Geant4 Cross Reference |
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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 // G4GDMLParser inline methods << 27 // 26 // 28 // Author: Zoltan Torzsok, November 2007 << 27 // $Id$ 29 // ------------------------------------------- << 28 // >> 29 // >> 30 // class G4GDMLParser inline methods >> 31 // >> 32 // ------------------------------------------------------------------------- 30 33 31 inline void G4GDMLParser::Read(const G4String& << 34 inline 32 { << 35 void G4GDMLParser::Read(const G4String& filename, G4bool validate) 33 if(G4Threading::IsMasterThread()) << 36 { 34 { << 37 reader->Read(filename,validate,false,strip); 35 reader->Read(filename, validate, false, st << 36 ImportRegions(); << 37 } << 38 } 38 } 39 39 40 // ------------------------------------------- << 40 inline 41 inline void G4GDMLParser::ReadModule(const G4S << 41 void G4GDMLParser::ReadModule(const G4String& filename, G4bool validate) 42 { << 42 { 43 if(G4Threading::IsMasterThread()) << 43 reader->Read(filename,validate,true); 44 { << 45 reader->Read(filename, validate, true); << 46 ImportRegions(); << 47 } << 48 } 44 } 49 45 50 // ------------------------------------------- << 46 inline 51 inline void G4GDMLParser::Write(const G4String << 47 void G4GDMLParser::Write(const G4String& filename, 52 const G4VPhysi << 48 const G4VPhysicalVolume* pvol, 53 const G4String << 49 G4bool refs, 54 { << 50 const G4String& schemaLocation) 55 if(G4Threading::IsMasterThread()) << 51 { 56 { << 52 const G4int depth = 0; 57 const G4int depth = 0; << 53 G4LogicalVolume* lvol = 0; 58 G4LogicalVolume* lvol = nullptr; << 59 54 60 if(pvol == nullptr) << 55 if (!pvol) 61 { << 56 { 62 lvol = G4TransportationManager::GetTrans << 57 lvol = G4TransportationManager::GetTransportationManager()-> 63 ->GetNavigatorForTracking() << 58 GetNavigatorForTracking()->GetWorldVolume()->GetLogicalVolume(); 64 ->GetWorldVolume() << 65 ->GetLogicalVolume(); << 66 } << 67 else << 68 { << 69 lvol = pvol->GetLogicalVolume(); << 70 } << 71 << 72 if(rexp) << 73 { << 74 ExportRegions(refs); << 75 } << 76 writer->Write(filename, lvol, schemaLocati << 77 } 59 } 78 } << 60 else 79 << 80 // ------------------------------------------- << 81 inline void G4GDMLParser::Write(const G4String << 82 const G4Logica << 83 const G4String << 84 { << 85 if(G4Threading::IsMasterThread()) << 86 { 61 { 87 const G4int depth = 0; << 62 lvol = pvol->GetLogicalVolume(); 88 << 89 if(lvol == nullptr) << 90 { << 91 lvol = G4TransportationManager::GetTrans << 92 ->GetNavigatorForTracking() << 93 ->GetWorldVolume() << 94 ->GetLogicalVolume(); << 95 } << 96 if(rexp) << 97 { << 98 ExportRegions(refs); << 99 } << 100 writer->Write(filename, lvol, schemaLocati << 101 } 63 } >> 64 >> 65 writer->Write(filename,lvol,schemaLocation,depth,refs); 102 } 66 } 103 67 104 // ------------------------------------------- << 68 inline 105 inline G4LogicalVolume* G4GDMLParser::ParseST( << 69 void G4GDMLParser::Write(const G4String& filename, 106 << 70 const G4LogicalVolume* lvol, 107 << 71 G4bool refs, 108 { << 72 const G4String& schemaLocation) 109 if(G4Threading::IsMasterThread()) << 73 { 110 { << 74 const G4int depth = 0; 111 G4STRead STreader; << 75 112 return STreader.Read(filename, medium, sol << 76 if (!lvol) 113 } << 114 else << 115 { 77 { 116 return nullptr; << 78 