MultivariateAnalysis/root/TreeReader.C

#include <fstream>
#include <iomanip>
#include <iostream>
#include <string.h>
#include <fstream>

#include <TFile.h>
#include <TH1.h>
#include <TTree.h>
#include <TCanvas.h>
#include <TF1.h>
#include <TStyle.h>

int TreeReader(char *infile = "temp.root")
{

  TFile *outf = new TFile("Ntuple_goodglobalmuon.root","RECREATE");
  // TH1D * hEt3;
   TH1D * hlepton_calo_iso = new TH1D( "hlepton_calo_iso", "lepton calo iso", 120, 0., 120.);
   TH1D * hlepton_track_iso = new TH1D( "hlepton_track_iso", "lepton track iso", 120, 0., 120.);
   // TH1 * hmuon_isGood_AllGlobalMuons = new TH1( "hmuon_isGood_AllGlobalMuons", "muon isGood AllGlobalMuons", 120, 0., 120.);
   //TH1 * hmuon_isGood_AllStandAloneMuons = new TH1( "hmuon_isGood_AllStandAloneMuons", "muon isGood AllStandAloneMuons", 120, 0., 120.);


   TH1D * hMt = new TH1D( "hMt", "Mt 3 (all) ", 100, 0., 90.); 
   TH1D * hMt_rel_iso = new TH1D( "hMt_rel_iso", "Mt 3 (relative iso)", 100, 0., 90.); 
   TH1D * hMt_trk = new TH1D( "hMt_trk", "Mt 3 (track & calo iso)", 100, 0., 90.); 
   TH1D * hMt_rel_iso_rev = new TH1D( "hMt_rel_iso_rev", "Mt 3 (relative iso reversed)", 100, 0., 90.); 
   TH1D * hMt_trk_rev = new TH1D( "hMt_trk_rev", "Mt 3 (track & calo iso reversed)", 100, 0., 90.); 
   TH1D * hMt_goodmuon = new TH1D( "hMt_goodmuon", "Mt 3 (good Global Muon)", 100, 0., 90.); 
   TH1D * hMt_goodmuon_rev = new TH1D( "hMt_goodmuon_rev", "Mt 3 (good Global Muon reversed)", 100, 0., 90.); 
   
 
   TH1D * hgetHt3 = new TH1D( "hgetHt3", "Ht3 (all) ", 100, 0., 900.); 
   TH1D * hgetHt3_rel_iso = new TH1D( "hgetHt3_rel_iso", "Ht3 (relative iso)", 100, 0., 900.); 
   TH1D * hgetHt3_trk = new TH1D( "hgetHt3_trk", "Ht3 (track & calo iso)", 100, 0., 900.); 
   TH1D * hgetHt3_rel_iso_rev = new TH1D( "hgetHt3_rel_iso_rev", "Ht3 (relative iso reversed)", 100, 0., 900.); 
   TH1D * hgetHt3_trk_rev = new TH1D( "hgetHt3_trk_rev", "Ht3 (track & calo iso reversed)", 100, 0., 900.);    
   TH1D * hgetHt3_goodmuon = new TH1D( "hgetHt3_goodmuon", "Ht3 (good Global muon )", 100, 0., 900.); 
   TH1D * hgetHt3_goodmuon_rev = new TH1D( "hgetHt3_goodmuon_rev", "Ht3 (good Global muon reversed)", 100, 0., 900.); 

   TH1D * hktMinPrime = new TH1D( "hktMinPrime", "ktMinPrime (all) ", 100, 0., 25.); 
   TH1D * hktMinPrime_rel_iso = new TH1D( "hktMinPrime_rel_iso", "ktMinPrime (relative iso)", 100, 0., 25.); 
   TH1D * hktMinPrime_trk = new TH1D( "hktMinPrime_trk", "ktMinPrime (track & calo iso)", 100, 0., 25.); 
   TH1D * hktMinPrime_rel_iso_rev= new TH1D( "hktMinPrime_rel_iso_rev", "ktMinPrime (relative iso reversed)", 100, 0., 25.); 
   TH1D * hktMinPrime_trk_rev = new TH1D( "hktMinPrime_trk_rev", "ktMinPrime (track & calo iso reversed)", 100, 0., 25.);
   TH1D * hktMinPrime_goodmuon = new TH1D( "hktMinPrime_goodmuon", "ktMinPrime (Good Global muon)", 100, 0., 25.); 
   TH1D * hktMinPrime_goodmuon_rev = new TH1D( "hktMinPrime_goodmuon_rev", "ktMinPrime (Good Global muon reversed)", 100, 0., 25.);
   
