kiesel/TreeWriter/treeWriter.cc

#include<iostream>
#include<math.h>
#include<string>

#include "TSystem.h"

#include "treeWriter.h"

using namespace std;

TreeWriter::TreeWriter( TString inputName, TString outputName, int loggingVerbosity_ ) {
        // read the input file
        inputTree = new TChain("susyTree");
        if (loggingVerbosity_ > 0)
                std::cout << "Add files to chain" << std::endl;
        inputTree->Add( inputName );

        if (loggingVerbosity_ > 0)
                std::cout << "Set Branch Address of susy::Event" << std::endl;
        event = new susy::Event;
        inputTree->SetBranchAddress("susyEvent", &event);

        // open the output file
        if (loggingVerbosity_>0)
                std::cout << "Open file " << outputName << " for writing." << std::endl;
        outFile = new TFile( outputName, "recreate" );
        tree = new TTree("susyTree","Tree for single photon analysis");

        // set default parameter
        processNEvents = -1;
        reportEvery = 1000;
        loggingVerbosity = loggingVerbosity_;
        skim = true;
        pileupHisto = 0;
}

void TreeWriter::PileUpWeightFile( string pileupFileName ) {
        TFile *puFile = new TFile( pileupFileName.c_str() );
        pileupHisto = (TH1F*) puFile->Get("pileup");
}


TreeWriter::~TreeWriter() {
        if (pileupHisto != 0 )
                delete pileupHisto;
        inputTree->GetCurrentFile()->Close();
}

// useful functions
float TreeWriter::deltaR( TLorentzVector v1, TLorentzVector v2 ) {
        return sqrt(pow(v1.Eta() - v2.Eta(), 2) + pow(v1.Phi() - v2.Phi(), 2) );
}

// correct iso, see https://twiki.cern.ch/twiki/bin/view/CMS/CutBasedPhotonID2012
float chargedHadronIso_corrected(susy::Photon gamma, float rho) {
  float eta = fabs(gamma.caloPosition.Eta());
  float ea;

  if(eta < 1.0) ea = 0.012;
  else if(eta < 1.479) ea = 0.010;
  else if(eta < 2.0) ea = 0.014;
  else if(eta < 2.2) ea = 0.012;
  else if(eta < 2.3) ea = 0.016;
  else if(eta < 2.4) ea = 0.020;
  else ea = 0.012;

  float iso = gamma.chargedHadronIso;
  iso = max(iso - rho*ea, (float)0.);

  return iso;
}

float neutralHadronIso_corrected(susy::Photon gamma, float rho) {
  float eta = fabs(gamma.caloPosition.Eta());
  float ea;

  if(eta < 1.0) ea = 0.030;
  else if(eta < 1.479) ea = 0.057;
  else if(eta < 2.0) ea = 0.039;
  else if(eta < 2.2) ea = 0.015;
  else if(eta < 2.3) ea = 0.024;
  else if(eta < 2.4) ea = 0.039;
  else ea = 0.072;

  float iso = gamma.neutralHadronIso;
  iso = max(iso - rho*ea, (float)0.);

  return iso;
}

float photonIso_corrected(susy::Photon gamma, float rho) {
  float eta = fabs(gamma.caloPosition.Eta());
  float ea;

  if(eta < 1.0) ea = 0.148;
  else if(eta < 1.479) ea = 0.130;
  else if(eta < 2.0) ea = 0.112;
  else if(eta < 2.2) ea = 0.216;
  else if(eta < 2.3) ea = 0.262;
  else if(eta < 2.4) ea = 0.260;
  else ea = 0.266;

  float iso = gamma.photonIso;
  iso = max(iso - rho*ea, (float)0.);

  return iso;
}

float TreeWriter::getPtFromMatchedJet( susy::Photon myPhoton, susy::Event myEvent ) {
        /**
         * \brief Takes jet p_T as photon p_T
         *
         * At first all jets with DeltaR < 0.3 (isolation cone) are searched.
         * If several jets are found, take the one with the minimal pt difference
         * compared to the photon. If no such jets are found, keep the photon_pt
         * TODO: remove photon matched jet from jet-selection?
         */
        std::vector<susy::PFJet> nearJets;
        nearJets.clear();

