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//--------------------------------------------------------------------------------------------------
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// $Id: Photon.h,v 1.33 2010/09/19 23:46:27 bendavid Exp $
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//
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// Photon
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//
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// This class holds the reconstructed photon quantities.
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//
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// Authors: J.Bendavid, C.Loizides
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//--------------------------------------------------------------------------------------------------
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#ifndef MITANA_DATATREE_PHOTON_H
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#define MITANA_DATATREE_PHOTON_H
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#include "MitCommon/DataFormats/interface/Vect4M.h"
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#include "MitAna/DataTree/interface/Particle.h"
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#include "MitAna/DataTree/interface/Conversion.h"
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#include "MitAna/DataCont/interface/RefArray.h"
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namespace mithep
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{
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class Photon : public Particle
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{
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public:
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Photon() :
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fR9(0),fHadOverEm(0),fHcalDepth1OverEcal(0),
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fHcalDepth2OverEcal(0), fMaxEnergyXtal(0), fE15(0), fE25(0), fE33(0),
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fE55(0), fCovEtaEta(0), fCoviEtaiEta(0),
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fEcalRecHitIso(0),fHcalRecHitIso(0), fHcalTowerSumEtDr04(0),
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fHcalDepth1TowerSumEtDr04(0), fHcalDepth2TowerSumEtDr04(0), fSolidConeTrkIso(0),
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fHollowConeTrkIso(0),fSolidConeNTrk(0),fHollowConeNTrk(0), fEcalRecHitIsoDr03(0),
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fHcalTowerSumEtDr03(0), fHcalDepth1TowerSumEtDr03(0), fHcalDepth2TowerSumEtDr03(0),
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fSolidConeTrkIsoDr03(0), fHollowConeTrkIsoDr03(0),fSolidConeNTrkDr03(0),
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fHollowConeNTrkDr03(0), fHasPixelSeed(0), fIsEB(0), fIsEE(0), fIsEBGap(0),
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fIsEEGap(0),fIsEBEEGap(0), fIsLooseEM(0),fIsLoosePhoton(0), fIsTightPhoton(0),
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fIsConverted(0) {}
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Photon(Double_t px, Double_t py, Double_t pz, Double_t e) :
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fMom(FourVector(px,py,pz,e)),
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fR9(0),fHadOverEm(0),fHcalDepth1OverEcal(0),
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fHcalDepth2OverEcal(0), fMaxEnergyXtal(0), fE15(0), fE25(0), fE33(0),
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fE55(0), fCovEtaEta(0), fCoviEtaiEta(0),
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fEcalRecHitIso(0),fHcalRecHitIso(0), fHcalTowerSumEtDr04(0),
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fHcalDepth1TowerSumEtDr04(0), fHcalDepth2TowerSumEtDr04(0), fSolidConeTrkIso(0),
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fHollowConeTrkIso(0),fSolidConeNTrk(0),fHollowConeNTrk(0), fEcalRecHitIsoDr03(0),
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fHcalTowerSumEtDr03(0), fHcalDepth1TowerSumEtDr03(0), fHcalDepth2TowerSumEtDr03(0),
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fSolidConeTrkIsoDr03(0), fHollowConeTrkIsoDr03(0),fSolidConeNTrkDr03(0),
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fHollowConeNTrkDr03(0), fHasPixelSeed(0), fIsEB(0), fIsEE(0), fIsEBGap(0),
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fIsEEGap(0),fIsEBEEGap(0), fIsLooseEM(0),fIsLoosePhoton(0), fIsTightPhoton(0),
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fIsConverted(0) {}
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const Conversion *ConvCand(UInt_t i) const { return fConversions.At(i); }
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Double_t EcalRecHitIsoDr03() const { return fEcalRecHitIsoDr03; }
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Double_t EcalRecHitIsoDr04() const { return fEcalRecHitIso; }
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Double_t HadOverEm() const { return fHadOverEm; }
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Double_t HcalDepth1OverEcal() const { return fHcalDepth1OverEcal; }
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Double_t HcalDepth2OverEcal() const { return fHcalDepth2OverEcal; }
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Double_t MaxEnergyXtal() const { return fMaxEnergyXtal; }
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Double_t E15() const { return fE15; }
