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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 // G4VRangeToEnergyConverter << 27 // 26 // 28 // Class description: << 27 // $Id: G4VRangeToEnergyConverter.hh,v 1.4.4.2 2010/01/26 13:56:43 gcosmo Exp $ >> 28 // GEANT4 tag $Name: geant4-09-02-patch-04 $ 29 // 29 // 30 // Base class for Range to Energy Converters. << 30 // 31 // Cut in energy corresponding to given cut va << 31 // ------------------------------------------------------------ 32 // is calculated for a material by using Conve << 32 // GEANT 4 class header file 33 << 33 // 34 // Author: H.Kurashige, 05 October 2002 - Firs << 34 // 35 // ------------------------------------------- << 35 // Class Description 36 #ifndef G4VRangeToEnergyConverter_hh << 36 // This class is base class for Range to Energy Converters. 37 #define G4VRangeToEnergyConverter_hh 1 << 37 // Cut in energy corresponding to given cut value in range >> 38 // is calculated for a material by using Convert method >> 39 // >> 40 // ------------------------------------------------------------ >> 41 // First Implementation 5 Oct. 2002 H.Kurahige >> 42 // ------------------------------------------------------------ 38 43 39 #include <vector> << 44 #ifndef G4VRangeToEnergyConverter_h >> 45 #define G4VRangeToEnergyConverter_h 1 40 46 41 #include "globals.hh" 47 #include "globals.hh" >> 48 #include <cmath> >> 49 #include "G4ios.hh" >> 50 #include <vector> >> 51 42 #include "G4ParticleDefinition.hh" 52 #include "G4ParticleDefinition.hh" >> 53 >> 54 #include "G4PhysicsTable.hh" >> 55 #include "G4Element.hh" 43 #include "G4Material.hh" 56 #include "G4Material.hh" >> 57 class G4PhysicsLogVector; 44 58 45 class G4VRangeToEnergyConverter 59 class G4VRangeToEnergyConverter 46 { 60 { 47 public: << 61 public: // with description >> 62 // constructor >> 63 G4VRangeToEnergyConverter(); 48 64 49 explicit G4VRangeToEnergyConverter(); << 65 // copy constructor >> 66 G4VRangeToEnergyConverter(const G4VRangeToEnergyConverter &right); 50 67 >> 68 G4VRangeToEnergyConverter & operator=(const G4VRangeToEnergyConverter &right); >> 69 >> 70 public: >> 71 // destructor 51 virtual ~G4VRangeToEnergyConverter(); 72 virtual ~G4VRangeToEnergyConverter(); 52 73 53 // operators are not used << 74 // equal opperators 54 G4VRangeToEnergyConverter(const G4VRangeToEn << 75 G4int operator==(const G4VRangeToEnergyConverter &right) const; 55 G4VRangeToEnergyConverter& operator= << 76 G4int operator!=(const G4VRangeToEnergyConverter &right) const; 56 (const G4VRangeToEnergyConverter &r) = delet << 77 57 G4bool operator==(const G4VRangeToEnergyConv << 78 public: // with description 58 G4bool operator!=(const G4VRangeToEnergyConv << 79 // calculate energy cut from given range cut for the material 59 << 80 virtual G4double Convert(G4double rangeCut, const G4Material* material); 60 // Calculate energy cut from given range cut << 81 61 virtual G4double Convert(const G4double rang << 82 // set energy range for all particle type 62 << 83 static void SetEnergyRange(G4double lowedge, G4double highedge); 63 // Set energy range for all particle type << 64 // if highedge > 10 GeV, highedge value is n << 65 static void SetEnergyRange(const G4double lo << 66 84 67 // Get energy range for all particle type << 85 // get energy range for all particle type 68 static G4double GetLowEdgeEnergy(); 86 static G4double GetLowEdgeEnergy(); 69 static G4double GetHighEdgeEnergy(); 87 static G4double GetHighEdgeEnergy(); 70 88 71 // Get/set max cut energy for all particle t << 89 // get/set max cut energy for all particle type 72 // No check on the value << 73 static G4double GetMaxEnergyCut(); 90 static G4double GetMaxEnergyCut(); 74 static void SetMaxEnergyCut(const G4double v << 91 static void SetMaxEnergyCut(G4double value); 75 92 76 // Return pointer to the particle type which << 93 // return pointer to the particle type which this converter takes care 77 inline const G4ParticleDefinition* GetPartic << 94 const G4ParticleDefinition* GetParticleType() const; 