   TH1D * hht2p = new TH1D( "hht2p", "ht2p (all) ", 100, 0., 4.); 
   TH1D * hht2p_rel_iso = new TH1D( "hht2p_rel_iso", "ht2p (relative iso)", 100, 0., 4.); 
   TH1D * hht2p_trk = new TH1D( "hht2p_trk", "ht2p (track & calo iso)", 100, 0., 4.); 
   TH1D * hht2p_rel_iso_rev = new TH1D( "hht2p_rel_iso_rev", "ht2p (relative iso reversed)", 100, 0., 4.); 
   TH1D * hht2p_trk_rev = new TH1D( "hht2p_trk_rev", "ht2p (track & calo iso reversed)", 100, 0., 4.); 
   TH1D * hht2p_goodmuon = new TH1D( "hht2p_goodmuon", "ht2p (good global muon )", 100, 0., 4.); 
   TH1D * hht2p_goodmuon_rev = new TH1D( "hht2p_goodmuon_rev", "ht2p (good global muon reversed)", 100, 0., 4.); 

   TH1D * hDphiJMET = new TH1D( "hDphiJMET", "DphiJMET (all) ", 100, 0., 3.5); 
   TH1D * hDphiJMET_rel_iso = new TH1D( "hDphiJMET_rel_iso", "DphiJMET (relative iso)", 100, 0., 3.5); 
   TH1D * hDphiJMET_trk = new TH1D( "hDphiJMET_trk", "DphiJMET (track & calo iso)", 100, 0., 3.5); 
   TH1D * hDphiJMET_rel_iso_rev = new TH1D( "hDphiJMET_rel_iso_rev", "DphiJMET (relative iso reveresed)", 100, 0., 3.5); 
   TH1D * hDphiJMET_trk_rev = new TH1D( "hDphiJMET_trk_rev", "DphiJMET (track & calo iso reversed)", 100, 0., 3.5); 
   TH1D * hDphiJMET_goodmuon = new TH1D( "hDphiJMET_goodmuon", "DphiJMET (good global muon )", 100, 0., 3.5); 
   TH1D * hDphiJMET_goodmuon_rev = new TH1D( "hDphiJMET_goodmuon_rev", "DphiJMET (good global muon reveresed)", 100, 0., 3.5); 

   TH1D * haplanarity = new TH1D( "haplanarity", "aplanarity (all) ", 100, 0., 0.5); 
   TH1D * haplanarity_rel_iso = new TH1D( "haplanarity_rel_iso", "aplanarity (relative iso)", 100, 0., 0.5); 
   TH1D * haplanarity_trk = new TH1D( "haplanarity_trk", "aplanarity (track & calo iso)", 100, 0., 0.5); 
   TH1D * haplanarity_rel_iso_rev = new TH1D( "haplanarity_rel_iso_rev", "aplanarity (relative iso reversed)", 100, 0., 0.5); 
   TH1D * haplanarity_trk_rev = new TH1D( "haplanarity_trk_rev", "aplanarity (track & calo iso reversed)", 100, 0., 0.5); 
   TH1D * haplanarity_goodmuon = new TH1D( "haplanarity_goodmuon", "aplanarity (good global muon )", 100, 0., 0.5); 
   TH1D * haplanarity_goodmuon_rev = new TH1D( "haplanarity_goodmuon_rev", "aplanarity (good global muon reversed)", 100, 0., 0.5); 

