/************************************************************************** * Copyright(c) 2007-2009, ALICE Experiment at CERN, All rights reserved. * * * * Author: The ALICE Off-line Project. * * Contributors are mentioned in the code where appropriate. * * * * Permission to use, copy, modify and distribute this software and its * * documentation strictly for non-commercial purposes is hereby granted * * without fee, provided that the above copyright notice appears in all * * copies and that both the copyright notice and this permission notice * * appear in the supporting documentation. The authors make no claims * * about the suitability of this software for any purpose. It is * * provided "as is" without express or implied warranty. * **************************************************************************/ /* $Id: AliITSCorrMapSDD.cxx 32906 2009-06-12 16:56:53Z prino $ */ /////////////////////////////////////////////////////////////////// // // // Analysis task to produce Ds candidates mass spectra // // Origin: F.Prino, Torino, prino@to.infn.it // // // /////////////////////////////////////////////////////////////////// #include #include #include #include #include #include #include #include "AliAnalysisManager.h" #include "AliAODHandler.h" #include "AliAODEvent.h" #include "AliAODVertex.h" #include "AliAODTrack.h" #include "AliAODMCHeader.h" #include "AliAODMCParticle.h" #include "AliAODRecoDecayHF3Prong.h" #include "AliAnalysisVertexingHF.h" #include "AliRDHFCutsDstoKKpi.h" #include "AliAnalysisTaskSE.h" #include "AliAnalysisTaskSEDs.h" ClassImp(AliAnalysisTaskSEDs) //________________________________________________________________________ AliAnalysisTaskSEDs::AliAnalysisTaskSEDs(): AliAnalysisTaskSE(), fOutput(0), fHistNEvents(0), fReadMC(kFALSE), fNPtBins(0), fListCuts(0), fMassRange(0.2), fProdCuts(0), fAnalysisCuts(0) { // Default constructor } //________________________________________________________________________ AliAnalysisTaskSEDs::AliAnalysisTaskSEDs(const char *name, AliRDHFCutsDstoKKpi* productioncuts, AliRDHFCutsDstoKKpi* analysiscuts): AliAnalysisTaskSE(name), fOutput(0), fHistNEvents(0), fReadMC(kFALSE), fNPtBins(0), fListCuts(0), fMassRange(0.2), fProdCuts(productioncuts), fAnalysisCuts(analysiscuts) { // Default constructor // Output slot #1 writes into a TList container Int_t nptbins=fAnalysisCuts->GetNPtBins(); Float_t *ptlim=fAnalysisCuts->GetPtBinLimits(); SetPtBins(nptbins,ptlim); DefineOutput(1,TList::Class()); //My private output DefineOutput(2,TList::Class()); } //________________________________________________________________________ void AliAnalysisTaskSEDs::SetPtBins(Int_t n, Float_t* lim){ // define pt bins for analysis if(n>kMaxPtBins){ printf("Max. number of Pt bins = %d\n",kMaxPtBins); fNPtBins=kMaxPtBins; fPtLimits[0]=0.; fPtLimits[1]=1.; fPtLimits[2]=3.; fPtLimits[3]=5.; fPtLimits[4]=10.; for(Int_t i=5; i 1){ printf("Number of Pt bins = %d\n",fNPtBins); for(Int_t i=0; i 1) printf("AnalysisTaskSEDs::Init() \n"); fListCuts=new TList(); AliRDHFCutsDstoKKpi *production = new AliRDHFCutsDstoKKpi(); production=fProdCuts; AliRDHFCutsDstoKKpi *analysis = new AliRDHFCutsDstoKKpi(); analysis=fAnalysisCuts; fListCuts->Add(production); fListCuts->Add(analysis); PostData(2,fListCuts); return; } //________________________________________________________________________ void AliAnalysisTaskSEDs::UserCreateOutputObjects() { // Create the output container // if(fDebug > 1) printf("AnalysisTaskSEDs::UserCreateOutputObjects() \n"); // Several