78 95 79 inline void SetVerboseLevel(G4int value); << 96 // return the Loss Table 80 inline G4int GetVerboseLevel() const; << 97 const G4PhysicsTable* GetLossTable() const; 81 // control flag for output message << 98 //-------------- Loss Table ------------------------------------------ >> 99 // theLossTable is a collection of loss vectors for all elements. >> 100 // Each loss vector has energy loss values (cross section values >> 101 // for neutral particles) which are calculated by >> 102 // ComputeLoss(G4double AtomicNumber,G4double KineticEnergy). >> 103 // ComputeLoss method is pure virtual and should be provided for each >> 104 // particle type >> 105 >> 106 // reset Loss Table and Range Vectors >> 107 virtual void Reset(); >> 108 >> 109 protected: >> 110 static G4double LowestEnergy, HighestEnergy; >> 111 static G4double MaxEnergyCut; >> 112 G4double fMaxEnergyCut; >> 113 >> 114 const G4ParticleDefinition* theParticle; >> 115 typedef G4PhysicsTable G4LossTable; >> 116 G4LossTable* theLossTable; >> 117 G4int NumberOfElements; >> 118 >> 119 typedef G4PhysicsLogVector G4LossVector; >> 120 const G4int TotBin; >> 121 >> 122 protected:// with description >> 123 virtual void BuildLossTable(); >> 124 >> 125 virtual G4double ComputeLoss(G4double AtomicNumber, >> 126 G4double KineticEnergy >> 127 ) const = 0; >> 128 >> 129 //-------------- Range Table ------------------------------------------ >> 130 protected: >> 131 typedef G4PhysicsLogVector G4RangeVector; >> 132 >> 133 virtual void BuildRangeVector(const G4Material* aMaterial, >> 134 G4RangeVector* rangeVector); >> 135 >> 136 std::vector< G4RangeVector* > fRangeVectorStore; >> 137 >> 138 protected: >> 139 G4double ConvertCutToKineticEnergy( >> 140 G4RangeVector* theRangeVector, >> 141 G4double theCutInLength, >> 142 size_t materialIndex >> 143 ) const; >> 144 >> 145 public: // with description >> 146 void SetVerboseLevel(G4int value); >> 147 G4int GetVerboseLevel() const; >> 148 // controle flag for output message 82 // 0: Silent 149 // 0: Silent 83 // 1: Warning message 150 // 1: Warning message 84 // 2: More 151 // 2: More 85 152 86 protected: << 153 private: 87 << 154 G4int verboseLevel; 88 virtual G4double ComputeValue(const G4int Z, << 89 << 90 private: << 91 << 92 static void FillEnergyVector(const G4double << 93 << 94 G4double ConvertForGamma(const G4double rang << 95 << 96 G4double ConvertForElectron(const G4double r << 97 const G4Material << 98 155 99 inline G4double LiniearInterpolation(const G << 100 const G << 101 const G << 102 << 103 protected: << 104 << 105 const G4ParticleDefinition* theParticle = nu << 106 G4int fPDG = 0; << 107 << 108 private: << 109 << 110 static G4double sEmin; << 111 static G4double sEmax; << 112 static std::vector<G4double>* sEnergy; << 113 static G4int sNbinPerDecade; << 114 static G4int sNbin; << 115 << 116 G4int verboseLevel = 1; << 117 G4bool isFirstInstance = false; << 118 }; 156 }; 119 157 120 // ------------------ << 121 // Inline methods << 122 // ------------------ << 123 << 124 inline 158 inline 125 void G4VRangeToEnergyConverter::SetVerboseLeve << 159 void G4VRangeToEnergyConverter::SetVerboseLevel(G4int value) 126 { 160 { 127 verboseLevel = value; << 161 verboseLevel = value; 128 } 162 } 129 163 130 inline 164 inline 131 G4int G4VRangeToEnergyConverter::GetVerboseLev << 165 G4int G4VRangeToEnergyConverter::GetVerboseLevel() const 132 { 166 { 133 return verboseLevel; << 167 return verboseLevel; 134 } 168 } 135 169 >> 170 136 inline 171 inline 137 const G4ParticleDefinition* G4VRangeToEnergyCo << 172 const G4ParticleDefinition* G4VRangeToEnergyConverter::GetParticleType() const 138 { 173 { 139 return theParticle; << 174 return theParticle; 140 } 175 } >> 176 #endif >> 177 >> 178 >> 179 >> 180 >> 181 >> 182 141 183 142 inline G4double G4VRangeToEnergyConverter::Lin << 143 const G4double e1, const G4dou << 144 const G4double r1, const G4dou << 145 { << 146 return (r1 == r2) ? e1 : e1 + (e2 - e1)*(r - << 147 } << 148 184 149 #endif << 150 185