+// -*- mode: c++ -*-
/**************************************************************************
* This file is property of and copyright by *
* the Relativistic Heavy Ion Group (RHIG), Yale University, US, 2009 *
* provided "as is" without express or implied warranty. *
**************************************************************************/
-
// The Peak-Finder algorithm
// The amplitude is extracted as a
// weighted sum of the samples using the
#include "AliCaloRawAnalyzerPeakFinder.h"
#include "AliCaloBunchInfo.h"
#include "AliCaloFitResults.h"
-#include <iostream>
-#include "unistd.h"
#include "TMath.h"
#include "AliLog.h"
#include "AliCDBEntry.h"
#include "AliCDBManager.h"
#include "TFile.h"
#include "AliCaloPeakFinderVectors.h"
+#include <iostream>
using namespace std;
+
ClassImp( AliCaloRawAnalyzerPeakFinder )
AliCaloRawAnalyzerPeakFinder::AliCaloRawAnalyzerPeakFinder() :AliCaloRawAnalyzer("Peak-Finder", "PF"),
- fAmp(0),
- fPeakFinderVectors(0),
- fRunOnAlien(false)
+ fPeakFinderVectors(0),
+ fRunOnAlien(false),
+ fIsInitialized(false)
{
+ //Comment
+ fAlgo= Algo::kPeakFinder;
InitOCDB(fRunOnAlien);
fPeakFinderVectors = new AliCaloPeakFinderVectors() ;
ResetVectors();
LoadVectorsOCDB();
- // cout << "*********** OCDB VECTORS ************" << endl;
- // fPeakFinderVectors->PrintVectors();
- // PrintVectors();
}
AliCaloRawAnalyzerPeakFinder::InitOCDB(bool alien) const
{
// Setting the default OCDB pathe depending on wether we work locally or on the GRID.
- AliCDBManager::Instance()->SetDefaultStorage( alien == true ? "alien://$ALICE_ROOT/OCDB" : "local://$ALICE_ROOT/OCDB");
- AliCDBManager::Instance()->SetRun(100);
+ if( !AliCDBManager::Instance()->IsDefaultStorageSet ())
+ {
+ AliCDBManager::Instance()->SetDefaultStorage( alien == true ? "alien://$ALICE_ROOT/OCDB" : "local://$ALICE_ROOT/OCDB" );
+ AliCDBManager::Instance()->SetRun(100);
+ }
}
void
AliCaloRawAnalyzerPeakFinder::ResetVectors()
{
- for(int i=0; i < MAXSTART; i++)
+ //As name implies
+ for(int i=0; i < PF::MAXSTART; i++)
{
- for(int j=0; j < SAMPLERANGE; j++ )
+ for(int j=0; j < PF::SAMPLERANGE; j++ )
{
for(int k=0; k < 100; k++ )
{
AliCaloRawAnalyzerPeakFinder::~AliCaloRawAnalyzerPeakFinder()
{
//comment
- for(int i=0; i < MAXSTART; i++)
- {
- for(int j=0; j < SAMPLERANGE; j++ )
- {
- delete[] fPFAmpVectors[i][j];
- delete[] fPFTofVectors[i][j];
- delete[] fPFAmpVectorsCoarse[i][j];
- delete[] fPFTofVectorsCoarse[i][j];
- }
- }
}
-
Double_t
AliCaloRawAnalyzerPeakFinder::ScanCoarse(const Double_t *const array, const int length ) const
{
AliCaloFitResults
AliCaloRawAnalyzerPeakFinder::Evaluate( const vector<AliCaloBunchInfo> &bunchvector, const UInt_t altrocfg1, const UInt_t altrocfg2 )
{
+ // Evaluation of amplitude and TOF
+ if( fIsInitialized == false )
+ {
+ cout << __FILE__ << ":" << __LINE__ << "ERROR, peakfinder vectors not loaded" << endl;
+ return AliCaloFitResults(kInvalid, kInvalid);
+ }
+
// Extracting the amplitude using the Peak-Finder algorithm
// The amplitude is a weighted sum of the samples using
// optimum weights.
