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TopSingleLeptonDQM_miniAOD.cc
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7 #include <iostream>
8 #include <memory>
9 
13 
18 
20 
21 using namespace std;
23 
24  // maximal number of leading jets
25  // to be used for top mass estimate
26  static const unsigned int MAXJETS = 4;
27  // nominal mass of the W boson to
28  // be used for the top mass estimate
29  static const double WMASS = 80.4;
30 
31  MonitorEnsemble::MonitorEnsemble(const char* label, const edm::ParameterSet& cfg, edm::ConsumesCollector&& iC)
32  : label_(label),
33  elecIso_(nullptr),
34  elecSelect_(nullptr),
35  pvSelect_(nullptr),
36  muonIso_(nullptr),
37  muonSelect_(nullptr),
38  jetIDSelect_(nullptr),
39  jetSelect(nullptr),
40  includeBTag_(false),
41  lowerEdge_(-1.),
42  upperEdge_(-1.),
43  logged_(0) {
44  // sources have to be given; this PSet is not optional
45  edm::ParameterSet sources = cfg.getParameter<edm::ParameterSet>("sources");
46  // muons_ = iC.consumes<edm::View<reco::PFCandidate> >(
47  // sources.getParameter<edm::InputTag>("muons"));
48 
49  muons_ = iC.consumes<edm::View<pat::Muon>>(sources.getParameter<edm::InputTag>("muons"));
50 
51  elecs_ = iC.consumes<edm::View<pat::Electron>>(sources.getParameter<edm::InputTag>("elecs"));
52  pvs_ = iC.consumes<edm::View<reco::Vertex>>(sources.getParameter<edm::InputTag>("pvs"));
53  jets_ = iC.consumes<edm::View<pat::Jet>>(sources.getParameter<edm::InputTag>("jets"));
54  for (edm::InputTag const& tag : sources.getParameter<std::vector<edm::InputTag>>("mets"))
55  mets_.push_back(iC.consumes<edm::View<pat::MET>>(tag));
56  // electronExtras are optional; they may be omitted or
57  // empty
58  if (cfg.existsAs<edm::ParameterSet>("elecExtras")) {
59  edm::ParameterSet elecExtras = cfg.getParameter<edm::ParameterSet>("elecExtras");
60  // select is optional; in case it's not found no
61  // selection will be applied
62  if (elecExtras.existsAs<std::string>("select")) {
63  elecSelect_ =
64  std::make_unique<StringCutObjectSelector<pat::Electron>>(elecExtras.getParameter<std::string>("select"));
65  }
66  // isolation is optional; in case it's not found no
67  // isolation will be applied
68  if (elecExtras.existsAs<std::string>("isolation")) {
69  elecIso_ =
70  std::make_unique<StringCutObjectSelector<pat::Electron>>(elecExtras.getParameter<std::string>("isolation"));
71  }
72 
73  if (elecExtras.existsAs<std::string>("rho")) {
74  rhoTag = elecExtras.getParameter<edm::InputTag>("rho");
75  }
76  // electronId is optional; in case it's not found the
77  // InputTag will remain empty
78  if (elecExtras.existsAs<edm::ParameterSet>("electronId")) {
79  edm::ParameterSet elecId = elecExtras.getParameter<edm::ParameterSet>("electronId");
80  electronId_ = iC.consumes<edm::ValueMap<float>>(elecId.getParameter<edm::InputTag>("src"));
81  eidCutValue_ = elecId.getParameter<double>("cutValue");
82  }
83  }
84  // pvExtras are opetional; they may be omitted or empty
85  if (cfg.existsAs<edm::ParameterSet>("pvExtras")) {
86  edm::ParameterSet pvExtras = cfg.getParameter<edm::ParameterSet>("pvExtras");
87  // select is optional; in case it's not found no
88  // selection will be applied
89  if (pvExtras.existsAs<std::string>("select")) {
90  pvSelect_ =
91  std::make_unique<StringCutObjectSelector<reco::Vertex>>(pvExtras.getParameter<std::string>("select"));
92  }
93  }
94  // muonExtras are optional; they may be omitted or empty
95  if (cfg.existsAs<edm::ParameterSet>("muonExtras")) {
96  edm::ParameterSet muonExtras = cfg.getParameter<edm::ParameterSet>("muonExtras");
97  // select is optional; in case it's not found no
98  // selection will be applied
99  if (muonExtras.existsAs<std::string>("select")) {
100  muonSelect_ =
101  std::make_unique<StringCutObjectSelector<pat::Muon>>(muonExtras.getParameter<std::string>("select"));
102  }
103  // isolation is optional; in case it's not found no
104  // isolation will be applied
105  if (muonExtras.existsAs<std::string>("isolation")) {
106  muonIso_ =
107  std::make_unique<StringCutObjectSelector<pat::Muon>>(muonExtras.getParameter<std::string>("isolation"));
108  }
109  }
110 
111  // jetExtras are optional; they may be omitted or
112  // empty
113  if (cfg.existsAs<edm::ParameterSet>("jetExtras")) {
114  edm::ParameterSet jetExtras = cfg.getParameter<edm::ParameterSet>("jetExtras");
115  // jetCorrector is optional; in case it's not found
116  // the InputTag will remain empty
117  if (jetExtras.existsAs<std::string>("jetCorrector")) {
118  jetCorrector_ = jetExtras.getParameter<std::string>("jetCorrector");
119  }
120  // read jetID information if it exists
121  if (jetExtras.existsAs<edm::ParameterSet>("jetID")) {
122  edm::ParameterSet jetID = jetExtras.getParameter<edm::ParameterSet>("jetID");
