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jindal |
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#include <fstream>
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#include <iomanip>
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#include <iostream>
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#include <string.h>
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#include <fstream>
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#include <TFile.h>
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#include <TH1.h>
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#include <TTree.h>
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#include <TCanvas.h>
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#include <TF1.h>
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#include <TStyle.h>
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int TreeReader(char *infile = "temp.root")
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{
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jindal |
1.2 |
TFile *outf = new TFile("eidRobustTight.root","RECREATE");
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jindal |
1.1 |
// TH1D * hEt3;
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jindal |
1.2 |
TH1D * hlepton_calo_iso = new TH1D("hlepton_calo_iso", "lepton calo iso", 120, 0., 120.);
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TH1D * hlepton_track_iso = new TH1D("hlepton_track_iso", "lepton track iso", 120, 0., 120.);
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jindal |
1.1 |
// TH1 * hmuon_isGood_AllGlobalMuons = new TH1( "hmuon_isGood_AllGlobalMuons", "muon isGood AllGlobalMuons", 120, 0., 120.);
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//TH1 * hmuon_isGood_AllStandAloneMuons = new TH1( "hmuon_isGood_AllStandAloneMuons", "muon isGood AllStandAloneMuons", 120, 0., 120.);
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jindal |
1.2 |
TH1D * hMt = new TH1D( "hMt", "Mt (all) ", 100, 0., 90.);
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TH1D * hMt_nominal = new TH1D( "hMt_nominal", "Mt (nominal selection)", 100, 0., 90.);
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TH1D * hMt_reversed = new TH1D( "hMt_reversed", "Mt (reversed selection)", 100, 0., 90.);
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TH1D * hht = new TH1D( "hht", "ht (all) ", 500, 0., 2000.);
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TH1D * hht_nominal = new TH1D( "hht_nominal", "ht (nominal) ", 500, 0., 2000.);
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TH1D * hht_reversed = new TH1D( "hht_reversed", "ht (reversed) ", 500, 0., 2000.);
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jindal |
1.1 |
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jindal |
1.2 |
TH1D * hM123inv = new TH1D( "hM123inv", "M123inv (all) ", 500, 0., 4500.);
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TH1D * hM123inv_nominal = new TH1D( "hM123inv_nominal", "M123inv (nominal selection)", 500, 0., 4500.);
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TH1D * hM123inv_reversed = new TH1D( "hM123inv_reversed", "M123inv (reversed selection)", 500, 0., 4500.);
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TH1D * hgetHt3 = new TH1D( "hgetHt3", "Ht3 (all) ", 100, 0., 900.);
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TH1D * hgetHt3_nominal = new TH1D( "hgetHt3_nominal", "Ht3 (nominal selection)", 100, 0., 900.);
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TH1D * hgetHt3_reversed = new TH1D( "hgetHt3_reversed", "Ht3 (reversed selection)", 100, 0., 900.);
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jindal |
1.1 |
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jindal |
1.2 |
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TH1D * hktMinPrime = new TH1D( "hktMinPrime", "ktMinPrime (all) ", 100, 0., 25.);
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TH1D * hktMinPrime_nominal = new TH1D( "hktMinPrime_nominal", "ktMinPrime (nominal selection)", 100, 0., 25.);
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TH1D * hktMinPrime_reversed = new TH1D( "hktMinPrime_reversed", "ktMinPrime (reversed selection)", 100, 0., 25.);
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jindal |
1.1 |
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jindal |
1.2 |
TH1D * hht2p = new TH1D( "hht2p", "ht2p (all) ", 100, 0., 4.);
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TH1D * hht2p_nominal = new TH1D( "hht2p_nominal", "ht2p (nominal selection)", 100, 0., 4.);
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TH1D * hht2p_reversed = new TH1D( "hht2p_reversed", "ht2p (reversed selection)", 100, 0., 4.);
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TH1D * hcentrality = new TH1D( "hcentrality", "centrality (all) ", 100, 0., 1.);
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TH1D * hcentrality_nominal = new TH1D( "hcentrality_nominal", "centrality (nominal selection)", 100, 0., 1.);
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TH1D * hcentrality_reversed = new TH1D( "hcentrality_reversed", "centrality (reversed selection)", 100, 0., 1.);
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TH1D * hsphericity = new TH1D( "hsphericity", "sphericity (all) ", 100, 0., 1.);
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TH1D * hsphericity_nominal = new TH1D( "hsphericity_nominal", "sphericity (nominal selection)", 100, 0., 1.);
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TH1D * hsphericity_reversed = new TH1D( "hsphericity_reversed", "sphericity (reversed selection)", 100, 0., 1.);
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TH1D * hhtPlusLepton = new TH1D( "hhtPlusLepton", "htPlusLepton (all) ", 500, 0., 3000.);
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TH1D * hhtPlusLepton_nominal = new TH1D( "hhtPlusLepton_nominal", "htPlusLepton (nominal selection)", 500, 0., 3000.);
