pat::MET Class Reference

Analysis-level MET class. More...

#include "DataFormats/PatCandidates/interface/MET.h"

Inheritance diagram for pat::MET:

Classes
class	PackedMETUncertainty
	this below should be private but Reflex doesn't like it More...
struct	Vector2

Public Types
enum	METCorrectionLevel {   Raw =0, Type1 =1, Type01 =2, TypeXY =3,   Type1XY =4, Type01XY =5, Type1Smear =6, Type01Smear =7,   Type1SmearXY =8, Type01SmearXY =9, RawCalo =10, METCorrectionLevelSize =11 }
enum	METCorrectionType {   None =0, T1 =1, T0 =2, TXY =3,   TXYForRaw =4, TXYForT01 =5, TXYForT1Smear =6, TXYForT01Smear =7,   Smear =8, Calo =9, METCorrectionTypeSize =10 }
enum	METUncertainty {   JetResUp =0, JetResDown =1, JetEnUp =2, JetEnDown =3,   MuonEnUp =4, MuonEnDown =5, ElectronEnUp =6, ElectronEnDown =7,   TauEnUp =8, TauEnDown =9, UnclusteredEnUp =10, UnclusteredEnDown =11,   NoShift =12, METUncertaintySize =13, JetResUpSmear =14, JetResDownSmear =15,   METFullUncertaintySize =16 }
Public Types inherited from pat::PATObject< reco::MET >
typedef reco::MET	base_type
Public Types inherited from reco::RecoCandidate
enum	TrackType { noTrackType, recoTrackType, gsfTrackType }
	track type More...
Public Types inherited from reco::LeafCandidate
typedef int	Charge
	electric charge type More...
typedef CandidateCollection	daughters
	collection of daughter candidates More...
typedef unsigned int	index
typedef math::XYZTLorentzVector	LorentzVector
	Lorentz vector. More...
typedef math::XYZPoint	Point
	point in the space More...
typedef math::PtEtaPhiMLorentzVector	PolarLorentzVector
	Lorentz vector. More...
typedef math::XYZVector	Vector
	point in the space More...
Public Types inherited from reco::Candidate
enum	{ dimension = 3 }
enum	{ size = dimension * (dimension + 1)/2 }
	matix size More...
typedef int	Charge
	electric charge type More...
typedef candidate::const_iterator	const_iterator
typedef math::Error< dimension > ::type	CovarianceMatrix
	covariance error matrix (3x3) More...
typedef unsigned int	index
	index type More...
typedef candidate::iterator	iterator
typedef math::XYZTLorentzVector	LorentzVector
	Lorentz vector. More...
typedef math::XYZPoint	Point
	point in the space More...
typedef math::PtEtaPhiMLorentzVector	PolarLorentzVector
	Lorentz vector. More...
typedef size_t	size_type
typedef math::XYZVector	Vector
	point in the space More...

Public Member Functions
double	CaloMETInmHF () const
	Returns the event MET in HF-. More...
double	CaloMETInpHF () const
	Returns the event MET in HF+. More...
Vector2	caloMETP2 () const
double	caloMETPhi () const
double	CaloMETPhiInmHF () const
	Returns the event MET-phi in HF-. More...
double	CaloMETPhiInpHF () const
	Returns the event MET-phi in HF+. More...
double	caloMETPt () const
double	caloMetSignificance () const
	Returns the event MET Significance. More...
double	caloMETSumEt () const
double	CaloSETInmHF () const
	Returns the event SET in HF-. More...
double	CaloSETInpHF () const
	Returns the event SET in HF+. More...
const SpecificCaloMETData &	caloSpecific () const
	accessor for the CaloMET-specific structure More...
double	ChargedEMEtFraction () const
double	ChargedHadEtFraction () const
virtual MET *	clone () const
	required reimplementation of the Candidate's clone method More...