   TH1D * hhtPlusLepton = new TH1D( "hhtPlusLepton", "htPlusLepton (all) ", 100, 0., 20000.); 
   TH1D * hhtPlusLepton_rel_iso = new TH1D( "hhtPlusLepton_rel_iso", "htPlusLepton (relative iso)", 100, 0., 20000.); 
   TH1D * hhtPlusLepton_trk = new TH1D( "hhtPlusLepton_trk", "htPlusLepton (track & calo iso)", 100, 0., 20000.); 
   TH1D * hhtPlusLepton_rel_iso_rev = new TH1D( "hhtPlusLepton_rel_iso_rev", "htPlusLepton (relative iso reversed)", 100, 0., 20000.); 
   TH1D * hhtPlusLepton_trk_rev = new TH1D( "hhtPlusLepton_trk_rev", "htPlusLepton (track & calo iso reversed)", 100, 0., 20000.); 
   TH1D * hhtPlusLepton_goodmuon = new TH1D( "hhtPlusLepton_goodmuon", "htPlusLepton (good global muon)", 100, 0., 20000.); 
   TH1D * hhtPlusLepton_goodmuon_rev = new TH1D( "hhtPlusLepton_goodmuon_rev", "htPlusLepton (good global muon reversed)", 100, 0., 20000.); 

   TH1D * hdPhiLMet = new TH1D( "hdPhiLMet", "dPhiLMet (all) ", 100, 0., 3.5); 
   TH1D * hdPhiLMet_rel_iso = new TH1D( "hdPhiLMet_rel_iso", "dPhiLMet (relative iso)", 100, 0., 3.5); 
   TH1D * hdPhiLMet_trk = new TH1D( "hdPhiLMet_trk", "dPhiLMet (track & calo iso)", 100, 0., 3.5); 
   TH1D * hdPhiLMet_rel_iso_rev = new TH1D( "hdPhiLMet_rel_iso_rev", "dPhiLMet (relative iso reversed)", 100, 0., 3.5); 
   TH1D * hdPhiLMet_trk_rev = new TH1D( "hdPhiLMet_trk_rev", "dPhiLMet (track & calo iso reversed)", 100, 0., 3.5); 
   TH1D * hdPhiLMet_goodmuon = new TH1D( "hdPhiLMet_goodmuon", "dPhiLMet (good global muon )", 100, 0., 3.5); 
   TH1D * hdPhiLMet_goodmuon_rev = new TH1D( "hdPhiLMet_goodmuon_rev", "dPhiLMet (good global muon reversed)", 100, 0., 3.5); 

   TFile *fin = TFile::Open(infile);
   TTree * t1 = (TTree*)fin->Get("qcd");
  
  Double_t Mt, lepton_track_iso, lepton_calo_iso;
  Double_t getHt3, ktMinPrime, ht2p,aplanarity, htPlusLepton,dPhiLMet,DphiJMET,lepton_pt;
  Bool_t muon_isGood_AllGlobalMuons,muon_isGood_AllStandAloneMuons;
  
  t1->SetBranchAddress("getMt",&Mt);  
  t1->SetBranchAddress("lepton_track_iso",&lepton_track_iso);
  t1->SetBranchAddress("lepton_calo_iso",&lepton_calo_iso);
  t1->SetBranchAddress("getHt3",&getHt3);
  t1->SetBranchAddress("ktMinPrime",&ktMinPrime);
  t1->SetBranchAddress("ht2p",&ht2p);
  t1->SetBranchAddress("aplanarity",&aplanarity);
  t1->SetBranchAddress("htPlusLepton",&htPlusLepton);
  t1->SetBranchAddress("dPhiLMet",&dPhiLMet);
  t1->SetBranchAddress("DphiJMET",&DphiJMET);
  t1->SetBranchAddress("muon_isGood_AllGlobalMuons",&muon_isGood_AllGlobalMuons);
  t1->SetBranchAddress("muon_isGood_AllStandAloneMuons",&muon_isGood_AllStandAloneMuons);
  t1->SetBranchAddress("lepton_pt",&lepton_pt);  


  Int_t n_gen = (Int_t)t1->GetEntries();
  cout<<"No of entries from trees "<<n_gen<<endl;

  for(Int_t i=0; i<n_gen; i++){
    t1->GetEntry(i);
    
    hMt->Fill(Mt);  
    hgetHt3->Fill(getHt3);
        hktMinPrime->Fill(ktMinPrime);
        hht2p->Fill(ht2p);
        hDphiJMET->Fill(DphiJMET);
        haplanarity->Fill(aplanarity);
        hhtPlusLepton->Fill(htPlusLepton);
        hdPhiLMet->Fill(dPhiLMet);
        
