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Geant4/processes/hadronic/models/inclxx/utils/src/G4INCLParticle.cc

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Diff markup

Differences between /processes/hadronic/models/inclxx/utils/src/G4INCLParticle.cc (Version 11.3.0) and /processes/hadronic/models/inclxx/utils/src/G4INCLParticle.cc (Version 3.1)


  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 // INCL++ intra-nuclear cascade model             
 27 // Alain Boudard, CEA-Saclay, France              
 28 // Joseph Cugnon, University of Liege, Belgium    
 29 // Jean-Christophe David, CEA-Saclay, France      
 30 // Pekka Kaitaniemi, CEA-Saclay, France, and H    
 31 // Sylvie Leray, CEA-Saclay, France               
 32 // Davide Mancusi, CEA-Saclay, France             
 33 //                                                
 34 #define INCLXX_IN_GEANT4_MODE 1                   
 35                                                   
 36 #include "globals.hh"                             
 37                                                   
 38 /*                                                
 39  * Particle.cc                                    
 40  *                                                
 41  *  \date Jun 5, 2009                             
 42  * \author Pekka Kaitaniemi                       
 43  */                                               
 44                                                   
 45 #include "G4INCLParticle.hh"                      
 46 #include "G4INCLParticleTable.hh"                 
 47                                                   
 48 namespace G4INCL {                                
 49                                                   
 50 #ifdef INCLXX_IN_GEANT4_MODE                      
 51     std::vector<G4double> Particle::INCLBiasVe    
 52 #else                                             
 53     G4ThreadLocal std::vector<G4double> Partic    
 54   //G4VectorCache<G4double> Particle::INCLBias    
 55 #endif                                            
 56     G4ThreadLocal long Particle::nextID = 1;      
 57   G4ThreadLocal G4int Particle::nextBiasedColl    
 58                                                   
 59   Particle::Particle()                            
 60     : theZ(0), theA(0), theS(0),                  
 61     theParticipantType(TargetSpectator),          
 62     theType(UnknownParticle),                     
 63     theEnergy(0.0),                               
 64     thePropagationEnergy(&theEnergy),             
 65     theFrozenEnergy(theEnergy),                   
 66     theMomentum(ThreeVector(0.,0.,0.)),           
 67     thePropagationMomentum(&theMomentum),         
 68     theFrozenMomentum(theMomentum),               
 69     thePosition(ThreeVector(0.,0.,0.)),           
 70     nCollisions(0),                               
 71     nDecays(0),                                   
 72     thePotentialEnergy(0.0),                      
 73     rpCorrelated(false),                          
 74     uncorrelatedMomentum(0.),                     
 75     theParticleBias(1.),                          
 76     theNKaon(0),                                  
 77 #ifdef INCLXX_IN_GEANT4_MODE                      
 78     theParentResonancePDGCode(0),                 
 79     theParentResonanceID(0),                      
 80 #endif                                            
 81     theHelicity(0.0),                             
 82     emissionTime(0.0),                            
 83     outOfWell(false),                             
 84     theMass(0.)                                   
