示例#1
0
void createWorkspace(const std::string &infilename, int nState, bool correctCtau, bool drawRapPt2D) {
    gROOT->SetStyle("Plain");
    gStyle->SetTitleBorderSize(0);

    delete gRandom;
    gRandom = new TRandom3(23101987);

    // Set some strings
    const std::string workspacename = "ws_masslifetime",
                      treename = "selectedData";

    // Get the tree from the data file
    TFile *f = TFile::Open(infilename.c_str());
    TTree *tree = (TTree*)f->Get(treename.c_str());

    // Set branch addresses in tree to be able to import tree to roofit
    TLorentzVector* chic = new TLorentzVector;
    tree->SetBranchAddress("chic",&chic);
    TLorentzVector* chic_rf = new TLorentzVector;
    tree->SetBranchAddress("chic_rf",&chic_rf);
    TLorentzVector* jpsi = new TLorentzVector;
    tree->SetBranchAddress("jpsi",&jpsi);
    double lifetime = 0;
    tree->SetBranchAddress("Jpsict",&lifetime);
    double lifetimeErr = 0;
    tree->SetBranchAddress("JpsictErr",&lifetimeErr);

    char lifetimeTitle[200];

    sprintf(lifetimeTitle,"l^{#psi} [mm]");
    if(correctCtau) sprintf(lifetimeTitle,"l^{#chi} [mm]");

    // define variables necessary for J/Psi(Psi(2S)) mass,lifetime fit
    RooRealVar* JpsiMass =
        new RooRealVar("JpsiMass", "M^{#psi} [GeV]", onia::massMin, onia::massMax);
    RooRealVar* JpsiPt =
        new RooRealVar("JpsiPt", "p^{#psi}_{T} [GeV]", 0. ,1000.);
    RooRealVar* JpsiRap =
        new RooRealVar("JpsiRap", "y^{#psi}", -2., 2.);
    RooRealVar* chicMass =
        new RooRealVar("chicMass", "M^{#chi} [GeV]", onia::chimassMin, onia::chimassMax);
    RooRealVar* chicRap =
        new RooRealVar("chicRap", "y^{#chi}", -onia::chirap, onia::chirap);
    RooRealVar* chicPt =
        new RooRealVar("chicPt", "p^{#chi}_{T} [GeV]", 0. ,100.);
    RooRealVar* Jpsict =
        new RooRealVar("Jpsict", lifetimeTitle, onia::ctVarMin, onia::ctVarMax);
    RooRealVar* JpsictErr =
        new RooRealVar("JpsictErr", Form("Error on %s",lifetimeTitle), 0.0001, 1.);

    // Set bins
    Jpsict->setBins(10000,"cache");
    JpsiMass->setBins(10000,"cache");
    JpsiPt->setBins(100);
    JpsiRap->setBins(10000,"cache");
    chicMass->setBins(10000,"cache");
    //JpsictErr->setBins(100);
    JpsictErr->setBins(10000,"cache");

    // The list of data variables
    RooArgList dataVars(*JpsiMass,*JpsiPt,*JpsiRap,*chicMass,*chicRap,*chicPt,*Jpsict,*JpsictErr);

    // construct dataset to contain events
    RooDataSet* fullData = new RooDataSet("fullData","The Full Data From the Input ROOT Trees",dataVars);

    int entries = tree->GetEntries();
    cout << "entries " << entries << endl;

    int numEntriesTotal=0;
    int numEntriesInAnalysis=0;
    int numEntriesNotInAnalysis=0;



    /*
    	/// Read in 2011 data ctauErr-histos

    	char saveDir[200];
    	char PlotID[200];
    	char savename[200];
    	sprintf(saveDir,"/afs/hephy.at/scratch/k/knuenz/ChicPol/macros/polFit/Figures/CtauErrModel");
    	gSystem->mkdir(saveDir);
    	sprintf(PlotID,"2014May26_MoreLbins");
    	sprintf(saveDir,"%s/%s",saveDir,PlotID);
    	gSystem->mkdir(saveDir);
    	sprintf(savename,"%s/CtauErrModel_histograms.root",saveDir);

    	TFile *infile = new TFile(savename,"READ");
    	cout<<"opened file"<<endl;

    	const int nPT=5;
    	const int nRAP=2;
    	const int nL=15;

    	const double bordersPT[nPT+1] = {0., 12., 16., 20., 30., 100.};
    	const double bordersRAP[nRAP+1] = {0., 0.6, 2.};
    	const double bordersL[nL+1] = {onia::ctVarMin, -0.05, -0.03, -0.02, -0.015, -0.01, -0.005,  0., 0.005, 0.01, 0.015, 0.02, 0.03, 0.05, 0.1, onia::ctVarMax};

    	TH1D* h_ctauerr_2011[nRAP+1][nPT+1][nL+1];
    	TH1D* h_ctauerr_2012[nRAP+1][nPT+1][nL+1];

    	for(int iRAP = 0; iRAP < nRAP+1; iRAP++){
    		for(int iPT = 0; iPT < nPT+1; iPT++){
    			for(int iL = 0; iL < nL+1; iL++){

    				h_ctauerr_2011[iRAP][iPT][iL] = (TH1D*)infile->Get(Form("h_ctauerr_2011_rap%d_pt%d_l%d",iRAP, iPT, iL));
    				h_ctauerr_2012[iRAP][iPT][iL] = (TH1D*)infile->Get(Form("h_ctauerr_2012_rap%d_pt%d_l%d",iRAP, iPT, iL));

