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Tau.h
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Tau.h
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//
//
#ifndef DataFormats_PatCandidates_Tau_h
#define DataFormats_PatCandidates_Tau_h
/**
\class pat::Tau Tau.h "DataFormats/PatCandidates/interface/Tau.h"
\brief Analysis-level tau class
pat::Tau implements the analysis-level tau class within the 'pat' namespace.
It inherits from reco::BaseTau, copies all the information from the source
reco::CaloTau or reco::PFTau, and adds some PAT-specific variable.
Please post comments and questions to the Physics Tools hypernews:
https://hypernews.cern.ch/HyperNews/CMS/get/physTools.html
\author Steven Lowette, Christophe Delaere, Giovanni Petrucciani, Frederic Ronga, Colin Bernet
*/
#include "DataFormats/TauReco/interface/BaseTau.h"
#include "DataFormats/TauReco/interface/PFTauTransverseImpactParameter.h"
#include "DataFormats/TrackReco/interface/Track.h"
#include "DataFormats/VertexReco/interface/VertexFwd.h"
#include "DataFormats/PatCandidates/interface/Lepton.h"
#include "DataFormats/JetReco/interface/GenJetCollection.h"
#include "DataFormats/Candidate/interface/Candidate.h"
#include "DataFormats/PatCandidates/interface/TauPFSpecific.h"
#include "DataFormats/PatCandidates/interface/TauCaloSpecific.h"
#include "DataFormats/PatCandidates/interface/TauJetCorrFactors.h"
#include "DataFormats/PatCandidates/interface/TauPFEssential.h"
#include "DataFormats/Common/interface/AtomicPtrCache.h"
// Define typedefs for convenience
namespace pat {
class Tau;
typedef std::vector<Tau> TauCollection;
typedef edm::Ref<TauCollection> TauRef;
typedef edm::RefVector<TauCollection> TauRefVector;
}
namespace reco {
/// pipe operator (introduced to use pat::Tau with PFTopProjectors)
std::ostream& operator<<(std::ostream& out, const pat::Tau& obj);
// bool sortByPt(const CandidatePtrVector::const_iterator &lhs, const CandidatePtrVector::const_iterator &rhs) { return (*lhs)->pt() < (*rhs)->pt(); }
}
// Class definition
namespace pat {
class PATTauSlimmer;
class Tau : public Lepton<reco::BaseTau> {
/// make friends with PATTauProducer so that it can set the initial
/// jet energy scale unequal to raw calling the private initializeJEC
/// function, which should be non accessible to any other user
friend class PATTauProducer;
public:
typedef std::pair<std::string, float> IdPair;
/// default constructor
Tau();
/// constructor from a reco tau
Tau(const reco::BaseTau & aTau);
/// constructor from a RefToBase to a reco tau (to be superseded by Ptr counterpart)
Tau(const edm::RefToBase<reco::BaseTau> & aTauRef);
/// constructor from a Ptr to a reco tau
Tau(const edm::Ptr<reco::BaseTau> & aTauRef);
/// destructor
virtual ~Tau();
/// required reimplementation of the Candidate's clone method
virtual Tau * clone() const { return new Tau(*this); }
// ---- methods for content embedding ----
/// override the reco::BaseTau::isolationTracks method, to access the internal storage of the isolation tracks
const reco::TrackRefVector & isolationTracks() const;
/// override the reco::BaseTau::leadTrack method, to access the internal storage of the leading track
reco::TrackRef leadTrack() const;
/// override the reco::BaseTau::signalTracks method, to access the internal storage of the signal tracks
const reco::TrackRefVector & signalTracks() const;
/// method to store the isolation tracks internally
void embedIsolationTracks();
/// method to store the leading track internally
void embedLeadTrack();
/// method to store the signal tracks internally
void embedSignalTracks();
///- PFTau specific content -
/// method to store the leading candidate internally
void embedLeadPFCand();
/// method to store the leading charged hadron candidate internally
void embedLeadPFChargedHadrCand();
/// method to store the leading neutral candidate internally
void embedLeadPFNeutralCand();
/// method to store the signal candidates internally
void embedSignalPFCands();
/// method to store the signal charged hadrons candidates internally
void embedSignalPFChargedHadrCands();
/// method to store the signal neutral hadrons candidates internally
void embedSignalPFNeutralHadrCands();
/// method to store the signal gamma candidates internally
void embedSignalPFGammaCands();
/// method to store the isolation candidates internally
void embedIsolationPFCands();
/// method to store the isolation charged hadrons candidates internally
void embedIsolationPFChargedHadrCands();
/// method to store the isolation neutral hadrons candidates internally
void embedIsolationPFNeutralHadrCands();
/// method to store the isolation gamma candidates internally
void embedIsolationPFGammaCands();
// ---- matched GenJet methods ----
