#include "AliPHOSGeoUtils.h"
#include "AliPHOSGeometry.h"
#include "AliAnalysisEtRecEffCorrection.h"
+#include "AliESDpid.h"
using namespace std;
AliAnalysisEtReconstructed::AliAnalysisEtReconstructed() :
AliAnalysisEt()
+ ,fQATree(0)
+ ,fMakeQATree(0)
+ ,fClusterMultiplicity(0)
+ ,fTrackMultiplicity(0)
+ ,fEventID(0)
,fCorrections(0)
,fPidCut(0)
+ ,nChargedHadronsMeasured(0)
+ ,nChargedHadronsTotal(0)
,fHistChargedPionEnergyDeposit(0)
,fHistProtonEnergyDeposit(0)
,fHistAntiProtonEnergyDeposit(0)
,fGeomCorrection(1.0)
,fEMinCorrection(1.0/0.687)
,fRecEffCorrection(1.0)
- ,fClusterPosition(0)
+ ,fClusterPositionAccepted(0)
+ ,fClusterPositionAll(0)
+ ,fClusterPositionAcceptedEnergy(0)
+ ,fClusterPositionAllEnergy(0)
,fClusterEnergy(0)
+ ,fClusterEnergyCent(0)
+ ,fClusterEnergyModifiedTrackMatchesCent(0)
+ ,fClusterEnergyCentMatched(0)
+ ,fClusterEnergyCentNotMatched(0)
,fClusterEt(0)
,fHistChargedEnergyRemoved(0)
,fHistNeutralEnergyRemoved(0)
,fHistGammaEnergyAdded(0)
,fHistMatchedTracksEvspTvsCent(0)
,fHistMatchedTracksEvspTvsCentEffCorr(0)
+ ,fHistMatchedTracksEvspTvsCentEffTMCorr(0)
+ ,fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr(0)
+ ,fHistMatchedTracksEvspTvsCentEffTMCorr500MeV(0)
,fHistFoundHadronsvsCent(0)
,fHistNotFoundHadronsvsCent(0)
,fHistFoundHadronsEtvsCent(0)
,fHistNotFoundHadronsEtvsCent(0)
+ ,fHistFoundHadronsvsCent500MeV(0)
+ ,fHistNotFoundHadronsvsCent500MeV(0)
+ ,fHistFoundHadronsEtvsCent500MeV(0)
+ ,fHistNotFoundHadronsEtvsCent500MeV(0)
,fHistNominalRawEt(0)
,fHistNominalNonLinHighEt(0)
,fHistNominalNonLinLowEt(0)
,fHistNominalEffHighEt(0)
,fHistNominalEffLowEt(0)
+ ,fHistTotRawEtEffCorr(0)
+ ,fHistTotRawEt(0)
+ ,fHistTotRawEtEffCorr500MeV(0)
+ ,fHistTotAllRawEt(0)
+ ,fHistTotAllRawEtEffCorr(0)
+ ,fHistNUsedClusters(0)
+ ,fHistNClustersPhosVsEmcal(0)
+ ,fHistClusterSizeVsCent(0)
+ ,fHistMatchedClusterSizeVsCent(0)
+ ,fHistTotAllRawEtVsTotalPt(0)
+ ,fHistTotAllRawEtVsTotalPtVsCent(0)
+ ,fHistTotMatchedRawEtVsTotalPtVsCent(0)
+ ,fHistPIDProtonsTrackMatchedDepositedVsNch(0)
+ ,fHistPIDAntiProtonsTrackMatchedDepositedVsNch(0)
+ ,fHistPIDProtonsTrackMatchedDepositedVsNcl(0)
+ ,fHistPIDAntiProtonsTrackMatchedDepositedVsNcl(0)
+ ,fHistPiKPTrackMatchedDepositedVsNch(0)
+ //,
+ ,fHistPIDProtonsTrackMatchedDepositedVsNchNoEff(0)
+ ,fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff(0)
+ ,fHistPIDProtonsTrackMatchedDepositedVsNclNoEff(0)
+ ,fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff(0)
+ ,fHistPiKPTrackMatchedDepositedVsNchNoEff(0)
+ ,fHistCentVsNchVsNclReco(0)
+ ,fHistRawSignalReco(0)
+ ,fHistEffCorrSignalReco(0)
+ ,fHistRecoRCorrVsPtVsCent(0)
{
}
AliAnalysisEtReconstructed::~AliAnalysisEtReconstructed()
{//destructor
+ if(fMakeQATree){
+ //fQATree->Clear();
+ delete fQATree;
+ }
delete fCorrections;
delete fHistChargedPionEnergyDeposit; /** Energy deposited in calorimeter by charged pions */
delete fHistProtonEnergyDeposit; /** Energy deposited in calorimeter by protons */
delete fHistMuonEnergyDeposit; /** Energy deposited in calorimeter by muons */
delete fHistRemovedEnergy; // removed energy
- delete fClusterPosition;
+ delete fClusterPositionAccepted;
+ delete fClusterPositionAll;
+ delete fClusterPositionAcceptedEnergy;
+ delete fClusterPositionAllEnergy;
delete fClusterEnergy;
+ delete fClusterEnergyCent;
+ delete fClusterEnergyModifiedTrackMatchesCent;
+ delete fClusterEnergyCentMatched;
+ delete fClusterEnergyCentNotMatched;
delete fClusterEt;
delete fHistChargedEnergyRemoved;
delete fHistNeutralEnergyRemoved;
delete fHistGammaEnergyAdded;
delete fHistMatchedTracksEvspTvsCent;
delete fHistMatchedTracksEvspTvsCentEffCorr;
+ delete fHistMatchedTracksEvspTvsCentEffTMCorr;
+ delete fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr;
+ delete fHistMatchedTracksEvspTvsCentEffTMCorr500MeV;
delete fHistFoundHadronsvsCent;
delete fHistNotFoundHadronsvsCent;
delete fHistFoundHadronsEtvsCent;
delete fHistNotFoundHadronsEtvsCent;
+ delete fHistFoundHadronsvsCent500MeV;
+ delete fHistNotFoundHadronsvsCent500MeV;
+ delete fHistFoundHadronsEtvsCent500MeV;
+ delete fHistNotFoundHadronsEtvsCent500MeV;
delete fHistNominalRawEt;
delete fHistNominalNonLinHighEt;
delete fHistNominalNonLinLowEt;
delete fHistNominalEffHighEt;
delete fHistNominalEffLowEt;
+ delete fHistTotRawEtEffCorr;
+ delete fHistTotRawEt;
+ delete fHistTotAllRawEt;
+ delete fHistTotAllRawEtEffCorr;
+ delete fHistTotRawEtEffCorr500MeV;
+ delete fHistNUsedClusters;
+ delete fHistNClustersPhosVsEmcal;
+ delete fHistClusterSizeVsCent;
+ delete fHistMatchedClusterSizeVsCent;
+ delete fHistTotAllRawEtVsTotalPt;
+ delete fHistTotAllRawEtVsTotalPtVsCent;
+ delete fHistTotMatchedRawEtVsTotalPtVsCent;
+ delete fHistPIDProtonsTrackMatchedDepositedVsNch;
+ delete fHistPIDAntiProtonsTrackMatchedDepositedVsNch;
+ delete fHistPIDProtonsTrackMatchedDepositedVsNcl;
+ delete fHistPIDAntiProtonsTrackMatchedDepositedVsNcl;
+ delete fHistPiKPTrackMatchedDepositedVsNch;
+ delete fHistPIDProtonsTrackMatchedDepositedVsNchNoEff;
+ delete fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff;
+ delete fHistPIDProtonsTrackMatchedDepositedVsNclNoEff;
+ delete fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff;
+ delete fHistPiKPTrackMatchedDepositedVsNchNoEff;
+ delete fHistCentVsNchVsNclReco;
+ delete fHistRawSignalReco;
+ delete fHistEffCorrSignalReco;
+ delete fHistRecoRCorrVsPtVsCent;
