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Geant4/digits_hits/scorer/src/G4PSSphereSurfaceFlux.cc

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Differences between /digits_hits/scorer/src/G4PSSphereSurfaceFlux.cc (Version 11.3.0) and /digits_hits/scorer/src/G4PSSphereSurfaceFlux.cc (Version 9.2.p2)


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 26 //                                                 26 //
                                                   >>  27 // $Id: G4PSSphereSurfaceFlux.cc,v 1.1.4.1 2009/03/03 14:03:04 gcosmo Exp $
                                                   >>  28 // GEANT4 tag $Name: geant4-09-02-patch-01 $
 27 //                                                 29 //
 28 // G4PSSphereSurfaceFlux                           30 // G4PSSphereSurfaceFlux
 29 #include "G4PSSphereSurfaceFlux.hh"                31 #include "G4PSSphereSurfaceFlux.hh"
 30                                                << 
 31 #include "G4SystemOfUnits.hh"                  << 
 32 #include "G4StepStatus.hh"                         32 #include "G4StepStatus.hh"
 33 #include "G4Track.hh"                              33 #include "G4Track.hh"
 34 #include "G4VSolid.hh"                             34 #include "G4VSolid.hh"
 35 #include "G4VPhysicalVolume.hh"                    35 #include "G4VPhysicalVolume.hh"
 36 #include "G4VPVParameterisation.hh"                36 #include "G4VPVParameterisation.hh"
 37 #include "G4UnitsTable.hh"                         37 #include "G4UnitsTable.hh"
 38 #include "G4GeometryTolerance.hh"                  38 #include "G4GeometryTolerance.hh"
 39 //////////////////////////////////////////////     39 ////////////////////////////////////////////////////////////////////////////////
 40 // (Description)                                   40 // (Description)
 41 //   This is a primitive scorer class for scor     41 //   This is a primitive scorer class for scoring only Surface Flux.
 42 //  Flux version assumes only for G4Sphere sha <<  42 //  Flux version assumes only for G4Sphere shape. 
 43 //                                                 43 //
 44 // Surface is defined  at the inside of sphere     44 // Surface is defined  at the inside of sphere.
 45 // Direction                  -Rmin   +Rmax        45 // Direction                  -Rmin   +Rmax
 46 //   0  IN || OUT            ->|<-     |           46 //   0  IN || OUT            ->|<-     |
 47 //   1  IN                   ->|       |           47 //   1  IN                   ->|       |
 48 //   2  OUT                    |<-     |           48 //   2  OUT                    |<-     |
 49 //                                                 49 //
 50 // Created: 2005-11-14  Tsukasa ASO, Akinori K     50 // Created: 2005-11-14  Tsukasa ASO, Akinori Kimura.
 51 // 29-Mar-2007  T.Aso,  Bug fix for momentum d     51 // 29-Mar-2007  T.Aso,  Bug fix for momentum direction at outgoing flux.
