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MuonPFAnalyzer.cc
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1 
7 //Base class
9 
11 
14 
15 //System included files
16 #include <memory>
17 #include <string>
18 #include <typeinfo>
19 #include <utility>
20 
21 //Root included files
22 #include "TH1.h"
23 #include "TH2.h"
24 #include "TProfile.h"
25 
26 
27 //Event framework included files
31 
36 
37 using namespace edm;
38 using namespace std;
39 using namespace reco;
40 
41 
43 
44  LogTrace("MuonPFAnalyzer") << "[MuonPFAnalyzer] Initializing configuration from parameterset.\n";
45 
46  theGenLabel_ = consumes<GenParticleCollection>(pSet.getParameter<InputTag>("inputTagGenParticles"));
47  theRecoLabel_ = consumes<MuonCollection> (pSet.getParameter<InputTag>("inputTagMuonReco"));
48  theVertexLabel_ = consumes<VertexCollection> (pSet.getParameter<InputTag>("inputTagVertex"));
49  theBeamSpotLabel_ = consumes<BeamSpot> (pSet.getParameter<InputTag>("inputTagBeamSpot"));
50 
51  theHighPtTh = pSet.getParameter<double>("highPtThreshold");
52  theRecoGenR = pSet.getParameter<double>("recoGenDeltaR");
53  theIsoCut = pSet.getParameter<double>("relCombIsoCut");
54  theRunOnMC = pSet.getParameter<bool>("runOnMC");
55 
56  theFolder = pSet.getParameter<string>("folder");
57 
58  theMuonKinds.push_back(""); // all TUNEP/PF muons
59  theMuonKinds.push_back("Tight"); // tight TUNEP/PF muons
60  theMuonKinds.push_back("TightIso"); // tight/iso TUNEP/PF muons
61 
62 
63 }
64 
65 
67  LogTrace("MuonPFAnalyzer") << "[MuonPFAnalyzer] Destructor called.\n";
68 }
69 
70 // ------------ method called when starting to processes a run ------------
72  edm::Run const &,
73  edm::EventSetup const &) {
74 
75  if(theRunOnMC)
76  {
77  bookHistos(ibooker, "PF");
78  bookHistos(ibooker, "PFTight");
79  bookHistos(ibooker, "PFTightIso");
80  bookHistos(ibooker, "TUNEP");
81  bookHistos(ibooker, "TUNEPTight");
82  bookHistos(ibooker, "TUNEPTightIso");
83  }
84 
85  bookHistos(ibooker,"PFvsTUNEP");
86  bookHistos(ibooker,"PFvsTUNEPTight");
87  bookHistos(ibooker,"PFvsTUNEPTightIso");
88 
89 
90 }
91 
93  const EventSetup& context)
94 {
95 
97  event.getByToken(theRecoLabel_, muons);
98 
100  event.getByToken(theGenLabel_, genMuons);
101 
103  event.getByToken(theBeamSpotLabel_, beamSpot);
104 
106  event.getByToken(theVertexLabel_, vertex);
107 
108  const Vertex primaryVertex = getPrimaryVertex(vertex, beamSpot);
109 
110  recoToGenMatch(muons, genMuons);
111 
112  RecoGenCollection::const_iterator recoGenIt = theRecoGen.begin();
113  RecoGenCollection::const_iterator recoGenEnd = theRecoGen.end();
114 
115  for (;recoGenIt!=recoGenEnd;++recoGenIt)
116  {
117 
118  const Muon *muon = recoGenIt->first;
119  TrackRef tunePTrack = muon->tunePMuonBestTrack();
120 
121  const GenParticle *genMuon = recoGenIt->second;
122 
123  vector<string>::const_iterator kindIt = theMuonKinds.begin();
124  vector<string>::const_iterator kindEnd = theMuonKinds.end();
125 
126  for (;kindIt!=kindEnd;++kindIt)
127  {
128 
129  const string & kind = (*kindIt);
130 
131  if (kind.find("Tight") != string::npos &&
132  !muon::isTightMuon((*muon), primaryVertex)) continue;
133 
134  if (kind.find("Iso") != string::npos &&
135  combRelIso(muon) > theIsoCut) continue;
136 
137  if (theRunOnMC && genMuon && !muon->innerTrack().isNull() ) // has matched gen muon
138  {
139 
140  if (!tunePTrack.isNull())
141  {
142 
143  string group = "TUNEP" + kind;
144 
145  float pt = tunePTrack->pt();
146  float phi = tunePTrack->phi();
147  float eta = tunePTrack->eta();
148 
