* provided "as is" without express or implied warranty. *
**************************************************************************/
-/////////////////////////////////////////////////////////////
-//
-// AliAnalysisTaskSE for the extraction of signal(e.g D+) of heavy flavor
-// decay candidates with the MC truth.
-// Author: Renu Bala, bala@to.infn.it
+//*************************************************************************
+// Class AliAnalysisTaskSEDplus
+// AliAnalysisTaskSE for the D+ candidates Invariant Mass Histogram and
+//comparison of heavy-flavour decay candidates
+// to MC truth (kinematics stored in the AOD)
+// Authors: Renu Bala, bala@to.infn.it
+// F. Prino, prino@to.infn.it
+// G. Ortona, ortona@to.infn.it
/////////////////////////////////////////////////////////////
#include <TClonesArray.h>
#include <TNtuple.h>
+#include <TCanvas.h>
#include <TList.h>
#include <TString.h>
#include <TH1F.h>
+#include <TDatabasePDG.h>
+
+#include "AliAnalysisManager.h"
+#include "AliRDHFCutsDplustoKpipi.h"
+#include "AliAODHandler.h"
#include "AliAODEvent.h"
#include "AliAODVertex.h"
#include "AliAODTrack.h"
AliAnalysisTaskSEDplus::AliAnalysisTaskSEDplus():
AliAnalysisTaskSE(),
fOutput(0),
+fHistNEvents(0),
fNtupleDplus(0),
-fNtupleDplusbackg(0),
+fUpmasslimit(1.965),
+fLowmasslimit(1.765),
+fNPtBins(0),
+fBinWidth(0.002),
+fListCuts(0),
+fRDCutsProduction(0),
+fRDCutsAnalysis(0),
fFillNtuple(kFALSE),
-fVHF(0)
+fReadMC(kFALSE),
+fDoLS(kFALSE)
{
- // Default constructor
+ // Default constructor
}
//________________________________________________________________________
-AliAnalysisTaskSEDplus::AliAnalysisTaskSEDplus(const char *name,Bool_t fillNtuple):
+AliAnalysisTaskSEDplus::AliAnalysisTaskSEDplus(const char *name,AliRDHFCutsDplustoKpipi *dpluscutsana,AliRDHFCutsDplustoKpipi *dpluscutsprod,Bool_t fillNtuple):
AliAnalysisTaskSE(name),
-fOutput(0),
+fOutput(0),
+fHistNEvents(0),
fNtupleDplus(0),
-fNtupleDplusbackg(0),
+fUpmasslimit(1.965),
+fLowmasslimit(1.765),
+fNPtBins(0),
+fBinWidth(0.002),
+fListCuts(0),
+fRDCutsProduction(dpluscutsprod),
+fRDCutsAnalysis(dpluscutsana),
fFillNtuple(fillNtuple),
-fVHF(0)
+fReadMC(kFALSE),
+fDoLS(kFALSE)
{
+ //
+ // Standrd constructor
+ //
+ //Double_t ptlim[5]={0.,2.,3.,5,9999999.};
+ //SetPtBinLimit(5, ptlim);
+ SetPtBinLimit(fRDCutsAnalysis->GetNPtBins()+1,fRDCutsAnalysis->GetPtBinLimits());
// Default constructor
-
- // Output slot #1 writes into a TList container
+ // Output slot #1 writes into a TList container
DefineOutput(1,TList::Class()); //My private output
-
+ // Output slot #2 writes cut to private output
+ // DefineOutput(2,AliRDHFCutsDplustoKpipi::Class());
+ DefineOutput(2,TList::Class());
if(fFillNtuple){
- // Output slot #2 writes into a TNtuple container
- DefineOutput(2,TNtuple::Class()); //My private output
// Output slot #3 writes into a TNtuple container
DefineOutput(3,TNtuple::Class()); //My private output
}
//________________________________________________________________________
AliAnalysisTaskSEDplus::~AliAnalysisTaskSEDplus()
{
+ //
// Destructor
+ //
if (fOutput) {
delete fOutput;
fOutput = 0;
}
- if (fVHF) {
- delete fVHF;
- fVHF = 0;
+
+ if (fListCuts) {
+ delete fListCuts;
+ fListCuts = 0;
}
-}
+ if(fRDCutsProduction){
+ delete fRDCutsProduction;
+ fRDCutsProduction = 0;
+ }
+
+ if(fRDCutsAnalysis){
+ delete fRDCutsAnalysis;
+ fRDCutsAnalysis = 0;
+ }
+
+}
+//_________________________________________________________________
+void AliAnalysisTaskSEDplus::SetMassLimits(Float_t range){
+ // set invariant mass limits
+ Float_t bw=GetBinWidth();
+ fUpmasslimit = 1.865+range;
+ fLowmasslimit = 1.865-range;
+ SetBinWidth(bw);
+}
+//_________________________________________________________________
+void AliAnalysisTaskSEDplus::SetMassLimits(Float_t lowlimit, Float_t uplimit){
+ // set invariant mass limits
+ if(uplimit>lowlimit)
+ {
+ Float_t bw=GetBinWidth();
+ fUpmasslimit = lowlimit;
+ fLowmasslimit = uplimit;
+ SetBinWidth(bw);
+ }
+}
//________________________________________________________________________
-void AliAnalysisTaskSEDplus::Init()
-{
- // Initialization
+void AliAnalysisTaskSEDplus::SetPtBinLimit(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;
