#define ALIESDCALOCLUSTER_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
* See cxx source for full Copyright notice */
-
/* $Id$ */
/* $Log $ */
#include <TObject.h>
#include "AliPID.h"
#include "TArrayS.h"
+#include "TArrayI.h"
class TLorentzVector;
void SetID(Int_t id) {fID = id;}
Int_t GetID() const {return fID;}
- enum ClusterType {kPseudoCluster, kClusterv1};//Two types of clusters stored
- //in EMCAL.
+ //similar to AliAODCluster but offset by one for
+ // backward comp. -1 was undefined, which only applied
+ // for PHOS clusters before
+ enum ESDClu_t {kUndef = -2,
+ kPHOSCluster,
+ kEMCALPseudoCluster,
+ kEMCALClusterv1};
void SetClusterType(Int_t type) { fClusterType = type; }
- Int_t GetClusterType() const {return fClusterType; }
-
- void SetEMCAL(Bool_t emc) { fEMCALCluster = emc;}
- Bool_t IsEMCAL() const {return fEMCALCluster;}
+ Char_t GetClusterType() const {return fClusterType; }
- void SetPHOS(Bool_t phos) { fPHOSCluster = phos;}
- Bool_t IsPHOS() const {return fPHOSCluster;}
+ Bool_t IsEMCAL() const {return (fClusterType == kEMCALClusterv1||fClusterType == kEMCALPseudoCluster);}
+ Bool_t IsEMCALPseudo() {return (fClusterType == kEMCALPseudoCluster);}
+ Bool_t IsPHOS() const {return (fClusterType == kPHOSCluster);}
void SetPosition(const Float_t *pos) {
fGlobalPos[0] = pos[0]; fGlobalPos[1] = pos[1]; fGlobalPos[2] = pos[2];
}
void SetE(Float_t ene) { fEnergy = ene;}
- Float_t E() const { return fEnergy;}
+ Double_t E() const { return fEnergy;}
void SetClusterDisp(Float_t disp) { fDispersion = disp; }
- Float_t GetClusterDisp() const { return fDispersion; }
+ Double_t GetClusterDisp() const { return fDispersion; }
void SetClusterChi2(Float_t chi2) { fChi2 = chi2; }
- Float_t GetClusterChi2() const { return fChi2; }
+ Double_t GetClusterChi2() const { return fChi2; }
void SetPid(const Float_t *p);
- Float_t *GetPid() {return fPID;}
+ Double_t *GetPid() {return fPID;}
void SetM20(Float_t m20) { fM20 = m20; }
- Float_t GetM20() const { return fM20; }
+ Double_t GetM20() const { return fM20; }
void SetM02(Float_t m02) { fM02 = m02; }
- Float_t GetM02() const { return fM02; }
+ Double_t GetM02() const { return fM02; }
void SetM11(Float_t m11) { fM11 = m11; }
- Float_t GetM11() const { return fM11; }
+ Double_t GetM11() const { return fM11; }
- void SetNExMax(UShort_t nExMax) { fNExMax = nExMax; }
- UShort_t GetNExMax() const { return fNExMax; }
+ void SetNExMax(UChar_t nExMax) { fNExMax = nExMax; }
+ UChar_t GetNExMax() const { return fNExMax; }
void SetEmcCpvDistance(Float_t dEmcCpv) { fEmcCpvDistance = dEmcCpv; }
- Float_t GetEmcCpvDistance() const { return fEmcCpvDistance; }
+ Double_t GetEmcCpvDistance() const { return fEmcCpvDistance; }
void SetDistanceToBadChannel(Float_t dist) {fDistToBadChannel=dist;}
- Float_t GetDistanceToBadChannel() const {return fDistToBadChannel;}
+ Double_t GetDistanceToBadChannel() const {return fDistToBadChannel;}
- void AddTracksMatched(TArrayS & array) { fTracksMatched = new TArrayS(array) ; }
- void AddLabels(TArrayS & array) { fLabels = new TArrayS(array) ; }
+ void AddTracksMatched(TArrayI & array) { fTracksMatched = new TArrayI(array) ; }
