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Geant4/examples/extended/eventgenerator/HepMC/HepMCEx01/src/ExN04StackingAction.cc

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Diff markup

Differences between /examples/extended/eventgenerator/HepMC/HepMCEx01/src/ExN04StackingAction.cc (Version 11.3.0) and /examples/extended/eventgenerator/HepMC/HepMCEx01/src/ExN04StackingAction.cc (Version 8.0)


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 25 //                                                 22 //
 26 /// \file eventgenerator/HepMC/HepMCEx01/src/E << 
 27 /// \brief Implementation of the ExN04Stacking << 
 28 //                                             << 
 29 //                                             << 
 30                                                    23 
 31 #include "ExN04StackingAction.hh"                  24 #include "ExN04StackingAction.hh"
 32                                                <<  25 #include "G4SDManager.hh"
 33 #include "ExN04StackingActionMessenger.hh"     <<  26 #include "G4RunManager.hh"
 34                                                << 
 35 #include "G4Event.hh"                              27 #include "G4Event.hh"
 36 #include "G4HCofThisEvent.hh"                      28 #include "G4HCofThisEvent.hh"
 37 #include "G4ParticleDefinition.hh"             << 
 38 #include "G4ParticleTypes.hh"                  << 
 39 #include "G4RunManager.hh"                     << 
 40 #include "G4SDManager.hh"                      << 
 41 #include "G4SystemOfUnits.hh"                  << 
 42 #include "G4Track.hh"                              29 #include "G4Track.hh"
 43 #include "G4TrackStatus.hh"                        30 #include "G4TrackStatus.hh"
                                                   >>  31 #include "G4ParticleDefinition.hh"
                                                   >>  32 #include "G4ParticleTypes.hh"
                                                   >>  33 #include "ExN04StackingActionMessenger.hh"
                                                   >>  34 #include "G4ios.hh"
 44                                                    35 
 45 //....oooOO0OOooo........oooOO0OOooo........oo << 
 46 ExN04StackingAction::ExN04StackingAction()         36 ExN04StackingAction::ExN04StackingAction()
 47   : G4UserStackingAction(), fTrkHits(0), fMuon <<  37  : trkHits(0), muonHits(0), stage(0)
 48 {                                              <<  38 { 
 49   fAngRoI = 30.0 * deg;                        <<  39   angRoI = 30.0*deg; 
 50   fReqMuon = 2;                                <<  40   reqMuon = 2;
 51   fReqIso = 10;                                <<  41   reqIso = 10;
 52   fMessenger = new ExN04StackingActionMessenge <<  42   theMessenger = new ExN04StackingActionMessenger(this);
 53 }                                                  43 }
 54                                                    44 
 55 //....oooOO0OOooo........oooOO0OOooo........oo << 
 56 ExN04StackingAction::~ExN04StackingAction()        45 ExN04StackingAction::~ExN04StackingAction()
 57 {                                              <<  46 { delete theMessenger; }
 58   delete fMessenger;                           << 
 59 }                                              << 
 60                                                    47 
 61 //....oooOO0OOooo........oooOO0OOooo........oo <<  48 G4ClassificationOfNewTrack 
 62 G4ClassificationOfNewTrack ExN04StackingAction <<  49 ExN04StackingAction::ClassifyNewTrack(const G4Track * aTrack)
 63 {                                                  50 {
 64   G4ClassificationOfNewTrack classification =      51   G4ClassificationOfNewTrack classification = fWaiting;
 65   switch (fStage) {                            <<  52   switch(stage)
 66     case 0:  // Stage 0 : Primary muons only   <<  53   {
 67       if (aTrack->GetParentID() == 0) {        <<  54   case 0: // Stage 0 : Primary muons only
 68         G4ParticleDefinition* particleType = a <<  55     if(aTrack->GetParentID()==0)
 69         if ((particleType == G4MuonPlus::MuonP <<  56     {
 70             || (particleType == G4MuonMinus::M <<  57       G4ParticleDefinition * particleType = aTrack->GetDefinition();
 71         {                                      <<  58       if((particleType==G4MuonPlus::MuonPlusDefinition())
 72           classification = fUrgent;            <<  59        ||(particleType==G4MuonMinus::MuonMinusDefinition()))
 73         }                                      <<  60       { classification = fUrgent; }
 74       }                                        <<  61     }
                                                   >>  62     break;