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Double_t E25() const { return fE25; }
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Double_t E33() const { return fE33; }
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Double_t E55() const { return fE55; }
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ThreeVectorC CaloPos() const { return fCaloPos.V(); }
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Double_t CovEtaEta() const { return fCovEtaEta; }
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Double_t CoviEtaiEta() const { return fCoviEtaiEta; }
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Bool_t HasPixelSeed() const { return fHasPixelSeed; }
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Double_t HcalDepth1TowerSumEtDr03() const { return fHcalDepth1TowerSumEtDr03; }
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Double_t HcalDepth1TowerSumEtDr04() const { return fHcalDepth1TowerSumEtDr04; }
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Double_t HcalDepth2TowerSumEtDr03() const { return fHcalDepth2TowerSumEtDr03; }
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Double_t HcalDepth2TowerSumEtDr04() const { return fHcalDepth2TowerSumEtDr04; }
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Double_t HcalRecHitIso() const { return fHcalRecHitIso; } // *DEPRECATED*
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Double_t HcalTowerSumEtDr03() const { return fHcalTowerSumEtDr03; }
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Double_t HcalTowerSumEtDr04() const { return fHcalTowerSumEtDr04; }
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UShort_t HollowConeNTrkDr03() const { return fHollowConeNTrkDr03; }
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UShort_t HollowConeNTrkDr04() const { return fHollowConeNTrk; }
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Double_t HollowConeTrkIsoDr03() const { return fHollowConeTrkIsoDr03; }
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Double_t HollowConeTrkIsoDr04() const { return fHollowConeTrkIso; }
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Bool_t IsEB() const { return fIsEB; }
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Bool_t IsEE() const { return fIsEE; }
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Bool_t IsEBGap() const { return fIsEBGap; }
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Bool_t IsEEGap() const { return fIsEEGap; }
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Bool_t IsEBEEGap() const { return fIsEBEEGap; }
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Bool_t IsLooseEM() const { return fIsLooseEM; } // *DEPRECATED*
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Bool_t IsLoosePhoton() const { return fIsLoosePhoton; }
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Bool_t IsTightPhoton() const { return fIsTightPhoton; }
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Bool_t IsConverted() const { return fIsConverted; }
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ThreeVector Mom3(const ThreeVector &vtx) const { return E()*(ThreeVector(CaloPos()) - vtx).Unit(); }
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FourVectorM Mom(const ThreeVector &vtx) const;
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UInt_t NConversions() const { return fConversions.Entries(); }
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EObjType ObjType() const { return kPhoton; }
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Double_t R9() const { return fR9; }
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const SuperCluster *SCluster() const { return fSuperClusterRef.Obj(); }
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Double_t SolidConeTrkIsoDr03() const { return fSolidConeTrkIsoDr03; }
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Double_t SolidConeTrkIsoDr04() const { return fSolidConeTrkIso; }
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UShort_t SolidConeNTrkDr03() const { return fSolidConeNTrkDr03; }
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UShort_t SolidConeNTrkDr04() const { return fSolidConeNTrk; }
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void AddConversion(const Conversion *c) { fConversions.Add(c); }
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void SetIsConverted(Bool_t isConv) { fIsConverted = isConv; }
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void SetMom(Double_t px, Double_t py, Double_t pz, Double_t e);
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void SetSuperCluster(const SuperCluster* sc) { fSuperClusterRef = sc; }
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void SetR9(Double_t x) { fR9 = x; }
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void SetHadOverEm(Double_t x) { fHadOverEm = x; }
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void SetHcalDepth1OverEcal(Double_t x) { fHcalDepth1OverEcal = x; }
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void SetHcalDepth2OverEcal(Double_t x) { fHcalDepth2OverEcal = x; }
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void SetMaxEnergyXtal(Double_t x) { fMaxEnergyXtal = x; }
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void SetE15(Double_t x) { fE15 = x; }
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void SetE25(Double_t x) { fE25 = x; }
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void SetE33(Double_t x) { fE33 = x; }
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void SetE55(Double_t x) { fE55 = x; }
