void drawIaa( bool saveFigures=true) {
const int nPtBin = 4;
int ptBin[nPtBin+1] = {40, 50,60,80,9999};
double ptBinPaDraw[nPtBin+1] = { 40.5 ,49.5, 58.5, 76.5, 123. } ;
// double AvePtBin[nPtBin+1] = { 45, 54.1479, 67.4204, 99.6956, 9999};
const int nCentBinHI = 2;
const int centBinHI[nCentBinHI +1] = {-1, 10030, 13099};
TH1D* hJetPt[7][10][6]; // [Collision][centrality][pt]
TH1D* hIaa[10][6]; // [centrality][pt]
for (int icent=1 ; icent<= 10 ; icent++) {
for (int ipt=1 ; ipt<=nPtBin ; ipt++) {
hIaa[icent][ipt] = NULL;
for (int icoll=0 ; icoll<6 ; icoll++) {
hJetPt[icoll][icent][ipt] = NULL;
}
}
}
TFile* histFile[7][6]; // [Collision][pt]
for (int ipt=1 ; ipt<=nPtBin ; ipt++) {
for (int icoll=0 ; icoll<6 ; icoll++) {
TString sampleName = getSampleName( icoll ) ;
char* fname = Form("ffFiles/jetEnergyResL2L3_smeared/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131018.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/centralValue/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/centralOct16th/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131016.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/jetEnergyResCorrectedOct16th/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131016.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/jetEnergyScaledMinus2percentOct17/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131017.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/ak5Cone/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131017.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
//char* fname = Form("ffFiles/jetEnergyResCorrected/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
//char* fname = Form("ffFiles/jetEnergyScaledPlus2percent/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/jetEnergyScaledMinus2percent/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/noElectronRejection/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
//char* fname = Form("ffFiles/leadingJetAnalysis/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/jetEnergySmearedBy10percent/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
// char* fname = Form("ffFiles/photonEnergyScaled/photonTrackCorr_%s_output_photonPtThr%d_to_%d_jetPtThr30_20131011_photonEnergyScaledBy-0.015.root",sampleName.Data(), (int)ptBin[ipt-1], 9999);
histFile[icoll][ipt] = new TFile(fname) ;
cout << " Reading file : " << fname << endl;
if ( histFile[icoll][ipt]->IsZombie() == false ) {
cout << " Success." << endl;
if ( (icoll == kPPDATA) || (icoll == kPPMC) ) { // PP
int icent = 7 ;
hJetPt[icoll][icent][ipt] = (TH1D*)histFile[icoll][ipt]->Get(Form("jetPtForIaa_icent%d_final", icent)) ;
cout << " Getting histogram : " << Form("jetPt_icent%d_final", icent) << endl;
// hJetPt[icoll][7][ipt]->Rebin(10);
// hJetPt[icoll][7][ipt]->Scale(1./10);
}
if ( ( icoll == kHIDATA) || (icoll == kHIMC) ) { // PbPb
for ( int icent = 1; icent <= nCentBinHI ; icent++ ) {
hJetPt[icoll][icent][ipt] = (TH1D*)histFile[icoll][ipt]->Get(Form("jetPtForIaa_icent%d_final", centBinHI[icent] ) );
cout << " Getting histogram : " << Form("jetPt_icent%d_final", centBinHI[icent] ) << endl;
// hJetPt[icoll][icent][ipt]->Rebin(10);
//hJetPt[icoll][icent][ipt]->Scale(1/10.);
}
}
}
else
cout << " no such file " << endl;
}
}
// Calculation of IAA
for ( int icent = 1; icent <= nCentBinHI ; icent++ ) {
for (int ipt=1 ; ipt<=nPtBin ; ipt++) {
hIaa[icent][ipt] = (TH1D*)hJetPt[kHIDATA][icent][ipt]->Clone(Form("iaa_%s",hJetPt[kHIDATA][icent][ipt]->GetName()));
hIaa[icent][ipt]->Divide(hJetPt[kPPDATA][7][ipt]);
}
}
TH1D* hTempPt = new TH1D("hTemp",";p_{T}^{#gamma} (GeV);",200,10,300);
TCanvas* c2 = new TCanvas("c2","",1000,450);
makeMultiPanelCanvas(c2,nPtBin,2,0.0,0.0,0.2,0.15,0.02);
for ( int ipt = 1 ; ipt<=nPtBin ; ipt++) {
c2->cd(ipt);
// draw pp
hTempPt->SetXTitle("p_{T}^{Jet} (GeV)");
hTempPt->SetYTitle("#frac{dN}{dp_{T}} #frac{1}{N^{#gamma}}");
hTempPt->SetAxisRange(30,200,"X");
// hTempPt->SetAxisRange(0,0.025,"Y");
hTempPt->SetAxisRange(0.00007,0.11,"Y");
handsomeTH1(hTempPt,0);
hTempPt->DrawCopy();
gPad->SetLogy();
handsomeTH1(hJetPt[kPPDATA][7][ipt], 1);
hJetPt[kPPDATA][7][ipt]->SetMarkerStyle(24);
hJetPt[kPPDATA][7][ipt]->Draw("same");
// draw pbpb
for ( int icent = 1; icent <= nCentBinHI ; icent++ ) {
handsomeTH1(hJetPt[kHIDATA][icent][ipt],kRed);
if ( icent == 2 ) hJetPt[kHIDATA][icent][ipt]->SetMarkerStyle(24);
hJetPt[kHIDATA][icent][ipt]->Draw("same");
}
double dx1=0.15;
drawText(Form("p_{T}^{#gamma} > %dGeV, ", (int)ptBin[ipt-1]), 0.12+dx1+0.25,0.85,1,15);
/*
if ( ipt == nPtBin )
drawText(Form("p_{T}^{#gamma} > %dGeV, ", (int)ptBin[ipt-1]), 0.12+dx1+0.25,0.85,1,15);
else
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV, ", (int)ptBin[ipt-1], (int)ptBin[ipt]), 0.12+dx1,0.85,1,15);
*/
onSun(30,0,200,0);
c2->cd(ipt + nPtBin);
hTempPt->SetAxisRange(0,2.5,"Y");
hTempPt->SetYTitle("Ratio of Yield PbPb/pp");
handsomeTH1(hTempPt,0);
hTempPt->DrawCopy();
for ( int icent = 1; icent <= nCentBinHI ; icent++ ) {
handsomeTH1(hIaa[icent][ipt],kRed);
if ( icent == 2 ) hIaa[icent][ipt]->SetMarkerStyle(24);
// if ( icent == 1 )
hIaa[icent][ipt]->Draw("same");
jumSun(30,1,200,1);
}
}
c2->cd(1);
TLegend *l2 = new TLegend(0.5933981,0.3877892,0.9981436,0.7857262,NULL,"brNDC");
easyLeg(l2,"2.76TeV");
l2->AddEntry(hJetPt[kPPDATA][7][1],"pp", "p");
l2->AddEntry(hJetPt[kHIDATA][2][1],"PbPb 30-100%", "p");
l2->AddEntry(hJetPt[kHIDATA][1][1],"PbPb 0-30%", "p");
l2->Draw();
if (saveFigures) c2->SaveAs("figures/pT_dependence_IAA_figure1.pdf");
if (saveFigures) c2->SaveAs("figures/pT_dependence_IAA_figure1.gif");
TFile * fResults = new TFile("resultHistograms.root","update");
for ( int ipt = 1 ; ipt<=nPtBin ; ipt++) {
hJetPt[kPPDATA][7][ipt]->SetName(Form("dNdJetPt_forIaa_pp_ptBin%dAndHigher",ipt));
hJetPt[kPPDATA][7][ipt]->Write();
for ( int icent = 1; icent <= nCentBinHI ; icent++ ) {
hJetPt[kHIDATA][icent][ipt]->SetName(Form("dNdJetPt_forIaa_pbpb_centralityBin%d_ptBin%dAndHigher",icent,ipt));
hJetPt[kHIDATA][icent][ipt]->Write();
hIaa[icent][ipt]->SetName(Form("Ryaa_centralityBin%d_ptBin%dAndHigher",icent,ipt));
hIaa[icent][ipt]->Write();
}
}
fResults->Close();
}
void compInclJetFrag()
{
// Jet Selection: used for jet selecting the jets
// TCut jetSelCut[2] = {"jetPt>100&&jetPt<300","jetPt>100&&jetPt<300"};
// TCut jetSelCut[2] = {"jetPtGM>100&&jetPtGM<300","jetPtGM>100&&jetPtGM<300"};
TCut jetSelCut[2] = {"jetPt>100&&jetPt<300","jetPtGM>100&&jetPtGM<300"};
// TCut jetSelCut[2] = {"jetPtGM<100","jetPtGM>100&&jetPtGM<300"};
// Jet Alias: used for plotting the selected jets.
// TString jetAlias[2] = {"jetPt","jetPt"};
// TString jetAlias[2] = {"jetPtGM","jetPtGM"};
TString jetAlias[2] = {"jetPt","jetPtGM"};
multiTreeUtil vmt[2];
// measurement in MC
// smeared pp
// vmt[0].addFile("../ntout/jskim_dj80_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root","tdj", jetSelCut[0] && "pthat>=80&&pthat<120", 9.913e-5*1.e9); // no centrality cut
// vmt[0].addFile("../ntout/jskim_dj120_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root","tdj", jetSelCut[0] && "pthat>=120&&pthat<9999", 1.128e-5*1.e9); // no centrality cut
// unsmeared pp
// vmt[0].addFile("../ntout/jskim_dj80_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm0bin0_ak3PF_gj0.root","tdj", jetSelCut[0] && "pthat>=80&&pthat<120", 9.913e-5*1.e9); // no centrality cut
// vmt[0].addFile("../ntout/jskim_dj120_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm0bin0_ak3PF_gj0.root","tdj", jetSelCut[0] && "pthat>=120&&pthat<9999", 1.128e-5*1.e9); // no centrality cut
// pbpb
TCut centCut = "cBin>=0&&cBin<4";
vmt[0].addFile("../ntout/jskim_hydj80_akPu3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=80&&pthat<100",9.913e-5*1.e9);
// vmt[0].addFile("../ntout/jskim_hydj120_akPu3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=120&&pthat<9999",1.128e-5*1.e9);
vmt[0].addFile("../ntout/jskim_hydj100_akPu3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=100&&pthat<9999",3.069e-5*1.e9);
// vmt[0].addFile("../ntout/jskim_hydj120_akPu3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=120&&pthat<9999",1.128e-5*1.e9);
// reference
// unsmeared pp
// vmt[1].addFile("../ntout/jskim_dj80_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm0bin0_ak3PF_gj0.root","tdj", jetSelCut[1] && "pthat>=80&&pthat<120", 9.913e-5*1.e9); // no centrality cut
// vmt[1].addFile("../ntout/jskim_dj120_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm0bin0_ak3PF_gj0.root","tdj", jetSelCut[1] && "pthat>=120&&pthat<9999", 1.128e-5*1.e9); // no centrality cut
// smeared pp
// vmt[1].addFile("../ntout/jskim_dj80_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root","tdj", jetSelCut[1] && "pthat>=80&&pthat<120", 9.913e-5*1.e9); // no centrality cut
// vmt[1].addFile("../ntout/jskim_dj120_ak3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root","tdj", jetSelCut[1] && "pthat>=120&&pthat<9999", 1.128e-5*1.e9); // no centrality cut
// pbpb
vmt[1].addFile("../ntout/jskim_hydj80_akPu3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[1] && centCut && "pthat>=80&&pthat<100",9.913e-5*1.e9);
vmt[1].addFile("../ntout/jskim_hydj100_akPu3PF_Jan17_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[1] && centCut && "pthat>=100&&pthat<9999",3.069e-5*1.e9);
for (int i=0; i<2; ++i) {
vmt[i].NormalizeScales(2,"","hEvtCentNoSkim");
}
for (int i=0; i<2; ++i) {
vmt[i].AddFriend("yTrk=yongsunTrack");
vmt[i].AddFriend("genPar");
vmt[i].SetAlias("finalJetPt",jetAlias[i]);
cout << "(input " << i << ") finalJetPt = " << vmt[i].trees_[0]->GetAlias("finalJetPt") << endl;
}
TFile * ouf = new TFile("hists.root","recreate");
// Draw jet
TCut jetCut="abs(jetEta)<2&&abs(jetEta)>0.3";
TH1D * hJetPt[2];
for (int i=0; i<2; ++i) {
hJetPt[i] = new TH1D(Form("hJetPt_%d",i),";Jet p_{T} (GeV/c);",20,0,400);
vmt[i].Draw(hJetPt[i],"finalJetPt",jetCut,"1");
}