+ fArrayBinLimits[0]=0.;
+ fArrayBinLimits[1]=2.;
+ fArrayBinLimits[2]=3.;
+ fArrayBinLimits[3]=5.;
+ for(Int_t i=4; i<kMaxPtBins+1; i++) fArrayBinLimits[i]=99999999.;
+ }else{
+ fNPtBins=n-1;
+ fArrayBinLimits[0]=lim[0];
+ for(Int_t i=1; i<fNPtBins+1; i++)
+ if(lim[i]>fArrayBinLimits[i-1]){
+ fArrayBinLimits[i]=lim[i];
+ }
+ else {
+ fArrayBinLimits[i]=fArrayBinLimits[i-1];
+ }
+ for(Int_t i=fNPtBins; i<kMaxPtBins+1; i++) fArrayBinLimits[i]=99999999.;
+ }
+ if(fDebug > 1){
+ printf("Number of Pt bins = %d\n",fNPtBins);
+ for(Int_t i=0; i<fNPtBins+1; i++) printf(" Bin%d = %8.2f-%8.2f\n",i,fArrayBinLimits[i],fArrayBinLimits[i+1]);
+ }
+}
+//________________________________________________________________
+void AliAnalysisTaskSEDplus::SetBinWidth(Float_t w){
+ Float_t width=w;
+ Int_t nbins=(Int_t)((fUpmasslimit-fLowmasslimit)/width+0.5);
+ Int_t missingbins=4-nbins%4;
+ nbins=nbins+missingbins;
+ width=(fUpmasslimit-fLowmasslimit)/nbins;
+ if(missingbins!=0){
+ printf("AliAnalysisTaskSEDplus::SetBinWidth: W-bin width of %f will produce histograms not rebinnable by 4. New width set to %f\n",w,width);
+ }
+ else{
+ if(fDebug>1) printf("AliAnalysisTaskSEDplus::SetBinWidth: width set to %f\n",width);
+ }
+ fBinWidth=width;
+}
+//_________________________________________________________________
+Double_t AliAnalysisTaskSEDplus::GetPtBinLimit(Int_t ibin){
+ // get pt bin limit
+ if(ibin>fNPtBins)return -1;
+ return fArrayBinLimits[ibin];
+}
+//_________________________________________________________________
+Int_t AliAnalysisTaskSEDplus::GetNBinsHistos(){
+ return (Int_t)((fUpmasslimit-fLowmasslimit)/fBinWidth+0.5);
+}
+//_________________________________________________________________
+void AliAnalysisTaskSEDplus::LSAnalysis(TClonesArray *arrayOppositeSign,TClonesArray *arrayLikeSign,AliAODEvent *aod,AliAODVertex *vtx1, Int_t nDplusOS){
+ //
+ //
+ // Fill the Like Sign histograms
+ //
- if(fDebug > 1) printf("AnalysisTaskSEDplus::Init() \n");
+ //count pos/neg tracks
+ Int_t nPosTrks=0,nNegTrks=0;
+ //counter for particles passing single particle cuts
+ Int_t nspcplus=0;
+ Int_t nspcminus=0;
+
+ for(Int_t it=0;it<aod->GetNumberOfTracks();it++) {
+ AliAODTrack *track = aod->GetTrack(it);
+ if(track->Charge()>0){
+ nPosTrks++;
+ if(track->Pt()>=0.4){
+ nspcplus++;
+ }
+ }
+ if(track->Charge()<0)
+ {
+ nNegTrks++;
+ if(track->Pt()>=0.4){
+ nspcminus++;
+ }
+ }
+ }
+
+ Int_t nOStriplets = arrayOppositeSign->GetEntriesFast();
+
+ Int_t nDplusLS=0;
+ Int_t nLikeSign = arrayLikeSign->GetEntriesFast();
+ Int_t index;
- gROOT->LoadMacro("ConfigVertexingHF.C");
+ for(Int_t iLikeSign = 0; iLikeSign < nLikeSign; iLikeSign++) {
+ AliAODRecoDecayHF3Prong *d = (AliAODRecoDecayHF3Prong*)arrayLikeSign->UncheckedAt(iLikeSign);
+ Bool_t unsetvtx=kFALSE;
+ if(!d->GetOwnPrimaryVtx()) {
+ d->SetOwnPrimaryVtx(vtx1); // needed to compute all variables
+ unsetvtx=kTRUE;
+ }
+ if(fRDCutsProduction->IsSelected(d,AliRDHFCuts::kCandidate))nDplusLS++;
+ if(unsetvtx) d->UnsetOwnPrimaryVtx();
+ }
- fVHF = (AliAnalysisVertexingHF*)gROOT->ProcessLine("ConfigVertexingHF()");
- fVHF->PrintStatus();
+ Float_t wei2=0;
+ if(nLikeSign!=0)wei2 = (Float_t)nOStriplets/(Float_t)nLikeSign;
+ Float_t wei3=0;
+ if(nDplusLS!=0)wei3 = (Float_t)nDplusOS/(Float_t)nDplusLS;
+ // loop over like sign candidates
+ for(Int_t iLikeSign = 0; iLikeSign < nLikeSign; iLikeSign++) {
+ AliAODRecoDecayHF3Prong *d = (AliAODRecoDecayHF3Prong*)arrayLikeSign->UncheckedAt(iLikeSign);
+ Bool_t unsetvtx=kFALSE;
+ if(!d->GetOwnPrimaryVtx()) {
+ d->SetOwnPrimaryVtx(vtx1); // needed to compute all variables
+ unsetvtx=kTRUE;
+ }
+
+ if(fRDCutsProduction->IsSelected(d,AliRDHFCuts::kCandidate)){
+
+ //set tight cuts values
+ Int_t iPtBin=-1;
+ Double_t ptCand = d->Pt();
+ for(Int_t ibin=0;ibin<fNPtBins&&iPtBin<0&&ptCand>fArrayBinLimits[0]&&ptCand<fArrayBinLimits[fNPtBins];ibin++){
+ if(ptCand<fArrayBinLimits[ibin+1])iPtBin=ibin;
+ }
+
+ if(iPtBin<0){
+ return;
+ }
+
+ Int_t passTightCuts=fRDCutsAnalysis->IsSelected(d,AliRDHFCuts::kCandidate);
+
+ Int_t sign= d->GetCharge();
+ Float_t wei=1;
+ Float_t wei4=1;
+ if(sign>0&&nPosTrks>2&&nspcplus>2) { //wei* should be automatically protected, since to get a triplet there must be at least 3 good tracks in the event
