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Geant4/processes/hadronic/models/inclxx/incl_physics/src/G4INCLInteractionAvatar.cc

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Differences between /processes/hadronic/models/inclxx/incl_physics/src/G4INCLInteractionAvatar.cc (Version 11.3.0) and /processes/hadronic/models/inclxx/incl_physics/src/G4INCLInteractionAvatar.cc (Version 8.2)


  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 /* \file G4INCLInteractionAvatar.cc               
 39  * \brief Virtual class for interaction avatar    
 40  *                                                
 41  * This class is inherited by decay and collis    
 42  * provide a uniform treatment of common physi    
 43  * enforcement of energy conservation, etc.       
 44  *                                                
 45  *  \date Mar 1st, 2011                           
 46  * \author Davide Mancusi                         
 47  */                                               
 48                                                   
 49 #include "G4INCLInteractionAvatar.hh"             
 50 #include "G4INCLKinematicsUtils.hh"               
 51 #include "G4INCLCrossSections.hh"                 
 52 #include "G4INCLPauliBlocking.hh"                 
 53 #include "G4INCLRootFinder.hh"                    
 54 #include "G4INCLLogger.hh"                        
 55 #include "G4INCLConfigEnums.hh"                   
 56 #include "G4INCLConfig.hh"                        
 57 // #include <cassert>                             
 58                                                   
 59 namespace G4INCL {                                
 60                                                   
 61   const G4double InteractionAvatar::locEAccura    
 62   const G4int InteractionAvatar::maxIterLocE =    
 63   G4ThreadLocal Particle *InteractionAvatar::b    
 64   G4ThreadLocal Particle *InteractionAvatar::b    
 65                                                   
 66   InteractionAvatar::InteractionAvatar(G4doubl    
 67     : IAvatar(time), theNucleus(n),               
 68     particle1(p1), particle2(NULL),               
 69     isPiN(false),                                 
 70     weight(1.),                                   
 71     violationEFunctor(NULL)                       
 72   {                                               
 73   }                                               
 74                                                   
 75   InteractionAvatar::InteractionAvatar(G4doubl    
 76       G4INCL::Particle *p2)                       
 77     : IAvatar(time), theNucleus(n),               
 78     particle1(p1), particle2(p2),                 
 79     isPiN((p1->isPion() && p2->isNucleon()) ||    
 80     weight(1.),                                   
 81     violationEFunctor(NULL)                       
 82   {                                               
 83   }                                               
 84                                                   
 85   InteractionAvatar::~InteractionAvatar() {       
 86   }                                               
 87                                                   
 88   void InteractionAvatar::deleteBackupParticle    
 89     delete backupParticle1;                       
 90     if(backupParticle2)                           
 91       delete backupParticle2;                     
 92     backupParticle1 = NULL;                       
 93     backupParticle2 = NULL;                       
 94   }                                               
 95                                                   
 96   void InteractionAvatar::preInteractionBlocki    
 97     if(backupParticle1)                           
 98       (*backupParticle1) = (*particle1);          
 99     else                                          
100       backupParticle1 = new Particle(*particle    
101                                                   
102     if(particle2) {                               
103       if(backupParticle2)                         
104         (*backupParticle2) = (*particle2);        
105       else                                        
106         backupParticle2 = new Particle(*partic    
107                                                   
108       oldTotalEnergy = particle1->getEnergy()     
109         - particle1->getPotentialEnergy() - pa    
110       oldXSec = CrossSections::total(particle1    
111     } else {                                      
112       oldTotalEnergy = particle1->getEnergy()     
113     }                                             
114   }                                               
115                                                   
116   void InteractionAvatar::preInteractionLocalE    
117     if(!theNucleus || p->isMeson() || p->isPho    
118                                                   
119     if(shouldUseLocalEnergy())                    
120       KinematicsUtils::transformToLocalEnergyF    
121   }                                               
122                                                   
123   void InteractionAvatar::preInteraction() {      
124     preInteractionBlocking();                     
125                                                   
126     preInteractionLocalEnergy(particle1);         
127                                                   
128     if(particle2) {                               
129       preInteractionLocalEnergy(particle2);       
130       boostVector = KinematicsUtils::makeBoost    
131       particle2->boost(boostVector);              
132     } else {                                      
133       boostVector = particle1->getMomentum()/p    
134     }                                             
135     particle1->boost(boostVector);                
136   }                                               
137                                                   
138   G4bool InteractionAvatar::bringParticleInsid    
139     if(!theNucleus)                               
140       return false;                               
141                                                   
142     ThreeVector pos = p->getPosition();           
143     p->rpCorrelate();                             
144     G4double pos2 = pos.mag2();                   
145     const G4double r = theNucleus->getSurfaceR    
146     short iterations=0;                           
147     const short maxIterations=50;                 
148                                                   
149     if(pos2 < r*r) return true;                   
150                                                   
151     while( pos2 >= r*r && iterations<maxIterat    
152     {                                             
153       pos *= std::sqrt(r*r*0.9801/pos2); // 0.    
