class AliEventTag;
-class AliEventTagCuts : public TObject
-{
+//___________________________________________________________________________
+class AliEventTagCuts : public TObject {
public:
AliEventTagCuts();
-
~AliEventTagCuts();
-
void Reset();
- void SetParticipantsRange(Int_t i1, Int_t i2);
- void SetImpactParamRange(Float_t r1, Float_t r2);
-
- void SetPrimaryVertexXRange(Float_t r1, Float_t r2);
- void SetPrimaryVertexYRange(Float_t r1, Float_t r2);
- void SetPrimaryVertexZRange(Float_t r1, Float_t r2);
-
- void SetPrimaryVertexFlag(Int_t i);
-
- void SetZDCNeutr1Range(Float_t r1, Float_t r2);
- void SetZDCProt1Range(Float_t r1, Float_t r2);
- void SetZDCEMRange(Float_t r1, Float_t r2);
- void SetZDCNeutr2Range(Float_t r1, Float_t r2);
- void SetZDCProt2Range(Float_t r1, Float_t r2);
- void SetT0VertexZRange(Float_t r1, Float_t r2);
-
- void SetMultiplicityRange(Int_t n1, Int_t n2);
- void SetPosMultiplicityRange(Int_t n1, Int_t n2);
- void SetNegMultiplicityRange(Int_t n1, Int_t n2);
- void SetNeutrMultiplicityRange(Int_t n1, Int_t n2);
- void SetV0sRange(Int_t n1, Int_t n2);
- void SetCascadesRange(Int_t n1, Int_t n2);
- void SetKinksRange(Int_t n1, Int_t n2);
-
- void SetMaxJetEnergy(Float_t r1);
- void SetMaxNeutralEnergy(Float_t r1);
- void SetHardPhotonsRange(Int_t i1, Int_t i2);
-
- void SetNChargedAbove1GeVRange(Int_t i1, Int_t i2);
- void SetNChargedAbove3GeVRange(Int_t i1, Int_t i2);
- void SetNChargedAbove10GeVRange(Int_t i1, Int_t i2);
- void SetNMuonsAbove1GeVRange(Int_t i1, Int_t i2);
- void SetNMuonsAbove3GeVRange(Int_t i1, Int_t i2);
- void SetNMuonsAbove10GeVRange(Int_t i1, Int_t i2);
- void SetNElectronsAbove1GeVRange(Int_t i1, Int_t i2);
- void SetNElectronsAbove3GeVRange(Int_t i1, Int_t i2);
- void SetNElectronsAbove10GeVRange(Int_t i1, Int_t i2);
-
- void SetNElectronRange(Int_t n1, Int_t n2);
- void SetNMuonRange(Int_t n1, Int_t n2);
- void SetNPionRange(Int_t n1, Int_t n2);
- void SetNKaonRange(Int_t n1, Int_t n2);
- void SetNProtonRange(Int_t n1, Int_t n2);
- void SetNLambdaRange(Int_t n1, Int_t n2);
- void SetNPhotonRange(Int_t n1, Int_t n2);
- void SetNPi0Range(Int_t n1, Int_t n2);
- void SetNNeutronRange(Int_t n1, Int_t n2);
- void SetNKaon0Range(Int_t n1, Int_t n2);
+ //____________________________________________________//
+ void SetPeriodNumberRange(UInt_t n1, UInt_t n2);
+ void SetOrbitNumberRange(UInt_t n1, UInt_t n2);
+ void SetBunchCrossNumberRange(UShort_t n1, UShort_t n2);
+
+ void SetEventType(UInt_t ntype);
+
+ void SetNParticipantsRange(Int_t low, Int_t high);
+ void SetImpactParamRange(Float_t low, Float_t high);
+
+ void SetEtaLeadingParticleRange(Float_t low, Float_t high);
+ void SetPhiLeadingParticleRange(Float_t low, Float_t high);
+ void SetPrimaryVertexXRange(Float_t low, Float_t high);
+ void SetPrimaryVertexYRange(Float_t low, Float_t high);
+ void SetPrimaryVertexZRange(Float_t low, Float_t high);
+ void SetPrimaryVertexFlag(Int_t flag);
+ void SetPrimaryVertexZErrorRange(Float_t low, Float_t high);
+
+ void SetTriggerMask(ULong64_t trmask);
+ void SetTriggerCluster(UChar_t trcluster);
+
+ void SetZDCNeutron1Range(Float_t low, Float_t high);
+ void SetZDCProton1Range(Float_t low, Float_t high);
+ void SetZDCEMRange(Float_t low, Float_t high);