+
+ wei=3.*(Float_t)nNegTrks/((Float_t)nPosTrks-2.);
+ wei4=3.*(Float_t)nspcminus/((Float_t)nspcplus-2.);
+ }
+
+ if(sign<0&&nNegTrks>2&&nspcminus>2){
+ wei=3.*(Float_t)nPosTrks/((Float_t)nNegTrks-2.);
+ wei4=3.*(Float_t)nspcplus/((Float_t)nspcminus-2.);
+
+ }
+
+ Float_t invMass = d->InvMassDplus();
+ Double_t dlen=d->DecayLength();
+ Double_t cosp=d->CosPointingAngle();
+ Double_t sumD02=d->Getd0Prong(0)*d->Getd0Prong(0)+d->Getd0Prong(1)*d->Getd0Prong(1)+d->Getd0Prong(2)*d->Getd0Prong(2);
+ Double_t dca=d->GetDCA();
+ Double_t sigvert=d->GetSigmaVert();
+ Double_t ptmax=0;
+ for(Int_t i=0;i<3;i++){
+ if(d->PtProng(i)>ptmax)ptmax=d->PtProng(i);
+ }
+
+ index=GetLSHistoIndex(iPtBin);
+ fMassHistLS[index]->Fill(invMass,wei);
+ fMassHistLS[index+1]->Fill(invMass);
+ fMassHistLS[index+2]->Fill(invMass,wei2);
+ fMassHistLS[index+3]->Fill(invMass,wei3);
+ fMassHistLS[index+4]->Fill(invMass,wei4);
+
+ Int_t indexcut=GetHistoIndex(iPtBin);
+ fCosPHistLS[indexcut]->Fill(cosp);
+ fDLenHistLS[indexcut]->Fill(dlen);
+ fSumd02HistLS[indexcut]->Fill(sumD02);
+ fSigVertHistLS[indexcut]->Fill(sigvert);
+ fPtMaxHistLS[indexcut]->Fill(ptmax);
+ fDCAHistLS[indexcut]->Fill(dca);
+
+ if(passTightCuts==1){
+ fMassHistLSTC[index]->Fill(invMass,wei);
+ fMassHistLSTC[index+1]->Fill(invMass);
+ fMassHistLSTC[index+2]->Fill(invMass,wei2);
+ fMassHistLSTC[index+3]->Fill(invMass,wei3);
+ fMassHistLSTC[index+4]->Fill(invMass,wei4);
+ }
+ }
+ if(unsetvtx) d->UnsetOwnPrimaryVtx();
+ }
+
+ //printf("------------ N. of positive tracks in Event ----- %d \n", nPosTrks);
+ //printf("------------ N. of negative tracks in Event ----- %d \n", nNegTrks);
+
+ // printf("LS analysis...done\n");
+
+}
+
+
+//__________________________________________
+void AliAnalysisTaskSEDplus::Init(){
+ //
+ // Initialization
+ //
+ if(fDebug > 1) printf("AnalysisTaskSEDplus::Init() \n");
+
+ //PostData(2,fRDCutsloose);//we should then put those cuts in a tlist if we have more than 1
+ fListCuts=new TList();
+ AliRDHFCutsDplustoKpipi *production = new AliRDHFCutsDplustoKpipi();
+ production=fRDCutsProduction;
+ AliRDHFCutsDplustoKpipi *analysis = new AliRDHFCutsDplustoKpipi();
+ analysis=fRDCutsAnalysis;
+
+ fListCuts->Add(production);
+ fListCuts->Add(analysis);
+ PostData(2,fListCuts);
+
return;
}
fOutput->SetOwner();
fOutput->SetName("OutputHistos");
- Int_t nPtBins=4;
TString hisname;
- for(Int_t i=0;i<nPtBins;i++){
+ Int_t index=0;
+ Int_t indexLS=0;
+ Int_t nbins=GetNBinsHistos();
+ for(Int_t i=0;i<fNPtBins;i++){
+
+ index=GetHistoIndex(i);
+ indexLS=GetLSHistoIndex(i);
+
hisname.Form("hMassPt%d",i);
- TH1F* hm=new TH1F(hisname.Data(),hisname.Data(),100,1.765,1.965);
- hm->Sumw2();
- hisname.Form("hSigPt%d",i);
- TH1F* hs=new TH1F(hisname.Data(),hisname.Data(),100,1.765,1.965);
- hs->Sumw2();
- hisname.Form("hBkgPt%d",i);
- TH1F* hb=new TH1F(hisname.Data(),hisname.Data(),100,1.765,1.965);
- hb->Sumw2();
+ fMassHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHist[index]->Sumw2();
+ hisname.Form("hCosPAllPt%d",i);
+ fCosPHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,1.);
+ fCosPHist[index]->Sumw2();
+ hisname.Form("hDLenAllPt%d",i);
+ fDLenHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.5);
+ fDLenHist[index]->Sumw2();
+ hisname.Form("hSumd02AllPt%d",i);
+ fSumd02Hist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,1.);
+ fSumd02Hist[index]->Sumw2();
+ hisname.Form("hSigVertAllPt%d",i);
+ fSigVertHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fSigVertHist[index]->Sumw2();
+ hisname.Form("hPtMaxAllPt%d",i);
+ fPtMaxHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,5.);
+ fPtMaxHist[index]->Sumw2();
+
+ hisname.Form("hDCAAllPt%d",i);
+ fDCAHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fDCAHist[index]->Sumw2();
+
+
hisname.Form("hMassPt%dTC",i);
- TH1F* hmtc=new TH1F(hisname.Data(),hisname.Data(),100,1.765,1.965);
- hmtc->Sumw2();
+ fMassHistTC[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistTC[index]->Sumw2();
+
+
+
+
+
+ hisname.Form("hCosPAllPt%dLS",i);
+ fCosPHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,1.);
+ fCosPHistLS[index]->Sumw2();