154       pos2 = pos.mag2();                          
155       iterations++;                               
156     }                                             
157     if( iterations < maxIterations)               
158     {                                             
159       INCL_DEBUG("Particle position vector len    
160       p->setPosition(pos);                        
161       return true;                                
162     }                                             
163     else                                          
164       return false;                               
165   }                                               
166                                                   
167   void InteractionAvatar::postInteraction(Fina    
168     INCL_DEBUG("postInteraction: final state:     
169     modified = fs->getModifiedParticles();        
170     created = fs->getCreatedParticles();          
171     Destroyed = fs->getDestroyedParticles();      
172     modifiedAndCreated = modified;                
173     modifiedAndCreated.insert(modifiedAndCreat    
174     ModifiedAndDestroyed = modified;              
175     ModifiedAndDestroyed.insert(ModifiedAndDes    
176                                                   
177     // Boost back to lab                          
178     modifiedAndCreated.boost(-boostVector);       
179                                                   
180     // If there is no Nucleus, just return        
181     if(!theNucleus) return;                       
182                                                   
183     // Mark pions and kaons that have been cre    
184     // to be emitted later).                      
185     for(ParticleIter i=created.begin(), e=crea    
186       if(((*i)->isPion() || (*i)->isKaon() ||     
187         (*i)->makeParticipant();                  
188         (*i)->setOutOfWell();                     
189         fs->addOutgoingParticle(*i);              
190         INCL_DEBUG("Pion was created outside i    
191             << (*i)->print());                    
192       }                                           
193                                                   
194     // Try to enforce energy conservation         
195     fs->setTotalEnergyBeforeInteraction(oldTot    
196     G4bool success = enforceEnergyConservation    
197     if(!success) {                                
198       INCL_DEBUG("Enforcing energy conservatio    
199                                                   
200       // Restore the state of the initial part    
201       restoreParticles();                         
202                                                   
203       // Delete newly created particles           
204       for(ParticleIter i=created.begin(), e=cr    
205         delete *i;                                
206                                                   
207       fs->reset();                                
208       fs->makeNoEnergyConservation();             
209       fs->setTotalEnergyBeforeInteraction(0.0)    
210                                                   
211       return; // Interaction is blocked. Retur    
212     }                                             
213     INCL_DEBUG("Enforcing energy conservation:    
214                                                   
215     INCL_DEBUG("postInteraction after energy c    
216                                                   
217     // Check that outgoing delta resonances ca    
218     for(ParticleIter i=modified.begin(), e=mod    
219       if((*i)->isDelta() &&                       
220           (*i)->getMass() < ParticleTable::min    
221         INCL_DEBUG("Mass of the produced delta    
222             (*i)->getMass() << '\n');             
223                                                   
224         // Restore the state of the initial pa    
225         restoreParticles();                       
226                                                   
227         // Delete newly created particles         
228         for(ParticleIter j=created.begin(), en    
229           delete *j;                              
230                                                   
231         fs->reset();                              
232         fs->makeNoEnergyConservation();           
233         fs->setTotalEnergyBeforeInteraction(0.    
