fNonStdFile(""),
fReplaceString1("B0"),
fReplaceString2("B%d"),
- fSubtraction(kRhoRecalc),
+ fSubtraction(k4Area),
fInJetArrayList(0x0),
fOutJetArrayList(0x0),
+ fh2CentvsRho(0x0),
+ fh2CentvsSigma(0x0),
+ fh2MultvsRho(0x0),
+ fh2MultvsSigma(0x0),
+ fh2ShiftEta(0x0),
+ fh2ShiftPhi(0x0),
+ fh2ShiftEtaLeading(0x0),
+ fh2ShiftPhiLeading(0x0),
fHistList(0x0)
{
fNonStdFile(""),
fReplaceString1("B0"),
fReplaceString2("B%d"),
- fSubtraction(kRhoRecalc),
+ fSubtraction(k4Area),
fInJetArrayList(0x0),
fOutJetArrayList(0x0),
+ fh2CentvsRho(0x0),
+ fh2CentvsSigma(0x0),
+ fh2MultvsRho(0x0),
+ fh2MultvsSigma(0x0),
+ fh2ShiftEta(0x0),
+ fh2ShiftPhi(0x0),
+ fh2ShiftEtaLeading(0x0),
+ fh2ShiftPhiLeading(0x0),
fHistList(0x0)
{
DefineOutput(1, TList::Class());
TString newName(ostr->GetString().Data());
newName.ReplaceAll(fReplaceString1.Data(),Form(fReplaceString2.Data(),fSubtraction));
TClonesArray* jarrayOut = 0;
+ if(newName.CompareTo(ostr->GetString())==0){
+ Printf("%s:%d Input and output branch would have the same name, skipping %s ",(char*)__FILE__,__LINE__,ostr->GetString().Data());
+ continue;
+ }
+
if(!jarrayOut&&fAODOut){
jarrayOut = (TClonesArray*)(fAODOut->FindListObject(newName.Data()));
}
// Connect the AOD
if (fDebug > 1) printf("AnalysisTaskJetBackgroundSubtract::UserCreateOutputObjects() \n");
+
+
+
if(fNonStdFile.Length()!=0){
// case that we have an AOD extension we need to fetch the jets from the extended output
// we identifay the extension aod event by looking for the branchname
AliAODHandler *aodH = dynamic_cast<AliAODHandler*>(AliAnalysisManager::GetAnalysisManager()->GetOutputEventHandler());
- fAODExtension = aodH->GetExtension(fNonStdFile.Data());
+
+ fAODExtension = (aodH?aodH->GetExtension(fNonStdFile.Data()):0);
if(!fAODExtension){
if(fDebug>1)Printf("AODExtension found for %s",fNonStdFile.Data());
continue;
}
+
// add a new branch to the output for the background subtracted jets take the names from
// the input jets and replace the background flag names
TClonesArray *tca = new TClonesArray("AliAODJet", 0);
newName.ReplaceAll(fReplaceString1.Data(),Form(fReplaceString2.Data(),fSubtraction));
+ if(newName.CompareTo(ostr->GetString())==0){
+ Printf("%s:%d Input and output branch would have the same name, skipping: %s ",(char*)__FILE__,__LINE__,ostr->GetString().Data());
+ continue;
+ }
+
if(fDebug){
Printf("%s:%d created branch \n %s from \n %s",(char*)__FILE__,__LINE__,newName.Data(),
ostr->GetString().Data());
if(!fHistList)fHistList = new TList();
fHistList->SetOwner();
+ PostData(1, fHistList); // post data in any case once
+ //
+
+ // delta pT vs. area vs. cent vs. mult
+ const Int_t nSparseBinsDelta = 4;
+ const Int_t nBinsDelta[nSparseBinsDelta] = { 241, 10, 10, 25};