histograms are more conveniently managed in a TList fOutput = new TList(); fOutput->SetOwner(); fOutput->SetName("OutputHistos"); Double_t massDs=TDatabasePDG::Instance()->GetParticle(431)->Mass(); Double_t minMass=massDs-0.5*fMassRange; Double_t maxMass=massDs+0.5*fMassRange; TString hisname; Int_t index; for(Int_t i=0;iSumw2(); hisname.Form("hMassAllPt%dCuts",i); fMassHistCuts[index]=new TH1F(hisname.Data(),hisname.Data(),100,minMass,maxMass); fMassHistCuts[index]->Sumw2(); hisname.Form("hCosPAllPt%d",i); fCosPHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,0.5,1.); fCosPHist[index]->Sumw2(); hisname.Form("hDLenAllPt%d",i); fDLenHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,0.,0.5); fDLenHist[index]->Sumw2(); hisname.Form("hDalitzAllPt%d",i); fDalitz[index]=new TH2F(hisname.Data(),hisname.Data(),100,0.,2.,100,0.,2.); fDalitz[index]->Sumw2(); index=GetSignalHistoIndex(i); hisname.Form("hMassSigPt%d",i); fMassHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,minMass,maxMass); fMassHist[index]->Sumw2(); hisname.Form("hMassSigPt%dCuts",i); fMassHistCuts[index]=new TH1F(hisname.Data(),hisname.Data(),100,minMass,maxMass); fMassHistCuts[index]->Sumw2(); hisname.Form("hCosPSigPt%d",i); fCosPHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,0.5,1.); fCosPHist[index]->Sumw2(); hisname.Form("hDLenSigPt%d",i); fDLenHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,0.,0.5); fDLenHist[index]->Sumw2(); hisname.Form("hDalitzSigPt%d",i); fDalitz[index]=new TH2F(hisname.Data(),hisname.Data(),100,0.,2.,100,0.,2.); fDalitz[index]->Sumw2(); hisname.Form("hMassBkgPt%d",i); index=GetBackgroundHistoIndex(i); fMassHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,minMass,maxMass); fMassHist[index]->Sumw2(); hisname.Form("hMassBkgPt%dCuts",i); fMassHistCuts[index]=new TH1F(hisname.Data(),hisname.Data(),100,minMass,maxMass); fMassHistCuts[index]->Sumw2(); hisname.Form("hCosPBkgPt%d",i); fCosPHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,0.5,1.); fCosPHist[index]->Sumw2(); hisname.Form("hDLenBkgPt%d",i); fDLenHist[index]=new TH1F(hisname.Data(),hisname.Data(),100,0.,0.5); fDLenHist[index]->Sumw2(); hisname.Form("hDalitzBkgPt%d",i); fDalitz[index]=new TH2F(hisname.Data(),hisname.Data(),100,0.,2.,100,0.,2.); fDalitz[index]->Sumw2(); } for(Int_t i=0; i<3*fNPtBins; i++){ fOutput->Add(fMassHist[i]); fOutput->Add(fMassHistCuts[i]); fOutput->Add(fCosPHist[i]); fOutput->Add(fDLenHist[i]); fOutput->Add(fDalitz[i]); } fChanHist[0] = new TH1F("hChanAll", "KKpi and piKK candidates",4,-0.5,3.5); fChanHist[1] = new TH1F("hChanSig", "KKpi and piKK candidates",4,-0.5,3.5); fChanHist[2] = new TH1F("hChanBkg", "KKpi and piKK candidates",4,-0.5,3.5); fChanHistCuts[0] = new TH1F("hChanAllCuts", "KKpi and piKK candidates",4,-0.5,3.5); fChanHistCuts[1] = new TH1F("hChanSigCuts", "KKpi and piKK candidates",4,-0.5,3.5); fChanHistCuts[2] = new TH1F("hChanBkgCuts", "KKpi and piKK candidates",4,-0.5,3.5); for(Int_t i=0;i<3;i++){ fChanHist[i]->Sumw2(); fChanHist[i]->SetMinimum(0); fChanHistCuts[i]->Sumw2(); fChanHistCuts[i]->SetMinimum(0); fOutput->Add(fChanHist[i]); fOutput->Add(fChanHistCuts[i]); } fHistNEvents = new TH1F("hNEvents", "Number of processed events",3,-1.5,1.5); fHistNEvents->Sumw2(); fHistNEvents->SetMinimum(0); fOutput->Add(fHistNEvents); return; } //________________________________________________________________________ void AliAnalysisTaskSEDs::UserExec(Option_t */*option*/) { // Ds selection for current event, fill mass