[u/mrichter/AliRoot.git] / STEER / AliEventTag.h

#ifndef ALIEVENTTAG_H
#define ALIEVENTTAG_H
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */


/* $Id$ */

//-------------------------------------------------------------------------
//                          Class AliEventTag
//   This is the class to deal with the tags for the event level
//
//    Origin: Panos Christakoglou, UOA-CERN, Panos.Christakoglou@cern.ch
//-------------------------------------------------------------------------

#include "TObject.h"
#include "TString.h"

//___________________________________________________________________________
class AliEventTag : public TObject {
 public:
  AliEventTag();
  AliEventTag(const AliEventTag & t);
  virtual ~AliEventTag();

  AliEventTag &operator=(const AliEventTag &rhs);
  
  //____________________________________________________//
  void SetPeriodNumber(UInt_t n) {fPeriodNumber = n;}
  void SetOrbitNumber(UInt_t n) {fOrbitNumber = n;}
  void SetBunchCrossNumber(UShort_t n) {fBunchCrossNumber = n;}

  void SetFiredTriggerClasses(TString names) {fFiredTriggerClasses = names;}
  void SetEventType(UInt_t ntype) {fEventType = ntype;}

  void SetGUID(TString Pid) {fGUID = Pid;}
  void SetPath(TString Pid) {fPath = Pid;}
  void SetMD5(TString Pid) {fmd5 = Pid;}
  void SetTURL(TString Pid) {fturl = Pid;}
  void SetSize(Long64_t i) {fsize = i;}
  void SetNumOfParticipants(Int_t P) {fNumberOfParticipants = P;}
  void SetNumOfParticipants2(Int_t P2) {fNumberOfParticipants = P2;}
  void SetImpactParameter(Float_t Pimpact) {fImpactParameter = Pimpact;}
  void SetVertexX(Float_t Pvx) {fPrimaryVertexX = Pvx;}
  void SetVertexY(Float_t Pvy) {fPrimaryVertexY = Pvy;}
  void SetVertexZ(Float_t Pvz) {fPrimaryVertexZ = Pvz;}
  void SetVertexFlag(Int_t i) {fPrimaryVertexFlag = i;}
  void SetVertexZError(Float_t f) { fPrimaryVertexZError = f;}
  void SetTriggerMask(ULong64_t Ptr) {fTriggerMask = Ptr;}
  void SetTriggerCluster(UChar_t n) {fTriggerCluster = n;}
  void SetZDCNeutron1Energy(Float_t Pen) {fZDCNeutron1Energy = Pen;}
  void SetZDCProton1Energy(Float_t Pen) {fZDCProton1Energy = Pen;}
  void SetZDCNeutron2Energy(Float_t Pen) {fZDCNeutron2Energy = Pen;}
  void SetZDCProton2Energy(Float_t Pen) {fZDCProton2Energy = Pen;}
  void SetZDCEMEnergy(Float_t Pen1, Float_t Pen2) 
       {fZDCEMEnergy[0]=Pen1; fZDCEMEnergy[1]=Pen2;}
  void SetT0VertexZ(Float_t Pvz) {fT0VertexZ = Pvz;}
  void SetNumOfTracks(Int_t Ptr) {fNumberOfTracks = Ptr;}
  void SetNumOfPosTracks(Int_t Ptr) {fNumberOfPositiveTracks = Ptr;}
