void genAnalysis(
Int_t period = 1
){
TString filesPath = "/scratch5/ceballos/ntuples_noweights/";
Double_t lumi = 0.0715;
if(period == 1) lumi = 2.2;
//*******************************************************
//Input Files
//*******************************************************
vector<TString> infilenamev;
vector<Int_t> infilecatv;
TString puPath = "";
if (period==0){
puPath = "/home/ceballos/cms/cmssw/042/CMSSW_7_4_6/src/MitAnalysisRunII/data/puWeights_13TeV_50ns.root";
//infilenamev.push_back(Form("%sdata_AOD_50ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sWWTo2L2Nu_13TeV-powheg+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
//infilenamev.push_back(Form("%sDYJetsToLL_M-10to50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
//infilenamev.push_back(Form("%sDYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
//infilenamev.push_back(Form("%sTTTo2L2Nu_13TeV-powheg+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(3);
//infilenamev.push_back(Form("%sST_tW_antitop_5f_inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(3);
//infilenamev.push_back(Form("%sWZ_TuneCUETP8M1_13TeV-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
//infilenamev.push_back(Form("%sZZ_TuneCUETP8M1_13TeV-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
//infilenamev.push_back(Form("%sWJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(5);
}
else if(period==1){
puPath = "/home/ceballos/cms/cmssw/042/CMSSW_7_4_6/src/MitAnalysisRunII/data/puWeights_13TeV_25ns.root";
//infilenamev.push_back(Form("%sdata_AOD_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sWWTo2L2Nu_13TeV-powheg+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
//infilenamev.push_back(Form("%sDYJetsToLL_M-10to50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(2);
//infilenamev.push_back(Form("%sDYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v3+AODSIM.root",filesPath.Data())); //infilecatv.push_back(2);
//infilenamev.push_back(Form("%sTTTo2L2Nu_13TeV-powheg+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(3);
//infilenamev.push_back(Form("%sST_tW_top_5f_//inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(3);
//infilenamev.push_back(Form("%sST_tW_antitop_5f_//inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(3);
//infilenamev.push_back(Form("%sZZTo2L2Nu_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sZZTo2L2Q_13TeV_amcatnloFXFX_madsp//in_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sZZTo4L_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sWZTo1L1Nu2Q_13TeV_amcatnloFXFX_madsp//in_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sWZTo2L2Q_13TeV_amcatnloFXFX_madsp//in_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v2+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sWZTo3LNu_TuneCUETP8M1_13TeV-powheg-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sWZZ_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sTTWJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-madsp//in-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sTTWJetsToQQ_TuneCUETP8M1_13TeV-amcatnloFXFX-madsp//in-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sTTZToLLNuNu_M-10_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sTTZToQQ_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sTTGJets_TuneCUETP8M1_13TeV-amcatnloFXFX-madsp//in-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(4);
//infilenamev.push_back(Form("%sWJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(5);
//infilenamev.push_back(Form("%sWGToLNuG_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(6);
//infilenamev.push_back(Form("%sGluGluHToWWTo2L2Nu_M125_13TeV_amcatnloFXFX_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sVBFHToWWTo2L2Nu_M125_13TeV_powheg_JHUgen_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sHWm//inusJ_HToWW_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sHWplusJ_HToWW_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sHZJ_HToWW_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sGluGluZH_HToWW_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sGluGluHToTauTau_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sVBFHToTauTau_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sWplusHToTauTau_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sWm//inusHToTauTau_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
//infilenamev.push_back(Form("%sttHJetToNonbb_M125_13TeV_amcatnloFXFX_madsp//in_pythia8_mWCutfix+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); //infilecatv.push_back(7);
}
else {assert(0);}
//infilenamev.clear();infilecatv.clear();
//infilenamev.push_back(Form("/scratch5/ceballos/test/test.root")); infilecatv.push_back(1);
if(infilenamev.size() != infilecatv.size()) assert(0);
Float_t fMVACut[4][4];
InitializeJetIdCuts(fMVACut);
TFile *fPUFile = TFile::Open(Form("%s",puPath.Data()));
TH1D *fhDPU = (TH1D*)(fPUFile->Get("puWeights"));
assert(fhDPU);
fhDPU->SetDirectory(0);
delete fPUFile;
double xmin = 0.0;
double xmax = 1.0;
int nBinPlot = 200;
double xminPlot = 0.0;
double xmaxPlot = 200.0;
const int allPlots = 160;
TH1D* histo[allPlots];
for(int thePlot=0; thePlot<allPlots; thePlot++){
if (thePlot >= 0 && thePlot <= 39) {nBinPlot = 20; xminPlot = 0.0; xmaxPlot = 100.0;}
else if(thePlot >= 40 && thePlot <= 79) {nBinPlot = 5; xminPlot = 0.0; xmaxPlot = 2.5;}
else if(thePlot >= 80 && thePlot <= 80) {nBinPlot = 5; xminPlot =-0.5; xmaxPlot = 4.5;}
else if(thePlot >= 81 && thePlot <= 90) {nBinPlot = 100; xminPlot = 0.0; xmaxPlot = 1.0;}
else if(thePlot >=100 && thePlot <=109) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 100.0;}
else if(thePlot >=110 && thePlot <=119) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 5.0;}
else if(thePlot >=120 && thePlot <=129) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 100.0;}
else if(thePlot >=130 && thePlot <=139) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 5.0;}
else if(thePlot >=140 && thePlot <=149) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 100.0;}
else if(thePlot >=150 && thePlot <=159) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 5.0;}
TH1D* histos = new TH1D("histos", "histos", nBinPlot, xminPlot, xmaxPlot);
histos->Sumw2();
histo[thePlot] = (TH1D*) histos->Clone(Form("histo%d",thePlot));
histos->Clear();
}
//*******************************************************
// Chain Loop
//*******************************************************
for(UInt_t ifile=0; ifile<infilenamev.size(); ifile++) {
TFile the_input_file(infilenamev[ifile]);
TTree *the_input_tree = (TTree*)the_input_file.FindObjectAny("events");
//TTree *the_input_all = (TTree*)the_input_file.FindObjectAny("all");
BareEvent eventEvent;
eventEvent.setBranchAddresses(the_input_tree);
BareJets eventJets;
eventJets.setBranchAddresses(the_input_tree);
BareLeptons eventLeptons;
eventLeptons.setBranchAddresses(the_input_tree);
BareTaus eventTaus;
eventTaus.setBranchAddresses(the_input_tree);
BareMet eventMet;
eventMet.SetExtend();
eventMet.setBranchAddresses(the_input_tree);
BareTrigger eventTrigger;
eventTrigger.setBranchAddresses(the_input_tree);
BareVertex eventVertex;
eventVertex.setBranchAddresses(the_input_tree);
BareMonteCarlo eventMonteCarlo;
eventMonteCarlo.setBranchAddresses(the_input_tree);
TNamed *triggerNames = (TNamed*)the_input_file.FindObjectAny("triggerNames");
char **tokens;
size_t numtokens;
tokens = strsplit(triggerNames->GetTitle(), ",", &numtokens);
if(infilecatv[ifile] == 0){
for (int i = 0; i < (int)numtokens; i++) {
printf("triggerNames(%2d): \"%s\"\n",(int)i,tokens[i]);
}
}
else {
printf("sampleNames(%d): %s\n",ifile,infilenamev[ifile].Data());
}
double isoCut;
for (int i=0; i<int(the_input_tree->GetEntries()/1.); ++i) {
the_input_tree->GetEntry(i);
if(i%100000==0) printf("event %d out of %d\n",i,(int)the_input_tree->GetEntries());
double totalWeight = 1;//eventMonteCarlo.mcWeight*lumi;
vector<bool> isGenDupl; int nGoodGenLeptons = 0;
for(int ngen0=0; ngen0<eventMonteCarlo.p4->GetEntriesFast(); ngen0++) {
isGenDupl.push_back(0);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 11 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 13) isGenDupl[ngen0] = 1;
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 11 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 13) continue;
for(int ngen1=ngen0+1; ngen1<eventMonteCarlo.p4->GetEntriesFast(); ngen1++) {
if(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen0])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngen1])) < 0.02) {
isGenDupl[ngen0] = 1;
break;
}
}
if(isGenDupl[ngen0] == 0) nGoodGenLeptons++;
}
histo[80]->Fill((double)nGoodGenLeptons,totalWeight);
for(int ngen=0; ngen<eventMonteCarlo.p4->GetEntriesFast(); ngen++) {
if(isGenDupl[ngen] == 1) continue;
if(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt() <= 10) continue;
if(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()) >= 2.5) continue;
int nCount = 0;
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==11) nCount = 10;
histo[nCount+ 0]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+40]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
int whichRecoLepton = -1;
for(int nlep=0; nlep<eventLeptons.p4->GetEntriesFast(); nlep++) {
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen]) &&
((TLorentzVector*)(*eventLeptons.p4)[nlep])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])) < 0.1) {
whichRecoLepton = nlep;
break;
}
}
if(whichRecoLepton >= 0) {
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==13) histo[81]->Fill(TMath::Min((double)(*eventLeptons.iso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==11) histo[82]->Fill(TMath::Min((double)(*eventLeptons.iso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==13) histo[83]->Fill(TMath::Min((double)(*eventLeptons.chIso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==11) histo[84]->Fill(TMath::Min((double)(*eventLeptons.chIso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==13) histo[85]->Fill(TMath::Min((double)(*eventLeptons.nhIso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==11) histo[86]->Fill(TMath::Min((double)(*eventLeptons.nhIso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==13) histo[87]->Fill(TMath::Min((double)(*eventLeptons.phoIso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==11) histo[88]->Fill(TMath::Min((double)(*eventLeptons.phoIso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==13) histo[89]->Fill(TMath::Min((double)(*eventLeptons.puIso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen])==11) histo[90]->Fill(TMath::Min((double)(*eventLeptons.puIso) [whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt(),0.999),totalWeight);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepBaseline) == BareLeptons::LepBaseline) {
histo[nCount+ 1]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+41]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[whichRecoLepton]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Eta()) ? 0.1260 : 0.1440);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepVeto) == BareLeptons::LepVeto
