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Geant4/examples/extended/field/field04/src/F04GlobalField.cc

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Differences between /examples/extended/field/field04/src/F04GlobalField.cc (Version 11.3.0) and /examples/extended/field/field04/src/F04GlobalField.cc (Version 9.3.p1)


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 27 /// \file field/field04/src/F04GlobalField.cc  << 
 28 /// \brief Implementation of the F04GlobalFiel << 
 29 //                                                 27 //
 30                                                    28 
 31 #include "F04GlobalField.hh"                   <<  29 #include <time.h>
 32                                                    30 
 33 #include "F04FocusSolenoid.hh"                 <<  31 #include "Randomize.hh"
 34 #include "F04SimpleSolenoid.hh"                <<  32 #include "G4TransportationManager.hh"
 35                                                    33 
 36 #include "G4CashKarpRKF45.hh"                  << 
 37 #include "G4ClassicalRK4.hh"                   << 
 38 #include "G4ExplicitEuler.hh"                      34 #include "G4ExplicitEuler.hh"
 39 #include "G4ImplicitEuler.hh"                      35 #include "G4ImplicitEuler.hh"
 40 #include "G4SimpleHeum.hh"                     << 
 41 #include "G4SimpleRunge.hh"                        36 #include "G4SimpleRunge.hh"
 42 #include "G4SystemOfUnits.hh"                  <<  37 #include "G4SimpleHeum.hh"
 43 #include "G4TransportationManager.hh"          <<  38 #include "G4ClassicalRK4.hh"
 44 #include "Randomize.hh"                        <<  39 #include "G4CashKarpRKF45.hh"
 45                                                << 
 46 #include <ctime>                               << 
 47                                                << 
 48 //....oooOO0OOooo........oooOO0OOooo........oo << 
 49                                                    40 
 50 G4ThreadLocal F04GlobalField* F04GlobalField:: <<  41 #include "F04GlobalField.hh"
 51                                                    42 
 52 //....oooOO0OOooo........oooOO0OOooo........oo <<  43 F04GlobalField* F04GlobalField::object = 0;
 53                                                    44 
 54 F04GlobalField::F04GlobalField(F04DetectorCons <<  45 F04GlobalField::F04GlobalField() : G4ElectroMagneticField(),
                                                   >>  46                              minStep(0.01*mm), deltaChord(3.0*mm),
                                                   >>  47                              deltaOneStep(0.01*mm), deltaIntersection(0.1*mm),
                                                   >>  48                              epsMin(2.5e-7*mm), epsMax(0.05*mm),
                                                   >>  49                              fEquation(0), fFieldManager(0), 
                                                   >>  50                              fFieldPropagator(0), fStepper(0), fChordFinder(0)
                                                   >>  51 //F04GlobalField::F04GlobalField() : G4MagneticField(),
                                                   >>  52 //                             minStep(0.01*mm), deltaChord(3.0*mm),
                                                   >>  53 //                             deltaOneStep(0.01*mm), deltaIntersection(0.1*mm),
                                                   >>  54 //                             epsMin(2.5e-7*mm), epsMax(0.05*mm),
                                                   >>  55 //                             fEquation(0), fFieldManager(0),
                                                   >>  56 //                             fFieldPropagator(0), fStepper(0), fChordFinder(0)
 55 {                                                  57 {
 56   fFieldMessenger = new F04FieldMessenger(this <<  58   fFieldMessenger = new F04FieldMessenger(this);
 57                                                    59 
 58   fFields = new FieldList();                   <<  60   fields = new FieldList();
                                                   >>  61 
                                                   >>  62   fStepperType = 4 ;       // ClassicalRK4 is default stepper
 59                                                    63 
 60   //  set object                                   64   //  set object
 61   fObject = this;                              << 
 62                                                    65 
 63   ConstructField();                            <<  66   object = this;
 64 }                                              << 
 65                                                    67 
 66 //....oooOO0OOooo........oooOO0OOooo........oo <<  68   updateField();
                                                   >>  69 }
 67                                                    70 