        if(1.0/(1.0+(lepton_calo_iso+lepton_track_iso)/lepton_pt) > 0.67 ){
                hMt_rel_iso->Fill(Mt);
                hgetHt3_rel_iso->Fill(getHt3);
                hktMinPrime_rel_iso->Fill(ktMinPrime);
                hht2p_rel_iso->Fill(ht2p);
                hDphiJMET_rel_iso->Fill(DphiJMET);
                haplanarity_rel_iso->Fill(aplanarity);
                hhtPlusLepton_rel_iso->Fill(htPlusLepton);
                hdPhiLMet_rel_iso->Fill(dPhiLMet);
        }
          //     hlepton_iso->Fill(lepton_calo_iso);
    if(lepton_calo_iso<7 && lepton_track_iso < 3 && muon_isGood_AllStandAloneMuons){
                hMt_trk->Fill(Mt);
                hgetHt3_trk->Fill(getHt3);
                hktMinPrime_trk->Fill(ktMinPrime);
                hht2p_trk->Fill(ht2p);
                hDphiJMET_trk->Fill(DphiJMET);
                haplanarity_trk->Fill(aplanarity);
                hhtPlusLepton_trk->Fill(htPlusLepton);
                hdPhiLMet_trk->Fill(dPhiLMet); }
    if(1.0/(1.0+(lepton_calo_iso+lepton_track_iso)/lepton_pt) < 0.67 ){
                hMt_rel_iso_rev->Fill(Mt);
                hgetHt3_rel_iso_rev->Fill(getHt3);
                hktMinPrime_rel_iso_rev->Fill(ktMinPrime);
                hht2p_rel_iso_rev->Fill(ht2p);
                hDphiJMET_rel_iso_rev->Fill(DphiJMET);
                haplanarity_rel_iso_rev->Fill(aplanarity);
                hhtPlusLepton_rel_iso_rev->Fill(htPlusLepton);
                hdPhiLMet_rel_iso_rev->Fill(dPhiLMet);
        }
          //     hlepton_iso->Fill(lepton_calo_iso);
    if(lepton_calo_iso>7 && lepton_track_iso > 3 && muon_isGood_AllStandAloneMuons){
                hMt_trk_rev->Fill(Mt);
                hgetHt3_trk_rev->Fill(getHt3);
                hktMinPrime_trk_rev->Fill(ktMinPrime);
                hht2p_trk_rev->Fill(ht2p);
                hDphiJMET_trk_rev->Fill(DphiJMET);
                haplanarity_trk_rev->Fill(aplanarity);
                hhtPlusLepton_trk_rev->Fill(htPlusLepton);
                hdPhiLMet_trk_rev->Fill(dPhiLMet); }
    if(muon_isGood_AllGlobalMuons){
                hMt_goodmuon->Fill(Mt);
                hgetHt3_goodmuon->Fill(getHt3);
                hktMinPrime_goodmuon->Fill(ktMinPrime);
                hht2p_goodmuon->Fill(ht2p);
                hDphiJMET_goodmuon->Fill(DphiJMET);
                haplanarity_goodmuon->Fill(aplanarity);
                hhtPlusLepton_goodmuon->Fill(htPlusLepton);
                hdPhiLMet_goodmuon->Fill(dPhiLMet); }
    if(!muon_isGood_AllGlobalMuons){
                hMt_goodmuon_rev->Fill(Mt);
                hgetHt3_goodmuon_rev->Fill(getHt3);
                hktMinPrime_goodmuon_rev->Fill(ktMinPrime);
                hht2p_goodmuon_rev->Fill(ht2p);
                hDphiJMET_goodmuon_rev->Fill(DphiJMET);
                haplanarity_goodmuon_rev->Fill(aplanarity);
                hhtPlusLepton_goodmuon_rev->Fill(htPlusLepton);
                hdPhiLMet_goodmuon_rev->Fill(dPhiLMet); }


  }


  outf->Write();
  outf->Close();