149  float genPt = genMuon->pt();
150  float genPhi = genMuon->p4().phi();
151  float genEta = genMuon->p4().eta();
152 
153  float dPtOverPt = (pt / genPt) - 1;
154 
155  if (pt < theHighPtTh)
156  {
157 
158  fillInRange(getPlot(group,"code"),1,muonTrackType(muon, false));
159  fillInRange(getPlot(group,"deltaPtOverPt"),1,dPtOverPt);
160  }
161  else
162  {
163  fillInRange(getPlot(group,"codeHighPt"),1,muonTrackType(muon, false));
164  fillInRange(getPlot(group,"deltaPtOverPtHighPt"),1,dPtOverPt);
165  }
166 
167  fillInRange(getPlot(group,"deltaPt"),1,(pt - genPt));
168  fillInRange(getPlot(group,"deltaPhi"),1,fDeltaPhi(genPhi,phi));
169  fillInRange(getPlot(group,"deltaEta"),1,genEta - eta);
170 
171  }
172 
173  if (muon->isPFMuon())
174  {
175 
176  string group = "PF" + kind;
177 
178  // Assumes that default in muon is PF
179  float pt = muon->pt();
180  float phi = muon->p4().phi();
181  float eta = muon->p4().eta();
182 
183  float genPt = genMuon->pt();
184  float genPhi = genMuon->p4().phi();
185  float genEta = genMuon->p4().eta();
186 
187  float dPtOverPt = (pt / genPt) - 1;
188 
189  if (pt < theHighPtTh)
190  {
191  fillInRange(getPlot(group,"code"),1,muonTrackType(muon, true));
192  fillInRange(getPlot(group,"deltaPtOverPt"),1,dPtOverPt);
193  }
194  else
195  {
196  fillInRange(getPlot(group,"codeHighPt"),1,muonTrackType(muon, true));
197  fillInRange(getPlot(group,"deltaPtOverPtHighPt"),1,dPtOverPt);
198  }
199 
200 
201  fillInRange(getPlot(group,"deltaPt"),1,pt - genPt);
202  fillInRange(getPlot(group,"deltaPhi"),1,fDeltaPhi(genPhi,phi));
203  fillInRange(getPlot(group,"deltaEta"),1,genEta - eta);
204 
205  }
206 
207  }
208 
209 
210 
211  if (muon->isPFMuon() && !tunePTrack.isNull() &&
212  !muon->innerTrack().isNull()) // Compare PF with TuneP + Tracker
213  { // No gen matching needed
214 
215  string group = "PFvsTUNEP" + kind;
216 
217  float pt = tunePTrack->pt();
218  float phi = tunePTrack->phi();
219  float eta = tunePTrack->eta();
220 
221  // Assumes that default in muon is PF
222  float pfPt = muon->pt();
223  float pfPhi = muon->p4().phi();
224  float pfEta = muon->p4().eta();
225  float dPtOverPt = (pfPt / pt) - 1; // TUNEP vs PF pt used as denum.
226 
227 
228  if (pt < theHighPtTh)
229  {
230  fillInRange(getPlot(group,"code"),2,
231  muonTrackType(muon, false),muonTrackType(muon, true));
232  fillInRange(getPlot(group,"deltaPtOverPt"),1,dPtOverPt);
233  }
234  else
235  {
236  fillInRange(getPlot(group,"codeHighPt"),
237  2,muonTrackType(muon, false),muonTrackType(muon, true));
238  fillInRange(getPlot(group,"deltaPtOverPtHighPt"),1,dPtOverPt);
239  }
240 
241  fillInRange(getPlot(group,"deltaPt"),1,pfPt - pt);
242  fillInRange(getPlot(group,"deltaPhi"),1,fDeltaPhi(pfPhi,phi));
243  fillInRange(getPlot(group,"deltaEta"),1,pfEta - eta);
244 
245 
246  if (theRunOnMC && genMuon) // has a matched gen muon
247 
248  {
249 
250  float genPt = genMuon->pt();
251  float dPtOverPtGen = (pt / genPt) - 1;
252  float dPtOverPtGenPF = (pfPt / genPt) - 1;
253 
254  if (pt < theHighPtTh)
255  {
256  fillInRange(getPlot(group,"deltaPtOverPtPFvsTUNEP"),
257  2,dPtOverPtGen,dPtOverPtGenPF);
258  }
259  else
260  {
261  fillInRange(getPlot(group,"deltaPtOverPtHighPtPFvsTUNEP"),
262  2,dPtOverPtGen,dPtOverPtGenPF);
263  }
264  }
265 
266  }
267 
268  }
269 
270  }
271 
272 }
273 
274 
275 
276 
278  const string & group) {
279 
280 
281 
282  LogTrace("MuonPFAnalyzer") << "[MuonPFAnalyzer] Booking histos for group :"
283  << group << "\n";
284 
285  ibooker.setCurrentFolder(string(theFolder) + group);
286 