Vector2	corP2 (METCorrectionLevel level=Type1) const
Vector	corP3 (METCorrectionLevel level=Type1) const
LorentzVector	corP4 (METCorrectionLevel level=Type1) const
double	corPhi (METCorrectionLevel level=Type1) const
double	corPt (METCorrectionLevel level=Type1) const
double	corPx (METCorrectionLevel level=Type1) const
double	corPy (METCorrectionLevel level=Type1) const
double	corSumEt (METCorrectionLevel level=Type1) const
double	emEtFraction () const
	Returns the event electromagnetic energy fraction. More...
double	emEtInEB () const
	Returns the event electromagnetic energy in EB. More...
double	emEtInEE () const
	Returns the event electromagnetic energy in EE. More...
double	emEtInHF () const
	Returns the event electromagnetic energy extracted from HF. More...
double	etFractionHadronic () const
	Returns the event hadronic energy fraction. More...
const reco::GenMET *	genMET () const
	return the associated GenMET More...
double	hadEtInHB () const
	Returns the event hadronic energy in HB. More...
double	hadEtInHE () const
	Returns the event hadronic energy in HE. More...
double	hadEtInHF () const
	Returns the event hadronic energy in HF. More...
double	hadEtInHO () const
	Returns the event hadronic energy in HO. More...
bool	isCaloMET () const
	True if this pat::MET was made from a reco::CaloMET. More...
bool	isPFMET () const
	True if this pat::MET was made from a reco::pfMET. More...
bool	isRecoMET () const
	True if this pat::MET was NOT made from a reco::CaloMET nor a reco::pfMET. More...
double	maxEtInEmTowers () const
	Returns the maximum energy deposited in ECAL towers. More...
double	maxEtInHadTowers () const
	Returns the maximum energy deposited in HCAL towers. More...
	MET ()
	default constructor More...
	MET (const reco::MET &aMET)
	constructor from reco::MET More...
	MET (const edm::RefToBase< reco::MET > &aMETRef)
	constructor from a RefToBase to reco::MET (to be superseded by Ptr counterpart) More...
	MET (const edm::Ptr< reco::MET > &aMETRef)
	constructor from a Ptr to a reco::MET More...
	MET (MET const &)
	copy constructor More...
	MET (const reco::MET &corMET, const MET &srcMET)
	cosntructor for corrected METs (keeping specific informations from src MET) More...
double	metSignificance () const
double	MuonEtFraction () const
double	NeutralEMFraction () const
double	NeutralHadEtFraction () const
MET &	operator= (MET const &)
const SpecificPFMETData &	pfSpecific () const
	accessor for the pfMET-specific structure More...
void	setCorShift (double px, double py, double sumEt, METCorrectionType level)
void	setGenMET (const reco::GenMET &gm)
	set the associated GenMET More...
void	setMETSignificance (const double &metSig)
void	setUncShift (double px, double py, double sumEt, METUncertainty shift, bool isSmeared=false)
Vector2	shiftedP2 (METUncertainty shift, METCorrectionLevel level=Type1) const
Vector2	shiftedP2_74x (METUncertainty shift, METCorrectionLevel level) const
Vector	shiftedP3 (METUncertainty shift, METCorrectionLevel level=Type1) const
Vector	shiftedP3_74x (METUncertainty shift, METCorrectionLevel level) const
LorentzVector	shiftedP4 (METUncertainty shift, METCorrectionLevel level=Type1) const
LorentzVector	shiftedP4_74x (METUncertainty shift, METCorrectionLevel level) const
double	shiftedPhi (METUncertainty shift, METCorrectionLevel level=Type1) const
double	shiftedPt (METUncertainty shift, METCorrectionLevel level=Type1) const
double	shiftedPx (METUncertainty shift, METCorrectionLevel level=Type1) const
double	shiftedPy (METUncertainty shift, METCorrectionLevel level=Type1) const
double	shiftedSumEt (METUncertainty shift, METCorrectionLevel level=Type1) const
double	shiftedSumEt_74x (METUncertainty shift, METCorrectionLevel level) const
double	Type6EtFraction () const
double	Type7EtFraction () const
Vector2	uncorP2 () const
Vector	uncorP3 () const
LorentzVector	uncorP4 () const
double	uncorPhi () const
double	uncorPt () const
double	uncorPx () const
double	uncorPy () const
double	uncorSumEt () const
virtual	~MET ()
	destructor More...