/// return matched GenJet, built from the visible particles of a generated tau
const reco::GenJet * genJet() const;
/// set the matched GenJet
void setGenJet(const reco::GenJetRef & ref);
// ---- CaloTau accessors (getters only) ----
/// Returns true if this pat::Tau was made from a reco::CaloTau
bool isCaloTau() const { return !caloSpecific_.empty(); }
/// return CaloTau info or throw exception 'not CaloTau'
const pat::tau::TauCaloSpecific & caloSpecific() const ;
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
reco::CaloTauTagInfoRef caloTauTagInfoRef() const { return caloSpecific().CaloTauTagInfoRef_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float leadTracksignedSipt() const { return caloSpecific().leadTracksignedSipt_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float leadTrackHCAL3x3hitsEtSum() const { return caloSpecific().leadTrackHCAL3x3hitsEtSum_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float leadTrackHCAL3x3hottesthitDEta() const { return caloSpecific().leadTrackHCAL3x3hottesthitDEta_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float signalTracksInvariantMass() const { return caloSpecific().signalTracksInvariantMass_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float TracksInvariantMass() const { return caloSpecific().TracksInvariantMass_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float isolationTracksPtSum() const { return caloSpecific().isolationTracksPtSum_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float isolationECALhitsEtSum() const { return caloSpecific().isolationECALhitsEtSum_; }
/// Method copied from reco::CaloTau.
/// Throws an exception if this pat::Tau was not made from a reco::CaloTau
float maximumHCALhitEt() const { return caloSpecific().maximumHCALhitEt_; }
// ---- PFTau accessors (getters only) ----
/// Returns true if this pat::Tau was made from a reco::PFTau
bool isPFTau() const { return !pfSpecific_.empty(); }
/// return PFTau info or throw exception 'not PFTau'
const pat::tau::TauPFSpecific & pfSpecific() const ;
const pat::tau::TauPFEssential & pfEssential() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const reco::PFJetRef & pfJetRef() const { return pfSpecific().pfJetRef_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
reco::PFRecoTauChargedHadronRef leadTauChargedHadronCandidate() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const reco::PFCandidatePtr leadPFChargedHadrCand() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float leadPFChargedHadrCandsignedSipt() const { return pfSpecific().leadPFChargedHadrCandsignedSipt_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const reco::PFCandidatePtr leadPFNeutralCand() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const reco::PFCandidatePtr leadPFCand() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& signalPFCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& signalPFChargedHadrCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& signalPFNeutrHadrCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& signalPFGammaCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFRecoTauChargedHadron> & signalTauChargedHadronCandidates() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::RecoTauPiZero> & signalPiZeroCandidates() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& isolationPFCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& isolationPFChargedHadrCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& isolationPFNeutrHadrCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFCandidatePtr>& isolationPFGammaCands() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::PFRecoTauChargedHadron> & isolationTauChargedHadronCandidates() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const std::vector<reco::RecoTauPiZero> & isolationPiZeroCandidates() const;
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float isolationPFChargedHadrCandsPtSum() const { return pfSpecific().isolationPFChargedHadrCandsPtSum_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float isolationPFGammaCandsEtSum() const { return pfSpecific().isolationPFGammaCandsEtSum_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float maximumHCALPFClusterEt() const { return pfSpecific().maximumHCALPFClusterEt_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float emFraction() const { return pfSpecific().emFraction_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float hcalTotOverPLead() const { return pfSpecific().hcalTotOverPLead_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float hcalMaxOverPLead() const { return pfSpecific().hcalMaxOverPLead_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float hcal3x3OverPLead() const { return pfSpecific().hcal3x3OverPLead_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float ecalStripSumEOverPLead() const { return pfSpecific().ecalStripSumEOverPLead_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float bremsRecoveryEOverPLead() const { return pfSpecific().bremsRecoveryEOverPLead_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const reco::TrackRef & electronPreIDTrack() const { return pfSpecific().electronPreIDTrack_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float electronPreIDOutput() const { return pfSpecific().electronPreIDOutput_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
