[u/mrichter/AliRoot.git] / PWG4 / totEt / AliAnalysisEtCuts.h

#ifndef ALIANALYSISETCUTS_H
#define ALIANALYSISETCUTS_H
//_________________________________________________________________________
//  Utility Class for transverse energy studies
//  Base class for ESD & MC analysis
//  - cuts for reconstruction and MonteCarlo 
//  
//*-- Authors: Oystein Djuvsland (Bergen), David Silvermyr (ORNL)
//_________________________________________________________________________

#include "TNamed.h"

class AliAnalysisEtCuts : public TNamed
{
 public:
   
  AliAnalysisEtCuts();
  virtual ~AliAnalysisEtCuts();

  virtual void SetPbPbDefaults();

  // Getters
  // Common
  Double_t GetCommonEtaCut() const { return fCommonEtaCut; }
  Double_t GetCommonClusterEnergyCut() const { return fCommonClusterEnergyCut; }
  Double_t GetCommonTrackPtCut() const { return fCommonTrackPtCut; }
  Int_t GetCommonSingleCell() const { return fCommonSingleCell; }

  // GeometryPhos
  Double_t GetGeometryPhosEtaAccCut() const { return fGeometryPhosEtaAccCut; }
  Double_t GetGeometryPhosPhiAccMinCut() const { return fGeometryPhosPhiAccMinCut; }
  Double_t GetGeometryPhosPhiAccMaxCut() const { return fGeometryPhosPhiAccMaxCut; }
  Double_t GetGeometryPhosDetectorRadius() const { return fGeometryPhosDetectorRadius; }
  // GeometryEmcal
  Double_t GetGeometryEmcalEtaAccCut() const { return fGeometryEmcalEtaAccCut; }
  Double_t GetGeometryEmcalPhiAccMinCut() const { return fGeometryEmcalPhiAccMinCut; }
  Double_t GetGeometryEmcalPhiAccMaxCut() const { return fGeometryEmcalPhiAccMaxCut; }
  Double_t GetGeometryEmcalDetectorRadius() const { return fGeometryEmcalDetectorRadius; }
  // Reconstructed
  Double_t GetReconstructedVertexXCut() const { return fReconstructedVertexXCut; }
  Double_t GetReconstructedVertexYCut() const { return fReconstructedVertexYCut; }
  Double_t GetReconstructedVertexZCut() const { return fReconstructedVertexZCut; }
  Double_t GetReconstructedIPxyCut() const { return fReconstructedIPxyCut; }
  Double_t GetReconstructedIPzCut() const { return fReconstructedIPzCut; }
  Int_t GetReconstructedNTpcClustersCut() const { return fReconstructedNTpcClustersCut; }
  Int_t GetReconstructedNItsClustersCut() const { return fReconstructedNItsClustersCut; }
  Double_t GetReconstructedPidCut() const { return fReconstructedPidCut; }
  // ReconstructedPhos
  Char_t GetReconstructedPhosClusterType() const { return fReconstructedPhosClusterType; }
  Double_t GetReconstructedPhosClusterEnergyCut() const { return fReconstructedPhosClusterEnergyCut; }
  Double_t GetReconstructedPhosSingleCellEnergyCut() const { return fReconstructedPhosSingleCellEnergyCut; }
  Double_t GetPhosTrackDistanceCut() const { return fPhosTrackDistanceCut; }
  Double_t GetPhosTrackDxCut() const { return fPhosTrackDxCut; }
  Double_t GetPhosTrackDzCut() const { return fPhosTrackDzCut; }
  // ReconstructedEmcal
  Char_t GetReconstructedEmcalClusterType() const { return fReconstructedEmcalClusterType; }
  Double_t GetReconstructedEmcalClusterEnergyCut() const { return fReconstructedEmcalClusterEnergyCut; }
  Double_t GetReconstructedEmcalSingleCellEnergyCut() const { return fReconstructedEmcalSingleCellEnergyCut; }
  Double_t GetEmcalTrackDistanceCut() const { return fEmcalTrackDistanceCut; }
  Double_t GetEmcalTrackDxCut() const { return fEmcalTrackDxCut; }
  Double_t GetEmcalTrackDzCut() const { return fEmcalTrackDzCut; }
  
