#include "AliEMCALRecParam.h"
ClassImp(AliEMCALRecParam)
-
+
TObjArray* AliEMCALRecParam::fgkMaps =0; //ALTRO mappings
AliEMCALRecParam::AliEMCALRecParam() :
- AliDetectorRecoParam(),
- fClusteringThreshold(0.5),
- fW0(4.5),
- fMinECut(0.045),
- fUnfold(kFALSE),
- fLocMaxCut(0.03),
- fTimeCut(1.),// high value, accept all
- fTimeMin(-1.),// small value, accept all
- fTimeMax(1.),// high value, accept all//clustering
- fClusterizerFlag(AliEMCALRecParam::kClusterizerv1),
- fNRowDiff(1),
- fNColDiff(1),
- fMthCutEta(0.025),
- fMthCutPhi(0.05),
- fStep(20),
- fTrkCutPt(0.0),
- fTrkCutNITS(0.0),
- fTrkCutNTPC(50.0), //track matching
- fHighLowGainFactor(16.0),
- fOrderParameter(2),
- fTau(2.35),
- fNoiseThreshold(3),
- fNPedSamples(5),
- fRemoveBadChannels(kFALSE),
- fFittingAlgorithm(0),
- fUseFALTRO(kTRUE),
- fFitLEDEvents(kFALSE)//raw signal
+AliDetectorRecoParam(),
+fClusteringThreshold(0.1),
+fW0(4.5),
+fMinECut(0.05),
+fUnfold(kFALSE),
+fLocMaxCut(0.03),
+fTimeCut(1.),// high value, accept all
+fTimeMin(-1.),// small value, accept all
+fTimeMax(1.),// high value, accept all//clustering
+fClusterizerFlag(AliEMCALRecParam::kClusterizerv1),
+fNRowDiff(1),
+fNColDiff(1),
+fMthCutEta(0.025),
+fMthCutPhi(0.05),
+fStep(20),
+fTrkCutPt(0.0),
+fTrkCutNITS(1.0),
+fTrkCutNTPC(20.0), //track matching
+fHighLowGainFactor(16.0),
+fOrderParameter(2),
+fTau(2.35),
+fNoiseThreshold(3),
+fNPedSamples(5),
+fRemoveBadChannels(kFALSE),
+fFittingAlgorithm(0),
+fUseFALTRO(kTRUE),
+fFitLEDEvents(kFALSE)//raw signal
{
// default reco values
fPiZero[5][2] = -6.040360e-02;
fPiZero[5][3] = -6.137459e-04;
fPiZero[5][4] = 1.847328e-05;
-
+
fHadronEnergyProb[0]= 0.;
fHadronEnergyProb[1]= 0.;
fHadronEnergyProb[2]= 6.188452e-02;
fPar6[0] = 0.05452;
fPar6[1] = 0.0001228;
fPar6[2] = 0.001361;
-
+
}
//-----------------------------------------------------------------------------
AliEMCALRecParam::AliEMCALRecParam(const AliEMCALRecParam& rp) :
- AliDetectorRecoParam(),
- fClusteringThreshold(rp.fClusteringThreshold),
- fW0(rp.fW0),
- fMinECut(rp.fMinECut),
- fUnfold(rp.fUnfold),
- fLocMaxCut(rp.fLocMaxCut),
- fTimeCut(rp.fTimeCut),
- fTimeMin(rp.fTimeMin),
- fTimeMax(rp.fTimeMax),//clustering
- fClusterizerFlag(rp.fClusterizerFlag),
- fNRowDiff(rp.fNRowDiff),
- fNColDiff(rp.fNColDiff),
- fMthCutEta(rp.fMthCutEta),
- fMthCutPhi(rp.fMthCutPhi),
- fStep(rp.fStep),
- fTrkCutPt(rp.fTrkCutPt),
- fTrkCutNITS(rp.fTrkCutNITS),
- fTrkCutNTPC(rp.fTrkCutNTPC), // track matching
- fHighLowGainFactor(rp.fHighLowGainFactor),
- fOrderParameter(rp.fOrderParameter),
- fTau(rp.fTau),
- fNoiseThreshold(rp.fNoiseThreshold),
- fNPedSamples(rp.fNPedSamples),
- fRemoveBadChannels(rp.fRemoveBadChannels),
- fFittingAlgorithm(rp.fFittingAlgorithm),
- fUseFALTRO(rp.fUseFALTRO),