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TH1D * hhtPlusLepton_reversed = new TH1D( "hhtPlusLepton_reversed", "htPlusLepton (reversed selection)", 500, 0., 3000.);
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TH1D * hdPhiLMet = new TH1D( "hdPhiLMet", "dPhiLMet (all) ", 100, 0., 3.5);
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TH1D * hdPhiLMet_nominal = new TH1D( "hdPhiLMet_nominal", "dPhiLMet (nominal selection)", 100, 0., 3.5);
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TH1D * hdPhiLMet_reversed = new TH1D( "hdPhiLMet_reversed", "dPhiLMet (reversed selection)", 100, 0., 3.5);
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TH1D * hDphiJMET = new TH1D( "hDphiJMET", "DphiJMET (all) ", 100, 0., 3.5);
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TH1D * hDphiJMET_nominal = new TH1D( "hDphiJMET_nominal", "DphiJMET (nominal selection)", 100, 0., 3.5);
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TH1D * hDphiJMET_reversed = new TH1D( "hDphiJMET_reversed", "DphiJMET (reversed selection)", 100, 0., 3.5);
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TH1D * haplanarity = new TH1D( "haplanarity", "aplanarity (all) ", 100, 0., 0.5);
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TH1D * haplanarity_nominal = new TH1D( "haplanarity_nominal", "aplanarity (nominal selection)", 100, 0., 0.5);
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TH1D * haplanarity_reversed = new TH1D( "haplanarity_reversed", "aplanarity (reversed selection)", 100, 0., 0.5);
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TH1D * hW_MT = new TH1D( "hW_MT", "W_MT (all) ", 500, 0., 5000);
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TH1D * hW_MT_nominal = new TH1D( "hW_MT_nominal", "W_MT (nominal selection)", 500, 0., 5000);
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TH1D * hW_MT_reversed = new TH1D( "hW_MT_reversed", "W_MT (reversed selection)", 500, 0., 5000);
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TH1D * hmetHtPlusLepton = new TH1D( "hmetHtPlusLepton", "metHtPlusLepton (all) ", 500, 0., 4000.);
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TH1D * hmetHtPlusLepton_nominal = new TH1D( "hmetHtPlusLepton_nominal", "metHtPlusLepton (nominal selection)", 500, 0., 4000.);
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TH1D * hmetHtPlusLepton_reversed = new TH1D( "hmetHtPlusLepton_reversed", "metHtPlusLepton (reversed selection)", 500, 0., 4000.);
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jindal |
1.1 |
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TFile *fin = TFile::Open(infile);
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jindal |
1.2 |
TTree * t1 = (TTree*)fin->Get("ttljets");
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jindal |
1.1 |
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jindal |
1.2 |
Double_t lepton_track_iso, lepton_calo_iso;
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Double_t ht, Mt, M123inv,getHt3, ktMinPrime, ht2p,centrality,aplanarity, sphericity,htPlusLepton;
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Double_t dPhiLMet,DphiJMET,W_MT,metHtPlusLepton,leptonJetDeltaR,muon_track_Chi2,muon_track_nChi2,muon_track_ndof,lepton_pt;
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Bool_t muon_isGood_AllGlobalMuons,muon_isGood_TMLastStationTight,muon_isGood_TMLastStationLoose;
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Float_t eidRobustLoose,eidRobustTight;
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Bool_t muon_isGood_TM2DCompatibilityTight,muon_isGood_TM2DCompatibilityLoose;
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jindal |
1.1 |
t1->SetBranchAddress("lepton_track_iso",&lepton_track_iso);
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t1->SetBranchAddress("lepton_calo_iso",&lepton_calo_iso);
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jindal |
1.2 |
t1->SetBranchAddress("ht",&ht);
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t1->SetBranchAddress("getMt",&Mt);
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t1->SetBranchAddress("getM123inv",&M123inv);
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jindal |
1.1 |
t1->SetBranchAddress("getHt3",&getHt3);
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t1->SetBranchAddress("ktMinPrime",&ktMinPrime);
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t1->SetBranchAddress("ht2p",&ht2p);
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jindal |
1.2 |
t1->SetBranchAddress("centrality",¢rality);
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t1->SetBranchAddress("aplanarity",&aplanarity);
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t1->SetBranchAddress("sphericity",&sphericity);
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jindal |
1.1 |
t1->SetBranchAddress("htPlusLepton",&htPlusLepton);
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t1->SetBranchAddress("dPhiLMet",&dPhiLMet);
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t1->SetBranchAddress("DphiJMET",&DphiJMET);
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jindal |
1.2 |
t1->SetBranchAddress("W_MT",&W_MT);
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t1->SetBranchAddress("metHtPlusLepton",&metHtPlusLepton);
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jindal |
1.1 |
t1->SetBranchAddress("muon_isGood_AllGlobalMuons",&muon_isGood_AllGlobalMuons);
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jindal |
1.2 |
t1->SetBranchAddress("leptonJetDeltaR",&leptonJetDeltaR);
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t1->SetBranchAddress("muon_track_nChi2",&muon_track_nChi2);
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t1->SetBranchAddress("muon_track_ndof",&muon_track_ndof);
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t1->SetBranchAddress("muon_track_chi2",&muon_track_Chi2);
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t1->SetBranchAddress("muon_isGood_TMLastStationTight",&muon_isGood_TMLastStationTight);
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t1->SetBranchAddress("muon_isGood_TMLastStationLoose",&muon_isGood_TMLastStationLoose);
