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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 // >> 26 // >> 27 // $Id: G4LogicalVolume.icc 90701 2015-06-08 09:43:16Z gcosmo $ >> 28 // 25 // 29 // 26 // class G4LogicalVolume inline implementation << 30 // class G4LogicalVolume Inline Implementation file 27 // 31 // 28 // 15.01.13 - G.Cosmo, A.Dotti: Modified for t 32 // 15.01.13 - G.Cosmo, A.Dotti: Modified for thread-safety for MT 29 // 10.20.97 - P. MoraDeFreitas : Added SetFast 33 // 10.20.97 - P. MoraDeFreitas : Added SetFastSimulation method 30 // 05.11.98 - M. Verderi: Add Get/Set methods 34 // 05.11.98 - M. Verderi: Add Get/Set methods for fBiasWeight 31 // 09.11.98 - J.Apostolakis: Changed Magnetic << 35 // 09.11.98 - J. Apostolakis: Changed MagneticField to FieldManager 32 // 12.02.99 - S.Giani: Added set/get methods f 36 // 12.02.99 - S.Giani: Added set/get methods for voxelization quality 33 // 18.04.01 - G.Cosmo: Migrated to STL vector 37 // 18.04.01 - G.Cosmo: Migrated to STL vector 34 // 17.05.02 - G.Cosmo: Added IsToOptimise() me 38 // 17.05.02 - G.Cosmo: Added IsToOptimise() method 35 // ------------------------------------------- 39 // -------------------------------------------------------------------- 36 40 >> 41 >> 42 // These macros change the references to fields that are now encapsulated >> 43 // in the class G4LVData. >> 44 // >> 45 #define G4MT_solid ((subInstanceManager.offset[instanceID]).fSolid) >> 46 #define G4MT_sdetector ((subInstanceManager.offset[instanceID]).fSensitiveDetector) >> 47 #define G4MT_fmanager ((subInstanceManager.offset[instanceID]).fFieldManager) >> 48 #define G4MT_material ((subInstanceManager.offset[instanceID]).fMaterial) >> 49 #define G4MT_mass ((subInstanceManager.offset[instanceID]).fMass) >> 50 #define G4MT_ccouple ((subInstanceManager.offset[instanceID]).fCutsCouple) >> 51 #define G4MT_instance (subInstanceManager.offset[instanceID]) >> 52 >> 53 #include "G4Threading.hh" 37 // ******************************************* 54 // ******************************************************************** 38 // GetName 55 // GetName 39 // ******************************************* 56 // ******************************************************************** 40 // 57 // 41 inline 58 inline 42 const G4String& G4LogicalVolume::GetName() con << 59 G4String G4LogicalVolume::GetName() const 43 { 60 { 44 return fName; 61 return fName; 45 } 62 } 46 63 47 // ******************************************* 64 // ******************************************************************** >> 65 // SetName >> 66 // ******************************************************************** >> 67 // >> 68 inline >> 69 void G4LogicalVolume::SetName(const G4String& pName) >> 70 { >> 71 fName = pName; >> 72 } >> 73 >> 74 // ******************************************************************** 48 // GetInstanceID 75 // GetInstanceID 49 // ******************************************* 76 // ******************************************************************** 50 // 77 // 51 inline 78 inline 52 G4int G4LogicalVolume::GetInstanceID() const 79 G4int G4LogicalVolume::GetInstanceID() const 53 { 80 { 54 return instanceID; 81 return instanceID; 55 } 82 } 56 83 57 // ******************************************* 84 // ******************************************************************** >> 85 // GetFieldManager >> 86 // ******************************************************************** >> 87 // >> 88 inline >> 89 G4FieldManager* G4LogicalVolume::GetFieldManager() const >> 90 { >> 91 return G4MT_fmanager; >> 92 } >> 93 >> 94 inline void G4LogicalVolume::AssignFieldManager( G4FieldManager *fldMgr) >> 95 { >> 96 G4MT_fmanager= fldMgr; >> 97 if(!G4Threading::IsWorkerThread()) fFieldManager = fldMgr; >> 98 } >> 99 >> 100 >> 101 // ******************************************************************** 58 // GetMasterFieldManager 102 // GetMasterFieldManager 59 // ******************************************* 103 // ******************************************************************** 60 // 104 // 61 inline 105 inline 62 G4FieldManager* G4LogicalVolume::GetMasterFiel 106 G4FieldManager* G4LogicalVolume::GetMasterFieldManager() const 63 { 107 { 64 return fFieldManager; 108 return fFieldManager; 65 } 109 } 66 110 67 // ******************************************* 111 // ******************************************************************** 68 // GetNoDaughters 112 // GetNoDaughters 69 // ******************************************* 113 // ******************************************************************** 70 // 114 // 71 inline 115 inline 72 std::size_t G4LogicalVolume::GetNoDaughters() << 116 G4int G4LogicalVolume::GetNoDaughters() const 73 { 117 { 74 return fDaughters.size(); 118 return fDaughters.size(); 75 } 119 } 76 120 77 // ******************************************* 121 // ******************************************************************** 78 // GetDaughter 122 // GetDaughter 79 // ******************************************* 123 // ******************************************************************** 80 // 124 // 81 inline 125 inline 82 G4VPhysicalVolume* G4LogicalVolume::GetDaughte << 126 G4VPhysicalVolume* G4LogicalVolume::GetDaughter(const G4int i) const 83 { 127 { 84 return fDaughters[i]; 128 return fDaughters[i]; 85 } 129 } 86 130 87 // ******************************************* 131 // ******************************************************************** 88 // GetFastSimulationManager 132 // GetFastSimulationManager 89 // ******************************************* 133 // ******************************************************************** 90 // 134 // 91 inline 135 inline 92 G4FastSimulationManager* G4LogicalVolume::GetF 136 G4FastSimulationManager* G4LogicalVolume::GetFastSimulationManager () const 93 { 137 { 94 G4FastSimulationManager* fFSM = nullptr; << 138 G4FastSimulationManager* fFSM = 0; 95 if(fRegion != nullptr) fFSM = fRegion->GetFa << 139 if(fRegion) fFSM = fRegion->GetFastSimulationManager(); 96 return fFSM; 140 return fFSM; 97 } 141 } 98 142 99 // ******************************************* 143 // ******************************************************************** >> 144 // AddDaughter >> 145 // ******************************************************************** >> 146 // >> 147 inline >> 148 void G4LogicalVolume::AddDaughter(G4VPhysicalVolume* pNewDaughter) >> 149 { >> 150 if( !fDaughters.empty() && fDaughters[0]->IsReplicated() ) >> 151 { >> 152 std::ostringstream message; >> 153 message << "ERROR - Attempt to place a volume in a mother volume" << G4endl >> 154 << " already containing a replicated volume." << G4endl >> 155 << " A volume can either contain several placements" << G4endl >> 156 << " or a unique replica or parameterised volume !" << G4endl >> 157 << " Mother logical volume: " << GetName() << G4endl >> 158 << " Placing volume: " << pNewDaughter->GetName() << G4endl; >> 159 G4Exception("G4LogicalVolume::AddDaughter()", "GeomMgt0002", >> 160 FatalException, message, >> 161 "Replica or parameterised volume must be the only daughter !"); >> 162 } >> 163 >> 164 // Invalidate previous calculation of mass - if any - for all threads >> 165 G4MT_mass = 0.; >> 166 // SignalVolumeChange(); // fVolumeChanged= true; >> 167 fDaughters.push_back(pNewDaughter); >> 168 >> 169 G4LogicalVolume* pDaughterLogical = pNewDaughter->GetLogicalVolume(); >> 170 >> 171 // Propagate the Field Manager, if the daughter has no field Manager. >> 172 // >> 173 G4FieldManager* pDaughterFieldManager = pDaughterLogical->GetFieldManager(); >> 174 >> 175 if( pDaughterFieldManager == 0 ) >> 176 { >> 177 pDaughterLogical->SetFieldManager(G4MT_fmanager, false); >> 178 } >> 179 if (fRegion) >> 180 { >> 181 PropagateRegion(); >> 182 fRegion->RegionModified(true); >> 183 } >> 184 } >> 185 >> 186 // ******************************************************************** 100 // IsDaughter 187 // IsDaughter 101 // ******************************************* 188 // ******************************************************************** 102 // 189 // 103 inline 190 inline 104 G4bool G4LogicalVolume::IsDaughter(const G4VPh 191 G4bool G4LogicalVolume::IsDaughter(const G4VPhysicalVolume* p) const 105 { 192 { 106 for (const auto & daughter : fDaughters) << 193 G4PhysicalVolumeList::const_iterator i; >> 194 for ( i=fDaughters.begin(); i!=fDaughters.end(); ++i ) 107 { 195 { 108 if (*daughter==*p) return true; << 196 if (**i==*p) return true; 109 } 197 } 110 return false; 198 return false; 111 } 199 } 112 200 113 // ******************************************* 201 // ******************************************************************** 114 // CharacteriseDaughters << 202 // RemoveDaughter 115 // ******************************************* 203 // ******************************************************************** 116 // 204 // 117 inline 205 inline 118 EVolume G4LogicalVolume::CharacteriseDaughters << 206 void G4LogicalVolume::RemoveDaughter(const G4VPhysicalVolume* p) 119 { 207 { 120 return fDaughtersVolumeType; << 208 G4PhysicalVolumeList::iterator i; >> 209 for ( i=fDaughters.begin(); i!