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Geant4/examples/advanced/hadrontherapy/src/HadrontherapyDetectorSD.cc

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Differences between /examples/advanced/hadrontherapy/src/HadrontherapyDetectorSD.cc (Version 11.3.0) and /examples/advanced/hadrontherapy/src/HadrontherapyDetectorSD.cc (Version 9.5.p2)


  1 //                                                  1 //
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 25 //                                                 25 //
 26 // Hadrontherapy advanced example for Geant4   <<  26 // This is the *BASIC* version of Hadrontherapy, a Geant4-based application
 27 // See more at: https://twiki.cern.ch/twiki/bi <<  27 // See more at: http://g4advancedexamples.lngs.infn.it/Examples/hadrontherapy
                                                   >>  28 //
                                                   >>  29 // Visit the Hadrontherapy web site (http://www.lns.infn.it/link/Hadrontherapy) to request 
                                                   >>  30 // the *COMPLETE* version of this program, together with its documentation;
                                                   >>  31 // Hadrontherapy (both basic and full version) are supported by the Italian INFN
                                                   >>  32 // Institute in the framework of the MC-INFN Group
                                                   >>  33 //
 28                                                    34 
 29 #include "HadrontherapyDetectorSD.hh"              35 #include "HadrontherapyDetectorSD.hh"
                                                   >>  36 #include "HadrontherapyAnalysisManager.hh"
 30 #include "HadrontherapyDetectorHit.hh"             37 #include "HadrontherapyDetectorHit.hh"
 31 #include "G4Step.hh"                               38 #include "G4Step.hh"
 32 #include "G4VTouchable.hh"                         39 #include "G4VTouchable.hh"
 33 #include "G4TouchableHistory.hh"                   40 #include "G4TouchableHistory.hh"
 34 #include "G4SDManager.hh"                          41 #include "G4SDManager.hh"
 35 #include "HadrontherapyMatrix.hh"                  42 #include "HadrontherapyMatrix.hh"
 36 #include "HadrontherapyLet.hh"                 << 
 37 #include "G4Track.hh"                          << 
 38 #include "G4SystemOfUnits.hh"                  << 
 39 #include "HadrontherapyMatrix.hh"              << 
 40                                                << 
 41                                                << 
 42 #include "G4SteppingManager.hh"                << 
 43 #include "G4TrackVector.hh"                    << 
 44 #include "HadrontherapySteppingAction.hh"      << 
 45 #include "G4ios.hh"                            << 
 46 #include "G4SteppingManager.hh"                << 
 47 #include "G4Track.hh"                          << 
 48 #include "G4Step.hh"                           << 
 49 #include "G4StepPoint.hh"                      << 
 50 #include "G4TrackStatus.hh"                    << 
 51 #include "G4TrackVector.hh"                    << 
 52 #include "G4ParticleDefinition.hh"             << 
 53 #include "G4ParticleTypes.hh"                  << 
 54 #include "G4UserEventAction.hh"                << 
 55 #include "G4TransportationManager.hh"          << 
 56 #include "G4VSensitiveDetector.hh"             << 
 57 #include "HadrontherapyRunAction.hh"           << 
 58 #include "G4SystemOfUnits.hh"                  << 
 59 #include "HadrontherapyRBE.hh"                 << 
 60 #include <G4AccumulableManager.hh>             << 
 61                                                << 
 62                                                    43 
 63 //////////////////////////////////////////////     44 /////////////////////////////////////////////////////////////////////////////
 64 HadrontherapyDetectorSD::HadrontherapyDetector     45 HadrontherapyDetectorSD::HadrontherapyDetectorSD(G4String name):
 65 G4VSensitiveDetector(name)                     <<  46     G4VSensitiveDetector(name)
 66 {                                              <<  47 { 
 67     G4String HCname;                               48     G4String HCname;
 68     collectionName.insert(HCname="Hadrontherap     49     collectionName.insert(HCname="HadrontherapyDetectorHitsCollection");
 69     HitsCollection = NULL;                     <<  50     HitsCollection = NULL; 
 70     sensitiveDetectorName = name;              <<  51     G4String sensitiveDetectorName = name;
 71                                                <<  52 
 72 }                                                  53 }
 73                                                    54 
 74 //////////////////////////////////////////////     55 /////////////////////////////////////////////////////////////////////////////
 75 HadrontherapyDetectorSD::~HadrontherapyDetecto     56 HadrontherapyDetectorSD::~HadrontherapyDetectorSD()
 76 {}                                             <<  57 { 
                                                   >>  58 }
 77                                                    59 
 78 //////////////////////////////////////////////     60 /////////////////////////////////////////////////////////////////////////////
