Geant4 Cross Reference

Cross-Referencing   Geant4
Geant4/examples/advanced/amsEcal/src/Run.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 /examples/advanced/amsEcal/src/Run.cc (Version 11.3.0) and /examples/advanced/amsEcal/src/Run.cc (Version 8.3)


  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 /// \file electromagnetic/TestEm11/src/Run.cc     
 27 /// \brief Implementation of the Run class        
 28 //                                                
 29 //                                                
 30 //....oooOO0OOooo........oooOO0OOooo........oo    
 31 //....oooOO0OOooo........oooOO0OOooo........oo    
 32                                                   
 33 #include "Run.hh"                                 
 34 #include "DetectorConstruction.hh"                
 35 #include "HistoManager.hh"                        
 36                                                   
 37 #include "G4ParticleDefinition.hh"                
 38 #include "G4SystemOfUnits.hh"                     
 39 #include "G4UnitsTable.hh"                        
 40                                                   
 41 #include <iomanip>                                
 42                                                   
 43 //....oooOO0OOooo........oooOO0OOooo........oo    
 44                                                   
 45 Run::Run(DetectorConstruction* det)               
 46 : G4Run(),                                        
 47   fDetector(det),                                 
 48   fParticle(0), fEkin(0.),                        
 49   nbOfModules(0), nbOfLayers(0), kLayerMax(0),    
 50   EtotCalor(0.), Etot2Calor(0.), EvisCalor(0.)    
 51   Eleak(0.), Eleak2(0.)                           
 52 {                                                 
 53   nbOfModules = fDetector->GetNbModules();        
 54   nbOfLayers  = fDetector->GetNbLayers();         
 55   kLayerMax = nbOfModules*nbOfLayers + 1;         
 56                                                   
 57   //initialize vectors                            
 58   //                                              
 59   EtotLayer.resize(kLayerMax); Etot2Layer.resi    
 60   EvisLayer.resize(kLayerMax); Evis2Layer.resi    
 61   for (G4int k=0; k<kLayerMax; k++) {             
 62     EtotLayer[k] = Etot2Layer[k] = EvisLayer[k    
 63   }                                               
 64                                                   
 65   EtotCalor = Etot2Calor = EvisCalor = Evis2Ca    
 66   EdLeak[0] = EdLeak[1] = EdLeak[2] = 0.;         
 67 }                                                 
 68                                                   
 69 //....oooOO0OOooo........oooOO0OOooo........oo    
 70                                                   
 71 Run::~Run()                                       
 72 { }                                               
 73                                                   
 74 //....oooOO0OOooo........oooOO0OOooo........oo    
 75                                                   
 76 void Run::SetPrimary(G4ParticleDefinition* par    
 77 {                                                 
 78   fParticle = particle;                           
 79   fEkin = energy;                                 
 80 }                                                 
 81                                                   
 82 //....oooOO0OOooo........oooOO0OOooo........oo    
 83                                                   
 84 void Run::SumEvents_1(G4int layer, G4double Et    
 85 {                                                 
 86   //accumulate statistic per layer                
 87   //                                              
 88   EtotLayer[layer] += Etot;  Etot2Layer[layer]    
 89   EvisLayer[layer] += Evis;  Evis2Layer[layer]    
 90 }                                                 
 91                                                   
 92 //....oooOO0OOooo........oooOO0OOooo........oo    
 93                                                   
 94 void Run::SumEvents_2(G4double etot, G4double     
 95 {                                                 
 96   //accumulate statistic for full calorimeter     
 97   //                                              
 98   EtotCalor += etot;  Etot2Calor += etot*etot;    
 99   EvisCalor += evis;  Evis2Calor += evis*evis;    
100   Eleak += eleak;  Eleak2 += eleak*eleak;         
101 }                                                 
102                                                   
103 //....oooOO0OOooo........oooOO0OOooo........oo    
104                                                   
105 void Run::DetailedLeakage(G4int icase, G4doubl    
106 {                                                 
107   //forward, backward, lateral leakage            
108   //                                              
109   EdLeak[icase] += energy;                        
110 }                                                 
111                                                   
112 //....oooOO0OOooo........oooOO0OOooo........oo    
