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DQMExample_Step1.cc
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3 
4 
5 // Geometry
9 #include "TLorentzVector.h"
10 
11 
12 #include <iostream>
13 #include <iomanip>
14 #include <stdio.h>
15 #include <string>
16 #include <sstream>
17 #include <math.h>
18 
19 //
20 // -------------------------------------- Constructor --------------------------------------------
21 //
23 {
24  edm::LogInfo("DQMExample_Step1") << "Constructor DQMExample_Step1::DQMExample_Step1 " << std::endl;
25 
26  // Get parameters from configuration file
27  theElectronCollection_ = consumes<reco::GsfElectronCollection>(ps.getParameter<edm::InputTag>("electronCollection"));
28  theCaloJetCollection_ = consumes<reco::CaloJetCollection>(ps.getParameter<edm::InputTag>("caloJetCollection"));
29  thePfMETCollection_ = consumes<reco::PFMETCollection>(ps.getParameter<edm::InputTag>("pfMETCollection"));
30  theConversionCollection_ = consumes<reco::ConversionCollection>(ps.getParameter<edm::InputTag>("conversionsCollection"));
31  thePVCollection_ = consumes<reco::VertexCollection>(ps.getParameter<edm::InputTag>("PVCollection"));
32  theBSCollection_ = consumes<reco::BeamSpot>(ps.getParameter<edm::InputTag>("beamSpotCollection"));
33  triggerEvent_ = consumes<trigger::TriggerEvent>(ps.getParameter<edm::InputTag>("TriggerEvent"));
34  triggerResults_ = consumes<edm::TriggerResults>(ps.getParameter<edm::InputTag>("TriggerResults"));
35  triggerFilter_ = ps.getParameter<edm::InputTag>("TriggerFilter");
36  triggerPath_ = ps.getParameter<std::string>("TriggerPath");
37 
38 
39  // cuts:
40  ptThrL1_ = ps.getUntrackedParameter<double>("PtThrL1");
41  ptThrL2_ = ps.getUntrackedParameter<double>("PtThrL2");
42  ptThrJet_ = ps.getUntrackedParameter<double>("PtThrJet");
43  ptThrMet_ = ps.getUntrackedParameter<double>("PtThrMet");
44 
45 }
46 
47 //
48 // -- Destructor
49 //
51 {
52  edm::LogInfo("DQMExample_Step1") << "Destructor DQMExample_Step1::~DQMExample_Step1 " << std::endl;
53 }
54 
55 //
56 // -------------------------------------- beginRun --------------------------------------------
57 //
59 {
60  edm::LogInfo("DQMExample_Step1") << "DQMExample_Step1::beginRun" << std::endl;
61 }
62 //
63 // -------------------------------------- bookHistos --------------------------------------------
64 //
66 {
67  edm::LogInfo("DQMExample_Step1") << "DQMExample_Step1::bookHistograms" << std::endl;
68 
69  //book at beginRun
70  bookHistos(ibooker_);
71 }
72 //
73 // -------------------------------------- beginLuminosityBlock --------------------------------------------
74 //
76  edm::EventSetup const& context)
77 {
78  edm::LogInfo("DQMExample_Step1") << "DQMExample_Step1::beginLuminosityBlock" << std::endl;
79 }
80 
81 
82 //
83 // -------------------------------------- Analyze --------------------------------------------
84 //
86 {
87  edm::LogInfo("DQMExample_Step1") << "DQMExample_Step1::analyze" << std::endl;
88 
89 
90  //-------------------------------
91  //--- Vertex Info
92  //-------------------------------
