Changeset 1408174 in git for examples/Validation.cpp

Timestamp:

Aug 25, 2016, 12:35:16 PM (8 years ago)

Author:

Pavel Demin <pavel.demin@…>

Branches:

ImprovedOutputFile, Timing, dual_readout, llp, master

Children:

2264876, 70b9632

Parents:

2fc1c08

Message:

add multiple input files to Validation.cpp and remove Validation.C

File:

• examples/Validation.cpp (modified) (6 diffs)

examples/Validation.cpp

@@ -21 +21 @@
 #include <utility>
 #include <vector>
+#include <typeinfo>
 
 #include "TROOT.h"
@@ -28 +29 @@
 #include "TString.h"
 
+#include "TH1.h"
 #include "TH2.h"
+#include "TMath.h"
+#include "TStyle.h"
+#include "TGraph.h"
+#include "TCanvas.h"
 #include "THStack.h"
 #include "TLegend.h"
@@ -34 +40 @@
 #include "TClonesArray.h"
 #include "TLorentzVector.h"
+#include "TGraphErrors.h"
+#include "TMultiGraph.h"
 
 #include "classes/DelphesClasses.h"
@@ -47 +55 @@
 //------------------------------------------------------------------------------
 
-// Here you can put your analysis macro
-
-#include "Validation.C"
+double ptrangemin = 10;
+double ptrangemax = 10000;
+static const int Nbins = 20;
+
+int objStyle = 1;
+int trackStyle = 7;
+int towerStyle = 3;
+
+Color_t objColor = kBlack;
+Color_t trackColor = kBlack;
+Color_t towerColor = kBlack;
+
+double effLegXmin = 0.22;
+double effLegXmax = 0.7;
+double effLegYmin = 0.22;
+double effLegYmax = 0.5;
+
+double resLegXmin = 0.62;
+double resLegXmax = 0.9;
+double resLegYmin = 0.52;
+double resLegYmax = 0.85;
+
+double topLeftLegXmin = 0.22;
+double topLeftLegXmax = 0.7;
+double topLeftLegYmin = 0.52;
+double topLeftLegYmax = 0.85;
+
+
+struct resolPlot
+{
+  TH1 *cenResolHist;
+  TH1 *fwdResolHist;
+  double ptmin;
+  double ptmax;
+  double xmin;
+  double xmax;
+  TString obj;
+
+  resolPlot();
+  resolPlot(double ptdown, double ptup, TString object);
+  void set(double ptdown, double ptup, TString object, double xmin = 0, double xmax = 2);
+  void print(){std::cout << ptmin << std::endl;}
+};
+
+
+resolPlot::resolPlot()
+{
+}
+
+resolPlot::resolPlot(double ptdown, double ptup, TString object)
+{
+  this->set(ptdown,ptup,object);
+}
+
+void resolPlot::set(double ptdown, double ptup, TString object, double xmin, double xmax)
+{
+  ptmin = ptdown;
+  ptmax = ptup;
+  obj = object;
+
+  cenResolHist = new TH1D(obj+"_delta_pt_"+Form("%4.2f",ptmin)+"_"+Form("%4.2f",ptmax)+"_cen", obj+"_delta_pt_"+Form("%4.2f",ptmin)+"_"+Form("%4.2f",ptmax)+"_cen", 200,  xmin, xmax);
+  fwdResolHist = new TH1D(obj+"_delta_pt_"+Form("%4.2f",ptmin)+"_"+Form("%4.2f",ptmax)+"_fwd", obj+"_delta_pt_"+Form("%4.2f",ptmin)+"_"+Form("%4.2f",ptmax)+"_fwd", 200,  xmin, xmax);
+}
+
+void HistogramsCollection(std::vector<resolPlot> *histos, double ptmin, double ptmax, TString obj, double xmin = 0, double xmax = 2)
+{
+  double width;
+  double ptdown;
+  double ptup;
+  resolPlot ptemp;
+
+  for (int i = 0; i < Nbins; i++)
+  {
+    width = (ptmax - ptmin) / Nbins;
+    ptdown = TMath::Power(10,ptmin + i * width );
+    ptup = TMath::Power(10,ptmin + (i+1) * width );
+    ptemp.set(ptdown, ptup, obj, xmin, xmax);
+    histos->push_back(ptemp);
+  }
+}
+
+//------------------------------------------------------------------------------
+
+class ExRootResult;
+class ExRootTreeReader;
+
+//------------------------------------------------------------------------------
+
+void BinLogX(TH1*h)
+{
+  TAxis *axis = h->GetXaxis();
+  int bins = axis->GetNbins();
+
+  Axis_t from = axis->GetXmin();
+  Axis_t to = axis->GetXmax();
+  Axis_t width = (to - from) / bins;
+  Axis_t *new_bins = new Axis_t[bins + 1];
+
+  for (int i = 0; i <= bins; i++)
+  {
+    new_bins[i] = TMath::Power(10, from + i * width);
+  }
+  axis->Set(bins, new_bins);
+  delete new_bins;
+}
+
+
+//------------------------------------------------------------------------------
+
+template<typename T>
+std::pair<TH1D*, TH1D*> GetEff(TClonesArray *branchReco, TClonesArray *branchParticle, TString name, int pdgID, ExRootTreeReader *treeReader)
+{
+
+  cout << "** Computing Efficiency of reconstructing "<< branchReco->GetName() << " induced by " << branchParticle->GetName() << " with PID " << pdgID << endl;
+
+  Long64_t allEntries = treeReader->GetEntries();
+
+  GenParticle *particle;
+  T *recoObj;
+
+  TLorentzVector recoMomentum, genMomentum, bestRecoMomentum;
+
+  Float_t deltaR;
+  Float_t pt, eta;
+  Long64_t entry;
+
+  Int_t i, j;
+
+  TH1D *histGenPtcen = new TH1D(name+" gen spectra Pt",name+" gen spectra cen", Nbins, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax));
+  TH1D *histRecoPtcen = new TH1D(name+" reco spectra Pt",name+" reco spectra cen", Nbins, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax));
+  TH1D *histGenPtfwd  = new TH1D(name+" gen spectra Eta",name+" gen spectra fwd", Nbins, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax));
+  TH1D *histRecoPtfwd = new TH1D(name+" reco spectra Eta",name+" reco spectra fwd", Nbins, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax));
+
+
+  BinLogX(histGenPtcen);
+  BinLogX(histRecoPtcen);
+  BinLogX(histGenPtfwd);
+  BinLogX(histRecoPtfwd);
+
+  // Loop over all events
+  for(entry = 0; entry < allEntries; ++entry)
+  {
+    // Load selected branches with data from specified event
+    treeReader->ReadEntry(entry);
+
+    // Loop over all generated particle in event
+    for(i = 0; i < branchParticle->GetEntriesFast(); ++i)
+    {
+
+      particle = (GenParticle*) branchParticle->At(i);
+      genMomentum = particle->P4();
+
+      deltaR = 999;
+
+      if (particle->PID == pdgID && genMomentum.Pt() > ptrangemin && genMomentum.Pt() < ptrangemax )
