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QualityCutsAnalyzer.cc
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1 #include <algorithm>
2 #include <cctype>
3 #include <iomanip>
4 #include <set>
5 #include <sstream>
6 #include <vector>
7 
8 #include "TFile.h"
9 #include "TH1F.h"
10 
11 #include "HepPDT/ParticleID.hh"
12 
13 // user include files
17 
23 
25 
27 
29 
31 
32 //
33 // class decleration
34 //
35 
37 {
38 
39 public:
40 
41  explicit QualityCutsAnalyzer(const edm::ParameterSet&);
43 
44 private:
45 
46  virtual void beginJob() override ;
47  virtual void analyze(const edm::Event&, const edm::EventSetup&) override;
48  virtual void endJob() override;
49 
50  // Member data
51 
52  typedef std::vector<int> vint;
53  typedef std::vector<std::string> vstring;
54 
58 
60 
63 
66 
67  void
72  );
73 
74  // Histograms for optimization
75 
77  {
78  double sdl; // Signed decay length
79  double dta; // Distance to jet axis
80  double tip; // Transverse impact parameter
81  double lip; // Longitudinal impact parameter
82  double ips; // Impact parameter significance.
83  double pt; // Transverse momentum
84  double chi2; // Chi^2
85  std::size_t hits; // Number of hits
86  std::size_t pixelhits; // Number of hits
87 
88  histogram_element_t(double d, double a, double t, double l, double i, double p, double c, std::size_t h, std::size_t x)
89  {
90  sdl = d;
91  dta = a;
92  tip = t;
93  lip = l;
94  ips = i;
95  pt = p;
96  chi2 = c;
97  hits = h;
98  pixelhits = x;
99  }
100 
102  {
103  sdl = orig.sdl;
104  dta = orig.dta;
105  tip = orig.tip;
106  lip = orig.lip;
107  ips = orig.ips;
108  pt = orig.pt;
109  chi2 = orig.chi2;
110  hits = orig.hits;
111  pixelhits = orig.pixelhits;
112  }
113  };
114 
115  typedef std::vector<std::vector<histogram_element_t> > histogram_data_t;
116  histogram_data_t histogram_data_;
117 
119  {
120 
121  TH1F* sdl;
122  TH1F* dta;
123  TH1F* tip;
124  TH1F* lip;
125  TH1F* ips;
126  TH1F* pixelhits;
127  TH1F* pt_1gev;
128  TH1F* chi2;
129  TH1F* hits;
130 
131  public:
132 
134  {
136  name = std::string("hits_") + particleType;
137  title = std::string("Hit distribution for ") + particleType;
138  hits = new TH1F(name.c_str(), title.c_str(), 19, -0.5, 18.5);
139 
140  name = std::string("chi2_") + particleType;
141  title = std::string("Chi2 distribution for ") + particleType;
142  chi2 = new TH1F(name.c_str(), title.c_str(), 100, 0., 30.);
143 
144  name = std::string("pixelhits_") + particleType;
145  title = std::string("Pixel hits distribution for ") + particleType;
146  pixelhits = new TH1F(name.c_str(), title.c_str(), 21, -0.5, 20.5);
147 
148  name = std::string("pt_1Gev_") + particleType;
149  title = std::string("Pt distribution close 1Gev for ") + particleType;
150  pt_1gev = new TH1F(name.c_str(), title.c_str(), 100, 0., 2.);
151 
152  name = std::string("tip_") + particleType;
153  title = std::string("Transverse impact parameter distribution for ") + particleType;
154  tip = new TH1F(name.c_str(), title.c_str(), 100, -0.3, 0.3);
155 
156  name = std::string("lip_") + particleType;
157  title = std::string("Longitudinal impact parameter distribution for ") + particleType;
158  lip = new TH1F(name.c_str(), title.c_str(), 100, -1., 1.);
159 
160  name = std::string("ips_") + particleType;
161  title = std::string("IPS distribution for ") + particleType;