    			}
    		}
    	}
    	cout<<"opened hists"<<endl;

    	/// Finished reading in 2011 data ctauErr-histos
    */


    // loop through events in tree and save them to dataset
    for (int ientries = 0; ientries < entries; ientries++) {
        numEntriesTotal++;
        if (ientries%10000==0) std::cout << "event " << ientries << " of " << entries <<  std::endl;

        tree->GetEntry(ientries);

        double M_jpsi =jpsi->M();
        double pt_jpsi =jpsi->Pt();
        double y_jpsi =jpsi->Rapidity();
        double M =chic_rf->M();
        //double M =chic->M()-jpsi->M()+onia::MpsiPDG;
        double y=chic->Rapidity();
        double pt=chic->Pt();

        //if (ientries%3==0){
        //	M_jpsi = gRandom->Uniform(JpsiMass->getMin(), JpsiMass->getMax());
        //}


        //double JpsictErrRand = h_JpsictErr->GetRandom();
        //double JpsictErrRand2 = h_JpsictErr->GetRandom();
        //double JpsictMeanRand=0.;
        ////double pTcorrection=(pt-20.)*0.002;
        //
        ////JpsictErrRand-=pTcorrection;
        //if(JpsictErrRand<0) JpsictErrRand=0.001;
        ////JpsictErrRand2-=pTcorrection;
        //if(JpsictErrRand2<0) JpsictErrRand2=0.001;
        //
        //if (ientries%1000000==0){
        //	double exponent=0.4;
        //	JpsictMeanRand=gRandom->Exp(exponent);
        //}
        //
        //
        //lifetime = gRandom->Gaus(JpsictMeanRand,0.8*JpsictErrRand);
        //lifetimeErr = JpsictErrRand2;
        //if (ientries%3==0){
        //	lifetime = gRandom->Gaus(JpsictMeanRand,1.5*JpsictErrRand);
        //}
        //

        //double resCorrFactor=1.08;
        //if(lifetime<0)
        //	lifetimeErr/=resCorrFactor;


        /*
        		int iRAPindex=0;
        		int iPTindex=0;
        		int iLindex=0;

        		for(int iRAP = 1; iRAP < nRAP+1; iRAP++){
        			for(int iPT = 1; iPT < nPT+1; iPT++){
        				for(int iL = 1; iL < nL+1; iL++){

        					Double_t ptMin = bordersPT[iPT-1];;
        					Double_t ptMax = bordersPT[iPT];;
        					Double_t rapMin = bordersRAP[iRAP-1];;
        					Double_t rapMax = bordersRAP[iRAP];  ;
        					Double_t lMin = bordersL[iL-1];;
        					Double_t lMax = bordersL[iL];  ;

        					if(pt_jpsi>ptMin && pt_jpsi<ptMax && TMath::Abs(y_jpsi)>rapMin && TMath::Abs(y_jpsi)<rapMax && lifetime>lMin && lifetime<lMax){
        						iRAPindex=iRAP;
        						iPTindex=iPT;
        						iLindex=iL;
        					}

        				}

        			}
        		}

        		double lifetimeErrRand = h_ctauerr_2011[iRAPindex][iPTindex][iLindex]->GetRandom();

        		lifetimeErr = lifetimeErrRand;
        		if (ientries%10000==0){
        			std::cout << "Test output: lifetimeErr " << lifetimeErr << " randomly drawn from from " << h_ctauerr_2011[iRAPindex][iPTindex][iLindex]->GetName() <<  std::endl;
        		}

        */

        if (
            M > chicMass->getMin() && M < chicMass->getMax()
            && pt > chicPt->getMin() && pt < chicPt->getMax()
            && y > chicRap->getMin() && y < chicRap->getMax()
            && M_jpsi > JpsiMass->getMin() && M_jpsi < JpsiMass->getMax()
            && pt_jpsi > JpsiPt->getMin() && pt_jpsi < JpsiPt->getMax()
            && y_jpsi > JpsiRap->getMin() && y_jpsi < JpsiRap->getMax()
            && lifetime > Jpsict->getMin() && lifetime < Jpsict->getMax()
            && lifetimeErr > JpsictErr->getMin() && lifetimeErr < JpsictErr->getMax()
        ) {

            chicPt      ->setVal(pt);
            chicRap     ->setVal(y);
            chicMass    ->setVal(M);
            JpsiMass    ->setVal(M_jpsi);
            JpsiPt    	->setVal(pt_jpsi);
            JpsiRap     ->setVal(y_jpsi);
            Jpsict      ->setVal(lifetime);
            JpsictErr   ->setVal(lifetimeErr);

            //cout<<"JpsiRap->getVal() "<<JpsiRap->getVal()<<endl;

            fullData->add(dataVars);
            numEntriesInAnalysis++;
        }
        else {
            numEntriesNotInAnalysis++;
            //if (M < chicMass->getMin() || M > chicMass->getMax()) cout << "M " << M << endl;
            //if (pt < chicPt->getMin() || pt > chicPt->getMax()) cout << "pt " << pt << endl;
            //if (y < chicRap->getMin() || y > chicRap->getMax()) cout << "y " << y << endl;
            //if (lifetime < Jpsict->getMin() || lifetime > Jpsict->getMax()) cout << "lifetime " << lifetime << endl;
            //if (lifetimeErr < JpsictErr->getMin() || lifetimeErr > JpsictErr->getMax()) cout << "lifetimeErr " << lifetimeErr << endl;
            //cout << "M " << M << endl;
            //cout << "pt " << pt << endl;
            //cout << "y " << y << endl;
            //cout << "lifetime " << lifetime << endl;
            //cout << "lifetimeErr " << lifetimeErr << endl;
            //cout << " " << endl;