Public Member Functions inherited from pat::PATObject< reco::MET >
void	addGenParticleRef (const reco::GenParticleRef &ref)
void	addTriggerObjectMatch (const TriggerObjectStandAlone &trigObj)
	add a trigger match More...
void	addUserCand (const std::string &label, const reco::CandidatePtr &data)
	Set user-defined int. More...
void	addUserData (const std::string &label, const T &data, bool transientOnly=false)
void	addUserDataFromPtr (const std::string &label, const edm::Ptr< pat::UserData > &data)
void	addUserFloat (const std::string &label, float data)
	Set user-defined float. More...
void	addUserInt (const std::string &label, int32_t data)
	Set user-defined int. More...
std::vector< std::pair < std::string, pat::LookupTableRecord > >	efficiencies () const
	Returns the efficiencies as <name,value> pairs (by value) More...
const pat::LookupTableRecord &	efficiency (const std::string &name) const
	Returns an efficiency given its name. More...
const std::vector< std::string > &	efficiencyNames () const
	Returns the list of the names of the stored efficiencies. More...
const std::vector < pat::LookupTableRecord > &	efficiencyValues () const
	Returns the list of the values of the stored efficiencies (the ordering is the same as in efficiencyNames()) More...
void	embedGenParticle ()
const reco::GenParticle *	genParticle (size_t idx=0) const
reco::GenParticleRef	genParticleById (int pdgId, int status, uint8_t autoCharge=0) const
reco::GenParticleRef	genParticleRef (size_t idx=0) const
std::vector< reco::GenParticleRef >	genParticleRefs () const
size_t	genParticlesSize () const
	Number of generator level particles stored as ref or embedded. More...
const pat::CandKinResolution &	getKinResolution (const std::string &label="") const
bool	hasKinResolution (const std::string &label="") const
	Check if the kinematic resolutions are stored into this object (possibly specifying a label for them) More...
bool	hasOverlaps (const std::string &label) const
	Returns true if there was at least one overlap for this test label. More...
bool	hasUserCand (const std::string &key) const
	Return true if there is a user-defined int with a given name. More...
bool	hasUserData (const std::string &key) const
	Check if user data with a specific type is present. More...
bool	hasUserFloat (const std::string &key) const
	Return true if there is a user-defined float with a given name. More...
bool	hasUserFloat (const char *key) const
	a CINT-friendly interface More...
bool	hasUserInt (const std::string &key) const
	Return true if there is a user-defined int with a given name. More...
const reco::Candidate *	originalObject () const
	access to the original object; returns zero for null Ref and throws for unavailable collection More...
const edm::Ptr< reco::Candidate > &	originalObjectRef () const
	reference to original object. Returns a null reference if not available More...
const std::vector< std::string > &	overlapLabels () const
	Returns the labels of the overlap tests that found at least one overlap. More...
const reco::CandidatePtrVector &	overlaps (const std::string &label) const
	PATObject ()
	default constructor More...
	PATObject (const reco::MET &obj)
	constructor from a base object (leaves invalid reference to original object!) More...
	PATObject (const edm::RefToBase< reco::MET > &ref)
	constructor from reference More...