+ void SetZDCNeutron2Range(Float_t low, Float_t high);
+ void SetZDCProton2Range(Float_t low, Float_t high);
+ void SetT0VertexZRange(Float_t low, Float_t high);
+
+ void SetMultiplicityRange(Int_t low, Int_t high);
+ void SetPosMultiplicityRange(Int_t low, Int_t high);
+ void SetNegMultiplicityRange(Int_t low, Int_t high);
+ void SetNeutrMultiplicityRange(Int_t low, Int_t high);
+ void SetNV0sRange(Int_t low, Int_t high);
+ void SetNCascadesRange(Int_t low, Int_t high);
+ void SetNKinksRange(Int_t low, Int_t high);
- void SetTotalPRange(Float_t r1, Float_t r2);
- void SetMeanPtRange(Float_t r1, Float_t r2);
- void SetMaxPt(Float_t r1);
- void SetTotalNeutralPRange(Float_t r1, Float_t r2);
- void SetMeanNeutralPtPRange(Float_t r1, Float_t r2);
- void SetMaxNeutralPt(Float_t r1);
- void SetEvPlaneAngleRange(Float_t r1, Float_t r2);
- void SetHBTRadiiRange(Float_t r1, Float_t r2);
+ void SetNPMDTracksRange(Int_t low, Int_t high);
+ void SetNFMDTracksRange(Int_t low, Int_t high);
+ void SetNPHOSClustersRange(Int_t low, Int_t high);
+ void SetNEMCALClustersRange(Int_t low, Int_t high);
+ void SetNJetCandidatesRange(Int_t low, Int_t high);
+
+ void SetTopJetEnergyMin(Float_t low);
+ void SetTopNeutralEnergyMin(Float_t low);
+ void SetNHardPhotonsRange(Int_t low, Int_t high);
+ void SetNChargedAbove1GeVRange(Int_t low, Int_t high);
+ void SetNChargedAbove3GeVRange(Int_t low, Int_t high);
+ void SetNChargedAbove10GeVRange(Int_t low, Int_t high);
+ void SetNMuonsAbove1GeVRange(Int_t low, Int_t high);
+ void SetNMuonsAbove3GeVRange(Int_t low, Int_t high);
+ void SetNMuonsAbove10GeVRange(Int_t low, Int_t high);
+ void SetNElectronsAbove1GeVRange(Int_t low, Int_t high);
+ void SetNElectronsAbove3GeVRange(Int_t low, Int_t high);
+ void SetNElectronsAbove10GeVRange(Int_t low, Int_t high);
+ void SetNElectronRange(Int_t low, Int_t high);
+ void SetNFWMuonRange(Int_t low, Int_t high);
+ void SetNMuonRange(Int_t low, Int_t high);
+ void SetNPionRange(Int_t low, Int_t high);
+ void SetNKaonRange(Int_t low, Int_t high);
+ void SetNProtonRange(Int_t low, Int_t high);
+ void SetNLambdaRange(Int_t low, Int_t high);
+ void SetNPhotonRange(Int_t low, Int_t high);
+ void SetNPi0Range(Int_t low, Int_t high);
+ void SetNNeutronRange(Int_t low, Int_t high);
+ void SetNKaon0Range(Int_t low, Int_t high);
+ void SetTotalPRange(Float_t low, Float_t high);
+ void SetMeanPtRange(Float_t low, Float_t high);
+ void SetTopPtMin(Float_t low);
+ void SetTotalNeutralPRange(Float_t low, Float_t high);
+ void SetMeanNeutralPtPRange(Float_t low, Float_t high);
+ void SetTopNeutralPtMin(Float_t low);
+ void SetEventPlaneAngleRange(Float_t low, Float_t high);
+ void SetHBTRadiiRange(Float_t low, Float_t high);
+ //First physics
+ void SetNumberOfFiredChipsLayer1Range(Int_t low, Int_t high);
+ void SetNumberOfFiredChipsLayer2Range(Int_t low, Int_t high);
+ void SetNumberOfSPDTrackletsRange(Int_t low, Int_t high);
+
Bool_t IsAccepted(AliEventTag *EvTag) const;
+ //____________________________________________________//
private:
- Float_t fVxMin, fVxMax; //Definition of the range of the Vx
- Bool_t fVxFlag; //Shows whether this cut is used or not
- Float_t fVyMin, fVyMax; //Definition of the range of the Vy
- Bool_t fVyFlag; //Shows whether this cut is used or not
