/[PAMELA software]/DarthVader/CalorimeterLevel2/inc/CaloLevel2.h
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Contents of /DarthVader/CalorimeterLevel2/inc/CaloLevel2.h

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Revision 1.20 - (show annotations) (download)
Thu Dec 4 13:50:40 2008 UTC (16 years ago) by mocchiut
Branch: MAIN
CVS Tags: v6r01, v6r00
Changes since 1.19: +1 -0 lines
File MIME type: text/plain
New method CaloLevel2::IsGood(Bool_t strict) and new error-code treatment

1 /**
2 * \file inc/CaloLevel2.h
3 * \author Emiliano Mocchiutti
4 */
5 #ifndef CaloLevel2_h
6 #define CaloLevel2_h
7 //
8 #include <TObject.h>
9 #include <TClonesArray.h>
10 #include <TArrayI.h>
11 //
12 #include <math.h>
13 //
14 #include <CaloStruct.h>
15 //
16
17 /**
18 * \brief Calorimeter track-related variables class
19 *
20 * This class contains track-related variables. One set of variables is saved for any given
21 * track, including seltrigger event tracks.
22 *
23 */
24 class CaloTrkVar : public TObject {
25
26 private:
27
28 public:
29 //
30 Int_t trkseqno; ///< this variable determine which track and which routine was used to obtain track related variables: if >= 0 standard routine/tracker track, -1 selftrigger event routine/calorimeter track, -2 high Z nuclei routine/calorimeter track, -3 standard routine/calorimeter track
31 //
32 // track related variables
33 //
34 Int_t ncore; ///< SUM(j=1,2)SUM(i=1,PLmax) Nhit(i,j)*i , where Nhit(i,j) is the number of hits in a cylinder of radius 2 Rm (Moliere radius) around the track in the i-th plane (where the top plane is number 1 and the sum runs up to plane number PLmax, closest to the calculated electromagnetic shower maximum of the j-th view)
35 Int_t noint; ///< SUM(j=1,2)SUM(i=1,22) TH(i,j)*i , where TH(i,j) = 1 if the i-th plane of the j-th view has a cluster along (less than 4 mm away) the track with a deposited energy typical of a proton (order of one MIP), otherwise TH(i,j) = 0
36 Int_t ncyl; ///< the number of strip hit in a cylinder of radius 8 strips around the shower axis
37 Int_t nlast; ///< the same as "ncyl" but only for the last four planes and radius 4 strips.
38 Int_t npre; ///< the same as "ncyl" but only for the first three planes
39 Int_t npresh; ///< the same as "ncyl" but with radius 2 strips and only in the first four planes
40 Int_t ntr; ///< the same as "ncyl" but with radius 4 strips
41 Int_t planetot; ///< number of planes used to calculate the energy truncated mean "qmean"
42 Int_t nlow; ///< the same as "nstrip" but only after the calculated electromagnetic shower maximum
43 Int_t tibar[22][2]; ///< strip traversed by the trajectory as measured by the tracker or by the selftrigger when trkseqno = -1
44 Float_t tbar[22][2]; ///< position in cm as measured by the tracker or by the selftrigger when trkseqno = -1
45 Float_t qcore; ///< SUM(j=1,2)SUM(i=1,PLmax) Qhit(i,j)*i , where Qhit(i,j) is the energy released (MIP) in a cylinder of radius 2 Rm (Moliere radius) around the track in the i-th plane (where the top plane is number 1 and the sum runs up to plane number PLmax, closest to the calculated electromagnetic shower maximum of the j-th view).
46 Float_t qcyl; ///< the measured energy deposited in a cylinder of radius 8 strips around the shower axis
47 Float_t qlast; ///< the same as "qcyl" but only for the last four planes and radius 4 strips.
48 Float_t qpre; ///< the same as "qcyl" but only for the first three planes
49 Float_t qpresh; ///< the same as "qcyl" but with radius 2 strips and only in the first four planes
50 Float_t qtr; ///< the same as "qcyl" but with radius 4 strips
51 Float_t qtrack; ///< the energy deposited in the strip closest to the track and the neighbouring strip on each side
52 Float_t qtrackx; ///< measured energy in clusters along the track in the x-view
53 Float_t qtracky; ///< measured energy in clusters along the track in the y-view
54 Float_t dxtrack; ///< measured energy outside the clusters along the track in the x-view
55 Float_t dytrack; ///< measured energy outside the clusters along the track in the y-view
56 Float_t qmean; ///< the energy truncated mean that is the average energy deposit for the five planes with the smaller energy deposit of the whole calorimeter
57 Float_t qlow; ///< the same as "qtot" but only after the calculated electromagnetic shower maximum
58 Float_t dX0l; ///< tranversed X0 lenght
59 //
60 CaloTrkVar(); ///< Constructor.
61 /**
