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Please see the license in the file << 14 // * use. * 16 // * for the full disclaimer and the limitatio << 17 // * 15 // * * 18 // * This code implementation is the result << 16 // * This code implementation is the intellectual property of the * 19 // * technical work of the GEANT4 collaboratio << 17 // * GEANT4 collaboration. * 20 // * By using, copying, modifying or distri << 18 // * By copying, distributing or modifying the Program (or any work * 21 // * any work based on the software) you ag << 19 // * based on the Program) you indicate your acceptance of this * 22 // * use in resulting scientific publicati << 20 // * statement, and all its terms. * 23 // * acceptance of all terms of the Geant4 Sof << 24 // ******************************************* 21 // ******************************************************************** >> 22 // >> 23 // >> 24 // $Id: G4LogicalVolume.cc,v 1.16 2003/05/22 00:50:13 asaim Exp $ >> 25 // GEANT4 tag $Name: geant4-05-02-patch-01 $ >> 26 // 25 // 27 // 26 // class G4LogicalVolume implementation << 28 // class G4LogicalVolume Implementation 27 // 29 // 28 // 15.01.13 G.Cosmo, A.Dotti: Modified for thr << 30 // History: 29 // 01.03.05 G.Santin: Added flag for optional << 30 // 17.05.02 G.Cosmo: Added flag for optional o 31 // 17.05.02 G.Cosmo: Added flag for optional optimisation 31 // 12.02.99 S.Giani: Default initialization of 32 // 12.02.99 S.Giani: Default initialization of voxelization quality 32 // 04.08.97 P.M.DeFreitas: Added methods for p 33 // 04.08.97 P.M.DeFreitas: Added methods for parameterised simulation >> 34 // 19.08.96 P.Kent: Modified for G4VSensitive Detector 33 // 11.07.95 P.Kent: Initial version 35 // 11.07.95 P.Kent: Initial version 34 // ------------------------------------------- << 36 // ******************************************************************** 35 37 36 #include "G4LogicalVolume.hh" 38 #include "G4LogicalVolume.hh" 37 #include "G4LogicalVolumeStore.hh" 39 #include "G4LogicalVolumeStore.hh" 38 #include "G4VSolid.hh" << 39 #include "G4Material.hh" << 40 #include "G4VPVParameterisation.hh" << 41 #include "G4VisAttributes.hh" << 42 << 43 #include "G4UnitsTable.hh" << 44 << 45 G4LVData::G4LVData() {;} << 46 << 47 // This new field helps to use the class G4LVM << 48 // << 49 G4LVManager G4LogicalVolume::subInstanceManage << 50 << 51 // These macros change the references to field << 52 // in the class G4LVData. << 53 // << 54 #define G4MT_solid ((subInstanceManager.of << 55 #define G4MT_sdetector ((subInstanceManager.of << 56 #define G4MT_fmanager ((subInstanceManager.of << 57 #define G4MT_material ((subInstanceManager.of << 58 #define G4MT_mass ((subInstanceManager.of << 59 #define G4MT_ccouple ((subInstanceManager.of << 60 #define G4MT_instance (subInstanceManager.off << 61 40 62 // ******************************************* 41 // ******************************************************************** 63 // Constructor - sets member data and adds to 42 // Constructor - sets member data and adds to logical Store, 64 // voxel pointer for optimisatio 43 // voxel pointer for optimisation set to 0 by default. 65 // Initialises daughter vector t 44 // Initialises daughter vector to 0 length. 66 // ******************************************* 45 // ******************************************************************** 67 // 46 // 68 G4LogicalVolume::G4LogicalVolume( G4VSolid* pS 47 G4LogicalVolume::G4LogicalVolume( G4VSolid* pSolid, 69 G4Material* 48 G4Material* pMaterial, 70 const G4String& na 49 const G4String& name, 71 G4FieldManag 50 G4FieldManager* pFieldMgr, 72 G4VSensitive 51 G4VSensitiveDetector* pSDetector, 73 G4UserLimits 52 G4UserLimits* pULimits, 74 G4bool optim 53 G4bool optimise ) 75 : fDaughters(0,(G4VPhysicalVolume*)nullptr), << 54 : fDaughters(0,(G4VPhysicalVolume*)0), fFieldManager(pFieldMgr), 76 fOptimise(optimise) << 