 85   {                                               
 86     ID = nextID;                                  
 87     nextID++;                                     
 88   }                                               
 89                                                   
 90   Particle::Particle(ParticleType t, G4double     
 91       ThreeVector const &momentum, ThreeVector    
 92     : theEnergy(energy),                          
 93     thePropagationEnergy(&theEnergy),             
 94     theFrozenEnergy(theEnergy),                   
 95     theMomentum(momentum),                        
 96     thePropagationMomentum(&theMomentum),         
 97     theFrozenMomentum(theMomentum),               
 98     thePosition(position),                        
 99     nCollisions(0), nDecays(0),                   
100     thePotentialEnergy(0.),                       
101     rpCorrelated(false),                          
102     uncorrelatedMomentum(theMomentum.mag()),      
103     theParticleBias(1.),                          
104     theNKaon(0),                                  
105 #ifdef INCLXX_IN_GEANT4_MODE                      
106     theParentResonancePDGCode(0),                 
107     theParentResonanceID(0),                      
108 #endif                                            
109     theHelicity(0.0),                             
110     emissionTime(0.0), outOfWell(false)           
111   {                                               
112     theParticipantType = TargetSpectator;         
113     ID = nextID;                                  
114     nextID++;                                     
115     if(theEnergy <= 0.0) {                        
116       INCL_WARN("Particle with energy " << the    
117     }                                             
118     setType(t);                                   
119     setMass(getInvariantMass());                  
120   }                                               
121                                                   
122   Particle::Particle(ParticleType t,              
123       ThreeVector const &momentum, ThreeVector    
124     : thePropagationEnergy(&theEnergy),           
125     theMomentum(momentum),                        
126     thePropagationMomentum(&theMomentum),         
127     theFrozenMomentum(theMomentum),               
128     thePosition(position),                        
129     nCollisions(0), nDecays(0),                   
130     thePotentialEnergy(0.),                       
131     rpCorrelated(false),                          
132     uncorrelatedMomentum(theMomentum.mag()),      
133     theParticleBias(1.),                          
134     theNKaon(0),                                  
135 #ifdef INCLXX_IN_GEANT4_MODE                      
136     theParentResonancePDGCode(0),                 
137     theParentResonanceID(0),                      
138 #endif                                            
139     theHelicity(0.0),                             
140     emissionTime(0.0), outOfWell(false)           
141   {                                               
142     theParticipantType = TargetSpectator;         
143     ID = nextID;                                  
144     nextID++;                                     
145     setType(t);                                   
146     if( isResonance() ) {                         
147       INCL_ERROR("Cannot create resonance with    
148     }                                             
149     G4double energy = std::sqrt(theMomentum.ma    
150     theEnergy = energy;                           
151     theFrozenEnergy = theEnergy;                  
152   }                                               
153                                                   
154   const ThreeVector &Particle::adjustMomentumF    
155     const G4double p2 = theMomentum.mag2();       
156     G4double newp2 = theEnergy*theEnergy - the    
157     if( newp2<0.0 ) {                             
158       INCL_ERROR("Particle has E^2 < m^2." <<     
159       newp2 = 0.0;                                
160       theEnergy = theMass;                        
161     }                                             
162                                                   
163     theMomentum *= std::sqrt(newp2/p2);           
164     return theMomentum;                           
165   }                                               
166                                                   
167   G4double Particle::adjustEnergyFromMomentum(    
168     theEnergy = std::sqrt(theMomentum.mag2() +    
169     return theEnergy;                             
170   }                                               
171                                                   
172   void ParticleList::rotatePositionAndMomentum    
173     for(const_iterator i=begin(), e=end(); i!=    
174       (*i)->rotatePositionAndMomentum(angle, a    
175     }                                             
176   }                                               
177                                                   
178   void ParticleList::rotatePosition(const G4do    
179     for(const_iterator i=begin(), e=end(); i!=    
180       (*i)->rotatePosition(angle, axis);          
181     }                                             
182   }                                               
183                                                   
184   void ParticleList::rotateMomentum(const G4do    
185     for(const_iterator i=begin(), e=end(); i!=    
186       (*i)->rotateMomentum(angle, axis);          
187     }                                             
188   }                                               
189                                                   
190   void ParticleList::boost(const ThreeVector &    
191     for(const_iterator i=begin(), e=end(); i!=    
192       (*i)->boost(b);                             
193     }                                             
194   }                                               
195                                                   
196   G4double ParticleList::getParticleListBias()    
197     if(G4int((*this).size())==0) return 1.;       
198     std::vector<G4int> MergedVector;              
199     for(ParticleIter i = (*this).begin(), e =     
200         MergedVector = Particle::MergeVectorBi    
201     }                                             
202     return Particle::getBiasFromVector(std::mo    
203   }                                               
