[u/mrichter/AliRoot.git] / EMCAL / AliEMCALUnfolding.h

#ifndef ALIEMCALUNFOLDING_H\r
#define ALIEMCALUNFOLDING_H\r
/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
 * See cxx source for full Copyright notice                               */\r
     \r
//_________________________________________________________________________\r
//  Base class for the cluster unfolding algorithm \r
//*-- Author: Adam Matyja (SUBATECH)\r
\r
// --- ROOT system ---\r
#include "AliLog.h"\r
#include "TObject.h" \r
//class TTree;\r
\r
// --- Standard library ---\r
\r
// --- AliRoot header files ---\r
class AliEMCALGeometry ;\r
//class AliEMCALCalibData ;\r
//class AliCaloCalibPedestal ;\r
class AliEMCALRecPoint ; \r
class AliEMCALDigit ;\r
\r
\r
class AliEMCALUnfolding : public TObject {\r
\r
public:\r
\r
  AliEMCALUnfolding() ;        // default ctor\r
  virtual ~AliEMCALUnfolding() ; // dtorEM\r
  AliEMCALUnfolding(AliEMCALGeometry* geometry);// constructor\r
  AliEMCALUnfolding(AliEMCALGeometry* geometry,Float_t ECALocMaxCut,Double_t *SSPars,Double_t *Par5,Double_t *Par6);// constructor\r
\r
  virtual void Init() ;\r
  virtual void SetInput(Int_t numberOfECAClusters,TObjArray *recPoints,TClonesArray *digitsArr);\r
\r
  //setters and getters\r
  virtual void SetNumberOfECAClusters(Int_t n) { fNumberOfECAClusters = n; }\r
  virtual Int_t GetNumberOfECAClusters() const { return fNumberOfECAClusters; }\r
  virtual void SetRecPoints(TObjArray *rec) { fRecPoints = rec; }\r
  virtual TObjArray * GetRecPoints() const { return fRecPoints; }\r
  virtual void SetDigitsArr(TClonesArray *digit) { fDigitsArr = digit; }\r
  virtual TClonesArray * GetDigitsArr() const { return fDigitsArr; }\r
  virtual void SetECALocalMaxCut(Float_t cut) { fECALocMaxCut = cut ; }\r
  virtual Float_t GetECALocalMaxCut() const { return fECALocMaxCut; }\r
\r
  //unfolding main methods\r
  virtual void   MakeUnfolding();\r
  static Double_t ShowerShapeV2(Double_t x, Double_t y) ; // Shape of EM shower used in unfolding; \r
                                              //class member function (not object member function)\r
  static void UnfoldingChiSquareV2(Int_t & nPar, Double_t * Grad, Double_t & fret, Double_t * x, Int_t iflag)  ;\r
                                            // Chi^2 of the fit. Should be static to be passes to MINUIT\r
  virtual void SetShowerShapeParams(Double_t *pars) ;\r
  virtual Double_t* GetShowerShapeParams() const { return fSSPars ; }\r
  virtual void SetPar5(Double_t *pars) ;\r
  virtual Double_t* GetPar5() const { return fPar5 ; }\r
  virtual void SetPar6(Double_t *pars) ;\r
  virtual Double_t* GetPar6() const { return fPar6 ; }\r
\r
protected:\r
  Int_t   fNumberOfECAClusters ;     // number of clusters found in EC section\r
  Float_t fECALocMaxCut ;            // minimum energy difference to distinguish local maxima in a cluster\r
  AliEMCALGeometry     * fGeom;       //! pointer to geometry for utilities\r
  TObjArray    *fRecPoints; // Array with EMCAL clusters\r
  TClonesArray *fDigitsArr; // Array with EMCAL digits\r
\r
private:\r
  AliEMCALUnfolding(const AliEMCALUnfolding &); //copy ctor\r
  AliEMCALUnfolding & operator = (const AliEMCALUnfolding &);\r
  \r
  Bool_t         UnfoldClusterV2(AliEMCALRecPoint * iniEmc, Int_t Nmax, \r
				 AliEMCALDigit ** maxAt,\r
				 Float_t * maxAtEnergy ); //Unfolds cluster using TMinuit package\r
  Bool_t  FindFitV2(AliEMCALRecPoint * emcRP, AliEMCALDigit ** MaxAt, const Float_t * maxAtEnergy, \r
		    Int_t NPar, Float_t * FitParametres) const; //Used in UnfoldClusters, calls TMinuit\r
\r
  static Double_t fSSPars[8];//! Unfolding shower shape parameters\r
  // function:\r
  // f(r)=exp(-(p0*r)^p1 * (1/(p2+p3*(p0*r)^p1)+p4/(1+p6*(p0*r)^p5) ) )\r
  // p0,p1,p2,p3,p4 are fixed\r
  // params p5 and p6 are phi-dependent and set in ShowerShapeV2\r
  static Double_t fPar5[3];//! UF SSPar nr 5 = p0 + phi*p1 + phi^2 *p2\r
  static Double_t fPar6[3];//! UF SSPar nr 6 = p0 + phi*p1 + phi^2 *p2\r
  static void EvalPar5(Double_t phi);\r
  static void EvalPar6(Double_t phi);\r
  static void EvalParsPhiDependence(Int_t absId, AliEMCALGeometry *geom);\r
\r
  ClassDef(AliEMCALUnfolding,1)  // Unfolding algorithm class \r
} ;\r
\r
#endif // AliEMCALUNFOLDING_H\r
Commit	Line	Data