55 fVoxel(0), fOptimise(optimise), fRootRegion(false), fSmartless(2.), >> 56 fVisAttributes(0), fFastSimulationManager(0), fRegion(0), >> 57 fCutsCouple(0), fIsEnvelope(false) 77 { 58 { 78 // Initialize 'Shadow'/master pointers - for << 79 // << 80 fSolid = pSolid; << 81 fSensitiveDetector = pSDetector; << 82 fFieldManager = pFieldMgr; << 83 << 84 instanceID = subInstanceManager.CreateSubIns << 85 AssignFieldManager(pFieldMgr); << 86 << 87 G4MT_mass = 0.; << 88 G4MT_ccouple = nullptr; << 89 << 90 SetSolid(pSolid); 59 SetSolid(pSolid); 91 SetMaterial(pMaterial); 60 SetMaterial(pMaterial); 92 SetName(name); 61 SetName(name); 93 SetSensitiveDetector(pSDetector); 62 SetSensitiveDetector(pSDetector); 94 SetUserLimits(pULimits); 63 SetUserLimits(pULimits); 95 << 96 // Initialize 'Shadow' data structure - for << 97 // << 98 lvdata = new G4LVData(); << 99 lvdata->fSolid = pSolid; << 100 lvdata->fMaterial = pMaterial; << 101 << 102 // 64 // 103 // Add to store << 65 // Add to solid Store 104 // << 105 G4LogicalVolumeStore::Register(this); << 106 } << 107 << 108 // ******************************************* << 109 // Fake default constructor - sets only member << 110 // for usage restri << 111 // ******************************************* << 112 // << 113 G4LogicalVolume::G4LogicalVolume( __void__& ) << 114 : fDaughters(0,(G4VPhysicalVolume*)nullptr), << 115 { << 116 instanceID = subInstanceManager.CreateSubIns << 117 << 118 SetSensitiveDetector(nullptr); // G4MT_sd << 119 SetFieldManager(nullptr, false); // G4MT_fm << 120 << 121 G4MT_mass = 0.; << 122 G4MT_ccouple = nullptr; << 123 << 124 // Add to store << 125 // 66 // 126 G4LogicalVolumeStore::Register(this); 67 G4LogicalVolumeStore::Register(this); 127 } 68 } 128 69 129 // ******************************************* 70 // ******************************************************************** 130 // Destructor - Removes itself from solid Stor 71 // Destructor - Removes itself from solid Store 131 // NOTE: Not virtual 72 // NOTE: Not virtual 132 // ******************************************* 73 // ******************************************************************** 133 // 74 // 134 G4LogicalVolume::~G4LogicalVolume() 75 G4LogicalVolume::~G4LogicalVolume() 135 { 76 { 136 if (!fLock && fRootRegion) // De-register r << 77 if(fRootRegion) fRegion->RemoveRootLogicalVolume(this); 137 { // and flagged a << 138 fRegion->RemoveRootLogicalVolume(this, tru << 139 } << 140 delete lvdata; << 141 G4LogicalVolumeStore::DeRegister(this); 78 G4LogicalVolumeStore::DeRegister(this); 142 } 79 } 143 80 144 // ******************************************* 81 // ******************************************************************** 145 // SetName - Set volume name and notify store << 82 // SetFastSimulationManager 146 // ******************************************* << 147 // << 148 void G4LogicalVolume::SetName(const G4String& << 149 { << 150 fName = pName; << 151 G4LogicalVolumeStore::GetInstance()->SetMapV << 152 } << 153 << 154 // ******************************************* << 155 // InitialiseWorker << 156 // << 157 // This method is similar to the constructor. << 158 // thread to achieve the same effect as that o << 159 // to register the new created instance. This << 160 // It does not create a new G4LogicalVolume in << 161 // for the fields encapsulated by the class G4 << 162 // ******************************************* << 163 // << 164 void G4LogicalVolume:: << 165 InitialiseWorker( G4LogicalVolume* /*pMasterOb << 166 G4VSolid* pSolid, << 167 G4VSensitiveDetector* pSDete << 168 { << 169 subInstanceManager.SlaveCopySubInstanceArray << 170 << 171 SetSolid(pSolid); << 172 SetSensitiveDetector(pSDetector); // How th << 173 AssignFieldManager(fFieldManager); << 174 // Should be set - but a per-thread copy is << 175 // Must not call SetFieldManager(), which p << 176 << 177 #ifdef CLONE_FIELD_MGR << 