&& (double)(*eventLeptons.iso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt() < isoCut) {
histo[nCount+ 2]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+42]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepFake) == BareLeptons::LepFake) {
histo[nCount+ 3]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+43]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[whichRecoLepton]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Eta()) ? 0.0893 : 0.1210);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepLoose) == BareLeptons::LepLoose
&& (double)(*eventLeptons.iso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt() < isoCut) {
histo[nCount+ 4]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+44]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[whichRecoLepton]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Eta()) ? 0.0766 : 0.0678);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepMedium) == BareLeptons::LepMedium
&& (double)(*eventLeptons.iso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt() < isoCut) {
histo[nCount+ 5]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+45]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[whichRecoLepton]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Eta()) ? 0.0354 : 0.0646);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepTight) == BareLeptons::LepTight
&& (double)(*eventLeptons.iso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt() < isoCut) {
histo[nCount+ 6]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+46]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepSoftIP) == BareLeptons::LepSoftIP) {
histo[nCount+ 7]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+47]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[whichRecoLepton]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Eta()) ? 0.0766 : 0.0678);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepMediumIP) == BareLeptons::LepMediumIP
&& (double)(*eventLeptons.iso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt() < isoCut) {
histo[nCount+ 8]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+48]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[whichRecoLepton]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Eta()) ? 0.0354 : 0.0646);
if(((int)(*eventLeptons.selBits)[whichRecoLepton] & BareLeptons::LepTightIP) == BareLeptons::LepTightIP
&& (double)(*eventLeptons.iso)[whichRecoLepton]/((TLorentzVector*)(*eventLeptons.p4)[whichRecoLepton])->Pt() < isoCut) {
histo[nCount+ 9]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt(),99.999),totalWeight);
histo[nCount+49]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()),totalWeight);
}
}
} // end loop over gen leptons
for(int nlep=0; nlep<eventLeptons.p4->GetEntriesFast(); nlep++) {
int nCount = 20;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep])==11) nCount = 30;
int whichGenLepton = -1;
for(int ngen=0; ngen<eventMonteCarlo.p4->GetEntriesFast(); ngen++) {
if(isGenDupl[ngen] == 1) continue;
if(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Pt() <= 10) continue;
if(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])->Eta()) >= 2.5) continue;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen]) &&
((TLorentzVector*)(*eventLeptons.p4)[nlep])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])) < 0.1) {
whichGenLepton = nlep;
break;
}
}
if(whichGenLepton == -1) {
histo[nCount+ 0]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+40]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepBaseline) == BareLeptons::LepBaseline) {
histo[nCount+ 1]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+41]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()) ? 0.1260 : 0.1440);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepVeto) == BareLeptons::LepVeto
&& (double)(*eventLeptons.iso)[nlep]/((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt() < isoCut) {
histo[nCount+ 2]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+42]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepFake) == BareLeptons::LepFake) {
histo[nCount+ 3]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+43]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()) ? 0.0893 : 0.1210);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepLoose) == BareLeptons::LepLoose
&& (double)(*eventLeptons.iso)[nlep]/((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt() < isoCut) {
histo[nCount+ 4]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+44]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()) ? 0.0766 : 0.0678);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepMedium) == BareLeptons::LepMedium
&& (double)(*eventLeptons.iso)[nlep]/((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt() < isoCut) {
histo[nCount+ 5]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+45]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()) ? 0.0354 : 0.0646);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepTight) == BareLeptons::LepTight
&& (double)(*eventLeptons.iso)[nlep]/((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt() < isoCut) {
histo[nCount+ 6]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+46]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepSoftIP) == BareLeptons::LepSoftIP) {
histo[nCount+ 7]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+47]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()) ? 0.0766 : 0.0678);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepMediumIP) == BareLeptons::LepMediumIP
&& (double)(*eventLeptons.iso)[nlep]/((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt() < isoCut) {
histo[nCount+ 8]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+48]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
isoCut = 0.12;
if(TMath::Abs((int)(*eventLeptons.pdgId)[nlep]) == 11) isoCut = (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()) ? 0.0354 : 0.0646);
if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepTightIP) == BareLeptons::LepTightIP
&& (double)(*eventLeptons.iso)[nlep]/((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt() < isoCut) {
histo[nCount+ 9]->Fill(TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt(),99.999),totalWeight);
histo[nCount+49]->Fill(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),totalWeight);
}
}
} // end loop over reco leptons
vector<int> idLep;
for(int nlep=0; nlep<eventLeptons.p4->GetEntriesFast(); nlep++) {
if(selectIdIsoCut("medium",TMath::Abs((int)(*eventLeptons.pdgId)[nlep]),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt()),
TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),(double)(*eventLeptons.iso)[nlep],(int)(*eventLeptons.selBits)[nlep]))
{idLep.push_back(nlep);}
else if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepFake) == BareLeptons::LepFake ) {idLep.push_back(nlep);}
}
vector<int> idGenJet;
for(int ngenj=0; ngenj<eventMonteCarlo.jetP4->GetEntriesFast(); ngenj++) {
Bool_t isGenLepton = kFALSE;
for(int ngenl=0; ngenl<eventMonteCarlo.p4->GetEntriesFast(); ngenl++) {
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngenl]) != 12 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngenl]) != 14 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngenl]) != 16 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngenl]) != 11 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngenl]) != 13) continue;
if(((TLorentzVector*)(*eventMonteCarlo.jetP4)[ngenj])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngenl])) < 0.3) isGenLepton = kTRUE;
}
if(isGenLepton == kTRUE) continue;
if(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[ngenj])->Eta()) >= 5) continue;
idGenJet.push_back(ngenj);
}
vector<int> idJet;
vector<int> idMVAJet;
for(int nj=0; nj<eventJets.p4->GetEntriesFast(); nj++){
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() < 10) continue;
Bool_t isLepton = kFALSE;
for(unsigned int nl=0; nl<idLep.size(); nl++){
if(((TLorentzVector*)(*eventJets.p4)[nj])->DeltaR(*((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])) < 0.3) isLepton = kTRUE;
}
if(isLepton == kTRUE) continue;
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() < 30) continue;
idJet.push_back(nj);
bool passId = passJetId(fMVACut, (float)(*eventJets.puId)[nj], ((TLorentzVector*)(*eventJets.p4)[nj])->Pt(), TMath::Abs(((TLorentzVector*)(*eventJets.p4)[nj])->Eta()));
if(passId == false) continue;
idMVAJet.push_back(nj);
}
for(unsigned int ngenj=0; ngenj<idGenJet.size(); ngenj++) {
int nCount = 100;
if(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Eta()) < 2.5)
histo[nCount+ 0]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Pt() > 30)
histo[nCount+10]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Eta()),totalWeight);
bool isRecoJet = kFALSE;
for(unsigned int nj=0; nj<idJet.size(); nj++){
if(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->DeltaR(*((TLorentzVector*)(*eventJets.p4)[idJet[nj]])) < 0.4) isRecoJet = kTRUE;
}
if(isRecoJet == kTRUE) {
if(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Eta()) < 2.5)
histo[nCount+ 1]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Pt() > 30)
histo[nCount+11]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Eta()),totalWeight);
}
isRecoJet = kFALSE;
for(unsigned int nj=0; nj<idMVAJet.size(); nj++){
if(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->DeltaR(*((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])) < 0.4) isRecoJet = kTRUE;
}
if(isRecoJet == kTRUE) {
if(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Eta()) < 2.5)
histo[nCount+ 2]->Fill(TMath::Min(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Pt() > 30)
histo[nCount+12]->Fill(TMath::Abs(((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])->Eta()),totalWeight);
}
}
for(unsigned int nj=0; nj<idJet.size(); nj++) {
int nCount = 120;
if(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Eta()) < 2.5)
histo[nCount+ 0]->Fill(TMath::Min(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Pt() > 30)
histo[nCount+10]->Fill(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Eta()),totalWeight);
bool isGenJet = kFALSE;
for(unsigned int ngenj=0; ngenj<idGenJet.size(); ngenj++){
if(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])) < 0.4) isGenJet = kTRUE;
}
if(isGenJet == kFALSE) {
if(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Eta()) < 2.5)
histo[nCount+ 1]->Fill(TMath::Min(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Pt() > 30)
histo[nCount+11]->Fill(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idJet[nj]])->Eta()),totalWeight);
}
}
for(unsigned int nj=0; nj<idMVAJet.size(); nj++) {
int nCount = 140;
if(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Eta()) < 2.5)
histo[nCount+ 0]->Fill(TMath::Min(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Pt() > 30)
histo[nCount+10]->Fill(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Eta()),totalWeight);
bool isGenJet = kFALSE;
for(unsigned int ngenj=0; ngenj<idGenJet.size(); ngenj++){