// Check Normalization
TCanvas * c0 = new TCanvas("c0","c0",400,650,600,300);
c0->Divide(2,1);
c0->cd(1);
gPad->SetLogy();
cleverRange(hJetPt[0],hJetPt[1],5);
hJetPt[0]->DrawCopy("E");
hJetPt[1]->DrawCopy("same hist");
c0->cd(2);
TH1D * hJetPtUnNormRat = (TH1D*)hJetPt[0]->Clone(Form("%s_unnormrat",hJetPt[0]->GetName()));
hJetPtUnNormRat->Divide(hJetPt[1]);
hJetPtUnNormRat->SetAxisRange(0,2,"Y");
hJetPtUnNormRat->Draw("E");
jumSun(0,1,400,1);
// Normalization
float nJet[2] = {0,0};
for (int i=0; i<2; ++i) {
nJet[i] = hJetPt[i]->Integral();
cout << "(input " << i << ") nJet = " << nJet[i] << endl;
}
// Draw Trk
// TCut trkCut="yTrk.jetMatch==1 && yTrk.jetDr<0.30 && yTrk.pt>1.00 && yTrk.pt<300.00";
// TString trkWeight="(yTrk.trkWeight)";
// TString trkWeight="(yTrk.trkWeight*(yTrk.trkWeight<3.5)+1.47*(yTrk.trkWeight>=3.5))";
TCut trkCut="abs(genPar.chg)>0 && genPar.jetMatch==1 && genPar.jetDr<0.30 && genPar.pt>1.00 && genPar.pt<300.00";
trkCut=trkCut&&"genPar.sube==0";
TString trkWeight="1";
TH1D * hTrkPt[2], * hXi[2];
for (int i=0; i<2; ++i) {
hTrkPt[i] = new TH1D(Form("hTrkPt_%d",i),";Track p_{T} (GeV/c);",20,1,101);
// vmt[i].Draw(hTrkPt[i],"yTrk.pt",jetCut&&trkCut,trkWeight);
vmt[i].Draw(hTrkPt[i],"genPar.pt",jetCut&&trkCut,trkWeight);
hXi[i] = new TH1D(Form("hXi_%d",i),";#xi = ln(1/z);",16,-1,7);
vmt[i].Draw(hXi[i],"log(finalJetPt/genPar.pt)",jetCut&&trkCut,trkWeight);
}
// Draw Jet and Trk
TH2D * hTrkJetPt2D[2], * hXiJetPt2D[2];
for (int i=0; i<2; ++i) {
hTrkJetPt2D[i] = new TH2D(Form("hTrkJetPt2D_%d",i),";Track p_{T} (GeV/c);Jet p_{T} (GeV/c);",20,1,101,20,0,400);
// vmt[i].Draw2D(hTrkJetPt2D[i],"yTrk.pt:finalJetPt",jetCut&&trkCut,trkWeight);
vmt[i].Draw2D(hTrkJetPt2D[i],"finalJetPt:genPar.pt",jetCut&&trkCut,trkWeight);
hXiJetPt2D[i] = new TH2D(Form("hXiJetPt2D_%d",i),";#xi = ln(1/z);Jet p_{T} (GeV/c);",16,-1,7,20,0,400);
vmt[i].Draw2D(hXiJetPt2D[i],"finalJetPt:log(finalJetPt/genPar.pt)",jetCut&&trkCut,trkWeight);
}
// Normalize
for (int i=0; i<2; ++i) {
hJetPt[i]->Scale(1./nJet[i]);
hTrkPt[i]->Scale(1./nJet[i]);
hXi[i]->Scale(1./nJet[i]);
hTrkJetPt2D[i]->Scale(1./nJet[i]);
hXiJetPt2D[i]->Scale(1./nJet[i]);
}
// Draw
TCanvas * c2 = new TCanvas("c2","c2",1000,650,600,300);
c2->Divide(2,1);
c2->cd(1);
gPad->SetLogy();
hJetPt[0]->Draw("E");
hJetPt[1]->Draw("same hist");
c2->cd(2);
TH1D * hJetPtRat = (TH1D*)hJetPt[0]->Clone(Form("%s_rat",hJetPt[0]->GetName()));
hJetPtRat->Divide(hJetPt[1]);
hJetPtRat->SetAxisRange(0,2,"Y");
hJetPtRat->Draw("E");
jumSun(0,1,400,1);
TCanvas * c3 = new TCanvas("c3","c3",100,0,600,300);
c3->Divide(2,1);
c3->cd(1);
gPad->SetLogy();
gPad->SetLogx();
hTrkPt[0]->Draw("E");
hTrkPt[1]->Draw("same hist");
c3->cd(2);
gPad->SetLogx();
TH1D * hTrkPtRat = (TH1D*)hTrkPt[0]->Clone(Form("%s_rat",hTrkPt[0]->GetName()));
hTrkPtRat->Divide(hTrkPt[1]);
hTrkPtRat->SetAxisRange(0,2,"Y");
hTrkPtRat->Draw("E");
jumSun(1,1,100,1);
TCanvas * c4 = new TCanvas("c4","c4",700,0,900,300);
c4->Divide(3,1);
c4->cd(1);
gPad->SetRightMargin(0.15);
gPad->SetLogx();
gPad->SetLogz();
hTrkJetPt2D[0]->SetAxisRange(5e-3,1e1,"Z");
hTrkJetPt2D[0]->Draw("colz");
c4->cd(2);
gPad->SetRightMargin(0.15);
gPad->SetLogx();
gPad->SetLogz();
hTrkJetPt2D[1]->Draw("colz");
hTrkJetPt2D[1]->SetAxisRange(5e-3,1e1,"Z");
c4->cd(3);
gPad->SetRightMargin(0.15);
gPad->SetLogx();
TH1D * hTrkJetPt2DRat = (TH1D*)hTrkJetPt2D[0]->Clone(Form("%s_rat",hTrkJetPt2D[0]->GetName()));
hTrkJetPt2DRat->Divide(hTrkJetPt2D[1]);
hTrkJetPt2DRat->SetAxisRange(0.4,2,"Z");
hTrkJetPt2DRat->Draw("colz");
TCanvas * c5 = new TCanvas("c5","c5",100,325,600,300);
c5->Divide(2,1);
c5->cd(1);
gPad->SetLogy();
hXi[0]->Draw("E");
hXi[1]->Draw("same hist");
c5->cd(2);
TH1D * hXiRat = (TH1D*)hXi[0]->Clone(Form("%s_rat",hXi[0]->GetName()));
hXiRat->Divide(hXi[1]);
hXiRat->SetAxisRange(0,2,"Y");
hXiRat->Draw("E");
jumSun(0,1,6,1);
TCanvas * c6 = new TCanvas("c6","c6",700,325,900,300);
c6->Divide(3,1);
c6->cd(1);
gPad->SetRightMargin(0.15);
gPad->SetLogz();
hXiJetPt2D[0]->SetAxisRange(2e-6,5,"Z");
hXiJetPt2D[0]->Draw("colz");
c6->cd(2);
gPad->SetRightMargin(0.15);
gPad->SetLogz();
hXiJetPt2D[1]->Draw("colz");
hXiJetPt2D[1]->SetAxisRange(2e-6,5,"Z");
c6->cd(3);
gPad->SetRightMargin(0.15);
TH1D * hXiJetPt2DRat = (TH1D*)hXiJetPt2D[0]->Clone(Form("%s_rat",hXiJetPt2D[0]->GetName()));
hXiJetPt2DRat->Divide(hXiJetPt2D[1]);
hXiJetPt2DRat->SetAxisRange(0.4,2,"Z");
hXiJetPt2DRat->Draw("colz");
// Check
// TCanvas * cc = new TCanvas("cc","cc",2);
// hTrkPt[0]->Draw("hist");
// hTrkJetPt2D[0]->ProjectionY(Form("%s_py",hTrkJetPt2D[0]->GetName()))->Draw("sameE");
// hJetPt[0]->Scale(1./nJet[0]);
// hJetPt[0]->Draw("hist");
// hTrkJetPt2D[0]->ProjectionX(Form("%s_px",hTrkJetPt2D[0]->GetName()))->Draw("sameE");
}
void drawTrackingClosure()
{
TCut centCut = "cBin>=0&&cBin<4";
TCut jetSelCut[2] = {"jetPt>100&&jetPt<300&&jetUnSmPt<100","jetPt>100&&jetPt<300&&jetUnSmPt<100"};
// TCut jetSelCut[2] = {"jetUnSmPt>100&&jetUnSmPt<300","jetUnSmPt>100&&jetUnSmPt<300"};
TString jetAlias[2] = {"jetPt","jetPt"};
// TString jetAlias[2] = {"jetUnSmPt","jetUnSmPt"};
multiTreeUtil vmt[2];
// Mar 04
// hi
vmt[0].addFile("../ntout/jskim_hydj80_akPu3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=80&&pthat<100",9.913e-5*1.e9);
vmt[0].addFile("../ntout/jskim_hydj100_akPu3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=100&&pthat<170",3.069e-5*1.e9);
vmt[0].addFile("../ntout/jskim_hydj170_akPu3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[0] && centCut && "pthat>=170&&pthat<9999",1.470e-6*1.e9);
vmt[1].addFile("../ntout/jskim_hydj80_akPu3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[1] && centCut && "pthat>=80&&pthat<100",9.913e-5*1.e9);
vmt[1].addFile("../ntout/jskim_hydj100_akPu3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[1] && centCut && "pthat>=100&&pthat<170",3.069e-5*1.e9);
vmt[1].addFile("../ntout/jskim_hydj170_akPu3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm1bin0_akPu3PF_gj0.root", "tdj", jetSelCut[1] && centCut && "pthat>=170&&pthat<9999",1.470e-6*1.e9);
// pp
// vmt[0].addFile("../ntout/jskim_dj80_ak3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root", "tdj", jetSelCut[0] && "pthat>=80&&pthat<120",9.913e-5*1.e9);
// vmt[0].addFile("../ntout/jskim_dj120_ak3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root", "tdj", jetSelCut[0] && "pthat>=120&&pthat<170",1.128e-5*1.e9);
// vmt[0].addFile("../ntout/jskim_dj170_ak3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root", "tdj", jetSelCut[0] && "pthat>=170&&pthat<9999",1.470e-6*1.e9);
// vmt[1].addFile("../ntout/jskim_dj80_ak3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root", "tdj", jetSelCut[1] && "pthat>=80&&pthat<120",9.913e-5*1.e9);
// vmt[1].addFile("../ntout/jskim_dj120_ak3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root", "tdj", jetSelCut[1] && "pthat>=120&&pthat<170",1.128e-5*1.e9);
// vmt[1].addFile("../ntout/jskim_dj170_ak3PF_Mar04job0_4bin_sm18_jetPt_60_jetEtaCut_2.00_noPbin_sm2bin1_ak3PF_gj0.root", "tdj", jetSelCut[1] && "pthat>=170&&pthat<9999",1.470e-6*1.e9);
for (int i=0; i<2; ++i) {
vmt[i].NormalizeScales(2,"","hEvtCentNoSkim");
}
TString annotation="#DeltaR<0.3";
TString tag="hiMar04job0trkcorr14d_dr3_limcorr_unsmptlt100";
// TString tag="ppMar04job0trkcorr14d_dr3_limcorr_sm2bin1";
for (int i=0; i<2; ++i) {
vmt[i].AddFriend("yTrk=yongsunTrack");
vmt[i].AddFriend("genPar");
vmt[i].SetAlias("finalJetPt",jetAlias[i]);
cout << "(input " << i << ") finalJetPt = " << vmt[i].trees_[0]->GetAlias("finalJetPt") << endl;
}
TFile * ouf = new TFile("hists.root","recreate");
// Draw jet
// TCut jetCut="abs(jetEta)<2";
TCut jetCut="abs(jetEta)<2&&abs(jetEta)>0.3";
TH1D * hJetPt[2];
for (int i=0; i<2; ++i) {
hJetPt[i] = new TH1D(Form("hJetPt_%d",i),";Jet p_{T} (GeV/c);",20,0,400);
vmt[i].Draw(hJetPt[i],"finalJetPt",jetCut,"1");
}
// Check Normalization
TCanvas * c0 = new TCanvas("c0","c0",805,0,800,400);
c0->Divide(2,1);
c0->cd(1);
gPad->SetLogy();
cleverRange(hJetPt[0],hJetPt[1],5);
handsomeTH1(hJetPt[0],kBlack);
handsomeTH1(hJetPt[1],kRed);
hJetPt[0]->SetYTitle("# of Jets");
hJetPt[0]->DrawCopy("E");
hJetPt[1]->DrawCopy("same hist");
c0->cd(2);
TH1D * hJetPtUnNormRat = (TH1D*)hJetPt[0]->Clone(Form("%s_unnormrat",hJetPt[0]->GetName()));
hJetPtUnNormRat->Divide(hJetPt[1]);
hJetPtUnNormRat->SetAxisRange(0,2,"Y");
hJetPtUnNormRat->Draw("E");
jumSun(0,1,400,1);
// Normalization
float nJet[2] = {0,0};
for (int i=0; i<2; ++i) {
nJet[i] = hJetPt[i]->Integral();
cout << "(input " << i << ") nJet = " << nJet[i] << endl;
}
// Draw Trk
float xminpt=1, xmaxpt=119;
TString trkVar[2]={"yTrk.pt","genPar.pt"};
TString xiVar[2]={"log(finalJetPt/yTrk.pt)","log(finalJetPt/genPar.pt)"};
// TCut trkCut[2]={
// "yTrk.jetMatch==1 && yTrk.jetDr<0.30 && yTrk.pt>1.00 && yTrk.pt<300.00 && yTrk.trkWeight<10",
// "abs(genPar.chg)>0 && genPar.jetMatch==1 && genPar.jetDr<0.30 && genPar.pt>1.00 && genPar.pt<300.00"
// };
// Signal Cone
TCut trkCut[2]={"yTrk.jetMatch==1&&yTrk.jetDr<0.30","abs(genPar.chg)>0 && genPar.jetMatch==1 && genPar.jetDr<0.30"};
// Bkg Cone
// TCut trkCut[2]={"yTrk.jetMatch==-1&&yTrk.jetDr<0.30","abs(genPar.chg)>0 && genPar.jetMatch==-1 && genPar.jetDr<0.30"};
// trkCut[1]=trkCut[1]&&"genPar.sube==0";
// TString trkWeight[2]={"(yTrk.trkWeight)","1"};
// TString trkWeight[2]={"((yTrk.trkWeight)*(1-yTrk.jetDr/0.3*0.08*(yTrk.jetDr<0.3)))","1"};
TString trkWeight[2]={"(yTrk.trkWeight*(yTrk.trkWeight<10)+1.47*(yTrk.trkWeight>=10))","1"};
TH1D * hTrkPt[2], * hXi[2];
for (int i=0; i<2; ++i) {
hTrkPt[i] = new TH1D(Form("hTrkPt_%d",i),";Track p_{T} (GeV/c);",nPtBin,ptBin);
vmt[i].Draw(hTrkPt[i],trkVar[i],jetCut&&trkCut[i],trkWeight[i]);
hXi[i] = new TH1D(Form("hXi_%d",i),";#xi = ln(1/z);",16,-1,7);
vmt[i].Draw(hXi[i],xiVar[i],jetCut&&trkCut[i],trkWeight[i]);
}
// Normalize
for (int i=0; i<2; ++i) {
hJetPt[i]->Scale(1./nJet[i]);
