Separating run-dependent mapping data from data, which are not
[u/mrichter/AliRoot.git] / MUON / AliMUONDigit.h
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a9e2aefa 1#ifndef ALIMUONDIGIT_H
2#define ALIMUONDIGIT_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
6/* $Id$ */
30178c30 7// Revision of includes 07/05/2004
a9e2aefa 8
692de412 9/// \ingroup base
10/// \class AliMUONDigit
11/// \brief MUON digit
12
5a91ea86 13#ifndef ALIMUONVDIGIT_H
14# include "AliMUONVDigit.h"
15#endif
a9e2aefa 16
5a91ea86 17class AliMUONDigit : public AliMUONVDigit
5350e3a6 18{
a9e2aefa 19 public:
5a91ea86 20 AliMUONDigit();
21 AliMUONDigit(Int_t detElemId, Int_t manuId, Int_t manuChannel, Int_t cathode);
22
d694b6f6 23 AliMUONDigit(const AliMUONDigit& rhs);
a450cfad 24 virtual ~AliMUONDigit();
61adb9bd 25
d694b6f6 26 AliMUONDigit& operator=(const AliMUONDigit& rhs);
a450cfad 27
a25ae7b5 28 /// Own clone methods (as the default TObject::Clone turned out to be pretty slow !)
4554058b 29 virtual TObject* Clone(const char* /*newname*/ = "") const { return new AliMUONDigit(*this); }
a25ae7b5 30
5a91ea86 31 virtual Bool_t HasMCInformation() const { return kTRUE; }
32
5398f946 33 virtual Int_t DetElemId()const {return fDetElemId;} ///< Return detection element ID
34 virtual Int_t PadX() const {return fPadX;} ///< Return pad number along x
35 virtual Int_t PadY() const {return fPadY;} ///< Return pad number along y
36 virtual Int_t Cathode() const {return fCathode;} ///< Return cathode number
81b31073 37
5a91ea86 38 virtual Float_t Charge() const {return fSignal;} ///< Return signal amplitude
81b31073 39
5398f946 40 virtual Int_t Hit() const {return fHit;} ///< Return MC hit number
5350e3a6 41
5398f946 42 virtual Int_t Ntracks() const { return fNtracks; } ///< Return MC tracks making to this digit
8a92eee6 43 virtual void AddTrack(Int_t trackNumber, Float_t trackCharge);
5350e3a6 44 virtual Int_t Track(Int_t i) const;
8a92eee6 45 virtual Float_t TrackCharge(Int_t i) const;
81b31073 46
5398f946 47 virtual Int_t ADC() const { return fADC; } ///< Return ADC value
48 virtual Int_t ManuId() const { return fManuId; } ///< Return Id of the MANU chip
49 virtual Int_t ManuChannel() const { return fManuChannel; } ///< Return Channel within the MANU chip
81b31073 50 virtual Bool_t IsSaturated() const;
b1d79ad7 51 virtual Bool_t IsNoiseOnly() const;
1d4e6965 52 virtual Bool_t IsEfficiencyApplied() const;
71a2d3aa 53 virtual UInt_t StatusMap() const { return fStatusMap; } ///< Return Neighbouring pad status
81b31073 54
b1d79ad7 55 virtual void NoiseOnly(Bool_t value=kTRUE);
81b31073 56 virtual void Saturated(Bool_t saturated=kTRUE);
1d4e6965 57 virtual void EfficiencyApplied(Bool_t value=kTRUE);
58
71a2d3aa 59 virtual void SetADC(Int_t adc) {fADC=adc; } ///< Set ADC value
5a91ea86 60 virtual void SetPadXY(Int_t padx, Int_t pady) {fPadX = padx; fPadY=pady; } ///< Set pad number along x
61 virtual void SetCharge(Float_t q) {fSignal = q;} ///< Set charge
5398f946 62 virtual void SetHit(Int_t n) {fHit = n;} ///< Set MC hit number
71a2d3aa 63 virtual void SetStatusMap(UInt_t statusMap) { fStatusMap = statusMap; } ///< Set status map
81b31073 64
81b31073 65 virtual void Copy(TObject& digit) const;
66
5350e3a6 67 /** Delete the internal track arrays (which are dynamically allocated).
68 * This is to insure we can put those digits in e.g. TClonesArray
69 * w/o leaking memory.
70 */
71 virtual void Clear(Option_t*);
72
5398f946 73 // Add mask to the track numbers.
5350e3a6 74 virtual void PatchTracks(Int_t mask);
75
5a91ea86 76 virtual Bool_t MergeWith(const AliMUONVDigit& other);
77
78 virtual Bool_t IsUsed() const;
79 virtual void Used(Bool_t value);
80
81 virtual Bool_t IsCalibrated() const;
82 virtual void Calibrated(Bool_t value);
83
84 virtual UInt_t GetUniqueID() const;
85
5350e3a6 86private:
18b6b8c7 87 Int_t fDetElemId; ///< Detection element ID
88 Int_t fManuId; ///< Id of the MANU chip.
89 Int_t fManuChannel; ///< Channel within the MANU chip.
8a92eee6 90 Float_t fSignal; ///< Signal amplitude
5350e3a6 91
18b6b8c7 92 Int_t fPadX; ///< Pad number along x
93 Int_t fPadY; ///< Pad number along y
94 Int_t fCathode; ///< Cathode number
95 Int_t fADC; ///< ADC value
96 UInt_t fFlags; ///< Special flags (e.g. is the signal an overflow ?)
a450cfad 97
18b6b8c7 98 Int_t fNtracks; ///< MC tracks making to this digit.
99
100 /// charges of MC track making this digit
8a92eee6 101 Float_t* fTcharges; //[fNtracks] charges of MC track making this digit
18b6b8c7 102
103 /// primary MC tracks making this digit
104 Int_t* fTracks; //[fNtracks] primary MC tracks making this digit
105
18b6b8c7 106 Int_t fHit; ///< MC hit number - temporary solution
5350e3a6 107
aaf7adc0 108 UInt_t fStatusMap; ///< Neighbouring pad status (whether ped, gains, hv were ok or not)
109
18b6b8c7 110 static const UInt_t fgkSaturatedMask = 0x1; ///< the mask (part of fFlags) to indicate this digit is saturated
5a91ea86 111 static const UInt_t fgkUsedMask = 0x10; ///< whether this digit is used by whatever other object (typically a cluster, though)
112 static const UInt_t fgkCalibratedMask = 0x100; ///< whether this digits has been calibrated
18b6b8c7 113 static const UInt_t fgkNoiseOnlyMask = 0x1000; ///< indicate a simulated digit due to noise only
1d4e6965 114 static const UInt_t fgkEfficiencyMask = 0x2000; ///< indicate chamber efficiency has been applied to a simulated digit
b1d79ad7 115
5a91ea86 116 ClassDef(AliMUONDigit,9) //Digits for MUON
a9e2aefa 117};
5a91ea86 118
a9e2aefa 119#endif