[u/mrichter/AliRoot.git] / EMCAL / AliCaloRawAnalyzerFastFit.cxx

/**************************************************************************
 * This file is property of and copyright by the Experimental Nuclear     *
 * Physics Group, Dep. of Physics                                         *
 * University of Oslo, Norway, 2007                                       *
 *                                                                        *
 * Author: Per Thomas Hille <perthi@fys.uio.no> for the ALICE HLT Project.*
 * Contributors are mentioned in the code where appropriate.              *
 * Please report bugs to perthi@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.                  *
 **************************************************************************/


// Extraction of Amplitude and peak
// position using specila algorithm
// from Alexei Pavlinov
// ----------------
// ----------------

#include "AliCaloRawAnalyzerFastFit.h"
#include "AliCaloFastAltroFitv0.h"
#include "AliCaloFitResults.h"
#include "AliCaloBunchInfo.h"
#include "TMath.h"
#include <iostream>

using namespace std;

ClassImp( AliCaloRawAnalyzerFastFit )

AliCaloRawAnalyzerFastFit::AliCaloRawAnalyzerFastFit() : AliCaloRawAnalyzer("Fast Fit (Alexei)", "FF")
{
  // Comment

  for(int i=0; i <  1008; i++)
    {
      fXAxis[i] = i;
    }

}

AliCaloRawAnalyzerFastFit::~AliCaloRawAnalyzerFastFit()
{

}


AliCaloFitResults 
AliCaloRawAnalyzerFastFit::Evaluate( const vector<AliCaloBunchInfo> &bunchvector, 
				    const UInt_t altrocfg1,  const UInt_t altrocfg2 )
{
  // Comment

  short maxampindex; //index of maximum amplitude
  short maxamp; //Maximum amplitude
  int index = SelectBunch( bunchvector,  &maxampindex,  &maxamp );
 
  if( index >= 0)
    {
      Float_t ped = ReverseAndSubtractPed( &(bunchvector.at(index))  ,  altrocfg1, altrocfg2, fReversed  );
      Float_t maxf = TMath::MaxElement( bunchvector.at(index).GetLength(),  fReversed );
      short timebinOffset = maxampindex - (bunchvector.at(index).GetLength()-1);

      if(  maxf < fAmpCut  ||  ( maxamp - ped) > fOverflowCut  ) // (maxamp - ped) > fOverflowCut = Close to saturation (use low gain then)
	{
	  return  AliCaloFitResults( maxamp, ped, AliCaloFitResults::kCrude, maxf, timebinOffset);
 	}
      else if ( maxf >= fAmpCut ) // no if statement needed really; keep for readability
	{
	  int first = 0;
	  int last = 0;
	  int maxrev =  maxampindex -  bunchvector.at(index).GetStartBin();

	  SelectSubarray( fReversed,  bunchvector.at(index).GetLength(), maxrev , &first, &last);
	  int nsamples =  last - first + 1;

	  if( ( nsamples  )  >= fNsampleCut )  
	    {
	      Double_t ordered[1008];

	      for(int i=0; i < nsamples ; i++ )
		{
		  ordered[i] = fReversed[first + i];
		}

	      Double_t eSignal = 1; // nominal 1 ADC error
	      Double_t dAmp = maxf; 
	      Double_t eAmp = 0;
	      Double_t dTime0 = 0;
	      Double_t eTime = 0;
	      Double_t chi2 = 0;
	      Double_t dTau = 2.35; // time-bin units
	      
	      AliCaloFastAltroFitv0::FastFit(fXAxis, ordered , nsamples,
					     eSignal, dTau, dAmp, eAmp, dTime0, eTime, chi2);
	   
	      Double_t dTimeMax = dTime0 + timebinOffset - (maxrev - first) // abs. t0
		+ dTau; // +tau, makes sum tmax
	      return AliCaloFitResults(maxamp, ped, AliCaloFitResults::kFitPar,  dAmp, dTimeMax, timebinOffset, chi2,  AliCaloFitResults::kDummy,
				       AliCaloFitResults::kDummy, AliCaloFitSubarray(index, maxrev, first, last) );
	    } // samplecut
	  else 
	    {
	      Float_t chi2 = CalculateChi2(maxf, maxrev, first, last);
	      Int_t ndf = last - first - 1; // nsamples - 2
	      return AliCaloFitResults( maxamp, ped, AliCaloFitResults::kCrude, maxf, timebinOffset,
					timebinOffset, chi2, ndf, AliCaloFitResults::kDummy, AliCaloFitSubarray(index, maxrev, first, last) ); 
	    }
	} // ampcut
    } // bunch index    