hJetPt[i]->SetYTitle("Jet Fraction");
normHist(hTrkPt[i],0,true,1./nJet[i]);
normHist(hXi[i],0,true,1./nJet[i]);
}
/////////////////////////////////////
// Draw Jet
/////////////////////////////////////
TCanvas * c2 = new TCanvas("c2","c2",805,425,800,400);
c2->Divide(2,1);
c2->cd(1);
gPad->SetLogy();
hJetPt[0]->Draw("E");
hJetPt[1]->Draw("same hist");
c2->cd(2);
TH1D * hJetPtRat = (TH1D*)hJetPt[0]->Clone(Form("%s_rat",hJetPt[0]->GetName()));
hJetPtRat->Divide(hJetPt[1]);
hJetPtRat->SetAxisRange(0,2,"Y");
hJetPtRat->Draw("E");
jumSun(0,1,400,1);
/////////////////////////////////////
// Draw Track Pt
/////////////////////////////////////
TCanvas * c3 = new TCanvas("c3","c3",10,0,800,400);
c3->Divide(2,1);
c3->cd(1);
gPad->SetLogy();
gPad->SetLogx();
handsomeTH1(hTrkPt[0],kBlack);
handsomeTH1(hTrkPt[1],kRed);
hTrkPt[0]->SetTitle(";p_{T}^{ Track} (GeV/c);1/N_{ jet} dN_{ Track} /dp_{T}");
hTrkPt[0]->Draw("E");
hTrkPt[1]->Draw("same hist");
TLegend * l1 = new TLegend(0.35,0.19,0.78,0.40,NULL,"brNDC");
easyLeg(l1,"",20);
l1->AddEntry(hTrkPt[0],annotation,"");
l1->AddEntry(hTrkPt[0],"Rec. Tracks","p");
l1->AddEntry(hTrkPt[1],"Gen. Partls","l");
l1->Draw();
c3->cd(2);
gPad->SetLogx();
TH1D * hTrkPtRat = (TH1D*)hTrkPt[0]->Clone(Form("%s_rat",hTrkPt[0]->GetName()));
hTrkPtRat->Divide(hTrkPt[1]);
hTrkPtRat->SetAxisRange(xminpt,xmaxpt,"X");
hTrkPtRat->SetAxisRange(0.5,1.5,"Y");
hTrkPtRat->SetYTitle("Ratio");
hTrkPtRat->Draw("E");
jumSun(xminpt,1,xmaxpt,1,kRed);
c3->Print(Form("closure/trackingClosure_pt_%s.gif",tag.Data()));
c3->Print(Form("closure/trackingClosure_pt_%s.pdf",tag.Data()));
/////////////////////////////////////
// Draw Xi
/////////////////////////////////////
TCanvas * c5 = new TCanvas("c5","c5",10,425,800,400);
c5->Divide(2,1);
c5->cd(1);
gPad->SetLogy();
handsomeTH1(hXi[0],kBlack);
handsomeTH1(hXi[1],kRed);
hXi[0]->SetTitle(";#xi = ln(1/z);1/N_{ jet} dN_{ track} /d#xi");
hXi[0]->Draw("E");
hXi[1]->Draw("same hist");
l1->Draw();
c5->cd(2);
TH1D * hXiRat = (TH1D*)hXi[0]->Clone(Form("%s_rat",hXi[0]->GetName()));
hXiRat->Divide(hXi[1]);
hXiRat->SetAxisRange(0.5,1.5,"Y");
hXiRat->SetYTitle("Ratio");
hXiRat->Draw("E");
jumSun(0,1,6,1,kRed);
c5->Print(Form("closure/trackingClosure_xi_%s.gif",tag.Data()));
c5->Print(Form("closure/trackingClosure_xi_%s.pdf",tag.Data()));
}
void drawPtDependenceOfDpt(bool drawPbPb=1, int xNorm = 1) {
gStyle -> SetOptStat(0);
const int nPtBin = 5;
double ptBin[nPtBin+1] = {40, 50,60,80,120,9999};
double AvePtBin[nPtBin+1] = { 45, 54.1479, 67.4204, 99.6956, 150, 9999};
TH1D* hxjg[7][1000]; // [species][centrality]
TH1D* hxjgNorm[7][1000];
TH1D* hdpt[7][1000];
TH1D* hdptNorm[7][1000];
TH1D* hdphi[7][1000];
valPair meanX[7][1000];
valPair meanDpt[7][1000];
valPair rjg[7][1000];
TGraphAsymmErrors* gr[7];
TGraphAsymmErrors* gx[7];
TGraphAsymmErrors* gdpt[7];
for (int i=0;i<7;i++) {
gr[i] = new TGraphAsymmErrors();
gr[i]->SetName(Form("gr_%d",i));
gx[i] = new TGraphAsymmErrors();
gx[i]->SetName(Form("gx_%d",i));
gdpt[i] = new TGraphAsymmErrors();
gdpt[i]->SetName(Form("gdpt_%d",i));
}
TFile* fff[7][1000];
for ( int ipt = 0 ; ipt<nPtBin ; ipt++) {
for ( int iSpecies=0 ; iSpecies<=5 ; iSpecies++){
if ( (iSpecies!=kPPDATA)&&(iSpecies!=kHIDATA) )
continue;
int iglb = ipt + iSpecies*50.;
int icent = -1;
if ( iSpecies == kPPDATA) {
icent = 7;
fff[iSpecies][iglb] = new TFile(Form("photonTrackCorr_ppDATA_output_photonPtThr%d_to_%d_jetPtThr30_20130816.root",(int)ptBin[ipt],(int)ptBin[ipt+1]));
}
if ( iSpecies == kHIDATA) {
icent = 10030;
// icent = 13099;
fff[iSpecies][iglb] = new TFile(Form("photonTrackCorr_pbpbDATA_output_photonPtThr%d_to_%d_jetPtThr30_20130816.root",(int)ptBin[ipt],(int)ptBin[ipt+1]));
}
cout << "hdphi" << endl;
hdphi[iSpecies][iglb] = (TH1D*)fff[iSpecies][iglb]->Get(Form("jetDphi_icent%d_final",icent));
hxjg[iSpecies][iglb] = (TH1D*)fff[iSpecies][iglb]->Get(Form("xjg_icent%d_final",icent));
hxjgNorm[iSpecies][iglb] = (TH1D*)hxjg[iSpecies][iglb]->Clone(Form("norm_%s",hxjg[iSpecies][iglb]->GetName()) );
meanX[iSpecies][iglb].val = hxjg[iSpecies][iglb]->GetMean();
meanX[iSpecies][iglb].err = hxjg[iSpecies][iglb]->GetMeanError();
gx[iSpecies]->SetPoint (ipt+1, AvePtBin[ipt], meanX[iSpecies][iglb].val);
gx[iSpecies]->SetPointError(ipt+1, 0.001,0.001, meanX[iSpecies][iglb].err, meanX[iSpecies][iglb].err);
hdpt[iSpecies][iglb] = (TH1D*)fff[iSpecies][iglb]->Get(Form("dpt_icent%d_final",icent));
hdptNorm[iSpecies][iglb] = (TH1D*)hdpt[iSpecies][iglb]->Clone(Form("norm_%s",hdpt[iSpecies][iglb]->GetName()) );
meanDpt[iSpecies][iglb].val = hdpt[iSpecies][iglb]->GetMean();
meanDpt[iSpecies][iglb].err = hdpt[iSpecies][iglb]->GetMeanError();
gdpt[iSpecies]->SetPoint (ipt+1, AvePtBin[ipt], meanDpt[iSpecies][iglb].val);
gdpt[iSpecies]->SetPointError(ipt+1, 0.001,0.001, meanDpt[iSpecies][iglb].err, meanDpt[iSpecies][iglb].err);
cout << "rError" << endl;
double rError;
rjg[iSpecies][iglb].val = hxjg[iSpecies][iglb]->IntegralAndError(1, hxjg[iSpecies][iglb]->GetNbinsX(), rError, "width");
rjg[iSpecies][iglb].err = rError;
gr[iSpecies]->SetPoint (ipt+1, AvePtBin[ipt], rjg[iSpecies][iglb].val);
gr[iSpecies]->SetPointError(ipt+1, 0.001,0.001, rjg[iSpecies][iglb].err, rjg[iSpecies][iglb].err);
}
}
cout << "finish!"<< endl;
//
//for PbPb 30-100 % !!
//
for ( int ipt = 0 ; ipt<nPtBin ; ipt++) {
cout << "in the for loop " << endl;
int iSpecies=6;
int iglb = ipt + iSpecies*50.;
int icent = 13099;
fff[iSpecies][iglb] = new TFile(Form("photonTrackCorr_pbpbDATA_output_photonPtThr%d_to_%d_jetPtThr30_20130816.root",(int)ptBin[ipt],(int)ptBin[ipt+1]));
hdphi[iSpecies][iglb] = (TH1D*)fff[iSpecies][iglb]->Get(Form("jetDphi_icent%d_final",icent));
hxjg[iSpecies][iglb] = (TH1D*)fff[iSpecies][iglb]->Get(Form("xjg_icent%d_final",icent));
hxjgNorm[iSpecies][iglb] = (TH1D*)hxjg[iSpecies][iglb]->Clone(Form("norm_%s",hxjg[iSpecies][iglb]->GetName()) );
meanX[iSpecies][iglb].val = hxjg[iSpecies][iglb]->GetMean();
meanX[iSpecies][iglb].err = hxjg[iSpecies][iglb]->GetMeanError();
gx[iSpecies]->SetPoint (ipt+1, AvePtBin[ipt], meanX[iSpecies][iglb].val);
gx[iSpecies]->SetPointError(ipt+1, 0.001,0.001, meanX[iSpecies][iglb].err, meanX[iSpecies][iglb].err);
hdpt[iSpecies][iglb] = (TH1D*)fff[iSpecies][iglb]->Get(Form("dpt_icent%d_final",icent));
hdptNorm[iSpecies][iglb] = (TH1D*)hdpt[iSpecies][iglb]->Clone(Form("norm_%s",hdpt[iSpecies][iglb]->GetName()) );
meanDpt[iSpecies][iglb].val = hdpt[iSpecies][iglb]->GetMean();
meanDpt[iSpecies][iglb].err = hdpt[iSpecies][iglb]->GetMeanError();
gdpt[iSpecies]->SetPoint (ipt+1, AvePtBin[ipt], meanDpt[iSpecies][iglb].val);
gdpt[iSpecies]->SetPointError(ipt+1, 0.001,0.001, meanDpt[iSpecies][iglb].err, meanDpt[iSpecies][iglb].err);
double rError;
rjg[iSpecies][iglb].val = hxjg[iSpecies][iglb]->IntegralAndError(1, hxjg[iSpecies][iglb]->GetNbinsX(), rError, "width");
rjg[iSpecies][iglb].err = rError;
gr[iSpecies]->SetPoint (ipt+1, AvePtBin[ipt], rjg[iSpecies][iglb].val);
gr[iSpecies]->SetPointError(ipt+1, 0.001,0.001, rjg[iSpecies][iglb].err, rjg[iSpecies][iglb].err);
}
TCanvas* c1 = new TCanvas("c1","",900,350);
makeMultiPanelCanvas(c1,nPtBin,1,0.0,0.0,0.2,0.15,0.02);
for ( int ipt = 0 ; ipt<nPtBin ; ipt++) {
c1->cd(ipt+1);
int iSpecies = kPPDATA;
int iglb = ipt + iSpecies*50.;
handsomeTH1(hdptNorm[iSpecies][iglb],1);
if (xNorm==1) scaleInt(hdptNorm[iSpecies][iglb]);
hdptNorm[iSpecies][iglb]->SetXTitle("x_{J,#gamma}");
hdptNorm[iSpecies][iglb]->SetYTitle("#frac{dN}{dx} #frac{1}{N}");
hdptNorm[iSpecies][iglb]->SetAxisRange(-100,100,"X");
if (xNorm==1) hdptNorm[iSpecies][iglb]->SetAxisRange(-.03,.6,"Y");
else hdptNorm[iSpecies][iglb]->SetAxisRange(-.03,.6,"Y");
hdptNorm[iSpecies][iglb]->SetMarkerStyle(24);
hdptNorm[iSpecies][iglb]->Draw();
iSpecies = kHIDATA;
iglb = ipt + iSpecies*50.;
if (xNorm==1) scaleInt(hdptNorm[iSpecies][iglb]);
handsomeTH1(hdptNorm[iSpecies][iglb],2);
if (drawPbPb) hdptNorm[iSpecies][iglb]->Draw("same");
//for PbPb 30-100 % !!
iSpecies = 6;
iglb = ipt + iSpecies*50.;
if (xNorm==1) scaleInt(hdptNorm[iSpecies][iglb]);
handsomeTH1(hdptNorm[iSpecies][iglb],2);
hdptNorm[iSpecies][iglb] -> SetMarkerStyle(24);
if (drawPbPb) hdptNorm[iSpecies][iglb]->Draw("same");
// onSun(0,0,2,0);
// onSun(meanX[iSpecies][iglb].val - meanX[iSpecies][iglb].err, 0, meanX[iSpecies][iglb].val+meanX[iSpecies][iglb].err,0,ycolor[ipt+1],2);
float dx1;
(ipt==0)? dx1=0.15 : dx1=0 ;
if ( ipt == nPtBin-1 )
drawText(Form("p_{T}^{#gamma} > %dGeV, p_{T}^{jet}>30GeV", (int)ptBin[ipt]), 0.12+dx1+0.25,0.889118,1,15);
else
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV, p_{T}^{jet}>30GeV", (int)ptBin[ipt], (int)ptBin[ipt+1]), 0.12+dx1,0.889118,1,15);
TLegend *l1 = new TLegend(0.6365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
easyLeg(l1,"2.76TeV");
l1->AddEntry(hdptNorm[kPPDATA][ipt + kPPDATA*50],"pp ","p");
if (drawPbPb) l1->AddEntry(hdptNorm[kHIDATA][iglb],"PbPb 0-30%","p");
if (drawPbPb) l1->AddEntry(hdptNorm[6][iglb],"PbPb 30-100%","p");
if ( ipt==0 ) l1->Draw();
}
// c1->SaveAs(Form("gifs/dpt_ptDependence_drawPbPb%d_norm%d.pdf",drawPbPb,xNorm));
TCanvas* cDphi = new TCanvas("cDphi","",900,350);
makeMultiPanelCanvas(cDphi,nPtBin,1,0.0,0.0,0.2,0.15,0.02);
for ( int ipt = 0 ; ipt<nPtBin ; ipt++) {
cDphi->cd(ipt+1);
int iSpecies = kPPDATA;
int iglb = ipt + iSpecies*50.;
handsomeTH1(hdphi[iSpecies][iglb],1);
hdphi[iSpecies][iglb]->SetYTitle("x_{J,#gamma}");
hdphi[iSpecies][iglb]->SetXTitle("#Delta#phi_{J,#gamma}");
hdphi[iSpecies][iglb]->Scale(1./hdphi[iSpecies][iglb]->Integral("width"));
hdphi[iSpecies][iglb]->SetAxisRange(0.01,30,"Y");
hdphi[iSpecies][iglb]->SetMarkerStyle(24);
hdphi[iSpecies][iglb]->Draw();
iSpecies = kHIDATA;
iglb = ipt + iSpecies*50.;
hdphi[iSpecies][iglb]->Scale(1./hdphi[iSpecies][iglb]->Integral("width"));
handsomeTH1(hdphi[iSpecies][iglb],2);
if (drawPbPb) hdphi[iSpecies][iglb]->Draw("same");
// for PbPb 30-100% !!!
