[u/mrichter/AliRoot.git] / ITS / AliITSdEdxAnalyzer.h

#ifndef ALIITSDEDXANALYZER_H
#define ALIITSDEDXANALYZER_H
/* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/* $Id$ */

///////////////////////////////////////////////////////////////////
//                                                               //
// Class for:                                                    //
// - building histograms of dE/dx in bins of pt/layer/particle   //
// - comparing dEdx signal with Bethe-Bloch expected value       //
// Origin: F.Prino, Torino, prino@to.infn.it                     //
//                                                               //
///////////////////////////////////////////////////////////////////

#include <TObject.h>
#include <TParticle.h>
#include <TH1F.h>
#include <TH2F.h>
#include <TGraph.h>

class AliESDEvent;
class AliStack;
class AliLog;

class AliITSdEdxAnalyzer : public TObject {

 public:
  AliITSdEdxAnalyzer();
  AliITSdEdxAnalyzer(const Int_t npbins, const Float_t pmin, const Float_t pmax);
  virtual ~AliITSdEdxAnalyzer();

  void SetMaterial(Float_t dens, Float_t thick){
    fDensity=dens;
    fThickness=thick;
  }
  void SetMomentumBins(const Int_t npbins, const Float_t pmin, const Float_t pmax);
  void SetUseBBFromAliExternalTrackParam() {fBBmodel=0;}
  void SetUseBBFromAliITSpidESD() {fBBmodel=1;}
  void SetMIPdEdx(Float_t val){fMIP=val;}
  void SetTPCMinimumPIDProb(Float_t min){fTPCpidCut=min;}

  void ReadEvent(const AliESDEvent* ev, AliStack* stack=0);


  Double_t BetheBloch(TParticle* part) const{
    return BetheBloch(part->P(),part->GetMass());
  }
  Double_t BetheBloch(const Float_t p, const Float_t m) const;


  TH1F* GetSingleLayerdEdxHisto(const Int_t lay, const Int_t pdgcode, const Int_t pbin) const {
    if(lay<3 || lay>6) AliFatal("Wrong LayerNumber");
    return fHistodEdx[GetIndex(GetSpecieBin(pdgcode),pbin,lay-3)];
  }
  TH1F* GetTruncatedMeandEdxHisto(const Int_t pdgcode, const Int_t pbin) const {
    return fHistodEdx[GetIndex(GetSpecieBin(pdgcode),pbin,4)];
  }

  TH1F* GetSingleLayerDeltadEdxHisto(const Int_t lay, const Int_t pdgcode, const Int_t pbin) const {
    if(lay<3 || lay>6) AliFatal("Wrong LayerNumber");
    return fHistoDeltadEdx[GetIndex(GetSpecieBin(pdgcode),pbin,lay-3)];
  }
  TH1F* GetTruncatedMeanDeltadEdxHisto(const Int_t pdgcode, const Int_t pbin) const {
    return fHistoDeltadEdx[GetIndex(GetSpecieBin(pdgcode),pbin,4)];
  }

  TH2F* GetSingleLayerdEdxVsPHisto(const Int_t lay, const Int_t pdgcode) const {
    if(lay<3 || lay>6) AliFatal("Wrong LayerNumber");
    return fHistodEdxVsP[GetIndex2(GetSpecieBin(pdgcode),lay-3)];
  }
  TH2F* GetTruncatedMeandEdxVsPHisto(const Int_t pdgcode) const {
    return fHistodEdxVsP[GetIndex2(GetSpecieBin(pdgcode),4)];
  }

  TGraph* GetBetheBlochGraph(const Int_t pdgcode) const;

  void WriteHistos(TString filename="ITS.dEdx.root") const;

 protected:

  Int_t GetNHistos() const {return kNParticles*kNValuesdEdx*fNPBins;}
  Int_t GetNHistos2() const {return kNParticles*kNValuesdEdx;}
  Int_t GetIndex(const Int_t iSp, const Int_t iP, const Int_t iVal) const {
    return iVal+kNValuesdEdx*iP+fNPBins*kNValuesdEdx*iSp;
  }
  Int_t GetIndex2(const Int_t iSp, const Int_t iVal) const {
    return iVal+kNValuesdEdx*iSp;
  }
  Int_t GetMomentumBin(Float_t p) const{
    Int_t iBin=(Int_t)((p-fPMin)/(fPMax-fPMin)*fNPBins);
    if(iBin>=0 && iBin<fNPBins)return iBin; 
    return -1;
  }
  Int_t GetSpecieBin(Int_t absPdgCode) const {
    for(Int_t iS=0; iS<kNParticles; iS++) if(absPdgCode==fgkPdgCode[iS]) return iS;
    return -1;
  }