short maxamp; //Maximum amplitude
fAmp = 0;
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 maxrev = maxampindex - bunchvector.at(index).GetStartBin();
short timebinOffset = maxampindex - (bunchvector.at( index ).GetLength()-1);
-
- if( maxf < fAmpCut || ( maxamp - ped) > 900 ) // (maxamp - ped) > 900 = Close to saturation (use low gain then)
+
+ if( maxf < fAmpCut || ( maxamp - ped) > fOverflowCut ) // (maxamp - ped) > fOverflowCut = Close to saturation (use low gain then)
{
- return AliCaloFitResults( maxamp, ped, AliCaloFitResults::kCrude, maxf, timebinOffset);
- }
-
- int first;
- int last;
-
- if ( maxf > fAmpCut )
- {
- SelectSubarray( fReversed, bunchvector.at(index).GetLength(), maxrev, &first, &last);
+ return AliCaloFitResults( maxamp, ped, Ret::kCrude, maxf, timebinOffset);
+ }
+ else if ( maxf >= fAmpCut )
+ {
+ int first = 0;
+ int last = 0;
+ short maxrev = maxampindex - bunchvector.at(index).GetStartBin();
+ SelectSubarray( fReversed, bunchvector.at(index).GetLength(), maxrev, &first, &last, fFitArrayCut);
int nsamples = last - first;
- if( ( nsamples ) >= fNsampleCut )
+
+ if( ( nsamples ) >= fNsampleCut ) // no if statement needed really; keep for readability
{
int startbin = bunchvector.at(index).GetStartBin();
int n = last - first;
int pfindex = n - fNsampleCut;
- pfindex = pfindex > SAMPLERANGE ? SAMPLERANGE : pfindex;
-
+ pfindex = pfindex > PF::SAMPLERANGE ? PF::SAMPLERANGE : pfindex;
int dt = maxampindex - startbin -2;
int tmpindex = 0;
-
Float_t tmptof = ScanCoarse( &fReversed[dt] , n );
if( tmptof < -1 )
}
double tof = 0;
-
- for(int k=0; k < SAMPLERANGE; k++ )
+ for(int k=0; k < PF::SAMPLERANGE; k++ )
{
tof += fPFTofVectors[0][pfindex][k]*fReversed[ dt +k + tmpindex -1 ];
}
-
- for( int i=0; i < SAMPLERANGE; i++ )
+ for( int i=0; i < PF::SAMPLERANGE; i++ )
{
{
+
fAmp += fPFAmpVectors[0][pfindex][i]*fReversed[ dt +i +tmpindex -1 ];
}
}
-
+
if( TMath::Abs( (maxf - fAmp )/maxf ) > 0.1 )
{
fAmp = maxf;
}
- tof = timebinOffset - 0.01*tof/fAmp; // clock ticks
-
- return AliCaloFitResults( maxamp, ped , AliCaloFitResults::kFitPar, fAmp, tof,
- timebinOffset, AliCaloFitResults::kDummy, AliCaloFitResults::kDummy,
- AliCaloFitResults::kDummy, AliCaloFitSubarray(index, maxrev, first, last) );
+ tof = timebinOffset - 0.01*tof/fAmp - fL1Phase/TIMEBINWITH; // clock
+ Float_t chi2 = CalculateChi2(fAmp, tof-timebinOffset+maxrev, first, last);
+ Int_t ndf = last - first - 1; // nsamples - 2
+ return AliCaloFitResults( maxamp, ped , Ret::kFitPar, fAmp, tof,
+ timebinOffset, chi2, ndf,
+ Ret::kDummy, AliCaloFitSubarray(index, maxrev, first, last) );
}
else
{
