source: trunk/MagicSoft/include-Classes/MMcFormat/MMcEvtBasic.h@ 8149

Last change on this file since 8149 was 7880, checked in by tbretz, 18 years ago
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1#ifndef MARS_MMcEvtBasic
2#define MARS_MMcEvtBasic
3
4#ifndef MARS_MParContainer
5#include "MParContainer.h"
6#endif
7
8
9class MMcEvtBasic : public MParContainer
10{
11public:
12 enum ParticleId_t
13 {
14 kUNDEFINED = -1,
15 kGAMMA = 1,
16 kPOSITRON = 2,
17 kELECTRON = 3,
18 kANTIMUON = 5,
19 kMUON = 6,
20 kPI0 = 7,
21 kNEUTRON = 13,
22 kPROTON = 14,
23 kHELIUM = 402,
24 kOXYGEN = 1608,
25 kIRON = 5626
26 };
27
28protected:
29 ParticleId_t fPartId; // Type of particle
30 Float_t fEnergy; // [GeV] Energy
31 Float_t fImpact; // [cm] impact parameter
32
33 // Telescope orientation (see TDAS 02-11 regarding the
34 // precise meaning of these angles):
35 Float_t fTelescopePhi; // [rad]
36 Float_t fTelescopeTheta; // [rad]
37
38public:
39 MMcEvtBasic();
40 MMcEvtBasic(ParticleId_t, Float_t, Float_t, Float_t, Float_t);
41
42 // Getter
43 ParticleId_t GetPartId() const { return fPartId; }
44
45 Float_t GetEnergy() const { return fEnergy; }
46 Float_t GetImpact() const { return fImpact; }
47
48 Float_t GetTelescopePhi() const { return fTelescopePhi; }
49 Float_t GetTelescopeTheta() const { return fTelescopeTheta; }
50
51 TString GetParticleName() const
52 {
53 switch (fPartId)
54 {
55 case kUNDEFINED:return "Undefined";
56 case kGAMMA: return "Gamma";
57 case kPOSITRON: return "Positron";
58 case kELECTRON: return "Electron";
59 case kANTIMUON: return "Anti-Muon";
60 case kMUON: return "Muon";
61 case kPI0: return "Pi-0";
62 case kNEUTRON: return "Neutron";
63 case kPROTON: return "Proton";
64 case kHELIUM: return "Helium";
65 case kOXYGEN: return "Oxygen";
66 case kIRON: return "Iron";
67 }
68
69 return Form("Id:%d", fPartId);
70 }
71
72 TString GetParticleSymbol() const
73 {
74 switch (fPartId)
75 {
76 case kUNDEFINED:return "N/A";
77 case kGAMMA: return "\\gamma";
78 case kPOSITRON: return "e^{+}";
79 case kELECTRON: return "e^{-}";
80 case kANTIMUON: return "\\mu^{+}";
81 case kMUON: return "\\mu^{-}";
82 case kPI0: return "\\pi^{0}";
83 case kNEUTRON: return "n";
84 case kPROTON: return "p";
85 case kHELIUM: return "He";
86 case kOXYGEN: return "O";
87 case kIRON: return "Fe";
88 }
89
90 return Form("Id:%d", fPartId);
91 }
92
93 TString GetEnergyStr() const
94 {
95 if (fEnergy>1000)
96 return Form("%.1fTeV", fEnergy/1000);
97
98 if (fEnergy>10)
99 return Form("%dGeV", (Int_t)(fEnergy+.5));
100
101 if (fEnergy>1)
102 return Form("%.1fGeV", fEnergy);
103
104 return Form("%dMeV", (Int_t)(fEnergy*1000+.5));
105 }
106
107
108 // Setter
109 void SetPartId(ParticleId_t id) { fPartId = id; }
110 void SetEnergy(Float_t Energy) { fEnergy=Energy; } //Set Energy
111 void SetImpact(Float_t Impact) { fImpact=Impact;} //Set impact parameter
112
113 void SetTelescopeTheta(Float_t Theta) { fTelescopeTheta=Theta; }
114 void SetTelescopePhi (Float_t Phi) { fTelescopePhi=Phi; }
115
116 void Fill(ParticleId_t, Float_t, Float_t, Float_t, Float_t);
117
118 // TObject
119 void Clear(Option_t *opt=NULL);
120 void Print(Option_t *opt=NULL) const;
121
122 ClassDef(MMcEvtBasic, 2) //Stores Basic Montecarlo Information of one event
123
124};
125
126#endif
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