#include <TLorentzVector.h>
#include <TClonesArray.h>
#include "TDatabasePDG.h"
+#include <TGrid.h>
#include "AliAnalysisTaskJetCluster.h"
#include "AliAnalysisManager.h"
fUseAODMCInput(kFALSE),
fUseBackgroundCalc(kFALSE),
fEventSelection(kFALSE),
+ fRequireVZEROAC(kFALSE),
+ fRequireTZEROvtx(kFALSE),
fFilterMask(0),
fFilterMaskBestPt(0),
fFilterType(0),
fAvgTrials(1),
fExternalWeight(1),
fTrackEtaWindow(0.9),
+ fRequireITSRefit(0),
fRecEtaWindow(0.5),
fTrackPtCut(0.),
fJetOutputMinPt(0.150),
fUseAODTrackInput(kFALSE),
fUseAODMCInput(kFALSE),
fUseBackgroundCalc(kFALSE),
- fEventSelection(kFALSE), fFilterMask(0),
+ fEventSelection(kFALSE),
+ fRequireVZEROAC(kFALSE),
+ fRequireTZEROvtx(kFALSE),
+ fFilterMask(0),
fFilterMaskBestPt(0),
fFilterType(0),
fJetTypes(kJet),
fAvgTrials(1),
fExternalWeight(1),
fTrackEtaWindow(0.9),
+ fRequireITSRefit(0),
fRecEtaWindow(0.5),
fTrackPtCut(0.),
fJetOutputMinPt(0.150),
fh2TracksLeadingJetPhiPtC[i] = 0;
fh2TracksLeadingJetPhiPtWC[i] = 0;
}
- DefineOutput(1, TList::Class());
+ DefineOutput(1, TList::Class());
}
nBinEta,binLimitsEta,nBinPt,binLimitsPt);
fh2TrackEtaPt = new TH2F("fh2TrackEtaPt","pt vs eta all jets;#eta;p_{T}",
- nBinEta,binLimitsEta,nBinPt,binLimitsPt);
+ nBinEta,binLimitsEta,nBinPt,binLimitsPt);
fh2LeadingTrackEtaPt = new TH2F("fh2LeadingTrackEtaPt","pT vs eta leading jets;#eta;p_{T}",
- nBinEta,binLimitsEta,nBinPt,binLimitsPt);
+ nBinEta,binLimitsEta,nBinPt,binLimitsPt);
fh2JetsLeadingPhiEta = new TH2F("fh2JetsLeadingPhiEta","delta eta vs delta phi to leading jet;#Delta#phi;#Delta#eta",
- nBinPhi,binLimitsPhi,nBinEta,binLimitsEta);
+ nBinPhi,binLimitsPhi,nBinEta,binLimitsEta);
fh2JetsLeadingPhiPt = new TH2F("fh2JetsLeadingPhiPt","leading p_T vs delta phi to leading jet;#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2TracksLeadingPhiEta = new TH2F("fh2TracksLeadingPhiEta","delta eta vs delta phi to leading track;#Delta#phi;#Delta#eta",
nBinPhi,binLimitsPhi,nBinEta,binLimitsEta);
fh2TracksLeadingPhiPt = new TH2F("fh2TracksLeadingPhiPt","leading p_T vs delta phi to leading jet;#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2TracksLeadingJetPhiPt = new TH2F("fh2TracksLeadingJetPhiPt","leading p_T vs delta phi to leading jet;#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2TracksLeadingJetPhiPtRan = new TH2F("fh2TracksLeadingJetPhiPtRan","leading p_T vs delta phi to leading jet;#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2JetsLeadingPhiPtW = new TH2F("fh2JetsLeadingPhiPtW","leading p_T vs delta phi p_T weigted to leading jet;#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2TracksLeadingPhiPtW = new TH2F("fh2TracksLeadingPhiPtW","leading p_T vs delta phi to leading jet (p_T weighted);#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2TracksLeadingJetPhiPtW = new TH2F("fh2TracksLeadingJetPhiPtW","leading p_T vs delta phi to leading jet;#Delta#phi;p_{T} (GeV/c)",
nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
fh2TracksLeadingJetPhiPtWRan = new TH2F("fh2TracksLeadingJetPhiPtWRan","leading p_T vs delta phi to leading jet;#Delta#phi;p_{T} (GeV/c)",
- nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
+ nBinPhi,binLimitsPhi,nBinPt,binLimitsPt);
if(fStoreRhoLeadingTrackCorr) {
fh3CentvsRhoLeadingTrackPt = new TH3F("fh3CentvsRhoLeadingTrackPt","centrality vs background density full event; centrality; #rho", 50,0.,100.,500,0.,250.,100,0.,100.);
fHistList->Add(fh1BiARandomConesRan[i]);
}
}
- for(int i = 0;i < kMaxCent;i++){
- fHistList->Add(fh2JetsLeadingPhiPtC[i]);
- fHistList->Add(fh2JetsLeadingPhiPtWC[i]);
- fHistList->Add(fh2TracksLeadingJetPhiPtC[i]);
- fHistList->Add(fh2TracksLeadingJetPhiPtWC[i]);
- }
+ for(int i = 0;i < kMaxCent;i++){
+ fHistList->Add(fh2JetsLeadingPhiPtC[i]);
+ fHistList->Add(fh2JetsLeadingPhiPtWC[i]);
+ fHistList->Add(fh2TracksLeadingJetPhiPtC[i]);
+ fHistList->Add(fh2TracksLeadingJetPhiPtWC[i]);
+ }
fHistList->Add(fh2NRecJetsPt);
fHistList->Add(fh2NRecTracksPt);
//Check if information is provided detector level effects
if(!fMomResH1 || !fMomResH2 || !fMomResH3) fUseTrPtResolutionSmearing = kFALSE;
- if(!fhEffH1 || !fhEffH2 || !fhEffH3 ) fUseDiceEfficiency = kFALSE;
- if( fEfficiencyFixed < 1. ) fUseDiceEfficiency = kTRUE;
+ if( fEfficiencyFixed < 1. ) {
+ if (!fUseDiceEfficiency)
+ fUseDiceEfficiency = 1; // 1 is the default; 2 can be set by user
+ }
+ else {
+ if(!fhEffH1 || !fhEffH2 || !fhEffH3 ) fUseDiceEfficiency = kFALSE;
+ }
Bool_t selectEvent = false;
Bool_t physicsSelection = true;// handled by the framework(fInputHandler->IsEventSelected()&AliVEvent::kMB)==AliVEvent::kMB;
selectEvent = true;
}
}
+
+
+ Bool_t T0 = false;
+ Bool_t V0 = false;
+ const AliAODVZERO *vzero = fAOD->GetVZEROData();
+ if(vzero){
+ if((vzero->GetTriggerChargeA()>0)&&(vzero->GetTriggerChargeC()>0)){
+ V0 = true;
+ }
+ }
+ const AliAODTZERO *tzero = fAOD->GetTZEROData();
+ if(tzero){
+ if(TMath::Abs(tzero->GetT0VertexRaw())<100){
+ T0 = true;
+ }
+ }
+
+ if(fRequireVZEROAC&&fRequireTZEROvtx)selectEvent = selectEvent&&V0&&T0;
+ else if(fRequireTZEROvtx)selectEvent = selectEvent&&T0;
+ else if(fRequireVZEROAC)selectEvent = selectEvent&&V0;
+
if(!selectEvent){
PostData(1, fHistList);
Int_t nT = GetListOfTracks(&recParticles,fTrackTypeRec);
Float_t nCh = recParticles.GetEntries();
+ Float_t nGen=genParticles.GetEntries();
fh1Nch->Fill(nCh);
if(fDebug>2)Printf("%s:%d Selected Rec tracks: %d %d",(char*)__FILE__,__LINE__,nT,recParticles.GetEntries());
nT = GetListOfTracks(&genParticles,fTrackTypeGen);
Double_t rnd = fRandom->Uniform(1.);
if( fEfficiencyFixed<1. ) {
sumEff = fEfficiencyFixed;
+ if (fUseDiceEfficiency == 2) {
+ sumEff = (nCh - fEfficiencyFixed*nGen) / nCh; // rescale eff; fEfficiencyFixed is wrt to nGen, but dicing is fraction of nCh
+ }
} else {
pT = vp->Pt();
// now create the object that holds info about ghosts
/*
- if(!fUseBackgroundCalc&& fNonStdBranch.Length()==0){
+ if(!fUseBackgroundCalc&& fNonStdBranch.Length()==0){
// reduce CPU time...