+ hisname.Form("hDLenAllPt%dLS",i);
+ fDLenHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.5);
+ fDLenHistLS[index]->Sumw2();
+ hisname.Form("hSumd02AllPt%dLS",i);
+ fSumd02HistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,1.);
+ fSumd02HistLS[index]->Sumw2();
+ hisname.Form("hSigVertAllPt%dLS",i);
+ fSigVertHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fSigVertHistLS[index]->Sumw2();
+ hisname.Form("hPtMaxAllPt%dLS",i);
+ fPtMaxHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,5.);
+ fPtMaxHistLS[index]->Sumw2();
+
+ hisname.Form("hDCAAllPt%dLS",i);
+ fDCAHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fDCAHistLS[index]->Sumw2();
+
+ hisname.Form("hLSPt%dLC",i);
+ fMassHistLS[indexLS] = new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLS[indexLS]->Sumw2();
+
+ hisname.Form("hLSPt%dTC",i);
+ fMassHistLSTC[indexLS] = new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLSTC[indexLS]->Sumw2();
+
+
+
+ index=GetSignalHistoIndex(i);
+ indexLS++;
+ hisname.Form("hSigPt%d",i);
+ fMassHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHist[index]->Sumw2();
+ hisname.Form("hCosPSigPt%d",i);
+ fCosPHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,1.);
+ fCosPHist[index]->Sumw2();
+ hisname.Form("hDLenSigPt%d",i);
+ fDLenHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.5);
+ fDLenHist[index]->Sumw2();
+ hisname.Form("hSumd02SigPt%d",i);
+ fSumd02Hist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,1.);
+ fSumd02Hist[index]->Sumw2();
+ hisname.Form("hSigVertSigPt%d",i);
+ fSigVertHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fSigVertHist[index]->Sumw2();
+ hisname.Form("hPtMaxSigPt%d",i);
+ fPtMaxHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,5.);
+ fPtMaxHist[index]->Sumw2();
+
+ hisname.Form("hDCASigPt%d",i);
+ fDCAHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fDCAHist[index]->Sumw2();
+
+
hisname.Form("hSigPt%dTC",i);
- TH1F* hstc=new TH1F(hisname.Data(),hisname.Data(),100,1.765,1.965);
- hstc->Sumw2();
+ fMassHistTC[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistTC[index]->Sumw2();
+
+ hisname.Form("hLSPt%dLCnw",i);
+ fMassHistLS[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLS[indexLS]->Sumw2();
+ hisname.Form("hLSPt%dTCnw",i);
+ fMassHistLSTC[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLSTC[indexLS]->Sumw2();
+
+
+
+ hisname.Form("hCosPSigPt%dLS",i);
+ fCosPHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,1.);
+ fCosPHistLS[index]->Sumw2();
+ hisname.Form("hDLenSigPt%dLS",i);
+ fDLenHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.5);
+ fDLenHistLS[index]->Sumw2();
+ hisname.Form("hSumd02SigPt%dLS",i);
+ fSumd02HistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,1.);
+ fSumd02HistLS[index]->Sumw2();
+ hisname.Form("hSigVertSigPt%dLS",i);
+ fSigVertHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fSigVertHistLS[index]->Sumw2();
+ hisname.Form("hPtMaxSigPt%dLS",i);
+ fPtMaxHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,5.);
+ fPtMaxHistLS[index]->Sumw2();
+
+ hisname.Form("hDCASigPt%dLS",i);
+ fDCAHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fDCAHistLS[index]->Sumw2();
+
+
+
+ index=GetBackgroundHistoIndex(i);
+ indexLS++;
+ hisname.Form("hBkgPt%d",i);
+ fMassHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHist[index]->Sumw2();
+ hisname.Form("hCosPBkgPt%d",i);
+ fCosPHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,1.);
+ fCosPHist[index]->Sumw2();
+ hisname.Form("hDLenBkgPt%d",i);
+ fDLenHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.5);
+ fDLenHist[index]->Sumw2();
+ hisname.Form("hSumd02BkgPt%d",i);
+ fSumd02Hist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,1.);
+ fSumd02Hist[index]->Sumw2();
+ hisname.Form("hSigVertBkgPt%d",i);
+ fSigVertHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fSigVertHist[index]->Sumw2();
+ hisname.Form("hPtMaxBkgPt%d",i);
+ fPtMaxHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,5.);
+ fPtMaxHist[index]->Sumw2();
+
+ hisname.Form("hDCABkgPt%d",i);
+ fDCAHist[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fDCAHist[index]->Sumw2();
+
+
hisname.Form("hBkgPt%dTC",i);
- TH1F* hbtc=new TH1F(hisname.Data(),hisname.Data(),100,1.765,1.965);