287 
288  bool isPFvsTUNEP = group.find("PFvsTUNEP") != string::npos;
289 
290  string hName;
291 
292 
293  hName = "deltaPtOverPt" + group;
294  thePlots[group]["deltaPtOverPt"] = ibooker.book1D(hName.c_str(),hName.c_str(),101,-1.01,1.01);
295 
296  hName = "deltaPtOverPtHighPt" + group;
297  thePlots[group]["deltaPtOverPtHighPt"] = ibooker.book1D(hName.c_str(),hName.c_str(),101,-1.01,1.01);
298 
299  hName = "deltaPt" + group;
300  thePlots[group]["deltaPt"] = ibooker.book1D(hName.c_str(),hName.c_str(),201.,-10.25,10.25);
301 
302  hName = "deltaPhi"+group;
303  thePlots[group]["deltaPhi"] = ibooker.book1D(hName.c_str(),hName.c_str(),51.,0,.0102);
304 
305  hName = "deltaEta"+group;
306  thePlots[group]["deltaEta"] = ibooker.book1D(hName.c_str(),hName.c_str(),101.,-.00505,.00505);
307 
308 
309 
310  if (isPFvsTUNEP) {
311 
312 
313  hName = "code"+group;
314  MonitorElement * plot = ibooker.book2D(hName.c_str(),hName.c_str(),7,-.5,6.5,7,-.5,6.5);
315  thePlots[group]["code"] = plot;
316  setCodeLabels(plot,1);
317  setCodeLabels(plot,2);
318 
319  hName = "codeHighPt"+group;
320  plot = ibooker.book2D(hName.c_str(),hName.c_str(),7,-.5,6.5,7,-.5,6.5);
321  thePlots[group]["codeHighPt"] = plot;
322  setCodeLabels(plot,1);
323  setCodeLabels(plot,2);
324 
325 
326  if (theRunOnMC)
327  {
328  hName = "deltaPtOverPtPFvsTUNEP" + group;
329  thePlots[group]["deltaPtOverPtPFvsTUNEP"] =
330  ibooker.book2D(hName.c_str(),hName.c_str(),
331  101,-1.01,1.01,101,-1.01,1.01);
332 
333  hName = "deltaPtOverPtHighPtPFvsTUNEP" + group;
334  thePlots[group]["deltaPtOverPtHighPtPFvsTUNEP"] =
335  ibooker.book2D(hName.c_str(),hName.c_str(),
336  101,-1.01,1.01,101,-1.01,1.01);
337  }
338  } else {
339  hName = "code"+group;
340  MonitorElement * plot = ibooker.book1D(hName.c_str(),hName.c_str(),7,-.5,6.5);
341  thePlots[group]["code"] = plot;
342  setCodeLabels(plot,1);
343 
344  hName = "codeHighPt"+group;
345  plot = ibooker.book1D(hName.c_str(),hName.c_str(),7,-.5,6.5);
346  thePlots[group]["codeHighPt"] = plot;
347  setCodeLabels(plot,1);
348  }
349 
350 }
351 
352 
354  const string & type) {
355 
356  map<string,map<string,MonitorElement *> >::iterator groupIt = thePlots.find(group);
357  if (groupIt == thePlots.end()) {
358  LogTrace("MuonPFAnalyzer") << "[MuonPFAnalyzer] GROUP : " << group
359  << " is not a valid plot group. Returning 0.\n";
360  return nullptr;
361  }
362 
363  map<string,MonitorElement *>::iterator typeIt = groupIt->second.find(type);
364  if (typeIt == groupIt->second.end()) {
365  LogTrace("MuonPFAnalyzer") << "[MuonPFAnalyzer] TYPE : " << type
366  << " is not a valid type for GROUP : " << group
367  << ". Returning 0.\n";
368  return nullptr;
369  }
370 
371  return typeIt->second;
372 
373 }
374 
375 
377 {
378 
379  MuonIsolation iso = muon->isolationR03();
380  float combRelIso = (iso.emEt + iso.hadEt + iso.sumPt) / muon->pt();
381 
382  return combRelIso;
383 
384 }
385 
386 
387 inline float MuonPFAnalyzer::fDeltaPhi(float phi1, float phi2) {
388 
389  float fPhiDiff = fabs(acos(cos(phi1-phi2)));
390  return fPhiDiff;
391 
392 }
393 
394 
396 {
397 
398  TAxis *axis = nullptr;
399 
400  TH1 * histo = plot->getTH1();
401  if(!histo) return;
402 
403  if (nAxis==1)
404  axis =histo->GetXaxis();
405  else if (nAxis == 2)
406  axis =histo->GetYaxis();
407 
408  if(!axis) return;
409 
410  axis->SetBinLabel(1,"Inner Track");
411  axis->SetBinLabel(2,"Outer Track");
412  axis->SetBinLabel(3,"Combined");
413  axis->SetBinLabel(4,"TPFMS");
414  axis->SetBinLabel(5,"Picky");
415  axis->SetBinLabel(6,"DYT");
