Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/persistency/ascii/src/G4tgbGeometryDumper.cc

Version: [ ReleaseNotes ] [ 1.0 ] [ 1.1 ] [ 2.0 ] [ 3.0 ] [ 3.1 ] [ 3.2 ] [ 4.0 ] [ 4.0.p1 ] [ 4.0.p2 ] [ 4.1 ] [ 4.1.p1 ] [ 5.0 ] [ 5.0.p1 ] [ 5.1 ] [ 5.1.p1 ] [ 5.2 ] [ 5.2.p1 ] [ 5.2.p2 ] [ 6.0 ] [ 6.0.p1 ] [ 6.1 ] [ 6.2 ] [ 6.2.p1 ] [ 6.2.p2 ] [ 7.0 ] [ 7.0.p1 ] [ 7.1 ] [ 7.1.p1 ] [ 8.0 ] [ 8.0.p1 ] [ 8.1 ] [ 8.1.p1 ] [ 8.1.p2 ] [ 8.2 ] [ 8.2.p1 ] [ 8.3 ] [ 8.3.p1 ] [ 8.3.p2 ] [ 9.0 ] [ 9.0.p1 ] [ 9.0.p2 ] [ 9.1 ] [ 9.1.p1 ] [ 9.1.p2 ] [ 9.1.p3 ] [ 9.2 ] [ 9.2.p1 ] [ 9.2.p2 ] [ 9.2.p3 ] [ 9.2.p4 ] [ 9.3 ] [ 9.3.p1 ] [ 9.3.p2 ] [ 9.4 ] [ 9.4.p1 ] [ 9.4.p2 ] [ 9.4.p3 ] [ 9.4.p4 ] [ 9.5 ] [ 9.5.p1 ] [ 9.5.p2 ] [ 9.6 ] [ 9.6.p1 ] [ 9.6.p2 ] [ 9.6.p3 ] [ 9.6.p4 ] [ 10.0 ] [ 10.0.p1 ] [ 10.0.p2 ] [ 10.0.p3 ] [ 10.0.p4 ] [ 10.1 ] [ 10.1.p1 ] [ 10.1.p2 ] [ 10.1.p3 ] [ 10.2 ] [ 10.2.p1 ] [ 10.2.p2 ] [ 10.2.p3 ] [ 10.3 ] [ 10.3.p1 ] [ 10.3.p2 ] [ 10.3.p3 ] [ 10.4 ] [ 10.4.p1 ] [ 10.4.p2 ] [ 10.4.p3 ] [ 10.5 ] [ 10.5.p1 ] [ 10.6 ] [ 10.6.p1 ] [ 10.6.p2 ] [ 10.6.p3 ] [ 10.7 ] [ 10.7.p1 ] [ 10.7.p2 ] [ 10.7.p3 ] [ 10.7.p4 ] [ 11.0 ] [ 11.0.p1 ] [ 11.0.p2 ] [ 11.0.p3, ] [ 11.0.p4 ] [ 11.1 ] [ 11.1.1 ] [ 11.1.2 ] [ 11.1.3 ] [ 11.2 ] [ 11.2.1 ] [ 11.2.2 ] [ 11.3.0 ]

Diff markup

Differences between /persistency/ascii/src/G4tgbGeometryDumper.cc (Version 11.3.0) and /persistency/ascii/src/G4tgbGeometryDumper.cc (Version 8.1.p2)


  1 //                                                  1 
  2 // *******************************************    
  3 // * License and Disclaimer                       
  4 // *                                              
  5 // * The  Geant4 software  is  copyright of th    
  6 // * the Geant4 Collaboration.  It is provided    
  7 // * conditions of the Geant4 Software License    
  8 // * LICENSE and available at  http://cern.ch/    
  9 // * include a list of copyright holders.         
 10 // *                                              
 11 // * Neither the authors of this software syst    
 12 // * institutes,nor the agencies providing fin    
 13 // * work  make  any representation or  warran    
 14 // * regarding  this  software system or assum    
 15 // * use.  Please see the license in the file     
 16 // * for the full disclaimer and the limitatio    
 17 // *                                              
 18 // * This  code  implementation is the result     
 19 // * technical work of the GEANT4 collaboratio    
 20 // * By using,  copying,  modifying or  distri    
 21 // * any work based  on the software)  you  ag    
 22 // * use  in  resulting  scientific  publicati    
 23 // * acceptance of all terms of the Geant4 Sof    
 24 // *******************************************    
 25 //                                                
 26 // G4tgbGeometryDumper implementation             
 27 //                                                
 28 // Author: P.Arce, CIEMAT (November 2007)         
 29 // -------------------------------------------    
 30                                                   
 31 #include "G4tgbGeometryDumper.hh"                 
 32                                                   
 33 #include "G4tgrMessenger.hh"                      
 34                                                   
 35 #include "G4UIcommand.hh"                         
 36 #include "G4Material.hh"                          
 37 #include "G4Element.hh"                           
 38 #include "G4VSolid.hh"                            
 39 #include "G4Box.hh"                               
 40 #include "G4Tubs.hh"                              
 41 #include "G4Cons.hh"                              
 42 #include "G4Trap.hh"                              
 43 #include "G4Sphere.hh"                            
 44 #include "G4Orb.hh"                               
 45 #include "G4Trd.hh"                               
 46 #include "G4Para.hh"                              
 47 #include "G4Torus.hh"                             
 48 #include "G4Hype.hh"                              
 49 #include "G4Polycone.hh"                          
 50 #include "G4GenericPolycone.hh"                   
 51 #include "G4Polyhedra.hh"                         
 52 #include "G4EllipticalTube.hh"                    
 53 #include "G4Ellipsoid.hh"                         
 54 #include "G4EllipticalCone.hh"                    
 55 #include "G4Hype.hh"                              
 56 #include "G4Tet.hh"                               
 57 #include "G4TwistedBox.hh"                        
 58 #include "G4TwistedTrap.hh"                       
 59 #include "G4TwistedTrd.hh"                        
 60 #include "G4TwistedTubs.hh"                       
 61 #include "G4MultiUnion.hh"                        
 62 #include "G4ScaledSolid.hh"                       
 63 #include "G4PVPlacement.hh"                       
 64 #include "G4PVParameterised.hh"                   
 65 #include "G4PVReplica.hh"                         
 66 #include "G4BooleanSolid.hh"                      
 67 #include "G4ReflectionFactory.hh"                 
 68 #include "G4ReflectedSolid.hh"                    
 69 #include "G4LogicalVolumeStore.hh"                
 70 #include "G4PhysicalVolumeStore.hh"               
 71 #include "G4GeometryTolerance.hh"                 
 72 #include "G4VPVParameterisation.hh"               
 73 #include "G4SystemOfUnits.hh"                     
 74 #include <iomanip>                                
 75                                                   
 76 // -------------------------------------------    
 77 G4ThreadLocal G4tgbGeometryDumper* G4tgbGeomet    
 78                                                   
 79 // -------------------------------------------    
 80 G4tgbGeometryDumper::G4tgbGeometryDumper()        
 81 {                                                 
 82 }                                                 
 83                                                   
 84 // -------------------------------------------    
 85 G4tgbGeometryDumper* G4tgbGeometryDumper::GetI    
 86 {                                                 
 87   if(theInstance == nullptr)                      
 88   {                                               
 89     theInstance = new G4tgbGeometryDumper;        
 90   }                                               
 91   return theInstance;                             
 92 }                                                 
 93                                                   
 94 // -------------------------------------------    
 95 void G4tgbGeometryDumper::DumpGeometry(const G    
 96 {                                                 
 97   theFile = new std::ofstream(fname);             
 98                                                   
 99   G4VPhysicalVolume* pv = GetTopPhysVol();        
100   DumpPhysVol(pv);  // dump volume and recursi    
101 }                                                 
102                                                   
103 // -------------------------------------------    
104 G4VPhysicalVolume* G4tgbGeometryDumper::GetTop    
105 {                                                 
106   G4PhysicalVolumeStore* pvstore = G4PhysicalV    
107   G4VPhysicalVolume* pv = *(pvstore->cbegin())    
108   for(;;)                                         
109   {                                               
110     G4LogicalVolume* lv = pv->GetMotherLogical    
111     if(lv == 0)                                   
112     {                                             
113       break;                                      
114     }                                             
115                                                   
116     //----- look for one PV of this LV            
117     for(auto ite = pvstore->cbegin(); ite != p    
118     {                                             
119       pv = (*ite);                                
120       if(pv->GetLogicalVolume() == lv)            
121       {                                           
122         break;                                    
123       }                                           
124     }                                             
125   }                                               
126                                                   
127   return pv;                                      
128 }                                                 
129                                                   
130 // -------------------------------------------    
131 G4tgbGeometryDumper::~G4tgbGeometryDumper()       
132 {                                                 
133 }                                                 
134                                                   
135 // -------------------------------------------    
136 void G4tgbGeometryDumper::DumpPhysVol(G4VPhysi    
137 {                                                 
138   //--- Dump logical volume first                 
139   G4LogicalVolume* lv = pv->GetLogicalVolume()    
140                                                   
141   G4ReflectionFactory* reffact = G4ReflectionF    
142                                                   
143   //--- It is not needed to dump _refl volumes    
144   // !!WARNING : it must be avoided to reflect    
145   //             has also been reflected, as b    
146                                                   
147   if(reffact->IsReflected(lv) && reffact->IsRe    
148   {                                               
149     return;                                       
150   }                                               
151                                                   
152   G4bool bVolExists = CheckIfLogVolExists(lv->    
153                                                   
154   //---- Construct this PV                        
155   if(pv->GetMotherLogical() != nullptr)  // no    
156   {                                               
157     if(!pv->IsReplicated())                       
158     {                                             
159       G4String lvName = lv->GetName();            
160       if(!bVolExists)                             
161       {                                           
162         lvName = DumpLogVol(lv);                  
163       }                                           
164       DumpPVPlacement(pv, lvName);                
165     }                                             