if(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.jetP4)[idGenJet[ngenj]])) < 0.4) isGenJet = kTRUE;
}
if(isGenJet == kFALSE) {
if(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Eta()) < 2.5)
histo[nCount+ 1]->Fill(TMath::Min(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Pt(),99.999),totalWeight);
if(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Pt() > 30)
histo[nCount+11]->Fill(TMath::Abs(((TLorentzVector*)(*eventJets.p4)[idMVAJet[nj]])->Eta()),totalWeight);
}
}
} // end of loop
} // end of chain
for(int np= 1; np<10; np++) histo[np]->Divide(histo[ 0]);
for(int np=11; np<20; np++) histo[np]->Divide(histo[10]);
for(int np=21; np<30; np++) histo[np]->Divide(histo[20]);
for(int np=31; np<40; np++) histo[np]->Divide(histo[30]);
for(int np=41; np<50; np++) histo[np]->Divide(histo[40]);
for(int np=51; np<60; np++) histo[np]->Divide(histo[50]);
for(int np=61; np<70; np++) histo[np]->Divide(histo[60]);
for(int np=71; np<80; np++) histo[np]->Divide(histo[70]);
for(int np=80; np<=90; np++) histo[np]->Scale(1./histo[np]->GetSumOfWeights());
for(int np=101; np<110; np++) histo[np]->Divide(histo[100]);
for(int np=111; np<120; np++) histo[np]->Divide(histo[110]);
for(int np=121; np<130; np++) histo[np]->Divide(histo[120]);
for(int np=131; np<140; np++) histo[np]->Divide(histo[130]);
for(int np=141; np<150; np++) histo[np]->Divide(histo[140]);
for(int np=151; np<160; np++) histo[np]->Divide(histo[150]);
char output[200];
sprintf(output,"histo_geneff.root");
TFile* outFilePlotsNote = new TFile(output,"recreate");
outFilePlotsNote->cd();
for(int np=0; np<160; np++) histo[np]->Write();
outFilePlotsNote->Close();
}
void QCDAnalysis(
Int_t nsel = 0,
Int_t typeSel = 4,
Int_t applyPrescale = 1,
TString typeLepSel = "medium"
){
Int_t period = 1;
TString filesPath = "/scratch5/ceballos/ntuples_weights/qcd_";
Double_t lumi = 0.0715;
if(period == 1) lumi = 2.2;
Double_t prescale[5];
double denFRDA[5][5] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
double numFRDA[5][5] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
double denFRBG[5][5] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
double numFRBG[5][5] = {0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0,0};
//*******************************************************
//Input Files
//*******************************************************
vector<TString> infilenamev;
vector<Int_t> infilecatv;
TString puPath = "";
if (period==0){
}
else if(period==1){
if (typeSel == 11) {prescale[0]=0.00000;prescale[1]=0.00859;prescale[2]=0.00520;prescale[3]=0.00750;prescale[4]=0.00956;}
else if(typeSel == 13) {prescale[0]=0.00250;prescale[1]=0.07087;prescale[2]=0.09861;prescale[3]=0.09744;prescale[4]=0.09616;}
puPath = "/home/ceballos/cms/cmssw/042/CMSSW_7_4_6/src/MitAnalysisRunII/data/puWeights_13TeV_25ns.root";
infilenamev.push_back(Form("%sdata_AOD_Run2015C1_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sdata_AOD_Run2015D3_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sdata_AOD_Run2015D4_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sWWTo2L2Nu_13TeV-powheg+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sGluGluWWTo2L2Nu_MCFM_13TeV+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sDYJetsToLL_M-10to50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sDYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v3+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sTT_TuneCUETP8M1_13TeV-powheg-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(3); // tt->X (not tt->2l)
infilenamev.push_back(Form("%sST_tW_top_5f_inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(3);
infilenamev.push_back(Form("%sST_tW_antitop_5f_inclusiveDecays_13TeV-powheg-pythia8_TuneCUETP8M1+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(3);
infilenamev.push_back(Form("%sZZTo2L2Nu_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sZZTo2L2Q_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sZZTo4L_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sGluGluToZZTo2e2mu_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sGluGluToZZTo2e2tau_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sGluGluToZZTo2mu2tau_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sGluGluToZZTo4e_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sGluGluToZZTo4mu_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sGluGluToZZTo4tau_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sWZTo1L1Nu2Q_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sWZTo2L2Q_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sWZTo3LNu_TuneCUETP8M1_13TeV-powheg-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sWWZ_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sWZZ_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sZZZ_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sTTWJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-madspin-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sTTWJetsToQQ_TuneCUETP8M1_13TeV-amcatnloFXFX-madspin-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sTTZToLLNuNu_M-10_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sTTZToQQ_TuneCUETP8M1_13TeV-amcatnlo-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sTTGJets_TuneCUETP8M1_13TeV-amcatnloFXFX-madspin-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(4);
infilenamev.push_back(Form("%sWJetsToLNu_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(5);
infilenamev.push_back(Form("%sWGToLNuG_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(6);
//infilenamev.push_back(Form("%sZGTo2LG_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(6);
infilenamev.push_back(Form("%sGluGluHToWWTo2L2Nu_M125_13TeV_powheg_JHUgen_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v3+AODSIM.root",filesPath.Data())); infilecatv.push_back(7);
infilenamev.push_back(Form("%sVBFHToWWTo2L2Nu_M125_13TeV_powheg_JHUgen_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(7);
infilenamev.push_back(Form("%sGluGluHToTauTau_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(7);
infilenamev.push_back(Form("%sVBFHToTauTau_M125_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(7);
/////infilenamev.push_back(Form("%sVHToNonbb_M125_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(7);
/////infilenamev.push_back(Form("%sttHJetToNonbb_M125_13TeV_amcatnloFXFX_madspin_pythia8_mWCutfix+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(7);
}
//infilenamev.push_back(Form("nero.root")); infilecatv.push_back(0);
if(infilenamev.size() != infilecatv.size()) assert(0);
Float_t fMVACut[4][4];
InitializeJetIdCuts(fMVACut);
TFile *fPUFile = TFile::Open(Form("%s",puPath.Data()));
TH1D *fhDPU = (TH1D*)(fPUFile->Get("puWeights"));
assert(fhDPU);
fhDPU->SetDirectory(0);
delete fPUFile;
double xmin = 0.0;
double xmax = 1.0;
int nBinPlot = 200;
double xminPlot = 0.0;
double xmaxPlot = 200.0;
const int allPlots = 11;
const int histBins = 8;
TH1D* histo[allPlots][histBins];
for(int thePlot=0; thePlot<allPlots; thePlot++){
if (thePlot >= 0 && thePlot <= 5) {nBinPlot = 200; xminPlot = 0.0; xmaxPlot = 200.0;}
else if(thePlot >= 6 && thePlot <= 6) {nBinPlot = 7; xminPlot =-0.5; xmaxPlot = 6.5;}
else if(thePlot >= 7 && thePlot <= 7) {nBinPlot = 40; xminPlot = 0.0; xmaxPlot = 40.0;}
else if(thePlot >= 8 && thePlot <= 8) {nBinPlot = 40; xminPlot =-0.5; xmaxPlot = 39.5;}
else if(thePlot >= 9 && thePlot <= 9) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 50.0;}
else if(thePlot >= 10 && thePlot <= 10) {nBinPlot = 50; xminPlot = 0.0; xmaxPlot = 2.5;}
TH1D* histos = new TH1D("histos", "histos", nBinPlot, xminPlot, xmaxPlot);
histos->Sumw2();
for(int i=0; i<histBins; i++) histo[thePlot][i] = (TH1D*) histos->Clone(Form("histo%d",i));
histos->Clear();
}
//*******************************************************
// Chain Loop
//*******************************************************
for(UInt_t ifile=0; ifile<infilenamev.size(); ifile++) {
TFile the_input_file(infilenamev[ifile]);
TTree *the_input_tree = (TTree*)the_input_file.FindObjectAny("events");
//TTree *the_input_all = (TTree*)the_input_file.FindObjectAny("all");
BareMonteCarlo eventMonteCarlo;
eventMonteCarlo.setBranchAddresses(the_input_tree);
BareEvent eventEvent;
eventEvent.setBranchAddresses(the_input_tree);
BareJets eventJets;
eventJets.setBranchAddresses(the_input_tree);
BareLeptons eventLeptons;
eventLeptons.setBranchAddresses(the_input_tree);
BareTaus eventTaus;
eventTaus.setBranchAddresses(the_input_tree);
BareMet eventMet;
eventMet.SetExtend();
eventMet.setBranchAddresses(the_input_tree);
BareTrigger eventTrigger;
eventTrigger.setBranchAddresses(the_input_tree);
BareVertex eventVertex;
eventVertex.setBranchAddresses(the_input_tree);
TNamed *triggerNames = (TNamed*)the_input_file.FindObjectAny("triggerNames");
char **tokens;
size_t numtokens;
tokens = strsplit(triggerNames->GetTitle(), ",", &numtokens);
if(infilecatv[ifile] == 0){
for (int i = 0; i < (int)numtokens; i++) {
printf("triggerNames(%2d): \"%s\"\n",(int)i,tokens[i]);
}
}
else {
printf("sampleNames(%d): %s\n",ifile,infilenamev[ifile].Data());
}
Int_t nPassTrigger[12] = {0,0,0,0,0,0,0,0,0,0,0,0};
Int_t nPassCuts[10] = {0,0,0,0,0,0,0,0,0,0};
double theMCPrescale = mcPrescale;
if(infilecatv[ifile] == 0) theMCPrescale = 1.0;
for (int i=0; i<int(the_input_tree->GetEntries()/theMCPrescale); ++i) {
the_input_tree->GetEntry(i);
if(i%100000==0) printf("event %d out of %d\n",i,(int)the_input_tree->GetEntries());
if(typeSel != 11 && typeSel != 13) assert(0);
Bool_t passFilter = kFALSE;
Bool_t passTrigger = kFALSE;
for (int nt = 0; nt < (int)numtokens; nt++) {
if(typeSel == 11 &&
(strcmp(tokens[nt],"HLT_Ele12_CaloIdL_TrackIdL_IsoVL_PFJet30_v*") == 0 ||
strcmp(tokens[nt],"HLT_Ele18_CaloIdL_TrackIdL_IsoVL_PFJet30_v*") == 0 ||
strcmp(tokens[nt],"HLT_Ele23_CaloIdL_TrackIdL_IsoVL_PFJet30_v*") == 0 ||
strcmp(tokens[nt],"HLT_Ele33_CaloIdL_TrackIdL_IsoVL_PFJet30_v*") == 0) &&
(*eventTrigger.triggerFired)[nt] == 1) passTrigger = kTRUE;
if(typeSel == 13 &&
(strcmp(tokens[nt],"HLT_Mu8_TrkIsoVVL_v*") == 0 ||
strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_v*") == 0 ||
strcmp(tokens[nt],"HLT_Mu24_TrkIsoVVL_v*") == 0 ||
strcmp(tokens[nt],"HLT_Mu34_TrkIsoVVL_v*") == 0) &&
(*eventTrigger.triggerFired)[nt] == 1) passTrigger = kTRUE;
}
if(passTrigger == kTRUE &&
eventLeptons.p4->GetEntriesFast() >= 1 &&
((TLorentzVector*)(*eventLeptons.p4)[0])->Pt() > 10 &&
(double)((TLorentzVector*)(*eventMet.p4)[0])->Pt() < 30.0) passFilter = kTRUE;
if(passTrigger == kTRUE) nPassCuts[0]++;
if(passFilter == kTRUE) nPassCuts[1]++;
if(passFilter == kFALSE) continue;
Bool_t passSel = kFALSE;
TLorentzVector dilep;double deltaPhiDileptonMet = -999.0; double mtW = -999.0;
vector<int> idLep; vector<int> idTight;
for(int nlep=0; nlep<eventLeptons.p4->GetEntriesFast(); nlep++) {
if(selectIdIsoCut(typeLepSel.Data(),TMath::Abs((int)(*eventLeptons.pdgId)[nlep]),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt()),
TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),(double)(*eventLeptons.iso)[nlep],(int)(*eventLeptons.selBits)[nlep]))