416  axis->SetBinLabel(7,"None");
417 
418 }
419 
420 
421 void MuonPFAnalyzer::fillInRange(MonitorElement *plot, int nAxis, double x, double y)
422 {
423 
424  TH1 * histo = plot->getTH1();
425 
426  TAxis *axis[2] = {nullptr, nullptr};
427  axis[0] = histo->GetXaxis();
428  if (nAxis == 2)
429  axis[1] = histo->GetYaxis();
430 
431  double value[2] = {0, 0};
432  value[0] = x;
433  value[1] = y;
434 
435  for (int i = 0;i<nAxis;++i)
436  {
437  double min = axis[i]->GetXmin();
438  double max = axis[i]->GetXmax();
439 
440  if (value[i] <= min)
441  value[i] = axis[i]->GetBinCenter(1);
442 
443  if (value[i] >= max)
444  value[i] = axis[i]->GetBinCenter(axis[i]->GetNbins());
445  }
446 
447  if (nAxis == 2)
448  plot->Fill(value[0],value[1]);
449  else
450  plot->Fill(value[0]);
451 
452 }
453 
454 
455 int MuonPFAnalyzer::muonTrackType(const Muon * muon, bool usePF) {
456 
457  switch ( usePF ? muon->muonBestTrackType() : muon->tunePMuonBestTrackType() ) {
458  case Muon::InnerTrack :
459  return 0;
460  case Muon::OuterTrack :
461  return 1;
462  case Muon::CombinedTrack :
463  return 2;
464  case Muon::TPFMS :
465  return 3;
466  case Muon::Picky :
467  return 4;
468  case Muon::DYT :
469  return 5;
470  case Muon::None :
471  return 6;
472  }
473 
474  return 6;
475 
476 }
477 
478 
481 {
482 
483  theRecoGen.clear();
484 
485  if (muons.isValid())
486  {
487 
488  MuonCollection::const_iterator muonIt = muons->begin();
489  MuonCollection::const_iterator muonEnd = muons->end();
490 
491  for(; muonIt!=muonEnd; ++muonIt)
492  {
493 
494  float bestDR = 999.;
495  const GenParticle *bestGen = nullptr;
496 
497  if (theRunOnMC && gens.isValid())
498  {
499 
500  GenParticleCollection::const_iterator genIt = gens->begin();
501  GenParticleCollection::const_iterator genEnd = gens->end();
502 
503  for(; genIt!=genEnd; ++genIt)
504  {
505 
506  if (abs(genIt->pdgId()) == 13 )
507  {
508 
509  float muonPhi = muonIt->phi();
510  float muonEta = muonIt->eta();
511 
512  float genPhi = genIt->phi();
513  float genEta = genIt->eta();
514 
515  float dR = deltaR(muonEta,muonPhi,
516  genEta,genPhi);
517 
518  if (dR < theRecoGenR && dR < bestDR)
519  {
520  bestDR = dR;
521  bestGen = &(*genIt);
522  }
523 
524  }
525 
526  }
527  }
528 
529  theRecoGen.push_back(RecoGenPair(&(*muonIt), bestGen));
530 
531  }
532  }
533 
534 }
535 
538 {
539 
540  Vertex::Point posVtx;
541  Vertex::Error errVtx;
542 
543  bool hasPrimaryVertex = false;
544 
545  if (vertex.isValid())
546  {
547 
548  vector<Vertex>::const_iterator vertexIt = vertex->begin();
549  vector<Vertex>::const_iterator vertexEnd = vertex->end();
550 
551  for (;vertexIt!=vertexEnd;++vertexIt)
552  {
553  if (vertexIt->isValid() &&
554  !vertexIt->isFake())
555  {
556  posVtx = vertexIt->position();
557  errVtx = vertexIt->error();
558  hasPrimaryVertex = true;
559  break;
560  }
561  }
562  }
563 
564  if ( !hasPrimaryVertex ) {
565 
566  LogInfo("MuonPFAnalyzer") <<
567  "[MuonPFAnalyzer] PrimaryVertex not found, use BeamSpot position instead.\n";
568 
569  posVtx = beamSpot->position();
570  errVtx(0,0) = beamSpot->BeamWidthX();
571  errVtx(1,1) = beamSpot->BeamWidthY();
572  errVtx(2,2) = beamSpot->sigmaZ();
573 
574  }
575 
576  const Vertex primaryVertex(posVtx,errVtx);
577 
578  return primaryVertex;
579 
580 }
581 
582 
583 //define this as a plug-in
int muonTrackType(const reco::Muon *muon, bool usePF)
type
Definition: HCALResponse.h:21
float hadEt
hcal sum-Et
Definition: MuonIsolation.h:9
T getParameter(std::string const &) const
~MuonPFAnalyzer() override
Destructor.