- Float_t fVzMin, fVzMax; //Definition of the range of the Vz
- Bool_t fVzFlag; //Shows whether this cut is used or not
- Int_t fParticipantsMin, fParticipantMax; //# participants range
- Bool_t fParticipantsFlag;//Shows whether this cut is used or not
- Float_t fImpactParamMin, fImpactParamMax; //Impact parameter range
- Bool_t fImpactParamFlag; //Shows whether this cut is used or not
- Int_t fPrimaryVertexFlag; //Primary vertex flag: 0->not found, 1->found
- Bool_t fPVFlag; //Shows whether this cut is used or not
-
- Float_t fZDCNeutron1EnergyMin, fZDCNeutron1EnergyMax; //ZDC min,max - neutron
- Bool_t fZDCNeutron1EnergyFlag;//Shows whether this cut is used or not
- Float_t fZDCProton1EnergyMin, fZDCProton1EnergyMax; //ZDC min,max - proton
- Bool_t fZDCProton1EnergyFlag;//Shows whether this cut is used or not
- Float_t fZDCNeutron2EnergyMin, fZDCNeutron2EnergyMax; //ZDC min,max - neutron
- Bool_t fZDCNeutron2EnergyFlag;//Shows whether this cut is used or not
- Float_t fZDCProton2EnergyMin, fZDCProton2EnergyMax; //ZDC min,max - proton
- Bool_t fZDCProton2EnergyFlag;//Shows whether this cut is used or not
- Float_t fZDCEMEnergyMin, fZDCEMEnergyMax; //ZDC min,max - em
- Bool_t fZDCEMEnergyFlag;//Shows whether this cut is used or not
- Float_t fT0VertexZMin, fT0VertexZMax; //T0 min, max
- Bool_t fT0VertexZFlag;//Shows whether this cut is used or not
-
- Int_t fMultMin, fMultMax; //Definition of the range of the multiplicity
- Bool_t fMultFlag;//Shows whether this cut is used or not
- Int_t fMultPosMin, fMultPosMax; //Positive tracks multiplicity range
- Bool_t fMultPosFlag;//Shows whether this cut is used or not
- Int_t fMultNegMin, fMultNegMax; //Negative tracks multiplicity range
- Bool_t fMultNegFlag;//Shows whether this cut is used or not
- Int_t fMultNeutrMin, fMultNeutrMax; //Neutral tracks multiplicity range
- Bool_t fMultNeutrFlag;//Shows whether this cut is used or not
- Int_t fV0sMin, fV0sMax; //Range of V0s
- Bool_t fV0sFlag;//Shows whether this cut is used or not
- Int_t fCascadesMin, fCascadesMax; //Range of cascades
- Bool_t fCascadesFlag;//Shows whether this cut is used or not
- Int_t fkinksMin, fkinksMax; //Range of kinks
- Bool_t fkinksFlag;//Shows whether this cut is used or not
-
- Float_t fMaxJetEnergy; //max jet energy info
- Bool_t fMaxJetEnergyFlag;//Shows whether this cut is used or not
-
- Int_t fNHardPhotonsCandidatesMin, fNHardPhotonsCandidatesMax; //Hard photons candidates
- Bool_t fNHardPhotonsCandidatesFlag;//Shows whether this cut is used or not
- Float_t fMaxNeutralEnergy; //max neutral energy info
- Bool_t fMaxNeutralFlag;//Shows whether this cut is used or not
+ UInt_t fPeriodNumberMin, fPeriodNumberMax; //min/max value of the period number
+ Bool_t fPeriodNumberFlag; // Shows whether this cut is used or not
+
+ UInt_t fOrbitNumberMin, fOrbitNumberMax; //min/max value of the orbit number
+ Bool_t fOrbitNumberFlag; // Shows whether this cut is used or not
+
+ UShort_t fBunchCrossNumberMin, fBunchCrossNumberMax; //min/max value of the bunch crossing number
+ Bool_t fBunchCrossNumberFlag; // Shows whether this cut is used or not
+
+ UInt_t fEventType; //event type == 7 ==> PHYSICS_EVENT
+ Bool_t fEventTypeFlag; // Shows whether this cut is used or not
+