+ const Double_t xminDelta[nSparseBinsDelta] = {-120.5, 0, 0, 0};
+ const Double_t xmaxDelta[nSparseBinsDelta] = { 120.5, 1.0, 100,5000};
+
for(int iJB = 0;iJB<fJBArray->GetEntries();iJB++){
TObjString *ostr = (TObjString*)fJBArray->At(iJB);
TString oldName(ostr->GetString().Data());
continue;
}
newName.ReplaceAll(fReplaceString1.Data(),Form(fReplaceString2.Data(),fSubtraction));
- TH2F *hTmp = new TH2F(Form("h2PtInPtOut_%d",iJB),Form(";%s p_{T}; %s p_{T}",oldName.Data(),newName.Data()),200,0,200.,200,0.,200.);
+
+ TH2F *hTmp = new TH2F(Form("h2PtInPtOut_%d",iJB),Form(";%s p_{T}; %s p_{T}",oldName.Data(),newName.Data()),200,0,200.,400,-200.,200.);
fHistList->Add(hTmp);
+ THnSparseF *hFTmp = new THnSparseF(Form("hnDPtAreaCentMult_%d",iJB),Form("%s delta;#delta p_{T};Area;cent;mult",newName.Data()),nSparseBinsDelta,nBinsDelta,xminDelta,xmaxDelta);
+ fHistList->Add(hFTmp);
}
Bool_t oldStatus = TH1::AddDirectoryStatus();
// Histogram booking, add som control histograms here
//
+
+ fh2CentvsRho = new TH2F("fh2CentvsRho","centrality vs background density", 100,0.,100.,600,0.,300.);
+ fh2CentvsSigma = new TH2F("fh2CentvsSigma","centrality vs backgroun sigma",100,0.,100.,500,0.,50.);
+ fHistList->Add(fh2CentvsRho);
+ fHistList->Add(fh2CentvsSigma);
+
+ fh2MultvsRho = new TH2F("fh2MultvsRho","mult vs background density", 100,0.,5000.,600,0.,300.);
+ fh2MultvsSigma = new TH2F("fh2MultvsSigma","mult vs background sigma",100,0.,5000.,500,0.,50.);
+ fHistList->Add(fh2MultvsRho);
+ fHistList->Add(fh2MultvsSigma);
+
+ if(fSubtraction==k4Area){
+ fh2ShiftEta = new TH2F("fh2ShiftEta","extended correction Eta",100,-0.9,0.9,100,-0.9,0.9);
+ fh2ShiftPhi = new TH2F("fh2ShiftPhi","extended correction Phi",100,0.,6.5,100,0.,6.5);
+ fh2ShiftEtaLeading = new TH2F("fh2ShiftEtaLeading","extended correction Eta",100,-0.9,0.9,100,-0.9,0.9);
+ fh2ShiftPhiLeading = new TH2F("fh2ShiftPhiLeading","extended correction Phi",100,0.,6.5,100,0.,6.5);
+ fHistList->Add(fh2ShiftEta);
+ fHistList->Add(fh2ShiftPhi);
+ fHistList->Add(fh2ShiftEtaLeading);
+ fHistList->Add(fh2ShiftPhiLeading);
+ }
+
// =========== Switch on Sumw2 for all histos ===========
for (Int_t i=0; i<fHistList->GetEntries(); ++i) {
TH1 *h1 = dynamic_cast<TH1*>(fHistList->At(i));
if(fDebug&&evBkg)Printf("%s:%d Backgroundbranch %s found",(char*)__FILE__,__LINE__,fBackgroundBranch.Data());
}
- if(!evBkg){
+ if(!evBkg&&(fSubtraction==kArea||fSubtraction==kRhoRecalc||fSubtraction==k4Area)){
if(fDebug){
Printf("%s:%d Backgroundbranch %s not found",(char*)__FILE__,__LINE__,fBackgroundBranch.Data());
PrintAODContents();
return;
}
- if(!bkgClusters){
+ if(!bkgClusters&&(fSubtraction==kRhoRecalc)){
if(fDebug){
Printf("%s:%d Background cluster branch %s not found",(char*)__FILE__,__LINE__,bkgClusterName.Data());
