PFTauTransverseImpactParameters.cc

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/* class PFTauTransverseImpactParamters
 * EDProducer of the 
 * authors: Ian M. Nugent
 * This work is based on the impact parameter work by Rosamaria Venditti and reconstructing the 3 prong taus.
 * The idea of the fully reconstructing the tau using a kinematic fit comes from
 * Lars Perchalla and Philip Sauerland Theses under Achim Stahl supervision. This
 * work was continued by Ian M. Nugent and Vladimir Cherepanov.
 * Thanks goes to Christian Veelken and Evan Klose Friis for their help and suggestions.
 */
 
#include "FWCore/Framework/interface/EventSetup.h"
#include "FWCore/Framework/interface/ESHandle.h"
#include "FWCore/Framework/interface/Event.h"
#include "FWCore/Framework/interface/MakerMacros.h"
#include "FWCore/Framework/interface/Frameworkfwd.h"
#include "FWCore/Framework/interface/stream/EDProducer.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
#include "FWCore/MessageLogger/interface/MessageLogger.h"
#include "FWCore/Utilities/interface/Exception.h"
 
#include <FWCore/ParameterSet/interface/ConfigurationDescriptions.h>
#include <FWCore/ParameterSet/interface/ParameterSetDescription.h>
 
#include "TrackingTools/TransientTrack/interface/TransientTrackBuilder.h"
#include "TrackingTools/Records/interface/TransientTrackRecord.h"
#include "RecoVertex/VertexPrimitives/interface/TransientVertex.h"
#include "RecoBTag/SecondaryVertex/interface/SecondaryVertex.h"
#include "TrackingTools/IPTools/interface/IPTools.h"
#include "RecoVertex/VertexPrimitives/interface/ConvertToFromReco.h"
#include "TrackingTools/GeomPropagators/interface/AnalyticalTrajectoryExtrapolatorToLine.h"
#include "TrackingTools/GeomPropagators/interface/AnalyticalImpactPointExtrapolator.h"
 
#include "DataFormats/TauReco/interface/PFTau.h"
#include "DataFormats/TauReco/interface/PFTauFwd.h"
#include "DataFormats/VertexReco/interface/Vertex.h"
#include "DataFormats/VertexReco/interface/VertexFwd.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/TrackReco/interface/TrackFwd.h"
#include "DataFormats/TauReco/interface/PFTauTransverseImpactParameter.h"
#include "DataFormats/TauReco/interface/PFTauTransverseImpactParameterFwd.h"
#include "DataFormats/PatCandidates/interface/PackedCandidate.h"
 
#include "DataFormats/Common/interface/Association.h"
#include "DataFormats/Common/interface/AssociationVector.h"
#include "DataFormats/Common/interface/RefProd.h"
#include "TMath.h"
 
#include <memory>
 
using namespace reco;
using namespace edm;
using namespace std;
 
class PFTauTransverseImpactParameters : public edm::stream::EDProducer<> {
public:
  enum CMSSWPerigee { aCurv = 0, aTheta, aPhi, aTip, aLip };
  explicit PFTauTransverseImpactParameters(const edm::ParameterSet& iConfig);
  ~PFTauTransverseImpactParameters() override;
  void produce(edm::Event&, const edm::EventSetup&) override;
  static void fillDescriptions(edm::ConfigurationDescriptions& descriptions);
 
private:
  edm::EDGetTokenT<std::vector<reco::PFTau>> PFTauToken_;
  edm::EDGetTokenT<edm::AssociationVector<PFTauRefProd, std::vector<reco::VertexRef>>> PFTauPVAToken_;
  edm::EDGetTokenT<edm::AssociationVector<PFTauRefProd, std::vector<std::vector<reco::VertexRef>>>> PFTauSVAToken_;
  bool useFullCalculation_;
};
 