  void SetNumOfNegTracks(Int_t Ptr) {fNumberOfNegativeTracks = Ptr;}
  void SetNumOfNeutrTracks(Int_t Ptr) {fNumberOfNeutralTracks = Ptr;}
  void SetNumOfV0s(Int_t Ptr) {fNumberOfV0s = Ptr;}
  void SetNumOfCascades(Int_t Ptr) {fNumberOfCascades = Ptr;}
  void SetNumOfKinks(Int_t Ptr) {fNumberOfKinks = Ptr;}
  void SetNumOfPMDTracks(Int_t Ptr) {fNumberOfPMDTracks = Ptr;}
  void SetNumOfFMDTracks(Int_t Ptr) {fNumberOfFMDTracks = Ptr;}
  void SetNumOfPHOSClusters(Int_t Ptr) {fNumberOfPHOSClusters = Ptr;}
  void SetNumOfEMCALClusters(Int_t Ptr) {fNumberOfEMCALClusters = Ptr;}
  void SetNumOfJetCandidates(Int_t Ptr) {fNumberOfJetCandidates = Ptr;}
  void SetNumOfHardPhotonsCandidates(Int_t Ptr) {fNumberOfHardPhotonsCandidates = Ptr;}
  void SetMaxJetEnergy(Float_t f) {fMaxJetEnergy = f;}
  void SetMaxNeutralEnergy(Float_t f) {fMaxNeutralEnergy = f;}
  void SetNumOfChargedAbove1GeV(Int_t i) {fNumberOfChargedAbove1GeV = i;}
  void SetNumOfChargedAbove3GeV(Int_t i) {fNumberOfChargedAbove3GeV = i;}
  void SetNumOfChargedAbove10GeV(Int_t i) {fNumberOfChargedAbove10GeV = i;}
  void SetNumOfMuonsAbove1GeV(Int_t i) {fNumberOfMuonsAbove1GeV = i;}
  void SetNumOfMuonsAbove3GeV(Int_t i) {fNumberOfMuonsAbove3GeV = i;}
  void SetNumOfMuonsAbove10GeV(Int_t i) {fNumberOfMuonsAbove10GeV = i;}
  void SetNumOfElectronsAbove1GeV(Int_t i) {fNumberOfElectronsAbove1GeV = i;}
  void SetNumOfElectronsAbove3GeV(Int_t i) {fNumberOfElectronsAbove3GeV = i;}
  void SetNumOfElectronsAbove10GeV(Int_t i) {fNumberOfElectronsAbove10GeV = i;}
  void SetNumOfElectrons(Int_t Ptr) {fNumberOfElectrons = Ptr;}
  void SetNumOfFWMuons(Int_t Ptr) {fNumberOfFWMuons = Ptr;}
  void SetNumOfMuons(Int_t Ptr) {fNumberOfMuons = Ptr;}
  void SetNumOfPions(Int_t Ptr) {fNumberOfPions = Ptr;}
  void SetNumOfKaons(Int_t Ptr) {fNumberOfKaons = Ptr;}
  void SetNumOfProtons(Int_t Ptr) {fNumberOfProtons = Ptr;}
  void SetNumOfLambdas(Int_t Ptr) {fNumberOfLambdas = Ptr;}
  void SetNumOfPhotons(Int_t Ptr) {fNumberOfPhotons = Ptr;}
  void SetNumOfPi0s(Int_t Ptr) {fNumberOfPi0s = Ptr;}
  void SetNumOfNeutrons(Int_t Ptr) {fNumberOfNeutrons = Ptr;}
  void SetNumOfKaon0s(Int_t Ptr) {fNumberOfKaon0s = Ptr;}
  void SetTotalMomentum(Float_t P) {fTotalP = P;}
  void SetMeanPt(Float_t Pt) {fMeanPt = Pt;}
  void SetMaxPt(Float_t Pt) {fMaxPt = Pt;}
  void SetNeutralTotalMomentum(Float_t f) {fTotalNeutralP = f;}
  void SetNeutralMeanPt(Float_t f) {fMeanNeutralPt = f;}
  void SetNeutralMaxPt(Float_t f) {fMaxNeutralPt = f;}
  void SetEventPlaneAngle(Float_t f) {fEventPlaneAngle = f;}
  void SetHBTRadii(Float_t f) {fHBTRadii = f;}

