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Geant4/processes/electromagnetic/dna/models/src/G4DNAGillespieDirectMethod.cc

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Diff markup

Differences between /processes/electromagnetic/dna/models/src/G4DNAGillespieDirectMethod.cc (Version 11.3.0) and /processes/electromagnetic/dna/models/src/G4DNAGillespieDirectMethod.cc (Version 4.0.p1)


  1 // *******************************************      1 
  2 // * License and Disclaimer                       
  3 // *                                              
  4 // * The  Geant4 software  is  copyright of th    
  5 // * the Geant4 Collaboration.  It is provided    
  6 // * conditions of the Geant4 Software License    
  7 // * LICENSE and available at  http://cern.ch/    
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 10 // * Neither the authors of this software syst    
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 13 // * regarding  this  software system or assum    
 14 // * use.  Please see the license in the file     
 15 // * for the full disclaimer and the limitatio    
 16 // *                                              
 17 // * This  code  implementation is the result     
 18 // * technical work of the GEANT4 collaboratio    
 19 // * By using,  copying,  modifying or  distri    
 20 // * any work based  on the software)  you  ag    
 21 // * use  in  resulting  scientific  publicati    
 22 // * acceptance of all terms of the Geant4 Sof    
 23 // *******************************************    
 24 //                                                
 25                                                   
 26 #include "G4DNAGillespieDirectMethod.hh"          
 27 #include "Randomize.hh"                           
 28 #include "G4PhysicalConstants.hh"                 
 29 #include <memory>                                 
 30 #include <tuple>                                  
 31 #include "G4DNAEventSet.hh"                       
 32 #include "G4UnitsTable.hh"                        
 33 #include "G4DNAScavengerMaterial.hh"              
 34 #include "G4Scheduler.hh"                         
 35 #include "G4DNAMolecularReactionTable.hh"         
 36 #include "G4ChemEquilibrium.hh"                   
 37                                                   
 38 G4DNAGillespieDirectMethod::G4DNAGillespieDire    
 39   : fMolecularReactions(G4DNAMolecularReaction    
 40 {}                                                
 41                                                   
 42 G4DNAGillespieDirectMethod::~G4DNAGillespieDir    
 43                                                   
 44 void G4DNAGillespieDirectMethod::SetEventSet(G    
 45 {                                                 
 46   fpEventSet = pEventSet;                         
 47 }                                                 
 48                                                   
 49 //#define DEBUG 1                                 
 50                                                   
 51 G4double G4DNAGillespieDirectMethod::VolumeOfN    
 52 {                                                 
 53   auto box     = std::get<1>(voxel);              
 54   auto LengthY = box.Getyhi() - box.Getylo();     
 55   auto LengthX = box.Getxhi() - box.Getxlo();     
 56   auto LengthZ = box.Getzhi() - box.Getzlo();     
 57   G4double V   = LengthY * LengthX * LengthZ;     
 58   if(V <= 0)                                      
 59   {                                               
 60     G4ExceptionDescription exceptionDescriptio    
 61     exceptionDescription << "V > 0 !! ";          
 62     G4Exception("G4DNAGillespieDirectMethod::V    
 63                 "G4DNAGillespieDirectMethod03"    
 64                 exceptionDescription);            
 65   }                                               
 66   return V;                                       
 67 }                                                 
 68 G4double G4DNAGillespieDirectMethod::Propensit    
 69                                                   
 70 {                                                 
 71   if(moleType->GetDiffusionCoefficient() == 0)    
 72   {                                               
 73     return 0.;                                    
 74   }                                               
 75   const auto& node = std::get<2>(voxel);          
 76   const auto& box  = std::get<1>(voxel);          
 77                                                   
 78   G4double alpha = 0;                             
 79   auto it        = node.find(moleType);           
 80   if(it != node.end())                            
 81   {                                               
 82     auto LengthY = box.Getyhi() - box.Getylo()    
 83     G4double d   = it->first->GetDiffusionCoef    
 84     alpha        = d * it->second;                
 85                                                   
 86 #ifdef DEBUG                                      
 87     G4cout << it->first->GetName() << " " << i    
 88            << " D : " << it->first->GetDiffusi    
 89            << " LengthY : " << LengthY << " Pr    
 90            << G4endl;                             
 91 #endif                                            
 92   }                                               
 93   return alpha;                                   
 94 }                                                 
 95                                                   
 96 G4double G4DNAGillespieDirectMethod::Propensit    
 97                                                   