 52 // 2010-07-22   Introduce Unit specification.  <<  52 // 
 53 // 2010-07-22   Add weighted and divideByAre o << 
 54 // 2011-02-21   Get correct momentum direction << 
 55 // 2011-09-09   Modify comment in PrintAll().  << 
 56 // 2014-03-03  T.Aso,  To use always positive  << 
 57 //////////////////////////////////////////////     53 ///////////////////////////////////////////////////////////////////////////////
 58                                                    54 
 59 G4PSSphereSurfaceFlux::G4PSSphereSurfaceFlux(c <<  55 G4PSSphereSurfaceFlux::G4PSSphereSurfaceFlux(G4String name, 
 60                                              G <<  56            G4int direction, G4int depth)
 61   : G4PSSphereSurfaceFlux(name, direction, "pe <<  57   :G4VPrimitiveScorer(name,depth),HCID(-1),fDirection(direction)
 62 {}                                             <<  58 {;}
 63                                                <<  59 
 64 G4PSSphereSurfaceFlux::G4PSSphereSurfaceFlux(c <<  60 G4PSSphereSurfaceFlux::~G4PSSphereSurfaceFlux()
 65                                              c <<  61 {;}
 66   : G4VPrimitiveScorer(name, depth)            << 
 67   , HCID(-1)                                   << 
 68   , fDirection(direction)                      << 
 69   , EvtMap(nullptr)                            << 
 70   , weighted(true)                             << 
 71   , divideByArea(true)                         << 
 72 {                                              << 
 73   DefineUnitAndCategory();                     << 
 74   SetUnit(unit);                               << 
 75 }                                              << 
 76                                                    62 
 77 G4bool G4PSSphereSurfaceFlux::ProcessHits(G4St <<  63 G4bool G4PSSphereSurfaceFlux::ProcessHits(G4Step* aStep,G4TouchableHistory*)
 78 {                                                  64 {
 79   G4StepPoint* preStep = aStep->GetPreStepPoin     65   G4StepPoint* preStep = aStep->GetPreStepPoint();
 80                                                <<  66   G4VPhysicalVolume* physVol = preStep->GetPhysicalVolume();
 81   G4VPhysicalVolume* physVol       = preStep-> << 
 82   G4VPVParameterisation* physParam = physVol->     67   G4VPVParameterisation* physParam = physVol->GetParameterisation();
 83   G4VSolid* solid                  = nullptr;  <<  68   G4VSolid * solid = 0;
 84   if(physParam != nullptr)                     <<  69   if(physParam)
 85   {  // for parameterized volume               <<  70   { // for parameterized volume
 86     G4int idx =                                <<  71     G4int idx = ((G4TouchableHistory*)(aStep->GetPreStepPoint()->GetTouchable()))
 87       ((G4TouchableHistory*) (aStep->GetPreSte <<  72                 ->GetReplicaNumber(indexDepth);
 88         ->GetReplicaNumber(indexDepth);        << 
 89     solid = physParam->ComputeSolid(idx, physV     73     solid = physParam->ComputeSolid(idx, physVol);
 90     solid->ComputeDimensions(physParam, idx, p <<  74     solid->ComputeDimensions(physParam,idx,physVol);
 91   }                                                75   }
 92   else                                             76   else
 93   {  // for ordinary volume                    <<  77   { // for ordinary volume
 94     solid = physVol->GetLogicalVolume()->GetSo     78     solid = physVol->GetLogicalVolume()->GetSolid();
 95   }                                                79   }
 96                                                    80 
 97   auto  sphereSolid = (G4Sphere*) (solid);     <<  81 //  if( solid->GetEntityType() != "G4Sphere" ){
 98                                                <<  82 //    G4Exception("G4PSSphereSurfaceFluxScorer. - Solid type is not supported.");
 99   G4int dirFlag = IsSelectedSurface(aStep, sph <<  83 //    return FALSE;
100   if(dirFlag > 0)                              <<  84 //  }
101   {                                            <<  85   G4Sphere* sphereSolid = (G4Sphere*)(solid);