        std::map<TString,susy::PFJetCollection>::iterator pfJets_it = myEvent.pfJets.find("ak5");
        if(pfJets_it == myEvent.pfJets.end()){
                if(myEvent.pfJets.size() > 0) std::cout << "JetCollection is not available!!!" << std::endl;
        } else {
                susy::PFJetCollection& jetColl = pfJets_it->second;
                for(std::vector<susy::PFJet>::iterator it = jetColl.begin();
                                it != jetColl.end(); ++it) {
                        std::map<TString,Float_t>::iterator s_it = it->jecScaleFactors.find("L2L3");
                        if (s_it == it->jecScaleFactors.end()) {
                                std::cout << "JEC is not available for this jet!!!" << std::endl;
                                continue;
                        }
                        float scale = s_it->second;
                        TLorentzVector corrP4 = scale * it->momentum;
                        float deltaR_ = deltaR(myPhoton.momentum, corrP4 );
                        if (deltaR_ > 0.3) continue;
                        if( loggingVerbosity > 0 )
                                std::cout << "gamma pt jet matching factor = " << it->momentum.Et() / myPhoton.momentum.Et() << std::endl;
                        nearJets.push_back( *it );
                }// for jet
        }// if, else

        if ( nearJets.size() == 0 ) {
                //std::cout << "No jet with deltaR < .3 found, do not change photon_pt" << std::endl;
                return myPhoton.momentum.Et();
        }

        float pt = 0;
        float minPtDifferenz = 1E20; // should be very high
        for( std::vector<susy::PFJet>::iterator it = nearJets.begin(), jetEnd = nearJets.end();
                        it != jetEnd; ++it ) {
                float ptDiff = fabs(myPhoton.momentum.Et() - it->momentum.Et());
                if (  ptDiff < minPtDifferenz ) {
                        minPtDifferenz = ptDiff;
                        pt = it->momentum.Et();
                }
        }

        // testing
        if( nearJets.size() > 1 && loggingVerbosity > 0 )
                std::cout << "There are several jets matching to this photon. "
                                        << "Please check if jet-matching is correct." << std::endl;
        return pt;
}


void TreeWriter::Loop() {

        // here the event loop is implemented and the tree is filled
        if (inputTree == 0) return;

        // get number of events to be proceeded
        Long64_t nentries = inputTree->GetEntries();
        if(processNEvents <= 0 || processNEvents > nentries) processNEvents = nentries;

        if( loggingVerbosity > 0 )
                std::cout << "Processing " << processNEvents << " ouf of "
                        << nentries << " events. " << std::endl;

        tree::Photon *thisphoton = new tree::Photon();
        tree::Jet *thisjet = new tree::Jet();

        tree->Branch("photon", &photon);
        tree->Branch("jet", &jet);
        tree->Branch("electron", &electron);
        tree->Branch("muon", &muon);
        tree->Branch("met", &met, "met/F");
        tree->Branch("ht", &ht, "ht/F");
        tree->Branch("nVertex", &nVertex, "nVertex/I");
        tree->Branch("pu_weight", &pu_weight, "pu_weight/F");


        for (long jentry=0; jentry < processNEvents; ++jentry) {
                if ( loggingVerbosity>0 && jentry%reportEvery==0 )
                        std::cout << jentry << " / " << processNEvents << std :: endl;
                inputTree->GetEntry(jentry);

                photon.clear();
                jet.clear();
                electron.clear();
                muon.clear();
                ht = 0;

                // weights
                if (pileupHisto == 0) {
                        pu_weight = 1.;
                } else {
                        float trueNumInteractions = -1;
                        for( susy::PUSummaryInfoCollection::const_iterator iBX = event->pu.begin();
                                        iBX != event->pu.end() && trueNumInteractions < 0; ++iBX) {
                                if (iBX->BX == 0)
                                        trueNumInteractions = iBX->trueNumInteractions;
                        }
                        pu_weight = pileupHisto->GetBinContent( pileupHisto->FindBin( trueNumInteractions ) );
                }