=fDaughters.end(); ++i ) >> 210 { >> 211 if (**i==*p) >> 212 { >> 213 fDaughters.erase(i); >> 214 break; >> 215 } >> 216 } >> 217 if (fRegion) >> 218 { >> 219 fRegion->RegionModified(true); >> 220 } >> 221 G4MT_mass = 0.; 121 } 222 } 122 223 123 // ******************************************* 224 // ******************************************************************** 124 // DeduceDaughtersType << 225 // ClearDaughters 125 // ******************************************* 226 // ******************************************************************** 126 // 227 // 127 inline 228 inline 128 EVolume G4LogicalVolume::DeduceDaughtersType() << 229 void G4LogicalVolume::ClearDaughters() 129 { 230 { 130 EVolume type= kNormal; << 231 G4PhysicalVolumeList::iterator i; 131 G4VPhysicalVolume* pVol; << 232 for ( i=fDaughters.begin(); i!=fDaughters.end(); ++i ) 132 << 233 { 133 if ( GetNoDaughters() >= 1 ) << 234 fDaughters.erase(i); >> 235 } >> 236 if (fRegion) >> 237 { >> 238 fRegion->RegionModified(true); >> 239 } >> 240 G4MT_mass = 0.; >> 241 } >> 242 >> 243 // ******************************************************************** >> 244 // CharacteriseDaughters >> 245 // ******************************************************************** >> 246 // >> 247 inline >> 248 EVolume G4LogicalVolume::CharacteriseDaughters() const >> 249 { >> 250 EVolume type; >> 251 G4VPhysicalVolume *pVol; >> 252 >> 253 if ( GetNoDaughters()==1 ) 134 { 254 { 135 pVol = GetDaughter(0); 255 pVol = GetDaughter(0); 136 type = pVol->VolumeType(); 256 type = pVol->VolumeType(); 137 } 257 } >> 258 else >> 259 { >> 260 type = kNormal; >> 261 } 138 return type; 262 return type; 139 } 263 } 140 264 >> 265 inline >> 266 void G4LogicalVolume::ResetMass() >> 267 { >> 268 G4MT_mass= 0.0; >> 269 } >> 270 >> 271 // ******************************************************************** >> 272 // GetSolid >> 273 // ******************************************************************** >> 274 // >> 275 inline >> 276 G4VSolid* G4LogicalVolume::GetSolid(G4LVData &instLVdata) // const >> 277 { >> 278 return instLVdata.fSolid; >> 279 } >> 280 >> 281 inline >> 282 G4VSolid* G4LogicalVolume::GetSolid() const >> 283 { >> 284 // return G4MT_solid; >> 285 // return ((subInstanceManager.offset[instanceID]).fSolid); >> 286 return this->GetSolid( subInstanceManager.offset[instanceID] ); >> 287 } >> 288 141 // ******************************************* 289 // ******************************************************************** 142 // GetMasterSolid 290 // GetMasterSolid 143 // ******************************************* 291 // ******************************************************************** 144 // 292 // 145 inline 293 inline 146 G4VSolid* G4LogicalVolume::GetMasterSolid() co 294 G4VSolid* G4LogicalVolume::GetMasterSolid() const 147 { 295 { 148 return fSolid; 296 return fSolid; 149 } 297 } 150 298 151 // ******************************************* 299 // ******************************************************************** >> 300 // SetSolid >> 301 // ******************************************************************** >> 302 // >> 303 inline >> 304 void G4LogicalVolume::SetSolid(G4VSolid *pSolid) >> 305 { >> 306 >> 307 // ((subInstanceManager.offset[instanceID]).fSolid) = pSolid; >> 308 G4MT_solid=pSolid; >> 309 // G4MT_mass = 0.; >> 310 this->ResetMass(); >> 311 } >> 312 >> 313 inline >> 314 void G4LogicalVolume::SetSolid(G4LVData &instLVdata, G4VSolid *pSolid) >> 315 { >> 316 instLVdata.fSolid = pSolid; >> 317 // G4MT_solid=pSolid; >> 318 instLVdata.fMass= 0; >> 319 // A fast way to reset the mass ... ie G4MT_mass = 0.; >> 320 } >> 321 >> 322 // ******************************************************************** >> 323 // GetMaterial >> 324 // ******************************************************************** >> 325 // >> 326 inline >> 327 G4Material* G4LogicalVolume::GetMaterial() const >> 328 { >> 329 return G4MT_material; >> 330 } >> 331 >> 332 // ******************************************************************** >> 333 // SetMaterial >> 334 // ******************************************************************** >> 