162  ips = new TH1F(name.c_str(), title.c_str(), 100, -25.0, 25.0);
163 
164  name = std::string("sdl_") + particleType;
165  title = std::string("Decay length distribution for ") + particleType;
166  sdl = new TH1F(name.c_str(), title.c_str(), 100, -5., 5.);
167 
168  name = std::string("dta_") + particleType;
169  title = std::string("Distance to jet distribution for ") + particleType;
170  dta = new TH1F(name.c_str(), title.c_str(), 100, 0.0, 0.2);
171  }
172 
174  {
175  delete hits;
176  delete chi2;
177  delete pixelhits;
178  delete pt_1gev;
179  delete tip;
180  delete lip;
181  delete ips;
182  delete sdl;
183  delete dta;
184  }
185 
187  {
188  hits->Fill(data.hits);
189  chi2->Fill(data.chi2);
190  pixelhits->Fill(data.pt);
191  pt_1gev->Fill(data.pt);
192  ips->Fill(data.ips);
193  tip->Fill(data.tip);
194  lip->Fill(data.lip);
195  sdl->Fill(data.sdl);
196  dta->Fill(data.dta);
197  }
198 
199  void Write()
200  {
201  hits->Write();
202  chi2->Write();
203  pixelhits->Write();
204  pt_1gev->Write();
205  ips->Write();
206  tip->Write();
207  lip->Write();
208  sdl->Write();
209  dta->Write();
210  }
211  };
212 
213  // Track classification.
215 
216 };
217 
218 
219 //
220 // constructors and destructor
221 //
223 {
224  trackProducer_ = config.getUntrackedParameter<edm::InputTag> ( "trackProducer" );
225  consumes<edm::View<reco::Track>>(trackProducer_);
226  primaryVertexProducer_ = config.getUntrackedParameter<edm::InputTag> ( "primaryVertexProducer" );
227  consumes<reco::VertexCollection>(primaryVertexProducer_);
228  jetTracksAssociation_ = config.getUntrackedParameter<edm::InputTag> ( "jetTracksAssociation" );
229  consumes<reco::JetTracksAssociationCollection>(jetTracksAssociation_);
230 
231  rootFile_ = config.getUntrackedParameter<std::string> ( "rootFile" );
232 
233  minimumNumberOfHits_ = config.getUntrackedParameter<int> ( "minimumNumberOfHits" );
234  minimumNumberOfPixelHits_ = config.getUntrackedParameter<int> ( "minimumNumberOfPixelHits" );
235  minimumTransverseMomentum_ = config.getUntrackedParameter<double> ( "minimumTransverseMomentum" );
236  maximumChiSquared_ = config.getUntrackedParameter<double> ( "maximumChiSquared" );
237 
238  std::string trackQualityType = config.getUntrackedParameter<std::string>("trackQualityClass"); //used
239  trackQuality_ = reco::TrackBase::qualityByName(trackQualityType);
240  useAllQualities_ = false;
241 
242  std::transform(trackQualityType.begin(), trackQualityType.end(), trackQualityType.begin(), (int(*)(int)) std::tolower);
243  if (trackQualityType == "any")
244  {
245  std::cout << "Using any" << std::endl;
246  useAllQualities_ = true;
247  }
248 }
249 
251 
252 //
253 // member functions
254 //
255 
256 // ------------ method called to for each event ------------
257 void
259 {
260  // Track collection
262  event.getByLabel(trackProducer_,trackCollection);
263  // Primary vertex
264  edm::Handle<reco::VertexCollection> primaryVertexCollection;
265  event.getByLabel(primaryVertexProducer_, primaryVertexCollection);
266  // Jet to tracks associator
268  event.getByLabel(jetTracksAssociation_, jetTracks);
269  // Trasient track builder
271  setup.get<TransientTrackRecord>().get("TransientTrackBuilder", TTbuilder);
272 
273  // Setting up event information for the track categories.