}
Int_t AliAnalysisEtReconstructed::AnalyseEvent(AliVEvent* ev)
fCentClass = fCentrality->GetCentralityClass5("V0M");
}
- TRefArray *caloClusters = fSelector->GetClusters();
- Float_t fClusterMult = caloClusters->GetEntries();
+
+ //for PID
+ //AliESDpid *pID = new AliESDpid();
+ //pID->MakePID(event);
+ Float_t etPIDProtons = 0.0;
+ Float_t etPIDAntiProtons = 0.0;
+ Float_t etPiKPMatched = 0.0;
+ Float_t etPIDProtonsNoEff = 0.0;
+ Float_t etPIDAntiProtonsNoEff = 0.0;
+ Float_t etPiKPMatchedNoEff = 0.0;
+ Float_t multiplicity = fEsdtrackCutsTPC->GetReferenceMultiplicity(event,kTRUE);
+ fTrackMultiplicity = multiplicity;
+ fEventID = event->GetPeriodNumber();//This is not the event id
+
+ Float_t totalMatchedPt = 0.0;
+ Float_t totalPt = 0.0;
+ TObjArray* list = fEsdtrackCutsTPC->GetAcceptedTracks(event);
+ Int_t nGoodTracks = list->GetEntries();
+ for (Int_t iTrack = 0; iTrack < nGoodTracks; iTrack++){
+ AliESDtrack *track = dynamic_cast<AliESDtrack*> (list->At(iTrack));
+ if (!track)
+ {
+ Printf("ERROR: Could not get track %d", iTrack);
+ continue;
+ }
+ else{
+ totalPt +=track->Pt();
+ //pID->MakeITSPID(track);
+
+
+ }
+ }
+
+ //TRefArray *caloClusters = fSelector->GetClusters();//just gets the correct set of clusters - does not apply any cuts
+ //Float_t fClusterMult = caloClusters->GetEntries();
Float_t nominalRawEt = 0;
+ Float_t totEt500MeV = 0;
Float_t nonlinHighRawEt = 0;
Float_t nonlinLowRawEt = 0;
Float_t effHighRawEt = 0;
Float_t effLowRawEt = 0;
+ Float_t uncorrEt = 0;
+ Float_t rawSignal = 0;
+ Float_t effCorrSignal = 0;
- Float_t nChargedHadronsMeasured = 0.0;
- Float_t nChargedHadronsTotal = 0.0;
+ nChargedHadronsMeasured = 0.0;
+ nChargedHadronsTotal = 0.0;
Float_t nChargedHadronsEtMeasured = 0.0;
Float_t nChargedHadronsEtTotal = 0.0;
+ Float_t nChargedHadronsMeasured500MeV = 0.0;
+ Float_t nChargedHadronsTotal500MeV = 0.0;
+ Float_t nChargedHadronsEtMeasured500MeV = 0.0;
+ Float_t nChargedHadronsEtTotal500MeV = 0.0;
+ Float_t fTotAllRawEt = 0.0;
+ Float_t fTotRawEt = 0.0;
+ Float_t fTotRawEtEffCorr = 0.0;
+ Float_t fTotAllRawEtEffCorr = 0.0;
+ Int_t nPhosClusters = 0;
+ Int_t nEmcalClusters = 0;
+
+ Int_t nUsedClusters = 0;
+ TRefArray *caloClusters = fSelector->GetClusters();
+ Int_t nCluster = caloClusters->GetEntries();
+ fClusterMultiplicity = nCluster;
+ //if we are making the QA tree and the cluster multiplicity (for PHOS) is less than expected, fill the QA tree so we know what event it was
+ if(fMakeQATree && fClusterMultiplicity < 5e-3*fTrackMultiplicity-1.5) fQATree->Fill();
- for (Int_t iCluster = 0; iCluster < event->GetNumberOfCaloClusters(); iCluster++)
+ for (int iCluster = 0; iCluster < nCluster; iCluster++ )
{
- AliESDCaloCluster* cluster = event->GetCaloCluster(iCluster);
+ AliESDCaloCluster* cluster = ( AliESDCaloCluster* )caloClusters->At( iCluster );
if (!cluster)
{
AliError(Form("ERROR: Could not get cluster %d", iCluster));
continue;
}
+// if(!fSelector->CutGeometricalAcceptance(*cluster)){
+// Float_t pos[3];
+// cluster->GetPosition(pos);
+// TVector3 cp(pos);
+// cout<<"rejected cluster phi "<<cp.Phi()*180.0/TMath::Pi()<<" eta "<<cp.Eta()<<endl;
+// }
int x = 0;
- fCutFlow->Fill(x++);
+ fCutFlow->Fill(x++);//fills 0
+ if(cluster->IsEMCAL()) nEmcalClusters++;
+ else nPhosClusters++;
if(!fSelector->IsDetectorCluster(*cluster)) continue;
- fCutFlow->Fill(x++);
+ fCutFlow->Fill(x++);//fills 1
if(!fSelector->PassMinEnergyCut(*cluster)) continue;
- fCutFlow->Fill(x++);
+ fCutFlow->Fill(x++);//fills 2
if (!fSelector->PassDistanceToBadChannelCut(*cluster)) continue;
- fCutFlow->Fill(x++);
-
+ fCutFlow->Fill(x++);//fills 3
+ if (!fSelector->CutGeometricalAcceptance(*cluster)) continue;
+ //fCutFlow->Fill(x++);
Float_t pos[3];
cluster->GetPosition(pos);
TVector3 cp(pos);
+ fClusterPositionAll->Fill(cp.Phi(), cp.PseudoRapidity());
+ Float_t fReconstructedE = cluster->E();
+ Float_t lostEnergy = 0.0;
+ Float_t lostTrackPt = 0.0;
+ fClusterPositionAllEnergy->Fill(cp.Phi(), cp.PseudoRapidity(),GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE);
+
+ //if(TMath::Abs(cp.Eta())> fCuts->fCuts->GetGeometryEmcalEtaAccCut() || cp.Phi() > fCuts->GetGeometryEmcalPhiAccMaxCut()*TMath::Pi()/180. || cp.Phi() > fCuts->GetGeometryEmcalPhiAccMinCut()*TMath::Pi()/180.) continue;//Do not accept if cluster is not in the acceptance
+ fTotAllRawEt += TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ fTotAllRawEtEffCorr +=GetCorrectionModification(*cluster,0,0,cent)* CorrectForReconstructionEfficiency(*cluster,cent);
+ fClusterEnergyCent->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent);
Bool_t matched = kTRUE;//default to no track matched
+ Bool_t countasmatched = kFALSE;
+ Bool_t correctedcluster = kFALSE;
+
Int_t trackMatchedIndex = cluster->GetTrackMatchedIndex();//find the index of the matched track
- matched = fSelector->PassTrackMatchingCut(*cluster);
- if(!matched){
- if(trackMatchedIndex < 0) matched=kTRUE;
- AliESDtrack *track = event->GetTrack(trackMatchedIndex);
- //if this is a good track, accept track will return true. The track matched is good, so not track matched is false
- matched = !(fEsdtrackCutsTPC->AcceptTrack(track));
+ matched = !(fSelector->PassTrackMatchingCut(*cluster));//PassTrackMatchingCut is false if there is a matched track
+ if(matched){//if the track match is good (, is the track good?