+      {
+
+        // Loop over all reco object in event
+        for(j = 0; j < branchReco->GetEntriesFast(); ++j)
+        {
+          recoObj = (T*)branchReco->At(j);
+          recoMomentum = recoObj->P4();
+          // this is simply to avoid warnings from initial state particle
+          // having infite rapidity ...
+        //if(Momentum.Px() == 0 && genMomentum.Py() == 0) continue;
+
+          // take the closest parton candidate
+          if(TMath::Abs(pdgID) == 5)
+          {
+            Jet *jet = (Jet *)recoObj;
+            if(jet->BTag != 1) continue;
+          }
+          if(TMath::Abs(pdgID) == 15)
+          {
+            Jet *jet = (Jet *)recoObj;
+            if(jet->TauTag != 1) continue;
+          }
+          if(genMomentum.DeltaR(recoMomentum) < deltaR)
+          {
+            deltaR = genMomentum.DeltaR(recoMomentum);
+            bestRecoMomentum = recoMomentum;
+          }
+        }
+
+        pt  = genMomentum.Pt();
+        eta = genMomentum.Eta();
+
+        if (TMath::Abs(eta) < 1.5)
+        {
+          histGenPtcen->Fill(pt);
+          if(deltaR < 0.3) { histRecoPtcen->Fill(pt); }
+        }
+        else if (TMath::Abs(eta) < 2.5)
+        {
+          histGenPtfwd->Fill(pt);
+          if(deltaR < 0.3) { histRecoPtfwd->Fill(pt); }
+
+        }
+      }
+    }
+  }
+
+
+  std::pair<TH1D*,TH1D*> histos;
+
+  histRecoPtcen->Divide(histGenPtcen);
+  histRecoPtfwd->Divide(histGenPtfwd);
+
+  histos.first = histRecoPtcen;
+  histos.second = histRecoPtfwd;
+
+  return histos;
+}
+
+template<typename T>
+void GetEres(std::vector<resolPlot> *histos, TClonesArray *branchReco, TClonesArray *branchParticle, int pdgID, ExRootTreeReader *treeReader)
+{
+  Long64_t allEntries = treeReader->GetEntries();
+
+  cout << "** Computing resolution of " << branchReco->GetName() << " induced by " << branchParticle->GetName() << " with PID " << pdgID << endl;
+
+  GenParticle *particle;
+  T* recoObj;
+
+  TLorentzVector recoMomentum, genMomentum, bestGenMomentum;
+
+  Float_t deltaR;
+  Float_t pt, eta;
+  Long64_t entry;
+
+  Int_t i, j, bin;
+
+  // Loop over all events
+  for(entry = 0; entry < allEntries; ++entry)
+  {
+    // Load selected branches with data from specified event
+    treeReader->ReadEntry(entry);
+
+    // Loop over all reconstructed jets in event
+    for(i = 0; i < branchReco->GetEntriesFast(); ++i)
+    {
+      recoObj = (T*) branchReco->At(i);
+      recoMomentum = recoObj->P4();
+
+      deltaR = 999;
+
+     // Loop over all hard partons in event
+     for(j = 0; j < branchParticle->GetEntriesFast(); ++j)
+     {
+        particle = (GenParticle*) branchParticle->At(j);
+        if (particle->PID == pdgID && particle->Status == 1)
+        {
+          genMomentum = particle->P4();
+
+          // this is simply to avoid warnings from initial state particle
+          // having infite rapidity ...
+          if(genMomentum.Px() == 0 && genMomentum.Py() == 0) continue;
+
+          // take the closest parton candidate
+          if(genMomentum.DeltaR(recoMomentum) < deltaR)
+          {
+             deltaR = genMomentum.DeltaR(recoMomentum);
+             bestGenMomentum = genMomentum;
+          }
+        }
+      }
+
+      if(deltaR < 0.3)
+      {
+        pt  = bestGenMomentum.Pt();
+        eta = TMath::Abs(bestGenMomentum.Eta());
+
+        for (bin = 0; bin < Nbins; bin++)
+        {
+          if(pt > histos->at(bin).ptmin && pt < histos->at(bin).ptmax && eta > 0.0 && eta < 2.5)
+          {
+            if (eta < 1.5) {histos->at(bin).cenResolHist->Fill(recoMomentum.Pt()/bestGenMomentum.Pt());}
+            else if (eta < 2.5) {histos->at(bin).fwdResolHist->Fill(recoMomentum.Pt()/bestGenMomentum.Pt());}
+          }
+        }
+      }
+    }
+  }
+}
+void GetJetsEres(std::vector<resolPlot> *histos, TClonesArray *branchJet, TClonesArray *branchGenJet, ExRootTreeReader *treeReader)
+{
+
+  Long64_t allEntries = treeReader->GetEntries();
+
+  cout << "** Computing resolution of " << branchJet->GetName() << " induced by " << branchGenJet->GetName() << endl;
+
+  Jet *jet, *genjet;
+
+  TLorentzVector jetMomentum, genJetMomentum, bestGenJetMomentum;
+
+  Float_t deltaR;
+  Float_t pt, eta;
+  Long64_t entry;
+
+  Int_t i, j, bin;
+
+  // Loop over all events
+  for(entry = 0; entry < allEntries; ++entry)
+  {
+    // Load selected branches with data from specified event
+    treeReader->ReadEntry(entry);
+
+    if(entry%10000 == 0) cout << "Event number: "<< entry <<endl;
+
+    // Loop over all reconstructed jets in event
+    for(i = 0; i < TMath::Min(2,branchJet->GetEntriesFast()); ++i) //branchJet->GetEntriesFast(); ++i)
+    {
+
+      jet = (Jet*) branchJet->At(i);
+      jetMomentum = jet->P4();
+
+      deltaR = 999;
+
+     // Loop over all hard partons in event
+     for(j = 0; j < TMath::Min(2,branchGenJet->GetEntriesFast()); ++j)
+     {
+        genjet = (Jet*) branchGenJet->At(j);
+
+        genJetMomentum = genjet->P4();
+
+        // this is simply to avoid warnings from initial state particle
+        // having infite rapidity ...
+        if(genJetMomentum.Px() == 0 && genJetMomentum.Py() == 0) continue;
+
+        // take the closest parton candidate
+        if(genJetMomentum.DeltaR(jetMomentum) < deltaR)
+        {
+           deltaR = genJetMomentum.DeltaR(jetMomentum);
+           bestGenJetMomentum = genJetMomentum;
+        }
+      }
+
+      if(deltaR < 0.25)
+      {
+        pt  = genJetMomentum.Pt();
+        eta = TMath::Abs(genJetMomentum.Eta());
+
+        for (bin = 0; bin < Nbins; bin++)
+        {
