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Geant4/run/src/G4WorkerThread.cc

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Differences between /run/src/G4WorkerThread.cc (Version 11.3.0) and /run/src/G4WorkerThread.cc (Version 10.0.p3)


  1 //                                                  1 //
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 25 //                                                 25 //
 26 // G4WorkerThread implementation               << 
 27 //                                             << 
 28 // Authors: X.Dong, A.Dotti, 2013              << 
 29 // ------------------------------------------- << 
 30                                                << 
 31 #include "G4WorkerThread.hh"                       26 #include "G4WorkerThread.hh"
 32                                                << 
 33 #include "G4GeometryWorkspace.hh"              << 
 34 #include "G4LogicalVolume.hh"                  << 
 35 #include "G4LogicalVolumeStore.hh"             << 
 36 #include "G4MTRunManager.hh"                   << 
 37 #include "G4ParticlesWorkspace.hh"             << 
 38 #include "G4PhysicalVolumeStore.hh"            << 
 39 #include "G4PhysicsListWorkspace.hh"           << 
 40 #include "G4Region.hh"                         << 
 41 #include "G4RegionStore.hh"                    << 
 42 #include "G4SolidsWorkspace.hh"                << 
 43 #include "G4WorkerRunManager.hh"                   27 #include "G4WorkerRunManager.hh"
                                                   >>  28 #include "G4MTRunManager.hh"
 44                                                    29 
 45 // ------------------------------------------- << 
 46 void G4WorkerThread::SetThreadId(G4int tid)        30 void G4WorkerThread::SetThreadId(G4int tid)
 47 {                                                  31 {
 48   threadId = tid;                              <<  32     threadId = tid;
 49 }                                                  33 }
 50                                                    34 
 51 // ------------------------------------------- << 
 52 G4int G4WorkerThread::GetThreadId() const          35 G4int G4WorkerThread::GetThreadId() const
 53 {                                                  36 {
 54   return threadId;                             <<  37     return threadId;
 55 }                                                  38 }
 56                                                    39 
 57 // ------------------------------------------- << 
 58 void G4WorkerThread::SetNumberThreads(G4int nw     40 void G4WorkerThread::SetNumberThreads(G4int nw)
 59 {                                                  41 {
 60   numThreads = nw;                             <<  42     numThreads = nw;
 61 }                                                  43 }
 62                                                    44 
 63 // ------------------------------------------- << 
 64 G4int G4WorkerThread::GetNumberThreads() const     45 G4int G4WorkerThread::GetNumberThreads() const
 65 {                                                  46 {
 66   return numThreads;                           <<  47     return numThreads;
 67 }                                                  48 }
 68                                                    49 
 69 // ------------------------------------------- <<  50 //TODO: refactorize? Parts of these delegated to correct classes?
                                                   >>  51 #include "G4LogicalVolume.hh"
                                                   >>  52 #include "G4VPhysicalVolume.hh"
                                                   >>  53 #include "G4PVReplica.hh"
                                                   >>  54 #include "G4ParticleDefinition.hh"
                                                   >>  55 #include "G4Region.hh"
                                                   >>  56 #include "G4Material.hh"
                                                   >>  57 #include "G4PhysicsVector.hh"
                                                   >>  58 /////@@#include "G4VDecayChannel.hh"
                                                   >>  59 #include "G4PhysicalVolumeStore.hh"
                                                   >>  60 #include "G4LogicalVolumeStore.hh"
                                                   >>  61 #include "G4MaterialTable.hh"
                                                   >>  62 #include "G4PolyconeSide.hh"
                                                   >>  63 #include "G4PolyhedraSide.hh"
                                                   >>  64 #include "G4PVParameterised.hh"
                                                   >>  65 #include "G4Threading.hh"
                                                   >>  66 #include "G4AutoLock.hh"
                                                   >>  67 #include "G4VUserPhysicsList.hh"
                                                   >>  68 #include "G4VPhysicsConstructor.hh"
                                                   >>  69 #include "G4VModularPhysicsList.hh"
                                                   >>  70 #include "G4GeometryWorkspace.hh"
                                                   >>  71 #include "G4GeometryWorkspacePool.hh"
                                                   >>  72 #include "G4SolidsWorkspace.hh"
                                                   >>  73 #include "G4SolidsWorkspacePool.hh"
                                                   >>  74 
                                                   >>  75 //namespace  {
                                                   >>  76 //    G4Mutex solidclone = G4MUTEX_INITIALIZER;