  // MonteCarlo
  Double_t GetMonteCarloSingleChargedParticle() const { return fMonteCarloSingleChargedParticle; }
  Double_t GetMonteCarloNeutralParticle() const { return fMonteCarloNeutralParticle; }
  // Hist: TTree and histogram info
  Bool_t GetHistMakeTree() const { return fHistMakeTree; }
  Bool_t GetHistMakeTreeDeposit() const { return fHistMakeTreeDeposit; }
  //
  Int_t GetHistNbinsMult() const { return fHistNbinsMult; }
  Double_t GetHistMinMult() const { return fHistMinMult; }
  Double_t GetHistMaxMult() const { return fHistMaxMult; }
  //
  Int_t GetHistNbinsTotEt() const { return fHistNbinsTotEt; }
  Double_t GetHistMinTotEt() const { return fHistMinTotEt; }
  Double_t GetHistMaxTotEt() const { return fHistMaxTotEt; }
  //
  Int_t GetHistNbinsParticleEt() const { return fHistNbinsParticleEt; }
  Double_t GetHistMinParticleEt() const { return fHistMinParticleEt; }
  Double_t GetHistMaxParticleEt() const { return fHistMaxParticleEt; }
  //
  Int_t GetHistNbinsParticlePt() const { return fHistNbinsParticlePt; }
  Double_t GetHistMinParticlePt() const { return fHistMinParticlePt; }
  Double_t GetHistMaxParticlePt() const { return fHistMaxParticlePt; }
  
  Short_t GetDetectorPhos() const { return fgkDetectorPhos; }
  Short_t GetDetectorEmcal() const { return fgkDetectorEmcal; }

  // Setters
  // Common
  void SetCommonEtaCut(const Double_t val) { fCommonEtaCut = val; }
  void SetCommonClusterEnergyCut(const Double_t val) { fCommonClusterEnergyCut = val; }
  void SetCommonTrackPtCut(const Double_t val) { fCommonTrackPtCut = val; }
  void SetCommonSingleCell(const Int_t val) { fCommonSingleCell = val;}
  // GeometryPhos
  void SetGeometryPhosEtaAccCut(const Double_t val) { fGeometryPhosEtaAccCut = val; }
  void SetGeometryPhosPhiAccMinCut(const Double_t val) { fGeometryPhosPhiAccMinCut = val; }
  void SetGeometryPhosPhiAccMaxCut(const Double_t val) { fGeometryPhosPhiAccMaxCut = val; }
  void SetGeometryPhosDetectorRadius(const Double_t val) { fGeometryPhosDetectorRadius = val; }
  // GeometryEmcal
  void SetGeometryEmcalEtaAccCut(const Double_t val) { fGeometryEmcalEtaAccCut = val; }
  void SetGeometryEmcalPhiAccMinCut(const Double_t val) { fGeometryEmcalPhiAccMinCut = val; }
  void SetGeometryEmcalPhiAccMaxCut(const Double_t val) { fGeometryEmcalPhiAccMaxCut = val; }
  void SetGeometryEmcalDetectorRadius(const Double_t val) { fGeometryEmcalDetectorRadius = val; }
  // Reconstructed
  void SetReconstructedVertexXCut(const Double_t val) { fReconstructedVertexXCut = val; }
  void SetReconstructedVertexYCut(const Double_t val) { fReconstructedVertexYCut = val; }
  void SetReconstructedVertexZCut(const Double_t val) { fReconstructedVertexZCut = val; }
  void SetReconstructedIPxyCut(const Double_t val) { fReconstructedIPxyCut = val; }
  void SetReconstructedIPzCut(const Double_t val) { fReconstructedIPzCut = val; }
  void SetReconstructedNTpcClustersCut(const Int_t val) { fReconstructedNTpcClustersCut = val; }
  void SetReconstructedNItsClustersCut(const Int_t val) { fReconstructedNItsClustersCut = val; }
  void SetReconstrucedPidCut(const Double_t val) { fReconstructedPidCut = val; }
  // ReconstructedPhos
  void SetReconstructedPhosClusterType(const Char_t val) { fReconstructedPhosClusterType = val; }
  void SetReconstructedPhosClusterEnergyCut(const Double_t val) { fReconstructedPhosClusterEnergyCut = val; }
  void SetReconstructedPhosSingleCellEnergyCut(const Double_t val) { fReconstructedPhosSingleCellEnergyCut = val; }
  void SetPhosTrackDistanceCut(const Double_t val) { fPhosTrackDistanceCut = val; }
  void SetPhosTrackDxCut(const Double_t val) { fPhosTrackDxCut = val; }
  void SetPhosTrackDzCut(const Double_t val) { fPhosTrackDzCut = val; }
  