102     if(fDirection == fFlux_InOut || fDirection <<  86 
103     {                                          <<  87   G4int dirFlag =IsSelectedSurface(aStep,sphereSolid);
104       G4StepPoint* thisStep = nullptr;         <<  88   if ( dirFlag > 0 ) {
105       if(dirFlag == fFlux_In)                  <<  89     if ( fDirection == fFlux_InOut || fDirection == dirFlag ){
106       {                                        <<  90 
107         thisStep = preStep;                    <<  91       G4StepPoint* thisStep=0;
108       }                                        <<  92       if ( dirFlag == fFlux_In ){
109       else if(dirFlag == fFlux_Out)            <<  93   thisStep = preStep;
110       {                                        <<  94       }else if ( dirFlag == fFlux_Out ){
111         thisStep = aStep->GetPostStepPoint();  <<  95   thisStep = aStep->GetPreStepPoint();
112       }                                        <<  96       }else{
113       else                                     <<  97   return FALSE;
114       {                                        << 
115         return false;                          << 
116       }                                            98       }
117                                                    99 
118       G4TouchableHandle theTouchable = thisSte    100       G4TouchableHandle theTouchable = thisStep->GetTouchableHandle();
119       G4ThreeVector pdirection       = thisSte << 101       G4ThreeVector pdirection = thisStep->GetMomentumDirection();
120       G4ThreeVector localdir =                 << 102       G4ThreeVector localdir  = 
121         theTouchable->GetHistory()->GetTopTran << 103   theTouchable->GetHistory()->GetTopTransform().TransformAxis(pdirection);
122       G4double localdirL2 = localdir.x() * loc << 104       G4double localdirL2 = localdir.x()*localdir.x()
123                             localdir.y() * loc << 105   +localdir.y()*localdir.y()
124                             localdir.z() * loc << 106   +localdir.z()*localdir.z();
125       G4ThreeVector stppos1 = aStep->GetPreSte << 107       G4ThreeVector stppos1= aStep->GetPreStepPoint()->GetPosition();
126       G4ThreeVector localpos1 =                << 108       G4ThreeVector localpos1 = 
127         theTouchable->GetHistory()->GetTopTran << 109   theTouchable->GetHistory()->GetTopTransform().TransformPoint(stppos1);
128       G4double localR2 = localpos1.x() * local << 110       G4double localR2 = localpos1.x()*localpos1.x()
129                          localpos1.y() * local << 111   +localpos1.y()*localpos1.y()
130                          localpos1.z() * local << 112   +localpos1.z()*localpos1.z();
131       G4double anglefactor =                   << 113       G4double anglefactor = (localdir.x()*localpos1.x()
132         (localdir.x() * localpos1.x() + locald << 114             +localdir.y()*localpos1.y()
133          localdir.z() * localpos1.z()) /       << 115             +localdir.z()*localpos1.z())
134         std::sqrt(localdirL2) / std::sqrt(loca << 116   /std::sqrt(localdirL2)/std::sqrt(localR2);
135       if(anglefactor < 0.0)                    << 117 
136         anglefactor *= -1.0;                   << 118       G4double radi   = sphereSolid->GetInsideRadius();
137                                                << 119       G4double dph    = sphereSolid->GetDeltaPhiAngle()/radian;
138       G4double current = 1.0 / anglefactor;    << 120       G4double stth   = sphereSolid->GetStartThetaAngle()/radian;
139       if(weighted)                             << 121       G4double enth   = stth+sphereSolid->GetDeltaThetaAngle()/radian;
140         current *= thisStep->GetWeight();  //  << 122       G4double square = radi*radi*dph*( -std::cos(enth) + std::cos(stth) );
141       if(divideByArea)                     //  << 123 
142       {                                        << 124       G4double current = thisStep->GetWeight(); // Flux (Particle Weight)