}
Revision:	1.1
Committed:	Wed Jan 28 04:14:16 2009 UTC (16 years, 3 months ago) by jindal
Content type:	text/plain
Branch:	MAIN
CVS Tags:	gak040209
Log Message:	adding some macros
#	User	Rev	Content
1	jindal	1.1	#include <fstream>
2			#include <iomanip>
3			#include <iostream>
4			#include <string.h>
5			#include <fstream>
6
7			#include <TFile.h>
8			#include <TH1.h>
9			#include <TTree.h>
10			#include <TCanvas.h>
11			#include <TF1.h>
12			#include <TStyle.h>
13
14			int TreeReader(char *infile = "temp.root")
15			{
16
17			TFile *outf = new TFile("Ntuple_goodglobalmuon.root","RECREATE");
18			// TH1D * hEt3;
19			TH1D * hlepton_calo_iso = new TH1D( "hlepton_calo_iso", "lepton calo iso", 120, 0., 120.);
20			TH1D * hlepton_track_iso = new TH1D( "hlepton_track_iso", "lepton track iso", 120, 0., 120.);
21			// TH1 * hmuon_isGood_AllGlobalMuons = new TH1( "hmuon_isGood_AllGlobalMuons", "muon isGood AllGlobalMuons", 120, 0., 120.);
22			//TH1 * hmuon_isGood_AllStandAloneMuons = new TH1( "hmuon_isGood_AllStandAloneMuons", "muon isGood AllStandAloneMuons", 120, 0., 120.);
23
24
25			TH1D * hMt = new TH1D( "hMt", "Mt 3 (all) ", 100, 0., 90.);
26			TH1D * hMt_rel_iso = new TH1D( "hMt_rel_iso", "Mt 3 (relative iso)", 100, 0., 90.);
27			TH1D * hMt_trk = new TH1D( "hMt_trk", "Mt 3 (track & calo iso)", 100, 0., 90.);
28			TH1D * hMt_rel_iso_rev = new TH1D( "hMt_rel_iso_rev", "Mt 3 (relative iso reversed)", 100, 0., 90.);
29			TH1D * hMt_trk_rev = new TH1D( "hMt_trk_rev", "Mt 3 (track & calo iso reversed)", 100, 0., 90.);
30			TH1D * hMt_goodmuon = new TH1D( "hMt_goodmuon", "Mt 3 (good Global Muon)", 100, 0., 90.);
31			TH1D * hMt_goodmuon_rev = new TH1D( "hMt_goodmuon_rev", "Mt 3 (good Global Muon reversed)", 100, 0., 90.);
32
33
34			TH1D * hgetHt3 = new TH1D( "hgetHt3", "Ht3 (all) ", 100, 0., 900.);
35			TH1D * hgetHt3_rel_iso = new TH1D( "hgetHt3_rel_iso", "Ht3 (relative iso)", 100, 0., 900.);
36			TH1D * hgetHt3_trk = new TH1D( "hgetHt3_trk", "Ht3 (track & calo iso)", 100, 0., 900.);
37			TH1D * hgetHt3_rel_iso_rev = new TH1D( "hgetHt3_rel_iso_rev", "Ht3 (relative iso reversed)", 100, 0., 900.);
38			TH1D * hgetHt3_trk_rev = new TH1D( "hgetHt3_trk_rev", "Ht3 (track & calo iso reversed)", 100, 0., 900.);
39			TH1D * hgetHt3_goodmuon = new TH1D( "hgetHt3_goodmuon", "Ht3 (good Global muon )", 100, 0., 900.);
40			TH1D * hgetHt3_goodmuon_rev = new TH1D( "hgetHt3_goodmuon_rev", "Ht3 (good Global muon reversed)", 100, 0., 900.);
41
42			TH1D * hktMinPrime = new TH1D( "hktMinPrime", "ktMinPrime (all) ", 100, 0., 25.);
43			TH1D * hktMinPrime_rel_iso = new TH1D( "hktMinPrime_rel_iso", "ktMinPrime (relative iso)", 100, 0., 25.);
44			TH1D * hktMinPrime_trk = new TH1D( "hktMinPrime_trk", "ktMinPrime (track & calo iso)", 100, 0., 25.);
