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25 // 25 //
26 // G4tgrMaterial << 26 //
>> 27 //
>> 28 //
>> 29 // class G4tgrMaterial
27 // 30 //
28 // Class description: 31 // Class description:
29 // 32 //
30 // Class to represent a transient material. 33 // Class to represent a transient material.
31 34
32 // Author: P.Arce, CIEMAT (November 2007) << 35 // History:
33 // ------------------------------------------- << 36 // - Created. P.Arce, CIEMAT (November 2007)
34 #ifndef G4tgrMaterial_hh << 37 // -------------------------------------------------------------------------
35 #define G4tgrMaterial_hh 1 << 38 #ifndef G4tgrMaterial_h
>> 39 #define G4tgrMaterial_h
36 40
37 #include "globals.hh" 41 #include "globals.hh"
38 #include "G4Material.hh" 42 #include "G4Material.hh"
39 43
40 class G4tgrMaterial 44 class G4tgrMaterial
41 { 45 {
42 public: << 46 public: // with description
43 47
44 G4tgrMaterial(); 48 G4tgrMaterial();
45 virtual ~G4tgrMaterial(); 49 virtual ~G4tgrMaterial();
46 50
47 // Get methods 51 // Get methods
48 52
49 const G4String& GetName() const { return t << 53 const G4String& GetName() const { return theName; }
50 54
51 G4double GetDensity() const { return theDe 55 G4double GetDensity() const { return theDensity; }
52 // Density in g/cm3 56 // Density in g/cm3
53 57
54 G4int GetNumberOfComponents() const { retu << 58 G4int GetNumberOfComponents() const { return theNoComponents; }
55 const G4String& GetType() const { return t << 59 const G4String& GetType() const { return theMateType; }
56 60
57 virtual G4double GetA() const << 61 virtual G4double GetA() const = 0;
58 virtual G4double GetZ() const << 62 virtual G4double GetZ() const = 0;
59 virtual const G4String& GetComponent(G4int 63 virtual const G4String& GetComponent(G4int i) const = 0;
60 virtual G4double GetFraction(G4int i) << 64 virtual G4double GetFraction(G4int i) = 0;
61 65
62 G4double GetIonisationMeanExcitationEnergy 66 G4double GetIonisationMeanExcitationEnergy() const
63 { << 67 { return theIonisationMeanExcitationEnergy; }
64 return theIonisationMeanExcitationEnergy << 68
65 } << 69 void SetIonisationMeanExcitationEnergy( G4double mee )
66 << 70 { theIonisationMeanExcitationEnergy = mee; }
67 void SetIonisationMeanExcitationEnergy(G4d <<
68 { <<
69 theIonisationMeanExcitationEnergy = mee; <<
70 } <<
71 71
72 const G4State& GetState() const { return t << 72 G4State GetState() const { return theState; }
73 void SetState(const G4String& val); << 73 void SetState( G4String val );
74 74
75 G4double GetTemperature() const { return t 75 G4double GetTemperature() const { return theTemperature; }
76 void SetTemperature(G4double val) { theTem << 76 void SetTemperature( G4double val ) { theTemperature = val; }
77 77
78 G4double GetPressure() const { return theP 78 G4double GetPressure() const { return thePressure; }
79 void SetPressure(G4double val) { thePressu << 79 void SetPressure( G4double val ) { thePressure = val; }
80 80
81 protected: 81 protected:
82 82
83 G4String theName = "Material"; << 83 G4String theName;
84 G4double theDensity = 0.0; << 84 G4double theDensity;
85 G4int theNoComponents = 0; << 85 G4int theNoComponents;
86 G4String theMateType = "Material"; << 86 G4String theMateType;
87 G4double theIonisationMeanExcitationEnergy << 87 G4double theIonisationMeanExcitationEnergy;
88 G4State theState = kStateUndefined; << 88 G4State theState;
89 G4double theTemperature = 0.0; << 89 G4double theTemperature;
90 G4double thePressure = 0.0; << 90 G4double thePressure;
91 }; 91 };
92 92
93 #endif 93 #endif
94 94