iSpecies = 6;
iglb = ipt + iSpecies*50.;
hdphi[iSpecies][iglb]->Scale(1./hdphi[iSpecies][iglb]->Integral("width"));
handsomeTH1(hdphi[iSpecies][iglb],2);
hdphi[iSpecies][iglb] -> SetMarkerStyle(24);
if (drawPbPb) hdphi[iSpecies][iglb]->Draw("same");
gPad->SetLogy();
float dx1;
(ipt==0)? dx1=0.15 : dx1=0 ;
if ( ipt == nPtBin-1 )
drawText(Form("%dGeV<p_{T}^{#gamma}, p_{T}^{jet}>30GeV", (int)ptBin[ipt]), 0.15+dx1+0.25,0.889118,1,15);
else
drawText(Form("%dGeV<p_{T}^{#gamma}<%dGeV, p_{T}^{jet}>30GeV", (int)ptBin[ipt], (int)ptBin[ipt+1]), 0.15+dx1,0.889118,1,15);
TLegend *l1 = new TLegend(0.6365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
easyLeg(l1,"2.76TeV");
l1->AddEntry(hdphi[kPPDATA][ipt + kPPDATA*50],"pp ","p");
if (drawPbPb) l1->AddEntry(hdphi[kHIDATA][iglb],"PbPb 0-30%","p");
if (drawPbPb) l1->AddEntry(hdphi[6][iglb],"PbPb 30-100%","p");
if ( ipt==0 ) l1->Draw();
}
// cDphi->SaveAs(Form("gifs/dphi_ptDependence_drawPbPb%d_norm%d.pdf",drawPbPb,xNorm));
TCanvas* c2 = new TCanvas("c2","",800,400);
c2->Divide(2,1);
c2->cd(2);
TH1D* hr = new TH1D("hr",";p_{T}^{#gamma};r_{J,#gamma}",200,20,180);
handsomeTH1(hr,0);
hr->SetAxisRange(0.0,1.3,"Y");
// hr->SetNdivisions(5);
hr->Draw();
handsomeTGraph(gr[kPPDATA],1);
handsomeTGraph(gr[kHIDATA],2);
handsomeTGraph(gr[6],2);
gr[kPPDATA]->SetMarkerStyle(24);
gr[kPPDATA]->Draw("same p");
gr[6]->SetMarkerStyle(24);
if (drawPbPb) gr[kHIDATA]->Draw("same p");
if (drawPbPb) gr[6]->Draw("same p");
jumSun(20,1,180,1);
c2->cd(1);
TH1D* hx = (TH1D*)hr->Clone("hx");
handsomeTH1(hx,0);
hx->SetYTitle("<#Deltap_{T}^{J,#gamma}>");
hx->SetAxisRange(-60,10,"Y");
// hx->SetNdivisions(5);
hx->Draw();
handsomeTGraph(gdpt[kPPDATA],1);
handsomeTGraph(gdpt[kHIDATA],2);
handsomeTGraph(gdpt[6],2);
gdpt[kPPDATA]->SetMarkerStyle(24);
gdpt[6]->SetMarkerStyle(24);
gdpt[kPPDATA]->Draw("same p");
if (drawPbPb) gdpt[kHIDATA]->Draw("same p");
if (drawPbPb) gdpt[6]->Draw("same p");
jumSun(20,1,180,1);
gStyle -> SetEndErrorSize(0);
TLegend *l1= new TLegend(0.5226071,0.6300415,0.9597724,0.8332584,NULL,"brNDC");
easyLeg(l1,"2.76TeV");
l1->AddEntry(gr[kPPDATA],"pp ","p");
if (drawPbPb) l1->AddEntry(gr[kHIDATA],"PbPb 0-30%","p");
if (drawPbPb) l1->AddEntry(gr[6],"PbPb 30-100%","p");
l1->Draw();
// c2->SaveAs(Form("gifs/summaryPlot_ptDependence_drawPbPb%d_norm%d.pdf",drawPbPb,xNorm));
}
void fitResolandScale(int collision = 2, int flvOpt = 0, int genOpt = 0){
/* const int kHIcentral = 0; // 0-30%
const int kHIperipheral = 1;//30-100%
const int kPP = 2;
const int kPA = 3;
const int kHI010 = 4; //0-10%
const int kHI1030 = 5; //10-30%
const int kHI3050 = 6;//30-50%
const int kHI50100 = 7;//50-100%
*/
// const int collision = 3;
TLegend *l1 = new TLegend(0.4365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
TCut centCut = "";
if ( (collision ==0) ) {
centCut = "cBin > 0 && cBin< 12";
easyLeg(l1,"Pb+Pb 0-30%");
}
else if ( (collision ==1) ){ // if it's pp
centCut = "cBin >=12";
easyLeg(l1,"Pb+Pb 30-100%");
}
else if (collision == 2 || collision == 3){ // pPb
centCut = "";
if (collision == 2) easyLeg(l1,"p+p");
else easyLeg(l1, "p+Pb");
}
else if ( (collision ==4) ){ //HI
centCut = "cBin > 0 && cBin < 4";
easyLeg(l1,"Pb+Pb 0-10%");
} else if ( (collision ==5) ){ //HI
centCut = "cBin >= 4 && cBin < 12";
easyLeg(l1,"Pb+Pb 10-30%");
} else if ( (collision ==6) ){ //HI
centCut = "cBin >= 12 && cBin < 20";
easyLeg(l1,"Pb+Pb 30-50%");
} else if ( (collision ==7) ){ //HI
centCut = "cBin >= 20";
easyLeg(l1,"Pb+Pb 50-100%");
}
//
TH1::SetDefaultSumw2();
// gStyle->SetOptFit(0);
gStyle -> SetOptStat(0);
// gStyle -> SetTitleYOffset(2.35);
gStyle -> SetTitleYSize(0.04);
TCut partonCut = "";
if (flvOpt ==0 ) partonCut = "";
else if (flvOpt == 1 ) partonCut = "refPartonFlv == 21";
else if (flvOpt == 2 ) partonCut = "abs(refPartonFlv) < 21";
else partonCut = "refPartonFlv < -200";
const int nPtBin = 12;
//const int nPtBin = 17;
//double ptBin[nPtBin+1] = {30.0, 40.0, 50.0, 80.0, 9999.0};
//double AvePtBin[nPtBin+1] = { 35.0, 45.0, 65.0, 100.0};
double ptBin[nPtBin+1];
double AvePtBin[nPtBin];
ptBin[0] = 30.0;
ptBin[1] = 40.0;
ptBin[2] = 50.0;
ptBin[3] = 60.0;
ptBin[4] = 70.0;
ptBin[5] = 80.0;
ptBin[6] = 90.0;
ptBin[7] = 100.0;
ptBin[8] = 120.0;
ptBin[9] = 140.0;
ptBin[10] = 160.0;
ptBin[11] = 180.0;
ptBin[12] = 200.0;
/*
for(int i=0;i<=nPtBin;i++){
ptBin[i] = 30.0+i*10.0;
}
*/
for(int i=0;i<nPtBin;i++){
AvePtBin[i] = (ptBin[i+1]+ptBin[i])/2.0;
}
// const int nCentBinPa = 3;
// double centBinPa[nCentBinPa+1] = {0,20,30,100};
//
// fake rate
//
int nJetmax = 100;
float refPt[nJetmax], pt[nJetmax], eta[nJetmax], dphi[nJetmax];
int nJet, cBin, refPartonFlv[nJetmax];
EvtSel evtImb;
TBranch *b_evt;
multiTreeUtil* yJet = new multiTreeUtil();
//:PbPb
if(collision ==1 || collision == 0 || collision == 4 || collision == 5 || collision == 6|| collision == 7){
yJet -> addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_qcdAllPhoton30to50_genPhotonPtCut40_allCent.root", "yJet", "",32796./32796);
yJet -> addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_qcdAllPhoton50to80_genPhotonPtCut40_allCent.root", "yJet", "",21470./53876);
yJet -> addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_qcdAllPhoton80to9999_genPhotonPtCut40_allCent.root", "yJet", "",6462./58781);
} else if (collision ==3){
// pA
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton30to50_forestv85.root", "yJet","", 56669./50385);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton50to80_forestv85.root", "yJet","", 41906./114136);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton80to120_forestv85.root", "yJet","",12044./103562);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton120to9999_forestv85.root", "yJet","", 4481./151511);
} else if (collision ==2){
//pp
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton30to50_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "",29329. / 29329.);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton50to80_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "",8098. / 87988.);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton80to120_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "",1680. / 96756.);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton120to9999_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "", 438. / 90972.);
}
yJet -> AddFriend("tgj");
yJet->AddFriend("yPhotonTree");
TCanvas* c4 = new TCanvas("c4","",400,800);
c4->Divide(1,2);
c4->cd(1);
TH1D* hpt1 = new TH1D("hpt1",";p_{T}^{RECO};Entries",20,0,200);
TH1D* hpt0 = (TH1D*)hpt1->Clone("hpt2");
TH1D* hpt2 = (TH1D*)hpt1->Clone("hpt2");
TH1D* hpt3 = (TH1D*)hpt1->Clone("hpt3");
yJet -> Draw2(hpt0, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) "),"");
yJet -> Draw2(hpt1, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && refPartonFlv == 21"),"");
yJet -> Draw2(hpt2, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && abs(refPartonFlv)<21 "),"");
yJet -> Draw2(hpt3, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && refPartonFlv < -200"),"");
handsomeTH1(hpt0,1);
handsomeTH1(hpt1,1);
handsomeTH1(hpt2,2);
handsomeTH1(hpt3,4);
hpt0->GetYaxis()->SetTitleOffset(1.8);
hpt0->DrawCopy("hist");
hpt1->DrawCopy("same");
hpt2->DrawCopy("same");
hpt3->DrawCopy("same");
jumSun(30,0,30,7400,2);
c4->cd(2);
hpt1->Divide(hpt0);
hpt2->Divide(hpt0);
hpt3->Divide(hpt0);
hpt1->SetAxisRange(0,1,"Y");
hpt1->SetYTitle("Ratio");
hpt1->DrawCopy();
hpt2->DrawCopy("same");
hpt3->DrawCopy("same");
jumSun(30,0,30,1,2);
// return;
// pt spectrum
// TCanvas* c1= new TCanvas("c1", "", 500,500);
// TH1D* hptHat = new TH1D("hptHat",";pt hat;Entries",200,0,200);
// yJet->Draw3( hptHat, "yPhotonTree.ptHat"," photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22","");
//yJet->Draw3( hptHat, "yPhotonTree.pt","","");
// return;
// Energy Scale
TCanvas* c2 = new TCanvas("c2", "pt/refPt distribution", 1200, 900);
TCanvas* ccc = new TCanvas("ccc", "pt/refpt 30-40GeV", 400, 400);
makeMultiPanelCanvas(c2,5,4,0.0,0.0,0.2,0.15,0.02);
TH1D* Escale[nCentBinPa+5][nPtBin];
double mean[nCentBinPa+5][nPtBin], var[nCentBinPa+5][nPtBin], resol[nCentBinPa+5][nPtBin], resolVar[nCentBinPa+5][nPtBin];
int icent =1;
// for(int icent=1; icent <= nCentBinPa ; icent++){
for(int i=0; i < nPtBin ; i++){
// c2 -> cd((icent-1)*4+i+1);
c2 -> cd(i+1);
Escale[icent][i] = new TH1D(Form("Escale%d_%d",icent, i) , " ; p_{T}^{RECO}/p_{T}^{GEN}", 50, 0, 2);
if ( genOpt == 0 ) {
yJet -> Draw2(Escale[icent][i], "pt/refPt", centCut && partonCut && Form(" (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && (refPt >= %d && refPt < %d)", (int)ptBin[i], (int)ptBin[i+1]),"");
}
else if (genOpt == 1) {
yJet -> Draw2(Escale[icent][i], "pt/refPt", centCut && partonCut && Form(" (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && (pt >= %d && pt < %d) ", (int)ptBin[i], (int)ptBin[i+1]),"");
}
// Escale[icent][i] -> Draw();
TF1* ff = cleverGaus(Escale[icent][i]);
gPad->SetLogy();
mean[icent][i] = ff->GetParameter(1);
var[icent][i] = ff->GetParError(1);
resol[icent][i] = ff->GetParameter(2);
resolVar[icent][i] = ff->GetParError(2);
float dx1;
// ((icent==1)||(icent==4))? dx1=0.15 : dx1=0 ;
dx1=0;
// if ( icent == nCentBinPa )
// drawText(Form("E_{T}^{HF|#eta|>4} > %dGeV, ", (int)centBinPa[icent-1]), 0.12+dx1,0.929118,1,15);//yeonju 130805
//else
// drawText(Form("%dGeV < E_{T}^{HF|#eta|>4} < %dGeV, ", (int)centBinPa[icent-1], (int)centBinPa[icent]), 0.12+dx1,0.929118,1,15);
if ( i+1 == nPtBin )
drawText(Form("p_{T}^{GEN Jet} > %dGeV, ", (int)ptBin[i]), 0.17+dx1,0.84,1,15);//yeonju 130823
else
drawText(Form("%dGeV < p_{T}^{GEN Jet} < %dGeV, ", (int)ptBin[i], (int)ptBin[i+1]), 0.17+dx1,0.84,1,12);//yeonju 130823