  // ReconstructedEmcal
  void SetReconstructedEmcalClusterType(const Char_t val) { fReconstructedEmcalClusterType = val; }
  void SetReconstructedEmcalClusterEnergyCut(const Double_t val) { fReconstructedEmcalClusterEnergyCut = val; }
  void SetReconstructedEmcalSingleCellEnergyCut(const Double_t val) { fReconstructedEmcalSingleCellEnergyCut = val; }
  void SetEmcalTrackDistanceCut(const Double_t val) { fEmcalTrackDistanceCut = val; }
  // MonteCarlo
  void SetMonteCarloSingleChargedParticle(const Double_t val) { fMonteCarloSingleChargedParticle = val; }
  void SetMonteCarloNeutralParticle(const Double_t val) { fMonteCarloNeutralParticle = val; }
  // Hist: TTree and histogram info
  void SetHistMakeTree(const Bool_t val) { fHistMakeTree = val; }
  void SetHistMakeTreeDeposit(const Bool_t val) { fHistMakeTreeDeposit = val; }
  //
  void SetHistNbinsMult(const Int_t val) { fHistNbinsMult = val; }
  void SetHistMinMult(const Double_t val) { fHistMinMult = val; }
  void SetHistMaxMult(const Double_t val) { fHistMaxMult = val; }
  //
  void SetHistNbinsTotEt(const Int_t val) { fHistNbinsTotEt = val; }
  void SetHistMinTotEt(const Double_t val) { fHistMinTotEt = val; }
  void SetHistMaxTotEt(const Double_t val) { fHistMaxTotEt = val; }
  //
  void SetHistNbinsParticleEt(const Int_t val) { fHistNbinsParticleEt = val; }
  void SetHistMinParticleEt(const Double_t val) { fHistMinParticleEt = val; }
  void SetHistMaxParticleEt(const Double_t val) { fHistMaxParticleEt = val; }
  //
  void SetHistNbinsParticlePt(const Int_t val) { fHistNbinsParticlePt = val; }
  void SetHistMinParticlePt(const Double_t val) { fHistMinParticlePt = val; }
  void SetHistMaxParticlePt(const Double_t val) { fHistMaxParticlePt = val; }


 protected:

  // Common   
  Double_t fCommonEtaCut; // Eta cut
  Double_t fCommonClusterEnergyCut; // Cluster Energy cut
  Double_t fCommonTrackPtCut; // Track Pt
  Int_t fCommonSingleCell; // Single Cell (1)
  Double_t fEmcalTrackDistanceCut; // EMCal track distance
  Double_t fEmcalTrackDxCut; // EMCal track distance in x 
  Double_t fEmcalTrackDzCut; // EMCal track distance in z
  
  Double_t fPhosTrackDistanceCut; // PHOS track distance  
  Double_t fPhosTrackDxCut; // PHOS track distance in x
  Double_t fPhosTrackDzCut; // PHOS track distance  in z
  
  // GeometryPhos
  Double_t fGeometryPhosEtaAccCut; // PHOS Eta Acc cut
  Double_t fGeometryPhosPhiAccMinCut; // PHOS Phi Acc Min cut
  Double_t fGeometryPhosPhiAccMaxCut; // PHOS Phi Acc Max cut
  Double_t fGeometryPhosDetectorRadius; // PHOS Detector Radius 

  // GeometryEmcal
  Double_t fGeometryEmcalEtaAccCut; // EMCal Eta Acc cut
  Double_t fGeometryEmcalPhiAccMinCut; // EMCal Phi Acc Min cut
  Double_t fGeometryEmcalPhiAccMaxCut; // EMCal Phi Acc Max cut
  Double_t fGeometryEmcalDetectorRadius; // EMCal Detector Radius

