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

// -*- mode: c++ -*-
#ifndef ALICALOFITRESULTS_H
#define ALICALOFITRESULTS_H
/**************************************************************************
 * This file is property of and copyright by                              *
 * the Relativistic Heavy Ion Group (RHIG), Yale University, US, 2009     *
 *                                                                        *
 * Primary Author: Per Thomas Hille <p.t.hille@fys.uio.no>                *
 *                                                                        *
 * Contributors are mentioned in the code where appropriate.              *
 * Please report bugs to p.t.hille@fys.uio.no                             *
 *                                                                        *
 * Permission to use, copy, modify and distribute this software and its   *
 * documentation strictly for non-commercial purposes is hereby granted   *
 * without fee, provided that the above copyright notice appears in all   *
 * copies and that both the copyright notice and this permission notice   *
 * appear in the supporting documentation. The authors make no claims     *
 * about the suitability of this software for any purpose. It is          *
 * provided "as is" without express or implied warranty.                  *
 **************************************************************************/

#include "Rtypes.h"
#include "AliCaloFitSubarray.h"

// Container class to hold results from fitting 
// as well as other methods for
// raw data signals extraction
class  AliCaloFitResults
{
 public:
  enum kReturnCode {kFitPar=1, kDummy=-1, kCrude=-9, kNoFit=-99, kInvalid=-9999};// possible return values
  // kFitPar: method fit or parametrization was used
  // kDummy: just a filler parameter, if e.g. chi2 not available
  // kCrude: maximum was used
  // kNoFit: maximum was used, exception handling for fit invoked
  // kInvalid: could not even look for maximum

  explicit AliCaloFitResults( const Int_t maxSig, 
			      const Float_t ped, 
			      const Short_t fitStatus, 
			      const Float_t  amp, 
			      const Float_t time,
			      const Int_t maxTimebin,
			      const Float_t chi, 
			      const Int_t ndf, 
			      const Int_t minSig, 
			      const AliCaloFitSubarray fitSubarray  ); 

  explicit AliCaloFitResults( const Int_t maxSig, 
			      const Float_t ped, 
			      const Short_t fitStatus, 
			      const Float_t  amp, 
			      const Float_t time,
			      const Int_t maxTimebin,
			      const Float_t chi, 
			      const Int_t ndf, 
			      const Int_t minSig = kDummy); 

  // shorter interface when no fit is done
  explicit AliCaloFitResults( const Int_t maxSig, 
			      const Float_t ped, 
			      const Short_t fitStatus, 
			      const Float_t  amp, 
			      const Int_t maxTimebin); 

  // minimum interface
  explicit AliCaloFitResults( const Int_t maxSig, const Int_t minSig );

  AliCaloFitResults();
  virtual  ~AliCaloFitResults();
  Int_t  GetMaxSig() const  { return fMaxSig;};
  Float_t   GetPed() const { return fPed;};
  Int_t  GetMinSig() const { return fMinSig;};
  Int_t  GetStatus() const  { return fStatus;};
  Float_t   GetAmp() const {  return fAmpSig; };
  Float_t   GetTof() const {  return fTime; }; 
  Float_t   GetTime() const {  return fTime; };
  Int_t   GetMaxTimebin() const {  return fMaxTimebin; };
  Float_t   GetChisSquare() const { return fChi2Sig;};
  Int_t  GetNdf() const { return fNdfSig; };
  AliCaloFitSubarray  GetFitSubarray() const { return fFitSubarray; };
  
 private:
  // AliCaloFitResults();
  Int_t   fMaxSig;      //Maximum sample value ( 0 - 1023 )
  Float_t    fPed;      //Pedestal 
  Int_t   fStatus;      //Sucess or failure of fitting pocedure
  Float_t    fAmpSig;   //Amplitude in entities of ADC counts
  Float_t    fTime;     //peak/max time of signal in entities of sample intervals 
  Int_t    fMaxTimebin; //timebin with maximum ADC value
  Float_t    fChi2Sig;  //Chi Square of fit 
  Int_t   fNdfSig;      //Number of degrees of freedom of fit
  Int_t   fMinSig;      //Pedestal 
  AliCaloFitSubarray fFitSubarray; // info on time-bin array used for the fitting
};

