i=0; i<n; ++i) { 124 delete setOfRegionModels[i]; 124 delete setOfRegionModels[i]; 125 setOfRegionModels[i] = nullptr; 125 setOfRegionModels[i] = nullptr; 126 } 126 } 127 } 127 } 128 128 129 //....oooOO0OOooo........oooOO0OOooo........oo 129 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 130 130 131 void G4EmModelManager::AddEmModel(G4int num, G 131 void G4EmModelManager::AddEmModel(G4int num, G4VEmModel* p, 132 G4VEmFluctua 132 G4VEmFluctuationModel* fm, const G4Region* r) 133 { 133 { 134 if(nullptr == p) { 134 if(nullptr == p) { 135 G4cout << "G4EmModelManager::AddEmModel WA 135 G4cout << "G4EmModelManager::AddEmModel WARNING: no model defined." 136 << G4endl; 136 << G4endl; 137 return; 137 return; 138 } 138 } 139 models.push_back(p); 139 models.push_back(p); 140 flucModels.push_back(fm); 140 flucModels.push_back(fm); 141 regions.push_back(r); 141 regions.push_back(r); 142 orderOfModels.push_back(num); 142 orderOfModels.push_back(num); 143 isUsed.push_back(0); 143 isUsed.push_back(0); 144 p->DefineForRegion(r); 144 p->DefineForRegion(r); 145 ++nEmModels; 145 ++nEmModels; 146 } 146 } 147 147 148 //....oooOO0OOooo........oooOO0OOooo........oo 148 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 149 149 150 G4VEmModel* G4EmModelManager::GetModel(G4int i 150 G4VEmModel* G4EmModelManager::GetModel(G4int idx, G4bool ver) const 151 { 151 { 152 G4VEmModel* model = nullptr; 152 G4VEmModel* model = nullptr; 153 if(idx >= 0 && idx < nEmModels) { model = mo 153 if(idx >= 0 && idx < nEmModels) { model = models[idx]; } 154 else if(verboseLevel > 0 && ver) { 154 else if(verboseLevel > 0 && ver) { 155 G4cout << "G4EmModelManager::GetModel WARN 155 G4cout << "G4EmModelManager::GetModel WARNING: " 156 << "index " << idx << " is wrong Nm 156 << "index " << idx << " is wrong Nmodels= " 157 << nEmModels; 157 << nEmModels; 158 if(nullptr != particle) { 158 if(nullptr != particle) { 159 G4cout << " for " << particle->GetPartic 159 G4cout << " for " << particle->GetParticleName(); 160 } 160 } 161 G4cout<< G4endl; 161 G4cout<< G4endl; 162 } 162 } 163 return model; 163 return model; 164 } 164 } 165 165 166 //....oooOO0OOooo........oooOO0OOooo........oo 166 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 167 167 168 G4VEmModel* G4EmModelManager::GetRegionModel(G 168 G4VEmModel* G4EmModelManager::GetRegionModel(G4int k, std::size_t idx) 169 { 169 { 170 G4RegionModels* rm = setOfRegionModels[idxOf 170 G4RegionModels* rm = setOfRegionModels[idxOfRegionModels[idx]]; 171 return (k < rm->NumberOfModels()) ? models[r 171 return (k < rm->NumberOfModels()) ? models[rm->ModelIndex(k)] : nullptr; 172 } 172 } 173 173 174 //....oooOO0OOooo........oooOO0OOooo........oo 174 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 175 175 176 G4int G4EmModelManager::NumberOfRegionModels(s 176 G4int G4EmModelManager::NumberOfRegionModels(std::size_t idx) const 177 { 177 { 178 G4RegionModels* rm = setOfRegionModels[idxOf 178 G4RegionModels* rm = setOfRegionModels[idxOfRegionModels[idx]]; 179 return rm->NumberOfModels(); 179 return rm->NumberOfModels(); 180 } 180 } 181 181 182 //....oooOO0OOooo........oooOO0OOooo........oo 182 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 183 183 184 const G4DataVector* 184 const G4DataVector* 185 G4EmModelManager::Initialise(const G4ParticleD 185 G4EmModelManager::Initialise(const G4ParticleDefinition* p, 186 const G4ParticleD 186 const G4ParticleDefinition* secondaryParticle, 187 G4int verb) 187 G4int verb) 188 { 188 { 189 verboseLevel = verb; 189 verboseLevel = verb; 190 if(1 < verboseLevel) { 190 if(1 < verboseLevel) { 191 G4cout << "G4EmModelManager::Initialise() 191 G4cout << "G4EmModelManager::Initialise() for " 192 << p->GetParticleName() << " Nmode 192 << p->GetParticleName() << " Nmodels= " << nEmModels << G4endl; 193 } 193 } 194 // Are models defined? 194 // Are models defined? 