{idTight.push_back(1); idLep.push_back(nlep);}
else if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepFake) == BareLeptons::LepFake ) {idTight.push_back(0); idLep.push_back(nlep);}
}
vector<int> isGenLep;
for(unsigned nl=0; nl<idLep.size(); nl++){
bool isGenLepton = false;
for(int ngen=0; ngen<eventMonteCarlo.p4->GetEntriesFast(); ngen++) {
if(TMath::Abs((int)(*eventLeptons.pdgId)[idLep[nl]]) == TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen]) &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])) < 0.1) {
isGenLepton = true;
break;
}
}
if(isGenLepton == true) isGenLep.push_back(nl);
}
vector<int> idJet20,idJet30;
for(int nj=0; nj<eventJets.p4->GetEntriesFast(); nj++){
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() < 10) continue;
bool passId = passJetId(fMVACut, (float)(*eventJets.puId)[nj], ((TLorentzVector*)(*eventJets.p4)[nj])->Pt(), TMath::Abs(((TLorentzVector*)(*eventJets.p4)[nj])->Eta()));
//if(passId == false) continue;
Bool_t isLepton = kFALSE;
for(unsigned int nl=0; nl<idLep.size(); nl++){
if(((TLorentzVector*)(*eventJets.p4)[nj])->DeltaR(*((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])) < 0.3) isLepton = kTRUE;
}
if(isLepton == kTRUE) continue;
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() > 20) idJet20.push_back(nj);
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() > 30) idJet30.push_back(nj);
}
if (nsel == 0){ // Z->ll
if(idLep.size() == 2) nPassCuts[2]++;
if(idLep.size() == 2 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 10 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() > 10) nPassCuts[3]++;
if(idLep.size() == 2 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 10 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() > 10 &&
(int)(*eventLeptons.pdgId)[idLep[0]]*(int)(*eventLeptons.pdgId)[idLep[1]] < 0 &&
TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]]) == TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]]) &&
TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]]) == typeSel &&
(infilecatv[ifile] == 0 || isGenLep.size() == 2)) {
nPassCuts[4]++;
dilep = ( ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[0])) ) + ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[1])) ) );
if(TMath::Abs(dilep.M()-91.1876)<15.0) passSel = kTRUE;
}
}
else if(nsel == 1){ // fake
if(idLep.size() == 1) nPassCuts[2]++;
if(idLep.size() == 1 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 10) nPassCuts[3]++;
if(idLep.size() == 1 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 10 &&
((typeSel == 11 && idJet30.size() >= 1) ||(typeSel == 13 && idJet20.size() >= 1)) &&
TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]]) == typeSel &&
(infilecatv[ifile] == 0 || isGenLep.size() == 1)) {
dilep = ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[0])) );
nPassCuts[4]++;
deltaPhiDileptonMet = TMath::Abs(dilep.DeltaPhi(*((TLorentzVector*)(*eventMet.p4)[0])));
mtW = TMath::Sqrt(2.0*dilep.Pt()*((TLorentzVector*)(*eventMet.p4)[0])->Pt()*(1.0 - cos(deltaPhiDileptonMet)));
if(mtW < 20) passSel = kTRUE;
}
}
else if(nsel == 2){ // W->ln
if(idLep.size() == 1 && idTight[0] == 1) nPassCuts[2]++;
if(idLep.size() == 1 && idTight[0] == 1 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 10) nPassCuts[3]++;
if(idLep.size() == 1 && idTight[0] == 1 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 10 &&
TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]]) == typeSel &&
(infilecatv[ifile] == 0 || isGenLep.size() == 1)) {
dilep = ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[0])) );
nPassCuts[4]++;
deltaPhiDileptonMet = TMath::Abs(dilep.DeltaPhi(*((TLorentzVector*)(*eventMet.p4)[0])));
mtW = TMath::Sqrt(2.0*dilep.Pt()*((TLorentzVector*)(*eventMet.p4)[0])->Pt()*(1.0 - cos(deltaPhiDileptonMet)));
if(mtW > 50) passSel = kTRUE;
}
}
if(passSel == kTRUE) nPassCuts[5]++;
if(passSel == kFALSE) continue;
if(mtW < 0){
deltaPhiDileptonMet = TMath::Abs(dilep.DeltaPhi(*((TLorentzVector*)(*eventMet.p4)[0])));
mtW = TMath::Sqrt(2.0*dilep.Pt()*((TLorentzVector*)(*eventMet.p4)[0])->Pt()*(1.0 - cos(deltaPhiDileptonMet)));
}
double mcWeight = eventMonteCarlo.mcWeight;
if(infilecatv[ifile] == 0) mcWeight = 1.0;
double theLumi = lumi; if(infilecatv[ifile] == 0) theLumi = 1.0;
double puWeight = nPUScaleFactor(fhDPU, (double)eventVertex.npv); if(infilecatv[ifile] == 0) puWeight = 1.0;
double effSF = 1.0;
if(infilecatv[ifile] != 0){
for(unsigned int nl=0; nl<idLep.size(); nl++){
effSF = effSF * effScaleFactor(((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])->Pt(),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])->Eta()),TMath::Abs((int)(*eventLeptons.pdgId)[idLep[nl]]),period,typeLepSel);
}
}
int iPt = -1;
if (((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 15){
iPt = 0;
}
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 20){
iPt = 1;
}
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 25){
iPt = 2;
}
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 30){
iPt = 3;
}
else {
iPt = 4;
}
int iEta = -1;
if (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()) < 0.5){
iEta = 0;
}
else if(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()) < 1.0){
iEta = 1;
}
else if(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()) < 1.5){
iEta = 2;
}
else if(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()) < 2.0){
iEta = 3;
}
else {
iEta = 4;
}
if(nsel == 0) iEta = 0;
double thePrescale = 1.0;
if(infilecatv[ifile] != 0 && applyPrescale == 1) thePrescale = prescale[iPt];
double totalWeight = mcWeight*theLumi*puWeight*effSF*thePrescale*theMCPrescale;
if(infilecatv[ifile] == 0) {
denFRDA[iPt][iEta] = denFRDA[iPt][iEta] + totalWeight;
if(idTight[0] == 1) numFRDA[iPt][iEta] = numFRDA[iPt][iEta] + totalWeight;
}
else {
denFRBG[iPt][iEta] = denFRBG[iPt][iEta] + totalWeight;
if(idTight[0] == 1) numFRBG[iPt][iEta] = numFRBG[iPt][iEta] + totalWeight;
}
for(int thePlot=0; thePlot<allPlots; thePlot++){
double theVar = 0.0;
if (thePlot == 0) theVar = TMath::Min(dilep.M(),199.999);
else if(thePlot == 1) theVar = TMath::Min((double)((TLorentzVector*)(*eventMet.p4)[0])->Pt(),199.999);
else if(thePlot == 2) theVar = TMath::Min((double)eventMet.metNoMu->Pt(),199.999);
else if(thePlot == 3) theVar = TMath::Min((double)((TLorentzVector*)(*eventMet.p4)[0])->Pt(),199.999);
else if(thePlot == 4) theVar = TMath::Min(dilep.Pt(),199.999);
else if(thePlot == 5) theVar = TMath::Min(mtW,199.999);
else if(thePlot == 6) theVar = TMath::Min((double)0.0,6.499);
else if(thePlot == 7) theVar = TMath::Min((double)eventEvent.rho,39.999);
else if(thePlot == 8) theVar = TMath::Min((double)eventVertex.npv,39.499);
else if(thePlot == 9) theVar = TMath::Min(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt(),49.999);
else if(thePlot == 10) theVar = TMath::Min(TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()),2.499);
histo[thePlot][infilecatv[ifile]]->Fill(theVar,totalWeight);
}
}
printf("eff_cuts: ");
for(int nc=0; nc<6; nc++){
double nminusone = the_input_tree->GetEntries();
if(nc>0) nminusone = nPassCuts[nc-1];
printf("(%d): %8.5f(%8.5f) | ",nc,100*(double)nPassCuts[nc]/the_input_tree->GetEntries(),100*(double)nPassCuts[nc]/nminusone);
}
printf("\n");
} // end of chain
for(int nc=0; nc<8; nc++){
printf("(%d): %5.2f | ",nc,histo[0][nc]->GetSumOfWeights());
}
double sumTot[2] = {0.,0.};
printf("totalMC: %5.2f\n",histo[0][1]->GetSumOfWeights()+histo[0][2]->GetSumOfWeights()+histo[0][3]->GetSumOfWeights()+
histo[0][4]->GetSumOfWeights()+histo[0][5]->GetSumOfWeights()+histo[0][6]->GetSumOfWeights()+histo[0][7]->GetSumOfWeights());
for(int iEta=0; iEta<5; iEta++){
for(int iPt=0; iPt<5; iPt++){
sumTot[0] = sumTot[0] + denFRDA[iPt][iEta];
sumTot[1] = sumTot[1] + denFRBG[iPt][iEta];
printf("(%d,%d): (%6.1f-%6.1f)/(%6.1f-%6.1f)=%4.3f | ",iPt,iEta,numFRDA[iPt][iEta],numFRBG[iPt][iEta] , denFRDA[iPt][iEta],denFRBG[iPt][iEta],
(numFRDA[iPt][iEta]-numFRBG[iPt][iEta])/(denFRDA[iPt][iEta]-denFRBG[iPt][iEta]));
if(iPt==4) printf("\n");
}
}
printf("sumTot(da/bg) = %f / %f = %f\n",sumTot[0],sumTot[1],sumTot[0]/sumTot[1]);
if(nsel == 0){
for(int iEta=0; iEta<5; iEta++){
for(int iPt=0; iPt<5; iPt++){
printf("(%d,%d): (%6.1f)/(%6.1f)=%7.5f | ",iPt,iEta,denFRDA[iPt][iEta],denFRBG[iPt][iEta],denFRDA[iPt][iEta]/denFRBG[iPt][iEta]);
if(iPt==4) printf("\n");
}
}
}
else {
for(int iEta=0; iEta<5; iEta++){
for(int iPt=0; iPt<5; iPt++){
printf("(%d,%d): (%6.1f)/(%6.1f)=%4.3f | ",iPt,iEta,numFRDA[iPt][iEta] , denFRDA[iPt][iEta],
(numFRDA[iPt][iEta])/(denFRDA[iPt][iEta]));
if(iPt==4) printf("\n");
}
}
}
if(typeSel == 11) printf("double fake_rate_e[%d][%d] = {\n",5,5);
else printf("double fake_rate_m[%d][%d] = {\n",5,5);
for(int iEta=0; iEta<5; iEta++){
for(int iPt=0; iPt<5; iPt++){
printf("%4.3f",TMath::Abs((numFRDA[iPt][iEta]-numFRBG[iPt][iEta])/(denFRDA[iPt][iEta]-denFRBG[iPt][iEta])));
if(iPt!=4||iEta!=4) printf(",");
if(iPt==4) printf("\n");
}
}
printf("};\n");
for(int thePlot=0; thePlot<allPlots; thePlot++){
char output[200];
sprintf(output,"histo_fake_%d_%d_%d.root",thePlot,nsel,typeSel);
TFile* outFilePlotsNote = new TFile(output,"recreate");
outFilePlotsNote->cd();
for(int np=0; np<histBins; np++) histo[thePlot][np]->Write();
outFilePlotsNote->Close();
}
}
void computeDYBkgScaleFactor(Int_t period = 1, Double_t MassZCut = 15){
TString filesPath = "/scratch5/ceballos/ntuples_weights/met_";
Double_t lumi = 0.0715;
if(period == 1) lumi = 2.2;
float dymva_= -999.;
unsigned int nlep_= -1;
unsigned int njets_= -1;
//*******************************************************
//Input Files
//*******************************************************
vector<TString> infilenamev;
vector<Int_t> infilecatv;
TString puPath = "";
if (period==0){
puPath = "/home/ceballos/cms/cmssw/042/CMSSW_7_4_6/src/MitAnalysisRunII/data/puWeights_13TeV_50ns.root";
infilenamev.push_back(Form("%sdata_AOD_50ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sDYJetsToLL_M-10to50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sDYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sWZ_TuneCUETP8M1_13TeV-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sZZ_TuneCUETP8M1_13TeV-pythia8+RunIISpring15DR74-Asympt50ns_MCRUN2_74_V9A-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
assert(0);
}
else if(period==1){
puPath = "/home/ceballos/cms/cmssw/042/CMSSW_7_4_6/src/MitAnalysisRunII/data/puWeights_13TeV_25ns.root";
infilenamev.push_back(Form("%sdata_AOD_Run2015C1_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sdata_AOD_Run2015D3_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sdata_AOD_Run2015D4_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sDYJetsToLL_M-10to50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sDYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v3+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sZZTo2L2Nu_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sZZTo2L2Q_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sZZTo4L_13TeV_powheg_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sGluGluToZZTo2e2mu_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sGluGluToZZTo2e2tau_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sGluGluToZZTo2mu2tau_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sGluGluToZZTo4e_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sGluGluToZZTo4mu_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sGluGluToZZTo4tau_BackgroundOnly_13TeV_MCFM+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sWZTo1L1Nu2Q_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sWZTo2L2Q_13TeV_amcatnloFXFX_madspin_pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v2+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