94  e.getByToken(thePVCollection_, vertexHandle);
95  if ( !vertexHandle.isValid() )
96  {
97  edm::LogError ("DQMClientExample") << "invalid collection: vertex" << "\n";
98  return;
99  }
100 
101  int vertex_number = vertexHandle->size();
102  reco::VertexCollection::const_iterator v = vertexHandle->begin();
103 
104  math::XYZPoint PVPoint(-999, -999, -999);
105  if(vertex_number != 0)
106  PVPoint = math::XYZPoint(v->position().x(), v->position().y(), v->position().z());
107 
108  PVPoint_=PVPoint;
109 
110  //-------------------------------
111  //--- MET
112  //-------------------------------
113  edm::Handle<reco::PFMETCollection> pfMETCollection;
114  e.getByToken(thePfMETCollection_, pfMETCollection);
115  if ( !pfMETCollection.isValid() )
116  {
117  edm::LogError ("DQMClientExample") << "invalid collection: MET" << "\n";
118  return;
119  }
120  //-------------------------------
121  //--- Electrons
122  //-------------------------------
123  edm::Handle<reco::GsfElectronCollection> electronCollection;
124  e.getByToken(theElectronCollection_, electronCollection);
125  if ( !electronCollection.isValid() )
126  {
127  edm::LogError ("DQMClientExample") << "invalid collection: electrons" << "\n";
128  return;
129  }
130 
131  float nEle=0;
132  int posEle=0, negEle=0;
133  const reco::GsfElectron* ele1 = NULL;
134  const reco::GsfElectron* ele2 = NULL;
135  for (reco::GsfElectronCollection::const_iterator recoElectron=electronCollection->begin(); recoElectron!=electronCollection->end(); ++recoElectron)
136  {
137  //decreasing pT
138  if( MediumEle(e,eSetup,*recoElectron) )
139  {
140  if(!ele1 && recoElectron->pt() > ptThrL1_)
141  ele1 = &(*recoElectron);
142 
143  else if(!ele2 && recoElectron->pt() > ptThrL2_)
144  ele2 = &(*recoElectron);
145 
146  }
147 
148  if(recoElectron->charge()==1)
149  posEle++;
150  else if(recoElectron->charge()==-1)
151  negEle++;
152 
153  } // end of loop over electrons
154 
155  nEle = posEle+negEle;
156 
157  //-------------------------------
158  //--- Jets
159  //-------------------------------
160  edm::Handle<reco::CaloJetCollection> caloJetCollection;
161  e.getByToken (theCaloJetCollection_,caloJetCollection);
162  if ( !caloJetCollection.isValid() )
163  {
164  edm::LogError ("DQMClientExample") << "invalid collection: jets" << "\n";
165  return;
166  }
167 
168  int nJet = 0;
169  const reco::CaloJet* jet1 = NULL;
170  const reco::CaloJet* jet2 = NULL;
171 
172  for (reco::CaloJetCollection::const_iterator i_calojet = caloJetCollection->begin(); i_calojet != caloJetCollection->end(); ++i_calojet)
173  {
174  //remove jet-ele matching
175  if(ele1)
176  if (Distance(*i_calojet,*ele1) < 0.3) continue;
177 
178  if(ele2)
179  if (Distance(*i_calojet,*ele2) < 0.3) continue;
180 
181  if (i_calojet->pt() < ptThrJet_) continue;
182 
183  nJet++;
184 
185  if (!jet1)
186  jet1 = &(*i_calojet);
187 
188  else if (!jet2)
189  jet2 = &(*i_calojet);
190  }
191 
192  // ---------------------------
193  // ---- Analyze Trigger Event
194  // ---------------------------
195 