        }

    }//ientries

    //infile->Close();

    cout << "entries entering all bins " << fullData->sumEntries() << endl;
    cout << "numEntriesTotal " << numEntriesTotal << endl;
    cout << "numEntriesInAnalysis " << numEntriesInAnalysis << endl;
    cout << "numEntriesNotInAnalysis " << numEntriesNotInAnalysis << endl;

    //------------------------------------------------------------------------------------------------------------------
    // Define workspace and import datasets

    ////Get datasets binned in pT an y

    for(int iRap = 0; iRap <= onia::kNbRapForPTBins; iRap++) {

        Double_t yMin;
        Double_t yMax;
        if(iRap==0) {
            yMin = onia::rapForPTRange[0];
            yMax = onia::rapForPTRange[onia::kNbRapForPTBins];
        } else {
            yMin = onia::rapForPTRange[iRap-1];
            yMax = onia::rapForPTRange[iRap];
        }

        for(int iPT = 0; iPT <= onia::kNbPTBins[iRap]; iPT++) {
            //for(int iPT = 0; iPT <= 0; iPT++)

            Double_t ptMin;
            Double_t ptMax;
            if(iPT==0) {
                ptMin = onia::pTRange[iRap][0];
                ptMax = onia::pTRange[iRap][onia::kNbPTBins[0]];
            } else {
                ptMin = onia::pTRange[iRap][iPT-1];
                ptMax = onia::pTRange[iRap][iPT];
            }

            // output file name and workspace
            std::stringstream outfilename;
            outfilename << "tmpFiles/backupWorkSpace/ws_createWorkspace_Chi_rap" << iRap << "_pt" << iPT << ".root";
            RooWorkspace* ws = new RooWorkspace(workspacename.c_str());

            // define pt and y cuts on dataset
            std::stringstream cutString;

            if(onia::KinParticleChi && !onia::KinParticleChiButJpsiRap) {
                cutString << "(chicPt >= " << ptMin << " && chicPt < "<< ptMax << ") && "
                          << "(TMath::Abs(chicRap) >= " << yMin << " && TMath::Abs(chicRap) < " << yMax << ")";
            }
            if(!onia::KinParticleChi) {
                cutString << "(JpsiPt >= " << ptMin << " && JpsiPt < "<< ptMax << ") && "
                          << "(TMath::Abs(JpsiRap) >= " << yMin << " && TMath::Abs(JpsiRap) < " << yMax << ")";
            }
            if(onia::KinParticleChi && onia::KinParticleChiButJpsiRap) {
                cutString << "(chicPt >= " << ptMin << " && chicPt < "<< ptMax << ") && "
                          << "(TMath::Abs(JpsiRap) >= " << yMin << " && TMath::Abs(JpsiRap) < " << yMax << ")";
            }


            cout << "cutString: " << cutString.str().c_str() << endl;

            // get the dataset for the fit
            RooDataSet* binData = (RooDataSet*)fullData->reduce(cutString.str().c_str());
            std::stringstream name;
            name << "jpsi_data_rap" << iRap << "_pt" << iPT;
            binData->SetNameTitle(name.str().c_str(), "Data For Fitting");

            cout << "numEvents = " << binData->sumEntries() << endl;

            double chicMeanPt = binData->mean(*chicPt);
            RooRealVar var_chicMeanPt("var_chicMeanPt","var_chicMeanPt",chicMeanPt);
            if(!ws->var("var_chicMeanPt")) ws->import(var_chicMeanPt);
            else ws->var("var_chicMeanPt")->setVal(chicMeanPt);
            cout << "chicMeanPt = " << chicMeanPt << endl;

            double jpsiMeanPt = binData->mean(*JpsiPt);
            RooRealVar var_jpsiMeanPt("var_jpsiMeanPt","var_jpsiMeanPt",jpsiMeanPt);
            if(!ws->var("var_jpsiMeanPt")) ws->import(var_jpsiMeanPt);
            else ws->var("var_jpsiMeanPt")->setVal(jpsiMeanPt);
            cout << "jpsiMeanPt = " << jpsiMeanPt << endl;

            std::stringstream cutStringPosRapChic;
            cutStringPosRapChic << "chicRap > 0";
            RooDataSet* binDataPosRapChic = (RooDataSet*)binData->reduce(cutStringPosRapChic.str().c_str());
            double chicMeanAbsRap = binDataPosRapChic->mean(*chicRap);
            cout << "chicMeanAbsRap = " << chicMeanAbsRap << endl;
            RooRealVar var_chicMeanAbsRap("var_chicMeanAbsRap","var_chicMeanAbsRap",chicMeanAbsRap);
            if(!ws->var("var_chicMeanAbsRap")) ws->import(var_chicMeanAbsRap);
            else ws->var("var_chicMeanAbsRap")->setVal(chicMeanAbsRap);

            std::stringstream cutStringPosRapJpsi;
            cutStringPosRapJpsi << "JpsiRap > 0";
            RooDataSet* binDataPosRapJpsi = (RooDataSet*)binData->reduce(cutStringPosRapJpsi.str().c_str());
            double jpsiMeanAbsRap = binDataPosRapJpsi->mean(*JpsiRap);
            cout << "jpsiMeanAbsRap = " << jpsiMeanAbsRap << endl;
            RooRealVar var_jpsiMeanAbsRap("var_jpsiMeanAbsRap","var_jpsiMeanAbsRap",jpsiMeanAbsRap);
            if(!ws->var("var_jpsiMeanAbsRap")) ws->import(var_jpsiMeanAbsRap);
            else ws->var("var_jpsiMeanAbsRap")->setVal(jpsiMeanAbsRap);