 98 {                                                 
 99   G4double value;                                 
100   auto ConfA               = data->GetReactant    
101   auto ConfB               = data->GetReactant    
102   G4double scavengerNumber = 0;                   
103   auto typeANumber         = FindScavenging(vo    
104                                ? scavengerNumb    
105                                : ComputeNumber    
106                                                   
107   auto typeBNumber = FindScavenging(voxel, Con    
108                        ? scavengerNumber          
109                        : ComputeNumberInNode(v    
110                                                   
111   if(typeANumber == 0 || typeBNumber == 0)        
112   {                                               
113     return 0;                                     
114   }                                               
115                                                   
116   auto k =                                        
117     data->GetObservedReactionRateConstant() /     
118   if(ConfA == ConfB)                              
119   {                                               
120     value = typeANumber * (typeBNumber - 1) *     
121   }                                               
122   else                                            
123   {                                               
124     value = typeANumber * typeBNumber * k;        
125   }                                               
126                                                   
127   if(value < 0)                                   
128   {                                               
129     G4ExceptionDescription exceptionDescriptio    
130     exceptionDescription                          
131       << "G4DNAGillespieDirectMethod::Propensi    
132       << ConfA->GetName() << "(" << typeANumbe    
133       << "(" << typeBNumber << ") : propensity    
134       << " GetObservedReactionRateConstant : "    
135       << data->GetObservedReactionRateConstant    
136       << " GetEffectiveReactionRadius : "         
137       << G4BestUnit(data->GetEffectiveReaction    
138       << " k : " << k << " volume : " << Volum    
139     G4Exception("G4DNAGillespieDirectMethod::P    
140                 "G4DNAGillespieDirectMethod013    
141                 exceptionDescription);            
142   }                                               
143                                                   
144 #ifdef DEBUG                                      
145   if(value > 0)                                   
146     G4cout << "G4DNAGillespieDirectMethod::Pro    
147            << ConfA->GetName() << "(" << typeA    
148            << ConfB->GetName() << "(" << typeB    
149            << ") : propensity : " << value        
150            << "  Time to Reaction : " << G4Bes    
151            << " k : " << k << " Index : " << i    
152 #endif                                            
153                                                   
154   return value;                                   
155 }                                                 
156                                                   
157 void G4DNAGillespieDirectMethod::Initialize()     
158 {                                                 
159   // for Scavenger                                
160   fpScavengerMaterial = dynamic_cast<G4DNAScav    
161     G4Scheduler::Instance()->GetScavengerMater    
162   fEquilibriumProcesses.emplace(                  
163     std::make_pair(6, std::make_unique<G4ChemE    
164   fEquilibriumProcesses.emplace(                  
165     std::make_pair(7, std::make_unique<G4ChemE    
166   fEquilibriumProcesses.emplace(                  
167     std::make_pair(8, std::make_unique<G4ChemE    
168   for(auto& it : fEquilibriumProcesses)           
169   {                                               
170     it.second->Initialize();                      
171     it.second->SetVerbose(fVerbose);              
172   }                                               
173 }                                                 
174                                                   
175 void G4DNAGillespieDirectMethod::CreateEvents(    
176 {                                                 
177   auto begin = fpMesh->begin();                   
178   auto end   = fpMesh->end();                     
179   for(; begin != end; begin++)                    
180   {                                               
181     auto index = std::get<0>(*begin);             
182 #ifdef DEBUG                                      
183     fpMesh->PrintVoxel(index);                    
184 #endif                                            
185     CreateEvent(index);                           
186   }                                               
187 }                                                 
188                                                   
189 void G4DNAGillespieDirectMethod::SetTimeStep(c    
190 {                                                 
191   fTimeStep = stepTime;                           
192 }                                                 
193 void G4DNAGillespieDirectMethod::CreateEvent(c    
194 {                                                 
195   const auto& voxel = fpMesh->GetVoxel(index);    
196   if(std::get<2>(voxel).empty())                  
197   {                                               
198     G4ExceptionDescription exceptionDescriptio    
199     exceptionDescription << "This voxel : " <<    
