source: trunk/MagicSoft/Mars/mpedestal/MExtractPedestal.h@ 6968

Last change on this file since 6968 was 6913, checked in by tbretz, 20 years ago
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1#ifndef MARS_MExtractPedestal
2#define MARS_MExtractPedestal
3
4#ifndef MARS_MTask
5#include "MTask.h"
6#endif
7
8#ifndef MARS_MArrayD
9#include <MArrayD.h>
10#endif
11
12#ifndef MARS_MArrayI
13#include <MArrayI.h>
14#endif
15
16class MGeomCam;
17class MPedestalCam;
18class MRawEvtData;
19class MRawRunHeader;
20class MRawEvtHeader;
21class MExtractTimeAndCharge;
22
23class MExtractPedestal : public MTask
24{
25private:
26 static const TString fgNamePedestalCam; //! "MPedestalCam"
27 static const UInt_t fgNumDump; //!
28
29 TString fNamePedestalCamIn; // Name of the incoming 'MPedestalCam' container
30 TString fNamePedestalCamOut; // Name of the outgoing 'MPedestalCam' container
31 TString fNamePedestalCamInter; // Name of the intermediate 'MPedestalCam' container
32
33 Bool_t fRandomCalculation; // Is pedestalextraction by extractor random?
34
35protected:
36
37 Bool_t fIntermediateStorage; // Is pedestal stored every event?
38
39 MGeomCam *fGeom; //! Camera geometry
40 MPedestalCam *fPedestalsIn; //! Pedestals of all pixels in the camera (incoming)
41 MPedestalCam *fPedestalsInter; //! Pedestals of all pixels in the camera (intermediate)
42 MPedestalCam *fPedestalsOut; //! Pedestals of all pixels in the camera (outgoing)
43 MRawEvtData *fRawEvt; //! Raw event data (time slices)
44 MRawRunHeader *fRunHeader; //! RunHeader information
45 MRawEvtHeader *fEvtHeader; //! EvtHeader information
46 MExtractTimeAndCharge *fExtractor; // Possible Extractor
47
48 UShort_t fExtractWinFirst; // First FADC slice to extract pedestal from
49 UShort_t fExtractWinSize; // Number of slices to calculate the pedestal from
50 UShort_t fExtractWinLast; // Last FADC slice to extract pedestal from
51
52 UInt_t fNumEventsDump; // Number of event after which MPedestalCam gets updated
53 UInt_t fNumAreasDump; // Number of events after which averaged areas gets updated
54 UInt_t fNumSectorsDump; // Number of events after which averaged sectors gets updated
55
56 Bool_t fPedestalUpdate; // Flag if the pedestal shall be updated after every fNumEventsDump
57
58 MArrayD fSumx; // sum of values
59 MArrayD fSumx2; // sum of squared values
60 MArrayD fSumAB0; // sum of ABFlag=0 slices
61 MArrayD fSumAB1; // sum of ABFlag=1 slices
62 MArrayD fAreaSumx; // averaged sum of values per area idx
63 MArrayD fAreaSumx2; // averaged sum of squared values per area idx
64 MArrayD fAreaSumAB0; // averaged sum of ABFlag=0 slices per area idx
65 MArrayD fAreaSumAB1; // averaged sum of ABFlag=1 slices per area idx
66 MArrayI fAreaFilled; // number of valid entries with area idx
67 MArrayI fAreaValid; // number of valid pixels within area idx
68 MArrayD fSectorSumx; // averaged sum of values per sector
69 MArrayD fSectorSumx2; // averaged sum of squared values per sector
70 MArrayD fSectorSumAB0; // averaged sum of ABFlag=0 slices per sector
71 MArrayD fSectorSumAB1; // averaged sum of ABFlag=1 slices per sector
72 MArrayI fSectorFilled; // number of valid entries with sector idx
73 MArrayI fSectorValid; // number of valid pixels within sector idx
74
75 // MTask virtual functions
76 Int_t PreProcess(MParList *pList);
77 Int_t Process();
78 Int_t PostProcess();
79 Bool_t ReInit(MParList *pList);
80 Int_t ReadEnv(const TEnv &env, TString prefix, Bool_t print);
81
82 // Interface to be overwritten by a new class
83 virtual void ResetArrays();
84 virtual Int_t Calc() = 0;
85
86 // Helper functions
87 void CalcPixResults (const UInt_t nevts, const UInt_t pixid);
88 void CalcAreaResults (const UInt_t nevts, const UInt_t napix, const UInt_t aidx);
89 void CalcSectorResults(const UInt_t nevts, const UInt_t nspix, const UInt_t sector);
90
91public:
92 MExtractPedestal(const char *name=NULL, const char *title=NULL);
93
94 void Clear(const Option_t *o="");
95 void Print(const Option_t *o="") const;
96
97 Bool_t SetExtractWindow(UShort_t first, UShort_t size);
98
99 void SetNumEventsDump (UInt_t dumpevents=fgNumDump) { fNumEventsDump = dumpevents; }
100 void SetNumAreasDump (UInt_t dumpevents=fgNumDump) { fNumAreasDump = dumpevents; }
101 void SetNumSectorsDump(UInt_t dumpevents=fgNumDump) { fNumSectorsDump = dumpevents; }
102 void SetNumDump (UInt_t n=fgNumDump) { fNumEventsDump=n; fNumAreasDump=n; fNumSectorsDump=n; }
103
104 // names
105 void SetNamePedestalCamIn (const char *name=fgNamePedestalCam.Data()) { fNamePedestalCamIn = name; }
106 void SetNamePedestalCamInter(const char *name=fgNamePedestalCam.Data()) { fNamePedestalCamInter = name; }
107 void SetNamePedestalCamOut (const char *name=fgNamePedestalCam.Data()) { fNamePedestalCamOut = name; }
108
109 // pointers
110 void SetExtractor ( MExtractTimeAndCharge *e) { fExtractor = e; }
111 void SetPedestalsIn ( MPedestalCam *pedcam ) { fPedestalsIn = pedcam; }
112 void SetPedestalsInter( MPedestalCam *pedcam ) { fPedestalsInter = pedcam; }
113 void SetPedestalsOut ( MPedestalCam *pedcam ) { fPedestalsOut = pedcam; }
114
115 // flags
116 void SetIntermediateStorage (Bool_t b=kTRUE) { fIntermediateStorage = b; }
117 void SetPedestalUpdate (Bool_t b=kTRUE) { fPedestalUpdate = b; }
118 void SetRandomCalculation (Bool_t b=kTRUE) { fRandomCalculation = b; }
119
120 ClassDef(MExtractPedestal, 0) // Base class for pedestal extractors
121};
122
123#endif
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