lvol = G4TransportationManager::GetTransportationManager()-> >> 79 GetNavigatorForTracking()->GetWorldVolume()->GetLogicalVolume(); 117 } 80 } >> 81 writer->Write(filename,lvol,schemaLocation,depth,refs); >> 82 } >> 83 >> 84 inline >> 85 G4LogicalVolume* G4GDMLParser::ParseST(const G4String& filename, >> 86 G4Material* medium, >> 87 G4Material* solid) >> 88 { >> 89 G4STRead STreader; >> 90 return STreader.Read(filename, medium, solid); 118 } 91 } 119 92 120 // ------------------------------------------- << 93 // 121 // Methods for Reader 94 // Methods for Reader 122 // ------------------------------------------- << 95 // 123 96 124 inline G4bool G4GDMLParser::IsValid(const G4St 97 inline G4bool G4GDMLParser::IsValid(const G4String& name) const 125 { 98 { 126 return reader->IsValidID(name); 99 return reader->IsValidID(name); 127 } 100 } 128 101 129 inline G4double G4GDMLParser::GetConstant(cons << 102 inline >> 103 G4double G4GDMLParser::GetConstant(const G4String& name) const 130 { 104 { 131 return reader->GetConstant(name); 105 return reader->GetConstant(name); 132 } 106 } 133 107 134 inline G4double G4GDMLParser::GetVariable(cons << 108 inline >> 109 G4double G4GDMLParser::GetVariable(const G4String& name) const 135 { 110 { 136 return reader->GetVariable(name); 111 return reader->GetVariable(name); 137 } 112 } 138 113 139 inline G4double G4GDMLParser::GetQuantity(cons << 114 inline >> 115 G4double G4GDMLParser::GetQuantity(const G4String& name) const 140 { 116 { 141 return reader->GetQuantity(name); 117 return reader->GetQuantity(name); 142 } 118 } 143 119 144 inline G4ThreeVector G4GDMLParser::GetPosition << 120 inline >> 121 G4ThreeVector G4GDMLParser::GetPosition(const G4String& name) const 145 { 122 { 146 return reader->GetPosition(name); 123 return reader->GetPosition(name); 147 } 124 } 148 125 149 inline G4ThreeVector G4GDMLParser::GetRotation << 126 inline >> 127 G4ThreeVector G4GDMLParser::GetRotation(const G4String& name) const 150 { 128 { 151 return reader->GetRotation(name); 129 return reader->GetRotation(name); 152 } 130 } 153 131 154 inline G4ThreeVector G4GDMLParser::GetScale(co << 132 inline >> 133 G4ThreeVector G4GDMLParser::GetScale(const G4String& name) const 155 { 134 { 156 return reader->GetScale(name); 135 return reader->GetScale(name); 157 } 136 } 158 137 159 inline G4GDMLMatrix G4GDMLParser::GetMatrix(co << 138 inline >> 139 G4GDMLMatrix G4GDMLParser::GetMatrix(const G4String& name) const 160 { 140 { 161 return reader->GetMatrix(name); 141 return reader->GetMatrix(name); 162 } 142 } 163 143 164 inline G4LogicalVolume* G4GDMLParser::GetVolum << 144 inline >> 145 G4LogicalVolume* G4GDMLParser::GetVolume(const G4String& name) const 165 { 146 { 166 return reader->GetVolume(name); 147 return reader->GetVolume(name); 167 } 148 } 168 149 169 inline G4VPhysicalVolume* 150 inline G4VPhysicalVolume* 170 G4GDMLParser::GetPhysVolume(const G4String& na << 171 { << 172 return reader->GetPhysvol(name); << 173 } << 174 << 175 inline G4VPhysicalVolume* << 176 G4GDMLParser::GetWorldVolume(const G4String& s 151 G4GDMLParser::GetWorldVolume(const G4String& setupName) const 177 { 152 { 178 return reader->GetWorldVolume(setupName); 153 return reader->GetWorldVolume(setupName); 179 } 154 } 180 155 181 inline G4GDMLAuxListType << 156 inline >> 157 G4GDMLAuxListType 182 G4GDMLParser::GetVolumeAuxiliaryInformation(G4 