123  jetIDLabel_ = iC.consumes<reco::JetIDValueMap>(jetID.getParameter<edm::InputTag>("label"));
124  jetIDSelect_ =
125  std::make_unique<StringCutObjectSelector<reco::JetID>>(jetID.getParameter<std::string>("select"));
126  }
127  // select is optional; in case it's not found no
128  // selection will be applied (only implemented for
129  // CaloJets at the moment)
130  if (jetExtras.existsAs<std::string>("select")) {
131  jetSelect_ = jetExtras.getParameter<std::string>("select");
132  jetSelect = std::make_unique<StringCutObjectSelector<pat::Jet>>(jetSelect_);
133  }
134  }
135 
136  // triggerExtras are optional; they may be omitted or empty
137  if (cfg.existsAs<edm::ParameterSet>("triggerExtras")) {
138  edm::ParameterSet triggerExtras = cfg.getParameter<edm::ParameterSet>("triggerExtras");
139  triggerTable_ = iC.consumes<edm::TriggerResults>(triggerExtras.getParameter<edm::InputTag>("src"));
140  triggerPaths_ = triggerExtras.getParameter<std::vector<std::string>>("paths");
141  }
142 
143  // massExtras is optional; in case it's not found no mass
144  // window cuts are applied for the same flavor monitor
145  // histograms
146  if (cfg.existsAs<edm::ParameterSet>("massExtras")) {
147  edm::ParameterSet massExtras = cfg.getParameter<edm::ParameterSet>("massExtras");
148  lowerEdge_ = massExtras.getParameter<double>("lowerEdge");
149  upperEdge_ = massExtras.getParameter<double>("upperEdge");
150  }
151 
152  // setup the verbosity level for booking histograms;
153  // per default the verbosity level will be set to
154  // STANDARD. This will also be the chosen level in
155  // the case when the monitoring PSet is not found
157  if (cfg.existsAs<edm::ParameterSet>("monitoring")) {
158  edm::ParameterSet monitoring = cfg.getParameter<edm::ParameterSet>("monitoring");
159  if (monitoring.getParameter<std::string>("verbosity") == "DEBUG")
160  verbosity_ = DEBUG;
161  if (monitoring.getParameter<std::string>("verbosity") == "VERBOSE")
163  if (monitoring.getParameter<std::string>("verbosity") == "STANDARD")
165  }
166  // and don't forget to do the histogram booking
167  directory_ = cfg.getParameter<std::string>("directory");
168  // book(ibooker);
169  }
170 
172  // set up the current directory path
173  std::string current(directory_);
174  current += label_;
175  ibooker.setCurrentFolder(current);
176 
177  // determine number of bins for trigger monitoring
178  //unsigned int nPaths = triggerPaths_.size();
179 
180  // --- [STANDARD] --- //
181  // Run Number
182  //hists_["RunNumb_"] = ibooker.book1D("RunNumber", "Run Nr.", 1.e4, 1.5e5, 3.e5);
183  // instantaneous luminosity
184  //hists_["InstLumi_"] = ibooker.book1D("InstLumi", "Inst. Lumi.", 100, 0., 1.e3);
185  // number of selected primary vertices
186  hists_["pvMult_"] = ibooker.book1D("PvMult", "N_{good pvs}", 50, 0., 50.);
187  // pt of the leading muon
188  hists_["muonPt_"] = ibooker.book1D("MuonPt", "pt(#mu TightId, TightIso)", 40, 0., 200.);
189  // muon multiplicity before std isolation
190  hists_["muonMult_"] = ibooker.book1D("MuonMult", "N_{loose}(#mu)", 10, 0., 10.);
191  // muon multiplicity after std isolation
192  //hists_["muonMultIso_"] = ibooker.book1D("MuonMultIso",
193  // "N_{TightIso}(#mu)", 10, 0., 10.);
194 
195  hists_["muonMultTight_"] = ibooker.book1D("MuonMultTight", "N_{TightIso,TightId}(#mu)", 10, 0., 10.);
196 
197  // pt of the leading electron
198  hists_["elecPt_"] = ibooker.book1D("ElecPt", "pt(e TightId, TightIso)", 40, 0., 200.);
199  // electron multiplicity before std isolation
200  //hists_["elecMult_"] = ibooker.book1D("ElecMult", "N_{looseId}(e)", 10, 0., 10.);
201  // electron multiplicity after std isolation
202  //hists_["elecMultIso_"] = ibooker.book1D("ElecMultIso", "N_{Iso}(e)", 10, 0., 10.);
203  // multiplicity of jets with pt>20 (corrected to L2+L3)
204  hists_["jetMult_"] = ibooker.book1D("JetMult", "N_{30}(jet)", 10, 0., 10.);
205  hists_["jetLooseMult_"] = ibooker.book1D("JetLooseMult", "N_{30,loose}(jet)", 10, 0., 10.);
206 
207  // trigger efficiency estimates for single lepton triggers
208  //hists_["triggerEff_"] = ibooker.book1D("TriggerEff",
209  // "Eff(trigger)", nPaths, 0., nPaths);
210  // monitored trigger occupancy for single lepton triggers
211  //hists_["triggerMon_"] = ibooker.book1D("TriggerMon",
212  // "Mon(trigger)", nPaths, 0., nPaths);
213  // MET (calo)
214  hists_["slimmedMETs_"] = ibooker.book1D("slimmedMETs", "MET_{slimmed}", 40, 0., 200.);
215  // W mass estimate
216  hists_["massW_"] = ibooker.book1D("MassW", "M(W)", 60, 0., 300.);
217  // Top mass estimate
218  hists_["massTop_"] = ibooker.book1D("MassTop", "M(Top)", 50, 0., 500.);
219  // b-tagged Top mass
220  hists_["massBTop_"] = ibooker.book1D("MassBTop", "M(Top, 1 b-tag)", 50, 0., 500.);
221  // set bin labels for trigger monitoring
223 
224  if (verbosity_ == STANDARD)