+            if(pt > histos->at(bin).ptmin && pt < histos->at(bin).ptmax && eta < 1.5)
+            {
+                histos->at(bin).cenResolHist->Fill(jetMomentum.Pt()/bestGenJetMomentum.Pt());
+            }
+            else if(pt > histos->at(bin).ptmin && pt < histos->at(bin).ptmax && eta < 2.5)
+            {
+                histos->at(bin).fwdResolHist->Fill(jetMomentum.Pt()/bestGenJetMomentum.Pt());
+            }
+
+        }
+      }
+    }
+  }
+}
+
+void GetMetres(std::vector<resolPlot> *histos, TClonesArray *branchScalarHT, TClonesArray *branchMet, TClonesArray *branchJet, ExRootTreeReader *treeReader)
+{
+
+  Long64_t allEntries = treeReader->GetEntries();
+
+  cout << "** Computing resolution of " << branchMet->GetName() << " vs " << branchScalarHT->GetName() << endl;
+
+  MissingET *met;
+  ScalarHT *scalarHT;
+
+  Long64_t entry;
+
+  Int_t bin;
+  Double_t ht;
+
+  Jet *jet;
+  TLorentzVector p1, p2;
+
+  // Loop over all events
+  for(entry = 0; entry < allEntries; ++entry)
+  {
+    // Load selected branches with data from specified event
+    treeReader->ReadEntry(entry);
+
+    if(entry%10000 == 0) cout << "Event number: "<< entry <<endl;
+
+    if (branchJet->GetEntriesFast() > 1)
+    {
+
+      jet = (Jet*) branchJet->At(0);
+      p1 = jet->P4();
+      jet = (Jet*) branchJet->At(1);
+      p2 = jet->P4();
+
+      met = (MissingET*) branchMet->At(0);
+      scalarHT = (ScalarHT*) branchScalarHT->At(0);
+      ht = scalarHT->HT;
+
+      if(p1.Pt() < 0.75*ht/2) continue;
+      if(p2.Pt() < 0.75*ht/2) continue;
+
+      for (bin = 0; bin < Nbins; bin++)
+      {
+        if(ht > histos->at(bin).ptmin && ht < histos->at(bin).ptmax )
+        {
+          histos->at(bin).cenResolHist->Fill(met->P4().Px());
+          histos->at(bin).fwdResolHist->Fill(met->P4().Py());
+        }
+      }
+    }
+  }
+}
+
+
+std::pair<Double_t, Double_t> GausFit(TH1* hist)
+{
+  TF1 *f1 = new TF1("f1", "gaus", hist->GetMean()-2*hist->GetRMS(), hist->GetMean()+2*hist->GetRMS());
+  hist->Fit("f1","RQ");
+  Double_t sig = f1->GetParameter(2);
+  Double_t sigErr = f1->GetParError(2);
+  delete f1;
+  return make_pair (sig, sigErr);
+}
+
+
+TGraphErrors EresGraph(std::vector<resolPlot> *histos, bool central, bool rms = false)
+{
+  Int_t bin;
+  Int_t count = 0;
+  TGraphErrors gr = TGraphErrors(Nbins/2);
+  Double_t sig = 0;
+  Double_t sigErr = 0;
+  for (bin = 0; bin < Nbins; bin++)
+  {
+    if (central == true && histos->at(bin).cenResolHist->GetEntries() > 100)
+    {
+      std::pair<Double_t, Double_t> sigvalues = GausFit(histos->at(bin).cenResolHist);
+      if (rms == true)
+      {
+        gr.SetPoint(count,(histos->at(bin).ptmin+histos->at(bin).ptmax)/2.0, sigvalues.second);
+        gr.SetPointError(count,0, sigvalues.second); // to correct
+      }
+      else
+      {
+        gr.SetPoint(count,(histos->at(bin).ptmin+histos->at(bin).ptmax)/2.0, sigvalues.first);
+        gr.SetPointError(count,0, sigvalues.second);
+      }
+      count++;
+    }
+
+    else if (central == false && histos->at(bin).fwdResolHist->GetEntries() > 10)
+    {
+      std::pair<Double_t, Double_t> sigvalues = GausFit(histos->at(bin).fwdResolHist);
+      if (rms == true)
+      {
+        gr.SetPoint(count,(histos->at(bin).ptmin+histos->at(bin).ptmax)/2.0, sigvalues.second);
+        gr.SetPointError(count,0, sigvalues.second); // to correct
+      }
+      else
+      {
+        gr.SetPoint(count,(histos->at(bin).ptmin+histos->at(bin).ptmax)/2.0, sigvalues.first);
+        gr.SetPointError(count,0, sigvalues.second);
+      }
+      count++;
+    }
+
+  }
+  return gr;
+}
+
+
+//------------------------------------------------------------------------------
+
+
+// type 1 : object, 2 : track, 3 : tower
+
+void addGraph(TMultiGraph *mg, TGraphErrors *gr, TLegend *leg, int type)
+{
+
+  gr->SetLineWidth(2);
+
+  switch ( type )
+  {
+    case 1:
+      gr->SetLineColor(objColor);
+      gr->SetLineStyle(objStyle);
+      std::cout << "Adding " << gr->GetName() << std::endl;
+      mg->Add(gr);
+      leg->AddEntry(gr,"Reco","l");
+      break;
+
+    case 2:
+      gr->SetLineColor(trackColor);
+      gr->SetLineStyle(trackStyle);
+      mg->Add(gr);
+      leg->AddEntry(gr,"Track","l");
+      break;
+
+    case 3:
+      gr->SetLineColor(towerColor);
+      gr->SetLineStyle(towerStyle);
+      mg->Add(gr);
+      leg->AddEntry(gr,"Tower","l");
+      break;
+
+    case 0:
+      gr->SetLineColor(objColor);
+      gr->SetLineStyle(objStyle);
+      mg->Add(gr);
+      break;
+
+    default:
+      std::cout << "wrong type, possibles choices are Object, Track and Tower" << std::endl;
+      break;
+  }
+}
+
+void addHist(TH1D *h, TLegend *leg, int type)
+{
+  h->SetLineWidth(2);
+
+  switch ( type )
+  {
+    case 1:
+      h->SetLineColor(objColor);
+      h->SetLineStyle(objStyle);
+      leg->AddEntry(h,"Reco","l");
+      break;
+
+    case 2:
+      h->SetLineColor(trackColor);
+      h->SetLineStyle(trackStyle);
+      leg->AddEntry(h,"Track","l");
+      break;
+
+    case 3:
+      h->SetLineColor(towerColor);
+      h->SetLineStyle(towerStyle);
+      leg->AddEntry(h,"Tower","l");
+      break;
+
+    case 0:
+      h->SetLineColor(objColor);
+      h->SetLineStyle(objStyle);
+      break;
+
+    default:
+      std::cout << "wrong type, possibles choices are Object, Track and Tower" << std::endl;
+      break;
+  }
+}
+
+void DrawAxis(TMultiGraph *mg, TLegend *leg, double max)
+{
+  mg->SetMinimum(0.);
+  mg->SetMaximum(max);
+  mg->GetXaxis()->SetLimits(ptrangemin,ptrangemax);
+  mg->GetYaxis()->SetTitle("resolution");