166     else if(pv->IsParameterised())                
167     {                                             
168       G4PVParameterised* pvparam = (G4PVParame    
169       DumpPVParameterised(pvparam);               
170     }                                             
171     else                                          
172     {                                             
173       G4String lvName = lv->GetName();            
174       if(!bVolExists)                             
175       {                                           
176         lvName = DumpLogVol(lv);                  
177       }                                           
178       G4PVReplica* pvrepl = (G4PVReplica*) (pv    
179       DumpPVReplica(pvrepl, lvName);              
180     }                                             
181   }                                               
182   else                                            
183   {                                               
184     DumpLogVol(lv);                               
185   }                                               
186                                                   
187   if(!bVolExists)                                 
188   {                                               
189     //---- Construct PV's who has this LV as m    
190     std::vector<G4VPhysicalVolume*> pvChildren    
191     for(auto ite = pvChildren.cbegin(); ite !=    
192     {                                             
193       DumpPhysVol(*ite);                          
194     }                                             
195   }                                               
196 }                                                 
197                                                   
198 // -------------------------------------------    
199 void G4tgbGeometryDumper::DumpPVPlacement(G4VP    
200                                           cons    
201 {                                                 
202   G4String pvName = pv->GetName();                
203                                                   
204   G4RotationMatrix* rotMat = pv->GetRotation()    
205   if(rotMat == nullptr)                           
206     rotMat = new G4RotationMatrix();              
207                                                   
208   //---- Check if it is reflected                 
209   G4ReflectionFactory* reffact = G4ReflectionF    
210   G4LogicalVolume* lv          = pv->GetLogica    
211   if(reffact->IsReflected(lv))                    
212   {                                               
213 #ifdef G4VERBOSE                                  
214     if(G4tgrMessenger::GetVerboseLevel() >= 1)    
215     {                                             
216       G4cout << " G4tgbGeometryDumper::DumpPVP    
217              << pv->GetName() << G4endl;          
218     }                                             
219 #endif                                            
220     G4ThreeVector colx = rotMat->colX();          
221     G4ThreeVector coly = rotMat->colY();          
222     G4ThreeVector colz = rotMat->colZ();          
223     // apply a Z reflection (reflection matrix    
224     // reflection-free rotation + z-reflection    
225     colz *= -1.;                                  
226     G4Rep3x3 rottemp(colx.x(), coly.x(), colz.    
227                      colx.z(), coly.z(), colz.    
228     // matrix representation (inverted)           
229     *rotMat = G4RotationMatrix(rottemp);          
230     *rotMat = (*rotMat).inverse();                
231     pvName += "_refl";                            
232   }                                               
233   const G4String& rotName  = DumpRotationMatri    
234   G4ThreeVector pos = pv->GetTranslation();       
235                                                   
236   if(copyNo == -999)  // for parameterisations    
237   {                                               
238     copyNo = pv->GetCopyNo();                     
239   }                                               
240                                                   
241   const G4String& fullname = pvName + "#" + G4    
242                            + "/" + pv->GetMoth    
243                                                   
244   if(!CheckIfPhysVolExists(fullname, pv))         
245   {                                               
246     (*theFile) << ":PLACE " << SubstituteRefl(    
247                << copyNo << " "                   
248                << SubstituteRefl(AddQuotes(pv-    
249                << " " << AddQuotes(rotName) <<    
250                << " " << pos.z() << G4endl;       
251                                                   
252     thePhysVols[fullname] = pv;                   
253   }                                               
254 }                                                 
255                                                   
256 // -------------------------------------------    
257 void G4tgbGeometryDumper::DumpPVParameterised(    
258 {                                                 
259   G4String pvName = pv->GetName();                
260                                                   
261   EAxis axis;                                     
262   G4int nReplicas;                                
263   G4double width;                                 
264   G4double offset;                                
265   G4bool consuming;                               
266   pv->GetReplicationData(axis, nReplicas, widt    
267                                                   
268   G4VPVParameterisation* param = pv->GetParame    
269                                                   
270   G4LogicalVolume* lv             = pv->GetLog    
271   G4VSolid* solid1st              = param->Com    
272   G4Material* mate1st             = param->Com    
273   std::vector<G4double> params1st = GetSolidPa    
274   std::vector<G4double> newParams;                
275   G4VSolid* newSolid = solid1st;                  
276   G4String lvName;                                
277                                                   
278   for(G4int ii = 0; ii < nReplicas; ++ii)         
279   {                                               
280     G4Material* newMate = param->ComputeMateri    
281     if(solid1st->GetEntityType() == "G4Box")      
282     {                                             
283       G4Box* box = (G4Box*) (solid1st);           
284       param->ComputeDimensions(*box, ii, pv);     
285       newParams = GetSolidParams(box);            
286       newSolid  = (G4VSolid*) box;                
287     }                                             
288     else if(solid1st->GetEntityType() == "G4Tu    
289     {                                             
290       G4Tubs* tubs = (G4Tubs*) (solid1st);        
291       param->ComputeDimensions(*tubs, ii, pv);    
292       newParams = GetSolidParams(tubs);           
293       newSolid  = (G4VSolid*) tubs;               
294     }                                             
295     else if(solid1st->GetEntityType() == "G4Tr    
296     {                                             
297       G4Trd* trd = (G4Trd*) (solid1st);           
298       param->ComputeDimensions(*trd, ii, pv);     
299       newParams = GetSolidParams(trd);            
300       newSolid  = (G4VSolid*) trd;                
301     }                                             
302     else if(solid1st->GetEntityType() == "G4Tr    
303     {                                             
304       G4Trap* trap = (G4Trap*) (solid1st);        
305       param->ComputeDimensions(*trap, ii, pv);    
306       newParams = GetSolidParams(trap);           
307       newSolid  = (G4VSolid*) trap;               
308     }                                             
309     else if(solid1st->GetEntityType() == "G4Co    
310     {                                             
311       G4Cons* cons = (G4Cons*) (solid1st);        
312       param->ComputeDimensions(*cons, ii, pv);    
313       newParams = GetSolidParams(cons);           
314       newSolid  = (G4VSolid*) cons;               
315     }                                             
316     else if(solid1st->GetEntityType() == "G4Sp    
317     {                                             
318       G4Sphere* sphere = (G4Sphere*) (solid1st    
319       param->ComputeDimensions(*sphere, ii, pv    
320       newParams = GetSolidParams(sphere);         
321       newSolid  = (G4VSolid*) sphere;             
322     }                                             
323     else if(solid1st->GetEntityType() == "G4Or    
324     {                                             
325       G4Orb* orb = (G4Orb*) (solid1st);           
326       param->ComputeDimensions(*orb, ii, pv);     
327       newParams = GetSolidParams(orb);            
328       newSolid  = (G4VSolid*) orb;                
329     }                                             
330     else if(solid1st->GetEntityType() == "G4To    
331     {                                             
332       G4Torus* torus = (G4Torus*) (solid1st);     
333       param->ComputeDimensions(*torus, ii, pv)    
334       newParams = GetSolidParams(torus);          
335       newSolid  = (G4VSolid*) torus;              
336     }                                             
337     else if(solid1st->GetEntityType() == "G4Pa    
338     {                                             
339       G4Para* para = (G4Para*) (solid1st);        
340       param->ComputeDimensions(*para, ii, pv);    
341       newParams = GetSolidParams(para);           
342       newSolid  = (G4VSolid*) para;               
343     }                                             
344     else if(solid1st->GetEntityType() == "G4Po    
345     {                                             
346       G4Polycone* polycone = (G4Polycone*) (so    
347       param->ComputeDimensions(*polycone, ii,     
348       newParams = GetSolidParams(polycone);       
349       newSolid  = (G4VSolid*) polycone;           
350     }                                             
351     else if(solid1st->GetEntityType() == "G4Po    
352     {                                             
353       G4Polyhedra* polyhedra = (G4Polyhedra*)     
354       param->ComputeDimensions(*polyhedra, ii,    
355       newParams = GetSolidParams(polyhedra);      
356       newSolid  = (G4VSolid*) polyhedra;          