// TLegend *l1 = new TLegend(0.6365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
// easyLeg(l1,"p+Pb 5.02TeV");
// l1->AddEntry(hxjgNorm[kPADATA][icent + kPADATA*50][j],"pPb ","p");
// if ( icent==1 && j==1) l1->Draw();
}
// }
c2 -> Update();
ccc -> Divide(2,1);
ccc -> cd(1);
Escale[1][0]->Draw();
ccc -> cd(2);
Escale[1][1]->Draw();
//
// Energy Scale
//
TCanvas *c3 = new TCanvas("c3", "Energy Scale vs. jet pt",147,37,930,465);
c3->Divide(2,1);
c3->cd(1);
double bin[nPtBin+1];
for(int ibin=0; ibin<nPtBin+1; ibin++){
bin[ibin]=ptBin[ibin];
}
TH1D* hscale = new TH1D("hscale", ";JetP_{T}^{GEN} (GeV); Energy Scale ", nPtBin, bin);
l1 -> Draw();
handsomeTH1(hscale,1);
hscale -> SetAxisRange(0.9, 1.15, "Y");
hscale -> Draw();
jumSun(30,1,200,1);
TLegend *l3=new TLegend(0,0,0.4490239,0.08695652,NULL,"brNDC");
l3->SetTextFont(42);
l3->SetTextSize(0.04);
l3->SetFillColor(0);
l3->SetLineColor(0);
for(int i=0; i < nPtBin ; i++){
hscale -> SetBinContent(i+1, mean[icent][i]);
hscale -> SetBinError(i+1, var[icent][i]);
hscale -> SetMarkerStyle(20);
hscale -> SetMarkerSize(1);
hscale -> Draw("same p");
}
TF1 *fs = new TF1("fs", myFunc, 30, 200, 3);
fs -> SetParameters(0.9,0.8,0.001);
fs -> SetParNames("scale_C", "scale_S", "scale_N");
double params[3];
hscale -> Fit("fs", "RLL");
fs->GetParameters(params);
cout << " scale C : " << params[0] << ", S : " << params[1] << ", N : : " << params[2] << endl;
// cout << " N : " << param[0] << endl;
fs->Draw("same");
//
// Energy Resolution
//
c3->cd(2);
TH1D* hresol = new TH1D("hresol", ";JetP_{T} (GeV); Energy Resolution ", nPtBin, bin);
handsomeTH1(hresol,1);
hresol -> SetAxisRange(0.0, 0.3, "Y");
hresol->GetYaxis()->CenterTitle();
hresol -> Draw();
jumSun(30,0.0,30,0.3,2);
TLegend *l_resol=new TLegend(0.40,0.20,0.85,0.42);
l_resol->SetTextFont(42);
l_resol->SetTextSize(0.04);
l_resol->SetFillColor(0);
l_resol->SetLineColor(0);
for(int i=0; i < nPtBin ; i++){
hresol -> SetBinContent(i+1, resol[icent][i]);
hresol -> SetBinError(i+1, resolVar[icent][i]);
hresol -> SetMarkerStyle(20);
hresol -> SetMarkerSize(1);
hresol -> Draw("same p");
}
TF1 *f;
// if(collision==2){
f = new TF1("f", myFunc3, 30, 200, 3);
f -> SetParameters(0.03, 0.8, 0.01);
f -> SetParNames("C", "S", "N");
// } else {
// f = new TF1("f", myFunc3, 30, 200, 3);
// f -> SetParameters(0.041, 0.956,0.001);
// f -> SetParNames("N");
// }
double param[3];
hresol -> Fit("f", "RLL");
f->GetParameters(param);
// cout << " resol_N : " << param[0]<< endl;
// if(collision==2) cout << " resol C : " << param[0] << ", S : " << param[1] << ", N : : " << param[2] << endl;
cout << " resol C : " << param[0] << ", S : " << param[1] << ", N : : " << param[2] << endl;
// else cout << " N : " << param[0] << endl;
f->Draw("same");
l1 -> Draw();
// l_resol->Draw();
//flvOpt = 0, int genOpt
// c1 -> SaveAs(".gif");
//c2 -> SaveAs(Form("./graph/CSnotFix_scale_distribution_collision%d.pdf",collision));
//c3 -> SaveAs(Form("./graph/CSnotFix_scale_resolution_fit_collision%d.pdf",collision));
// c_fake -> SaveAs(".gif");
}
void mergeSys() {
const int kPP = 1;
const int kHIcentral = 2;
const int kHIperipheral = 3;
const int kPA = 4;
const int nPtBin = 4;
const int NCOLL = 3;
double ptBin[nPtBin+1] = {40,50,60,80,9999};
const int nRptBin[4] = {4,4,5,5};
double ratioPtBin[4][10] = {{30,40,50,70,150},
{30,40,50,70,150},
{30,40,50,70,100,150},
{30,40,50,70,100,150}};
double ratioPtBin1[4][10] = {{30,40,50,68,105},
{30,40,50,68,105},
{30,40,50,68,100,130},
{30,40,50,68,100,130}};
TH1D* dNdJetPt_origin[5][5][10]; // [collision] [ptbin] [sys. category]
TH1D* dNdJetPt[5][5][10];
TH1D* hOutput[5][5][10]; //Iaa Ratio Sys
TFile* f;
int nFile = 7;
//int nFile = 6;
for ( int ifile = 1 ; ifile <= nFile ; ifile++ ) {
if ( ifile == 1 ) f = new TFile("relativeSys/relativeSys_dueTo_photonEnergyScale.root");
else if ( ifile == 2 ) f = new TFile("relativeSys/relativeSys_dueTo_noJetResCorr.root");
else if ( ifile == 3 ) f = new TFile("relativeSys/relativeSys_dueTo_isolation.root");
else if ( ifile == 4 ) f = new TFile("relativeSys/relativeSys_dueTo_electronContamination.root");
else if ( ifile == 5 ) f = new TFile("relativeSys/relativeSys_dueTo_photonPurityVaried.root");
//else if ( ifile == 6 ) f = new TFile("relativeSys/relativeSys_dueTo_smearingNscale.root");
else if ( ifile == 6 ) f = new TFile("relativeSys/relativeSys_dueTo_jetEnergyScale.root");
else if ( ifile == 7 ) f = new TFile("relativeSys/relativeSys_dueTo_jetEnergyResolution.root");
for ( int coll = 1 ; coll<=NCOLL ; coll++) {
TString collName;
if ( coll == kPP ) collName = "pp";
else if ( coll == kPA ) collName = "ppb";
else if ( coll == kHIcentral ) collName = "pbpb_centralityBin1";
else if ( coll == kHIperipheral ) collName = "pbpb_centralityBin2";
for ( int ipt = 1 ; ipt <=nPtBin ; ipt++) {
dNdJetPt_origin[coll][ipt][ifile] = (TH1D*)f->Get(Form("dNdJetPt_IaaBin_%s_ptBin%d_uncertainty", collName.Data(), ipt ) );
dNdJetPt_origin[coll][ipt][ifile] -> SetName(Form("dNdJetPt_IaaBin_%s_ptBin%d_uncertainty_origin", collName.Data(), ipt ) );
dNdJetPt[coll][ipt][ifile] = (TH1D*)dNdJetPt_origin[coll][ipt][ifile] -> Rebin(nRptBin[ipt-1], Form("dNdJetPt_IaaBin_%s_ptBin%d_uncertainty", collName.Data(), ipt), ratioPtBin[ipt-1] );
}
}
}
// Divide the uncertainties
for ( int ifile = 1 ; ifile <= nFile ; ifile++ ) {
for ( int ipt = 1 ; ipt <=nPtBin ; ipt++) {
hOutput[kHIcentral][ipt][ifile] = (TH1D*)dNdJetPt[kHIcentral][ipt][ifile]->Clone(Form("dNdJetPt_ratio_centralityBin1_ptBin%d_uncertainty", ipt ) );
hOutput[kHIperipheral][ipt][ifile] = (TH1D*)dNdJetPt[kHIperipheral][ipt][ifile]->Clone(Form("dNdJetPt_ratio_centralityBin2_ptBin%d_uncertainty", ipt ) );
hOutput[kPP][ipt][ifile] = (TH1D*)dNdJetPt[kPP][ipt][ifile]->Clone(Form("dNdJetPt_pp_ptBin%d_uncertainty", ipt ) );
// Add unity
addValueToAllBin(hOutput[kHIcentral][ipt][ifile], 1);
addValueToAllBin(hOutput[kHIperipheral][ipt][ifile], 1);
addValueToAllBin(hOutput[kPP][ipt][ifile], 1);
hOutput[kHIcentral][ipt][ifile]->Divide(hOutput[kPP][ipt][ifile]);
hOutput[kHIperipheral][ipt][ifile]->Divide(hOutput[kPP][ipt][ifile]);
addValueToAllBin(hOutput[kHIcentral][ipt][ifile], -1);
addValueToAllBin(hOutput[kHIperipheral][ipt][ifile], -1);
}
}
/////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////
// dNdJetPt relative uncertainty calculation
TCanvas* c1 = new TCanvas("c1","",1200,900);
c1->Divide(nPtBin,NCOLL);
for ( int coll = 1 ; coll<=NCOLL ; coll++) {
for ( int ipt = 1 ; ipt <=nPtBin ; ipt++) {
c1->cd( ipt + nPtBin*(coll-1) );
dNdJetPt[coll][ipt][0] = (TH1D*)dNdJetPt[coll][ipt][1]->Clone(Form("%s_merged",dNdJetPt[coll][ipt][1]->GetName() ) );
dNdJetPt[coll][ipt][0]->Reset();
for ( int ifile = 1 ; ifile <= nFile ; ifile++ ) {
squareHist( dNdJetPt[coll][ipt][ifile] );
dNdJetPt[coll][ipt][0]->Add(dNdJetPt[coll][ipt][ifile]);
}
squareRootHist(dNdJetPt[coll][ipt][0]);
dNdJetPt[coll][ipt][0]->GetYaxis()->SetTitle("Total Rel. Sys. Uncert.");
dNdJetPt[coll][ipt][0]->SetAxisRange(30,150,"X");
dNdJetPt[coll][ipt][0]->GetXaxis()->SetRangeUser(30,150);
dNdJetPt[coll][ipt][0]->SetAxisRange(-1.0,1.0,"Y");
dNdJetPt[coll][ipt][0]->SetMarkerStyle(20);
dNdJetPt[coll][ipt][0]->Draw("pl");
jumSun(30,0,150,0);
/////////////////////////////////////////////////////////////////
// COSMETIC
TString collName;
if ( coll == kPP ) collName = "pp";
else if ( coll == kPA ) collName = "ppb";
else if ( coll == kHIcentral ) collName = "pbpb 0-30%";
else if ( coll == kHIperipheral ) collName = "pbpb 30-100%";
double dx1=0.18;
if(coll==1){ // photon pT, drawText("text", xp, yp, color, size)
if ( ipt == nPtBin )
drawText(Form("p_{T}^{#gamma} > %dGeV ", (int)ptBin[ipt-1]), 0.07+dx1+0.1,0.9,1,16);
else if ( ipt == 1)
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV ", (int)ptBin[ipt-1], (int)ptBin[ipt]), 0.10+dx1,0.9,1,16);
else
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV ", (int)ptBin[ipt-1], (int)ptBin[ipt]), 0.10+dx1,0.9,1,16);
}
if(ipt==1) drawText(collName, 0.10+dx1, 0.7, 1, 16); //collision name
}
}
c1->SaveAs("pdf/relativeSysDist_dNdJetPt_total.pdf");
/////////////////////////////////////////////////////////////////
/////////////////////////////////////////////////////////////////
// Ratio(Iaa) relative uncertainty calculation
TCanvas* c2 = new TCanvas("c2","",1200,600);
c2->Divide(nPtBin,2);
for ( int coll = 2 ; coll<=NCOLL ; coll++) {
if ( ( coll != kHIcentral) && ( coll != kHIperipheral ) )
continue;
for ( int ipt = 1 ; ipt <=nPtBin ; ipt++) {
c2->cd( ipt + nPtBin*(coll-2) );
hOutput[coll][ipt][0] = (TH1D*)hOutput[coll][ipt][1]->Clone(Form("%s_merged",hOutput[coll][ipt][1]->GetName() ) );
hOutput[coll][ipt][0]->Reset();
for ( int ifile = 1 ; ifile <= nFile ; ifile++ ) {
squareHist( hOutput[coll][ipt][ifile] );
hOutput[coll][ipt][0]->Add(hOutput[coll][ipt][ifile]);
}
squareRootHist(hOutput[coll][ipt][0]);
hOutput[coll][ipt][0]->GetYaxis()->SetTitle("Total Rel. Sys Uncert.");
hOutput[coll][ipt][0]->SetAxisRange(30,150,"X");
hOutput[coll][ipt][0]->GetXaxis()->SetRangeUser(30,150);
hOutput[coll][ipt][0]->SetAxisRange(-1.0,1.0,"Y");
hOutput[coll][ipt][0]->SetMarkerStyle(20);
hOutput[coll][ipt][0]->Draw("pl");
jumSun(30,0,150,0);
/////////////////////////////////////////////////////////////////
// COSMETIC
TString collName;
if ( coll == kHIcentral ) collName = "pbpb/pp 0-30%";
else if ( coll == kHIperipheral ) collName = "pbpb/pp 30-100%";
double dx1=0.18;
if(coll==2){ // photon pT, drawText("text", xp, yp, color, size)
if ( ipt == nPtBin )
drawText(Form("p_{T}^{#gamma} > %dGeV ", (int)ptBin[ipt-1]), 0.07+dx1+0.1,0.9,1,16);