+  mg->GetXaxis()->SetTitle("p_{T} [GeV]");
+  mg->GetYaxis()->SetTitleSize(0.07);
+  mg->GetXaxis()->SetTitleSize(0.07);
+  mg->GetYaxis()->SetLabelSize(0.06);
+  mg->GetXaxis()->SetLabelSize(0.06);
+  mg->GetYaxis()->SetLabelOffset(0.03);
+  mg->GetYaxis()->SetTitleOffset(1.4);
+  mg->GetXaxis()->SetTitleOffset(1.4);
+
+  mg->GetYaxis()->SetNdivisions(505);
+
+  leg->SetBorderSize(0);
+  leg->SetShadowColor(0);
+  leg->SetFillColor(0);
+  leg->SetFillStyle(0);
+
+  gStyle->SetOptTitle(0);
+  gPad->SetLogx();
+  gPad->SetBottomMargin(0.2);
+  gPad->SetLeftMargin(0.2);
+  gPad->Modified();
+  gPad->Update();
+
+}
+
+void DrawAxis(TH1D *h, TLegend *leg, int type)
+{
+
+  h->GetYaxis()->SetRangeUser(0,1.0);
+  if (type == 0) h->GetXaxis()->SetTitle("p_{T} [GeV]");
+  else h->GetXaxis()->SetTitle("#eta");
+  h->GetYaxis()->SetTitle("efficiency");
+  h->GetYaxis()->SetTitleSize(0.07);
+  h->GetXaxis()->SetTitleSize(0.07);
+  h->GetYaxis()->SetLabelSize(0.06);
+  h->GetXaxis()->SetLabelSize(0.06);
+  h->GetYaxis()->SetLabelOffset(0.03);
+  h->GetYaxis()->SetTitleOffset(1.3);
+  h->GetXaxis()->SetTitleOffset(1.4);
+
+  h->GetYaxis()->SetNdivisions(505);
+
+  leg->SetBorderSize(0);
+  leg->SetShadowColor(0);
+  leg->SetFillColor(0);
+  leg->SetFillStyle(0);
+
+  gStyle->SetOptTitle(0);
+  gStyle->SetOptStat(0);
+  gPad->SetBottomMargin(0.2);
+  gPad->SetLeftMargin(0.2);
+
+  gPad->Modified();
+  gPad->Update();
+
+}
+
+
+void Validation(const char *inputFileElectron, const char *inputFileMuon, const char *inputFilePhoton, const char *inputFileJet, const char *inputFileBJet, const char *inputFileTauJet, const char *outputFile)
+{
+  TChain *chainElectron = new TChain("Delphes");
+  chainElectron->Add(inputFileElectron);
+  ExRootTreeReader *treeReaderElectron = new ExRootTreeReader(chainElectron);
+
+  TChain *chainMuon = new TChain("Delphes");
+  chainMuon->Add(inputFileMuon);
+  ExRootTreeReader *treeReaderMuon = new ExRootTreeReader(chainMuon);
+
+  TChain *chainPhoton = new TChain("Delphes");
+  chainPhoton->Add(inputFilePhoton);
+  ExRootTreeReader *treeReaderPhoton = new ExRootTreeReader(chainPhoton);
+
+  TChain *chainJet = new TChain("Delphes");
+  chainJet->Add(inputFileJet);
+  ExRootTreeReader *treeReaderJet = new ExRootTreeReader(chainJet);
+
+  TChain *chainBJet = new TChain("Delphes");
+  chainBJet->Add(inputFileBJet);
+  ExRootTreeReader *treeReaderBJet = new ExRootTreeReader(chainBJet);
+
+  TChain *chainTauJet = new TChain("Delphes");
+  chainTauJet->Add(inputFileTauJet);
+  ExRootTreeReader *treeReaderTauJet = new ExRootTreeReader(chainTauJet);
+
+  TClonesArray *branchParticleElectron = treeReaderElectron->UseBranch("Particle");
+  TClonesArray *branchTrackElectron = treeReaderElectron->UseBranch("Track");
+  TClonesArray *branchTowerElectron = treeReaderElectron->UseBranch("Tower");
+  TClonesArray *branchElectron = treeReaderElectron->UseBranch("Electron");
+
+  TClonesArray *branchParticleMuon = treeReaderMuon->UseBranch("Particle");
+  TClonesArray *branchTrackMuon = treeReaderMuon->UseBranch("Track");
+  TClonesArray *branchMuon = treeReaderMuon->UseBranch("Muon");
+
+  TClonesArray *branchParticlePhoton = treeReaderPhoton->UseBranch("Particle");
+  TClonesArray *branchTowerPhoton = treeReaderPhoton->UseBranch("Tower");
+  TClonesArray *branchPhoton = treeReaderPhoton->UseBranch("Photon");
+
+  TClonesArray *branchGenJet = treeReaderJet->UseBranch("GenJet");
+  TClonesArray *branchPFJet = treeReaderJet->UseBranch("Jet");
+  TClonesArray *branchCaloJet = treeReaderJet->UseBranch("CaloJet");
+
+  TClonesArray *branchParticleBJet = treeReaderBJet->UseBranch("Particle");
+  TClonesArray *branchPFBJet = treeReaderBJet->UseBranch("Jet");
+
+  TClonesArray *branchParticleTauJet = treeReaderTauJet->UseBranch("Particle");
+  TClonesArray *branchPFTauJet = treeReaderTauJet->UseBranch("Jet");
+
+  TClonesArray *branchScalarHT = treeReaderJet->UseBranch("ScalarHT");
+  TClonesArray *branchMet = treeReaderJet->UseBranch("MissingET");
+
+  ///////////////
+  // Electrons //
+  ///////////////
+
+  // Reconstruction efficiency
+  TString elecs = "Electron";
+  int elID = 11;
+  std::pair<TH1D*,TH1D*> histos_el = GetEff<Electron>(branchElectron, branchParticleElectron, "Electron", elID, treeReaderElectron);
+
+  // tracking reconstruction efficiency
+  std::pair <TH1D*,TH1D*> histos_eltrack = GetEff<Track>(branchTrackElectron, branchParticleElectron, "electronTrack", elID, treeReaderElectron);
+
+  // Tower reconstruction efficiency
+  std::pair <TH1D*,TH1D*> histos_eltower = GetEff<Tower>(branchTowerElectron, branchParticleElectron, "electronTower", elID, treeReaderElectron);
+
+  // Electron Energy Resolution
+  std::vector<resolPlot> plots_el;
+  HistogramsCollection(&plots_el, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "electrons");
+  GetEres<Electron>(&plots_el, branchElectron, branchParticleElectron, elID, treeReaderElectron);
+  TGraphErrors gr_el = EresGraph(&plots_el, true);
+  TGraphErrors gr_elFwd = EresGraph(&plots_el, false);
+  gr_el.SetName("Electron");
+  gr_elFwd.SetName("ElectronFwd");
+
+  // Electron Track Energy Resolution
+  std::vector<resolPlot> plots_eltrack;
+  HistogramsCollection(&plots_eltrack, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "electronsTracks");
+  GetEres<Track>(&plots_eltrack, branchTrackElectron, branchParticleElectron, elID, treeReaderElectron);
+  TGraphErrors gr_eltrack = EresGraph(&plots_eltrack, true);
+  TGraphErrors gr_eltrackFwd = EresGraph(&plots_eltrack, false);
+  gr_eltrack.SetName("ElectronTracks");
+  gr_eltrackFwd.SetName("ElectronTracksFwd");