143         G4double radi = sphereSolid->GetInnerR << 125       current = current/square;  // Flux with angle.
144         G4double dph  = sphereSolid->GetDeltaP << 126 
145         G4double stth = sphereSolid->GetStartT << 127       current /= anglefactor;
146         G4double enth = stth + sphereSolid->Ge << 
147         current /= radi * radi * dph * (-std:: << 
148       }                                        << 
149                                                   128 
150       G4int index = GetIndex(aStep);              129       G4int index = GetIndex(aStep);
151       EvtMap->add(index, current);             << 130       EvtMap->add(index,current);
152     }                                             131     }
153   }                                               132   }
154                                                   133 
155   return true;                                 << 134   return TRUE;
156 }                                                 135 }
157                                                   136 
158 G4int G4PSSphereSurfaceFlux::IsSelectedSurface << 137 G4int G4PSSphereSurfaceFlux::IsSelectedSurface(G4Step* aStep, G4Sphere* sphereSolid){
159                                                << 
160 {                                              << 
161   G4TouchableHandle theTouchable =             << 
162     aStep->GetPreStepPoint()->GetTouchableHand << 
163   G4double kCarTolerance =                     << 
164     G4GeometryTolerance::GetInstance()->GetSur << 
165                                                   138 
166   if(aStep->GetPreStepPoint()->GetStepStatus() << 139   G4TouchableHandle theTouchable = 
167   {                                            << 140     aStep->GetPreStepPoint()->GetTouchableHandle();
                                                   >> 141   G4double kCarTolerance = G4GeometryTolerance::GetInstance()->GetSurfaceTolerance();
                                                   >> 142   
                                                   >> 143   if (aStep->GetPreStepPoint()->GetStepStatus() == fGeomBoundary ){
168     // Entering Geometry                          144     // Entering Geometry
169     G4ThreeVector stppos1 = aStep->GetPreStepP << 145     G4ThreeVector stppos1= aStep->GetPreStepPoint()->GetPosition();
170     G4ThreeVector localpos1 =                  << 146     G4ThreeVector localpos1 = 
171       theTouchable->GetHistory()->GetTopTransf    147       theTouchable->GetHistory()->GetTopTransform().TransformPoint(stppos1);
172     G4double localR2 = localpos1.x() * localpo << 148     G4double localR2 = localpos1.x()*localpos1.x()
173                        localpos1.y() * localpo << 149                       +localpos1.y()*localpos1.y()
174                        localpos1.z() * localpo << 150                       +localpos1.z()*localpos1.z();
175     // G4double InsideRadius2 =                << 151     G4double InsideRadius2 = 
176     //  sphereSolid->GetInsideRadius()*sphereS << 152       sphereSolid->GetInsideRadius()*sphereSolid->GetInsideRadius();
177     // if(std::fabs( localR2 - InsideRadius2 ) << 153     if(std::fabs( localR2 - InsideRadius2 ) < kCarTolerance ){
178     G4double InsideRadius = sphereSolid->GetIn << 
179     if(localR2 >                               << 
180          (InsideRadius - kCarTolerance) * (Ins << 
181        localR2 <                               << 
182          (InsideRadius + kCarTolerance) * (Ins << 
183     {                                          << 
184       return fFlux_In;                            154       return fFlux_In;
185     }                                             155     }
186   }                                               156   }
187                                                   157 
188   if(aStep->GetPostStepPoint()->GetStepStatus( << 158   if (aStep->GetPostStepPoint()->GetStepStatus() == fGeomBoundary ){
189   {                                            << 
190     // Exiting Geometry                           159     // Exiting Geometry
191     G4ThreeVector stppos2 = aStep->GetPostStep << 160     G4ThreeVector stppos2= aStep->GetPostStepPoint()->GetPosition();
192     G4ThreeVector localpos2 =                  << 161     G4ThreeVector localpos2 = 
193       theTouchable->GetHistory()->GetTopTransf    162       theTouchable->GetHistory()->GetTopTransform().TransformPoint(stppos2);
194     G4double localR2 = localpos2.x() * localpo << 163     G4double localR2 = localpos2.x()*localpos2.x()
195                        localpos2.y() * localpo << 164                       +localpos2.y()*localpos2.y()
196                        localpos2.z() * localpo << 165                       +localpos2.z()*localpos2.z();
197     // G4double InsideRadius2 =                << 166     G4double InsideRadius2 = 
198     //  sphereSolid->GetInsideRadius()*sphereS << 167       sphereSolid->GetInsideRadius()*sphereSolid->GetInsideRadius();
199     // if(std::facb(localR2 - InsideRadius2) ) << 168     if(std::fabs( localR2 - InsideRadius2 ) < kCarTolerance ){
200     G4double InsideRadius = sphereSolid->GetIn << 
201     if(localR2 >                               << 
