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HiggsToZZ4LeptonsSkimEff.cc
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1 
2 /* \class HiggsTo4LeptonsSkimEff
3  *
4  * Consult header file for description
5  *
6  * author: Dominique Fortin - UC Riverside
7  *
8  */
9 
10 
11 // system include files
13 
14 // User include files
16 
17 // Muons:
19 
20 // Electrons
22 
23 // Candidate handling
27 
28 
29 // C++
30 #include <iostream>
31 #include <vector>
32 
33 using namespace std;
34 using namespace edm;
35 using namespace reco;
36 
37 
38 // Constructor
40 
41  // Local Debug flag
42  debug = pset.getParameter<bool>("DebugHiggsToZZ4LeptonsSkim");
43 
44  // Reconstructed objects
45  theGLBMuonToken = consumes<reco::TrackCollection>(pset.getParameter<edm::InputTag>("GlobalMuonCollectionLabel"));
46  theGsfEToken = consumes<reco::GsfElectronCollection>(pset.getParameter<edm::InputTag>("ElectronCollectionLabel"));
47  genToken = consumes<GenParticleCollection>(edm::InputTag("genParticles"));
48 
49  // Minimum Pt for leptons for skimming
50  // Minimum Pt for leptons for skimming
51  stiffMinPt = pset.getParameter<double>("stiffMinimumPt");
52  softMinPt = pset.getParameter<double>("softMinimumPt");
53  nStiffLeptonMin = pset.getParameter<int>("nStiffLeptonMinimum");
54  nLeptonMin = pset.getParameter<int>("nLeptonMinimum");
55 
56  nEvents = 0;
57  nSelFourE = nSelFourM = nSelTwoETwoM = nSelFourL = nSelTau = 0;
58  nFourE = nFourM = nTwoETwoM = nFourL = nTau = 0;
59 
60 }
61 
62 
63 // Destructor
65 
66  std::cout << "Number of events read " << nEvents << std::endl;
67  std::cout << "*** Efficiency for the various subsamples *** " << endl;
68 
69  std::cout << "Four leptons: "
70  << " pres " << nFourL
71  << " kept " << nSelFourL
72  << " eff " << ((double)nSelFourL)/((double) nFourL + 0.0001) << std::endl;
73  std::cout << "Four muons: "
74  << " pres " << nFourM
75  << " kept " << nSelFourM
76  << " eff " << ((double)nSelFourM)/((double) nFourM + 0.0001) << std::endl;
77  std::cout << "Four elecs: "
78  << " pres " << nFourE
79  << " kept " << nSelFourE
80  << " eff " << ((double)nSelFourE)/((double) nFourE + 0.0001) << std::endl;
81  std::cout << "2 elec 2 mu: "
82  << " pres " << nTwoETwoM
83  << " kept " << nSelTwoETwoM
84  << " eff " << ((double)nSelTwoETwoM)/((double) nTwoETwoM + 0.0001) << std::endl;
85  std::cout << "with taus: "
86  << " pres " << nTau
87  << " kept " << nSelTau
88  << " eff " << ((double)nSelTau)/((double) nTau + 0.0001) << std::endl;
89 
90 }
91 
92 
93 
94 // Filter event
96 
97  nEvents++;
98 
100 
101  bool keepEvent = false;
102 
103  // First, pre-selection:
104  int nMuon = 0;
105  int nElec = 0;
106  int nTau = 0;
107 
108  bool isFourE = false;
109  bool isFourM = false;
110  bool isTwoETwoM = false;
111  bool isFourL = false;
112  bool isTau = false;
113 
114  // get gen particle candidates
116  event.getByToken(genToken, genCandidates);
117 
118  for ( CandidateCollection::const_iterator mcIter=genCandidates->begin(); mcIter!=genCandidates->end(); ++mcIter ) {
119 
120  // Muons:
121  if ( mcIter->pdgId() == 13 || mcIter->pdgId() == -13) {
122  // Mother is a Z
123  if ( mcIter->mother()->pdgId() == 23 ) {
124  // In fiducial volume:
125  if ( mcIter->eta() > -2.4 && mcIter->eta() < 2.4 ) nMuon++;
126  }
127  }
128  // Electrons:
129  if ( mcIter->pdgId() == 11 || mcIter->pdgId() == -11) {
130  // Mother is a Z
131  if ( mcIter->mother()->pdgId() == 23 ) {
132  // In fiducial volume:
133  if ( mcIter->eta() > -2.5 && mcIter->eta() < 2.5 ) nElec++;
134  }
135  }
136  // Taus:
137  if ( mcIter->pdgId() == 15 || mcIter->pdgId() == -15) {
138  // Mother is a Z
139  if ( mcIter->mother()->pdgId() == 23 ) {
140  // In fiducial volume:
141  if ( mcIter->eta() > -2.5 && mcIter->eta() < 2.5 ) nTau++;
142  }
143  }
144 
145  }
146 
147  if (nElec > 3) {
148  isFourE = true;
149  nFourE++;
150  }
151  if (nMuon > 3) {
152  isFourM = true;
153  nFourM++;
154  }
155  if (nMuon > 1 && nElec > 1) {
156  isTwoETwoM = true;
157  nTwoETwoM++;
158  }
159  if ( isFourE || isFourM || isTwoETwoM ) {
160  isFourL = true;
161  nFourL++;
162  }
163  if (nTau > 1) {
164  isTau = true;
165  nTau++;
166  }
167 
168  if ( isFourL ) {
169  keepEvent = true;
170  } else {
171  return;
172  }
173 
174 
175  int nStiffLeptons = 0;
176  int nLeptons = 0;
177 
178  // First look at muons:
179 
180  // Get the muon track collection from the event
182  event.getByToken(theGLBMuonToken, muTracks);
183 
184  if ( muTracks.isValid() ) {
185  reco::TrackCollection::const_iterator muons;
186 
187  // Loop over muon collections and count how many muons there are,
188  // and how many are above threshold
189  for ( muons = muTracks->begin(); muons != muTracks->end(); ++muons ) {
190  float pt_mu = muons->pt();
191  if ( pt_mu > stiffMinPt ) nStiffLeptons++;
192  if ( pt_mu > softMinPt ) nLeptons++;
193  }
194  }
195 
196 
197  // Now look at electrons:
198 
199  // Get the electron track collection from the event
201  event.getByToken(theGsfEToken,pTracks);
202 
203  if ( pTracks.isValid() ) {
204 
205  const reco::GsfElectronCollection* eTracks = pTracks.product();
206 
207  reco::GsfElectronCollection::const_iterator electrons;
208 
209  // Loop over electron collections and count how many muons there are,
210  // and how many are above threshold
211  for ( electrons = eTracks->begin(); electrons != eTracks->end(); ++electrons ) {
212  float pt_e = electrons->pt();
213  if ( pt_e > stiffMinPt ) nStiffLeptons++;
214  if ( pt_e > softMinPt ) nLeptons++;
215  }
216  }
217 
218 
219  // Make decision:
220  if ( nStiffLeptons >= nStiffLeptonMin && nLeptons >= nLeptonMin) {
221  keepEvent = true;
222  } else {
223  keepEvent = false;
224  }
225 
226  if ( keepEvent ) {
227  if (isFourE) nSelFourE++;
228  if (isFourM) nSelFourM++;
229  if (isTwoETwoM) nSelTwoETwoM++;
230  if (isFourL) nSelFourL++;
231  if (isTau) nSelTau++;
232  }
233 
234 }
T getParameter(std::string const &) const
std::vector< Track > TrackCollection
collection of Tracks
Definition: TrackFwd.h:14
std::vector< GsfElectron > GsfElectronCollection
collection of GsfElectron objects
HiggsToZZ4LeptonsSkimEff(const edm::ParameterSet &)
How EventSelector::AcceptEvent() decides whether to accept an event for output otherwise it is excluding the probing of A single or multiple positive and the trigger will pass if any such matching triggers are PASS or EXCEPTION[A criterion thatmatches no triggers at all is detected and causes a throw.] A single negative with an expectation of appropriate bit checking in the decision and the trigger will pass if any such matching triggers are FAIL or EXCEPTION A wildcarded negative criterion that matches more than one trigger in the trigger but the state exists so we define the behavior If all triggers are the negative crieriion will lead to accepting the event(this again matches the behavior of"!*"before the partial wildcard feature was incorporated).The per-event"cost"of each negative criterion with multiple relevant triggers is about the same as!*was in the past
bool isValid() const
Definition: HandleBase.h:75
#define debug
Definition: HDRShower.cc:19
T const * product() const
Definition: Handle.h:81
tuple muons
Definition: patZpeak.py:38
tuple cout
Definition: gather_cfg.py:145
UInt_t nEvents
Definition: hcalCalib.cc:42
virtual void analyze(const edm::Event &, const edm::EventSetup &)
Get event properties to send to builder to fill seed collection.
bool isTau(const Candidate &part)
Definition: pdgIdUtils.h:15