178 // Create a field FieldManager by cloning << 179 // << 180 G4FieldManager workerFldMgr = fFieldManager- << 181 if( created || (GetFieldManager() != workerF << 182 { << 183 SetFieldManager(fFieldManager, false); // << 184 } << 185 else << 186 { << 187 // Field manager existed and is equal to c << 188 // << 189 AssignFieldManager(workerFldMgr); << 190 } << 191 #endif << 192 } << 193 << 194 // ******************************************* << 195 // Clean << 196 // ******************************************* << 197 // << 198 void G4LogicalVolume::Clean() << 199 { << 200 subInstanceManager.FreeSlave(); << 201 } << 202 << 203 // ******************************************* << 204 // TerminateWorker << 205 // 83 // 206 // This method is similar to the destructor. I << 84 // NOTE: recursive method, not inlined. 207 // thread to achieve the partial effect as tha << 208 // For G4LogicalVolume instances, nothing more << 209 // ******************************************* << 210 // << 211 void G4LogicalVolume:: << 212 TerminateWorker( G4LogicalVolume* /*pMasterObj << 213 { << 214 } << 215 << 216 // ******************************************* << 217 // GetSubInstanceManager << 218 // << 219 // Returns the private data instance manager. << 220 // ******************************************* << 221 // << 222 const G4LVManager& G4LogicalVolume::GetSubInst << 223 { << 224 return subInstanceManager; << 225 } << 226 << 227 // ******************************************* << 228 // GetFieldManager << 229 // ******************************************* << 230 // << 231 G4FieldManager* G4LogicalVolume::GetFieldManag << 232 { << 233 return G4MT_fmanager; << 234 } << 235 << 236 // ******************************************* << 237 // AssignFieldManager << 238 // ******************************************* << 239 // << 240 void G4LogicalVolume::AssignFieldManager( G4Fi << 241 { << 242 G4MT_fmanager= fldMgr; << 243 if(G4Threading::IsMasterThread()) { fFieldM << 244 } << 245 << 246 // ******************************************* << 247 // IsExtended << 248 // ******************************************* << 249 // << 250 G4bool G4LogicalVolume::IsExtended() const << 251 { << 252 return false; << 253 } << 254 << 255 // ******************************************* << 256 // SetFieldManager << 257 // ******************************************* 85 // ******************************************************************** 258 // 86 // 259 void 87 void 260 G4LogicalVolume::SetFieldManager(G4FieldManage << 88 G4LogicalVolume:: 261 G4bool << 89 SetFastSimulationManager( G4FastSimulationManager* pNewFastSimul, >> 90 G4bool IsEnvelope ) 262 { 91 { 263 AssignFieldManager(pNewFieldMgr); << 92 if( !fIsEnvelope || IsEnvelope ) 264 << 265 auto NoDaughters = GetNoDaughters(); << 266 while ( (NoDaughters--)>0 ) << 267 { 93 { 268 G4LogicalVolume* DaughterLogVol; << 94 fIsEnvelope = IsEnvelope; 269 DaughterLogVol = GetDaughter(NoDaughters)- << 95 fFastSimulationManager = pNewFastSimul; 270 if ( forceAllDaughters || (DaughterLogVol- << 96 >> 97 G4int NoDaughters = GetNoDaughters(); >> 98 while ( (NoDaughters--)>0 ) 271 { 99 { 272 DaughterLogVol->SetFieldManager(pNewFiel << 100 G4LogicalVolume* DaughterLogVol; >> 101 DaughterLogVol = GetDaughter(NoDaughters)->GetLogicalVolume(); >> 102 if( DaughterLogVol->GetFastSimulationManager() != pNewFastSimul ) >> 103 { >> 104 DaughterLogVol->SetFastSimulationManager(pNewFastSimul,false); >> 105 } 273 } 106 } 274 } 107 } 275 } 108 } 276 109 277 // ******************************************* 110 // ******************************************************************** 278 // AddDaughter << 111 // ClearEnvelopeForFastSimulation 279 // ******************************************* 112 // ******************************************************************** 280 // 113 // 281 void G4LogicalVolume::AddDaughter(G4VPhysicalV << 114 void >> 115 G4LogicalVolume::ClearEnvelopeForFastSimulation( G4LogicalVolume* motherLogVol ) 282 { 116 { 283 EVolume daughterType = pNewDaughter->VolumeT << 117 if( fIsEnvelope ) 284 << 285 // The type of the navigation needed is dete << 286 // << 287 if( fDaughters.empty() ) << 288 { << 289 fDaughtersVolumeType = daughterType; << 290 } << 291 else << 292 { 118 { 293 // Check consistency of detector descripti << 119 G4FastSimulationManager* NewFastSimulationVal = 0; 294 120 295 // 1. A replica or parameterised volume ca << 121 // This is no longer an envelope ! 