fGhostArea = 0.5;
fActiveAreaRepeats = 0;
- }
+ }
*/
fastjet::GhostedAreaSpec ghostSpec(fGhostEtamax, fActiveAreaRepeats, fGhostArea);
fh1NJetsRec->Fill(sortedJets.size());
- // loop over all jets an fill information, first on is the leading jet
+ // loop over all jets an fill information, first on is the leading jet
Int_t nRecOver = inclusiveJets.size();
Int_t nRec = inclusiveJets.size();
if(externalBackground){
// carefull has to be filled in a task before
// todo, ReArrange to the botom
- pTback = externalBackground->GetBackground(2)*leadingJet.EffectiveAreaCharged();
+ pTback = externalBackground->GetBackground(2)*leadingJet.EffectiveAreaCharged();
}
pt = leadingJet.Pt() - pTback;
// correlation of leading jet with tracks
Float_t tmpPtBack = 0;
if(externalBackground){
// carefull has to be filled in a task before
- // todo, ReArrange to the botom
+ // todo, ReArrange to the botom
tmpPtBack = externalBackground->GetBackground(2)*tmpRec.EffectiveAreaCharged();
}
tmpPt = tmpPt - tmpPtBack;
}
}
- // correlation
- Float_t tmpPhi = tmpRec.Phi();
- Float_t tmpEta = tmpRec.Eta();
- if(tmpPhi<0)tmpPhi+=TMath::Pi()*2.;
- if(j==0){
- fh1PtJetsLeadingRecIn->Fill(tmpPt);
- fh2LeadingJetPhiEta->Fill(tmpPhi,tmpEta);
- fh2LeadingJetEtaPt->Fill(tmpEta,tmpPt);
- fh1NConstLeadingRec->Fill(constituents.size());
- fh2NConstLeadingPt->Fill(tmpPt,constituents.size());
- continue;
- }
- fh2JetPhiEta->Fill(tmpRec.Phi(),tmpEta);
- fh2JetEtaPt->Fill(tmpEta,tmpPt);
- Float_t dPhi = phi - tmpPhi;
- if(dPhi>TMath::Pi())dPhi = dPhi - 2.*TMath::Pi();
- if(dPhi<(-1.*TMath::Pi()))dPhi = dPhi + 2.*TMath::Pi();
- Float_t dEta = eta - tmpRec.Eta();
- fh2JetsLeadingPhiEta->Fill(dPhi,dEta);
- fh2JetsLeadingPhiPt->Fill(dPhi,pt);
- if(cenClass>=0){
- fh2JetsLeadingPhiPtC[cenClass]->Fill(dPhi,pt);
- fh2JetsLeadingPhiPtWC[cenClass]->Fill(dPhi,pt,tmpPt);
- }
- fh2JetsLeadingPhiPtW->Fill(dPhi,pt,tmpPt);
+ // correlation
+ Float_t tmpPhi = tmpRec.Phi();
+ Float_t tmpEta = tmpRec.Eta();
+ if(tmpPhi<0)tmpPhi+=TMath::Pi()*2.;
+ if(j==0){
+ fh1PtJetsLeadingRecIn->Fill(tmpPt);
+ fh2LeadingJetPhiEta->Fill(tmpPhi,tmpEta);
+ fh2LeadingJetEtaPt->Fill(tmpEta,tmpPt);
+ fh1NConstLeadingRec->Fill(constituents.size());
+ fh2NConstLeadingPt->Fill(tmpPt,constituents.size());
+ continue;
+ }
+ fh2JetPhiEta->Fill(tmpRec.Phi(),tmpEta);
+ fh2JetEtaPt->Fill(tmpEta,tmpPt);
+ Float_t dPhi = phi - tmpPhi;
+ if(dPhi>TMath::Pi())dPhi = dPhi - 2.*TMath::Pi();
+ if(dPhi<(-1.*TMath::Pi()))dPhi = dPhi + 2.*TMath::Pi();
+ Float_t dEta = eta - tmpRec.Eta();
+ fh2JetsLeadingPhiEta->Fill(dPhi,dEta);
+ fh2JetsLeadingPhiPt->Fill(dPhi,pt);
+ if(cenClass>=0){
+ fh2JetsLeadingPhiPtC[cenClass]->Fill(dPhi,pt);
+ fh2JetsLeadingPhiPtWC[cenClass]->Fill(dPhi,pt,tmpPt);
+ }
+ fh2JetsLeadingPhiPtW->Fill(dPhi,pt,tmpPt);
}// loop over reconstructed jets
- delete recIter;
-
-
-
- // Add the random cones...