  // Reconstructed
  Double_t fReconstructedVertexXCut; // vertex X cut
  Double_t fReconstructedVertexYCut; // vertex Y cut
  Double_t fReconstructedVertexZCut; // vertex Z cut
  Double_t fReconstructedIPxyCut; // IP xy cut
  Double_t fReconstructedIPzCut; // IP z cut
  Int_t fReconstructedNTpcClustersCut; // # of TPC clusters cut
  Int_t fReconstructedNItsClustersCut; // # of ITS clusters cut
  Double_t fReconstructedPidCut; // cut on pid prob

  // ReconstructedPhos
  Char_t fReconstructedPhosClusterType; // PHOS cluster type
  Double_t fReconstructedPhosClusterEnergyCut; // PHOS cluster energy
  Double_t fReconstructedPhosSingleCellEnergyCut; // PHOS single cell energy
  Double_t fReconstructedPhosTrackDistanceTightCut; // PHOS track distance
  Double_t fReconstructedPhosTrackDistanceMediumCut; // PHOS track distance
  Double_t fReconstructedPhosTrackDistanceLooseCut; // PHOS track distance

  // ReconstructedEmcal
  Char_t fReconstructedEmcalClusterType; // EMCal cluster type
  Double_t fReconstructedEmcalClusterEnergyCut; // EMCal cluster energy
  Double_t fReconstructedEmcalSingleCellEnergyCut; // EMCal single cell energy
  Double_t fReconstructedEmcalTrackDistanceTightCut; // EMCAL track distance
  Double_t fReconstructedEmcalTrackDistanceMediumCut; // EMCAL track distance
  Double_t fReconstructedEmcalTrackDistanceLooseCut; // EMCAL track distance

  // MonteCarlo
  Double_t fMonteCarloSingleChargedParticle; // MC charged
  Double_t fMonteCarloNeutralParticle; // MC neutral

  // Hist: TTree and histogram info
  Bool_t fHistMakeTree; // whether to make a summary tree or not
  Bool_t fHistMakeTreeDeposit; // whether to make a summary tree of energy deposit or not
  
  Int_t fHistNbinsMult; // number of bins in multiplicity histograms
  Double_t fHistMinMult; // minimum value in multiplicity histograms
  Double_t fHistMaxMult; // maximum value in multiplicity histograms

  Int_t fHistNbinsTotEt; // number of bins in event Et histograms
  Double_t fHistMinTotEt; // minimum value in event Et histograms
  Double_t fHistMaxTotEt; // maximum value in event Et histograms

  Int_t fHistNbinsParticleEt; // number of bins in particle Et histograms
  Double_t fHistMinParticleEt; // minimum value in particle Et histograms
  Double_t fHistMaxParticleEt; // maximum value in particle Et histograms

  Int_t fHistNbinsParticlePt; // number of bins in particle Pt histograms
  Double_t fHistMinParticlePt; // minimum value in particle Pt histograms
  Double_t fHistMaxParticlePt; // maximum value in particle Pt histograms

// Detector definition
  static const Short_t fgkDetectorPhos = -1; // PHOS 
  static const Short_t fgkDetectorEmcal = 1; // EMCAL 

private:
  //Declare private to avoid compilation warning
  AliAnalysisEtCuts & operator = (const AliAnalysisEtCuts & g) ;//copy assignment
  AliAnalysisEtCuts(const AliAnalysisEtCuts & g) ; // copy ctor

  ClassDef(AliAnalysisEtCuts, 1);
};