PFTauTransverseImpactParameters::PFTauTransverseImpactParameters(const edm::ParameterSet& iConfig)
    : PFTauToken_(consumes<std::vector<reco::PFTau>>(iConfig.getParameter<edm::InputTag>("PFTauTag"))),
      PFTauPVAToken_(consumes<edm::AssociationVector<PFTauRefProd, std::vector<reco::VertexRef>>>(
          iConfig.getParameter<edm::InputTag>("PFTauPVATag"))),
      PFTauSVAToken_(consumes<edm::AssociationVector<PFTauRefProd, std::vector<std::vector<reco::VertexRef>>>>(
          iConfig.getParameter<edm::InputTag>("PFTauSVATag"))),
      useFullCalculation_(iConfig.getParameter<bool>("useFullCalculation")) {
  produces<edm::AssociationVector<PFTauRefProd, std::vector<reco::PFTauTransverseImpactParameterRef>>>();
  produces<PFTauTransverseImpactParameterCollection>("PFTauTIP");
}
 
PFTauTransverseImpactParameters::~PFTauTransverseImpactParameters() {}
 
namespace {
  inline const reco::Track* getTrack(const Candidate& cand) {
    const PFCandidate* pfCandPtr = dynamic_cast<const PFCandidate*>(&cand);
    if (pfCandPtr != nullptr) {
      if (pfCandPtr->trackRef().isNonnull())
        return pfCandPtr->trackRef().get();
      else if (pfCandPtr->gsfTrackRef().isNonnull())
        return pfCandPtr->gsfTrackRef().get();
      else
        return nullptr;
    }
    const pat::PackedCandidate* packedCand = dynamic_cast<const pat::PackedCandidate*>(&cand);
    if (packedCand != nullptr && packedCand->hasTrackDetails())
      return &packedCand->pseudoTrack();
 
    return nullptr;
  }
}  // namespace
 
void PFTauTransverseImpactParameters::produce(edm::Event& iEvent, const edm::EventSetup& iSetup) {
  // Obtain Collections
  edm::ESHandle<TransientTrackBuilder> transTrackBuilder;
  iSetup.get<TransientTrackRecord>().get("TransientTrackBuilder", transTrackBuilder);
 
  edm::Handle<std::vector<reco::PFTau>> Tau;
  iEvent.getByToken(PFTauToken_, Tau);
 
  edm::Handle<edm::AssociationVector<PFTauRefProd, std::vector<reco::VertexRef>>> PFTauPVA;
  iEvent.getByToken(PFTauPVAToken_, PFTauPVA);
 
  edm::Handle<edm::AssociationVector<PFTauRefProd, std::vector<std::vector<reco::VertexRef>>>> PFTauSVA;
  iEvent.getByToken(PFTauSVAToken_, PFTauSVA);
 
  // Set Association Map
  auto AVPFTauTIP =
      std::make_unique<edm::AssociationVector<PFTauRefProd, std::vector<reco::PFTauTransverseImpactParameterRef>>>(
          PFTauRefProd(Tau));
  auto TIPCollection_out = std::make_unique<PFTauTransverseImpactParameterCollection>();
  reco::PFTauTransverseImpactParameterRefProd TIPRefProd_out =
      iEvent.getRefBeforePut<reco::PFTauTransverseImpactParameterCollection>("PFTauTIP");
 