196  //check what is in the menu
198  e.getByToken(triggerResults_,hltresults);
199 
200  if(!hltresults.isValid())
201  {
202  edm::LogError ("DQMClientExample") << "invalid collection: TriggerResults" << "\n";
203  return;
204  }
205 
206  bool hasFired = false;
207  const edm::TriggerNames& trigNames = e.triggerNames(*hltresults);
208  unsigned int numTriggers = trigNames.size();
209 
210  for( unsigned int hltIndex=0; hltIndex<numTriggers; ++hltIndex )
211  {
212  if (trigNames.triggerName(hltIndex)==triggerPath_ && hltresults->wasrun(hltIndex) && hltresults->accept(hltIndex))
213  hasFired = true;
214  }
215 
216 
217 
218  //access the trigger event
220  e.getByToken(triggerEvent_, triggerEvent);
221  if( triggerEvent.failedToGet() )
222  {
223  edm::LogError ("DQMClientExample") << "invalid collection: TriggerEvent" << "\n";
224  return;
225  }
226 
227 
228  reco::Particle* ele1_HLT = NULL;
229  int nEle_HLT = 0;
230 
231  size_t filterIndex = triggerEvent->filterIndex( triggerFilter_ );
232  trigger::TriggerObjectCollection triggerObjects = triggerEvent->getObjects();
233  if( !(filterIndex >= triggerEvent->sizeFilters()) )
234  {
235  const trigger::Keys& keys = triggerEvent->filterKeys( filterIndex );
236  std::vector<reco::Particle> triggeredEle;
237 
238  for( size_t j = 0; j < keys.size(); ++j )
239  {
240  trigger::TriggerObject foundObject = triggerObjects[keys[j]];
241  if( abs( foundObject.particle().pdgId() ) != 11 ) continue; //make sure that it is an electron
242 
243  triggeredEle.push_back( foundObject.particle() );
244  ++nEle_HLT;
245  }
246 
247  if( triggeredEle.size() >= 1 )
248  ele1_HLT = &(triggeredEle.at(0));
249  }
250 
251  //-------------------------------
252  //--- Fill the histos
253  //-------------------------------
254 
255  //vertex
256  h_vertex_number -> Fill( vertex_number );
257 
258  //met
259  h_pfMet -> Fill( pfMETCollection->begin()->et() );
260 
261  //multiplicities
262  h_eMultiplicity->Fill(nEle);
263  h_jMultiplicity->Fill(nJet);
264  h_eMultiplicity_HLT->Fill(nEle_HLT);
265 
266  //leading not matched
267  if(ele1)
268  {
269  h_ePt_leading->Fill(ele1->pt());
270  h_eEta_leading->Fill(ele1->eta());
271  h_ePhi_leading->Fill(ele1->phi());
272  }
273  if(ele1_HLT)
274  {
275  h_ePt_leading_HLT->Fill(ele1_HLT->pt());
276  h_eEta_leading_HLT->Fill(ele1_HLT->eta());
277  h_ePhi_leading_HLT->Fill(ele1_HLT->phi());
278  }
279  //leading Jet
280  if(jet1)
281  {
282  h_jPt_leading->Fill(jet1->pt());
283  h_jEta_leading->Fill(jet1->eta());
284  h_jPhi_leading->Fill(jet1->phi());
285  }
286 
287 
288  //fill only when the trigger candidate mathes with the reco one
289  if( ele1 && ele1_HLT && deltaR(*ele1_HLT,*ele1) < 0.3 && hasFired==true )
290  {
291  h_ePt_leading_matched->Fill(ele1->pt());
292  h_eEta_leading_matched->Fill(ele1->eta());
293  h_ePhi_leading_matched->Fill(ele1->phi());
294 
295  h_ePt_leading_HLT_matched->Fill(ele1_HLT->pt());
296  h_eEta_leading_HLT_matched->Fill(ele1_HLT->eta());
297  h_ePhi_leading_HLT_matched->Fill(ele1_HLT->phi());
298 
299  h_ePt_diff->Fill(ele1->pt()-ele1_HLT->pt());
