[u/mrichter/AliRoot.git] / PWG4 / JetTasks / AliUEHistograms.h

#ifndef AliUEHistograms_H
#define AliUEHistograms_H

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

/* $Id: AliUEHistograms.h 20164 2007-08-14 15:31:50Z morsch $ */

// encapsulates several AliUEHist objects for a full UE analysis plus additional control histograms

#include "TNamed.h"
#include "AliUEHist.h"

class AliVParticle;

class TList;
class TSeqCollection;
class TH1F;
class TH2F;
class TH3F;

class AliUEHistograms : public TNamed
{
 public:
  AliUEHistograms(const char* name = "AliUEHistograms", const char* histograms = "123");
  virtual ~AliUEHistograms();
  
  void Fill(Int_t eventType, Float_t zVtx, AliUEHist::CFStep step, AliVParticle* leading, TList* toward, TList* away, TList* min, TList* max);
  void FillCorrelations(Double_t centrality, Float_t zVtx, AliUEHist::CFStep step, TSeqCollection* particles, TSeqCollection* mixed = 0, Float_t weight = 1, Bool_t firstTime = kTRUE);
  void Fill(AliVParticle* leadingMC, AliVParticle* leadingReco);
  void FillEvent(Int_t eventType, Int_t step);
  void FillEvent(Double_t centrality, Int_t step);
  void FillTrackingEfficiency(TObjArray* mc, TObjArray* recoPrim, TObjArray* recoAll, Int_t particleType, Double_t centrality = 0);
  
  void CopyReconstructedData(AliUEHistograms* from);
  
  AliUEHist* GetUEHist(Int_t id);
  
  AliUEHist* GetNumberDensitypT() { return fNumberDensitypT; }
  AliUEHist* GetSumpT() { return fSumpT; }
  AliUEHist* GetNumberDensityPhi() { return fNumberDensityPhi; }
  
  void SetNumberDensitypT(AliUEHist* obj) { fNumberDensitypT = obj; }
  void SetSumpT(AliUEHist* obj) { fSumpT = obj; }
  void SetNumberDensityPhi(AliUEHist* obj) { fNumberDensityPhi = obj; }
  
  void SetRunNumber(Long64_t runNumber) { fRunNumber = runNumber; }
  
  TH2F* GetCorrelationpT()  { return fCorrelationpT; }
  TH2F* GetCorrelationEta() { return fCorrelationEta; }
  TH2F* GetCorrelationPhi() { return fCorrelationPhi; }
  TH2F* GetCorrelationR()   { return fCorrelationR; }
  TH2F* GetCorrelationLeading2Phi() { return fCorrelationLeading2Phi; }
  TH2F* GetCorrelationMultiplicity() { return fCorrelationMultiplicity; }
  
  TH2F* GetEventCount()     { return fEventCount; }
  TH3F* GetEventCountDifferential() { return fEventCountDifferential; }
  TH1F* GetVertexContributors() { return fVertexContributors; }
  TH1F* GetCentralityDistribution() { return fCentralityDistribution; }
  Long64_t GetRunNumber() { return fRunNumber; }
  
  void Correct(AliUEHistograms* corrections);
  
  void SetEtaRange(Float_t etaMin, Float_t etaMax);
  void SetPtRange(Float_t ptMin, Float_t ptMax);
  void SetZVtxRange(Float_t min, Float_t max);
  void SetContaminationEnhancement(TH1F* hist);
  void SetCombineMinMax(Bool_t flag);
  void SetSelectCharge(Int_t selectCharge) { fSelectCharge = selectCharge; }
  
  void ExtendTrackingEfficiency(Bool_t verbose = kFALSE);
  void Reset();

  AliUEHistograms(const AliUEHistograms &c);
  AliUEHistograms& operator=(const AliUEHistograms& c);
  virtual void Copy(TObject& c) const;

  virtual Long64_t Merge(TCollection* list);
  void Scale(Double_t factor);
  
protected:
  void FillRegion(AliUEHist::Region region, Float_t zVtx, AliUEHist::CFStep step, AliVParticle* leading, TList* list, Int_t multiplicity);
  Int_t CountParticles(TList* list, Float_t ptMin);
  
  static const Int_t fgkUEHists; // number of histograms

  AliUEHist* fNumberDensitypT;   // d^2N/dphideta vs pT,lead
  AliUEHist* fSumpT;             // d^2 sum(pT)/dphideta vs pT,lead
  AliUEHist* fNumberDensityPhi;  // d^2N/dphideta vs delta phi,lead (in pT,lead bins)
  