- hbtc->Sumw2();
+ fMassHistTC[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistTC[index]->Sumw2();
+ hisname.Form("hLSPt%dLCntrip",i);
+ fMassHistLS[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLS[indexLS]->Sumw2();
+ hisname.Form("hLSPt%dTCntrip",i);
+ fMassHistLSTC[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLSTC[indexLS]->Sumw2();
- fOutput->Add(hm);
- fOutput->Add(hs);
- fOutput->Add(hb);
- fOutput->Add(hmtc);
- fOutput->Add(hstc);
- fOutput->Add(hbtc);
+
+ hisname.Form("hCosPBkgPt%dLS",i);
+ fCosPHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,1.);
+ fCosPHistLS[index]->Sumw2();
+ hisname.Form("hDLenBkgPt%dLS",i);
+ fDLenHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.5);
+ fDLenHistLS[index]->Sumw2();
+ hisname.Form("hSumd02BkgPt%dLS",i);
+ fSumd02HistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,1.);
+ fSumd02HistLS[index]->Sumw2();
+ hisname.Form("hSigVertBkgPt%dLS",i);
+ fSigVertHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fSigVertHistLS[index]->Sumw2();
+ hisname.Form("hPtMaxBkgPt%dLS",i);
+ fPtMaxHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.5,5.);
+ fPtMaxHistLS[index]->Sumw2();
+ hisname.Form("hDCABkgPt%dLS",i);
+ fDCAHistLS[index]=new TH1F(hisname.Data(),hisname.Data(),nbins,0.,0.1);
+ fDCAHistLS[index]->Sumw2();
+
+
+ indexLS++;
+ hisname.Form("hLSPt%dLCntripsinglecut",i);
+ fMassHistLS[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLS[indexLS]->Sumw2();
+ hisname.Form("hLSPt%dTCntripsinglecut",i);
+ fMassHistLSTC[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLSTC[indexLS]->Sumw2();
+
+ indexLS++;
+ hisname.Form("hLSPt%dLCspc",i);
+ fMassHistLS[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLS[indexLS]->Sumw2();
+ hisname.Form("hLSPt%dTCspc",i);
+ fMassHistLSTC[indexLS]=new TH1F(hisname.Data(),hisname.Data(),nbins,fLowmasslimit,fUpmasslimit);
+ fMassHistLSTC[indexLS]->Sumw2();
+ }
+
+ for(Int_t i=0; i<3*fNPtBins; i++){
+ fOutput->Add(fMassHist[i]);
+ fOutput->Add(fCosPHist[i]);
+ fOutput->Add(fDLenHist[i]);
+ fOutput->Add(fSumd02Hist[i]);
+ fOutput->Add(fSigVertHist[i]);
+ fOutput->Add(fPtMaxHist[i]);
+ fOutput->Add(fDCAHist[i]);
+ fOutput->Add(fMassHistTC[i]);
+ }
+ for(Int_t i=0; i<3*fNPtBins&&fDoLS; i++){
+ fOutput->Add(fCosPHistLS[i]);
+ fOutput->Add(fDLenHistLS[i]);
+ fOutput->Add(fSumd02HistLS[i]);
+ fOutput->Add(fSigVertHistLS[i]);
+ fOutput->Add(fPtMaxHistLS[i]);
+ fOutput->Add(fDCAHistLS[i]);
+ }
+ for(Int_t i=0; i<5*fNPtBins&&fDoLS; i++){
+ fOutput->Add(fMassHistLS[i]);
+ fOutput->Add(fMassHistLSTC[i]);
}
+
+ fHistNEvents = new TH1F("fHistNEvents", "Number of processed events; ; Events",3,-1.5,1.5);
+ fHistNEvents->Sumw2();
+ fHistNEvents->SetMinimum(0);
+ fOutput->Add(fHistNEvents);
+
+
if(fFillNtuple){
OpenFile(2); // 2 is the slot number of the ntuple
- fNtupleDplus = new TNtuple("fNtupleDplus","D +","pdg:Px:Py:Pz:Ptpi:PtK:Ptpi2:PtRec:PtTrue:PointingAngle:DecLeng:VxTrue:VxRec:VyRec:VzRec:InvMass:sigvert:d0Pi:d0K:d0Pi2");
- OpenFile(3); // 3 is the slot number of the ntuple
- fNtupleDplusbackg = new TNtuple("fNtupleDplusbackg","D + backg","Ptpibkg:Ptkbkg:Ptpi2bkg:PtRecbkg:PointingAnglebkg:DLbkg:VxRecbkg:VyRecbkg:VzRecbkg:InvMassbkg:sigvertbkg:d0Pibkg:d0Kbkg:d0Pi2bkg");
+
+ fNtupleDplus = new TNtuple("fNtupleDplus","D +","pdg:Px:Py:Pz:PtTrue:VxTrue:VyTrue:VzTrue:Ptpi:PtK:Ptpi2:PtRec:PointingAngle:DecLeng:VxRec:VyRec:VzRec:InvMass:sigvert:d0Pi:d0K:d0Pi2:dca:d0square");
+
}
-
+
return;
}
// Execute analysis for current event:
// heavy flavor candidates association to MC truth
-
-
AliAODEvent *aod = dynamic_cast<AliAODEvent*> (InputEvent());
+
+ TClonesArray *array3Prong = 0;
+ TClonesArray *arrayLikeSign =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<AliAODEvent*> (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");
+ arrayLikeSign=(TClonesArray*)aodFromExt->GetList()->FindObject("LikeSign3Prong");
+ }
+ } else {
+ array3Prong=(TClonesArray*)aod->GetList()->FindObject("Charm3Prong");
+ arrayLikeSign=(TClonesArray*)aod->GetList()->FindObject("LikeSign3Prong");
+ }
- // In case there is an AOD handler writing a standard AOD, use the AOD
- // event in memory rather than the input (ESD) event.