  //First physics
  void SetNumberOfFiredChipsLayer1(Int_t n) {fNumberOfFiredChipsLayer1 = n;}
  void SetNumberOfFiredChipsLayer2(Int_t n) {fNumberOfFiredChipsLayer2 = n;}
  void SetNumberOfSPDTracklets(Int_t n) {fNumberOfSPDTracklets = n;}

  void SetVZEROADC(Int_t n, UShort_t adc) {fVZEROADC[n] = adc;}
  void SetVZEROTime(Int_t n, Bool_t time) {fVZEROTime[n] = time;}

  //____________________________________________________//
  UInt_t GetPeriodNumber() const {return fPeriodNumber;}
  UInt_t GetOrbitNumber() const {return fOrbitNumber;}
  UShort_t GetBunchCrossNumber() const {return fBunchCrossNumber;}

  TString GetFiredTriggerClasses() const {return fFiredTriggerClasses;}
  UInt_t GetEventType() const {return fEventType;}

  const char *GetGUID() const {return fGUID.Data();}
  const char *GetPath() const {return fPath.Data();}
  const char *GetMD5() const {return fmd5.Data();}
  const char *GetTURL() const {return fturl.Data();}
  Long64_t    GetSize() const {return fsize;}
  Int_t       GetNumOfParticipants() const {return fNumberOfParticipants;}
  Int_t       GetNumOfParticipants2() const {return fNumberOfParticipants2;}
  Float_t     GetImpactParameter() const {return fImpactParameter;}
  Float_t     GetVertexX() const {return fPrimaryVertexX;}
  Float_t     GetVertexY() const {return fPrimaryVertexY;}
  Float_t     GetVertexZ() const {return fPrimaryVertexZ;}
  Int_t       GetVertexFlag() const {return fPrimaryVertexFlag;}
  Float_t     GetVertexZError() const {return fPrimaryVertexZError;}
  ULong64_t   GetTriggerMask() const {return fTriggerMask;}
  UChar_t     GetTriggerCluster() const {return fTriggerCluster;}
  Float_t     GetZDCNeutron1Energy() const {return fZDCNeutron1Energy;}
  Float_t     GetZDCProton1Energy() const {return fZDCProton1Energy;}
  Float_t     GetZDCNeutron2Energy() const {return fZDCNeutron2Energy;}
  Float_t     GetZDCProton2Energy() const {return fZDCProton2Energy;}
  Float_t     GetZDCEMEnergy(Int_t i) const {return fZDCEMEnergy[i];}
  Float_t     GetT0VertexZ() const {return fT0VertexZ;}
  Int_t       GetNumOfTracks() const {return fNumberOfTracks;}
  Int_t       GetNumOfPosTracks() const {return fNumberOfPositiveTracks;}
  Int_t       GetNumOfNegTracks() const {return fNumberOfNegativeTracks;}
  Int_t       GetNumOfNeutrTracks() const {return fNumberOfNeutralTracks;}
  Int_t       GetNumOfV0s() const {return fNumberOfV0s;}
  Int_t       GetNumOfCascades() const {return fNumberOfCascades;}
  Int_t       GetNumOfKinks() const {return fNumberOfKinks;}
  Int_t       GetNumOfPMDTracks() const {return fNumberOfPMDTracks;}
  Int_t       GetNumOfFMDTracks() const {return fNumberOfFMDTracks;}
  Int_t       GetNumOfPHOSClusters() const {return fNumberOfPHOSClusters;}
  Int_t       GetNumOfEMCALClusters() const {return fNumberOfEMCALClusters;}
  Int_t       GetNumOfJetCandidates() const {return fNumberOfJetCandidates;}
  Int_t       GetNumOfHardPhotonsCandidates() const {return fNumberOfHardPhotonsCandidates;}
  Float_t     GetMaxJetEnergy() const {return fMaxJetEnergy;}
  Float_t     GetMaxNeutralEnergy() const {return fMaxNeutralEnergy;}
  Int_t       GetNumOfChargedAbove1GeV() const {return fNumberOfChargedAbove1GeV;}
  Int_t       GetNumOfChargedAbove3GeV() const {return fNumberOfChargedAbove3GeV;}
  Int_t       GetNumOfChargedAbove10GeV() const {return fNumberOfChargedAbove10GeV;}
  Int_t       GetNumOfMuonsAbove1GeV() const {return fNumberOfMuonsAbove1GeV;}
  Int_t       GetNumOfMuonsAbove3GeV() const {return fNumberOfMuonsAbove3GeV;}
  Int_t       GetNumOfMuonsAbove10GeV() const {return fNumberOfMuonsAbove10GeV;}
  Int_t       GetNumOfElectronsAbove1GeV() const {return fNumberOfElectronsAbove1GeV;}
  Int_t       GetNumOfElectronsAbove3GeV() const {return fNumberOfElectronsAbove3GeV;}
  Int_t       GetNumOfElectronsAbove10GeV() const {return fNumberOfElectronsAbove10GeV;}
  Int_t       GetNumOfElectrons() const {return fNumberOfElectrons;}
  Int_t       GetNumOfFWMuons() const {return fNumberOfFWMuons;}
  Int_t       GetNumOfMuons() const {return fNumberOfMuons;}
  Int_t       GetNumOfPions() const {return fNumberOfPions;}
  Int_t       GetNumOfKaons() const {return fNumberOfKaons;}
  Int_t       GetNumOfProtons() const {return fNumberOfProtons;}
  Int_t       GetNumOfLambdas() const {return fNumberOfLambdas;}
  Int_t       GetNumOfPhotons() const {return fNumberOfPhotons;}
  Int_t       GetNumOfPi0s() const {return fNumberOfPi0s;}
  Int_t       GetNumOfNeutrons() const {return fNumberOfNeutrons;}
  Int_t       GetNumOfKaon0s() const {return fNumberOfKaon0s;}
  Float_t     GetTotalMomentum() const {return fTotalP;}
  Float_t     GetMeanPt() const {return fMeanPt;}
  Float_t     GetMaxPt() const {return fMaxPt;}
  Float_t     GetNeutralTotalMomentum() const {return fTotalNeutralP;}
  Float_t     GetNeutralMeanPt() const {return fMeanNeutralPt;}
  Float_t     GetNeutralMaxPt() const {return fMaxNeutralPt;}
  Float_t     GetEventPlaneAngle() const {return fEventPlaneAngle;}
  Float_t     GetHBTRadii() const {return fHBTRadii;}

  //First physics
  Int_t GetNumberOfFiredChipsLayer1() const {return fNumberOfFiredChipsLayer1;}
  Int_t GetNumberOfFiredChipsLayer2() const {return fNumberOfFiredChipsLayer2;}
  Int_t GetNumberOfSPDTracklets() const {return fNumberOfSPDTracklets;}

  UShort_t GetVZEROADC(Int_t n) const {return fVZEROADC[n];}
  UShort_t GetVZEROTime(Int_t n) const {return fVZEROTime[n];}

  //____________________________________________________//
 private:
  UInt_t    fPeriodNumber;                  //The period number
  UInt_t    fOrbitNumber;                   //The orbit number
  UShort_t  fBunchCrossNumber;              //The BC number
  TString   fFiredTriggerClasses;           //List of the fired trigger class names
  UInt_t    fEventType;                     //event type == 7 ==> PHYSICS_EVENT