+
+  // Electron Tower Energy Resolution
+  std::vector<resolPlot> plots_eltower;
+  HistogramsCollection(&plots_eltower, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "electronsTower");
+  GetEres<Tower>(&plots_eltower, branchTowerElectron, branchParticleElectron, elID, treeReaderElectron);
+  TGraphErrors gr_eltower = EresGraph(&plots_eltower, true);
+  TGraphErrors gr_eltowerFwd = EresGraph(&plots_eltower, false);
+  gr_eltower.SetName("ElectronTower");
+  gr_eltrackFwd.SetName("ElectronTracksFwd");
+
+  // Canvases
+  TString elEff = "electronEff";
+  TCanvas *C_el1 = new TCanvas(elEff,elEff, 1600, 600);
+  C_el1->Divide(2);
+  C_el1->cd(1);
+  TLegend *leg_el1 = new TLegend(effLegXmin,effLegYmin,effLegXmax,effLegYmax);
+  leg_el1->SetHeader("#splitline{electrons}{|#eta| < 1.5}");
+  leg_el1->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_eltrack.first->Draw("][");
+  addHist(histos_eltrack.first, leg_el1, 2);
+  histos_el.first->Draw("same ][");
+  addHist(histos_el.first, leg_el1, 1);
+  DrawAxis(histos_eltrack.first, leg_el1, 0);
+
+  leg_el1->Draw();
+
+  C_el1->cd(2);
+  TLegend *leg_el2 = new TLegend(effLegXmin,effLegYmin,effLegXmax,effLegYmax);
+  leg_el2->SetHeader("#splitline{electrons}{1.5 < |#eta| < 2.5}");
+  leg_el2->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_eltrack.second->Draw("][");
+  addHist(histos_eltrack.second, leg_el2, 2);
+  histos_el.second->Draw("same ][");
+  addHist(histos_el.second, leg_el2, 1);
+
+  DrawAxis(histos_eltrack.second, leg_el2, 0);
+  leg_el2->Draw();
+
+  C_el1->cd(0);
+
+  TString elRes = "electronERes";
+  TString elResFwd = "electronEResForward";
+  TCanvas *C_el2 = new TCanvas(elRes,elRes, 1600, 600);
+  C_el2->Divide(2);
+  C_el2->cd(1);
+  TMultiGraph *mg_el = new TMultiGraph(elRes,elRes);
+  TLegend *leg_el = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_el->SetHeader("#splitline{electrons}{|#eta| < 1.5}");
+  leg_el->AddEntry("","","");
+
+  addGraph(mg_el, &gr_eltower, leg_el, 3);
+  addGraph(mg_el, &gr_eltrack, leg_el, 2);
+  addGraph(mg_el, &gr_el, leg_el, 1);
+
+  mg_el->Draw("ACX");
+  leg_el->Draw();
+
+  DrawAxis(mg_el, leg_el, 0.1);
+
+  C_el2->cd(2);
+  TMultiGraph *mg_elFwd = new TMultiGraph(elResFwd,elResFwd);
+  TLegend *leg_elFwd = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_elFwd->SetHeader("#splitline{electrons}{1.5 < |#eta| < 2.5}");
+  leg_elFwd->AddEntry("","","");
+
+  addGraph(mg_elFwd, &gr_eltowerFwd, leg_elFwd, 3);
+  addGraph(mg_elFwd, &gr_eltrackFwd, leg_elFwd, 2);
+  addGraph(mg_elFwd, &gr_elFwd, leg_elFwd, 1);
+
+  mg_elFwd->Draw("ACX");
+  leg_elFwd->Draw();
+
+  DrawAxis(mg_elFwd, leg_elFwd, 0.2);
+
+  C_el1->Print("validation.pdf(","pdf");
+  C_el2->Print("validation.pdf","pdf");
+
+  gDirectory->cd(0);
+
+  ///////////
+  // Muons //
+  ///////////
+
+  // Reconstruction efficiency
+  int muID = 13;
+  std::pair<TH1D*,TH1D*> histos_mu = GetEff<Muon>(branchMuon, branchParticleMuon,"Muon", muID, treeReaderMuon);
+
+  // muon tracking reconstruction efficiency
+  std::pair <TH1D*,TH1D*> histos_mutrack = GetEff<Track>(branchTrackMuon, branchParticleMuon, "muonTrack", muID, treeReaderMuon);
+
+  // Muon Energy Resolution
+  std::vector<resolPlot> plots_mu;
+  HistogramsCollection(&plots_mu, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "muons");
+  GetEres<Muon>(&plots_mu, branchMuon, branchParticleMuon, muID, treeReaderMuon);
+  TGraphErrors gr_mu = EresGraph(&plots_mu, true);
+  TGraphErrors gr_muFwd = EresGraph(&plots_mu, false);
+  gr_mu.SetName("Muon");
+  gr_muFwd.SetName("MuonFwd");
+
+  // Muon Track Energy Resolution
+  std::vector<resolPlot> plots_mutrack;
+  HistogramsCollection(&plots_mutrack, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "muonsTracks");
+  GetEres<Track>(&plots_mutrack, branchTrackMuon, branchParticleMuon, muID, treeReaderMuon);
+  TGraphErrors gr_mutrack = EresGraph(&plots_mutrack, true);
+  TGraphErrors gr_mutrackFwd = EresGraph(&plots_mutrack, false);
+  gr_mutrackFwd.SetName("MuonTracksFwd");
+
+  // Canvas
+
+  TString muEff = "muonEff";
+  TCanvas *C_mu1 = new TCanvas(muEff,muEff, 1600, 600);
+  C_mu1->Divide(2);
+  C_mu1->cd(1);
+  TLegend *leg_mu1 = new TLegend(effLegXmin,effLegYmin,effLegXmax,effLegYmax);
+  leg_mu1->SetHeader("#splitline{muons}{|#eta| < 1.5}");
+  leg_mu1->AddEntry("","","");
+
+
+  gPad->SetLogx();
+  histos_mutrack.first->Draw("][");
+  addHist(histos_mutrack.first, leg_mu1, 2);
+  histos_mu.first->Draw("same ][");
+  addHist(histos_mu.first, leg_mu1, 1);
+
+  DrawAxis(histos_mutrack.first, leg_mu1, 0);
+
+  leg_mu1->Draw();
+
+  C_mu1->cd(2);
+  TLegend *leg_mu2 = new TLegend(effLegXmin,effLegYmin,effLegXmax,effLegYmax);
+  leg_mu2->SetHeader("#splitline{muons}{1.5 < |#eta| < 2.5}");
+  leg_mu2->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_mutrack.second->Draw("][");
+  addHist(histos_mutrack.second, leg_mu2, 2);
+  histos_mu.second->Draw("same ][");
+  addHist(histos_mu.second, leg_mu2, 1);
+
+  DrawAxis(histos_mutrack.second, leg_mu2, 1);
+  leg_mu2->Draw();
+
+  TString muRes = "muonERes";
+  TString muResFwd = "muonEResFwd";
+
+  TCanvas *C_mu = new TCanvas(muRes,muRes, 1600, 600);
+  C_mu->Divide(2);
+  C_mu->cd(1);
+  TMultiGraph *mg_mu = new TMultiGraph(muRes,muRes);
+  TLegend *leg_mu = new TLegend(topLeftLegXmin,topLeftLegYmin,topLeftLegXmax,topLeftLegYmax);
+  leg_mu->SetHeader("#splitline{muons}{|#eta| < 1.5}");
+  leg_mu->AddEntry("","","");
+
+  addGraph(mg_mu, &gr_mutrack, leg_mu, 2);
+  addGraph(mg_mu, &gr_mu, leg_mu, 1);
+
+  mg_mu->Draw("ACX");
+  leg_mu->Draw();
+
+  DrawAxis(mg_mu, leg_mu, 0.3);
+