300  }
301 }
302 //
303 // -------------------------------------- endLuminosityBlock --------------------------------------------
304 //
306 {
307  edm::LogInfo("DQMExample_Step1") << "DQMExample_Step1::endLuminosityBlock" << std::endl;
308 }
309 
310 
311 //
312 // -------------------------------------- endRun --------------------------------------------
313 //
315 {
316  edm::LogInfo("DQMExample_Step1") << "DQMExample_Step1::endRun" << std::endl;
317 }
318 
319 
320 //
321 // -------------------------------------- book histograms --------------------------------------------
322 //
324 {
325  ibooker_.cd();
326  ibooker_.setCurrentFolder("Physics/TopTest");
327 
328  h_vertex_number = ibooker_.book1D("Vertex_number", "Number of event vertices in collection", 40,-0.5, 39.5 );
329 
330  h_pfMet = ibooker_.book1D("pfMet", "Pf Missing E_{T}; GeV" , 20, 0.0 , 100);
331 
332  h_eMultiplicity = ibooker_.book1D("NElectrons","# of electrons per event",10,0.,10.);
333  h_ePt_leading_matched = ibooker_.book1D("ElePt_leading_matched","Pt of leading electron",50,0.,100.);
334  h_eEta_leading_matched = ibooker_.book1D("EleEta_leading_matched","Eta of leading electron",50,-5.,5.);
335  h_ePhi_leading_matched = ibooker_.book1D("ElePhi_leading_matched","Phi of leading electron",50,-3.5,3.5);
336 
337  h_ePt_leading = ibooker_.book1D("ElePt_leading","Pt of leading electron",50,0.,100.);
338  h_eEta_leading = ibooker_.book1D("EleEta_leading","Eta of leading electron",50,-5.,5.);
339  h_ePhi_leading = ibooker_.book1D("ElePhi_leading","Phi of leading electron",50,-3.5,3.5);
340 
341  h_jMultiplicity = ibooker_.book1D("NJets","# of electrons per event",10,0.,10.);
342  h_jPt_leading = ibooker_.book1D("JetPt_leading","Pt of leading Jet",150,0.,300.);
343  h_jEta_leading = ibooker_.book1D("JetEta_leading","Eta of leading Jet",50,-5.,5.);
344  h_jPhi_leading = ibooker_.book1D("JetPhi_leading","Phi of leading Jet",50,-3.5,3.5);
345 
346  h_eMultiplicity_HLT = ibooker_.book1D("NElectrons_HLT","# of electrons per event @HLT",10,0.,10.);
347  h_ePt_leading_HLT = ibooker_.book1D("ElePt_leading_HLT","Pt of leading electron @HLT",50,0.,100.);
348  h_eEta_leading_HLT = ibooker_.book1D("EleEta_leading_HLT","Eta of leading electron @HLT",50,-5.,5.);
349  h_ePhi_leading_HLT = ibooker_.book1D("ElePhi_leading_HLT","Phi of leading electron @HLT",50,-3.5,3.5);
350 
351  h_ePt_leading_HLT_matched = ibooker_.book1D("ElePt_leading_HLT_matched","Pt of leading electron @HLT",50,0.,100.);
352  h_eEta_leading_HLT_matched = ibooker_.book1D("EleEta_leading_HLT_matched","Eta of leading electron @HLT",50,-5.,5.);
353  h_ePhi_leading_HLT_matched = ibooker_.book1D("ElePhi_leading_HLT_matched","Phi of leading electron @HLT",50,-3.5,3.5);
354 
355  h_ePt_diff = ibooker_.book1D("ElePt_diff_matched","pT(RECO) - pT(HLT) for mathed candidates",100,-10,10.);
356 
357  ibooker_.cd();
358 
359 }
360 
361 
362 //
363 // -------------------------------------- functions --------------------------------------------
364 //
366  return deltaR(c1,c2);
367 }
368 