65bec413	1	#ifndef ALIEMCALUNFOLDING_H\r
	2	#define ALIEMCALUNFOLDING_H\r
	3	/* Copyright(c) 1998-1999, ALICE Experiment at CERN, All rights reserved. *\r
	4	* See cxx source for full Copyright notice */\r
	5	\r
	6	//_________________________________________________________________________\r
	7	// Base class for the cluster unfolding algorithm \r
	8	//*-- Author: Adam Matyja (SUBATECH)\r
	9	\r
	10	// --- ROOT system ---\r
	11	#include "AliLog.h"\r
	12	#include "TObject.h" \r
	13	//class TTree;\r
	14	\r
	15	// --- Standard library ---\r
	16	\r
	17	// --- AliRoot header files ---\r
	18	class AliEMCALGeometry ;\r
	19	//class AliEMCALCalibData ;\r
	20	//class AliCaloCalibPedestal ;\r
	21	class AliEMCALRecPoint ; \r
	22	class AliEMCALDigit ;\r
	23	\r
	24	\r
	25	class AliEMCALUnfolding : public TObject {\r
	26	\r
	27	public:\r
	28	\r
	29	AliEMCALUnfolding() ; // default ctor\r
	30	virtual ~AliEMCALUnfolding() ; // dtorEM\r
	31	AliEMCALUnfolding(AliEMCALGeometry* geometry);// constructor\r
	32	AliEMCALUnfolding(AliEMCALGeometry* geometry,Float_t ECALocMaxCut,Double_t SSPars,Double_t Par5,Double_t *Par6);// constructor\r
	33	\r
	34	virtual void Init() ;\r
	35	virtual void SetInput(Int_t numberOfECAClusters,TObjArray recPoints,TClonesArray digitsArr);\r
	36	\r
	37	//setters and getters\r
	38	virtual void SetNumberOfECAClusters(Int_t n) { fNumberOfECAClusters = n; }\r
	39	virtual Int_t GetNumberOfECAClusters() const { return fNumberOfECAClusters; }\r
	40	virtual void SetRecPoints(TObjArray *rec) { fRecPoints = rec; }\r
	41	virtual TObjArray * GetRecPoints() const { return fRecPoints; }\r
	42	virtual void SetDigitsArr(TClonesArray *digit) { fDigitsArr = digit; }\r
	43	virtual TClonesArray * GetDigitsArr() const { return fDigitsArr; }\r
	44	virtual void SetECALocalMaxCut(Float_t cut) { fECALocMaxCut = cut ; }\r
	45	virtual Float_t GetECALocalMaxCut() const { return fECALocMaxCut; }\r
	46	\r
	47	//unfolding main methods\r
	48	virtual void MakeUnfolding();\r
	49	static Double_t ShowerShapeV2(Double_t x, Double_t y) ; // Shape of EM shower used in unfolding; \r
	50	//class member function (not object member function)\r
	51	static void UnfoldingChiSquareV2(Int_t & nPar, Double_t * Grad, Double_t & fret, Double_t * x, Int_t iflag) ;\r
	52	// Chi^2 of the fit. Should be static to be passes to MINUIT\r
	53	virtual void SetShowerShapeParams(Double_t *pars) ;\r
	54	virtual Double_t* GetShowerShapeParams() const { return fSSPars ; }\r
	55	virtual void SetPar5(Double_t *pars) ;\r
	56	virtual Double_t* GetPar5() const { return fPar5 ; }\r
	57	virtual void SetPar6(Double_t *pars) ;\r
	58	virtual Double_t* GetPar6() const { return fPar6 ; }\r
	59	\r
	60	protected:\r
	61	Int_t fNumberOfECAClusters ; // number of clusters found in EC section\r
	62	Float_t fECALocMaxCut ; // minimum energy difference to distinguish local maxima in a cluster\r
	63	AliEMCALGeometry * fGeom; //! pointer to geometry for utilities\r
	64	TObjArray *fRecPoints; // Array with EMCAL clusters\r
65	TClonesArray *fDigitsArr; // Array with EMCAL digits\r
66	\r
67	private:\r
68	AliEMCALUnfolding(const AliEMCALUnfolding &); //copy ctor\r
69	AliEMCALUnfolding & operator = (const AliEMCALUnfolding &);\r
70	\r
71	Bool_t UnfoldClusterV2(AliEMCALRecPoint * iniEmc, Int_t Nmax, \r
72	AliEMCALDigit ** maxAt,\r
73	Float_t * maxAtEnergy ); //Unfolds cluster using TMinuit package\r
74	Bool_t FindFitV2(AliEMCALRecPoint * emcRP, AliEMCALDigit ** MaxAt, const Float_t * maxAtEnergy, \r
75	Int_t NPar, Float_t * FitParametres) const; //Used in UnfoldClusters, calls TMinuit\r
76	\r
77	static Double_t fSSPars[8];//! Unfolding shower shape parameters\r
78	// function:\r
79	// f(r)=exp(-(p0r)^p1 (1/(p2+p3(p0r)^p1)+p4/(1+p6(p0r)^p5) ) )\r
80	// p0,p1,p2,p3,p4 are fixed\r
81	// params p5 and p6 are phi-dependent and set in ShowerShapeV2\r
82	static Double_t fPar5[3];//! UF SSPar nr 5 = p0 + phip1 + phi^2 p2\r
83	static Double_t fPar6[3];//! UF SSPar nr 6 = p0 + phip1 + phi^2 p2\r
84	static void EvalPar5(Double_t phi);\r
85	static void EvalPar6(Double_t phi);\r
86	static void EvalParsPhiDependence(Int_t absId, AliEMCALGeometry *geom);\r
87	\r
88	ClassDef(AliEMCALUnfolding,1) // Unfolding algorithm class \r
89	} ;\r
90	\r
91	#endif // AliEMCALUNFOLDING_H\r