                // photons
                if( loggingVerbosity > 1 )
                        std::cout << "Process photons" << std::endl;
                std::map<TString, std::vector<susy::Photon> >::iterator phoMap = event->photons.find("photons");
                for(std::vector<susy::Photon>::iterator it = phoMap->second.begin();
                                it != phoMap->second.end() && phoMap != event->photons.end(); ++it ) {
                        if( ! it->isEB() && skim )
                                continue;
                        thisphoton->pt = getPtFromMatchedJet( *it, *event );
                        if( thisphoton->pt < 80 && skim )
                                continue;
                        thisphoton->eta = it->momentum.Eta();
                        thisphoton->phi = it->momentum.Phi();
                        thisphoton->chargedIso = chargedHadronIso_corrected(*it, event->rho25);
                        thisphoton->neutralIso = neutralHadronIso_corrected(*it, event->rho25);
                        thisphoton->photonIso = photonIso_corrected(*it, event->rho25);
                        if ( it->r9 >= 1 && skim )
                                continue;
                        thisphoton->r9 = it->r9;
                        thisphoton->sigmaIetaIeta = it->sigmaIetaIeta;
                        thisphoton->hadTowOverEm = it->hadTowOverEm;
                        thisphoton->pixelseed = it->nPixelSeeds;
                        photon.push_back( *thisphoton );
                        if( loggingVerbosity > 2 )
                                std::cout << " p_T, gamma = " << thisphoton->pt << std::endl;
                }

                if( photon.size() == 0 && skim )
                        continue;
                std::sort( photon.begin(), photon.end(), tree::EtGreater);
                if( loggingVerbosity > 1 )
                        std::cout << "Found " << photon.size() << " photons" << std::endl;

                // jets
                std::map<TString,susy::PFJetCollection>::iterator pfJets_it = event->pfJets.find("ak5");
                if(pfJets_it == event->pfJets.end()){
                        if(event->pfJets.size() > 0) std::cout << "JetCollection is not available!!!" << std::endl;
                } else {

                        susy::PFJetCollection& jetColl = pfJets_it->second;

                        for(std::vector<susy::PFJet>::iterator it = jetColl.begin();
                                        it != jetColl.end(); ++it) {
                                std::map<TString,Float_t>::iterator s_it = it->jecScaleFactors.find("L2L3");
                                if (s_it == it->jecScaleFactors.end()) {
                                        std::cout << "JEC is not available for this jet!!!" << std::endl;
                                        continue;
                                }
                                float scale = s_it->second;
                                TLorentzVector corrP4 = scale * it->momentum;

                                if(std::abs(corrP4.Eta()) > 3.0 && skim ) continue;
                                if(corrP4.Et() < 30 && skim ) continue;
                                thisjet->pt = corrP4.Et();
                                thisjet->eta = corrP4.Eta();
                                thisjet->phi = corrP4.Phi();
                                thisjet->bCSV = it->bTagDiscriminators[susy::kCSV];
                                if( loggingVerbosity > 2 )
                                        std::cout << " p_T, jet = " << thisjet->pt << std::endl;

                                jet.push_back( *thisjet );
                                ht += thisjet->pt;
                        }// for jet
                }// if, else
                if( jet.size() < 2 && skim )
                        continue;
                std::sort( jet.begin(), jet.end(), tree::EtGreater);
                if( loggingVerbosity > 1 )
                        std::cout << "Found " << jet.size() << " jets" << std::endl;


                // met
                std::map<TString, susy::MET>::iterator met_it = event->metMap.find("pfMet");
                susy::MET* metobj = &(met_it->second);
                met = metobj->met();
                met_phi = metobj->mEt.Phi();
                if( loggingVerbosity > 2 )
                        std::cout << " met = " << met << std::endl;

                std::map<TString, susy::MET>::iterator type1met_it = event->metMap.find("pfType1CorrectedMet");
                susy::MET* type1metobj = &(type1met_it->second);
                type1met = type1metobj->met();
                type1met_phi = type1metobj->mEt.Phi();
                if( loggingVerbosity > 2 )
                        std::cout << " type1met = " << type1met << std::endl;

                // electrons
                tree::Particle* thiselectron = new tree::Particle();

                map<TString, vector<susy::Electron> >::iterator eleMap = event->electrons.find("gsfElectrons");
                if(eleMap == event->electrons.end() && loggingVerbosity > 0) {
                        cout << "gsfElectrons not found!" << endl;
                } else {
                        for(vector<susy::Electron>::iterator it = eleMap->second.begin(); it < eleMap->second.end(); ++it) {
                                thiselectron->pt = it->momentum.Et();
                                if( thiselectron->pt < 20 )
                                        continue;
                                if( loggingVerbosity > 2 )
                                        std::cout << " p_T, electron = " << it->momentum.Et() << std::endl;
                                thiselectron->eta = it->momentum.Eta();
                                thiselectron->phi = it->momentum.Phi();
                                electron.push_back( *thiselectron );
                        }
                }
                if( loggingVerbosity > 1 )
                        std::cout << "Found " << electron.size() << " electrons" << std::endl;