357     }                                             
358     else if(solid1st->GetEntityType() == "G4Hy    
359     {                                             
360       G4Hype* hype = (G4Hype*) (solid1st);        
361       param->ComputeDimensions(*hype, ii, pv);    
362       newParams = GetSolidParams(hype);           
363       newSolid  = (G4VSolid*) hype;               
364     }                                             
365     if(ii == 0 || mate1st != newMate || params    
366     {                                             
367       G4String extraName = "";                    
368       if(ii != 0)                                 
369       {                                           
370         extraName = "#" + G4UIcommand::Convert    
371                     pv->GetMotherLogical()->Ge    
372       }                                           
373       lvName = DumpLogVol(lv, extraName, newSo    
374     }                                             
375                                                   
376     param->ComputeTransformation(ii, pv);         
377     DumpPVPlacement(pv, lvName, ii);              
378   }                                               
379 }                                                 
380                                                   
381 // -------------------------------------------    
382 void G4tgbGeometryDumper::DumpPVReplica(G4PVRe    
383 {                                                 
384   EAxis axis;                                     
385   G4int nReplicas;                                
386   G4double width;                                 
387   G4double offset;                                
388   G4bool consuming;                               
389   pv->GetReplicationData(axis, nReplicas, widt    
390   G4String axisName;                              
391   switch(axis)                                    
392   {                                               
393     case kXAxis:                                  
394       axisName = "X";                             
395       break;                                      
396     case kYAxis:                                  
397       axisName = "Y";                             
398       break;                                      
399     case kZAxis:                                  
400       axisName = "Z";                             
401       break;                                      
402     case kRho:                                    
403       axisName = "R";                             
404       break;                                      
405     case kPhi:                                    
406       axisName = "PHI";                           
407       break;                                      
408     case kRadial3D:                               
409     case kUndefined:                              
410       G4String ErrMessage =                       
411         "Unknown axis of replication for volum    
412       G4Exception("G4tgbGeometryDumper::DumpPV    
413                   FatalException, ErrMessage);    
414       break;                                      
415   }                                               
416                                                   
417   const G4String& fullname = lvName + "/" + pv    
418                                                   
419   if(!CheckIfPhysVolExists(fullname, pv))         
420   {                                               
421     (*theFile) << ":REPL " << SubstituteRefl(A    
422                << SubstituteRefl(AddQuotes(pv-    
423                << " " << axisName << " " << nR    
424     if(axis != kPhi)                              
425     {                                             
426       (*theFile) << " " << width << " " << off    
427     }                                             
428     else                                          
429     {                                             
430       (*theFile) << " " << width / deg << "*de    
431                  << " " << offset / deg << "*d    
432     }                                             
433                                                   
434     thePhysVols[fullname] = pv;                   
435   }                                               
436 }                                                 
437                                                   
438 // -------------------------------------------    
439 G4String G4tgbGeometryDumper::DumpLogVol(G4Log    
440                                          const    
441                                          G4VSo    
442                                          G4Mat    
443 {                                                 
444   G4String lvName;                                
445                                                   
446   if(extraName == "")  //--- take out the '_re    
447   {                                               
448     lvName = GetObjectName(lv, theLogVols);       
449   }                                               
450   else                                            
451   {                                               
452     lvName = lv->GetName() + extraName;           
453   }                                               
454                                                   
455   if(theLogVols.find(lvName) != theLogVols.cen    
456   {                                               
457     return lvName;                                
458   }                                               
459                                                   
460   if(solid == nullptr)                            
461   {                                               
462     solid = lv->GetSolid();                       
463   }                                               
464                                                   
465   //---- Dump solid                               
466   const G4String& solidName = DumpSolid(solid,    
467                                                   
468   //---- Dump material                            
469   if(mate == nullptr)                             
470   {                                               
471     mate = lv->GetMaterial();                     
472   }                                               
473   const G4String& mateName = DumpMaterial(mate    
474                                                   
475   //---- Dump logical volume (solid + material    
476   (*theFile) << ":VOLU " << SubstituteRefl(Add    
477              << SupressRefl(AddQuotes(solidNam    
478              << G4endl;                           
479                                                   
480   theLogVols[lvName] = lv;                        
481                                                   
482   return lvName;                                  
483 }                                                 
484                                                   
485 // -------------------------------------------    
486 G4String G4tgbGeometryDumper::DumpMaterial(G4M    
487 {                                                 
488   const G4String& mateName = GetObjectName(mat    
489   if(theMaterials.find(mateName) != theMateria    
490   {                                               
491     return mateName;                              
492   }                                               
493                                                   
494   std::size_t numElements = mat->GetNumberOfEl    
495   G4double density   = mat->GetDensity() / g *    
496                                                   
497   // start tag                                    
498   //                                              
499   if(numElements == 1)                            
500   {                                               
501     (*theFile) << ":MATE " << AddQuotes(mateNa    
502                << mat->GetA() / (g / mole) <<     
503   }                                               
504   else                                            
505   {                                               
506     const G4ElementVector* elems = mat->GetEle    
507     const G4double* fractions    = mat->GetFra    
508     for(std::size_t ii = 0; ii < numElements;     
509     {                                             
510       DumpElement(const_cast<G4Element*>((*ele    
511     }                                             
512                                                   
513     (*theFile) << ":MIXT " << AddQuotes(mateNa    
514                << numElements << G4endl;          
515     // close start element tag and get ready t    
516     for(std::size_t ii = 0; ii < numElements;     
517     {                                             
518       (*theFile) << "   " << AddQuotes(GetObje    
519                  << " " << fractions[ii] << G4    
520     }                                             
521   }                                               
522                                                   
523   (*theFile) << ":MATE_MEE " << AddQuotes(mate    
524              << mat->GetIonisation()->GetMeanE    
525              << G4endl;                           
526                                                   
527   (*theFile) << ":MATE_TEMPERATURE " << AddQuo    
528              << mat->GetTemperature() / kelvin    
529                                                   
530   (*theFile) << ":MATE_PRESSURE " << AddQuotes    
531              << mat->GetPressure() / atmospher    
532                                                   
533   G4State state = mat->GetState();                
534   G4String stateStr;                              
535   switch(state)                                   
536   {                                               
537     case kStateUndefined:                         
538       stateStr = "Undefined";                     
539       break;                                      
540     case kStateSolid:                             
541       stateStr = "Solid";                         
542       break;                                      
543     case kStateLiquid:                            
544       stateStr = "Liquid";                        
545       break;                                      
546     case kStateGas:                               
547       stateStr = "Gas";                           