335 // >> 336 inline >> 337 void G4LogicalVolume::SetMaterial(G4Material *pMaterial) >> 338 { >> 339 G4MT_material=pMaterial; >> 340 G4MT_mass = 0.; >> 341 } >> 342 >> 343 // ******************************************************************** >> 344 // UpdateMaterial >> 345 // ******************************************************************** >> 346 // >> 347 inline >> 348 void G4LogicalVolume::UpdateMaterial(G4Material *pMaterial) >> 349 { >> 350 G4MT_material=pMaterial; >> 351 if(fRegion) { G4MT_ccouple = fRegion->FindCouple(pMaterial); } >> 352 G4MT_mass = 0.; >> 353 } >> 354 >> 355 // ******************************************************************** >> 356 // GetSensitiveDetector >> 357 // ******************************************************************** >> 358 // >> 359 inline >> 360 G4VSensitiveDetector* G4LogicalVolume::GetSensitiveDetector() const >> 361 { >> 362 return G4MT_sdetector; >> 363 } >> 364 >> 365 // ******************************************************************** 152 // GetMasterSensitiveDetector 366 // GetMasterSensitiveDetector 153 // ******************************************* 367 // ******************************************************************** 154 // 368 // 155 inline 369 inline 156 G4VSensitiveDetector* G4LogicalVolume::GetMast 370 G4VSensitiveDetector* G4LogicalVolume::GetMasterSensitiveDetector() const 157 { 371 { 158 return fSensitiveDetector; 372 return fSensitiveDetector; 159 } 373 } 160 374 161 // ******************************************* 375 // ******************************************************************** >> 376 // SetSensitiveDetector >> 377 // ******************************************************************** >> 378 // >> 379 inline >> 380 void G4LogicalVolume::SetSensitiveDetector(G4VSensitiveDetector* pSDetector) >> 381 { >> 382 G4MT_sdetector = pSDetector; >> 383 if(!G4Threading::IsWorkerThread()) fSensitiveDetector = pSDetector; >> 384 } >> 385 >> 386 // ******************************************************************** 162 // GetUserLimits 387 // GetUserLimits 163 // ******************************************* 388 // ******************************************************************** 164 // 389 // 165 inline 390 inline 166 G4UserLimits* G4LogicalVolume::GetUserLimits() 391 G4UserLimits* G4LogicalVolume::GetUserLimits() const 167 { 392 { 168 if(fUserLimits != nullptr) return fUserLimit << 393 if(fUserLimits) return fUserLimits; 169 if(fRegion != nullptr) return fRegion->GetUs << 394 if(fRegion) return fRegion->GetUserLimits(); 170 return nullptr; << 395 return 0; 171 } 396 } 172 397 173 // ******************************************* 398 // ******************************************************************** 174 // SetUserLimits 399 // SetUserLimits 175 // ******************************************* 400 // ******************************************************************** 176 // 401 // 177 inline 402 inline 178 void G4LogicalVolume::SetUserLimits(G4UserLimi 403 void G4LogicalVolume::SetUserLimits(G4UserLimits* pULimits) 179 { 404 { 180 fUserLimits = pULimits; 405 fUserLimits = pULimits; 181 } 406 } 182 407 183 // ******************************************* 408 // ******************************************************************** 184 // GetVoxelHeader 409 // GetVoxelHeader 185 // ******************************************* 410 // ******************************************************************** 186 // 411 // 187 inline 412 inline 188 G4SmartVoxelHeader* G4LogicalVolume::GetVoxelH 413 G4SmartVoxelHeader* G4LogicalVolume::GetVoxelHeader() const 189 { 414 { 190 return fVoxel; 415 return fVoxel; 191 } 416 } 192 417 193 // ******************************************* 418 // ******************************************************************** 194 // SetVoxelHeader 419 // SetVoxelHeader 195 // ******************************************* 420 // ******************************************************************** 196 // 421 // 197 inline 422 inline 198 void G4LogicalVolume::SetVoxelHeader(G4SmartVo 423 void G4LogicalVolume::SetVoxelHeader(G4SmartVoxelHeader* pVoxel) 199 { 424 { 200 fVoxel = pVoxel; 425 fVoxel = pVoxel; 201 } 426 } 202 427 203 // ******************************************* 428 // ******************************************************************** 204 // GetSmartless 429 // GetSmartless 205 // ******************************************* 