 79 void HadrontherapyDetectorSD::Initialize(G4HCo     61 void HadrontherapyDetectorSD::Initialize(G4HCofThisEvent*)
 80 {                                                  62 {
 81                                                << 
 82     HitsCollection = new HadrontherapyDetector     63     HitsCollection = new HadrontherapyDetectorHitsCollection(sensitiveDetectorName,
 83                                                <<  64       collectionName[0]);
 84 }                                                  65 }
 85                                                    66 
 86 //////////////////////////////////////////////     67 /////////////////////////////////////////////////////////////////////////////
 87 G4bool HadrontherapyDetectorSD::ProcessHits(G4 <<  68 G4bool HadrontherapyDetectorSD::ProcessHits(G4Step* aStep, G4TouchableHistory* ROhist)
 88 {                                                  69 {
 89                                                <<  70     //The code doesn't seem to get here if we use the IAEA geometry. FIXME
 90                                                <<  71     if(!ROhist)
 91     if (aStep -> GetPreStepPoint() -> GetPhysi <<  72   return false;
 92                                                <<  73 
 93                                                <<  74     if (aStep -> GetPreStepPoint() -> GetPhysicalVolume() -> GetName() != "DetectorPhys")
                                                   >>  75   return false;
 94     // Get kinetic energy                          76     // Get kinetic energy
 95     G4Track * theTrack = aStep  ->  GetTrack()     77     G4Track * theTrack = aStep  ->  GetTrack();
 96     G4double kineticEnergy = theTrack->GetKine <<  78     //G4double kineticEnergy =  theTrack -> GetKineticEnergy();     
                                                   >>  79 
 97     G4ParticleDefinition *particleDef = theTra     80     G4ParticleDefinition *particleDef = theTrack -> GetDefinition();
 98     //Get particle name                        <<  81     //Get particle name  
 99     G4String particleName =  particleDef -> Ge <<  82     G4String particleName =  particleDef -> GetParticleName();  
100                                                <<  83     // G4cout << particleDef -> GetParticleType() << '\n';  
101     // Get particle PDG code                   << 
102     G4int pdg = particleDef ->GetPDGEncoding() << 
103                                                << 
104     // Get unique track_id (in an event)           84     // Get unique track_id (in an event)
105     G4int trackID = theTrack -> GetTrackID();      85     G4int trackID = theTrack -> GetTrackID();
106                                                <<  86 
107     G4double energyDeposit = aStep -> GetTotal     87     G4double energyDeposit = aStep -> GetTotalEnergyDeposit();
108                                                <<  88 
109     G4double DX = aStep -> GetStepLength();    << 
110     G4int Z = particleDef-> GetAtomicNumber();     89     G4int Z = particleDef-> GetAtomicNumber();
111     G4int A = particleDef-> GetAtomicMass();   <<  90     //G4int A = particleDef-> GetAtomicMass();
112     G4StepPoint* PreStep = aStep->GetPreStepPo <<  91 
113                                                << 
114     // Read voxel indexes: i is the x index, k     92     // Read voxel indexes: i is the x index, k is the z index
115     const G4VTouchable* touchable = aStep->Get <<  93     G4int k  = ROhist -> GetReplicaNumber(0);
116     G4int k  = touchable->GetReplicaNumber(0); <<  94     G4int i  = ROhist -> GetReplicaNumber(2);
117     G4int i  = touchable->GetReplicaNumber(2); <<  95     G4int j  = ROhist -> GetReplicaNumber(1);
118     G4int j  = touchable->GetReplicaNumber(1); <<  96 
119                                                <<  97 #ifdef G4ANALYSIS_USE_ROOT
120     G4TouchableHandle touchPreStep = PreStep-> <<  98     HadrontherapyAnalysisManager* analysis = HadrontherapyAnalysisManager::GetInstance();
121     G4VPhysicalVolume* volumePre = touchPreSte <<  99 #endif
122     G4String namePre = volumePre->GetName();   << 
123                                                << 
124                                                   100 
125                                                << 
126     HadrontherapyMatrix* matrix = Hadrontherap    101     HadrontherapyMatrix* matrix = HadrontherapyMatrix::GetInstance();
127     HadrontherapyLet* let = HadrontherapyLet:: << 102 
128                                                << 
129     G4int* hitTrack = matrix -> GetHitTrack(i, << 
130                                                << 
131                                                << 
132     //  ******************** let ************* << 
133     if (let)                                   << 
134     {                                          << 
135         if ( !(Z==0 && A==1) ) // All but not  << 
136         {                                      << 
137             if( energyDeposit>0. && DX >0. )// << 
138             {                                  << 
139                 if (pdg !=22 && pdg !=11) // n << 
140                 {                              << 
141                                                << 