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t1->SetBranchAddress("muon_isGood_TM2DCompatibilityTight",&muon_isGood_TM2DCompatibilityTight);
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t1->SetBranchAddress("muon_isGood_TM2DCompatibilityLoose",&muon_isGood_TM2DCompatibilityLoose);
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jindal |
1.1 |
t1->SetBranchAddress("lepton_pt",&lepton_pt);
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jindal |
1.2 |
t1->SetBranchAddress("eidRobustLoose",&eidRobustLoose);
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t1->SetBranchAddress("eidRobustTight",&eidRobustTight);
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jindal |
1.1 |
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Int_t n_gen = (Int_t)t1->GetEntries();
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cout<<"No of entries from trees "<<n_gen<<endl;
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jindal |
1.2 |
bool leptonid_cut;
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jindal |
1.1 |
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for(Int_t i=0; i<n_gen; i++){
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t1->GetEntry(i);
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jindal |
1.2 |
hht->Fill(ht);
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jindal |
1.1 |
hMt->Fill(Mt);
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jindal |
1.2 |
hM123inv->Fill(M123inv);
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jindal |
1.1 |
hgetHt3->Fill(getHt3);
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jindal |
1.2 |
hktMinPrime->Fill(ktMinPrime);
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hht2p->Fill(ht2p);
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haplanarity->Fill(aplanarity);
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hcentrality->Fill(centrality);
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hsphericity->Fill(sphericity);
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hdPhiLMet->Fill(dPhiLMet);
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hDphiJMET->Fill(DphiJMET);
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hW_MT->Fill(W_MT);
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hhtPlusLepton->Fill(htPlusLepton);
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hmetHtPlusLepton->Fill(metHtPlusLepton);
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//leptonid_cut = (muon_isGood_TM2DCompatibilityLoose && (1.0/(1.0+(lepton_calo_iso+lepton_track_iso)/lepton_pt)) > 0.67 );
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//leptonid_cut = (muon_isGood_TMLastStationLoose && muon_track_nChi2 < 5 );
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leptonid_cut = (eidRobustTight == 1);
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if(leptonid_cut){
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hht_nominal->Fill(ht);
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hMt_nominal->Fill(Mt);
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hM123inv_nominal->Fill(M123inv);
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hgetHt3_nominal->Fill(getHt3);
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hktMinPrime_nominal->Fill(ktMinPrime);
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hht2p_nominal->Fill(ht2p);
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haplanarity_nominal->Fill(aplanarity);
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hcentrality_nominal->Fill(centrality);
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hsphericity_nominal->Fill(sphericity);
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hdPhiLMet_nominal->Fill(dPhiLMet);
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hDphiJMET_nominal->Fill(DphiJMET);
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hW_MT_nominal->Fill(W_MT);
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hhtPlusLepton_nominal->Fill(htPlusLepton);
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hmetHtPlusLepton_nominal->Fill(metHtPlusLepton);
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}
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jindal |
1.1 |
// hlepton_iso->Fill(lepton_calo_iso);
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jindal |
1.2 |
if(!leptonid_cut){
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hht_reversed->Fill(ht);
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hMt_reversed->Fill(Mt);
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hM123inv_reversed->Fill(M123inv);
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hgetHt3_reversed->Fill(getHt3);
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hktMinPrime_reversed->Fill(ktMinPrime);
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hht2p_reversed->Fill(ht2p);
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haplanarity_reversed->Fill(aplanarity);
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hcentrality_reversed->Fill(centrality);
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hsphericity_reversed->Fill(sphericity);
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hdPhiLMet_reversed->Fill(dPhiLMet);
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hDphiJMET_reversed->Fill(DphiJMET);
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hW_MT_reversed->Fill(W_MT);
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hhtPlusLepton_reversed->Fill(htPlusLepton);
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hmetHtPlusLepton_reversed->Fill(metHtPlusLepton);
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}
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jindal |
1.1 |
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}
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outf->Write();
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outf->Close();
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}
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