[u/mrichter/AliRoot.git] / PWG3 / vertexingHF / AliHFMassFitter.h

#ifndef ALIHFMASSFITTER_H
#define ALIHFMASSFITTER_H
/* Copyright(c) 1998-2009, ALICE Experiment at CERN, All rights reserved. *
 * See cxx source for full Copyright notice                               */

/////////////////////////////////////////////////////////////
//
// AliHFMassFitter for the fit of invariant mass distribution
// of charmed mesons
//
// Author: C.Bianchin, chiara.bianchin@pd.infn.it
/////////////////////////////////////////////////////////////

#include <TNamed.h>
#include <Riostream.h>
#include <TH1F.h>
#include <TF1.h>
#include <TMath.h>
#include <TNtuple.h>
#include <TFile.h>
#include <TString.h>
#include <TList.h>


class AliHFMassFitter : public TNamed {

 public:
  AliHFMassFitter();
  AliHFMassFitter(TH1F* histoToFit, Double_t minvalue, Double_t maxvalue, Int_t rebin=1,Int_t fittypeb=0,Int_t fittypes=0);
  virtual ~AliHFMassFitter();

  AliHFMassFitter(const AliHFMassFitter &mfit);
  AliHFMassFitter& operator=(const AliHFMassFitter &mfit);

  //setters
  void     SetHisto(TH1F *histoToFit);
  void     SetRangeFit(Double_t minvalue, Double_t maxvalue){fminMass=minvalue; fmaxMass=maxvalue;}
  void     SetMinRangeFit(Double_t minvalue){fminMass=minvalue;}
  void     SetMaxRangeFit(Double_t maxvalue){fmaxMass=maxvalue;}
  void     SetBinN(Int_t newbinN){fNbin=newbinN;}
  void     SetType(Int_t fittypeb, Int_t fittypes);
  void     SetReflectionSigmaFactor(Int_t constant) {ffactor=constant;}
  void     SetInitialGaussianMean(Double_t mean) {fMass=mean;}
  void     SetInitialGaussianSigma(Double_t sigma) {fSigmaSgn=sigma;}
  void     SetSideBands(Bool_t onlysidebands=kTRUE) {fSideBands=onlysidebands;}

  //getters
  TH1F*    GetHistoClone() const;
  void     GetRangeFit(Double_t &minvalue, Double_t &maxvalue) const {minvalue=fminMass; maxvalue=fmaxMass;}
  Double_t GetMinRangeFit()const {return fminMass;}
  Double_t GetMaxRangeFit()const {return fmaxMass;}
  Int_t    GetBinN()       const {return fNbin;}
  void     GetFitPars(Float_t*) const;
  void     GetTypeOfFit(Bool_t &background, Int_t &typeb) const {background = fWithBkg; typeb = ftypeOfFit4Bkg;}
  Int_t    GetReflectionSigmaFactor() const {return ffactor;} 
  Double_t GetMean() const {return fMass;}
  Double_t GetSigma()const {return fSigmaSgn;}
  Double_t GetChiSquare() const;
  Double_t GetReducedChiSquare() const;
  void     GetSideBandsBounds(Int_t&, Int_t&) const;

  void     PrintParTitles() const;

  void     InitNtuParam(char *ntuname="ntupar");
  void     FillNtuParam();
  TNtuple* GetNtuParam() const {return fntuParam;}
  TNtuple* NtuParamOneShot(char *ntuname="ntupar");
  void     WriteHisto(TString path="./");
  void     WriteNtuple(TString path="./") const;
  void     DrawFit() const;
  void     Reset();

  void     Signal(Double_t nOfSigma,Double_t &signal,Double_t &errsignal) const; 
  void     Signal(Double_t min,Double_t max,Double_t &signal,Double_t &errsignal) const; 
  void     Background(Double_t nOfSigma,Double_t &background,Double_t &errbackground) const; 
  void     Background(Double_t min,Double_t max,Double_t &background,Double_t &errbackground) const; 
  void     Significance(Double_t nOfSigma,Double_t &significance,Double_t &errsignificance) const;
  void     Significance(Double_t min,Double_t max,Double_t &significance,Double_t &errsignificance) const;

  Double_t FitFunction4MassDistr (Double_t*, Double_t*);
  Double_t FitFunction4Sgn (Double_t*, Double_t*);
  Double_t FitFunction4Bkg (Double_t*, Double_t*);
  Bool_t   MassFitter(Bool_t draw=kTRUE);
  void     RebinMass(Int_t binground=1);
  

 private:

  void     ComputeParSize();
  Bool_t   SideBandsBounds();
  void     AddFunctionsToHisto();

