Geant4 Cross Reference |
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 // Class Description 26 // Class Description 27 // Manager of LEND (Low Energy Nuclear Data) t 27 // Manager of LEND (Low Energy Nuclear Data) target (nucleus) 28 // LEND is Geant4 interface for GIDI (General 28 // LEND is Geant4 interface for GIDI (General Interaction Data Interface) 29 // which gives a discription of nuclear and at 29 // which gives a discription of nuclear and atomic reactions, such as 30 // Binary collision cross sections 30 // Binary collision cross sections 31 // Particle number multiplicity distributio 31 // Particle number multiplicity distributions of reaction products 32 // Energy and angular distributions of reac 32 // Energy and angular distributions of reaction products 33 // Derived calculational constants 33 // Derived calculational constants 34 // GIDI is developped at Lawrence Livermore Na 34 // GIDI is developped at Lawrence Livermore National Laboratory 35 // Class Description - End 35 // Class Description - End 36 36 37 // 071025 First implementation done by T. Koi 37 // 071025 First implementation done by T. Koi (SLAC/SCCS) 38 // 101118 Name modifications for release T. Ko 38 // 101118 Name modifications for release T. Koi (SLAC/PPA) 39 39 40 #include "G4LENDManager.hh" 40 #include "G4LENDManager.hh" 41 #include "G4HadronicException.hh" 41 #include "G4HadronicException.hh" 42 42 43 #include "G4Neutron.hh" 43 #include "G4Neutron.hh" 44 #include "G4Gamma.hh" 44 #include "G4Gamma.hh" 45 #include "G4Proton.hh" 45 #include "G4Proton.hh" 46 #include "G4Deuteron.hh" 46 #include "G4Deuteron.hh" 47 #include "G4Triton.hh" 47 #include "G4Triton.hh" 48 #include "G4He3.hh" 48 #include "G4He3.hh" 49 #include "G4Alpha.hh" 49 #include "G4Alpha.hh" 50 50 51 #include <fstream> 51 #include <fstream> 52 52 53 G4LENDManager* G4LENDManager::lend_manager = N 53 G4LENDManager* G4LENDManager::lend_manager = NULL; 54 54 55 55 56 G4LENDManager::G4LENDManager() 56 G4LENDManager::G4LENDManager() 57 :verboseLevel( 0 ) 57 :verboseLevel( 0 ) 58 { 58 { 59 59 60 //printBanner(); 60 //printBanner(); 61 61 62 G4String xmcf; 62 G4String xmcf; 63 G4String xmcf_gamma; 63 G4String xmcf_gamma; 64 G4String xmcf_p; 64 G4String xmcf_p; 65 G4String xmcf_d; 65 G4String xmcf_d; 66 G4String xmcf_t; 66 G4String xmcf_t; 67 G4String xmcf_he3; 67 G4String xmcf_he3; 68 G4String xmcf_a; 68 G4String xmcf_a; 69 if( G4FindDataDir("G4LENDDATA") == NULL ) { << 69 if( getenv("G4LENDDATA") == NULL ) { 70 throw G4HadronicException(__FILE__, __LI 70 throw G4HadronicException(__FILE__, __LINE__, " Please setenv G4LENDDATA to point to the LEND files." ); 71 } else { 71 } else { 72 xmcf = G4FindDataDir("G4LENDDATA"); << 72 xmcf = getenv("G4LENDDATA"); 73 //xmcf += "/xmcf.n_1.map"; 73 //xmcf += "/xmcf.n_1.map"; 74 xmcf += "/neutrons.map"; 74 xmcf += "/neutrons.map"; 75 xmcf_gamma = G4FindDataDir("G4LENDDATA") << 75 xmcf_gamma = getenv("G4LENDDATA"); 76 xmcf_gamma += "/gammas.map"; 76 xmcf_gamma += "/gammas.map"; 77 xmcf_p = G4FindDataDir("G4LENDDATA"); << 77 xmcf_p = getenv("G4LENDDATA"); 78 xmcf_p += "/protons.map"; 78 xmcf_p += "/protons.map"; 79 xmcf_d = G4FindDataDir("G4LENDDATA"); << 79 xmcf_d = getenv("G4LENDDATA"); 80 xmcf_d += "/deuterons.map"; 80 xmcf_d += "/deuterons.map"; 81 xmcf_t = G4FindDataDir("G4LENDDATA"); << 81 xmcf_t = getenv("G4LENDDATA"); 82 xmcf_t += "/tritons.map"; 82 xmcf_t += "/tritons.map"; 83 xmcf_he3 = G4FindDataDir("G4LENDDATA"); << 83 xmcf_he3 = getenv("G4LENDDATA"); 84 xmcf_he3 += "/He3s.map"; 84 xmcf_he3 += "/He3s.map"; 85 xmcf_a = G4FindDataDir("G4LENDDATA"); << 85 xmcf_a = getenv("G4LENDDATA"); 86 xmcf_a += "/alphas.map"; 86 xmcf_a += "/alphas.map"; 87 } 87 } 88 88 89 //Example of xmcf.n_1.map 89 //Example of xmcf.n_1.map 90 //<map> 90 //<map> 91 //<target schema="MonteCarlo" evaluation="ENDF 91 //<target schema="MonteCarlo" evaluation="ENDF.B-VII.0" projectile="n_1" target="H_1" path="000_n_1/xMC.000_n_1.001_H_1/xMC.000_n_1.001_H_1.xml"/> 92 //</map> 92 //</map> 93 // 93 // 94 // for neutron 94 // for neutron "1" for neutron; see G4GIDI::init 95 proj_lend_map.insert ( std::pair < G4Partic 95 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4Neutron::Neutron() , new G4GIDI( 1 , xmcf ) ) ); 96 // for gamma 96 // for gamma "0" for gamma; see G4GIDI::init 97 proj_lend_map.insert ( std::pair < G4Partic 97 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4Gamma::Gamma() , new G4GIDI( 0 , xmcf_gamma ) ) ); 98 // 98 // 99 std::ifstream aFile; 99 std::ifstream aFile; 100 aFile.open( xmcf_p.c_str() ); 100 aFile.open( xmcf_p.c_str() ); 101 if ( aFile.good() ) { 101 if ( aFile.good() ) { 102 aFile.close(); 102 aFile.close(); 103 proj_lend_map.insert ( std::pair < G4Par 103 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4Proton::Proton() , new G4GIDI( 2 , xmcf_p ) ) ); 104 } else { 104 } else { 105 aFile.close(); 105 aFile.close(); 106 } 106 } 107 aFile.open( xmcf_d.c_str() ); 107 aFile.open( xmcf_d.c_str() ); 108 if ( aFile.good() ) { 108 if ( aFile.good() ) { 109 aFile.close(); 109 aFile.close(); 110 proj_lend_map.insert ( std::pair < G4Par 110 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4Deuteron::Deuteron() , new G4GIDI( 3 , xmcf_d ) ) ); 111 } else { 111 } else { 112 aFile.close(); 112 aFile.close(); 113 } 113 } 114 aFile.open( xmcf_t.c_str() ); 114 aFile.open( xmcf_t.c_str() ); 115 if ( aFile.good() ) { 115 if ( aFile.good() ) { 116 aFile.close(); 116 aFile.close(); 117 proj_lend_map.insert ( std::pair < G4Par 117 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4Triton::Triton() , new G4GIDI( 4 , xmcf_t ) ) ); 118 } else { 118 } else { 119 aFile.close(); 119 aFile.close(); 120 } 120 } 121 aFile.open( xmcf_he3.c_str() ); 121 aFile.open( xmcf_he3.c_str() ); 122 if ( aFile.good() ) { 122 if ( aFile.good() ) { 123 aFile.close(); 123 aFile.close(); 124 proj_lend_map.insert ( std::pair < G4Par 124 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4He3::He3() , new G4GIDI( 5 , xmcf_he3 ) ) ); 125 } else { 125 } else { 126 aFile.close(); 126 aFile.close(); 127 } 127 } 128 aFile.open( xmcf_a.c_str() ); 128 aFile.open( xmcf_a.c_str() ); 129 if ( aFile.good() ) { 129 if ( aFile.good() ) { 130 aFile.close(); 