  // For each Tau Run Algorithim
  if (Tau.isValid()) {
    for (reco::PFTauCollection::size_type iPFTau = 0; iPFTau < Tau->size(); iPFTau++) {
      reco::PFTauRef RefPFTau(Tau, iPFTau);
      const reco::VertexRef PV = PFTauPVA->value(RefPFTau.key());
      const std::vector<reco::VertexRef> SV = PFTauSVA->value(RefPFTau.key());
      double dxy(-999), dxy_err(-999);
      reco::Vertex::Point poca(0, 0, 0);
      double ip3d(-999), ip3d_err(-999);
      reco::Vertex::Point ip3d_poca(0, 0, 0);
      if (RefPFTau->leadChargedHadrCand().isNonnull()) {
        const reco::Track* track = getTrack(*RefPFTau->leadChargedHadrCand());
        if (track != nullptr) {
          if (useFullCalculation_) {
            reco::TransientTrack transTrk = transTrackBuilder->build(*track);
            GlobalVector direction(
                RefPFTau->p4().px(), RefPFTau->p4().py(), RefPFTau->p4().pz());  //To compute sign of IP
            std::pair<bool, Measurement1D> signed_IP2D =
                IPTools::signedTransverseImpactParameter(transTrk, direction, (*PV));
            dxy = signed_IP2D.second.value();
            dxy_err = signed_IP2D.second.error();
            std::pair<bool, Measurement1D> signed_IP3D = IPTools::signedImpactParameter3D(transTrk, direction, (*PV));
            ip3d = signed_IP3D.second.value();
            ip3d_err = signed_IP3D.second.error();
            TransverseImpactPointExtrapolator extrapolator(transTrk.field());
            GlobalPoint pos =
                extrapolator.extrapolate(transTrk.impactPointState(), RecoVertex::convertPos(PV->position()))
                    .globalPosition();
            poca = reco::Vertex::Point(pos.x(), pos.y(), pos.z());
            AnalyticalImpactPointExtrapolator extrapolator3D(transTrk.field());
            GlobalPoint pos3d =
                extrapolator3D.extrapolate(transTrk.impactPointState(), RecoVertex::convertPos(PV->position()))
                    .globalPosition();
            ip3d_poca = reco::Vertex::Point(pos3d.x(), pos3d.y(), pos3d.z());
          } else {
            dxy_err = track->d0Error();
            dxy = track->dxy(PV->position());
            ip3d_err = track->dzError();       //store dz, ip3d not available
            ip3d = track->dz(PV->position());  //store dz, ip3d not available
          }
        }
      }
      if (!SV.empty()) {
        reco::Vertex::CovarianceMatrix cov;
        reco::Vertex::Point v(SV.at(0)->x() - PV->x(), SV.at(0)->y() - PV->y(), SV.at(0)->z() - PV->z());
        for (int i = 0; i < reco::Vertex::dimension; i++) {
          for (int j = 0; j < reco::Vertex::dimension; j++) {
            cov(i, j) = SV.at(0)->covariance(i, j) + PV->covariance(i, j);
          }
        }
        GlobalVector direction(RefPFTau->px(), RefPFTau->py(), RefPFTau->pz());
        double vSig = SecondaryVertex::computeDist3d(*PV, *SV.at(0), direction, true).significance();
        reco::PFTauTransverseImpactParameter TIPV(poca, dxy, dxy_err, ip3d_poca, ip3d, ip3d_err, PV, v, vSig, SV.at(0));
        reco::PFTauTransverseImpactParameterRef TIPVRef =
            reco::PFTauTransverseImpactParameterRef(TIPRefProd_out, TIPCollection_out->size());
        TIPCollection_out->push_back(TIPV);
        AVPFTauTIP->setValue(iPFTau, TIPVRef);
      } else {
        reco::PFTauTransverseImpactParameter TIPV(poca, dxy, dxy_err, ip3d_poca, ip3d, ip3d_err, PV);
        reco::PFTauTransverseImpactParameterRef TIPVRef =
            reco::PFTauTransverseImpactParameterRef(TIPRefProd_out, TIPCollection_out->size());
        TIPCollection_out->push_back(TIPV);
        AVPFTauTIP->setValue(iPFTau, TIPVRef);
      }
    }
  }
  iEvent.put(std::move(TIPCollection_out), "PFTauTIP");
  iEvent.put(std::move(AVPFTauTIP));
}
 
void PFTauTransverseImpactParameters::fillDescriptions(edm::ConfigurationDescriptions& descriptions) {
  // PFTauTransverseImpactParameters
  edm::ParameterSetDescription desc;
  desc.add<edm::InputTag>("PFTauPVATag", edm::InputTag("PFTauPrimaryVertexProducer"));
  desc.add<bool>("useFullCalculation", false);
  desc.add<edm::InputTag>("PFTauTag", edm::InputTag("hpsPFTauProducer"));
  desc.add<edm::InputTag>("PFTauSVATag", edm::InputTag("PFTauSecondaryVertexProducer"));
  descriptions.add("PFTauTransverseImpactParameters", desc);
}
 
DEFINE_FWK_MODULE(PFTauTransverseImpactParameters);