                // this seems not to work yet, where is the bug?
                /*
                std::vector<susy::Electron> eVector = event->electrons["gsfElectronsx"];
                for( std::vector<susy::Electron>::iterator it = eVector.begin(); it != eVector.end(); ++it) {
                        thiselectron->pt = it->momentum.Et();
                        if( thiselectron->pt < 20 )
                                continue;
                        if( loggingVerbosity > 2 )
                                std::cout << " p_T, electron = " << it->momentum.Et() << std::endl;
                        thiselectron->eta = it->momentum.Eta();
                        thiselectron->phi = it->momentum.Phi();
                        electron.push_back( *thiselectron );
                }
                */

                // muons
                std::vector<susy::Muon> mVector = event->muons["muons"];
                tree::Particle* thismuon = new tree::Particle();
                for( std::vector<susy::Muon>::iterator it = mVector.begin(); it != mVector.end(); ++it) {
                        thismuon->pt = it->momentum.Et();
                        if( thismuon->pt < 20 )
                                continue;
                        thismuon->eta = it->momentum.Eta();
                        thismuon->phi = it->momentum.Phi();
                        muon.push_back( *thismuon );
                }
                if( loggingVerbosity > 1 )
                        std::cout << "Found " << muon.size() << " muons" << std::endl;


                // vertices
                nVertex = event->vertices.size();

                if( ht < 450 && skim)
                        continue;

                tree->Fill();
        } // for jentry


        outFile->cd();
        tree->Write();
        outFile->Write();
        outFile->Close();
}

