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Geant4/examples/extended/parameterisations/Par02/src/Par02DetectorConstruction.cc

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Diff markup

Differences between /examples/extended/parameterisations/Par02/src/Par02DetectorConstruction.cc (Version 11.3.0) and /examples/extended/parameterisations/Par02/src/Par02DetectorConstruction.cc (Version 11.1.2)


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 26 //                                                 26 //
 27 /// \file Par02DetectorConstruction.cc             27 /// \file Par02DetectorConstruction.cc
 28 /// \brief Implementation of the Par02Detector     28 /// \brief Implementation of the Par02DetectorConstruction class
 29                                                    29 
 30 #include "Par02DetectorConstruction.hh"            30 #include "Par02DetectorConstruction.hh"
 31                                                << 
 32 #include "G4AutoDelete.hh"                     << 
 33 #include "G4GDMLParser.hh"                     << 
 34 #include "G4GlobalMagFieldMessenger.hh"        << 
 35 #include "G4ProductionCuts.hh"                     31 #include "G4ProductionCuts.hh"
 36 #include "G4RegionStore.hh"                    << 
 37 #include "G4SystemOfUnits.hh"                      32 #include "G4SystemOfUnits.hh"
                                                   >>  33 #include "G4RegionStore.hh"
                                                   >>  34 #include "G4GDMLParser.hh"
                                                   >>  35 #include "G4AutoDelete.hh"
                                                   >>  36 #include "G4GlobalMagFieldMessenger.hh"
                                                   >>  37 #include "G4AutoDelete.hh"
 38                                                    38 
 39 //....oooOO0OOooo........oooOO0OOooo........oo     39 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 40                                                    40 
 41 Par02DetectorConstruction::Par02DetectorConstr <<  41 Par02DetectorConstruction::Par02DetectorConstruction() {}
 42                                                    42 
 43 //....oooOO0OOooo........oooOO0OOooo........oo     43 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 44                                                    44 
 45 Par02DetectorConstruction::~Par02DetectorConst <<  45 Par02DetectorConstruction::~Par02DetectorConstruction() {}
 46                                                    46 
 47 //....oooOO0OOooo........oooOO0OOooo........oo     47 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
 48                                                    48 
 49 G4VPhysicalVolume* Par02DetectorConstruction:: <<  49 G4VPhysicalVolume* Par02DetectorConstruction::Construct() {
 50 {                                              << 
 51   G4GDMLParser parser;                             50   G4GDMLParser parser;
 52   parser.Read("Par02FullDetector.gdml");       <<  51   parser.Read( "Par02FullDetector.gdml" );
 53   G4cout << "Geometry loaded from  file ......     52   G4cout << "Geometry loaded from  file .......Par02FullDetector.gdml " << G4endl;
 54                                                    53 
 55   // This GDML detector description uses the a     54   // This GDML detector description uses the auxiliary information part to store
 56   // information regarding which Geant4 volume     55   // information regarding which Geant4 volumes have a fast simulation model.
 57                                                    56 
 58   const G4GDMLAuxMapType* aAuxMap = parser.Get     57   const G4GDMLAuxMapType* aAuxMap = parser.GetAuxMap();
 59   for (G4GDMLAuxMapType::const_iterator iter = <<  58   for ( G4GDMLAuxMapType::const_iterator iter = aAuxMap->begin();
 60     for (G4GDMLAuxListType::const_iterator vit <<  59         iter != aAuxMap->end(); ++iter ) {
 61          vit != (*iter).second.end(); ++vit)   <<  60     for ( G4GDMLAuxListType::const_iterator vit = (*iter).second.begin();
 62     {                                          <<  61           vit != (*iter).second.end(); ++vit ) {
 63       if ((*vit).type == "FastSimModel") {     <<  62       if ( (*vit).type == "FastSimModel" ) {
 64         G4LogicalVolume* myvol = (*iter).first     63         G4LogicalVolume* myvol = (*iter).first;
 65         if ((myvol->GetName()).find("Tracker") <<  64         if ( ( myvol->GetName() ).find( "Tracker" ) != std::string::npos ) {
 66           fTrackerList.push_back(new G4Region( <<  65           fTrackerList.push_back( new G4Region( myvol->GetName() ) );
 67           fTrackerList.back()->AddRootLogicalV <<  66           fTrackerList.back()->AddRootLogicalVolume( myvol );
 68           G4cout << G4endl << "tracker !!!" <<     67           G4cout << G4endl << "tracker !!!" << G4endl;