45			TH1D * hktMinPrime_rel_iso_rev= new TH1D( "hktMinPrime_rel_iso_rev", "ktMinPrime (relative iso reversed)", 100, 0., 25.);
46			TH1D * hktMinPrime_trk_rev = new TH1D( "hktMinPrime_trk_rev", "ktMinPrime (track & calo iso reversed)", 100, 0., 25.);
47			TH1D * hktMinPrime_goodmuon = new TH1D( "hktMinPrime_goodmuon", "ktMinPrime (Good Global muon)", 100, 0., 25.);
48			TH1D * hktMinPrime_goodmuon_rev = new TH1D( "hktMinPrime_goodmuon_rev", "ktMinPrime (Good Global muon reversed)", 100, 0., 25.);
49
50			TH1D * hht2p = new TH1D( "hht2p", "ht2p (all) ", 100, 0., 4.);
51			TH1D * hht2p_rel_iso = new TH1D( "hht2p_rel_iso", "ht2p (relative iso)", 100, 0., 4.);
52			TH1D * hht2p_trk = new TH1D( "hht2p_trk", "ht2p (track & calo iso)", 100, 0., 4.);
53			TH1D * hht2p_rel_iso_rev = new TH1D( "hht2p_rel_iso_rev", "ht2p (relative iso reversed)", 100, 0., 4.);
54			TH1D * hht2p_trk_rev = new TH1D( "hht2p_trk_rev", "ht2p (track & calo iso reversed)", 100, 0., 4.);
55			TH1D * hht2p_goodmuon = new TH1D( "hht2p_goodmuon", "ht2p (good global muon )", 100, 0., 4.);
56			TH1D * hht2p_goodmuon_rev = new TH1D( "hht2p_goodmuon_rev", "ht2p (good global muon reversed)", 100, 0., 4.);
57
58			TH1D * hDphiJMET = new TH1D( "hDphiJMET", "DphiJMET (all) ", 100, 0., 3.5);
59			TH1D * hDphiJMET_rel_iso = new TH1D( "hDphiJMET_rel_iso", "DphiJMET (relative iso)", 100, 0., 3.5);
60			TH1D * hDphiJMET_trk = new TH1D( "hDphiJMET_trk", "DphiJMET (track & calo iso)", 100, 0., 3.5);
61			TH1D * hDphiJMET_rel_iso_rev = new TH1D( "hDphiJMET_rel_iso_rev", "DphiJMET (relative iso reveresed)", 100, 0., 3.5);
62			TH1D * hDphiJMET_trk_rev = new TH1D( "hDphiJMET_trk_rev", "DphiJMET (track & calo iso reversed)", 100, 0., 3.5);
63			TH1D * hDphiJMET_goodmuon = new TH1D( "hDphiJMET_goodmuon", "DphiJMET (good global muon )", 100, 0., 3.5);
64			TH1D * hDphiJMET_goodmuon_rev = new TH1D( "hDphiJMET_goodmuon_rev", "DphiJMET (good global muon reveresed)", 100, 0., 3.5);
65
66			TH1D * haplanarity = new TH1D( "haplanarity", "aplanarity (all) ", 100, 0., 0.5);
67			TH1D * haplanarity_rel_iso = new TH1D( "haplanarity_rel_iso", "aplanarity (relative iso)", 100, 0., 0.5);
68			TH1D * haplanarity_trk = new TH1D( "haplanarity_trk", "aplanarity (track & calo iso)", 100, 0., 0.5);
69			TH1D * haplanarity_rel_iso_rev = new TH1D( "haplanarity_rel_iso_rev", "aplanarity (relative iso reversed)", 100, 0., 0.5);
70			TH1D * haplanarity_trk_rev = new TH1D( "haplanarity_trk_rev", "aplanarity (track & calo iso reversed)", 100, 0., 0.5);
71			TH1D * haplanarity_goodmuon = new TH1D( "haplanarity_goodmuon", "aplanarity (good global muon )", 100, 0., 0.5);
72			TH1D * haplanarity_goodmuon_rev = new TH1D( "haplanarity_goodmuon_rev", "aplanarity (good global muon reversed)", 100, 0., 0.5);
73
74			TH1D * hhtPlusLepton = new TH1D( "hhtPlusLepton", "htPlusLepton (all) ", 100, 0., 20000.);