430 // ******************************************************************** 206 // 431 // 207 inline 432 inline 208 G4double G4LogicalVolume::GetSmartless() const 433 G4double G4LogicalVolume::GetSmartless() const 209 { 434 { 210 return fSmartless; 435 return fSmartless; 211 } 436 } 212 437 213 // ******************************************* 438 // ******************************************************************** 214 // SetSmartless 439 // SetSmartless 215 // ******************************************* 440 // ******************************************************************** 216 // 441 // 217 inline 442 inline 218 void G4LogicalVolume::SetSmartless(G4double sm 443 void G4LogicalVolume::SetSmartless(G4double smt) 219 { 444 { 220 fSmartless = smt; 445 fSmartless = smt; 221 } 446 } 222 447 223 // ******************************************* 448 // ******************************************************************** 224 // IsToOptimise 449 // IsToOptimise 225 // ******************************************* 450 // ******************************************************************** 226 // 451 // 227 inline 452 inline 228 G4bool G4LogicalVolume::IsToOptimise() const 453 G4bool G4LogicalVolume::IsToOptimise() const 229 { 454 { 230 return fOptimise; 455 return fOptimise; 231 } 456 } 232 457 233 // ******************************************* 458 // ******************************************************************** 234 // SetOptimisation 459 // SetOptimisation 235 // ******************************************* 460 // ******************************************************************** 236 // 461 // 237 inline 462 inline 238 void G4LogicalVolume::SetOptimisation(G4bool o 463 void G4LogicalVolume::SetOptimisation(G4bool optim) 239 { 464 { 240 fOptimise = optim; 465 fOptimise = optim; 241 } 466 } 242 467 243 // ******************************************* 468 // ******************************************************************** 244 // IsRootRegion 469 // IsRootRegion 245 // ******************************************* 470 // ******************************************************************** 246 // 471 // 247 inline 472 inline 248 G4bool G4LogicalVolume::IsRootRegion() const 473 G4bool G4LogicalVolume::IsRootRegion() const 249 { 474 { 250 return fRootRegion; 475 return fRootRegion; 251 } 476 } 252 477 253 // ******************************************* 478 // ******************************************************************** 254 // SetRegionRootFlag 479 // SetRegionRootFlag 255 // ******************************************* 480 // ******************************************************************** 256 // 481 // 257 inline 482 inline 258 void G4LogicalVolume::SetRegionRootFlag(G4bool 483 void G4LogicalVolume::SetRegionRootFlag(G4bool rreg) 259 { 484 { 260 fRootRegion = rreg; 485 fRootRegion = rreg; 261 } 486 } 262 487 263 // ******************************************* 488 // ******************************************************************** 264 // IsRegion 489 // IsRegion 265 // ******************************************* 490 // ******************************************************************** 266 // 491 // 267 inline 492 inline 268 G4bool G4LogicalVolume::IsRegion() const 493 G4bool G4LogicalVolume::IsRegion() const 269 { 494 { 270 G4bool reg = false; 495 G4bool reg = false; 271 if (fRegion != nullptr) reg = true; << 496 if (fRegion) reg = true; 272 return reg; 497 return reg; 273 } 498 } 274 499 275 // ******************************************* 500 // ******************************************************************** 276 // SetRegion 501 // SetRegion 277 // ******************************************* 502 // ******************************************************************** 278 // 503 // 279 inline 504 inline 280 void G4LogicalVolume::SetRegion(G4Region* reg) 505 void G4LogicalVolume::SetRegion(G4Region* reg) 281 { 506 { 282 fRegion = reg; 507 fRegion = reg; 283 } 508 } 284 509 285 // ******************************************* 510 // ******************************************************************** 286 // GetRegion 511 // GetRegion 287 // ******************************************* 512 // ******************************************************************** 288 // 513 // 289 inline 514 inline 290 G4Region* G4LogicalVolume::GetRegion() const 515 G4Region* G4LogicalVolume::GetRegion() const 291 { 516 { 292 return fRegion; 517 