 69         }                                      <<  68         } else if ( ( myvol->GetName() ).find( "HCal" ) != std::string::npos ) {
 70         else if ((myvol->GetName()).find("HCal <<  69           fHCalList.push_back( new G4Region( myvol->GetName() ) );
 71           fHCalList.push_back(new G4Region(myv <<  70           fHCalList.back()->AddRootLogicalVolume( myvol );
 72           fHCalList.back()->AddRootLogicalVolu << 
 73           G4cout << G4endl << "hcal !!!" << G4     71           G4cout << G4endl << "hcal !!!" << G4endl;
 74         }                                      <<  72         } else if ( ( myvol->GetName() ).find( "ECal" ) != std::string::npos ) {
 75         else if ((myvol->GetName()).find("ECal <<  73           fECalList.push_back( new G4Region( myvol->GetName() ) );
 76           fECalList.push_back(new G4Region(myv <<  74           fECalList.back()->AddRootLogicalVolume( myvol );
 77           fECalList.back()->AddRootLogicalVolu << 
 78           G4cout << G4endl << "ecal !!!" << G4     75           G4cout << G4endl << "ecal !!!" << G4endl;
 79         }                                      <<  76         } else if ( ( myvol->GetName() ).find( "Muon" ) != std::string::npos ) {
 80         else if ((myvol->GetName()).find("Muon <<  77           fMuonList.push_back( new G4Region( myvol->GetName() ) );
 81           fMuonList.push_back(new G4Region(myv <<  78           fMuonList.back()->AddRootLogicalVolume( myvol );
 82           fMuonList.back()->AddRootLogicalVolu <<  79         } else {
 83         }                                      << 
 84         else {                                 << 
 85           G4cout << G4endl << "NOT A KNOWN DET     80           G4cout << G4endl << "NOT A KNOWN DETECTOR !!!" << G4endl;
 86         }                                          81         }
 87       }                                            82       }
 88     }                                              83     }
 89   }                                                84   }
 90   for (G4int iterTracker = 0; iterTracker < G4 <<  85   for ( G4int iterTracker = 0; iterTracker < G4int( fTrackerList.size() ); 
 91     fTrackerList[iterTracker]->SetProductionCu <<  86         iterTracker++ ) {
 92     fTrackerList[iterTracker]->GetProductionCu <<  87     fTrackerList[ iterTracker ]->SetProductionCuts( new G4ProductionCuts() );
 93       1.0                                      <<  88     fTrackerList[ iterTracker ]->GetProductionCuts()->SetProductionCut
 94       * ((*fTrackerList[iterTracker]->GetRootL <<  89       ( 1.0* ( ( *fTrackerList[ iterTracker ]->GetRootLogicalVolumeIterator() )->
 95     fTrackerList[iterTracker]->GetProductionCu <<  90           GetMaterial()->GetRadlen() ) );
 96   }                                            <<  91     fTrackerList[ iterTracker ]->GetProductionCuts()->
 97   for (G4int iterECal = 0; iterECal < G4int(fE <<  92       SetProductionCut( 1.0*m, idxG4GammaCut );
 98     fECalList[iterECal]->SetProductionCuts(new <<  93   }
 99     fECalList[iterECal]->GetProductionCuts()-> <<  94   for ( G4int iterECal = 0; iterECal < G4int( fECalList.size() ); iterECal++ ) {
100       0.5 * ((*fECalList[iterECal]->GetRootLog <<  95     fECalList[ iterECal ]->SetProductionCuts( new G4ProductionCuts() );
101     fECalList[iterECal]->GetProductionCuts()-> <<  96     fECalList[ iterECal ]->GetProductionCuts()->SetProductionCut
102   }                                            <<  97       ( 0.5* ( ( *fECalList[ iterECal ]->GetRootLogicalVolumeIterator() )->
103   for (G4int iterHCal = 0; iterHCal < G4int(fH <<  98           GetMaterial()->GetRadlen() ) );
104     fHCalList[iterHCal]->SetProductionCuts(new <<  99     fECalList[ iterECal ]->GetProductionCuts()->
105     fHCalList[iterHCal]->GetProductionCuts()-> << 100       SetProductionCut( 0.1*m, idxG4GammaCut );
106       0.5 * ((*fHCalList[iterHCal]->GetRootLog << 101   }
107     fHCalList[iterHCal]->GetProductionCuts()-> << 102   for ( G4int iterHCal = 0; iterHCal < G4int( fHCalList.size() ); iterHCal++ ) {
                                                   >> 103     fHCalList[ iterHCal ]->SetProductionCuts( new G4ProductionCuts() );
                                                   >> 104     fHCalList[ iterHCal ]->GetProductionCuts()->SetProductionCut(
                                                   >> 105       0.5* ( ( *fHCalList[iterHCal]->GetRootLogicalVolumeIterator() )->
                                                   >> 106         GetMaterial()->GetRadlen() ) );
                                                   >> 107     fHCalList[ iterHCal ]->GetProductionCuts()->
                                                   >> 108       SetProductionCut( 1.0*m, idxG4GammaCut );
108   }                                               109   }
109                                                   110 
110   // Returns the pointer to the physical world    111   // Returns the pointer to the physical world.