548       break;                                      
549   }                                               
550                                                   
551   (*theFile) << ":MATE_STATE " << AddQuotes(ma    
552              << G4endl;                           
553                                                   
554   theMaterials[mateName] = mat;                   
555                                                   
556   return mateName;                                
557 }                                                 
558                                                   
559 // -------------------------------------------    
560 void G4tgbGeometryDumper::DumpElement(G4Elemen    
561 {                                                 
562   const G4String& elemName = GetObjectName(ele    
563                                                   
564   if(theElements.find(elemName) != theElements    
565   {                                               
566     return;                                       
567   }                                               
568                                                   
569   //--- Add symbol name: Material mixtures sto    
570   //    (even if the input are materials), but    
571   //                                              
572   G4String symbol = ele->GetSymbol();             
573   if(symbol == "" || symbol == " ")               
574   {                                               
575     symbol = elemName;                            
576   }                                               
577                                                   
578   if(ele->GetNumberOfIsotopes() == 0)             
579   {                                               
580     (*theFile) << ":ELEM " << AddQuotes(elemNa    
581                << " " << ele->GetZ() << " " <<    
582                << G4endl;                         
583   }                                               
584   else                                            
585   {                                               
586     const G4IsotopeVector* isots = ele->GetIso    
587     for(std::size_t ii = 0; ii < ele->GetNumbe    
588     {                                             
589       DumpIsotope((*isots)[ii]);                  
590     }                                             
591                                                   
592     (*theFile) << ":ELEM_FROM_ISOT " << AddQuo    
593                << AddQuotes(symbol) << " " <<     
594                << G4endl;                         
595     const G4double* fractions = ele->GetRelati    
596     for(std::size_t ii = 0; ii < ele->GetNumbe    
597     {                                             
598       (*theFile) << "   " << AddQuotes(GetObje    
599                  << " " << fractions[ii] << G4    
600     }                                             
601   }                                               
602   theElements[elemName] = ele;                    
603 }                                                 
604                                                   
605 // -------------------------------------------    
606 void G4tgbGeometryDumper::DumpIsotope(G4Isotop    
607 {                                                 
608   const G4String& isotName = GetObjectName(iso    
609   if(theIsotopes.find(isotName) != theIsotopes    
610   {                                               
611     return;                                       
612   }                                               
613                                                   
614   (*theFile) << ":ISOT " << AddQuotes(isotName    
615              << isot->GetN() << " " << isot->G    
616              << G4endl;                           
617                                                   
618   theIsotopes[isotName] = isot;                   
619 }                                                 
620                                                   
621 // -------------------------------------------    
622 G4String G4tgbGeometryDumper::DumpSolid(G4VSol    
623                                         const     
624 {                                                 
625   G4String solidName;                             
626   if(extraName == "")                             
627   {                                               
628     solidName = GetObjectName(solid, theSolids    
629   }                                               
630   else                                            
631   {                                               
632     solidName = solid->GetName() + extraName;     
633   }                                               
634                                                   
635   if(theSolids.find(solidName) != theSolids.ce    
636   {                                               
637     return solidName;                             
638   }                                               
639                                                   
640   G4String solidType = solid->GetEntityType();    
641   solidType          = GetTGSolidType(solidTyp    
642                                                   
643   if(solidType == "UNIONSOLID")                   
644   {                                               
645     DumpBooleanVolume("UNION", solid);            
646   }                                               
647   else if(solidType == "SUBTRACTIONSOLID")        
648   {                                               
649     DumpBooleanVolume("SUBTRACTION", solid);      
650   }                                               
651   else if(solidType == "INTERSECTIONSOLID")       
652   {                                               
653     DumpBooleanVolume("INTERSECTION", solid);     
654   }                                               
655   else if(solidType == "REFLECTEDSOLID")          
656   {                                               
657     G4ReflectedSolid* solidrefl = dynamic_cast    
658     if(solidrefl == nullptr)                      
659     {                                             
660       G4Exception("G4tgbGeometryDumper::DumpSo    
661                   FatalException, "Invalid ref    
662       return solidName;                           
663     }                                             
664     G4VSolid* solidori = solidrefl->GetConstit    
665     DumpSolid(solidori);                          
666   }                                               
667   else if(solidType == "MULTIUNION")              
668   {                                               
669     DumpMultiUnionVolume(solid);                  
670   }                                               
671   else if(solidType == "SCALEDSOLID")             
672   {                                               
673     DumpScaledVolume(solid);                      
674   }                                               
675   else                                            
676   {                                               
677     (*theFile) << ":SOLID " << AddQuotes(solid    
678     (*theFile) << AddQuotes(solidType) << " ";    
679     DumpSolidParams( solid );                     
680     theSolids[solidName] = solid;                 
681   }                                               
682                                                   
683   return solidName;                               
684 }                                                 
685                                                   
686 // -------------------------------------------    
687 void G4tgbGeometryDumper::DumpBooleanVolume(co    
688                                             G4    
689 {                                                 
690   G4BooleanSolid* bso = dynamic_cast<G4Boolean    
691   if(bso == nullptr)                              
692   {                                               
693     return;                                       
694   }                                               
695   G4VSolid* solid0             = bso->GetConst    
696   G4VSolid* solid1             = bso->GetConst    
697   G4DisplacedSolid* solid1Disp = nullptr;         
698   G4bool displaced             = dynamic_cast<    
699   if(displaced)                                   
700   {                                               
701     solid1Disp = dynamic_cast<G4DisplacedSolid    
702     if(solid1Disp != nullptr)                     
703     {                                             
704       solid1 = solid1Disp->GetConstituentMoved    
705     }                                             
706     else                                          
707     {                                             
708       return;                                     
709     }                                             
710   }                                               
711   DumpSolid(solid0);                              
712   DumpSolid(solid1);                              
713                                                   
714   G4String rotName;                               
715   G4ThreeVector pos;                              
716   if(displaced)                                   
717   {                                               
718     pos = solid1Disp->GetObjectTranslation();     
719     rotName = DumpRotationMatrix(new G4Rotatio    
720       (solid1Disp->GetTransform().NetRotation(    
721   }                                               
722   else  // no displacement                        
723   {                                               
724     rotName = DumpRotationMatrix(new G4Rotatio    
725     pos     = G4ThreeVector();                    
726   }                                               
727                                                   
728   const G4String& bsoName = GetObjectName(so,     
729   if(theSolids.find(bsoName) != theSolids.cend    
730   const G4String& solid0Name = FindSolidName(s    
731   const G4String& solid1Name = FindSolidName(s    
732                                                   
733   (*theFile) << ":SOLID " << AddQuotes(bsoName    
734              << " " << AddQuotes(solid0Name) <    
735              << " " << AddQuotes(rotName) << "    
736              << approxTo0(pos.y()) << " " << a    
737              << G4endl;                           
738                                                   