75			TH1D * hhtPlusLepton_rel_iso = new TH1D( "hhtPlusLepton_rel_iso", "htPlusLepton (relative iso)", 100, 0., 20000.);
76			TH1D * hhtPlusLepton_trk = new TH1D( "hhtPlusLepton_trk", "htPlusLepton (track & calo iso)", 100, 0., 20000.);
77			TH1D * hhtPlusLepton_rel_iso_rev = new TH1D( "hhtPlusLepton_rel_iso_rev", "htPlusLepton (relative iso reversed)", 100, 0., 20000.);
78			TH1D * hhtPlusLepton_trk_rev = new TH1D( "hhtPlusLepton_trk_rev", "htPlusLepton (track & calo iso reversed)", 100, 0., 20000.);
79			TH1D * hhtPlusLepton_goodmuon = new TH1D( "hhtPlusLepton_goodmuon", "htPlusLepton (good global muon)", 100, 0., 20000.);
80			TH1D * hhtPlusLepton_goodmuon_rev = new TH1D( "hhtPlusLepton_goodmuon_rev", "htPlusLepton (good global muon reversed)", 100, 0., 20000.);
81
82			TH1D * hdPhiLMet = new TH1D( "hdPhiLMet", "dPhiLMet (all) ", 100, 0., 3.5);
83			TH1D * hdPhiLMet_rel_iso = new TH1D( "hdPhiLMet_rel_iso", "dPhiLMet (relative iso)", 100, 0., 3.5);
84			TH1D * hdPhiLMet_trk = new TH1D( "hdPhiLMet_trk", "dPhiLMet (track & calo iso)", 100, 0., 3.5);
85			TH1D * hdPhiLMet_rel_iso_rev = new TH1D( "hdPhiLMet_rel_iso_rev", "dPhiLMet (relative iso reversed)", 100, 0., 3.5);
86			TH1D * hdPhiLMet_trk_rev = new TH1D( "hdPhiLMet_trk_rev", "dPhiLMet (track & calo iso reversed)", 100, 0., 3.5);
87			TH1D * hdPhiLMet_goodmuon = new TH1D( "hdPhiLMet_goodmuon", "dPhiLMet (good global muon )", 100, 0., 3.5);
88			TH1D * hdPhiLMet_goodmuon_rev = new TH1D( "hdPhiLMet_goodmuon_rev", "dPhiLMet (good global muon reversed)", 100, 0., 3.5);
89
90			TFile *fin = TFile::Open(infile);
91			TTree * t1 = (TTree*)fin->Get("qcd");
92
93			Double_t Mt, lepton_track_iso, lepton_calo_iso;
94			Double_t getHt3, ktMinPrime, ht2p,aplanarity, htPlusLepton,dPhiLMet,DphiJMET,lepton_pt;
95			Bool_t muon_isGood_AllGlobalMuons,muon_isGood_AllStandAloneMuons;
96
97			t1->SetBranchAddress("getMt",&Mt);
98			t1->SetBranchAddress("lepton_track_iso",&lepton_track_iso);
99			t1->SetBranchAddress("lepton_calo_iso",&lepton_calo_iso);
100			t1->SetBranchAddress("getHt3",&getHt3);
101			t1->SetBranchAddress("ktMinPrime",&ktMinPrime);
102			t1->SetBranchAddress("ht2p",&ht2p);
103			t1->SetBranchAddress("aplanarity",&aplanarity);
104			t1->SetBranchAddress("htPlusLepton",&htPlusLepton);
105			t1->SetBranchAddress("dPhiLMet",&dPhiLMet);
106			t1->SetBranchAddress("DphiJMET",&DphiJMET);
107			t1->SetBranchAddress("muon_isGood_AllGlobalMuons",&muon_isGood_AllGlobalMuons);
108			t1->SetBranchAddress("muon_isGood_AllStandAloneMuons",&muon_isGood_AllStandAloneMuons);
109			t1->SetBranchAddress("lepton_pt",&lepton_pt);
110
111
112
113			Int_t n_gen = (Int_t)t1->GetEntries();
114			cout<<"No of entries from trees "<<n_gen<<endl;
115
116			for(Int_t i=0; i<n_gen; i++){
117			t1->GetEntry(i);
118
119			hMt->Fill(Mt);