            // Import variables to workspace
            ws->import(*binData);
            ws->writeToFile(outfilename.str().c_str());
        }//iPT
    }//iRap

    ////---------------------------------------------------------------
    ////--Integrating rapidity and pt bins, in +/- 3*sigma mass window
    ////---------------------------------------------------------------
    if(drawRapPt2D) {
        double yMin = onia::rapForPTRange[0];
        double yMax = 1.6;//onia::rapForPTRange[onia::kNbRapForPTBins];
        double ptMin =  onia::pTRange[0][0];
        double ptMax =  onia::pTRange[0][onia::kNbPTBins[0]];

        std::stringstream cutRapPt;
        cutRapPt << "(chicPt > " << ptMin << " && chicPt < "<< ptMax << ") && "
                 << "(TMath::Abs(chicRap) > " << yMin << " && TMath::Abs(chicRap) < " << yMax << ")";
        cout<<"cutRapPt: "<<cutRapPt.str().c_str()<<endl;

        RooDataSet* rapPtData = (RooDataSet*)fullData->reduce(cutRapPt.str().c_str());
        std::stringstream nameRapPt;
        nameRapPt << "data_rap0_pt0";
        rapPtData->SetNameTitle(nameRapPt.str().c_str(), "Data For full rap and pt");

        // output file name and workspace
        std::stringstream outfilename;
        outfilename << "tmpFiles/backupWorkSpace/ws_createWorkspace_Chi_rap0_pt0.root";
        RooWorkspace* ws_RapPt = new RooWorkspace(workspacename.c_str());
        //Import variables to workspace
        ws_RapPt->import(*rapPtData);
        ws_RapPt->writeToFile(outfilename.str().c_str());

        TH2D* rapPt;
        TH1D* rap1p2;
        double MassMin;
        double MassMax;

        rap1p2 = new TH1D("rap1p2","rap1p2",30,1.2, 1.8);
        if(nState==4) {
            rapPt = new TH2D( "rapPt", "rapPt", 52,-1.3,1.3,144,0,72);
            MassMin=3.011;//massPsi1S-onia::nSigMass*sigma1S;
            MassMax=3.174;//massPsi1S+onia::nSigMass*sigma1S;
            // sigma  27.2 MeV
            // mean 3.093 GeV
        }
        if(nState==5) {
            rapPt = new TH2D( "rapPt", "rapPt", 64,-1.6,1.6,144,0,72); //  rap<1.5
            //rapPt = new TH2D( "rapPt", "rapPt", 52,-1.3,1.3,144,0,72); //  rap<1.2
            MassMin=3.576;//massPsi2S-onia::nSigMass*sigma2S;
            MassMax=3.786;//massPsi2S+onia::nSigMass*sigma2S;
            // sigma 34.9 MeV // pT > 7
            // sigma 34.3 MeV // pT > 10
            // mean 3.681 GeV
        }

        cout<<"Plotting rap-Pt for Psi"<<nState-3<<"S"<<endl;
        cout<<"MassMin for rap-Pt plot = "<<MassMin<<endl;
        cout<<"MassMax for rap-Pt plot = "<<MassMax<<endl;

        TTree *rapPtTree = (TTree*)rapPtData->tree();
        std::stringstream cutMass;
        cutMass<<"(chicMass > " << MassMin << " && chicMass < "<< MassMax << ")";
        //following two methods can only be used in root_v30, 34 does not work
        rapPtTree->Draw("chicPt:chicRap>>rapPt",cutMass.str().c_str(),"colz");
        cout<<"debug"<<endl;
        rapPtTree->Draw("TMath::Abs(chicRap)>>rap1p2",cutMass.str().c_str());

        TCanvas* c2 = new TCanvas("c2","c2",1200,1500);
        rapPt->SetYTitle("p_{T}(#mu#mu) [GeV]");
        rapPt->SetXTitle("y(#mu#mu)");
        gStyle->SetPalette(1);
        gPad->SetFillColor(kWhite);
        rapPt->SetTitle(0);
        rapPt->SetStats(0);
        gPad->SetLeftMargin(0.15);
        gPad->SetRightMargin(0.17);
        rapPt->GetYaxis()->SetTitleOffset(1.5);

        rapPt->Draw("colz");