 68 F04GlobalField::~F04GlobalField()                  71 F04GlobalField::~F04GlobalField()
 69 {                                                  72 {
 70   Clear();                                     <<  73   clear();
 71                                                << 
 72   delete fFields;                              << 
 73                                                    74 
 74   delete fFieldMessenger;                          75   delete fFieldMessenger;
 75                                                    76 
 76   delete fEquation;                            <<  77   if (fEquation)        delete fEquation;
 77   delete fStepper;                             <<  78   if (fFieldManager)    delete fFieldManager;
 78   delete fChordFinder;                         <<  79   if (fFieldPropagator) delete fFieldPropagator;
                                                   >>  80   if (fStepper)         delete fStepper;
                                                   >>  81   if (fChordFinder)     delete fChordFinder;
 79 }                                                  82 }
 80                                                    83 
 81 //....oooOO0OOooo........oooOO0OOooo........oo <<  84 void F04GlobalField::updateField()
 82                                                << 
 83 void F04GlobalField::ConstructField()          << 
 84 {                                                  85 {
 85   Clear();                                     <<  86   first = true;
                                                   >>  87 
                                                   >>  88   nfp = 0;
                                                   >>  89   fp = 0;
                                                   >>  90 
                                                   >>  91   clear();
 86                                                    92 
 87   //  Construct equ. of motion of particles th     93   //  Construct equ. of motion of particles through B fields
 88   //  fEquation = new G4Mag_EqRhs(this);       <<  94 //  fEquation = new G4Mag_EqRhs(this);
 89   //  Construct equ. of motion of particles th     95   //  Construct equ. of motion of particles through e.m. fields
 90   //  fEquation = new G4EqMagElectricField(thi <<  96 //  fEquation = new G4EqMagElectricField(this);
 91   //  Construct equ. of motion of particles in     97   //  Construct equ. of motion of particles including spin through B fields
 92   //  fEquation = new G4Mag_SpinEqRhs(this);   <<  98 //  fEquation = new G4Mag_SpinEqRhs(this);
 93   //  Construct equ. of motion of particles in     99   //  Construct equ. of motion of particles including spin through e.m. fields
 94   fEquation = new G4EqEMFieldWithSpin(this);      100   fEquation = new G4EqEMFieldWithSpin(this);
 95                                                   101 
 96   //  Get transportation, field, and propagato    102   //  Get transportation, field, and propagator managers
 97   G4TransportationManager* transportManager =  << 103   G4TransportationManager* fTransportManager =
                                                   >> 104          G4TransportationManager::GetTransportationManager();
 98                                                   105 
 99   fFieldManager = GetGlobalFieldManager();        106   fFieldManager = GetGlobalFieldManager();
100                                                   107 
101   fFieldPropagator = transportManager->GetProp << 108   fFieldPropagator = fTransportManager->GetPropagatorInField();
102                                                   109 
103   //  Need to SetFieldChangesEnergy to account    110   //  Need to SetFieldChangesEnergy to account for a time varying electric
104   //  field (r.f. fields)                         111   //  field (r.f. fields)
105   fFieldManager->SetFieldChangesEnergy(true);     112   fFieldManager->SetFieldChangesEnergy(true);
106                                                   113 
107   //  Set the field                               114   //  Set the field
108   fFieldManager->SetDetectorField(this);          115   fFieldManager->SetDetectorField(this);
109                                                   116 
110   //  Choose a stepper for integration of the     117   //  Choose a stepper for integration of the equation of motion
111   SetStepper();                                   118   SetStepper();
112                                                   119 
113   //  Create a cord finder providing the (glob    120   //  Create a cord finder providing the (global field, min step length,
114   //  a pointer to the stepper)                   121   //  a pointer to the stepper)
115   fChordFinder = new G4ChordFinder((G4Magnetic << 122   fChordFinder = new G4ChordFinder((G4MagneticField*)this,minStep,fStepper);
116                                                   123 