  TH1F    *fhistoInvMass;  // histogram to fit
  Double_t fminMass;       // lower mass limit
  Double_t fmaxMass;       // upper mass limit
  Int_t    fNbin;          // number of bins
  Int_t    fParsSize;      // size of fFitPars array
  Float_t *fFitPars;       //[fParsSize] array of fit parameters
  Bool_t   fWithBkg;       // signal+background (kTRUE) or signal only (kFALSE)
  Int_t    ftypeOfFit4Bkg; // 0 = exponential; 1 = linear; 2 = pol2
  Int_t    ftypeOfFit4Sgn; // 0 = gaus; 1 = gaus+gaus broadened
  Int_t    ffactor;         // number to multiply to the sigma of the signal to obtain the reflected gaussian
  TNtuple *fntuParam;      // contains fit parameters
  Double_t fMass;          // signal gaussian mean value
  Double_t fSigmaSgn;      // signal gaussian sigma
  Bool_t   fSideBands;     // kTRUE = only side bands considered
  Int_t    fSideBandl;     // left side band limit (bin number)
  Int_t    fSideBandr;     // right side band limit (bin number)
  Int_t    fcounter;       // internal counter
  TList   *fContourGraph;  // TList of TGraph containing contour plots
  ClassDef(AliHFMassFitter,3); // class for invariant mass fit
};