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void SetCovEtaEta(Double_t CovEtaEta) { fCovEtaEta = CovEtaEta; }
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void SetCoviEtaiEta(Double_t CoviEtaiEta) { fCoviEtaiEta = CoviEtaiEta; }
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void SetHasPixelSeed(Bool_t x) { fHasPixelSeed = x; }
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void SetEcalRecHitIsoDr04(Double_t x) { fEcalRecHitIso = x; }
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void SetHcalTowerSumEtDr04(Double_t x) { fHcalTowerSumEtDr04 = x; }
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void SetHcalDepth1TowerSumEtDr04(Double_t x) { fHcalDepth1TowerSumEtDr04 = x; }
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void SetHcalDepth2TowerSumEtDr04(Double_t x) { fHcalDepth2TowerSumEtDr04 = x; }
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void SetSolidConeTrkIsoDr04(Double_t x) { fSolidConeTrkIso = x; }
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void SetHollowConeTrkIsoDr04(Double_t x) { fHollowConeTrkIso = x; }
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void SetSolidConeNTrkDr04(UShort_t x) { fSolidConeNTrk = x; }
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void SetHollowConeNTrkDr04(UShort_t x) { fHollowConeNTrk = x; }
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void SetEcalRecHitIsoDr03(Double_t x) { fEcalRecHitIsoDr03 = x; }
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void SetHcalTowerSumEtDr03(Double_t x) { fHcalTowerSumEtDr03 = x; }
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void SetHcalDepth1TowerSumEtDr03(Double_t x) { fHcalDepth1TowerSumEtDr03 = x; }
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void SetHcalDepth2TowerSumEtDr03(Double_t x) { fHcalDepth2TowerSumEtDr03 = x; }
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void SetSolidConeTrkIsoDr03(Double_t x) { fSolidConeTrkIsoDr03 = x; }
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void SetHollowConeTrkIsoDr03(Double_t x) { fHollowConeTrkIsoDr03 = x; }
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void SetSolidConeNTrkDr03(UShort_t x) { fSolidConeNTrkDr03 = x; }
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void SetHollowConeNTrkDr03(UShort_t x) { fHollowConeNTrkDr03 = x; }
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void SetIsEB(Bool_t x) { fIsEB = x; }
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void SetIsEE(Bool_t x) { fIsEE = x; }
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void SetIsEBGap(Bool_t x) { fIsEBGap = x; }
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void SetIsEEGap(Bool_t x) { fIsEEGap = x; }
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void SetIsEBEEGap(Bool_t x) { fIsEBEEGap = x; }
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void SetIsLooseEM(Bool_t x) { fIsLooseEM = x; }
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void SetIsLoosePhoton(Bool_t x) { fIsLoosePhoton = x; }
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void SetIsTightPhoton(Bool_t x) { fIsTightPhoton = x; }
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void SetCaloPosXYZ(Double_t x, Double_t y, Double_t z) { fCaloPos.SetXYZ(x,y,z); }
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protected:
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void GetMom() const;
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Vect4M fMom; //four momentum vector
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Vect3C fCaloPos; //shower position
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Double32_t fR9; //[0,0,14]r9=e3x3/etotal variable
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Double32_t fHadOverEm; //[0,0,14]hadronic over em fraction
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Double32_t fHcalDepth1OverEcal; //[0,0,14]hadronic over em fraction depth1
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Double32_t fHcalDepth2OverEcal; //[0,0,14]hadronic over em fraction depth2
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Double32_t fMaxEnergyXtal; //[0,0,14]maximum single crystal energy
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Double32_t fE15; //[0,0,14]1x5 crystal energy
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Double32_t fE25; //[0,0,14]2x5 crystal energy
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Double32_t fE33; //[0,0,14]3x3 crystal energy
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Double32_t fE55; //[0,0,14]5x5 crystal energy
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Double32_t fCovEtaEta; //[0,0,14]variance eta-eta
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Double32_t fCoviEtaiEta; //[0,0,14]covariance eta-eta (in crystals)
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Double32_t fEcalRecHitIso; //[0,0,14]ecal rechit based isolation dR 0.4 *RENAMING*
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Double32_t fHcalRecHitIso; //[0,0,14]hcal rechit based isolation dR 0.4 - *DEPRECATED*
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Double32_t fHcalTowerSumEtDr04; //[0,0,14]hcal tower based isolation dR 0.4
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Double32_t fHcalDepth1TowerSumEtDr04; //[0,0,14]hcal depth1 tower based isolation dR 0.4
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Double32_t fHcalDepth2TowerSumEtDr04; //[0,0,14]hcal depth2 tower based isolation dR 0.4
