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Geant4/examples/advanced/composite_calorimeter/src/CCalG4Hcal.cc

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Differences between /examples/advanced/composite_calorimeter/src/CCalG4Hcal.cc (Version 11.3.0) and /examples/advanced/composite_calorimeter/src/CCalG4Hcal.cc (Version 5.0)


  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 //////////////////////////////////////////////    
 27 // File: CCalG4Hcal.cc                            
 28 // Description: CCalG4Hcal Factory class to co    
 29 //              hadron calorimeter                
 30 //////////////////////////////////////////////    
 31 #include <cmath>                                  
 32                                                   
 33 #include "CCalG4Hcal.hh"                          
 34                                                   
 35 #include "CCalMaterialFactory.hh"                 
 36 #include "CCalRotationMatrixFactory.hh"           
 37 #include "CCalSensitiveDetectors.hh"              
 38                                                   
 39 #include "CCalutils.hh"                           
 40                                                   
 41 #include "G4SystemOfUnits.hh"                     
 42 #include "G4ThreeVector.hh"                       
 43 #include "G4Box.hh"                               
 44                                                   
 45 #include "G4LogicalVolume.hh"                     
 46 #include "G4PVPlacement.hh"                       
 47                                                   
 48 //#define debug                                   
 49 //#define ddebug                                  
 50 //#define pdebug                                  
 51 //#define sdebug                                  
 52                                                   
 53                                                   
 54 CCalG4Hcal::CCalG4Hcal( const G4String &name )    
 55   CCalHcal(name), CCalG4Able(name), sclLog(0),    
 56 {}                                                
 57                                                   
 58                                                   
 59 CCalG4Hcal::~CCalG4Hcal() {                       
 60   if (sclLog)                                     
 61     delete[] sclLog;                              
 62   if (absLog)                                     
 63     delete[] absLog;                              
 64 }                                                 
 65                                                   
 66                                                   
 67 G4VPhysicalVolume* CCalG4Hcal::constructIn( G4    
 68   G4cout << "==>> Constructing CCalG4Hcal..."     
 69                                                   
 70   //Common logical volumes between methods.       
 71 #ifdef debug                                      
 72   G4cout << tab << "Common logical volumes ini    
 73        << getNScintillator() << " scintillaor     
 74        << " absorber layers." << G4endl;          
 75 #endif                                            
 76   G4int i = 0;                                    
 77   sclLog  = new ptrG4Log[getNScintillator()];     
 78   absLog  = new ptrG4Log[getNAbsorber()];         
 79   for (i=0; i < getNScintillator(); i++)          
 80     sclLog[i]  = 0;                               
 81   for (i=0; i < getNAbsorber(); i++)              
 82     absLog[i] = 0;                                
 83                                                   
 84   //Pointers to the Materials                     
 85   CCalMaterialFactory* matfact       = CCalMat    
 86                                                   
 87   //Mother volume                                 
 88   G4Material* matter = matfact->findMaterial(g    
 89   G4VSolid*   solid  = new G4Box (Name(), getD    
 90                                   getDy_2Cal()    
 91   G4LogicalVolume* logh = new G4LogicalVolume(    
 92   setVisType(CCalVisualisable::PseudoVolumes,l    
 93 #ifdef debug                                      
 94     G4cout << tab << Name() << " Box made of "    
 95          << " of dimension " << getDx_2Cal()*m    
 96          << " " << getDy_2Cal()*mm << G4endl;     
 97 #endif                                            
 98                                                   
 99   G4PVPlacement* hcal = new G4PVPlacement(0,G4    
100                                           Name    
101   G4String name("Null");                          
102 #ifdef pdebug                                     