+ Int_t fNParticipantsMin, fNParticipantsMax; // # participants range
+ Bool_t fNParticipantsFlag; // Shows whether this cut is used or not
+ Float_t fImpactParamMin, fImpactParamMax; // Impact parameter range
+ Bool_t fImpactParamFlag; // Shows whether this cut is used or not
+
+ Float_t fEtaMin, fEtaMax; // Definition of the range of the eta leading
+ Bool_t fEtaFlag; // Shows whether this cut is used or not
+ Float_t fPhiMin, fPhiMax; // Definition of the range of the phi leading
+ Bool_t fPhiFlag; // Shows whether this cut is used or not
+
+ Float_t fVxMin, fVxMax; // Definition of the range of the Vx
+ Bool_t fVxFlag; // Shows whether this cut is used or not
+ Float_t fVyMin, fVyMax; // Definition of the range of the Vy
+ Bool_t fVyFlag; // Shows whether this cut is used or not
+ Float_t fVzMin, fVzMax; // Definition of the range of the Vz
+ Bool_t fVzFlag; // Shows whether this cut is used or not
+ Int_t fPrimaryVertexFlag; // Primary vertex flag: 0->not found, 1->found
+ Bool_t fPVFlag; // Shows whether this cut is used or not
+ Float_t fPrimaryVertexZErrorMin, fPrimaryVertexZErrorMax; // Range of the primary vertex z error
+ Bool_t fPVzErrorFlag; // Shows whether this cut is used or not
+
+ ULong64_t fTriggerMask; // trigger mask definition
+ Bool_t fTriggerMaskFlag; // Shows whether this cut is used or not
+ UChar_t fTriggerCluster; // trigger cluster definition
+ Bool_t fTriggerClusterFlag; // Shows whether this cut is used or not
- Int_t fChargedAbove1GeVMin, fChargedAbove1GeVMax;//Definition of the range of the number of charged above 1GeV
- Bool_t fChargedAbove1GeVFlag;//Shows whether this cut is used or not
- Int_t fChargedAbove3GeVMin, fChargedAbove3GeVMax;//Definition of the range of the number of charged above 3GeV
- Bool_t fChargedAbove3GeVFlag;//Shows whether this cut is used or not
- Int_t fChargedAbove10GeVMin, fChargedAbove10GeVMax;//Definition of the range of the number of charged above 10GeV
- Bool_t fChargedAbove10GeVFlag;//Shows whether this cut is used or not
- Int_t fMuonsAbove1GeVMin, fMuonsAbove1GeVMax;//Definition of the range of the number of muons above 1GeV
- Bool_t fMuonsAbove1GeVFlag;//Shows whether this cut is used or not
- Int_t fMuonsAbove3GeVMin, fMuonsAbove3GeVMax;//Definition of the range of the number of muons above 3GeV
- Bool_t fMuonsAbove3GeVFlag;//Shows whether this cut is used or not
- Int_t fMuonsAbove10GeVMin, fMuonsAbove10GeVMax; //Definition of the range of the number of muons above 10GeV
- Bool_t fMuonsAbove10GeVFlag;//Shows whether this cut is used or not
- Int_t fElectronsAbove1GeVMin, fElectronsAbove1GeVMax;//Definition of the range of the number of electorns above 1GeV
- Bool_t fElectronsAbove1GeVFlag;//Shows whether this cut is used or not
- Int_t fElectronsAbove3GeVMin, fElectronsAbove3GeVMax;//Definition of the range of the number of electorns above 3GeV
- Bool_t fElectronsAbove3GeVFlag;//Shows whether this cut is used or not
- Int_t fElectronsAbove10GeVMin,fElectronsAbove10GeVMax;//Definition of the range of the number of electorns above 10GeV
- Bool_t fElectronsAbove10GeVFlag;//Shows whether this cut is used or not
+ Float_t fZDCNeutron1EnergyMin, fZDCNeutron1EnergyMax; // ZDC min,max - neutron
+ Bool_t fZDCNeutron1EnergyFlag; // Shows whether this cut is used or not
