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Geant4/processes/hadronic/util/src/G4HadPhaseSpaceGenbod.cc

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Diff markup

Differences between /processes/hadronic/util/src/G4HadPhaseSpaceGenbod.cc (Version 11.3.0) and /processes/hadronic/util/src/G4HadPhaseSpaceGenbod.cc (Version 9.2)


  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 //                                                
 27 // Multibody "phase space" generator using GEN    
 28 //                                                
 29 // Author:  Michael Kelsey (SLAC) <kelsey@slac    
 30                                                   
 31 #include "G4HadPhaseSpaceGenbod.hh"               
 32 #include "G4LorentzVector.hh"                     
 33 #include "G4PhysicalConstants.hh"                 
 34 #include "G4ThreeVector.hh"                       
 35 #include "Randomize.hh"                           
 36 #include <algorithm>                              
 37 #include <functional>                             
 38 #include <iterator>                               
 39 #include <numeric>                                
 40 #include <vector>                                 
 41                                                   
 42                                                   
 43 namespace {                                       
 44   // Wrap #define in a true function, for pass    
 45   G4double uniformRand() { return G4UniformRan    
 46 }                                                 
 47                                                   
 48                                                   
 49 // Constructor initializes everything to zero     
 50                                                   
 51 G4HadPhaseSpaceGenbod::G4HadPhaseSpaceGenbod(G    
 52   : G4VHadPhaseSpaceAlgorithm("G4HadPhaseSpace    
 53     nFinal(0), totalMass(0.), massExcess(0.),     
 54                                                   
 55                                                   
 56 // C++ re-implementation of GENBOD.F (Raubold-    
 57                                                   
 58 void G4HadPhaseSpaceGenbod::                      
 59 GenerateMultiBody(G4double initialMass,           
 60       const std::vector<G4double>& masses,        
 61       std::vector<G4LorentzVector>& finalState    
 62   if (GetVerboseLevel()) G4cout << GetName() <    
 63                                                   
 64   finalState.clear();                             
 65                                                   
 66   Initialize(initialMass, masses);                
 67                                                   
 68   const G4int maxNumberOfLoops = 10000;           
 69   nTrials = 0;                                    
 70   do {        // Apply accept/reject to get di    
 71     ++nTrials;                                    
 72     FillRandomBuffer();                           
 73     FillEnergySteps(initialMass, masses);         
 74   } while ( (!AcceptEvent()) && nTrials < maxN    
 75   if ( nTrials >= maxNumberOfLoops ) {            
 76     G4ExceptionDescription ed;                    
 77     ed << " Failed sampling after maxNumberOfL    
 78     G4Exception( " G4HadPhaseSpaceGenbod::Gene    
 79   }                                               
 80   GenerateMomenta(masses, finalState);            
 81 }                                                 
 82                                                   
 83 void G4HadPhaseSpaceGenbod::                      
 84 Initialize(G4double initialMass, const std::ve    
 85   if (GetVerboseLevel()>1) G4cout << GetName()    
 86                                                   
 87   nFinal = masses.size();                         
 88   msum.resize(nFinal, 0.);    // Initialize bu    
 89   msq.resize(nFinal, 0.);                         
 90                                                   
 91   std::partial_sum(masses.begin(), masses.end(    
 92   std::transform(masses.begin(), masses.end(),    
 93      std::multiplies<G4double>());                
 94   totalMass  = msum.back();                       
 95   massExcess = initialMass - totalMass;           
 96                                                   
 97   if (GetVerboseLevel()>2) {                      
 98     PrintVector(msum, "msum", G4cout);            
 99     PrintVector(msq, "msq", G4cout);              
100     G4cout << " totalMass " << totalMass << "     
101      << G4endl;                                   
102   }                                               
103                                                   
104   ComputeWeightScale(masses);                     
105 }                                                 
106                                                   
107                                                   
108 // Generate ordered list of random numbers        
109                                                   
110 void G4HadPhaseSpaceGenbod::FillRandomBuffer()    
111   if (GetVerboseLevel()>1) G4cout << GetName()    
112                                                   
113   rndm.resize(nFinal-2,0.); // Final states ge    
114   std::generate(rndm.begin(), rndm.end(), unif    
115   std::sort(rndm.begin(), rndm.end());            
116   if (GetVerboseLevel()>2) PrintVector(rndm, "    
117 }                                                 
118                                                   
119                                                   
120 // Final state effective masses, min to max       
121                                                   
122 void                                              
123 G4HadPhaseSpaceGenbod::FillEnergySteps(G4doubl    
124                const std::vector<G4double>& ma    
125   if (GetVerboseLevel()>1) G4cout << GetName()    