739   theSolids[bsoName] = bso;                       
740 }                                                 
741                                                   
742 // -------------------------------------------    
743 void G4tgbGeometryDumper::DumpMultiUnionVolume    
744 {                                                 
745   const G4MultiUnion* muun = dynamic_cast<cons    
746   if(muun != nullptr)                             
747     {                                             
748       G4int nSolids = muun->GetNumberOfSolids(    
749       std::vector<G4String> rotList;              
750       for( G4int iso = 0; iso < nSolids; iso++    
751   G4Transform3D trans = muun->GetTransformatio    
752   const G4String& rotName = DumpRotationMatrix    
753   rotList.push_back(rotName);                     
754   G4VSolid* solN = muun->GetSolid(iso);           
755   DumpSolid(solN);                                
756       }                                           
757       const G4String& bsoName = GetObjectName(    
758       (*theFile) << ":SOLID " << AddQuotes(bso    
759      << nSolids;                                  
760                                                   
761       for( G4int iso = 0; iso < nSolids; ++iso    
762   G4VSolid* solN = muun->GetSolid(iso);           
763   G4Transform3D trans = muun->GetTransformatio    
764   G4ThreeVector pos = trans.getTranslation();     
765   (*theFile) << " " <<  solN->GetName()           
766        << " " << " " << rotList[iso]              
767        << " " << approxTo0(pos.x())               
768        << " " << approxTo0(pos.y())               
769        << " " << approxTo0(pos.z());              
770       }                                           
771       (*theFile) << G4endl;                       
772                                                   
773     }                                             
774 }                                                 
775                                                   
776 // -------------------------------------------    
777 void G4tgbGeometryDumper::DumpScaledVolume( G4    
778 {                                                 
779   const G4ScaledSolid* ssol = dynamic_cast<con    
780   if(ssol != nullptr)                             
781     {                                             
782       G4VSolid* unscaledSolid = ssol->GetUnsca    
783       G4Scale3D scaleTransf = ssol->GetScaleTr    
784       G4String bsoName = GetObjectName(const_c    
785       (*theFile) << ":SOLID " << AddQuotes(bso    
786      << unscaledSolid->GetName() << " "           
787      << scaleTransf.xx() << " "                   
788      << scaleTransf.yy() << " "                   
789      << scaleTransf.zz() << G4endl;               
790     }                                             
791 }                                                 
792                                                   
793 // -------------------------------------------    
794 void G4tgbGeometryDumper::DumpSolidParams(G4VS    
795 {                                                 
796   std::vector<G4double> params = GetSolidParam    
797   for(std::size_t ii = 0; ii < params.size();     
798   {                                               
799     (*theFile) << params[ii] << " ";              
800   }                                               
801   (*theFile) << G4endl;                           
802 }                                                 
803                                                   
804 // -------------------------------------------    
805 std::vector<G4double> G4tgbGeometryDumper::Get    
806 {                                                 
807   std::vector<G4double> params;                   
808                                                   
809   G4String solidType = so->GetEntityType();       
810   solidType          = GetTGSolidType(solidTyp    
811                                                   
812   if(solidType == "BOX")                          
813   {                                               
814     const G4Box* sb = dynamic_cast<const G4Box    
815     if(sb != nullptr)                             
816     {                                             
817       params.push_back(sb->GetXHalfLength());     
818       params.push_back(sb->GetYHalfLength());     
819       params.push_back(sb->GetZHalfLength());     
820     }                                             
821   }                                               
822   else if(solidType == "TUBS")                    
823   {                                               
824     const G4Tubs* tu = dynamic_cast<const G4Tu    
825     if(tu != nullptr)                             
826     {                                             
827       params.push_back(tu->GetInnerRadius());     
828       params.push_back(tu->GetOuterRadius());     
829       params.push_back(tu->GetZHalfLength());     
830       params.push_back(tu->GetStartPhiAngle()     
831       params.push_back(tu->GetDeltaPhiAngle()     
832     }                                             
833   }                                               
834   else if(solidType == "TRAP")                    
835   {                                               
836     const G4Trap* trp = dynamic_cast<const G4T    
837     if(trp != nullptr)                            
838     {                                             
839       G4ThreeVector symAxis(trp->GetSymAxis())    
840       params.push_back(trp->GetZHalfLength());    
841       params.push_back(symAxis.theta() / deg);    
842       params.push_back(symAxis.phi() / deg);      
843       params.push_back(trp->GetYHalfLength1())    
844       params.push_back(trp->GetXHalfLength1())    
845       params.push_back(trp->GetXHalfLength2())    
846       params.push_back(std::atan(trp->GetTanAl    
847       params.push_back(trp->GetYHalfLength2())    
848       params.push_back(trp->GetXHalfLength3())    
849       params.push_back(trp->GetXHalfLength4())    
850       params.push_back(std::atan(trp->GetTanAl    
851     }                                             
852   }                                               
853   else if(solidType == "TRD")                     
854   {                                               
855     const G4Trd* tr = dynamic_cast<const G4Trd    
856     if(tr != nullptr)                             
857     {                                             
858       params.push_back(tr->GetXHalfLength1());    
859       params.push_back(tr->GetXHalfLength2());    
860       params.push_back(tr->GetYHalfLength1());    
861       params.push_back(tr->GetYHalfLength2());    
862       params.push_back(tr->GetZHalfLength());     
863     }                                             
864   }                                               
865   else if(solidType == "PARA")                    
866   {                                               
867     const G4Para* para = dynamic_cast<const G4    
868     if(para != nullptr)                           
869     {                                             
870       G4ThreeVector symAxis(para->GetSymAxis()    
871       params.push_back(para->GetXHalfLength())    
872       params.push_back(para->GetYHalfLength())    
873       params.push_back(para->GetZHalfLength())    
874       params.push_back(std::atan(para->GetTanA    
875       params.push_back(symAxis.theta() / deg);    
876       params.push_back(symAxis.phi() / deg);      
877     }                                             
878   }                                               
879   else if(solidType == "CONS")                    
880   {                                               
881     const G4Cons* cn = dynamic_cast<const G4Co    
882     if(cn != nullptr)                             
883     {                                             
884       params.push_back(cn->GetInnerRadiusMinus    
885       params.push_back(cn->GetOuterRadiusMinus    
886       params.push_back(cn->GetInnerRadiusPlusZ    
887       params.push_back(cn->GetOuterRadiusPlusZ    
888       params.push_back(cn->GetZHalfLength());     
889       params.push_back(cn->GetStartPhiAngle()     
890       params.push_back(cn->GetDeltaPhiAngle()     
891     }                                             
892   }                                               
893   else if(solidType == "SPHERE")                  
894   {                                               
895     const G4Sphere* sphere = dynamic_cast<cons    
896     if(sphere != nullptr)                         
897     {                                             
898       params.push_back(sphere->GetInnerRadius(    
899       params.push_back(sphere->GetOuterRadius(    
900       params.push_back(sphere->GetStartPhiAngl    
901       params.push_back(sphere->GetDeltaPhiAngl    
902       params.push_back(sphere->GetStartThetaAn    
903       params.push_back(sphere->GetDeltaThetaAn    
904     }                                             
905   }                                               
906   else if(solidType == "ORB")                     
907   {                                               
908     const G4Orb* orb = dynamic_cast<const G4Or    
909     if(orb != nullptr)                            
910     {                                             
911       params.push_back(orb->GetRadius());         
912     }                                             
913   }                                               
914   else if(solidType == "TORUS")                   
915   {                                               
916     const G4Torus* torus = dynamic_cast<const     
917     if(torus != nullptr)                          
918     {                                             
919       params.push_back(torus->GetRmin());         
920       params.push_back(torus->GetRmax());         
921       params.push_back(torus->GetRtor());         
922       params.push_back(torus->GetSPhi() / deg)    
923       params.push_back(torus->GetDPhi() / deg)    
924     }                                             
925   }                                               
926   else if(solidType == "POLYCONE")                
927   {                                               
928     //--- Dump RZ corners, as original paramet    
929     //    if it was build from RZ corners         
