removed separate histograms for Calib and physics data
[u/mrichter/AliRoot.git] / T0 / AliT0RecPoint.h
CommitLineData
dc7ca31d 1#ifndef ALIT0RECPOINT_H
2#define ALIT0RECPOINT_H
3/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
5
6/* $Id$ */
7#include <TObject.h>
8
9
10//___________________________________________
11class AliT0RecPoint: public TObject {
12////////////////////////////////////////////////////////////////////////
13 public:
14 AliT0RecPoint();
4fe1424e 15 AliT0RecPoint(const AliT0RecPoint &o);
16 AliT0RecPoint& operator= (const AliT0RecPoint &) { return *this;}
dc7ca31d 17 virtual ~AliT0RecPoint() {}
4fe1424e 18
adf36b9d 19 Double32_t GetMeanTime() const {return fTimeAverage;}
20 Int_t GetOnlineMean() const {return fTimeOnlineMean;}
21 Double32_t GetBestTimeA() const {return fTimeBestA ;}
22 Double32_t GetBestTimeC() const {return fTimeBestC ;}
23 Float_t GetMultC() const {return fMultC;}
24 Float_t GetMultA() const {return fMultA;}
25 Double32_t GetVertex() const {return fVertexPosition;}
dc7ca31d 26
27
adf36b9d 28 void SetMeanTime(Double32_t time) {fTimeAverage=time;}
446d6ec4 29 void SetOnlineMean(Int_t time) {fTimeOnlineMean=time;}
adf36b9d 30 void SetTimeBestA( Double32_t time) {fTimeBestA = time;}
31 void SetTimeBestC( Double32_t time) {fTimeBestC = time;}
32 void SetVertex( Double32_t vertex) {fVertexPosition= vertex;}
33 void SetMultC(Float_t mult) {fMultC = mult;}
34 void SetMultA(Float_t mult) {fMultA = mult;}
35
36 void SetTime (Int_t ipmt, Double32_t time) { fTime[ipmt] = time;}
37 Double32_t GetTime (Int_t ipmt)const { return fTime[ipmt];}
38 void SetAmp (Int_t ipmt, Double32_t adc) { fADC[ipmt] = adc;}
39 Double32_t GetAmp (Int_t ipmt) const{ return fADC[ipmt];}
40 void SetAmpLED (Int_t ipmt, Double32_t adc) { fADCLED[ipmt] = adc;}
41 Double32_t AmpLED (Int_t ipmt) const{ return fADCLED[ipmt];}
776de217 42
adf36b9d 43 void SetT0clock (Double32_t time) { fT0clock = time;}
44 Double32_t GetT0clock () const{ return fT0clock;}
dc7ca31d 45
b0e13b29 46 Bool_t GetT0Trig(Int_t i) {return (fT0trig&(1<<i)) != 0;}
adf36b9d 47 Int_t GetT0Trig() {return fT0trig;}
48 void SetT0Trig(Bool_t *tr );
49 void PrintTriggerSignals(Int_t trig);
b0e13b29 50
51 Float_t GetTimeFull(Int_t ch, Int_t hit) {return fTimeFull[ch][hit];}
52 Float_t GetOrA(Int_t hit) {return fOrA[hit];}
53 Float_t GetOrC(Int_t hit) {return fOrC[hit];}
54 Float_t GetTVDC(Int_t hit) {return fTVDC[hit];}
55
56 void SetTimeFull(Int_t ch, Int_t hit, Float_t time) {fTimeFull[ch][hit] = time;}
57 void SetOrA (Int_t hit, Float_t time) { fOrA[hit] = time ;}
58 void SetOrC (Int_t hit, Float_t time) { fOrC[hit] = time;}
59 void SetTVDC(Int_t hit, Float_t time) { fTVDC[hit] = time;}
60
dc7ca31d 61 private:
adf36b9d 62 Double32_t fTimeAverage; // Average time
63 Int_t fTimeOnlineMean; // online mean signal
64 Double32_t fVertexPosition; // Diffrence time between C and A
65 Double32_t fTimeBestA; //TOF first particle on the A
66 Double32_t fTimeBestC; //TOF first particle on the C
67 Float_t fMultC; // multiplicity on the
68 Float_t fMultA; // multiplicity on the
69 Double32_t fT0clock; // T0 with reference point in ns
70 Int_t fT0trig; // T0 trigger signals
dc7ca31d 71
adf36b9d 72 Double32_t fTime[24]; // array's TDC
73 Double32_t fADC[24]; // array's amplitude
74 Double32_t fADCLED[24]; // array's LED amplitude
dc7ca31d 75
b0e13b29 76
77 Float_t fTimeFull[24][5]; // array's TDC no-correction; centred around 0
78 Float_t fOrA[5]; //hardware OrA centred around 0
79 Float_t fOrC[5]; //hardware OrC centred around 0
80 Float_t fTVDC[5]; //hardware TVDC centred around 0
81 Bool_t fPileup;
82 Bool_t fSattelite;
dc7ca31d 83
b0e13b29 84 ClassDef(AliT0RecPoint,7) // RecPoints (Header) object for set:T0
dc7ca31d 85};
86
87typedef AliT0RecPoint AliSTARTRecPoint; // for backward compatibility
88
89#endif
90
91
92