130 aFile.close(); 131 proj_lend_map.insert ( std::pair < G4Par 131 proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( G4Alpha::Alpha() , new G4GIDI( 6 , xmcf_a ) ) ); 132 } else { 132 } else { 133 aFile.close(); 133 aFile.close(); 134 } 134 } 135 135 136 136 137 137 138 // proj_lend_map.insert ( std::pair < G4Partic 138 // proj_lend_map.insert ( std::pair < G4ParticleDefinition* , G4GIDI* > ( xxx , new G4GIDI( xxx , xmcf ) ) ); 139 139 140 v_lend_target.clear(); 140 v_lend_target.clear(); 141 141 142 //ionTable = new G4IonTable(); 142 //ionTable = new G4IonTable(); 143 ionTable = G4ParticleTable::GetParticleTabl 143 ionTable = G4ParticleTable::GetParticleTable()->GetIonTable(); 144 nistElementBuilder = new G4NistElementBuild 144 nistElementBuilder = new G4NistElementBuilder( 0 ); 145 145 146 //Prepare table of excitation energy of exc 146 //Prepare table of excitation energy of excited isomers 147 G4int pdgCode; 147 G4int pdgCode; 148 // iZ iA iM ->Co58m1 148 // iZ iA iM ->Co58m1 149 pdgCode= 10000 * 27 + 10 * 58 + 1; 149 pdgCode= 10000 * 27 + 10 * 58 + 1; 150 pdgCode = GetNucleusEncoding( 27 , 58 , 1 ) 150 pdgCode = GetNucleusEncoding( 27 , 58 , 1 ); 151 mExcitationEnergy.insert(std::pair<G4int,G4 151 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 24890 *CLHEP::eV)); 152 pdgCode= 10000 * 47 + 10 * 110 + 1; 152 pdgCode= 10000 * 47 + 10 * 110 + 1; 153 pdgCode = GetNucleusEncoding( 47 , 110 , 1 153 pdgCode = GetNucleusEncoding( 47 , 110 , 1 ); 154 mExcitationEnergy.insert(std::pair<G4int,G4 154 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 117590 *CLHEP::eV)); 155 pdgCode= 10000 * 48 + 10 * 115 + 1; 155 pdgCode= 10000 * 48 + 10 * 115 + 1; 156 pdgCode = GetNucleusEncoding( 48 , 115 , 1 156 pdgCode = GetNucleusEncoding( 48 , 115 , 1 ); 157 mExcitationEnergy.insert(std::pair<G4int,G4 157 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 181000 *CLHEP::eV)); 158 pdgCode= 10000 * 52 + 10 * 127 + 1; 158 pdgCode= 10000 * 52 + 10 * 127 + 1; 159 pdgCode = GetNucleusEncoding( 52 , 127 , 1 159 pdgCode = GetNucleusEncoding( 52 , 127 , 1 ); 160 mExcitationEnergy.insert(std::pair<G4int,G4 160 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 88260 *CLHEP::eV)); 161 pdgCode= 10000 * 52 + 10 * 129 + 1; 161 pdgCode= 10000 * 52 + 10 * 129 + 1; 162 pdgCode = GetNucleusEncoding( 52 , 129 , 1 162 pdgCode = GetNucleusEncoding( 52 , 129 , 1 ); 163 mExcitationEnergy.insert(std::pair<G4int,G4 163 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 105280 *CLHEP::eV)); 164 pdgCode= 10000 * 61 + 10 * 148 + 1; 164 pdgCode= 10000 * 61 + 10 * 148 + 1; 165 pdgCode = GetNucleusEncoding( 61 , 148 , 1 165 pdgCode = GetNucleusEncoding( 61 , 148 , 1 ); 166 mExcitationEnergy.insert(std::pair<G4int,G4 166 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 137900 *CLHEP::eV)); 167 pdgCode= 10000 * 67 + 10 * 166 + 1; 167 pdgCode= 10000 * 67 + 10 * 166 + 1; 168 pdgCode = GetNucleusEncoding( 67 , 166 , 1 168 pdgCode = GetNucleusEncoding( 67 , 166 , 1 ); 169 mExcitationEnergy.insert(std::pair<G4int,G4 169 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 