infilenamev.push_back(Form("%sWZTo3LNu_TuneCUETP8M1_13TeV-powheg-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(2);
}
else {assert(0);}
if(infilenamev.size() != infilecatv.size()) assert(0);
const Double_t mZ = 91.1876;
const Int_t nbins = 4;
Float_t bins[nbins+1];
const Int_t nmass = 3;
const Double_t mH[nmass] = {0, 125, 200};
bool useRFromData[3] = {1, 1, 1};
//*******************************************************
//Yields and histograms
//*******************************************************
vector<Double_t> nin_kee_data, nin_kmm_data;
vector<vector<TH1D*> > hNin_ree_mc, hNout_ree_mc, hNin_rmm_mc, hNout_rmm_mc;
vector<vector<TH1D*> > hNin_ree_da, hNout_ree_da, hNin_rmm_da, hNout_rmm_da;
vector<vector<Double_t> > nin_ee_dy, nout_ee_dy, nin_ee_vz, nout_ee_vz, nin_ee_data;
vector<vector<Double_t> > nin_mm_dy, nout_mm_dy, nin_mm_vz, nout_mm_vz, nin_mm_data;
vector<vector<Double_t> > varin_ee_dy, varout_ee_dy, varin_ee_vz, varout_ee_vz;
vector<vector<Double_t> > varin_mm_dy, varout_mm_dy, varin_mm_vz, varout_mm_vz;
vector<vector<Double_t> > nin_em_data;
for(UInt_t jetIndex = 0; jetIndex < 3; ++jetIndex) {
Double_t tmp_nin_kee_data=0, tmp_nin_kmm_data=0;
vector<TH1D*> tmp_hNin_ree_mc, tmp_hNout_ree_mc, tmp_hNin_rmm_mc, tmp_hNout_rmm_mc;
vector<TH1D*> tmp_hNin_ree_da, tmp_hNout_ree_da, tmp_hNin_rmm_da, tmp_hNout_rmm_da;
vector<Double_t> tmp_nin_ee_dy, tmp_nout_ee_dy, tmp_nin_ee_vz, tmp_nout_ee_vz, tmp_nin_ee_data;
vector<Double_t> tmp_nin_mm_dy, tmp_nout_mm_dy, tmp_nin_mm_vz, tmp_nout_mm_vz, tmp_nin_mm_data;
vector<Double_t> tmp_varin_ee_dy, tmp_varout_ee_dy, tmp_varin_ee_vz, tmp_varout_ee_vz;
vector<Double_t> tmp_varin_mm_dy, tmp_varout_mm_dy, tmp_varin_mm_vz, tmp_varout_mm_vz;
vector<Double_t> tmp_nin_em_data;
char hname[50];
for(Int_t imass=0; imass<nmass; imass++) {
if (useDYMVA == kTRUE){
if (jetIndex == 0){
bins[0] = -0.20; bins[1] = 0.10; bins[2] = +0.20; bins[3] = 0.30; bins[4] = 1.0;
}
else if(jetIndex == 1){
bins[0] = -0.20; bins[1] = +0.10; bins[2] = +0.20; bins[3] = 0.30; bins[4] = 1.0;
}
else if(jetIndex == 2){
bins[0] = -0.20; bins[1] = +0.10; bins[2] = +0.20; bins[3] = 0.30; bins[4] = 1.0;
}
} else {
bins[0] = 20; bins[1] = 25; bins[2] = 35; bins[3] = 45; bins[4] = 70;
}
sprintf(hname,"hNin_%iJet_ree_mc_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNin_ree_mc.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNin_ree_mc[imass]->Sumw2();
sprintf(hname,"hNout_%iJet_ree_mc_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNout_ree_mc.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNout_ree_mc[imass]->Sumw2();
sprintf(hname,"hNin_%iJet_rmm_mc_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNin_rmm_mc.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNin_rmm_mc[imass]->Sumw2();
sprintf(hname,"hNout_%iJet_rmm_mc_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNout_rmm_mc.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNout_rmm_mc[imass]->Sumw2();
sprintf(hname,"hNin_%iJet_ree_da_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNin_ree_da.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNin_ree_da[imass]->Sumw2();
sprintf(hname,"hNout_%iJet_ree_da_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNout_ree_da.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNout_ree_da[imass]->Sumw2();
sprintf(hname,"hNin_%iJet_rmm_da_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNin_rmm_da.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNin_rmm_da[imass]->Sumw2();
sprintf(hname,"hNout_%iJet_rmm_da_m%i",Int_t(jetIndex),(Int_t)mH[imass]); tmp_hNout_rmm_da.push_back(new TH1D(hname,"",nbins,bins)); tmp_hNout_rmm_da[imass]->Sumw2();
tmp_nin_ee_dy.push_back(0), tmp_nout_ee_dy.push_back(0), tmp_nin_ee_vz.push_back(0), tmp_nout_ee_vz.push_back(0), tmp_nin_ee_data.push_back(0);
tmp_nin_mm_dy.push_back(0), tmp_nout_mm_dy.push_back(0), tmp_nin_mm_vz.push_back(0), tmp_nout_mm_vz.push_back(0), tmp_nin_mm_data.push_back(0);
tmp_varin_ee_dy.push_back(0), tmp_varout_ee_dy.push_back(0), tmp_varin_ee_vz.push_back(0), tmp_varout_ee_vz.push_back(0);
tmp_varin_mm_dy.push_back(0), tmp_varout_mm_dy.push_back(0), tmp_varin_mm_vz.push_back(0), tmp_varout_mm_vz.push_back(0);
tmp_nin_em_data.push_back(0);
}
nin_kee_data.push_back(tmp_nin_kee_data);
nin_kmm_data.push_back(tmp_nin_kmm_data);
hNin_ree_mc.push_back(tmp_hNin_ree_mc);
hNout_ree_mc.push_back(tmp_hNout_ree_mc);
hNin_rmm_mc.push_back(tmp_hNin_rmm_mc);
hNout_rmm_mc.push_back(tmp_hNout_rmm_mc);
hNin_ree_da.push_back(tmp_hNin_ree_da);
hNout_ree_da.push_back(tmp_hNout_ree_da);
hNin_rmm_da.push_back(tmp_hNin_rmm_da);
hNout_rmm_da.push_back(tmp_hNout_rmm_da);
nin_ee_dy.push_back(tmp_nin_ee_dy);
nout_ee_dy.push_back(tmp_nout_ee_dy);
nin_ee_vz.push_back(tmp_nin_ee_vz);
nout_ee_vz.push_back(tmp_nout_ee_vz);
nin_ee_data.push_back(tmp_nin_ee_data);
nin_mm_dy.push_back(tmp_nin_mm_dy);
nout_mm_dy.push_back(tmp_nout_mm_dy);
nin_mm_vz.push_back(tmp_nin_mm_vz);
nout_mm_vz.push_back(tmp_nout_mm_vz);
nin_mm_data.push_back(tmp_nin_mm_data);
varin_ee_dy.push_back(tmp_varin_ee_dy);
varout_ee_dy.push_back(tmp_varout_ee_dy);
varin_ee_vz.push_back(tmp_varin_ee_vz);
varout_ee_vz.push_back(tmp_varout_ee_vz);
varin_mm_dy.push_back(tmp_varin_mm_dy);
varout_mm_dy.push_back(tmp_varout_mm_dy);
varin_mm_vz.push_back(tmp_varin_mm_vz);
varout_mm_vz.push_back(tmp_varout_mm_vz);
nin_em_data.push_back(tmp_nin_em_data);
}
//*******************************************************
//Systematic Error on VZ Normalization
//*******************************************************
const Double_t vzNormSystematic = 0.10;
Float_t fMVACut[4][4];
InitializeJetIdCuts(fMVACut);
TFile *fPUFile = TFile::Open(Form("%s",puPath.Data()));
TH1D *fhDPU = (TH1D*)(fPUFile->Get("puWeights"));
assert(fhDPU);
fhDPU->SetDirectory(0);
delete fPUFile;
//*******************************************************
// Chain Loop
//*******************************************************
for(UInt_t ifile=0; ifile<infilenamev.size(); ifile++) {
TFile the_input_file(infilenamev[ifile]);
TTree *the_input_tree = (TTree*)the_input_file.FindObjectAny("events");
//TTree *the_input_all = (TTree*)the_input_file.FindObjectAny("all");
BareMonteCarlo eventMonteCarlo;
eventMonteCarlo.setBranchAddresses(the_input_tree);
BareEvent eventEvent;
eventEvent.setBranchAddresses(the_input_tree);
BareJets eventJets;
eventJets.setBranchAddresses(the_input_tree);
BareLeptons eventLeptons;
eventLeptons.setBranchAddresses(the_input_tree);
BareTaus eventTaus;
eventTaus.setBranchAddresses(the_input_tree);
BareMet eventMet;
eventMet.SetExtend();
eventMet.setBranchAddresses(the_input_tree);
BareTrigger eventTrigger;
eventTrigger.setBranchAddresses(the_input_tree);
BareVertex eventVertex;
eventVertex.setBranchAddresses(the_input_tree);
if(useDYMVA == true){
the_input_tree->SetBranchAddress("dymva", &dymva_);
the_input_tree->SetBranchAddress("nlep", &nlep_ );
the_input_tree->SetBranchAddress("njets", &njets_);
}
TNamed *triggerNames = (TNamed*)the_input_file.FindObjectAny("triggerNames");
char **tokens;
size_t numtokens;
tokens = strsplit(triggerNames->GetTitle(), ",", &numtokens);
if(infilecatv[ifile] == 0){
for (int i = 0; i < (int)numtokens; i++) {
printf("triggerNames(%2d): \"%s\"\n",(int)i,tokens[i]);
}
}
double theMCPrescale = mcPrescale;
if(infilecatv[ifile] == 0) theMCPrescale = 1.0;
for (int i=0; i<int(the_input_tree->GetEntries()/theMCPrescale); ++i) {
the_input_tree->GetEntry(i);
if(i%100000==0) printf("event %d out of %d\n",i,(int)the_input_tree->GetEntries());
Bool_t passFilter[6] = {kFALSE,kFALSE,kFALSE,kFALSE,kFALSE,kFALSE};
vector<int> idLep; vector<int> idTight; vector<int> idSoft; unsigned int goodIsTight = 0;
for(int nlep=0; nlep<eventLeptons.p4->GetEntriesFast(); nlep++) {
if(selectIdIsoCut(typeLepSel.Data(),TMath::Abs((int)(*eventLeptons.pdgId)[nlep]),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt()),
TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),(double)(*eventLeptons.iso)[nlep],(int)(*eventLeptons.selBits)[nlep]))
{idTight.push_back(1); idLep.push_back(nlep); goodIsTight++;}
else if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepFake) == BareLeptons::LepFake ) {idTight.push_back(0); idLep.push_back(nlep);}
else if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepSoftIP)== BareLeptons::LepSoftIP){idSoft.push_back(nlep);}
}
if(idLep.size()!=idTight.size()) assert(0);
if(idLep.size()==2) passFilter[0] = kTRUE;
if(passFilter[0] == kFALSE) continue;
if(idLep.size() >= 2 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() > 20 &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() > 20) passFilter[1] = kTRUE;
for (int nt = 0; nt <(int)numtokens; nt++) {
if((*eventTrigger.triggerFired)[nt] == 0) continue;
if((strcmp(tokens[nt],"HLT_Mu8_TrkIsoVVL_Ele17_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ_v*") == 0) ||
(strcmp(tokens[nt],"HLT_IsoMu27_v*") == 0) ||
(strcmp(tokens[nt],"HLT_IsoMu20_v*") == 0) ||
(strcmp(tokens[nt],"HLT_IsoTkMu20_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele23_WPLoose_Gsf_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele22_eta2p1_WP75_Gsf_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele27_WPLoose_Gsf_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele27_WP85_Gsf_v*") == 0)
) passFilter[2] = kTRUE;
}
if(passFilter[1] == kFALSE) continue;
if(passFilter[2] == kFALSE) continue;
if(goodIsTight == idTight.size()) passFilter[3] = kTRUE;
if(passFilter[3] == kFALSE) continue;
passFilter[4] = ((int)(*eventLeptons.pdgId)[idLep[0]]*(int)(*eventLeptons.pdgId)[idLep[1]] < 0);
if(passFilter[4] == kFALSE) continue;
TLorentzVector dilep(( ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[0])) ) + ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[1])) ) ));
double dPhiLepMETMin = 999.;
for(unsigned nl=0; nl<idLep.size(); nl++){
if(dPhiLepMETMin > TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])->DeltaPhi(*((TLorentzVector*)(*eventMet.p4)[0]))))
dPhiLepMETMin = TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])->DeltaPhi(*((TLorentzVector*)(*eventMet.p4)[0])));
}
double minMET = TMath::Min(((TLorentzVector*)(*eventMet.p4)[0])->Pt(),(double)eventMet.trackMet->Pt());
double minPMET = TMath::Min(((TLorentzVector*)(*eventMet.p4)[0])->Pt(),(double)eventMet.trackMet->Pt());
if(dPhiLepMETMin < TMath::Pi()/2) minPMET = minPMET * sin(dPhiLepMETMin);
unsigned int nJets = 0;
bool isBtag = kFALSE;