103   if (mother != 0) name = mother->GetName();      
104   G4cout << Name() << " Number 1 positioned in    
105        << getXposCal()*mm << ",0,0) with no ro    
106 #endif                                            
107                                                   
108   //Wall of the Boxes                             
109   solid  = new G4Box (name, 0.5*getWallThickBo    
110                       getDy_2Box()*mm);           
111   matter = matfact->findMaterial(getBoxMat());    
112   name   = Name() + "Wall";                       
113   G4LogicalVolume* logw = new G4LogicalVolume(    
114   setVisType(CCalVisualisable::Support,logw);     
115 #ifdef debug                                      
116   G4cout << tab << name << " Box made of " <<     
117        << " of dimension " << 0.5*getWallThick    
118        << getDy_2Box()*mm << " " << getDy_2Box    
119 #endif                                            
120                                                   
121   //Now the boxes                                 
122   ptrG4Log* logb = new ptrG4Log[getNBox()];       
123   matter = matfact->findMaterial(getGenMat());    
124   for (i=0; i<getNBox(); i++) {                   
125     name   = Name() + "Box" + i;                  
126     solid  = new G4Box (name, getDx_2Box()*mm,    
127                         getDy_2Box()*mm);         
128     logb[i]= new G4LogicalVolume(solid, matter    
129     setVisType(CCalVisualisable::PseudoVolumes    
130 #ifdef debug                                      
131     G4cout << tab << name << " Box made of " <    
132          << " of dimension " << getDx_2Box()*m    
133          << " " << getDy_2Box()*mm << G4endl;     
134 #endif                                            
135                                                   
136     G4double xpos = -(getDx_2Box() - 0.5*getWa    
137     new G4PVPlacement (0, G4ThreeVector(xpos*m    
138                        logb[i], false, 1);        
139 #ifdef pdebug                                     
140     G4cout << logw->GetName() << " Number 1 po    
141          << " at (" << xpos*mm << ",0,0) with     
142 #endif                                            
143     xpos = (getDx_2Box() - 0.5*getWallThickBox    
144     new G4PVPlacement (0, G4ThreeVector(xpos*m    
145                        logb[i], false, 2);        
146 #ifdef pdebug                                     
147     G4cout << logw->GetName() << " Number 2 po    
148          << " at (" << xpos*mm << ",0,0) with     
149 #endif                                            
150                                                   
151     new G4PVPlacement (0, G4ThreeVector(getXpo    
152                        logh, false, i+1);         
153 #ifdef pdebug                                     
154     G4cout << name << " Number " << i+1 << " p    
155          << " at (" << getXposBox(i)*mm << ",0    
156 #endif                                            
157   }                                               
158                                                   
159   //Loop over scintillator layers                 
160   for (i=0; i<getNLayerScnt(); i++) {             
161     G4int lay = getTypeScnt(i);                   
162     if (!sclLog[lay])                             
163       sclLog[lay] = constructScintillatorLayer    
164     if (getMotherScnt(i) < 0 || getMotherScnt(    
165       logw = logh;                                
166     } else {                                      
167       logw = logb[getMotherScnt(i)];              
168     }                                             
169     G4double xpos = getXposScnt(i);               
170     new G4PVPlacement (0, G4ThreeVector(xpos*m    
171                        sclLog[lay]->GetName(),    
172 #ifdef pdebug                                     
173     G4cout << sclLog[lay]->GetName() << " Numb    
174          << logw->GetName() << " at (" << xpos    
175          << G4endl;                               
176 #endif                                            
177   }                                               
178                                                   
179   //Loop over absorber layers                     
180   for (i=0; i<getNLayerAbs(); i++) {              
181     G4int lay = getTypeAbs(i);                    
182     if (!absLog[lay])                             
183       absLog[lay] = constructAbsorberLayer(lay    
184     if (getMotherAbs(i) < 0 || getMotherAbs(i)    
185       logw = logh;                                
186     } else {                                      