+ if(trackMatchedIndex < 0) matched=kFALSE;//If the index is bad, don't count it
+ if(matched){
+ AliESDtrack *track = event->GetTrack(trackMatchedIndex);
+ //if this is a good track, accept track will return true. The track matched is good, so not track matched is false
+ matched = fEsdtrackCutsTPC->AcceptTrack(track);//If the track is bad, don't count it
+ if(matched){//if it is still matched see if the track p was less than the energy
+ Float_t rcorr = TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ fHistRecoRCorrVsPtVsCent->Fill(rcorr,track->Pt(), fCentClass);
+ if(fSelector->PassMinEnergyCut( (fReconstructedE - fsub* track->P())*TMath::Sin(cp.Theta()) ) ){//if more energy was deposited than the momentum of the track and more than one particle led to the cluster
+ // if(fReconstructedE - fsub* track->P() > 0.0){
+ //cout<<"match corrected"<<endl;
+ fReconstructedE = fReconstructedE - fsub* track->P();
+ matched = kFALSE;
+ countasmatched = kTRUE;
+ correctedcluster = kTRUE;
+ lostEnergy = fsub* track->P();
+ lostTrackPt = track->Pt();
+ fClusterEnergyModifiedTrackMatchesCent->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent);
+ }
+// else{
+// cerr<<"match passed ";
+// cerr<<"E "<<fReconstructedE<<" fsubmeanhad "<<fsub<<" p "<< track->P();
+// if(correctedcluster) cout<<" corrected";
+// cerr<<endl;
+// }
+ }
+ }
}
AliError("Error: track does not exist");
}
else {
+ totalMatchedPt +=track->Pt();
+ fClusterEnergyCentMatched->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent);
+ fHistMatchedClusterSizeVsCent->Fill(cluster->GetNCells(),cent);
+
+ float eff = fTmCorrections->TrackMatchingEfficiency(track->Pt(),cent);
+ if(TMath::Abs(eff)<1e-5) eff = 1.0;
+ //cout<<"pt "<<track->Pt()<<" eff "<<eff<<" total "<<nChargedHadronsTotal<<endl;
nChargedHadronsMeasured++;
- nChargedHadronsTotal += 1/fTmCorrections->TrackMatchingEfficiency(track->Pt(),fClusterMult);
- Double_t effCorrEt = CorrectForReconstructionEfficiency(*cluster,fClusterMult);
- nChargedHadronsEtMeasured+= TMath::Sin(cp.Theta())*effCorrEt;
- nChargedHadronsEtTotal+= 1/fTmCorrections->TrackMatchingEfficiency(track->Pt(),fClusterMult) *effCorrEt;
- fHistMatchedTracksEvspTvsCent->Fill(track->P(),TMath::Sin(cp.Theta())*cluster->E(),cent);
- fHistMatchedTracksEvspTvsCentEffCorr->Fill(track->P(),CorrectForReconstructionEfficiency(*cluster,fClusterMult),cent);
- const Double_t *pidWeights = track->PID();
-
- Double_t maxpidweight = 0;
- Int_t maxpid = 0;
-
- if (pidWeights)
+ nChargedHadronsTotal += 1/eff;
+ Double_t effCorrEt = GetCorrectionModification(*cluster,0,0,cent) * CorrectForReconstructionEfficiency(*cluster,fReconstructedE,cent);
+ nChargedHadronsEtMeasured+= TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ //One efficiency is the gamma efficiency and the other is the track matching efficiency.
+ nChargedHadronsEtTotal+= 1/eff *TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ //cout<<"nFound "<<1<<" nFoundTotal "<<1/eff<<" etMeas "<<TMath::Sin(cp.Theta())*fReconstructedE<<" ET total "<< 1/eff *TMath::Sin(cp.Theta())*fReconstructedE<<endl;
+
+ Float_t nSigmaPion = fPIDResponse->NumberOfSigmasTPC(track, AliPID::kPion);
+ Float_t nSigmaProton = fPIDResponse->NumberOfSigmasTPC(track, AliPID::kProton);
+ bool isProton = (nSigmaPion>3.0 && nSigmaProton<3.0 && track->Pt()<0.9);
+ //cout<<"NSigmaProton "<<nSigmaProton<<endl;
+ etPiKPMatched += effCorrEt;
+ etPiKPMatchedNoEff +=TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ if(isProton){
+ if(track->Charge()>0){
+ etPIDProtons += effCorrEt;
+ etPIDProtonsNoEff +=TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ }
+ else{
+ etPIDAntiProtonsNoEff +=TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ etPIDAntiProtons += effCorrEt;
+ }
+ }
+ if(TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE>0.5){
+ nChargedHadronsMeasured500MeV++;
+ nChargedHadronsTotal500MeV += 1/eff;
+ nChargedHadronsEtMeasured500MeV+= TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ nChargedHadronsEtTotal500MeV+= 1/eff *TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ }
+ cluster->GetPosition(pos);
+ TVector3 p2(pos);
+ uncorrEt += TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ if(correctedcluster || fReconstructedE <fsubmeanhade* track->P() ){//if more energy was deposited than the momentum of the track and more than one particle led to the cluster and the corrected energy is greater than zero
+ fHistMatchedTracksEvspTvsCent->Fill(track->P(),TMath::Sin(cp.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent);
+ fHistMatchedTracksEvspTvsCentEffCorr->Fill(track->P(),effCorrEt,cent);
+ //Weighed by the number of tracks we didn't find
+ fHistMatchedTracksEvspTvsCentEffTMCorr->Fill(track->P(), effCorrEt,cent, (1/eff-1) );
+ if(cent<16 && cent>11){//centralities 60-80% where false track matches are low
+ for(int cbtest = 0; cbtest<20; cbtest++){//then we calculate the deposit matched to hadrons with different centrality bins' efficiencies