double bDiscrMax = 0.0;
double dPhiJetMET = -1.0;
double dPhiJetDiLep = -1.0;
for(int nj=0; nj<eventJets.p4->GetEntriesFast(); nj++){
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() < 10) continue;
bool passId = passJetId(fMVACut, (float)(*eventJets.puId)[nj], ((TLorentzVector*)(*eventJets.p4)[nj])->Pt(), TMath::Abs(((TLorentzVector*)(*eventJets.p4)[nj])->Eta()));
//if(passId == false) continue;
Bool_t isLepton = kFALSE;
for(unsigned int nl=0; nl<idLep.size(); nl++){
if(((TLorentzVector*)(*eventJets.p4)[nj])->DeltaR(*((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])) < 0.3) isLepton = kTRUE;
}
if(isLepton == kTRUE) continue;
if(dPhiJetMET == -1) dPhiJetMET = TMath::Abs(((TLorentzVector*)(*eventJets.p4)[nj])->DeltaPhi(*((TLorentzVector*)(*eventMet.p4)[0])))*180./TMath::Pi();
if(dPhiJetDiLep == -1) dPhiJetDiLep = TMath::Abs(dilep.DeltaPhi(*((TLorentzVector*)(*eventJets.p4)[nj])))*180./TMath::Pi();
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() > 15 &&
(float)(*eventJets.bDiscr)[nj] > bDiscrMax) bDiscrMax = (float)(*eventJets.bDiscr)[nj];
if(((TLorentzVector*)(*eventJets.p4)[nj])->Pt() < 30) continue;
nJets++;
}
if(useDYMVA == true){
if(nlep_ != idLep.size()) {printf("PROBLEM nlep %d != %d\n",(int)nlep_,(int)idLep.size()); assert(1); return;}
if(njets_ != nJets) {printf("PROBLEM njet %d != %d\n",(int)njets_,nJets); assert(1); return;}
}
if(nJets <= 2) passFilter[5] = kTRUE;
if(passFilter[5] == kFALSE) continue;
Int_t typeLep = 2;
if (TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]])==13&&TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]])==13) typeLep = 0;
else if(TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]])==11&&TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]])==11) typeLep = 1;
if(infilecatv[ifile] == 0 && TMath::Abs(dilep.M()-mZ)<MassZCut) {
if(typeLep == 0) nin_kmm_data[nJets]++;
if(typeLep == 1) nin_kee_data[nJets]++;
}
if(minPMET <= 20) continue;
double varMet = minPMET;
if(varMet>=70) varMet=69;
if(useDYMVA == kTRUE) {
varMet = dymva_;
}
double theLumi = lumi; if(infilecatv[ifile] == 0) theLumi = 1.0;
double puWeight = nPUScaleFactor(fhDPU, (double)eventVertex.npv); if(infilecatv[ifile] == 0) puWeight = 1.0;
double effSF = 1.0;
if(infilecatv[ifile] != 0){
effSF = effScaleFactor(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt(),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()),TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]]),period,typeLepSel.Data())*
effScaleFactor(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt(),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Eta()),TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]]),period,typeLepSel.Data());
}
double totalWeight = eventMonteCarlo.mcWeight*theLumi*puWeight*effSF*theMCPrescale;
vector<bool> isGenDupl;
for(int ngen0=0; ngen0<eventMonteCarlo.p4->GetEntriesFast(); ngen0++) {
isGenDupl.push_back(0);
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 11 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 13) isGenDupl[ngen0] = 1;
if(TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 11 &&
TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen0]) != 13) continue;
for(int ngen1=ngen0+1; ngen1<eventMonteCarlo.p4->GetEntriesFast(); ngen1++) {
if(((TLorentzVector*)(*eventMonteCarlo.p4)[ngen0])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngen1])) < 0.02) {
isGenDupl[ngen0] = 1;
break;
}
}
}
vector<int> isGenLep; unsigned int goodIsGenLep = 0;
for(unsigned nl=0; nl<idLep.size(); nl++){
bool isGenLepton = false;
for(int ngen=0; ngen<eventMonteCarlo.p4->GetEntriesFast(); ngen++) {
if(isGenDupl[ngen] == 1) continue;
if(TMath::Abs((int)(*eventLeptons.pdgId)[idLep[nl]]) == TMath::Abs((int)(*eventMonteCarlo.pdgId)[ngen]) &&
((TLorentzVector*)(*eventLeptons.p4)[idLep[nl]])->DeltaR(*((TLorentzVector*)(*eventMonteCarlo.p4)[ngen])) < 0.1) {
isGenLepton = true;
break;
}
}
if(isGenLepton == true) {isGenLep.push_back(1); goodIsGenLep++;}
else {isGenLep.push_back(0);}
}
if(infilecatv[ifile] != 0 && goodIsGenLep != isGenLep.size()) totalWeight = 0.0;
//loop over analyses
for(Int_t imass=0; imass<nmass; imass++) {
// MET related cuts need to be applied after the Rout/in computation
double theCutMassHigh = 1000.;
if(dilep.Pt() <= 45.0) continue;
if(bDiscrMax > 0.605 || idSoft.size() != 0) continue;
if(dilep.M() <= 12.0) continue;
if(infilecatv[ifile] == 1){ // Z MC
if (TMath::Abs(dilep.M()-mZ)<MassZCut) {
if (typeLep == 1) {
hNin_ree_mc[nJets][imass]->Fill(varMet,totalWeight);
}
else if(typeLep == 0) {
hNin_rmm_mc[nJets][imass]->Fill(varMet,totalWeight);
}
}
else if(TMath::Abs(dilep.M()-mZ) >= 15 && dilep.M() < theCutMassHigh) {
if (typeLep == 1) {
hNout_ree_mc[nJets][imass]->Fill(varMet,totalWeight);
}
else if(typeLep == 0) {
hNout_rmm_mc[nJets][imass]->Fill(varMet,totalWeight);
}
}
}
double theDataWeight = 0.0;
if (infilecatv[ifile] == 0 && (typeLep == 0 || typeLep == 1)) theDataWeight = 1.0;
else if(infilecatv[ifile] == 0 ) theDataWeight = -1.0;
// In reality ee == ee+mm for data
if(theDataWeight != 0.0){
if (TMath::Abs(dilep.M()-mZ)<MassZCut) {
hNin_ree_da[nJets][imass]->Fill(varMet,theDataWeight);
}
else if(TMath::Abs(dilep.M()-mZ) >= 15 && dilep.M() < theCutMassHigh) {
hNout_ree_da[nJets][imass]->Fill(varMet,theDataWeight);
}
}
bool passMET = varMet > 45;
if(useDYMVA == kTRUE) passMET = dymva_ > 0.3;
if(passMET == kFALSE) continue;
if(infilecatv[ifile] == 1){ // Z MC
if (TMath::Abs(dilep.M()-mZ)<MassZCut) {
if (typeLep == 1) {
nin_ee_dy[nJets][imass]+=totalWeight;
varin_ee_dy[nJets][imass]+=totalWeight*totalWeight;
}
else if(typeLep == 0) {
nin_mm_dy[nJets][imass]+=totalWeight;
varin_mm_dy[nJets][imass]+=totalWeight*totalWeight;
}
}
else if(TMath::Abs(dilep.M()-mZ) >= 15 && dilep.M() < theCutMassHigh) {
if (typeLep == 1) {
nout_ee_dy[nJets][imass]+=totalWeight;
varout_ee_dy[nJets][imass]+=totalWeight*totalWeight;
}
else if(typeLep == 0) {
nout_mm_dy[nJets][imass]+=totalWeight;
varout_mm_dy[nJets][imass]+=totalWeight*totalWeight;
}
}
}
//In Z peak region
if(TMath::Abs(dilep.M()-mZ)<MassZCut) {
if(typeLep == 1) {
if(infilecatv[ifile] == 0) {
nin_ee_data[nJets][imass]++;
}
if(infilecatv[ifile] == 2) {
nin_ee_vz[nJets][imass]+=totalWeight;
varin_ee_vz[nJets][imass]+=totalWeight*totalWeight;
}
}
if(typeLep == 0) {
if(infilecatv[ifile] == 0) {
nin_mm_data[nJets][imass]++;
}
if(infilecatv[ifile] == 2) {
nin_mm_vz[nJets][imass]+=totalWeight;
varin_mm_vz[nJets][imass]+=totalWeight*totalWeight;
}
}
if(infilecatv[ifile] == 0 && typeLep == 2) {
nin_em_data[nJets][imass]++;
}
}
// Out of Z peak region
else if(TMath::Abs(dilep.M()-mZ) >= 15 && dilep.M() < theCutMassHigh) {
if(typeLep == 0) {
if (infilecatv[ifile] == 2) {
nout_ee_vz[nJets][imass]+=totalWeight;
varout_ee_vz[nJets][imass]+=totalWeight*totalWeight;
}
}
if(typeLep == 1) {
if (infilecatv[ifile] == 2) {
nout_mm_vz[nJets][imass]+=totalWeight;
varout_mm_vz[nJets][imass]+=totalWeight*totalWeight;
}
}
}
}
}
} // end of chain
//--------------------------------------------------------------------------------------------------------------
// Summary print out
//==============================================================================================================
char DYEstimateTableName[200];
sprintf(DYEstimateTableName,"DYEstimateTable.txt");
ofstream fout(DYEstimateTableName);
vector<vector<Double_t> > DYBkgScaleFactorHiggsSelection;
vector<vector<Double_t> > DYBkgScaleFactorHiggsSelectionErr;
vector<Double_t> DYBkgScaleFactorWWPreselection;
vector<Double_t> DYBkgScaleFactorWWPreselectionErr;
for(UInt_t jetIndex = 0; jetIndex < 3; ++jetIndex) {
vector<Double_t> tmpDYBkgScaleFactorHiggsSelection;
vector<Double_t> tmpDYBkgScaleFactorHiggsSelectionErr;
Double_t tmpDYBkgScaleFactorWWPreselection;
Double_t tmpDYBkgScaleFactorWWPreselectionErr;
fout << "************************************************************************\n";
fout << jetIndex << "-Jet Bin DY Bkg Scale Factor Computation\n";
fout << "************************************************************************\n";
Double_t k = sqrt(nin_kee_data[jetIndex]/nin_kmm_data[jetIndex]);
Double_t kerr = 0.5*k*sqrt(1.0/nin_kee_data[jetIndex] + 1.0/nin_kmm_data[jetIndex]);
char buffer[200];
fout << "Electron to muon efficiency ratio is " << k << " +/- " << kerr << endl;
fout << endl;
fout << jetIndex << "-jet bin summary:" << endl;
fout << setw(4) << "sel" << " ";
fout << setw(25) << "R_out/in ";
fout << setw(15) << "mm/em/ee";
fout << setw(20) << "N_in (OF,VZ sub)";
fout << setw(20) << "N_in (data/MC)";
fout << setw(20) << " N_out data ";
fout << setw(20) << "N_out MC ";
fout << setw(20) << "N_out (data/MC)" << endl;
for(Int_t imass=0; imass<nmass; imass++) {
fout << setw(4) << mH[imass] << " ";
//
// compute Routin from MC
//
Int_t MetBinToComputeRoutin = nbins-1;
Double_t nout_ee = 0;
Double_t errout_ee = 0;
Double_t nout_mm = 0;
Double_t errout_mm = 0;
Double_t nout_ll = 0;
Double_t errout_ll = 0;
Double_t nin_ee = 0;
Double_t errin_ee = 0;
Double_t nin_mm = 0;
Double_t errin_mm = 0;
Double_t nin_ll = 0;
Double_t errin_ll = 0;
Double_t Ree = 0;
Double_t ReeErrStat = 0;
Double_t ReeErrSyst = 0;
Double_t Rmm = 0;
Double_t RmmErrStat = 0;
Double_t RmmErrSyst = 0;
Double_t Rll = 0;
Double_t RllErrStat = 0;
Double_t RllErrSyst = 0;
if(useRFromData[jetIndex] == false){
nout_ee = hNout_ree_mc[jetIndex][imass]->GetBinContent(MetBinToComputeRoutin);
errout_ee = hNout_ree_mc[jetIndex][imass]->GetBinError(MetBinToComputeRoutin);
nout_mm = hNout_rmm_mc[jetIndex][imass]->GetBinContent(MetBinToComputeRoutin);
errout_mm = hNout_rmm_mc[jetIndex][imass]->GetBinError(MetBinToComputeRoutin);
nout_ll = nout_ee+nout_mm;
errout_ll = sqrt(errout_ee*errout_ee + errout_mm*errout_mm);
nin_ee = hNin_ree_mc[jetIndex][imass]->GetBinContent(MetBinToComputeRoutin);
errin_ee = hNin_ree_mc[jetIndex][imass]->GetBinError(MetBinToComputeRoutin);
nin_mm = hNin_rmm_mc[jetIndex][imass]->GetBinContent(MetBinToComputeRoutin);
errin_mm = hNin_rmm_mc[jetIndex][imass]->GetBinError(MetBinToComputeRoutin);
nin_ll = nin_ee+nin_mm;
errin_ll = sqrt(errin_ee*errin_ee + errin_mm*errin_mm);
Ree = nout_ee/nin_ee;
ReeErrStat = Ree*sqrt(errin_ee*errin_ee/nin_ee/nin_ee + errout_ee*errout_ee/nout_ee/nout_ee);
ReeErrSyst = computeSyst(hNout_ree_mc[jetIndex][imass],hNin_ree_mc[jetIndex][imass], MetBinToComputeRoutin, 0.4);
Rmm = nout_mm/nin_mm;
RmmErrStat = Rmm*sqrt(errin_mm*errin_mm/nin_mm/nin_mm + errout_mm*errout_mm/nout_mm/nout_mm);
RmmErrSyst = computeSyst(hNout_rmm_mc[jetIndex][imass],hNin_rmm_mc[jetIndex][imass], MetBinToComputeRoutin, 0.4);
TH1D *hout = (TH1D*)hNout_ree_mc[jetIndex][imass]->Clone("hout");
hout->Add(hNout_rmm_mc[jetIndex][imass]);
TH1D *hin = (TH1D*)hNin_ree_mc[jetIndex][imass]->Clone("hin");
hin->Add(hNin_rmm_mc[jetIndex][imass]);
Rll = nout_ll/nin_ll;
RllErrStat = Rll*sqrt(errin_ll*errin_ll/nin_ll/nin_ll + errout_ll*errout_ll/nout_ll/nout_ll);
RllErrSyst = computeSyst(hout,hin, MetBinToComputeRoutin, 0.4);
delete hout;
delete hin;
} else {
nout_ll = hNout_ree_da[jetIndex][imass]->GetBinContent(MetBinToComputeRoutin);