        TLine* rapPtLine;

        for(int iRap=0; iRap<onia::kNbRapForPTBins+1; iRap++) {
            rapPtLine= new TLine( -onia::rapForPTRange[iRap], onia::pTRange[0][0], -onia::rapForPTRange[iRap], onia::pTRange[0][onia::kNbPTBins[iRap]] );
            rapPtLine->SetLineWidth( 2 );
            rapPtLine->SetLineStyle( 1 );
            rapPtLine->SetLineColor( kWhite );
            rapPtLine->Draw();
            rapPtLine= new TLine( onia::rapForPTRange[iRap], onia::pTRange[0][0], onia::rapForPTRange[iRap], onia::pTRange[0][onia::kNbPTBins[iRap]] );
            rapPtLine->SetLineWidth( 2 );
            rapPtLine->SetLineStyle( 1 );
            rapPtLine->SetLineColor( kWhite );
            rapPtLine->Draw();

            int pTBegin = 0;
            if(nState==5) pTBegin = 1;
            for(int iPt=pTBegin; iPt<onia::kNbPTBins[iRap+1]+1; iPt++) {
                rapPtLine= new TLine( -onia::rapForPTRange[onia::kNbRapForPTBins], onia::pTRange[0][iPt], onia::rapForPTRange[onia::kNbRapForPTBins], onia::pTRange[0][iPt] );
                rapPtLine->SetLineWidth( 2 );
                rapPtLine->SetLineStyle( 1 );
                rapPtLine->SetLineColor( kWhite );
                rapPtLine->Draw();
            }
        }

        char savename[200];
        sprintf(savename,"Figures/rapPt_Chi.pdf");
        c2->SaveAs(savename);

        TCanvas* c3 = new TCanvas("c3","c3",1500,1200);
        rap1p2->SetYTitle("Events");
        rap1p2->SetXTitle("y(#mu#mu)");
        rap1p2->SetTitle(0);
        rap1p2->SetStats(0);
        rap1p2->GetYaxis()->SetTitleOffset(1.2);
        rap1p2->Draw();
        sprintf(savename,"Figures/rap_Chi_1p2.pdf");
        c3->SaveAs(savename);
    }

    f->Close();
}
void createWorkspace(const std::string &infilename, int nState, bool correctCtau, bool drawRapPt2D, bool drawPtCPM2D){
	gROOT->SetStyle("Plain");
	gStyle->SetTitleBorderSize(0);

	// Set some strings
	const std::string workspacename = "ws_masslifetime",
				treename = "selectedData";

	// Get the tree from the data file
	TFile *f = TFile::Open(infilename.c_str());
	TTree *tree = (TTree*)f->Get(treename.c_str());

	// Set branch addresses in tree to be able to import tree to roofit
	TLorentzVector* jpsi = new TLorentzVector;
	tree->SetBranchAddress("JpsiP",&jpsi);
	double CPMval = 0;
	tree->SetBranchAddress("CPM",&CPMval);
	double massErr = 0;
	tree->SetBranchAddress("JpsiMassErr",&massErr);
	double Vprob = 0;
	tree->SetBranchAddress("JpsiVprob",&Vprob);
	double lifetime = 0;
	tree->SetBranchAddress("Jpsict",&lifetime);
	double lifetimeErr = 0;
	tree->SetBranchAddress("JpsictErr",&lifetimeErr);

	// define variables necessary for J/Psi(Psi(2S)) mass,lifetime fit
	RooRealVar* JpsiMass =
		new RooRealVar("JpsiMass", "M [GeV]", onia::massMin, onia::massMax);
	RooRealVar* JpsiMassErr =
		new RooRealVar("JpsiMassErr", "#delta M [GeV]", 0, 5);
	RooRealVar* JpsiRap =
		new RooRealVar("JpsiRap", "y", -onia::rap, onia::rap);
	RooRealVar* JpsiPt =
		new RooRealVar("JpsiPt", "p_{T} [GeV]", 0. ,100.);
	RooRealVar* JpsiCPM =
		new RooRealVar("JpsiCPM", "N_{ch}", 0. ,100.);		
	RooRealVar* Jpsict =
		new RooRealVar("Jpsict", "lifetime [mm]", -1., 2.5);
	RooRealVar* JpsictErr =
		new RooRealVar("JpsictErr", "Error on lifetime [mm]", 0.0001, 1);
	RooRealVar* JpsiVprob =
		new RooRealVar("JpsiVprob", "", 0.01, 1.);

	// Set bins
	Jpsict->setBins(10000,"cache");
	Jpsict->setBins(100);
	JpsiMass->setBins(100);
	JpsictErr->setBins(100);

	// The list of data variables    
	RooArgList dataVars(*JpsiMass,*JpsiMassErr,*JpsiRap,*JpsiPt,*JpsiCPM,*Jpsict,*JpsictErr,*JpsiVprob);

	// construct dataset to contain events
	RooDataSet* fullData = new RooDataSet("fullData","The Full Data From the Input ROOT Trees",dataVars);

	int entries = tree->GetEntries();
	cout << "entries " << entries << endl;

	// loop through events in tree and save them to dataset
	for (int ientries = 0; ientries < entries; ientries++) {
	
		if (ientries%100000==0) std::cout << "event " << ientries << " of " << entries <<  std::endl;

		tree->GetEntry(ientries);

		double M =jpsi->M();
		double y=jpsi->Rapidity();
		double pt=jpsi->Pt();
		double cpm=CPMval;


		if (M > JpsiMass->getMin() && M < JpsiMass->getMax()
				&& massErr > JpsiMassErr->getMin() && massErr < JpsiMassErr->getMax()
				&& pt > JpsiPt->getMin() && pt < JpsiPt->getMax()
				&& cpm > JpsiCPM->getMin() && cpm < JpsiCPM->getMax()
				&& y > JpsiRap->getMin() && y < JpsiRap->getMax()
				&& lifetime > Jpsict->getMin() && lifetime < Jpsict->getMax()
				&& lifetimeErr > JpsictErr->getMin() && lifetimeErr < JpsictErr->getMax()
				&& Vprob > JpsiVprob->getMin() && Vprob < JpsiVprob->getMax()
			 ){