274  classifier_.newEvent(event, setup);
275 
277  TTbuilder,
278  primaryVertexCollection,
279  jetTracks
280  );
281 }
282 
283 
284 // ------------ method called once each job just before starting event loop ------------
285 void
287 {
288  histogram_data_.resize(6);
289 }
290 
291 
292 // ------------ method called once each job just after ending the event loop ------------
293 void
295 {
296  TFile file(rootFile_.c_str(), "RECREATE");
297  file.cd();
298 
299  // saving the histograms
300  for (std::size_t i=0; i<6; i++)
301  {
302  std::string particle;
303  if (i == 0)
304  particle = std::string("B_tracks");
305  else if (i == 1)
306  particle = std::string("C_tracks");
307  else if (i == 2)
308  particle = std::string("nonB_tracks");
309  else if (i == 3)
310  particle = std::string("displaced_tracks");
311  else if (i == 4)
312  particle = std::string("bad_tracks");
313  else
314  particle = std::string("fake_tracks");
315 
316  histogram_t histogram(particle);
317 
318  for (std::size_t j=0; j<histogram_data_[i].size(); j++)
319  histogram.Fill(histogram_data_[i][j]);
320 
321  histogram.Write();
322  }
323 
324  file.Flush();
325 }
326 
327 
328 void
330  const edm::ESHandle<TransientTrackBuilder> & TTbuilder,
332  const edm::Handle<reco::JetTracksAssociationCollection> & jetTracksAssociation
333 )
334 {
335  const TransientTrackBuilder * bproduct = TTbuilder.product();
336 
337  // getting the primary vertex
338  // use first pv of the collection
340 
341  if (primaryVertexProducer_->size() != 0)
342  {
344  std::vector<reco::Vertex> sortedList = pvs.sortedList(*(primaryVertexProducer_.product()));
345  pv = (sortedList.front());
346  }
347  else
348  { // create a dummy PV
349  // cout << "NO PV FOUND" << endl;
351  e(0,0)=0.0015*0.0015;
352  e(1,1)=0.0015*0.0015;
353  e(2,2)=15.*15.;
354  reco::Vertex::Point p(0,0,0);
355  pv = reco::Vertex(p,e,1,1,1);
356  }
357 
358  reco::JetTracksAssociationCollection::const_iterator it = jetTracksAssociation->begin();
359 
360  int i=0;
361 
362  for (; it != jetTracksAssociation->end(); it++, i++)
363  {
364  // get jetTracks object
365  reco::JetTracksAssociationRef jetTracks(jetTracksAssociation, i);
366 
367  double pvZ = pv.z();
368  GlobalVector direction(jetTracks->first->px(), jetTracks->first->py(), jetTracks->first->pz());
369 
370  // get the tracks associated to the jet
371  reco::TrackRefVector tracks = jetTracks->second;
372  for (std::size_t index = 0; index < tracks.size(); index++)
373  {
375 
376  double pt = tracks[index]->pt();
377  double chi2 = tracks[index]->normalizedChi2();
378  int hits = tracks[index]->hitPattern().numberOfValidHits();
379  int pixelHits = tracks[index]->hitPattern().numberOfValidPixelHits();
380 
381  if (
382  hits < minimumNumberOfHits_ ||
383  pixelHits < minimumNumberOfPixelHits_ ||
385  chi2 > maximumChiSquared_ ||
386  (!useAllQualities_ && !tracks[index]->quality(trackQuality_))
387  ) continue;
388 
389  const reco::TransientTrack transientTrack = bproduct->build(&(*tracks[index]));
390  double dta = - IPTools::jetTrackDistance(transientTrack, direction, pv).second.value();
391  double sdl = IPTools::signedDecayLength3D(transientTrack, direction, pv).second.value();
392  double ips = IPTools::signedImpactParameter3D(transientTrack, direction, pv).second.value();
393  double d0 = IPTools::signedTransverseImpactParameter(transientTrack, direction, pv).second.value();
394  double dz = tracks[index]->dz() - pvZ;
395 
396  // Classify the reco track;
398 
399  // Check for the different categories
401  histogram_data_[5].push_back(histogram_element_t(sdl, dta, d0, dz, ips, pt, chi2, hits, pixelHits));
403  histogram_data_[0].push_back(histogram_element_t(sdl, dta, d0, dz, ips, pt, chi2, hits, pixelHits));
404  else if ( classifier_.is(TrackClassifier::Bad) )
405  histogram_data_[4].push_back(histogram_element_t(sdl, dta, d0, dz, ips, pt, chi2, hits, pixelHits));
406  else if (
409  )
410  histogram_data_[3].push_back(histogram_element_t(sdl, dta, d0, dz, ips, pt, chi2, hits, pixelHits));
412  histogram_data_[1].push_back(histogram_element_t(sdl, dta, d0, dz, ips, pt, chi2, hits, pixelHits));
413  else
414  histogram_data_[2].push_back(histogram_element_t(sdl, dta, d0, dz, ips, pt, chi2, hits, pixelHits));
415 
416  }
417  }
418 }
419 
T getUntrackedParameter(std::string const &, T const &) const
histogram_element_t(double d, double a, double t, double l, double i, double p, double c, std::size_t h, std::size_t x)
std::vector< std::vector< histogram_element_t > > histogram_data_t
FWCore Framework interface EventSetupRecordImplementation h
Helper function to determine trigger accepts.