                                                   >>  77 //}
                                                   >>  78 
 70 void G4WorkerThread::BuildGeometryAndPhysicsVe     79 void G4WorkerThread::BuildGeometryAndPhysicsVector()
 71 {                                                  80 {
 72   // Initialise all split classes              <<  81     // Initialise all split classes in the geometry with copy of data from master thread
 73   // with copy of data from master thread      <<  82     G4GeometryWorkspacePool::GetInstance()->CreateAndUseWorkspace();
 74                                                <<  83     G4SolidsWorkspacePool::GetInstance()->CreateAndUseWorkspace();
 75   G4GeometryWorkspace::GetPool()->CreateAndUse <<  84 
 76   G4SolidsWorkspace::GetPool()->CreateAndUseWo <<  85     //Geometry related, split classes mechanism: instantiate sub-instance for this thread
 77   G4ParticlesWorkspace::GetPool()->CreateAndUs <<  86     //const_cast<G4LVManager&>(G4LogicalVolume::GetSubInstanceManager()).SlaveCopySubInstanceArray();
 78   G4PhysicsListWorkspace::GetPool()->CreateAnd <<  87     //const_cast<G4PVManager&>(G4VPhysicalVolume::GetSubInstanceManager()).SlaveCopySubInstanceArray();
                                                   >>  88     //const_cast<G4PVRManager&>(G4PVReplica::GetSubInstanceManager()).SlaveCopySubInstanceArray();
                                                   >>  89     //const_cast<G4RegionManager&>(G4Region::GetSubInstanceManager()).SlaveInitializeSubInstance();
                                                   >>  90     //G4Material::g4materialSubInstanceManager.SlaveCopySubInstanceArray(); //< Not anymore splitted class
                                                   >>  91     //const_cast<G4PlSideManager&>(G4PolyconeSide::GetSubInstanceManager()).SlaveInitializeSubInstance();
                                                   >>  92     //const_cast<G4PhSideManager&>(G4PolyhedraSide::GetSubInstanceManager()).SlaveInitializeSubInstance();
                                                   >>  93     //Physics related
                                                   >>  94     //const_cast<G4PVecManager&>(G4PhysicsVector::GetSubInstanceManager()).SlaveInitializeSubInstance();
                                                   >>  95 /////@@    const_cast<G4DecayChannelManager&>(G4VDecayChannel::GetSubInstanceManager()).NewSubInstances();
                                                   >>  96     const_cast<G4PDefManager&>(G4ParticleDefinition::GetSubInstanceManager()).NewSubInstances();
                                                   >>  97     const_cast<G4VUPLManager&>(G4VUserPhysicsList::GetSubInstanceManager()).NewSubInstances();
                                                   >>  98     const_cast<G4VPCManager&>(G4VPhysicsConstructor::GetSubInstanceManager()).NewSubInstances();
                                                   >>  99     const_cast<G4VMPLManager&>(G4VModularPhysicsList::GetSubInstanceManager()).SlaveCopySubInstanceArray();
                                                   >> 100     /*
                                                   >> 101     G4PhysicalVolumeStore* physVolStore = G4PhysicalVolumeStore::GetInstance();
                                                   >> 102     for (size_t ip=0; ip<physVolStore->size(); ip++)
                                                   >> 103     {
                                                   >> 104         G4VPhysicalVolume* physVol = (*physVolStore)[ip];
                                                   >> 105         G4LogicalVolume *g4LogicalVolume = physVol->GetLogicalVolume();
                                                   >> 106         //use shadow pointer
                                                   >> 107         G4VSolid *g4VSolid = g4LogicalVolume->GetMasterSolid();
                                                   >> 108         G4PVReplica *g4PVReplica = 0;
                                                   >> 109         g4PVReplica =  dynamic_cast<G4PVReplica*>(physVol);
                                                   >> 110         if (g4PVReplica)
                                                   >> 111         {
                                                   >> 112             //g4PVReplica->SlaveG4PVReplica(g4PVReplica);
                                                   >> 113             g4PVReplica->InitialiseWorker(g4PVReplica);
                                                   >> 114             G4PVParameterised *g4PVParameterised = 0;
                                                   >> 115             g4PVParameterised =  dynamic_cast<G4PVParameterised*>(physVol);
                                                   >> 116             if (g4PVParameterised)
                                                   >> 117             {
                                                   >> 118                 //01.25.2009 Xin Dong: For a G4PVParameterised instance, assoicated a
                                                   >> 119                 //cloned solid for each worker thread. If all solids support this clone
                                                   >> 120                 //method, we do not need to dynamically cast to solids that support this
                                                   >> 121                 //clone method. Before all solids support this clone method, we do similar
                                                   >> 122                 //thing here to dynamically cast and then get the clone method.