			JpsiPt      ->setVal(pt); 
			JpsiCPM		->setVal(cpm);
			JpsiRap     ->setVal(y); 
			JpsiMass    ->setVal(M);
			JpsiMassErr ->setVal(massErr);
			JpsiVprob   ->setVal(Vprob);

			//cout<<"before lifetime correction \n"
			//	<<"Jpsict: "<<lifetime<<" JpsictErr: "<<lifetimeErr<<endl;

			if(correctCtau){
				lifetime    = lifetime    * onia::MpsiPDG / M ;
				lifetimeErr = lifetimeErr * onia::MpsiPDG / M ;
				Jpsict    ->setVal(lifetime);
				JpsictErr ->setVal(lifetimeErr);
				//cout<<"MpsiPDG: "<<onia::MpsiPDG<<endl;
				//cout<<"after lifetime correction \n"
				//	<<"Jpsict: "<<lifetime<<" JpsictErr: "<<lifetimeErr<<endl;
			}
			else{
				Jpsict    ->setVal(lifetime);
				JpsictErr ->setVal(lifetimeErr);
			}

			fullData->add(dataVars);
		}
	}//ientries


	//------------------------------------------------------------------------------------------------------------------
	// Define workspace and import datasets

	////Get datasets binned in pT, cpm, and y

		for(int iRap = 1; iRap <= onia::kNbRapForPTBins; iRap++){ 

		Double_t yMin;
		Double_t yMax;
		if(iRap==0){
			yMin = onia::rapForPTRange[0];
			yMax = onia::rapForPTRange[onia::kNbRapForPTBins];
		} else{
			yMin = onia::rapForPTRange[iRap-1];
			yMax = onia::rapForPTRange[iRap];
		}

		for(int iPT = 1; iPT <= onia::kNbPTBins[iRap]; iPT++){
			//for(int iPT = 0; iPT <= 0; iPT++)

			Double_t ptMin;
			Double_t ptMax;
			if(iPT==0){
				ptMin = onia::pTRange[iRap][0];
				ptMax = onia::pTRange[iRap][onia::kNbPTBins[0]];
			} else{
				ptMin = onia::pTRange[iRap][iPT-1];
				ptMax = onia::pTRange[iRap][iPT];
			}
			
		  for(int iCPM = 1; iCPM <= onia::NchBins; iCPM++){
		  
		  
	  	    Double_t cpmMin;
			Double_t cpmMax;
			if(iCPM==0){
				cpmMin = onia::cpmRange[0];
				cpmMax = onia::cpmRange[onia::NchBins];
			} else{
				cpmMin = onia::cpmRange[iCPM-1];
				cpmMax = onia::cpmRange[iCPM];
			}

			// output file name and workspace
			std::stringstream outfilename;
			outfilename << "tmpFiles/backupWorkSpace/fit_Psi" << nState-3 << "S_rap" << iRap << "_pt" << iPT << "_cpm" << iCPM << ".root";
//			outfilename << "tmpFiles/fit_Psi" << nState-3 << "S_rap" << iRap << "_pt" << iPT << ".root";			
			RooWorkspace* ws = new RooWorkspace(workspacename.c_str());

			// define pt and y cuts on dataset
			std::stringstream cutString;
			cutString << "(JpsiCPM > " << cpmMin << " && JpsiCPM < "<< cpmMax << ") && " << "(JpsiPt >= " << ptMin << " && JpsiPt < "<< ptMax << ") && "
				<< "(TMath::Abs(JpsiRap) >= " << yMin << " && TMath::Abs(JpsiRap) < " << yMax << ")";

			cout << "cutString: " << cutString.str().c_str() << endl;

			// get the dataset for the fit
			RooDataSet* binData = (RooDataSet*)fullData->reduce(cutString.str().c_str());
			std::stringstream name;
			name << "data_rap" << iRap << "_pt" << iPT << "_cpm" << iCPM;;
			binData->SetNameTitle(name.str().c_str(), "Data For Fitting");    

			// Import variables to workspace
			ws->import(*binData);
			ws->writeToFile(outfilename.str().c_str());
			
		  }//iCPM
		}//iPT
	}//iRap

	////---------------------------------------------------------------
	////--Integrating rapidity and pt bins, in +/- 3*sigma mass window
	////---------------------------------------------------------------
	if(drawRapPt2D){
		double yMin = onia::rapForPTRange[0];
		double yMax = onia::rapForPTRange[onia::kNbRapForPTBins];
		double ptMin =  onia::pTRange[0][0];
		double ptMax =  onia::pTRange[0][onia::kNbPTBins[0]];
		double cpmMin =  onia::cpmRange[0];
		double cpmMax =  onia::cpmRange[onia::NchBins];		

		std::stringstream cutRapPt;
		cutRapPt << "(JpsiCPM > " << cpmMin << " && JpsiCPM < "<< cpmMax << ") && "
			<< "(JpsiPt > " << ptMin << " && JpsiPt < "<< ptMax << ") && "
			<< "(TMath::Abs(JpsiRap) > " << yMin << " && TMath::Abs(JpsiRap) < " << yMax << ")";
		cout<<"cutRapPt: "<<cutRapPt.str().c_str()<<endl;

		RooDataSet* rapPtData = (RooDataSet*)fullData->reduce(cutRapPt.str().c_str());
		std::stringstream nameRapPt;
		nameRapPt << "data_rap0_pt0_cpm0";
		rapPtData->SetNameTitle(nameRapPt.str().c_str(), "Data For full rap and pt");

