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TrackTimeValueMapProducer.cc
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1 // This producer assigns vertex times (with a specified resolution) to tracks.
2 // The times are produced as valuemaps associated to tracks, so the track
3 // dataformat doesn't need to be modified.
4 
5 #include "FWCore/Framework/interface/Frameworkfwd.h"
6 #include "FWCore/Framework/interface/global/EDProducer.h"
7 
8 #include "FWCore/Framework/interface/Event.h"
9 #include "FWCore/Framework/interface/MakerMacros.h"
10 
11 #include "FWCore/MessageLogger/interface/MessageLogger.h"
12 
13 #include "DataFormats/Common/interface/ValueMap.h"
14 #include "DataFormats/Common/interface/View.h"
15 #include "DataFormats/Math/interface/deltaPhi.h"
16 
17 #include "DataFormats/GsfTrackReco/interface/GsfTrack.h"
18 #include "DataFormats/GsfTrackReco/interface/GsfTrackFwd.h"
19 #include "DataFormats/TrackReco/interface/Track.h"
20 #include "DataFormats/TrackReco/interface/TrackFwd.h"
21 #include "MagneticField/Engine/interface/MagneticField.h"
22 #include "SimDataFormats/Associations/interface/TrackToTrackingParticleAssociator.h"
23 #include "SimDataFormats/PileupSummaryInfo/interface/PileupSummaryInfo.h"
24 #include "SimDataFormats/Track/interface/SimTrackContainer.h"
25 #include "SimDataFormats/TrackingAnalysis/interface/TrackingParticle.h"
26 #include "SimDataFormats/TrackingAnalysis/interface/TrackingVertex.h"
27 #include "SimDataFormats/TrackingAnalysis/interface/TrackingVertexContainer.h"
28 #include "SimDataFormats/Vertex/interface/SimVertexContainer.h"
29 #include "SimTracker/TrackerHitAssociation/interface/TrackerHitAssociator.h"
30 #include "TrackingTools/Records/interface/TransientTrackRecord.h"
31 #include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
32 
33 #include <memory>
34 #include <random>
35 
36 #include "CLHEP/Units/SystemOfUnits.h"
37 #include "FWCore/Utilities/interface/isFinite.h"
38 #include "FWCore/Utilities/interface/transform.h"
39 #include "SimTracker/TrackAssociation/interface/ResolutionModel.h"
40 
41 class TrackTimeValueMapProducer : public edm::global::EDProducer<> {
42 public:
43  TrackTimeValueMapProducer(const edm::ParameterSet &);
44  ~TrackTimeValueMapProducer() override {}
45 
46  void produce(edm::StreamID, edm::Event &, const edm::EventSetup &) const override;
47 
48 private:
49  // inputs
50  const edm::EDGetTokenT<edm::View<reco::Track>> tracks_;
51  const std::string tracksName_;
52  const edm::EDGetTokenT<TrackingParticleCollection> trackingParticles_;
53  const edm::EDGetTokenT<TrackingVertexCollection> trackingVertices_;
54  const edm::EDGetTokenT<std::vector<PileupSummaryInfo>> pileupSummaryInfo_;
55  // tracking particle associators by order of preference
56  const std::vector<edm::EDGetTokenT<reco::TrackToTrackingParticleAssociator>> associators_;
57  // eta bounds
58  const float etaMin_, etaMax_, ptMin_, pMin_, etaMaxForPtThreshold_;
59  // options
60  std::vector<std::unique_ptr<const ResolutionModel>> resolutions_;
61  // functions
62  float extractTrackVertexTime(const TrackingParticle &, const reco::TransientTrack &) const;
63 };
64 
65 DEFINE_FWK_MODULE(TrackTimeValueMapProducer);
66 
67 namespace {
68  constexpr float m_pion = 139.57061e-3;
69  const std::string resolution("Resolution");
70 
71  template <typename ParticleType, typename T>
72  void writeValueMap(edm::Event &iEvent,
73  const edm::Handle<edm::View<ParticleType>> &handle,
74  const std::vector<T> &values,
75  const std::string &label) {
76  std::unique_ptr<edm::ValueMap<T>> valMap(new edm::ValueMap<T>());
77  typename edm::ValueMap<T>::Filler filler(*valMap);
78  filler.insert(handle, values.begin(), values.end());
79  filler.fill();
80  iEvent.put(std::move(valMap), label);
81  }
82 } // namespace
83 
84 TrackTimeValueMapProducer::TrackTimeValueMapProducer(const edm::ParameterSet &conf)
85  : tracks_(consumes<edm::View<reco::Track>>(conf.getParameter<edm::InputTag>("trackSrc"))),
86  tracksName_(conf.getParameter<edm::InputTag>("trackSrc").label()),
87  trackingParticles_(consumes<TrackingParticleCollection>(conf.getParameter<edm::InputTag>("trackingParticleSrc"))),
88  trackingVertices_(consumes<TrackingVertexCollection>(conf.getParameter<edm::InputTag>("trackingVertexSrc"))),
89  pileupSummaryInfo_(
90  consumes<std::vector<PileupSummaryInfo>>(conf.getParameter<edm::InputTag>("pileupSummaryInfo"))),