5985 *CLHEP::eV)); 170 pdgCode= 10000 * 95 + 10 * 242 + 1; 170 pdgCode= 10000 * 95 + 10 * 242 + 1; 171 pdgCode = GetNucleusEncoding( 95 , 242 , 1 171 pdgCode = GetNucleusEncoding( 95 , 242 , 1 ); 172 mExcitationEnergy.insert(std::pair<G4int,G4 172 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 48600 *CLHEP::eV)); 173 pdgCode= 10000 * 95 + 10 * 244 + 1; 173 pdgCode= 10000 * 95 + 10 * 244 + 1; 174 pdgCode = GetNucleusEncoding( 95 , 244 , 1 174 pdgCode = GetNucleusEncoding( 95 , 244 , 1 ); 175 mExcitationEnergy.insert(std::pair<G4int,G4 175 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 87999.9*CLHEP::eV)); 176 pdgCode= 10000 * 99 + 10 * 254 + 1; 176 pdgCode= 10000 * 99 + 10 * 254 + 1; 177 pdgCode = GetNucleusEncoding( 99 , 254 , 1 177 pdgCode = GetNucleusEncoding( 99 , 254 , 1 ); 178 mExcitationEnergy.insert(std::pair<G4int,G4 178 mExcitationEnergy.insert(std::pair<G4int,G4double>( pdgCode, 84200 *CLHEP::eV)); 179 179 180 } 180 } 181 181 182 182 183 183 184 G4LENDManager::~G4LENDManager() 184 G4LENDManager::~G4LENDManager() 185 { 185 { 186 186 187 // deleting target 187 // deleting target 188 for ( auto it = v_lend_target.cbegin() ; it << 188 for ( std::vector < lend_target >::iterator >> 189 it = v_lend_target.begin() ; it != v_lend_target.end() ; it++ ) 189 { 190 { 190 (*it).lend->freeTarget( it->target ); 191 (*it).lend->freeTarget( it->target ); 191 } 192 } 192 193 193 // deleting lend 194 // deleting lend 194 for ( auto it = proj_lend_map.cbegin() ; it << 195 for ( std::map < G4ParticleDefinition* , G4GIDI* >::iterator >> 196 it = proj_lend_map.begin() ; it != proj_lend_map.end() ; it++ ) 195 { 197 { 196 delete it->second; 198 delete it->second; 197 } 199 } 198 200 199 //delete ionTable; 201 //delete ionTable; 200 delete nistElementBuilder; 202 delete nistElementBuilder; 201 203 202 } 204 } 203 205 204 206 205 207 206 G4GIDI_target* G4LENDManager::GetLENDTarget( G << 208 G4GIDI_target* G4LENDManager::GetLENDTarget( G4ParticleDefinition* proj , G4String evaluation , G4int iZ , G4int iA , G4int iM ) 207 { 209 { 208 210 209 G4GIDI_target* anLENDTarget = NULL; 211 G4GIDI_target* anLENDTarget = NULL; 210 212 211 if ( iM > 9 ) { 213 if ( iM > 9 ) { 212 throw G4HadronicException(__FILE__, __LI 214 throw G4HadronicException(__FILE__, __LINE__, "Requested isomer level of target is too high." ); 213 } 215 } 214 216 215 G4int iTarg = GetNucleusEncoding( iZ , iA , 217 G4int iTarg = GetNucleusEncoding( iZ , iA , iM ); 216 218 217 // Searching in current map 219 // Searching in current map 218 for ( auto it = v_lend_target.cbegin() ; it << 220 for ( std::vector < lend_target >::iterator >> 221 it = v_lend_target.begin() ; it != v_lend_target.end() ; it++ ) 219 { 222 { 220 if ( it->proj == proj && it->target_code 223 if ( it->proj == proj && it->target_code == iTarg && it->evaluation == evaluation ) 221 { 224 { 222 //find! 225 //find! 223 return it->target; 226 return it->target; 224 } 227 } 225 } 228 } 226 229 227 230 228 if ( proj_lend_map.find ( proj ) == proj_le << 231 if ( proj_lend_map.find ( proj ) == proj_lend_map.end() ) { 229 G4cout << proj->GetParticleName() << " i 232 G4cout << proj->GetParticleName() << " is not supported by this LEND library." << G4endl; 230 return anLENDTarget; // return NULL 233 return anLENDTarget; // return NULL 231 } 234 } 232 235 233 G4GIDI* xlend = proj_lend_map.find ( proj ) 236 G4GIDI* xlend = proj_lend_map.find ( proj ) -> second; 234 237 235 if ( xlend->isThisDataAvailable( evaluation 238 if ( xlend->isThisDataAvailable( evaluation, iZ, iA , iM ) ) 236 { 239 { 237 240 238 if ( verboseLevel > 1 ) { 241 if ( verboseLevel > 1 ) { 239 G4cout << evaluation << " for " << io 242 G4cout << evaluation << " for " << ionTable->GetIonName( iZ , iA , 0 ) 240 << " with Isomer level of " < 243 << " with Isomer level of " << iM << " is exist in this LEND." << G4endl; 241 } 244 } 242 245 243 anLENDTarget = xlend->readTarget( evalua 246 anLENDTarget = xlend->readTarget( evaluation , iZ , iA , iM ); 244 247 245 lend_target new_target; 248 lend_target new_target; 246 new_target.lend = xlend; 249 new_target.lend = xlend; 247 new_target.target = anLENDTarget; 250 new_target.target = anLENDTarget; 248 new_target.proj = proj; 251 new_target.proj = proj; 249 new_target.evaluation = evaluation; 252 new_target.evaluation = evaluation; 250 new_target.target_code = iTarg; 253 new_target.target_code = iTarg; 251 254 252 v_lend_target.push_back( std::move(new_t << 255 v_lend_target.push_back( new_target ); 253 256 254 // found EXACT 257 // found EXACT 255 return anLENDTarget; 258 return anLENDTarget; 256 259 257 } 260 } 258 else 261 else 259 { 262 { 260 // NO EXACT DATA (Evaluatino & Z,A,M) 263 // NO EXACT DATA (Evaluatino & Z,A,M) 261 264 262 //Searching available evaluation and nat 265 //Searching available evaluation and natural abundance data and give suggestions. 263 // 266 // 264 if ( verboseLevel > 1 ) 267 if ( verboseLevel > 1 ) 265 G4cout << evaluation << " for " << io 268 G4cout << evaluation << " for " << ionTable->GetIonName( iZ , iA , 0 ) 266 << " with Isomer level of " << 269 << " with Isomer level of " << iM << " is not exist in this LEND." << G4endl; 267 270 268 std::vector< std::string >* available = 271 std::vector< std::string >* available = xlend->getNamesOfAvailableLibraries( iZ, iA , iM ); 269 if ( available->size() > 0 ) { 272 if ( available->size() > 0 ) { 270 // EXACT Z,A,M but Evaluation is differe 273 // EXACT Z,A,M but Evaluation is different 271 if ( verboseLevel > 1 ) 274 if ( verboseLevel > 1 ) 272 { 275 { 273 G4cout << " However you can use fo 276 G4cout << " However you can use following evaluation(s) for the target. " << G4endl; 274 277 275 for ( auto its = available->cbegin << 278 std::vector< std::string >::iterator its; >> 279 for ( its = available->begin() ; its != available->end() ; its++ ) 276 G4cout << *its << G4endl; 280 G4cout << *its << G4endl; 277 281 278 G4cout << G4endl; 282 G4cout << G4endl; 279 } 283 } 280 } else if ( xlend->isThisDataAvailable( 284 } else if ( xlend->isThisDataAvailable( evaluation, iZ, 0 , iM ) ) { 281 // 285 // 282 // checking natural abundance data for Z 286 // checking natural abundance data for Z 283 // 287 // 