                                                   >> 123                 
                                                   >> 124                 //Threads may clone some solids simultaneously. Those cloned solids will be
                                                   >> 125                 //Registered into a shared solid store (C++ container). Need a lock to
                                                   >> 126                 //guarantee thread safety
                                                   >> 127                 G4AutoLock aLock(&solidclone);
                                                   >> 128                 G4VSolid *slaveg4VSolid = g4VSolid->Clone();
                                                   >> 129                 aLock.unlock();
                                                   >> 130                 //g4LogicalVolume->SlaveG4LogicalVolume(g4LogicalVolume, slaveg4VSolid, 0);
                                                   >> 131                 g4LogicalVolume->InitialiseWorker(g4LogicalVolume,slaveg4VSolid,0);
                                                   >> 132             }
                                                   >> 133             else
                                                   >> 134             {
                                                   >> 135                 //g4LogicalVolume->SlaveG4LogicalVolume(g4LogicalVolume, g4VSolid, 0);
                                                   >> 136                 g4LogicalVolume->InitialiseWorker(g4LogicalVolume,g4VSolid,0);
                                                   >> 137             }
                                                   >> 138         }
                                                   >> 139         else
                                                   >> 140         {
                                                   >> 141             //g4LogicalVolume->SlaveG4LogicalVolume(g4LogicalVolume, g4VSolid, 0);
                                                   >> 142             g4LogicalVolume->InitialiseWorker(g4LogicalVolume,g4VSolid,0);
                                                   >> 143         }
                                                   >> 144     }
                                                   >> 145      */
                                                   >> 146     
                                                   >> 147     //const G4MaterialTable* theMaterialTable = G4Material::GetMaterialTable();
                                                   >> 148     
                                                   >> 149     //size_t nmat = theMaterialTable->size();
                                                   >> 150     //size_t i;
                                                   >> 151     //for(i=0; i<nmat; i++) {
                                                   >> 152     //    ((*theMaterialTable)[i])->SlaveG4Material();
                                                   >> 153     //}
 79 }                                                 154 }
 80                                                   155 
 81 // ------------------------------------------- << 
 82 void G4WorkerThread::DestroyGeometryAndPhysics    156 void G4WorkerThread::DestroyGeometryAndPhysicsVector()
 83 {                                                 157 {
 84   // Clear all split classes                   << 158 #if 0
 85                                                << 159     // Manage Geometry Workspace explicitly
 86   G4GeometryWorkspace::GetPool()->CleanUpAndDe << 160     fGeometryWrk->ReleaseAndDestroyWorkspace();
 87   G4SolidsWorkspace::GetPool()->CleanUpAndDest << 161     delete fGeometryWrk;
 88   G4ParticlesWorkspace::GetPool()->CleanUpAndD << 162     fGeometryWrk=0;
 89   G4PhysicsListWorkspace::GetPool()->CleanUpAn << 163 #else
                                                   >> 164     // Alternative:
                                                   >> 165     // Initialise all split classes in the geometry with copy of data from master thread
                                                   >> 166     // G4GeometryWorkspacePool::GetInstance()->ReleaseAndDestroyMyWorkspace();
                                                   >> 167     G4GeometryWorkspacePool::GetInstance()->GetWorkspace()->DestroyWorkspace();
                                                   >> 168     G4SolidsWorkspacePool::GetInstance()->GetWorkspace()->DestroyWorkspace();
                                                   >> 169 #endif
                                                   >> 170 //    
                                                   >> 171 //
                                                   >> 172 //    G4PhysicalVolumeStore* physVolStore = G4PhysicalVolumeStore::GetInstance();
                                                   >> 173 //    for (size_t ip=0; ip<physVolStore->size(); ip++)
                                                   >> 174 //    {