PrintAODContents();
return;
}
- if(!bkgClustersRC){
+ if(!bkgClustersRC&&(fSubtraction==kRhoRC)){
if(fDebug){
Printf("%s:%d Background cluster RC branch %s not found",(char*)__FILE__,__LINE__,bkgClusterRCName.Data());
PrintAODContents();
// LOOP over all jet branches and subtract the background
Float_t rho = 0;
+ Float_t sigma=0.;
Double_t meanarea = 0;
- if(fSubtraction==kArea)rho = evBkg->GetBackground(2);
+ TLorentzVector backgroundv;
+ Float_t cent=0.;
+
+ if(fAODOut)cent = fAODOut->GetHeader()->GetCentrality();
+ if(fAODIn) cent = fAODIn->GetHeader()->GetCentrality();
+
+ if(evBkg)sigma=evBkg->GetSigma(1);
+
+ if(fSubtraction==kArea) rho = evBkg->GetBackground(1);
+ if(fSubtraction==k4Area){
+ rho = evBkg->GetBackground(0);
+ sigma=evBkg->GetSigma(0);
+ }
+
if(fSubtraction==kRhoRecalc){
- meanarea=evBkg->GetMeanarea(2);
+ meanarea=evBkg->GetMeanarea(1);
rho =RecalcRho(bkgClusters,meanarea);
}
- if(fSubtraction==kRhoRC)rho =RhoRC(bkgClustersRC);
+ if(fSubtraction==kRhoRC) rho=RhoRC(bkgClustersRC);
+
+ Float_t mult = 0;
+ for(int iJB = 0;iJB<fInJetArrayList->GetEntries();iJB++){
+ TClonesArray* jarray = (TClonesArray*)fInJetArrayList->At(iJB);
+ if(jarray){
+ TString tmp(jarray->GetName());
+ if(tmp.Contains("cluster")){
+ mult = MultFromJetRefs(jarray);
+ if(mult>0)break;
+ }
+ }
+ }
+
+ fh2CentvsRho->Fill(cent,rho);
+ fh2CentvsSigma->Fill(cent,sigma);
+
+ fh2MultvsRho->Fill(mult,rho);
+ fh2MultvsSigma->Fill(mult,sigma);
- for(int iJB = 0;iJB<fInJetArrayList->GetEntries();iJB++){
+ for(int iJB = 0;iJB<fInJetArrayList->GetEntries();iJB++){
TClonesArray* jarray = (TClonesArray*)fInJetArrayList->At(iJB);
TClonesArray* jarrayOut = (TClonesArray*)fOutJetArrayList->At(iJB);
if(!jarray||!jarrayOut){
- Printf("%s:%d Array not found %d: %p %p",(char*)__FILE__,__LINE__,iJB,jarray->GetName(),jarrayOut->GetName());
- continue;
- }
+ Printf("%s:%d Array not found %d: %p %p",(char*)__FILE__,__LINE__,iJB,jarray,jarrayOut);
+ continue;
+ }
TH2F* h2PtInOut = (TH2F*)fHistList->FindObject(Form("h2PtInPtOut_%d",iJB));
+ THnSparseF* hnDPtAreaCentMult = (THnSparseF*)fHistList->FindObject(Form("hnDPtAreaCentMult_%d",iJB));
// loop over all jets
Int_t nOut = 0;
+ Double_t deltaPt[4];
+ deltaPt[2] = cent;
+ deltaPt[3] = mult;
for(int i = 0;i < jarray->GetEntriesFast();i++){
AliAODJet *jet = (AliAODJet*)jarray->At(i);
AliAODJet tmpNewJet(*jet);
Bool_t bAdd = false;
+ Float_t ptSub = 0;
if(fSubtraction==kArea){
Double_t background = rho * jet->EffectiveAreaCharged();
- Float_t ptSub = jet->Pt() - background;
+ ptSub = jet->Pt() - background;
if(fDebug>2){
Printf("%s:%d Jet %d %3.3f %3.3f",(char*)__FILE__,__LINE__,i,jet->Pt(),ptSub);
}
if(ptSub<0){
// optionally rescale it and keep??