296 // 122 // 297 if( fDaughters[0]->IsReplicated() ) << 123 fIsEnvelope = false; >> 124 >> 125 if( motherLogVol == 0 ) 298 { 126 { 299 std::ostringstream message; << 127 motherLogVol = this->FindMotherLogicalVolumeForEnvelope(); 300 message << "ERROR - Attempt to place a v << 301 << G4endl << 302 << " already containing a repli << 303 << " A volume can either contai << 304 << " or a unique replica or par << 305 << " Mother logical volume: << 306 << " Placing volume: " << pN << 307 << G4endl; << 308 G4Exception("G4LogicalVolume::AddDaughte << 309 FatalException, message, << 310 "Replica or parameterised vo << 311 } 128 } 312 else 129 else 313 { 130 { 314 // 2. Ensure that Placement and External << 131 // Check that "motherLogVol" is this mother. >> 132 // If not, raise exception and set it to 0. 315 // 133 // 316 if( daughterType != fDaughtersVolumeTyp << 134 if ( false ) 317 { 135 { 318 std::ostringstream message; << 136 G4cerr << "ERROR - Wrong mother LogicalVolume !" << G4endl; 319 message << "ERROR - Attempt to place a << 137 G4Exception("ERROR - G4LogicalVolume::ClearEnvelopeForFastSimulation"); 320 << G4endl << 138 motherLogVol = 0; 321 << " already containing a dif << 322 << " A volume can either cont << 323 << " - one or more placements << 324 << " - one or more 'external' << 325 << " Mother logical volume: << 326 << " Volume being placed: " << 327 << G4endl; << 328 G4Exception("G4LogicalVolume::AddDaugh << 329 FatalException, message, << 330 "Cannot mix placements and << 331 } 139 } 332 } 140 } 333 } << 141 // Reset its ParameterisedSimulation values and those of all daughters 334 << 142 // (after ensuring the mother was given correctly or was found) 335 // Invalidate previous calculation of mass - << 143 // 336 // << 144 if( motherLogVol != 0 ) 337 G4MT_mass = 0.; << 338 fDaughters.push_back(pNewDaughter); << 339 << 340 G4LogicalVolume* pDaughterLogical = pNewDaug << 341 << 342 // Propagate the Field Manager, if the daugh << 343 // << 344 G4FieldManager* pDaughterFieldManager = pDau << 345 << 346 // Avoid propagating the fieldManager pointe << 347 // and daughter's one is null as well... << 348 // << 349 if( (G4MT_fmanager != nullptr ) && (pDaughte << 350 { << 351 pDaughterLogical->SetFieldManager(G4MT_fma << 352 } << 353 if (fRegion != nullptr) << 354 { << 355 PropagateRegion(); << 356 fRegion->RegionModified(true); << 357 } << 358 } << 359 << 360 // ******************************************* << 361 // RemoveDaughter << 362 // ******************************************* << 363 // << 364 void G4LogicalVolume::RemoveDaughter(const G4V << 365 { << 366 for (auto i=fDaughters.cbegin(); i!=fDaughte << 367 { << 368 if (**i==*p) << 369 { 145 { 370 fDaughters.erase(i); << 146 NewFastSimulationVal = motherLogVol->GetFastSimulationManager(); 371 break; << 147 this->SetFastSimulationManager(NewFastSimulationVal, false); 372 } 148 } 373 } 149 } 374 if (fRegion != nullptr) << 150 else 375 { 151 { 376 fRegion->RegionModified(true); << 152 G4cerr << "ERROR - Called ClearEnvelope() for non-envelope Logical Volume !" >> 153 << G4endl; >> 154 G4Exception("ERROR - G4LogicalVolume::ClearEnvelope"); 377 } 155 } 378 G4MT_mass = 0.; << 379 } 156 } 380 157 381 // ******************************************* 158 // ******************************************************************** 382 // ClearDaughters << 159 // SetFieldManager 383 // ******************************************* 160 // ******************************************************************** 384 // 161 // 385 void G4LogicalVolume::ClearDaughters() << 162 void >> 163 G4LogicalVolume::SetFieldManager(G4FieldManager* pNewFieldMgr, >> 164 G4bool forceAllDaughters) 386 { 165 { 387 fDaughters.erase(fDaughters.cbegin(), fDaugh << 166 fFieldManager = pNewFieldMgr; 388 if (fRegion != nullptr) << 167 >> 168 G4int NoDaughters = GetNoDaughters(); >> 169 while ( (NoDaughters--)>0 ) 389 { 170 { 390 fRegion->RegionModified(true); << 171 G4LogicalVolume* DaughterLogVol; >> 172 DaughterLogVol = GetDaughter(NoDaughters)->GetLogicalVolume(); >> 173 if ( forceAllDaughters || (DaughterLogVol->GetFieldManager() == 0) ) >> 174 { >> 175 DaughterLogVol->SetFieldManager(pNewFieldMgr, forceAllDaughters); >> 176 } 391 } 177 } 392 G4MT_mass = 0.; << 393 } << 394 << 395 // ******************************************* << 396 // ResetMass << 397 // ******************************************* << 398 // << 399 void G4LogicalVolume::ResetMass() << 400 { << 401 G4MT_mass= 0.0; << 402 } << 403 << 404 // ******************************************* << 405 // GetSolid << 406 // ******************************************* << 407 // << 408 G4VSolid* G4LogicalVolume::GetSolid(G4LVData & << 409 { << 410 return instLVdata.fSolid; << 411 } << 412 << 413 G4VSolid* G4LogicalVolume::GetSolid() const << 414 { << 415 return this->GetSolid( subInstanceManager.of << 416 } << 417 << 418 // ******************************************* << 419 // SetSolid << 420 // ******************************************* << 421 // << 422 void G4LogicalVolume::SetSolid(G4VSolid *pSoli << 423 { << 424 << 425 G4MT_solid = pSolid; << 426 this->ResetMass(); << 427 } << 428 << 429 void G4LogicalVolume::SetSolid(G4LVData& instL << 430 { << 431 instLVdata.fSolid = pSolid; << 432 instLVdata.fMass = 0.0; << 433 } << 434 << 435 // ******************************************* << 436 // GetMaterial << 437 // ******************************************* << 438 // << 439 G4Material* G4LogicalVolume::GetMaterial() con << 440 { << 441 return G4MT_material; << 442 } << 443 << 444 // ******************************************* << 445 // SetMaterial << 446 // ******************************************* << 447 // << 448 void G4LogicalVolume::SetMaterial(G4Material* << 449 { << 450 G4MT_material = pMaterial; << 451 G4MT_mass = 0.0; << 452 } << 453 << 454 // ******************************************* << 455 // UpdateMaterial << 456 // ******************************************* << 457 // << 458 void G4LogicalVolume::UpdateMaterial(G4Materia << 459 { << 460 G4MT_material=pMaterial; << 461 if (fRegion != nullptr) { G4MT_ccouple = fRe << 462 G4MT_mass = 0.0; << 463 } << 464 << 465 // ******************************************* << 466 // GetSensitiveDetector << 467 // ******************************************* << 468 // << 469 G4VSensitiveDetector* G4LogicalVolume::GetSens << 470 { << 471 return G4MT_sdetector; << 472 } << 473 << 474 // ******************************************* << 475 // SetSensitiveDetector << 476 // ******************************************* << 477 // << 478 void G4LogicalVolume::SetSensitiveDetector(G4V << 479 { << 480 G4MT_sdetector = pSDetector; << 481 if (G4Threading::IsMasterThread()) { fSensi << 482 } << 483 << 484 // ******************************************* << 485 // GetMaterialCutsCouple << 486 // ******************************************* << 487 // << 488 const G4MaterialCutsCouple* G4LogicalVolume::G << 489 { << 490 return G4MT_ccouple; << 491 } 178 } 492 179 493 // ******************************************* << 494 // SetMaterialCutsCouple << 495 // ******************************************* << 496 // << 497 void G4LogicalVolume::SetMaterialCutsCouple(G4 << 498 { << 499 G4MT_ccouple = cuts; << 500 } << 501 180 502 // ******************************************* 