234                                                   
235         return; // Interaction is blocked. Ret    
236       }                                           
237                                                   
238     INCL_DEBUG("Random seeds before Pauli bloc    
239     // Test Pauli blocking                        
240     G4bool isBlocked = Pauli::isBlocked(modifi    
241                                                   
242     if(isBlocked) {                               
243       INCL_DEBUG("Pauli: Blocked!" << '\n');      
244                                                   
245       // Restore the state of the initial part    
246       restoreParticles();                         
247                                                   
248       // Delete newly created particles           
249       for(ParticleIter i=created.begin(), e=cr    
250         delete *i;                                
251                                                   
252       fs->reset();                                
253       fs->makePauliBlocked();                     
254       fs->setTotalEnergyBeforeInteraction(0.0)    
255                                                   
256       return; // Interaction is blocked. Retur    
257     }                                             
258     INCL_DEBUG("Pauli: Allowed!" << '\n');        
259                                                   
260     // Test CDPP blocking                         
261     G4bool isCDPPBlocked = Pauli::isCDPPBlocke    
262                                                   
263     if(isCDPPBlocked) {                           
264       INCL_DEBUG("CDPP: Blocked!" << '\n');       
265                                                   
266       // Restore the state of the initial part    
267       restoreParticles();                         
268                                                   
269       // Delete newly created particles           
270       for(ParticleIter i=created.begin(), e=cr    
271         delete *i;                                
272                                                   
273       fs->reset();                                
274       fs->makePauliBlocked();                     
275       fs->setTotalEnergyBeforeInteraction(0.0)    
276                                                   
277       return; // Interaction is blocked. Retur    
278     }                                             
279     INCL_DEBUG("CDPP: Allowed!" << '\n');         
280                                                   
281     // If all went well, try to bring particle    
282     for(ParticleIter i=modifiedAndCreated.begi    
283     {                                             
284       // ...except for pions beyond their surf    
285       if((*i)->isOutOfWell()) continue;           
286                                                   
287       const G4bool successBringParticlesInside    
288       if( !successBringParticlesInside ) {        
289         INCL_ERROR("Failed to bring particle i    
290       }                                           
291     }                                             
292                                                   
293     // Collision accepted!                        
294     // Biasing of the final state                 
295     std::vector<G4int> newBiasCollisionVector;    
296     newBiasCollisionVector = ModifiedAndDestro    
297     if(std::fabs(weight-1.) > 1E-6){              
298       newBiasCollisionVector.push_back(Particl    
299       Particle::FillINCLBiasVector(1./weight);    
300       weight = 1.; // useless?                    
301     }                                             
302     for(ParticleIter i=modifiedAndCreated.begi    
303       (*i)->setBiasCollisionVector(newBiasColl    
304       if(!(*i)->isOutOfWell()) {                  
305         // Decide if the particle should be ma    
306         // (Back to spectator)                    
307         G4bool goesBackToSpectator = false;       
308         if((*i)->isNucleon() && theNucleus->ge    
309           G4double threshold = (*i)->getPotent    
310           if((*i)->getType()==Proton)             
311             threshold += Math::twoThirds*theNu    
312           if((*i)->getKineticEnergy() < thresh    
313             goesBackToSpectator = true;           
314         }                                         
315         // Thaw the particle propagation          
316         (*i)->thawPropagation();                  
317                                                   
318         // Increment or decrement the particip    
319         if(goesBackToSpectator) {                 
320           INCL_DEBUG("The following particle g    
321               << (*i)->print() << '\n');          
322           if(!(*i)->isTargetSpectator()) {        
323             theNucleus->getStore()->getBook().    
324           }                                       
325           (*i)->makeTargetSpectator();            
326         } else {                                  
327           if((*i)->isTargetSpectator()) {         
328             theNucleus->getStore()->getBook().    