else if ( ipt == 1)
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV ", (int)ptBin[ipt-1], (int)ptBin[ipt]), 0.10+dx1,0.9,1,16);
else
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV ", (int)ptBin[ipt-1], (int)ptBin[ipt]), 0.10+dx1,0.9,1,16);
}
if(ipt==1) drawText(collName, 0.10+dx1, 0.7, 1, 16); //collision name
}
}
c2->SaveAs("pdf/relativeSysDist_Iaa_total.pdf");
TFile * fSysResults = new TFile("relativeSys/relativeSys_merged.root","recreate");
for ( int coll = 1 ; coll<=NCOLL ; coll++) {
for ( int ipt = 1 ; ipt <=nPtBin ; ipt++) {
dNdJetPt[coll][ipt][0]->Write();
if( ( coll == kHIcentral) || ( coll == kHIperipheral ) ) hOutput[coll][ipt][0]->Write();
}
}
fSysResults->Close();
}
void showerShapeBkg( sampleType collision = kPPMC)
{
TH1::SetDefaultSumw2();
TCut bkgPhoCut = "( (abs(genMomId)>22) || (genIso>5) ) && (hovere<0.1)";
multiTreeUtil* tgj = new multiTreeUtil();
if ( collision == kPPMC ) {
tgj->addFile(fnamePPMC_emDijet30to50, "tgj", bkgPhoCut, wPPMC_emDijet30to50);
tgj->addFile(fnamePPMC_emDijet50to80, "tgj", bkgPhoCut, wPPMC_emDijet50to80);
tgj->addFile(fnamePPMC_emDijet80to120, "tgj", bkgPhoCut, wPPMC_emDijet80to120);
tgj->addFile(fnamePPMC_emDijet120to9999,"tgj", bkgPhoCut, wPPMC_emDijet120to9999);
}
else {
cout << " pA and PbPb MC samples are not ready yet" << endl;
}
TH1D* hPtHat = new TH1D("hpthat",";pt hat (GeV);",200,0,200);
handsomeTH1(hPtHat,1);
TCanvas* c1 = new TCanvas("c1","",500,500);
tgj->Draw3(hPtHat,"photonEt",bkgPhoCut,"");
gPad->SetLogy();
TCanvas* c2 = new TCanvas("c1","",1100,600);
makeMultiPanelCanvas(c2,nPtBinPa,2,0.0,0.0,0.2,0.15,0.02);
c2->cd(1);
TCut ppIsoCut = "(ecalIso < 4.2) && (hcalIso < 2.2) && (trackIso < 2)";
TCut hiIsoCut = "sumIso < 1";
TCut ppSbCut = "(ecalIso < 4.2) && (hcalIso < 2.2) && ( (trackIso>2) && (trackIso<4) )";
TCut hiSbCut = "(sumIso > 10) && (sumIso<20)";
TH1D* sii[5][nPtBinPa+1];
for ( int ipt = 1 ; ipt<=nPtBinPa ; ipt++) {
for ( int iiso = 1 ; iiso<=4 ; iiso++) {
sii[iiso][ipt] = new TH1D(Form("sigmaIetaIeta_iso%d_ipt%d",iiso,ipt), ";#sigma_{#eta#eta};Entries", 25,0,0.025);
handsomeTH1(sii[iiso][ipt],1);
}
TCut phoPtCut = Form ( "photonEt>=%f && photonEt<%f", (float)ptBinPa[ipt-1], (float)ptBinPa[ipt]);
tgj->Draw2(sii[1][ipt], "sigmaIetaIeta",ppIsoCut && phoPtCut, "");
tgj->Draw2(sii[2][ipt], "sigmaIetaIeta",hiIsoCut && phoPtCut, "");
tgj->Draw2(sii[3][ipt], "sigmaIetaIeta",ppSbCut && phoPtCut, "");
tgj->Draw2(sii[4][ipt], "sigmaIetaIeta",hiSbCut && phoPtCut, "");
scaleInt(sii[1][ipt]);
scaleInt(sii[2][ipt]);
scaleInt(sii[3][ipt]);
scaleInt(sii[4][ipt]);
}
for ( int ipt = 1 ; ipt<=nPtBinPa ; ipt++) {
c2->cd(ipt);
TH1D* sii_A = sii[1][ipt];
TH1D* sii_B = sii[4][ipt];
handsomeTH1(sii_B,2);
sii_A->Draw();
sii_B->Draw("same");
c2->cd(ipt+nPtBinPa);
TH1D* hRatio = (TH1D*)sii_A->Clone(Form("hRatio_%s",sii_A->GetName()));
hRatio->Divide(sii_B);
hRatio->SetAxisRange(0,4,"Y");
hRatio->Draw();
hRatio->Fit("pol1");
jumSun(0,1,0.025,1);
}
}
void fakerate(int flvOpt = 0, int genOpt = 0){
TH1::SetDefaultSumw2();
gStyle->SetOptFit(1011);
gStyle -> SetOptStat(0);
// gStyle -> SetTitleYOffset(2.35);
gStyle -> SetTitleYSize(0.04);
TCut partonCut = "";
if (flvOpt ==0 ) partonCut = "";
else if (flvOpt == 1 ) partonCut = "refPartonFlv == 21";
else if (flvOpt == 2 ) partonCut = "abs(refPartonFlv) < 21";
else partonCut = "refPartonFlv < -200";
const int nPtBin = 18;
//double ptBin[nPtBin+1] = {30.0, 40.0, 50.0, 80.0, 9999.0};
//double AvePtBin[nPtBin+1] = { 35.0, 45.0, 65.0, 100.0};
double ptBin[nPtBin+1];
double AvePtBin[nPtBin];
for(int i=0;i<=nPtBin;i++){
ptBin[i] = 20.0+i*10.0;
}
for(int i=0;i<nPtBin;i++){
AvePtBin[i] = (ptBin[i+1]+ptBin[i])/2.0;
}
// const int nCentBinPa = 3;
// double centBinPa[nCentBinPa+1] = {0,20,30,100};
const int nCentBinPa = 1;
double centBinPa[nCentBinPa+1] = {0,10000};
//
// fake rate
//
int nJetmax = 100;
float refPt[nJetmax], pt[nJetmax], eta[nJetmax], dphi[nJetmax];
int nJet, refPartonFlv[nJetmax];
EvtSel evtImb;
TBranch *b_evt;
multiTreeUtil* yJet = new multiTreeUtil();
// pA
//yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton30to50_forestv85.root", "yJet","", 56669./50385);
// yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton50to80_forestv85.root", "yJet","", 41906./114136);
// yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton80to120_forestv85.root", "yJet","",12044./103562);
// yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_PA2013_pyquen_allQCDPhoton120to9999_forestv85.root", "yJet","", 4481./151511);
//pp
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton30to50_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "",29329. / 29329.);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton50to80_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "",8098. / 87988.);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton80to120_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "",1680. / 96756.);
yJet->addFile("/home/jazzitup/forestFiles/yskimmedFiles/yskim_merged_allQCDPhoton120to9999_genPhotonPtCut30_CMSSW538HIp2.root", "yJet", "", 438. / 90972.);
yJet -> AddFriend("tgj");
yJet->AddFriend("yPhotonTree");
TCanvas* c4 = new TCanvas("c4","",400,800);
c4->Divide(1,2);
c4->cd(1);
TH1D* hpt1 = new TH1D("hpt1",";p_{T}^{RECO};Entries",20,0,200);
TH1D* hpt0 = (TH1D*)hpt1->Clone("hpt2");
TH1D* hpt2 = (TH1D*)hpt1->Clone("hpt2");
TH1D* hpt3 = (TH1D*)hpt1->Clone("hpt3");
yJet -> Draw2(hpt0, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) "),"");
yJet -> Draw2(hpt1, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && refPartonFlv == 21"),"");
yJet -> Draw2(hpt2, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && abs(refPartonFlv)<21 "),"");
yJet -> Draw2(hpt3, "refPt", Form(" photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22 && (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && refPartonFlv < -200"),"");
handsomeTH1(hpt0,1);
handsomeTH1(hpt1,1);
handsomeTH1(hpt2,2);
handsomeTH1(hpt3,4);
hpt0->GetYaxis()->SetTitleOffset(1.8);
hpt0->DrawCopy("hist");
hpt1->DrawCopy("same");
hpt2->DrawCopy("same");
hpt3->DrawCopy("same");
jumSun(30,0,30,7400,2);
c4->cd(2);
hpt1->Divide(hpt0);
hpt2->Divide(hpt0);
hpt3->Divide(hpt0);
hpt1->SetAxisRange(0,1,"Y");
hpt1->SetYTitle("Ratio");
hpt1->DrawCopy();
hpt2->DrawCopy("same");
hpt3->DrawCopy("same");
jumSun(30,0,30,1,2);
// return;
// pt spectrum
TCanvas* c1= new TCanvas("c1", "", 500,500);
TH1D* hptHat = new TH1D("hptHat",";pt hat;Entries",200,0,200);
yJet->Draw3( hptHat, "yPhotonTree.ptHat"," photonEt>40 && genPhotonEt> 30 && abs(genMomId)<=22","");
//yJet->Draw3( hptHat, "yPhotonTree.pt","","");
// return;
// Energy Scale
TCanvas* c2 = new TCanvas("c2", "pt/refPt distribution", 1200, 900);
makeMultiPanelCanvas(c2,5,4,0.0,0.0,0.2,0.15,0.02);
TH1D* Escale[nCentBinPa+5][nPtBin];
double mean[nCentBinPa+5][nPtBin], var[nCentBinPa+5][nPtBin], resol[nCentBinPa+5][nPtBin], resolVar[nCentBinPa+5][nPtBin];
for(int icent=1; icent <= nCentBinPa ; icent++){
for(int i=0; i < nPtBin ; i++){
c2 -> cd((icent-1)*4+i+1);
Escale[icent][i] = new TH1D(Form("Escale%d_%d",icent, i) , " ; p_{T}^{RECO}/p_{T}^{GEN}", 50, 0, 2);
if ( genOpt == 0 ) {
yJet -> Draw2(Escale[icent][i], "pt/refPt", partonCut && Form(" (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && (refPt >= %d && refPt < %d) && (hf4Sum > %f && hf4Sum <= %f) ", (int)ptBin[i], (int)ptBin[i+1], (float)centBinPa[icent-1], (float)centBinPa[icent]),"");
}
else if (genOpt == 1) {
yJet -> Draw2(Escale[icent][i], "pt/refPt", partonCut && Form(" (abs(eta) < 1.6) && (dphi > 7*3.141592/8.0) && (pt >= %d && pt < %d) && (hf4Sum > %f && hf4Sum <= %f) ", (int)ptBin[i], (int)ptBin[i+1], (float)centBinPa[icent-1], (float)centBinPa[icent]),"");
}
Escale[icent][i] -> Draw();
TF1* ff = cleverGaus(Escale[icent][i]);
gPad->SetLogy();
mean[icent][i] = ff->GetParameter(1);
var[icent][i] = ff->GetParError(1);
resol[icent][i] = ff->GetParameter(2);
resolVar[icent][i] = ff->GetParError(2);
float dx1;
// ((icent==1)||(icent==4))? dx1=0.15 : dx1=0 ;
dx1=0;
// if ( icent == nCentBinPa )
// drawText(Form("E_{T}^{HF|#eta|>4} > %dGeV, ", (int)centBinPa[icent-1]), 0.12+dx1,0.929118,1,15);//yeonju 130805
//else
// drawText(Form("%dGeV < E_{T}^{HF|#eta|>4} < %dGeV, ", (int)centBinPa[icent-1], (int)centBinPa[icent]), 0.12+dx1,0.929118,1,15);
if ( i+1 == nPtBin )
drawText(Form("p_{T}^{GEN Jet} > %dGeV, ", (int)ptBin[i]), 0.12+dx1,0.84,1,15);//yeonju 130823
else
drawText(Form("%dGeV < p_{T}^{GEN Jet} < %dGeV, ", (int)ptBin[i], (int)ptBin[i+1]), 0.12+dx1,0.84,1,12);//yeonju 130823
TLegend *l1 = new TLegend(0.6365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
easyLeg(l1,"p+Pb 5.02TeV");
// l1->AddEntry(hxjgNorm[kPADATA][icent + kPADATA*50][j],"pPb ","p");
// if ( icent==1 && j==1) l1->Draw();
}
}
c2 -> Update();
//
// Energy Scale
//
TCanvas *c3 = new TCanvas("c3", "Energy Scale vs. jet pt",147,37,930,465);
c3->Divide(2,1);
c3->cd(1);
TH1D* h = new TH1D("h",";JetP_{T}^{GEN} (GeV); Energy Scale ",1000,20,200);
handsomeTH1(h,1);
h -> SetAxisRange(0.8, 1.1, "Y");
h -> Draw();
jumSun(20,1,200,1);
jumSun(30,0.8,30,1.1,2);
TGraphAsymmErrors* g[nCentBinPa+5];
g[1] = new TGraphAsymmErrors();
g[2] = new TGraphAsymmErrors();
g[3] = new TGraphAsymmErrors();
TLegend *l3=new TLegend(0,0,0.4490239,0.08695652,NULL,"brNDC");
l3->SetTextFont(42);
l3->SetTextSize(0.04);
l3->SetFillColor(0);
l3->SetLineColor(0);
for(int icent=1; icent <= nCentBinPa ; icent++){
for(int i=0; i < nPtBin ; i++){
g[icent] -> SetPoint(i+1, AvePtBin[i], mean[icent][i]);
g[icent] -> SetPointError(i+1, 0.001,0.001, var[icent][i], var[icent][i]);