284 // EXACT natural abundance data for the 288 // EXACT natural abundance data for the evaluation 285 if ( verboseLevel > 1 ) 289 if ( verboseLevel > 1 ) 286 G4cout << " However you can use na 290 G4cout << " However you can use natural abundance data for the target. " << G4endl; 287 } 291 } 288 else 292 else 289 { 293 { 290 std::vector< std::string >* available 294 std::vector< std::string >* available_nat = xlend->getNamesOfAvailableLibraries( iZ, 0 , iM ); 291 // 295 // 292 if ( available_nat->size() > 0 ) { 296 if ( available_nat->size() > 0 ) { 293 // EXACT natural abundance data for Z 297 // EXACT natural abundance data for Z but differnet evaluation 294 if ( verboseLevel > 1 ) { 298 if ( verboseLevel > 1 ) { 295 G4cout << " However you can use 299 G4cout << " However you can use following evaluation(s) for natural abundace of the target. " << G4endl; 296 300 297 for ( auto its = available_nat- << 301 std::vector< std::string >::iterator its; >> 302 for ( its = available_nat->begin() ; its != available_nat->end() ; its++ ) 298 G4cout << *its << G4endl; 303 G4cout << *its << G4endl; 299 G4cout << G4endl; 304 G4cout << G4endl; 300 } 305 } 301 } 306 } 302 delete available_nat; 307 delete available_nat; 303 } 308 } 304 delete available; 309 delete available; 305 // return NULL if exact data is not availab 310 // return NULL if exact data is not available 306 return anLENDTarget; // return NULL 311 return anLENDTarget; // return NULL 307 } 312 } 308 313 309 return anLENDTarget; 314 return anLENDTarget; 310 } 315 } 311 316 312 317 313 std::vector< G4String > G4LENDManager::IsLENDT 318 std::vector< G4String > G4LENDManager::IsLENDTargetAvailable ( G4ParticleDefinition* proj , G4int iZ , G4int iA , G4int iM ) 314 { 319 { 315 320 316 std::vector< G4String > vEvaluation; 321 std::vector< G4String > vEvaluation; 317 if ( proj_lend_map.find ( proj ) == proj_le << 322 if ( proj_lend_map.find ( proj ) == proj_lend_map.end() ) 318 { 323 { 319 G4cout << proj->GetParticleName() << " i 324 G4cout << proj->GetParticleName() << " is not supported by this LEND." << G4endl; 320 return vEvaluation; // return empty 325 return vEvaluation; // return empty 321 } 326 } 322 327 323 G4GIDI* xlend = proj_lend_map.find ( proj ) 328 G4GIDI* xlend = proj_lend_map.find ( proj ) -> second; 324 std::vector< std::string >* available = xl 329 std::vector< std::string >* available = xlend->getNamesOfAvailableLibraries( iZ, iA , iM ); 325 330 326 if ( available->size() > 0 ) { 331 if ( available->size() > 0 ) { 327 for ( auto its = available->cbegin() ; i << 332 std::vector< std::string >::iterator its; >> 333 for ( its = available->begin() ; its != available->end() ; its++ ) 328 vEvaluation.push_back ( *its ); 334 vEvaluation.push_back ( *its ); 329 } 335 } 330 delete available; 336 delete available; 331 337 332 return vEvaluation; 338 return vEvaluation; 333 } 339 } 334 340 335 341 336 342 337 G4int G4LENDManager::GetNucleusEncoding ( G4in 343 G4int G4LENDManager::GetNucleusEncoding ( G4int iZ , G4int iA , G4int iM ) 338 { 344 { 339 G4int value = ionTable->GetNucleusEncoding( 345 G4int