- return AliCaloFitResults( maxamp, ped , AliCaloFitResults::kCrude, maxf, timebinOffset);
+ Float_t chi2 = CalculateChi2(maxf, maxrev, first, last);
+ Int_t ndf = last - first - 1; // nsamples - 2
+ return AliCaloFitResults( maxamp, ped , Ret::kCrude, maxf, timebinOffset,
+ timebinOffset, chi2, ndf, Ret::kDummy, AliCaloFitSubarray(index, maxrev, first, last) );
}
- }
- else
- {
- return AliCaloFitResults( maxamp , ped, AliCaloFitResults::kCrude, maxf, timebinOffset);
- }
+ } // ampcut
}
- return AliCaloFitResults(AliCaloFitResults::kInvalid, AliCaloFitResults::kInvalid);
+ return AliCaloFitResults(kInvalid, kInvalid);
}
void
-AliCaloRawAnalyzerPeakFinder::CopyVectors(const AliCaloPeakFinderVectors *const pfv )
+AliCaloRawAnalyzerPeakFinder::CopyVectors( const AliCaloPeakFinderVectors *const pfv )
{
// As name implies
-
if ( pfv != 0)
{
- for(int i = 0; i < MAXSTART ; i++)
+ for(int i = 0; i < PF::MAXSTART ; i++)
{
- for( int j=0; j < SAMPLERANGE; j++)
+ for( int j=0; j < PF::SAMPLERANGE; j++)
{
pfv->GetVector( i, j, fPFAmpVectors[i][j] , fPFTofVectors[i][j],
- fPFAmpVectorsCoarse[i][j] , fPFTofVectorsCoarse[i][j] );
+ fPFAmpVectorsCoarse[i][j] , fPFTofVectorsCoarse[i][j] );
+
fPeakFinderVectors->SetVector( i, j, fPFAmpVectors[i][j], fPFTofVectors[i][j],
fPFAmpVectorsCoarse[i][j], fPFTofVectorsCoarse[i][j] );
}
else
{
AliFatal( "pfv = ZERO !!!!!!!");
- // cout << __FILE__ << __LINE__ << __FUNCTION__ << " ERROR, pfv = ZERO !!!!!!!" << endl;
}
}
-
void
AliCaloRawAnalyzerPeakFinder::LoadVectorsOCDB()
{
//Loading of Peak-Finder vectors from the
//Offline Condition Database (OCDB)
-
- // AliCDBManager::Instance()->SetDefaultStorage("local://$ALICE_ROOT/OCDB");
- // AliCDBManager::Instance()->SetRun(100);
-
AliCDBEntry* entry = AliCDBManager::Instance()->Get("EMCAL/Calib/PeakFinder/");
- // AliCaloPeakFinderVectors *pfv ;
if( entry != 0 )
+ {
+ //cout << __FILE__ << ":" << __LINE__ << ": Printing metadata !! " << endl;
+ //entry->PrintMetaData();
+ AliCaloPeakFinderVectors *pfv = (AliCaloPeakFinderVectors *)entry->GetObject();
+ if( pfv == 0 )
{
- AliCaloPeakFinderVectors *pfv = (AliCaloPeakFinderVectors *)entry->GetObject();
- CopyVectors( pfv );
-
+ cout << __FILE__ << ":" << __LINE__ << "_ ERRROR " << endl;
}
- // CopyVectors( pfv );
+ CopyVectors( pfv );
+
+ if( pfv != 0 )
+ {
+ fIsInitialized = true;
+ }
+ }
}
AliCaloRawAnalyzerPeakFinder::LoadVectorsASCII()
{
//Read in the Peak finder vecors from ASCI files
- for(int i = 0; i < MAXSTART ; i++)
+ fIsInitialized= true;
+ const Int_t buffersize = 256;
+ for(int i = 0; i < PF::MAXSTART ; i++)
+ {
+ for( int j=0; j < PF::SAMPLERANGE; j++)
{
- for( int j=0; j < SAMPLERANGE; j++)
- {
- char filenameCoarse[256];