	PATObject (const edm::Ptr< reco::MET > &ref)
	constructor from reference More...
double	resolE (const std::string &label="") const
	Resolution on energy, possibly with a label to specify which resolution to use. More...
double	resolEt (const std::string &label="") const
	Resolution on et, possibly with a label to specify which resolution to use. More...
double	resolEta (const std::string &label="") const
	Resolution on eta, possibly with a label to specify which resolution to use. More...
double	resolM (const std::string &label="") const
double	resolP (const std::string &label="") const
	Resolution on p, possibly with a label to specify which resolution to use. More...
double	resolPhi (const std::string &label="") const
	Resolution on phi, possibly with a label to specify which resolution to use. More...
double	resolPInv (const std::string &label="") const
	Resolution on 1/p, possibly with a label to specify which resolution to use. More...
double	resolPt (const std::string &label="") const
	Resolution on pt, possibly with a label to specify which resolution to use. More...
double	resolPx (const std::string &label="") const
	Resolution on px, possibly with a label to specify which resolution to use. More...
double	resolPy (const std::string &label="") const
	Resolution on py, possibly with a label to specify which resolution to use. More...
double	resolPz (const std::string &label="") const
	Resolution on pz, possibly with a label to specify which resolution to use. More...
double	resolTheta (const std::string &label="") const
	Resolution on theta, possibly with a label to specify which resolution to use. More...
void	setEfficiency (const std::string &name, const pat::LookupTableRecord &value)
void	setGenParticle (const reco::GenParticle &particle)
	Set the generator level particle from a particle not in the Event (embedding it, of course) More...
void	setGenParticleRef (const reco::GenParticleRef &ref, bool embed=false)
	Set the generator level particle reference. More...
void	setKinResolution (const pat::CandKinResolution &resol, const std::string &label="")
	Add a kinematic resolution to this object (possibly with a label) More...
void	setOverlaps (const std::string &label, const reco::CandidatePtrVector &overlaps)
const TriggerObjectStandAlone *	triggerObjectMatch (const size_t idx=0) const
	get one matched trigger object by index More...
const TriggerObjectStandAlone *	triggerObjectMatchByAlgorithm (const std::string &nameAlgorithm, const bool algoCondAccepted=true, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByAlgorithm (const char *nameAlgorithm, const bool algoCondAccepted=true, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByAlgorithm (const std::string &nameAlgorithm, const unsigned algoCondAccepted, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByAlgorithm (const char *nameAlgorithm, const unsigned algoCondAccepted, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByCollection (const std::string &coll, const size_t idx=0) const
	get one matched trigger object from a certain collection by index More...
const TriggerObjectStandAlone *	triggerObjectMatchByCollection (const char *coll, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByCondition (const std::string &nameCondition, const size_t idx=0) const
	get one matched L1 object used in a succeeding object combination of a certain L1 condition by index More...
const TriggerObjectStandAlone *	triggerObjectMatchByCondition (const char *nameCondition, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByFilter (const std::string &labelFilter, const size_t idx=0) const
	get one matched HLT object used in a certain HLT filter by index More...
const TriggerObjectStandAlone *	triggerObjectMatchByFilter (const char *labelFilter, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByFilterID (const unsigned triggerObjectType, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByPath (const std::string &namePath, const bool pathLastFilterAccepted=false, const bool pathL3FilterAccepted=true, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByPath (const char *namePath, const bool pathLastFilterAccepted=false, const bool pathL3FilterAccepted=true, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByPath (const std::string &namePath, const unsigned pathLastFilterAccepted, const unsigned pathL3FilterAccepted=1, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByPath (const char *namePath, const unsigned pathLastFilterAccepted, const unsigned pathL3FilterAccepted=1, const size_t idx=0) const
const TriggerObjectStandAlone *	triggerObjectMatchByType (const trigger::TriggerObjectType triggerObjectType, const size_t idx=0) const
	get one matched trigger object of a certain type by index More...
const TriggerObjectStandAlone *	triggerObjectMatchByType (const unsigned triggerObjectType, const size_t idx=0) const
const TriggerObjectStandAloneCollection &	triggerObjectMatches () const
	get all matched trigger objects More...