Revision:	1.9
Committed:	Sat Apr 13 09:53:02 2013 UTC (12 years ago) by kiesel
Content type:	text/plain
Branch:	MAIN
Changes since 1.8:	+103 -31 lines
Log Message:	added pileup weights and electrons + muons
#	Content
1	#include<iostream>
2	#include<math.h>
3	#include<string>
4
5	#include "TSystem.h"
6
7	#include "treeWriter.h"
8
9	using namespace std;
10
11	TreeWriter::TreeWriter( TString inputName, TString outputName, int loggingVerbosity_ ) {
12	// read the input file
13	inputTree = new TChain("susyTree");
14	if (loggingVerbosity_ > 0)
15	std::cout << "Add files to chain" << std::endl;
16	inputTree->Add( inputName );
17
18	if (loggingVerbosity_ > 0)
19	std::cout << "Set Branch Address of susy::Event" << std::endl;
20	event = new susy::Event;
21	inputTree->SetBranchAddress("susyEvent", &event);
22
23	// open the output file
24	if (loggingVerbosity_>0)
25	std::cout << "Open file " << outputName << " for writing." << std::endl;
26	outFile = new TFile( outputName, "recreate" );
27	tree = new TTree("susyTree","Tree for single photon analysis");
28
29	// set default parameter
30	processNEvents = -1;
31	reportEvery = 1000;
32	loggingVerbosity = loggingVerbosity_;
33	skim = true;
34	pileupHisto = 0;
35	}
36
37	void TreeWriter::PileUpWeightFile( string pileupFileName ) {
38	TFile *puFile = new TFile( pileupFileName.c_str() );
39	pileupHisto = (TH1F*) puFile->Get("pileup");
40	}
41
42
43
44	TreeWriter::~TreeWriter() {
45	if (pileupHisto != 0 )
46	delete pileupHisto;
47	inputTree->GetCurrentFile()->Close();
48	}
49
50	// useful functions
51	float TreeWriter::deltaR( TLorentzVector v1, TLorentzVector v2 ) {
52	return sqrt(pow(v1.Eta() - v2.Eta(), 2) + pow(v1.Phi() - v2.Phi(), 2) );
53	}
54
55	// correct iso, see https://twiki.cern.ch/twiki/bin/view/CMS/CutBasedPhotonID2012
56	float chargedHadronIso_corrected(susy::Photon gamma, float rho) {
57	float eta = fabs(gamma.caloPosition.Eta());
58	float ea;
59
60	if(eta < 1.0) ea = 0.012;
61	else if(eta < 1.479) ea = 0.010;
62	else if(eta < 2.0) ea = 0.014;
63	else if(eta < 2.2) ea = 0.012;
64	else if(eta < 2.3) ea = 0.016;
65	else if(eta < 2.4) ea = 0.020;
66	else ea = 0.012;
67
68	float iso = gamma.chargedHadronIso;
69	iso = max(iso - rho*ea, (float)0.);
70
71	return iso;
72	}
73
74	float neutralHadronIso_corrected(susy::Photon gamma, float rho) {
75	float eta = fabs(gamma.caloPosition.Eta());
76	float ea;
77
78	if(eta < 1.0) ea = 0.030;
79	else if(eta < 1.479) ea = 0.057;
80	else if(eta < 2.0) ea = 0.039;
81	else if(eta < 2.2) ea = 0.015;
82	else if(eta < 2.3) ea = 0.024;
83	else if(eta < 2.4) ea = 0.039;
84	else ea = 0.072;
85
86	float iso = gamma.neutralHadronIso;
87	iso = max(iso - rho*ea, (float)0.);
88
89	return iso;
90	}
91
92	float photonIso_corrected(susy::Photon gamma, float rho) {
93	float eta = fabs(gamma.caloPosition.Eta());
94	float ea;
95
96	if(eta < 1.0) ea = 0.148;
97	else if(eta < 1.479) ea = 0.130;
98	else if(eta < 2.0) ea = 0.112;
99	else if(eta < 2.2) ea = 0.216;
100	else if(eta < 2.3) ea = 0.262;
101	else if(eta < 2.4) ea = 0.260;
102	else ea = 0.266;
103
104	float iso = gamma.photonIso;
105	iso = max(iso - rho*ea, (float)0.);
106
107	return iso;
108	}
109
110	float TreeWriter::getPtFromMatchedJet( susy::Photon myPhoton, susy::Event myEvent ) {
111	/**
112	* \brief Takes jet p_T as photon p_T
113	*
114	* At first all jets with DeltaR < 0.3 (isolation cone) are searched.
115	* If several jets are found, take the one with the minimal pt difference
116	* compared to the photon. If no such jets are found, keep the photon_pt
117	* TODO: remove photon matched jet from jet-selection?
118	*/
119	std::vector<susy::PFJet> nearJets;
120	nearJets.clear();
121
122	std::map<TString,susy::PFJetCollection>::iterator pfJets_it = myEvent.pfJets.find("ak5");
123	if(pfJets_it == myEvent.pfJets.end()){
124	if(myEvent.pfJets.size() > 0) std::cout << "JetCollection is not available!!!" << std::endl;
125	} else {
126	susy::PFJetCollection& jetColl = pfJets_it->second;
127	for(std::vector<susy::PFJet>::iterator it = jetColl.begin();
128	it != jetColl.end(); ++it) {
129	std::map<TString,Float_t>::iterator s_it = it->jecScaleFactors.find("L2L3");
130	if (s_it == it->jecScaleFactors.end()) {