+ float efftest = fTmCorrections->TrackMatchingEfficiency(track->Pt(),cbtest);
+ if(TMath::Abs(efftest)<1e-5) efftest = 1.0;
+ Double_t effCorrEttest = GetCorrectionModification(*cluster,0,0,cent)*CorrectForReconstructionEfficiency(*cluster,fReconstructedE,cbtest);
+ fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr->Fill(track->P(), effCorrEttest,cbtest, (1/efftest-1) );
+ }
+ }
+ if(uncorrEt>=0.5) fHistMatchedTracksEvspTvsCentEffTMCorr500MeV->Fill(track->P(), effCorrEt,cent, (1/eff-1) );
+ }
+ const Double_t *pidWeights = track->PID();
+
+ Double_t maxpidweight = 0;
+ Int_t maxpid = 0;
+
+ if (pidWeights)
{
- for (Int_t p =0; p < AliPID::kSPECIES; p++)
+ for (Int_t p =0; p < AliPID::kSPECIES; p++)
{
- if (pidWeights[p] > maxpidweight)
+ if (pidWeights[p] > maxpidweight)
{
- maxpidweight = pidWeights[p];
- maxpid = p;
+ maxpidweight = pidWeights[p];
+ maxpid = p;
}
}
- if (fCuts->GetHistMakeTreeDeposit() && fDepositTree)
+ if (fCuts->GetHistMakeTreeDeposit() && fDepositTree)
{
- fEnergyDeposited = cluster->E();
- fMomentumTPC = track->P();
- fCharge = track->Charge();
- fParticlePid = maxpid;
- fPidProb = maxpidweight;
- AliESDtrack *esdTrack = dynamic_cast<AliESDtrack*>(track);
- if (!esdTrack) {
- AliError("Error: track does not exist");
- }
- else {
- if (esdTrack) fTrackPassedCut = fEsdtrackCutsTPC->AcceptTrack(esdTrack);
- fDepositTree->Fill();
- }
+ fEnergyDeposited =GetCorrectionModification(*cluster,0,0,cent)* fReconstructedE;
+ fMomentumTPC = track->P();
+ fCharge = track->Charge();
+ fParticlePid = maxpid;
+ fPidProb = maxpidweight;
+ AliESDtrack *esdTrack = dynamic_cast<AliESDtrack*>(track);
+ if (!esdTrack) {
+ AliError("Error: track does not exist");
+ }
+ else {
+ if (esdTrack) fTrackPassedCut = fEsdtrackCutsTPC->AcceptTrack(esdTrack);
+ fDepositTree->Fill();
+ }
}
-
- if (maxpidweight > fPidCut)
+
+ if (maxpidweight > fPidCut)
{
- //Float_t dist = TMath::Sqrt(pos[0]*pos[0] + pos[1]*pos[1]);
-
- //Float_t theta = TMath::ATan(pos[2]/dist)+TMath::Pi()/2;
-
- //Float_t et = cluster->E() * TMath::Sin(theta);
+ //Float_t dist = TMath::Sqrt(pos[0]*pos[0] + pos[1]*pos[1]);
+
+ //Float_t theta = TMath::ATan(pos[2]/dist)+TMath::Pi()/2;
+
+ //Float_t et = fReconstructedE * TMath::Sin(theta);
if (maxpid == AliPID::kProton)
{
if (track->Charge() == 1)
{
- fHistProtonEnergyDeposit->Fill(cluster->E(), track->E());
+ fHistProtonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E());
}
else if (track->Charge() == -1)
{
- fHistAntiProtonEnergyDeposit->Fill(cluster->E(), track->E());
+ fHistAntiProtonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E());
}
}
else if (maxpid == AliPID::kPion)
{
- fHistChargedPionEnergyDeposit->Fill(cluster->E(), track->E());
+ fHistChargedPionEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E());
}
else if (maxpid == AliPID::kKaon)
{
- fHistChargedKaonEnergyDeposit->Fill(cluster->E(), track->E());
+ fHistChargedKaonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E());
}
else if (maxpid == AliPID::kMuon)
{
- fHistMuonEnergyDeposit->Fill(cluster->E(), track->E());
+ fHistMuonEnergyDeposit->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE, track->E());
}
}
}
fCutFlow->Fill(x++);
//std::cout << x++ << std::endl;
- //if (cluster->E() > fSingleCellEnergyCut && cluster->GetNCells() == fCuts->GetCommonSingleCell()) continue;
- //if (cluster->E() < fClusterEnergyCut) continue;
+ //if (fReconstructedE > fSingleCellEnergyCut && cluster->GetNCells() == fCuts->GetCommonSingleCell()) continue;
+ //if (fReconstructedE < fClusterEnergyCut) continue;
cluster->GetPosition(pos);
- TVector3 p2(pos);
-
- fClusterPosition->Fill(p2.Phi(), p2.PseudoRapidity());
- fClusterEnergy->Fill(cluster->E());
- fClusterEt->Fill(TMath::Sin(p2.Theta())*cluster->E());
-
- Double_t effCorrEt = CorrectForReconstructionEfficiency(*cluster,fClusterMult);
- fTotNeutralEt += effCorrEt;
- nominalRawEt += effCorrEt;
- nonlinHighRawEt += effCorrEt*GetCorrectionModification(*cluster,1,0,fClusterMult);
- nonlinLowRawEt += effCorrEt*GetCorrectionModification(*cluster,-1,0,fClusterMult);
- effHighRawEt += effCorrEt*GetCorrectionModification(*cluster,0,1,fClusterMult);
- effLowRawEt += effCorrEt*GetCorrectionModification(*cluster,0,-1,fClusterMult);
- fNeutralMultiplicity++;
+ TVector3 p2(pos);
+ if(countasmatched){//These are tracks where we partially subtracted the energy but we subtracted some energy
+ float eff = fTmCorrections->TrackMatchingEfficiency(lostTrackPt,cent);
+ if(TMath::Abs(eff)<1e-5) eff = 1.0;
+ //cout<<"pt "<<track->Pt()<<" eff "<<eff<<" total "<<nChargedHadronsTotal<<endl;
+ nChargedHadronsMeasured++;
+ nChargedHadronsTotal += 1/eff;
+ //Double_t effCorrEt = CorrectForReconstructionEfficiency(*cluster,lostEnergy,cent);
+ nChargedHadronsEtMeasured+= TMath::Sin(cp.Theta())*lostEnergy;
+ //One efficiency is the gamma efficiency and the other is the track matching efficiency.