                                                   >> 175 //        G4VPhysicalVolume* physVol = (*physVolStore)[ip];
                                                   >> 176 //        G4LogicalVolume *g4LogicalVolume = physVol->GetLogicalVolume();
                                                   >> 177 //        //    G4VSolid *g4VSolid = g4LogicalVolume->fSolid;
                                                   >> 178 //        G4PVReplica *g4PVReplica = 0;
                                                   >> 179 //        g4PVReplica =  dynamic_cast<G4PVReplica*>(physVol);
                                                   >> 180 //        if (g4PVReplica)
                                                   >> 181 //        {
                                                   >> 182 //            //g4PVReplica->DestroySlaveG4PVReplica(g4PVReplica);
                                                   >> 183 //            g4PVReplica->TerminateWorker(g4PVReplica);
                                                   >> 184 //            G4PVParameterised *g4PVParameterised = 0;
                                                   >> 185 //            g4PVParameterised =  dynamic_cast<G4PVParameterised*>(physVol);
                                                   >> 186 //            if (g4PVParameterised)
                                                   >> 187 //            {
                                                   >> 188 //                //        G4VSolid *slaveg4VSolid = g4VSolid->Clone();
                                                   >> 189 //                //g4LogicalVolume->DestroySlaveG4LogicalVolume(g4LogicalVolume);
                                                   >> 190 //                g4LogicalVolume->TerminateWorker(g4LogicalVolume);
                                                   >> 191 //                //        delete slaveg4VSolid;
                                                   >> 192 //            }
                                                   >> 193 //            else
                                                   >> 194 //            {
                                                   >> 195 //                //g4LogicalVolume->DestroySlaveG4LogicalVolume(g4LogicalVolume);
                                                   >> 196 //                g4LogicalVolume->TerminateWorker(g4LogicalVolume);
                                                   >> 197 //            }
                                                   >> 198 //        }
                                                   >> 199 //        else
                                                   >> 200 //        {
                                                   >> 201 //            //g4LogicalVolume->DestroySlaveG4LogicalVolume(g4LogicalVolume);
                                                   >> 202 //            g4LogicalVolume->TerminateWorker(g4LogicalVolume);
                                                   >> 203 //        }
                                                   >> 204 //    }
                                                   >> 205 //    
                                                   >> 206 //    //const G4MaterialTable* theMaterialTable = G4Material::GetMaterialTable();
                                                   >> 207 //    
                                                   >> 208 //    //size_t nmat = theMaterialTable->size();
                                                   >> 209 //    //size_t i;
                                                   >> 210 //    //for(i=0; i<nmat; i++) {
                                                   >> 211 //    //    ((*theMaterialTable)[i])->DestroySlaveG4Material();
                                                   >> 212 //    //}
                                                   >> 213 //    
                                                   >> 214 //    const_cast<G4LVManager&>(G4LogicalVolume::GetSubInstanceManager()).FreeSlave();
                                                   >> 215 //    const_cast<G4PVManager&>(G4VPhysicalVolume::GetSubInstanceManager()).FreeSlave();
                                                   >> 216 //    const_cast<G4PVRManager&>(G4PVReplica::GetSubInstanceManager()).FreeSlave();
                                                   >> 217 //    const_cast<G4PDefManager&>(G4ParticleDefinition::GetSubInstanceManager()).FreeSlave();
                                                   >> 218 //    const_cast<G4RegionManager&>(G4Region::GetSubInstanceManager()).FreeSlave();
                                                   >> 219 //    //const_cast<G4PVecManager&>(G4PhysicsVector::GetSubInstanceManager()).FreeSlave();
                                                   >> 220 ///////@@    const_cast<G4DecayChannelManager&>(G4VDecayChannel::GetSubInstanceManager()).FreeSlave();
                                                   >> 221 //    const_cast<G4PlSideManager&>(G4PolyconeSide::GetSubInstanceManager()).FreeSlave();