187       logw = logb[getMotherAbs(i)];               
188     }                                             
189     G4double xpos = getXposAbs(i);                
190     new G4PVPlacement (0, G4ThreeVector(xpos*m    
191                        absLog[lay]->GetName(),    
192 #ifdef pdebug                                     
193     G4cout << absLog[lay]->GetName() << " Numb    
194          << logw->GetName() << " at (" << xpos    
195          << G4endl;                               
196 #endif                                            
197   }                                               
198                                                   
199   delete [] logb;                                 
200                                                   
201   G4cout << "<<== End of CCalG4Hcal constructi    
202                                                   
203   return hcal;                                    
204 }                                                 
205                                                   
206                                                   
207 G4LogicalVolume* CCalG4Hcal::constructScintill    
208                                                   
209   //Pointers to the Materials                     
210   CCalMaterialFactory* matfact       = CCalMat    
211                                                   
212   //The scintillator layer                        
213   G4Material* matter = matfact->findMaterial(g    
214   G4String    name   = Name() + "ScntLayer" +     
215   G4VSolid*   solid  = new G4Box (name, getDx_    
216                                   getDy_2ScntL    
217                                   getDy_2ScntL    
218   G4LogicalVolume* log = new G4LogicalVolume(s    
219   setVisType(CCalVisualisable::PseudoVolumes,l    
220 #ifdef debug                                      
221   G4cout << tab << name << " Box made of " <<     
222        << getDx_2ScntLay(lay)*mm << " " << get    
223        << getDy_2ScntLay(lay)*mm << G4endl;       
224 #endif                                            
225                                                   
226   G4LogicalVolume* logd;                          
227   G4double         xpos;                          
228   //Wrappers if any                               
229   if (getDx_2Wrap(lay) > 0) {                     
230     name   = Name() + "ScntWrapper" + lay;        
231     matter = matfact->findMaterial(getWrapMat(    
232     solid  = new G4Box (name, getDx_2Wrap(lay)    
233                         getDy_2ScntLay(lay)*mm    
234     logd   = new G4LogicalVolume(solid, matter    
235     setVisType(CCalVisualisable::Support,logd)    
236 #ifdef debug                                      
237     G4cout << tab << name << " Box made of " <    
238          << getDx_2Wrap(lay)*mm << " " << getD    
239          << getDy_2ScntLay(lay)*mm << G4endl;     
240 #endif                                            
241     xpos   =-(getDx_2ScntLay(lay)-getDx_2Wrap(    
242     new G4PVPlacement(0, G4ThreeVector(xpos*mm    
243 #ifdef pdebug                                     
244     G4cout << logd->GetName() << " Number 1 po    
245          << " at (" << xpos*mm << ",0,0) with     
246 #endif                                            
247     xpos   = (getDx_2ScntLay(lay)-getDx_2Wrap(    
248     new G4PVPlacement(0, G4ThreeVector(xpos*mm    
249 #ifdef pdebug                                     
250     G4cout << logd->GetName() << " Number 2 po    
251          << " at (" << xpos*mm << ",0,0) with     
252 #endif                                            
253   }                                               
254                                                   
255   //Plastic covers                                
256   matter = matfact->findMaterial(getPlasMat())    
257   name   = Name() + "FrontPlastic" + lay;         
258   solid  = new G4Box (name, getDx_2FrontP(lay)    
259                       getDy_2ScntLay(lay)*mm);    
260   logd   = new G4LogicalVolume(solid, matter,     
261   setVisType(CCalVisualisable::Cable,logd);       
262 #ifdef debug                                      
263   G4cout << tab << name << " Box made of " <<     
264        << getDx_2FrontP(lay)*mm << " " << getD    
265        << getDy_2ScntLay(lay)*mm << G4endl;       
266 #endif                                            
267   xpos   =-getDx_2ScntLay(lay)+2.*getDx_2Wrap(    
268   new G4PVPlacement(0, G4ThreeVector(xpos*mm,0    
269 #ifdef pdebug                                     
270   G4cout << logd->GetName() << " Number 1 posi    