- fFitLEDEvents(rp.fFitLEDEvents) //raw signal
+AliDetectorRecoParam(),
+fClusteringThreshold(rp.fClusteringThreshold),
+fW0(rp.fW0),
+fMinECut(rp.fMinECut),
+fUnfold(rp.fUnfold),
+fLocMaxCut(rp.fLocMaxCut),
+fTimeCut(rp.fTimeCut),
+fTimeMin(rp.fTimeMin),
+fTimeMax(rp.fTimeMax),//clustering
+fClusterizerFlag(rp.fClusterizerFlag),
+fNRowDiff(rp.fNRowDiff),
+fNColDiff(rp.fNColDiff),
+fMthCutEta(rp.fMthCutEta),
+fMthCutPhi(rp.fMthCutPhi),
+fStep(rp.fStep),
+fTrkCutPt(rp.fTrkCutPt),
+fTrkCutNITS(rp.fTrkCutNITS),
+fTrkCutNTPC(rp.fTrkCutNTPC), // track matching
+fHighLowGainFactor(rp.fHighLowGainFactor),
+fOrderParameter(rp.fOrderParameter),
+fTau(rp.fTau),
+fNoiseThreshold(rp.fNoiseThreshold),
+fNPedSamples(rp.fNPedSamples),
+fRemoveBadChannels(rp.fRemoveBadChannels),
+fFittingAlgorithm(rp.fFittingAlgorithm),
+fUseFALTRO(rp.fUseFALTRO),
+fFitLEDEvents(rp.fFitLEDEvents) //raw signal
{
//copy constructor
fPar5[i] = rp.fPar5[i];
fPar6[i] = rp.fPar6[i];
}
-
+
}
//-----------------------------------------------------------------------------
Int_t i=0, j=0;
for (i = 0; i < 6; i++) {
for (j = 0; j < 6; j++) {
- fGamma[i][j] = rp.fGamma[i][j];
- fGamma1to10[i][j] = rp.fGamma1to10[i][j];
- fHadron[i][j] = rp.fHadron[i][j];
- fHadron1to10[i][j] = rp.fHadron1to10[i][j];
- fPiZero[i][j] = rp.fPiZero[i][j];
+ fGamma[i][j] = rp.fGamma[i][j];
+ fGamma1to10[i][j] = rp.fGamma1to10[i][j];
+ fHadron[i][j] = rp.fHadron[i][j];
+ fHadron1to10[i][j] = rp.fHadron1to10[i][j];
+ fPiZero[i][j] = rp.fPiZero[i][j];
}
fGammaEnergyProb[i] = rp.fGammaEnergyProb[i];
fPiZeroEnergyProb[i] = rp.fPiZeroEnergyProb[i];
fPar5[i] = rp.fPar5[i];
fPar6[i] = rp.fPar6[i];
}
-
+
}
return *this;
params->SetGamma(0,2,1.555996e-02);
params->SetGamma(0,3,2.243525e-04);
params->SetGamma(0,4,-2.560087e-06);
-
+
params->SetGamma(1,0,6.500216e+00);
params->SetGamma(1,1,-2.564958e-01);
params->SetGamma(1,2,1.967894e-01);
params->SetGamma(2,2,3.126839e-02);
params->SetGamma(2,3,3.387532e-04);
params->SetGamma(2,4,-4.089145e-06);
-
+
params->SetGamma(3,0,0.);
params->SetGamma(3,1,-2.696008e+00);
params->SetGamma(3,2, 6.920305e-01);
params->SetGamma(3,3,-2.281122e-03);
params->SetGamma(3,4,0.);
-
+
params->SetGamma(4,0,2.281564e-01);
params->SetGamma(4,1,-7.575040e-02);
params->SetGamma(4,2,3.813423e-01);
params->SetGamma(4,3,-1.243854e-04);
params->SetGamma(4,4,1.232045e-06);
-
+
params->SetGamma(5,0,-3.290107e-01);
params->SetGamma(5,1,3.707545e-02);
params->SetGamma(5,2,2.917397e-03);
params->SetGamma(5,3,4.695306e-05);
params->SetGamma(5,4,-3.572981e-07);
-
+
params->SetHadron(0,0,9.482243e-01);
params->SetHadron(0,1,-2.780896e-01);
params->SetHadron(0,2, 2.223507e-02);
params->SetHadron(0,3,7.294263e-04);
params->SetHadron(0,4,-5.665872e-06);
-
+
params->SetHadron(1,0,0.);
params->SetHadron(1,1,0.);