                                                   >> 222 //    const_cast<G4PhSideManager&>(G4PolyhedraSide::GetSubInstanceManager()).FreeSlave();
                                                   >> 223     const_cast<G4VUPLManager&>(G4VUserPhysicsList::GetSubInstanceManager()).FreeSlave();
                                                   >> 224     const_cast<G4VPCManager&>(G4VPhysicsConstructor::GetSubInstanceManager()).FreeSlave();
                                                   >> 225     const_cast<G4VMPLManager&>(G4VModularPhysicsList::GetSubInstanceManager()).FreeSlave();
 90 }                                                 226 }
 91                                                   227 
 92 // ------------------------------------------- << 228 #include "G4Region.hh"
                                                   >> 229 #include "G4RegionStore.hh"
                                                   >> 230 
 93 void G4WorkerThread::UpdateGeometryAndPhysicsV    231 void G4WorkerThread::UpdateGeometryAndPhysicsVectorFromMaster()
 94 {                                                 232 {
 95   // ========================================= << 233     //=================================================
 96   // Step-0: keep sensitive detector and field << 234     //Step-0: keep sensitive detector and field manager
 97   // ========================================= << 235     //=================================================
 98   // First remember SD and Filed Associated wi << 236     // First remember SD and Filed Associated with worker
 99   // in order to re-use it                     << 237     //  in order to re-use it
100   // (note that all the stuff after this will  << 238     // (note that all the stuff after this will reset SD and Field
101   using LV2SDFM = std::map<G4LogicalVolume*, s << 239     typedef std::map<G4LogicalVolume*,std::pair<G4VSensitiveDetector*,G4FieldManager*> > LV2SDFM;
102   LV2SDFM lvmap;                               << 240     LV2SDFM lvmap;
103                                                << 241     typedef std::map<G4LogicalVolume*,std::pair<G4Region*,G4bool> > LV2Region;
104   using R2FSM = std::map<G4Region*, std::pair< << 242     LV2Region lv2rmap;
105   R2FSM rgnmap;                                << 243     typedef std::map<G4Region*,std::pair<G4FastSimulationManager*,G4UserSteppingAction*> > R2FSM;
106                                                << 244     R2FSM rgnmap;
107   G4LogicalVolumeStore* mLogVolStore = G4Logic << 245     G4LogicalVolumeStore* mLogVolStore = G4LogicalVolumeStore::GetInstance();
108   for (auto lv : *mLogVolStore) {              << 246     for(size_t ip=0; ip<mLogVolStore->size(); ip++)
109     // The following needs an explanation.     << 247     {
110     // Consider the case in which the user add << 248         G4LogicalVolume *lv = (*mLogVolStore)[ip];
111     // the runs. The problem is that the threa << 249         //The following needs an explanation.
112     // of the G4LogicalVolume object is not in << 250         //Consider the case in which the user adds one LogVolume between the runs. The problem is that the thread-local part
113     // because the initialization is done once << 251         //(split class) of the G4LogicalVolume object is not initialized for workers because the initialization is done once when the
114     // (see G4MTRunManagerKernel::StartThread  << 252         //thread starts (see G4MTRunManagerKernel::StartThread Step-2 that calls G4WorkerThread::BuildGeometryAndPhysicsVector in this class)
115     // G4WorkerThread::BuildGeometryAndPhysics << 253         //The problem is that pointers of SD and FM for these newly added LV
116     // The problem is that pointers of SD and  << 254         //may be invalid pointers (because never initialized, we have seen this behavior in our testing). If now we remember
117     // may be invalid pointers (because never  << 255         //them and re-use them in Step-4 below we set invalid pointers to LV for this thread.
118     // this behavior in our testing). If now w << 256         //Thus we need a way to know if for a given LV we need to remember or not the SD and FM pointers.
119     // them in Step-4 below we set invalid poi << 257         //To solve this problem: We assume that the ConstructSDandField is called also by Master thread
120     // Thus we need a way to know if for a giv << 258         //thus for newly added LV the shadow pointers of SD and Fields are correct.
121     // or not the SD and FM pointers.          << 259         // (LIMITATION: this assumption may be too stringent, a user to save memory could instantiate SD only
122     // To solve this problem: We assume that t << 260         // for workers, but we require this not to happen!).
123     // called also by Master thread, thus for  << 261         // Thus is a SD and FieldMgr are needed for this particular LV, and shadow are !=0 it means that user
124     // pointers of SD and Fields are correct.  << 262         // wants an SD and FM to be associated with LV, we get the values and we remember them.