- if(fNRandomCones>0&&fTCARandomConesOut){
- // create a random jet within the acceptance
- Double_t etaMax = fTrackEtaWindow - fRparam;
- Int_t nCone = 0;
- Int_t nConeRan = 0;
- Double_t pTC = 1; // small number
- for(int ir = 0;ir < fNRandomCones;ir++){
- Double_t etaC = etaMax*2.*(fRandom->Rndm()-0.5); // +- etamax
- Double_t phiC = fRandom->Rndm()*2.*TMath::Pi(); // 0 - 2pi
- // massless jet
- Double_t thetaC = 2.*TMath::ATan(TMath::Exp(-etaC));
- Double_t pZC = pTC/TMath::Tan(thetaC);
- Double_t pXC = pTC * TMath::Cos(phiC);
- Double_t pYC = pTC * TMath::Sin(phiC);
- Double_t pC = TMath::Sqrt(pTC*pTC+pZC*pZC);
- AliAODJet tmpRecC (pXC,pYC,pZC, pC);
- bool skip = false;
- for(int jj = 0; jj < TMath::Min(nRec,fNSkipLeadingCone);jj++){// test for overlap with leading jets
- AliAODJet jet (sortedJets[jj].px(), sortedJets[jj].py(), sortedJets[jj].pz(), sortedJets[jj].E());
- if(jet.DeltaR(& tmpRecC)<2.*fRparam+0.2){
- skip = true;
- break;
- }
- }
- // test for overlap with previous cones to avoid double counting
- for(int iic = 0;iic<ir;iic++){
- AliAODJet *iicone = (AliAODJet*)fTCARandomConesOut->At(iic);
- if(iicone){
- if(iicone->DeltaR(&tmpRecC)<2.*fRparam){
- skip = true;
- break;
- }
- }
- }
- if(skip)continue;
- tmpRecC.SetBgEnergy(0,0); // this is use as temporary storage of the summed p_T below
- tmpRecC.SetPtLeading(-1.);
- if(fTCARandomConesOut)new ((*fTCARandomConesOut)[nCone++]) AliAODJet(tmpRecC);
- if(fTCARandomConesOutRan)new ((*fTCARandomConesOutRan)[nConeRan++]) AliAODJet(tmpRecC);
- }// loop over random cones creation
+ delete recIter;
+
+
+
+ // Add the random cones...
+ if(fNRandomCones>0&&fTCARandomConesOut){
+ // create a random jet within the acceptance
+ Double_t etaMax = fTrackEtaWindow - fRparam;
+ Int_t nCone = 0;
+ Int_t nConeRan = 0;
+ Double_t pTC = 1; // small number
+ for(int ir = 0;ir < fNRandomCones;ir++){
+ Double_t etaC = etaMax*2.*(fRandom->Rndm()-0.5); // +- etamax
+ Double_t phiC = fRandom->Rndm()*2.*TMath::Pi(); // 0 - 2pi
+ // massless jet
+ Double_t thetaC = 2.*TMath::ATan(TMath::Exp(-etaC));
+ Double_t pZC = pTC/TMath::Tan(thetaC);
+ Double_t pXC = pTC * TMath::Cos(phiC);
+ Double_t pYC = pTC * TMath::Sin(phiC);
+ Double_t pC = TMath::Sqrt(pTC*pTC+pZC*pZC);
+ AliAODJet tmpRecC (pXC,pYC,pZC, pC);
+ bool skip = false;
+ for(int jj = 0; jj < TMath::Min(nRec,fNSkipLeadingCone);jj++){// test for overlap with leading jets
+ AliAODJet jet (sortedJets[jj].px(), sortedJets[jj].py(), sortedJets[jj].pz(), sortedJets[jj].E());
+ if(jet.DeltaR(& tmpRecC)<2.*fRparam+0.2){
+ skip = true;
+ break;
+ }
+ }
+ // test for overlap with previous cones to avoid double counting
+ for(int iic = 0;iic<ir;iic++){
+ AliAODJet *iicone = (AliAODJet*)fTCARandomConesOut->At(iic);
+ if(iicone){
+ if(iicone->DeltaR(&tmpRecC)<2.*fRparam){
+ skip = true;
+ break;
+ }
+ }
+ }
+ if(skip)continue;
+ tmpRecC.SetBgEnergy(0,0); // this is use as temporary storage of the summed p_T below
+ tmpRecC.SetPtLeading(-1.);
+ if(fTCARandomConesOut)new ((*fTCARandomConesOut)[nCone++]) AliAODJet(tmpRecC);
+ if(fTCARandomConesOutRan)new ((*fTCARandomConesOutRan)[nConeRan++]) AliAODJet(tmpRecC);
+ }// loop over random cones creation
- // loop over the reconstructed particles and add up the pT in the random cones
- // maybe better to loop over randomized particles not in the real jets...
- // but this by definition brings dow average energy in the whole event
- AliAODJet vTmpRanR(1,0,0,1);
- for(int i = 0; i < recParticles.GetEntries(); i++){
- AliVParticle *vp = (AliVParticle*)recParticles.At(i);
- if(fTCARandomConesOut){
- for(int ir = 0;ir < fNRandomCones;ir++){
- AliAODJet *jC = (AliAODJet*)fTCARandomConesOut->At(ir);
- if(jC&&jC->DeltaR(vp)<fRparam){
- if(vp->Pt()>fMaxTrackPtInJet)jC->SetTrigger(AliAODJet::kHighTrackPtTriggered);
- jC->SetBgEnergy(jC->ChargedBgEnergy()+vp->Pt(),0);
- if(vp->Pt() > jC->GetPtLeading()) jC->SetPtLeading(vp->Pt());
- }
- }
- }// add up energy in cone
-
- // the randomized input changes eta and phi, but keeps the p_T
- if(i>=fNSkipLeadingRan){// eventually skip the leading particles
- Double_t pTR = vp->Pt();
- Double_t etaR = 2.*fTrackEtaWindow* fRandom->Rndm() - fTrackEtaWindow;
- Double_t phiR = 2.* TMath::Pi() * fRandom->Rndm();
+ // loop over the reconstructed particles and add up the pT in the random cones
+ // maybe better to loop over randomized particles not in the real jets...