  TString   fGUID;		            //The unique identifier of the file
  TString   fPath;		            //The file's path (local storage)
  Long64_t  fsize;                          //the size of the file
  TString   fmd5;                           //another file identifier
  TString   fturl;                          //the file's url
  Int_t     fNumberOfParticipants;    	    //Number of participants - side C
  Int_t     fNumberOfParticipants2;    	    //Number of participants - side A
  Float_t   fImpactParameter;		    //The impact parameter
  Int_t     fPrimaryVertexFlag;		    //Primary vertex flag: 0->not found, 1->found
  Float_t   fPrimaryVertexX;		    //Primary vertex - X coordinate
  Float_t   fPrimaryVertexY;		    //Primary vertex - Y coordinate
  Float_t   fPrimaryVertexZ;		    //Primary vertex - Z coordinate
  Float_t   fPrimaryVertexZError;	    //Primary vertex - Z coordinate - error
  ULong64_t fTriggerMask;		    //Information from trigger (trigger mask)
  UChar_t   fTriggerCluster;                // Trigger cluster (mask)
  Float_t   fZDCNeutron1Energy;		    //ZDC info - neutron
  Float_t   fZDCProton1Energy;		    //ZDC info - proton
  Float_t   fZDCNeutron2Energy;		    //ZDC info - neutron
  Float_t   fZDCProton2Energy;		    //ZDC info - proton
  Float_t   fZDCEMEnergy[2];		    //ZDC info - em
  Float_t   fT0VertexZ;			    //T0 info
  Int_t     fNumberOfTracks;		    //Multiplicity
  Int_t     fNumberOfPositiveTracks;	    //Multiplicity of positive tracks
  Int_t     fNumberOfNegativeTracks;	    //Multiplicity of negative tracks
  Int_t     fNumberOfNeutralTracks;	    //Multiplicity of neutral tracks
  Int_t     fNumberOfV0s;		    //Number of V0s
  Int_t     fNumberOfCascades;		    //Number of cascades
  Int_t     fNumberOfKinks;		    //Number of kinks
  Int_t     fNumberOfPMDTracks;		    //PMD tracks
  Int_t     fNumberOfFMDTracks;		    //FMD tracks
  Int_t     fNumberOfPHOSClusters;	    //PHOS clusters
  Int_t     fNumberOfEMCALClusters;	    //EMCAL clusters
  Int_t     fNumberOfJetCandidates;	    //Jet candidates
  Float_t   fMaxJetEnergy;                  //jet energy info
  Int_t     fNumberOfHardPhotonsCandidates; //Hard photons candidates
  Float_t   fMaxNeutralEnergy;              //neutral energy info
  Int_t     fNumberOfChargedAbove1GeV;      //Number of charged above 1 GeV/c
  Int_t     fNumberOfChargedAbove3GeV;      //Number of charged above 3 GeV/c
  Int_t     fNumberOfChargedAbove10GeV;     //Number of charged above 10 GeV/c
  Int_t     fNumberOfMuonsAbove1GeV;        //Number of muons above 1 GeV/c
  Int_t     fNumberOfMuonsAbove3GeV;        //Number of muons above 3 GeV/c
  Int_t     fNumberOfMuonsAbove10GeV;       //Number of muons above 10 GeV/c
  Int_t     fNumberOfElectronsAbove1GeV;    //Number of electrons above 1 GeV/c
  Int_t     fNumberOfElectronsAbove3GeV;    //Number of electrons above 3 GeV/c
  Int_t     fNumberOfElectronsAbove10GeV;   //Number of electrons above 10 GeV/c
  Int_t     fNumberOfElectrons;		    //Number of electrons
  Int_t     fNumberOfFWMuons;		    //Number of forward muons
  Int_t     fNumberOfMuons;		    //Number of muons
  Int_t     fNumberOfPions;		    //Number of pions
  Int_t     fNumberOfKaons;		    //Number of kaons
  Int_t     fNumberOfProtons;		    //Number of protons
  Int_t     fNumberOfLambdas;		    //Number of lambdas
  Int_t     fNumberOfPhotons;               //Number of photons
  Int_t     fNumberOfPi0s;                  //Number of pi0
  Int_t     fNumberOfNeutrons;              //Number of neutrons
  Int_t     fNumberOfKaon0s;                //Number of Ks
  Float_t   fTotalP;			    //Sum of the momentum per event
  Float_t   fMeanPt;			    //Mean Pt per event
  Float_t   fMaxPt;			    //Max Pt for each event
  Float_t   fTotalNeutralP;		    //Sum of the momentum per event for neutral
  Float_t   fMeanNeutralPt;		    //Mean Pt per event for neutral
  Float_t   fMaxNeutralPt;		    //Max Pt for each event for neutral
  Float_t   fEventPlaneAngle;		    //event plane info
  Float_t   fHBTRadii;                      //HBT info
  
  //First physics
  Int_t     fNumberOfFiredChipsLayer1;      //number of fired chips - layer 1
  Int_t     fNumberOfFiredChipsLayer2;      //number of fired chips - layer 2
  Int_t     fNumberOfSPDTracklets;          //number of SPD tracklets

  UShort_t  fVZEROADC[64];                  //V0 raw adc values
  Bool_t    fVZEROTime[64];                 //Flag if V0 TDC time measured

  ClassDef(AliEventTag,11)  //(ClassName, ClassVersion)
    };
//___________________________________________________________________________