- if (!aod && AODEvent() && IsStandardAOD()) aod = dynamic_cast<AliAODEvent*> (AODEvent());
-
- // load Dplus->Kpipi candidates
- TClonesArray *array3Prong =
- (TClonesArray*)aod->GetList()->FindObject("Charm3Prong");
if(!array3Prong) {
printf("AliAnalysisTaskSEDplus::UserExec: Charm3Prong branch not found!\n");
return;
}
+ if(!arrayLikeSign) {
+ printf("AliAnalysisTaskSEDplus::UserExec: LikeSign3Prong branch not found!\n");
+ return;
+ }
+
+
+ // fix for temporary bug in ESDfilter
+ // the AODs with null vertex pointer didn't pass the PhysSel
+ if(!aod->GetPrimaryVertex()) return;
+
+ fHistNEvents->Fill(0); // count event
+ // Post the data already here
+ PostData(1,fOutput);
+
+ TClonesArray *arrayMC=0;
+ AliAODMCHeader *mcHeader=0;
// AOD primary vertex
AliAODVertex *vtx1 = (AliAODVertex*)aod->GetPrimaryVertex();
// vtx1->Print();
// load MC particles
- TClonesArray *arrayMC =
- (TClonesArray*)aod->GetList()->FindObject(AliAODMCParticle::StdBranchName());
- if(!arrayMC) {
- printf("AliAnalysisTaskSEDplus::UserExec: MC particles branch not found!\n");
- return;
- }
+ if(fReadMC){
+
+ arrayMC = (TClonesArray*)aod->GetList()->FindObject(AliAODMCParticle::StdBranchName());
+ if(!arrayMC) {
+ printf("AliAnalysisTaskSEDplus::UserExec: MC particles branch not found!\n");
+ // return;
+ }
// load MC header
- AliAODMCHeader *mcHeader =
- (AliAODMCHeader*)aod->GetList()->FindObject(AliAODMCHeader::StdBranchName());
- if(!mcHeader) {
+ mcHeader = (AliAODMCHeader*)aod->GetList()->FindObject(AliAODMCHeader::StdBranchName());
+ if(!mcHeader) {
printf("AliAnalysisTaskSEDplus::UserExec: MC header branch not found!\n");
return;
+ }
}
+
Int_t n3Prong = array3Prong->GetEntriesFast();
if(fDebug>1) printf("Number of D+->Kpipi: %d\n",n3Prong);
-
-
+
+
+ Int_t nOS=0;
+ Int_t index;
Int_t pdgDgDplustoKpipi[3]={321,211,211};
- Double_t cutsDplus[12]={0.2,0.4,0.4,0.,0.,0.01,0.06,0.02,0.,0.85,0.,10000000000.};
+ // Double_t cutsDplus[12]={0.2,0.4,0.4,0.,0.,0.01,0.06,0.02,0.,0.85,0.,10000000000.};//TO REMOVE
+ //Double_t *cutsDplus = new (Double_t*)fRDCuts->GetCuts();
for (Int_t i3Prong = 0; i3Prong < n3Prong; i3Prong++) {
AliAODRecoDecayHF3Prong *d = (AliAODRecoDecayHF3Prong*)array3Prong->UncheckedAt(i3Prong);
d->SetOwnPrimaryVtx(vtx1);
unsetvtx=kTRUE;
}
- if(d->SelectDplus(fVHF->GetDplusCuts())) {
- Int_t iPtBin=0;
+
+ if(fRDCutsProduction->IsSelected(d,AliRDHFCuts::kCandidate)) {
+ Int_t iPtBin = -1;
Double_t ptCand = d->Pt();
- if(ptCand<2.){
- iPtBin=0;
- cutsDplus[7]=0.08;
- cutsDplus[8]=0.5;
- cutsDplus[10]=0.979;
+
+ for(Int_t ibin=0;ibin<fNPtBins&&iPtBin<0&&ptCand>fArrayBinLimits[0]&&ptCand<fArrayBinLimits[fNPtBins];ibin++){
+ if(ptCand<fArrayBinLimits[ibin+1])iPtBin=ibin;
}
- else if(ptCand>2. && ptCand<3){
- iPtBin=1;
- cutsDplus[7]=0.08;
- cutsDplus[8]=0.5;
- cutsDplus[9]=0.991;
- }else if(ptCand>3. && ptCand<5){
- iPtBin=2;
- cutsDplus[7]=0.1;
- cutsDplus[8]=0.5;
- cutsDplus[9]=0.9955;
- }else{
- iPtBin=3;
- cutsDplus[7]=0.1;
- cutsDplus[8]=0.5;
- cutsDplus[9]=0.997;
+
+ Int_t passTightCuts=fRDCutsAnalysis->IsSelected(d,AliRDHFCuts::kCandidate);
+
+ Int_t labDp=-1;
+ Float_t deltaPx=0.;
+ Float_t deltaPy=0.;
+ Float_t deltaPz=0.;
+ Float_t truePt=0.;
+ Float_t xDecay=0.;
+ Float_t yDecay=0.;
+ Float_t zDecay=0.;
+ Float_t pdgCode=-2;
+ if(fReadMC){
+ labDp = d->MatchToMC(411,arrayMC,3,pdgDgDplustoKpipi);
+ if(labDp>=0){
+ AliAODMCParticle *partDp = (AliAODMCParticle*)arrayMC->At(labDp);
+ AliAODMCParticle *dg0 = (AliAODMCParticle*)arrayMC->At(partDp->GetDaughter(0));
+ deltaPx=partDp->Px()-d->Px();
+ deltaPy=partDp->Py()-d->Py();
+ deltaPz=partDp->Pz()-d->Pz();
+ truePt=partDp->Pt();
+ xDecay=dg0->Xv();
+ yDecay=dg0->Yv();
+ zDecay=dg0->Zv();
+ pdgCode=TMath::Abs(partDp->GetPdgCode());
+ }else{
+ pdgCode=-1;
+ }
}
- Bool_t passTightCuts=d->SelectDplus(cutsDplus);
- Int_t labDp = d->MatchToMC(411,arrayMC,3,pdgDgDplustoKpipi);
Double_t invMass=d->InvMassDplus();
- TString hisNameA(Form("hMassPt%d",iPtBin));
- TString hisNameS(Form("hSigPt%d",iPtBin));
- TString hisNameB(Form("hBkgPt%d",iPtBin));
- TString hisNameATC(Form("hMassPt%dTC",iPtBin));
- TString hisNameSTC(Form("hSigPt%dTC",iPtBin));
- TString hisNameBTC(Form("hBkgPt%dTC",iPtBin));
-
- ((TH1F*)(fOutput->FindObject(hisNameA)))->Fill(invMass);
- if(passTightCuts){
- ((TH1F*)(fOutput->FindObject(hisNameATC)))->Fill(invMass);
+ Float_t tmp[24];
+ if(fFillNtuple){
+ tmp[0]=pdgCode;
+ tmp[1]=deltaPx;
+ tmp[2]=deltaPy;
+ tmp[3]=deltaPz;
+ tmp[4]=truePt;
+ tmp[5]=xDecay;
+ tmp[6]=yDecay;
+ tmp[7]=zDecay;
+ tmp[8]=d->PtProng(0);
+ tmp[9]=d->PtProng(1);
+ tmp[10]=d->PtProng(2);
+ tmp[11]=d->Pt();