+ // but this by definition brings dow average energy in the whole event
+ AliAODJet vTmpRanR(1,0,0,1);
+ for(int i = 0; i < recParticles.GetEntries(); i++){
+ AliVParticle *vp = (AliVParticle*)recParticles.At(i);
+ if(fTCARandomConesOut){
+ for(int ir = 0;ir < fNRandomCones;ir++){
+ AliAODJet *jC = (AliAODJet*)fTCARandomConesOut->At(ir);
+ if(jC&&jC->DeltaR(vp)<fRparam){
+ if(vp->Pt()>fMaxTrackPtInJet)jC->SetTrigger(AliAODJet::kHighTrackPtTriggered);
+ jC->SetBgEnergy(jC->ChargedBgEnergy()+vp->Pt(),0);
+ if(vp->Pt() > jC->GetPtLeading()) jC->SetPtLeading(vp->Pt());
+ }
+ }
+ }// add up energy in cone
+
+ // the randomized input changes eta and phi, but keeps the p_T
+ if(i>=fNSkipLeadingRan){// eventually skip the leading particles
+ Double_t pTR = vp->Pt();
+ Double_t etaR = 2.*fTrackEtaWindow* fRandom->Rndm() - fTrackEtaWindow;
+ Double_t phiR = 2.* TMath::Pi() * fRandom->Rndm();
- Double_t thetaR = 2.*TMath::ATan(TMath::Exp(-etaR));
- Double_t pZR = pTR/TMath::Tan(thetaR);
+ Double_t thetaR = 2.*TMath::ATan(TMath::Exp(-etaR));
+ Double_t pZR = pTR/TMath::Tan(thetaR);
- Double_t pXR = pTR * TMath::Cos(phiR);
- Double_t pYR = pTR * TMath::Sin(phiR);
- Double_t pR = TMath::Sqrt(pTR*pTR+pZR*pZR);
- vTmpRanR.SetPxPyPzE(pXR,pYR,pZR,pR);
- if(fTCARandomConesOutRan){
- for(int ir = 0;ir < fTCARandomConesOutRan->GetEntriesFast();ir++){
- AliAODJet *jC = (AliAODJet*)fTCARandomConesOutRan->At(ir);
- if(jC&&jC->DeltaR(&vTmpRanR)<fRparam){
- if(vTmpRanR.Pt()>fMaxTrackPtInJet)jC->SetTrigger(AliAODJet::kHighTrackPtTriggered);
- jC->SetBgEnergy(jC->ChargedBgEnergy()+vTmpRanR.Pt(),0);
- if(vTmpRanR.Pt() > jC->GetPtLeading()) jC->SetPtLeading(vTmpRanR.Pt());
- }
- }
- }
- }
- }// loop over recparticles
+ Double_t pXR = pTR * TMath::Cos(phiR);
+ Double_t pYR = pTR * TMath::Sin(phiR);
+ Double_t pR = TMath::Sqrt(pTR*pTR+pZR*pZR);
+ vTmpRanR.SetPxPyPzE(pXR,pYR,pZR,pR);
+ if(fTCARandomConesOutRan){
+ for(int ir = 0;ir < fTCARandomConesOutRan->GetEntriesFast();ir++){
+ AliAODJet *jC = (AliAODJet*)fTCARandomConesOutRan->At(ir);
+ if(jC&&jC->DeltaR(&vTmpRanR)<fRparam){
+ if(vTmpRanR.Pt()>fMaxTrackPtInJet)jC->SetTrigger(AliAODJet::kHighTrackPtTriggered);
+ jC->SetBgEnergy(jC->ChargedBgEnergy()+vTmpRanR.Pt(),0);
+ if(vTmpRanR.Pt() > jC->GetPtLeading()) jC->SetPtLeading(vTmpRanR.Pt());
+ }
+ }
+ }
+ }
+ }// loop over recparticles
- Float_t jetArea = fRparam*fRparam*TMath::Pi();
- if(fTCARandomConesOut){
- for(int ir = 0;ir < fTCARandomConesOut->GetEntriesFast();ir++){
- // rescale the momentum vectors for the random cones
+ Float_t jetArea = fRparam*fRparam*TMath::Pi();
+ if(fTCARandomConesOut){
+ for(int ir = 0;ir < fTCARandomConesOut->GetEntriesFast();ir++){
+ // rescale the momentum vectors for the random cones
- AliAODJet *rC = (AliAODJet*)fTCARandomConesOut->At(ir);
- if(rC){
- Double_t etaC = rC->Eta();
- Double_t phiC = rC->Phi();
- // massless jet, unit vector
- pTC = rC->ChargedBgEnergy();
- if(pTC<=0)pTC = 0.001; // for almost empty events
- Double_t thetaC = 2.*TMath::ATan(TMath::Exp(-etaC));
- Double_t pZC = pTC/TMath::Tan(thetaC);
- Double_t pXC = pTC * TMath::Cos(phiC);
- Double_t pYC = pTC * TMath::Sin(phiC);
- Double_t pC = TMath::Sqrt(pTC*pTC+pZC*pZC);
- rC->SetPxPyPzE(pXC,pYC,pZC, pC);
- rC->SetBgEnergy(0,0);
- rC->SetEffArea(jetArea,0);
- }
- }
- }
- if(fTCARandomConesOutRan){
- for(int ir = 0;ir < fTCARandomConesOutRan->GetEntriesFast();ir++){
- AliAODJet* rC = (AliAODJet*)fTCARandomConesOutRan->At(ir);
- // same wit random
- if(rC){
- Double_t etaC = rC->Eta();
- Double_t phiC = rC->Phi();
- // massless jet, unit vector
- pTC = rC->ChargedBgEnergy();
- if(pTC<=0)pTC = 0.001;// for almost empty events
- Double_t thetaC = 2.*TMath::ATan(TMath::Exp(-etaC));
- Double_t pZC = pTC/TMath::Tan(thetaC);
- Double_t pXC = pTC * TMath::Cos(phiC);
- Double_t pYC = pTC * TMath::Sin(phiC);
- Double_t pC = TMath::Sqrt(pTC*pTC+pZC*pZC);
- rC->SetPxPyPzE(pXC,pYC,pZC, pC);
- rC->SetBgEnergy(0,0);
- rC->SetEffArea(jetArea,0);
- }
- }
- }
- }// if(fNRandomCones
+ AliAODJet *rC = (AliAODJet*)fTCARandomConesOut->At(ir);
+ if(rC){
+ Double_t etaC = rC->Eta();
+ Double_t phiC = rC->Phi();
+ // massless jet, unit vector
+ pTC = rC->ChargedBgEnergy();
+ if(pTC<=0)pTC = 0.001; // for almost empty events
+ Double_t thetaC = 2.*TMath::ATan(TMath::Exp(-etaC));
+ Double_t pZC = pTC/TMath::Tan(thetaC);
+ Double_t pXC = pTC * TMath::Cos(phiC);
+ Double_t pYC = pTC * TMath::Sin(phiC);
+ Double_t pC = TMath::Sqrt(pTC*pTC+pZC*pZC);
+ rC->SetPxPyPzE(pXC,pYC,pZC, pC);
+ rC->SetBgEnergy(0,0);
+ rC->SetEffArea(jetArea,0);
+ }
+ }
+ }
+ if(fTCARandomConesOutRan){
+ for(int ir = 0;ir < fTCARandomConesOutRan->GetEntriesFast();ir++){
+ AliAODJet* rC = (AliAODJet*)fTCARandomConesOutRan->At(ir);
+ // same wit random
+ if(rC){
+ Double_t etaC = rC->Eta();
+ Double_t phiC = rC->Phi();
+ // massless jet, unit vector