#endif
Commit	Line	Data
	1	#ifndef ALIEVENTTAG_H
	2	#define ALIEVENTTAG_H
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6
	7	/* $Id$ */
	8
	9	//-------------------------------------------------------------------------
	10	// Class AliEventTag
	11	// This is the class to deal with the tags for the event level
	12	//
	13	// Origin: Panos Christakoglou, UOA-CERN, Panos.Christakoglou@cern.ch
	14	//-------------------------------------------------------------------------
	15
	16	#include "TObject.h"
	17	#include "TString.h"
	18
	19	//___________________________________________________________________________
	20	class AliEventTag : public TObject {
	21	public:
	22	AliEventTag();
	23	AliEventTag(const AliEventTag & t);
	24	virtual ~AliEventTag();
	25
	26	AliEventTag &operator=(const AliEventTag &rhs);
	27
	28	//____________________________________________________//
	29	void SetPeriodNumber(UInt_t n) {fPeriodNumber = n;}
	30	void SetOrbitNumber(UInt_t n) {fOrbitNumber = n;}
	31	void SetBunchCrossNumber(UShort_t n) {fBunchCrossNumber = n;}
	32
	33	void SetFiredTriggerClasses(TString names) {fFiredTriggerClasses = names;}
	34	void SetEventType(UInt_t ntype) {fEventType = ntype;}
	35
	36	void SetGUID(TString Pid) {fGUID = Pid;}
	37	void SetPath(TString Pid) {fPath = Pid;}
	38	void SetMD5(TString Pid) {fmd5 = Pid;}
	39	void SetTURL(TString Pid) {fturl = Pid;}
	40	void SetSize(Long64_t i) {fsize = i;}
	41	void SetNumOfParticipants(Int_t P) {fNumberOfParticipants = P;}
	42	void SetNumOfParticipants2(Int_t P2) {fNumberOfParticipants = P2;}
	43	void SetImpactParameter(Float_t Pimpact) {fImpactParameter = Pimpact;}
	44	void SetVertexX(Float_t Pvx) {fPrimaryVertexX = Pvx;}
	45	void SetVertexY(Float_t Pvy) {fPrimaryVertexY = Pvy;}
	46	void SetVertexZ(Float_t Pvz) {fPrimaryVertexZ = Pvz;}
	47	void SetVertexFlag(Int_t i) {fPrimaryVertexFlag = i;}
	48	void SetVertexZError(Float_t f) { fPrimaryVertexZError = f;}
	49	void SetTriggerMask(ULong64_t Ptr) {fTriggerMask = Ptr;}
	50	void SetTriggerCluster(UChar_t n) {fTriggerCluster = n;}
	51	void SetZDCNeutron1Energy(Float_t Pen) {fZDCNeutron1Energy = Pen;}
	52	void SetZDCProton1Energy(Float_t Pen) {fZDCProton1Energy = Pen;}
	53	void SetZDCNeutron2Energy(Float_t Pen) {fZDCNeutron2Energy = Pen;}
	54	void SetZDCProton2Energy(Float_t Pen) {fZDCProton2Energy = Pen;}
	55	void SetZDCEMEnergy(Float_t Pen1, Float_t Pen2)
	56	{fZDCEMEnergy[0]=Pen1; fZDCEMEnergy[1]=Pen2;}
	57	void SetT0VertexZ(Float_t Pvz) {fT0VertexZ = Pvz;}
	58	void SetNumOfTracks(Int_t Ptr) {fNumberOfTracks = Ptr;}
	59	void SetNumOfPosTracks(Int_t Ptr) {fNumberOfPositiveTracks = Ptr;}
	60	void SetNumOfNegTracks(Int_t Ptr) {fNumberOfNegativeTracks = Ptr;}
	61	void SetNumOfNeutrTracks(Int_t Ptr) {fNumberOfNeutralTracks = Ptr;}
	62	void SetNumOfV0s(Int_t Ptr) {fNumberOfV0s = Ptr;}
	63	void SetNumOfCascades(Int_t Ptr) {fNumberOfCascades = Ptr;}
	64	void SetNumOfKinks(Int_t Ptr) {fNumberOfKinks = Ptr;}
	65	void SetNumOfPMDTracks(Int_t Ptr) {fNumberOfPMDTracks = Ptr;}
	66	void SetNumOfFMDTracks(Int_t Ptr) {fNumberOfFMDTracks = Ptr;}
	67	void SetNumOfPHOSClusters(Int_t Ptr) {fNumberOfPHOSClusters = Ptr;}
	68	void SetNumOfEMCALClusters(Int_t Ptr) {fNumberOfEMCALClusters = Ptr;}
	69	void SetNumOfJetCandidates(Int_t Ptr) {fNumberOfJetCandidates = Ptr;}
	70	void SetNumOfHardPhotonsCandidates(Int_t Ptr) {fNumberOfHardPhotonsCandidates = Ptr;}
	71	void SetMaxJetEnergy(Float_t f) {fMaxJetEnergy = f;}
	72	void SetMaxNeutralEnergy(Float_t f) {fMaxNeutralEnergy = f;}
	73	void SetNumOfChargedAbove1GeV(Int_t i) {fNumberOfChargedAbove1GeV = i;}
	74	void SetNumOfChargedAbove3GeV(Int_t i) {fNumberOfChargedAbove3GeV = i;}
	75	void SetNumOfChargedAbove10GeV(Int_t i) {fNumberOfChargedAbove10GeV = i;}
	76	void SetNumOfMuonsAbove1GeV(Int_t i) {fNumberOfMuonsAbove1GeV = i;}