                                                   >>  63 
                                                   >>  64   case 1: // Stage 1 : Charged primaries only
                                                   >>  65           //           Suspended tracks will be sent to the waiting stack
                                                   >>  66     if(aTrack->GetParentID()!=0) { break; }
                                                   >>  67     if(aTrack->GetTrackStatus()==fSuspend) { break; }
                                                   >>  68     if(aTrack->GetDefinition()->GetPDGCharge()==0.) { break; }
                                                   >>  69     classification = fUrgent;
                                                   >>  70     break;
                                                   >>  71 
                                                   >>  72   default: // Stage 2 : Accept all primaries
                                                   >>  73            //           Accept all secondaries in RoI
                                                   >>  74            //           Kill secondaries outside RoI
                                                   >>  75     if(aTrack->GetParentID()==0)
                                                   >>  76     { 
                                                   >>  77       classification = fUrgent;
 75       break;                                       78       break;
 76                                                <<  79     }
 77     case 1:  // Stage 1 : Charged primaries on <<  80     if((angRoI<0.)||InsideRoI(aTrack,angRoI))
 78              //           Suspended tracks wil <<  81     { 
 79       if (aTrack->GetParentID() != 0) {        << 
 80         break;                                 << 
 81       }                                        << 
 82       if (aTrack->GetTrackStatus() == fSuspend << 
 83         break;                                 << 
 84       }                                        << 
 85       if (aTrack->GetDefinition()->GetPDGCharg << 
 86         break;                                 << 
 87       }                                        << 
 88       classification = fUrgent;                    82       classification = fUrgent;
 89       break;                                       83       break;
 90                                                <<  84     }
 91     default:  // Stage 2 : Accept all primarie <<  85     classification = fKill;
 92               //           Accept all secondar << 
 93               //           Kill secondaries ou << 
 94       if (aTrack->GetParentID() == 0) {        << 
 95         classification = fUrgent;              << 
 96         break;                                 << 
 97       }                                        << 
 98       if ((fAngRoI < 0.) || InsideRoI(aTrack,  << 
 99         classification = fUrgent;              << 
100         break;                                 << 
101       }                                        << 
102       classification = fKill;                  << 
103   }                                                86   }
104   return classification;                           87   return classification;
105 }                                                  88 }
106                                                    89 
107 //....oooOO0OOooo........oooOO0OOooo........oo <<  90 G4bool ExN04StackingAction::InsideRoI(const G4Track * aTrack,G4double ang)
108 G4bool ExN04StackingAction::InsideRoI(const G4 << 
109 {                                                  91 {
110   if (!fMuonHits) {                            <<  92   if(!muonHits)
111     fMuonHits = (ExN04MuonHitsCollection*)GetC <<  93   { muonHits = (ExN04MuonHitsCollection*)GetCollection("muonCollection"); }
112   }                                            <<  94   if(!muonHits)
113   if (!fMuonHits) {                            <<  95   { G4cerr << "muonCollection NOT FOUND" << G4endl;
114     G4cerr << "muonCollection NOT FOUND" << G4 <<  96     return true; }
115     return true;                               << 
116   }                                            << 
117                                                    97 
118   G4int nhits = fMuonHits->entries();          <<  98   G4int nhits = muonHits->entries();
119                                                    99 
120   const G4ThreeVector trPos = aTrack->GetPosit    100   const G4ThreeVector trPos = aTrack->GetPosition();
121   for (G4int i = 0; i < nhits; i++) {          << 101   for(G4int i=0;i<nhits;i++)
122     G4ThreeVector muHitPos = (*fMuonHits)[i]-> << 102   {
