HLTJetCollForElePlusJets.cc

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#include "HLTrigger/JetMET/interface/HLTJetCollForElePlusJets.h"

#include "FWCore/Framework/interface/MakerMacros.h"

#include "DataFormats/Common/interface/Handle.h"

#include "DataFormats/RecoCandidate/interface/RecoCandidate.h"
#include "DataFormats/RecoCandidate/interface/RecoEcalCandidate.h"
#include "DataFormats/EgammaCandidates/interface/Electron.h"
#include "DataFormats/EgammaReco/interface/SuperCluster.h"
#include "TVector3.h"
#include "HLTrigger/HLTcore/interface/defaultModuleLabel.h"

template <typename T>
HLTJetCollForElePlusJets<T>::HLTJetCollForElePlusJets(const edm::ParameterSet& iConfig)
    : hltElectronTag(iConfig.getParameter<edm::InputTag>("HltElectronTag")),
      sourceJetTag(iConfig.getParameter<edm::InputTag>("SourceJetTag")),
      minJetPt_(iConfig.getParameter<double>("MinJetPt")),
      maxAbsJetEta_(iConfig.getParameter<double>("MaxAbsJetEta")),
      minNJets_(iConfig.getParameter<unsigned int>("MinNJets")),
      minDeltaR_(iConfig.getParameter<double>("minDeltaR")),
      //Only for VBF
      minSoftJetPt_(iConfig.getParameter<double>("MinSoftJetPt")),
      minDeltaEta_(iConfig.getParameter<double>("MinDeltaEta")) {
  typedef std::vector<T> TCollection;
  m_theElectronToken = consumes<trigger::TriggerFilterObjectWithRefs>(hltElectronTag);
  m_theJetToken = consumes<TCollection>(sourceJetTag);
  produces<TCollection>();
}

template <typename T>
HLTJetCollForElePlusJets<T>::~HLTJetCollForElePlusJets() {
  // do anything here that needs to be done at desctruction time
  // (e.g. close files, deallocate resources etc.)
}

template <typename T>
void HLTJetCollForElePlusJets<T>::fillDescriptions(edm::ConfigurationDescriptions& descriptions) {
  edm::ParameterSetDescription desc;
  desc.add<edm::InputTag>("HltElectronTag", edm::InputTag("triggerFilterObjectWithRefs"));
  desc.add<edm::InputTag>("SourceJetTag", edm::InputTag("jetCollection"));
  desc.add<double>("MinJetPt", 30.);
  desc.add<double>("MaxAbsJetEta", 2.6);
  desc.add<unsigned int>("MinNJets", 1);
  desc.add<double>("minDeltaR", 0.5);
  //Only for VBF
  desc.add<double>("MinSoftJetPt", 25.);
  desc.add<double>("MinDeltaEta", -1.);
  descriptions.add(defaultModuleLabel<HLTJetCollForElePlusJets<T>>(), desc);
}

//
// member functions
//

// ------------ method called to produce the data  ------------
template <typename T>
void HLTJetCollForElePlusJets<T>::produce(edm::Event& iEvent, const edm::EventSetup& iSetup) {
  using namespace edm;
  using namespace std;

  typedef vector<T> TCollection;
  typedef Ref<TCollection> TRef;
  typedef edm::RefVector<TCollection> TRefVector;
  typedef std::vector<edm::RefVector<std::vector<T>, T, edm::refhelper::FindUsingAdvance<std::vector<T>, T>>>
      TCollectionVector;

  edm::Handle<trigger::TriggerFilterObjectWithRefs> PrevFilterOutput;
  iEvent.getByToken(m_theElectronToken, PrevFilterOutput);

  //its easier on the if statement flow if I try everything at once, shouldnt add to timing
  // Electrons can be stored as objects of types TriggerCluster, TriggerElectron, or TriggerPhoton
  std::vector<edm::Ref<reco::RecoEcalCandidateCollection>> clusCands;
  PrevFilterOutput->getObjects(trigger::TriggerCluster, clusCands);

  std::vector<edm::Ref<reco::ElectronCollection>> eleCands;
  PrevFilterOutput->getObjects(trigger::TriggerElectron, eleCands);

  trigger::VRphoton photonCands;
  PrevFilterOutput->getObjects(trigger::TriggerPhoton, photonCands);