errout_ll = hNout_ree_da[jetIndex][imass]->GetBinError(MetBinToComputeRoutin);
nin_ll = hNin_ree_da[jetIndex][imass]->GetBinContent(MetBinToComputeRoutin);
errin_ll = hNin_ree_da[jetIndex][imass]->GetBinError(MetBinToComputeRoutin);
TH1D *hout = (TH1D*)hNout_ree_da[jetIndex][imass]->Clone("hout");
TH1D *hin = (TH1D*)hNin_ree_da[jetIndex][imass]->Clone("hin");
Rll = nout_ll/nin_ll;
RllErrStat = Rll*sqrt(errin_ll*errin_ll/nin_ll/nin_ll + errout_ll*errout_ll/nout_ll/nout_ll);
Double_t rErrorMax = 100000.4;
cout << "M: " << mH[imass] << endl;
RllErrSyst = computeSyst(hout,hin,MetBinToComputeRoutin,rErrorMax,true,true);
delete hout;
delete hin;
}
if(Rll <= 0) {Rll = 0.10; RllErrStat = 0.10; RllErrSyst = 0.10;}
// DO NOT ALLOW FOR MORE THAN 100% uncertainty
if(RllErrSyst > 1.0*Rll) RllErrSyst = 1.0*Rll;
// DO NOT ALLOW FOR LESS THAN 30% uncertainty
if(RllErrSyst < 0.3*Rll) RllErrSyst = 0.3*Rll;
sprintf(buffer,"%.2f +/- %.2f +/- %.2f",Rll,RllErrStat,RllErrSyst);
// sprintf(buffer,"%.3f +/- %.3f +/- %.3f",Ree,ReeErrStat,ReeErrSyst);
// sprintf(buffer,"%.3f +/- %.3f +/- %.3f",Rmm,RmmErrStat,RmmErrSyst);
fout << setw(25) << buffer;
//
// raw in-yields in data
//
sprintf(buffer,"%i/%i/%i",Int_t(nin_mm_data[jetIndex][imass]), Int_t(nin_em_data[jetIndex][imass]), Int_t(nin_ee_data[jetIndex][imass]));
fout << setw(15) << buffer;
//
// in-yields in data after OF and VZ subtraction
//
Double_t nof = nin_em_data[jetIndex][imass];
Double_t nin_ee_sub, err_ee_sub,nin_mm_sub,err_mm_sub,nin_ll_sub,err_ll_sub;
//use Opposite Flavor data for bkg subtraction
nin_ee_sub = nin_ee_data[jetIndex][imass] - 0.5*k*nof - nin_ee_vz[jetIndex][imass];
err_ee_sub = sqrt(nin_ee_data[jetIndex][imass] + 0.5*0.5*k*k*nof*nof*(kerr*kerr/k/k + 1.0/nof) + varin_ee_vz[jetIndex][imass] + pow(nin_ee_vz[jetIndex][imass]*vzNormSystematic,2) );
nin_mm_sub = nin_mm_data[jetIndex][imass] - 0.5/k*nof - nin_mm_vz[jetIndex][imass];
err_mm_sub = sqrt(nin_mm_data[jetIndex][imass] + 0.5*0.5/k/k*nof*nof*(kerr*kerr/k/k + 1.0/nof) + varin_mm_vz[jetIndex][imass] + pow(nin_mm_vz[jetIndex][imass]*vzNormSystematic,2));
nin_ll_sub = nin_ee_sub + nin_mm_sub;
err_ll_sub = sqrt(nin_mm_data[jetIndex][imass] + nin_ee_data[jetIndex][imass]
+ 0.5*0.5*( (k+1.0/k)*(k+1.0/k)*nof*nof*kerr*kerr + (k+1.0/k)*(k+1.0/k)*nof )
+ varin_mm_vz[jetIndex][imass] + varin_ee_vz[jetIndex][imass] + pow((nin_ee_vz[jetIndex][imass]+nin_mm_vz[jetIndex][imass])*vzNormSystematic,2));
if(nin_ee_sub <= 0) nin_ee_sub = 1;
if(nin_mm_sub <= 0) nin_mm_sub = 1;
if(nin_ll_sub <= 0) nin_ll_sub = 1;
sprintf(buffer," %.2f +/- %.2f : %.2f : %.2f + %.2f ",nin_ll_sub,err_ll_sub, 0.5*k*nof + 0.5/k*nof, nin_ee_vz[jetIndex][imass], nin_mm_vz[jetIndex][imass]);
fout << setw(20) << buffer;
//
// in-yield data/MC scale factor
//
Double_t sfin_ee = nin_ee_sub/nin_ee_dy[jetIndex][imass];
Double_t sfin_ee_err = sfin_ee*sqrt(err_ee_sub*err_ee_sub/nin_ee_sub/nin_ee_sub + (varin_ee_dy[jetIndex][imass])*(varin_ee_dy[jetIndex][imass])/(nin_ee_dy[jetIndex][imass])/(nin_ee_dy[jetIndex][imass]));
Double_t sfin_mm = nin_mm_sub/nin_mm_dy[jetIndex][imass];
Double_t sfin_mm_err = sfin_mm*sqrt(err_mm_sub*err_mm_sub/nin_mm_sub/nin_mm_sub + (varin_mm_dy[jetIndex][imass])*(varin_mm_dy[jetIndex][imass])/(nin_mm_dy[jetIndex][imass])/(nin_mm_dy[jetIndex][imass]));
Double_t sfin_ll = nin_ll_sub/(nin_ee_dy[jetIndex][imass]+nin_mm_dy[jetIndex][imass]);
// Double_t sfin_ll_err = sfin_ll*sqrt(err_ll_sub*err_ll_sub/nin_ll_sub/nin_ll_sub
// + (varin_ee_dy[jetIndex][imass]+varin_mm_dy[jetIndex][imass])*(varin_ee_dy[jetIndex][imass]+varin_mm_dy[jetIndex][imass])/(nin_ee_dy[jetIndex][imass]+nin_mm_dy[jetIndex][imass])/(nin_ee_dy[jetIndex][imass]+nin_mm_dy[jetIndex][imass]));
Double_t sfin_ll_err = sfin_ll*sqrt(err_ll_sub*err_ll_sub/nin_ll_sub/nin_ll_sub
+ (varin_ee_dy[jetIndex][imass]+varin_mm_dy[jetIndex][imass])/(nin_ee_dy[jetIndex][imass]+nin_mm_dy[jetIndex][imass])/(nin_ee_dy[jetIndex][imass]+nin_mm_dy[jetIndex][imass]));
sprintf(buffer,"%.2f +/- %.2f",sfin_ll,sfin_ll_err);
// sprintf(buffer,"%.2f +/- %.2f",sfin_ee,sfin_ee_err);
// sprintf(buffer,"%.2f +/- %.2f",sfin_mm,sfin_mm_err);
fout << setw(20) << buffer;
//
// out-yield prediction
//
Double_t nout_ee_pre = Ree*nin_ee_sub;
Double_t nout_ee_sta = nout_ee_pre*sqrt(ReeErrStat*ReeErrStat/Ree/Ree + err_ee_sub*err_ee_sub/nin_ee_sub/nin_ee_sub);
Double_t nout_ee_sys = nout_ee_pre*ReeErrSyst/Ree;
Double_t nout_ee_err = sqrt(nout_ee_sys*nout_ee_sys + nout_ee_sta*nout_ee_sta);
Double_t nout_mm_pre = Rmm*nin_mm_sub;
Double_t nout_mm_sta = nout_mm_pre*sqrt(RmmErrStat*RmmErrStat/Rmm/Rmm + err_mm_sub*err_mm_sub/nin_mm_sub/nin_mm_sub);
Double_t nout_mm_sys = nout_mm_pre*RmmErrSyst/Rmm;
Double_t nout_mm_err = sqrt(nout_mm_sys*nout_mm_sys + nout_mm_sta*nout_mm_sta);
Double_t nout_ll_pre = Rll*nin_ll_sub;
Double_t nout_ll_sta = nout_ll_pre*sqrt((RllErrStat*RllErrStat)/Rll/Rll + err_ll_sub*err_ll_sub/nin_ll_sub/nin_ll_sub);
Double_t nout_ll_sys = nout_ll_pre*RllErrSyst/Rll;
Double_t nout_ll_err = sqrt(nout_ll_sys*nout_ll_sys + nout_ll_sta*nout_ll_sta);
sprintf(buffer,"%.2f +/- %.2f +/- %.2f",nout_ll_pre,nout_ll_sta,nout_ll_sys);
// sprintf(buffer,"%.2f +/- %.2f +/- %.2f",nout_ee_pre,nout_ee_sta,nout_ee_sys);
// sprintf(buffer,"%.2f +/- %.2f +/- %.2f",nout_mm_pre,nout_mm_sta,nout_mm_sys);
fout << " " << setw(20) << buffer;
//
// out-yield in MC
//
printf("SSS %f %f %f\n",nout_ee_dy[jetIndex][imass]+nout_mm_dy[jetIndex][imass],nout_ee_dy[jetIndex][imass],nout_mm_dy[jetIndex][imass]);
sprintf(buffer,"%.2f +/- %.2f",nout_ee_dy[jetIndex][imass]+nout_mm_dy[jetIndex][imass],sqrt(varout_ee_dy[jetIndex][imass] + varout_mm_dy[jetIndex][imass]));
// sprintf(buffer,"%.2f +/- %.2f",nout_ee_dy[jetIndex][imass],sqrt(varout_ee_dy[jetIndex][imass]));
// sprintf(buffer,"%.2f +/- %.2f",nout_mm_dy[jetIndex][imass],sqrt(varout_mm_dy[jetIndex][imass]));
fout << setw(20) << buffer;
//
// out-yield data/MC scale factor
//
Double_t sfout_ee = nout_ee_pre/nout_ee_dy[jetIndex][imass];
Double_t sfout_ee_err = sfout_ee*sqrt(nout_ee_err*nout_ee_err/nout_ee_pre/nout_ee_pre );
Double_t sfout_mm = nout_mm_pre/nout_mm_dy[jetIndex][imass];
Double_t sfout_mm_err = sfout_mm*sqrt(nout_mm_err*nout_mm_err/nout_mm_pre/nout_mm_pre );
Double_t sfout_ll = nout_ll_pre/(nout_ee_dy[jetIndex][imass]+nout_mm_dy[jetIndex][imass]);
Double_t sfout_ll_err = sfout_ll*sqrt(nout_ll_err*nout_ll_err/nout_ll_pre/nout_ll_pre);
sprintf(buffer,"%.2f +/- %.2f",sfout_ll,sfout_ll_err);
// sprintf(buffer,"%.2f +/- %.2f",sfout_ee,sfout_ee_err);
// sprintf(buffer,"%.2f +/- %.2f",sfout_mm,sfout_mm_err);
fout << setw(20) << buffer;
fout << endl;
if (imass == 0) {
tmpDYBkgScaleFactorWWPreselection = sfout_ll;
tmpDYBkgScaleFactorWWPreselectionErr = sfout_ll_err;
} else {
// BIG CHANGE, we quote
//tmpDYBkgScaleFactorHiggsSelection.push_back(sfout_ll);
//tmpDYBkgScaleFactorHiggsSelectionErr.push_back(sfout_ll_err);
tmpDYBkgScaleFactorHiggsSelection.push_back(nout_ll_pre);
tmpDYBkgScaleFactorHiggsSelectionErr.push_back(sqrt(nout_ll_sta*nout_ll_sta+nout_ll_sys*nout_ll_sys));
}
}
DYBkgScaleFactorHiggsSelection.push_back(tmpDYBkgScaleFactorHiggsSelection);
DYBkgScaleFactorHiggsSelectionErr.push_back(tmpDYBkgScaleFactorHiggsSelectionErr);
DYBkgScaleFactorWWPreselection.push_back(tmpDYBkgScaleFactorWWPreselection);
DYBkgScaleFactorWWPreselectionErr.push_back(tmpDYBkgScaleFactorWWPreselectionErr);
}
fout.close();
//***************************************************************************
// Generate DY Scale Factor and Systematics Code for card creation
//***************************************************************************
char DYBkgScaleFactorsName[200];
sprintf(DYBkgScaleFactorsName,"DYBkgScaleFactors.h");
ofstream outf(DYBkgScaleFactorsName);
outf << "static Double_t DYBkgScaleFactor(Int_t mH, Int_t jetBin) {" << endl;
outf << " Int_t mHiggs[" << nmass-1 << "] = {";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << mH[i+1];
if (i < nmass-1-1) outf << ",";
}
outf << "};" << endl;
outf << " Double_t DYBkgScaleFactorWWPreselection[3] = { "
<< DYBkgScaleFactorWWPreselection[0] << ", "
<< DYBkgScaleFactorWWPreselection[1] << ", "
<< DYBkgScaleFactorWWPreselection[2] << " "
<< " };" << endl;
outf << " Double_t DYBkgScaleFactorHiggsSelection[3][" << nmass-1 << "] = { " << endl;
outf << " { ";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << DYBkgScaleFactorHiggsSelection[0][i];
if (i < nmass-1-1) outf << ",";
}
outf << "}," << endl;
outf << " { ";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << DYBkgScaleFactorHiggsSelection[1][i];
if (i < nmass-1-1) outf << ",";
}
outf << "}," << endl;
outf << " { ";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << DYBkgScaleFactorHiggsSelection[2][i];
if (i < nmass-1-1) outf << ",";
}
outf << "} };" << endl;
outf << " if(mH == 0) return DYBkgScaleFactorWWPreselection[jetBin];" << endl;
outf << " Int_t massIndex = -1;" << endl;
outf << " for (UInt_t m=0; m < " << nmass-1 << " ; ++m) {" << endl;
outf << " if (mH == mHiggs[m]) massIndex = m;" << endl;
outf << " }" << endl;
outf << " if (massIndex >= 0) {" << endl;
outf << " return DYBkgScaleFactorHiggsSelection[jetBin][massIndex];" << endl;
outf << " } else {" << endl;
outf << " return DYBkgScaleFactorWWPreselection[jetBin];" << endl;
outf << " }" << endl;
outf << "}" << endl;
outf << endl;
outf << "static Double_t DYBkgScaleFactorKappa(Int_t mH, Int_t jetBin) {" << endl;
outf << " Int_t mHiggs[" << nmass-1 << "] = {";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << mH[i+1];
if (i < nmass-1-1) outf << ",";
}
outf << "};" << endl;
outf << " Double_t DYBkgScaleFactorWWPreselectionKappa[3] = { "
<< (1.0 + DYBkgScaleFactorWWPreselectionErr[0]/DYBkgScaleFactorWWPreselection[0]) << ", "
<< (1.0 + DYBkgScaleFactorWWPreselectionErr[1]/DYBkgScaleFactorWWPreselection[1]) << ", "
<< (1.0 + DYBkgScaleFactorWWPreselectionErr[2]/DYBkgScaleFactorWWPreselection[2]) << " "
<< " };" << endl;
outf << " Double_t DYBkgScaleFactorHiggsSelectionKappa[3][" << nmass-1 << "] = { " << endl;
outf << " { ";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << (1.0 + DYBkgScaleFactorHiggsSelectionErr[0][i] / DYBkgScaleFactorHiggsSelection[0][i]);
if (i < nmass-1-1) outf << ",";
}
outf << "}," << endl;
outf << " { ";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << (1.0 + DYBkgScaleFactorHiggsSelectionErr[1][i] / DYBkgScaleFactorHiggsSelection[1][i]);
if (i < nmass-1-1) outf << ",";
}
outf << "}," << endl;
outf << " { ";
for (UInt_t i = 0; i < nmass-1 ; ++i) {
outf << (1.0 + DYBkgScaleFactorHiggsSelectionErr[2][i] / DYBkgScaleFactorHiggsSelection[2][i]);
if (i < nmass-1-1) outf << ",";
}
outf << "} };" << endl;
outf << " if(mH == 0) return DYBkgScaleFactorWWPreselectionKappa[jetBin];" << endl;
outf << " Int_t massIndex = -1;" << endl;
outf << " for (UInt_t m=0; m < " << nmass-1 << " ; ++m) {" << endl;
outf << " if (mH == mHiggs[m]) massIndex = m;" << endl;
outf << " }" << endl;
outf << " if (massIndex >= 0) {" << endl;
outf << " return DYBkgScaleFactorHiggsSelectionKappa[jetBin][massIndex];" << endl;