#endif // ALIANALYSISETCUTS_H
Commit	Line	Data
4998becf	1	#ifndef ALIANALYSISETCUTS_H
	2	#define ALIANALYSISETCUTS_H
	3	//_________________________________________________________________________
	4	// Utility Class for transverse energy studies
	5	// Base class for ESD & MC analysis
	6	// - cuts for reconstruction and MonteCarlo
	7	//
	8	//*-- Authors: Oystein Djuvsland (Bergen), David Silvermyr (ORNL)
	9	//_________________________________________________________________________
2fbf38ac	10
4998becf	11	#include "TNamed.h"
2fbf38ac	12
4998becf	13	class AliAnalysisEtCuts : public TNamed
2fbf38ac	14	{
4998becf	15	public:
2fbf38ac	16
4998becf	17	AliAnalysisEtCuts();
4998becf	18	virtual ~AliAnalysisEtCuts();
2fbf38ac	19
0fa8c632	20	virtual void SetPbPbDefaults();
0fa8c632	21
4998becf	22	// Getters
	23	// Common
	24	Double_t GetCommonEtaCut() const { return fCommonEtaCut; }
	25	Double_t GetCommonClusterEnergyCut() const { return fCommonClusterEnergyCut; }
	26	Double_t GetCommonTrackPtCut() const { return fCommonTrackPtCut; }
	27	Int_t GetCommonSingleCell() const { return fCommonSingleCell; }
e16aac77	28
4998becf	29	// GeometryPhos
	30	Double_t GetGeometryPhosEtaAccCut() const { return fGeometryPhosEtaAccCut; }
	31	Double_t GetGeometryPhosPhiAccMinCut() const { return fGeometryPhosPhiAccMinCut; }
	32	Double_t GetGeometryPhosPhiAccMaxCut() const { return fGeometryPhosPhiAccMaxCut; }
	33	Double_t GetGeometryPhosDetectorRadius() const { return fGeometryPhosDetectorRadius; }
	34	// GeometryEmcal
	35	Double_t GetGeometryEmcalEtaAccCut() const { return fGeometryEmcalEtaAccCut; }
	36	Double_t GetGeometryEmcalPhiAccMinCut() const { return fGeometryEmcalPhiAccMinCut; }
	37	Double_t GetGeometryEmcalPhiAccMaxCut() const { return fGeometryEmcalPhiAccMaxCut; }
	38	Double_t GetGeometryEmcalDetectorRadius() const { return fGeometryEmcalDetectorRadius; }
	39	// Reconstructed
	40	Double_t GetReconstructedVertexXCut() const { return fReconstructedVertexXCut; }
	41	Double_t GetReconstructedVertexYCut() const { return fReconstructedVertexYCut; }
	42	Double_t GetReconstructedVertexZCut() const { return fReconstructedVertexZCut; }
	43	Double_t GetReconstructedIPxyCut() const { return fReconstructedIPxyCut; }
	44	Double_t GetReconstructedIPzCut() const { return fReconstructedIPzCut; }
	45	Int_t GetReconstructedNTpcClustersCut() const { return fReconstructedNTpcClustersCut; }
	46	Int_t GetReconstructedNItsClustersCut() const { return fReconstructedNItsClustersCut; }
e16aac77	47	Double_t GetReconstructedPidCut() const { return fReconstructedPidCut; }
4998becf	48	// ReconstructedPhos
	49	Char_t GetReconstructedPhosClusterType() const { return fReconstructedPhosClusterType; }
	50	Double_t GetReconstructedPhosClusterEnergyCut() const { return fReconstructedPhosClusterEnergyCut; }
	51	Double_t GetReconstructedPhosSingleCellEnergyCut() const { return fReconstructedPhosSingleCellEnergyCut; }
393b8149	52	Double_t GetPhosTrackDistanceCut() const { return fPhosTrackDistanceCut; }
	53	Double_t GetPhosTrackDxCut() const { return fPhosTrackDxCut; }
	54	Double_t GetPhosTrackDzCut() const { return fPhosTrackDzCut; }
4998becf	55	// ReconstructedEmcal
	56	Char_t GetReconstructedEmcalClusterType() const { return fReconstructedEmcalClusterType; }
	57	Double_t GetReconstructedEmcalClusterEnergyCut() const { return fReconstructedEmcalClusterEnergyCut; }
	58	Double_t GetReconstructedEmcalSingleCellEnergyCut() const { return fReconstructedEmcalSingleCellEnergyCut; }
393b8149	59	Double_t GetEmcalTrackDistanceCut() const { return fEmcalTrackDistanceCut; }
