d9/d40/L1Trigger_2interface_2Tau_8h_source.html

 #ifndef DataFormats_L1Trigger_Tau_h
 #define DataFormats_L1Trigger_Tau_h

 #include "DataFormats/L1Trigger/interface/L1Candidate.h"
 #include "DataFormats/L1Trigger/interface/BXVector.h"
 #include "DataFormats/L1Trigger/interface/L1TObjComparison.h"

 namespace l1t {

   class Tau;
   typedef BXVector<Tau> TauBxCollection;
   typedef edm::Ref<TauBxCollection> TauRef;
   typedef edm::RefVector<TauBxCollection> TauRefVector;
   typedef std::vector<TauRef> TauVectorRef;

   typedef ObjectRefBxCollection<Tau> TauRefBxCollection;
   typedef ObjectRefPair<Tau> TauRefPair;
   typedef ObjectRefPairBxCollection<Tau> TauRefPairBxCollection;

   class Tau : public L1Candidate {
   public:
     Tau() { clear_extended(); }

     // ctor from base allowed, but note that extended variables will be set to zero:
     Tau(const L1Candidate& rhs) : L1Candidate(rhs) { clear_extended(); }

     Tau(const LorentzVector& p4, int pt = 0, int eta = 0, int phi = 0, int qual = 0, int iso = 0);
     Tau(const PolarLorentzVector& p4, int pt = 0, int eta = 0, int phi = 0, int qual = 0, int iso = 0);

     ~Tau() override;

     void setTowerIEta(short int ieta);  // ieta of seed tower
     void setTowerIPhi(short int iphi);  // iphi of seed tower
     void setRawEt(short int et);        // raw (uncalibrated) cluster sum
     void setIsoEt(short int et);        // raw isolation sum - cluster sum
     void setNTT(short int ntt);         // n towers above threshold
     void setHasEM(bool hasEM);
     void setIsMerged(bool isMerged);

     short int towerIEta() const;
     short int towerIPhi() const;
     short int rawEt() const;
     short int isoEt() const;
     short int nTT() const;
     bool hasEM() const;
     bool isMerged() const;

     virtual bool operator==(const l1t::Tau& rhs) const;
     virtual inline bool operator!=(const l1t::Tau& rhs) const { return !(operator==(rhs)); };

   private:
     // additional hardware quantities common to L1 global tau
     void clear_extended();
     short int towerIEta_;
     short int towerIPhi_;
     short int rawEt_;
     short int isoEt_;
     short int nTT_;
     bool hasEM_;
     bool isMerged_;
   };

 }  // namespace l1t

 #endif
l1t::Tau::~Tau
~Tau() override

l1t::Tau::hasEM
bool hasEM() const

reco::LeafCandidate::eta
double eta() const  final
momentum pseudorapidity
Definition: LeafCandidate.h:152

LEDCalibrationChannels.iphi
iphi
Definition: LEDCalibrationChannels.py:64

l1t::Tau::isoEt_
short int isoEt_
Definition: Tau.h:57

edm::Ref< TauBxCollection >

l1t::Tau::setHasEM
void setHasEM(bool hasEM)

l1t::Tau
Definition: Tau.h:20

l1t::Tau::operator!=
virtual bool operator!=(const l1t::Tau &rhs) const
Definition: Tau.h:49

l1t::Tau::setRawEt
void setRawEt(short int et)

l1t::TauRefPair
ObjectRefPair< Tau > TauRefPair
Definition: Tau.h:17

l1t::Tau::Tau
Tau(const L1Candidate &rhs)
Definition: Tau.h:25

reco::LeafCandidate::pt
double pt() const  final
transverse momentum
Definition: LeafCandidate.h:146

l1t::Tau::nTT_
short int nTT_
Definition: Tau.h:58

l1t
delete x;
Definition: CaloConfig.h:22

l1t::Tau::towerIEta_
short int towerIEta_
Definition: Tau.h:54

l1t::TauBxCollection
BXVector< Tau > TauBxCollection
Definition: Tau.h:10

BXVector.h

l1t::TauRefPairBxCollection
ObjectRefPairBxCollection< Tau > TauRefPairBxCollection
Definition: Tau.h:18

l1t::Tau::towerIPhi_
short int towerIPhi_
Definition: Tau.h:55

l1t::TauRefBxCollection
ObjectRefBxCollection< Tau > TauRefBxCollection
Definition: Tau.h:16

l1t::Tau::isMerged_
bool isMerged_
Definition: Tau.h:60

l1t::Tau::isMerged
bool isMerged() const

l1t::Tau::clear_extended
void clear_extended()

reco::LeafCandidate::et
double et() const  final
transverse energy
Definition: LeafCandidate.h:127

l1t::L1Candidate
Definition: L1Candidate.h:15

l1t::TauRef
edm::Ref< TauBxCollection > TauRef
Definition: Tau.h:12

l1t::Tau::operator==
virtual bool operator==(const l1t::Tau &rhs) const

l1t::TauVectorRef
std::vector< TauRef > TauVectorRef
Definition: Tau.h:14

reco::LeafCandidate::p4
const LorentzVector & p4() const  final
four-momentum Lorentz vector
Definition: LeafCandidate.h:114

L1TObjComparison.h

l1t::Tau::rawEt_
short int rawEt_
Definition: Tau.h:56

l1t::ObjectRefPair
std::pair< edm::Ref< BXVector< T >>, edm::Ref< BXVector< T >>> ObjectRefPair
Definition: L1TObjComparison.h:14

l1t::Tau::towerIEta
short int towerIEta() const

Tau
Definition: Tau.py:1

l1t::Tau::rawEt
short int rawEt() const

l1t::Tau::hasEM_
bool hasEM_
Definition: Tau.h:59

LEDCalibrationChannels.ieta
ieta
Definition: LEDCalibrationChannels.py:63

L1Candidate.h

edm::RefVector
Definition: EDProductfwd.h:27

l1t::Tau::setNTT
void setNTT(short int ntt)

reco::Candidate::LorentzVector
math::XYZTLorentzVector LorentzVector
Lorentz vector.
Definition: Candidate.h:37

l1t::TauRefVector
edm::RefVector< TauBxCollection > TauRefVector
Definition: Tau.h:13

l1t::Tau::Tau
Tau()
Definition: Tau.h:22

l1t::Tau::setTowerIEta
void setTowerIEta(short int ieta)

BXVector
Definition: BXVector.h:15

l1t::Tau::isoEt
short int isoEt() const

l1t::Tau::towerIPhi
short int towerIPhi() const

reco::LeafCandidate::phi
double phi() const  final
momentum azimuthal angle
Definition: LeafCandidate.h:148

l1t::Tau::nTT
short int nTT() const

l1t::Tau::setIsoEt
void setIsoEt(short int et)

l1t::Tau::setTowerIPhi
void setTowerIPhi(short int iphi)

l1t::Tau::setIsMerged
void setIsMerged(bool isMerged)

reco::Candidate::PolarLorentzVector
math::PtEtaPhiMLorentzVector PolarLorentzVector
Lorentz vector.
Definition: Candidate.h:39