131	std::cout << "JEC is not available for this jet!!!" << std::endl;
132	continue;
133	}
134	float scale = s_it->second;
135	TLorentzVector corrP4 = scale * it->momentum;
136	float deltaR_ = deltaR(myPhoton.momentum, corrP4 );
137	if (deltaR_ > 0.3) continue;
138	if( loggingVerbosity > 0 )
139	std::cout << "gamma pt jet matching factor = " << it->momentum.Et() / myPhoton.momentum.Et() << std::endl;
140	nearJets.push_back( *it );
141	}// for jet
142	}// if, else
143
144	if ( nearJets.size() == 0 ) {
145	//std::cout << "No jet with deltaR < .3 found, do not change photon_pt" << std::endl;
146	return myPhoton.momentum.Et();
147	}
148
149	float pt = 0;
150	float minPtDifferenz = 1E20; // should be very high
151	for( std::vector<susy::PFJet>::iterator it = nearJets.begin(), jetEnd = nearJets.end();
152	it != jetEnd; ++it ) {
153	float ptDiff = fabs(myPhoton.momentum.Et() - it->momentum.Et());
154	if ( ptDiff < minPtDifferenz ) {
155	minPtDifferenz = ptDiff;
156	pt = it->momentum.Et();
157	}
158	}
159
160	// testing
161	if( nearJets.size() > 1 && loggingVerbosity > 0 )
162	std::cout << "There are several jets matching to this photon. "
163	<< "Please check if jet-matching is correct." << std::endl;
164	return pt;
165	}
166
167
168	void TreeWriter::Loop() {
169
170	// here the event loop is implemented and the tree is filled
171	if (inputTree == 0) return;
172
173	// get number of events to be proceeded
174	Long64_t nentries = inputTree->GetEntries();
175	if(processNEvents <= 0 \|\| processNEvents > nentries) processNEvents = nentries;
176
177	if( loggingVerbosity > 0 )
178	std::cout << "Processing " << processNEvents << " ouf of "
179	<< nentries << " events. " << std::endl;
180
181	tree::Photon *thisphoton = new tree::Photon();
182	tree::Jet *thisjet = new tree::Jet();
183
184	tree->Branch("photon", &photon);
185	tree->Branch("jet", &jet);
186	tree->Branch("electron", &electron);
187	tree->Branch("muon", &muon);
188	tree->Branch("met", &met, "met/F");
189	tree->Branch("ht", &ht, "ht/F");
190	tree->Branch("nVertex", &nVertex, "nVertex/I");
191	tree->Branch("pu_weight", &pu_weight, "pu_weight/F");
192
193
194	for (long jentry=0; jentry < processNEvents; ++jentry) {
195	if ( loggingVerbosity>0 && jentry%reportEvery==0 )
196	std::cout << jentry << " / " << processNEvents << std :: endl;
197	inputTree->GetEntry(jentry);
198
199	photon.clear();
200	jet.clear();
201	electron.clear();
202	muon.clear();
203	ht = 0;
204
205	// weights
206	if (pileupHisto == 0) {
207	pu_weight = 1.;
208	} else {
209	float trueNumInteractions = -1;
210	for( susy::PUSummaryInfoCollection::const_iterator iBX = event->pu.begin();
211	iBX != event->pu.end() && trueNumInteractions < 0; ++iBX) {
212	if (iBX->BX == 0)
213	trueNumInteractions = iBX->trueNumInteractions;
214	}
215	pu_weight = pileupHisto->GetBinContent( pileupHisto->FindBin( trueNumInteractions ) );
216	}
217
218
219	// photons
220	if( loggingVerbosity > 1 )
221	std::cout << "Process photons" << std::endl;
222	std::map<TString, std::vector<susy::Photon> >::iterator phoMap = event->photons.find("photons");
223	for(std::vector<susy::Photon>::iterator it = phoMap->second.begin();
224	it != phoMap->second.end() && phoMap != event->photons.end(); ++it ) {
225	if( ! it->isEB() && skim )
226	continue;
227	thisphoton->pt = getPtFromMatchedJet( it, event );
228	if( thisphoton->pt < 80 && skim )
229	continue;
230	thisphoton->eta = it->momentum.Eta();
231	thisphoton->phi = it->momentum.Phi();
232	thisphoton->chargedIso = chargedHadronIso_corrected(*it, event->rho25);
233	thisphoton->neutralIso = neutralHadronIso_corrected(*it, event->rho25);
234	thisphoton->photonIso = photonIso_corrected(*it, event->rho25);
235	if ( it->r9 >= 1 && skim )
236	continue;
237	thisphoton->r9 = it->r9;
238	thisphoton->sigmaIetaIeta = it->sigmaIetaIeta;
239	thisphoton->hadTowOverEm = it->hadTowOverEm;
240	thisphoton->pixelseed = it->nPixelSeeds;
241	photon.push_back( *thisphoton );
242	if( loggingVerbosity > 2 )
243	std::cout << " p_T, gamma = " << thisphoton->pt << std::endl;
244	}
245
246	if( photon.size() == 0 && skim )
247	continue;
248	std::sort( photon.begin(), photon.end(), tree::EtGreater);
249	if( loggingVerbosity > 1 )