271        << " at (" << xpos*mm << ",0,0) with no    
272 #endif                                            
273   name   = Name() + "BackPlastic" + lay;          
274   solid  = new G4Box (name, getDx_2BackP(lay)*    
275                       getDy_2ScntLay(lay)*mm);    
276   logd   = new G4LogicalVolume(solid, matter,     
277   setVisType(CCalVisualisable::Cable,logd);       
278 #ifdef debug                                      
279   G4cout << tab << name << " Box made of " <<     
280        << getDx_2BackP(lay)*mm << " " << getDy    
281        << getDy_2ScntLay(lay)*mm << G4endl;       
282 #endif                                            
283   xpos   =(-getDx_2ScntLay(lay)+2.*getDx_2Wrap    
284            2.*getDx_2Scnt(lay)+getDx_2BackP(la    
285   new G4PVPlacement(0, G4ThreeVector(xpos*mm,0    
286 #ifdef pdebug                                     
287   G4cout << logd->GetName() << " Number 1 posi    
288        << " at (" << xpos*mm << ",0,0) with no    
289 #endif                                            
290                                                   
291   //Now the scintillators                         
292   matter = matfact->findMaterial(getScntMat())    
293   name   = Name() + "Scintillator" + lay;         
294   solid  = new G4Box (name, getDx_2Scnt(lay)*m    
295                       getDy_2ScntLay(lay)*mm);    
296   logd   = new G4LogicalVolume(solid, matter,     
297   setVisType(CCalVisualisable::Sensitive,logd)    
298   allSensitiveLogs.push_back(logd);               
299 #ifdef debug                                      
300   G4cout << tab << name << " Box made of " <<     
301        << getDx_2Scnt(lay)*mm << " " << getDy_    
302        << getDy_2ScntLay(lay)*mm << G4endl;       
303 #endif                                            
304   xpos   =(-getDx_2ScntLay(lay)+2.*getDx_2Wrap    
305            getDx_2Scnt(lay));                     
306   new G4PVPlacement(0, G4ThreeVector(xpos*mm,0    
307 #ifdef pdebug                                     
308   G4cout << logd->GetName() << " Number 1 posi    
309        << " at (" << xpos*mm << ",0,0) with no    
310 #endif                                            
311                                                   
312   return log;                                     
313 }                                                 
314                                                   
315                                                   
316 G4LogicalVolume* CCalG4Hcal::constructAbsorber    
317   //Pointers to the Materials                     
318   CCalMaterialFactory* matfact = CCalMaterialF    
319   //Now the absorber layer                        
320   G4Material* matter = matfact->findMaterial(g    
321   G4String    name   = Name() + "Absorber" + l    
322   G4VSolid*   solid  = new G4Box (name, getDx_    
323   G4LogicalVolume* log = new G4LogicalVolume(s    
324   setVisType(CCalVisualisable::Absorber,log);     
325 #ifdef debug                                      
326   G4cout << tab << name << " Box made of " <<     
327        << getDx_2Abs(lay)*mm << " " << getDy_2    
328        << getDy_2Abs()*mm << G4endl;              
329 #endif                                            
330   return log;                                     
331 }                                                 
332                                                   
333                                                   
334 void CCalG4Hcal::constructDaughters() {}          
335                                                   
336                                                   
337 void CCalG4Hcal::constructSensitive() {           
338   if (allSensitiveLogs.size()>0) {                
339     CCalSensitiveDetectors* sensDets = CCalSen    
340     G4String SDname = Name();                     
341     for (std::vector<ptrG4Log>::iterator iter=    
342          iter<allSensitiveLogs.end(); iter++)     
343       sensDets->registerVolume(SDname, (*iter)    
344 #ifdef sdebug                                     
345       G4cout << "Register volume " << (*iter)-    
346            << G4endl;                             
347 #endif                                            
348     }                                             
349   } else {                                        
350     G4cerr << "CCalG4Hcal ERROR: Could not con    
351            << G4endl;                             
352   }                                               
353 }                                                 
354                                                   
355