- bAdd = RescaleJetMomentum(&tmpNewJet,0.1);
- if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),0.1);
+ bAdd = false; // RescaleJetMomentum(&tmpNewJet,0.1);
}
else{
bAdd = RescaleJetMomentum(&tmpNewJet,ptSub);
- if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),ptSub);
}
// add background estimates to the new jet object
// allows to recover old p_T and rho...
}// kAREA
else if(fSubtraction==kRhoRecalc){
Double_t background = rho * jet->EffectiveAreaCharged();
- Float_t ptSub = jet->Pt() - background;
+ ptSub = jet->Pt() - background;
if(fDebug>2){
Printf("%s:%d Jet %d %3.3f %3.3f %3.3f %3.3f",(char*)__FILE__,__LINE__,i,jet->Pt(),ptSub,background,rho);}
if(ptSub<0){
// optionally rescale it and keep??
- bAdd = RescaleJetMomentum(&tmpNewJet,0.1);
- if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),0.1);
+ bAdd = false;// RescaleJetMomentum(&tmpNewJet,0.1);
}
else{
bAdd = RescaleJetMomentum(&tmpNewJet,ptSub);
- if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),ptSub);
}
// add background estimates to the new jet object
// allows to recover old p_T and rho...
tmpNewJet.SetBgEnergy(background,0);
-
}//kRhoRecalc
else if(fSubtraction==kRhoRC){
Double_t background = rho * jet->EffectiveAreaCharged();
- Float_t ptSub = jet->Pt() - background;
+ ptSub = jet->Pt() - background;
if(fDebug>2){ Printf("%s:%d Jet %d %3.3f %3.3f %3.3f %3.3f",(char*)__FILE__,__LINE__,i,jet->Pt(),ptSub,background,rho);}
if(ptSub<0){
// optionally rescale it and keep??
- bAdd = RescaleJetMomentum(&tmpNewJet,0.1);
- if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),0.1);
+ bAdd = false; // RescaleJetMomentum(&tmpNewJet,0.1);
}
else{
bAdd = RescaleJetMomentum(&tmpNewJet,ptSub);
- if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),ptSub);
}
// add background estimates to the new jet object
// allows to recover old p_T and rho...
}//kRhoRC
- if(bAdd){
- AliAODJet *newJet = new ((*jarrayOut)[nOut++]) AliAODJet(tmpNewJet);
- // what about track references, clear for now...
- newJet->GetRefTracks()->Clear();
- }
-
-
-
-
-
+ else if(fSubtraction==k4Area&&jet->VectorAreaCharged()){
+ backgroundv.SetPxPyPzE(rho*(jet->VectorAreaCharged())->Px(),rho*(jet->VectorAreaCharged())->Py(),rho*(jet->VectorAreaCharged())->Pz(),rho*(jet->VectorAreaCharged())->E());
+ ptSub = jet->Pt()-backgroundv.Pt();
+ if((backgroundv.E()>jet->E())&&(backgroundv.Pt()>jet->Pt())){
+ // optionally rescale it and keep??
+ bAdd = false; // RescaleJetMomentum(&tmpNewJet,0.1);
+ }
+ else{
+ bAdd = RescaleJet4vector(&tmpNewJet,backgroundv);
+ }
+ // add background estimates to the new jet object
+ // allows to recover old p_T and rho...
+ tmpNewJet.SetBgEnergy(backgroundv.P(),0);
+
+ }//kArea4vector
- }
- // subtract the background
-
- // remove jets??