  //prepare the collection of 3-D vector for electron momenta
  std::vector<TVector3> ElePs;

  if (!clusCands.empty()) {  //try trigger cluster
    for (auto& clusCand : clusCands) {
      TVector3 positionVector(clusCand->superCluster()->position().x(),
                              clusCand->superCluster()->position().y(),
                              clusCand->superCluster()->position().z());
      ElePs.push_back(positionVector);
    }
  } else if (!eleCands.empty()) {  // try trigger electrons
    for (auto& eleCand : eleCands) {
      TVector3 positionVector(eleCand->superCluster()->position().x(),
                              eleCand->superCluster()->position().y(),
                              eleCand->superCluster()->position().z());
      ElePs.push_back(positionVector);
    }
  } else if (!photonCands.empty()) {  // try trigger photons
    for (auto& photonCand : photonCands) {
      TVector3 positionVector(photonCand->superCluster()->position().x(),
                              photonCand->superCluster()->position().y(),
                              photonCand->superCluster()->position().z());
      ElePs.push_back(positionVector);
    }
  }

  edm::Handle<TCollection> theJetCollectionHandle;
  iEvent.getByToken(m_theJetToken, theJetCollectionHandle);

  const TCollection& theJetCollection = *theJetCollectionHandle;

  std::unique_ptr<TCollection> theFilteredJetCollection(new TCollection);

  std::unique_ptr<TCollectionVector> allSelections(new TCollectionVector());

  bool foundSolution(false);

  for (auto& EleP : ElePs) {
    bool VBFJetPair = false;
    std::vector<int> store_jet;
    TRefVector refVector;

    for (unsigned int j = 0; j < theJetCollection.size(); j++) {
      TVector3 JetP(theJetCollection[j].px(), theJetCollection[j].py(), theJetCollection[j].pz());
      double DR = EleP.DeltaR(JetP);

      if (JetP.Pt() > minJetPt_ && std::abs(JetP.Eta()) < maxAbsJetEta_ && DR > minDeltaR_) {
        store_jet.push_back(j);
        // The VBF part of the filter
        if (minDeltaEta_ > 0) {
          for (unsigned int k = j + 1; k < theJetCollection.size(); k++) {
            TVector3 SoftJetP(theJetCollection[k].px(), theJetCollection[k].py(), theJetCollection[k].pz());
            double softDR = EleP.DeltaR(SoftJetP);

            if (SoftJetP.Pt() > minSoftJetPt_ && std::abs(SoftJetP.Eta()) < maxAbsJetEta_ && softDR > minDeltaR_)
              if (std::abs(SoftJetP.Eta() - JetP.Eta()) > minDeltaEta_) {
                store_jet.push_back(k);
                VBFJetPair = true;
              }
          }
        }
      }
    }

    // Now remove duplicates from the jet collection to store
    std::sort(store_jet.begin(), store_jet.end());
    store_jet.erase(unique(store_jet.begin(), store_jet.end()), store_jet.end());

    // Now save the cleaned jets
    for (int& ijet : store_jet) {
      //store all selections
      refVector.push_back(TRef(theJetCollectionHandle, ijet));
      //store first selection which matches the criteria
      if (!foundSolution)
        theFilteredJetCollection->push_back(theJetCollection[ijet]);
    }
    //store all selections
    allSelections->push_back(refVector);

    if (theFilteredJetCollection->size() >= minNJets_ && minDeltaEta_ < 0)
      foundSolution = true;
    else if (VBFJetPair && minDeltaEta_ > 0)
      foundSolution = true;
    else if (!foundSolution)
      theFilteredJetCollection->clear();
  }

  iEvent.put(std::move(theFilteredJetCollection));

  return;
}