370  return deltaPhi(c1.p4().phi(),c2.p4().phi());
371 }
372 
373 // This always returns only a positive deltaPhi
374 double DQMExample_Step1::calcDeltaPhi(double phi1, double phi2) {
375  double deltaPhi = phi1 - phi2;
376  if (deltaPhi < 0) deltaPhi = -deltaPhi;
377  if (deltaPhi > 3.1415926) {
378  deltaPhi = 2 * 3.1415926 - deltaPhi;
379  }
380  return deltaPhi;
381 }
382 
383 //
384 // -------------------------------------- electronID --------------------------------------------
385 //
387 {
388 
389  //********* CONVERSION TOOLS
391  iEvent.getByToken(theConversionCollection_, conversions_h);
392 
393  bool isMediumEle = false;
394 
395  float pt = electron.pt();
396  float eta = electron.eta();
397 
398  int isEB = electron.isEB();
399  float sigmaIetaIeta = electron.sigmaIetaIeta();
400  float DetaIn = electron.deltaEtaSuperClusterTrackAtVtx();
401  float DphiIn = electron.deltaPhiSuperClusterTrackAtVtx();
402  float HOverE = electron.hadronicOverEm();
403  float ooemoop = (1.0/electron.ecalEnergy() - electron.eSuperClusterOverP()/electron.ecalEnergy());
404 
405  int mishits = electron.gsfTrack()->trackerExpectedHitsInner().numberOfHits();
406  int nAmbiguousGsfTracks = electron.ambiguousGsfTracksSize();
407 
408  reco::GsfTrackRef eleTrack = electron.gsfTrack() ;
409  float dxy = eleTrack->dxy(PVPoint_);
410  float dz = eleTrack->dz (PVPoint_);
411 
413  iEvent.getByToken(theBSCollection_, BSHandle);
414  const reco::BeamSpot BS = *BSHandle;
415 
416  bool isConverted = ConversionTools::hasMatchedConversion(electron, conversions_h, BS.position());
417 
418  // default
419  if( (pt > 12.) && (fabs(eta) < 2.5) &&
420  ( ( (isEB == 1) && (fabs(DetaIn) < 0.004) ) || ( (isEB == 0) && (fabs(DetaIn) < 0.007) ) ) &&
421  ( ( (isEB == 1) && (fabs(DphiIn) < 0.060) ) || ( (isEB == 0) && (fabs(DphiIn) < 0.030) ) ) &&
422  ( ( (isEB == 1) && (sigmaIetaIeta < 0.010) ) || ( (isEB == 0) && (sigmaIetaIeta < 0.030) ) ) &&
423  ( ( (isEB == 1) && (HOverE < 0.120) ) || ( (isEB == 0) && (HOverE < 0.100) ) ) &&
424  ( ( (isEB == 1) && (fabs(ooemoop) < 0.050) ) || ( (isEB == 0) && (fabs(ooemoop) < 0.050) ) ) &&
425  ( ( (isEB == 1) && (fabs(dxy) < 0.020) ) || ( (isEB == 0) && (fabs(dxy) < 0.020) ) ) &&
426  ( ( (isEB == 1) && (fabs(dz) < 0.100) ) || ( (isEB == 0) && (fabs(dz) < 0.100) ) ) &&
427  ( ( (isEB == 1) && (!isConverted) ) || ( (isEB == 0) && (!isConverted) ) ) &&
428  ( mishits == 0 ) &&
429  ( nAmbiguousGsfTracks == 0 )
430  )
431  isMediumEle=true;
432 
433  return isMediumEle;
434 }
double calcDeltaPhi(double phi1, double phi2)
MonitorElement * h_ePhi_leading_matched
T getParameter(std::string const &) const
T getUntrackedParameter(std::string const &, T const &) const
virtual edm::TriggerNames const & triggerNames(edm::TriggerResults const &triggerResults) const
Definition: Event.cc:204
MonitorElement * h_jMultiplicity
math::XYZPoint PVPoint_
bool MediumEle(const edm::Event &iEvent, const edm::EventSetup &iESetup, const reco::GsfElectron &electron)
edm::EDGetTokenT< reco::GsfElectronCollection > theElectronCollection_
Jets made from CaloTowers.