125     // (LIMITATION: this assumption may be too << 263         G4VSensitiveDetector* sd = 0;
126     // memory could instantiate SD only for wo << 264         G4FieldManager* fmgr = 0;
127     // not to happen!).                        << 265         if ( lv->GetMasterSensitiveDetector() != 0 ) sd = lv->GetSensitiveDetector();
128     // Thus if a SD and FieldMgr are needed fo << 266         if ( lv->GetMasterFieldManager() != 0 ) fmgr = lv->GetFieldManager();
129     // shadow are !=0 it means that user wants << 267         if ( sd || fmgr ) lvmap[lv] = std::make_pair(sd,fmgr);
130     // associated with LV, we get the values a << 268         G4Region* rgn = lv->GetRegion();
                                                   >> 269         G4bool isRoot = lv->IsRootRegion();
                                                   >> 270         if ( rgn || isRoot ) lv2rmap[lv] = std::make_pair(rgn,isRoot);
                                                   >> 271     }
                                                   >> 272     G4RegionStore* mRegStore = G4RegionStore::GetInstance();
                                                   >> 273     for(size_t ir=0; ir<mRegStore->size(); ir++)
                                                   >> 274     {
                                                   >> 275         G4Region* reg = (*mRegStore)[ir];
                                                   >> 276         G4FastSimulationManager* fsm = reg->GetFastSimulationManager();
                                                   >> 277         G4UserSteppingAction* usa = reg->GetRegionalSteppingAction();
                                                   >> 278         if ( reg || usa ) rgnmap[reg] = std::make_pair(fsm,usa);
                                                   >> 279     }
                                                   >> 280 
                                                   >> 281     //===========================
                                                   >> 282     //Step-1: Clean the workspace
                                                   >> 283     //===========================
                                                   >> 284     G4GeometryWorkspace* geomWorkspace= G4GeometryWorkspacePool::GetInstance()->GetWorkspace();
                                                   >> 285     geomWorkspace->DestroyWorkspace();
                                                   >> 286     G4SolidsWorkspace* solidWorkspace = G4SolidsWorkspacePool::GetInstance()->GetWorkspace();
                                                   >> 287     solidWorkspace->DestroyWorkspace();
                                                   >> 288     
                                                   >> 289     //===========================
                                                   >> 290     //Step-2: Re-create and initialize workspace
                                                   >> 291     //===========================
                                                   >> 292     geomWorkspace->InitialiseWorkspace();
                                                   >> 293     solidWorkspace->InitialiseWorkspace();
                                                   >> 294 
                                                   >> 295     // Alternative
131     //                                            296     //
132     G4VSensitiveDetector* sd = nullptr;        << 297     // To wipe, release and get a new one ...
133     G4FieldManager* fmgr = nullptr;            << 298     // G4GeometryWorkspacePool *fWorkspaceMgr=  G4GeometryWorkspaceOutlet::GetInstance();
134     if (lv->GetMasterSensitiveDetector() != nu << 299     // fWorkspaceMgr->ReleaseAndDestroyMyWorkspace();
135       sd = lv->GetSensitiveDetector();         << 300     // Now re-create
136     }                                          << 301     // fWorkspaceMgr->CreateAndUseWorkspace();
137     if (lv->GetMasterFieldManager() != nullptr << 302     
138       fmgr = lv->GetFieldManager();            << 303     
139     }                                          << 304     //===================================================
140     if (sd != nullptr || fmgr != nullptr) {    << 305     //Step-4: Restore sensitive detector and field manaer
141       lvmap[lv] = std::make_pair(sd, fmgr);    << 306     //===================================================
142     }                                          << 307     for ( LV2SDFM::const_iterator it = lvmap.begin() ; it != lvmap.end() ; ++it )
143   }                                            << 308     {
144   G4RegionStore* mRegStore = G4RegionStore::Ge << 309         G4LogicalVolume* lv      = it->first;
145   for (auto reg : *mRegStore) {                << 310         G4VSensitiveDetector* sd = (it->second).first;
146     G4FastSimulationManager* fsm = reg->GetFas << 311         G4FieldManager* fmgr       = (it->second).second;
147     G4UserSteppingAction* usa = reg->GetRegion << 312         if(fmgr) lv->SetFieldManager(fmgr, false); //What should be the second parameter? We use always false for MT mode
148     if (reg != nullptr || usa != nullptr) {    << 313         if(sd) lv->SetSensitiveDetector(sd);
149       rgnmap[reg] = std::make_pair(fsm, usa);  << 314     }
150     }                                          << 315     for ( LV2Region::const_iterator it2 = lv2rmap.begin() ; it2 != lv2rmap.end() ; it2++ )