225  return;
226 
227  // --- [VERBOSE] --- //
228  // eta of the leading muon
229  hists_["muonEta_"] = ibooker.book1D("MuonEta", "#eta(#mu TightId,TightIso)", 30, -3., 3.);
230  // relative isolation of the candidate muon (depending on the decay channel)
231  hists_["muonPhi_"] = ibooker.book1D("MuonPhi", "#phi(#mu TightId,TightIso)", 40, -4., 4.);
232  hists_["muonRelIso_"] = ibooker.book1D("MuonRelIso", "Iso_{Rel}(#mu TightId) (#Delta#beta Corrected)", 50, 0., 1.);
233 
234  // eta of the leading electron
235  hists_["elecEta_"] = ibooker.book1D("ElecEta", "#eta(e TightId, TightIso)", 30, -3., 3.);
236  hists_["elecPhi_"] = ibooker.book1D("ElecPhi", "#phi(e TightId, TightIso)", 40, -4., 4.);
237  // std isolation variable of the leading electron
238  hists_["elecRelIso_"] = ibooker.book1D("ElecRelIso", "Iso_{Rel}(e TightId)", 50, 0., 1.);
239 
240  hists_["elecMultTight_"] = ibooker.book1D("ElecMultTight", "N_{TightIso,TightId}(e)", 10, 0., 10.);
241 
242  // multiplicity of btagged jets (for track counting high efficiency) with
243  // pt(L2L3)>30
244  //hists_["jetMultBEff_"] = ibooker.book1D("JetMultBEff",
245  // "N_{30}(TCHE)", 10, 0., 10.);
246  // btag discriminator for track counting high efficiency for jets with
247  // pt(L2L3)>30
248  //hists_["jetBDiscEff_"] = ibooker.book1D("JetBDiscEff",
249  // "Disc_{TCHE}(jet)", 100, 0., 10.);
250  // eta of the 1. leading jet (corrected to L2+L3)
251  hists_["jet1Eta_"] = ibooker.book1D("Jet1Eta", "#eta_{30,loose}(jet1)", 60, -3., 3.);
252  // pt of the 1. leading jet (corrected to L2+L3)
253  hists_["jet1Pt_"] = ibooker.book1D("Jet1Pt", "pt_{30,loose}(jet1)", 60, 0., 300.);
254  // eta of the 2. leading jet (corrected to L2+L3)
255  hists_["jet2Eta_"] = ibooker.book1D("Jet2Eta", "#eta_{30,loose}(jet2)", 60, -3., 3.);
256  // pt of the 2. leading jet (corrected to L2+L3)
257  hists_["jet2Pt_"] = ibooker.book1D("Jet2Pt", "pt_{30,loose}(jet2)", 60, 0., 300.);
258  // eta of the 3. leading jet (corrected to L2+L3)
259  hists_["jet3Eta_"] = ibooker.book1D("Jet3Eta", "#eta_{30,loose}(jet3)", 60, -3., 3.);
260  // pt of the 3. leading jet (corrected to L2+L3)
261  hists_["jet3Pt_"] = ibooker.book1D("Jet3Pt", "pt_{30,loose}(jet3)", 60, 0., 300.);
262  // eta of the 4. leading jet (corrected to L2+L3)
263  hists_["jet4Eta_"] = ibooker.book1D("Jet4Eta", "#eta_{30,loose}(jet4)", 60, -3., 3.);
264  // pt of the 4. leading jet (corrected to L2+L3)
265  hists_["jet4Pt_"] = ibooker.book1D("Jet4Pt", "pt_{30,loose}(jet4)", 60, 0., 300.);
266  // MET (tc)
267  hists_["slimmedMETsNoHF_"] = ibooker.book1D("slimmedMETsNoHF", "MET_{slimmedNoHF}", 40, 0., 200.);
268  // MET (pflow)
269  hists_["slimmedMETsPuppi_"] = ibooker.book1D("slimmedMETsPuppi", "MET_{slimmedPuppi}", 40, 0., 200.);
270  // dz for muons (to suppress cosmis)
271  hists_["muonDelZ_"] = ibooker.book1D("MuonDelZ", "d_{z}(#mu)", 50, -25., 25.);
272  // dxy for muons (to suppress cosmics)
273  hists_["muonDelXY_"] = ibooker.book2D("MuonDelXY", "d_{xy}(#mu)", 50, -0.1, 0.1, 50, -0.1, 0.1);
274 
275  // set axes titles for dxy for muons
276  hists_["muonDelXY_"]->setAxisTitle("x [cm]", 1);
277  hists_["muonDelXY_"]->setAxisTitle("y [cm]", 2);
278 
279  if (verbosity_ == VERBOSE)
280  return;
281 
282  // --- [DEBUG] --- //
283  // charged hadron isolation component of the candidate muon (depending on the
284  // decay channel)
285  hists_["muonChHadIso_"] = ibooker.book1D("MuonChHadIsoComp", "ChHad_{IsoComponent}(#mu TightId)", 50, 0., 5.);
286  // neutral hadron isolation component of the candidate muon (depending on the
287  // decay channel)
288  hists_["muonNeHadIso_"] = ibooker.book1D("MuonNeHadIsoComp", "NeHad_{IsoComponent}(#mu TightId)", 50, 0., 5.);
289  // photon isolation component of the candidate muon (depending on the decay
290  // channel)
291  hists_["muonPhIso_"] = ibooker.book1D("MuonPhIsoComp", "Photon_{IsoComponent}(#mu TightId)", 50, 0., 5.);
292  // charged hadron isolation component of the candidate electron (depending on
293  // the decay channel)
294  hists_["elecChHadIso_"] = ibooker.book1D("ElectronChHadIsoComp", "ChHad_{IsoComponent}(e TightId)", 50, 0., 5.);
295  // neutral hadron isolation component of the candidate electron (depending on
296  // the decay channel)
297  hists_["elecNeHadIso_"] = ibooker.book1D("ElectronNeHadIsoComp", "NeHad_{IsoComponent}(e TightId)", 50, 0., 5.);
298  // photon isolation component of the candidate electron (depending on the
299  // decay channel)
300  hists_["elecPhIso_"] = ibooker.book1D("ElectronPhIsoComp", "Photon_{IsoComponent}(e TightId)", 50, 0., 5.);
301  // multiplicity of btagged jets (for track counting high purity) with
302  // pt(L2L3)>30
303  //hists_["jetMultBPur_"] = ibooker.book1D("JetMultBPur",
304  // "N_{30}(TCHP)", 10, 0., 10.);
305  // btag discriminator for track counting high purity