- // sort jets...
+ if(bAdd){
+ AliAODJet *newJet = new ((*jarrayOut)[nOut++]) AliAODJet(tmpNewJet);
+ // what about track references, clear for now...
+ if(fSubtraction==k4Area){
+ fh2ShiftEta->Fill(jet->Eta(),newJet->Eta());
+ fh2ShiftPhi->Fill(jet->Phi(),newJet->Phi());
+ if(i==0){fh2ShiftEtaLeading->Fill(jet->Eta(),newJet->Eta());
+ fh2ShiftPhiLeading->Fill(jet->Phi(),newJet->Phi());}}
- }
- PostData(1, fHistList);
+ // set the references
+ newJet->GetRefTracks()->Clear();
+ TRefArray *refs = jet->GetRefTracks();
+ for(Int_t ir=0;ir<refs->GetEntriesFast();ir++){
+ AliVParticle *vp = dynamic_cast<AliVParticle*>(refs->At(ir));
+ if(vp)newJet->AddTrack(vp);
+ }
+ }
+ if(h2PtInOut)h2PtInOut->Fill(jet->Pt(),ptSub);
+ if(hnDPtAreaCentMult){
+ deltaPt[0] = ptSub;
+ deltaPt[1] = jet->EffectiveAreaCharged();
+ hnDPtAreaCentMult->Fill(deltaPt);
+ }
+ }
+ if(jarrayOut)jarrayOut->Sort();
+ }
+
+ PostData(1, fHistList);
}
void AliAnalysisTaskJetBackgroundSubtract::Terminate(Option_t */*option*/)
Double_t mass = jet->M();
Double_t pNew = jet->P() * scale;
jet->SetPxPyPzE(scale*jet->Px(),scale*jet->Py(),scale*jet->Pz(),TMath::Sqrt(mass*mass+pNew*pNew));
+
+
+
return kTRUE;
}
+Bool_t AliAnalysisTaskJetBackgroundSubtract::RescaleJet4vector(AliAODJet *jet,TLorentzVector backgroundv){
+
+ if(backgroundv.Pt()<0.) return kFALSE;
+ jet->SetPxPyPzE(jet->Px()-backgroundv.Px(),jet->Py()-backgroundv.Py(),jet->Pz()-backgroundv.Pz(),jet->E()-backgroundv.E());
+
+ return kTRUE;
+}
+
+
+
+
+
+
+
+
Double_t AliAnalysisTaskJetBackgroundSubtract::RecalcRho(TClonesArray* bkgClusters,Double_t meanarea){
- Double_t ptarea=0.;
- Int_t count=0;
- Double_t rho=0.;
- const Double_t Rlimit2=0.8*0.8; //2*jet radius.
- TClonesArray* jarray=0;
-
- for(int iJB = 0;iJB<fInJetArrayList->GetEntries();iJB++){
- TObjString *ostr = (TObjString*)fInJetArrayList->At(iJB);
- TString jetref=ostr->GetString().Data();
- if(jetref.Contains("ANTIKT04")){
- jarray = (TClonesArray*)fInJetArrayList->At(iJB);}}
- if(jarray->GetEntries()>=2){
- AliAODJet *first = (AliAODJet*)(jarray->At(0));
- AliAODJet *second= (AliAODJet*)(jarray->At(1));
- for(Int_t k=0;k<bkgClusters->GetEntriesFast();k++){
- AliAODJet *clus = (AliAODJet*)(bkgClusters->At(k));
- if(TMath::Abs(clus->Eta())>0.5) continue;
- if((clus->EffectiveAreaCharged())<0.1*meanarea) continue;
- Double_t distance1=(first->Eta()-clus->Eta())*(first->Eta()-clus->Eta())+
- (first->Phi()-clus->Phi())*(first->Phi()-clus->Phi());
- Double_t distance2= (second->Eta()-clus->Eta())*(second->Eta()-clus->Eta())+
- (second->Phi()-clus->Phi())*(second->Phi()-clus->Phi());
- if((distance1<Rlimit2)||(distance2<Rlimit2)) continue;
- ptarea=ptarea+clus->Pt()/clus->EffectiveAreaCharged();
- count=count+1;}
- if(count!=0) rho=ptarea/count;
- }
- return rho;
+ Double_t ptarea=0.;
+ Int_t count=0;
+ Double_t rho=0.;
+ const Double_t Rlimit2=0.8*0.8; //2*jet radius.