195 if(nEmModels < 1) { 195 if(nEmModels < 1) { 196 G4ExceptionDescription ed; 196 G4ExceptionDescription ed; 197 ed << "No models found out for " << p->Get 197 ed << "No models found out for " << p->GetParticleName() 198 << " !"; 198 << " !"; 199 G4Exception("G4EmModelManager::Initialise" 199 G4Exception("G4EmModelManager::Initialise","em0002", 200 FatalException, ed); 200 FatalException, ed); 201 } 201 } 202 202 203 particle = p; 203 particle = p; 204 Clear(); // needed if run is not first 204 Clear(); // needed if run is not first 205 205 206 G4RegionStore* regionStore = G4RegionStore:: 206 G4RegionStore* regionStore = G4RegionStore::GetInstance(); 207 const G4Region* world = 207 const G4Region* world = 208 regionStore->GetRegion("DefaultRegionForTh 208 regionStore->GetRegion("DefaultRegionForTheWorld", false); 209 209 210 // Identify the list of regions with differe 210 // Identify the list of regions with different set of models 211 nRegions = 1; 211 nRegions = 1; 212 std::vector<const G4Region*> setr; 212 std::vector<const G4Region*> setr; 213 setr.push_back(world); 213 setr.push_back(world); 214 G4bool isWorld = false; 214 G4bool isWorld = false; 215 215 216 for (G4int ii=0; ii<nEmModels; ++ii) { 216 for (G4int ii=0; ii<nEmModels; ++ii) { 217 const G4Region* r = regions[ii]; 217 const G4Region* r = regions[ii]; 218 if ( r == nullptr || r == world) { 218 if ( r == nullptr || r == world) { 219 isWorld = true; 219 isWorld = true; 220 regions[ii] = world; 220 regions[ii] = world; 221 } else { 221 } else { 222 G4bool newRegion = true; 222 G4bool newRegion = true; 223 if (nRegions>1) { 223 if (nRegions>1) { 224 for (G4int j=1; j<nRegions; ++j) { 224 for (G4int j=1; j<nRegions; ++j) { 225 if ( r == setr[j] ) { newRegion = fa 225 if ( r == setr[j] ) { newRegion = false; } 226 } 226 } 227 } 227 } 228 if (newRegion) { 228 if (newRegion) { 229 setr.push_back(r); 229 setr.push_back(r); 230 ++nRegions; 230 ++nRegions; 231 } 231 } 232 } 232 } 233 } 233 } 234 // Are models defined? 234 // Are models defined? 235 if(!isWorld) { 235 if(!isWorld) { 236 G4ExceptionDescription ed; 236 G4ExceptionDescription ed; 237 ed << "No models defined for the World vol 237 ed << "No models defined for the World volume for " 238 << p->GetParticleName() << " !"; 238 << p->GetParticleName() << " !"; 239 G4Exception("G4EmModelManager::Initialise" 239 G4Exception("G4EmModelManager::Initialise","em0002", 240 FatalException, ed); 240 FatalException, ed); 241 } 241 } 242 242 243 G4ProductionCutsTable* theCoupleTable= 243 G4ProductionCutsTable* theCoupleTable= 244 G4ProductionCutsTable::GetProductionCutsTa 244 G4ProductionCutsTable::GetProductionCutsTable(); 245 std::size_t numOfCouples = theCoupleTable->G 245 std::size_t numOfCouples = theCoupleTable->GetTableSize(); 246 246 247 // prepare vectors, shortcut for the case of 247 // prepare vectors, shortcut for the case of only 1 model 248 // or only one region 248 // or only one region 249 if(nRegions > 1 && nEmModels > 1) { 249 if(nRegions > 1 && nEmModels > 1) { 250 idxOfRegionModels.resize(numOfCouples,0); 250 idxOfRegionModels.resize(numOfCouples,0); 251 setOfRegionModels.resize((std::size_t)nReg 251 setOfRegionModels.resize((std::size_t)nRegions,nullptr); 252 } else { 252 } else { 253 idxOfRegionModels.resize(1,0); 253 idxOfRegionModels.resize(1,0); 254 setOfRegionModels.resize(1,nullptr); 254 setOfRegionModels.resize(1,nullptr); 255 } 255 } 256 256 257 std::vector<G4int> modelAtRegion(nEmModel 257 std::vector<G4int> modelAtRegion(nEmModels); 258 std::vector<G4int> modelOrd(nEmModels); 258 std::vector<G4int> modelOrd(nEmModels); 259 G4DataVector eLow(nEmModels+1); 259 G4DataVector eLow(nEmModels+1); 260 G4DataVector eHigh(nEmModels); 260 G4DataVector eHigh(nEmModels); 261 261 262 if(1 < verboseLevel) { 262 if(1 < verboseLevel) { 263 G4cout << " Nregions= " << nRegions 263 G4cout << " Nregions= " << nRegions 264 << " Nmodels= " << nEmModels << G4 264 << " Nmodels= " << nEmModels << G4endl; 265 } 265 } 266 266 267 // Order models for regions 267 // Order models for regions 268 for (G4int reg=0; reg<nRegions; ++reg) { 268 for (G4int reg=0; reg<nRegions; ++reg) { 269 const G4Region* region = setr[reg]; 269 const G4Region* region = setr[reg]; 270 G4int n = 0; 270 G4int n = 0; 271 271 272 for (G4int ii=0; ii<nEmModels; ++ii) { 272 for (G4int ii=0; ii<nEmModels; ++ii) { 273 273 274 G4VEmModel* model = models[ii]; 274 G4VEmModel* model = models[ii]; 275 if ( region == regions[ii] ) { 275 if ( region == regions[ii] ) { 276 276 277 G4double tmin = model->LowEnergyLimit( 277 G4double tmin = model->LowEnergyLimit(); 278 G4double tmax = model->HighEnergyLimit 278 G4double tmax = model->HighEnergyLimit(); 279 G4int ord = orderOfModels[ii]; 279 G4int ord = orderOfModels[ii]; 280 G4bool push = true; 280 G4bool push = true; 281 G4bool insert = false; 281 G4bool insert = false; 282 G4int idx = n; 282 G4int idx = n; 283 283 284 if(1 < verboseLevel) { 284 if(1 < verboseLevel) { 285 G4cout << "Model #" << ii 285 G4cout << "Model #" << ii 286 << " <" << model->GetName() < 286 << " <" << model->GetName() << "> for region <"; 287 if (region) G4cout << region->GetNam 287 if (region) G4cout << region->GetName(); 288 G4cout << "> " 288 G4cout << "> " 289 << " tmin(MeV)= " << tmin/MeV 289 << " tmin(MeV)= " << tmin/MeV 290 << "; tmax(MeV)= " << tmax/Me 290 << "; tmax(MeV)= " << tmax/MeV 291 << "; order= " << ord 291 << "; order= " << ord 292 << "; tminAct= " << model->LowEnergyActiv 292 << "; tminAct= " << model->LowEnergyActivationLimit()/MeV 293 << "; tmaxAct= " << model->HighEnergyActi 293 << "; tmaxAct= " << model->HighEnergyActivationLimit()/MeV 294 << G4endl; 294 << G4endl; 295 } 295 } 296 296 297 static const G4double limitdelta = 0.01*eV; 297 static const G4double limitdelta = 0.01*eV; 298 if(n > 0) { 298 if(n > 0) { 299 299 300 // extend energy range to previous m 300 // extend energy range to previous models 301 tmin = std::min(tmin, eHigh[n-1]); 301 tmin = std::min(tmin, eHigh[n-1]); 302 tmax = std::max(tmax, eLow[0]); 302 tmax = std::max(tmax, eLow[0]); 303 //G4cout << "tmin= " << tmin << " t 303 //G4cout << "tmin= " << tmin << " tmax= " 304 // << tmax << " ord= " << 304 // << tmax << " ord= " << ord <<G4endl; 305 // empty energy range 305 // empty energy range 306 if( tmax - tmin <= limitdelta) { pus 306 if( tmax - tmin <= limitdelta) { push = false; } 307 // low-energy model 307 // low-energy model 308 else if (tmax == eLow[0]) { 308 else if (tmax == eLow[0]) { 309 push = false; 309 push = false; 310 insert = true; 310 insert = true; 311 idx = 0; 311 idx = 0; 312 // resolve intersections 312 // resolve intersections 313 } else if(tmin < eHigh[n-1]) { 313 } else if(tmin < eHigh[n-1]) { 314 // compare order 314 // compare order 315 for(G4int k=0; k<n; ++k) { 315 for(G4int k=0; k<n; ++k) { 316 // new model has higher order pa 316 // new model has higher order parameter, 317 // so, its application area may be red 317 // so, its application area may be reduced 318 // to avoid intersections 318 // to avoid intersections 319 if(ord >= modelOrd[k]) { 319 if(ord >= modelOrd[k]) { 320 if(tmin < eHigh[k] && tmin >= 320 if(tmin < eHigh[k] && tmin >= eLow[k]) { tmin = eHigh[k]; } 321 if(tmax <= eHigh[k] && tmax > 321 if(tmax <= eHigh[k] && tmax > eLow[k]) { tmax = eLow[k]; } 322 if(tmax > eHigh[k] && tmin < e 322 if(tmax > eHigh[k] && tmin < eLow[k]) { 323 if(tmax - eHigh[k] > eLow[k] 323 if(tmax - eHigh[k] > eLow[k] - tmin) { tmin = eHigh[k]; } 324 else { tmax = eLow[k]; } 324 else { tmax = eLow[k]; } 325 } 325 } 326 if( tmax - tmin <= limitdelta) 326 if( tmax - tmin <= limitdelta) { 327 push = false; 327 push = false; 328 break; 328 break; 329 } 329 } 330 } 330 } 331 } 331 } 332 // this model has lower order parameter 332 // this model has lower order parameter than possible 333 // other models, with which there may be 333 // other models, with which there may be intersections 334 // so, appliction area of such models ma 334 // so, appliction area of such models may be reduced 335 335 336 // insert below the first model 336 // insert below the first model 337 if (tmax <= eLow[0]) { 337 if (tmax <= eLow[0]) { 338 push = false; 338 push = false; 339 insert = true; 339 insert = true; 340 idx = 0; 340 idx = 0; 341 // resolve intersections 341 // resolve intersections 342 } else if(tmin < eHigh[n-1]) { 342 } else if(tmin < eHigh[n-1]) { 343 // last energy interval 343 // last energy interval 344 if(tmin > eLow[n-1] && tmax >= eHigh[n 344 if(tmin > eLow[n-1] && tmax >= eHigh[n-1]) { 345 eHigh[n-1] = tmin; 345 eHigh[n-1] = tmin; 346 // first energy interval 346 // first energy interval 347 } else if(tmin <= eLow[0] && tmax < eH 347 } else if(tmin <= eLow[0] && tmax < eHigh[0]) { 348 eLow[0] = tmax; 348 eLow[0] = tmax; 349 push = false; 349 push = false; 350 insert = true; 350 insert = true; 351 idx = 0; 351 idx = 0; 352 // loop over all models 352 // loop over all models 353 } else { 353 } else { 354 for(G4int k=n-1; k>=0; --k) { 354 for(G4int k=n-1; k>=0; --k) { 355 if(tmin <= eLow[k] && tmax >= eHigh[k]) 355 if(tmin <= eLow[k] && tmax >= eHigh[k]) { 356 // full overlap exclude previous model 356 // full overlap exclude previous model 357 isUsed[modelAtRegion[k]] = 0; 357 isUsed[modelAtRegion[k]] = 0; 358 idx = k; 358 idx = k; 359 if(k < n-1) { 359 if(k < n-1) { 360 // shift upper models and change ind 360 // shift upper models and change index 361 for(G4int kk=k; kk<n-1; ++kk) { 361 for(G4int kk=k; kk<n-1; ++kk) { 