204                                                   
205   std::vector<G4int> ParticleList::getParticle    
206     std::vector<G4int> MergedVector;              
207     if(G4int((*this).size())==0) return Merged    
208     for(ParticleIter i = (*this).begin(), e =     
209         MergedVector = Particle::MergeVectorBi    
210     }                                             
211     return MergedVector;                          
212   }                                               
213                                                   
214   void Particle::FillINCLBiasVector(G4double n    
215 // assert(G4int(Particle::INCLBiasVector.size(    
216     //assert(G4int(Particle::INCLBiasVector.Si    
217 // assert(std::fabs(newBias - 1.) > 1E-6);        
218   Particle::INCLBiasVector.push_back(newBias);    
219   //Particle::INCLBiasVector.Push_back(newBias    
220     Particle::nextBiasedCollisionID++;            
221   }                                               
222                                                   
223   G4double Particle::getBiasFromVector(std::ve    
224     if(VectorBias.empty()) return 1.;             
225                                                   
226     G4double ParticleBias = 1.;                   
227                                                   
228     for(G4int i=0; i<G4int(VectorBias.size());    
229         ParticleBias *= Particle::INCLBiasVect    
230     }                                             
231                                                   
232     return ParticleBias;                          
233   }                                               
234                                                   
235   std::vector<G4int> Particle::MergeVectorBias    
236     std::vector<G4int> MergedVectorBias;          
237     std::vector<G4int> VectorBias1 = p1->getBi    
238     std::vector<G4int> VectorBias2 = p2->getBi    
239     G4int i = 0;                                  
240     G4int j = 0;                                  
241     if(VectorBias1.size()==0 && VectorBias2.si    
242     else if(VectorBias1.size()==0) return Vect    
243     else if(VectorBias2.size()==0) return Vect    
244                                                   
245     while(i < G4int(VectorBias1.size()) || j <    
246         if(VectorBias1[i]==VectorBias2[j]){       
247             MergedVectorBias.push_back(VectorB    
248             i++;                                  
249             j++;                                  
250             if(i == G4int(VectorBias1.size()))    
251                 for(;j<G4int(VectorBias2.size(    
252             }                                     
253             else if(j == G4int(VectorBias2.siz    
254                 for(;i<G4int(VectorBias1.size(    
255             }                                     
256         } else if(VectorBias1[i]<VectorBias2[j    
257             MergedVectorBias.push_back(VectorB    
258             i++;                                  
259             if(i == G4int(VectorBias1.size()))    
260                 for(;j<G4int(VectorBias2.size(    
261             }                                     
262         }                                         
263         else {                                    
264             MergedVectorBias.push_back(VectorB    
265             j++;                                  
266             if(j == G4int(VectorBias2.size()))    
267                 for(;i<G4int(VectorBias1.size(    
268             }                                     
269         }                                         
270     }                                             
271     return MergedVectorBias;                      
272   }                                               
273                                                   
274   std::vector<G4int> Particle::MergeVectorBias    
275     std::vector<G4int> MergedVectorBias;          
276     std::vector<G4int> VectorBias = p2->getBia    
277     G4int i = 0;                                  
278     G4int j = 0;                                  
279     if(p1.size()==0 && VectorBias.size()==0) r    
280     else if(p1.size()==0) return VectorBias;      
281     else if(VectorBias.size()==0) return p1;      
282                                                   
283     while(i < G4int(p1.size()) || j < G4int(Ve    
284         if(p1[i]==VectorBias[j]){                 
285             MergedVectorBias.push_back(p1[i]);    
286             i++;                                  
287             j++;                                  
288             if(i == G4int(p1.size())){            
289                 for(;j<G4int(VectorBias.size()    
290             }                                     
291             else if(j == G4int(VectorBias.size    
292                 for(;i<G4int(p1.size());i++) M    
293             }                                     
294         } else if(p1[i]<VectorBias[j]){           
295             MergedVectorBias.push_back(p1[i]);    
296             i++;                                  
297             if(i == G4int(p1.size())){            
298                 for(;j<G4int(VectorBias.size()    
299             }                                     
300         }                                         
301         else {                                    
302             MergedVectorBias.push_back(VectorB    
303             j++;                                  
304             if(j == G4int(VectorBias.size())){    
305                 for(;i<G4int(p1.size());i++) M    
306             }                                     
307         }                                         
308     }                                             
309     return MergedVectorBias;                      
310   }                                               
311                                                   
312   G4double Particle::getTotalBias() {             
313       G4double TotalBias = 1.;                    
314       for(G4int i=0; i<G4int(INCLBiasVector.si    
315       return TotalBias;                           
316   }                                               
317                                                   
318   void Particle::setINCLBiasVector(std::vector    
319       Particle::INCLBiasVector = std::move(New    
320   }                                               
321 }                                                 
322