	77	void SetNumOfMuonsAbove3GeV(Int_t i) {fNumberOfMuonsAbove3GeV = i;}
	78	void SetNumOfMuonsAbove10GeV(Int_t i) {fNumberOfMuonsAbove10GeV = i;}
	79	void SetNumOfElectronsAbove1GeV(Int_t i) {fNumberOfElectronsAbove1GeV = i;}
	80	void SetNumOfElectronsAbove3GeV(Int_t i) {fNumberOfElectronsAbove3GeV = i;}
	81	void SetNumOfElectronsAbove10GeV(Int_t i) {fNumberOfElectronsAbove10GeV = i;}
	82	void SetNumOfElectrons(Int_t Ptr) {fNumberOfElectrons = Ptr;}
	83	void SetNumOfFWMuons(Int_t Ptr) {fNumberOfFWMuons = Ptr;}
	84	void SetNumOfMuons(Int_t Ptr) {fNumberOfMuons = Ptr;}
	85	void SetNumOfPions(Int_t Ptr) {fNumberOfPions = Ptr;}
	86	void SetNumOfKaons(Int_t Ptr) {fNumberOfKaons = Ptr;}
	87	void SetNumOfProtons(Int_t Ptr) {fNumberOfProtons = Ptr;}
	88	void SetNumOfLambdas(Int_t Ptr) {fNumberOfLambdas = Ptr;}
	89	void SetNumOfPhotons(Int_t Ptr) {fNumberOfPhotons = Ptr;}
	90	void SetNumOfPi0s(Int_t Ptr) {fNumberOfPi0s = Ptr;}
	91	void SetNumOfNeutrons(Int_t Ptr) {fNumberOfNeutrons = Ptr;}
	92	void SetNumOfKaon0s(Int_t Ptr) {fNumberOfKaon0s = Ptr;}
	93	void SetTotalMomentum(Float_t P) {fTotalP = P;}
	94	void SetMeanPt(Float_t Pt) {fMeanPt = Pt;}
	95	void SetMaxPt(Float_t Pt) {fMaxPt = Pt;}
	96	void SetNeutralTotalMomentum(Float_t f) {fTotalNeutralP = f;}
	97	void SetNeutralMeanPt(Float_t f) {fMeanNeutralPt = f;}
	98	void SetNeutralMaxPt(Float_t f) {fMaxNeutralPt = f;}
	99	void SetEventPlaneAngle(Float_t f) {fEventPlaneAngle = f;}
	100	void SetHBTRadii(Float_t f) {fHBTRadii = f;}
	101
	102	//First physics
	103	void SetNumberOfFiredChipsLayer1(Int_t n) {fNumberOfFiredChipsLayer1 = n;}
	104	void SetNumberOfFiredChipsLayer2(Int_t n) {fNumberOfFiredChipsLayer2 = n;}
	105	void SetNumberOfSPDTracklets(Int_t n) {fNumberOfSPDTracklets = n;}
	106
	107	void SetVZEROADC(Int_t n, UShort_t adc) {fVZEROADC[n] = adc;}
	108	void SetVZEROTime(Int_t n, Bool_t time) {fVZEROTime[n] = time;}
	109
	110	//____________________________________________________//
	111	UInt_t GetPeriodNumber() const {return fPeriodNumber;}
	112	UInt_t GetOrbitNumber() const {return fOrbitNumber;}
	113	UShort_t GetBunchCrossNumber() const {return fBunchCrossNumber;}
	114
	115	TString GetFiredTriggerClasses() const {return fFiredTriggerClasses;}
	116	UInt_t GetEventType() const {return fEventType;}
	117
	118	const char *GetGUID() const {return fGUID.Data();}
	119	const char *GetPath() const {return fPath.Data();}
	120	const char *GetMD5() const {return fmd5.Data();}
	121	const char *GetTURL() const {return fturl.Data();}
	122	Long64_t GetSize() const {return fsize;}
	123	Int_t GetNumOfParticipants() const {return fNumberOfParticipants;}
	124	Int_t GetNumOfParticipants2() const {return fNumberOfParticipants2;}
	125	Float_t GetImpactParameter() const {return fImpactParameter;}
	126	Float_t GetVertexX() const {return fPrimaryVertexX;}
	127	Float_t GetVertexY() const {return fPrimaryVertexY;}
	128	Float_t GetVertexZ() const {return fPrimaryVertexZ;}
	129	Int_t GetVertexFlag() const {return fPrimaryVertexFlag;}
	130	Float_t GetVertexZError() const {return fPrimaryVertexZError;}
	131	ULong64_t GetTriggerMask() const {return fTriggerMask;}
	132	UChar_t GetTriggerCluster() const {return fTriggerCluster;}
	133	Float_t GetZDCNeutron1Energy() const {return fZDCNeutron1Energy;}
	134	Float_t GetZDCProton1Energy() const {return fZDCProton1Energy;}
	135	Float_t GetZDCNeutron2Energy() const {return fZDCNeutron2Energy;}
	136	Float_t GetZDCProton2Energy() const {return fZDCProton2Energy;}
	137	Float_t GetZDCEMEnergy(Int_t i) const {return fZDCEMEnergy[i];}
	138	Float_t GetT0VertexZ() const {return fT0VertexZ;}
	139	Int_t GetNumOfTracks() const {return fNumberOfTracks;}
	140	Int_t GetNumOfPosTracks() const {return fNumberOfPositiveTracks;}
	141	Int_t GetNumOfNegTracks() const {return fNumberOfNegativeTracks;}