181 // ******************************************************************** 503 // IsAncestor 182 // IsAncestor 504 // 183 // 505 // Finds out if the current logical volume is 184 // Finds out if the current logical volume is an ancestor of a given 506 // physical volume 185 // physical volume 507 // ******************************************* 186 // ******************************************************************** 508 // 187 // 509 G4bool 188 G4bool 510 G4LogicalVolume::IsAncestor(const G4VPhysicalV 189 G4LogicalVolume::IsAncestor(const G4VPhysicalVolume* aVolume) const 511 { 190 { 512 G4bool isDaughter = IsDaughter(aVolume); 191 G4bool isDaughter = IsDaughter(aVolume); 513 if (!isDaughter) 192 if (!isDaughter) 514 { 193 { 515 for (auto itDau = fDaughters.cbegin(); itD << 194 for (G4PhysicalVolumeList::const_iterator itDau = fDaughters.begin(); >> 195 itDau != fDaughters.end(); itDau++) 516 { 196 { 517 isDaughter = (*itDau)->GetLogicalVolume( 197 isDaughter = (*itDau)->GetLogicalVolume()->IsAncestor(aVolume); 518 if (isDaughter) break; 198 if (isDaughter) break; 519 } 199 } 520 } 200 } 521 return isDaughter; 201 return isDaughter; 522 } 202 } 523 203 >> 204 524 // ******************************************* 205 // ******************************************************************** 525 // TotalVolumeEntities << 206 // FindMotherLogicalVolumeForEnvelope 526 // << 527 // Returns the total number of physical volume << 528 // in the tree represented by the current logi << 529 // ******************************************* << 530 // 207 // 531 G4int G4LogicalVolume::TotalVolumeEntities() c << 208 // Returns a meaningful result IF and only IF the current logical 532 { << 209 // volume has exactly one physical volume that uses it. 533 G4int vols = 1; << 534 for (auto itDau = fDaughters.cbegin(); itDau << 535 { << 536 G4VPhysicalVolume* physDaughter = (*itDau) << 537 vols += physDaughter->GetMultiplicity() << 538 *physDaughter->GetLogicalVolume()-> << 539 } << 540 return vols; << 541 } << 542 << 543 // ******************************************* 210 // ******************************************************************** 544 // GetMass << 545 // 211 // 546 // Returns the mass of the logical volume tree << 212 G4LogicalVolume* 547 // estimated geometrical volume of each solid << 213 G4LogicalVolume::FindMotherLogicalVolumeForEnvelope() 548 // to the logical volume and its daughters. << 549 // NOTE: the computation may require considera << 550 // depending from the complexity of the << 551 // The returned value is cached and can << 552 // calls (default), unless recomputation << 553 // 'true' for the boolean argument in in << 554 // be forced if the geometry setup has c << 555 // call. By setting the 'propagate' bool << 556 // method returns the mass of the presen << 557 // (subtracted for the volume occupied b << 558 // The extra argument 'parMaterial' is i << 559 // consider cases of geometrical paramet << 560 // ******************************************* << 561 // << 562 G4double G4LogicalVolume::GetMass(G4bool force << 563 G4bool propa << 564 G4Material* << 565 { 214 { 566 // Return the cached non-zero value, if not << 215 G4LogicalVolume* motherLogVol = 0; 567 // << 216 G4LogicalVolumeStore* Store = G4LogicalVolumeStore::GetInstance(); 568 if ( ((G4MT_mass) != 0.0) && (!forced) ) { << 569 217 570 // Global density and computed mass associat << 218 // Look for the current volume's mother volume. 571 // volume without considering its daughters << 572 // 219 // 573 G4Material* logMaterial = parMaterial != nul << 220 for ( size_t LV=0; LV < Store->size(); LV++ ) 574 if (logMaterial == nullptr) << 575 { 221 { 576 std::ostringstream message; << 222 G4LogicalVolume* aLogVol = (*Store)[LV]; // Don't look for it inside itself! 577 message << "No material associated to the << 223 if( (aLogVol!=this) && (aLogVol->GetFastSimulationManager()!