Definition: CaloJet.h:29
virtual float pt() const
transverse momentum
float eSuperClusterOverP() const
Definition: GsfElectron.h:243
bool getByToken(EDGetToken token, Handle< PROD > &result) const
Definition: Event.h:434
void cd(void)
Definition: DQMStore.cc:266
virtual float phi() const
momentum azimuthal angle
void endLuminosityBlock(edm::LuminosityBlock const &lumi, edm::EventSetup const &eSetup)
reco::Particle particle(reco::Particle::Charge q=0, const reco::Particle::Point &vertex=reco::Particle::Point(0, 0, 0), int status=0, bool integerCharge=true) const
Definition: TriggerObject.h:69
MonitorElement * h_ePhi_leading_HLT_matched
#define NULL
Definition: scimark2.h:8
MonitorElement * h_ePhi_leading
MonitorElement * h_eEta_leading_HLT
MonitorElement * h_jPhi_leading
edm::EDGetTokenT< reco::ConversionCollection > theConversionCollection_
Strings::size_type size() const
Definition: TriggerNames.cc:39
edm::EDGetTokenT< trigger::TriggerEvent > triggerEvent_
T eta() const
double Distance(const reco::Candidate &c1, const reco::Candidate &c2)
bool isEB() const
Definition: GsfElectron.h:347
double eta() const
momentum pseudorapidity
Definition: Particle.cc:168
DQMExample_Step1(const edm::ParameterSet &ps)
void Fill(long long x)
MonitorElement * h_eEta_leading
void dqmBeginRun(edm::Run const &, edm::EventSetup const &) override
edm::EDGetTokenT< reco::BeamSpot > theBSCollection_
MonitorElement * h_ePt_leading_HLT
Single trigger physics object (e.g., an isolated muon)
Definition: TriggerObject.h:22
double phi() const
momentum azimuthal angle
Definition: Particle.cc:159
float deltaEtaSuperClusterTrackAtVtx() const
Definition: GsfElectron.h:247
int iEvent
Definition: GenABIO.cc:230
MonitorElement * h_ePt_diff
MonitorElement * h_ePt_leading_HLT_matched
float sigmaIetaIeta() const
Definition: GsfElectron.h:399
float hadronicOverEm() const
Definition: GsfElectron.h:440
MonitorElement * h_jEta_leading
void bookHistos(DQMStore::IBooker &)
void Fill(HcalDetId &id, double val, std::vector< TH2F > &depth)
virtual float eta() const
momentum pseudorapidity
float deltaPhiSuperClusterTrackAtVtx() const
Definition: GsfElectron.h:250
MonitorElement * book1D(Args &&...args)
Definition: DQMStore.h:113
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
int j
Definition: DBlmapReader.cc:9
MonitorElement * h_eEta_leading_HLT_matched
MonitorElement * h_vertex_number
MonitorElement * h_ePt_leading
bool isValid() const
Definition: HandleBase.h:76
double pt() const
transverse momentum
Definition: Particle.cc:155
static bool hasMatchedConversion(const reco::GsfElectron &ele, const edm::Handle< reco::ConversionCollection > &convCol, const math::XYZPoint &beamspot, bool allowCkfMatch=true, float lxyMin=2.0, float probMin=1e-6, unsigned int nHitsBeforeVtxMax=0)
MonitorElement * h_eMultiplicity
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
void analyze(edm::Event const &e, edm::EventSetup const &eSetup)
MonitorElement * h_pfMet
std::vector< TriggerObject > TriggerObjectCollection
collection of trigger physics objects (e.g., all isolated muons)
Definition: TriggerObject.h:81
static const char *const trigNames[]
Definition: EcalDumpRaw.cc:74
bool failedToGet() const
Definition: HandleBase.h:80
edm::EDGetTokenT< edm::TriggerResults > triggerResults_
void endRun(edm::Run const &run, edm::EventSetup const &eSetup)
MonitorElement * h_jPt_leading
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:274
std::string const & triggerName(unsigned int index) const
Definition: TriggerNames.cc:27
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
std::vector< size_type > Keys
MonitorElement * h_ePt_leading_matched
virtual ~DQMExample_Step1()
GsfTrackRefVector::size_type ambiguousGsfTracksSize() const
Definition: GsfElectron.h:633
int pdgId() const
PDG identifier.
Definition: Particle.cc:246
edm::EDGetTokenT< reco::PFMETCollection > thePfMETCollection_
edm::InputTag triggerFilter_
float ecalEnergy() const
Definition: GsfElectron.h:772
MonitorElement * h_ePhi_leading_HLT
double DistancePhi(const reco::Candidate &c1, const reco::Candidate &c2)
std::string triggerPath_
const Point & position() const
position
Definition: BeamSpot.h:62
void beginLuminosityBlock(edm::LuminosityBlock const &lumi, edm::EventSetup const &eSetup)
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
MonitorElement * h_eMultiplicity_HLT
MonitorElement * h_eEta_leading_matched
edm::EDGetTokenT< reco::VertexCollection > thePVCollection_
edm::EDGetTokenT< reco::CaloJetCollection > theCaloJetCollection_
Definition: Run.h:41
virtual GsfTrackRef gsfTrack() const
reference to a GsfTrack
Definition: GsfElectron.h:183
virtual const LorentzVector & p4() const =0
four-momentum Lorentz vector