	60	Double_t GetEmcalTrackDxCut() const { return fEmcalTrackDxCut; }
	61	Double_t GetEmcalTrackDzCut() const { return fEmcalTrackDzCut; }
	62
4998becf	63	// MonteCarlo
	64	Double_t GetMonteCarloSingleChargedParticle() const { return fMonteCarloSingleChargedParticle; }
	65	Double_t GetMonteCarloNeutralParticle() const { return fMonteCarloNeutralParticle; }
ce546038	66	// Hist: TTree and histogram info
ce546038	67	Bool_t GetHistMakeTree() const { return fHistMakeTree; }
8ea99ab0	68	Bool_t GetHistMakeTreeDeposit() const { return fHistMakeTreeDeposit; }
0fa8c632	69	//
	70	Int_t GetHistNbinsMult() const { return fHistNbinsMult; }
	71	Double_t GetHistMinMult() const { return fHistMinMult; }
d2b935c4	72	Double_t GetHistMaxMult() const { return fHistMaxMult; }
0fa8c632	73	//
	74	Int_t GetHistNbinsTotEt() const { return fHistNbinsTotEt; }
	75	Double_t GetHistMinTotEt() const { return fHistMinTotEt; }
	76	Double_t GetHistMaxTotEt() const { return fHistMaxTotEt; }
	77	//
	78	Int_t GetHistNbinsParticleEt() const { return fHistNbinsParticleEt; }
	79	Double_t GetHistMinParticleEt() const { return fHistMinParticleEt; }
	80	Double_t GetHistMaxParticleEt() const { return fHistMaxParticleEt; }
	81	//
	82	Int_t GetHistNbinsParticlePt() const { return fHistNbinsParticlePt; }
d2b935c4	83	Double_t GetHistMinParticlePt() const { return fHistMinParticlePt; }
0fa8c632	84	Double_t GetHistMaxParticlePt() const { return fHistMaxParticlePt; }
393b8149	85
537e541d	86	Short_t GetDetectorPhos() const { return fgkDetectorPhos; }
537e541d	87	Short_t GetDetectorEmcal() const { return fgkDetectorEmcal; }
2fbf38ac	88
4998becf	89	// Setters
	90	// Common
	91	void SetCommonEtaCut(const Double_t val) { fCommonEtaCut = val; }
	92	void SetCommonClusterEnergyCut(const Double_t val) { fCommonClusterEnergyCut = val; }
	93	void SetCommonTrackPtCut(const Double_t val) { fCommonTrackPtCut = val; }
	94	void SetCommonSingleCell(const Int_t val) { fCommonSingleCell = val;}
	95	// GeometryPhos
	96	void SetGeometryPhosEtaAccCut(const Double_t val) { fGeometryPhosEtaAccCut = val; }
	97	void SetGeometryPhosPhiAccMinCut(const Double_t val) { fGeometryPhosPhiAccMinCut = val; }
	98	void SetGeometryPhosPhiAccMaxCut(const Double_t val) { fGeometryPhosPhiAccMaxCut = val; }
	99	void SetGeometryPhosDetectorRadius(const Double_t val) { fGeometryPhosDetectorRadius = val; }
	100	// GeometryEmcal
	101	void SetGeometryEmcalEtaAccCut(const Double_t val) { fGeometryEmcalEtaAccCut = val; }
	102	void SetGeometryEmcalPhiAccMinCut(const Double_t val) { fGeometryEmcalPhiAccMinCut = val; }
	103	void SetGeometryEmcalPhiAccMaxCut(const Double_t val) { fGeometryEmcalPhiAccMaxCut = val; }
	104	void SetGeometryEmcalDetectorRadius(const Double_t val) { fGeometryEmcalDetectorRadius = val; }
	105	// Reconstructed
	106	void SetReconstructedVertexXCut(const Double_t val) { fReconstructedVertexXCut = val; }
	107	void SetReconstructedVertexYCut(const Double_t val) { fReconstructedVertexYCut = val; }
	108	void SetReconstructedVertexZCut(const Double_t val) { fReconstructedVertexZCut = val; }
	109	void SetReconstructedIPxyCut(const Double_t val) { fReconstructedIPxyCut = val; }
	110	void SetReconstructedIPzCut(const Double_t val) { fReconstructedIPzCut = val; }
	111	void SetReconstructedNTpcClustersCut(const Int_t val) { fReconstructedNTpcClustersCut = val; }
	112	void SetReconstructedNItsClustersCut(const Int_t val) { fReconstructedNItsClustersCut = val; }
e16aac77	113	void SetReconstrucedPidCut(const Double_t val) { fReconstructedPidCut = val; }