126                                                   
127   meff.clear();                                   
128   pd.clear();                                     
129                                                   
130   meff.push_back(masses[0]);                      
131   for (size_t i=1; i<nFinal-1; i++) {             
132     meff.push_back(rndm[i-1]*massExcess + msum    
133     pd.push_back(TwoBodyMomentum(meff[i], meff    
134   }                                               
135   meff.push_back(initialMass);                    
136   pd.push_back(TwoBodyMomentum(meff[nFinal-1],    
137                                                   
138   if (GetVerboseLevel()>2) {                      
139     PrintVector(meff,"meff",G4cout);              
140     PrintVector(pd,"pd",G4cout);                  
141   }                                               
142 }                                                 
143                                                   
144                                                   
145 // Maximum possible weight for final state (us    
146                                                   
147 void                                              
148 G4HadPhaseSpaceGenbod::ComputeWeightScale(cons    
149   if (GetVerboseLevel()>1)                        
150     G4cout << GetName() << "::ComputeWeightSca    
151                                                   
152   weightMax = 1.;                                 
153   for (size_t i=1; i<nFinal; i++) {               
154     weightMax *= TwoBodyMomentum(massExcess+ms    
155   }                                               
156                                                   
157   if (GetVerboseLevel()>2) G4cout << " weightM    
158 }                                                 
159                                                   
160                                                   
161 // Event weight computed as either constant or    
162                                                   
163 G4double G4HadPhaseSpaceGenbod::ComputeWeight(    
164   if (GetVerboseLevel()>1) G4cout << GetName()    
165                                                   
166   return (std::accumulate(pd.begin(), pd.end()    
167         std::multiplies<G4double>()));            
168 }                                                 
169                                                   
170 G4bool G4HadPhaseSpaceGenbod::AcceptEvent() co    
171   if (GetVerboseLevel()>1)                        
172     G4cout << GetName() << "::AcceptEvent? " <    
173                                                   
174   return (G4UniformRand() <= ComputeWeight());    
175 }                                                 
176                                                   
177                                                   
178 // Final state momentum vectors in CMS system,    
179                                                   
180 void G4HadPhaseSpaceGenbod::                      
181 GenerateMomenta(const std::vector<G4double>& m    
182     std::vector<G4LorentzVector>& finalState)     
183   if (GetVerboseLevel()>1) G4cout << GetName()    
184                                                   
185   finalState.resize(nFinal);  // Preallocate v    
186                                                   
187   for (size_t i=0; i<nFinal; i++) {               
188     AccumulateFinalState(i, masses, finalState    
189     if (GetVerboseLevel()>2)                      
190       G4cout << " finalState[" << i << "] " <<    
191   }                                               
192 }                                                 
193                                                   
194 // Process final state daughters up to current    
195                                                   
196 void G4HadPhaseSpaceGenbod::                      
197 AccumulateFinalState(size_t i,                    
198          const std::vector<G4double>& masses,     
199          std::vector<G4LorentzVector>& finalSt    
200   if (GetVerboseLevel()>2)                        
201     G4cout << GetName() << "::AccumulateFinalS    
202                                                   
203   if (i==0) {     // First final state particl    
204     finalState[i].setVectM(G4ThreeVector(0.,pd    
205     return;                                       
206   }                                               
207                                                   
208   finalState[i].setVectM(G4ThreeVector(0.,-pd[    
209   G4double phi = G4UniformRand() * twopi;         
210   G4double theta = std::acos(2.*G4UniformRand(    
211                                                   
212   if (GetVerboseLevel() > 2) {                    
213     G4cout << " initialized Py " << -pd[i-1] <    
214      << " theta " << theta << G4endl;             
215   }                                               
216                                                   
217   G4double esys=0.,beta=0.,gamma=1.;              
218   if (i < nFinal-1) {     // Do not boost fina    
219     esys = std::sqrt(pd[i]*pd[i]+meff[i]*meff[    
220     beta = pd[i] / esys;                          
221     gamma = esys / meff[i];                       
222                                                   
223     if (GetVerboseLevel()>2)                      
224       G4cout << " esys " << esys << " beta " <    
225        << G4endl;                                 
226   }                                               
227                                                   
228   for (size_t j=0; j<=i; j++) {   // Accumulat    
229     finalState[j].rotateZ(theta).rotateY(phi);    
230     finalState[j].setY(gamma*(finalState[j].y(    
231     if (GetVerboseLevel()>2) G4cout << " j " <    
232   }                                               
233 }                                                 
234