+ Float_t fZDCProton1EnergyMin, fZDCProton1EnergyMax; // ZDC min,max - proton
+ Bool_t fZDCProton1EnergyFlag; // Shows whether this cut is used or not
+ Float_t fZDCNeutron2EnergyMin, fZDCNeutron2EnergyMax; // ZDC min,max - neutron
+ Bool_t fZDCNeutron2EnergyFlag; // Shows whether this cut is used or not
+ Float_t fZDCProton2EnergyMin, fZDCProton2EnergyMax; // ZDC min,max - proton
+ Bool_t fZDCProton2EnergyFlag; // Shows whether this cut is used or not
+ Float_t fZDCEMEnergyMin, fZDCEMEnergyMax; // ZDC min,max - em
+ Bool_t fZDCEMEnergyFlag; // Shows whether this cut is used or not
+ Float_t fT0VertexZMin, fT0VertexZMax; // T0 min, max
+ Bool_t fT0VertexZFlag; // Shows whether this cut is used or not
+
+ Int_t fMultMin, fMultMax; // Definition of the range of the multiplicity
+ Bool_t fMultFlag; // Shows whether this cut is used or not
+ Int_t fPosMultMin, fPosMultMax; // Positive tracks multiplicity range
+ Bool_t fPosMultFlag; // Shows whether this cut is used or not
+ Int_t fNegMultMin, fNegMultMax; // Negative tracks multiplicity range
+ Bool_t fNegMultFlag; // Shows whether this cut is used or not
+ Int_t fNeutrMultMin, fNeutrMultMax; // Neutral tracks multiplicity range
+ Bool_t fNeutrMultFlag; // Shows whether this cut is used or not
+ Int_t fNV0sMin, fNV0sMax; // Range of # of V0s
+ Bool_t fNV0sFlag; // Shows whether this cut is used or not
+ Int_t fNCascadesMin, fNCascadesMax; // Range of # of cascades
+ Bool_t fNCascadesFlag; // Shows whether this cut is used or not
+ Int_t fNKinksMin, fNKinksMax; // Range of # of kinks
+ Bool_t fNKinksFlag; // Shows whether this cut is used or not
- Int_t fElectronsMin, fElectronsMax; //Number of electrons range
- Bool_t fElectronsFlag;//Shows whether this cut is used or not
- Int_t fMuonsMin, fMuonsMax; //Number of muons range
- Bool_t fMuonsFlag;//Shows whether this cut is used or not
- Int_t fPionsMin, fPionsMax; //Number of pions range
- Bool_t fPionsFlag;//Shows whether this cut is used or not
- Int_t fKaonsMin, fKaonsMax; //Number of kaons range
- Bool_t fKaonsFlag;//Shows whether this cut is used or not
- Int_t fProtonsMin, fProtonsMax; //Number of protons range
- Bool_t fProtonsFlag;//Shows whether this cut is used or not
- Int_t fLambdasMin, fLambdasMax; //Number of lambdas range
- Bool_t fLambdasFlag;//Shows whether this cut is used or not
- Int_t fPhotonsMin, fPhotonsMax; //Number of photons range
- Bool_t fPhotonFlag;//Shows whether this cut is used or not
- Int_t fPi0sMin, fPi0sMax; //Number of Pi0s range
- Bool_t fPi0sFlag;//Shows whether this cut is used or not
- Int_t fNeutronsMin, fNeutronsMax; //Number of neutrons range
- Bool_t fNeutronsFlag;//Shows whether this cut is used or not
- Int_t fKaon0sMin, fKaon0sMax; //Number of K0s range
- Bool_t fKaon0sFlag;//Shows whether this cut is used or not
+ Int_t fNPMDTracksMin, fNPMDTracksMax; // Range of # of PMD tracks
+ Bool_t fNPMDTracksFlag; // Shows whether this cut is used or not
+ Int_t fNFMDTracksMin, fNFMDTracksMax; // Range of # of FMD tracks
+ Bool_t fNFMDTracksFlag; // Shows whether this cut is used or not
+ Int_t fNPHOSClustersMin, fNPHOSClustersMax; // Range of # of PHOS clusters
+ Bool_t fNPHOSClustersFlag; // Shows whether this cut is used or not