                                                   >> 103     G4ThreeVector muHitPos = (*muonHits)[i]->GetPos();
123     G4double angl = muHitPos.angle(trPos);        104     G4double angl = muHitPos.angle(trPos);
124     if (angl < ang) {                          << 105     if(angl<ang) { return true; }
125       return true;                             << 
126     }                                          << 
127   }                                               106   }
128                                                   107 
129   return false;                                   108   return false;
130 }                                                 109 }
131                                                   110 
132 //....oooOO0OOooo........oooOO0OOooo........oo << 
133 G4VHitsCollection* ExN04StackingAction::GetCol    111 G4VHitsCollection* ExN04StackingAction::GetCollection(G4String colName)
134 {                                                 112 {
135   G4SDManager* SDMan = G4SDManager::GetSDMpoin    113   G4SDManager* SDMan = G4SDManager::GetSDMpointer();
136   G4RunManager* runMan = G4RunManager::GetRunM    114   G4RunManager* runMan = G4RunManager::GetRunManager();
137   int colID = SDMan->GetCollectionID(colName);    115   int colID = SDMan->GetCollectionID(colName);
138   if (colID >= 0) {                            << 116   if(colID>=0)
                                                   >> 117   {
139     const G4Event* currentEvent = runMan->GetC    118     const G4Event* currentEvent = runMan->GetCurrentEvent();
140     G4HCofThisEvent* HCE = currentEvent->GetHC    119     G4HCofThisEvent* HCE = currentEvent->GetHCofThisEvent();
141     return HCE->GetHC(colID);                     120     return HCE->GetHC(colID);
142   }                                               121   }
143   return 0;                                       122   return 0;
144 }                                                 123 }
145                                                   124 
146 //....oooOO0OOooo........oooOO0OOooo........oo << 
147 void ExN04StackingAction::NewStage()              125 void ExN04StackingAction::NewStage()
148 {                                                 126 {
149   fStage++;                                    << 127   stage++;
150   G4int nhits;                                    128   G4int nhits;
151   if (fStage == 1) {                           << 129   if(stage==1)
152     // Stage 0->1 : check if at least "fReqMuo << 130   {
153     //              otherwise abort current ev << 131   // Stage 0->1 : check if at least "reqMuon" hits on muon chamber
154     if (!fMuonHits) {                          << 132   //              otherwise abort current event
155       fMuonHits = (ExN04MuonHitsCollection*)Ge << 133     if(!muonHits)
156     }                                          << 134     { muonHits = (ExN04MuonHitsCollection*)GetCollection("muonCollection"); }
157     if (!fMuonHits) {                          << 135     if(!muonHits)
158       G4cerr << "muonCollection NOT FOUND" <<  << 136     { G4cerr << "muonCollection NOT FOUND" << G4endl;
159       return;                                  << 137       return; }
160     }                                          << 138     nhits = muonHits->entries();
161     nhits = fMuonHits->entries();              << 139     G4cout << "Stage 0->1 : " << nhits << " hits found in the muon chamber."
162     G4cout << "Stage 0->1 : " << nhits << " hi << 140          << G4endl;
163     if (nhits < fReqMuon) {                    << 141     if(nhits<reqMuon)
                                                   >> 142     { 
164       stackManager->clear();                      143       stackManager->clear();
165       G4cout << "++++++++ event aborted" << G4    144       G4cout << "++++++++ event aborted" << G4endl;
166       return;                                     145       return;
167     }                                             146     }
168     stackManager->ReClassify();                   147     stackManager->ReClassify();
169     return;                                       148     return;
170   }                                               149   }
171                                                   150 
172   else if (fStage == 2) {                      << 151   else if(stage==2)
173     // Stage 1->2 : check the isolation of muo << 152   {
174     //              at least "fReqIsoMuon" iso << 153   // Stage 1->2 : check the isolation of muon tracks
175     //              otherwise abort current ev << 154   //              at least "reqIsoMuon" isolated muons
176     //              Isolation requires "fReqIs << 155   //              otherwise abort current event.