#endif
Commit	Line	Data
fabf4d8e	1	#ifndef ALIHFMASSFITTER_H
	2	#define ALIHFMASSFITTER_H
	3	/* Copyright(c) 1998-2009, ALICE Experiment at CERN, All rights reserved. *
	4	* See cxx source for full Copyright notice */
	5
	6	/////////////////////////////////////////////////////////////
	7	//
	8	// AliHFMassFitter for the fit of invariant mass distribution
	9	// of charmed mesons
	10	//
	11	// Author: C.Bianchin, chiara.bianchin@pd.infn.it
	12	/////////////////////////////////////////////////////////////
	13
	14	#include <TNamed.h>
	15	#include <Riostream.h>
	16	#include <TH1F.h>
	17	#include <TF1.h>
	18	#include <TMath.h>
	19	#include <TNtuple.h>
	20	#include <TFile.h>
	21	#include <TString.h>
56cbeefb	22	#include <TList.h>
fabf4d8e	23
	24
	25	class AliHFMassFitter : public TNamed {
	26
	27	public:
	28	AliHFMassFitter();
	29	AliHFMassFitter(TH1F* histoToFit, Double_t minvalue, Double_t maxvalue, Int_t rebin=1,Int_t fittypeb=0,Int_t fittypes=0);
2f328d65	30	virtual ~AliHFMassFitter();
fabf4d8e	31
74179930	32	AliHFMassFitter(const AliHFMassFitter &mfit);
74179930	33	AliHFMassFitter& operator=(const AliHFMassFitter &mfit);
fabf4d8e	34
fabf4d8e	35	//setters
56cbeefb	36	void SetHisto(TH1F *histoToFit);
2f328d65	37	void SetRangeFit(Double_t minvalue, Double_t maxvalue){fminMass=minvalue; fmaxMass=maxvalue;}
	38	void SetMinRangeFit(Double_t minvalue){fminMass=minvalue;}
	39	void SetMaxRangeFit(Double_t maxvalue){fmaxMass=maxvalue;}
	40	void SetBinN(Int_t newbinN){fNbin=newbinN;}
	41	void SetType(Int_t fittypeb, Int_t fittypes);
fabf4d8e	42	void SetReflectionSigmaFactor(Int_t constant) {ffactor=constant;}
	43	void SetInitialGaussianMean(Double_t mean) {fMass=mean;}
	44	void SetInitialGaussianSigma(Double_t sigma) {fSigmaSgn=sigma;}
	45	void SetSideBands(Bool_t onlysidebands=kTRUE) {fSideBands=onlysidebands;}
	46
	47	//getters
56cbeefb	48	TH1F* GetHistoClone() const;
a60f573d	49	void GetRangeFit(Double_t &minvalue, Double_t &maxvalue) const {minvalue=fminMass; maxvalue=fmaxMass;}
2f328d65	50	Double_t GetMinRangeFit()const {return fminMass;}
	51	Double_t GetMaxRangeFit()const {return fmaxMass;}
	52	Int_t GetBinN() const {return fNbin;}
fabf4d8e	53	void GetFitPars(Float_t*) const;
56cbeefb	54	void GetTypeOfFit(Bool_t &background, Int_t &typeb) const {background = fWithBkg; typeb = ftypeOfFit4Bkg;}
fabf4d8e	55	Int_t GetReflectionSigmaFactor() const {return ffactor;}
0566386c	56	Double_t GetMean() const {return fMass;}
0566386c	57	Double_t GetSigma()const {return fSigmaSgn;}
34c79b83	58	Double_t GetChiSquare() const;
b7d4bc49	59	Double_t GetReducedChiSquare() const;
b7d4bc49	60	void GetSideBandsBounds(Int_t&, Int_t&) const;
fabf4d8e	61
ad73ca8f	62	void PrintParTitles() const;
ad73ca8f	63
fabf4d8e	64	void InitNtuParam(char *ntuname="ntupar");
	65	void FillNtuParam();
	66	TNtuple* GetNtuParam() const {return fntuParam;}
	67	TNtuple* NtuParamOneShot(char *ntuname="ntupar");
56cbeefb	68	void WriteHisto(TString path="./");
56cbeefb	69	void WriteNtuple(TString path="./") const;
a60f573d	70	void DrawFit() const;
56cbeefb	71	void Reset();
56cbeefb	72
fabf4d8e	73	void Signal(Double_t nOfSigma,Double_t &signal,Double_t &errsignal) const;
16856d6e	74	void Signal(Double_t min,Double_t max,Double_t &signal,Double_t &errsignal) const;
a60f573d	75	void Background(Double_t nOfSigma,Double_t &background,Double_t &errbackground) const;
16856d6e	76	void Background(Double_t min,Double_t max,Double_t &background,Double_t &errbackground) const;
fabf4d8e	77	void Significance(Double_t nOfSigma,Double_t &significance,Double_t &errsignificance) const;
16856d6e	78	void Significance(Double_t min,Double_t max,Double_t &significance,Double_t &errsignificance) const;
fabf4d8e	79
	80	Double_t FitFunction4MassDistr (Double_t, Double_t);
	81	Double_t FitFunction4Sgn (Double_t, Double_t);
	82	Double_t FitFunction4Bkg (Double_t, Double_t);
34c79b83	83	Bool_t MassFitter(Bool_t draw=kTRUE);
fabf4d8e	84	void RebinMass(Int_t binground=1);
	85
	86
	87	private:
	88
2f328d65	89	void ComputeParSize();
b7d4bc49	90	Bool_t SideBandsBounds();
16856d6e	91	void AddFunctionsToHisto();
2f328d65	92
74179930	93	TH1F *fhistoInvMass; // histogram to fit
fabf4d8e	94	Double_t fminMass; // lower mass limit
	95	Double_t fmaxMass; // upper mass limit
	96	Int_t fNbin; // number of bins
2f328d65	97	Int_t fParsSize; // size of fFitPars array
2f328d65	98	Float_t *fFitPars; //[fParsSize] array of fit parameters
fabf4d8e	99	Bool_t fWithBkg; // signal+background (kTRUE) or signal only (kFALSE)
	100	Int_t ftypeOfFit4Bkg; // 0 = exponential; 1 = linear; 2 = pol2
	101	Int_t ftypeOfFit4Sgn; // 0 = gaus; 1 = gaus+gaus broadened
	102	Int_t ffactor; // number to multiply to the sigma of the signal to obtain the reflected gaussian
	103	TNtuple *fntuParam; // contains fit parameters
	104	Double_t fMass; // signal gaussian mean value
	105	Double_t fSigmaSgn; // signal gaussian sigma
	106	Bool_t fSideBands; // kTRUE = only side bands considered
b7d4bc49	107	Int_t fSideBandl; // left side band limit (bin number)
b7d4bc49	108	Int_t fSideBandr; // right side band limit (bin number)
56cbeefb	109	Int_t fcounter; // internal counter
ad73ca8f	110	TList *fContourGraph; // TList of TGraph containing contour plots
ad73ca8f	111	ClassDef(AliHFMassFitter,3); // class for invariant mass fit
fabf4d8e	112	};
	113
	114	#endif
	115
74179930	116