| Geant4 Cross Reference |
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25 // 25 //
26 // 26 //
27 // 27 //
28 // 28 //
29 // Class Description: 29 // Class Description:
30 // 30 //
31 // Base class for the trajectory state 31 // Base class for the trajectory state
32 32
33 // History: 33 // History:
34 // - Created: P. Arce 34 // - Created: P. Arce
35 // ------------------------------------------- 35 // --------------------------------------------------------------------
36 36
37 #ifndef G4ErrorTrajState_hh 37 #ifndef G4ErrorTrajState_hh
38 #define G4ErrorTrajState_hh 38 #define G4ErrorTrajState_hh
39 39
40 #include "globals.hh" 40 #include "globals.hh"
41 #include "G4Track.hh" 41 #include "G4Track.hh"
42 #include "G4Point3D.hh" 42 #include "G4Point3D.hh"
43 #include "G4Vector3D.hh" 43 #include "G4Vector3D.hh"
44 #include "G4ErrorTrajErr.hh" 44 #include "G4ErrorTrajErr.hh"
45 45
46 enum G4eTSType << 46 enum G4eTSType{ G4eTS_FREE, G4eTS_OS };
47 { <<
48 G4eTS_FREE, <<
49 G4eTS_OS <<
50 }; <<
51 47
52 class G4ErrorTrajState 48 class G4ErrorTrajState
53 { 49 {
54 public: // with description 50 public: // with description
55 G4ErrorTrajState() <<
56 : fCharge(0.) <<
57 , theG4Track(0) <<
58 , iverbose(0) <<
59 {} <<
60 <<
61 G4ErrorTrajState(const G4String& partType, c <<
62 const G4Vector3D& mom, <<
63 const G4ErrorTrajErr& errma <<
64 // Constructor by providing particle, positi <<
65 <<
66 G4ErrorTrajState(const G4ErrorTrajState&); <<
67 G4ErrorTrajState(G4ErrorTrajState&&); <<
68 // The copy and move constructors <<
69 <<
70 virtual ~G4ErrorTrajState() {} <<
71 <<
72 G4ErrorTrajState& operator=(const G4ErrorTra <<
73 G4ErrorTrajState& operator=(G4ErrorTrajState <<
74 // The copy and move assignment operators <<
75 <<
76 void SetData(const G4String& partType, const <<
77 const G4Vector3D& mom); <<
78 // Set particle, position and momentum <<
79 <<
80 void BuildCharge(); <<
81 // Build charge based on particle type <<
82 <<
83 friend std::ostream& operator<<(std::ostream <<
84 <<
85 virtual G4int PropagateError(const G4Track*) <<
86 // Propagate the error along the step <<
87 <<
88 virtual G4int Update(const G4Track*) { retur <<
89 // Update parameters from G4Track <<
90 51
91 void UpdatePosMom(const G4Point3D& pos, cons << 52 G4ErrorTrajState() : fCharge(0.), theG4Track(0), iverbose(0) {}
92 // Update position and momentum <<
93 53
94 void DumpPosMomError(std::ostream& out = G4c << 54 G4ErrorTrajState( const G4String& partType, const G4Point3D& pos,
95 // Dump position, momentum and error << 55 const G4Vector3D& mom,
>> 56 const G4ErrorTrajErr& errmat = G4ErrorTrajErr(5,0) );
>> 57 // Constructor by providing particle, position and momentum
>> 58
>> 59 virtual ~G4ErrorTrajState(){}
>> 60
>> 61 void SetData( const G4String& partType, const G4Point3D& pos,
>> 62 const G4Vector3D& mom );
>> 63 // Set particle, position and momentum
96 64
97 virtual void Dump(std::ostream& out = G4cout << 65 void BuildCharge();
98 // Abstract method to dump all TrajState par << 66 // Build charge based on particle type
99 <<
100 // Set and Get methods <<
101 <<
102 const G4String& GetParticleType() const { re <<
103 void SetParticleType(const G4String& partTyp <<
104 <<
105 G4Point3D GetPosition() const { return fPosi <<
106 virtual void SetPosition(const G4Point3D pos <<
107 <<
108 G4Vector3D GetMomentum() const { return fMom <<
109 virtual void SetMomentum(const G4Vector3D& m <<
110 67
111 G4ErrorTrajErr GetError() const { return fEr << 68 friend
112 virtual void SetError(G4ErrorTrajErr em) { f << 69 std::ostream& operator<<(std::ostream&, const G4ErrorTrajState& ts);
113 70
114 G4Track* GetG4Track() const { return theG4Tr << 71 virtual G4int PropagateError( const G4Track* );
115 void SetG4Track(G4Track* trk) { theG4Track = << 72 // Propagate the error along the step
116 73
117 G4double GetCharge() const { return fCharge; << 74 virtual G4int Update( const G4Track* ){ return -1; }
118 void SetCharge(G4double ch) { fCharge = ch; << 75 // Update parameters from G4Track
>> 76
>> 77 void UpdatePosMom( const G4Point3D& pos, const G4Vector3D& mom );
>> 78 // Update position and momentum
>> 79
>> 80 void DumpPosMomError( std::ostream& out = G4cout ) const;
>> 81 // Dump position, momentum and error
>> 82
>> 83 virtual void Dump( std::ostream& out = G4cout ) const = 0;
>> 84 // Abstract method to dump all TrajState parameters
>> 85
>> 86 // Set and Get methods
>> 87
>> 88 const G4String& GetParticleType() const
>> 89 { return fParticleType;}
>> 90 void SetParticleType( const G4String& partType )
>> 91 { fParticleType = partType;}
>> 92
>> 93 G4Point3D GetPosition() const
>> 94 { return fPosition; }
>> 95 virtual void SetPosition( const G4Point3D pos )
>> 96 { fPosition = pos; }
>> 97
>> 98 G4Vector3D GetMomentum() const
>> 99 { return fMomentum; }
>> 100 virtual void SetMomentum( const G4Vector3D& mom )
>> 101 { fMomentum = mom; }
>> 102
>> 103 G4ErrorTrajErr GetError() const
>> 104 { return fError; }
>> 105 virtual void SetError( G4ErrorTrajErr em )
>> 106 { fError = em; }
>> 107
>> 108 G4Track* GetG4Track() const
>> 109 { return theG4Track; }
>> 110 void SetG4Track( G4Track* trk )
>> 111 { theG4Track = trk; }
>> 112
>> 113 G4double GetCharge() const
>> 114 { return fCharge; }
>> 115 void SetCharge( G4double ch )
>> 116 { fCharge = ch; }
119 117
120 virtual G4eTSType GetTSType() const { return << 118 virtual G4eTSType GetTSType() const
>> 119 { return theTSType; }
121 120
122 protected: 121 protected:
>> 122
123 G4String fParticleType; 123 G4String fParticleType;
124 G4Point3D fPosition; 124 G4Point3D fPosition;
125 G4Vector3D fMomentum; 125 G4Vector3D fMomentum;
126 G4double fCharge = 0.; << 126 G4double fCharge;
127 G4ErrorTrajErr fError; 127 G4ErrorTrajErr fError;
128 128
129 G4eTSType theTSType; 129 G4eTSType theTSType;
130 130
131 G4Track* theG4Track = nullptr; << 131 G4Track* theG4Track;
132 132
133 G4int iverbose = 0; << 133 G4int iverbose;
134 }; 134 };
135 135
136 #endif 136 #endif
137 137