  Int_t GetPaticleIdFromTPC(const AliESDtrack* track) const;
  void BookHistos();
  void DeleteHistos();
  
 private:

  AliITSdEdxAnalyzer(const AliITSdEdxAnalyzer& dum);
  AliITSdEdxAnalyzer& operator=(const AliITSdEdxAnalyzer& dum);

  enum {kNParticles=3};  
  enum {kNValuesdEdx=5};

  static const Int_t fgkPdgCode[kNParticles]; // initialized in the cxx
  static const Int_t fgkLayerCode[kNValuesdEdx]; // initialized in the cxx
  

  Int_t   fNPBins;         // Number of Momentum bins
  Float_t fPMin;           // Minimum P
  Float_t fPMax;           // Maximum P
  TH1F**  fHistodEdx;      // Array of histograms of dEdx_meas in bins of pt
  TH1F**  fHistoDeltadEdx; // Array of histograms of dEdx_meas-dEdx_expected in bins of pt
  TH2F**  fHistodEdxVsP;   // Array of histograms of dEdx_meas vs. pt
  Float_t fThickness;      // detector thickness (cm)
  Float_t fDensity;        // detector density (g/cm3)
  Int_t   fBBmodel;        // is there MC truth info?
  Float_t fMIP;            // normalization for MIP
  Float_t fTPCpidCut;      // minimum probability for PID in TPC   