  TH2F* fCorrelationpT;         // pT,lead: true vs reco
  TH2F* fCorrelationEta;        // #eta,lead; true vs reco
  TH2F* fCorrelationPhi;        // #phi,lead; true vs reco
  TH2F* fCorrelationR;          // R = sqrt(delta eta^2 + delta phi^2) (true vs reco) vs pT,lead,MC
  TH2F* fCorrelationLeading2Phi;// delta phi (true vs reco) vs pT,lead,MC
  TH2F* fCorrelationMultiplicity; // number of mc particls vs reco particles (for pT > 0.5 GeV/c)
  
  TH2F* fEventCount;            // event count as function of step, (for pp: event type (plus additional step -1 for all events without vertex range even in MC)) (for PbPb: centrality)
  TH3F* fEventCountDifferential;// event count as function of leading pT, step, event type
  
  TH1F* fVertexContributors;    // number of contributors to the vertex
  TH1F* fCentralityDistribution; // distribution of the variable used for centrality selection
  
  TH3F* fITSClusterMap;          // its cluster map vs centrality vs pT
  
  Int_t fSelectCharge;           // (un)like sign selection when building correlations: 0: no selection; 1: unlike sign; 2: like sign
  
  Long64_t fRunNumber;           // run number that has been processed
  
  ClassDef(AliUEHistograms, 7)  // underlying event histogram container
};