const TriggerObjectStandAloneCollection	triggerObjectMatchesByAlgorithm (const std::string &nameAlgorithm, const bool algoCondAccepted=true) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByAlgorithm (const char *nameAlgorithm, const bool algoCondAccepted=true) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByAlgorithm (const std::string &nameAlgorithm, const unsigned algoCondAccepted) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByAlgorithm (const char *nameAlgorithm, const unsigned algoCondAccepted) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByCollection (const std::string &coll) const
	get all matched trigger objects from a certain collection More...
const TriggerObjectStandAloneCollection	triggerObjectMatchesByCollection (const char *coll) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByCondition (const std::string &nameCondition) const
	get all matched L1 objects used in a succeeding object combination of a certain L1 condition More...
const TriggerObjectStandAloneCollection	triggerObjectMatchesByCondition (const char *nameCondition) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByFilter (const std::string &labelFilter) const
	get all matched HLT objects used in a certain HLT filter More...
const TriggerObjectStandAloneCollection	triggerObjectMatchesByFilter (const char *labelFilter) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByFilterID (const unsigned triggerObjectType) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByPath (const std::string &namePath, const bool pathLastFilterAccepted=false, const bool pathL3FilterAccepted=true) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByPath (const char *namePath, const bool pathLastFilterAccepted=false, const bool pathL3FilterAccepted=true) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByPath (const std::string &namePath, const unsigned pathLastFilterAccepted, const unsigned pathL3FilterAccepted=1) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByPath (const char *namePath, const unsigned pathLastFilterAccepted, const unsigned pathL3FilterAccepted=1) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByType (const trigger::TriggerObjectType triggerObjectType) const
const TriggerObjectStandAloneCollection	triggerObjectMatchesByType (const unsigned triggerObjectType) const
void	unpackTriggerObjectPathNames (const edm::TriggerNames &names)
	unpack path names of matched trigger objects (if they were packed before embedding, which is not normally the case) More...
reco::CandidatePtr	userCand (const std::string &key) const
const std::vector< std::string > &	userCandNames () const
	Get list of user-defined cand names. More...
const T *	userData (const std::string &key) const
	Returns user-defined data. Returns NULL if the data is not present, or not of type T. More...
const void *	userDataBare (const std::string &key) const
const std::vector< std::string > &	userDataNames () const
	Get list of user data object names. More...
const std::string &	userDataObjectType (const std::string &key) const
	Get human-readable type of user data object, for debugging. More...
float	userFloat (const std::string &key) const
float	userFloat (const char *key) const
	a CINT-friendly interface More...
const std::vector< std::string > &	userFloatNames () const
	Get list of user-defined float names. More...
int32_t	userInt (const std::string &key) const
const std::vector< std::string > &	userIntNames () const
	Get list of user-defined int names. More...
virtual	~PATObject ()
	destructor More...
Public Member Functions inherited from reco::MET
std::vector< double >	dmEx () const
std::vector< double >	dmEy () const
std::vector< double >	dsumEt () const
double	e_longitudinal () const
reco::METCovMatrix	getSignificanceMatrix (void) const
	MET ()
	MET (const LorentzVector &p4_, const Point &vtx_)
	MET (double sumet_, const LorentzVector &p4_, const Point &vtx_)
	MET (double sumet_, const std::vector< CorrMETData > &corr_, const LorentzVector &p4_, const Point &vtx_)
std::vector< CorrMETData >	mEtCorr () const
double	mEtSig () const
void	setSignificanceMatrix (const reco::METCovMatrix &matrix)
double	significance () const
double	sumEt () const
Public Member Functions inherited from reco::RecoCandidate
virtual const Track *	bestTrack () const
	best track pointer More...
virtual TrackBaseRef	bestTrackRef () const
	best track RefToBase More...
virtual TrackType	bestTrackType () const
	track type More...
virtual CaloTowerRef	caloTower () const
	reference to a CaloTower More...
virtual reco::TrackRef	combinedMuon () const
	reference to a stand-alone muon Track More...
virtual float	dxyError () const
	uncertainty on dxy More...
virtual float	dzError () const
	uncertainty on dz More...
virtual reco::GsfTrackRef	gsfTrack () const
	reference to a GsfTrack More...
virtual size_t	numberOfTracks () const
	number of multiple Tracks More...