+ TClonesArray* jarray=0;
+
+ for(int iJB = 0;iJB<fInJetArrayList->GetEntries();iJB++){
+ TObjString *ostr = (TObjString*)fInJetArrayList->At(iJB);
+ TString jetref=ostr->GetString().Data();
+ if(jetref.Contains("ANTIKT04")){
+ jarray = (TClonesArray*)fInJetArrayList->At(iJB);
+ }
+ }
+ if(!jarray)return rho;
+ if(jarray->GetEntries()>=2){
+ AliAODJet *first = (AliAODJet*)(jarray->At(0));
+ AliAODJet *second= (AliAODJet*)(jarray->At(1));
+ for(Int_t k=0;k<bkgClusters->GetEntriesFast();k++){
+ AliAODJet *clus = (AliAODJet*)(bkgClusters->At(k));
+ if(TMath::Abs(clus->Eta())>0.5) continue;
+ if((clus->EffectiveAreaCharged())<0.1*meanarea) continue;
+ Double_t distance1=(first->Eta()-clus->Eta())*(first->Eta()-clus->Eta())+
+ (first->Phi()-clus->Phi())*(first->Phi()-clus->Phi());
+ Double_t distance2= (second->Eta()-clus->Eta())*(second->Eta()-clus->Eta())+
+ (second->Phi()-clus->Phi())*(second->Phi()-clus->Phi());
+ if((distance1<Rlimit2)||(distance2<Rlimit2)) continue;
+ ptarea=ptarea+clus->Pt()/clus->EffectiveAreaCharged();
+ count=count+1;}
+ if(count!=0) rho=ptarea/count;
+ }
+ return rho;
}
Double_t AliAnalysisTaskJetBackgroundSubtract::RhoRC(TClonesArray* bkgClustersRC){
const Double_t Rlimit2=0.8*0.8; //2*jet radius.
TClonesArray* jarray=0;
for(int iJB = 0;iJB<fInJetArrayList->GetEntries();iJB++){
- TObjString *ostr = (TObjString*)fInJetArrayList->At(iJB);
- TString jetref=ostr->GetString().Data();
- if(jetref.Contains("ANTIKT04")){
- jarray = (TClonesArray*)fInJetArrayList->At(iJB);}}
+ TObjString *ostr = (TObjString*)fInJetArrayList->At(iJB);
+ TString jetref=ostr->GetString().Data();
+ if(jetref.Contains("ANTIKT04")){
+ jarray = (TClonesArray*)fInJetArrayList->At(iJB);
+ }
+ }
+ if(!jarray)return rho;
+
if(jarray->GetEntries()>=2){
AliAODJet *first = (AliAODJet*)(jarray->At(0));
AliAODJet *second=(AliAODJet*)(jarray->At(1));
fAODOut->Print();
}
}
+
+Int_t AliAnalysisTaskJetBackgroundSubtract::MultFromJetRefs(TClonesArray* jets){
+ if(!jets)return 0;
+
+ Int_t refMult = 0;
+ for(int ij = 0;ij < jets->GetEntries();++ij){
+ AliAODJet* jet = (AliAODJet*)jets->At(ij);
+ if(!jet)continue;
+ TRefArray *refs = jet->GetRefTracks();
+ if(!refs)continue;
+ refMult += refs->GetEntries();
+ }
+ return refMult;
+
+}