transient_vector_type::const_iterator const_iterator
TrackQuality
track quality
Definition: TrackBase.h:151
std::vector< int > vint
#define DEFINE_FWK_MODULE(type)
Definition: MakerMacros.h:17
reco::TrackBase::TrackQuality trackQuality_
std::pair< bool, Measurement1D > signedTransverseImpactParameter(const reco::TransientTrack &track, const GlobalVector &direction, const reco::Vertex &vertex)
Definition: IPTools.cc:50
void LoopOverJetTracksAssociation(const edm::ESHandle< TransientTrackBuilder > &, const edm::Handle< reco::VertexCollection > &, const edm::Handle< reco::JetTracksAssociationCollection > &)
std::pair< bool, Measurement1D > signedDecayLength3D(const TrajectoryStateOnSurface &state, const GlobalVector &direction, const reco::Vertex &vertex)
Definition: IPTools.cc:94
reco::TransientTrack build(const reco::Track *p) const
std::vector< reco::Vertex > sortedList(const reco::VertexCollection &primaryVertex) const
virtual void endJob() override
const_iterator end() const
math::Error< dimension >::type Error
covariance error matrix (3x3)
Definition: Vertex.h:43
def setup(process, global_tag, zero_tesla=False)
Definition: GeneralSetup.py:1
std::pair< bool, Measurement1D > signedImpactParameter3D(const reco::TransientTrack &track, const GlobalVector &direction, const reco::Vertex &vertex)
Definition: IPTools.cc:71
TrackClassifier classifier_
Definition: config.py:1
std::pair< double, Measurement1D > jetTrackDistance(const reco::TransientTrack &track, const GlobalVector &direction, const reco::Vertex &vertex)
Definition: IPTools.cc:200
histogram_element_t(const histogram_element_t &orig)
TrackClassifier const & evaluate(reco::TrackBaseRef const &)
Classify the RecoTrack in categories.
histogram_t(const std::string &particleType)
ConsumesCollector consumesCollector()
Use a ConsumesCollector to gather consumes information from helper functions.
def pv(vc)
Definition: MetAnalyzer.py:6
double z() const
z coordinate
Definition: Vertex.h:115
virtual void analyze(const edm::Event &, const edm::EventSetup &) override
math::XYZPoint Point
point in the space
Definition: Vertex.h:39
void newEvent(edm::Event const &, edm::EventSetup const &)
Pre-process event information (for accessing reconstraction information)
edm::InputTag trackProducer_
bool is(Category category) const
Returns track flag for a given category.
std::vector< std::string > vstring
Get track history and classify it in function of their .
static TrackQuality qualityByName(const std::string &name)
Definition: TrackBase.cc:125
T const * product() const
Definition: Handle.h:81
const T & get() const
Definition: EventSetup.h:55
void Fill(const histogram_element_t &data)
virtual void beginJob() override
QualityCutsAnalyzer(const edm::ParameterSet &)
char data[epos_bytes_allocation]
Definition: EPOS_Wrapper.h:82
double a
Definition: hdecay.h:121
edm::InputTag primaryVertexProducer_
const_iterator begin() const
T const * product() const
Definition: ESHandle.h:86
Definition: event.py:1
histogram_data_t histogram_data_
edm::InputTag jetTracksAssociation_