params->SetHadron(1,2,2.483298e-01);
params->SetHadron(1,3,0.);
params->SetHadron(1,4,0.);
-
+
params->SetHadron(2,0,-5.601199e+00);
params->SetHadron(2,1,2.097382e+00);
params->SetHadron(2,2,-2.307965e-01);
params->SetHadron(2,3,9.206871e-03);
params->SetHadron(2,4,-8.887548e-05);
-
+
params->SetHadron(3,0,6.543101e+00);
params->SetHadron(3,1,-2.305203e+00);
params->SetHadron(3,2,2.761673e-01);
params->SetHadron(3,3,-5.465855e-03);
params->SetHadron(3,4,2.784329e-05);
-
+
params->SetHadron(4,0,-2.443530e+01);
params->SetHadron(4,1,8.902578e+00);
params->SetHadron(4,2,-5.265901e-01);
params->SetHadron(4,3,2.549111e-02);
params->SetHadron(4,4,-2.196801e-04);
-
+
params->SetHadron(5,0,2.102007e-01);
params->SetHadron(5,1,-3.844418e-02);
params->SetHadron(5,2,1.234682e-01);
params->SetHadron(5,3,-3.866733e-03);
params->SetHadron(5,4,3.362719e-05);
-
+
params->SetPiZero(0,0,5.07215e-01);
params->SetPiZero(0,1,-5.35274e-01);
params->SetPiZero(0,2,8.49925e-02);
params->SetPiZero(0,3,-3.68740e-03);
params->SetPiZero(0,4,5.48228e-05);
-
+
params->SetPiZero(1,0,4.590137e+02);
params->SetPiZero(1,1,-7.079341e+01);
params->SetPiZero(1,2,4.990735e+00);
params->SetPiZero(1,3,-1.241302e-01);
params->SetPiZero(1,4,1.065772e-03);
-
+
params->SetPiZero(2,0,1.376415e+02);
params->SetPiZero(2,1,-3.031577e+01);
params->SetPiZero(2,2,2.474338e+00);
params->SetPiZero(2,3,-6.903410e-02);
params->SetPiZero(2,4,6.244089e-04);
-
+
params->SetPiZero(3,0,0.);
params->SetPiZero(3,1,1.145983e+00);
params->SetPiZero(3,2,-2.476052e-01);
params->SetPiZero(3,3,1.367373e-02);
params->SetPiZero(3,4,0.);
-
+
params->SetPiZero(4,0,-2.09758e+02);
params->SetPiZero(4,1,6.30080e+01);
params->SetPiZero(4,2,-4.03890e+00);
params->SetPiZero(4,3,1.08854e-01);
params->SetPiZero(4,4,-9.36248e-04);
-
+
params->SetPiZero(5,0,-1.671477e+01);
params->SetPiZero(5,1,2.995415e+00);
params->SetPiZero(5,2,-6.040360e-02);
params->SetPiZero(5,3,-6.137459e-04);
params->SetPiZero(5,4,1.847328e-05);
-
-
-// params->SetHadronEnergyProb(0,0.);
-// params->SetHadronEnergyProb(1,0.);
-// params->SetHadronEnergyProb(2,1.);
-// params->SetHadronEnergyProb(3,0.);
-// params->SetHadronEnergyProb(4,0.);
-
+
+
+ // params->SetHadronEnergyProb(0,0.);
+ // params->SetHadronEnergyProb(1,0.);
+ // params->SetHadronEnergyProb(2,1.);
+ // params->SetHadronEnergyProb(3,0.);
+ // params->SetHadronEnergyProb(4,0.);
+
params->SetHadronEnergyProb(0, 4.767543e-02);
params->SetHadronEnergyProb(1,-1.537523e+00);
params->SetHadronEnergyProb(2,2.956727e-01);
params->SetHadronEnergyProb(3,-3.051022e+01);
params->SetHadronEnergyProb(4,-6.036931e-02);
-
-// Int_t ii= 0;
-// Int_t jj= 3;
-// AliDebug(1,Form("PID parameters (%d, %d): fGamma=%.3f, fPi=%.3f, fHadron=%.3f",