306  //hists_["jetBDiscPur_"] = ibooker.book1D("JetBDiscPur",
307  // "Disc_{TCHP}(Jet)", 100, 0., 10.);
308  // multiplicity of btagged jets (for simple secondary vertex) with pt(L2L3)>30
309  //hists_["jetMultBVtx_"] = ibooker.book1D("JetMultBVtx",
310  // "N_{30}(SSVHE)", 10, 0., 10.);
311  // btag discriminator for simple secondary vertex
312  //hists_["jetBDiscVtx_"] = ibooker.book1D("JetBDiscVtx",
313  // "Disc_{SSVHE}(Jet)", 35, -1., 6.);
314  // multiplicity for combined secondary vertex
315  hists_["jetMultBCSVM_"] = ibooker.book1D("JetMultBCSVM", "N_{30}(CSVM)", 10, 0., 10.);
316  // btag discriminator for combined secondary vertex
317  hists_["jetBCSV_"] = ibooker.book1D("JetDiscCSV", "BJet Disc_{CSV}(JET)", 100, -1., 2.);
318  // pt of the 1. leading jet (uncorrected)
319  //hists_["jet1PtRaw_"] = ibooker.book1D("Jet1PtRaw", "pt_{Raw}(jet1)", 60, 0., 300.);
320  // pt of the 2. leading jet (uncorrected)
321  //hists_["jet2PtRaw_"] = ibooker.book1D("Jet2PtRaw", "pt_{Raw}(jet2)", 60, 0., 300.);
322  // pt of the 3. leading jet (uncorrected)
323  //hists_["jet3PtRaw_"] = ibooker.book1D("Jet3PtRaw", "pt_{Raw}(jet3)", 60, 0., 300.);
324  // pt of the 4. leading jet (uncorrected)
325  //hists_["jet4PtRaw_"] = ibooker.book1D("Jet4PtRaw", "pt_{Raw}(jet4)", 60, 0., 300.);
326  // selected events
327  hists_["eventLogger_"] = ibooker.book2D("EventLogger", "Logged Events", 9, 0., 9., 10, 0., 10.);
328 
329  // set axes titles for selected events
330  hists_["eventLogger_"]->getTH1()->SetOption("TEXT");
331  hists_["eventLogger_"]->setBinLabel(1, "Run", 1);
332  hists_["eventLogger_"]->setBinLabel(2, "Block", 1);
333  hists_["eventLogger_"]->setBinLabel(3, "Event", 1);
334  hists_["eventLogger_"]->setBinLabel(4, "pt_{L2L3}(jet1)", 1);
335  hists_["eventLogger_"]->setBinLabel(5, "pt_{L2L3}(jet2)", 1);
336  hists_["eventLogger_"]->setBinLabel(6, "pt_{L2L3}(jet3)", 1);
337  hists_["eventLogger_"]->setBinLabel(7, "pt_{L2L3}(jet4)", 1);
338  hists_["eventLogger_"]->setBinLabel(8, "M_{W}", 1);
339  hists_["eventLogger_"]->setBinLabel(9, "M_{Top}", 1);
340  hists_["eventLogger_"]->setAxisTitle("logged evts", 2);
341  return;
342  }
343 
345  // fetch trigger event if configured such
347 
349  if (!event.getByToken(triggerTable_, triggerTable))
350  return;
351  }
352 
353  /*
354  ------------------------------------------------------------
355 
356  Primary Vertex Monitoring
357 
358  ------------------------------------------------------------
359  */
360  // fill monitoring plots for primary verices
362  if (!event.getByToken(pvs_, pvs))
363  return;
364  const reco::Vertex& pver = pvs->front();
365 
366  unsigned int pvMult = 0;
367  if (pvs.isValid()) {
368  for (edm::View<reco::Vertex>::const_iterator pv = pvs->begin(); pv != pvs->end(); ++pv) {
369  bool isGood =
370  (!(pv->isFake()) && (pv->ndof() > 4.0) && (abs(pv->z()) < 24.0) && (abs(pv->position().Rho()) < 2.0));
371  if (!isGood)
372  continue;
373  pvMult++;
374  }
375  //std::cout<<" npv "<<testn<<endl;
376  }
377 
378  fill("pvMult_", pvMult);
379 
380  /*
381  ------------------------------------------------------------
382 
383  Run and Inst. Luminosity information (Inst. Lumi. filled now with a dummy
384  value=5.0)
385 
386  ------------------------------------------------------------
387  */
388 
389  //if (!event.eventAuxiliary().run()) return;
390 
391  //fill("RunNumb_", event.eventAuxiliary().run());
392 
393  //double dummy = 5.;
394  //fill("InstLumi_", dummy);
395 
396  /*
397  ------------------------------------------------------------
398 
399  Electron Monitoring
400 
401  ------------------------------------------------------------
402  */
403 
404  // fill monitoring plots for electrons
406  if (!event.getByToken(elecs_, elecs))
407  return;
408 
409  edm::Handle<double> _rhoHandle;
410  event.getByLabel(rhoTag, _rhoHandle);
411  //if (!event.getByToken(elecs_, elecs)) return;
412 
413  // check availability of electron id
415  if (!electronId_.isUninitialized()) {
416  if (!event.getByToken(electronId_, electronId))
417  return;
418  }
419 
420  // loop electron collection
421  unsigned int eMultIso = 0, eMult = 0;
422  std::vector<const pat::Electron*> isoElecs;
423 
424  for (edm::View<pat::Electron>::const_iterator elec = elecs->begin(); elec != elecs->end(); ++elec) {
425  if (true) { //loose id
426  if (!elecSelect_ || (*elecSelect_)(*elec)) {
427  double el_ChHadIso = elec->pfIsolationVariables().sumChargedHadronPt;
428  double el_NeHadIso = elec->pfIsolationVariables().sumNeutralHadronEt;
429  double el_PhIso = elec->pfIsolationVariables().sumPhotonEt;
430 
431  double rho = _rhoHandle.isValid() ? (float)(*_rhoHandle) : 0;
432  double absEta = abs(elec->superCluster()->eta());
433  double eA = 0;
434  if (absEta < 1.000)
435  eA = 0.1703;