g[icent] -> SetMarkerStyle(20);
g[icent] -> SetMarkerSize(1);
g[icent] -> SetMarkerColor(icent);
g[icent] -> Draw("same p");
}
l3->AddEntry(g[icent], Form("%d GeV < E_{T}^{HF|#eta|>4} < %d GeV", (int)centBinPa[icent-1], (int)centBinPa[icent]), "p");
}
// l3 -> Draw();
//
// Energy Resolution
//
c3->cd(2);
TH1D* h_resol = new TH1D("h_resol",";JetP_{T} (GeV); Energy Resolution (GeV) ",1000,20,200);
h_resol -> SetAxisRange(0.0, 0.2, "Y");
h_resol->GetYaxis()->CenterTitle();
h_resol -> Draw();
jumSun(30,0.8,30,1.1,2);
TGraphAsymmErrors* gResol[nCentBinPa+5];
gResol[1] = new TGraphAsymmErrors();
gResol[2] = new TGraphAsymmErrors();
gResol[3] = new TGraphAsymmErrors();
TLegend *l_resol=new TLegend(0.40,0.20,0.85,0.42);
l_resol->SetTextFont(42);
l_resol->SetTextSize(0.04);
l_resol->SetFillColor(0);
l_resol->SetLineColor(0);
for(int icent=1; icent <= nCentBinPa ; icent++){
for(int i=0; i < nPtBin ; i++){
// cout << "resol : " << resol[icent][i] << ", resolVar : " << resolVar[icent][i]<< endl;
gResol[icent] -> SetPoint(i+1, AvePtBin[i], resol[icent][i]);
gResol[icent] -> SetPointError(i+1, 0.001,0.001, resolVar[icent][i], resolVar[icent][i]);
gResol[icent] -> SetMarkerStyle(20);
gResol[icent] -> SetMarkerSize(1);
gResol[icent] -> SetMarkerColor(icent);
gResol[icent] -> Draw("same p");
}
l_resol->AddEntry(gResol[icent], Form("%d GeV < E_{T}^{HF|#eta|>4} < %d GeV", (int)centBinPa[icent-1], (int)centBinPa[icent]), "p");
}
l_resol->Draw();
//flvOpt = 0, int genOpt
// c1 -> SaveAs(".gif");
c2 -> SaveAs(Form("c2_flvOpt%d_genOpt%d.gif",flvOpt,genOpt));
c3 -> SaveAs(Form("c3_flvOpt%d_genOpt%d.gif",flvOpt,genOpt));
// c_fake -> SaveAs(".gif");
}
void yeonju_drawPAFigures_0815(int xNorm = 1) {
gStyle -> SetOptStat(0);
//yeonju
const int nCentBinPa = 3;
double centBinPa[nCentBinPa+1] = {0,20,30,100};
double AvePtBin[nCentBinPa+1] = {10, 25.0, 65.0, 9999};
const int nPt = 5;
const int nFile = 10;
double PtBinPa[nPt+1] = {40,50,60,80,120,9999};
/* const int nCentBinPa = 5;
double centBinPa[nCentBinPa+1] = {0,20,25,30,40,100};
double AvePtBin[nCentBinPa+1] = { 10, 22.5, 27.5, 35, 70, 9999};
*/
TH1D* hxjg[7][1000][20]; // [species][centrality][pt_dependence]
TH1D* hxjgNorm[7][1000][20];
TH1D* hdphi[7][1000][20];
valPair meanX[7][1000][20];
valPair rjg[7][1000][20];
TGraphAsymmErrors* gr[7][20];
TGraphAsymmErrors* gx[7][20];
for (int j=1;j<=nFile;j++){
for (int i=1;i<=7;i++) {
gr[i][j] = new TGraphAsymmErrors();
gr[i][j]->SetName(Form("gr_%d_%d",i,j));
gx[i][j] = new TGraphAsymmErrors();
gx[i][j]->SetName(Form("gx_%d_%d",i,j));
}
}
TFile* fff[7][1000][20];
double rError[20];
// cout << "ok!"<< endl;
for ( int icent = 1 ; icent<=nCentBinPa ; icent++) {
int iSpecies =kPADATA ;
int iglb = icent + iSpecies*50.;
fff[iSpecies][iglb][1] = new TFile("ffFiles/photonTrackCorr_ppbDATA_output_photonPtThr40_to_50_jetPtThr30_20130815.root");
fff[iSpecies][iglb][2] = new TFile("ffFiles/photonTrackCorr_ppbDATA_output_photonPtThr50_to_60_jetPtThr30_20130815.root");
fff[iSpecies][iglb][3] = new TFile("ffFiles/photonTrackCorr_ppbDATA_output_photonPtThr60_to_80_jetPtThr30_20130815.root");
fff[iSpecies][iglb][4] = new TFile("ffFiles/photonTrackCorr_ppbDATA_output_photonPtThr80_to_120_jetPtThr30_20130815.root");
fff[iSpecies][iglb][5] = new TFile("ffFiles/photonTrackCorr_ppbDATA_output_photonPtThr120_to_9999_jetPtThr30_20130815.root");
fff[iSpecies][iglb][6] = new TFile("ffFiles/photonTrackCorr_ppbMC_output_photonPtThr40_to_50_jetPtThr30_20130815.root");
fff[iSpecies][iglb][7] = new TFile("ffFiles/photonTrackCorr_ppbMC_output_photonPtThr50_to_60_jetPtThr30_20130815.root");
fff[iSpecies][iglb][8] = new TFile("ffFiles/photonTrackCorr_ppbMC_output_photonPtThr60_to_80_jetPtThr30_20130815.root");
fff[iSpecies][iglb][9] = new TFile("ffFiles/photonTrackCorr_ppbMC_output_photonPtThr80_to_120_jetPtThr30_20130815.root");
fff[iSpecies][iglb][10] = new TFile("ffFiles/photonTrackCorr_ppbMC_output_photonPtThr120_to_9999_jetPtThr30_20130815.root");
// cout << "fffff" << endl;
for(int j = 1; j <= nFile ; j++){
hdphi[iSpecies][iglb][j] = (TH1D*)fff[iSpecies][iglb][j]->Get(Form("jetDphi_icent%d_final",icent));
//cout << "hdphi" <<endl;
hxjg[iSpecies][iglb][j] = (TH1D*)fff[iSpecies][iglb][j]->Get(Form("xjg_icent%d_final",icent));
hxjgNorm[iSpecies][iglb][j] = (TH1D*)hxjg[iSpecies][iglb][j]->Clone(Form("norm_%s",hxjg[iSpecies][iglb][j]->GetName()) );
//cout << "meanX" <<endl;
meanX[iSpecies][iglb][j].val = hxjg[iSpecies][iglb][j]->GetMean();
meanX[iSpecies][iglb][j].err = hxjg[iSpecies][iglb][j]->GetMeanError();
gx[iSpecies][j]->SetPoint (icent, AvePtBin[icent-1], meanX[iSpecies][iglb][j].val);
gx[iSpecies][j]->SetPointError(icent, AvePtBin[icent-1] - centBinPa[icent-1], centBinPa[icent] - AvePtBin[icent-1], meanX[iSpecies][iglb][j].err, meanX[iSpecies][iglb][j].err);
//cout << "rjg" <<endl;
rjg[iSpecies][iglb][j].val = hxjg[iSpecies][iglb][j]->IntegralAndError(1, hxjg[iSpecies][iglb][j]->GetNbinsX(), rError[j], "width");
rjg[iSpecies][iglb][j].err = rError[j];
gr[iSpecies][j]->SetPoint (icent, AvePtBin[icent-1], rjg[iSpecies][iglb][j].val);
gr[iSpecies][j]->SetPointError(icent, AvePtBin[icent-1] - centBinPa[icent-1], centBinPa[icent] - AvePtBin[icent-1], rjg[iSpecies][iglb][j].err, rjg[iSpecies][iglb][j].err);
}
}
cout << "Tcanvas c1 " << endl;
TCanvas* c1 = new TCanvas("c1","xjg_distribution",900,1750);
makeMultiPanelCanvas(c1,3,5,0.0,0.0,0.2,0.15,0.02);
for ( int j = 1 ; j <= nPt ; j++){//pt
for ( int icent = 1 ; icent<=nCentBinPa ; icent++) {
c1->cd(icent+3*(j-1));
int iSpecies = kPADATA;
int iglb = icent + iSpecies*50.;
handsomeTH1(hxjgNorm[iSpecies][iglb][j],icent);
hxjgNorm[iSpecies][iglb][j]->Scale(0.1);
if (xNorm==1) scaleInt(hxjgNorm[iSpecies][iglb][j]);
hxjgNorm[iSpecies][iglb][j]->SetXTitle("x_{J,#gamma}");
hxjgNorm[iSpecies][iglb][j]->SetYTitle("#frac{dN}{dx} #frac{1}{N}");
if (xNorm==1) hxjgNorm[iSpecies][iglb][j]->SetAxisRange(-0.015,0.35,"Y");
else hxjgNorm[iSpecies][iglb][j]->SetAxisRange(-0.06,1.5,"Y");
hxjgNorm[iSpecies][iglb][j]->SetMarkerStyle(19+j);
hxjgNorm[iSpecies][iglb][j]->Draw();
float dx1;
((icent==1)||(icent==4))? dx1=0.15 : dx1=0 ;
if ( icent == nCentBinPa )
drawText(Form("E_{T}^{HF|#eta|>4} > %dGeV, ", (int)centBinPa[icent-1]), 0.12+dx1+0.25,0.889118,1,15);//yeonju 130805
else
drawText(Form("%dGeV < E_{T}^{HF|#eta|>4} < %dGeV, ", (int)centBinPa[icent-1], (int)centBinPa[icent]), 0.12+dx1,0.889118,1,15);
if ( j == nPt )
drawText(Form("p_{T}^{#gamma} < %dGeV, ", (int)PtBinPa[j-1]), 0.12+dx1+0.25,0.79,1,15);//yeonju 130823
else
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV, ", (int)PtBinPa[j-1], (int)PtBinPa[j]), 0.12+dx1,0.79,1,15);//yeonju 130823
TLegend *l1 = new TLegend(0.6365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
easyLeg(l1,"p+Pb 5.02TeV");
// l1->AddEntry(hxjgNorm[kPADATA][icent + kPADATA*50][j],"pPb ","p");
if ( icent==1 && j==1) l1->Draw();
onSun(0,0,2,0);
jumSun(1,0,1,1);
}
}
c1 -> SaveAs("pPbData_xjgDistribution_pt_cent_dep.gif");
//cout<< "c11" << endl;
/* TCanvas* c11 = new TCanvas("c11","xjgDist_onePanel_pt_cent_dep",500,500);
for ( int j = 1 ; j <=nPt ; j++){
for ( int icent = 1 ; icent<=nCentBinPa ; icent++) {
int iSpecies = kPADATA;
int iglb = icent + iSpecies*50.;
handsomeTH1(hxjgNorm[iSpecies][iglb][j],icent+3*(j-1));
if ( icent == 1 && j == 1) hxjgNorm[iSpecies][iglb][j]->Draw();
else hxjgNorm[iSpecies][iglb][j]->Draw("same");
onSun(0,0,2,0);
}
}
c11 -> SaveAs("xjgDist_onePanel_by_pt_cent_dep.gif");
*/
TCanvas* cDphi = new TCanvas("cDphi","",1200,350);
makeMultiPanelCanvas(cDphi,5,1,0.0,0.0,0.2,0.15,0.02);
TH1D* meanDphi[7][10]; // [iSpecies][pt]
for (int j=1 ; j<=nPt ; j++) {
int iSpecies = kPADATA;
meanDphi[iSpecies][j] = new TH1D(Form("meanDphi_iSpecies%d_pt%d",iSpecies,j), ";p_{T}^{#gamma} (GeV); <Dphi_{J#phi}>",nPt,AvePtBin);
}
for (int ipt=1 ; ipt<=nPt ; ipt++) {
for (int icent=1 ; icent<= nCentBinPa ; icent++ ) {
int iSpecies = kPADATA;
int iglb = icent + iSpecies*50.;
if ( hdphi[iSpecies][iglb][ipt] == NULL )
continue; // emtpy histogram
meanDphi[iSpecies][ipt]->SetBinContent( ipt, hdphi[iSpecies][iglb][ipt]->GetMean() );
meanDphi[iSpecies][ipt]->SetBinError ( ipt, hdphi[iSpecies][iglb][ipt]->GetMeanError() );
}
}
for ( int j = 1 ; j<=nPt ; j++){
int icent=1;
// for ( int icent = 1 ; icent<=nCentBinPa ; icent++) {
cDphi->cd(j-1);
int iSpecies = kPADATA;
int iglb = icent + iSpecies*50.;
handsomeTH1(meanDphi[iSpecies][j]);
meanDphi[iSpecies][j]->SetXTitle("#Delta#phi_{J,#gamma}");
meanDphi[iSpecies][j]->Scale(1./meanDphi[iSpecies][j]->Integral("width"));
meanDphi[iSpecies][j]->SetAxisRange(0.01,30,"Y");
// meanDphi[iSpecies][j]->SetMarkerStyle(24);
// handsomeTH1(meanDphi[iSpecies][j],icent+3*(j-1));
meanDphi[iSpecies][j]->Draw();
gPad->SetLogy();
float dx1=0;
// ((icent==1)||(icent==4))? dx1=0.15 : dx1=0 ;
/* if ( icent == nCentBinPa )
drawText(Form("E_{T}^{HF|#eta|>4} > %dGeV", (int)centBinPa[icent-1]), 0.12+dx1+0.25,0.889118,1,15);//yeonju 130805
else
drawText(Form("%dGeV < E_{T}^{HF|#eta|>4} < %dGeV", (int)centBinPa[icent-1], (int)centBinPa[icent]), 0.12+dx1,0.889118,1,15);
*/ if ( j == nPt )
drawText(Form("p_{T}^{#gamma} < %dGeV, ", (int)PtBinPa[j-1]), 0.12+dx1+0.25,0.79,1,15);//yeonju 130823
else
drawText(Form("%dGeV < p_{T}^{#gamma} < %dGeV, ", (int)PtBinPa[j-1], (int)PtBinPa[j]), 0.12+dx1,0.79,1,15);//yeonju 130823
TLegend *l1 = new TLegend(0.6365615,0.6445304,0.9577623,0.846736,NULL,"brNDC");
easyLeg(l1,"p+Pb 5.02TeV");
if ( icent==1 && j==1) l1->Draw();
// }
}
cDphi -> SaveAs("pPbData_Dphi_distribution_by_pt_dep.pdf");
TCanvas* c2 = new TCanvas("c2","xjg_rjg_vs_pt",800,400);
c2->Divide(2,1);
TH1D* hr[15];
