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

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  1 //
  2 // ********************************************************************
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 25 //
 26 #include "HadrontherapyRBEAccumulable.hh"
 27 #include "HadrontherapyRBE.hh"
 28 
 29 #include <tuple>
 30 #include <G4SystemOfUnits.hh>
 31 
 32 using namespace std;
 33 
 34 HadrontherapyRBEAccumulable::HadrontherapyRBEAccumulable()
 35     : G4VAccumulable("RBE")
 36 {
 37 
 38 }
 39 
 40 void HadrontherapyRBEAccumulable::Merge(const G4VAccumulable& rhs)
 41 {
 42     if (GetVerboseLevel() > 1)
 43     {
 44         G4cout << "HadrontherapyRBEAccumulable::Merge()" << G4endl;
 45     }
 46     const HadrontherapyRBEAccumulable& other = dynamic_cast<const HadrontherapyRBEAccumulable&>(rhs);
 47     fAlphaNumerator += other.fAlphaNumerator;
 48     fDenominator += other.fDenominator;
 49     fBetaNumerator += other.fBetaNumerator;
 50     fEnergyDeposit += other.fEnergyDeposit;
 51 }
 52 
 53 void HadrontherapyRBEAccumulable::Reset()
 54 {
 55     if (GetVerboseLevel() > 1)
 56     {
 57         G4cout << "HadrontherapyRBEAccumulable::Reset()" << G4endl;
 58     }
 59     if (fInitialized)
 60     {
 61         fAlphaNumerator = 0.0;
 62         fBetaNumerator = 0.0;
 63         fDenominator = 0.0;
 64         fEnergyDeposit = 0.0;
 65     }
 66     else
 67     {
 68         Initialize();
 69     }
 70 }
 71 
 72 void HadrontherapyRBEAccumulable::Accumulate(G4double E, G4double energyDeposit, G4double dX, G4int Z, G4int i, G4int j, G4int k)
 73 {
 74     if (!fInitialized)
 75     {
 76         G4Exception("HadrontherapyRBEAccumulable::Accumulate", "NotInitialized", FatalException, "Accumulable not initialized. Must be a programming error.");
 77     }
 78     if (GetVerboseLevel() > 2)
 79     {
 80         G4cout << "HadrontherapyRBEAccumulable::Accumulate() in " << i << ", " << j << ", " << k << G4endl;
 81     }
 82     if (energyDeposit <= 0)
 83     {
 84         return;
 85     }
 86     size_t n = GetIndex(i, j, k);
 87     fEnergyDeposit[n] += energyDeposit;
 88 
 89     if ((Z >= 1) && (dX > 0) && (E > 0)) // TODO: Verify this condition
 90     {
 91         tuple<G4double, G4double> alpha_beta = HadrontherapyRBE::GetInstance()->GetHitAlphaAndBeta(E, Z);
 92         fDenominator[n] += energyDeposit;
 93         fAlphaNumerator[n] += get<0>(alpha_beta) * energyDeposit;
 94         fBetaNumerator[n] += sqrt(get<1>(alpha_beta)) * energyDeposit;
 95     }
 96 }
 97 
 98 const HadrontherapyRBEAccumulable::array_type HadrontherapyRBEAccumulable::GetEnergyDeposit() const
 99 {
100     return fEnergyDeposit;
101 }
102 
103 G4int HadrontherapyRBEAccumulable::GetVerboseLevel() const
104 {
105     return HadrontherapyRBE::GetInstance()->GetVerboseLevel();
106 }
107 
108 void HadrontherapyRBEAccumulable::Initialize()
109 {
110     if (GetVerboseLevel() > 1)
111     {
112         G4cout << "HadrontherapyRBEAccumulable::Initialize(): ";
113     }
114     auto rbe = HadrontherapyRBE::GetInstance();
115 
116     fVoxelsAlongX = rbe->GetNumberOfVoxelsAlongX();
117     fVoxelsAlongY = rbe->GetNumberOfVoxelsAlongY();
118     fVoxelsAlongZ = rbe->GetNumberOfVoxelsAlongZ();
119     fVoxels = (size_t) (fVoxelsAlongX * fVoxelsAlongY * fVoxelsAlongZ);
120 
121     if (GetVerboseLevel() > 1)
122     {
123         G4cout << fVoxels << " voxels." << G4endl;
124     }
125 
126     fAlphaNumerator = array_type(0.0, fVoxels);
127     fBetaNumerator = array_type(0.0, fVoxels);
128     fDenominator = array_type(0.0, fVoxels);
129     fEnergyDeposit = array_type(0.0, fVoxels);
130     fInitialized = true;
131 }
132