436  else if (absEta < 1.479)
437  eA = 0.1715;
438  else if (absEta < 2.000)
439  eA = 0.1213;
440  else if (absEta < 2.200)
441  eA = 0.1230;
442  else if (absEta < 2.300)
443  eA = 0.1635;
444  else if (absEta < 2.400)
445  eA = 0.1937;
446  else if (absEta < 5.000)
447  eA = 0.2393;
448 
449  double el_pfRelIso = (el_ChHadIso + max(0., el_NeHadIso + el_PhIso - rho * eA)) / elec->pt();
450 
451  ++eMult;
452 
453  if (eMult == 1) {
454  fill("elecRelIso_", el_pfRelIso);
455  fill("elecChHadIso_", el_ChHadIso);
456  fill("elecNeHadIso_", el_NeHadIso);
457  fill("elecPhIso_", el_PhIso);
458  }
459  //loose Iso
460  //if(!((el_pfRelIso<0.0994 && absEta<1.479)||(el_pfRelIso<0.107 && absEta>1.479)))continue;
461 
462  //tight Iso
463  if (!((el_pfRelIso < 0.0588 && absEta < 1.479) || (el_pfRelIso < 0.0571 && absEta > 1.479)))
464  continue;
465  ++eMultIso;
466 
467  if (eMultIso == 1) {
468  // restrict to the leading electron
469  fill("elecPt_", elec->pt());
470  fill("elecEta_", elec->eta());
471  fill("elecPhi_", elec->phi());
472  }
473  }
474  }
475  }
476  //fill("elecMult_", eMult);
477  fill("elecMultTight_", eMultIso);
478 
479  /*
480  ------------------------------------------------------------
481 
482  Muon Monitoring
483 
484  ------------------------------------------------------------
485  */
486 
487  // fill monitoring plots for muons
488  unsigned int mMult = 0, mTight = 0, mTightId = 0;
489 
492 
493  if (!event.getByToken(muons_, muons))
494  return;
495 
496  for (edm::View<pat::Muon>::const_iterator muon = muons->begin(); muon != muons->end(); ++muon) {
497  // restrict to globalMuons
498  if (muon->isGlobalMuon()) {
499  fill("muonDelZ_", muon->innerTrack()->vz()); // CB using inner track!
500  fill("muonDelXY_", muon->innerTrack()->vx(), muon->innerTrack()->vy());
501 
502  // apply preselection loose muon
503  if (!muonSelect_ || (*muonSelect_)(*muon)) {
504  //loose muon count
505  ++mMult;
506 
507  double chHadPt = muon->pfIsolationR04().sumChargedHadronPt;
508  double neHadEt = muon->pfIsolationR04().sumNeutralHadronEt;
509  double phoEt = muon->pfIsolationR04().sumPhotonEt;
510 
511  double pfRelIso = (chHadPt + max(0., neHadEt + phoEt - 0.5 * muon->pfIsolationR04().sumPUPt)) /
512  muon->pt(); // CB dBeta corrected iso!
513 
514  if (!(muon->isGlobalMuon() && muon->isPFMuon() && muon->globalTrack()->normalizedChi2() < 10. &&
515  muon->globalTrack()->hitPattern().numberOfValidMuonHits() > 0 && muon->numberOfMatchedStations() > 1 &&
516  fabs(muon->muonBestTrack()->dxy(pver.position())) < 0.2 &&
517  fabs(muon->muonBestTrack()->dz(pver.position())) < 0.5 &&
518  muon->innerTrack()->hitPattern().numberOfValidPixelHits() > 0 &&
519  muon->innerTrack()->hitPattern().trackerLayersWithMeasurement() > 5))
520  continue;
521 
522  if (mTightId == 0) {
523  // restrict to leading muon
524  fill("muonRelIso_", pfRelIso);
525  fill("muonChHadIso_", chHadPt);
526  fill("muonNeHadIso_", neHadEt);
527  fill("muonPhIso_", phoEt);
528  //fill("muonRelIso_", pfRelIso);
529  }
530 
531  if (!(pfRelIso < 0.15))
532  continue;
533  //tight id
534  if (mTight == 0) {
535  // restrict to leading muon
536 
537  fill("muonPt_", muon->pt());
538  fill("muonEta_", muon->eta());
539  fill("muonPhi_", muon->phi());
540  }
541  mTight++;
542  mTightId++;
543  }
544  }
545  }
546  fill("muonMult_", mMult); //loose
547  fill("muonMultTight_", mTight); //tight id & iso
548 
549  /*
550  ------------------------------------------------------------
551 
552  Jet Monitoring
553 
554  ------------------------------------------------------------
555  */
556 
557  // loop jet collection
558  std::vector<pat::Jet> correctedJets;
559  std::vector<double> JetTagValues;
560  unsigned int mult = 0, loosemult = 0, multBCSVM = 0;
561 
563  if (!event.getByToken(jets_, jets)) {
564  return;
565  }
566 
567  for (edm::View<pat::Jet>::const_iterator jet = jets->begin(); jet != jets->end(); ++jet) {
568  // check jetID for calo jets
569  //unsigned int idx = jet - jets->begin();
570 
571  pat::Jet sel = *jet;
572 
573  if (!(*jetSelect)(sel))
574  continue;
575  // if (!jetSelect(sel)) continue;
576 
577  // prepare jet to fill monitor histograms
578  pat::Jet monitorJet = *jet;
579 
580  ++mult;
581 
582  if (monitorJet.chargedHadronEnergyFraction() > 0 && monitorJet.chargedMultiplicity() > 0 &&
583  monitorJet.chargedEmEnergyFraction() < 0.99 && monitorJet.neutralHadronEnergyFraction() < 0.99 &&
584  monitorJet.neutralEmEnergyFraction() < 0.99 &&
585  (monitorJet.chargedMultiplicity() + monitorJet.neutralMultiplicity()) > 1) {
586  correctedJets.push_back(monitorJet);
587  ++loosemult; // determine jet multiplicity
588 
589  fill("jetBCSV_",
590  monitorJet.bDiscriminator(
591  "pfCombinedInclusiveSecondaryVertexV2BJetTags")); //hard coded discriminator and value right now.