91  associators_(edm::vector_transform(
92  conf.getParameter<std::vector<edm::InputTag>>("associators"),
93  [this](const edm::InputTag &tag) { return this->consumes<reco::TrackToTrackingParticleAssociator>(tag); })),
94  etaMin_(conf.getParameter<double>("etaMin")),
95  etaMax_(conf.getParameter<double>("etaMax")),
96  ptMin_(conf.getParameter<double>("ptMin")),
97  pMin_(conf.getParameter<double>("pMin")),
98  etaMaxForPtThreshold_(conf.getParameter<double>("etaMaxForPtThreshold")) {
99  // setup resolution models
100  const std::vector<edm::ParameterSet> &resos = conf.getParameterSetVector("resolutionModels");
101  for (const auto &reso : resos) {
102  const std::string &name = reso.getParameter<std::string>("modelName");
103  resolutions_.emplace_back(ResolutionModelFactory::get()->create(name, reso));
104 
105  // times and time resolutions for general tracks
106  produces<edm::ValueMap<float>>(tracksName_ + name);
107  produces<edm::ValueMap<float>>(tracksName_ + name + resolution);
108  }
109 }
110 
111 void TrackTimeValueMapProducer::produce(edm::StreamID sid, edm::Event &evt, const edm::EventSetup &es) const {
112  // get sim track associators
113  std::vector<edm::Handle<reco::TrackToTrackingParticleAssociator>> associators;
114  for (const auto &token : associators_) {
115  associators.emplace_back();
116  auto &back = associators.back();
117  evt.getByToken(token, back);
118  }
119 
120  std::vector<float> generalTrackTimes;
121 
122  // get track collections
123  edm::Handle<edm::View<reco::Track>> TrackCollectionH;
124  evt.getByToken(tracks_, TrackCollectionH);
125  const edm::View<reco::Track> &TrackCollection = *TrackCollectionH;
126 
127  // get tracking particle collections
128  edm::Handle<TrackingParticleCollection> TPCollectionH;
129  evt.getByToken(trackingParticles_, TPCollectionH);
130 
131  edm::Handle<std::vector<PileupSummaryInfo>> pileupSummaryH;
132  evt.getByToken(pileupSummaryInfo_, pileupSummaryH);
133 
134  // transient track builder
135  edm::ESHandle<TransientTrackBuilder> theB;
136  es.get<TransientTrackRecord>().get("TransientTrackBuilder", theB);
137 
138  // associate the reco tracks / gsf Tracks
139  std::vector<reco::RecoToSimCollection> associatedTracks;
140  for (auto associator : associators) {
141  associatedTracks.emplace_back(associator->associateRecoToSim(TrackCollectionH, TPCollectionH));
142  }
143 
144  double sumSimTime = 0.;
145  double sumSimTimeSq = 0.;
146  int nsim = 0;
147  for (const PileupSummaryInfo &puinfo : *pileupSummaryH) {
148  if (puinfo.getBunchCrossing() == 0) {
149  for (const float &time : puinfo.getPU_times()) {
150  double simtime = time;
151  sumSimTime += simtime;
152  sumSimTimeSq += simtime * simtime;
153  ++nsim;
154  }
155  break;
156  }
157  }
158 
159  double meanSimTime = sumSimTime / double(nsim);
160  double varSimTime = sumSimTimeSq / double(nsim) - meanSimTime * meanSimTime;
161  double rmsSimTime = std::sqrt(std::max(0.1 * 0.1, varSimTime));
162  std::normal_distribution<float> gausSimTime(meanSimTime, rmsSimTime);
163 
164  // get event-based seed for RNG
165  unsigned int runNum_uint = static_cast<unsigned int>(evt.id().run());
166  unsigned int lumiNum_uint = static_cast<unsigned int>(evt.id().luminosityBlock());
167  unsigned int evNum_uint = static_cast<unsigned int>(evt.id().event());
168  unsigned int tkChi2_uint = uint32_t(TrackCollection.empty() ? 0 : TrackCollection.refAt(0)->chi2() / 0.01);
169  std::uint32_t seed = tkChi2_uint + (lumiNum_uint << 10) + (runNum_uint << 20) + evNum_uint;
170  std::mt19937 rng(seed);
171 
172  for (unsigned itk = 0; itk < TrackCollection.size(); ++itk) {
173  const auto tkref = TrackCollection.refAt(itk);
174  reco::RecoToSimCollection::const_iterator track_tps = associatedTracks.back().end();
175 
176  for (const auto &association : associatedTracks) {
177  track_tps = association.find(tkref);
178  if (track_tps != association.end())
179  break;
180  }
181 
182  if (track_tps != associatedTracks.back().end() && track_tps->val.size() == 1) {
183  reco::TransientTrack tt = theB->build(*tkref);
184  float time = extractTrackVertexTime(*track_tps->val[0].first, tt);
185  generalTrackTimes.push_back(time);
186  } else {
187  float rndtime = gausSimTime(rng);
188  generalTrackTimes.push_back(rndtime);
189  if (track_tps != associatedTracks.back().end() && track_tps->val.size() > 1) {