const reco::Vertex getPrimaryVertex(edm::Handle< reco::VertexCollection > &vertex, edm::Handle< reco::BeamSpot > &beamSpot)
float sumPt
sum-pt of tracks
Definition: MuonIsolation.h:7
virtual MuonTrackType muonBestTrackType() const
Definition: Muon.h:64
void bookHistograms(DQMStore::IBooker &, edm::Run const &, edm::EventSetup const &) override
virtual TrackRef innerTrack() const
Definition: Muon.h:48
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
TH1 * getTH1() const
math::Error< dimension >::type Error
covariance error matrix (3x3)
Definition: Vertex.h:43
double pt() const final
transverse momentum
void bookHistos(DQMStore::IBooker &, const std::string &)
void setCodeLabels(MonitorElement *plot, int nAxis)
void Fill(long long x)
void bookHistos()
Definition: Histogram.h:33
MonitorElement * getPlot(const std::string &group, const std::string &type)
void fillInRange(MonitorElement *plot, int nAxis, double x, double y=0)
Definition: Muon.py:1
void analyze(const edm::Event &, const edm::EventSetup &) override
float combRelIso(const reco::Muon *muon)
float emEt
ecal sum-Et
Definition: MuonIsolation.h:8
Cos< T >::type cos(const T &t)
Definition: Cos.h:22
MonitorElement * book1D(Args &&...args)
Definition: DQMStore.h:118
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
math::XYZPoint Point
point in the space
Definition: Vertex.h:39
double BeamWidthX() const
beam width X
Definition: BeamSpot.h:86
const LorentzVector & p4() const final
four-momentum Lorentz vector
Definition: LeafCandidate.h:99
EventID const & min(EventID const &lh, EventID const &rh)
Definition: EventID.h:137
Definition: value.py:1
bool isValid() const
Definition: HandleBase.h:74
bool isNull() const
Checks for null.
Definition: Ref.h:250
#define LogTrace(id)
double deltaR(double eta1, double eta2, double phi1, double phi2)
Definition: TreeUtility.cc:17
float fDeltaPhi(float phi1, float phi2)
void setCurrentFolder(const std::string &fullpath)
Definition: DQMStore.cc:279
MonitorElement * book2D(Args &&...args)
Definition: DQMStore.h:136
double sigmaZ() const
sigma z
Definition: BeamSpot.h:80
double BeamWidthY() const
beam width Y
Definition: BeamSpot.h:88
virtual MuonTrackType tunePMuonBestTrackType() const
Definition: Muon.h:66
fixed size matrix
HLT enums.
void recoToGenMatch(edm::Handle< reco::MuonCollection > &reco, edm::Handle< reco::GenParticleCollection > &gen)
def fillInRange(schema, fillmin, fillmax, amodetag, startT, stopT)
Definition: dataDML.py:89
std::pair< const reco::Muon *, const reco::GenParticle * > RecoGenPair
bool isPFMuon() const
Definition: Muon.h:276
const Point & position() const
position
Definition: BeamSpot.h:62
virtual TrackRef tunePMuonBestTrack() const
Definition: Muon.h:65
bool isTightMuon(const reco::Muon &, const reco::Vertex &)
MuonPFAnalyzer(const edm::ParameterSet &)
Constructor.
const MuonIsolation & isolationR03() const
Definition: Muon.h:162
Definition: event.py:1
Definition: Run.h:43
EventID const & max(EventID const &lh, EventID const &rh)
Definition: EventID.h:142