	RecoCandidate ()
	default constructor More...
template<typename P4 >
	RecoCandidate (Charge q, const P4 &p4, const Point &vtx=Point(0, 0, 0), int pdgId=0, int status=0)
	constructor from values More...
virtual reco::TrackRef	standAloneMuon () const
	reference to a stand-alone muon Track More...
virtual reco::SuperClusterRef	superCluster () const
	reference to a SuperCluster More...
virtual reco::TrackRef	track () const
	reference to a Track More...
virtual reco::TrackRef	track (size_t) const
	reference to one of multiple Tracks More...
virtual	~RecoCandidate ()
	destructor More...
Public Member Functions inherited from reco::LeafCandidate
virtual Vector	boostToCM () const
virtual int	charge () const
	electric charge More...
void	construct (int qx3, float pt, float eta, float phi, float mass, const Point &vtx, int pdgId, int status)
virtual const Candidate *	daughter (size_type) const
	return daughter at a given position (throws an exception) More...
virtual Candidate *	daughter (size_type)
	return daughter at a given position (throws an exception) More...
virtual Candidate *	daughter (const std::string &s)
	return daughter with a specified role name More...
virtual const Candidate *	daughter (const std::string &s) const
	return daughter with a specified role name More...
virtual double	energy () const
	energy More...
virtual double	et () const
	transverse energy More...
virtual double	et2 () const
	transverse energy squared (use this for cut!) More...
virtual double	eta () const
	momentum pseudorapidity More...
virtual void	fillVertexCovariance (CovarianceMatrix &v) const
	fill SMatrix More...
template<typename T >
T	get () const
	get a component More...
template<typename T , typename Tag >
T	get () const
	get a component More...
template<typename T >
T	get (size_type i) const
	get a component More...
template<typename T , typename Tag >
T	get (size_type i) const
	get a component More...
virtual bool	hasMasterClone () const
virtual bool	hasMasterClonePtr () const
virtual bool	isCaloMuon () const
virtual bool	isConvertedPhoton () const
virtual bool	isElectron () const
virtual bool	isGlobalMuon () const
virtual bool	isJet () const
virtual bool	isMuon () const
virtual bool	isPhoton () const
virtual bool	isStandAloneMuon () const
virtual bool	isTrackerMuon () const
	LeafCandidate ()
	LeafCandidate (const Candidate &c)
template<typename... Args>
	LeafCandidate (Args &&...args)
	LeafCandidate (LeafCandidate &rh)
	LeafCandidate (LeafCandidate &&)=default
	LeafCandidate (LeafCandidate const &)=default
virtual bool	longLived () const
	is long lived? More...
virtual double	mass () const
	mass More...
virtual bool	massConstraint () const
	do mass constraint? More...
virtual double	massSqr () const
	mass squared More...
virtual const CandidateBaseRef &	masterClone () const
virtual const CandidatePtr &	masterClonePtr () const
template<typename Ref >
Ref	masterRef () const
	cast master clone reference to a concrete type More...
virtual Vector	momentum () const
	spatial momentum vector More...
virtual const Candidate *	mother (size_type) const
	return mother at a given position (throws an exception) More...
virtual double	mt () const
	transverse mass More...
virtual double	mtSqr () const
	transverse mass squared More...
template<typename T >
size_type	numberOf () const
	number of components More...
template<typename T , typename Tag >
size_type	numberOf () const
	number of components More...