117   // Set accuracy parameters                      124   // Set accuracy parameters
118   fChordFinder->SetDeltaChord(fDeltaChord);    << 125   fChordFinder->SetDeltaChord( deltaChord );
119                                                   126 
120   fFieldManager->SetAccuraciesWithDeltaOneStep << 127   fFieldManager->SetAccuraciesWithDeltaOneStep(deltaOneStep);
121                                                   128 
122   fFieldManager->SetDeltaIntersection(fDeltaIn << 129   fFieldManager->SetDeltaIntersection(deltaIntersection);
123                                                   130 
124   fFieldPropagator->SetMinimumEpsilonStep(fEps << 131   fFieldPropagator->SetMinimumEpsilonStep(epsMin);
125   fFieldPropagator->SetMaximumEpsilonStep(fEps << 132   fFieldPropagator->SetMaximumEpsilonStep(epsMax);
126                                                   133 
127   G4cout << "Accuracy Parameters:"             << 134   G4cout << "Accuracy Parameters:" <<
128          << " MinStep=" << fMinStep << " Delta << 135             " MinStep=" << minStep <<
129          << " DeltaOneStep=" << fDeltaOneStep  << 136             " DeltaChord=" << deltaChord <<
130   G4cout << "                    "             << 137             " DeltaOneStep=" << deltaOneStep << G4endl;
131          << " DeltaIntersection=" << fDeltaInt << 138   G4cout << "                    " <<
132          << " EpsMax=" << fEpsMax << G4endl;   << 139             " DeltaIntersection=" << deltaIntersection <<
                                                   >> 140             " EpsMin=" << epsMin <<
                                                   >> 141             " EpsMax=" << epsMax <<  G4endl;
133                                                   142 
134   fFieldManager->SetChordFinder(fChordFinder);    143   fFieldManager->SetChordFinder(fChordFinder);
135                                                   144 
136   G4double l = 0.0;                            << 
137   G4double B1 = fDetectorConstruction->GetCapt << 
138   G4double B2 = fDetectorConstruction->GetCapt << 
139                                                << 
140   G4LogicalVolume* logicCaptureMgnt = fDetecto << 
141   G4ThreeVector captureMgntCenter = fDetectorC << 
142                                                << 
143   auto focusSolenoid = new F04FocusSolenoid(B1 << 
144   focusSolenoid->SetHalf(true);                << 
145                                                << 
146   G4double B = fDetectorConstruction->GetTrans << 
147                                                << 
148   G4LogicalVolume* logicTransferMgnt = fDetect << 
149   G4ThreeVector transferMgntCenter = fDetector << 
150                                                << 
151   auto simpleSolenoid = new F04SimpleSolenoid( << 
152                                                << 
153   simpleSolenoid->SetColor("1,0,1");           << 
154   simpleSolenoid->SetColor("0,1,1");           << 
155   simpleSolenoid->SetMaxStep(1.5 * mm);        << 
156   simpleSolenoid->SetMaxStep(2.5 * mm);        << 
157                                                << 
158   if (fFields) {                               << 
159     if (fFields->size() > 0) {                 << 
160       FieldList::iterator i;                   << 
161       for (i = fFields->begin(); i != fFields- << 
162         (*i)->Construct();                     << 
163       }                                        << 
164     }                                          << 
165   }                                            << 
166 }                                              << 
167                                                << 
168 //....oooOO0OOooo........oooOO0OOooo........oo << 
169                                                << 
170 F04GlobalField* F04GlobalField::GetObject(F04D << 
171 {                                              << 
172   if (!fObject) new F04GlobalField(det);       << 
173   return fObject;                              << 
174 }                                                 145 }
175                                                   146 
176 //....oooOO0OOooo........oooOO0OOooo........oo << 147 F04GlobalField* F04GlobalField::getObject()
177                                                << 
178 F04GlobalField* F04GlobalField::GetObject()    << 
179 {                                                 148 {
180   if (fObject) return fObject;                 << 149   if (!object) new F04GlobalField();
181   return nullptr;                              << 150   return object;
182 }                                                 151 }
183                                                   152 
184 //....oooOO0OOooo........oooOO0OOooo........oo << 
185                                                << 
186 void F04GlobalField::SetStepper()                 153 void F04GlobalField::SetStepper()