+ Int_t fNEMCALClustersMin, fNEMCALClustersMax; // Range of # of EMCAL clusters
+ Bool_t fNEMCALClustersFlag; // Shows whether this cut is used or not
+ Int_t fNJetCandidatesMin, fNJetCandidatesMax; // Range of # of jet candidates
+ Bool_t fNJetCandidatesFlag; // Shows whether this cut is used or not
+
+ Float_t fTopJetEnergyMin; // top jet energy minimum value
+ Bool_t fTopJetEnergyMinFlag; // Shows whether this cut is used or not
+ Float_t fTopNeutralEnergyMin; // top neutral energy minimum value
+ Bool_t fTopNeutralEnergyMinFlag; // Shows whether this cut is used or not
- Float_t fTotalPMin, fTotalPMax; //Range of the sum of the momentum per event
- Bool_t fTotalPFlag;//Shows whether this cut is used or not
- Float_t fMeanPtMin, fMeanPtMax; //Range of mean Pt per event
- Bool_t fMeanPtFlag;//Shows whether this cut is used or not
- Float_t fMaxPt; //Max Pt for each event
- Bool_t fMaxPtFlag;//Shows whether this cut is used or not
- Float_t fTotalNeutralPMin, fTotalNeutralPMax; //Sum of the momentum per event for neutral
- Bool_t fTotalNeutralPFlag;//Shows whether this cut is used or not
- Float_t fMeanNeutralPtMin, fMeanNeutralPtMax; //Mean Pt per event for neutral
- Bool_t fMeanNeutralPtFlag;//Shows whether this cut is used or not
- Float_t fMaxNeutralPt; //Max Pt for each event for neutral
- Bool_t fMaxNeutralPtFlag;//Shows whether this cut is used or not
- Float_t fEventPlaneAngleMin, fEventPlaneAngleMax; //event plane info
- Bool_t fEventPlaneAngleFlag;//Shows whether this cut is used or not
- Float_t fHBTRadiiMin, fHBTRadiiMax; //HBT info
- Bool_t fHBTRadiiFlag;//Shows whether this cut is used or not
-
- ClassDef(AliEventTagCuts, 1)
-} ;
+ Int_t fNHardPhotonCandidatesMin, fNHardPhotonCandidatesMax; // # of hard photons candidates
+ Bool_t fNHardPhotonCandidatesFlag; // Shows whether this cut is used or not
+ Int_t fNChargedAbove1GeVMin, fNChargedAbove1GeVMax; // Definition of the range of the # of charged above 1GeV
+ Bool_t fNChargedAbove1GeVFlag; // Shows whether this cut is used or not
+ Int_t fNChargedAbove3GeVMin, fNChargedAbove3GeVMax; // Definition of the range of the # of charged above 3GeV
+ Bool_t fNChargedAbove3GeVFlag; // Shows whether this cut is used or not
+ Int_t fNChargedAbove10GeVMin, fNChargedAbove10GeVMax; // Definition of the range of the # of charged above 10GeV
+ Bool_t fNChargedAbove10GeVFlag; // Shows whether this cut is used or not
+ Int_t fNMuonsAbove1GeVMin, fNMuonsAbove1GeVMax; // Definition of the range of the # of muons above 1GeV
+ Bool_t fNMuonsAbove1GeVFlag; // Shows whether this cut is used or not
+ Int_t fNMuonsAbove3GeVMin, fNMuonsAbove3GeVMax; // Definition of the range of the # of muons above 3GeV
+ Bool_t fNMuonsAbove3GeVFlag; // Shows whether this cut is used or not
+ Int_t fNMuonsAbove10GeVMin, fNMuonsAbove10GeVMax; // Definition of the range of the # of muons above 10GeV
+ Bool_t fNMuonsAbove10GeVFlag; // Shows whether this cut is used or not
+ Int_t fNElectronsAbove1GeVMin, fNElectronsAbove1GeVMax; // Definition of the range of the # of electorns above 1GeV
+ Bool_t fNElectronsAbove1GeVFlag; // Shows whether this cut is used or not
+ Int_t fNElectronsAbove3GeVMin, fNElectronsAbove3GeVMax; // Definition of the range of the # of electorns above 3GeV
+ Bool_t fNElectronsAbove3GeVFlag; // Shows whether this cut is used or not