250	std::cout << "Found " << photon.size() << " photons" << std::endl;
251
252	// jets
253	std::map<TString,susy::PFJetCollection>::iterator pfJets_it = event->pfJets.find("ak5");
254	if(pfJets_it == event->pfJets.end()){
255	if(event->pfJets.size() > 0) std::cout << "JetCollection is not available!!!" << std::endl;
256	} else {
257
258	susy::PFJetCollection& jetColl = pfJets_it->second;
259
260	for(std::vector<susy::PFJet>::iterator it = jetColl.begin();
261	it != jetColl.end(); ++it) {
262	std::map<TString,Float_t>::iterator s_it = it->jecScaleFactors.find("L2L3");
263	if (s_it == it->jecScaleFactors.end()) {
264	std::cout << "JEC is not available for this jet!!!" << std::endl;
265	continue;
266	}
267	float scale = s_it->second;
268	TLorentzVector corrP4 = scale * it->momentum;
269
270	if(std::abs(corrP4.Eta()) > 3.0 && skim ) continue;
271	if(corrP4.Et() < 30 && skim ) continue;
272	thisjet->pt = corrP4.Et();
273	thisjet->eta = corrP4.Eta();
274	thisjet->phi = corrP4.Phi();
275	thisjet->bCSV = it->bTagDiscriminators[susy::kCSV];
276	if( loggingVerbosity > 2 )
277	std::cout << " p_T, jet = " << thisjet->pt << std::endl;
278
279	jet.push_back( *thisjet );
280	ht += thisjet->pt;
281	}// for jet
282	}// if, else
283	if( jet.size() < 2 && skim )
284	continue;
285	std::sort( jet.begin(), jet.end(), tree::EtGreater);
286	if( loggingVerbosity > 1 )
287	std::cout << "Found " << jet.size() << " jets" << std::endl;
288
289
290	// met
291	std::map<TString, susy::MET>::iterator met_it = event->metMap.find("pfMet");
292	susy::MET* metobj = &(met_it->second);
293	met = metobj->met();
294	met_phi = metobj->mEt.Phi();
295	if( loggingVerbosity > 2 )
296	std::cout << " met = " << met << std::endl;
297
298	std::map<TString, susy::MET>::iterator type1met_it = event->metMap.find("pfType1CorrectedMet");
299	susy::MET* type1metobj = &(type1met_it->second);
300	type1met = type1metobj->met();
301	type1met_phi = type1metobj->mEt.Phi();
302	if( loggingVerbosity > 2 )
303	std::cout << " type1met = " << type1met << std::endl;
304
305	// electrons
306	tree::Particle* thiselectron = new tree::Particle();
307
308	map<TString, vector<susy::Electron> >::iterator eleMap = event->electrons.find("gsfElectrons");
309	if(eleMap == event->electrons.end() && loggingVerbosity > 0) {
310	cout << "gsfElectrons not found!" << endl;
311	} else {
312	for(vector<susy::Electron>::iterator it = eleMap->second.begin(); it < eleMap->second.end(); ++it) {
313	thiselectron->pt = it->momentum.Et();
314	if( thiselectron->pt < 20 )
315	continue;
316	if( loggingVerbosity > 2 )
317	std::cout << " p_T, electron = " << it->momentum.Et() << std::endl;
318	thiselectron->eta = it->momentum.Eta();
319	thiselectron->phi = it->momentum.Phi();
320	electron.push_back( *thiselectron );
321	}
322	}
323	if( loggingVerbosity > 1 )
324	std::cout << "Found " << electron.size() << " electrons" << std::endl;
325
326	// this seems not to work yet, where is the bug?
327	/*
328	std::vector<susy::Electron> eVector = event->electrons["gsfElectronsx"];
329	for( std::vector<susy::Electron>::iterator it = eVector.begin(); it != eVector.end(); ++it) {
330	thiselectron->pt = it->momentum.Et();
331	if( thiselectron->pt < 20 )
332	continue;
333	if( loggingVerbosity > 2 )
334	std::cout << " p_T, electron = " << it->momentum.Et() << std::endl;
335	thiselectron->eta = it->momentum.Eta();
336	thiselectron->phi = it->momentum.Phi();
337	electron.push_back( *thiselectron );
338	}
339	*/
340
341	// muons
342	std::vector<susy::Muon> mVector = event->muons["muons"];
343	tree::Particle* thismuon = new tree::Particle();
344	for( std::vector<susy::Muon>::iterator it = mVector.begin(); it != mVector.end(); ++it) {
345	thismuon->pt = it->momentum.Et();
346	if( thismuon->pt < 20 )
347	continue;
348	thismuon->eta = it->momentum.Eta();
349	thismuon->phi = it->momentum.Phi();
350	muon.push_back( *thismuon );
351	}
352	if( loggingVerbosity > 1 )
353	std::cout << "Found " << muon.size() << " muons" << std::endl;
354
355
356	// vertices
357	nVertex = event->vertices.size();
358
359	if( ht < 450 && skim)
360	continue;
361
362	tree->Fill();
363	} // for jentry
364
365
366	outFile->cd();
367	tree->Write();
368	outFile->Write();
369	outFile->Close();
370	}
371