62 * \param trkvar Object of the class CaloTrkVar
63 */
64 CaloTrkVar(const CaloTrkVar &trkvar); ///< copy values from trkvar to this
65 //
66 void Clear(Option_t *t=""); ///< clear variables
67 CaloTrkVar* GetCaloTrkVar(){return this;}; ///< returns pointer to this object
68 //
69 ClassDef(CaloTrkVar,2);
70 //
71 };
72
73 /**
74 * \brief Calorimeter level2 class
75 *
76 * This class contains level2 calorimeter variables
77 *
78 **/
79 class CaloLevel2 : public TObject {
80 private:
81 TClonesArray *CaloTrk; ///< track related variables
82
83 public:
84 //
85 // general variables
86 //
87 Int_t good; ///< no errors (perr, swerr and crc are checked)
88 Int_t perr[4]; ///< processing errors (one for each calorimeter section)
89 Int_t swerr[4];///< DSP status word
90 Int_t crc[4]; ///< CRC errors on data
91 Int_t selftrigger;///< self-trigger flag (1 selftrigger event, 0 normal event)
92 //
93 // common variables (not related to tracks)
94 //
95 Int_t nstrip; ///< total number of strip hit
96 Int_t nsatstrip; ///< total number of strip hit with saturated signal
97 Int_t nx22; ///< number of strip hit in the last silicon plane of the calorimeter (x view number 22)
98 Int_t planemax[2]; ///< plane of maximum energy release (x and y)
99 Int_t selfdelay[4][7]; ///< Delay of the selftrigger planes + coincidence for every section
100 Float_t qtot; ///< total energy detected (MIP)
101 Float_t qx22; ///< energy detected in the last silicon plane of the calorimeter (x view number 22)
102 Float_t qmax; ///< the maximum energy detected in a strip
103 Float_t qq[4]; ///< the energy released in the first half of each of the four calorimeter sections
104 //
105 // Fit variables
106 //
107 Int_t npcfit[4]; ///< number of point used to perform the fit for the two views (0,1 calo fit, 2,3 selftrigger fit if any)
108 Float_t varcfit[4]; ///< variance of the calorimeter fit for the two views (0,1 calo fit, 2,3 selftrigger fit if any)
109 Float_t tanx[2]; ///< the tangent of the angle in the x direction as determined by the track fitted in the calorimeter (0 calo fit, 1 selftrigger fit)
110 Float_t tany[2]; ///< the tangent of the angle in the x direction as determined by the track fitted in the calorimeter (0 calo fit, 1 selftrigger fit)
111 Int_t fitmode[2]; ///< for x and y is 0 if the fit was performed with the "electron" algorithm, is 1 if the fit was performed with the "nuclei" algorithm
112 Int_t cibar[22][2]; ///< strip traversed by the trajectory as measured by the calorimeter (calo fit)
113 Float_t cbar[22][2]; ///< position in cm as measured by the calorimeter (calo fit)
114 //
115 // Energy variables
116 //
117 Float_t elen; ///< energy in GeV assuming an electron interaction (from simulations).
118 Float_t selen; ///< sigma of the energy
119 //
120 // track related variables: inline methods
121 //
122 Int_t ntrk(){return CaloTrk->GetEntries();}; ///< number of saved blocks of track-related variables
123 //
124 // METHODS
125 //
126 Float_t impx(Int_t tr); ///< the x impact position on the first plane as determined by the track fitted in the calorimeter ( tr = 0 calo fit, tr = 1 selftrigger fit)
127 Float_t impy(Int_t tr); ///< the y impact position on the first plane as determined by the track fitted in the calorimeter ( tr = 0 calo fit, tr = 1 selftrigger fit)
128
129 //
130 void GetElectronEnergy(Float_t &energy, Float_t &sigma); ///< returns energy and sigma using qtot and assuming the particle being an electron
131 //
132 CaloTrkVar *GetCaloTrkVar(Int_t notrack); ///< returns a pointer to the CaloTrkVar class containing track related variables for track number notrack
133 CaloTrkVar* GetCaloStoredTrack(Int_t seqno); ///< returns pointer to the track set related to the seqno number
134 //
135 TClonesArray *GetTrackArray(){return CaloTrk;}; ///< returns a pointer to the track related variables array
136 CaloLevel2* GetCaloLevel2(){return this;}; ///< returns pointer to this object
137 //
138 void GetLevel2Struct(cCaloLevel2 *l2) const;
139 //
140 void Clear(Option_t *t="");
141 void Delete(Option_t *t=""); //ELENA
142 void Set(); //ELENA
143 Bool_t IsGood(Bool_t strict = false); // method to check if the event is good or not
144 //
145 // constructor
146 //
147 CaloLevel2(); ///< Constructor.
148 ~CaloLevel2(){Delete();}; //ELENA
149 //
150 friend class CaloLevel0;
151 //
152 ClassDef(CaloLevel2,5);
153 };
154
155 #endif

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