+ pTC = rC->ChargedBgEnergy();
+ if(pTC<=0)pTC = 0.001;// for almost empty events
+ Double_t thetaC = 2.*TMath::ATan(TMath::Exp(-etaC));
+ Double_t pZC = pTC/TMath::Tan(thetaC);
+ Double_t pXC = pTC * TMath::Cos(phiC);
+ Double_t pYC = pTC * TMath::Sin(phiC);
+ Double_t pC = TMath::Sqrt(pTC*pTC+pZC*pZC);
+ rC->SetPxPyPzE(pXC,pYC,pZC, pC);
+ rC->SetBgEnergy(0,0);
+ rC->SetEffArea(jetArea,0);
+ }
+ }
+ }
+ }// if(fNRandomCones
- //background estimates:all bckg jets(0) & wo the 2 hardest(1)
+ //background estimates:all bckg jets(0) & wo the 2 hardest(1)
- if(fAODJetBackgroundOut){
- vector<fastjet::PseudoJet> jets2=sortedJets;
- if(jets2.size()>2) jets2.erase(jets2.begin(),jets2.begin()+2);
+ if(fAODJetBackgroundOut){
+ vector<fastjet::PseudoJet> jets2=sortedJets;
+ if(jets2.size()>2) jets2.erase(jets2.begin(),jets2.begin()+2);
- Double_t bkg1=0;
- Double_t sigma1=0.;
- Double_t meanarea1=0.;
- Double_t bkg2=0;
- Double_t sigma2=0.;
- Double_t meanarea2=0.;
+ Double_t bkg1=0;
+ Double_t sigma1=0.;
+ Double_t meanarea1=0.;
+ Double_t bkg2=0;
+ Double_t sigma2=0.;
+ Double_t meanarea2=0.;
- clustSeq.get_median_rho_and_sigma(jets2, range, true, bkg1, sigma1, meanarea1, true);
- fAODJetBackgroundOut->SetBackground(0,bkg1,sigma1,meanarea1);
+ Double_t bkg4=0;
+ Double_t sigma4=0.;
+ Double_t meanarea4=0.;
- // fh1BiARandomCones[0]->Fill(omCone-(bkg1*areaRandomCone));
- // fh1BiARandomConesRan[0]->Fill(ptRandomConeRan-(bkg1*areaRandomCone));
+ clustSeq.get_median_rho_and_sigma(jets2, range, true, bkg1, sigma1, meanarea1, true);
+ fAODJetBackgroundOut->SetBackground(0,bkg1,sigma1,meanarea1);
+
+ // fh1BiARandomCones[0]->Fill(omCone-(bkg1*areaRandomCone));
+ // fh1BiARandomConesRan[0]->Fill(ptRandomConeRan-(bkg1*areaRandomCone));
+ clustSeq.get_median_rho_and_sigma(sortedJets, range, true, bkg4, sigma4, meanarea4, true);
+ fAODJetBackgroundOut->SetBackground(3,bkg4,sigma4,meanarea4);
+
+ //////////////////////
- clustSeq.get_median_rho_and_sigma(jets2, range, false, bkg2, sigma2, meanarea2, true);
- fAODJetBackgroundOut->SetBackground(1,bkg2,sigma2,meanarea2);
- // fh1BiARandomCones[1]->Fill(ptRandomCone-(bkg2*areaRandomCone));
- // fh1BiARandomConesRan[1]->Fill(ptRandomConeRan-(bkg2*areaRandomCone));
+ clustSeq.get_median_rho_and_sigma(jets2, range, false, bkg2, sigma2, meanarea2, true);
+ fAODJetBackgroundOut->SetBackground(1,bkg2,sigma2,meanarea2);
+ // fh1BiARandomCones[1]->Fill(ptRandomCone-(bkg2*areaRandomCone));
+ // fh1BiARandomConesRan[1]->Fill(ptRandomConeRan-(bkg2*areaRandomCone));
- }
+ }
}
if(fStoreRhoLeadingTrackCorr) {
// do the same for tracks and jets
if(nTrackOver>0){
- TIterator *recIter = recParticles.MakeIterator();
- AliVParticle *tmpRec = (AliVParticle*)(recIter->Next());
- Float_t pt = tmpRec->Pt();
-
- // Printf("Leading track p_t %3.3E",pt);
- for(int i = 1;i <= fh2NRecTracksPt->GetNbinsX();i++){
- Float_t ptCut = fh2NRecTracksPt->GetXaxis()->GetBinCenter(i);
- while(pt<ptCut&&tmpRec){
- nTrackOver--;
- tmpRec = (AliVParticle*)(recIter->Next());
- if(tmpRec){
- pt = tmpRec->Pt();
- }
- }
- if(nTrackOver<=0)break;
- fh2NRecTracksPt->Fill(ptCut,nTrackOver);
- }
+ TIterator *recIter = recParticles.MakeIterator();
+ AliVParticle *tmpRec = (AliVParticle*)(recIter->Next());
+ Float_t pt = tmpRec->Pt();
+
+ // Printf("Leading track p_t %3.3E",pt);
+ for(int i = 1;i <= fh2NRecTracksPt->GetNbinsX();i++){
+ Float_t ptCut = fh2NRecTracksPt->GetXaxis()->GetBinCenter(i);
+ while(pt<ptCut&&tmpRec){
+ nTrackOver--;
+ tmpRec = (AliVParticle*)(recIter->Next());
+ if(tmpRec){
+ pt = tmpRec->Pt();
+ }
+ }
+ if(nTrackOver<=0)break;
+ fh2NRecTracksPt->Fill(ptCut,nTrackOver);
+ }
- recIter->Reset();
- AliVParticle *leading = (AliVParticle*)recParticles.At(0);
- Float_t phi = leading->Phi();
- if(phi<0)phi+=TMath::Pi()*2.;
- Float_t eta = leading->Eta();
- pt = leading->Pt();
- while((tmpRec = (AliVParticle*)(recIter->Next()))){
- Float_t tmpPt = tmpRec->Pt();
- Float_t tmpEta = tmpRec->Eta();
- fh1PtTracksRecIn->Fill(tmpPt);
- fh2TrackEtaPt->Fill(tmpEta,tmpPt);
- if(tmpRec==leading){
- fh1PtTracksLeadingRecIn->Fill(tmpPt);
- fh2LeadingTrackEtaPt->Fill(tmpEta,tmpPt);
- continue;
- }
+ recIter->Reset();
+ AliVParticle *leading = (AliVParticle*)recParticles.At(0);
+ Float_t phi = leading->Phi();
+ if(phi<0)phi+=TMath::Pi()*2.;
+ Float_t eta = leading->Eta();
+ pt = leading->Pt();
+ while((tmpRec = (AliVParticle*)(recIter->Next()))){
+ Float_t tmpPt = tmpRec->Pt();
+ Float_t tmpEta = tmpRec->Eta();
+ fh1PtTracksRecIn->Fill(tmpPt);
+ fh2TrackEtaPt->Fill(tmpEta,tmpPt);
+ if(tmpRec==leading){
+ fh1PtTracksLeadingRecIn->Fill(tmpPt);
+ fh2LeadingTrackEtaPt->Fill(tmpEta,tmpPt);
+ continue;
+ }
// correlation
- Float_t tmpPhi = tmpRec->Phi();
+ Float_t tmpPhi = tmpRec->Phi();
- if(tmpPhi<0)tmpPhi+=TMath::Pi()*2.;
- Float_t dPhi = phi - tmpPhi;