+ tmp[12]=d->CosPointingAngle();
+ tmp[13]=d->DecayLength();
+ tmp[14]=d->Xv();
+ tmp[15]=d->Yv();
+ tmp[16]=d->Zv();
+ tmp[17]=d->InvMassDplus();
+ tmp[18]=d->GetSigmaVert();
+ tmp[19]=d->Getd0Prong(0);
+ tmp[20]=d->Getd0Prong(1);
+ tmp[21]=d->Getd0Prong(2);
+ tmp[22]=d->GetDCA();
+ tmp[23]=d->Prodd0d0();
+ fNtupleDplus->Fill(tmp);
+ PostData(3,fNtupleDplus);
}
-
-
- if(labDp>=0) {
- ((TH1F*)(fOutput->FindObject(hisNameS)))->Fill(invMass);
- if(passTightCuts){
- ((TH1F*)(fOutput->FindObject(hisNameSTC)))->Fill(invMass);
- }
- if(fFillNtuple){
- AliAODMCParticle *partDp = (AliAODMCParticle*)arrayMC->At(labDp);
- AliAODMCParticle *dg0 = (AliAODMCParticle*)arrayMC->At(partDp->GetDaughter(0));
- Float_t tmp[20];
- tmp[0]=TMath::Abs(partDp->GetPdgCode());
- tmp[1]=partDp->Px()-d->Px();
- tmp[2]=partDp->Py()-d->Py();
- tmp[3]=partDp->Pz()-d->Pz();
- tmp[4]=d->PtProng(0);
- tmp[5]=d->PtProng(1);
- tmp[6]=d->PtProng(2);
- tmp[7]=d->Pt();
- tmp[8]=partDp->Pt();
- tmp[9]=d->CosPointingAngle();
- tmp[10]=d->DecayLength();
- tmp[11]=dg0->Xv();
- tmp[12]=d->Xv();
- tmp[13]=d->Yv();
- tmp[14]=d->Zv();
- tmp[15]=d->InvMassDplus();
- tmp[16]=d->GetSigmaVert();
- tmp[17]=d->Getd0Prong(0);
- tmp[18]=d->Getd0Prong(1);
- tmp[19]=d->Getd0Prong(2);
- fNtupleDplus->Fill(tmp);
- PostData(2,fNtupleDplus);
- }
- }else{
- ((TH1F*)(fOutput->FindObject(hisNameB)))->Fill(invMass);
- if(passTightCuts){
- ((TH1F*)(fOutput->FindObject(hisNameBTC)))->Fill(invMass);
+ Double_t dlen=d->DecayLength();
+ Double_t cosp=d->CosPointingAngle();
+ Double_t sumD02=d->Getd0Prong(0)*d->Getd0Prong(0)+d->Getd0Prong(1)*d->Getd0Prong(1)+d->Getd0Prong(2)*d->Getd0Prong(2);
+ Double_t dca=d->GetDCA();
+ Double_t sigvert=d->GetSigmaVert();
+ Double_t ptmax=0;
+ for(Int_t i=0;i<3;i++){
+ if(d->PtProng(i)>ptmax)ptmax=d->PtProng(i);
+ }
+ if(iPtBin>=0){
+
+ index=GetHistoIndex(iPtBin);
+ fMassHist[index]->Fill(invMass);
+ fCosPHist[index]->Fill(cosp);
+ fDLenHist[index]->Fill(dlen);
+ fSumd02Hist[index]->Fill(sumD02);
+ fSigVertHist[index]->Fill(sigvert);
+ fPtMaxHist[index]->Fill(ptmax);
+ fDCAHist[index]->Fill(dca);
+
+ if(passTightCuts==1){
+ fMassHistTC[index]->Fill(invMass);
}
- if(fFillNtuple){
- Float_t tmpbkg[14];
- tmpbkg[0]=d->PtProng(0);
- tmpbkg[1]=d->PtProng(1);
- tmpbkg[2]=d->PtProng(2);
- tmpbkg[3]=d->Pt();
- tmpbkg[4]=d->CosPointingAngle();
- tmpbkg[5]=d->DecayLength();
- tmpbkg[6]=d->Xv();
- tmpbkg[7]=d->Yv();
- tmpbkg[8]=d->Zv();
- tmpbkg[9]=d->InvMassDplus();
- tmpbkg[10]=d->GetSigmaVert();
- tmpbkg[11]=d->Getd0Prong(0);
- tmpbkg[12]=d->Getd0Prong(1);
- tmpbkg[13]=d->Getd0Prong(2);
- fNtupleDplusbackg->Fill(tmpbkg);
- PostData(3,fNtupleDplusbackg);
+
+ if(fReadMC){
+ if(labDp>=0) {
+ index=GetSignalHistoIndex(iPtBin);
+ fMassHist[index]->Fill(invMass);
+ fCosPHist[index]->Fill(cosp);
+ fDLenHist[index]->Fill(dlen);
+ fSumd02Hist[index]->Fill(sumD02);
+ fSigVertHist[index]->Fill(sigvert);
+ fPtMaxHist[index]->Fill(ptmax);
+ fDCAHist[index]->Fill(dca);
+ if(passTightCuts==1){
+ fMassHistTC[index]->Fill(invMass);
+
+ }
+
+ }else{
+ index=GetBackgroundHistoIndex(iPtBin);
+ fMassHist[index]->Fill(invMass);
+ fCosPHist[index]->Fill(cosp);
+ fDLenHist[index]->Fill(dlen);
+ fSumd02Hist[index]->Fill(sumD02);
+ fSigVertHist[index]->Fill(sigvert);
+ fPtMaxHist[index]->Fill(ptmax);
+ fDCAHist[index]->Fill(dca);
+ if(passTightCuts==1){
+ fMassHistTC[index]->Fill(invMass);
+
+ }
+ }
}
}
- PostData(1,fOutput);
}
if(unsetvtx) d->UnsetOwnPrimaryVtx();
}
+ //start LS analysis
+ if(fDoLS && arrayLikeSign) LSAnalysis(array3Prong,arrayLikeSign,aod,vtx1,nOS);
+
+ PostData(1,fOutput);
return;
}
+
+
//________________________________________________________________________
void AliAnalysisTaskSEDplus::Terminate(Option_t */*option*/)
{
printf("ERROR: fOutput not available\n");
return;
}
+ fHistNEvents = dynamic_cast<TH1F*>(fOutput->FindObject("fHistNEvents"));
+
+ TString hisname;
+ Int_t index=0;
+
+
+ Int_t indexLS=0;
+ for(Int_t i=0;i<fNPtBins;i++){
+ index=GetHistoIndex(i);
+ if(fDoLS)indexLS=GetLSHistoIndex(i);
+ hisname.Form("hMassPt%d",i);
+ fMassHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hCosPAllPt%d",i);
+ fCosPHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDLenAllPt%d",i);
+ fDLenHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSumd02AllPt%d",i);
+ fSumd02Hist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSigVertAllPt%d",i);
+ fSigVertHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hPtMaxAllPt%d",i);
+ fPtMaxHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDCAAllPt%d",i);
+ fDCAHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hMassPt%dTC",i);
