source: branches/Mars_IncreaseNsb/msim/MPhotonData.h@ 20115

Last change on this file since 20115 was 18549, checked in by tbretz, 8 years ago
The wavelength is now kept as a negative value so that it can be checked on the photon level if CEFFIC was turned on. It is however returned without sign for convenience. The loop to simulate the wavelength is only executed if the first photon has a zero wavelength -- it is assumed they are all consistent.
File size: 4.7 KB
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1#ifndef MARS_MPhotonData
2#define MARS_MPhotonData
3
4#ifndef MARS_MMcEvtBasic
5#include "MMcEvtBasic.h"
6#endif
7
8#ifndef ROOT_TVector2
9#include <TVector2.h>
10#endif
11
12#ifndef ROOT_TVector3
13#include <TVector3.h>
14#endif
15
16#ifndef ROOT_TQuaternion
17#include <math.h>
18//#define sqrt ::sqrt
19#include <TQuaternion.h>
20//#undef sqrt
21#endif
22
23// gcc 3.2
24//class ifstream;
25#include <iosfwd>
26
27class MCorsikaRunHeader;
28
29class MPhotonData : public TObject
30{
31private:
32 Float_t fPosX; // [cm] "+west" "-east" (both at observation level)
33 Float_t fPosY; // [cm] "+south" "-north" (north denotes the magnet north which is defined to be in the geografic north!)
34
35 Float_t fCosU; // [cos x] U direction cosine to x-axis
36 Float_t fCosV; // [cos y] V direction cosine to y-axis
37
38 Float_t fTime; // [ns] Time since first interaction or entrance into atmosphere
39 Short_t fWavelength; // [nm] Wavelength
40// UInt_t fNumPhotons; // Number of cherenkov photons ins bunch
41 Float_t fProductionHeight; // [cm] Height of bunch production
42 MMcEvtBasic::ParticleId_t fPrimary; // Type of emitting particle
43
44 Int_t fTag; //! A tag for external use
45 Int_t fMirrorTag; // Tag for the mirror ID of the mirror which was hit by this photon
46 Float_t fWeight; //! A weight for external use
47
48public:
49 MPhotonData(/*const char *name=NULL, const char *title=NULL*/);
50 //MPhotonData(const MPhotonData &ph);
51
52 // Getter 1D
53 Float_t GetPosX() const { return fPosX; }
54 Float_t GetPosY() const { return fPosY; }
55
56 Float_t GetCosU() const { return fCosU; }
57 Float_t GetCosV() const { return fCosV; }
58 Double_t GetCosW() const;
59 Double_t GetSinW() const;
60 Double_t GetCosW2() const;
61 Double_t GetSinW2() const;
62 Double_t GetTheta() const;
63
64 Double_t GetTime() const { return fTime; }
65
66 // Getter 2D
67 TVector2 GetPos2() const { return TVector2(fPosX, fPosY); }
68 TVector2 GetDir2() const { return TVector2(fCosU, fCosV);}
69// TVector2 GetDir2() const { return TVector2(fCosU, fCosV)/(1-TMath::Hypot(fCosU, fCosV)); }
70
71 // Getter 3D
72 TVector3 GetPos3() const { return TVector3(fPosX, fPosY, 0); }
73 TVector3 GetDir3() const { return TVector3(fCosU, fCosV, -GetCosW()); }
74
75 // Getter 4D
76 TQuaternion GetPosQ() const;
77 TQuaternion GetDirQ() const;
78
79 // Getter Others
80 UShort_t GetWavelength() const { return TMath::Abs(fWavelength); }
81 Float_t GetProductionHeight() const { return fProductionHeight; }
82 MMcEvtBasic::ParticleId_t GetPrimary() const { return fPrimary; }
83
84 // Status of the simulation of photons
85 Bool_t IncludesEfficiencies() const { return fWavelength<0; }
86
87 //virtual Float_t GetWeight() const { return 1; }
88 virtual Float_t GetWeight() const { return fWeight; }
89 void SetWeight(Float_t w=1) { fWeight=w; }
90
91 // Setter
92 void SetPosition(Float_t x, Float_t y) { fPosX=x; fPosY=y; }
93 void SetDirection(Float_t u, Float_t v) { fCosU=u; fCosV=v; }
94
95 void SetPosition(const TVector2 &p) { fPosX=p.X(); fPosY=p.Y(); }
96 void SetDirection(const TVector2 &d) { fCosU=d.X(); fCosV=d.Y(); }
97
98 void SetPosition(const TQuaternion &p) { fPosX=p.fVectorPart.X(); fPosY=p.fVectorPart.Y(); fTime=p.fRealPart; }
99 void SetDirection(const TQuaternion &d) { fCosU=d.fVectorPart.X(); fCosV=d.fVectorPart.Y(); }
100
101 void SetPrimary(MMcEvtBasic::ParticleId_t p) { fPrimary=p; }
102 void SetWavelength(Short_t wl) { fWavelength=wl; }
103
104 void AddTime(Double_t dt) { fTime += dt; }
105 void SetTime(Double_t t) { fTime = t; }
106
107 void SimWavelength(Float_t wmin, Float_t wmax);
108
109 void Copy(TObject &obj) const;
110
111 void SetTag(Int_t tag) { fTag=tag; }
112 Int_t GetTag() const { return fTag; }
113
114 void SetMirrorTag(Int_t mirrorTag) { fMirrorTag=mirrorTag; }
115 Int_t GetMirrorTag() const { return fMirrorTag; }
116
117 // TObject
118 //void Clear(Option_t * = NULL);
119 void Print(Option_t * = NULL) const;
120 //void Draw (Option_t * = NULL);
121 Bool_t IsSortable() const { return kTRUE; }
122 Int_t Compare(const TObject *obj) const
123 {
124 const MPhotonData &d = *static_cast<const MPhotonData*>(obj);
125 if (fTime<d.fTime)
126 return -1;
127 if (fTime>d.fTime)
128 return 1;
129 return 0;
130 }
131
132 // I/O
133 //Int_t ReadCorsikaEvt(istream &fin);
134 //Int_t ReadRflEvt(istream &fin);
135
136 Int_t FillCorsika(Float_t f[7], Int_t i);
137 Int_t FillEventIO(Short_t f[8]);
138 Int_t FillEventIO(Float_t f[8]);
139 Int_t FillRfl(Float_t f[8]);
140
141 ClassDef(MPhotonData, 2) //Container to store a cherenkov photon bunch from a CORSUKA file
142};
143
144#endif
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