- if(dPhi>TMath::Pi())dPhi = dPhi - 2.*TMath::Pi();
- if(dPhi<(-1.*TMath::Pi()))dPhi = dPhi + 2.*TMath::Pi();
- Float_t dEta = eta - tmpRec->Eta();
- fh2TracksLeadingPhiEta->Fill(dPhi,dEta);
- fh2TracksLeadingPhiPt->Fill(dPhi,pt);
- fh2TracksLeadingPhiPtW->Fill(dPhi,pt,tmpPt);
- }
- delete recIter;
- }
+ if(tmpPhi<0)tmpPhi+=TMath::Pi()*2.;
+ Float_t dPhi = phi - tmpPhi;
+ if(dPhi>TMath::Pi())dPhi = dPhi - 2.*TMath::Pi();
+ if(dPhi<(-1.*TMath::Pi()))dPhi = dPhi + 2.*TMath::Pi();
+ Float_t dEta = eta - tmpRec->Eta();
+ fh2TracksLeadingPhiEta->Fill(dPhi,dEta);
+ fh2TracksLeadingPhiPt->Fill(dPhi,pt);
+ fh2TracksLeadingPhiPtW->Fill(dPhi,pt,tmpPt);
+ }
+ delete recIter;
+ }
- // find the random jets
+ // find the random jets
- fastjet::ClusterSequenceArea clustSeqRan(inputParticlesRecRan, jetDef, areaDef);
+ fastjet::ClusterSequenceArea clustSeqRan(inputParticlesRecRan, jetDef, areaDef);
- // fill the jet information from random track
- const vector <fastjet::PseudoJet> &inclusiveJetsRan = clustSeqRan.inclusive_jets();
- const vector <fastjet::PseudoJet> &sortedJetsRan = sorted_by_pt(inclusiveJetsRan);
+ // fill the jet information from random track
+ const vector <fastjet::PseudoJet> &inclusiveJetsRan = clustSeqRan.inclusive_jets();
+ const vector <fastjet::PseudoJet> &sortedJetsRan = sorted_by_pt(inclusiveJetsRan);
fh1NJetsRecRan->Fill(sortedJetsRan.size());
- // loop over all jets an fill information, first on is the leading jet
+ // loop over all jets an fill information, first on is the leading jet
- Int_t nRecOverRan = inclusiveJetsRan.size();
- Int_t nRecRan = inclusiveJetsRan.size();
+ Int_t nRecOverRan = inclusiveJetsRan.size();
+ Int_t nRecRan = inclusiveJetsRan.size();
- if(inclusiveJetsRan.size()>0){
- AliAODJet leadingJet (sortedJetsRan[0].px(), sortedJetsRan[0].py(), sortedJetsRan[0].pz(), sortedJetsRan[0].E());
- Float_t pt = leadingJet.Pt();
+ if(inclusiveJetsRan.size()>0){
+ AliAODJet leadingJet (sortedJetsRan[0].px(), sortedJetsRan[0].py(), sortedJetsRan[0].pz(), sortedJetsRan[0].E());
+ Float_t pt = leadingJet.Pt();
- Int_t iCount = 0;
- TLorentzVector vecarearanb;
+ Int_t iCount = 0;
+ TLorentzVector vecarearanb;
- for(int i = 1;i <= fh2NRecJetsPtRan->GetNbinsX();i++){
- Float_t ptCut = fh2NRecJetsPtRan->GetXaxis()->GetBinCenter(i);
+ for(int i = 1;i <= fh2NRecJetsPtRan->GetNbinsX();i++){
+ Float_t ptCut = fh2NRecJetsPtRan->GetXaxis()->GetBinCenter(i);
while(pt<ptCut&&iCount<nRecRan){
nRecOverRan--;
iCount++;
}
Int_t nAodOutJetsRan = 0;
- AliAODJet *aodOutJetRan = 0;
+ AliAODJet *aodOutJetRan = 0;
for(int j = 0; j < nRecRan;j++){
AliAODJet tmpRec (sortedJetsRan[j].px(), sortedJetsRan[j].py(), sortedJetsRan[j].pz(), sortedJetsRan[j].E());
Float_t tmpPt = tmpRec.Pt();
fh2PtNchNRan->Fill(nCh,tmpPt,constituents.size());
- if(tmpPt>fJetOutputMinPt&&fTCAJetsOutRan){
- aodOutJetRan = new ((*fTCAJetsOutRan)[nAodOutJetsRan++]) AliAODJet(tmpRec);
- Double_t arearan=clustSeqRan.area(sortedJetsRan[j]);
- aodOutJetRan->GetRefTracks()->Clear();
- aodOutJetRan->SetEffArea(arearan,0);
- fastjet::PseudoJet vecarearan=clustSeqRan.area_4vector(sortedJetsRan[j]);
- vecarearanb.SetPxPyPzE(vecarearan.px(),vecarearan.py(),vecarearan.pz(),vecarearan.e());
- aodOutJetRan->SetVectorAreaCharged(&vecarearanb);
+ if(tmpPt>fJetOutputMinPt&&fTCAJetsOutRan){
+ aodOutJetRan = new ((*fTCAJetsOutRan)[nAodOutJetsRan++]) AliAODJet(tmpRec);
+ Double_t arearan=clustSeqRan.area(sortedJetsRan[j]);
+ aodOutJetRan->GetRefTracks()->Clear();
+ aodOutJetRan->SetEffArea(arearan,0);
+ fastjet::PseudoJet vecarearan=clustSeqRan.area_4vector(sortedJetsRan[j]);
+ vecarearanb.SetPxPyPzE(vecarearan.px(),vecarearan.py(),vecarearan.pz(),vecarearan.e());
+ aodOutJetRan->SetVectorAreaCharged(&vecarearanb);
- }
+ }
// correlation
Float_t tmpPhi = tmpRec.Phi();
if(fAODJetBackgroundOut){
- Double_t bkg3=0.;
- Double_t sigma3=0.;
- Double_t meanarea3=0.;
- clustSeqRan.get_median_rho_and_sigma(sortedJetsRan ,range, false, bkg3, sigma3, meanarea3, true);
- fAODJetBackgroundOut->SetBackground(2,bkg3,sigma3,meanarea3);
- // float areaRandomCone = rRandomCone2 *TMath::Pi();
- /*
- fh1BiARandomCones[2]->Fill(ptRandomCone-(bkg3*areaRandomCone));
- fh1BiARandomConesRan[2]->Fill(ptRandomConeRan-(bkg3*areaRandomCone));
- */
+ Double_t bkg3=0.;
+ Double_t sigma3=0.;
+ Double_t meanarea3=0.;
+ clustSeqRan.get_median_rho_and_sigma(sortedJetsRan ,range, false, bkg3, sigma3, meanarea3, true);
+ fAODJetBackgroundOut->SetBackground(2,bkg3,sigma3,meanarea3);
+ // float areaRandomCone = rRandomCone2 *TMath::Pi();
+ /*
+ fh1BiARandomCones[2]->Fill(ptRandomCone-(bkg3*areaRandomCone));
+ fh1BiARandomConesRan[2]->Fill(ptRandomConeRan-(bkg3*areaRandomCone));
+ */
}
- }
+ }
- // do the event selection if activated
- if(fJetTriggerPtCut>0){
- bool select = false;
- Float_t minPt = fJetTriggerPtCut;
- /*
- // hard coded for now ...