histos and selecetion variable histo // separate signal and backgound if fReadMC is activated AliAODEvent *aod = dynamic_cast (InputEvent()); fHistNEvents->Fill(0); // count event // Post the data already here PostData(1,fOutput); TClonesArray *array3Prong = 0; if(!aod && AODEvent() && IsStandardAOD()) { // In case there is an AOD handler writing a standard AOD, use the AOD // event in memory rather than the input (ESD) event. aod = dynamic_cast (AODEvent()); // in this case the braches in the deltaAOD (AliAOD.VertexingHF.root) // have to taken from the AOD event hold by the AliAODExtension AliAODHandler* aodHandler = (AliAODHandler*) ((AliAnalysisManager::GetAnalysisManager())->GetOutputEventHandler()); if(aodHandler->GetExtensions()) { AliAODExtension *ext = (AliAODExtension*)aodHandler->GetExtensions()->FindObject("AliAOD.VertexingHF.root"); AliAODEvent *aodFromExt = ext->GetAOD(); array3Prong=(TClonesArray*)aodFromExt->GetList()->FindObject("Charm3Prong"); } } else { array3Prong=(TClonesArray*)aod->GetList()->FindObject("Charm3Prong"); } if(!array3Prong) { printf("AliAnalysisTaskSEDs::UserExec: Charm3Prong branch not found!\n"); return; } TClonesArray *arrayMC=0; AliAODMCHeader *mcHeader=0; // AOD primary vertex AliAODVertex *vtx1 = (AliAODVertex*)aod->GetPrimaryVertex(); // vtx1->Print(); // load MC particles if(fReadMC){ arrayMC = (TClonesArray*)aod->GetList()->FindObject(AliAODMCParticle::StdBranchName()); if(!arrayMC) { printf("AliAnalysisTaskSEDs::UserExec: MC particles branch not found!\n"); return; } // load MC header mcHeader = (AliAODMCHeader*)aod->GetList()->FindObject(AliAODMCHeader::StdBranchName()); if(!mcHeader) { printf("AliAnalysisTaskSEDs::UserExec: MC header branch not found!\n"); return; } } Int_t n3Prong = array3Prong->GetEntriesFast(); if(fDebug>1) printf("Number of Ds->KKpi: %d\n",n3Prong); Int_t pdgDstoKKpi[3]={321,321,211}; for (Int_t i3Prong = 0; i3Prong < n3Prong; i3Prong++) { AliAODRecoDecayHF3Prong *d = (AliAODRecoDecayHF3Prong*)array3Prong->UncheckedAt(i3Prong); Bool_t unsetvtx=kFALSE; if(!d->GetOwnPrimaryVtx()){ d->SetOwnPrimaryVtx(vtx1); unsetvtx=kTRUE; } Int_t retCodeProductionCuts=fProdCuts->IsSelected(d,AliRDHFCuts::kCandidate); if(retCodeProductionCuts>0){ Int_t isKKpi=retCodeProductionCuts&1; Int_t ispiKK=retCodeProductionCuts&2; // Int_t isPhi=retCodeProductionCuts&4; // Int_t isK0star=retCodeProductionCuts&8; Double_t ptCand = d->Pt(); Int_t iPtBin=TMath::BinarySearch(fNPtBins,fPtLimits,(Float_t)ptCand); Int_t retCodeAnalysisCuts=fAnalysisCuts->IsSelected(d,AliRDHFCuts::kCandidate); Int_t isKKpiAC=retCodeAnalysisCuts&1; Int_t ispiKKAC=retCodeAnalysisCuts&2; // Int_t isPhiAC=retCodeAnalysisCuts&4; // Int_t isK0starAC=retCodeAnalysisCuts&8; Int_t labDs=-1; if(fReadMC){ labDs = d->MatchToMC(431,arrayMC,3,pdgDstoKKpi); } Double_t dlen=d->DecayLength(); Double_t cosp=d->CosPointingAngle(); Int_t index=GetHistoIndex(iPtBin); Int_t type=0; if(isKKpi) type+=1; if(ispiKK) type+=2; Int_t typeAC=0; if(isKKpiAC) typeAC+=1; if(ispiKKAC) typeAC+=2; fCosPHist[index]->Fill(cosp); fDLenHist[index]->Fill(dlen); fChanHist[0]->Fill(type); if(retCodeAnalysisCuts>0) fChanHistCuts[0]->Fill(typeAC); if(fReadMC){ if(labDs>=0) { index=GetSignalHistoIndex(iPtBin); fCosPHist[index]->Fill(cosp); fDLenHist[index]->Fill(dlen); fChanHist[1]->Fill(type); if(retCodeAnalysisCuts>0) fChanHistCuts[1]->Fill(typeAC); }else{ index=GetBackgroundHistoIndex(iPtBin); fCosPHist[index]->Fill(cosp); fDLenHist[index]->Fill(dlen); fChanHist[2]->Fill(type); if(retCodeAnalysisCuts>0) fChanHistCuts[2]->Fill(typeAC); } } if(isKKpi){ index=GetHistoIndex(iPtBin); Double_t invMass=d->InvMassDsKKpi(); fMassHist[index]->Fill(invMass); Double_t mass01=d->InvMass2Prongs(0,1,321,321); Double_t mass12=d->InvMass2Prongs(1,2,321,211); fDalitz[index]->Fill(mass01,mass12); if(retCodeAnalysisCuts>0 && isKKpiAC) fMassHistCuts[index]->Fill(invMass); if(fReadMC){ if(labDs>=0) { index=GetSignalHistoIndex(iPtBin); fMassHist[index]->Fill(invMass); fDalitz[index]->Fill(mass01,mass12); if(retCodeAnalysisCuts>0 && isKKpiAC) fMassHistCuts[index]->Fill(invMass); }else{ index=GetBackgroundHistoIndex(iPtBin); fMassHist[index]->Fill(invMass); fDalitz[index]->Fill(mass01,mass12); if(retCodeAnalysisCuts>0 && isKKpiAC) fMassHistCuts[index]->Fill(invMass); } } } if(ispiKK){ index=GetHistoIndex(iPtBin); Double_t invMass=d->InvMassDspiKK(); fMassHist[index]->Fill(invMass); if(retCodeAnalysisCuts>0 && ispiKKAC) fMassHistCuts[index]->Fill(invMass); if(fReadMC){ if(labDs>=0) { index=GetSignalHistoIndex(iPtBin); fMassHist[index]->Fill(invMass); if(retCodeAnalysisCuts>0 && ispiKKAC) fMassHistCuts[index]->Fill(invMass); }else{ index=GetBackgroundHistoIndex(iPtBin); fMassHist[index]->Fill(invMass); if(retCodeAnalysisCuts>0 && ispiKKAC) fMassHistCuts[index]->Fill(invMass); } } } } if(unsetvtx) d->UnsetOwnPrimaryVtx(); } PostData(1,fOutput); return; } //_________________________________________________________________ void AliAnalysisTaskSEDs::Terminate(Option_t */*option*/) { // Terminate analysis // if(fDebug > 1) printf("AnalysisTaskSEDs: Terminate() \n"); fOutput = dynamic_cast (GetOutputData(1)); if (!fOutput) { printf("ERROR: fOutput not available\n"); return; } fHistNEvents = dynamic_cast(fOutput->FindObject("hNEvents")); fChanHist[0] = dynamic_cast(fOutput->FindObject("hChanAll")); fChanHist[1] = dynamic_cast(fOutput->FindObject("hChanSig")); fChanHist[2] = dynamic_cast(fOutput->FindObject("hChanBkg")); fChanHistCuts[0] = dynamic_cast(fOutput->FindObject("hChanAllCuts")); fChanHistCuts[1] = dynamic_cast(fOutput->FindObject("hChanSigCuts")); fChanHistCuts[2] = dynamic_cast(fOutput->FindObject("hChanBkgCuts")); TString hisname; Int_t index; for(Int_t i=0;i(fOutput->FindObject(hisname.Data())); hisname.Form("hMassAllPt%dCuts",i); fMassHistCuts[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hCosPAllPt%d",i); fCosPHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hDLenAllPt%d",i); fDLenHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hDalitzAllPt%d",i); fDalitz[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); index=GetSignalHistoIndex(i); hisname.Form("hMassSigPt%d",i); fMassHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hMassSigPt%dCuts",i); fMassHistCuts[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hCosPSigPt%d",i); fCosPHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hDLenSigPt%d",i); fDLenHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hDalitzSigPt%d",i); fDalitz[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); index=GetBackgroundHistoIndex(i); hisname.Form("hMassBkgPt%d",i); fMassHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hMassBkgPt%dCuts",i); fMassHistCuts[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hCosPBkgPt%d",i); fCosPHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hDLenBkgPt%d",i); fDLenHist[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); hisname.Form("hDalitzBkgPt%d",i); fDalitz[index]=dynamic_cast(fOutput->FindObject(hisname.Data())); } return; }