return fRegion; 293 } 518 } 294 519 295 // ******************************************* 520 // ******************************************************************** 296 // PropagateRegion 521 // PropagateRegion 297 // ******************************************* 522 // ******************************************************************** 298 // 523 // 299 inline 524 inline 300 void G4LogicalVolume::PropagateRegion() 525 void G4LogicalVolume::PropagateRegion() 301 { 526 { 302 fRegion->ScanVolumeTree(this, true); 527 fRegion->ScanVolumeTree(this, true); 303 } 528 } 304 529 305 // ******************************************* 530 // ******************************************************************** >> 531 // GetMaterialCutsCouple >> 532 // ******************************************************************** >> 533 // >> 534 inline >> 535 const G4MaterialCutsCouple* G4LogicalVolume::GetMaterialCutsCouple() const >> 536 { >> 537 return G4MT_ccouple; >> 538 } >> 539 >> 540 // ******************************************************************** >> 541 // SetMaterialCutsCouple >> 542 // ******************************************************************** >> 543 // >> 544 inline >> 545 void G4LogicalVolume::SetMaterialCutsCouple(G4MaterialCutsCouple* cuts) >> 546 { >> 547 G4MT_ccouple = cuts; >> 548 } >> 549 >> 550 // ******************************************************************** 306 // Lock 551 // Lock 307 // ******************************************* 552 // ******************************************************************** 308 // 553 // 309 inline 554 inline 310 void G4LogicalVolume::Lock() 555 void G4LogicalVolume::Lock() 311 { 556 { 312 fLock = true; 557 fLock = true; 313 } 558 } 314 559 315 // ******************************************* 560 // ******************************************************************** 316 // Operator == 561 // Operator == 317 // ******************************************* 562 // ******************************************************************** 318 // 563 // 319 inline 564 inline 320 G4bool G4LogicalVolume::operator == ( const G4 565 G4bool G4LogicalVolume::operator == ( const G4LogicalVolume& lv) const 321 { 566 { 322 return this==&lv; << 567 return (this==&lv) ? true : false; 323 } 568 } 324 569 325 // ******************************************* 570 // ******************************************************************** 326 // SetBiasWeight << 571 // GetVisAttributes 327 // ******************************************* 572 // ******************************************************************** 328 // 573 // 329 inline 574 inline 330 void G4LogicalVolume::SetBiasWeight(G4double w << 575 const G4VisAttributes* G4LogicalVolume::GetVisAttributes () const 331 { 576 { 332 fBiasWeight = weight; << 577 return fVisAttributes; 333 } 578 } 334 579 335 // ******************************************* 580 // ******************************************************************** 336 // GetBiasWeight << 581 // SetVisAttributes 337 // ******************************************* 582 // ******************************************************************** 338 // 583 // 339 inline 584 inline 340 G4double G4LogicalVolume::GetBiasWeight() cons << 585 void G4LogicalVolume::SetVisAttributes (const G4VisAttributes* pVA) 341 { 586 { 342 return fBiasWeight; << 587 fVisAttributes = pVA; 343 } 588 } 344 589 345 // ******************************************* 590 // ******************************************************************** 346 // GetVisAttributes << 591 // SetBiasWeight 347 // ******************************************* 592 // ******************************************************************** 348 // 593 // 349 inline 594 inline 350 const G4VisAttributes* G4LogicalVolume::GetVis << 595 void G4LogicalVolume::SetBiasWeight(G4double weight) >> 596 { >> 597 fBiasWeight = weight; >> 598 } >> 599 >> 600 // ******************************************************************** >> 601 // GetBiasWeight >> 602 // ******************************************************************** >> 603 // >> 604 inline >> 605 G4double G4LogicalVolume::GetBiasWeight() const 351 { 606 { 352 return fVisAttributes.get(); << 607 return fBiasWeight; 353 } 608 } >> 609 #undef G4MT_solid >> 610 #undef G4MT_sdetector >> 611 #undef G4MT_fmanager >> 612 #undef G4MT_material >> 613 // #undef G4MT_mass >> 614 // #undef G4MT_ccouple >> 615 #undef G4MT_instance 354 616