151   }                                            << 316     {
152                                                << 317         G4LogicalVolume* lv2 = it2->first;
153   //===========================                << 318         G4Region* rgn = (it2->second).first;
154   // Step-1: Clean the workspace               << 319         if(rgn) lv2->SetRegion(rgn);
155   //===========================                << 320         G4bool isRoot = (it2->second).second;
156   G4GeometryWorkspace* geomWorkspace = G4Geome << 321         lv2->SetRegionRootFlag(isRoot);
157   geomWorkspace->DestroyWorkspace();           << 322     }
158   G4SolidsWorkspace* solidWorkspace = G4Solids << 323     for ( R2FSM::const_iterator it3 = rgnmap.begin() ; it3 != rgnmap.end() ; it3++ )
159   solidWorkspace->DestroyWorkspace();          << 324     {
160                                                << 325         G4Region* reg = it3->first;
161   //===========================                << 326         G4FastSimulationManager* fsm = (it3->second).first;
162   // Step-2: Re-create and initialize workspac << 327         if(fsm) reg->SetFastSimulationManager(fsm);
163   //===========================                << 328         G4UserSteppingAction* usa = (it3->second).second;
164   geomWorkspace->InitialiseWorkspace();        << 329         if(usa) reg->SetRegionalSteppingAction(usa);
165   solidWorkspace->InitialiseWorkspace();       << 330     }
166                                                << 
167   //========================================== << 
168   // Step-4: Restore sensitive detector and fi << 
169   //========================================== << 
170   for (const auto& it : lvmap) {               << 
171     G4LogicalVolume* lv = it.first;            << 
172     G4VSensitiveDetector* sd = (it.second).fir << 
173     G4FieldManager* fmgr = (it.second).second; << 
174     if (fmgr != nullptr)  // What should be th << 
175     {  // We use always false for MT mode      << 
176       lv->SetFieldManager(fmgr, false);        << 
177     }                                          << 
178     if (sd != nullptr) {                       << 
179       lv->SetSensitiveDetector(sd);            << 
180     }                                          << 
181   }                                            << 
182   for (const auto& it3 : rgnmap) {             << 
183     G4Region* reg = it3.first;                 << 
184     G4FastSimulationManager* fsm = (it3.second << 
185     if (fsm != nullptr) reg->SetFastSimulation << 
186     G4UserSteppingAction* usa = (it3.second).s << 
187     if (usa != nullptr) reg->SetRegionalSteppi << 
188   }                                            << 
189 }                                              << 
190                                                << 
191 // ------------------------------------------- << 
192 void G4WorkerThread::SetPinAffinity(G4int affi << 
193 {                                              << 
194   if (affinity == 0) return;                   << 
195                                                << 
196 #if !defined(WIN32)                            << 
197   G4cout << "AFFINITY SET" << G4endl;          << 
198   // Assign this thread to cpus in a round rob << 
199   G4int offset = affinity;                     << 
200   G4int cpuindex = 0;                          << 
201   if (std::abs(offset) > G4Threading::G4GetNum << 
202     G4Exception("G4WorkerThread::SetPinAffinit << 
203                 "Cannot set thread affinity, a << 
204                 "number of cores");            << 
205     return;                                    << 
206   }                                            << 
207   if (offset > 0)  // Start assigning affinity << 
208   {                                            << 
209     --offset;                                  << 
210     cpuindex = (GetThreadId() + offset) % G4Th << 
211     // Round robin                             << 
212   }                                            << 
213   else  // Exclude the given CPU               << 
214   {                                            << 
215     offset *= -1;                              << 
216     --offset;                                  << 
217     G4int myidx = GetThreadId() % (G4Threading << 
218     cpuindex = myidx + static_cast<G4int>(myid << 
219   }                                            << 
220   G4cout << "Setting affinity to:" << cpuindex << 
221                                                << 
222 #  if defined(G4MULTITHREADED)                 << 
223   // Avoid compilation warning in C90 standard << 
224   G4NativeThread t = pthread_self();           << 
225 #  else                                        << 
226   G4NativeThread t;                            << 
227 #  endif                                       << 
228   G4bool success = G4Threading::G4SetPinAffini << 
229   if (!success) {                              << 
230     G4Exception("G4MTRunManagerKernel::StarThr << 
231                 "Cannot set thread affinity.") << 
232   }                                            << 
233 #endif                                         << 
234 }                                                 331 }
                                                   >> 332 
235                                                   333