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Geant4/geometry/navigation/src/G4PhantomParameterisation.cc

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Differences between /geometry/navigation/src/G4PhantomParameterisation.cc (Version 11.3.0) and /geometry/navigation/src/G4PhantomParameterisation.cc (Version 6.0.p1)


  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 // class G4PhantomParameterisation implementat    
 27 //                                                
 28 // May 2007 Pedro Arce, first version             
 29 //                                                
 30 // -------------------------------------------    
 31                                                   
 32 #include "G4PhantomParameterisation.hh"           
 33                                                   
 34 #include "globals.hh"                             
 35 #include "G4VSolid.hh"                            
 36 #include "G4VPhysicalVolume.hh"                   
 37 #include "G4LogicalVolume.hh"                     
 38 #include "G4VVolumeMaterialScanner.hh"            
 39 #include "G4GeometryTolerance.hh"                 
 40                                                   
 41 //--------------------------------------------    
 42 G4PhantomParameterisation::G4PhantomParameteri    
 43 {                                                 
 44   kCarTolerance = G4GeometryTolerance::GetInst    
 45 }                                                 
 46                                                   
 47                                                   
 48 //--------------------------------------------    
 49 G4PhantomParameterisation::~G4PhantomParameter    
 50                                                   
 51                                                   
 52 //--------------------------------------------    
 53 void G4PhantomParameterisation::                  
 54 BuildContainerSolid( G4VPhysicalVolume* pMothe    
 55 {                                                 
 56   fContainerSolid = pMotherPhysical->GetLogica    
 57   fContainerWallX = fNoVoxelsX * fVoxelHalfX;     
 58   fContainerWallY = fNoVoxelsY * fVoxelHalfY;     
 59   fContainerWallZ = fNoVoxelsZ * fVoxelHalfZ;     
 60                                                   
 61   // CheckVoxelsFillContainer();                  
 62 }                                                 
 63                                                   
 64                                                   
 65 //--------------------------------------------    
 66 void G4PhantomParameterisation::                  
 67 BuildContainerSolid( G4VSolid* pMotherSolid )     
 68 {                                                 
 69   fContainerSolid = pMotherSolid;                 
 70   fContainerWallX = fNoVoxelsX * fVoxelHalfX;     
 71   fContainerWallY = fNoVoxelsY * fVoxelHalfY;     
 72   fContainerWallZ = fNoVoxelsZ * fVoxelHalfZ;     
 73                                                   
 74   // CheckVoxelsFillContainer();                  
 75 }                                                 
 76                                                   
 77                                                   
 78 //--------------------------------------------    
 79 void G4PhantomParameterisation::                  
 80 ComputeTransformation(const G4int copyNo, G4VP    
 81 {                                                 
 82   // Voxels cannot be rotated, return translat    
 83   //                                              
 84   G4ThreeVector trans = GetTranslation( copyNo    
 85                                                   
 86   physVol->SetTranslation( trans );               
 87 }                                                 
 88                                                   
 89                                                   
 90 //--------------------------------------------    
 91 G4ThreeVector G4PhantomParameterisation::         
 92 GetTranslation(const G4int copyNo ) const         
 93 {                                                 
 94   CheckCopyNo( copyNo );                          
 95                                                   
 96   std::size_t nx;                                 
 97   std::size_t ny;                                 
 98   std::size_t nz;                                 
 99                                                   
100   ComputeVoxelIndices( copyNo, nx, ny, nz );      
101                                                   
102   G4ThreeVector trans( (2*nx+1)*fVoxelHalfX -     
103                        (2*ny+1)*fVoxelHalfY -     
104                        (2*nz+1)*fVoxelHalfZ -     
105   return trans;                                   
106 }                                                 
107                                                   
108                                                   
109 //--------------------------------------------    
110 G4VSolid* G4PhantomParameterisation::             
111 ComputeSolid(const G4int, G4VPhysicalVolume* p    
112 {                                                 
113   return pPhysicalVol->GetLogicalVolume()->Get    
114 }                                                 
115                                                   
116                                                   
117 //--------------------------------------------    
118 G4Material* G4PhantomParameterisation::           
119 ComputeMaterial(const G4int copyNo, G4VPhysica    
120 {                                                 
121   CheckCopyNo( copyNo );                          
122   std::size_t matIndex = GetMaterialIndex(copy    
123                                                   
124   return fMaterials[ matIndex ];                  
125 }                                                 
126                                                   
127                                                   
128 //--------------------------------------------    
129 std::size_t G4PhantomParameterisation::           
130 GetMaterialIndex( std::size_t copyNo ) const      
131 {                                                 
132   CheckCopyNo( copyNo );                          
133                                                   
134   if( fMaterialIndices == nullptr ) { return 0    
135   return *(fMaterialIndices+copyNo);              
136 }                                                 
137                                                   