202          (InsideRadius - kCarTolerance) * (Ins << 
203        localR2 <                               << 
204          (InsideRadius + kCarTolerance) * (Ins << 
205     {                                          << 
206       return fFlux_Out;                           169       return fFlux_Out;
207     }                                             170     }
208   }                                               171   }
209                                                   172 
210   return -1;                                      173   return -1;
211 }                                                 174 }
212                                                   175 
213 void G4PSSphereSurfaceFlux::Initialize(G4HCofT    176 void G4PSSphereSurfaceFlux::Initialize(G4HCofThisEvent* HCE)
214 {                                                 177 {
215   EvtMap = new G4THitsMap<G4double>(detector->    178   EvtMap = new G4THitsMap<G4double>(detector->GetName(), GetName());
216   if(HCID < 0)                                 << 179   if ( HCID < 0 ) HCID = GetCollectionID(0);
217     HCID = GetCollectionID(0);                 << 180   HCE->AddHitsCollection(HCID, (G4VHitsCollection*)EvtMap);
218   HCE->AddHitsCollection(HCID, (G4VHitsCollect << 
219 }                                                 181 }
220                                                   182 
221 void G4PSSphereSurfaceFlux::clear() { EvtMap-> << 183 void G4PSSphereSurfaceFlux::EndOfEvent(G4HCofThisEvent*)
                                                   >> 184 {;}
                                                   >> 185 
                                                   >> 186 void G4PSSphereSurfaceFlux::clear(){
                                                   >> 187   EvtMap->clear();
                                                   >> 188 }
                                                   >> 189 
                                                   >> 190 void G4PSSphereSurfaceFlux::DrawAll()
                                                   >> 191 {;}
222                                                   192 
223 void G4PSSphereSurfaceFlux::PrintAll()            193 void G4PSSphereSurfaceFlux::PrintAll()
224 {                                                 194 {
225   G4cout << " MultiFunctionalDet  " << detecto    195   G4cout << " MultiFunctionalDet  " << detector->GetName() << G4endl;
226   G4cout << " PrimitiveScorer " << GetName() < << 196   G4cout << " PrimitiveScorer " << GetName() <<G4endl; 
227   G4cout << " Number of entries " << EvtMap->e    197   G4cout << " Number of entries " << EvtMap->entries() << G4endl;
228   for(const auto& [copy, flux] : *(EvtMap->Get << 198   std::map<G4int,G4double*>::iterator itr = EvtMap->GetMap()->begin();
229   {                                            << 199   for(; itr != EvtMap->GetMap()->end(); itr++) {
230     G4cout << "  copy no.: " << copy           << 200     G4cout << "  copy no.: " << itr->first
231            << "  Flux  : " << *(flux) / GetUni << 201      << "  current  : " << *(itr->second)
232            << GetUnit() << "]" << G4endl;      << 202      << G4endl;
233   }                                               203   }
234 }                                                 204 }
235                                                   205 
236 void G4PSSphereSurfaceFlux::SetUnit(const G4St << 
237 {                                              << 
238   if(divideByArea)                             << 
239   {                                            << 
240     CheckAndSetUnit(unit, "Per Unit Surface"); << 
241   }                                            << 
242   else                                         << 
243   {                                            << 
244     if(unit.empty())                           << 
245     {                                          << 
246       unitName  = unit;                        << 
247       unitValue = 1.0;                         << 
248     }                                          << 
249     else                                       << 
250     {                                          << 
251       G4String msg = "Invalid unit [" + unit + << 
252                      GetUnit() + "] ) for " +  << 
253       G4Exception("G4PSSphereSurfaceFlux::SetU << 
254                   msg);                        << 
255     }                                          << 
256   }                                            << 
257 }                                              << 
258                                                << 
259 void G4PSSphereSurfaceFlux::DefineUnitAndCateg << 
260 {                                              << 
261   // Per Unit Surface                          << 
262   new G4UnitDefinition("percentimeter2", "perc << 
263                        (1. / cm2));            << 
264   new G4UnitDefinition("permillimeter2", "perm << 
265                        (1. / mm2));            << 
266   new G4UnitDefinition("permeter2", "perm2", " << 
267 }                                              << 
268                                                   206