/[PAMELA software]/PamVMC/include/PamVMCDetectorHit.h
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Contents of /PamVMC/include/PamVMCDetectorHit.h

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Revision 1.5 - (show annotations) (download)
Fri Jun 12 18:39:17 2009 UTC (15 years, 6 months ago) by pam-rm2
Branch: MAIN
CVS Tags: v1r0, HEAD
Changes since 1.1: +12 -5 lines
File MIME type: text/plain
Error occurred while calculating annotation data.
- Introduced user-defined names of output files and random seeds number.
Users can do it use options of PamVMCApplication constructor:
PamVMCApplication(const char* name,  const char *title, const char*
filename="pamtest", Int_t seed=0).
The Random object that I use is TRandom3 object which has astronomical
large period (in case of default initialization 0). All random generators
in the code use this object by calling of gRandom singleton which keeps
it.

- Corrected TOF digitization routine. No problems with TDC hits due to
hadronic interactions anymore.

- Some small changes was done to compile code under Root 5.23. +
geant4_vmc v. 2.6 without any warnings

- Some classes of PamG4RunConfiguartion was changed for geant4_vmc v.
2.6.Some obsolete classes was deleted as soon as developers implemented
regions.

- Navigation was changed from "geomRootToGeant4" to "geomRoot", because on
VMC web page written that as soon as Geant4 has no option ONLY/MANY
translation of overlapped geometry to Geant4 through VGM could be wrong.
I'd like to stay with Root navigation:
http://root.cern.ch/root/vmc/Geant4VMC.html. This should be default
option.

- New Tracker digitization routine written by Sergio was implemented

- PamVMC again became compatible with geant4_vmc v.2.5 and ROOT 5.20.
 The problem was that ROOT developers introduced in TVirtualMC class a new
method SetMagField and new base class:TVirtualMagField from which
user-defined classes shoukd be derived