362 modelAtRegion[kk] = modelAtRegion[kk+1]; 362 modelAtRegion[kk] = modelAtRegion[kk+1]; 363 modelOrd[kk] = modelOrd[kk+1]; 363 modelOrd[kk] = modelOrd[kk+1]; 364 eLow[kk] = eLow[kk+1]; 364 eLow[kk] = eLow[kk+1]; 365 eHigh[kk] = eHigh[kk+1]; 365 eHigh[kk] = eHigh[kk+1]; 366 } 366 } 367 ++k; 367 ++k; 368 } 368 } 369 --n; 369 --n; 370 } else { 370 } else { 371 // partially reduce previous model are 371 // partially reduce previous model area 372 if(tmin <= eLow[k] && tmax > eLow[k]) 372 if(tmin <= eLow[k] && tmax > eLow[k]) { 373 eLow[k] = tmax; 373 eLow[k] = tmax; 374 idx = k; 374 idx = k; 375 insert = true; 375 insert = true; 376 push = false; 376 push = false; 377 } else if(tmin < eHigh[k] && tmax >= e 377 } else if(tmin < eHigh[k] && tmax >= eHigh[k]) { 378 eHigh[k] = tmin; 378 eHigh[k] = tmin; 379 idx = k + 1; 379 idx = k + 1; 380 if(idx < n) { 380 if(idx < n) { 381 insert = true; 381 insert = true; 382 push = false; 382 push = false; 383 } 383 } 384 } else if(tmin > eLow[k] && tmax < eHi 384 } else if(tmin > eLow[k] && tmax < eHigh[k]) { 385 if(eHigh[k] - tmax > tmin - eLow[k]) 385 if(eHigh[k] - tmax > tmin - eLow[k]) { 386 eLow[k] = tmax; 386 eLow[k] = tmax; 387 idx = k; 387 idx = k; 388 insert = true; 388 insert = true; 389 push = false; 389 push = false; 390 } else { 390 } else { 391 eHigh[k] = tmin; 391 eHigh[k] = tmin; 392 idx = k + 1; 392 idx = k + 1; 393 if(idx < n) { 393 if(idx < n) { 394 insert = true; 394 insert = true; 395 push = false; 395 push = false; 396 } 396 } 397 } 397 } 398 } 398 } 399 } 399 } 400 } 400 } 401 } 401 } 402 } 402 } 403 } 403 } 404 } 404 } 405 // provide space for the new model 405 // provide space for the new model 406 if(insert) { 406 if(insert) { 407 for(G4int k=n-1; k>=idx; --k) { 407 for(G4int k=n-1; k>=idx; --k) { 408 modelAtRegion[k+1] = modelAtRegion 408 modelAtRegion[k+1] = modelAtRegion[k]; 409 modelOrd[k+1] = modelOrd[k]; 409 modelOrd[k+1] = modelOrd[k]; 410 eLow[k+1] = eLow[k]; 410 eLow[k+1] = eLow[k]; 411 eHigh[k+1] = eHigh[k]; 411 eHigh[k+1] = eHigh[k]; 412 } 412 } 413 } 413 } 414 //G4cout << "push= " << push << " inse 414 //G4cout << "push= " << push << " insert= " << insert 415 // << " idx= " << idx <<G4endl; 415 // << " idx= " << idx <<G4endl; 416 // the model is added 416 // the model is added 417 if (push || insert) { 417 if (push || insert) { 418 ++n; 418 ++n; 419 modelAtRegion[idx] = ii; 419 modelAtRegion[idx] = ii; 420 modelOrd[idx] = ord; 420 modelOrd[idx] = ord; 421 eLow[idx] = tmin; 421 eLow[idx] = tmin; 422 eHigh[idx] = tmax; 422 eHigh[idx] = tmax; 423 isUsed[ii] = 1; 423 isUsed[ii] = 1; 424 } 424 } 425 // exclude models with zero energy range 425 // exclude models with zero energy range 426 for(G4int k=n-1; k>=0; --k) { 426 for(G4int k=n-1; k>=0; --k) { 427 if(eHigh[k] - eLow[k] <= limitdelta) { 427 if(eHigh[k] - eLow[k] <= limitdelta) { 428 isUsed[modelAtRegion[k]] = 0; 428 isUsed[modelAtRegion[k]] = 0; 429 if(k < n-1) { 429 if(k < n-1) { 430 for(G4int kk=k; kk<n-1; ++kk) { 430 for(G4int kk=k; kk<n-1; ++kk) { 431 modelAtRegion[kk] = modelAtRegion[kk+1]; 431 modelAtRegion[kk] = modelAtRegion[kk+1]; 432 modelOrd[kk] = modelOrd[kk+1]; 432 modelOrd[kk] = modelOrd[kk+1]; 433 eLow[kk] = eLow[kk+1]; 433 eLow[kk] = eLow[kk+1]; 434 eHigh[kk] = eHigh[kk+1]; 434 eHigh[kk] = eHigh[kk+1]; 435 } 435 } 436 } 436 } 437 --n; 437 --n; 438 } 438 } 439 } 439 } 440 } 440 } 441 } 441 } 442 eLow[0] = 0.0; 442 eLow[0] = 0.0; 443 eLow[n] = eHigh[n-1]; 443 eLow[n] = eHigh[n-1]; 444 444 445 if(1 < verboseLevel) { 445 if(1 < verboseLevel) { 446 G4cout << "### New G4RegionModels set wi 446 G4cout << "### New G4RegionModels set with " << n 447 << " models for region <"; 447 << " models for region <"; 448 if (region) { G4cout << region->GetName( 448 if (region) { G4cout << region->GetName(); } 449 G4cout << "> Elow(MeV)= "; 449 G4cout << "> Elow(MeV)= "; 450 for(G4int iii=0; iii<=n; ++iii) {G4cout 450 for(G4int iii=0; iii<=n; ++iii) {G4cout << eLow[iii]/MeV << " ";} 451 G4cout << G4endl; 451 G4cout << G4endl; 452 } 452 } 453 auto rm = new G4RegionModels(n, modelAtReg 453 auto rm = new G4RegionModels(n, modelAtRegion, eLow, region); 454 setOfRegionModels[reg] = rm; 454 setOfRegionModels[reg] = rm; 455 // shortcut 455 // shortcut 456 if(1 == nEmModels) { break; } 456 if(1 == nEmModels) { break; } 457 } 457 } 458 458 459 currRegionModel = setOfRegionModels[0]; 459 currRegionModel = setOfRegionModels[0]; 460 currModel = models[0]; 