111   return parser.GetWorldVolume();                 112   return parser.GetWorldVolume();
112 }                                                 113 }
113                                                   114 
114 //....oooOO0OOooo........oooOO0OOooo........oo    115 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
115                                                   116 
116 void Par02DetectorConstruction::ConstructSDand << 117 void Par02DetectorConstruction::ConstructSDandField() {
117 {                                              << 118   for ( G4int iterTracker = 0; iterTracker < G4int( fTrackerList.size() ); 
118   for (G4int iterTracker = 0; iterTracker < G4 << 119         iterTracker++ ) {
119     // Bound the fast simulation model for the    120     // Bound the fast simulation model for the tracker subdetector
120     // to all the corresponding Geant4 regions    121     // to all the corresponding Geant4 regions
121     Par02FastSimModelTracker* fastSimModelTrac << 122     Par02FastSimModelTracker* fastSimModelTracker
122       "fastSimModelTracker", fTrackerList[iter << 123       = new Par02FastSimModelTracker( "fastSimModelTracker", fTrackerList[ iterTracker ],
123                                                << 124                                       Par02DetectorParametrisation::eCMS );
                                                   >> 125                                      
124     // Register the fast simulation model for     126     // Register the fast simulation model for deleting
125     G4AutoDelete::Register(fastSimModelTracker    127     G4AutoDelete::Register(fastSimModelTracker);
126   }                                               128   }
127   for (G4int iterECal = 0; iterECal < G4int(fE << 129   for ( G4int iterECal = 0; iterECal < G4int( fECalList.size() ); iterECal++ ) {
128     // Bound the fast simulation model for the    130     // Bound the fast simulation model for the electromagnetic calorimeter
129     // to all the corresponding Geant4 regions    131     // to all the corresponding Geant4 regions
130     Par02FastSimModelEMCal* fastSimModelEMCal  << 132     Par02FastSimModelEMCal* fastSimModelEMCal
131       "fastSimModelEMCal", fECalList[iterECal] << 133       = new Par02FastSimModelEMCal( "fastSimModelEMCal", fECalList[ iterECal ],
132                                                << 134                                     Par02DetectorParametrisation::eCMS );
                                                   >> 135                                      
133     // Register the fast simulation model for     136     // Register the fast simulation model for deleting
134     G4AutoDelete::Register(fastSimModelEMCal);    137     G4AutoDelete::Register(fastSimModelEMCal);
135   }                                               138   }
136   for (G4int iterHCal = 0; iterHCal < G4int(fH << 139   for ( G4int iterHCal = 0; iterHCal < G4int( fHCalList.size() ); iterHCal++ ) {
137     // Bound the fast simulation model for the    140     // Bound the fast simulation model for the hadronic calorimeter
138     // to all the corresponding Geant4 regions    141     // to all the corresponding Geant4 regions
139     Par02FastSimModelHCal* fastSimModelHCal =  << 142     Par02FastSimModelHCal* fastSimModelHCal
140       "fastSimModelHCal", fHCalList[iterHCal], << 143       = new Par02FastSimModelHCal( "fastSimModelHCal", fHCalList[ iterHCal ],
141                                                << 144                                    Par02DetectorParametrisation::eCMS );
                                                   >> 145                                      
142     // Register the fast simulation model for     146     // Register the fast simulation model for deleting
143     G4AutoDelete::Register(fastSimModelHCal);  << 147     G4AutoDelete::Register( fastSimModelHCal );
144   }                                               148   }
145   // Currently we don't have a fast muon simul    149   // Currently we don't have a fast muon simulation model to be bound
146   // to all the corresponding Geant4 regions.     150   // to all the corresponding Geant4 regions.
147   // But it could be added in future, in a sim    151   // But it could be added in future, in a similar way as done above for
148   // the tracker subdetector and the electroma    152   // the tracker subdetector and the electromagnetic and hadronic calorimeters.
149                                                   153 
150   // Add global magnetic field                    154   // Add global magnetic field
151   G4ThreeVector fieldValue = G4ThreeVector();     155   G4ThreeVector fieldValue = G4ThreeVector();
152   fMagFieldMessenger = new G4GlobalMagFieldMes << 156   fMagFieldMessenger = new G4GlobalMagFieldMessenger( fieldValue );
153   fMagFieldMessenger->SetVerboseLevel(1);         157   fMagFieldMessenger->SetVerboseLevel(1);
154 }                                                 158 }
155                                                << 159  
156 //....oooOO0OOooo........oooOO0OOooo........oo    160 //....oooOO0OOooo........oooOO0OOooo........oooOO0OOooo........oooOO0OOooo......
                                                   >> 161 
157                                                   162