329           }                                       
330           (*i)->makeParticipant();                
331         }                                         
332       }                                           
333     }                                             
334     ParticleList destroyed = fs->getDestroyedP    
335     for(ParticleIter i=destroyed.begin(), e=de    
336       if(!(*i)->isTargetSpectator())              
337         theNucleus->getStore()->getBook().decr    
338     return;                                       
339   }                                               
340                                                   
341   void InteractionAvatar::restoreParticles() c    
342     (*particle1) = (*backupParticle1);            
343     if(particle2)                                 
344       (*particle2) = (*backupParticle2);          
345   }                                               
346                                                   
347   G4bool InteractionAvatar::shouldUseLocalEner    
348     if(!theNucleus) return false;                 
349     LocalEnergyType theLocalEnergyType;           
350     if(theNucleus->getStore()->getConfig()->ge    
351      theNucleus->getStore()->getConfig()->getP    
352       return false;                               
353     }                                             
354     if(getType()==DecayAvatarType || isPiN)       
355       theLocalEnergyType = theNucleus->getStor    
356     else                                          
357       theLocalEnergyType = theNucleus->getStor    
358                                                   
359     const G4bool firstAvatar = (theNucleus->ge    
360     return ((theLocalEnergyType == FirstCollis    
361             theLocalEnergyType == AlwaysLocalE    
362   }                                               
363                                                   
364   G4bool InteractionAvatar::enforceEnergyConse    
365     // Set up the violationE calculation          
366     const G4bool manyBodyFinalState = (modifie    
367                                                   
368     if(manyBodyFinalState)                        
369       violationEFunctor = new ViolationEMoment    
370     else {                                        
371       if (modified.empty()) {                     
372         Particle * const p1 = created.front();    
373          // The following condition is necessa    
374          // correctly. A similar condition exi    
375         if(p1->getMass() < ParticleTable::minD    
376           return false;                           
377         violationEFunctor = new ViolationEEner    
378       }                                           
379       else{                                       
380         Particle * const p2 = modified.front()    
381          // The following condition is necessa    
382          // correctly. A similar condition exi    
383          if(p2->getMass() < ParticleTable::min    
384            return false;                          
385          violationEFunctor = new ViolationEEne    
386       }                                           
387     }                                             
388                                                   
389     // Apply the root-finding algorithm           
390     const RootFinder::Solution theSolution = R    
391     if(theSolution.success) { // Apply the sol    
392       (*violationEFunctor)(theSolution.x);        
393     } else if(theNucleus){                        
394       INCL_DEBUG("Couldn't enforce energy cons    
395       theNucleus->getStore()->getBook().increm    
396     }                                             
397     delete violationEFunctor;                     
398     violationEFunctor = NULL;                     
399     return theSolution.success;                   
400   }                                               
401                                                   
402   /* ***                                          
403    * *** InteractionAvatar::ViolationEMomentum    
404    * ***                                          
405                                                   
406   InteractionAvatar::ViolationEMomentumFunctor    
407     RootFunctor(0., 1E6),                         
408     finalParticles(modAndCre),                    
409     initialEnergy(totalEnergyBeforeInteraction    
410     theNucleus(nucleus),                          
411     boostVector(boost),                           
412     shouldUseLocalEnergy(localE)                  
413   {                                               
414     // Store the particle momenta (necessary f    
415     // scaleParticleMomenta() to work)            
416     for(ParticleIter i=finalParticles.begin(),    
417       (*i)->boost(boostVector);                   
418       particleMomenta.push_back((*i)->getMomen    
419     }                                             
420   }                                               
421                                                   
422   InteractionAvatar::ViolationEMomentumFunctor    
423     particleMomenta.clear();                      
424   }                                               
425                                                   
426   G4double InteractionAvatar::ViolationEMoment    
427     scaleParticleMomenta(alpha);                  
428                                                   
429     G4double deltaE = 0.0;                        
430     for(ParticleIter i=finalParticles.begin(),    
431       deltaE += (*i)->getEnergy() - (*i)->getP    
432     deltaE -= initialEnergy;                      
433     return deltaE;                                
434   }                                               
435                                                   
436   void InteractionAvatar::ViolationEMomentumFu    
437                                                   
438     std::vector<ThreeVector>::const_iterator i    
439     for(ParticleIter i=finalParticles.begin(),    
440       (*i)->setMomentum((*iP)*alpha);             
441       (*i)->adjustEnergyFromMomentum();           
442       (*i)->rpCorrelate();                        
443       (*i)->boost(-boostVector);                  
444       if(theNucleus){                             