187 {                                                 154 {
188   delete fStepper;                             << 155   if(fStepper) delete fStepper;
189                                                   156 
190   switch (fStepperType) {                      << 157   switch ( fStepperType )
                                                   >> 158   {
191     case 0:                                       159     case 0:
192       //      fStepper = new G4ExplicitEuler(  << 160 //      fStepper = new G4ExplicitEuler( fEquation, 8 ); // no spin tracking
193       fStepper = new G4ExplicitEuler(fEquation << 161       fStepper = new G4ExplicitEuler( fEquation, 12 ); // with spin tracking
194       G4cout << "G4ExplicitEuler is called" <<    162       G4cout << "G4ExplicitEuler is called" << G4endl;
195       break;                                      163       break;
196     case 1:                                       164     case 1:
197       //      fStepper = new G4ImplicitEuler(  << 165 //      fStepper = new G4ImplicitEuler( fEquation, 8 ); // no spin tracking
198       fStepper = new G4ImplicitEuler(fEquation << 166       fStepper = new G4ImplicitEuler( fEquation, 12 ); // with spin tracking
199       G4cout << "G4ImplicitEuler is called" <<    167       G4cout << "G4ImplicitEuler is called" << G4endl;
200       break;                                      168       break;
201     case 2:                                       169     case 2:
202       //      fStepper = new G4SimpleRunge( fE << 170 //      fStepper = new G4SimpleRunge( fEquation, 8 ); // no spin tracking
203       fStepper = new G4SimpleRunge(fEquation,  << 171       fStepper = new G4SimpleRunge( fEquation, 12 ); // with spin tracking
204       G4cout << "G4SimpleRunge is called" << G    172       G4cout << "G4SimpleRunge is called" << G4endl;
205       break;                                      173       break;
206     case 3:                                       174     case 3:
207       //      fStepper = new G4SimpleHeum( fEq << 175 //      fStepper = new G4SimpleHeum( fEquation, 8 ); // no spin tracking
208       fStepper = new G4SimpleHeum(fEquation, 1 << 176       fStepper = new G4SimpleHeum( fEquation, 12 ); // with spin tracking
209       G4cout << "G4SimpleHeum is called" << G4    177       G4cout << "G4SimpleHeum is called" << G4endl;
210       break;                                      178       break;
211     case 4:                                       179     case 4:
212       //      fStepper = new G4ClassicalRK4( f << 180 //      fStepper = new G4ClassicalRK4( fEquation, 8 ); // no spin tracking
213       fStepper = new G4ClassicalRK4(fEquation, << 181       fStepper = new G4ClassicalRK4( fEquation, 12 ); // with spin tracking
214       G4cout << "G4ClassicalRK4 (default) is c    182       G4cout << "G4ClassicalRK4 (default) is called" << G4endl;
215       break;                                      183       break;
216     case 5:                                       184     case 5:
217       //      fStepper = new G4CashKarpRKF45(  << 185 //      fStepper = new G4CashKarpRKF45( fEquation, 8 ); // no spin tracking
218       fStepper = new G4CashKarpRKF45(fEquation << 186       fStepper = new G4CashKarpRKF45( fEquation, 12 ); // with spin tracking
219       G4cout << "G4CashKarpRKF45 is called" <<    187       G4cout << "G4CashKarpRKF45 is called" << G4endl;
220       break;                                      188       break;
221     default:                                   << 189     default: fStepper = 0;
222       fStepper = nullptr;                      << 
223   }                                               190   }
224 }                                                 191 }
225                                                   192 
226 //....oooOO0OOooo........oooOO0OOooo........oo << 
227                                                << 
228 G4FieldManager* F04GlobalField::GetGlobalField    193 G4FieldManager* F04GlobalField::GetGlobalFieldManager()
229 {                                                 194 {
230   return G4TransportationManager::GetTransport << 195   return G4TransportationManager::GetTransportationManager()
                                                   >> 196                                 ->GetFieldManager();
231 }                                                 197 }
232                                                   198 
233 //....oooOO0OOooo........oooOO0OOooo........oo << 
234                                                << 
235 void F04GlobalField::GetFieldValue(const G4dou    199 void F04GlobalField::GetFieldValue(const G4double* point, G4double* field) const
236 {                                                 200 {
237   // NOTE: this routine dominates the CPU time    201   // NOTE: this routine dominates the CPU time for tracking.