outf << " } else {" << endl;
outf << " return DYBkgScaleFactorWWPreselectionKappa[jetBin];" << endl;
outf << " }" << endl;
outf << "}" << endl;
outf << endl;
outf.close();
}
void ZllAnalysis(TString typeLepSel = "default"){
TString filesPath = "/scratch5/ceballos/ntuples_weights_74x/";
Double_t lumi = 0.0715;
if(period == 1) lumi = 2.263;
//*******************************************************
//Input Files
//*******************************************************
vector<TString> infilenamev;
vector<Int_t> infilecatv;
TString puPath = "";
if (period==1){
puPath = "/home/ceballos/cms/cmssw/042/CMSSW_7_4_6/src/MitAnalysisRunII/data/74x/puWeights_13TeV_25ns.root";
infilenamev.push_back(Form("%sdata_AOD_Run2015C1_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sdata_AOD_Run2015D3_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sdata_AOD_Run2015D4_25ns.root",filesPath.Data())); infilecatv.push_back(0);
infilenamev.push_back(Form("%sDYJetsToLL_M-10to50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v1+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
infilenamev.push_back(Form("%sDYJetsToLL_M-50_TuneCUETP8M1_13TeV-amcatnloFXFX-pythia8+RunIISpring15DR74-Asympt25ns_MCRUN2_74_V9-v3+AODSIM.root",filesPath.Data())); infilecatv.push_back(1);
}
else {assert(0);}
if(infilenamev.size() != infilecatv.size()) assert(0);
Float_t fMVACut[4][4];
InitializeJetIdCuts(fMVACut);
TFile *fPUFile = TFile::Open(Form("%s",puPath.Data()));
TH1D *fhDPU = (TH1D*)(fPUFile->Get("puWeights"));
assert(fhDPU);
fhDPU->SetDirectory(0);
delete fPUFile;
const int ptBins = 5;
const int etaBins = 2;
double yields[2][ptBins][etaBins][ptBins][etaBins][3],yieldsE[2][ptBins][etaBins][ptBins][etaBins][3];
for (int ch=0; ch<2; ch++){
for (int pt0=0; pt0<ptBins; pt0++){
for (int eta0=0; eta0<etaBins; eta0++){
for (int pt1=0; pt1<ptBins; pt1++){
for (int eta1=0; eta1<etaBins; eta1++){
for (int nlep=0; nlep<3; nlep++){
yields[ch][pt0][eta0][pt1][eta1][nlep] = 0; yieldsE[ch][pt0][eta0][pt1][eta1][nlep] = 0;
}
}
}
}
}
}
double yieldsTotal[2][3],yieldsTotal20[2][3];
for (int ch=0; ch<2; ch++){
for (int nlep=0; nlep<3; nlep++){
yieldsTotal[ch][nlep] = 0;
yieldsTotal20[ch][nlep] = 0;
}
}
//*******************************************************
// Chain Loop
//*******************************************************
for(UInt_t ifile=0; ifile<infilenamev.size(); ifile++) {
TFile the_input_file(infilenamev[ifile]);
TTree *the_input_tree = (TTree*)the_input_file.FindObjectAny("events");
//TTree *the_input_all = (TTree*)the_input_file.FindObjectAny("all");
BareMonteCarlo eventMonteCarlo;
eventMonteCarlo.setBranchAddresses(the_input_tree);
BareEvent eventEvent;
eventEvent.setBranchAddresses(the_input_tree);
BareJets eventJets;
eventJets.setBranchAddresses(the_input_tree);
BareLeptons eventLeptons;
eventLeptons.setBranchAddresses(the_input_tree);
BareTaus eventTaus;
eventTaus.setBranchAddresses(the_input_tree);
BareMet eventMet;
eventMet.SetExtend();
eventMet.setBranchAddresses(the_input_tree);
BareTrigger eventTrigger;
eventTrigger.setBranchAddresses(the_input_tree);
BareVertex eventVertex;
eventVertex.setBranchAddresses(the_input_tree);
TNamed *triggerNames = (TNamed*)the_input_file.FindObjectAny("triggerNames");
char **tokens;
size_t numtokens;
tokens = strsplit(triggerNames->GetTitle(), ",", &numtokens);
if(infilecatv[ifile] == 0){
for (int i = 0; i < (int)numtokens; i++) {
printf("triggerNames(%2d): \"%s\"\n",(int)i,tokens[i]);
}
}
int MAX = the_input_tree->GetEntries();
//if(infilecatv[ifile] == 1) MAX = MAX/10.;
for (int i=0; i<MAX; ++i) {
the_input_tree->GetEntry(i);
if(i%100000==0) printf("event %d out of %d\n",i,(int)the_input_tree->GetEntries());
Bool_t passFilter[6] = {kFALSE,kFALSE,kFALSE,kFALSE,kFALSE,kFALSE};
if(eventLeptons.p4->GetEntriesFast() >= 2 &&
((TLorentzVector*)(*eventLeptons.p4)[0])->Pt() > 20 &&
((TLorentzVector*)(*eventLeptons.p4)[1])->Pt() > 10) passFilter[0] = kTRUE;
for (int nt = 0; nt <(int)numtokens; nt++) {
if((*eventTrigger.triggerFired)[nt] == 0) continue;
if((strcmp(tokens[nt],"HLT_Mu8_TrkIsoVVL_Ele17_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu8_TrkIsoVVL_Ele23_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu23_TrkIsoVVL_Ele12_CaloIdL_TrackIdL_IsoVL_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_Mu8_TrkIsoVVL_DZ_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Mu17_TrkIsoVVL_TkMu8_TrkIsoVVL_DZ_v*") == 0) ||
(strcmp(tokens[nt],"HLT_IsoMu27_v*") == 0) ||
(strcmp(tokens[nt],"HLT_IsoMu20_v*") == 0) ||
(strcmp(tokens[nt],"HLT_IsoTkMu20_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele17_Ele12_CaloIdL_TrackIdL_IsoVL_DZ_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele23_WPLoose_Gsf_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele22_eta2p1_WP75_Gsf_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele27_WPLoose_Gsf_v*") == 0) ||
(strcmp(tokens[nt],"HLT_Ele27_WP85_Gsf_v*") == 0)
) passFilter[1] = kTRUE;
}
if(passFilter[0] == kFALSE) continue;
if(passFilter[1] == kFALSE) continue;
vector<int> idLep; vector<int> idTight;
for(int nlep=0; nlep<eventLeptons.p4->GetEntriesFast(); nlep++) {
if(selectIdIsoCut(typeLepSel.Data(),TMath::Abs((int)(*eventLeptons.pdgId)[nlep]),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Pt()),
TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[nlep])->Eta()),(double)(*eventLeptons.iso)[nlep],(int)(*eventLeptons.selBits)[nlep]))
{idTight.push_back(1); idLep.push_back(nlep);}
else if(((int)(*eventLeptons.selBits)[nlep] & BareLeptons::LepFake) == BareLeptons::LepFake ) {idTight.push_back(0); idLep.push_back(nlep);}
}
if(idLep.size()==2) passFilter[2] = kTRUE;
if(passFilter[2] == kFALSE) continue;
if(idTight[0]==1&&idTight[1]==1) passFilter[3] = kTRUE;
if(passFilter[3] == kFALSE) continue;
if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() <= 20 ||
((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() <= 10) continue;
passFilter[4] = ((int)(*eventLeptons.pdgId)[idLep[0]]*(int)(*eventLeptons.pdgId)[idLep[1]] < 0);
if(passFilter[4] == kFALSE) continue;
TLorentzVector dilep(( ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[0])) ) + ( *(TLorentzVector*)(eventLeptons.p4->At(idLep[1])) ) ));
if(TMath::Abs(dilep.M()-91.1876)<15.0) passFilter[5] = kTRUE;
if(passFilter[5] == kFALSE) continue;
int iPt[2] = {-1, -1};
if (((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 15) iPt[0] = 0;
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 20) iPt[0] = 1;
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 25) iPt[0] = 2;
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt() < 30) iPt[0] = 3;
else iPt[0] = 4;
if (((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() < 15) iPt[1] = 0;
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() < 20) iPt[1] = 1;
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() < 25) iPt[1] = 2;
else if(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() < 30) iPt[1] = 3;
else iPt[1] = 4;
int iEta[2] = {-1, -1};
if (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()) < 1.5) iEta[0] = 0;
else iEta[0] = 1;
if (TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Eta()) < 1.5) iEta[1] = 0;
else iEta[1] = 1;
Int_t typeLep = 2;
if (TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]])==13&&TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]])==13) typeLep = 0;
else if(TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]])==11&&TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]])==11) typeLep = 1;
double theLumi = lumi; if(infilecatv[ifile] == 0) theLumi = 1.0;
double puWeight = nPUScaleFactor(fhDPU, (double)eventVertex.npv); if(infilecatv[ifile] == 0) puWeight = 1.0;
//double puWeight = 1.0; if(infilecatv[ifile] != 0) puWeight = weightTruePileupFall15_74X((double)eventMonteCarlo.puTrueInt);
double effSF = 1.0;
if(infilecatv[ifile] != 0){
effSF = effScaleFactor(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Pt(),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[0]])->Eta()),TMath::Abs((int)(*eventLeptons.pdgId)[idLep[0]]),period,typeLepSel.Data())*
effScaleFactor(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt(),TMath::Abs(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Eta()),TMath::Abs((int)(*eventLeptons.pdgId)[idLep[1]]),period,typeLepSel.Data());
effSF=1; // SF efficiency == 1!
}
double mcWeight = eventMonteCarlo.mcWeight;
if(infilecatv[ifile] == 0) mcWeight = 1.0;
double totalWeight = mcWeight*theLumi*puWeight*effSF;
yields [infilecatv[ifile]][iPt[0]][iEta[0]][iPt[1]][iEta[1]][typeLep] = yields[infilecatv[ifile]][iPt[0]][iEta[0]][iPt[1]][iEta[1]][typeLep] + totalWeight;
yieldsE[infilecatv[ifile]][iPt[0]][iEta[0]][iPt[1]][iEta[1]][typeLep] = yieldsE[infilecatv[ifile]][iPt[0]][iEta[0]][iPt[1]][iEta[1]][typeLep] + totalWeight * totalWeight;
yieldsTotal[infilecatv[ifile]][typeLep] = yieldsTotal [infilecatv[ifile]][typeLep] + totalWeight;
if(((TLorentzVector*)(*eventLeptons.p4)[idLep[1]])->Pt() > 20)
yieldsTotal20[infilecatv[ifile]][typeLep] = yieldsTotal20[infilecatv[ifile]][typeLep] + totalWeight;
}
} // end of chain
double kFactor[2] = {1., 1.};
for (int ch=0; ch<2; ch++){
kFactor[ch] = (yieldsTotal[ch][0]/yieldsTotal[ch][1]+yieldsTotal[ch][1]/yieldsTotal[ch][0])*0.5;
}
printf("kFactors data/MC: %f %f\n",kFactor[0],kFactor[1]);
for (int pt0=0; pt0<ptBins; pt0++){
for (int eta0=0; eta0<etaBins; eta0++){
for (int pt1=0; pt1<ptBins; pt1++){
for (int eta1=0; eta1<etaBins; eta1++){
if(pt0>=pt1)
printf("yield %1d %1d %1d %1d: %6.1f %6.1f %6.1f - %6.1f %6.1f %6.1f\n",pt0,eta0,pt1,eta1,yields[0][pt0][eta0][pt1][eta1][0],yields[0][pt0][eta0][pt1][eta1][1],yields[0][pt0][eta0][pt1][eta1][2],yields[1][pt0][eta0][pt1][eta1][0],yields[1][pt0][eta0][pt1][eta1][1],yields[1][pt0][eta0][pt1][eta1][2]);
}
}
}
}
printf("yieldTotal: %8.1f %8.1f %8.1f - %8.1f %8.1f %8.1f\n",yieldsTotal [0][0],yieldsTotal [0][1],yieldsTotal [0][2],yieldsTotal [1][0],yieldsTotal [1][1],yieldsTotal [1][2]);
printf("yieldTotal20: %8.1f %8.1f %8.1f - %8.1f %8.1f %8.1f\n",yieldsTotal20[0][0],yieldsTotal20[0][1],yieldsTotal20[0][2],yieldsTotal20[1][0],yieldsTotal20[1][1],yieldsTotal20[1][2]);
for (int pt0=0; pt0<ptBins; pt0++){
for (int eta0=0; eta0<etaBins; eta0++){
for (int pt1=0; pt1<ptBins; pt1++){
for (int eta1=0; eta1<etaBins; eta1++){
if(pt0>=pt1)
printf("yield %1d %1d %1d %1d: %6.4f +/- %6.4f - %6.4f +/- %6.4f\n",pt0,eta0,pt1,eta1,(yields[0][pt0][eta0][pt1][eta1][0]-yields[0][pt0][eta0][pt1][eta1][2]*kFactor[0])/(yields[1][pt0][eta0][pt1][eta1][0]-yields[1][pt0][eta0][pt1][eta1][2]*kFactor[1]),
sqrt(yieldsE[0][pt0][eta0][pt1][eta1][0])*kFactor[0]/(yields[1][pt0][eta0][pt1][eta1][0]-yields[1][pt0][eta0][pt1][eta1][2]*kFactor[1]),
(yields[0][pt0][eta0][pt1][eta1][1]-yields[0][pt0][eta0][pt1][eta1][2]*kFactor[0])/(yields[1][pt0][eta0][pt1][eta1][1]-yields[1][pt0][eta0][pt1][eta1][2]*kFactor[1]),
sqrt(yieldsE[0][pt0][eta0][pt1][eta1][0])*kFactor[0]/(yields[1][pt0][eta0][pt1][eta1][1]-yields[1][pt0][eta0][pt1][eta1][2]*kFactor[1]));
}
}
}
}
}