4998becf	114	// ReconstructedPhos
	115	void SetReconstructedPhosClusterType(const Char_t val) { fReconstructedPhosClusterType = val; }
	116	void SetReconstructedPhosClusterEnergyCut(const Double_t val) { fReconstructedPhosClusterEnergyCut = val; }
	117	void SetReconstructedPhosSingleCellEnergyCut(const Double_t val) { fReconstructedPhosSingleCellEnergyCut = val; }
393b8149	118	void SetPhosTrackDistanceCut(const Double_t val) { fPhosTrackDistanceCut = val; }
	119	void SetPhosTrackDxCut(const Double_t val) { fPhosTrackDxCut = val; }
	120	void SetPhosTrackDzCut(const Double_t val) { fPhosTrackDzCut = val; }
	121
4998becf	122	// ReconstructedEmcal
	123	void SetReconstructedEmcalClusterType(const Char_t val) { fReconstructedEmcalClusterType = val; }
	124	void SetReconstructedEmcalClusterEnergyCut(const Double_t val) { fReconstructedEmcalClusterEnergyCut = val; }
	125	void SetReconstructedEmcalSingleCellEnergyCut(const Double_t val) { fReconstructedEmcalSingleCellEnergyCut = val; }
393b8149	126	void SetEmcalTrackDistanceCut(const Double_t val) { fEmcalTrackDistanceCut = val; }
4998becf	127	// MonteCarlo
	128	void SetMonteCarloSingleChargedParticle(const Double_t val) { fMonteCarloSingleChargedParticle = val; }
	129	void SetMonteCarloNeutralParticle(const Double_t val) { fMonteCarloNeutralParticle = val; }
ce546038	130	// Hist: TTree and histogram info
ce546038	131	void SetHistMakeTree(const Bool_t val) { fHistMakeTree = val; }
8ea99ab0	132	void SetHistMakeTreeDeposit(const Bool_t val) { fHistMakeTreeDeposit = val; }
0fa8c632	133	//
	134	void SetHistNbinsMult(const Int_t val) { fHistNbinsMult = val; }
	135	void SetHistMinMult(const Double_t val) { fHistMinMult = val; }
	136	void SetHistMaxMult(const Double_t val) { fHistMaxMult = val; }
	137	//
	138	void SetHistNbinsTotEt(const Int_t val) { fHistNbinsTotEt = val; }
	139	void SetHistMinTotEt(const Double_t val) { fHistMinTotEt = val; }
	140	void SetHistMaxTotEt(const Double_t val) { fHistMaxTotEt = val; }
	141	//
	142	void SetHistNbinsParticleEt(const Int_t val) { fHistNbinsParticleEt = val; }
	143	void SetHistMinParticleEt(const Double_t val) { fHistMinParticleEt = val; }
	144	void SetHistMaxParticleEt(const Double_t val) { fHistMaxParticleEt = val; }
	145	//
	146	void SetHistNbinsParticlePt(const Int_t val) { fHistNbinsParticlePt = val; }
	147	void SetHistMinParticlePt(const Double_t val) { fHistMinParticlePt = val; }
	148	void SetHistMaxParticlePt(const Double_t val) { fHistMaxParticlePt = val; }
	149
2fbf38ac	150
4998becf	151	protected:
2fbf38ac	152
4998becf	153	// Common
	154	Double_t fCommonEtaCut; // Eta cut
	155	Double_t fCommonClusterEnergyCut; // Cluster Energy cut
	156	Double_t fCommonTrackPtCut; // Track Pt
	157	Int_t fCommonSingleCell; // Single Cell (1)
393b8149	158	Double_t fEmcalTrackDistanceCut; // EMCal track distance
	159	Double_t fEmcalTrackDxCut; // EMCal track distance in x
	160	Double_t fEmcalTrackDzCut; // EMCal track distance in z
	161
	162	Double_t fPhosTrackDistanceCut; // PHOS track distance
	163	Double_t fPhosTrackDxCut; // PHOS track distance in x
	164	Double_t fPhosTrackDzCut; // PHOS track distance in z
e16aac77	165
4998becf	166	// GeometryPhos
	167	Double_t fGeometryPhosEtaAccCut; // PHOS Eta Acc cut
	168	Double_t fGeometryPhosPhiAccMinCut; // PHOS Phi Acc Min cut
	169	Double_t fGeometryPhosPhiAccMaxCut; // PHOS Phi Acc Max cut
	170	Double_t fGeometryPhosDetectorRadius; // PHOS Detector Radius
2fbf38ac	171
4998becf	172	// GeometryEmcal
	173	Double_t fGeometryEmcalEtaAccCut; // EMCal Eta Acc cut
