#include <FastjetJetProducer.h>
Public Member Functions | |
FastjetJetProducer (const edm::ParameterSet &iConfig) | |
virtual void | produce (edm::Event &iEvent, const edm::EventSetup &iSetup) |
virtual | ~FastjetJetProducer () |
Protected Member Functions | |
virtual void | produceTrackJets (edm::Event &iEvent, const edm::EventSetup &iSetup) |
virtual void | runAlgorithm (edm::Event &iEvent, const edm::EventSetup &iSetup) |
Private Attributes | |
float | dxyTrVtxMax_ |
float | dzTrVtxMax_ |
float | maxVtxZ_ |
int | minVtxNdof_ |
bool | useOnlyOnePV_ |
bool | useOnlyVertexTracks_ |
Definition at line 8 of file FastjetJetProducer.h.
FastjetJetProducer::FastjetJetProducer | ( | const edm::ParameterSet & | iConfig | ) | [explicit] |
Definition at line 56 of file FastjetJetProducer.cc.
References dxyTrVtxMax_, dzTrVtxMax_, edm::ParameterSet::exists(), edm::ParameterSet::getParameter(), maxVtxZ_, minVtxNdof_, useOnlyOnePV_, and useOnlyVertexTracks_.
: VirtualJetProducer( iConfig ) { if ( iConfig.exists("UseOnlyVertexTracks") ) useOnlyVertexTracks_ = iConfig.getParameter<bool>("UseOnlyVertexTracks"); else useOnlyVertexTracks_ = false; if ( iConfig.exists("UseOnlyOnePV") ) useOnlyOnePV_ = iConfig.getParameter<bool>("UseOnlyOnePV"); else useOnlyOnePV_ = false; if ( iConfig.exists("DzTrVtxMax") ) dzTrVtxMax_ = iConfig.getParameter<double>("DzTrVtxMax"); else dzTrVtxMax_ = 999999.; if ( iConfig.exists("DxyTrVtxMax") ) dxyTrVtxMax_ = iConfig.getParameter<double>("DxyTrVtxMax"); else dxyTrVtxMax_ = 999999.; if ( iConfig.exists("MinVtxNdof") ) minVtxNdof_ = iConfig.getParameter<int>("MinVtxNdof"); else minVtxNdof_ = 5; if ( iConfig.exists("MaxVtxZ") ) maxVtxZ_ = iConfig.getParameter<double>("MaxVtxZ"); else maxVtxZ_ = 15; }
FastjetJetProducer::~FastjetJetProducer | ( | ) | [virtual] |
Definition at line 91 of file FastjetJetProducer.cc.
{ }
void FastjetJetProducer::produce | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [virtual] |
Reimplemented from VirtualJetProducer.
Definition at line 100 of file FastjetJetProducer.cc.
References VirtualJetProducer::jetTypeE, VirtualJetProducer::makeTrackJet(), and produceTrackJets().
{ // for everything but track jets if (!makeTrackJet(jetTypeE)) { // use the default production from one collection VirtualJetProducer::produce( iEvent, iSetup ); } else { // produce trackjets from tracks grouped per primary vertex produceTrackJets(iEvent, iSetup); } }
void FastjetJetProducer::produceTrackJets | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [protected, virtual] |
Definition at line 118 of file FastjetJetProducer.cc.
References dxyTrVtxMax_, dzTrVtxMax_, VirtualJetProducer::fjClusterSeq_, VirtualJetProducer::fjInputs_, VirtualJetProducer::fjJets_, newFWLiteAna::found, edm::Event::getByLabel(), VirtualJetProducer::getConstituents(), i, VirtualJetProducer::inputs_, VirtualJetProducer::inputTowers(), metsig::jet, analyzePatCleaning_cfg::jets, LogDebug, maxVtxZ_, minVtxNdof_, edm::Event::put(), runAlgorithm(), reco::Jet::setJetArea(), reco::Jet::setPileup(), reco::TrackJet::setPrimaryVertex(), reco::LeafCandidate::setVertex(), VirtualJetProducer::src_, VirtualJetProducer::srcPVs_, useOnlyOnePV_, useOnlyVertexTracks_, VirtualJetProducer::vertex_, and reco::writeSpecific().