+ fMassHistTC[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ if(fDoLS){
+ hisname.Form("hLSPt%dLC",i);
+ fMassHistLS[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hCosPAllPt%dLS",i);
+ fCosPHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDLenAllPt%dLS",i);
+ fDLenHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSumd02AllPt%dLS",i);
+ fSumd02HistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSigVertAllPt%dLS",i);
+ fSigVertHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hPtMaxAllPt%dLS",i);
+ fPtMaxHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDCAAllPt%dLS",i);
+ fDCAHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ hisname.Form("hLSPt%dTC",i);
+ fMassHistLSTC[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ }
+
+ index=GetSignalHistoIndex(i);
+ if(fDoLS)indexLS++;
+ hisname.Form("hSigPt%d",i);
+ fMassHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hCosPSigPt%d",i);
+ fCosPHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDLenSigPt%d",i);
+ fDLenHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSumd02SigPt%d",i);
+ fSumd02Hist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSigVertSigPt%d",i);
+ fSigVertHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hPtMaxSigPt%d",i);
+ fPtMaxHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDCASigPt%d",i);
+ fDCAHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ hisname.Form("hSigPt%dTC",i);
+ fMassHistTC[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ if(fDoLS){
+ hisname.Form("hLSPt%dLCnw",i);
+ fMassHistLS[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hCosPSigPt%dLS",i);
+ fCosPHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDLenSigPt%dLS",i);
+ fDLenHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSumd02SigPt%dLS",i);
+ fSumd02HistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSigVertSigPt%dLS",i);
+ fSigVertHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hPtMaxSigPt%dLS",i);
+ fPtMaxHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDCASigPt%dLS",i);
+ fDCAHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ hisname.Form("hLSPt%dTCnw",i);
+ fMassHistLSTC[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ }
+
+ index=GetBackgroundHistoIndex(i);
+ if(fDoLS)indexLS++;
+ hisname.Form("hBkgPt%d",i);
+ fMassHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hCosPBkgPt%d",i);
+ fCosPHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDLenBkgPt%d",i);
+ fDLenHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSumd02BkgPt%d",i);
+ fSumd02Hist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSigVertBkgPt%d",i);
+ fSigVertHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hPtMaxBkgPt%d",i);
+ fPtMaxHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDCABkgPt%d",i);
+ fDCAHist[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hBkgPt%dTC",i);
+ fMassHistTC[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ if(fDoLS){
+ hisname.Form("hLSPt%dLCntrip",i);
+ fMassHistLS[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+
+ hisname.Form("hCosPBkgPt%dLS",i);
+ fCosPHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDLenBkgPt%dLS",i);
+ fDLenHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSumd02BkgPt%dLS",i);
+ fSumd02HistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hSigVertBkgPt%dLS",i);
+ fSigVertHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hPtMaxBkgPt%dLS",i);
+ fPtMaxHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ hisname.Form("hDCABkgPt%dLS",i);
+ fDCAHistLS[index]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ hisname.Form("hLSPt%dTCntrip",i);
+ fMassHistLSTC[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+
+ indexLS++;
+ hisname.Form("hLSPt%dLCntripsinglecut",i);
+ fMassHistLS[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ hisname.Form("hLSPt%dTCntripsinglecut",i);
+ fMassHistLSTC[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+
+ indexLS++;
+ hisname.Form("hLSPt%dLCspc",i);
+ fMassHistLS[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+
+ hisname.Form("hLSPt%dTCspc",i);
+ fMassHistLSTC[indexLS]=dynamic_cast<TH1F*>(fOutput->FindObject(hisname.Data()));
+ }
+
+ }
if(fFillNtuple){
- fNtupleDplus = dynamic_cast<TNtuple*>(GetOutputData(2));
- fNtupleDplusbackg = dynamic_cast<TNtuple*>(GetOutputData(3));
+ fNtupleDplus = dynamic_cast<TNtuple*>(GetOutputData(3));
}
- return;
+ TCanvas *c1=new TCanvas("c1","D+ invariant mass distribution",500,500);
+ c1->cd();
+ TH1F *hMassPt=(TH1F*)fOutput->FindObject("hMassPt3TC");
+ hMassPt->SetLineColor(kBlue);
+ hMassPt->SetXTitle("M[GeV/c^{2}]");
+ hMassPt->Draw();
+
+ return;
}
-