930     const G4Polycone* plc = dynamic_cast<const    
931     if(plc != nullptr)                            
932     {                                             
933       G4double angphi = plc->GetStartPhi() / d    
934       if(angphi > 180 * deg)                      
935       {                                           
936         angphi -= 360 * deg;                      
937       }                                           
938       G4double endphi = plc->GetEndPhi() / deg    
939       if(endphi > 180 * deg)                      
940       {                                           
941         endphi -= 360 * deg;                      
942       }                                           
943       params.push_back(angphi);                   
944       params.push_back(endphi - angphi);          
945       //      params.push_back(plc->GetOrigina    
946       G4int ncor = plc->GetNumRZCorner();         
947       params.push_back(ncor);                     
948                                                   
949       for(G4int ii = 0; ii < ncor; ++ii)          
950       {                                           
951         params.push_back(plc->GetCorner(ii).r)    
952         params.push_back(plc->GetCorner(ii).z)    
953       }                                           
954     }                                             
955   }                                               
956   else if(solidType == "GENERICPOLYCONE")         
957   {                                               
958     //--- Dump RZ corners                         
959     const G4GenericPolycone* plc = dynamic_cas    
960     if(plc != nullptr)                            
961     {                                             
962       G4double angphi = plc->GetStartPhi() / d    
963       if(angphi > 180 * deg)                      
964       {                                           
965         angphi -= 360 * deg;                      
966       }                                           
967       G4double endphi = plc->GetEndPhi() / deg    
968       if(endphi > 180 * deg)                      
969       {                                           
970         endphi -= 360 * deg;                      
971       }                                           
972       params.push_back(angphi);                   
973       params.push_back(endphi - angphi);          
974       G4int ncor = plc->GetNumRZCorner();         
975       params.push_back(ncor);                     
976                                                   
977       for(G4int ii = 0; ii < ncor; ++ii)          
978       {                                           
979         params.push_back(plc->GetCorner(ii).r)    
980         params.push_back(plc->GetCorner(ii).z)    
981       }                                           
982     }                                             
983   }                                               
984   else if(solidType == "POLYHEDRA")               
985   {                                               
986     //--- Dump RZ corners, as original paramet    
987     //    if it was build from RZ corners         
988     const G4Polyhedra* ph = (dynamic_cast<cons    
989     if(ph != nullptr)                             
990     {                                             
991       G4double angphi = ph->GetStartPhi() / de    
992       if(angphi > 180 * deg)                      
993         angphi -= 360 * deg;                      
994                                                   
995       G4int ncor = ph->GetNumRZCorner();          
996                                                   
997       params.push_back(angphi);                   
998       params.push_back(ph->GetOriginalParamete    
999       params.push_back(ph->GetNumSide());         
1000       params.push_back(ncor);                    
1001                                                  
1002       for(G4int ii = 0; ii < ncor; ++ii)         
1003       {                                          
1004         params.push_back(ph->GetCorner(ii).r)    
1005         params.push_back(ph->GetCorner(ii).z)    
1006       }                                          
1007     }                                            
1008   }                                              
1009   else if(solidType == "ELLIPTICALTUBE")         
1010   {                                              
1011     const G4EllipticalTube* eltu = dynamic_ca    
1012     if(eltu != nullptr)                          
1013     {                                            
1014       params.push_back(eltu->GetDx());           
1015       params.push_back(eltu->GetDy());           
1016       params.push_back(eltu->GetDz());           
1017     }                                            
1018   }                                              
1019   else if(solidType == "ELLIPSOID")              
1020   {                                              
1021     const G4Ellipsoid* dso = dynamic_cast<con    
1022     if(dso != nullptr)                           
1023     {                                            
1024       params.push_back(dso->GetSemiAxisMax(0)    
1025       params.push_back(dso->GetSemiAxisMax(1)    
1026       params.push_back(dso->GetSemiAxisMax(2)    
1027       params.push_back(dso->GetZBottomCut());    
1028       params.push_back(dso->GetZTopCut());       
1029     }                                            
1030   }                                              
1031   else if(solidType == "ELLIPTICAL_CONE")        
1032   {                                              
1033     const G4EllipticalCone* elco = dynamic_ca    
1034     if(elco != nullptr)                          
1035     {                                            
1036       params.push_back(elco->GetSemiAxisX());    
1037       params.push_back(elco->GetSemiAxisY());    
1038       params.push_back(elco->GetZMax());         
1039       params.push_back(elco->GetZTopCut());      
1040     }                                            
1041   }                                              
1042   else if(solidType == "HYPE")                   
1043   {                                              
1044     const G4Hype* hype = dynamic_cast<const G    
1045     if(hype != nullptr)                          
1046     {                                            
1047       params.push_back(hype->GetInnerRadius()    
1048       params.push_back(hype->GetOuterRadius()    
1049       params.push_back(hype->GetInnerStereo()    
1050       params.push_back(hype->GetOuterStereo()    
1051       params.push_back(2 * hype->GetZHalfLeng    
1052     }                                            
1053     //  } else if( solidType == "TET" ) {        
1054   }                                              
1055   else if(solidType == "TWISTEDBOX")             
1056   {                                              
1057     const G4TwistedBox* tbox = dynamic_cast<c    
1058     if(tbox != nullptr)                          
1059     {                                            
1060       params.push_back(tbox->GetPhiTwist() /     
1061       params.push_back(tbox->GetXHalfLength()    
1062       params.push_back(tbox->GetYHalfLength()    
1063       params.push_back(tbox->GetZHalfLength()    
1064     }                                            
1065   }                                              
1066   else if(solidType == "TWISTEDTRAP")            
1067   {                                              
1068     const G4TwistedTrap* ttrap = dynamic_cast    
1069     if(ttrap != nullptr)                         
1070     {                                            
1071       params.push_back(ttrap->GetPhiTwist() /    
1072       params.push_back(ttrap->GetZHalfLength(    
1073       params.push_back(ttrap->GetPolarAngleTh    
1074       params.push_back(ttrap->GetAzimuthalAng    
1075       params.push_back(ttrap->GetY1HalfLength    
1076       params.push_back(ttrap->GetX1HalfLength    
1077       params.push_back(ttrap->GetX2HalfLength    
1078       params.push_back(ttrap->GetY2HalfLength    
1079       params.push_back(ttrap->GetX3HalfLength    
1080       params.push_back(ttrap->GetX4HalfLength    
1081       params.push_back(ttrap->GetTiltAngleAlp    
1082     }                                            
1083   }                                              
1084   else if(solidType == "TWISTEDTRD")             
1085   {                                              
1086     const G4TwistedTrd* ttrd = dynamic_cast<c    
1087     if(ttrd != nullptr)                          
1088     {                                            
1089       params.push_back(ttrd->GetX1HalfLength(    
1090       params.push_back(ttrd->GetX2HalfLength(    
1091       params.push_back(ttrd->GetY1HalfLength(    
1092       params.push_back(ttrd->GetY2HalfLength(    
1093       params.push_back(ttrd->GetZHalfLength()    
1094       params.push_back(ttrd->GetPhiTwist() /     
1095     }                                            
1096   }                                              
1097   else if(solidType == "TWISTEDTUBS")            
1098   {                                              
1099     const G4TwistedTubs* ttub = dynamic_cast<    
1100     if(ttub != nullptr)                          
1101     {                                            
1102       params.push_back(ttub->GetInnerRadius()    
1103       params.push_back(ttub->GetOuterRadius()    
1104       params.push_back(ttub->GetZHalfLength()    
1105       params.push_back(ttub->GetDPhi() / deg)    
1106       params.push_back(ttub->GetPhiTwist() /     
1107     }                                            
1108   }                                              
1109   else                                           
1110   {                                              
1111     const G4String& ErrMessage = "Solid type     
1112     G4Exception("G4tgbGeometryDumper::DumpSol    
1113                 FatalException, ErrMessage);     
1114   }                                              
1115                                                  
1116   return params;                                 
1117 }                                                
1118                                                  
1119 // ------------------------------------------    
1120 G4String G4tgbGeometryDumper::DumpRotationMat    