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Double32_t fSolidConeTrkIso; //[0,0,14]sum track pT in cone of dR 0.4 *RENAMING*
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Double32_t fHollowConeTrkIso; //[0,0,14]as above excluding the core, dR 0.4 *RENAMING*
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UShort_t fSolidConeNTrk; //number of tracks in a cone of dR 0.4 *RENAMING*
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UShort_t fHollowConeNTrk; //as above excluding the core, dR 0.4 *RENAMING*
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Double32_t fEcalRecHitIsoDr03; //[0,0,14]ecal rechit based isolation dR 0.3
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Double32_t fHcalTowerSumEtDr03; //[0,0,14] hcal tower based isolation dR 0.3
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Double32_t fHcalDepth1TowerSumEtDr03; //[0,0,14]hcal depth1 tower based isolation dR 0.3
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Double32_t fHcalDepth2TowerSumEtDr03; //[0,0,14]hcal depth2 tower based isolation dR 0.3
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Double32_t fSolidConeTrkIsoDr03; //[0,0,14]sum track pT in cone of dR 0.3
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Double32_t fHollowConeTrkIsoDr03; //[0,0,14]as above excluding the core, dR 0.3
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UShort_t fSolidConeNTrkDr03; //number of tracks in a cone of dR 0.3
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UShort_t fHollowConeNTrkDr03; //as above excluding the core, dR 0.3
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Bool_t fHasPixelSeed; //=true if super cluster has matched seed
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Bool_t fIsEB; //=true if photon is ECal barrel
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Bool_t fIsEE; //=true if photon is ECAL endcap
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Bool_t fIsEBGap; //=true photon is in ECAL barrel crystal gap
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Bool_t fIsEEGap; //=true photon is in ECAL endcap crystal gap
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Bool_t fIsEBEEGap; //=true photon is in boundary between EB/EE
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Bool_t fIsLooseEM; //=true if loose em cuts are passed *DEPRECATED*
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// LooseEM corresponds to supercluster preselection in 3_1_X
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//so this variable is now always true for photon objects
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Bool_t fIsLoosePhoton; //=true if loose photon cuts are passed
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Bool_t fIsTightPhoton; //=true if tight photon cuts are passed
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Bool_t fIsConverted; //=true if photon converted
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RefArray<Conversion> fConversions; //refs to associated conversion candidates
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Ref<SuperCluster> fSuperClusterRef; //ref to associated super cluster
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ClassDef(Photon,4) // Photon class
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};
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}
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//--------------------------------------------------------------------------------------------------
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inline void mithep::Photon::GetMom() const
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{
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// Get momentum values from stored values.
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fCachedMom.SetCoordinates(fMom.Pt(),fMom.Eta(),fMom.Phi(),fMom.M());
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}
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//--------------------------------------------------------------------------------------------------
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inline void mithep::Photon::SetMom(Double_t px, Double_t py, Double_t pz, Double_t e)
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{
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// Set momentum vector.
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fMom.SetXYZT(px, py, pz, e);
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ClearMom();
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}
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//--------------------------------------------------------------------------------------------------
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inline mithep::FourVectorM mithep::Photon::Mom(const ThreeVector &vtx) const
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{
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// Get momentum values from stored values.
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ThreeVector momv = Mom3(vtx);
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FourVectorM newmom;
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newmom.SetCoordinates(momv.Rho(),momv.Eta(),momv.Phi(),0.);
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return newmom;
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}
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#endif
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