238   // Using the simple array fFp[] instead of f << 202   // Using the simple array fp[] instead of fields[] 
239   // directly sped it up                          203   // directly sped it up
240                                                   204 
241   field[0] = field[1] = field[2] = field[3] =     205   field[0] = field[1] = field[2] = field[3] = field[4] = field[5] = 0.0;
242                                                   206 
243   // protect against Geant4 bug that calls us     207   // protect against Geant4 bug that calls us with point[] NaN.
244   if (point[0] != point[0]) return;            << 208   if(point[0] != point[0]) return;
245                                                   209 
246   // (can't use fNfp or fFp, as they may chang << 210   // (can't use nfp or fp, as they may change)
247   if (fFirst) ((F04GlobalField*)this)->SetupAr << 211   if (first) ((F04GlobalField*)this)->setupArray();   // (cast away const)
248                                                   212 
249   for (int i = 0; i < fNfp; ++i) {             << 213   for (int i=0; i<nfp; ++i) {
250     const F04ElementField* p = fFp[i];         << 214       const F04ElementField* p = fp[i];
251     if (p->IsInBoundingBox(point)) {           << 215       if (p->isInBoundingBox(point)) {
252       p->AddFieldValue(point, field);          << 216          p->addFieldValue(point,field);
253     }                                          << 217       }
254   }                                               218   }
255 }                                              << 
256                                                   219 
257 //....oooOO0OOooo........oooOO0OOooo........oo << 220 }
258                                                   221 
259 void F04GlobalField::Clear()                   << 222 void F04GlobalField::clear()
260 {                                                 223 {
261   if (fFields) {                               << 224   if (fields) {
262     if (fFields->size() > 0) {                 << 225      if (fields->size()>0) {
263       FieldList::iterator i;                   << 226         FieldList::iterator i;
264       for (i = fFields->begin(); i != fFields- << 227         for (i=fields->begin(); i!=fields->end(); ++i) delete *i;
265         delete *i;                             << 228         fields->clear();
266       fFields->clear();                        << 229      }
267     }                                          << 
268   }                                               230   }
269                                                   231 
270   delete[] fFp;                                << 232   if (fp) delete[] fp;
271   fFirst = true;                               << 
272   fNfp = 0;                                    << 
273   fFp = nullptr;                               << 
274 }                                              << 
275                                                   233 
276 //....oooOO0OOooo........oooOO0OOooo........oo << 234   first = true;
                                                   >> 235 
                                                   >> 236   nfp = 0;
                                                   >> 237   fp = NULL;
                                                   >> 238 }
277                                                   239 
278 void F04GlobalField::SetupArray()              << 240 void F04GlobalField::setupArray()
279 {                                                 241 {
280   fFirst = false;                              << 242   first = false;
281   fNfp = fFields->size();                      << 243   nfp = fields->size();
282   fFp = new const F04ElementField*[fNfp + 1];  << 244   fp = new const F04ElementField* [nfp+1]; // add 1 so it's never 0
283   for (int i = 0; i < fNfp; ++i)               << 245   for (int i=0; i<nfp; ++i) fp[i] = (*fields)[i];
284     fFp[i] = (*fFields)[i];                    << 
285 }                                                 246 }
286                                                   247