113                                                   
114 void Run::Merge(const G4Run* run)                 
115 {                                                 
116   const Run* localRun = static_cast<const Run*    
117                                                   
118   // pass information about primary particle      
119   fParticle = localRun->fParticle;                
120   fEkin     = localRun->fEkin;                    
121                                                   
122   // accumulate sums                              
123   //                                              
124   for (G4int k=0; k<kLayerMax; k++) {             
125     EtotLayer[k]  += localRun->EtotLayer[k];      
126     Etot2Layer[k] += localRun->Etot2Layer[k];     
127     EvisLayer[k]  += localRun->EvisLayer[k];      
128     Evis2Layer[k] += localRun->Evis2Layer[k];     
129   }                                               
130                                                   
131   EtotCalor  += localRun->EtotCalor;              
132   Etot2Calor += localRun->Etot2Calor;             
133   EvisCalor  += localRun->EvisCalor;              
134   Evis2Calor += localRun->Evis2Calor;             
135   Eleak      += localRun->Eleak;                  
136   Eleak2     += localRun->Eleak2;                 
137   EdLeak[0]  += localRun->EdLeak[0];              
138   EdLeak[1]  += localRun->EdLeak[1];              
139   EdLeak[2]  += localRun->EdLeak[2];              
140                                                   
141   G4Run::Merge(run);                              
142 }                                                 
143                                                   
144 //....oooOO0OOooo........oooOO0OOooo........oo    
145                                                   
146 void Run::EndOfRun()                              
147 {                                                 
148   //calorimeter                                   
149   //                                              
150   fDetector->PrintCalorParameters();              
151                                                   
152   //run conditions                                
153   //                                              
154   G4String partName = fParticle->GetParticleNa    
155   G4int nbEvents = numberOfEvent;                 
156                                                   
157   G4int prec = G4cout.precision(3);               
158                                                   
159   G4cout << " The run was " << nbEvents << " "    
160          << G4BestUnit(fEkin,"Energy") << " th    
161                                                   
162   G4cout << "---------------------------------    
163          << G4endl;                               
164                                                   
165   //if no events, return                          
166   //                                              
167   if (nbEvents == 0) return;                      
168                                                   
169   //compute and print statistic                   
170   //                                              
171   std::ios::fmtflags mode = G4cout.flags();       
172                                                   
173   // energy in layers                             
174   //                                              
175   G4cout.precision(prec);                         
176   G4cout << "\n             "                     
177          << "total Energy          (rms/mean)     
178          << "visible Energy        (rms/mean)"    
179                                                   
180   G4AnalysisManager* analysisManager = G4Analy    
181                                                   
182   G4double meanEtot,meanEtot2,varianceEtot,rms    
183   G4double meanEvis,meanEvis2,varianceEvis,rms    
184                                                   
185   for (G4int i1=1; i1<kLayerMax; i1++) {          
186     //total energy                                
187     meanEtot  = EtotLayer[i1] /nbEvents;          
188     meanEtot2 = Etot2Layer[i1]/nbEvents;          
189     varianceEtot = meanEtot2 - meanEtot*meanEt    
190     resEtot = rmsEtot = 0.;                       
191     if (varianceEtot > 0.) rmsEtot = std::sqrt    
192     if (meanEtot > 0.) resEtot = 100*rmsEtot/m    
193     analysisManager->FillH1(3, i1+0.5, meanEto    
194                                                   
195     //visible energy                              
196     meanEvis  = EvisLayer[i1] /nbEvents;          
197     meanEvis2 = Evis2Layer[i1]/nbEvents;          
198     varianceEvis = meanEvis2 - meanEvis*meanEv    
199     resEvis = rmsEvis = 0.;                       
200     if (varianceEvis > 0.) rmsEvis = std::sqrt    
201     if (meanEvis > 0.) resEvis = 100*rmsEvis/m    
202     analysisManager->FillH1(4, i1+0.5, meanEvi    
203                                                   
204     //print                                       
205     //                                            