592  if (monitorJet.bDiscriminator("pfCombinedInclusiveSecondaryVertexV2BJetTags") > 0.89)
593  ++multBCSVM;
594 
595  // Fill a vector with Jet b-tag WP for later M3+1tag calculation: CSV
596  // tagger
597  JetTagValues.push_back(monitorJet.bDiscriminator("pfCombinedInclusiveSecondaryVertexV2BJetTags"));
598  // }
599  // fill pt (raw or L2L3) for the leading four jets
600  if (loosemult == 1) {
601  //cout<<" jet id= "<<monitorJet.chargedHadronEnergyFraction()<<endl;
602 
603  fill("jet1Pt_", monitorJet.pt());
604  //fill("jet1PtRaw_", jet->pt());
605  fill("jet1Eta_", monitorJet.eta());
606  };
607  if (loosemult == 2) {
608  fill("jet2Pt_", monitorJet.pt());
609  //fill("jet2PtRaw_", jet->pt());
610  fill("jet2Eta_", monitorJet.eta());
611  }
612  if (loosemult == 3) {
613  fill("jet3Pt_", monitorJet.pt());
614  //fill("jet3PtRaw_", jet->pt());
615  fill("jet3Eta_", monitorJet.eta());
616  }
617  if (loosemult == 4) {
618  fill("jet4Pt_", monitorJet.pt());
619  //fill("jet4PtRaw_", jet->pt());
620  fill("jet4Eta_", monitorJet.eta());
621  }
622  }
623  }
624  fill("jetMult_", mult);
625  fill("jetLooseMult_", loosemult);
626  fill("jetMultBCSVM_", multBCSVM);
627 
628  /*
629  ------------------------------------------------------------
630 
631  MET Monitoring
632 
633  ------------------------------------------------------------
634  */
635 
636  // fill monitoring histograms for met
637  for (std::vector<edm::EDGetTokenT<edm::View<pat::MET>>>::const_iterator met_ = mets_.begin(); met_ != mets_.end();
638  ++met_) {
640  if (!event.getByToken(*met_, met))
641  continue;
642  if (met->begin() != met->end()) {
643  unsigned int idx = met_ - mets_.begin();
644  if (idx == 0)
645  fill("slimmedMETs_", met->begin()->et());
646  if (idx == 1)
647  fill("slimmedMETsNoHF_", met->begin()->et());
648  if (idx == 2)
649  fill("slimmedMETsPuppi_", met->begin()->et());
650  }
651  }
652 
653  /*
654  ------------------------------------------------------------
655 
656  Event Monitoring
657 
658  ------------------------------------------------------------
659  */
660 
661  // fill W boson and top mass estimates
662 
663  Calculate_miniAOD eventKinematics(MAXJETS, WMASS);
664  double wMass = eventKinematics.massWBoson(correctedJets);
665  double topMass = eventKinematics.massTopQuark(correctedJets);
666  if (wMass >= 0 && topMass >= 0) {
667  fill("massW_", wMass);
668  fill("massTop_", topMass);
669  }
670 
671  // Fill M3 with Btag (CSV Tight) requirement
672 
673  // if (!includeBTag_) return;
674  if (correctedJets.size() != JetTagValues.size())
675  return;
676  double btopMass = eventKinematics.massBTopQuark(correctedJets, JetTagValues, 0.89); //hard coded CSVv2 value
677 
678  if (btopMass >= 0)
679  fill("massBTop_", btopMass);
680 
681  // fill plots for trigger monitoring
682  if ((lowerEdge_ == -1. && upperEdge_ == -1.) || (lowerEdge_ < wMass && wMass < upperEdge_)) {
684  fill(event, *triggerTable, "trigger", triggerPaths_);
685  if (logged_ <= hists_.find("eventLogger_")->second->getNbinsY()) {
686  // log runnumber, lumi block, event number & some
687  // more pysics infomation for interesting events
688  fill("eventLogger_", 0.5, logged_ + 0.5, event.eventAuxiliary().run());
689  fill("eventLogger_", 1.5, logged_ + 0.5, event.eventAuxiliary().luminosityBlock());
690  fill("eventLogger_", 2.5, logged_ + 0.5, event.eventAuxiliary().event());
691  //if (correctedJets.size() > 0)
692  if (!correctedJets.empty())
693  fill("eventLogger_", 3.5, logged_ + 0.5, correctedJets[0].pt());
694  if (correctedJets.size() > 1)
695  fill("eventLogger_", 4.5, logged_ + 0.5, correctedJets[1].pt());
696  if (correctedJets.size() > 2)
697  fill("eventLogger_", 5.5, logged_ + 0.5, correctedJets[2].pt());
698  if (correctedJets.size() > 3)
699  fill("eventLogger_", 6.5, logged_ + 0.5, correctedJets[3].pt());
700  fill("eventLogger_", 7.5, logged_ + 0.5, wMass);
701  fill("eventLogger_", 8.5, logged_ + 0.5, topMass);
702  ++logged_;
703  }
704  }
705  }
706 } // namespace TopSingleLepton_miniAOD
707 
709  : vertexSelect_(nullptr),
710  beamspot_(""),
711  beamspotSelect_(nullptr),
712  MuonStep(nullptr),
713  ElectronStep(nullptr),
714  PvStep(nullptr),
715  METStep(nullptr) {
716  JetSteps.clear();
717 
718  // configure preselection
719  edm::ParameterSet presel = cfg.getParameter<edm::ParameterSet>("preselection");
720  if (presel.existsAs<edm::ParameterSet>("trigger")) {
722  triggerTable__ = consumes<edm::TriggerResults>(trigger.getParameter<edm::InputTag>("src"));
723  triggerPaths_ = trigger.getParameter<std::vector<std::string>>("select");
724  }
725  if (presel.existsAs<edm::ParameterSet>("beamspot")) {
727  beamspot_ = beamspot.getParameter<edm::InputTag>("src");
728  beamspot__ = consumes<reco::BeamSpot>(beamspot.getParameter<edm::InputTag>("src"));
730  std::make_unique<StringCutObjectSelector<reco::BeamSpot>>(beamspot.getParameter<std::string>("select"));
731  }
732 
733  // conifgure the selection
734  sel_ = cfg.getParameter<std::vector<edm::ParameterSet>>("selection");
735  setup_ = cfg.getParameter<edm::ParameterSet>("setup");
736  for (unsigned int i = 0; i < sel_.size(); ++i) {