190  LogDebug("TooManyTracks") << "track matched to " << track_tps->val.size() << " tracking particles!"
191  << std::endl;
192  }
193  }
194  }
195 
196  for (const auto &reso : resolutions_) {
197  const std::string &name = reso->name();
198  std::vector<float> times, resos;
199 
200  times.reserve(TrackCollection.size());
201  resos.reserve(TrackCollection.size());
202 
203  for (unsigned i = 0; i < TrackCollection.size(); ++i) {
204  const reco::Track &tk = TrackCollection[i];
205  const float absEta = std::abs(tk.eta());
206  bool inAcceptance = absEta < etaMax_ && absEta >= etaMin_ && tk.p() > pMin_ &&
207  (absEta > etaMaxForPtThreshold_ || tk.pt() > ptMin_);
208  if (inAcceptance) {
209  const float resolution = reso->getTimeResolution(tk);
210  std::normal_distribution<float> gausGeneralTime(generalTrackTimes[i], resolution);
211  times.push_back(gausGeneralTime(rng));
212  resos.push_back(resolution);
213  } else {
214  times.push_back(0.0f);
215  resos.push_back(-1.);
216  }
217  }
218 
219  writeValueMap(evt, TrackCollectionH, times, tracksName_ + name);
220  writeValueMap(evt, TrackCollectionH, resos, tracksName_ + name + resolution);
221  }
222 }
223 
224 float TrackTimeValueMapProducer::extractTrackVertexTime(const TrackingParticle &tp,
225  const reco::TransientTrack &tt) const {
226  int pdgid = tp.pdgId();
227  const auto &tvertex = tp.parentVertex();
228  math::XYZTLorentzVectorD result = tvertex->position();
229 
230  // account for secondary vertices...
231  if (tvertex->nSourceTracks() && tvertex->sourceTracks()[0]->pdgId() == pdgid) {
232  auto pvertex = tvertex->sourceTracks()[0]->parentVertex();
233  result = pvertex->position();
234  while (pvertex->nSourceTracks() && pvertex->sourceTracks()[0]->pdgId() == pdgid) {
235  pvertex = pvertex->sourceTracks()[0]->parentVertex();
236  result = pvertex->position();
237  }
238  }
239 
240  float time = result.T() * CLHEP::second;
241  // correct for time of flight from track reference position
242  GlobalPoint result_pos(result.x(), result.y(), result.z());
243  const auto &tkstate = tt.trajectoryStateClosestToPoint(result_pos);
244  float tkphi = tkstate.momentum().phi();
245  float tkz = tkstate.position().z();
246  float dphi = reco::deltaPhi(tkphi, tt.track().phi());
247  float dz = tkz - tt.track().vz();
248 
249  float radius = 100. * tt.track().pt() / (0.3 * tt.field()->inTesla(GlobalPoint(0, 0, 0)).z());
250  float pathlengthrphi = tt.track().charge() * dphi * radius;
251 
252  float pathlength = std::sqrt(pathlengthrphi * pathlengthrphi + dz * dz);
253  float p = tt.track().p();
254 
255  float speed = std::sqrt(1. / (1. + m_pion / p)) * CLHEP::c_light / CLHEP::cm; // speed in cm/ns
256  float dt = pathlength / speed;
257 
258  return time - dt;
259 }
LogDebug
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Definition: EventID.h:39
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Definition: TrackBase.h:648
TrackTimeValueMapProducer::produce
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Definition: TrackTimeValueMapProducer.cc:111
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Definition: TrackTimeValueMapProducer.cc:60
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