+ nChargedHadronsEtTotal+= 1/eff *TMath::Sin(cp.Theta())*lostEnergy;
+ }
+ fClusterPositionAccepted->Fill(p2.Phi(), p2.PseudoRapidity());
+ fClusterPositionAcceptedEnergy->Fill(p2.Phi(), p2.PseudoRapidity(),GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE);
+ fClusterEnergy->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE);
+ fClusterEnergyCentNotMatched->Fill(GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent);
+ fHistClusterSizeVsCent->Fill(cluster->GetNCells(),cent);
+ fClusterEt->Fill(TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE,cent);
+ uncorrEt += TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ float myuncorrEt = TMath::Sin(p2.Theta())*GetCorrectionModification(*cluster,0,0,cent)*fReconstructedE;
+ fTotRawEt += myuncorrEt;
+ nUsedClusters++;
+
+ Double_t effCorrEt = CorrectForReconstructionEfficiency(*cluster,fReconstructedE,cent)*GetCorrectionModification(*cluster,0,0,cent);
+ rawSignal += myuncorrEt;
+ effCorrSignal +=effCorrEt;
+ //cout<<"cluster energy "<<fReconstructedE<<" eff corr Et "<<effCorrEt<<endl;
+ fTotRawEtEffCorr += effCorrEt;
+ fTotNeutralEt += effCorrEt;
+ nominalRawEt += effCorrEt;
+ if(myuncorrEt>=0.5){
+ totEt500MeV += effCorrEt;
+ //cout<<"test "<<myuncorrEt<<"> 0.5"<<endl;
+ }
+ else{
+ //cout<<"test "<<myuncorrEt<<"< 0.5"<<endl;
+ }
+ nonlinHighRawEt += effCorrEt*GetCorrectionModification(*cluster,1,0,cent);
+ nonlinLowRawEt += effCorrEt*GetCorrectionModification(*cluster,-1,0,cent);
+ effHighRawEt += effCorrEt*GetCorrectionModification(*cluster,0,1,cent);
+ effLowRawEt += effCorrEt*GetCorrectionModification(*cluster,0,-1,cent);
+ fNeutralMultiplicity++;
}
fMultiplicity++;
}
+ fHistNUsedClusters->Fill(nUsedClusters,cent);
+ // cout<<" cent "<<cent<<" total "<<nCluster<<" used "<<nUsedClusters<<endl;
+
+ fHistRawSignalReco->Fill(rawSignal);
+ fHistEffCorrSignalReco->Fill(effCorrSignal);
+
+ fHistNClustersPhosVsEmcal->Fill(nPhosClusters,nEmcalClusters,cent);
fChargedEnergyRemoved = GetChargedContribution(fNeutralMultiplicity);
fNeutralEnergyRemoved = GetNeutralContribution(fNeutralMultiplicity);
fHistChargedEnergyRemoved->Fill(fChargedEnergyRemoved, fNeutralMultiplicity);
fGammaEnergyAdded = GetGammaContribution(fNeutralMultiplicity);
fHistGammaEnergyAdded->Fill(fGammaEnergyAdded, fNeutralMultiplicity);
- Double_t removedEnergy = GetChargedContribution(fNeutralMultiplicity) + GetNeutralContribution(fNeutralMultiplicity) + GetGammaContribution(fNeutralMultiplicity) + GetSecondaryContribution(fNeutralMultiplicity);
+ //Double_t removedEnergy = GetChargedContribution(cent) + GetNeutralContribution(cent) + GetGammaContribution(cent) + GetSecondaryContribution(cent);//fNeutralMultiplicity
+ Double_t removedEnergy = GetHadronContribution(cent) + GetNeutronContribution(cent) + GetKaonContribution(cent) + GetSecondaryContribution(cent);//fNeutralMultiplicity
+ //cout<<" centbin "<<cent<<" removed energy ch "<< GetHadronContribution(cent)<<" n " << GetNeutronContribution(cent) <<" kaon "<< GetKaonContribution(cent)<<" secondary "<< GetSecondaryContribution(cent);//fNeutralMultiplicity
+ //cout<<" test min et "<<fTmCorrections->GetMinEtCorrection(cent);
+ //cout<<" test neutral "<<fTmCorrections->NeutralContr(cent);
+ //cout<<" test neutron "<<fTmCorrections->NeutralContr(cent);
fHistRemovedEnergy->Fill(removedEnergy);
- fTotNeutralEt = fGeomCorrection * fEMinCorrection * (fTotNeutralEt - removedEnergy);
+ fTotNeutralEtAcc = fTotNeutralEt;
+ //fHistTotRawEtEffCorr->Fill(fTotNeutralEt,cent);
+ fHistTotRawEtEffCorr->Fill(fTotRawEtEffCorr,cent);
+ fHistTotRawEt->Fill(fTotRawEt,cent);
+ fHistTotAllRawEt->Fill(fTotAllRawEt,cent);
+ fHistTotAllRawEtVsTotalPt->Fill(fTotAllRawEt,totalPt);
+ fHistTotAllRawEtVsTotalPtVsCent->Fill(fTotAllRawEt,totalPt,cent);
+ fHistTotMatchedRawEtVsTotalPtVsCent->Fill(fTotAllRawEt,totalMatchedPt,cent);
+ fHistTotAllRawEtEffCorr->Fill(fTotAllRawEtEffCorr,cent);
+ //cout<<"fTotAllRawEtEffCorr "<<fTotAllRawEtEffCorr<<" fTotAllRawEt "<<fTotAllRawEt<<" fTotRawEtEffCorr "<<fTotRawEtEffCorr<<"("<<fTotNeutralEt<<")"<<" fTotRawEt "<<fTotRawEt<<endl;
+ //cout<<"uncorr "<<uncorrEt<<" raw "<<nominalRawEt<<" tot raw "<<fTotNeutralEt;
+ //cout<<" raw "<<fTotNeutralEt<<" removed "<<removedEnergy<<" etmin "<<GetMinEtCorrection(cent)<<" final ";
+ if(GetMinEtCorrection(cent)>0) fTotNeutralEt = (fTotNeutralEt - removedEnergy)/GetMinEtCorrection(cent);
+ //cout<<fTotNeutralEt<<endl;
+ //cout<<" tot corr "<<fTotNeutralEt<<endl;
fTotEt = fTotChargedEt + fTotNeutralEt;
// Fill the histograms...0
FillHistograms();
//std::cout << "fTotNeutralEt: " << fTotNeutralEt << ", Contribution from non-removed charged: " << GetChargedContribution(fNeutralMultiplicity) << ", neutral: " << GetNeutralContribution(fNeutralMultiplicity) << ", gammas: " << GetGammaContribution(fNeutralMultiplicity) << ", multiplicity: " << fNeutralMultiplicity<< std::endl;
//cout<<"cent "<<cent<<" cluster mult "<<fClusterMult<<" fTotNeutralEt "<<fTotNeutralEt<<" nominalRawEt "<<nominalRawEt<<endl;
fHistNominalRawEt->Fill(nominalRawEt,cent);
+ fHistTotRawEtEffCorr500MeV->Fill(totEt500MeV,cent);
fHistNominalNonLinHighEt->Fill(nonlinHighRawEt,cent);
fHistNominalNonLinLowEt->Fill(nonlinLowRawEt,cent);
fHistNominalEffHighEt->Fill(effHighRawEt,cent);
fHistNotFoundHadronsvsCent->Fill(nChargedHadronsTotal-nChargedHadronsMeasured,cent);
fHistFoundHadronsEtvsCent->Fill(nChargedHadronsEtMeasured,cent);
fHistNotFoundHadronsEtvsCent->Fill(nChargedHadronsEtTotal-nChargedHadronsEtMeasured,cent);
+ //cout<<"found "<<nChargedHadronsMeasured<<" total "<<nChargedHadronsTotal<<" not found "<<nChargedHadronsTotal-nChargedHadronsMeasured<<" found "<< nChargedHadronsMeasured500MeV<<" not found "<< nChargedHadronsTotal500MeV-nChargedHadronsMeasured500MeV <<" total "<<nChargedHadronsTotal500MeV<<endl;
+ fHistFoundHadronsvsCent500MeV->Fill(nChargedHadronsMeasured500MeV,cent);
+ fHistNotFoundHadronsvsCent500MeV->Fill(nChargedHadronsTotal500MeV-nChargedHadronsMeasured500MeV,cent);