bool electronPreIDDecision() const { return pfSpecific().electronPreIDDecision_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float caloComp() const { return pfSpecific().caloComp_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
float segComp() const { return pfSpecific().segComp_; }
/// Method copied from reco::PFTau.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
bool muonDecision() const { return pfSpecific().muonDecision_; }
/// ----- Methods returning associated PFCandidates that work on PAT+AOD, PAT+embedding and miniAOD -----
/// return the PFCandidate if available (reference or embedded), or the PackedPFCandidate on miniAOD
const reco::CandidatePtr leadChargedHadrCand() const;
/// return the PFCandidate if available (reference or embedded), or the PackedPFCandidate on miniAOD
const reco::CandidatePtr leadNeutralCand() const;
/// return the PFCandidate if available (reference or embedded), or the PackedPFCandidate on miniAOD
const reco::CandidatePtr leadCand() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
bool ExistSignalCands() const;
bool ExistIsolationCands() const;
reco::CandidatePtrVector signalCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector signalChargedHadrCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector signalNeutrHadrCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector signalGammaCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector isolationCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector isolationChargedHadrCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector isolationNeutrHadrCands() const;
/// return the PFCandidates if available (reference or embedded), or the PackedPFCandidate on miniAOD
/// note that the vector is returned by value.
reco::CandidatePtrVector isolationGammaCands() const;
/// setters for the PtrVectors (for miniAOD)
void setSignalChargedHadrCands(const reco::CandidatePtrVector &ptrs) { signalChargedHadrCandPtrs_ = ptrs;}
void setSignalNeutralHadrCands(const reco::CandidatePtrVector &ptrs) { signalNeutralHadrCandPtrs_ = ptrs;}
void setSignalGammaCands(const reco::CandidatePtrVector &ptrs) { signalGammaCandPtrs_ = ptrs;}
void setIsolationChargedHadrCands(const reco::CandidatePtrVector &ptrs) { isolationChargedHadrCandPtrs_ = ptrs;}
void setIsolationNeutralHadrCands(const reco::CandidatePtrVector &ptrs) { isolationNeutralHadrCandPtrs_ = ptrs;}
void setIsolationGammaCands(const reco::CandidatePtrVector &ptrs) { isolationGammaCandPtrs_ = ptrs;}
/// ----- Top Projection business -------
/// get the number of non-null PFCandidates
size_t numberOfSourceCandidatePtrs() const ;
/// get the source candidate pointer with index i
reco::CandidatePtr sourceCandidatePtr( size_type i ) const;
/// ---- Tau lifetime information ----
/// Filled from PFTauTIPAssociation.
/// Throws an exception if this pat::Tau was not made from a reco::PFTau
const reco::PFTauTransverseImpactParameter::Point& dxy_PCA() const { return pfEssential().dxy_PCA_; }
double dxy() const { return pfEssential().dxy_; }
double dxy_error() const { return pfEssential().dxy_error_; }
double dxy_Sig() const;
const reco::VertexRef& primaryVertex() const { return pfEssential().pv_; }
const reco::PFTauTransverseImpactParameter::Point& primaryVertexPos() const { return pfEssential().pvPos_; }
const reco::PFTauTransverseImpactParameter::CovMatrix& primaryVertexCov() const { return pfEssential().pvCov_; }
bool hasSecondaryVertex() const { return pfEssential().hasSV_; }
const reco::PFTauTransverseImpactParameter::Vector& flightLength() const { return pfEssential().flightLength_; }
double flightLengthSig() const { return pfEssential().flightLengthSig_; }
reco::PFTauTransverseImpactParameter::CovMatrix flightLengthCov() const;
const reco::VertexRef& secondaryVertex() const { return pfEssential().sv_; }
const reco::PFTauTransverseImpactParameter::Point& secondaryVertexPos() const { return pfEssential().svPos_; }
const reco::PFTauTransverseImpactParameter::CovMatrix& secondaryVertexCov() const { return pfEssential().svCov_; }
/// Methods copied from reco::Jet.
