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Please see the license in the file LICENSE and URL above * 16 // * for the full disclaimer and the limitatio 16 // * for the full disclaimer and the limitation of liability. * 17 // * 17 // * * 18 // * This code implementation is the result 18 // * This code implementation is the result of the scientific and * 19 // * technical work of the GEANT4 collaboratio 19 // * technical work of the GEANT4 collaboration. * 20 // * By using, copying, modifying or distri 20 // * By using, copying, modifying or distributing the software (or * 21 // * any work based on the software) you ag 21 // * any work based on the software) you agree to acknowledge its * 22 // * use in resulting scientific publicati 22 // * use in resulting scientific publications, and indicate your * 23 // * acceptance of all terms of the Geant4 Sof 23 // * acceptance of all terms of the Geant4 Software license. * 24 // ******************************************* 24 // ******************************************************************** 25 // 25 // 26 #include "HadrontherapyRBEAccumulable.hh" 26 #include "HadrontherapyRBEAccumulable.hh" 27 #include "HadrontherapyRBE.hh" 27 #include "HadrontherapyRBE.hh" 28 28 29 #include <tuple> 29 #include <tuple> 30 #include <G4SystemOfUnits.hh> 30 #include <G4SystemOfUnits.hh> 31 31 32 using namespace std; 32 using namespace std; 33 33 34 HadrontherapyRBEAccumulable::HadrontherapyRBEA 34 HadrontherapyRBEAccumulable::HadrontherapyRBEAccumulable() 35 : G4VAccumulable("RBE") 35 : G4VAccumulable("RBE") 36 { 36 { 37 37 38 } 38 } 39 39 40 void HadrontherapyRBEAccumulable::Merge(const 40 void HadrontherapyRBEAccumulable::Merge(const G4VAccumulable& rhs) 41 { 41 { 42 if (GetVerboseLevel() > 1) 42 if (GetVerboseLevel() > 1) 43 { 43 { 44 G4cout << "HadrontherapyRBEAccumulable 44 G4cout << "HadrontherapyRBEAccumulable::Merge()" << G4endl; 45 } 45 } 46 const HadrontherapyRBEAccumulable& other = 46 const HadrontherapyRBEAccumulable& other = dynamic_cast<const HadrontherapyRBEAccumulable&>(rhs); 47 fAlphaNumerator += other.fAlphaNumerator; 47 fAlphaNumerator += other.fAlphaNumerator; 48 fDenominator += other.fDenominator; 48 fDenominator += other.fDenominator; 49 fBetaNumerator += other.fBetaNumerator; 49 fBetaNumerator += other.fBetaNumerator; 50 fEnergyDeposit += other.fEnergyDeposit; 50 fEnergyDeposit += other.fEnergyDeposit; 51 } 51 } 52 52 53 void HadrontherapyRBEAccumulable::Reset() 53 void HadrontherapyRBEAccumulable::Reset() 54 { 54 { 55 if (GetVerboseLevel() > 1) 55 if (GetVerboseLevel() > 1) 56 { 56 { 57 G4cout << "HadrontherapyRBEAccumulable 57 G4cout << "HadrontherapyRBEAccumulable::Reset()" << G4endl; 58 } 58 } 59 if (fInitialized) 59 if (fInitialized) 60 { 60 { 61 fAlphaNumerator = 0.0; 61 fAlphaNumerator = 0.0; 62 fBetaNumerator = 0.0; 62 fBetaNumerator = 0.0; 63 fDenominator = 0.0; 63 fDenominator = 0.0; 64 fEnergyDeposit = 0.0; 64 fEnergyDeposit = 0.0; 65 } 65 } 66 else 66 else 67 { 67 { 68 Initialize(); 68 Initialize(); 69 } 69 } 70 } 70 } 71 71 72 void HadrontherapyRBEAccumulable::Accumulate(G 72 void HadrontherapyRBEAccumulable::Accumulate(G4double E, G4double energyDeposit, G4double dX, G4int Z, G4int i, G4int j, G4int k) 73 { 73 { 74 if (!fInitialized) 74 if (!fInitialized) 75 { 75 { 76 G4Exception("HadrontherapyRBEAccumulab 76 G4Exception("HadrontherapyRBEAccumulable::Accumulate", "NotInitialized", FatalException, "Accumulable not initialized. Must be a programming error."); 77 } 77 } 78 if (GetVerboseLevel() > 2) 78 if (GetVerboseLevel() > 2) 79 { 79 { 80 G4cout << "HadrontherapyRBEAccumulable 80 G4cout << "HadrontherapyRBEAccumulable::Accumulate() in " << i << ", " << j << ", " << k << G4endl; 81 } 81 } 82 if (energyDeposit <= 0) 82 if (energyDeposit <= 0) 83 { 83 { 84 return; 84 return; 85 } 85 } 86 size_t n = GetIndex(i, j, k); 86 size_t n = GetIndex(i, j, k); 87 fEnergyDeposit[n] += energyDeposit; 87 fEnergyDeposit[n] += energyDeposit; 88 88 89 if ((Z >= 1) && (dX > 0) && (E > 0)) // TO 89 if ((Z >= 1) && (dX > 0) && (E > 0)) // TODO: Verify this condition 90 { 90 { 91 tuple<G4double, G4double> alpha_beta = 91 tuple<G4double, G4double> alpha_beta = HadrontherapyRBE::GetInstance()->GetHitAlphaAndBeta(E, Z); 92 fDenominator[n] += energyDeposit; 92 fDenominator[n] += energyDeposit; 93 fAlphaNumerator[n] += get<0>(alpha_bet 93 fAlphaNumerator[n] += get<0>(alpha_beta) * energyDeposit; 94 fBetaNumerator[n] += sqrt(get<1>(alpha 94 fBetaNumerator[n] += sqrt(get<1>(alpha_beta)) * energyDeposit; 95 } 95 } 96 } 96 } 97 97 98 const HadrontherapyRBEAccumulable::array_type 98 const HadrontherapyRBEAccumulable::array_type HadrontherapyRBEAccumulable::GetEnergyDeposit() const 99 { 99 { 100 return fEnergyDeposit; 100 return fEnergyDeposit; 101 } 101 } 102 102 103 G4int HadrontherapyRBEAccumulable::GetVerboseL 103 G4int HadrontherapyRBEAccumulable::GetVerboseLevel() const 104 { 104 { 105 return HadrontherapyRBE::GetInstance()->Ge 105 return HadrontherapyRBE::GetInstance()->GetVerboseLevel(); 106 } 106 } 107 107 108 void HadrontherapyRBEAccumulable::Initialize() 108 void HadrontherapyRBEAccumulable::Initialize() 109 { 109 { 110 if (GetVerboseLevel() > 1) 110 if (GetVerboseLevel() > 1) 111 { 111 { 112 G4cout << "HadrontherapyRBEAccumulable 112 G4cout << "HadrontherapyRBEAccumulable::Initialize(): "; 113 } 113 } 114 auto rbe = HadrontherapyRBE::GetInstance() 114 auto rbe = HadrontherapyRBE::GetInstance(); 115 115 116 fVoxelsAlongX = rbe->GetNumberOfVoxelsAlon 116 fVoxelsAlongX = rbe->GetNumberOfVoxelsAlongX(); 117 fVoxelsAlongY = rbe->GetNumberOfVoxelsAlon 117 fVoxelsAlongY = rbe->GetNumberOfVoxelsAlongY(); 118 fVoxelsAlongZ = rbe->GetNumberOfVoxelsAlon 118 fVoxelsAlongZ = rbe->GetNumberOfVoxelsAlongZ(); 119 fVoxels = (size_t) (fVoxelsAlongX * fVoxel 119 fVoxels = (size_t) (fVoxelsAlongX * fVoxelsAlongY * fVoxelsAlongZ); 120 120 121 if (GetVerboseLevel() > 1) 121 if (GetVerboseLevel() > 1) 122 { 122 { 123 G4cout << fVoxels << " voxels." << G4e 123 G4cout << fVoxels << " voxels." << G4endl; 124 } 124 } 125 125 126 fAlphaNumerator = array_type(0.0, fVoxels) 126 fAlphaNumerator = array_type(0.0, fVoxels); 127 fBetaNumerator = array_type(0.0, fVoxels); 127 fBetaNumerator = array_type(0.0, fVoxels); 128 fDenominator = array_type(0.0, fVoxels); 128 fDenominator = array_type(0.0, fVoxels); 129 fEnergyDeposit = array_type(0.0, fVoxels); 129 fEnergyDeposit = array_type(0.0, fVoxels); 130 fInitialized = true; 130 fInitialized = true; 131 } 131 } 132 132