+ void AddLabels(TArrayI & array) { fLabels = new TArrayI(array) ; }
void AddDigitAmplitude(TArrayS & array) { fDigitAmplitude = new TArrayS(array) ; }
void AddDigitTime(TArrayS & array) { fDigitTime = new TArrayS(array) ; }
void AddDigitIndex(TArrayS & array) { fDigitIndex = new TArrayS(array) ; }
- TArrayS * GetTracksMatched() const {return fTracksMatched;}
- TArrayS * GetLabels() const {return fLabels;}
+ TArrayI * GetTracksMatched() const {return fTracksMatched;}
+ TArrayI * GetLabels() const {return fLabels;}
TArrayS * GetDigitAmplitude() const {return fDigitAmplitude;}
TArrayS * GetDigitTime() const {return fDigitTime;}
TArrayS * GetDigitIndex() const {return fDigitIndex;}
protected:
- Int_t fID; // Unique Id of the cluster
- Int_t fClusterType; // Flag for different clustering versions
- Bool_t fEMCALCluster; // Is this is an EMCAL cluster?
- Bool_t fPHOSCluster; // Is this is a PHOS cluster?
- Float_t fGlobalPos[3]; // position in global coordinate system
- Float_t fEnergy; // energy measured by calorimeter
- Float_t fDispersion; // cluster dispersion, for shape analysis
- Float_t fChi2; // chi2 of cluster fit
- Float_t fPID[AliPID::kSPECIESN]; //"detector response probabilities" (for the PID)
- Float_t fM20; // 2-nd moment along the main eigen axis
- Float_t fM02; // 2-nd moment along the second eigen axis
- Float_t fM11; // 2-nd mixed moment Mxy
- UShort_t fNExMax ; // number of (Ex-)maxima before unfolding
- Float_t fEmcCpvDistance; // the distance from PHOS EMC rec.point to the closest CPV rec.point
- Float_t fDistToBadChannel; // Distance to nearest bad channel
-
- TArrayS * fTracksMatched; //Index of tracks close to cluster. First entry is the most likely match.
- TArrayS * fLabels; //list of primaries that generated the cluster, ordered in deposited energy.
+ TArrayI * fTracksMatched; //Index of tracks close to cluster. First entry is the most likely match.
+ TArrayI * fLabels; //list of primaries that generated the cluster, ordered in deposited energy.
TArrayS * fDigitAmplitude; //digit energy (integer units)
TArrayS * fDigitTime; //time of this digit (integer units)
TArrayS * fDigitIndex; //calorimeter digit index
- ClassDef(AliESDCaloCluster,4) //ESDCaloCluster
+
+ Double32_t fGlobalPos[3]; // position in global coordinate systemD
+ Double32_t fEnergy; // energy measured by calorimeter
+ Double32_t fDispersion; // cluster dispersion, for shape analysis
+ Double32_t fChi2; // chi2 of cluster fi
+ Double32_t fM20; // 2-nd moment along the main eigen axis
+ Double32_t fM02; // 2-nd moment along the second eigen axis
+ Double32_t fM11; // 2-nd mixed moment Mxy
+ Double32_t fEmcCpvDistance; // the distance from PHOS EMC rec.point to the closest CPV rec.point
+ Double32_t fDistToBadChannel; // Distance to nearest bad channel
+ Double32_t fPID[AliPID::kSPECIESN]; //[0,1,8]"detector response probabilities" (for the PID)
+ Int_t fID; // Unique Id of the cluster
+ UChar_t fNExMax ; // number of (Ex-)maxima before unfolding
+ Char_t fClusterType; // Flag for different cluster type/versions
+
+ ClassDef(AliESDCaloCluster,6) //ESDCaloCluster
};
#endif