- // 54.50 44.5 29.5 18.5 for anti-kt rejection 1E-3
- if(cent<10)minPt = 50;
- else if(cent<30)minPt = 42;
- else if(cent<50)minPt = 28;
- else if(cent<80)minPt = 18;
- */
- float rho = 0;
- if(externalBackground)rho = externalBackground->GetBackground(2);
- if(fTCAJetsOut){
- for(int i = 0;i < fTCAJetsOut->GetEntriesFast();i++){
- AliAODJet *jet = (AliAODJet*)fTCAJetsOut->At(i);
- Float_t ptSub = jet->Pt() - rho *jet->EffectiveAreaCharged();
- if(ptSub>=minPt){
- select = true;
- break;
- }
- }
- }
+ // do the event selection if activated
+ if(fJetTriggerPtCut>0){
+ bool select = false;
+ Float_t minPt = fJetTriggerPtCut;
+ /*
+ // hard coded for now ...
+ // 54.50 44.5 29.5 18.5 for anti-kt rejection 1E-3
+ if(cent<10)minPt = 50;
+ else if(cent<30)minPt = 42;
+ else if(cent<50)minPt = 28;
+ else if(cent<80)minPt = 18;
+ */
+ float rho = 0;
+ if(externalBackground)rho = externalBackground->GetBackground(2);
+ if(fTCAJetsOut){
+ for(int i = 0;i < fTCAJetsOut->GetEntriesFast();i++){
+ AliAODJet *jet = (AliAODJet*)fTCAJetsOut->At(i);
+ Float_t ptSub = jet->Pt() - rho *jet->EffectiveAreaCharged();
+ if(ptSub>=minPt){
+ select = true;
+ break;
+ }
+ }
+ }
- if(select){
- static AliAODHandler *aodH = dynamic_cast<AliAODHandler*>(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler());
- fh1CentralitySelect->Fill(cent);
- fh1ZSelect->Fill(zVtx);
- aodH->SetFillAOD(kTRUE);
- }
- }
- if (fDebug > 2){
- if(fTCAJetsOut)Printf("%s:%d Rec Jets %d",(char*)__FILE__,__LINE__,fTCAJetsOut->GetEntriesFast());
- if(fTCAJetsOutRan)Printf("%s:%d Rec Jets Ran %d",(char*)__FILE__,__LINE__,fTCAJetsOutRan->GetEntriesFast());
- if(fTCARandomConesOut)Printf("%s:%d RC %d",(char*)__FILE__,__LINE__,fTCARandomConesOut->GetEntriesFast());
- if(fTCARandomConesOutRan)Printf("%s:%d RC Ran %d",(char*)__FILE__,__LINE__,fTCARandomConesOutRan->GetEntriesFast());
- }
- PostData(1, fHistList);
+ if(select){
+ static AliAODHandler *aodH = dynamic_cast<AliAODHandler*>(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler());
+ fh1CentralitySelect->Fill(cent);
+ fh1ZSelect->Fill(zVtx);
+ aodH->SetFillAOD(kTRUE);
+ }
+ }
+ if (fDebug > 2){
+ if(fTCAJetsOut)Printf("%s:%d Rec Jets %d",(char*)__FILE__,__LINE__,fTCAJetsOut->GetEntriesFast());
+ if(fTCAJetsOutRan)Printf("%s:%d Rec Jets Ran %d",(char*)__FILE__,__LINE__,fTCAJetsOutRan->GetEntriesFast());
+ if(fTCARandomConesOut)Printf("%s:%d RC %d",(char*)__FILE__,__LINE__,fTCARandomConesOut->GetEntriesFast());
+ if(fTCARandomConesOutRan)Printf("%s:%d RC Ran %d",(char*)__FILE__,__LINE__,fTCARandomConesOutRan->GetEntriesFast());
+ }
+ PostData(1, fHistList);
}
void AliAnalysisTaskJetCluster::Terminate(Option_t */*option*/)
//
// Terminate analysis
//
- if (fDebug > 1) printf("AnalysisJetCluster: Terminate() \n");
+ if (fDebug > 1) printf("AnalysisJetCluster: Terminate() \n");
- if(fMomResH1Fit) delete fMomResH1Fit;
- if(fMomResH2Fit) delete fMomResH2Fit;
- if(fMomResH3Fit) delete fMomResH3Fit;
+ if(fMomResH1Fit) delete fMomResH1Fit;
+ if(fMomResH2Fit) delete fMomResH2Fit;
+ if(fMomResH3Fit) delete fMomResH3Fit;
}
// get list of tracks/particles for different types
//
- if(fDebug>2)Printf("%s:%d Selecting tracks with %d",(char*)__FILE__,__LINE__,type);
+ if(fDebug>2) Printf("%s:%d Selecting tracks with %d",(char*)__FILE__,__LINE__,type);
Int_t iCount = 0;
- if(type==kTrackAOD || type==kTrackAODextra || type==kTrackAODextraonly){
- if(type!=kTrackAODextraonly) {
+ if(type==kTrackAOD || type==kTrackAODextra || type==kTrackAODextraonly || type==kTrackAODMCextra || type==kTrackAODMCextraonly){
+
+ if(type!=kTrackAODextraonly && type!=kTrackAODMCextraonly) {
AliAODEvent *aod = 0;
if(fUseAODTrackInput)aod = dynamic_cast<AliAODEvent*>(InputEvent());
else aod = AODEvent();
if(fDebug>10)Printf("%s:%d Not matching filter %d/%d %d/%d",(char*)__FILE__,__LINE__,it,aod->GetNumberOfTracks(),fFilterMask,tr->GetFilterMap());
continue;
}
+ if(fRequireITSRefit){if((tr->GetStatus()&AliESDtrack::kITSrefit)==0)continue;}
if(TMath::Abs(tr->Eta())>fTrackEtaWindow){
if(fDebug>10)Printf("%s:%d Not matching eta %d/%d",(char*)__FILE__,__LINE__,it,aod->GetNumberOfTracks());
continue;
else if(fFilterType == 1)bGood = trackAOD->IsHybridTPCConstrainedGlobal();
else if(fFilterType == 2)bGood = trackAOD->IsHybridGlobalConstrainedGlobal();
if((fFilterMask>0)&&((!trackAOD->TestFilterBit(fFilterMask)||(!bGood))))continue;
- if(TMath::Abs(trackAOD->Eta())>fTrackEtaWindow) continue;
+ if(fRequireITSRefit){if((trackAOD->GetStatus()&AliESDtrack::kITSrefit)==0)continue;}
+ if(TMath::Abs(trackAOD->Eta())>fTrackEtaWindow) continue;
if(trackAOD->Pt()<fTrackPtCut) continue;
+ if(fDebug) printf("pt extra track %.2f \n", trackAOD->Pt());
list->Add(trackAOD);
iCount++;
}
}
+
+ if(type==kTrackAODMCextra || type==kTrackAODMCextraonly) { //embed generator level particles
+ AliAODEvent *aod = 0;
+ if(fUseAODTrackInput)aod = dynamic_cast<AliAODEvent*>(InputEvent());
+ else aod = AODEvent();
+ if(!aod){
+ return iCount;
+ }