value = ionTable->GetNucleusEncoding( iZ , iA ); // Ground State 340 346 // G4double E=0.0, G4int J=0); 341 value += iM; 347 value += iM; 342 return value; 348 return value; 343 } 349 } 344 350 345 351 346 352 347 void G4LENDManager::printBanner() 353 void G4LENDManager::printBanner() 348 { 354 { 349 G4cout << " <<BEGIN-copyright>> " << G4endl 355 G4cout << " <<BEGIN-copyright>> " << G4endl; 350 G4cout << " Copyright (c) 2010, Lawrence Li 356 G4cout << " Copyright (c) 2010, Lawrence Livermore National Security, LLC. " << G4endl; 351 G4cout << " Produced at the Lawrence Liverm 357 G4cout << " Produced at the Lawrence Livermore National Laboratory " << G4endl; 352 G4cout << " Written by Bret R. Beck, beck6@ 358 G4cout << " Written by Bret R. Beck, beck6@llnl.gov. " << G4endl; 353 G4cout << " CODE-461393 " << G4endl; 359 G4cout << " CODE-461393 " << G4endl; 354 G4cout << " All rights reserved. " << G4en 360 G4cout << " All rights reserved. " << G4endl; 355 G4cout << " " << G4endl; 361 G4cout << " " << G4endl; 356 G4cout << " This file is part of GIDI. For 362 G4cout << " This file is part of GIDI. For details, see nuclear.llnl.gov. " << G4endl; 357 G4cout << " Please also read the \"Addition 363 G4cout << " Please also read the \"Additional BSD Notice\" at nuclear.llnl.gov. " << G4endl; 358 G4cout << " " << G4endl; 364 G4cout << " " << G4endl; 359 G4cout << " Redistribution and use in sourc 365 G4cout << " Redistribution and use in source and binary forms, with or without modification, " << G4endl; 360 G4cout << " are permitted provided that the 366 G4cout << " are permitted provided that the following conditions are met: " << G4endl; 361 G4cout << " " << G4endl; 367 G4cout << " " << G4endl; 362 G4cout << " 1) Redistributions of sour 368 G4cout << " 1) Redistributions of source code must retain the above copyright notice, " << G4endl; 363 G4cout << " this list of conditions 369 G4cout << " this list of conditions and the disclaimer below. " << G4endl; 364 G4cout << " 2) Redistributions in bina 370 G4cout << " 2) Redistributions in binary form must reproduce the above copyright notice, " << G4endl; 365 G4cout << " this list of conditions 371 G4cout << " this list of conditions and the disclaimer (as noted below) in the " << G4endl; 366 G4cout << " documentation and/or o 372 G4cout << " documentation and/or other materials provided with the distribution. " << G4endl; 367 G4cout << " 3) Neither the name of the 373 G4cout << " 3) Neither the name of the LLNS/LLNL nor the names of its contributors may be " << G4endl; 368 G4cout << " used to endorse or prom 374 G4cout << " used to endorse or promote products derived from this software without " << G4endl; 369 G4cout << " specific prior written 375 G4cout << " specific prior written permission. " << G4endl; 370 G4cout << " " << G4endl; 376 G4cout << " " << G4endl; 371 G4cout << " THIS SOFTWARE IS PROVIDED BY TH 377 G4cout << " THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS \"AS IS\" AND ANY " << G4endl; 372 G4cout << " EXPRESS OR IMPLIED WARRANTIES, 378 G4cout << " EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE IMPLIED WARRANTIES " << G4endl; 373 G4cout << " OF MERCHANTABILITY AND FITNESS 379 G4cout << " OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE DISCLAIMED. IN NO EVENT " << G4endl; 374 G4cout << " SHALL LAWRENCE LIVERMORE NATION 380 G4cout << " SHALL LAWRENCE LIVERMORE NATIONAL SECURITY, LLC, THE U.S. DEPARTMENT OF ENERGY OR " << G4endl; 375 G4cout << " CONTRIBUTORS BE LIABLE FOR ANY 381 G4cout << " CONTRIBUTORS BE LIABLE FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR " << G4endl; 376 G4cout << " CONSEQUENTIAL DAMAGES (INCLUDIN 382 G4cout << " CONSEQUENTIAL DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS " << G4endl; 377 G4cout << " OR SERVICES; LOSS OF USE, DATA 383 G4cout << " OR SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER CAUSED " << G4endl; 378 G4cout << " AND ON ANY THEORY OF LIABILITY 384 G4cout << " AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, OR TORT " << G4endl; 379 G4cout << " (INCLUDING NEGLIGENCE OR OTHERW 385 G4cout << " (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE OF THIS SOFTWARE, " << G4endl; 380 G4cout << " EVEN IF ADVISED OF THE POSSIBIL 386 G4cout << " EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. " << G4endl; 381 G4cout << " <<END-copyright>> " << G4endl; 387 G4cout << " <<END-copyright>> " << G4endl; 382 } 388 } 383 389 384 390 385 G4bool G4LENDManager::RequestChangeOfVerboseLe 391 G4bool G4LENDManager::RequestChangeOfVerboseLevel( G4int newValue ) 386 { 392 { 387 G4bool result=false; 393 G4bool result=false; 388 if ( newValue >= verboseLevel) 394 if ( newValue >= verboseLevel) 389 { 395 { 390 verboseLevel = newValue; 396 verboseLevel = newValue; 391 result=true; 397 result=true; 392 } 398 } 393 else 399 else 394 { 400 { 395 G4cout << "Since other LEND model or cro 401 G4cout << "Since other LEND model or cross section have set the higher verbose level (" << verboseLevel << ") in LENDManager, you cannot change the value now." << G4endl; 396 } 402 } 397 403 398 return result; 404 return result; 399 } 405 } 400 406 401 G4double G4LENDManager::GetExcitationEnergyOfE 407 G4double G4LENDManager::GetExcitationEnergyOfExcitedIsomer( G4int iZ , G4int iA , G4int iM ) 402 { 408 { 403 G4double EE = 0.0; 409 G4double EE = 0.0; 404 G4int nucCode = GetNucleusEncoding( iZ , iA 410 G4int nucCode = GetNucleusEncoding( iZ , iA , iM ); 405 auto it = mExcitationEnergy.find( nucCode ) 411 auto it = mExcitationEnergy.find( nucCode ); 406 if ( it != mExcitationEnergy.cend() ) { << 412 if ( it != mExcitationEnergy.end() ) { 407 EE = it->second; 413 EE = it->second; 408 } else { 414 } else { 409 if ( iM == 0 ) { 415 if ( iM == 0 ) { 410 G4cout << "G4LENDManager::GetExcitati 416 G4cout << "G4LENDManager::GetExcitationEnergyOfExcitedIsomer is called for ground state (iM=0) nucleus" << G4endl; 411 } else { 417 } else { 412 G4cout << "Can not find excitation en 418 G4cout << "Can not find excitation energy for Z = " << iZ << ", A = " << iA << ", M = " << iM << " and the energy set to 0." << G4endl; 413 } 419 } 414 } 420 } 415 return EE; 421 return EE; 416 } 422 } 417 423