142                     // Get the pre-step kineti << 
143                     G4double eKinPre = aStep - << 
144                     // Get the post-step kinet << 
145                     G4double eKinPost = aStep  << 
146                     // Get the step average ki << 
147                     G4double eKinMean = (eKinP << 
148                                                << 
149                     // get the material        << 
150                     const G4Material * materia << 
151                                                << 
152                     // get the secondary patic << 
153                     G4Step fstep = *theTrack - << 
154                     // store all the secondary << 
155                     const std::vector<const G4 << 
156                                                << 
157                     size_t SecondarySize = (*s << 
158                     G4double EnergySecondary = << 
159                                                << 
160                     // get secondary electrons << 
161                     if (SecondarySize) // calc << 
162                     {                          << 
163                         for (size_t numsec = 0 << 
164                         {                      << 
165                             //Get the PDG code << 
166                             G4int PDGSecondary << 
167                                                << 
168                             if(PDGSecondary == << 
169                             {                  << 
170                                 // calculate t << 
171                                 EnergySecondar << 
172                             }                  << 
173                         }                      << 
174                                                << 
175                     }                          << 
176                                                << 
177                     // call the let filldatas  << 
178                     let -> FillEnergySpectrum( << 
179                                                << 
180                 }                              << 
181             }                                  << 
182         }                                      << 
183     }                                          << 
184                                                << 
185                                                << 
186     if (matrix)                                   103     if (matrix)
187     {                                             104     {
188                                                << 
189         // Increment Fluences & accumulate ene << 
190         // Hit voxels are marked with track_id << 
191         //G4int* hitTrack = matrix -> GetHitTr << 
192         if ( *hitTrack != trackID )            << 
193         {                                      << 
194             *hitTrack = trackID;               << 
195             /*                                 << 
196              * Fill FLUENCE data for every sin << 
197              * Exclude e-, neutrons, gamma, .. << 
198              */                                << 
199             if ( Z >= 1) matrix -> Fill(trackI << 
200                                                << 
201         }                                      << 
202                                                << 
203         if(energyDeposit != 0)                 << 
204         {                                      << 
205             /*                                 << 
206              *  This method will fill a dose m << 
207              *  A method of the HadrontherapyM << 
208              *  is called automatically at the << 
209              *  It permits to store all dose/f << 
210              */                                << 
211             // if (A==1 && Z==1) // primary an << 
212             if ( Z>=1 )    //  exclude e-, neu << 
213                 matrix -> Fill(trackID, partic << 
214             /*                                 << 
215              * Create a hit with the informati << 
216              */                                << 
217             HadrontherapyDetectorHit* detector << 
218             detectorHit -> SetEdepAndPosition( << 
219             HitsCollection -> insert(detectorH << 
220         }                                      << 
221     }                                          << 
222                                                   105 
223     auto rbe = HadrontherapyRBE::GetInstance() << 106   // Increment Fluences & accumulate energy spectra
224     if (rbe->IsCalculationEnabled())           << 107   // Hit voxels are marked with track_id throught hitTrack matrix
225     {                                          << 108   G4int* hitTrack = matrix -> GetHitTrack(i,j,k); // hitTrack MUST BE cleared at every eventAction!
226         if (!fRBEAccumulable)                  << 109   if ( *hitTrack != trackID )
227         {                                      << 110   {
228             fRBEAccumulable = dynamic_cast<Had << 111       *hitTrack = trackID;
229             if (!fRBEAccumulable)              << 112     /*
230             {                                  << 113      * Fill FLUENCE data for every single nuclide 