+ fHistFoundHadronsEtvsCent500MeV->Fill(nChargedHadronsEtMeasured500MeV,cent);
+ fHistNotFoundHadronsEtvsCent500MeV->Fill(nChargedHadronsEtTotal500MeV-nChargedHadronsEtMeasured500MeV,cent);
// cout<<"Number of hadrons measured: "<<nChargedHadronsMeasured<<" Estimated total number of hadrons "<<nChargedHadronsTotal<<" ET in track matched hadrons "<<
// nChargedHadronsEtMeasured;
// if(nChargedHadronsMeasured>0)cout<<" ("<<nChargedHadronsEtMeasured/nChargedHadronsMeasured<<") ";
// cout<<nChargedHadronsEtTotal;
// if(nChargedHadronsTotal>0) cout<<" ("<<nChargedHadronsEtTotal/nChargedHadronsTotal<<") ";
// cout<<endl;
+ fHistPIDProtonsTrackMatchedDepositedVsNch->Fill(etPIDProtons,multiplicity);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNch->Fill(etPIDAntiProtons,multiplicity);
+ fHistPIDProtonsTrackMatchedDepositedVsNcl->Fill(etPIDProtons,nCluster);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNcl->Fill(etPIDAntiProtons,nCluster);
+ fHistPIDProtonsTrackMatchedDepositedVsNchNoEff->Fill(etPIDProtonsNoEff,multiplicity);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff->Fill(etPIDAntiProtonsNoEff,multiplicity);
+ fHistPIDProtonsTrackMatchedDepositedVsNclNoEff->Fill(etPIDProtonsNoEff,nCluster);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff->Fill(etPIDAntiProtonsNoEff,nCluster);
+ fHistCentVsNchVsNclReco->Fill(cent,multiplicity,nCluster);
+ fHistPiKPTrackMatchedDepositedVsNch->Fill(etPiKPMatched,multiplicity);
+ fHistPiKPTrackMatchedDepositedVsNchNoEff->Fill(etPiKPMatchedNoEff,multiplicity);
+ //delete pID;
return 0;
}
{ // add some extra histograms to the ones from base class
AliAnalysisEt::FillOutputList(list);
+ if(fMakeQATree){
+ list->Add(fQATree);
+ }
list->Add(fHistChargedPionEnergyDeposit);
list->Add(fHistProtonEnergyDeposit);
list->Add(fHistAntiProtonEnergyDeposit);
list->Add(fHistMuonEnergyDeposit);
list->Add(fHistRemovedEnergy);
- list->Add(fClusterPosition);
+ list->Add(fClusterPositionAccepted);
+ list->Add(fClusterPositionAll);
+ list->Add(fClusterPositionAcceptedEnergy);
+ list->Add(fClusterPositionAllEnergy);
list->Add(fClusterEnergy);
+ list->Add(fClusterEnergyCent);
+ list->Add(fClusterEnergyModifiedTrackMatchesCent);
+ list->Add(fClusterEnergyCentMatched);
+ list->Add(fClusterEnergyCentNotMatched);
list->Add(fClusterEt);
list->Add(fHistChargedEnergyRemoved);
list->Add(fHistGammaEnergyAdded);
list->Add(fHistMatchedTracksEvspTvsCent);
list->Add(fHistMatchedTracksEvspTvsCentEffCorr);
+ list->Add(fHistMatchedTracksEvspTvsCentEffTMCorr);
+ list->Add(fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr);
+ list->Add(fHistMatchedTracksEvspTvsCentEffTMCorr500MeV);
list->Add(fHistFoundHadronsvsCent);
list->Add(fHistNotFoundHadronsvsCent);
list->Add(fHistFoundHadronsEtvsCent);
list->Add(fHistNotFoundHadronsEtvsCent);
+ list->Add(fHistFoundHadronsvsCent500MeV);
+ list->Add(fHistNotFoundHadronsvsCent500MeV);
+ list->Add(fHistFoundHadronsEtvsCent500MeV);
+ list->Add(fHistNotFoundHadronsEtvsCent500MeV);
list->Add(fHistNominalRawEt);
list->Add(fHistNominalNonLinHighEt);
list->Add(fHistNominalNonLinLowEt);
list->Add(fHistNominalEffHighEt);
list->Add(fHistNominalEffLowEt);
+ list->Add(fHistTotRawEtEffCorr);
+ list->Add(fHistTotRawEtEffCorr500MeV);
+ list->Add(fHistTotAllRawEtEffCorr);
+ list->Add(fHistTotRawEt);
+ list->Add(fHistTotAllRawEt);
+ list->Add(fHistNUsedClusters);
+ list->Add(fHistNClustersPhosVsEmcal);
+ list->Add(fHistClusterSizeVsCent);
+ list->Add(fHistMatchedClusterSizeVsCent);
+ list->Add(fHistTotAllRawEtVsTotalPt);
+ list->Add(fHistTotAllRawEtVsTotalPtVsCent);
+ list->Add(fHistTotMatchedRawEtVsTotalPtVsCent);
+ list->Add(fHistPIDProtonsTrackMatchedDepositedVsNch);
+ list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNch);
+ list->Add(fHistPIDProtonsTrackMatchedDepositedVsNcl);
+ list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNcl);
+ list->Add(fHistPiKPTrackMatchedDepositedVsNch);
+ list->Add(fHistPIDProtonsTrackMatchedDepositedVsNchNoEff);
+ list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff);
+ list->Add(fHistPIDProtonsTrackMatchedDepositedVsNclNoEff);
+ list->Add(fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff);
+ list->Add(fHistPiKPTrackMatchedDepositedVsNchNoEff);
+ list->Add(fHistCentVsNchVsNclReco);
+ list->Add(fHistRawSignalReco);
+ list->Add(fHistEffCorrSignalReco);
+ list->Add(fHistRecoRCorrVsPtVsCent);
}
void AliAnalysisEtReconstructed::CreateHistograms()
{ // add some extra histograms to the ones from base class
AliAnalysisEt::CreateHistograms();
+ if(fMakeQATree){
+ fQATree = new TTree("fQATree", "fQATree");
+ fQATree->Branch("fClusterMultiplicity", &fClusterMultiplicity, "fClusterMultiplicity/I");
+ fQATree->Branch("fTrackMultiplicity", &fTrackMultiplicity, "fTrackMultiplicity/I");
+ fQATree->Branch("fEventID",&fEventID,"fEventID/I");
+ fQATree->Branch("fCentClass",&fCentClass,"fCentClass/I");
+ }
- Int_t nbinsEt = 1000;
+ Float_t scale = 1;//scale up histograms if EMCal 2011 so we have the right range
+ if(fDataSet==2011 && !fHistogramNameSuffix.Contains("P")){
+ scale = 2.5;
+ }
+ Int_t nbinsEt = 1000*scale;
Double_t minEt = 0;
- Double_t maxEt = 10;
+ Double_t maxEt = 10*scale;
// possibly change histogram limits
// if (fCuts) {
//fHistMuonEnergyDeposit->SetXTitle("Energy deposited in calorimeter");
//fHistMuonEnergyDeposit->SetYTitle("Energy of track");
- histname = "fClusterPosition" + fHistogramNameSuffix;
- fClusterPosition = new TH2D(histname.Data(), "Position of accepted neutral clusters",1000, -2.0, -.5, 1000, -.13 , 0.13);
- fClusterPosition->SetXTitle("Energy deposited in calorimeter");
- fClusterPosition->SetYTitle("Energy of track");
+ histname = "fClusterPositionAccepted" + fHistogramNameSuffix;
+ fClusterPositionAccepted = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7);
+ fClusterPositionAccepted->SetXTitle("#phi");
+ fClusterPositionAccepted->SetYTitle("#eta");
+