445         theNucleus->updatePotentialEnergy(*i);    
446       } else {                                    
447         (*i)->setPotentialEnergy(0.);             
448       }                                           
449                                                   
450       if(shouldUseLocalEnergy && !(*i)->isPion    
451          !(*i)->isKaon() && !(*i)->isAntiKaon(    
452 // assert(theNucleus); // Local energy without    
453          const G4double energy = (*i)->getEner    
454          G4double locE = KinematicsUtils::getL    
455          G4double locEOld;                        
456          G4double deltaLocE = InteractionAvata    
457          for(G4int iterLocE=0;                    
458             deltaLocE>InteractionAvatar::locEA    
459             ++iterLocE) {                         
460           locEOld = locE;                         
461           (*i)->setEnergy(energy + locE); // U    
462           (*i)->adjustMomentumFromEnergy();       
463           theNucleus->updatePotentialEnergy(*i    
464           locE = KinematicsUtils::getLocalEner    
465           deltaLocE = std::abs(locE-locEOld);     
466         }                                         
467       }                                           
468                                                   
469 //jlrs  For lambdas and nuclei with masses hig    
470         if(shouldUseLocalEnergy && (*i)->isLam    
471 // assert(theNucleus); // Local energy without    
472          const G4double energy = (*i)->getEner    
473          G4double locE = KinematicsUtils::getL    
474          G4double locEOld;                        
475          G4double deltaLocE = InteractionAvata    
476          for(G4int iterLocE=0;                    
477             deltaLocE>InteractionAvatar::locEA    
478             ++iterLocE) {                         
479           locEOld = locE;                         
480           (*i)->setEnergy(energy + locE); // U    
481           (*i)->adjustMomentumFromEnergy();       
482           theNucleus->updatePotentialEnergy(*i    
483           locE = KinematicsUtils::getLocalEner    
484           deltaLocE = std::abs(locE-locEOld);     
485          }                                        
486         }                                         
487     }                                             
488   }                                               
489                                                   
490   void InteractionAvatar::ViolationEMomentumFu    
491     if(!success)                                  
492       scaleParticleMomenta(1.);                   
493   }                                               
494                                                   
495   /* ***                                          
496    * *** InteractionAvatar::ViolationEEnergyFu    
497    * ***                                          
498                                                   
499   InteractionAvatar::ViolationEEnergyFunctor::    
500     RootFunctor(0., 1E6),                         
501     initialEnergy(totalEnergyBeforeInteraction    
502     theNucleus(nucleus),                          
503     theParticle(aParticle),                       
504     theEnergy(theParticle->getEnergy()),          
505     theMomentum(theParticle->getMomentum()),      
506     energyThreshold(KinematicsUtils::energy(th    
507     shouldUseLocalEnergy(localE)                  
508   {                                               
509 // assert(theParticle->isDelta());                
510   }                                               
511                                                   
512   G4double InteractionAvatar::ViolationEEnergy    
513     setParticleEnergy(alpha);                     
514     return theParticle->getEnergy() - theParti    
515   }                                               
516                                                   
517   void InteractionAvatar::ViolationEEnergyFunc    
518                                                   
519     G4double locE;                                
520     if(shouldUseLocalEnergy) {                    
521 // assert(theNucleus); // Local energy without    
522       locE = KinematicsUtils::getLocalEnergy(t    
523     } else                                        
524       locE = 0.;                                  
525     G4double locEOld;                             
526     G4double deltaLocE = InteractionAvatar::lo    
527     for(G4int iterLocE=0;                         
528         deltaLocE>InteractionAvatar::locEAccur    
529         ++iterLocE) {                             
530       locEOld = locE;                             
531       G4double particleEnergy = energyThreshol    
532       const G4double theMass2 = std::pow(parti    
533       G4double theMass;                           
534       if(theMass2>ParticleTable::minDeltaMass2    
535         theMass = std::sqrt(theMass2);            
536       else {                                      
537         theMass = ParticleTable::minDeltaMass;    
538         particleEnergy = energyThreshold;         
539       }                                           
540       theParticle->setMass(theMass);              
541       theParticle->setEnergy(particleEnergy);     
542       if(theNucleus) {                            
543         theNucleus->updatePotentialEnergy(theP    
544         if(shouldUseLocalEnergy)                  
545           locE = KinematicsUtils::getLocalEner    
546         else                                      
547           locE = 0.;                              
548       } else                                      
549         locE = 0.;                                
550       deltaLocE = std::abs(locE-locEOld);         
551     }                                             
552                                                   
553   }                                               
554                                                   
555   void InteractionAvatar::ViolationEEnergyFunc    
556     if(!success)                                  
557       setParticleEnergy(1.);                      
558   }                                               
559                                                   
560 }                                                 
561