	142	Int_t GetNumOfNeutrTracks() const {return fNumberOfNeutralTracks;}
	143	Int_t GetNumOfV0s() const {return fNumberOfV0s;}
	144	Int_t GetNumOfCascades() const {return fNumberOfCascades;}
	145	Int_t GetNumOfKinks() const {return fNumberOfKinks;}
	146	Int_t GetNumOfPMDTracks() const {return fNumberOfPMDTracks;}
	147	Int_t GetNumOfFMDTracks() const {return fNumberOfFMDTracks;}
	148	Int_t GetNumOfPHOSClusters() const {return fNumberOfPHOSClusters;}
	149	Int_t GetNumOfEMCALClusters() const {return fNumberOfEMCALClusters;}
	150	Int_t GetNumOfJetCandidates() const {return fNumberOfJetCandidates;}
	151	Int_t GetNumOfHardPhotonsCandidates() const {return fNumberOfHardPhotonsCandidates;}
	152	Float_t GetMaxJetEnergy() const {return fMaxJetEnergy;}
	153	Float_t GetMaxNeutralEnergy() const {return fMaxNeutralEnergy;}
	154	Int_t GetNumOfChargedAbove1GeV() const {return fNumberOfChargedAbove1GeV;}
	155	Int_t GetNumOfChargedAbove3GeV() const {return fNumberOfChargedAbove3GeV;}
	156	Int_t GetNumOfChargedAbove10GeV() const {return fNumberOfChargedAbove10GeV;}
	157	Int_t GetNumOfMuonsAbove1GeV() const {return fNumberOfMuonsAbove1GeV;}
	158	Int_t GetNumOfMuonsAbove3GeV() const {return fNumberOfMuonsAbove3GeV;}
	159	Int_t GetNumOfMuonsAbove10GeV() const {return fNumberOfMuonsAbove10GeV;}
	160	Int_t GetNumOfElectronsAbove1GeV() const {return fNumberOfElectronsAbove1GeV;}
	161	Int_t GetNumOfElectronsAbove3GeV() const {return fNumberOfElectronsAbove3GeV;}
	162	Int_t GetNumOfElectronsAbove10GeV() const {return fNumberOfElectronsAbove10GeV;}
	163	Int_t GetNumOfElectrons() const {return fNumberOfElectrons;}
	164	Int_t GetNumOfFWMuons() const {return fNumberOfFWMuons;}
	165	Int_t GetNumOfMuons() const {return fNumberOfMuons;}
	166	Int_t GetNumOfPions() const {return fNumberOfPions;}
	167	Int_t GetNumOfKaons() const {return fNumberOfKaons;}
	168	Int_t GetNumOfProtons() const {return fNumberOfProtons;}
	169	Int_t GetNumOfLambdas() const {return fNumberOfLambdas;}
	170	Int_t GetNumOfPhotons() const {return fNumberOfPhotons;}
	171	Int_t GetNumOfPi0s() const {return fNumberOfPi0s;}
	172	Int_t GetNumOfNeutrons() const {return fNumberOfNeutrons;}
	173	Int_t GetNumOfKaon0s() const {return fNumberOfKaon0s;}
	174	Float_t GetTotalMomentum() const {return fTotalP;}
	175	Float_t GetMeanPt() const {return fMeanPt;}
	176	Float_t GetMaxPt() const {return fMaxPt;}
	177	Float_t GetNeutralTotalMomentum() const {return fTotalNeutralP;}
	178	Float_t GetNeutralMeanPt() const {return fMeanNeutralPt;}
	179	Float_t GetNeutralMaxPt() const {return fMaxNeutralPt;}
	180	Float_t GetEventPlaneAngle() const {return fEventPlaneAngle;}
	181	Float_t GetHBTRadii() const {return fHBTRadii;}
	182
	183	//First physics
	184	Int_t GetNumberOfFiredChipsLayer1() const {return fNumberOfFiredChipsLayer1;}
	185	Int_t GetNumberOfFiredChipsLayer2() const {return fNumberOfFiredChipsLayer2;}
	186	Int_t GetNumberOfSPDTracklets() const {return fNumberOfSPDTracklets;}
	187
	188	UShort_t GetVZEROADC(Int_t n) const {return fVZEROADC[n];}
	189	UShort_t GetVZEROTime(Int_t n) const {return fVZEROTime[n];}
	190
	191	//____________________________________________________//
	192	private:
	193	UInt_t fPeriodNumber; //The period number
	194	UInt_t fOrbitNumber; //The orbit number
	195	UShort_t fBunchCrossNumber; //The BC number
	196	TString fFiredTriggerClasses; //List of the fired trigger class names
	197	UInt_t fEventType; //event type == 7 ==> PHYSICS_EVENT
	198
	199	TString fGUID; //The unique identifier of the file
	200	TString fPath; //The file's path (local storage)
	201	Long64_t fsize; //the size of the file
	202	TString fmd5; //another file identifier
	203	TString fturl; //the file's url
	204	Int_t fNumberOfParticipants; //Number of participants - side C