+  C_mu->cd(2);
+  TMultiGraph *mg_muFwd = new TMultiGraph(muResFwd,muResFwd);
+  TLegend *leg_muFwd = new TLegend(topLeftLegXmin,topLeftLegYmin,topLeftLegXmax,topLeftLegYmax);
+  leg_muFwd->SetHeader("#splitline{muons}{1.5 < |#eta| < 2.5}");
+  leg_muFwd->AddEntry("","","");
+
+  addGraph(mg_muFwd, &gr_mutrackFwd, leg_muFwd, 2);
+  addGraph(mg_muFwd, &gr_muFwd, leg_muFwd, 1);
+
+  mg_muFwd->Draw("ACX");
+  leg_muFwd->Draw();
+
+  DrawAxis(mg_muFwd, leg_muFwd, 0.3);
+
+  //C_mu1->SaveAs(muEff+".eps");
+  //C_mu->SaveAs(muRes+".eps");
+
+  C_mu1->Print("validation.pdf","pdf");
+  C_mu->Print("validation.pdf","pdf");
+
+  gDirectory->cd(0);
+
+  /////////////
+  // Photons //
+  /////////////
+
+  // Reconstruction efficiency
+  int phID = 22;
+  std::pair<TH1D*,TH1D*> histos_ph = GetEff<Electron>(branchPhoton, branchParticlePhoton, "Photon", phID, treeReaderPhoton);
+  std::pair<TH1D*,TH1D*> histos_phtower = GetEff<Electron>(branchTowerPhoton, branchParticlePhoton, "Photon", phID, treeReaderPhoton);
+
+  // Photon Energy Resolution
+  std::vector<resolPlot> plots_ph;
+  HistogramsCollection(&plots_ph, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "photons");
+  GetEres<Photon>(&plots_ph, branchPhoton, branchParticlePhoton, phID, treeReaderPhoton);
+  TGraphErrors gr_ph = EresGraph(&plots_ph, true);
+  TGraphErrors gr_phFwd = EresGraph(&plots_ph, false);
+  gr_ph.SetName("Photon");
+  gr_phFwd.SetName("PhotonFwd");
+
+
+  // Photon Tower Energy Resolution
+  std::vector<resolPlot> plots_phtower;
+  HistogramsCollection(&plots_phtower, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "photonsTower");
+  GetEres<Tower>(&plots_phtower, branchTowerPhoton, branchParticlePhoton, phID, treeReaderPhoton);
+  TGraphErrors gr_phtower = EresGraph(&plots_phtower, true);
+  TGraphErrors gr_phtowerFwd = EresGraph(&plots_phtower, false);
+  gr_phtower.SetName("PhotonTower");
+  gr_phtowerFwd.SetName("PhotonTowerFwd");
+
+  // Canvas
+
+  TString phEff = "photonEff";
+  TCanvas *C_ph1 = new TCanvas(phEff,phEff, 1600, 600);
+  C_ph1->Divide(2);
+  C_ph1->cd(1);
+  TLegend *leg_ph1 = new TLegend(effLegXmin,effLegYmin,effLegXmax,effLegYmax);
+  leg_ph1->SetHeader("#splitline{photons}{|#eta| < 1.5}");
+  leg_ph1->AddEntry("","","");
+
+
+  gPad->SetLogx();
+  histos_phtower.first->Draw("][");
+  addHist(histos_phtower.first, leg_ph1, 3);
+  histos_ph.first->Draw("same ][");
+  addHist(histos_ph.first, leg_ph1, 1);
+
+  DrawAxis(histos_phtower.first, leg_ph1, 0);
+  leg_ph1->Draw();
+
+  C_ph1->cd(2);
+  TLegend *leg_ph2 = new TLegend(effLegXmin,effLegYmin,effLegXmax,effLegYmax);
+  leg_ph2->SetHeader("#splitline{photons}{1.5 < |#eta| < 2.5}");
+  leg_ph2->AddEntry("","","");
+
+
+  gPad->SetLogx();
+  histos_phtower.second->Draw("][");
+  addHist(histos_phtower.second, leg_ph2, 3);
+  histos_ph.second->Draw("same ][");
+  addHist(histos_ph.second, leg_ph2, 1);
+
+  DrawAxis(histos_phtower.second, leg_ph2, 1);
+  leg_ph2->Draw();
+
+  C_ph1->SaveAs(phEff+".eps");
+
+  TString phRes = "phERes";
+  TString phResFwd = "phEResFwd";
+
+  TCanvas *C_ph = new TCanvas(phRes,phRes, 1600, 600);
+  C_ph->Divide(2);
+  C_ph->cd(1);
+  TMultiGraph *mg_ph = new TMultiGraph(phRes,phRes);
+  TLegend *leg_ph = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_ph->SetHeader("#splitline{photons}{|#eta| < 1.5}");
+  leg_ph->AddEntry("","","");
+
+  addGraph(mg_ph, &gr_phtower, leg_ph, 3);
+  addGraph(mg_ph, &gr_ph, leg_ph, 1);
+
+  mg_ph->Draw("ACX");
+  leg_ph->Draw();
+
+  DrawAxis(mg_ph, leg_ph, 0.3);
+
+  C_ph->cd(2);
+  TMultiGraph *mg_phFwd = new TMultiGraph(phResFwd,phResFwd);
+  TLegend *leg_phFwd = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_phFwd->SetHeader("#splitline{photons}{1.5 < |#eta| < 2.5}");
+  leg_phFwd->AddEntry("","","");
+
+  addGraph(mg_phFwd, &gr_phtowerFwd, leg_phFwd, 3);
+  addGraph(mg_phFwd, &gr_phFwd, leg_phFwd, 1);
+
+  mg_phFwd->Draw("ACX");
+  leg_phFwd->Draw();
+
+  DrawAxis(mg_phFwd, leg_phFwd, 0.3);
+
+  C_ph->SaveAs(phRes+".eps");
+
+  C_ph1->Print("validation.pdf","pdf");
+  C_ph->Print("validation.pdf","pdf");
+
+  gDirectory->cd(0);
+
+  //////////
+  // Jets //
+  //////////
+
+  // BJets Reconstruction efficiency
+  int bID = 5;
+  std::pair<TH1D*,TH1D*> histos_btag = GetEff<Jet>(branchPFBJet, branchParticleBJet,"BTag", bID, treeReaderBJet);
+
+  // TauJets Reconstruction efficiency
+  int tauID = 15;
+  std::pair<TH1D*,TH1D*> histos_tautag = GetEff<Jet>(branchPFTauJet, branchParticleTauJet,"TauTag", tauID, treeReaderTauJet);
+
+  // PFJets Energy Resolution
+  std::vector<resolPlot> plots_pfjets;
+  HistogramsCollection(&plots_pfjets, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "PFJet");
+  GetJetsEres(&plots_pfjets, branchPFJet, branchGenJet, treeReaderJet);
+  TGraphErrors gr_pfjets = EresGraph(&plots_pfjets, true);
+  TGraphErrors gr_pfjetsFwd = EresGraph(&plots_pfjets, false);
+  gr_pfjets.SetName("pfJet");
+  gr_pfjetsFwd.SetName("pfJetFwd");
+
+  // CaloJets Energy Resolution
+  std::vector<resolPlot> plots_calojets;
+  HistogramsCollection(&plots_calojets, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "CaloJet");
+  GetJetsEres(&plots_calojets, branchCaloJet, branchGenJet, treeReaderJet);
+  TGraphErrors gr_calojets = EresGraph(&plots_calojets, true);
+  TGraphErrors gr_calojetsFwd = EresGraph(&plots_calojets, false);
+  gr_calojets.SetName("caloJet");
+  gr_calojetsFwd.SetName("caloJetFwd");
+
+  // MET Resolution vs HT
+  std::vector<resolPlot> plots_met;
+  HistogramsCollection(&plots_met, TMath::Log10(ptrangemin), TMath::Log10(ptrangemax), "MET", -500, 500);