1121 {                                                
1122   if(rotm == nullptr)                            
1123   {                                              
1124     rotm = new G4RotationMatrix();               
1125   }                                              
1126                                                  
1127   G4double de      = MatDeterminant(rotm);       
1128   G4String rotName = LookForExistingRotation(    
1129   if(rotName != "")                              
1130   {                                              
1131     return rotName;                              
1132   }                                              
1133                                                  
1134   G4ThreeVector v(1., 1., 1.);                   
1135   if(de < -0.9)  // a reflection ....            
1136   {                                              
1137     (*theFile) << ":ROTM ";                      
1138     rotName = "RRM";                             
1139     rotName += G4UIcommand::ConvertToString(t    
1140                                                  
1141     (*theFile) << AddQuotes(rotName) << std::    
1142                << approxTo0(rotm->xx()) << "     
1143                << approxTo0(rotm->zx()) << "     
1144                << approxTo0(rotm->yy()) << "     
1145                << approxTo0(rotm->xz()) << "     
1146                << approxTo0(rotm->zz()) << G4    
1147   }                                              
1148   else if(de > 0.9)  // a rotation ....          
1149   {                                              
1150     (*theFile) << ":ROTM ";                      
1151     rotName = "RM";                              
1152     rotName += G4UIcommand::ConvertToString(t    
1153                                                  
1154     (*theFile) << AddQuotes(rotName) << " " <    
1155                << " " << approxTo0(rotm->phiX    
1156                << approxTo0(rotm->thetaY() /     
1157                << approxTo0(rotm->phiY() / de    
1158                << approxTo0(rotm->thetaZ() /     
1159                << approxTo0(rotm->phiZ() / de    
1160   }                                              
1161                                                  
1162   theRotMats[rotName] = rotm;                    
1163                                                  
1164   return rotName;                                
1165 }                                                
1166                                                  
1167 // ------------------------------------------    
1168 std::vector<G4VPhysicalVolume*>                  
1169 G4tgbGeometryDumper::GetPVChildren(G4LogicalV    
1170 {                                                
1171   G4PhysicalVolumeStore* pvstore = G4Physical    
1172   std::vector<G4VPhysicalVolume*> children;      
1173   for(auto ite = pvstore->cbegin(); ite != pv    
1174   {                                              
1175     if((*ite)->GetMotherLogical() == lv)         
1176     {                                            
1177       children.push_back(*ite);                  
1178 #ifdef G4VERBOSE                                 
1179       if(G4tgrMessenger::GetVerboseLevel() >=    
1180       {                                          
1181         G4cout << " G4tgbGeometryDumper::GetP    
1182                << (*ite)->GetName() << " of "    
1183       }                                          
1184 #endif                                           
1185     }                                            
1186   }                                              
1187                                                  
1188   return children;                               
1189 }                                                
1190                                                  
1191 // ------------------------------------------    
1192 G4String G4tgbGeometryDumper::GetTGSolidType(    
1193 {                                                
1194   G4String newsolidType = solidType.substr(2,    
1195   for(G4int ii = 0; ii < (G4int)newsolidType.    
1196   {                                              
1197     newsolidType[ii] = (char)std::toupper(new    
1198   }                                              
1199   return newsolidType;                           
1200 }                                                
1201                                                  
1202 // ------------------------------------------    
1203 G4double G4tgbGeometryDumper::MatDeterminant(    
1204 {                                                
1205   G4Rep3x3 r = ro->rep3x3();                     
1206   return r.xx_ * (r.yy_ * r.zz_ - r.zy_ * r.y    
1207          r.yx_ * (r.xy_ * r.zz_ - r.zy_ * r.x    
1208          r.zx_ * (r.xy_ * r.yz_ - r.yy_ * r.x    
1209 }                                                
1210                                                  
1211 // ------------------------------------------    
1212 G4double G4tgbGeometryDumper::approxTo0(G4dou    
1213 {                                                
1214   G4double precision =                           
1215     G4GeometryTolerance::GetInstance()->GetSu    
1216                                                  
1217   if(std::fabs(val) < precision)                 
1218   {                                              
1219     val = 0.0;                                   
1220   }                                              
1221   return val;                                    
1222 }                                                
1223                                                  
1224 // ------------------------------------------    
1225 G4String G4tgbGeometryDumper::AddQuotes(const    
1226 {                                                
1227   //--- look if there is a separating blank      
1228                                                  
1229   G4bool bBlank = FALSE;                         
1230   std::size_t siz = str.length();                
1231   for(std::size_t ii = 0; ii < siz; ++ii)        
1232   {                                              
1233     if(str.substr(ii, 1) == " ")                 
1234     {                                            
1235       bBlank = TRUE;                             
1236       break;                                     
1237     }                                            
1238   }                                              
1239   G4String str2 = str;                           
1240   if(bBlank)                                     
1241   {                                              
1242     str2 = G4String("\"") + str2 + G4String("    
1243   }                                              
1244   return str2;                                   
1245 }                                                
1246                                                  
1247 // ------------------------------------------    
1248 G4String G4tgbGeometryDumper::SupressRefl(G4S    
1249 {                                                
1250   std::size_t irefl = name.rfind("_refl");       
1251   if(irefl != G4String::npos)                    
1252   {                                              
1253     name = name.substr(0, irefl);                
1254   }                                              
1255   return name;                                   
1256 }                                                
1257                                                  
1258 // ------------------------------------------    
1259 G4String G4tgbGeometryDumper::SubstituteRefl(    
1260 {                                                
1261   std::size_t irefl = name.rfind("_refl");       
1262   if(irefl != G4String::npos)                    
1263   {                                              
1264     name = name.substr(0, irefl) + "_REFL";      
1265   }                                              
1266   return name;                                   
1267 }                                                
1268                                                  
1269 // ------------------------------------------    
1270 G4String G4tgbGeometryDumper::GetIsotopeName(    
1271 {                                                
1272   G4String isotName = isot->GetName();           
1273   // first look if this is isotope is already    
1274   // with original isotope name or new one       
1275   //                                             
1276   std::map<G4String, G4Isotope*>::const_itera    
1277   for(ite = theIsotopes.cbegin(); ite != theI    
1278   {                                              
1279     if(isot == (*ite).second)                    
1280     {                                            
1281       return (*ite).first;                       
1282     }                                            
1283   }                                              
1284                                                  
1285   // Now look if there is another isotope dum    
1286   // and if found add _N to the name             
1287   //                                             
1288   ite = theIsotopes.find(isotName);              
1289   if(ite != theIsotopes.cend())  // Isotope f    
1290   {                                              
1291     G4Isotope* isotold = (*ite).second;          
1292     if(isot != isotold)  // new isotope it is    
1293     {                    // the same one as i    
1294       if(!Same2G4Isotopes(isot, isotold))        
1295       {                // if the two have sam    
1296         G4int ii = 2;  // G4Nist does names i    
1297                        // with same name         
1298         for(;; ++ii)                             
1299         {                                        
1300           const G4String& newIsotName =          
1301             isotName + "_" + G4UIcommand::Con    
1302           std::map<G4String, G4Isotope*>::con    
1303             theIsotopes.find(newIsotName);       
1304           if(ite2 == theIsotopes.cend())         
1305           {                                      
1306             isotName = newIsotName;              
1307             break;                               
1308           }                                      
1309           else                                   
1310           {                                      
1311             if(Same2G4Isotopes(isot, (*ite2).    