=0) ) 578 << fName << " !" << G4endl << 579 << "Sorry, cannot compute the mass << 580 G4Exception("G4LogicalVolume::GetMass()", << 581 FatalException, message); << 582 return 0.0; << 583 } << 584 if ( GetSolid() == nullptr ) << 585 { << 586 std::ostringstream message; << 587 message << "No solid is associated to the << 588 << fName << " !" << G4endl << 589 << "Sorry, cannot compute the mass << 590 G4Exception("G4LogicalVolume::GetMass()", << 591 FatalException, message); << 592 return 0.0; << 593 } << 594 G4double globalDensity = logMaterial->GetDen << 595 G4double motherMass = GetSolid()->GetCubicVo << 596 G4double massSum = motherMass; << 597 << 598 // For each daughter in the tree, subtract t << 599 // and if required by the propagate flag, ad << 600 // one computed recursively << 601 << 602 for (auto itDau = fDaughters.cbegin(); itDau << 603 { << 604 G4VPhysicalVolume* physDaughter = (*itDau) << 605 G4LogicalVolume* logDaughter = physDaughte << 606 G4double subMass = 0.0; << 607 G4VSolid* daughterSolid = nullptr; << 608 G4Material* daughterMaterial = nullptr; << 609 << 610 // Compute the mass to subtract and to add << 611 // considering its multiplicity (i.e. repl << 612 // eventually its parameterisation (by sol << 613 // << 614 for (auto i=0; i<physDaughter->GetMultipli << 615 { 224 { 616 G4VPVParameterisation* physParam = physD << 225 for ( G4int daughter=0; daughter<aLogVol->GetNoDaughters(); daughter++ ) 617 if (physParam != nullptr) << 618 { << 619 daughterSolid = physParam->ComputeSoli << 620 daughterSolid->ComputeDimensions(physP << 621 daughterMaterial = physParam->ComputeM << 622 } << 623 else << 624 { 226 { 625 daughterSolid = logDaughter->GetSolid( << 227 if( aLogVol->GetDaughter(daughter)->GetLogicalVolume()==this ) 626 daughterMaterial = logDaughter->GetMat << 228 { >> 229 // aLogVol is the mother !!! >> 230 // >> 231 motherLogVol = aLogVol; >> 232 break; >> 233 } 627 } 234 } 628 subMass = daughterSolid->GetCubicVolume( << 629 << 630 // Subtract the daughter's portion for t << 631 // add the real daughter's mass computed << 632 // << 633 massSum -= subMass; << 634 if (propagate) << 635 { << 636 massSum += logDaughter->GetMass(true, << 637 } << 638 } << 639 } << 640 G4MT_mass = massSum; << 641 return massSum; << 642 } << 643 << 644 // ******************************************* << 645 // Change the daughters volume type -- checkin << 646 // << 647 // Undertakes primitive checking, to ensure t << 648 // are made: << 649 // - any type to 'external' ( user respons << 650 // - the type proposed is checked against t << 651 // (for potential switch back to 'intern << 652 // Returns success (true) or failure (false) << 653 // << 654 G4bool G4LogicalVolume::ChangeDaughtersType(EV << 655 { << 656 G4bool works = false; << 657 if( aType == kExternal ) << 658 { << 659 // It is the responsibility of External Na << 660 // << 661 fDaughtersVolumeType = aType; << 662 works = true; << 663 } << 664 else << 665 { << 666 EVolume expectedVType = DeduceDaughtersTyp << 667 works = (expectedVType == aType); << 668 if ( works ) << 669 { << 670 fDaughtersVolumeType = aType; << 671 } 235 } 672 } 236 } 673 return works; << 237 return motherLogVol; 674 } << 675 << 676 // ******************************************* << 677 // SetVisAttributes - copy version << 678 // ******************************************* << 679 // << 680 void G4LogicalVolume::SetVisAttributes (const << 681 { << 682 if (G4Threading::IsWorkerThread()) return; << 683 fVisAttributes = std::make_shared<const G4Vi << 684 } << 685 << 686 // ******************************************* << 687 // SetVisAttributes << 688 // ******************************************* << 689 // << 690 void G4LogicalVolume::SetVisAttributes (const << 691 { << 692 if (G4Threading::IsWorkerThread()) return; << 693 fVisAttributes = std::shared_ptr<const G4Vis << 694 } 238 } 695 239