Referenced by produce().
{ // read in the track candidates edm::Handle<edm::View<reco::RecoChargedRefCandidate> > inputsHandle; iEvent.getByLabel(src_, inputsHandle); // make collection with pointers so we can play around with it std::vector<edm::Ptr<reco::RecoChargedRefCandidate> > allInputs; std::vector<edm::Ptr<reco::Candidate> > origInputs; for (size_t i = 0; i < inputsHandle->size(); ++i) { allInputs.push_back(inputsHandle->ptrAt(i)); origInputs.push_back(inputsHandle->ptrAt(i)); } // read in the PV collection edm::Handle<reco::VertexCollection> pvCollection; iEvent.getByLabel(srcPVs_, pvCollection); // define the overall output jet container std::auto_ptr<std::vector<reco::TrackJet> > jets(new std::vector<reco::TrackJet>() ); // loop over the good vertices, clustering for each vertex separately for (reco::VertexCollection::const_iterator itVtx = pvCollection->begin(); itVtx != pvCollection->end(); ++itVtx) { if (itVtx->isFake() || itVtx->ndof() < minVtxNdof_ || fabs(itVtx->z()) > maxVtxZ_) continue; // clear the intermediate containers inputs_.clear(); fjInputs_.clear(); fjJets_.clear(); // if only vertex-associated tracks should be used if (useOnlyVertexTracks_) { // loop over the tracks associated to the vertex for (reco::Vertex::trackRef_iterator itTr = itVtx->tracks_begin(); itTr != itVtx->tracks_end(); ++itTr) { // whether a match was found in the track candidate input bool found = false; // loop over input track candidates for (std::vector<edm::Ptr<reco::RecoChargedRefCandidate> >::iterator itIn = allInputs.begin(); itIn != allInputs.end(); ++itIn) { // match the input track candidate to the track from the vertex reco::TrackRef trref(itTr->castTo<reco::TrackRef>()); // check if the tracks match if ((*itIn)->track() == trref) { found = true; // add this track candidate to the input for clustering inputs_.push_back(*itIn); // erase the track candidate from the total list of input, so we don't reuse it later allInputs.erase(itIn); // found the candidate track corresponding to the vertex track, so stop the loop break; } // end if match found } // end loop over input tracks // give an info message in case no match is found (can happen if candidates are subset of tracks used for clustering) if (!found) edm::LogInfo("FastjetTrackJetProducer") << "Ignoring a track at vertex which is not in input track collection!"; } // end loop over tracks associated to vertex // if all inpt track candidates should be used } else { // loop over input track candidates for (std::vector<edm::Ptr<reco::RecoChargedRefCandidate> >::iterator itIn = allInputs.begin(); itIn != allInputs.end(); ++itIn) { // check if the track is close enough to the vertex float dz = (*itIn)->track()->dz(itVtx->position()); float dxy = (*itIn)->track()->dxy(itVtx->position()); if (fabs(dz) > dzTrVtxMax_) continue; if (fabs(dxy) > dxyTrVtxMax_) continue; bool closervtx = false; // now loop over the good vertices a second time for (reco::VertexCollection::const_iterator itVtx2 = pvCollection->begin(); itVtx2 != pvCollection->end(); ++itVtx2) { if (itVtx->isFake() || itVtx->ndof() < minVtxNdof_ || fabs(itVtx->z()) > maxVtxZ_) continue; // and check this track is closer to any other vertex (if more than 1 vertex considered) if (!useOnlyOnePV_ && itVtx != itVtx2 && fabs((*itIn)->track()->dz(itVtx2->position())) < fabs(dz)) { closervtx = true; break; // 1 closer vertex makes the track already not matched, so break } } // don't add this track if another vertex is found closer if (closervtx) continue; // add this track candidate to the