460 currModel = models[0]; 461 461 462 // Access to materials and build cuts 462 // Access to materials and build cuts 463 std::size_t idx = 1; 463 std::size_t idx = 1; 464 if(nullptr != secondaryParticle) { 464 if(nullptr != secondaryParticle) { 465 if( secondaryParticle == G4Gamma::Gamma() 465 if( secondaryParticle == G4Gamma::Gamma() ) { idx = 0; } 466 else if( secondaryParticle == G4Electron:: 466 else if( secondaryParticle == G4Electron::Electron()) { idx = 1; } 467 else if( secondaryParticle == G4Positron:: 467 else if( secondaryParticle == G4Positron::Positron()) { idx = 2; } 468 else { idx = 3; } 468 else { idx = 3; } 469 } 469 } 470 470 471 theCuts = 471 theCuts = 472 static_cast<const G4DataVector*>(theCouple 472 static_cast<const G4DataVector*>(theCoupleTable->GetEnergyCutsVector(idx)); 473 473 474 // for the second run the check on cuts shou 474 // for the second run the check on cuts should be repeated 475 if(nullptr != theCutsNew) { *theCutsNew = *t 475 if(nullptr != theCutsNew) { *theCutsNew = *theCuts; } 476 476 477 // G4cout << "========Start define cuts" << 477 // G4cout << "========Start define cuts" << G4endl; 478 // define cut values 478 // define cut values 479 for(std::size_t i=0; i<numOfCouples; ++i) { 479 for(std::size_t i=0; i<numOfCouples; ++i) { 480 480 481 const G4MaterialCutsCouple* couple = 481 const G4MaterialCutsCouple* couple = 482 theCoupleTable->GetMaterialCutsCouple((G 482 theCoupleTable->GetMaterialCutsCouple((G4int)i); 483 const G4Material* material = couple->GetMa 483 const G4Material* material = couple->GetMaterial(); 484 const G4ProductionCuts* pcuts = couple->Ge 484 const G4ProductionCuts* pcuts = couple->GetProductionCuts(); 485 485 486 G4int reg = 0; 486 G4int reg = 0; 487 if(nRegions > 1 && nEmModels > 1) { 487 if(nRegions > 1 && nEmModels > 1) { 488 reg = nRegions; 488 reg = nRegions; 489 // Loop checking, 03-Aug-2015, Vladimir 489 // Loop checking, 03-Aug-2015, Vladimir Ivanchenko 490 do {--reg;} while (reg>0 && pcuts != (se 490 do {--reg;} while (reg>0 && pcuts != (setr[reg]->GetProductionCuts())); 491 idxOfRegionModels[i] = reg; 491 idxOfRegionModels[i] = reg; 492 } 492 } 493 if(1 < verboseLevel) { 493 if(1 < verboseLevel) { 494 G4cout << "G4EmModelManager::Initialise( 494 G4cout << "G4EmModelManager::Initialise() for " 495 << material->GetName() 495 << material->GetName() 496 << " indexOfCouple= " << i 496 << " indexOfCouple= " << i 497 << " indexOfRegion= " << reg 497 << " indexOfRegion= " << reg 498 << G4endl; 498 << G4endl; 499 } 499 } 500 500 501 G4double cut = (*theCuts)[i]; 501 G4double cut = (*theCuts)[i]; 502 if(nullptr != secondaryParticle) { 502 if(nullptr != secondaryParticle) { 503 503 504 // note that idxOfRegionModels[] not alw 504 // note that idxOfRegionModels[] not always filled 505 G4int inn = 0; 505 G4int inn = 0; 506 G4int nnm = 1; 506 G4int nnm = 1; 507 if(nRegions > 1 && nEmModels > 1) { 507 if(nRegions > 1 && nEmModels > 1) { 508 inn = idxOfRegionModels[i]; 508 inn = idxOfRegionModels[i]; 509 } 509 } 510 // check cuts and introduce upper limits 510 // check cuts and introduce upper limits 511 //G4cout << "idx= " << i << " cut(keV)= 511 //G4cout << "idx= " << i << " cut(keV)= " << cut/keV << G4endl; 512 currRegionModel = setOfRegionModels[inn] 512 currRegionModel = setOfRegionModels[inn]; 513 nnm = currRegionModel->NumberOfModels(); 513 nnm = currRegionModel->NumberOfModels(); 514 514 515 //G4cout << "idx= " << i << " Nmod= " << 515 //G4cout << "idx= " << i << " Nmod= " << nnm << G4endl; 516 516 517 for(G4int jj=0; jj<nnm; ++jj) { 517 for(G4int jj=0; jj<nnm; ++jj) { 518 //G4cout << "jj= " << jj << " modidx= 518 //G4cout << "jj= " << jj << " modidx= " 519 // << currRegionModel->ModelInde 519 // << currRegionModel->ModelIndex(jj) << G4endl; 520 currModel = models[currRegionModel->Mo 520 currModel = models[currRegionModel->ModelIndex(jj)]; 521 G4double cutlim = currModel->MinEnergy 521 G4double cutlim = currModel->MinEnergyCut(particle,couple); 522 if(cutlim > cut) { 522 if(cutlim > cut) { 523 if(nullptr == theCutsNew) { theCutsN 523 if(nullptr == theCutsNew) { theCutsNew = new G4DataVector(*theCuts); } 524 (*theCutsNew)[i] = cutlim; 524 (*theCutsNew)[i] = cutlim; 525 /* 525 /* 526 G4cout << "### " << partname << " en 526 G4cout << "### " << partname << " energy loss model in " 527 << material->GetName() 527 << material->GetName() 528 << " Cut was changed from " 528 << " Cut was changed from " << cut/keV << " keV to " 529 << cutlim/keV << " keV " << " 529 << cutlim/keV << " keV " << " due to " 530 << currModel->GetName() << G4 530 << currModel->GetName() << G4endl; 531 */ 531 */ 532 } 532 } 533 } 533 } 534 } 534 } 535 } 535 } 536 if(nullptr != theCutsNew) { theCuts = theCut 536 if(nullptr != theCutsNew) { theCuts = theCutsNew; } 537 537 538 // initialize models 538 // initialize models 539 G4int nn = 0; 539 G4int nn = 0; 540 severalModels = true; 540 severalModels = true; 541 for(G4int jj=0; jj<nEmModels; ++jj) { 541 for(G4int jj=0; jj<nEmModels; ++jj) { 542 if(1 == isUsed[jj]) { 542 if(1 == isUsed[jj]) { 543 ++nn; 543 ++nn; 544 currModel = models[jj]; 544 currModel = models[jj]; 545 currModel->Initialise(particle, *theCuts 545 currModel->Initialise(particle, *theCuts); 546 if(nullptr != flucModels[jj]) { flucMode 546 if(nullptr != flucModels[jj]) { flucModels[jj]->InitialiseMe(particle); } 547 } 547 } 548 } 548 } 549 if(1 == nn) { severalModels = false; } 549 if(1 == nn) { severalModels = false; } 550 550 551 if(1 < verboseLevel) { 551 if(1 < verboseLevel) { 552 G4cout << "G4EmModelManager for " << parti 552 G4cout << "G4EmModelManager for " << particle->GetParticleName() 553 << " is initialised; nRegions= " < 553 << " is initialised; nRegions= " << nRegions 554 << " severalModels: " << severalMod 554 << " severalModels: " << severalModels 555 << G4endl; 555 << G4endl; 556 } 556 } 557 return theCuts; 557 return theCuts; 558 } 558 } 559 559 560 //....oooOO0OOooo........oooOO0OOooo........oo 560 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 561 561 562 void G4EmModelManager::FillDEDXVector(G4Physic 562 void G4EmModelManager::FillDEDXVector(G4PhysicsVector* aVector, 563 const G4 563 const G4MaterialCutsCouple* couple, 564 G4EmTabl 564 G4EmTableType tType) 565 { 565 { 566 std::size_t i = couple->GetIndex(); 566 std::size_t i = couple->GetIndex(); 567 G4double cut = (fTotal == tType) ? DBL_MAX 567 G4double cut = (fTotal == tType) ? DBL_MAX : (*theCuts)[i]; 568 568 569 if(1 < verboseLevel) { 569 if(1 < verboseLevel) { 570 G4cout << "G4EmModelManager::FillDEDXVecto 570 G4cout << "G4EmModelManager::FillDEDXVector() for " 571 << couple->GetMaterial()->GetName() 571 << couple->GetMaterial()->GetName() 572 << " cut(MeV)= " << cut 572 << " cut(MeV)= " << cut 573 << " Type " << tType 573 << " Type " << tType 574 << " for " << particle->GetParticl 574 << " for " << particle->GetParticleName() 575 << G4endl; 575 << G4endl; 576 } 576 } 577 577 578 G4int reg = 0; 578 G4int reg = 0; 579 if(nRegions > 1 && nEmModels > 1) { reg = id 579 if(nRegions > 1 && nEmModels > 1) { reg = idxOfRegionModels[i]; } 580 const G4RegionModels* regModels = setOfRegio 580 const G4RegionModels* regModels = setOfRegionModels[reg]; 581 G4int nmod = regModels->NumberOfModels(); 581 G4int nmod = regModels->NumberOfModels(); 582 582 583 // Calculate energy losses vector 583 // Calculate energy losses vector 584 std::size_t totBinsLoss = aVector->GetVector 584 std::size_t totBinsLoss = aVector->GetVectorLength(); 585 G4double del = 0.0; 585 G4double del = 0.0; 586 G4int k0 = 0; 586 G4int k0 = 0; 587 587 588 for(std::size_t j=0; j<totBinsLoss; ++j) { 588 for(std::size_t j=0; j<totBinsLoss; ++j) { 589 G4double e = aVector->Energy(j); 589 G4double e = aVector->Energy(j); 590 590 591 // Choose a model of energy losses 591 // Choose a model of energy losses 592 G4int k = 0; 592 G4int k = 0; 593 if (nmod > 1) { 593 if (nmod > 1) { 594 k = nmod; 594 k = nmod; 595 // Loop checking, 03-Aug-2015, Vladimir 595 // Loop checking, 03-Aug-2015, Vladimir Ivanchenko 596 do {--k;} while (k>0 && e <= regModels-> 596 do {--k;} while (k>0 && e <= regModels->LowEdgeEnergy(k)); 597 //G4cout << "k= " << k << G4endl; 597 //G4cout << "k= " << k << G4endl; 598 if(k > 0 && k != k0) { 598 if(k > 0 && k != k0) { 599 k0 = k; 599 k0 = k; 600 G4double elow = regModels->LowEdgeEner 600 G4double elow = regModels->LowEdgeEnergy(k); 601 G4double dedx1 = 601 G4double dedx1 = 602 models[regModels->ModelIndex(k-1)]->Comput 602 models[regModels->ModelIndex(k-1)]->ComputeDEDX(couple, particle, elow, cut); 603 G4double dedx2 = 603 G4double dedx2 = 604 models[regModels->ModelIndex(k)]->ComputeD 604 models[regModels->ModelIndex(k)]->ComputeDEDX(couple, particle, elow, cut); 605 del = (dedx2 > 0.0) ? (dedx1/dedx2 - 1 605 del = (dedx2 > 0.0) ? (dedx1/dedx2 - 1.0)*elow : 0.0; 606 //G4cout << "elow= " << elow 606 //G4cout << "elow= " << elow 607 // << " dedx1= " << dedx1 << " d 607 // << " dedx1= " << dedx1 << " dedx2= " << dedx2 << G4endl; 608 } 608 } 609 } 609 } 610 G4double dedx = (1.0 + del/e)* 610 G4double dedx = (1.0 + del/e)* 611 models[regModels->ModelIndex(k)]->ComputeD 611 models[regModels->ModelIndex(k)]->ComputeDEDX(couple, particle, e, cut); 612 612 613 if(2 < verboseLevel) { 613 if(2 < verboseLevel) { 614 G4cout << "Material= " << couple->GetMat 614 G4cout << "Material= " << couple->GetMaterial()->GetName() 615 << " E(MeV)= " << e/MeV 615 << " E(MeV)= " << e/MeV 616 << " dEdx(MeV/mm)= " << dedx*mm/ 616 << " dEdx(MeV/mm)= " << dedx*mm/MeV 617 << " del= " << del*mm/MeV<< " k= 617 << " del= " << del*mm/MeV<< " k= " << k 618 << " modelIdx= " << regModels->Mo 618 << " modelIdx= " << regModels->ModelIndex(k) 619 << G4endl; 619 << G4endl; 620 } 620 } 621 dedx = std::max(dedx, 0.0); 621 dedx = std::max(dedx, 0.0); 622 aVector->PutValue(j, dedx); 622 aVector->PutValue(j, dedx); 623 } 623 } 624 } 624 } 625 625 626 //....oooOO0OOooo........oooOO0OOooo........oo 626 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 627 627 628 void G4EmModelManager::FillLambdaVector(G4Phys 628 void G4EmModelManager::FillLambdaVector(G4PhysicsVector* aVector, 629 const 629 const G4MaterialCutsCouple* couple, 630 G4bool 630 G4bool startFromNull, 631 G4EmTa 631 G4EmTableType tType) 632 { 632 { 633 std::size_t i = couple->GetIndex(); 633 std::size_t i = couple->GetIndex(); 634 G4double cut = (*theCuts)[i]; 634 G4double cut = (*theCuts)[i]; 635 G4double tmax = DBL_MAX; 635 G4double tmax = DBL_MAX; 636 636 637 G4int reg = 0; 637 G4int reg = 0; 638 if(nRegions > 1 && nEmModels > 1) { reg = i 638 if(nRegions > 1 && nEmModels > 1) { reg = idxOfRegionModels[i]; } 639 const G4RegionModels* regModels = setOfRegio 639 const G4RegionModels* regModels = setOfRegionModels[reg]; 640 G4int nmod = regModels->NumberOfModels(); 640 G4int nmod = regModels->NumberOfModels(); 641 if(1 < verboseLevel) { 641 if(1 < verboseLevel) { 642 G4cout << "G4EmModelManager::FillLambdaVec 642 G4cout << "G4EmModelManager::FillLambdaVector() for " 643 << particle->GetParticleName() 643 << particle->GetParticleName() 644 << " in " << couple->GetMaterial()- 644 << " in " << couple->GetMaterial()->GetName() 645 << " Emin(MeV)= " << aVector->Energ 645 << " Emin(MeV)= " << aVector->Energy(0) 646 << " Emax(MeV)= " << aVector->GetMa 646 << " Emax(MeV)= " << aVector->GetMaxEnergy() 647 << " cut= " << cut 647 << " cut= " << cut 648 << " Type " << tType 648 << " Type " << tType 649 << " nmod= " << nmod 649 << " nmod= " << nmod 650 << G4endl; 650 << G4endl; 651 } 651 } 652 652 653 // Calculate lambda vector 653 // Calculate lambda vector 654 std::size_t totBinsLambda = aVector->GetVect 654 std::size_t totBinsLambda = aVector->GetVectorLength(); 655 G4double del = 0.0; 655 G4double del = 0.0; 656 G4int k0 = 0; 656 G4int k0 = 0; 657 G4int k = 0; 657 G4int k = 0; 658 G4VEmModel* mod = models[regModels->ModelInd 658 G4VEmModel* mod = models[regModels->ModelIndex(0)]; 659 for(std::size_t j=0; j<totBinsLambda; ++j) { 659 for(std::size_t j=0; j<totBinsLambda; ++j) { 660 660 661 G4double e = aVector->Energy(j); 661 G4double e = aVector->Energy(j); 662 662 663 // Choose a model 663 // Choose a model 664 if (nmod > 1) { 664 if (nmod > 1) { 665 k = nmod; 665 k = nmod; 666 // Loop checking, 03-Aug-2015, Vladimir 666 // Loop checking, 03-Aug-2015, Vladimir Ivanchenko 667 do {--k;} while (k>0 && e <= regModels-> 667 do {--k;} while (k>0 && e <= regModels->LowEdgeEnergy(k)); 668 if(k > 0 && k != k0) { 668 if(k > 0 && k != k0) { 669 k0 = k; 669 k0 = k; 670 G4double elow = regModels->LowEdgeEner 670 G4double elow = regModels->LowEdgeEnergy(k); 671 G4VEmModel* mod1 = models[regModels->M 671 G4VEmModel* mod1 = models[regModels->ModelIndex(k-1)]; 672 G4double xs1 = mod1->CrossSection(cou 672 G4double xs1 = mod1->CrossSection(couple,particle,elow,cut,tmax); 673 mod = models[regModels->ModelIndex(k)] 673 mod = models[regModels->ModelIndex(k)]; 674 G4double xs2 = mod->CrossSection(coupl 674 G4double xs2 = mod->CrossSection(couple,particle,elow,cut,tmax); 675 del = (xs2 > 0.0) ? (xs1/xs2 - 1.0)*el 675 del = (xs2 > 0.0) ? (xs1/xs2 - 1.0)*elow : 0.0; 676 //G4cout << "New model k=" << k << " E 676 //G4cout << "New model k=" << k << " E(MeV)= " << e/MeV 677 // << " Elow(MeV)= " << elow/MeV 677 // << " Elow(MeV)= " << elow/MeV << " del= " << del << G4endl; 678 } 678 } 679 } 679 } 680 G4double cross = (1.0 + del/e)*mod->CrossS 680 G4double cross = (1.0 + del/e)*mod->CrossSection(couple,particle,e,cut,tmax); 681 if(fIsCrossSectionPrim == tType) { cross * 681 if(fIsCrossSectionPrim == tType) { cross *= e; } 682 682 683 if(j==0 && startFromNull) { cross = 0.0; } 683 if(j==0 && startFromNull) { cross = 0.0; } 684 684 685 if(2 < verboseLevel) { 685 if(2 < verboseLevel) { 686 G4cout << "FillLambdaVector: " << j << " 686 G4cout << "FillLambdaVector: " << j << ". e(MeV)= " << e/MeV 687 << " cross(1/mm)= " << cross*mm 687 << " cross(1/mm)= " << cross*mm 688 << " del= " << del*mm << " k= " < 688 << " del= " << del*mm << " k= " << k 689 << " modelIdx= " << regModels->Mo 689 << " modelIdx= " << regModels->ModelIndex(k) 690 << G4endl; 690 << G4endl; 691 } 691 } 692 cross = std::max(cross, 0.0); 692 cross = std::max(cross, 0.0); 693 aVector->PutValue(j, cross); 693 aVector->PutValue(j, cross); 694 } 694 } 695 } 695 } 696 696 697 //....oooOO0OOooo........oooOO0OOooo........oo 697 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 698 698 699 void G4EmModelManager::DumpModelList(std::ostr 699 void G4EmModelManager::DumpModelList(std::ostream& out, G4int verb) 700 { 700 { 701 if(verb == 0) { return; } 701 if(verb == 0) { return; } 702 for(G4int i=0; i<nRegions; ++i) { 702 for(G4int i=0; i<nRegions; ++i) { 703 G4RegionModels* r = setOfRegionModels[i]; 703 G4RegionModels* r = setOfRegionModels[i]; 704 const G4Region* reg = r->Region(); 704 const G4Region* reg = r->Region(); 705 G4int n = r->NumberOfModels(); 705 G4int n = r->NumberOfModels(); 706 if(n > 0) { 706 if(n > 0) { 707 out << " ===== EM models for the G4 707 out << " ===== EM models for the G4Region " << reg->GetName() 708 << " ======" << G4endl; 708 << " ======" << G4endl; 709 for(G4int j=0; j<n; ++j) { 709 for(G4int j=0; j<n; ++j) { 710 G4VEmModel* model = models[r->ModelInd 710 G4VEmModel* model = models[r->ModelIndex(j)]; 711 G4double emin = 711 G4double emin = 712 std::max(r->LowEdgeEnergy(j),model-> 712 std::max(r->LowEdgeEnergy(j),model->LowEnergyActivationLimit()); 713 G4double emax = 713 G4double emax = 714 std::min(r->LowEdgeEnergy(j+1),model 714 std::min(r->LowEdgeEnergy(j+1),model->HighEnergyActivationLimit()); 715 if(emax > emin) { 715 if(emax > emin) { 716 out << std::setw(20); 716 out << std::setw(20); 717 out << model->GetName() << " : Emin=" 717 out << model->GetName() << " : Emin=" 718 << std::setw(5) << G4BestUnit(emin,"En 718 << std::setw(5) << G4BestUnit(emin,"Energy") 719 << " Emax=" 719 << " Emax=" 720 << std::setw(5) << G4BestUnit(emax,"En 720 << std::setw(5) << G4BestUnit(emax,"Energy"); 721 G4PhysicsTable* table = model->GetCrossSec 721 G4PhysicsTable* table = model->GetCrossSectionTable(); 722 if(table) { 722 if(table) { 723 std::size_t kk = table->size(); 723 std::size_t kk = table->size(); 724 for(std::size_t k=0; k<kk; ++k) { 724 for(std::size_t k=0; k<kk; ++k) { 725 const G4PhysicsVector* v = (*table)[k] 725 const G4PhysicsVector* v = (*table)[k]; 726 if(v) { 726 if(v) { 727 G4int nn = G4int(v->GetVectorLength() - 1) 727 G4int nn = G4int(v->GetVectorLength() - 1); 728 out << " Nbins=" << nn << " " 728 out << " Nbins=" << nn << " " 729 << std::setw(3) << G4BestUnit(v->Energ 729 << std::setw(3) << G4BestUnit(v->Energy(0),"Energy") 730 << " - " 730 << " - " 731 << std::setw(3) << G4BestUnit(v->Energ 731 << std::setw(3) << G4BestUnit(v->Energy(nn),"Energy"); 732 break; 732 break; 733 } 733 } 734 } 734 } 735 } 735 } 736 G4VEmAngularDistribution* an = model->GetA 736 G4VEmAngularDistribution* an = model->GetAngularDistribution(); 737 if(an) { out << " " << an->GetName(); } 737 if(an) { out << " " << an->GetName(); } 738 if(fluoFlag && model->DeexcitationFlag()) 738 if(fluoFlag && model->DeexcitationFlag()) { 739 out << " Fluo"; 739 out << " Fluo"; 740 } 740 } 741 out << G4endl; 741 out << G4endl; 742 auto msc = dynamic_cast<G4VMscModel* 742 auto msc = dynamic_cast<G4VMscModel*>(model); 743 if(msc != nullptr) msc->DumpParamete 743 if(msc != nullptr) msc->DumpParameters(out); 744 } 744 } 745 } 745 } 746 } 746 } 747 if(1 == nEmModels) { break; } 747 if(1 == nEmModels) { break; } 748 } 748 } 749 if(theCutsNew) { 749 if(theCutsNew) { 750 out << " ===== Limit on energy thresh 750 out << " ===== Limit on energy threshold has been applied " << G4endl; 751 } 751 } 752 } 752 } 753 753 754 //....oooOO0OOooo........oooOO0OOooo........oo 754 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo.... 755 755