1312             {                                    
1313               isotName = newIsotName;            
1314               break;                             
1315             }                                    
1316           }                                      
1317         }                                        
1318       }                                          
1319     }                                            
1320   }                                              
1321   return isotName;                               
1322 }                                                
1323                                                  
1324 // ------------------------------------------    
1325 template <class TYP>                             
1326 G4String G4tgbGeometryDumper::GetObjectName(     
1327   TYP* obj, std::map<G4String, TYP*> objectsD    
1328 {                                                
1329   G4String objName = obj->GetName();             
1330                                                  
1331   // first look if this is objecy is already     
1332   // with original object name or new one        
1333   //                                             
1334   typename std::map<G4String, TYP*>::const_it    
1335   for(ite = objectsDumped.cbegin(); ite != ob    
1336   {                                              
1337     if(obj == (*ite).second)                     
1338     {                                            
1339       return (*ite).first;                       
1340     }                                            
1341   }                                              
1342                                                  
1343   // Now look if there is another object dump    
1344   // and if found add _N to the name             
1345   //                                             
1346   ite = objectsDumped.find(objName);             
1347                                                  
1348   if(ite != objectsDumped.cend())  // Object     
1349   {                                              
1350     TYP* objold = (*ite).second;                 
1351     if(obj != objold)  // new object it is no    
1352     {                  // the same one as obj    
1353       G4int ii = 2;                              
1354       for(;; ++ii)                               
1355       {                                          
1356         const G4String& newObjName = objName     
1357         typename std::map<G4String, TYP*>::co    
1358           objectsDumped.find(newObjName);        
1359         if(ite2 == objectsDumped.cend())         
1360         {                                        
1361           objName = newObjName;                  
1362           break;                                 
1363         }                                        
1364       }                                          
1365     }                                            
1366   }                                              
1367   return objName;                                
1368 }                                                
1369                                                  
1370 // ------------------------------------------    
1371 G4bool G4tgbGeometryDumper::CheckIfLogVolExis    
1372                                                  
1373 {                                                
1374   if(theLogVols.find(name) != theLogVols.cend    
1375   {                                              
1376     G4LogicalVolume* lvnew = (*(theLogVols.fi    
1377     if(lvnew != pt)                              
1378     {                                            
1379       /*                                         
1380       //---- Reflected volumes are repeated      
1381                                                  
1382       G4ReflectionFactory* reffact = G4Reflec    
1383       if( !reffact->IsReflected( pt ) && !ref    
1384       {                                          
1385         G4String ErrMessage = "LogVol found b    
1386         G4Exception("G4tgbGeometryDumper::Che    
1387                     "InvalidSetup", FatalExce    
1388       }                                          
1389       */                                         
1390     }                                            
1391     return true;                                 
1392   }                                              
1393   else                                           
1394   {                                              
1395     return false;                                
1396   }                                              
1397 }                                                
1398                                                  
1399 // ------------------------------------------    
1400 G4bool G4tgbGeometryDumper::CheckIfPhysVolExi    
1401                                                  
1402 {                                                
1403 #ifdef G4VERBOSE                                 
1404   if(G4tgrMessenger::GetVerboseLevel() >= 1)     
1405   {                                              
1406     G4cout << " G4tgbGeometryDumper::CheckIfP    
1407            << G4endl;                            
1408   }                                              
1409 #endif                                           
1410   if(thePhysVols.find(name) != thePhysVols.ce    
1411   {                                              
1412     if((*(thePhysVols.find(name))).second !=     
1413     {                                            
1414       // G4String ErrMessage = "Placement fou    
1415       //                     + name;             
1416       // G4Exception("G4tgbGeometryDumper::Ch    
1417       //             "InvalidSetup", FatalExc    
1418       G4cerr << " G4tgbGeometryDumper::CheckI    
1419              << " Placement found but not sam    
1420     }                                            
1421     return true;                                 
1422   }                                              
1423   else                                           
1424   {                                              
1425     return false;                                
1426   }                                              
1427 }                                                
1428                                                  
1429 // ------------------------------------------    
1430 G4String                                         
1431 G4tgbGeometryDumper::LookForExistingRotation(    
1432 {                                                
1433   G4String rmName = "";                          
1434                                                  
1435   for(auto ite = theRotMats.cbegin(); ite !=     
1436   {                                              
1437     if((*ite).second->isNear(*rotm))             
1438     {                                            
1439       rmName = (*ite).first;                     
1440       break;                                     
1441     }                                            
1442   }                                              
1443   return rmName;                                 
1444 }                                                
1445                                                  
1446 // ------------------------------------------    
1447 G4bool G4tgbGeometryDumper::Same2G4Isotopes(G    
1448 {                                                
1449   if((isot1->GetZ() != isot2->GetZ()) || (iso    
1450      (isot1->GetA() != isot2->GetA()))           
1451   {                                              
1452     return false;                                
1453   }                                              
1454   else                                           
1455   {                                              
1456     return true;                                 
1457   }                                              
1458 }                                                
1459                                                  
1460 // ------------------------------------------    
1461 const G4String& G4tgbGeometryDumper::FindSoli    
1462 {                                                
1463   std::map<G4String, G4VSolid*>::const_iterat    
1464   for(ite = theSolids.cbegin(); ite != theSol    
1465   {                                              
1466     if(solid == (*ite).second)                   
1467     {                                            
1468       return (*ite).first;                       
1469     }                                            
1470   }                                              
1471                                                  
1472   if(ite == theSolids.cend())                    
1473   {                                              
1474     G4Exception("G4tgbGeometryDumper::FindSol    
1475                 FatalException, "Programming     
1476   }                                              
1477   return (*ite).first;                           
1478 }                                                
1479