  return AliCaloFitResults(AliCaloFitResults::kInvalid , AliCaloFitResults::kInvalid);
}
Commit	Line	Data
e37e3c84	1	/**************************************************************************
	2	* This file is property of and copyright by the Experimental Nuclear *
	3	* Physics Group, Dep. of Physics *
	4	* University of Oslo, Norway, 2007 *
	5	* *
	6	* Author: Per Thomas Hille <perthi@fys.uio.no> for the ALICE HLT Project.*
	7	* Contributors are mentioned in the code where appropriate. *
	8	* Please report bugs to perthi@fys.uio.no *
	9	* *
	10	* Permission to use, copy, modify and distribute this software and its *
	11	* documentation strictly for non-commercial purposes is hereby granted *
	12	* without fee, provided that the above copyright notice appears in all *
	13	* copies and that both the copyright notice and this permission notice *
	14	* appear in the supporting documentation. The authors make no claims *
	15	* about the suitability of this software for any purpose. It is *
	16	* provided "as is" without express or implied warranty. *
	17	**************************************************************************/
	18
	19
	20	// Extraction of Amplitude and peak
	21	// position using specila algorithm
	22	// from Alexei Pavlinov
	23	// ----------------
	24	// ----------------
	25
	26	#include "AliCaloRawAnalyzerFastFit.h"
	27	#include "AliCaloFastAltroFitv0.h"
	28	#include "AliCaloFitResults.h"
	29	#include "AliCaloBunchInfo.h"
f57baa2d	30	#include "TMath.h"
e37e3c84	31	#include <iostream>
	32
	33	using namespace std;
	34
	35	ClassImp( AliCaloRawAnalyzerFastFit )
	36
48a2e3eb	37	AliCaloRawAnalyzerFastFit::AliCaloRawAnalyzerFastFit() : AliCaloRawAnalyzer("Fast Fit (Alexei)", "FF")
e37e3c84	38	{
	39	// Comment
	40
	41	for(int i=0; i < 1008; i++)
	42	{
	43	fXAxis[i] = i;
	44	}
	45
	46	}
	47
	48	AliCaloRawAnalyzerFastFit::~AliCaloRawAnalyzerFastFit()
	49	{
	50
	51	}
	52
	53
	54	AliCaloFitResults
	55	AliCaloRawAnalyzerFastFit::Evaluate( const vector<AliCaloBunchInfo> &bunchvector,
	56	const UInt_t altrocfg1, const UInt_t altrocfg2 )
	57	{
	58	// Comment
	59
	60	short maxampindex; //index of maximum amplitude
	61	short maxamp; //Maximum amplitude
	62	int index = SelectBunch( bunchvector, &maxampindex, &maxamp );
	63
	64	if( index >= 0)
	65	{
	66	Float_t ped = ReverseAndSubtractPed( &(bunchvector.at(index)) , altrocfg1, altrocfg2, fReversed );
f57baa2d	67	Float_t maxf = TMath::MaxElement( bunchvector.at(index).GetLength(), fReversed );
3b8fd9fe	68	short timebinOffset = maxampindex - (bunchvector.at(index).GetLength()-1);
2cd0ffda	69
	70	if( maxf < fAmpCut \|\| ( maxamp - ped) > fOverflowCut ) // (maxamp - ped) > fOverflowCut = Close to saturation (use low gain then)
	71	{
	72	return AliCaloFitResults( maxamp, ped, AliCaloFitResults::kCrude, maxf, timebinOffset);
	73	}
	74	else if ( maxf >= fAmpCut ) // no if statement needed really; keep for readability
e37e3c84	75	{
2cd0ffda	76	int first = 0;
	77	int last = 0;
	78	int maxrev = maxampindex - bunchvector.at(index).GetStartBin();
	79
e37e3c84	80	SelectSubarray( fReversed, bunchvector.at(index).GetLength(), maxrev , &first, &last);
3b8fd9fe	81	int nsamples = last - first + 1;
e37e3c84	82
e37e3c84	83	if( ( nsamples ) >= fNsampleCut )
	84	{
	85	Double_t ordered[1008];
	86
e211d601	87	for(int i=0; i < nsamples ; i++ )
	88	{
	89	ordered[i] = fReversed[first + i];
	90	}
e37e3c84	91
	92	Double_t eSignal = 1; // nominal 1 ADC error
	93	Double_t dAmp = maxf;
	94	Double_t eAmp = 0;
507751ce	95	Double_t dTime0 = 0;
e37e3c84	96	Double_t eTime = 0;
e37e3c84	97	Double_t chi2 = 0;
e211d601	98	Double_t dTau = 2.35; // time-bin units
e37e3c84	99
e37e3c84	100	AliCaloFastAltroFitv0::FastFit(fXAxis, ordered , nsamples,
507751ce	101	eSignal, dTau, dAmp, eAmp, dTime0, eTime, chi2);
e37e3c84	102
507751ce	103	Double_t dTimeMax = dTime0 + timebinOffset - (maxrev - first) // abs. t0
	104	+ dTau; // +tau, makes sum tmax
	105	return AliCaloFitResults(maxamp, ped, AliCaloFitResults::kFitPar, dAmp, dTimeMax, timebinOffset, chi2, AliCaloFitResults::kDummy,
f57baa2d	106	AliCaloFitResults::kDummy, AliCaloFitSubarray(index, maxrev, first, last) );
	107	} // samplecut
	108	else
	109	{
2cd0ffda	110	Float_t chi2 = CalculateChi2(maxf, maxrev, first, last);
	111	Int_t ndf = last - first - 1; // nsamples - 2
	112	return AliCaloFitResults( maxamp, ped, AliCaloFitResults::kCrude, maxf, timebinOffset,
	113	timebinOffset, chi2, ndf, AliCaloFitResults::kDummy, AliCaloFitSubarray(index, maxrev, first, last) );
e37e3c84	114	}
f57baa2d	115	} // ampcut
f57baa2d	116	} // bunch index
	117
	118	return AliCaloFitResults(AliCaloFitResults::kInvalid , AliCaloFitResults::kInvalid);
e37e3c84	119	}