		// output file name and workspace
		std::stringstream outfilename;
		outfilename << "tmpFiles/backupWorkSpace/fit_Psi" << nState-3 << "S_rap0_pt0_cpm0.root";
		RooWorkspace* ws_RapPt = new RooWorkspace(workspacename.c_str());
		//Import variables to workspace
		ws_RapPt->import(*rapPtData);
		ws_RapPt->writeToFile(outfilename.str().c_str());

		TH2D* rapPt;
		TH1D* rap1p2;
		double MassMin;
		double MassMax;

		rap1p2 = new TH1D("rap1p2","rap1p2",30,0, 1.8); 
		if(nState==4){
			rapPt = new TH2D( "rapPt", "rapPt", 52,-1.3,1.3,144,0,72);
			MassMin=3.011;//massPsi1S-onia::nSigMass*sigma1S;
			MassMax=3.174;//massPsi1S+onia::nSigMass*sigma1S;
			// sigma  27.2 MeV
			// mean 3.093 GeV
		}
		if(nState==5){
			rapPt = new TH2D( "rapPt", "rapPt", 64,-1.6,1.6,144,0,72); //  rap<1.5
			//rapPt = new TH2D( "rapPt", "rapPt", 52,-1.3,1.3,144,0,72); //  rap<1.2
			MassMin=3.576;//massPsi2S-onia::nSigMass*sigma2S;
			MassMax=3.786;//massPsi2S+onia::nSigMass*sigma2S;
			// sigma 34.9 MeV // pT > 7
			// sigma 34.3 MeV // pT > 10
			// mean 3.681 GeV
		}

		cout<<"Plotting rap-Pt for Psi"<<nState-3<<"S"<<endl;
		cout<<"MassMin for rap-Pt plot = "<<MassMin<<endl;
		cout<<"MassMax for rap-Pt plot = "<<MassMax<<endl;

		TTree *rapPtTree = (TTree*)rapPtData->tree();
		std::stringstream cutMass;
		cutMass<<"(JpsiMass > " << MassMin << " && JpsiMass < "<< MassMax << ")";
		//following two methods can only be used in root_v30, 34 does not work
		rapPtTree->Draw("JpsiPt:JpsiRap>>rapPt",cutMass.str().c_str(),"colz");
		cout<<"debug"<<endl;
		rapPtTree->Draw("TMath::Abs(JpsiRap)>>rap1p2",cutMass.str().c_str());

		TCanvas* c2 = new TCanvas("c2","c2",1200,1500);
		rapPt->SetYTitle("p_{T}(#mu#mu) [GeV]");
		rapPt->SetXTitle("y(#mu#mu)");
		gStyle->SetPalette(1);
		gPad->SetFillColor(kWhite);
		rapPt->SetTitle(0);
		rapPt->SetStats(0);
		gPad->SetLeftMargin(0.15);
		gPad->SetRightMargin(0.17);
		rapPt->GetYaxis()->SetTitleOffset(1.5);
		rapPt->Draw("colz");

		TLine* rapPtLine;

		for(int iRap=0;iRap<onia::kNbRapForPTBins+1;iRap++){
			rapPtLine= new TLine( -onia::rapForPTRange[iRap], onia::pTRange[0][0], -onia::rapForPTRange[iRap], onia::pTRange[0][onia::kNbPTBins[iRap]] );
			rapPtLine->SetLineWidth( 2 );
			rapPtLine->SetLineStyle( 1 );
			rapPtLine->SetLineColor( kWhite );
			rapPtLine->Draw();
			rapPtLine= new TLine( onia::rapForPTRange[iRap], onia::pTRange[0][0], onia::rapForPTRange[iRap], onia::pTRange[0][onia::kNbPTBins[iRap]] );
			rapPtLine->SetLineWidth( 2 );
			rapPtLine->SetLineStyle( 1 );
			rapPtLine->SetLineColor( kWhite );
			rapPtLine->Draw();
			int pTBegin = 0;
			if(nState==5) pTBegin = 1;
			for(int iPt=pTBegin;iPt<onia::kNbPTBins[iRap]+1;iPt++){
				rapPtLine= new TLine( -onia::rapForPTRange[onia::kNbRapForPTBins], onia::pTRange[0][iPt], onia::rapForPTRange[onia::kNbRapForPTBins], onia::pTRange[0][iPt] );
				rapPtLine->SetLineWidth( 2 );
				rapPtLine->SetLineStyle( 1 );
				rapPtLine->SetLineColor( kWhite );
				rapPtLine->Draw();
			}
		}

		char savename[200];
		sprintf(savename,"Fit/rapPt_Psi%dS.pdf",nState-3);
		c2->SaveAs(savename);
		TCanvas* c3 = new TCanvas("c3","c3",1500,1200);
		rap1p2->SetYTitle("Events");
		rap1p2->SetXTitle("y(#mu#mu)");
		rap1p2->SetTitle(0);
		rap1p2->SetStats(0);
		rap1p2->GetYaxis()->SetTitleOffset(1.2);
		rap1p2->Draw();
		sprintf(savename,"Fit/rapDimuon_1p2_Psi%dS.pdf",nState-3);
		c3->SaveAs(savename);
	}
	
	if(drawPtCPM2D){
		double yMin = onia::rapForPTRange[0];
		double yMax = onia::rapForPTRange[onia::kNbRapForPTBins];
		double ptMin =  onia::pTRange[0][0];
		double ptMax =  onia::pTRange[0][onia::kNbPTBins[0]];
		double cpmMin =  onia::cpmRange[0];
		double cpmMax =  onia::cpmRange[onia::NchBins];		

		std::stringstream cutRapPt;
		cutRapPt << "(JpsiCPM > " << cpmMin << " && JpsiCPM < "<< cpmMax << ") && "
			<< "(JpsiPt > " << ptMin << " && JpsiPt < "<< ptMax << ") && "
			<< "(TMath::Abs(JpsiRap) > " << yMin << " && TMath::Abs(JpsiRap) < " << yMax << ")";
		cout<<"cutRapPt: "<<cutRapPt.str().c_str()<<endl;