	174	Double_t fGeometryEmcalPhiAccMinCut; // EMCal Phi Acc Min cut
	175	Double_t fGeometryEmcalPhiAccMaxCut; // EMCal Phi Acc Max cut
	176	Double_t fGeometryEmcalDetectorRadius; // EMCal Detector Radius
	177
	178	// Reconstructed
	179	Double_t fReconstructedVertexXCut; // vertex X cut
	180	Double_t fReconstructedVertexYCut; // vertex Y cut
	181	Double_t fReconstructedVertexZCut; // vertex Z cut
	182	Double_t fReconstructedIPxyCut; // IP xy cut
	183	Double_t fReconstructedIPzCut; // IP z cut
	184	Int_t fReconstructedNTpcClustersCut; // # of TPC clusters cut
	185	Int_t fReconstructedNItsClustersCut; // # of ITS clusters cut
e16aac77	186	Double_t fReconstructedPidCut; // cut on pid prob
4998becf	187
	188	// ReconstructedPhos
	189	Char_t fReconstructedPhosClusterType; // PHOS cluster type
	190	Double_t fReconstructedPhosClusterEnergyCut; // PHOS cluster energy
	191	Double_t fReconstructedPhosSingleCellEnergyCut; // PHOS single cell energy
393b8149	192	Double_t fReconstructedPhosTrackDistanceTightCut; // PHOS track distance
	193	Double_t fReconstructedPhosTrackDistanceMediumCut; // PHOS track distance
	194	Double_t fReconstructedPhosTrackDistanceLooseCut; // PHOS track distance
4998becf	195
	196	// ReconstructedEmcal
	197	Char_t fReconstructedEmcalClusterType; // EMCal cluster type
	198	Double_t fReconstructedEmcalClusterEnergyCut; // EMCal cluster energy
	199	Double_t fReconstructedEmcalSingleCellEnergyCut; // EMCal single cell energy
393b8149	200	Double_t fReconstructedEmcalTrackDistanceTightCut; // EMCAL track distance
	201	Double_t fReconstructedEmcalTrackDistanceMediumCut; // EMCAL track distance
	202	Double_t fReconstructedEmcalTrackDistanceLooseCut; // EMCAL track distance
4998becf	203
	204	// MonteCarlo
	205	Double_t fMonteCarloSingleChargedParticle; // MC charged
	206	Double_t fMonteCarloNeutralParticle; // MC neutral
	207
ce546038	208	// Hist: TTree and histogram info
ce546038	209	Bool_t fHistMakeTree; // whether to make a summary tree or not
8ea99ab0	210	Bool_t fHistMakeTreeDeposit; // whether to make a summary tree of energy deposit or not
8ea99ab0	211
0fa8c632	212	Int_t fHistNbinsMult; // number of bins in multiplicity histograms
	213	Double_t fHistMinMult; // minimum value in multiplicity histograms
	214	Double_t fHistMaxMult; // maximum value in multiplicity histograms
	215
	216	Int_t fHistNbinsTotEt; // number of bins in event Et histograms
	217	Double_t fHistMinTotEt; // minimum value in event Et histograms
	218	Double_t fHistMaxTotEt; // maximum value in event Et histograms
	219
	220	Int_t fHistNbinsParticleEt; // number of bins in particle Et histograms
	221	Double_t fHistMinParticleEt; // minimum value in particle Et histograms
	222	Double_t fHistMaxParticleEt; // maximum value in particle Et histograms
	223
	224	Int_t fHistNbinsParticlePt; // number of bins in particle Pt histograms
	225	Double_t fHistMinParticlePt; // minimum value in particle Pt histograms
	226	Double_t fHistMaxParticlePt; // maximum value in particle Pt histograms
ce546038	227
393b8149	228	// Detector definition
537e541d	229	static const Short_t fgkDetectorPhos = -1; // PHOS
537e541d	230	static const Short_t fgkDetectorEmcal = 1; // EMCAL
393b8149	231
4998becf	232	private:
	233	//Declare private to avoid compilation warning
	234	AliAnalysisEtCuts & operator = (const AliAnalysisEtCuts & g) ;//copy assignment
	235	AliAnalysisEtCuts(const AliAnalysisEtCuts & g) ; // copy ctor
	236
e573e46d	237	ClassDef(AliAnalysisEtCuts, 1);
2fbf38ac	238	};
2fbf38ac	239
4998becf	240	#endif // ALIANALYSISETCUTS_H