138                                                   
139 //--------------------------------------------    
140 std::size_t G4PhantomParameterisation::           
141 GetMaterialIndex( std::size_t nx, std::size_t     
142 {                                                 
143   std::size_t copyNo = nx + fNoVoxelsX*ny + fN    
144   return GetMaterialIndex( copyNo );              
145 }                                                 
146                                                   
147                                                   
148 //--------------------------------------------    
149 G4Material*                                       
150 G4PhantomParameterisation::GetMaterial( std::s    
151 {                                                 
152   return fMaterials[GetMaterialIndex(nx,ny,nz)    
153 }                                                 
154                                                   
155                                                   
156 //--------------------------------------------    
157 G4Material* G4PhantomParameterisation::GetMate    
158 {                                                 
159   return fMaterials[GetMaterialIndex(copyNo)];    
160 }                                                 
161                                                   
162                                                   
163 //--------------------------------------------    
164 void G4PhantomParameterisation::                  
165 ComputeVoxelIndices(const G4int copyNo, std::s    
166                           std::size_t& ny, std    
167 {                                                 
168   CheckCopyNo( copyNo );                          
169   nx = std::size_t(copyNo%fNoVoxelsX);            
170   ny = std::size_t( (copyNo/fNoVoxelsX)%fNoVox    
171   nz = std::size_t(copyNo/fNoVoxelsXY);           
172 }                                                 
173                                                   
174                                                   
175 //--------------------------------------------    
176 void G4PhantomParameterisation::                  
177 CheckVoxelsFillContainer( G4double contX, G4do    
178 {                                                 
179   G4double toleranceForWarning = 0.25*kCarTole    
180                                                   
181   // Any bigger value than 0.25*kCarTolerance     
182   // G4NormalNavigation::ComputeStep(), becaus    
183   // translation that is Z+epsilon gives -Z+ep    
184   // in G4Box::Inside is 0.5*kCarTolerance        
185   //                                              
186   G4double toleranceForError = 1.*kCarToleranc    
187                                                   
188   // Any bigger value than kCarTolerance will     
189   //                                              
190   if( std::fabs(contX-fNoVoxelsX*fVoxelHalfX)     
191    || std::fabs(contY-fNoVoxelsY*fVoxelHalfY)     
192    || std::fabs(contZ-fNoVoxelsZ*fVoxelHalfZ)     
193   {                                               
194     std::ostringstream message;                   
195     message << "Voxels do not fully fill the c    
196             << fContainerSolid->GetName() << G    
197             << "        DiffX= " << contX-fNoV    
198             << "        DiffY= " << contY-fNoV    
199             << "        DiffZ= " << contZ-fNoV    
200             << "        Maximum difference is:    
201     G4Exception("G4PhantomParameterisation::Ch    
202                 "GeomNav0002", FatalException,    
203                                                   
204   }                                               
205   else if( std::fabs(contX-fNoVoxelsX*fVoxelHa    
206         || std::fabs(contY-fNoVoxelsY*fVoxelHa    
207         || std::fabs(contZ-fNoVoxelsZ*fVoxelHa    
208   {                                               
209     std::ostringstream message;                   
210     message << "Voxels do not fully fill the c    
211             << fContainerSolid->GetName() << G    
212             << "          DiffX= " << contX-fN    
213             << "          DiffY= " << contY-fN    
214             << "          DiffZ= " << contZ-fN    
215             << "          Maximum difference i    
216     G4Exception("G4PhantomParameterisation::Ch    
217                 "GeomNav1002", JustWarning, me    
218   }                                               
219 }                                                 
220                                                   
221                                                   
222 //--------------------------------------------    
223 G4int G4PhantomParameterisation::                 
224 GetReplicaNo( const G4ThreeVector& localPoint,    
225 {                                                 
226                                                   
227   // Check first that point is really inside v    
228   //                                              
229   if( fContainerSolid->Inside( localPoint ) ==    
230   {                                               
231     if( std::fabs(localPoint.x()) - fContainer    
232   && std::fabs(localPoint.y()) - fContainerWal    
233   && std::fabs(localPoint.z()) - fContainerWal    
234     {                                             
235       std::ostringstream message;                 
236       message << "Point outside voxels!" << G4    
237         << "        localPoint - " << localPoi    
238         << " - is outside container solid: "      
239         << fContainerSolid->GetName() << G4end    
240         << "DIFFERENCE WITH PHANTOM WALLS X: "    
241         << std::fabs(localPoint.x()) - fContai    
242         << " Y: " << std::fabs(localPoint.y())    
243         << " Z: " << std::fabs(localPoint.z())    
244       G4Exception("G4PhantomParameterisation::    
245       FatalErrorInArgument, message);             
246     }                                             
247   }                                               
248                                                   
249   // Check the voxel numbers corresponding to     
250   // When a particle is on a surface, it may b    
251   // +kCartolerance. By a simple distance as:     
252   //   G4int nx = G4int( (localPoint.x()+)/fVo    
253   // those between -kCartolerance and 0 will b    
254   // between 0 and kCarTolerance on voxel N.      
255   // To avoid precision problems place the tra    
256   // voxel N-1 if they have negative direction    
257   // positive direction.                          
