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PlotAndSave.C
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PlotAndSave.C
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#include <TH1F.h>
#include <TH2F.h>
#include <TH3F.h>
#include <TROOT.h>
#include <TFile.h>
#include <TTree.h>
#include <TSystem.h>
#include <TChain.h>
#include <TLorentzVector.h>
#include <TLegend.h>
#include <iostream>
#include <stdlib.h>
#include <stdio.h>
#include <TF1.h>
#include <TCanvas.h>
#include <TFrame.h>
void PlotAndSave(std::string infile){
gROOT->SetStyle("Plain");
TCanvas *c1 = new TCanvas("c1", "c1", 600, 400);
TFile* file1 = TFile::Open((infile+".root").c_str());
TH2F *h1 = (TH2F*)gDirectory->Get("h_InvariantMass_Mu");
h1->Rebin(10);
h1->Draw();
c1->SaveAs((infile+"_InvariantMass_Mu.pdf").c_str());
c1->SaveAs((infile+"_InvariantMass_Mu.png").c_str());
TH2F *h2 = (TH2F*)gDirectory->Get("h_InvariantMass_El");
h2->Rebin(10);
h2->Draw();
c1->SaveAs((infile+"_InvariantMass_El.pdf").c_str());
c1->SaveAs((infile+"_InvariantMass_El.png").c_str());
TH2F *h3 = (TH2F*)gDirectory->Get("h_mu_pt_leading");
h3->Rebin(5);
h3->GetXaxis()->SetRangeUser(0, 200);
h3->Draw();
c1->SaveAs((infile+"_mu_pt_leading.pdf").c_str());
c1->SaveAs((infile+"_mu_pt_leading.png").c_str());
TH2F *h4 = (TH2F*)gDirectory->Get("h_mu_pt_trailing");
h4->Rebin(5);
h4->GetXaxis()->SetRangeUser(0, 200);
h4->Draw();
c1->SaveAs((infile+"_mu_pt_trailing.pdf").c_str());
c1->SaveAs((infile+"_mu_pt_trailing.png").c_str());
TH2F *h5 = (TH2F*)gDirectory->Get("h_mu_eta_leading");
h5->Rebin(10);
h5->Draw();
c1->SaveAs((infile+"_mu_eta_leading.pdf").c_str());
c1->SaveAs((infile+"_mu_eta_leading.png").c_str());
TH2F *h6 = (TH2F*)gDirectory->Get("h_mu_eta_trailing");
h6->Rebin(10);
h6->Draw();
c1->SaveAs((infile+"_mu_eta_trailing.pdf").c_str());
c1->SaveAs((infile+"_mu_eta_trailing.png").c_str());
TH2F *h7 = (TH2F*)gDirectory->Get("h_mu_phi_leading");
h7->Rebin(10);
h7->Draw();
c1->SaveAs((infile+"_mu_phi_leading.pdf").c_str());
c1->SaveAs((infile+"_mu_phi_leading.png").c_str());
TH2F *h8 = (TH2F*)gDirectory->Get("h_mu_phi_trailing");
h8->Rebin(10);
h8->Draw();
c1->SaveAs((infile+"_mu_phi_trailing.pdf").c_str());
c1->SaveAs((infile+"_mu_phi_trailing.png").c_str());
TH2F *h9 = (TH2F*)gDirectory->Get("h_mu_energy_leading");
h9->Rebin(5);
h9->GetXaxis()->SetRangeUser(0, 500);
h9->Draw();
c1->SaveAs((infile+"_mu_energy_leading.pdf").c_str());
c1->SaveAs((infile+"_mu_energy_leading.png").c_str());
TH2F *h10 = (TH2F*)gDirectory->Get("h_mu_energy_trailing");
h10->Rebin(5);
h10->GetXaxis()->SetRangeUser(0, 500);
h10->Draw();
c1->SaveAs((infile+"_mu_energy_trailing.pdf").c_str());
c1->SaveAs((infile+"_mu_energy_trailing.png").c_str());
TH2F *h11 = (TH2F*)gDirectory->Get("h_el_pt_leading");
h11->Rebin(5);
h11->GetXaxis()->SetRangeUser(0, 200);
h11->Draw();
c1->SaveAs((infile+"_el_pt_leading.pdf").c_str());
c1->SaveAs((infile+"_el_pt_leading.png").c_str());
TH2F *h12 = (TH2F*)gDirectory->Get("h_el_pt_trailing");
h12->Rebin(5);
h12->GetXaxis()->SetRangeUser(0, 200);
h12->Draw();
c1->SaveAs((infile+"_el_pt_trailing.pdf").c_str());
c1->SaveAs((infile+"_el_pt_trailing.png").c_str());