#endif
Commit	Line	Data
d655d7dd	1	// -- mode: c++ --
57839add	2	#ifndef ALICALOFITRESULTS_H
57839add	3	#define ALICALOFITRESULTS_H
d655d7dd	4	/**************************************************************************
	5	* This file is property of and copyright by *
	6	* the Relativistic Heavy Ion Group (RHIG), Yale University, US, 2009 *
	7	* *
	8	* Primary Author: Per Thomas Hille <p.t.hille@fys.uio.no> *
	9	* *
	10	* Contributors are mentioned in the code where appropriate. *
	11	* Please report bugs to p.t.hille@fys.uio.no *
	12	* *
	13	* Permission to use, copy, modify and distribute this software and its *
	14	* documentation strictly for non-commercial purposes is hereby granted *
	15	* without fee, provided that the above copyright notice appears in all *
	16	* copies and that both the copyright notice and this permission notice *
	17	* appear in the supporting documentation. The authors make no claims *
	18	* about the suitability of this software for any purpose. It is *
	19	* provided "as is" without express or implied warranty. *
	20	**************************************************************************/
	21
d655d7dd	22	#include "Rtypes.h"
f57baa2d	23	#include "AliCaloFitSubarray.h"
f57baa2d	24
d655d7dd	25	// Container class to hold results from fitting
	26	// as well as other methods for
	27	// raw data signals extraction
57839add	28	class AliCaloFitResults
d655d7dd	29	{
d655d7dd	30	public:
507751ce	31	enum kReturnCode {kFitPar=1, kDummy=-1, kCrude=-9, kNoFit=-99, kInvalid=-9999};// possible return values
	32	// kFitPar: method fit or parametrization was used
	33	// kDummy: just a filler parameter, if e.g. chi2 not available
	34	// kCrude: maximum was used
	35	// kNoFit: maximum was used, exception handling for fit invoked
	36	// kInvalid: could not even look for maximum
f57baa2d	37
	38	explicit AliCaloFitResults( const Int_t maxSig,
	39	const Float_t ped,
	40	const Short_t fitStatus,
	41	const Float_t amp,
507751ce	42	const Float_t time,
507751ce	43	const Int_t maxTimebin,
f57baa2d	44	const Float_t chi,
	45	const Int_t ndf,
	46	const Int_t minSig,
6d1befcf	47	const AliCaloFitSubarray fitSubarray );
f57baa2d	48
57839add	49	explicit AliCaloFitResults( const Int_t maxSig,
	50	const Float_t ped,
	51	const Short_t fitStatus,
	52	const Float_t amp,
507751ce	53	const Float_t time,
507751ce	54	const Int_t maxTimebin,
57839add	55	const Float_t chi,
57839add	56	const Int_t ndf,
f57baa2d	57	const Int_t minSig = kDummy);
d655d7dd	58
507751ce	59	// shorter interface when no fit is done
	60	explicit AliCaloFitResults( const Int_t maxSig,
	61	const Float_t ped,
	62	const Short_t fitStatus,
	63	const Float_t amp,
	64	const Int_t maxTimebin);
	65
	66	// minimum interface
57839add	67	explicit AliCaloFitResults( const Int_t maxSig, const Int_t minSig );
d655d7dd	68
6d1befcf	69	AliCaloFitResults();
57839add	70	virtual ~AliCaloFitResults();
57839add	71	Int_t GetMaxSig() const { return fMaxSig;};
d655d7dd	72	Float_t GetPed() const { return fPed;};
57839add	73	Int_t GetMinSig() const { return fMinSig;};
57839add	74	Int_t GetStatus() const { return fStatus;};
d655d7dd	75	Float_t GetAmp() const { return fAmpSig; };
507751ce	76	Float_t GetTof() const { return fTime; };
	77	Float_t GetTime() const { return fTime; };
	78	Int_t GetMaxTimebin() const { return fMaxTimebin; };
d655d7dd	79	Float_t GetChisSquare() const { return fChi2Sig;};
57839add	80	Int_t GetNdf() const { return fNdfSig; };
f57baa2d	81	AliCaloFitSubarray GetFitSubarray() const { return fFitSubarray; };
d655d7dd	82
d655d7dd	83	private:
6d1befcf	84	// AliCaloFitResults();
6d1befcf	85	Int_t fMaxSig; //Maximum sample value ( 0 - 1023 )
d655d7dd	86	Float_t fPed; //Pedestal
6d1befcf	87	Int_t fStatus; //Sucess or failure of fitting pocedure
d655d7dd	88	Float_t fAmpSig; //Amplitude in entities of ADC counts
6d1befcf	89	Float_t fTime; //peak/max time of signal in entities of sample intervals
6d1befcf	90	Int_t fMaxTimebin; //timebin with maximum ADC value
d655d7dd	91	Float_t fChi2Sig; //Chi Square of fit
6d1befcf	92	Int_t fNdfSig; //Number of degrees of freedom of fit
6d1befcf	93	Int_t fMinSig; //Pedestal
f57baa2d	94	AliCaloFitSubarray fFitSubarray; // info on time-bin array used for the fitting
d655d7dd	95	};
	96
	97	#endif