+ histname = "fClusterPositionAll" + fHistogramNameSuffix;
+ fClusterPositionAll = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7);
+ fClusterPositionAll->SetXTitle("#phi");
+ fClusterPositionAll->SetYTitle("#eta");
+
+ histname = "fClusterPositionAcceptedEnergy" + fHistogramNameSuffix;
+ fClusterPositionAcceptedEnergy = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7);
+ fClusterPositionAcceptedEnergy->SetXTitle("#phi");
+ fClusterPositionAcceptedEnergy->SetYTitle("#eta");
+
+ histname = "fClusterPositionAllEnergy" + fHistogramNameSuffix;
+ fClusterPositionAllEnergy = new TH2D(histname.Data(), "Position of accepted neutral clusters",300, -TMath::Pi(),TMath::Pi(), 100, -0.7 , 0.7);
+ fClusterPositionAllEnergy->SetXTitle("#phi");
+ fClusterPositionAllEnergy->SetYTitle("#eta");
histname = "fClusterEnergy" + fHistogramNameSuffix;
fClusterEnergy = new TH1F(histname.Data(), histname.Data(), 100, 0, 5);
- fClusterEnergy->SetXTitle("Number of clusters");
- fClusterEnergy->SetYTitle("Energy of cluster");
+ fClusterEnergy->SetYTitle("Number of clusters");
+ fClusterEnergy->SetXTitle("Energy of cluster");
+
+ histname = "fClusterEnergyCent" + fHistogramNameSuffix;
+ fClusterEnergyCent = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5);
+ fClusterEnergyCent->SetXTitle("Energy of cluster");
+ fClusterEnergyCent->SetYTitle("Centrality Bin");
+ fClusterEnergyCent->SetZTitle("Number of clusters");
+
+ histname = "fClusterEnergyModifiedTrackMatchesCent" + fHistogramNameSuffix;
+ fClusterEnergyModifiedTrackMatchesCent = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5);
+ fClusterEnergyModifiedTrackMatchesCent->SetXTitle("Energy of cluster");
+ fClusterEnergyModifiedTrackMatchesCent->SetYTitle("Centrality Bin");
+ fClusterEnergyModifiedTrackMatchesCent->SetZTitle("Number of clusters");
+
+ histname = "fClusterEnergyCentMatched" + fHistogramNameSuffix;
+ fClusterEnergyCentMatched = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5);
+ fClusterEnergyCentMatched->SetXTitle("Energy of cluster");
+ fClusterEnergyCentMatched->SetYTitle("Centrality Bin");
+ fClusterEnergyCentMatched->SetZTitle("Number of Clusters");
+
+ histname = "fClusterEnergyCentNotMatched" + fHistogramNameSuffix;
+ fClusterEnergyCentNotMatched = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5);
+ fClusterEnergyCentNotMatched->SetXTitle("Energy of cluster");
+ fClusterEnergyCentNotMatched->SetYTitle("Centrality Bin");
+ fClusterEnergyCentNotMatched->SetZTitle("Number of clusters");
histname = "fClusterEt" + fHistogramNameSuffix;
- fClusterEt = new TH1F(histname.Data(), histname.Data(), 100, 0, 5);
+ fClusterEt = new TH2F(histname.Data(), histname.Data(), 100, 0, 5,20,-0.5,19.5);
fClusterEt->SetXTitle("Number of clusters");
fClusterEt->SetYTitle("E_{T} of cluster");
histname = "fHistGammaEnergyAdded" + fHistogramNameSuffix;
fHistGammaEnergyAdded = new TH2D(histname.Data(), histname.Data(), 1000, .0, 30, 100, -0.5 , 99.5);
- fHistMatchedTracksEvspTvsCent = new TH3F("fHistMatchedTracksEvspTvsCent", "fHistMatchedTracksEvspTvsCent",100, 0, 3,100,0,3,20,0,20);
- fHistMatchedTracksEvspTvsCentEffCorr = new TH3F("fHistMatchedTracksEvspTvsCentEffCorr", "fHistMatchedTracksEvspTvsCentEffCorr",100, 0, 3,100,0,3,20,0,20);
- fHistFoundHadronsvsCent = new TH2F("fHistFoundHadronsvsCent","fHistFoundHadronsvsCent",100,0,100,20,0,20);
- fHistNotFoundHadronsvsCent = new TH2F("fHistNotFoundHadronsvsCent","fHistNotFoundHadronsvsCent",100,0,100,20,0,20);
- fHistFoundHadronsEtvsCent = new TH2F("fHistFoundHadronsEtvsCent","fHistFoundHadronsEtvsCent",100,0,200,20,0,20);
- fHistNotFoundHadronsEtvsCent = new TH2F("fHistNotFoundHadronsEtvsCent","fHistNotFoundHadronsEtvsCent",100,0,200,20,0,20);
+ fHistMatchedTracksEvspTvsCent = new TH3F("fHistMatchedTracksEvspTvsCent", "fHistMatchedTracksEvspTvsCent",100, 0, 3,100,0,3,20,-0.5,19.5);
+ fHistMatchedTracksEvspTvsCentEffCorr = new TH3F("fHistMatchedTracksEvspTvsCentEffCorr", "fHistMatchedTracksEvspTvsCentEffCorr",100, 0, 3,100,0,3,20,-0.5,19.5);
+ fHistMatchedTracksEvspTvsCentEffTMCorr = new TH3F("fHistMatchedTracksEvspTvsCentEffTMCorr", "fHistMatchedTracksEvspTvsCentEffTMCorr",100, 0, 3,100,0,3,20,-0.5,19.5);
+ fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr = new TH3F("fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr", "fHistPeripheralMatchedTracksEvspTvsCentEffTMCorr",100, 0, 3,100,0,3,20,-0.5,19.5);
+ fHistMatchedTracksEvspTvsCentEffTMCorr500MeV = new TH3F("fHistMatchedTracksEvspTvsCentEffTMCorr500MeV", "fHistMatchedTracksEvspTvsCentEffTMCorr500MeV",100, 0, 3,100,0,3,20,-0.5,19.5);
+
+ float max = 200*scale;
+ if(fHistogramNameSuffix.Contains("P")){max = 100;}
+ fHistFoundHadronsvsCent = new TH2F("fHistFoundHadronsvsCent","fHistFoundHadronsvsCent",100,0,max,20,-0.5,19.5);
+ fHistNotFoundHadronsvsCent = new TH2F("fHistNotFoundHadronsvsCent","fHistNotFoundHadronsvsCent",100,0,max,20,-0.5,19.5);
+ fHistFoundHadronsEtvsCent = new TH2F("fHistFoundHadronsEtvsCent","fHistFoundHadronsEtvsCent",100,0,max,20,-0.5,19.5);
+ fHistNotFoundHadronsEtvsCent = new TH2F("fHistNotFoundHadronsEtvsCent","fHistNotFoundHadronsEtvsCent",100,0,max,20,-0.5,19.5);
+ fHistFoundHadronsvsCent500MeV = new TH2F("fHistFoundHadronsvsCent500MeV","fHistFoundHadronsvsCent500MeV",100,0,max,20,-0.5,19.5);
+ fHistNotFoundHadronsvsCent500MeV = new TH2F("fHistNotFoundHadronsvsCent500MeV","fHistNotFoundHadronsvsCent500MeV",100,0,max,20,-0.5,19.5);
+ fHistFoundHadronsEtvsCent500MeV = new TH2F("fHistFoundHadronsEtvsCent500MeV","fHistFoundHadronsEtvsCent500MeV",100,0,max,20,-0.5,19.5);
+ fHistNotFoundHadronsEtvsCent500MeV = new TH2F("fHistNotFoundHadronsEtvsCent500MeV","fHistNotFoundHadronsEtvsCent500MeV",100,0,max,20,-0.5,19.5);
+
+ Int_t nbinsForDistributions = 384;//2^7*3 - allows for easy rebinning
+ fHistTotRawEtEffCorr = new TH2F("fHistTotRawEtEffCorr","fHistTotRawEtEffCorr",nbinsForDistributions,0,250*scale,20,-0.5,19.5);