177     //              (including own hits) in th << 156   //              Isolation requires "reqIso" or less hits
178     //              in the tracker layers.     << 157   //              (including own hits) in the RoI region
179     nhits = fMuonHits->entries();              << 158   //              in the tracker layers.
180     if (!fTrkHits) {                           << 159     nhits = muonHits->entries();
181       fTrkHits = (ExN04TrackerHitsCollection*) << 160     if(!trkHits)
182     }                                          << 161     { trkHits = (ExN04TrackerHitsCollection*)GetCollection("trackerCollection"); }
183     if (!fTrkHits) {                           << 162     if(!trkHits)
184       G4cerr << "trackerCollection NOT FOUND"  << 163     { G4cerr << "trackerCollection NOT FOUND" << G4endl;
185       return;                                  << 164       return; }
186     }                                          << 165     G4int nTrkhits = trkHits->entries();
187     G4int nTrkhits = fTrkHits->entries();      << 
188     G4int isoMuon = 0;                            166     G4int isoMuon = 0;
189     for (G4int j = 0; j < nhits; j++) {        << 167     for(G4int j=0;j<nhits;j++)
190       G4ThreeVector hitPos = (*fMuonHits)[j]-> << 168     {
                                                   >> 169       G4ThreeVector hitPos = (*muonHits)[j]->GetPos();
191       G4int nhitIn = 0;                           170       G4int nhitIn = 0;
192       for (G4int jj = 0; (jj < nTrkhits) && (n << 171       for(G4int jj=0;(jj<nTrkhits)&&(nhitIn<=reqIso);jj++)
193         G4ThreeVector trkhitPos = (*fTrkHits)[ << 172       {
194         if (trkhitPos.angle(hitPos) < fAngRoI) << 173         G4ThreeVector trkhitPos = (*trkHits)[jj]->GetPos();
                                                   >> 174         if(trkhitPos.angle(hitPos)<angRoI) nhitIn++;
195       }                                           175       }
196       if (nhitIn <= fReqIso) isoMuon++;        << 176       if(nhitIn<=reqIso) isoMuon++;
197     }                                             177     }
198     G4cout << "Stage 1->2 : " << isoMuon << "     178     G4cout << "Stage 1->2 : " << isoMuon << " isolated muon found." << G4endl;
199     if (isoMuon < fReqIsoMuon) {               << 179     if(isoMuon<reqIsoMuon)
                                                   >> 180     {
200       stackManager->clear();                      181       stackManager->clear();
201       G4cout << "++++++++ event aborted" << G4    182       G4cout << "++++++++ event aborted" << G4endl;
202       return;                                     183       return;
203     }                                             184     }
204     stackManager->ReClassify();                   185     stackManager->ReClassify();
205     return;                                       186     return;
206   }                                               187   }
207                                                   188 
208   else {                                       << 189   else
209     // Other fStage change : just re-classify  << 190   {
                                                   >> 191   // Other stage change : just re-classify
210     stackManager->ReClassify();                   192     stackManager->ReClassify();
211   }                                               193   }
212 }                                                 194 }
213                                                << 195     
214 //....oooOO0OOooo........oooOO0OOooo........oo << 
215 void ExN04StackingAction::PrepareNewEvent()       196 void ExN04StackingAction::PrepareNewEvent()
216 {                                              << 197 { 
217   fStage = 0;                                  << 198   stage = 0; 
218   fTrkHits = 0;                                << 199   trkHits = 0;
219   fMuonHits = 0;                               << 200   muonHits = 0;
220 }                                                 201 }
                                                   >> 202 
                                                   >> 203 
221                                                   204