	205	Int_t fNumberOfParticipants2; //Number of participants - side A
	206	Float_t fImpactParameter; //The impact parameter
	207	Int_t fPrimaryVertexFlag; //Primary vertex flag: 0->not found, 1->found
	208	Float_t fPrimaryVertexX; //Primary vertex - X coordinate
	209	Float_t fPrimaryVertexY; //Primary vertex - Y coordinate
	210	Float_t fPrimaryVertexZ; //Primary vertex - Z coordinate
	211	Float_t fPrimaryVertexZError; //Primary vertex - Z coordinate - error
	212	ULong64_t fTriggerMask; //Information from trigger (trigger mask)
	213	UChar_t fTriggerCluster; // Trigger cluster (mask)
	214	Float_t fZDCNeutron1Energy; //ZDC info - neutron
	215	Float_t fZDCProton1Energy; //ZDC info - proton
	216	Float_t fZDCNeutron2Energy; //ZDC info - neutron
	217	Float_t fZDCProton2Energy; //ZDC info - proton
	218	Float_t fZDCEMEnergy[2]; //ZDC info - em
	219	Float_t fT0VertexZ; //T0 info
	220	Int_t fNumberOfTracks; //Multiplicity
	221	Int_t fNumberOfPositiveTracks; //Multiplicity of positive tracks
	222	Int_t fNumberOfNegativeTracks; //Multiplicity of negative tracks
	223	Int_t fNumberOfNeutralTracks; //Multiplicity of neutral tracks
	224	Int_t fNumberOfV0s; //Number of V0s
	225	Int_t fNumberOfCascades; //Number of cascades
	226	Int_t fNumberOfKinks; //Number of kinks
	227	Int_t fNumberOfPMDTracks; //PMD tracks
	228	Int_t fNumberOfFMDTracks; //FMD tracks
	229	Int_t fNumberOfPHOSClusters; //PHOS clusters
	230	Int_t fNumberOfEMCALClusters; //EMCAL clusters
	231	Int_t fNumberOfJetCandidates; //Jet candidates
	232	Float_t fMaxJetEnergy; //jet energy info
	233	Int_t fNumberOfHardPhotonsCandidates; //Hard photons candidates
	234	Float_t fMaxNeutralEnergy; //neutral energy info
	235	Int_t fNumberOfChargedAbove1GeV; //Number of charged above 1 GeV/c
	236	Int_t fNumberOfChargedAbove3GeV; //Number of charged above 3 GeV/c
	237	Int_t fNumberOfChargedAbove10GeV; //Number of charged above 10 GeV/c
	238	Int_t fNumberOfMuonsAbove1GeV; //Number of muons above 1 GeV/c
	239	Int_t fNumberOfMuonsAbove3GeV; //Number of muons above 3 GeV/c
	240	Int_t fNumberOfMuonsAbove10GeV; //Number of muons above 10 GeV/c
	241	Int_t fNumberOfElectronsAbove1GeV; //Number of electrons above 1 GeV/c
	242	Int_t fNumberOfElectronsAbove3GeV; //Number of electrons above 3 GeV/c
	243	Int_t fNumberOfElectronsAbove10GeV; //Number of electrons above 10 GeV/c
	244	Int_t fNumberOfElectrons; //Number of electrons
	245	Int_t fNumberOfFWMuons; //Number of forward muons
	246	Int_t fNumberOfMuons; //Number of muons
	247	Int_t fNumberOfPions; //Number of pions
	248	Int_t fNumberOfKaons; //Number of kaons
	249	Int_t fNumberOfProtons; //Number of protons
	250	Int_t fNumberOfLambdas; //Number of lambdas
	251	Int_t fNumberOfPhotons; //Number of photons
	252	Int_t fNumberOfPi0s; //Number of pi0
	253	Int_t fNumberOfNeutrons; //Number of neutrons
	254	Int_t fNumberOfKaon0s; //Number of Ks
	255	Float_t fTotalP; //Sum of the momentum per event
	256	Float_t fMeanPt; //Mean Pt per event
	257	Float_t fMaxPt; //Max Pt for each event
	258	Float_t fTotalNeutralP; //Sum of the momentum per event for neutral
	259	Float_t fMeanNeutralPt; //Mean Pt per event for neutral
	260	Float_t fMaxNeutralPt; //Max Pt for each event for neutral
	261	Float_t fEventPlaneAngle; //event plane info
	262	Float_t fHBTRadii; //HBT info
	263
	264	//First physics
	265	Int_t fNumberOfFiredChipsLayer1; //number of fired chips - layer 1
	266	Int_t fNumberOfFiredChipsLayer2; //number of fired chips - layer 2
	267	Int_t fNumberOfSPDTracklets; //number of SPD tracklets
	268
	269	UShort_t fVZEROADC[64]; //V0 raw adc values
	270	Bool_t fVZEROTime[64]; //Flag if V0 TDC time measured
	271
	272	ClassDef(AliEventTag,11) //(ClassName, ClassVersion)
	273	};
	274	//___________________________________________________________________________
	275
	276
	277	#endif