737  selectionOrder_.push_back(sel_.at(i).getParameter<std::string>("label"));
739  std::make_pair(sel_.at(i),
740  std::make_unique<TopSingleLepton_miniAOD::MonitorEnsemble>(
742  }
743  for (std::vector<std::string>::const_iterator selIt = selectionOrder_.begin(); selIt != selectionOrder_.end();
744  ++selIt) {
745  std::string key = selectionStep(*selIt), type = objectType(*selIt);
746  if (selection_.find(key) != selection_.end()) {
747  if (type == "muons") {
748  MuonStep = std::make_unique<SelectionStep<pat::Muon>>(selection_[key].first, consumesCollector());
749  }
750  if (type == "elecs") {
751  ElectronStep = std::make_unique<SelectionStep<pat::Electron>>(selection_[key].first, consumesCollector());
752  }
753  if (type == "pvs") {
754  PvStep = std::make_unique<SelectionStep<reco::Vertex>>(selection_[key].first, consumesCollector());
755  }
756  if (type == "jets") {
757  JetSteps.push_back(std::make_unique<SelectionStep<pat::Jet>>(selection_[key].first, consumesCollector()));
758  }
759 
760  if (type == "met") {
761  METStep = std::make_unique<SelectionStep<pat::MET>>(selection_[key].first, consumesCollector());
762  }
763  }
764  }
765 }
767  for (auto selIt = selection_.begin(); selIt != selection_.end(); ++selIt) {
768  selIt->second.second->book(ibooker);
769  }
770 }
774  if (!event.getByToken(triggerTable__, triggerTable))
775  return;
776  if (!accept(event, *triggerTable, triggerPaths_))
777  return;
778  }
779  if (!beamspot__.isUninitialized()) {
781  if (!event.getByToken(beamspot__, beamspot))
782  return;
783  if (!(*beamspotSelect_)(*beamspot))
784  return;
785  }
786 
787  unsigned int passed = 0;
788  unsigned int nJetSteps = -1;
789 
790  for (std::vector<std::string>::const_iterator selIt = selectionOrder_.begin(); selIt != selectionOrder_.end();
791  ++selIt) {
792  std::string key = selectionStep(*selIt), type = objectType(*selIt);
793  if (selection_.find(key) != selection_.end()) {
794  if (type == "empty") {
795  selection_[key].second->fill(event, setup);
796  }
797  if (type == "muons" && MuonStep != nullptr) {
798  if (MuonStep->select(event)) {
799  ++passed;
800 
801  selection_[key].second->fill(event, setup);
802  } else
803  break;
804  }
805 
806  if (type == "elecs" && ElectronStep != nullptr) {
807  if (ElectronStep->select(event)) {
808  ++passed;
809  selection_[key].second->fill(event, setup);
810  } else
811  break;
812  }
813 
814  if (type == "pvs" && PvStep != nullptr) {
815  if (PvStep->selectVertex(event)) {
816  ++passed;
817  selection_[key].second->fill(event, setup);
818  } else
819  break;
820  }
821 
822  if (type == "jets") {
823  nJetSteps++;
824  if (JetSteps[nJetSteps] != nullptr) {
825  if (JetSteps[nJetSteps]->select(event, setup)) {
826  ++passed;
827  selection_[key].second->fill(event, setup);
828  } else
829  break;
830  }
831  }
832 
833  if (type == "met" && METStep != nullptr) {
834  if (METStep->select(event)) {
835  ++passed;
836  selection_[key].second->fill(event, setup);
837  } else
838  break;
839  }
840  }
841  }
842 }
843 
844 // Local Variables:
845 // show-trailing-whitespace: t
846 // truncate-lines: t
847 // End:
TopSingleLepton_miniAOD::MonitorEnsemble::hists_
std::map< std::string, MonitorElement * > hists_
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Definition: TopSingleLeptonDQM_miniAOD.h:143
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Definition: PDWG_BPHSkim_cff.py:47
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Definition: TopSingleLeptonDQM_miniAOD.h:217
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Definition: Factorize.h:29
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Definition: TopSingleLeptonDQM_miniAOD.h:90
TopSingleLepton_miniAOD::MonitorEnsemble::label_
std::string label_
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Definition: TopSingleLeptonDQM_miniAOD.h:84
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Definition: TopSingleLeptonDQM_miniAOD.h:124
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float bDiscriminator(const std::string &theLabel) const
-— methods for accessing b-tagging info -—
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Definition: MuonCocktails.h:17
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Definition: TopSingleLeptonDQM_miniAOD.h:86
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Definition: DiDispStaMuonMonitor_cfi.py:39
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Definition: Run.h:45
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Definition: singleTopDQM_cfi.py:52
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float neutralHadronEnergyFraction() const
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Definition: Jet.h:404
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Definition: TopSingleLeptonDQM_miniAOD.h:205
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Definition: TopSingleLeptonDQM_miniAOD.h:105
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constexpr bool isUninitialized() const noexcept
Definition: EDGetToken.h:99
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Use a ConsumesCollector to gather consumes information from helper functions.