/// (accessible from reco::CaloTau/reco::PFTau via reco::CaloTauTagInfo/reco::PFTauTagInfo)
const reco::Candidate::LorentzVector& p4Jet() const;
float etaetaMoment() const;
float phiphiMoment() const;
float etaphiMoment() const;
/// reconstructed tau decay mode (specific to PFTau)
int decayMode() const { return pfEssential().decayMode_; }
/// set decay mode
void setDecayMode(int);
// ---- methods for tau ID ----
/// Returns a specific tau ID associated to the pat::Tau given its name
/// For cut-based IDs, the value is 1.0 for good, 0.0 for bad.
/// The names are defined within the configuration parameterset "tauIDSources"
/// in PhysicsTools/PatAlgos/python/producersLayer1/tauProducer_cfi.py .
/// Note: an exception is thrown if the specified ID is not available
float tauID(const std::string & name) const;
float tauID(const char* name ) const {return tauID( std::string(name) );}
/// Returns true if a specific ID is available in this pat::Tau
bool isTauIDAvailable(const std::string & name) const;
/// Returns all the tau IDs in the form of <name,value> pairs
/// The 'default' ID is the first in the list
const std::vector<IdPair> & tauIDs() const { return tauIDs_; }
/// Store multiple tau ID values, discarding existing ones
/// The first one in the list becomes the 'default' tau id
void setTauIDs(const std::vector<IdPair> & ids) { tauIDs_ = ids; }
/// pipe operator (introduced to use pat::Tau with PFTopProjectors)
friend std::ostream& reco::operator<<(std::ostream& out, const Tau& obj);
/// ---- methods for jet corrections ----
/// returns the labels of all available sets of jet energy corrections
const std::vector<std::string> availableJECSets() const;
// returns the available JEC Levels for a given jecSet
const std::vector<std::string> availableJECLevels(const int& set = 0) const;
// returns the available JEC Levels for a given jecSet
const std::vector<std::string> availableJECLevels(const std::string& set) const { return availableJECLevels(jecSet(set)); };
/// returns true if the jet carries jet energy correction information
/// at all
bool jecSetsAvailable() const { return !jec_.empty(); }
/// returns true if the jet carries a set of jet energy correction
/// factors with the given label
bool jecSetAvailable(const std::string& set) const {return (jecSet(set) >= 0); };
/// returns true if the jet carries a set of jet energy correction
/// factors with the given label
bool jecSetAvailable(const unsigned int& set) const {return (set < jec_.size()); };
/// returns the label of the current set of jet energy corrections
std::string currentJECSet() const {
return currentJECSet_<jec_.size() ? jec_.at(currentJECSet_).jecSet() : std::string("ERROR");
}
/// return the name of the current step of jet energy corrections
std::string currentJECLevel() const {
return currentJECSet_<jec_.size() ? jec_.at(currentJECSet_).jecLevel(currentJECLevel_) : std::string("ERROR");
}
/// correction factor to the given level for a specific set
/// of correction factors, starting from the current level
float jecFactor(const std::string& level, const std::string& set = "") const;
/// correction factor to the given level for a specific set
/// of correction factors, starting from the current level
float jecFactor(const unsigned int& level, const unsigned int& set = 0) const;
/// copy of the jet corrected up to the given level for the set
/// of jet energy correction factors, which is currently in use
Tau correctedTauJet(const std::string& level, const std::string& set = "") const;
/// copy of the jet corrected up to the given level for the set
/// of jet energy correction factors, which is currently in use
Tau correctedTauJet(const unsigned int& level, const unsigned int& set = 0) const;
/// p4 of the jet corrected up to the given level for the set
/// of jet energy correction factors, which is currently in use
const LorentzVector& correctedP4(const std::string& level, const std::string& set = "") const {
return correctedTauJet(level, set).p4();
}
/// p4 of the jet corrected up to the given level for the set
/// of jet energy correction factors, which is currently in use
const LorentzVector& correctedP4(const unsigned int& level, const unsigned int& set = 0) const {
return correctedTauJet(level, set).p4();