200                          << " is not ready to     
201     G4Exception("G4DNAGillespieDirectMethod::C    
202                 "G4DNAGillespieDirectMethod05"    
203                 exceptionDescription);            
204   }                                               
205   G4double r1         = G4UniformRand();          
206   G4double r2         = G4UniformRand();          
207   G4double dAlpha0    = DiffusiveJumping(voxel    
208   G4double rAlpha0    = Reaction(voxel);          
209   G4double alphaTotal = dAlpha0 + rAlpha0;        
210                                                   
211   if(alphaTotal == 0)                             
212   {                                               
213     return;                                       
214   }                                               
215   auto timeStep = ((1.0 / (alphaTotal)) * std:    
216                                                   
217 #ifdef DEBUG                                      
218   G4cout << "r2 : " << r2 << " rAlpha0 : " <<     
219          << " dAlpha0 : " << dAlpha0 << "    r    
220          << rAlpha0 / (dAlpha0 + rAlpha0) << G    
221 #endif                                            
222   if(r2 < rAlpha0 / alphaTotal)                   
223   {                                               
224     if(fVerbose > 1)                              
225     {                                             
226       G4cout << "=>>>>reaction at : " << timeS    
227              << G4BestUnit(((1.0 / alphaTotal)    
228              << G4endl;                           
229     }                                             
230     auto rSelectedIter = fReactionDataMap.uppe    
231     fpEventSet->CreateEvent(timeStep, index, r    
232   }                                               
233   else if(dAlpha0 > 0)                            
234   {                                               
235     if(fVerbose > 1)                              
236     {                                             
237       G4cout << "=>>>>jumping at : " << timeSt    
238              << G4BestUnit(((1.0 / alphaTotal)    
239              << G4endl;                           
240     }                                             
241                                                   
242     auto dSelectedIter = fJumpingDataMap.upper    
243     auto pDSelected =                             
244       std::make_unique<std::pair<MolType, Inde    
245     fpEventSet->CreateEvent(timeStep, index, s    
246   }                                               
247 #ifdef DEBUG                                      
248   G4cout << G4endl;                               
249 #endif                                            
250 }                                                 
251                                                   
252 G4double G4DNAGillespieDirectMethod::Reaction(    
253 {                                                 
254   fReactionDataMap.clear();                       
255   G4double alpha0 = 0;                            
256   const auto& dataList =                          
257     fMolecularReactions->GetVectorOfReactionDa    
258   if(dataList.empty())                            
259   {                                               
260     G4ExceptionDescription exceptionDescriptio    
261     exceptionDescription << "MolecularReaction    
262     G4Exception("G4DNAGillespieDirectMethod::R    
263                 "G4DNAGillespieDirectMethod01"    
264                 exceptionDescription);            
265   }                                               
266                                                   
267   for(const auto& it : dataList)                  
268   {                                               
269     if(!IsEquilibrium(it->GetReactionType()))     
270     {                                             
271       continue;                                   
272     }                                             
273     auto propensity = PropensityFunction(voxel    
274     if(propensity == 0)                           
275     {                                             
276       continue;                                   
277     }                                             
278     alpha0 += propensity;                         
279     fReactionDataMap[alpha0] = it;                
280   }                                               
281 #ifdef DEBUG                                      
282   G4cout << "Reaction :alpha0 :  " << alpha0 <    
283 #endif                                            
284   return alpha0;                                  
285 }                                                 
286                                                   
287 G4double G4DNAGillespieDirectMethod::Diffusive    
288 {                                                 
289   fJumpingDataMap.clear();                        
290   G4double alpha0        = 0;                     
291   auto index             = std::get<0>(voxel);    
292   auto NeighboringVoxels = fpMesh->FindNeighbo    
293   if(NeighboringVoxels.empty())                   
294   {                                               
295     return 0;                                     
296   }                                               
297   auto iter = G4MoleculeTable::Instance()->Get    
298   while(iter())                                   
299   {                                               
300     const auto* conf = iter.value();              
301     auto propensity  = PropensityFunction(voxe    