TH2F *h13 = (TH2F*)gDirectory->Get("h_el_eta_leading");
h13->Rebin(10);
h13->Draw();
c1->SaveAs((infile+"_el_eta_leading.pdf").c_str());
c1->SaveAs((infile+"_el_eta_leading.png").c_str());
TH2F *h14 = (TH2F*)gDirectory->Get("h_el_eta_trailing");
h14->Rebin(10);
h14->Draw();
c1->SaveAs((infile+"_el_eta_trailing.pdf").c_str());
c1->SaveAs((infile+"_el_eta_trailing.png").c_str());
TH2F *h15 = (TH2F*)gDirectory->Get("h_el_phi_leading");
h15->Rebin(10);
h15->Draw();
c1->SaveAs((infile+"_el_phi_leading.pdf").c_str());
c1->SaveAs((infile+"_el_phi_leading.png").c_str());
TH2F *h16 = (TH2F*)gDirectory->Get("h_el_phi_trailing");
h16->Rebin(10);
h16->Draw();
c1->SaveAs((infile+"_el_phi_trailing.pdf").c_str());
c1->SaveAs((infile+"_el_phi_trailing.png").c_str());
TH2F *h17 = (TH2F*)gDirectory->Get("h_el_energy_leading");
h17->Rebin(5);
h17->GetXaxis()->SetRangeUser(0, 500);
h17->Draw();
c1->SaveAs((infile+"_el_energy_leading.pdf").c_str());
c1->SaveAs((infile+"_el_energy_leading.png").c_str());
TH2F *h18 = (TH2F*)gDirectory->Get("h_el_energy_trailing");
h18->Rebin(5);
h18->GetXaxis()->SetRangeUser(0, 500);
h18->Draw();
c1->SaveAs((infile+"_el_energy_trailing.pdf").c_str());
c1->SaveAs((infile+"_el_energy_trailing.png").c_str());
TH2F *h19 = (TH2F*)gDirectory->Get("h_photon_pt");
h19->GetXaxis()->SetRangeUser(0, 500);
h19->Rebin(5);
h19->Draw();
c1->SaveAs((infile+"_photon_pt.pdf").c_str());
c1->SaveAs((infile+"_photon_pt.png").c_str());
TH2F *h20 = (TH2F*)gDirectory->Get("h_photon_eta");
h20->Rebin(10);
h20->Draw();
c1->SaveAs((infile+"_photon_eta.pdf").c_str());
c1->SaveAs((infile+"_photon_eta.png").c_str());
TH2F *h21 = (TH2F*)gDirectory->Get("h_photon_phi");
h21->Rebin(10);
h21->Draw();
c1->SaveAs((infile+"_photon_phi.pdf").c_str());
c1->SaveAs((infile+"_photon_phi.png").c_str());
TH2F *h22 = (TH2F*)gDirectory->Get("h_photon_energy");
h22->Rebin(10);
h22->Draw();
c1->SaveAs((infile+"_photon_energy.pdf").c_str());
c1->SaveAs((infile+"_photon_energy.png").c_str());
c1->SetLogy();
TH2F *h23 = (TH2F*)gDirectory->Get("h_DeltaR_el1_ph1");
h23->Rebin(10);
h23->Draw();
c1->SaveAs((infile+"_DeltaR_el1_ph1.pdf").c_str());
c1->SaveAs((infile+"_DeltaR_el1_ph1.png").c_str());
TH2F *h24 = (TH2F*)gDirectory->Get("h_DeltaR_el2_ph1");
h24->Rebin(10);
h24->Draw();
c1->SaveAs((infile+"_DeltaR_el2_ph1.pdf").c_str());
c1->SaveAs((infile+"_DeltaR_el2_ph1.png").c_str());
/*
KEY: TH1F h_el_isolation_leading;1 Leading electron Isolation
KEY: TH1F h_el_isolation_trailing;1 Trailing electron Isolation
KEY: TH1F h_photon_energy;1 Photon Energy
KEY: TH1F h_ph_chIsolation_leading;1 Leading Photon Ch Isolation
KEY: TH1F h_ph_nuIsolation_leading;1 Leading Photon Nu Isolation
KEY: TH1F h_ph_phIsolation_leading;1 Leading Photon Ph Isolation
KEY: TH1F h_InvariantMass_ElPh;1 Di-electron and photon invariant mass
KEY: TH1F h_InvariantMass_MuPh;1 Di-muon and photon invariant mass
KEY: TH2F h_Mmumu_MmumuGamma;1 Scatter Plot of M_{#mu#mu} versus M_{#mu#mu#gamma}
KEY: TH2F h_Mee_MeeGamma;1 Scatter Plot of M_{ee} versus M_{ee#gamma}
KEY: TH1F h_Difference_El;1 Difference pt
KEY: TH1F h_Difference_Mu;1 Difference pt
*/
}