input for clustering inputs_.push_back(*itIn); // erase the track candidate from the total list of input, so we don't reuse it later allInputs.erase(itIn); // take a step back in the loop since we just erased --itIn; } } // convert candidates in inputs_ to fastjet::PseudoJets in fjInputs_ fjInputs_.reserve(inputs_.size()); inputTowers(); LogDebug("FastjetTrackJetProducer") << "Inputted towers\n"; // run algorithm, using fjInputs_, modifying fjJets_ and allocating fjClusterSeq_ runAlgorithm(iEvent, iSetup); LogDebug("FastjetTrackJetProducer") << "Ran algorithm\n"; // convert our jets and add to the overall jet vector for (unsigned int ijet=0;ijet<fjJets_.size();++ijet) { // get the constituents from fastjet std::vector<fastjet::PseudoJet> fjConstituents = sorted_by_pt(fjClusterSeq_->constituents(fjJets_[ijet])); // convert them to CandidatePtr vector std::vector<reco::CandidatePtr> constituents = getConstituents(fjConstituents); // fill the trackjet reco::TrackJet jet; // write the specifics to the jet (simultaneously sets 4-vector, vertex). writeSpecific( jet, reco::Particle::LorentzVector(fjJets_[ijet].px(), fjJets_[ijet].py(), fjJets_[ijet].pz(), fjJets_[ijet].E()), vertex_, constituents, iSetup); jet.setJetArea(0); jet.setPileup(0); jet.setPrimaryVertex(edm::Ref<reco::VertexCollection>(pvCollection, (int) (itVtx-pvCollection->begin()))); jet.setVertex(itVtx->position()); jets->push_back(jet); } if (useOnlyOnePV_) break; // stop vertex loop if only one vertex asked for } // end loop over vertices // put the jets in the collection LogDebug("FastjetTrackJetProducer") << "Put " << jets->size() << " jets in the event.\n"; iEvent.put(jets); }
void FastjetJetProducer::runAlgorithm | ( | edm::Event & | iEvent, |
const edm::EventSetup & | iSetup | ||
) | [protected, virtual] |
Implements VirtualJetProducer.
Definition at line 242 of file FastjetJetProducer.cc.
References VirtualJetProducer::doAreaFastjet_, VirtualJetProducer::doRhoFastjet_, VirtualJetProducer::fjActiveArea_, VirtualJetProducer::fjClusterSeq_, VirtualJetProducer::fjInputs_, VirtualJetProducer::fjJetDefinition_, VirtualJetProducer::fjJets_, and VirtualJetProducer::jetPtMin_.
Referenced by produceTrackJets().
{ // run algorithm if ( !doAreaFastjet_ && !doRhoFastjet_) { fjClusterSeq_ = ClusterSequencePtr( new fastjet::ClusterSequence( fjInputs_, *fjJetDefinition_ ) ); } else { fjClusterSeq_ = ClusterSequencePtr( new fastjet::ClusterSequenceArea( fjInputs_, *fjJetDefinition_ , *fjActiveArea_ ) ); } fjJets_ = fastjet::sorted_by_pt(fjClusterSeq_->inclusive_jets(jetPtMin_)); }
float FastjetJetProducer::dxyTrVtxMax_ [private] |
Definition at line 36 of file FastjetJetProducer.h.
Referenced by FastjetJetProducer(), and produceTrackJets().
float FastjetJetProducer::dzTrVtxMax_ [private] |
Definition at line 35 of file FastjetJetProducer.h.
Referenced by FastjetJetProducer(), and produceTrackJets().
float FastjetJetProducer::maxVtxZ_ [private] |
Definition at line 38 of file FastjetJetProducer.h.
Referenced by FastjetJetProducer(), and produceTrackJets().
int FastjetJetProducer::minVtxNdof_ [private] |
Definition at line 37 of file FastjetJetProducer.h.
Referenced by FastjetJetProducer(), and produceTrackJets().
bool FastjetJetProducer::useOnlyOnePV_ [private] |
Definition at line 34 of file FastjetJetProducer.h.
Referenced by FastjetJetProducer(), and produceTrackJets().
bool FastjetJetProducer::useOnlyVertexTracks_ [private] |
Definition at line 33 of file FastjetJetProducer.h.
Referenced by FastjetJetProducer(), and produceTrackJets().