302     if(propensity == 0)                           
303     {                                             
304       continue;                                   
305     }                                             
306     for(const auto& it_Neighbor : NeighboringV    
307     {                                             
308       alpha0 += propensity;                       
309       fJumpingDataMap[alpha0] = std::make_pair    
310 #ifdef DEBUG                                      
311       G4cout << "mole : " << conf->GetName()      
312              << " number : " << ComputeNumberI    
313              << " propensity : " << propensity    
314              << G4endl;                           
315 #endif                                            
316     }                                             
317   }                                               
318 #ifdef DEBUG                                      
319   G4cout << "DiffusiveJumping :alpha0 :  " <<     
320 #endif                                            
321   return alpha0;                                  
322 }                                                 
323                                                   
324 G4double G4DNAGillespieDirectMethod::ComputeNu    
325   const Voxel& voxel, MolType type)  // depend    
326 {                                                 
327   if(type->GetDiffusionCoefficient() != 0)        
328   {                                               
329     const auto& node = std::get<2>(voxel);        
330     const auto& it   = node.find(type);           
331     return (it != node.end()) ? (it->second) :    
332   }                                               
333   return 0;                                       
334 }                                                 
335                                                   
336 G4bool G4DNAGillespieDirectMethod::FindScaveng    
337                                                   
338                                                   
339 {                                                 
340   numberOfScavenger = 0;                          
341   if(fpScavengerMaterial == nullptr)              
342   {                                               
343     return false;                                 
344   }                                               
345   auto volumeOfNode = VolumeOfNode(voxel);        
346   if(G4MoleculeTable::Instance()->GetConfigura    
347   {                                               
348     auto factor       = Avogadro * volumeOfNod    
349     numberOfScavenger = factor;                   
350     return true;                                  
351   }                                               
352                                                   
353   G4double totalNumber =                          
354     fpScavengerMaterial->GetNumberMoleculePerV    
355       moletype);                                  
356   if(totalNumber == 0)                            
357   {                                               
358     return false;                                 
359   }                                               
360                                                   
361   G4double numberInDouble = volumeOfNode * std    
362                             fpMesh->GetBoundin    
363   auto numberInInterg = (int64_t) (std::floor(    
364   G4double change     = numberInDouble - numbe    
365   G4UniformRand() > change ? numberOfScavenger    
366                                : numberOfScave    
367   return true;                                    
368 }                                                 
369                                                   
370 G4bool G4DNAGillespieDirectMethod::IsEquilibri    
371 {                                                 
372   auto reaction = fEquilibriumProcesses.find(r    
373   if(reaction == fEquilibriumProcesses.end())     
374   {                                               
375     return true;                                  
376   }else                                           
377   {                                               
378     return (reaction->second->GetEquilibriumSt    
379   }                                               
380                                                   
381 }                                                 
382                                                   
383 G4bool G4DNAGillespieDirectMethod::SetEquilibr    
384 {                                                 
385   for(auto& it : fEquilibriumProcesses)           
386   {                                               
387     it.second->SetGlobalTime(fTimeStep);          
388     it.second->SetEquilibrium(pReaction);         
389     if(it.second->IsStatusChanged()) return tr    
390   }                                               
391   return false;                                   
392 }                                                 
393                                                   
394 void G4DNAGillespieDirectMethod::ResetEquilibr    
395 {                                                 
396   for(auto& it : fEquilibriumProcesses)           
397   {                                               
398     it.second->Reset();                           
399   }                                               
400 }                                                 
401                                                   
402                                                   
403                                                   
404