+  GetMetres(&plots_met, branchScalarHT, branchMet, branchPFJet, treeReaderJet);
+  TGraphErrors gr_met = EresGraph(&plots_met, true);
+  gr_calojets.SetName("MET");
+
+  // Canvas
+  TString btagEff = "btagEff";
+  TCanvas *C_btag1 = new TCanvas(btagEff,btagEff, 1600, 600);
+  C_btag1->Divide(2);
+  C_btag1->cd(1);
+  TLegend *leg_btag1 = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_btag1->SetHeader("#splitline{B-tagging}{|#eta| < 1.5}");
+  leg_btag1->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_btag.first->Draw();
+  addHist(histos_btag.first, leg_btag1, 0);
+
+  DrawAxis(histos_btag.first, leg_btag1, 0);
+  leg_btag1->Draw();
+
+  C_btag1->cd(2);
+  TLegend *leg_btag2 = new TLegend(resLegXmin,resLegYmin,resLegXmax+0.05,resLegYmax);
+  leg_btag2->SetHeader("#splitline{B-tagging}{1.5 < |#eta| < 2.5}");
+  leg_btag2->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_btag.second->Draw();
+  addHist(histos_btag.second, leg_btag2, 0);
+
+  DrawAxis(histos_btag.second, leg_btag2, 0);
+  leg_btag2->Draw();
+  C_btag1->cd(0);
+
+  TString tautagEff = "tautagEff";
+  TCanvas *C_tautag1 = new TCanvas(tautagEff,tautagEff, 1600, 600);
+  C_tautag1->Divide(2);
+  C_tautag1->cd(1);
+  TLegend *leg_tautag1 = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_tautag1->SetHeader("#splitline{#tau-tagging}{|#eta| < 1.5}");
+  leg_tautag1->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_tautag.first->Draw();
+  addHist(histos_tautag.first, leg_tautag1, 0);
+
+  DrawAxis(histos_tautag.first, leg_tautag1, 0);
+  leg_tautag1->Draw();
+
+  C_tautag1->cd(2);
+  TLegend *leg_tautag2 = new TLegend(resLegXmin,resLegYmin,resLegXmax+0.05,resLegYmax);
+  leg_tautag2->SetHeader("#splitline{#tau-tagging}{1.5 < |#eta| < 2.5}");
+  leg_tautag2->AddEntry("","","");
+
+  gPad->SetLogx();
+  histos_tautag.second->Draw();
+  addHist(histos_tautag.second, leg_tautag2, 0);
+
+  DrawAxis(histos_tautag.second, leg_tautag2, 0);
+  leg_tautag2->Draw();
+  C_tautag1->cd(0);
+
+  TString jetRes = "jetERes";
+  TString jetResFwd = "jetEResFwd";
+  TCanvas *C_jet = new TCanvas(jetRes,jetRes, 1600, 600);
+  C_jet->Divide(2);
+
+  C_jet->cd(1);
+  TMultiGraph *mg_jet = new TMultiGraph(jetRes,jetRes);
+  TLegend *leg_jet = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_jet->SetHeader("#splitline{jets}{|#eta| < 1.5}");
+  leg_jet->AddEntry("","","");
+
+  addGraph(mg_jet, &gr_calojets, leg_jet, 3);
+  addGraph(mg_jet, &gr_pfjets, leg_jet, 1);
+
+  mg_jet->Draw("ACX");
+  leg_jet->Draw();
+
+  DrawAxis(mg_jet, leg_jet, 0.25);
+
+  C_jet->cd(2);
+  TMultiGraph *mg_jetFwd = new TMultiGraph(jetResFwd,jetResFwd);
+  TLegend *leg_jetFwd = new TLegend(resLegXmin,resLegYmin,resLegXmax,resLegYmax);
+  leg_jetFwd->SetHeader("#splitline{jets}{|#eta| < 1.5}");
+  leg_jetFwd->AddEntry("","","");
+
+  addGraph(mg_jetFwd, &gr_calojetsFwd, leg_jetFwd, 3);
+  addGraph(mg_jetFwd, &gr_pfjetsFwd, leg_jetFwd, 1);
+
+  mg_jetFwd->Draw("ACX");
+  leg_jetFwd->Draw();
+
+  DrawAxis(mg_jetFwd, leg_jetFwd, 0.25);
+
+  C_btag1->SaveAs(btagEff+".eps");
+  C_jet->SaveAs(jetRes+".eps");
+
+  TString metRes = "MetRes";
+  TCanvas *C_met = new TCanvas(metRes,metRes, 800, 600);
+
+  TMultiGraph *mg_met = new TMultiGraph(metRes,metRes);
+  TLegend *leg_met = new TLegend(topLeftLegXmin,topLeftLegYmin+0.2,topLeftLegXmax-0.2,topLeftLegYmax);
+  leg_met->SetHeader("E_{T}^{miss}");
+  leg_met->AddEntry("","","");
+
+
+  addGraph(mg_met, &gr_met, leg_met, 0);
+
+  mg_met->Draw("ACX");
+  leg_met->Draw();
+
+  DrawAxis(mg_met, leg_met, 300);
+
+  mg_met->GetXaxis()->SetTitle("H_{T} [GeV]");
+  mg_met->GetYaxis()->SetTitle("#sigma(ME_{x}) [GeV]");
+
+  C_met->SaveAs(metRes+".eps");
+
+  C_jet->Print("validation.pdf","pdf");
+  C_btag1->Print("validation.pdf","pdf");
+  C_tautag1->Print("validation.pdf","pdf");
+  C_met->Print("validation.pdf)","pdf");
+
+  TFile *fout = new TFile(outputFile,"recreate");
+
+  for (int bin = 0; bin < Nbins; bin++)
+  {
+    plots_el.at(bin).cenResolHist->Write();
+    plots_eltrack.at(bin).cenResolHist->Write();
+    plots_eltower.at(bin).cenResolHist->Write();
+    plots_el.at(bin).fwdResolHist->Write();
+    plots_eltrack.at(bin).fwdResolHist->Write();
+    plots_eltower.at(bin).fwdResolHist->Write();
+  }
+
+  histos_el.first->Write();
+  histos_el.second->Write();
+  histos_eltrack.first->Write();
+  histos_eltrack.second->Write();
+  histos_eltower.first->Write();
+  histos_eltower.second->Write();
+  C_el1->Write();
+  C_el2->Write();
+
+  histos_mu.first->Write();
+  histos_mu.second->Write();
+  histos_mutrack.first->Write();
+  histos_mutrack.second->Write();
+  C_mu1->Write();
+  C_mu->Write();
+
+  histos_ph.first->Write();
+  histos_ph.second->Write();
+  C_ph1->Write();
+  C_ph->Write();
+
+  for (int bin = 0; bin < Nbins; bin++)
+  {
+    plots_pfjets.at(bin).cenResolHist->Write();
+    plots_pfjets.at(bin).fwdResolHist->Write();
+    plots_calojets.at(bin).cenResolHist->Write();
+    plots_calojets.at(bin).fwdResolHist->Write();
+    plots_met.at(bin).cenResolHist->Write();
+  }
+  histos_btag.first->Write();
+  histos_btag.second->Write();
+  histos_tautag.first->Write();
+  histos_tautag.second->Write();
+  C_btag1->Write();
+  C_tautag1->Write();
+  C_jet->Write();
+  C_met->Write();
+
+  fout->Write();
+
+  cout << "** Exiting..." << endl;
+
+  delete treeReaderElectron;
+  delete treeReaderMuon;
+  delete treeReaderPhoton;
+  delete treeReaderJet;
+  delete treeReaderBJet;
+  delete treeReaderTauJet;
+  delete chainElectron;
+  delete chainMuon;
+  delete chainPhoton;
+  delete chainJet;
+  delete chainBJet;
+  delete chainTauJet;
+}
 