  ClassDef(AliITSdEdxAnalyzer,0);
};
#endif
Commit	Line	Data
75c74fab	1	#ifndef ALIITSDEDXANALYZER_H
	2	#define ALIITSDEDXANALYZER_H
	3	/* Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/* $Id$ */
	7
	8	///////////////////////////////////////////////////////////////////
	9	// //
	10	// Class for: //
	11	// - building histograms of dE/dx in bins of pt/layer/particle //
	12	// - comparing dEdx signal with Bethe-Bloch expected value //
	13	// Origin: F.Prino, Torino, prino@to.infn.it //
	14	// //
	15	///////////////////////////////////////////////////////////////////
	16
	17	#include <TObject.h>
	18	#include <TParticle.h>
	19	#include <TH1F.h>
	20	#include <TH2F.h>
	21	#include <TGraph.h>
75c74fab	22
27199d86	23	class AliESDEvent;
	24	class AliStack;
	25	class AliLog;
b34fed4e	26
75c74fab	27	class AliITSdEdxAnalyzer : public TObject {
	28
	29	public:
	30	AliITSdEdxAnalyzer();
	31	AliITSdEdxAnalyzer(const Int_t npbins, const Float_t pmin, const Float_t pmax);
	32	virtual ~AliITSdEdxAnalyzer();
	33
	34	void SetMaterial(Float_t dens, Float_t thick){
	35	fDensity=dens;
	36	fThickness=thick;
	37	}
	38	void SetMomentumBins(const Int_t npbins, const Float_t pmin, const Float_t pmax);
	39	void SetUseBBFromAliExternalTrackParam() {fBBmodel=0;}
	40	void SetUseBBFromAliITSpidESD() {fBBmodel=1;}
	41	void SetMIPdEdx(Float_t val){fMIP=val;}
	42	void SetTPCMinimumPIDProb(Float_t min){fTPCpidCut=min;}
	43
b34fed4e	44	void ReadEvent(const AliESDEvent* ev, AliStack* stack=0);
75c74fab	45
	46
	47	Double_t BetheBloch(TParticle* part) const{
	48	return BetheBloch(part->P(),part->GetMass());
	49	}
	50	Double_t BetheBloch(const Float_t p, const Float_t m) const;
	51
	52
	53	TH1F* GetSingleLayerdEdxHisto(const Int_t lay, const Int_t pdgcode, const Int_t pbin) const {
	54	if(lay<3 \|\| lay>6) AliFatal("Wrong LayerNumber");
	55	return fHistodEdx[GetIndex(GetSpecieBin(pdgcode),pbin,lay-3)];
	56	}
	57	TH1F* GetTruncatedMeandEdxHisto(const Int_t pdgcode, const Int_t pbin) const {
	58	return fHistodEdx[GetIndex(GetSpecieBin(pdgcode),pbin,4)];
	59	}
	60
	61	TH1F* GetSingleLayerDeltadEdxHisto(const Int_t lay, const Int_t pdgcode, const Int_t pbin) const {
	62	if(lay<3 \|\| lay>6) AliFatal("Wrong LayerNumber");
	63	return fHistoDeltadEdx[GetIndex(GetSpecieBin(pdgcode),pbin,lay-3)];
	64	}
	65	TH1F* GetTruncatedMeanDeltadEdxHisto(const Int_t pdgcode, const Int_t pbin) const {
	66	return fHistoDeltadEdx[GetIndex(GetSpecieBin(pdgcode),pbin,4)];
	67	}
	68
	69	TH2F* GetSingleLayerdEdxVsPHisto(const Int_t lay, const Int_t pdgcode) const {
	70	if(lay<3 \|\| lay>6) AliFatal("Wrong LayerNumber");
	71	return fHistodEdxVsP[GetIndex2(GetSpecieBin(pdgcode),lay-3)];
	72	}
	73	TH2F* GetTruncatedMeandEdxVsPHisto(const Int_t pdgcode) const {
	74	return fHistodEdxVsP[GetIndex2(GetSpecieBin(pdgcode),4)];
	75	}
	76
	77	TGraph* GetBetheBlochGraph(const Int_t pdgcode) const;
	78
	79	void WriteHistos(TString filename="ITS.dEdx.root") const;
	80
	81	protected:
	82
	83	Int_t GetNHistos() const {return kNParticleskNValuesdEdxfNPBins;}
	84	Int_t GetNHistos2() const {return kNParticles*kNValuesdEdx;}
	85	Int_t GetIndex(const Int_t iSp, const Int_t iP, const Int_t iVal) const {
	86	return iVal+kNValuesdEdxiP+fNPBinskNValuesdEdx*iSp;
	87	}
	88	Int_t GetIndex2(const Int_t iSp, const Int_t iVal) const {
	89	return iVal+kNValuesdEdx*iSp;
	90	}
	91	Int_t GetMomentumBin(Float_t p) const{
	92	Int_t iBin=(Int_t)((p-fPMin)/(fPMax-fPMin)*fNPBins);
	93	if(iBin>=0 && iBin<fNPBins)return iBin;
	94	return -1;
	95	}
	96	Int_t GetSpecieBin(Int_t absPdgCode) const {
b34fed4e	97	for(Int_t iS=0; iS<kNParticles; iS++) if(absPdgCode==fgkPdgCode[iS]) return iS;
75c74fab	98	return -1;
	99	}
	100
	101	Int_t GetPaticleIdFromTPC(const AliESDtrack* track) const;
	102	void BookHistos();
	103	void DeleteHistos();
	104
	105	private:
	106
	107	AliITSdEdxAnalyzer(const AliITSdEdxAnalyzer& dum);
	108	AliITSdEdxAnalyzer& operator=(const AliITSdEdxAnalyzer& dum);
	109
	110	enum {kNParticles=3};
	111	enum {kNValuesdEdx=5};
	112
	113	static const Int_t fgkPdgCode[kNParticles]; // initialized in the cxx
	114	static const Int_t fgkLayerCode[kNValuesdEdx]; // initialized in the cxx
	115
	116
	117	Int_t fNPBins; // Number of Momentum bins
	118	Float_t fPMin; // Minimum P
	119	Float_t fPMax; // Maximum P
	120	TH1F** fHistodEdx; // Array of histograms of dEdx_meas in bins of pt
	121	TH1F** fHistoDeltadEdx; // Array of histograms of dEdx_meas-dEdx_expected in bins of pt
	122	TH2F** fHistodEdxVsP; // Array of histograms of dEdx_meas vs. pt
	123	Float_t fThickness; // detector thickness (cm)
	124	Float_t fDensity; // detector density (g/cm3)
	125	Int_t fBBmodel; // is there MC truth info?
	126	Float_t fMIP; // normalization for MIP
	127	Float_t fTPCpidCut; // minimum probability for PID in TPC
	128
	129	ClassDef(AliITSdEdxAnalyzer,0);
	130	};
	131	#endif