1 #ifndef AliAODCaloCluster_H
2 #define AliAODCaloCluster_H
3 /* Copyright(c) 1998-2007, ALICE Experiment at CERN, All rights reserved. *
4 * See cxx source for full Copyright notice */
8 //-------------------------------------------------------------------------
9 // AOD calorimeter cluster class (for PHOS and EMCAL)
10 // Author: Markus Oldenburg, CERN,
11 // Gustavo Conesa, INFN
12 //-------------------------------------------------------------------------
14 #include "AliAODCluster.h"
16 #include <TRefArray.h>
19 class AliAODCaloCluster : public AliAODCluster {
24 AliAODCaloCluster(Int_t id,
33 AliAODCaloCluster(Int_t id,
42 virtual ~AliAODCaloCluster();
43 AliAODCaloCluster(const AliAODCaloCluster& clus);
44 AliAODCaloCluster& operator=(const AliAODCaloCluster& clus);
48 Double_t GetDistToBadChannel() const { return fDistToBadChannel; }
49 Double_t GetDispersion() const { return fDispersion; }
50 Double_t GetM20() const { return fM20; }
51 Double_t GetM01() const { return fM01; }
52 Double_t GetM02() const { return fM02; }
53 Double_t GetM11() const { return fM11; }
54 Double_t GetEmcCpvDistance() const { return fEmcCpvDistance; }
55 UShort_t GetNExMax() const { return fNExMax; }
57 Int_t GetNTracksMatched() const { return fTracksMatched.GetEntriesFast(); }
58 TObject *GetTrackMatched(Int_t i) const { return fTracksMatched.At(i); }
60 void SetNCells(Int_t n) { fNCells = n;}
61 Double_t GetNCells() const { return fNCells;}
63 void SetCellsAbsId(UShort_t *array) { fCellsAbsId = array; }
64 UShort_t *GetCellsAbsId() {return fCellsAbsId;}
66 void SetCellsAmplitudeFraction(Double32_t *array) { fCellsAmpFraction = array; }
67 Double32_t *GetCellsAmplitudeFraction() {return fCellsAmpFraction;}
69 Int_t GetCellAbsId(Int_t i) const {
70 if (fCellsAbsId && i >=0 && i < fNCells ) return fCellsAbsId[i];
73 Double_t GetCellAmplitudeFraction(Int_t i) const {
74 if (fCellsAmpFraction && i >=0 && i < fNCells ) return fCellsAmpFraction[i];
78 void SetDistToBadChannel(Double_t dist) { fDistToBadChannel = dist; }
79 void SetDispersion(Double_t disp) { fDispersion = disp; }
80 void SetM20(Double_t m20) { fM20 = m20; }
81 void SetM01(Double_t m01) { fM01 = m01; }
82 void SetM02(Double_t m02) { fM02 = m02; }
83 void SetM11(Double_t m11) { fM11 = m11; }
84 void SetEmcCpvDistance(Double_t emcCpvDist) { fEmcCpvDistance = emcCpvDist; }
85 void SetNExMax(UShort_t nExMax) { fNExMax = nExMax; }
87 void SetCaloCluster(Double_t dist = -999.,
93 Double_t emcCpvDist = -999.,
96 fDistToBadChannel = dist;
102 fEmcCpvDistance = emcCpvDist;
106 void AddTrackMatched(TObject *trk) { fTracksMatched.Add(trk); }
107 void RemoveTrackMatched(TObject *trk) { fTracksMatched.Remove(trk); }
108 Bool_t HasTrackMatched(TObject *trk) const;
112 Double32_t fDistToBadChannel; // Distance to nearest bad channel
113 Double32_t fDispersion; // cluster dispersion, for shape analysis
114 Double32_t fM20; // 2-nd moment along the main eigen axis
116 Double32_t fM02; // 2-nd moment along the second eigen axis
117 Double32_t fM11; // 2-nd mixed moment Mxy
118 Double32_t fEmcCpvDistance; // the distance from PHOS EMC rec.point to the closest CPV rec.point
119 UShort_t fNExMax; // number of (Ex-)maxima before unfolding
121 TRefArray fTracksMatched; // references to tracks close to cluster. First entry is the most likely match.
124 UShort_t *fCellsAbsId; //[fNCells] array of cell absId numbers
125 Double32_t *fCellsAmpFraction; //[fNCells][0.,1.,16] array with cell amplitudes fraction.
127 ClassDef(AliAODCaloCluster,2);