#endif
Commit	Line	Data
a75aacd6	1	#ifndef AliUEHistograms_H
	2	#define AliUEHistograms_H
	3
	4	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *
	5	* See cxx source for full Copyright notice */
	6
	7	/* $Id: AliUEHistograms.h 20164 2007-08-14 15:31:50Z morsch $ */
	8
	9	// encapsulates several AliUEHist objects for a full UE analysis plus additional control histograms
	10
e0331fd9	11	#include "TNamed.h"
a75aacd6	12	#include "AliUEHist.h"
	13
	14	class AliVParticle;
	15
	16	class TList;
bf58cbde	17	class TSeqCollection;
a75aacd6	18	class TH1F;
	19	class TH2F;
	20	class TH3F;
	21
e0331fd9	22	class AliUEHistograms : public TNamed
a75aacd6	23	{
a75aacd6	24	public:
e0331fd9	25	AliUEHistograms(const char* name = "AliUEHistograms", const char* histograms = "123");
a75aacd6	26	virtual ~AliUEHistograms();
a75aacd6	27
85bfac17	28	void Fill(Int_t eventType, Float_t zVtx, AliUEHist::CFStep step, AliVParticle* leading, TList* toward, TList* away, TList* min, TList* max);
85bfac17	29	void FillCorrelations(Double_t centrality, Float_t zVtx, AliUEHist::CFStep step, TSeqCollection* particles, TSeqCollection* mixed = 0, Float_t weight = 1, Bool_t firstTime = kTRUE);
a75aacd6	30	void Fill(AliVParticle* leadingMC, AliVParticle* leadingReco);
a75aacd6	31	void FillEvent(Int_t eventType, Int_t step);
2a910c25	32	void FillEvent(Double_t centrality, Int_t step);
c7245604	33	void FillTrackingEfficiency(TObjArray* mc, TObjArray* recoPrim, TObjArray* recoAll, Int_t particleType, Double_t centrality = 0);
b1831bcb	34
b1831bcb	35	void CopyReconstructedData(AliUEHistograms* from);
a75aacd6	36
ada1a03f	37	AliUEHist* GetUEHist(Int_t id);
ada1a03f	38
a75aacd6	39	AliUEHist* GetNumberDensitypT() { return fNumberDensitypT; }
	40	AliUEHist* GetSumpT() { return fSumpT; }
	41	AliUEHist* GetNumberDensityPhi() { return fNumberDensityPhi; }
	42
2a910c25	43	void SetNumberDensitypT(AliUEHist* obj) { fNumberDensitypT = obj; }
	44	void SetSumpT(AliUEHist* obj) { fSumpT = obj; }
	45	void SetNumberDensityPhi(AliUEHist* obj) { fNumberDensityPhi = obj; }
	46
85bfac17	47	void SetRunNumber(Long64_t runNumber) { fRunNumber = runNumber; }
85bfac17	48
a75aacd6	49	TH2F* GetCorrelationpT() { return fCorrelationpT; }
	50	TH2F* GetCorrelationEta() { return fCorrelationEta; }
	51	TH2F* GetCorrelationPhi() { return fCorrelationPhi; }
	52	TH2F* GetCorrelationR() { return fCorrelationR; }
	53	TH2F* GetCorrelationLeading2Phi() { return fCorrelationLeading2Phi; }
	54	TH2F* GetCorrelationMultiplicity() { return fCorrelationMultiplicity; }
	55
	56	TH2F* GetEventCount() { return fEventCount; }
	57	TH3F* GetEventCountDifferential() { return fEventCountDifferential; }
	58	TH1F* GetVertexContributors() { return fVertexContributors; }
bf58cbde	59	TH1F* GetCentralityDistribution() { return fCentralityDistribution; }
85bfac17	60	Long64_t GetRunNumber() { return fRunNumber; }
a75aacd6	61
	62	void Correct(AliUEHistograms* corrections);
	63
	64	void SetEtaRange(Float_t etaMin, Float_t etaMax);
	65	void SetPtRange(Float_t ptMin, Float_t ptMax);
85bfac17	66	void SetZVtxRange(Float_t min, Float_t max);
144bd037	67	void SetContaminationEnhancement(TH1F* hist);
a75aacd6	68	void SetCombineMinMax(Bool_t flag);
c7245604	69	void SetSelectCharge(Int_t selectCharge) { fSelectCharge = selectCharge; }
a75aacd6	70
2a910c25	71	void ExtendTrackingEfficiency(Bool_t verbose = kFALSE);
c7245604	72	void Reset();
6f803f6c	73
d1c75d06	74	AliUEHistograms(const AliUEHistograms &c);
a75aacd6	75	AliUEHistograms& operator=(const AliUEHistograms& c);
	76	virtual void Copy(TObject& c) const;
	77
	78	virtual Long64_t Merge(TCollection* list);
c7245604	79	void Scale(Double_t factor);
a75aacd6	80
a75aacd6	81	protected:
85bfac17	82	void FillRegion(AliUEHist::Region region, Float_t zVtx, AliUEHist::CFStep step, AliVParticle* leading, TList* list, Int_t multiplicity);
a75aacd6	83	Int_t CountParticles(TList* list, Float_t ptMin);
bf58cbde	84
bf58cbde	85	static const Int_t fgkUEHists; // number of histograms
a75aacd6	86
	87	AliUEHist* fNumberDensitypT; // d^2N/dphideta vs pT,lead
	88	AliUEHist* fSumpT; // d^2 sum(pT)/dphideta vs pT,lead
	89	AliUEHist* fNumberDensityPhi; // d^2N/dphideta vs delta phi,lead (in pT,lead bins)
	90
	91	TH2F* fCorrelationpT; // pT,lead: true vs reco
	92	TH2F* fCorrelationEta; // #eta,lead; true vs reco
	93	TH2F* fCorrelationPhi; // #phi,lead; true vs reco
	94	TH2F* fCorrelationR; // R = sqrt(delta eta^2 + delta phi^2) (true vs reco) vs pT,lead,MC
	95	TH2F* fCorrelationLeading2Phi;// delta phi (true vs reco) vs pT,lead,MC
	96	TH2F* fCorrelationMultiplicity; // number of mc particls vs reco particles (for pT > 0.5 GeV/c)
	97
2a910c25	98	TH2F* fEventCount; // event count as function of step, (for pp: event type (plus additional step -1 for all events without vertex range even in MC)) (for PbPb: centrality)
a75aacd6	99	TH3F* fEventCountDifferential;// event count as function of leading pT, step, event type
	100
	101	TH1F* fVertexContributors; // number of contributors to the vertex
bf58cbde	102	TH1F* fCentralityDistribution; // distribution of the variable used for centrality selection
a75aacd6	103
2a910c25	104	TH3F* fITSClusterMap; // its cluster map vs centrality vs pT
2a910c25	105
c7245604	106	Int_t fSelectCharge; // (un)like sign selection when building correlations: 0: no selection; 1: unlike sign; 2: like sign
c7245604	107
85bfac17	108	Long64_t fRunNumber; // run number that has been processed
	109
	110	ClassDef(AliUEHistograms, 7) // underlying event histogram container
a75aacd6	111	};
	112
	113	#endif