-// ii,jj, params->GetGamma(ii,jj), params->GetPiZero(ii,jj), params->GetHadron(ii,jj)));
-// cout << " Low Flux Parameters fGamma [2][2] = " << params->GetGamma(2,2) << endl;
-// cout << " Low Flux Parameters fHadron [2][2] = " << params->GetHadron(2,2) << endl;
-
+
+ // Int_t ii= 0;
+ // Int_t jj= 3;
+ // AliDebug(1,Form("PID parameters (%d, %d): fGamma=%.3f, fPi=%.3f, fHadron=%.3f",
+ // ii,jj, params->GetGamma(ii,jj), params->GetPiZero(ii,jj), params->GetHadron(ii,jj)));
+ // cout << " Low Flux Parameters fGamma [2][2] = " << params->GetGamma(2,2) << endl;
+ // cout << " Low Flux Parameters fHadron [2][2] = " << params->GetHadron(2,2) << endl;
+
return params;
-
+
}
if(!strcmp("",opt) || !strcmp("reco",opt)){
AliInfo(Form("Clusterizer selected: %d", fClusterizerFlag));
AliInfo(Form("Clusterization parameters :\n fClusteringThreshold=%.3f,\n fW0=%.3f,\n fMinECut=%.3f,\n fUnfold=%d,\n fLocMaxCut=%.3f,\n fTimeCut=%2.1f ns\n fTimeMin=%2.1f ns\n fTimeMax=%2.1f ns\n",
- fClusteringThreshold,fW0,fMinECut,fUnfold,fLocMaxCut,fTimeCut*1.e9,fTimeMin*1e9,fTimeMax*1e9));
+ fClusteringThreshold,fW0,fMinECut,fUnfold,fLocMaxCut,fTimeCut*1.e9,fTimeMin*1e9,fTimeMax*1e9));
AliInfo(Form("Track-matching cuts :\n dEta<%f, dPhi<%f, step=%f[cm], pT>%f, NITS>%f, NTPC>%f\n",
- fMthCutEta, fMthCutPhi, fStep, fTrkCutPt, fTrkCutNITS,fTrkCutNTPC));
-
+ fMthCutEta, fMthCutPhi, fStep, fTrkCutPt, fTrkCutNITS,fTrkCutNTPC));
+
AliInfo(Form("Unfolding parameters, Shower shape function :\n"));
for(Int_t i = 0; i < 8; i++){
- printf(" %f, ", fSSPars[i]);
+ printf(" %f, ", fSSPars[i]);
}
printf("\n Parameter 5 : ");
for(Int_t i = 0; i < 3; i++){
AliInfo(Form("PID parameters, Gamma :\n"));
for(Int_t i = 0; i < 6; i++){
for(Int_t j = 0; j < 6; j++){
- printf(" %f, ", fGamma[i][j]);
+ printf(" %f, ", fGamma[i][j]);
}
printf("\n");
}
AliInfo(Form("PID parameters, Hadron :\n"));
for(Int_t i = 0; i < 6; i++){
for(Int_t j = 0; j < 6; j++){
- printf(" %f, ", fHadron[i][j]);
+ printf(" %f, ", fHadron[i][j]);
}
printf("\n");
}
AliInfo(Form("PID parameters, Pi0zero :\n"));
for(Int_t i = 0; i < 6; i++){
for(Int_t j = 0; j < 6; j++){
- printf(" %f, ", fPiZero[i][j]);
+ printf(" %f, ", fPiZero[i][j]);
}
printf("\n");
}
printf("\n");
}
-
+
if(!strcmp("",opt) || !strcmp("raw",opt)){
AliInfo(Form("Raw signal parameters: \n gain factor=%f, order=%d, tau=%f, noise threshold=%d, nped samples=%d \n",
- fHighLowGainFactor,fOrderParameter,fTau,fNoiseThreshold,fNPedSamples));
+ fHighLowGainFactor,fOrderParameter,fTau,fNoiseThreshold,fNPedSamples));
AliInfo(Form("Raw signal: remove bad channels? %d, \n \t with fitting algorithm %d, \n \t Use FALTRO %d, Fit LED events %d \n",
- fRemoveBadChannels, fFittingAlgorithm, fUseFALTRO, fFitLEDEvents));
+ fRemoveBadChannels, fFittingAlgorithm, fUseFALTRO, fFitLEDEvents));
}
}