TH1D* hx[15];
for(int j=1; j<=nFile ; j++){
c2->cd(2);
hr[j] = new TH1D(Form("hr%d",j),";E_{T}^{HF|#eta|>4} (GeV);r_{J,#gamma}",200,0,100);
handsomeTH1(hr[j],j+1);
hr[j]->SetAxisRange(0.01,1.1,"Y");
// hr->SetNdivisions(5);
if (j ==1 ) {hr[j]->Draw();}
else { hr[j]->Draw("same");}
if (j < 4) {
handsomeTGraph(gr[kPADATA][j],j+1);
gr[kPADATA][j]->SetMarkerStyle(20);
gr[kPADATA][j]->SetMarkerSize(1);
gr[kPADATA][j]->Draw("same p");
} else {
handsomeTGraph(gr[kPADATA][j],j-2);
gr[kPADATA][j]->SetMarkerStyle(24);
gr[kPADATA][j]->SetMarkerSize(1.5);
gr[kPADATA][j]->Draw("same p");
}
jumSun(0,1,100,1);
c2->cd(1);
hx[j] = (TH1D*)hr[j]->Clone(Form("hx%d",j));
handsomeTH1(hx[j],j+1);
hx[j]->SetYTitle("<x_{J,#gamma}>");
hx[j]->SetAxisRange(0.6,1.05,"Y");
// hx->SetNdivisions(5);
if (j==1) {hx[j]->Draw();}
else {hx[j]->Draw("same");}
if (j < 4) {
handsomeTGraph(gx[kPADATA][j],j+1);
gx[kPADATA][j]->SetMarkerStyle(20);
gx[kPADATA][j]->SetMarkerSize(1);
gx[kPADATA][j]->Draw("same p");
} else {
handsomeTGraph(gx[kPADATA][j],j-2);
gx[kPADATA][j]->SetMarkerStyle(24);
gx[kPADATA][j]->SetMarkerSize(0.2);
gx[kPADATA][j]->Draw("same p");
}
jumSun(0,1,100,1);
TLegend *l1 = new TLegend(0.5226071,0.6300415,0.9597724,0.8332584,NULL,"brNDC");
easyLeg(l1,"5.02TeV");
l1->AddEntry(gr[kPADATA][j],"pPb ","p");
l1->Draw(); }
c2 -> SaveAs("pPbMC_and_Data_comparison_xjg_rjg.gif");
/*
for(int j=1; j<=nPt ; j++){
c2->cd(2*j);
hr[j] = new TH1D(Form("hr%d",j),";E_{T}^{HF|#eta|>4} (GeV);r_{J,#gamma}",200,0,100);
handsomeTH1(hr[j],1);
hr[j]->SetAxisRange(0.01,1.1,"Y");
// hr->SetNdivisions(5);
hr[j]->Draw();
handsomeTGraph(gr[kPADATA][j],1);
gr[kPADATA][j]->SetMarkerStyle(20+j);
gr[kPADATA][j]->Draw("same p");
jumSun(0,1,100,1);
c2->cd(2*j-1);
hx[j] = (TH1D*)hr[j]->Clone(Form("hx%d",j));
handsomeTH1(hx[j],1);
hx[j]->SetYTitle("<x_{J,#gamma}>");
hx[j]->SetAxisRange(0.6,1.05,"Y");
// hx->SetNdivisions(5);
hx[j]->Draw();
handsomeTGraph(gx[kPADATA][j],1);
gx[kPADATA][j]->SetMarkerStyle(20+j);
gx[kPADATA][j]->Draw("same p");
jumSun(0,1,100,1);
TLegend *l1 = new TLegend(0.5226071,0.6300415,0.9597724,0.8332584,NULL,"brNDC");
easyLeg(l1,"5.02TeV");
l1->AddEntry(gr[kPADATA][j],"pPb ","p");
l1->Draw();
c2 -> SaveAs("x_Jgamma.gif");
}*/
}
void mcClosure(bool isFW=1, bool isPrompt=1) {
TString direction;
if (isFW) direction="FW";
else direction ="BW";
TH1::SetDefaultSumw2();
TFile* f1;
if ( isPrompt) f1 = new TFile("/home/samba/songkyo/efficiency/PRMC_eff_rootFile/merged_PRMC_eff_Histos.root");
else f1 = new TFile("/home/samba/songkyo/efficiency/NPMC_eff_rootFile/merged_NPMC_eff_Histos.root");
//read-in tree
TTree *mytree = (TTree*)f1->Get("myTree");
TFile * fEff;
if ( isPrompt) fEff = new TFile("EffAna_PRMC_boosted.root");
else fEff = new TFile("EffAna_NPMC_boosted.root");
TH1D* hEff[10];
hEff[0] = (TH1D*)fEff->Get(Form("h1D_EffDimu_pt_bin_%s",direction.Data()));
hEff[1] = (TH1D*)fEff->Get(Form("h1D_EffDimu_pt_bin_%s_trig",direction.Data()));
hEff[2] = (TH1D*)fEff->Get(Form("h1D_EffDimu_pt_bin_%s_mupl",direction.Data()));
hEff[3] = (TH1D*)fEff->Get(Form("h1D_EffDimu_pt_bin_%s_mumi",direction.Data()));
hEff[4] = (TH1D*)fEff->Get(Form("h1D_EffDimu_pt_bin_%s_jpsi",direction.Data()));
hEff[5] = (TH1D*)fEff->Get(Form("h1D_EffDimu_pt_bin_%s_mass",direction.Data()));
cout << "///////////////////////////////////////////////////////////////////////" << endl;
cout << " Acceptance is calculated by YONGSUN's code not from Hyunchul's code" << endl;
cout << "///////////////////////////////////////////////////////////////////////" << endl;
TH1D* hAcc = (TH1D*)fEff->Get(Form("h1D_Acc_pt_bin_%s",direction.Data()));
for ( int i=0 ; i<=5 ;i++) {
handsomeTH1(hEff[i],i+1);
}
/*
TFile * fAcc;
if ( isPrompt) fAcc = new TFile("AccAna_20131219_PromptJpsi_boosted_binCode_1.root");
else fAcc = new TFile("AccAna_20131219_PromptJpsi_boosted_binCode_1.root");
TH1D* hAcc = (TH1D*)fAcc->Get(Form("h1D_Acc_pt_bin2_%s_20131219",direction.Data()));
*/
TCanvas* c0 = new TCanvas("c0","",1000,500);
c0->Divide(2,1);
c0->cd(1);
hEff[0]->SetXTitle("p_{T} (GeV)");
hEff[0]->SetYTitle("Efficiency");
hEff[0]->SetAxisRange(0,1.1,"Y");
hEff[0]->Draw();
for (int i=1; i<=4 ;i++) {
hEff[i]->Draw("same");
}
jumSun(6.5,1,30,1);
c0->cd(2);
handsomeTH1(hAcc,1);
hAcc->SetXTitle("p_{T} (GeV)");
hAcc->SetYTitle("Acceptance");
hAcc->SetAxisRange(0,1.1,"Y");
hAcc->Draw();
jumSun(6.5,1,30,1);
TCanvas* c1 = new TCanvas("c1","",500,500);
c1->cd();
double ptBin[] = {6.5, 7.5, 8.5, 9.5, 10.5, 11.5, 13.0, 16.0, 20.0, 30.0};
const int nPtBin = sizeof(ptBin)/sizeof(double) - 1;
TH1D* hptGen = new TH1D("hptGen",";J/psi p_{T} (GeV)",nPtBin,ptBin);
TH1D* hptReco = (TH1D*)hptGen->Clone("hptReco");
// Cuts
TCut genRapCut, recoRapCut;
if (isFW) {
genRapCut = "(Gen_QQ_4mom[0].Rapidity()>-2.4) && (Gen_QQ_4mom[0].Rapidity()<-.47)";
recoRapCut = "(Reco_QQ_4mom[0].Rapidity()>-2.4) && (Reco_QQ_4mom[0].Rapidity()<-.47) && (Reco_QQ_mupl_4mom[0].Rapidity()>-2.4) && (Reco_QQ_mupl_4mom[0].Rapidity()<-.47) && (Reco_QQ_mumi_4mom[0].Rapidity()>-2.4) && (Reco_QQ_mumi_4mom[0].Rapidity()<-.47) && (Reco_QQ_trig&1)==1";
}
else {
genRapCut = "Gen_QQ_4mom[0].Rapidity()>-.47 && Gen_QQ_4mom[0].Rapidity()<1.47";
recoRapCut = "(Reco_QQ_4mom[0].Rapidity()>-.47) && (Reco_QQ_4mom[0].Rapidity()<1.47) && (Reco_QQ_mupl_4mom[0].Rapidity()>-.47 && Reco_QQ_mupl_4mom[0].Rapidity()<1.47) && (Reco_QQ_mumi_4mom[0].Rapidity()>-.47 && Reco_QQ_mumi_4mom[0].Rapidity()<1.47) && (Reco_QQ_trig&1)==1";
}
TCut recoMassCut = "Reco_QQ_4mom[0].M()>2.95 && Reco_QQ_4mom[0].M()<3.25";
TCut recoAccCutPlus = ""; //" Reco_QQ_mupl_4mom[0].Eta()>-2.4 && Reco_QQ_mupl_4mom[0].Eta()<1.47 && ( ( abs(Reco_QQ_mupl_4mom[0].Eta())>2.2 && abs(Reco_QQ_mupl_4mom[0].Eta())<2.4 && Reco_QQ_mupl_4mom[0].Pt()>0.8 ) || ( abs(Reco_QQ_mupl_4mom[0].Eta())>1.3 && abs(Reco_QQ_mupl_4mom[0].Eta())<=2.2 && Reco_QQ_mupl_4mom[0].P()>2.9 ) || ( abs(Reco_QQ_mupl_4mom[0].Eta())<=1.3 && Reco_QQ_mupl_4mom[0].Pt()>3.3 ) )";
TCut recoAccCutMinus = ""; //" Reco_QQ_mumi_4mom[0].Eta()>-2.4 && Reco_QQ_mumi_4mom[0].Eta()<1.47 && ( ( abs(Reco_QQ_mumi_4mom[0].Eta())>2.2 && abs(Reco_QQ_mumi_4mom[0].Eta())<2.4 && Reco_QQ_mumi_4mom[0].Pt()>0.8 ) || ( abs(Reco_QQ_mumi_4mom[0].Eta())>1.3 && abs(Reco_QQ_mumi_4mom[0].Eta())<=2.2 && Reco_QQ_mumi_4mom[0].P()>2.9 ) || ( abs(Reco_QQ_mumi_4mom[0].Eta())<=1.3 && Reco_QQ_mumi_4mom[0].Pt()>3.3 ) )";
TCut recoAccCut = recoAccCutPlus && recoAccCutMinus;
Long64_t nEntry = 100000000;
mytree->Draw(Form("Gen_QQ_4mom[0].Pt()>>%s",hptGen->GetName()), genRapCut, "",nEntry);
mytree->Draw(Form("Reco_QQ_4mom[0].Pt()>>%s",hptReco->GetName()), recoRapCut && recoMassCut && recoAccCut, "",nEntry);
TH1D* hptRecoCorr = (TH1D*)hptReco->Clone("hptRecoCorr");
hptRecoCorr->Divide(hEff[0]);
hptRecoCorr->Divide(hAcc);
handsomeTH1(hptGen,1);
hptGen->SetAxisRange(1,1.5e5,"Y");
hptGen->Draw("hist");
handsomeTH1(hptReco,2);
hptReco->SetMarkerStyle(24);
hptReco->Draw("same");
handsomeTH1(hptRecoCorr,2);
hptRecoCorr->Draw("same");
TLegend *l = new TLegend(0.4233871,0.5042373,0.8689516,0.7521186,NULL,"brNDC");
easyLeg(l,"Yield");
l->AddEntry(hptGen,"Generated J/#psi","l");
l->AddEntry(hptReco,"Reco yield","p");
l->AddEntry(hptRecoCorr,"Reco/(Acc*Eff)","p");
l->Draw();
}
void finalPlotsGammaTrack () {
TH1D* hDphiF[5][10];
TH1D* hXawayF[5][10];
TH1D* hPtAwayF[5][10];
TFile* inf = new TFile("photonTrackOutput_photonPt50GeV.root");
for ( int icent =1 ; icent<=nCent_std ; icent++) {
hXawayF[icent][kHIDATA] = (TH1D*)inf->Get(Form("hidata_icent%d_hTrkXAway_final",icent));
handsomeTH1(hXawayF[icent][kHIDATA],color[icent]);
hXawayF[icent][kHIMC] = (TH1D*)inf->Get(Form("himc_icent%d_hTrkXAway_final",icent));
handsomeTH1(hXawayF[icent][kHIMC],color[icent]);
TH1ScaleByWidth(hXawayF[icent][kHIDATA]);
TH1ScaleByWidth(hXawayF[icent][kHIMC]);
}
TCanvas* c100 = new TCanvas("c100","",1000,500);
c100->Divide(2,1);
c100->cd(2);
TH1D* htemp100 = (TH1D*)hXawayF[1][kHIDATA]->Clone("htemp100");
htemp100->Reset();
handsomeTH1(htemp100,1);
htemp100->SetAxisRange(0.01,1e2,"Y");
htemp100->SetYTitle("dN_{track}/dx_{T#gamma} per #gamma");
htemp100->DrawCopy();
gPad->SetLogy();
for ( int icent =1 ; icent<=nCent_std ; icent++) {
hXawayF[nCent_std+1-icent][kHIDATA]->Draw("same");
}
TLegend* l1 = new TLegend(0.4979083,0.4978381,0.9999163,0.7767209,NULL,"brNDC");
easyLeg(l1,"");
for ( int icent = nCent_std ; icent>=1 ; icent--) {
int lowCent = centBin_std[icent-1];
int highCent = centBin_std[icent]-1;
l1->AddEntry(hXawayF[icent][kHIDATA], Form("%.0f%% - %.0f%%", float((float)lowCent*2.5), float((float)(highCent+1)*2.5)));
}
drawText("CMS Preliminary",0.5,0.83,1);
drawText("PbPb #int L dt = ~150 #mub^{-1}",0.5,0.75,1);
c100->cd(1);
htemp100->DrawCopy();
gPad->SetLogy();
for ( int icent =1 ; icent<=nCent_std ; icent++) {
hXawayF[nCent_std+1-icent][kHIMC]->Draw("same");
}
drawText("MC",0.5,0.83,1);
drawText("PYTHIA+HYDJET",0.5,0.75,1);
l1->Draw();
int percentBin[5] = {0,10,30,50,100};
TCanvas* c102 = new TCanvas("c102","",1000,350);
makeMultiPanelCanvas(c102,4,1,0.0,0.0,0.24,0.15,0.02);
htemp100->SetYTitle("DATA/MC");
htemp100->SetAxisRange(0,2,"Y");
htemp100->SetNdivisions(505);
for ( int icent =1 ; icent<=nCent_std ; icent++) {
c102->cd(nCent_std+1-icent);
htemp100->DrawCopy();
jumSun(0,1,1,1);
TH1D* tempRatio = (TH1D*)hXawayF[icent][kHIDATA]->Clone(Form("tempRatio_icent%d",icent));
tempRatio->Divide(hXawayF[icent][kHIMC]);
tempRatio->Draw("same");
if ( icent ==4 ) {
drawText("CMS Preliminary",0.4,0.91,1,16);
drawText("PbPb #int L dt = ~150 #mub^{-1}",0.4,0.82,1,16);
}
drawText(Form("%d%% - %d%%",percentBin[icent-1],percentBin[icent]),0.4,0.73,1,16);
}
}