231                 G4Exception("HadrontherapyDete << 114      * Exclude e-, neutrons, gamma, ...
232             }                                  << 115      */
233         }                                      << 116     if ( Z >= 1)      
234   if (A>0) //protect against gammas, e- , etc  << 117         matrix -> Fill(trackID, particleDef, i, j, k, 0, true);
235     {                                          << 118 #ifdef G4ANALYSIS_USE_ROOT
236       fRBEAccumulable->Accumulate(kineticEnerg << 119 /*
237     }                                          << 120       // Fragments kinetic energy (ntuple)
                                                   >> 121       if (trackID !=1 && Z>=1) 
                                                   >> 122       {
                                                   >> 123     // First step kinetic energy for every fragment 
                                                   >> 124      analysis -> FillKineticFragmentTuple(i, j, k, A, Z, kineticEnergy/MeV);
                                                   >> 125       }  
                                                   >> 126       // Kinetic energy spectra for primary particles 
                                                   >> 127 
                                                   >> 128       if ( trackID == 1 && i == 0) 
                                                   >> 129       {
                                                   >> 130     // First step kinetic energy for primaries only
                                                   >> 131     analysis -> FillKineticEnergyPrimaryNTuple(i, j, k, kineticEnergy/MeV);
                                                   >> 132       }
                                                   >> 133 */
                                                   >> 134 #endif
                                                   >> 135   }  
                                                   >> 136 
                                                   >> 137   if(energyDeposit != 0)
                                                   >> 138   {
                                                   >> 139 /*
                                                   >> 140  *  This method will fill a dose matrix for every single nuclide. 
                                                   >> 141  *  A method of the HadrontherapyMatrix class (StoreDoseFluenceAscii())
                                                   >> 142  *  is called automatically at the end of main (or via the macro command /analysis/writeDoseFile.
                                                   >> 143  *  It permits to store all dose/fluence data into a single plane ASCII file. 
                                                   >> 144 */      
                                                   >> 145       // if (A==1 && Z==1) // primary and sec. protons 
                                                   >> 146       if ( Z>=1 )    //  exclude e-, neutrons, gamma, ...
                                                   >> 147         matrix -> Fill(trackID, particleDef, i, j, k, energyDeposit);
                                                   >> 148       /*
                                                   >> 149        * Create a hit with the information of position is in the detector     
                                                   >> 150        */
                                                   >> 151       HadrontherapyDetectorHit* detectorHit = new HadrontherapyDetectorHit();       
                                                   >> 152       detectorHit -> SetEdepAndPosition(i, j, k, energyDeposit); 
                                                   >> 153       HitsCollection -> insert(detectorHit);
                                                   >> 154   }
238     }                                             155     }
239                                                   156 
                                                   >> 157 #ifdef G4ANALYSIS_USE_ROOT
                                                   >> 158     if(energyDeposit != 0)
                                                   >> 159     {  
                                                   >> 160   if(trackID != 1)
                                                   >> 161   {
                                                   >> 162       if (particleName == "proton")
                                                   >> 163     analysis -> SecondaryProtonEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 164 
                                                   >> 165       else if (particleName == "neutron")
                                                   >> 166     analysis -> SecondaryNeutronEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 167 
                                                   >> 168       else if (particleName == "alpha")
                                                   >> 169     analysis -> SecondaryAlphaEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 170 
                                                   >> 171       else if (particleName == "gamma")
                                                   >> 172     analysis -> SecondaryGammaEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 173 
                                                   >> 174       else if (particleName == "e-")
                                                   >> 175     analysis -> SecondaryElectronEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 176 
                                                   >> 177       else if (particleName == "triton")
                                                   >> 178     analysis -> SecondaryTritonEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 179 
                                                   >> 180       else if (particleName == "deuteron")
                                                   >> 181     analysis -> SecondaryDeuteronEnergyDeposit(i, energyDeposit/MeV);
                                                   >> 182 
                                                   >> 183       else if (particleName == "pi+" || particleName == "pi-" ||  particleName == "pi0")
                                                   >> 184     analysis -> SecondaryPionEnergyDeposit(i, energyDeposit/MeV);     
                                                   >> 185   }
                                                   >> 186     }
                                                   >> 187 #endif
240                                                   188 
241     return true;                                  189     return true;
242 }                                                 190 }
243                                                   191 
244 //////////////////////////////////////////////    192 /////////////////////////////////////////////////////////////////////////////
245 void HadrontherapyDetectorSD::EndOfEvent(G4HCo    193 void HadrontherapyDetectorSD::EndOfEvent(G4HCofThisEvent* HCE)
246 {                                                 194 {
247                                                << 
248     static G4int HCID = -1;                       195     static G4int HCID = -1;
249     if(HCID < 0)                                  196     if(HCID < 0)
250     {                                          << 197     { 
251         HCID = GetCollectionID(0);             << 198   HCID = GetCollectionID(0); 
252     }                                             199     }
253                                                << 200 
254     HCE -> AddHitsCollection(HCID,HitsCollecti    201     HCE -> AddHitsCollection(HCID,HitsCollection);
255 }                                                 202 }
256                                                   203 
257                                                   204