		RooDataSet* rapPtData = (RooDataSet*)fullData->reduce(cutRapPt.str().c_str());
		std::stringstream nameRapPt;
		nameRapPt << "data_rap0_pt0_cpm0";
		rapPtData->SetNameTitle(nameRapPt.str().c_str(), "Data For full rap and pt");

		// output file name and workspace
		std::stringstream outfilename;
		outfilename << "tmpFiles/backupWorkSpace/fit_Psi" << nState-3 << "S_rap0_pt0_cpm0.root";
		RooWorkspace* ws_RapPt = new RooWorkspace(workspacename.c_str());
		//Import variables to workspace
		ws_RapPt->import(*rapPtData);
		ws_RapPt->writeToFile(outfilename.str().c_str());

		TH2D* PtCPM;
		double MassMin;
		double MassMax;

		if(nState==4){
			PtCPM = new TH2D( "PtCPM", "PtCPM", 100,0,50,200,0,100);
			MassMin=3.011;//massPsi1S-onia::nSigMass*sigma1S;
			MassMax=3.174;//massPsi1S+onia::nSigMass*sigma1S;
			// sigma  27.2 MeV
			// mean 3.093 GeV
		}
		if(nState==5){
			PtCPM = new TH2D( "PtCPM", "PtCPM", 100,0,50,200,0,100); //  rap<1.5
			//rapPt = new TH2D( "rapPt", "rapPt", 52,-1.3,1.3,144,0,72); //  rap<1.2
			MassMin=3.576;//massPsi2S-onia::nSigMass*sigma2S;
			MassMax=3.786;//massPsi2S+onia::nSigMass*sigma2S;
			// sigma 34.9 MeV // pT > 7
			// sigma 34.3 MeV // pT > 10
			// mean 3.681 GeV
		}

		cout<<"Plotting Pt-CPM for Psi"<<nState-3<<"S"<<endl;
		cout<<"MassMin for Pt-CPM plot = "<<MassMin<<endl;
		cout<<"MassMax for Pt-CPM plot = "<<MassMax<<endl;

		TTree *rapPtTree = (TTree*)rapPtData->tree();
		std::stringstream cutMass;
		cutMass<<"(JpsiMass > " << MassMin << " && JpsiMass < "<< MassMax << ")";
		//following two methods can only be used in root_v30, 34 does not work
		rapPtTree->Draw("JpsiCPM:JpsiPt>>PtCPM",cutMass.str().c_str(),"colz");
		cout<<"debug"<<endl;

		TCanvas* c2 = new TCanvas("c2","c2",1200,1500);
		PtCPM->SetYTitle("N_{ch}");
		PtCPM->SetXTitle("p_{T}(#mu#mu) [GeV]");
		gStyle->SetPalette(1);
		gPad->SetFillColor(kWhite);
		PtCPM->SetTitle(0);
		PtCPM->SetStats(0);
		gPad->SetLeftMargin(0.15);
		gPad->SetRightMargin(0.17);
		PtCPM->GetYaxis()->SetTitleOffset(1.5);
		PtCPM->Draw("colz");

		TLine* PtCPMLine;

		int iRap=0;
		for(int iPt=0;iPt<onia::kNbPTMaxBins+1;iPt++){
		int cpmBegin = 0;
			if(nState==5) cpmBegin = 1;
			for(int icpm=cpmBegin;icpm<onia::NchBins+1;icpm++){
			
			PtCPMLine= new TLine( onia::pTRange[iRap][0], onia::cpmRange[icpm], onia::pTRange[iRap][onia::kNbPTMaxBins], onia::cpmRange[icpm] );
			PtCPMLine->SetLineWidth( 2 );
			PtCPMLine->SetLineStyle( 1 );
			PtCPMLine->SetLineColor( kWhite );
			PtCPMLine->Draw();
			PtCPMLine= new TLine( onia::pTRange[iRap][iPt], onia::cpmRange[0], onia::pTRange[iRap][iPt], onia::cpmRange[onia::NchBins] );
			PtCPMLine->SetLineWidth( 2 );
			PtCPMLine->SetLineStyle( 1 );
			PtCPMLine->SetLineColor( kWhite );
			PtCPMLine->Draw();

			
//				PtCPMLine= new TLine( onia::pTRange[0][onia::kNbPTMaxBins], onia::cpmRange[icpm], onia::pTRange[0][onia::kNbPTMaxBins], onia::cpmRange[icpm] );
//				PtCPMLine->SetLineWidth( 2 );
//				PtCPMLine->SetLineStyle( 1 );
//				PtCPMLine->SetLineColor( kWhite );
//				PtCPMLine->Draw();
			}
		}

		char savename[200];
		sprintf(savename,"Fit/PtCPM_Psi%dS.pdf",nState-3);
		c2->SaveAs(savename);
	}

	f->Close();
}