+ Int_t fNElectronsAbove10GeVMin,fNElectronsAbove10GeVMax; // Definition of the range of the # of electorns above 10GeV
+ Bool_t fNElectronsAbove10GeVFlag; // Shows whether this cut is used or not
+ Int_t fNElectronsMin, fNElectronsMax; // # of electrons range
+ Bool_t fNElectronsFlag; // Shows whether this cut is used or not
+ Int_t fNFWMuonsMin, fNFWMuonsMax; // # of forward muons range
+ Bool_t fNFWMuonsFlag; // Shows whether this cut is used or not
+ Int_t fNMuonsMin, fNMuonsMax; // # of muons range
+ Bool_t fNMuonsFlag; // Shows whether this cut is used or not
+ Int_t fNPionsMin, fNPionsMax; // # of pions range
+ Bool_t fNPionsFlag; // Shows whether this cut is used or not
+ Int_t fNKaonsMin, fNKaonsMax; // # of kaons range
+ Bool_t fNKaonsFlag; // Shows whether this cut is used or not
+ Int_t fNProtonsMin, fNProtonsMax; // # of protons range
+ Bool_t fNProtonsFlag; // Shows whether this cut is used or not
+ Int_t fNLambdasMin, fNLambdasMax; // # of lambdas range
+ Bool_t fNLambdasFlag; // Shows whether this cut is used or not
+ Int_t fNPhotonsMin, fNPhotonsMax; // # of photons range
+ Bool_t fNPhotonFlag; // Shows whether this cut is used or not
+ Int_t fNPi0sMin, fNPi0sMax; // # of Pi0s range
+ Bool_t fNPi0sFlag; // Shows whether this cut is used or not
+ Int_t fNNeutronsMin, fNNeutronsMax; // # of neutrons range
+ Bool_t fNNeutronsFlag; // Shows whether this cut is used or not
+ Int_t fNKaon0sMin, fNKaon0sMax; // # of K0s range
+ Bool_t fNKaon0sFlag; // Shows whether this cut is used or not
+ Float_t fTotalPMin, fTotalPMax; // Range of the sum of the momentum per event
+ Bool_t fTotalPFlag; // Shows whether this cut is used or not
+ Float_t fMeanPtMin, fMeanPtMax; // Range of mean Pt per event
+ Bool_t fMeanPtFlag; // Shows whether this cut is used or not
+ Float_t fTopPtMin; // Max Pt for each event
+ Bool_t fTopPtMinFlag; // Shows whether this cut is used or not
+ Float_t fTotalNeutralPMin, fTotalNeutralPMax; // Sum of the momentum per event for neutral
+ Bool_t fTotalNeutralPFlag; // Shows whether this cut is used or not
+ Float_t fMeanNeutralPtMin, fMeanNeutralPtMax; // Mean Pt per event for neutral
+ Bool_t fMeanNeutralPtFlag; // Shows whether this cut is used or not
+ Float_t fTopNeutralPtMin; // Minimum value for highest Pt for the event for neutral
+ Bool_t fTopNeutralPtMinFlag; // Shows whether this cut is used or not
+ Float_t fEventPlaneAngleMin, fEventPlaneAngleMax; // event plane info
+ Bool_t fEventPlaneAngleFlag; // Shows whether this cut is used or not
+ Float_t fHBTRadiiMin, fHBTRadiiMax; // HBT info
+ Bool_t fHBTRadiiFlag; // Shows whether this cut is used or not
+
+ Int_t fNumberOfFiredChipsLayer1Min, fNumberOfFiredChipsLayer1Max; //min/max number of fired chips - layer 1
+ Bool_t fNumberOfFiredChipsLayer1Flag; // Shows whether this cut is used or not
+ Int_t fNumberOfFiredChipsLayer2Min, fNumberOfFiredChipsLayer2Max; //min/max number of fired chips - layer 2
+ Bool_t fNumberOfFiredChipsLayer2Flag; // Shows whether this cut is used or not
+ Int_t fNumberOfSPDTrackletsMin, fNumberOfSPDTrackletsMax; //min/max number of SPD tracklets
+ Bool_t fNumberOfSPDTrackletsFlag; // Shows whether this cut is used or not
+
+
+ ClassDef(AliEventTagCuts, 3)
+};
#endif