158 G4GDMLParser::GetVolumeAuxiliaryInformation(G4LogicalVolume* logvol) const 183 { 159 { 184 return reader->GetVolumeAuxiliaryInformation 160 return reader->GetVolumeAuxiliaryInformation(logvol); 185 } 161 } 186 162 187 inline const G4GDMLAuxMapType* G4GDMLParser::G << 163 inline >> 164 const G4GDMLAuxMapType* G4GDMLParser::GetAuxMap() const 188 { 165 { 189 return reader->GetAuxMap(); 166 return reader->GetAuxMap(); 190 } 167 } 191 168 192 inline const G4GDMLAuxListType* G4GDMLParser:: << 169 inline 193 { << 170 void G4GDMLParser::StripNamePointers() const 194 return reader->GetAuxList(); << 195 } << 196 << 197 inline void G4GDMLParser::AddAuxiliary(G4GDMLA << 198 { << 199 return writer->AddAuxiliary(myaux); << 200 } << 201 << 202 inline void G4GDMLParser::StripNamePointers() << 203 { 171 { 204 reader->StripNames(); 172 reader->StripNames(); 205 } 173 } 206 174 207 inline void G4GDMLParser::SetStripFlag(G4bool 175 inline void G4GDMLParser::SetStripFlag(G4bool flag) 208 { 176 { 209 strip = flag; 177 strip = flag; 210 } 178 } 211 179 212 inline void G4GDMLParser::SetOverlapCheck(G4bo 180 inline void G4GDMLParser::SetOverlapCheck(G4bool flag) 213 { 181 { 214 reader->OverlapCheck(flag); 182 reader->OverlapCheck(flag); 215 } 183 } 216 184 217 inline void G4GDMLParser::SetRegionExport(G4bo << 218 { << 219 rexp = flag; << 220 } << 221 << 222 inline void G4GDMLParser::SetEnergyCutsExport( << 223 { << 224 writer->SetEnergyCutsExport(flag); << 225 } << 226 << 227 inline void G4GDMLParser::SetSDExport(G4bool f << 228 { << 229 writer->SetSDExport(flag); << 230 } << 231 << 232 inline void G4GDMLParser::SetReverseSearch(G4b << 233 { << 234 reader->SetReverseSearch(flag); << 235 } << 236 << 237 inline G4int G4GDMLParser::GetMaxExportLevel() << 238 { << 239 return writer->GetMaxExportLevel(); << 240 } << 241 << 242 inline void G4GDMLParser::SetMaxExportLevel(G4 << 243 { << 244 writer->SetMaxExportLevel(level); << 245 } << 246 << 247 inline void G4GDMLParser::Clear() 185 inline void G4GDMLParser::Clear() 248 { 186 { 249 reader->Clear(); 187 reader->Clear(); 250 } 188 } 251 189 252 inline void G4GDMLParser::SetImportSchema(cons << 190 // 253 { << 254 reader->SetSchemaFile(path_and_filename); << 255 } << 256 << 257 // ------------------------------------------- << 258 // Methods for Writer 191 // Methods for Writer 259 // ------------------------------------------- << 192 // 260 193 261 inline void G4GDMLParser::AddModule(const G4VP << 194 inline >> 195 void G4GDMLParser::AddModule(const G4VPhysicalVolume* const physvol) 262 { 196 { 263 writer->AddModule(physvol); 197 writer->AddModule(physvol); 264 } 198 } 265 199 266 inline void G4GDMLParser::AddModule(const G4in << 200 inline >> 201 void G4GDMLParser::AddModule(const G4int depth) 267 { 202 { 268 writer->AddModule(depth); 203 writer->AddModule(depth); 269 } 204 } 270 205 271 inline void G4GDMLParser::SetAddPointerToName( << 206 inline >> 207 void G4GDMLParser::SetAddPointerToName(G4bool set) 272 { 208 { 273 writer->SetAddPointerToName(set); 209 writer->SetAddPointerToName(set); 274 } << 275 << 276 inline void G4GDMLParser::AddVolumeAuxiliary(G << 277 c << 278 { << 279 writer->AddVolumeAuxiliary(myaux, lvol); << 280 } << 281 << 282 inline void G4GDMLParser::SetOutputFileOverwri << 283 { << 284 writer->SetOutputFileOverwrite(flag); << 285 } 210 } 286 211