}
friend class PATTauSlimmer;
protected:
/// index of the set of jec factors with given label; returns -1 if no set
/// of jec factors exists with the given label
int jecSet(const std::string& label) const;
/// update the current JEC set; used by correctedJet
void currentJECSet(const unsigned int& set) { currentJECSet_=set; };
/// update the current JEC level; used by correctedJet
void currentJECLevel(const unsigned int& level) { currentJECLevel_=level; };
/// add more sets of energy correction factors
void addJECFactors(const TauJetCorrFactors& jec) {jec_.push_back(jec); };
/// initialize the jet to a given JEC level during creation starting from Uncorrected
void initializeJEC(unsigned int level, const unsigned int set = 0);
private:
// ---- for content embedding ----
bool embeddedIsolationTracks_;
std::vector<reco::Track> isolationTracks_;
edm::AtomicPtrCache<reco::TrackRefVector> isolationTracksTransientRefVector_;
bool embeddedLeadTrack_;
std::vector<reco::Track> leadTrack_;
bool embeddedSignalTracks_;
std::vector<reco::Track> signalTracks_;
edm::AtomicPtrCache<reco::TrackRefVector> signalTracksTransientRefVector_;
// specific for PFTau
std::vector<reco::PFCandidate> leadPFCand_;
bool embeddedLeadPFCand_;
std::vector<reco::PFCandidate> leadPFChargedHadrCand_;
bool embeddedLeadPFChargedHadrCand_;
std::vector<reco::PFCandidate> leadPFNeutralCand_;
bool embeddedLeadPFNeutralCand_;
std::vector<reco::PFCandidate> signalPFCands_;
bool embeddedSignalPFCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > signalPFCandsTransientPtrs_;
std::vector<reco::PFCandidate> signalPFChargedHadrCands_;
bool embeddedSignalPFChargedHadrCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > signalPFChargedHadrCandsTransientPtrs_;
std::vector<reco::PFCandidate> signalPFNeutralHadrCands_;
bool embeddedSignalPFNeutralHadrCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > signalPFNeutralHadrCandsTransientPtrs_;
std::vector<reco::PFCandidate> signalPFGammaCands_;
bool embeddedSignalPFGammaCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > signalPFGammaCandsTransientPtrs_;
std::vector<reco::PFCandidate> isolationPFCands_;
bool embeddedIsolationPFCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > isolationPFCandsTransientPtrs_;
std::vector<reco::PFCandidate> isolationPFChargedHadrCands_;
bool embeddedIsolationPFChargedHadrCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > isolationPFChargedHadrCandsTransientPtrs_;
std::vector<reco::PFCandidate> isolationPFNeutralHadrCands_;
bool embeddedIsolationPFNeutralHadrCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > isolationPFNeutralHadrCandsTransientPtrs_;
std::vector<reco::PFCandidate> isolationPFGammaCands_;
bool embeddedIsolationPFGammaCands_;
edm::AtomicPtrCache<std::vector<reco::PFCandidatePtr> > isolationPFGammaCandsTransientPtrs_;
// ---- matched GenJet holder ----
std::vector<reco::GenJet> genJet_;
// ---- tau ID's holder ----
std::vector<IdPair> tauIDs_;
// ---- PFTau specific variables ----
/// holder for PFTau info, or empty vector if CaloTau
std::vector<pat::tau::TauPFSpecific> pfSpecific_;
// ---- CaloTau specific variables ----
/// holder for CaloTau info, or empty vector if PFTau
std::vector<pat::tau::TauCaloSpecific> caloSpecific_;
// ---- energy scale correction factors ----
// energy scale correction factors; the string carries a potential label if
// more then one set of correction factors is embedded. The label corresponds
// to the label of the jetCorrFactors module that has been embedded.
std::vector<pat::TauJetCorrFactors> jec_;
// currently applied set of jet energy correction factors (i.e. the index in
// jetEnergyCorrections_)
unsigned int currentJECSet_;
// currently applied jet energy correction level
unsigned int currentJECLevel_;
// ---- references to packed pf candidates -----
reco::CandidatePtrVector signalChargedHadrCandPtrs_;
reco::CandidatePtrVector signalNeutralHadrCandPtrs_;
reco::CandidatePtrVector signalGammaCandPtrs_;
reco::CandidatePtrVector isolationChargedHadrCandPtrs_;
reco::CandidatePtrVector isolationNeutralHadrCandPtrs_;
reco::CandidatePtrVector isolationGammaCandPtrs_;
// -- essential info to keep
std::vector<pat::tau::TauPFEssential> pfEssential_;
};
}
#endif