+ fHistTotRawEt = new TH2F("fHistTotRawEt","fHistTotRawEt",nbinsForDistributions,0,250*scale,20,-0.5,19.5);
+ fHistTotRawEtEffCorr500MeV = new TH2F("fHistTotRawEtEffCorr500MeV","fHistTotRawEtEffCorr500MeV",nbinsForDistributions,0,250*scale,20,-0.5,19.5);
+ fHistTotAllRawEt = new TH2F("fHistTotAllRawEt","fHistTotAllRawEt",nbinsForDistributions,0,250*scale,20,-0.5,19.5);
+ fHistTotAllRawEtEffCorr = new TH2F("fHistTotAllRawEtEffCorr","fHistTotAllRawEtEffCorr",nbinsForDistributions,0,250*scale,20,-0.5,19.5);
+ fHistNUsedClusters = new TH2F("fHistNUsedClusters","fHistNUsedClusters",500,0,500,20,-0.5,19);
+ fHistNClustersPhosVsEmcal = new TH3F("fHistNClustersPhosVsEmcal","fHistNClustersPhosVsEmcal",50,0,50,250*scale,0,250*scale,20,-0.5,19);
+ fHistClusterSizeVsCent = new TH2F("fHistClusterSizeVsCent","fHistClusterSizeVsCent",10,0.5,10.5,20,-0.5,19.5);
+ fHistMatchedClusterSizeVsCent = new TH2F("fHistMatchedClusterSizeVsCent","fHistMatchedClusterSizeVsCent",10,0.5,10.5,20,-0.5,19.5);
+ fHistTotAllRawEtVsTotalPt = new TH2F("fHistTotAllRawEtVsTotalPt","fHistTotAllRawEtVsTotalPt",125,0,250*scale,200,0,2000);
+ fHistTotAllRawEtVsTotalPtVsCent = new TH3F("fHistTotAllRawEtVsTotalPtVsCent","fHistTotAllRawEtVsTotalPtVsCent",125,0,250*scale,200,0,2000,20,-0.5,19.5);
+ fHistTotMatchedRawEtVsTotalPtVsCent = new TH3F("fHistTotMatchedRawEtVsTotalPtVsCent","fHistTotMatchedRawEtVsTotalPtVsCent",nbinsForDistributions,0,250*scale,100,0,200,20,-0.5,19.5);
- maxEt = 100;
+ maxEt = 500*scale;
histname = "fHistNominalRawEt" + fHistogramNameSuffix;
fHistNominalRawEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5);
histname = "fHistNominalNonLinHighEt" + fHistogramNameSuffix;
histname = "fHistNominalEffLowEt" + fHistogramNameSuffix;
fHistNominalEffLowEt = new TH2D(histname.Data(), histname.Data(),nbinsEt,minEt,maxEt,20,-0.5,19.5);
+ Float_t maxEtRange = 25*scale;
+ Float_t maxEtRangeHigh = 125*scale;
+ Float_t minEtRange = 0;
+ Int_t nbinsMult = 100;
+ Float_t maxMult = 3000;
+ Float_t minMult = 0;
+ Int_t nbinsCl = 250*scale;
+ Float_t maxCl = 500*scale;
+ Float_t minCl = 0;
+ fHistPIDProtonsTrackMatchedDepositedVsNch = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNch","PID'd protons deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNch = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNch","PID'd #bar{p} E_{T} deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult);
+ fHistPIDProtonsTrackMatchedDepositedVsNcl = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNcl","PID'd protons deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNcl = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNcl","PID'd #bar{p} E_{T} deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl);
+ fHistPiKPTrackMatchedDepositedVsNch = new TH2F("fHistPiKPTrackMatchedDepositedVsNch","PiKP track matched",nbinsEt,minEtRange,maxEtRangeHigh,nbinsMult,minMult,maxMult);
+
+ fHistPIDProtonsTrackMatchedDepositedVsNchNoEff = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNchNoEff","PID'd protons deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNchNoEff","PID'd #bar{p} E_{T} deposited in calorimeter vs multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsMult,minMult,maxMult);
+ fHistPIDProtonsTrackMatchedDepositedVsNclNoEff = new TH2F("fHistPIDProtonsTrackMatchedDepositedVsNclNoEff","PID'd protons deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl);
+ fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff = new TH2F("fHistPIDAntiProtonsTrackMatchedDepositedVsNclNoEff","PID'd #bar{p} E_{T} deposited in calorimeter vs cluster multiplicity",nbinsEt,minEtRange,maxEtRange,nbinsCl,minCl,maxCl);
+ fHistPiKPTrackMatchedDepositedVsNchNoEff = new TH2F("fHistPiKPTrackMatchedDepositedVsNchNoEff","PiKP track matched",nbinsEt,minEtRange,maxEtRangeHigh,nbinsMult,minMult,maxMult);
+
+
+ fHistCentVsNchVsNclReco = new TH3F("fHistCentVsNchVsNclReco","Cent bin vs Nch Vs NCl",20,-0.5,19.5,nbinsMult,minMult,maxMult,nbinsCl,minCl,maxCl);
+
+ fHistRawSignalReco = new TH1F("fHistRawSignalReco","fHistRawSignalReco",20,-0.5,19.5);
+ fHistEffCorrSignalReco = new TH1F("fHistEffCorrSignalReco","fHistEffCorrSignalReco",20,-0.5,19.5);
+ fHistRecoRCorrVsPtVsCent = new TH3F("fHistRecoRCorrVsPtVsCent","fHistRecoRCorrVsPtVsCent",72,0,2,50,0,10,20,-0.5,19.5);
+
}
-Double_t AliAnalysisEtReconstructed::ApplyModifiedCorrections(const AliESDCaloCluster& cluster,Int_t nonLinCorr, Int_t effCorr, Int_t mult)
+Double_t AliAnalysisEtReconstructed::ApplyModifiedCorrections(const AliESDCaloCluster& cluster,Int_t nonLinCorr, Int_t effCorr, Int_t cent)
{
Float_t pos[3];
cluster.GetPosition(pos);
TVector3 cp(pos);
- Double_t corrEnergy = fReCorrections->CorrectedEnergy(cluster.E(),mult);
+ Double_t corrEnergy = fReCorrections->CorrectedEnergy(cluster.E(),cent);
- Double_t factorNonLin = GetCorrectionModification(cluster, nonLinCorr,effCorr,mult);
+ Double_t factorNonLin = GetCorrectionModification(cluster, nonLinCorr,effCorr,cent);
+ cout<<"Warning: This function should not get called!"<<endl;
//std::cout << "Original energy: " << cluster.E() << ", corrected energy: " << corrEnergy << std::endl;
return TMath::Sin(cp.Theta())*corrEnergy*factorNonLin;
}
-Double_t AliAnalysisEtReconstructed::GetCorrectionModification(const AliESDCaloCluster& cluster,Int_t nonLinCorr, Int_t effCorr, Int_t mult){//nonLinCorr 0 = nominal 1 = high -1 = low, effCorr 0 = nominal 1 = high -1 = low
+Double_t AliAnalysisEtReconstructed::GetCorrectionModification(const AliESDCaloCluster& cluster,Int_t nonLinCorr, Int_t effCorr, Int_t cent){//nonLinCorr 0 = nominal 1 = high -1 = low, effCorr 0 = nominal 1 = high -1 = low
if(nonLinCorr==0){
cout<<"Warning: This function should not get called!"<<endl;//this statement is basically here to avoid a compilation warning
}
if(effCorr==0){
cout<<"Warning: This function should not get called!"<<endl;//this statement is basically here to avoid a compilation warning
}
- return cluster.E()*mult;
+ return cluster.E()*cent;
}