206     G4cout                                        
207       << "\n   layer " << i1 << ": "              
208       << std::setprecision(5)                     
209       << std::setw(6) << G4BestUnit(meanEtot,"    
210       << std::setprecision(4)                     
211       << std::setw(5) << G4BestUnit( rmsEtot,"    
212       << std::setprecision(2)                     
213       << std::setw(3) << resEtot  << " %)"        
214       << "     "                                  
215       << std::setprecision(5)                     
216       << std::setw(6) << G4BestUnit(meanEvis,"    
217       << std::setprecision(4)                     
218       << std::setw(5) << G4BestUnit( rmsEvis,"    
219       << std::setprecision(2)                     
220       << std::setw(3) << resEvis  << " %)";       
221   }                                               
222   G4cout << G4endl;                               
223                                                   
224   //calorimeter: total energy                     
225   meanEtot  = EtotCalor /nbEvents;                
226   meanEtot2 = Etot2Calor/nbEvents;                
227   varianceEtot = meanEtot2 - meanEtot*meanEtot    
228   resEtot = rmsEtot = 0.;                         
229   if (varianceEtot > 0.) rmsEtot = std::sqrt(v    
230   if (meanEtot > 0.) resEtot = 100*rmsEtot/mea    
231                                                   
232   //calorimeter: visible energy                   
233   meanEvis  = EvisCalor /nbEvents;                
234   meanEvis2 = Evis2Calor/nbEvents;                
235   varianceEvis = meanEvis2 - meanEvis*meanEvis    
236   resEvis = rmsEvis = 0.;                         
237   if (varianceEvis > 0.) rmsEvis = std::sqrt(v    
238   if (meanEvis > 0.) resEvis = 100*rmsEvis/mea    
239                                                   
240   //print                                         
241   //                                              
242   G4cout                                          
243     << "\n   total calor : "                      
244     << std::setprecision(5)                       
245     << std::setw(6) << G4BestUnit(meanEtot,"En    
246     << std::setprecision(4)                       
247     << std::setw(5) << G4BestUnit( rmsEtot,"En    
248     << std::setprecision(2)                       
249     << std::setw(3) << resEtot  << " %)"          
250     << "     "                                    
251     << std::setprecision(5)                       
252     << std::setw(6) << G4BestUnit(meanEvis,"En    
253     << std::setprecision(4)                       
254     << std::setw(5) << G4BestUnit( rmsEvis,"En    
255     << std::setprecision(2)                       
256     << std::setw(3) << resEvis  << " %)";         
257                                                   
258   G4cout << "\n-------------------------------    
259          << G4endl;                               
260                                                   
261   //leakage                                       
262   G4double meanEleak,meanEleak2,varianceEleak,    
263   meanEleak  = Eleak /nbEvents;                   
264   meanEleak2 = Eleak2/nbEvents;                   
265   varianceEleak = meanEleak2 - meanEleak*meanE    
266   rmsEleak = 0.;                                  
267   if (varianceEleak > 0.) rmsEleak = std::sqrt    
268   ratio = 100*meanEleak/fEkin;                    
269                                                   
270   G4double forward = 100*EdLeak[0]/(nbEvents*f    
271   G4double bakward = 100*EdLeak[1]/(nbEvents*f    
272   G4double lateral = 100*EdLeak[2]/(nbEvents*f    
273                                                   
274   //print                                         
275   //                                              
276   G4cout                                          
277     << "\n   Leakage : "                          
278     << std::setprecision(5)                       
279     << std::setw(6) << G4BestUnit(meanEleak,"E    
280     << std::setprecision(4)                       
281     << std::setw(5) << G4BestUnit( rmsEleak,"E    
282     << "\n   Eleak/Ebeam ="                       
283     << std::setprecision(3)                       
284     << std::setw(4) << ratio  << " %  ( forwar    
285     << std::setw(4) << forward  << " %;   back    
286     << std::setw(4) << bakward  << " %;   late    
287     << std::setw(4) << lateral  << " %)"          
288     << G4endl;                                    
289                                                   
290   G4cout.setf(mode,std::ios::floatfield);         
291   G4cout.precision(prec);                         
292                                                   
293   //normalize histograms                          
294   G4double factor = 1./nbEvents;                  
295   analysisManager->ScaleH1(5,factor);             
296 }                                                 
297                                                   
298 //....oooOO0OOooo........oooOO0OOooo........oo    
299