+ TClonesArray *aodExtraTracks = dynamic_cast<TClonesArray*>(aod->FindListObject("aodExtraMCparticles"));
+ if(!aodExtraTracks)return iCount;
+ for(int it =0; it<aodExtraTracks->GetEntries(); it++) {
+ AliVParticle *track = dynamic_cast<AliVParticle*> ((*aodExtraTracks)[it]);
+ AliAODMCParticle *partmc = dynamic_cast<AliAODMCParticle*> ((*aodExtraTracks)[it]);
+ if (!track) {
+ if(fDebug>10) printf("track %d does not exist\n",it);
+ continue;
+ }
+
+ if(!partmc) continue;
+ if(!partmc->IsPhysicalPrimary())continue;
+
+ if (track->Pt()<fTrackPtCut) {
+ if(fDebug>10) printf("track %d has too low pt %.2f\n",it,track->Pt());
+ continue;
+ }
+
+ /*
+ AliAODTrack *trackAOD = dynamic_cast<AliAODTrack*>((*aodExtraTracks)[it]);//(track);
+
+ if(!trackAOD) {
+ if(fDebug>10) printf("trackAOD %d does not exist\n",it);
+ continue;
+ }
+
+ trackAOD->SetFlags(AliESDtrack::kEmbedded);
+ trackAOD->SetFilterMap(fFilterMask);
+ */
+ if(fDebug>10) printf("pt extra track %.2f \n", track->Pt());
+
+ if(TMath::Abs(track->Eta())>fTrackEtaWindow) continue;
+ if(track->Pt()<fTrackPtCut) continue;
+ list->Add(track);
+
+ iCount++;
+ }
+ }
+
}
else if (type == kTrackKineAll||type == kTrackKineCharged){
AliMCEvent* mcEvent = MCEvent();
}
}
}// AODMCparticle
+ else if (type == kTrackAODMCHF){
+
+ AliAODEvent *aod = 0;
+ if(fUseAODMCInput)aod = dynamic_cast<AliAODEvent*>(InputEvent());
+ else aod = AODEvent();
+ if(!aod)return iCount;
+ TClonesArray *tca = dynamic_cast<TClonesArray*>(aod->FindListObject(AliAODMCParticle::StdBranchName()));
+ if(!tca)return iCount;
+ for(int it = 0;it < tca->GetEntriesFast();++it){
+ AliAODMCParticle *part = (AliAODMCParticle*)(tca->At(it));
+ if(!part) continue;
+ int partpdg= part->PdgCode();
+ if(!part->IsPhysicalPrimary() && !IsBMeson(partpdg) && !IsDMeson(partpdg) )continue;
+
+ if (IsBMeson(partpdg) || IsDMeson(partpdg)) {
+ iCount+= AddDaughters( list , part,tca);
+ }
+ else {
+
+ if(part->Pt()<fTrackPtCut) continue;
+ if(TMath::Abs(part->Eta())>fTrackEtaWindow) continue;
+ if(part->Charge()==0) continue;
+
+ if((part->Pt()>=fTrackPtCut) && (TMath::Abs(part->Eta())<=fTrackEtaWindow) && (part->Charge()!=0))list->Add(part);
+ iCount++;
+ }
+ }
+ }
+
list->Sort();
return iCount;
}
+Int_t AliAnalysisTaskJetCluster::AddDaughters(TList * list, AliAODMCParticle *part, TClonesArray * tca){
+ Int_t count=0;
+ Int_t nDaugthers = part->GetNDaughters();
+ for(Int_t i=0;i< nDaugthers;++i){
+ AliAODMCParticle *partdaughter = (AliAODMCParticle*)(tca->At(i));
+ if(!partdaughter) continue;
+ if(partdaughter->Pt()<fTrackPtCut)continue;
+ if(TMath::Abs(partdaughter->Eta())>fTrackEtaWindow)continue;
+ if(partdaughter->Charge()==0)continue;
+
+ if(!IsDMeson(partdaughter->PdgCode()) && !IsBMeson(partdaughter->PdgCode()) ){
+ list->Add(partdaughter);
+ count++;
+ }
+ else count+=AddDaughters(list,part,tca);
+ }
+return count;
+}
+
+
+
void AliAnalysisTaskJetCluster::LoadTrPtResolutionRootFileFromOADB() {
+ if (!gGrid) {
+ AliInfo("Trying to connect to AliEn ...");
+ TGrid::Connect("alien://");
+ }
+
TFile *f = TFile::Open(fPathTrPtResolution.Data());
if(!f)return;
void AliAnalysisTaskJetCluster::LoadTrEfficiencyRootFileFromOADB() {
+ if (!gGrid) {
+ AliInfo("Trying to connect to AliEn ...");
+ TGrid::Connect("alien://");
+ }
+
TFile *f = TFile::Open(fPathTrEfficiency.Data());
if(!f)return;
}
/*
-Int_t AliAnalysisTaskJetCluster::AddParticlesFastJet(TList &particles,vector<fastjet::PseudoJet> &inputParticles){
+ Int_t AliAnalysisTaskJetCluster::AddParticlesFastJet(TList &particles,vector<fastjet::PseudoJet> &inputParticles){
for(int i = 0; i < particles.GetEntries(); i++){
- AliVParticle *vp = (AliVParticle*)particles.At(i);
- // Carefull energy is not well determined in real data, should not matter for p_T scheme?
- fastjet::PseudoJet jInp(vp->Px(),vp->Py(),vp->Pz(),vp->E());
- jInp.set_user_index(i);
- inputParticles.push_back(jInp);
+ AliVParticle *vp = (AliVParticle*)particles.At(i);
+ // Carefull energy is not well determined in real data, should not matter for p_T scheme?
+ fastjet::PseudoJet jInp(vp->Px(),vp->Py(),vp->Pz(),vp->E());
+ jInp.set_user_index(i);
+ inputParticles.push_back(jInp);
}
return 0;
-}
+ }
*/
+
+
+bool AliAnalysisTaskJetCluster::IsBMeson(int pc){
+ int bPdG[] = {511,521,10511,10521,513,523,10513,10523,20513,20523,20513,20523,515,525,531,
+ 10531,533,10533,20533,535,541,10541,543,10543,20543,545,551,10551,100551,
+ 110551,200551,210551,553,10553,20553,30553,100553,110553,120553,130553,200553,210553,220553,
+ 300553,9000533,9010553,555,10555,20555,100555,110555,120555,200555,557,100557};
+ for(int i=0;i< (int)(sizeof(bPdG)/sizeof(int));++i) if(abs(pc) == bPdG[i]) return true;
+return false;
+}
+bool AliAnalysisTaskJetCluster::IsDMeson(int pc){
+ int bPdG[] = {411,421,10411,10421,413,423,10413,10423,20431,20423,415,
+ 425,431,10431,433,10433,20433,435,441,10441,100441,443,10443,20443,
+ 100443,30443,9000443,9010443,9020443,445,100445};
+ for(int i=0;i< (int)(sizeof(bPdG)/sizeof(int));++i) if(abs(pc) == bPdG[i]) return true;
+return false;
+}
+