1 #ifndef PAMVMC_DETECTOR_HIT_H
2 #define PAMVMC_DETECTOR_HIT_H
3 #include <cmath>
4 #include <iostream>
5
6 #include <TObject.h>
7 #include <TVirtualMC.h>
8 #include <TParticle.h>
9
10 #include "PamVMCGeoID.h"
11
12 using std::sqrt;
13 using std::cout;
14 using std::endl;
15
16 class pHitData: public TObject {
17
18 public:
19 Int_t fPOS;
20 Int_t fPDG; //Particle PDG
21 Double_t fPATH; //PATH length in specific SD in (cm)
22 Double_t fTOF;
23 Double_t fPIN;
24 Double_t fXOUT;
25 Double_t fYOUT;
26 Double_t fZOUT;
27 Double_t fEREL; //Energy released during hit
28 Double_t fXIN;
29 Double_t fYIN;
30 Double_t fZIN;
31 Bool_t fPRIM; //1 if it was a hit from primary particle
32
33 pHitData(): fPOS(0), fPDG(0), fPATH(0.), fTOF(0.), fPIN(0.), fXOUT (0.),
34 fYOUT (0.), fZOUT (0.), fEREL (0.),
35 fXIN(0.), fYIN (0.), fZIN (0.), fPRIM(kFALSE) { };
36
37
38 // Kept for back-compatibility
39 virtual void Clean() {
40 fPOS=fPDG=0;
41 fPATH= fTOF= fPIN= fXOUT =
42 fYOUT = fZOUT = fEREL =
43 fXIN= fYIN = fZIN = 0.;
44 fPRIM = kFALSE;
45 }
46
47 // Inherithed from TObject
48
49 virtual void Clear( Option_t * = "") { Clean(); }
50
51 virtual void Print(Option_t * ="" ) const
52 { cout << "pHitData: "<<endl
53 <<"ID of SD volume: " << fPOS << endl
54 <<"HIT INFORMATION: " << endl
55 <<"Partice PDG: " << fPDG << endl
56 <<"XIN: " << fXIN << " (cm)"<<endl
57 <<"YIN: " << fYIN << " (cm)"<<endl
58 <<"ZIN: " << fZIN << " (cm)"<<endl
59 <<"PIN: " << fPIN << " (GeV/c)"<<endl
60 <<"XOUT: " << fXOUT << " (cm)"<<endl
61 <<"YOUT: " << fYOUT << " (cm)"<<endl
62 <<"ZOUT: " << fZOUT << " (cm)"<<endl
63 <<"PATH: " << fPATH << " (cm)"<<endl
64 <<"EREL: " << fEREL*1E6 << " (keV)"<<endl
65 <<"TOF: " << fTOF << " (s)"<<endl
66 <<"PRIMARY: "<<fPRIM<<endl; }
67
68 ClassDef(pHitData,1)
69
70 };
71
72
73 pHitData & operator+=( pHitData &a, const pHitData & p);
74
75
76 class PamVMCDetectorHit : public TObject
77 {
78 public:
79 PamVMCDetectorHit();
80 virtual ~PamVMCDetectorHit();
81
82 //Set and Add methods
83
84 virtual void CleanHit() {
85 fhitdata.Clean();
86 fnocall=0;
87 }
88
89 virtual void Clear(Option_t * = ""){ this->~PamVMCDetectorHit(); }
90
91 virtual pHitData * GenHit() { return new pHitData(fhitdata);}
92
93 void operator = (const PamVMCDetectorHit & p );
94
95 void operator += (const PamVMCDetectorHit & p );
96
97 virtual void FillHitEntering(pHitData &phd){
98 SetHit(phd); }
99
100 virtual void Print(Option_t* option = "") const;
101
102 void FillHit(TVirtualMC *g, Bool_t is_prim) {
103 fnocall++;
104 double x,y,z,e;
105 g->TrackPosition(x,y,z);
106 UpdPDG(g->TrackPid());
107 UpdXIN(x);
108 UpdYIN(y);
109 UpdZIN(z);
110 SetXOUT(x);
111 SetYOUT(y);
112 SetZOUT(z);
113 g->TrackMomentum(x,y,z,e);
114 UpdPIN(sqrt(x*x+y*y+z*z));
115 AddTOF((g->GetStack()->GetCurrentTrack()->T())/1.0E9 /*TG4G3Units::Time()*/+(g->TrackTime()));
116 AddPATH(g->TrackStep());
117 AddEREL(g->Edep());
118 SetPRIM(is_prim);
119 }
120
121
122 void SetHit( const pHitData &phd){
123 fnocall++;
124 SetPOS(phd.fPOS);
125 AddTOF(phd.fTOF);
126 AddPATH( phd.fPATH );
127 AddEREL( phd.fEREL );
128 UpdPDG( phd.fPDG );
129 UpdXIN( phd.fXIN );
130 UpdYIN( phd.fYIN );
131 UpdZIN( phd.fZIN );
132 UpdPIN( phd.fPIN );
133 SetXOUT( phd.fXOUT );
134 SetYOUT( phd.fYOUT );
135 SetZOUT( phd.fZOUT );
136 SetPRIM( phd.fPRIM );
137 }
138
139 void UpdXIN(Double_t x){
140 if(! fhitdata.fXIN) SetXIN( x );}
141 void UpdYIN(Double_t x){
142 if(! fhitdata.fYIN) SetYIN( x );}
143 void UpdZIN(Double_t x){
144 if(! fhitdata.fZIN) SetZIN( x );}
145 void UpdPIN(Double_t x){
146 if(! fhitdata.fPIN) SetPIN( x );}
147 void UpdPDG(Int_t x){
148 if(! fhitdata.fPDG) SetPDG( x );}
149 void SetPOS (Int_t pos) { fhitdata.fPOS = pos; }
150 void SetPDG (Int_t pdg) { fhitdata.fPDG = pdg; }
151 void AddPATH (Double_t ln) { fhitdata.fPATH += ln; }
152 void AddEREL (Double_t de) { fhitdata.fEREL += de; }
153 void SetXIN (Double_t xin) { fhitdata.fXIN = xin; }
154 void SetYIN (Double_t yin) { fhitdata.fYIN = yin; }
155 void SetZIN (Double_t zin) { fhitdata.fZIN = zin; }
156 void SetTOF (Double_t tofin) { fhitdata.fTOF = tofin; }
157 void SetPIN (Double_t pxin) { fhitdata.fPIN = pxin; }
158 void SetXOUT (Double_t xout) { fhitdata.fXOUT = xout; }
159 void SetYOUT (Double_t yout) { fhitdata.fYOUT = yout; }
160 void SetZOUT (Double_t zout) { fhitdata.fZOUT = zout; }
161 void SetPRIM (Bool_t prim) { fhitdata.fPRIM = prim; }
162 void Reset();
163
164 // Get methods
165
166 const pHitData *GetHit() {return &fhitdata;}
167 Int_t GetPOS() { return fhitdata.fPOS; };
168 Int_t GetPDG() { return fhitdata.fPDG; };
169 Double_t GetPATH() { return fhitdata.fPATH; };
170 Double_t GetEREL() { return fhitdata.fEREL; };
171 Double_t GetXIN() { return fhitdata.fXIN; };
172 Double_t GetYIN() { return fhitdata.fYIN; };
173 Double_t GetZIN() { return fhitdata.fZIN; };
174 Double_t GetTOF() { return fhitdata.fTOF; };
175 Double_t GetPIN() { return fhitdata.fPIN; };
176 Double_t GetXOUT() { return fhitdata.fXOUT; };
177 Double_t GetYOUT() { return fhitdata.fYOUT; };
178 Double_t GetZOUT() { return fhitdata.fZOUT; };
179 Bool_t GetPRIM() { return fhitdata.fPRIM; };
180
181 protected:
182
183 pHitData fhitdata;
184 Int_t fnocall;
185 void AddTOF (Double_t tofin) {
186 if (tofin!=0.) SetTOF((GetTOF()==0.) ? tofin: (GetTOF()+tofin)/2.);
187 }
188
189 ClassDef(PamVMCDetectorHit,1) //PamVMCDetectorHit
190 };
191
192 //PamVMCDetectorHit & operator+=(PamVMCDetectorHit & a, const PamVMCDetectorHit & p );
193
194 #endif //PAMVMC_DETECTOR_HIT_H

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