258   // Add +kCarTolerance so that they are first    
259   // if the direction is negative substract 1     
260                                                   
261   G4double fx = (localPoint.x()+fContainerWall    
262   auto  nx = G4int(fx);                           
263                                                   
264   G4double fy = (localPoint.y()+fContainerWall    
265   auto  ny = G4int(fy);                           
266                                                   
267   G4double fz = (localPoint.z()+fContainerWall    
268   auto  nz = G4int(fz);                           
269                                                   
270   // If it is on the surface side, check the d    
271   // negative place it in the previous voxel (    
272   // already in the next voxel).                  
273   // Correct also cases where n = -1 or n = fN    
274   // due to multiple scattering: track is ente    
275   // scattering changes the angle towards outs    
276   //                                              
277   if( fx - nx < kCarTolerance*fVoxelHalfX )       
278   {                                               
279     if( localDir.x() < 0 )                        
280     {                                             
281       if( nx != 0 )                               
282       {                                           
283         nx -= 1;                                  
284       }                                           
285     }                                             
286     else                                          
287     {                                             
288       if( nx == G4int(fNoVoxelsX) )               
289       {                                           
290         nx -= 1;                                  
291       }                                           
292     }                                             
293   }                                               
294   if( fy - ny < kCarTolerance*fVoxelHalfY )       
295   {                                               
296     if( localDir.y() < 0 )                        
297     {                                             
298       if( ny != 0 )                               
299       {                                           
300         ny -= 1;                                  
301       }                                           
302     }                                             
303     else                                          
304     {                                             
305       if( ny == G4int(fNoVoxelsY) )               
306       {                                           
307         ny -= 1;                                  
308       }                                           
309     }                                             
310   }                                               
311   if( fz - nz < kCarTolerance*fVoxelHalfZ )       
312   {                                               
313     if( localDir.z() < 0 )                        
314     {                                             
315       if( nz != 0 )                               
316       {                                           
317         nz -= 1;                                  
318       }                                           
319     }                                             
320     else                                          
321     {                                             
322       if( nz == G4int(fNoVoxelsZ) )               
323       {                                           
324         nz -= 1;                                  
325       }                                           
326     }                                             
327   }                                               
328                                                   
329   auto  copyNo = G4int(nx + fNoVoxelsX*ny + fN    
330                                                   
331   // Check if there are still errors              
332   //                                              
333   G4bool isOK = true;                             
334   if( nx < 0 )                                    
335   {                                               
336     nx = 0;                                       
337     isOK = false;                                 
338   }                                               
339   else if( nx >= G4int(fNoVoxelsX) )              
340   {                                               
341     nx = G4int(fNoVoxelsX)-1;                     
342     isOK = false;                                 
343   }                                               
344   if( ny < 0 )                                    
345   {                                               
346     ny = 0;                                       
347     isOK = false;                                 
348   }                                               
349   else if( ny >= G4int(fNoVoxelsY) )              
350   {                                               
351     ny = G4int(fNoVoxelsY)-1;                     
352     isOK = false;                                 
353   }                                               
354   if( nz < 0 )                                    
355   {                                               
356     nz = 0;                                       
357     isOK = false;                                 
358   }                                               
359   else if( nz >= G4int(fNoVoxelsZ) )              
360   {                                               
361     nz = G4int(fNoVoxelsZ)-1;                     
362     isOK = false;                                 
363   }                                               
364   if( !isOK )                                     
365   {                                               
366     if( std::fabs(localPoint.x()-fContainerWal    
367   std::fabs(localPoint.y()-fContainerWallY) >     
368   std::fabs(localPoint.z()-fContainerWallZ) >     
369       std::ostringstream message;                 
370       message << "Corrected the copy number! I    
371         << "          LocalPoint: " << localPo    
372         << "          LocalDir: " << localDir     
373         << "          Voxel container size: "     
374         << " " << fContainerWallY << " " << fC    
375         << "          LocalPoint - wall: "        
376         << localPoint.x()-fContainerWallX << "    
377         << localPoint.y()-fContainerWallY << "    
378         << localPoint.z()-fContainerWallZ;        
379       G4Exception("G4PhantomParameterisation::    
380       "GeomNav1002", JustWarning, message);       
381     }                                             
382                                                   
383     copyNo = G4int(nx + fNoVoxelsX*ny + fNoVox    
384   }                                               
385                                                   
386   return copyNo;                                  
387 }                                                 
388                                                   
389                                                   
390 //--------------------------------------------    
391 void G4PhantomParameterisation::CheckCopyNo( c    
392 {                                                 
393   if( copyNo < 0 || copyNo >= G4int(fNoVoxels)    
394   {                                               
395     std::ostringstream message;                   
396     message << "Copy number is negative or too    
397             << "        Copy number: " << copy    
398             << "        Total number of voxels    
399     G4Exception("G4PhantomParameterisation::Ch    
400                 "GeomNav0002", FatalErrorInArg    
401   }                                               
402 }                                                 
403