 //------------------------------------------------------------------------------
@@ -59 +1278 @@
   if(argc != 3)
   {
-    cout << " Usage: " << appName << " input_file output_file" << endl;
-    cout << " input_file  - input file in ROOT format ('Delphes' tree)," << endl;
+    cout << " Usage: " << appName << " input_file_electron input_file_muon input_file_photon input_file_jet input_file_bjet input_file_taujet output_file" << endl;
+    cout << " input_file_electron  - input file in ROOT format ('Delphes' tree)," << endl;
+    cout << " input_file_muon - input file in ROOT format ('Delphes' tree)," << endl;
+    cout << " input_file_photon - input file in ROOT format ('Delphes' tree)," << endl;
+    cout << " input_file_jet - input file in ROOT format ('Delphes' tree)," << endl;
+    cout << " input_file_bjet - input file in ROOT format ('Delphes' tree)," << endl;
+    cout << " input_file_taujet - input file in ROOT format ('Delphes' tree)," << endl;
     cout << " output_file - output file in ROOT format" << endl;
     return 1;
@@ -71 +1295 @@
   TApplication app(appName, &appargc, appargv);
 
-  TString inputFile(argv[1]);
-  TString outputFile(argv[2]);
-
-
-//------------------------------------------------------------------------------
-// Here you call your macro's main function
-
-  Validation(inputFile, outputFile);
-
-//------------------------------------------------------------------------------
-
-}
-
-
+  Validation(argv[1], argv[2], argv[3], argv[4], argv[5], argv[6], argv[7]);
+}
+
+