- char filename[256];
- int n = j+fNsampleCut;
- double start = (double)i+0;
-
- sprintf(filename, "%s/EMCAL/vectors-emcal/start%.1fN%dtau0.235fs10dt1.0.txt", getenv("ALICE_ROOT"), start, n);
- sprintf(filenameCoarse, "%s/EMCAL/vectors-emcal/start%.1fN%dtau0.235fs10dt3.0.txt", getenv("ALICE_ROOT"), start, n);
-
- FILE *fp = fopen(filename, "r");
- FILE *fpc = fopen(filenameCoarse, "r");
-
- if( fp == 0 )
+ char filenameCoarse[buffersize];
+ char filename[buffersize];
+ int n = j+fNsampleCut;
+ double start = (double)i+0;
+
+ snprintf(filename, buffersize, "%s/EMCAL/vectors-emcal/start%.1fN%dtau0.235fs10dt1.0.txt", getenv("ALICE_ROOT"), start, n);
+ snprintf(filenameCoarse, buffersize, "%s/EMCAL/vectors-emcal/start%.1fN%dtau0.235fs10dt3.0.txt", getenv("ALICE_ROOT"), start, n);
+
+ FILE *fp = fopen(filename, "r");
+ FILE *fpc = fopen(filenameCoarse, "r");
+
+ if( fp == 0 )
{
AliFatal( Form( "could not open file: %s", filename ) );
}
-
- if(fpc == 0)
+ else if(fpc == 0)
{
AliFatal( Form( "could not open file: %s", filenameCoarse ) );
}
- else
+ else
{
for(int m = 0; m < n ; m++ )
- {
- fscanf(fp, "%lf\t", &fPFAmpVectors[i][j][m] );
- fscanf(fpc, "%lf\t", &fPFAmpVectorsCoarse[i][j][m] );
- }
+ {
+ fscanf(fp, "%lf\t", &fPFAmpVectors[i][j][m] );
+ fscanf(fpc, "%lf\t", &fPFAmpVectorsCoarse[i][j][m] );
+ }
fscanf(fp, "\n" );
fscanf(fpc, "\n" );
for(int m = 0; m < n ; m++ )
- {
- fscanf(fp, "%lf\t", &fPFTofVectors[i][j][m] );
- fscanf(fpc, "%lf\t", &fPFTofVectorsCoarse[i][j][m] );
- }
+ {
+ fscanf(fp, "%lf\t", &fPFTofVectors[i][j][m] );
+ fscanf(fpc, "%lf\t", &fPFTofVectorsCoarse[i][j][m] );
+ }
fPeakFinderVectors->SetVector( i, j, fPFAmpVectors[i][j], fPFTofVectors[i][j],
- fPFAmpVectorsCoarse[i][j], fPFTofVectorsCoarse[i][j] );
-
- fclose (fp);
- fclose (fpc);
+ fPFAmpVectorsCoarse[i][j], fPFTofVectorsCoarse[i][j] );
+
}
- }
+
+ if(fp) fclose (fp );
+ if(fpc)fclose (fpc);
+
}
+ }
}
{
// Utility function to write Peak-Finder vectors to an root file
// The output is used to create an OCDB entry.
-
- cout << "**** Peakfinder vectors before writing to file **********" << endl;
fPeakFinderVectors->PrintVectors();
- cout << "****************** END ***********************" << endl;
TFile *f = new TFile("peakfindervectors2.root", "recreate" );
fPeakFinderVectors->Write();
f->Close();
delete f;
}
+
+
+void
+AliCaloRawAnalyzerPeakFinder::PrintVectors()
+{
+ for(int i=0; i < 20; i++)
+ {
+ for( int j = 0; j < PF::MAXSTART; j ++ )
+ {
+ for( int k=0; k < PF::SAMPLERANGE; k++ )
+ {
+ cout << fPFAmpVectors[j][k][i] << "\t" ;
+ }
+ }
+ cout << endl;
+ }
+ cout << __FILE__ << ":" << __LINE__ << ":.... DONE !!" << endl;
+}