120			hgetHt3->Fill(getHt3);
121			hktMinPrime->Fill(ktMinPrime);
122			hht2p->Fill(ht2p);
123			hDphiJMET->Fill(DphiJMET);
124			haplanarity->Fill(aplanarity);
125			hhtPlusLepton->Fill(htPlusLepton);
126			hdPhiLMet->Fill(dPhiLMet);
127
128			if(1.0/(1.0+(lepton_calo_iso+lepton_track_iso)/lepton_pt) > 0.67 ){
129			hMt_rel_iso->Fill(Mt);
130			hgetHt3_rel_iso->Fill(getHt3);
131			hktMinPrime_rel_iso->Fill(ktMinPrime);
132			hht2p_rel_iso->Fill(ht2p);
133			hDphiJMET_rel_iso->Fill(DphiJMET);
134			haplanarity_rel_iso->Fill(aplanarity);
135			hhtPlusLepton_rel_iso->Fill(htPlusLepton);
136			hdPhiLMet_rel_iso->Fill(dPhiLMet);
137			}
138			// hlepton_iso->Fill(lepton_calo_iso);
139			if(lepton_calo_iso<7 && lepton_track_iso < 3 && muon_isGood_AllStandAloneMuons){
140			hMt_trk->Fill(Mt);
141			hgetHt3_trk->Fill(getHt3);
142			hktMinPrime_trk->Fill(ktMinPrime);
143			hht2p_trk->Fill(ht2p);
144			hDphiJMET_trk->Fill(DphiJMET);
145			haplanarity_trk->Fill(aplanarity);
146			hhtPlusLepton_trk->Fill(htPlusLepton);
147			hdPhiLMet_trk->Fill(dPhiLMet); }
148			if(1.0/(1.0+(lepton_calo_iso+lepton_track_iso)/lepton_pt) < 0.67 ){
149			hMt_rel_iso_rev->Fill(Mt);
150			hgetHt3_rel_iso_rev->Fill(getHt3);
151			hktMinPrime_rel_iso_rev->Fill(ktMinPrime);
152			hht2p_rel_iso_rev->Fill(ht2p);
153			hDphiJMET_rel_iso_rev->Fill(DphiJMET);
154			haplanarity_rel_iso_rev->Fill(aplanarity);
155			hhtPlusLepton_rel_iso_rev->Fill(htPlusLepton);
156			hdPhiLMet_rel_iso_rev->Fill(dPhiLMet);
157			}
158			// hlepton_iso->Fill(lepton_calo_iso);
159			if(lepton_calo_iso>7 && lepton_track_iso > 3 && muon_isGood_AllStandAloneMuons){
160			hMt_trk_rev->Fill(Mt);
161			hgetHt3_trk_rev->Fill(getHt3);
162			hktMinPrime_trk_rev->Fill(ktMinPrime);
163			hht2p_trk_rev->Fill(ht2p);
164			hDphiJMET_trk_rev->Fill(DphiJMET);
165			haplanarity_trk_rev->Fill(aplanarity);
166			hhtPlusLepton_trk_rev->Fill(htPlusLepton);
167			hdPhiLMet_trk_rev->Fill(dPhiLMet); }
168			if(muon_isGood_AllGlobalMuons){
169			hMt_goodmuon->Fill(Mt);
170			hgetHt3_goodmuon->Fill(getHt3);
171			hktMinPrime_goodmuon->Fill(ktMinPrime);
172			hht2p_goodmuon->Fill(ht2p);
173			hDphiJMET_goodmuon->Fill(DphiJMET);
174			haplanarity_goodmuon->Fill(aplanarity);
175			hhtPlusLepton_goodmuon->Fill(htPlusLepton);
176			hdPhiLMet_goodmuon->Fill(dPhiLMet); }
177			if(!muon_isGood_AllGlobalMuons){
178			hMt_goodmuon_rev->Fill(Mt);
179			hgetHt3_goodmuon_rev->Fill(getHt3);
180			hktMinPrime_goodmuon_rev->Fill(ktMinPrime);
181			hht2p_goodmuon_rev->Fill(ht2p);
182			hDphiJMET_goodmuon_rev->Fill(DphiJMET);
183			haplanarity_goodmuon_rev->Fill(aplanarity);
184			hhtPlusLepton_goodmuon_rev->Fill(htPlusLepton);
185			hdPhiLMet_goodmuon_rev->Fill(dPhiLMet); }
186
187
188			}
189
190
191
192
193			outf->Write();
194			outf->Close();
195
196
197			}