Definition: EDConsumerBase.cc:46
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Definition: singleTopDQM_cfi.py:42
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double pt() const final
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Definition: LeafCandidate.h:146
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checks if a parameter exists as a given type
Definition: ParameterSet.h:171
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when omitted electron plots will be filled w/o cut on electronId
Definition: topSingleLeptonDQM_PU_cfi.py:39
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void book(DQMStore::IBooker &ibooker)
book histograms in subdirectory directory
Definition: TopSingleLeptonDQM_miniAOD.cc:171
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std::unique_ptr< StringCutObjectSelector< reco::BeamSpot > > beamspotSelect_
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Definition: TopSingleLeptonDQM_miniAOD.h:219
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Definition: TopSingleLeptonDQM_miniAOD.h:230
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Definition: TopSingleLeptonDQM_miniAOD.cc:766
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Definition: TopSingleLeptonDQM_miniAOD.h:211
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Definition: TopSingleLeptonDQM_miniAOD.h:145
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static const unsigned int MAXJETS
Definition: TopSingleLeptonDQM_miniAOD.cc:26
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Definition: TopSingleLeptonDQM_miniAOD.h:127
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Definition: TopSingleLeptonDQM_miniAOD.h:238
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Definition: TopSingleLeptonDQM_miniAOD.h:234
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Analysis-level calorimeter jet class.
Definition: Jet.h:77
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Definition: TopSingleLeptonDQM_miniAOD.h:111
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Definition: TopSingleLeptonDQM_miniAOD.h:107
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void analyze(const edm::Event &event, const edm::EventSetup &setup) override
do this during the event loop
Definition: TopSingleLeptonDQM_miniAOD.cc:771
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Definition: TopSingleLeptonDQM_miniAOD.h:231
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Definition: TopSingleLeptonDQM_miniAOD.h:78
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Definition: BeamSpotWrite2Txt.h:8
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Definition: TopSingleLeptonDQM_miniAOD.h:233
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Definition: TopSingleLeptonDQM_miniAOD.h:137
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TopSingleLeptonDQM_miniAOD(const edm::ParameterSet &cfg)
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Definition: TopSingleLeptonDQM_miniAOD.cc:708
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Definition: TopSingleLeptonDQM_miniAOD.h:122
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Definition: TopSingleLeptonDQM_miniAOD.h:237
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Definition: TopSingleLeptonDQM_miniAOD.h:33
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float neutralEmEnergyFraction() const
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Definition: Jet.h:412
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type
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Definition: TopDQMHelpers.cc:165
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Definition: TopDQMHelpers.h:70
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int neutralMultiplicity() const
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Definition: Jet.h:466
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Definition: trackerHitRTTI.h:21
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Definition: EventSetup.h:57
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Definition: TopSingleLeptonDQM_miniAOD.h:114
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Definition: TopSingleLeptonDQM_miniAOD.h:88
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Definition: TopSingleLeptonDQM_miniAOD.h:232
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set configurable labels for trigger monitoring histograms
Definition: TopSingleLeptonDQM_miniAOD.h:148
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Definition: FSQDQM_cfi.py:12
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Definition: looper.py:297
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Definition: TopDQMHelpers.cc:171
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Definition: Jet.h:408
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Definition: TopSingleLeptonDQM_miniAOD.h:101
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Definition: TopSingleLeptonDQM_miniAOD.h:117
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static const double WMASS
Definition: TopSingleLeptonDQM_miniAOD.cc:29
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Definition: JetResolutionObject.h:76
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Definition: singleTopDQM_cfi.py:60
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Definition: Jet.h:400
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Definition: singleTopDQM_cfi.py:46
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Definition: TopSingleLeptonDQM_miniAOD.h:103
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Definition: TopSingleLeptonDQM_miniAOD.h:128
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Definition: SignAlgoResolutions.h:47
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MonitorElement * book2D(TString const &name, TString const &title, int nchX, double lowX, double highX, int nchY, double lowY, double highY, FUNC onbooking=NOOP())
Definition: DQMStore.h:177
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Definition: TriggerAnalyzer.py:62
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Definition: pseudoTop_cfi.py:12
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Definition: TopSingleLeptonDQM_miniAOD.h:140
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Templated helper class to allow a selection on a certain object collection.
Definition: TopDQMHelpers.h:237
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std::string jetCorrector_
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Definition: TopSingleLeptonDQM_miniAOD.h:120
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T getParameter(std::string const &) const
Definition: ParameterSet.h:303
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Definition: TopSingleLeptonDQM_miniAOD.h:33
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Definition: VarParsing.py:659
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Definition: DQMStore.h:43
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Definition: View.h:86
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Definition: HLTPrescaleTableCond.h:8
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Definition: TopDQMHelpers.cc:177
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Abs< T >::type abs(const T &t)
Definition: Abs.h:22
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Definition: TopSingleLeptonDQM_miniAOD.h:202
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Definition: EgammaValidation_Wenu_cff.py:33
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Definition: TopSingleLeptonDQM_miniAOD.h:33
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Definition: TopSingleLeptonDQM_miniAOD.h:89
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Definition: HandleBase.h:70
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Definition: event.py:1
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Definition: Event.h:73
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fill monitor histograms with electronId and jetCorrections
Definition: TopSingleLeptonDQM_miniAOD.cc:344
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Definition: TopSingleLeptonDQM_miniAOD.h:235
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Definition: crabWrapper.py:19
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Definition: InputTag.h:15
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Definition: ConsumesCollector.h:45
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Definition: PFTauDecayModeTools.cc:11
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Definition: TriggerResults.h:35
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Definition: Vertex.h:35
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MonitorElement * book1D(TString const &name, TString const &title, int const nchX, double const lowX, double const highX, FUNC onbooking=NOOP())
Definition: DQMStore.h:98
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Definition: TopSingleLeptonDQM_miniAOD.h:205