virtual size_t	numberOfDaughters () const
	number of daughters More...
virtual size_t	numberOfMothers () const
	number of mothers More...
virtual size_t	numberOfSourceCandidatePtrs () const
LeafCandidate &	operator= (LeafCandidate &&)=default
LeafCandidate &	operator= (LeafCandidate const &)=default
virtual double	p () const
	magnitude of momentum vector More...
virtual const LorentzVector &	p4 () const
	four-momentum Lorentz vector More...
virtual int	pdgId () const
	PDG identifier. More...
virtual double	phi () const
	momentum azimuthal angle More...
virtual const PolarLorentzVector &	polarP4 () const
	four-momentum Lorentz vector More...
virtual double	pt () const
	transverse momentum More...
virtual double	px () const
	x coordinate of momentum vector More...
virtual double	py () const
	y coordinate of momentum vector More...
virtual double	pz () const
	z coordinate of momentum vector More...
virtual double	rapidity () const
	rapidity More...
virtual void	setCharge (Charge q)
	set electric charge More...
virtual void	setLongLived ()
virtual void	setMass (double m)
	set particle mass More...
virtual void	setMassConstraint ()
virtual void	setP4 (const LorentzVector &p4)
	set 4-momentum More...
virtual void	setP4 (const PolarLorentzVector &p4)
	set 4-momentum More...
virtual void	setPdgId (int pdgId)
virtual void	setPz (double pz)
virtual void	setStatus (int status)
	set status word More...
virtual void	setThreeCharge (Charge qx3)
	set electric charge More...
virtual void	setVertex (const Point &vertex)
	set vertex More...
virtual CandidatePtr	sourceCandidatePtr (size_type i) const
virtual int	status () const
	status word More...
virtual double	theta () const
	momentum polar angle More...
virtual int	threeCharge () const
	electric charge More...
virtual const Point &	vertex () const
	vertex position (overwritten by PF...) More...
virtual double	vertexChi2 () const
	chi-squares More...
virtual double	vertexCovariance (int i, int j) const
	(i, j)-th element of error matrix, i, j = 0, ... 2 More...
CovarianceMatrix	vertexCovariance () const
	return SMatrix More...
virtual double	vertexNdof () const
virtual double	vertexNormalizedChi2 () const
	chi-squared divided by n.d.o.f. More...
virtual double	vx () const
	x coordinate of vertex position More...
virtual double	vy () const
	y coordinate of vertex position More...
virtual double	vz () const
	z coordinate of vertex position More...
virtual double	y () const
	rapidity More...
virtual	~LeafCandidate ()
	destructor More...
Public Member Functions inherited from reco::Candidate
const_iterator	begin () const
	first daughter const_iterator More...
iterator	begin ()
	first daughter iterator More...
	Candidate ()
	default constructor More...
const_iterator	end () const
	last daughter const_iterator More...
iterator	end ()
	last daughter iterator More...
template<typename T >
T	get () const
	get a component More...
template<typename T , typename Tag >
T	get () const
	get a component More...
template<typename T >
T	get (size_type i) const
	get a component More...
template<typename T , typename Tag >
T	get (size_type i) const
	get a component More...
template<typename Ref >
Ref	masterRef () const
	cast master clone reference to a concrete type More...
template<typename T >
size_type	numberOf () const
	number of components More...
template<typename T , typename Tag >
size_type	numberOf () const
	number of components More...
virtual void	setSourceCandidatePtr (const CandidatePtr &ptr)
	Set the ptr to the source Candidate. More...
virtual	~Candidate ()
	destructor More...

Protected Attributes
PackedMETUncertainty	caloPackedMet_
std::vector< PackedMETUncertainty >	corrections_
std::vector< PackedMETUncertainty >	uncertainties_
std::vector< PackedMETUncertainty >	uncertaintiesRaw_
std::vector< PackedMETUncertainty >	uncertaintiesType1_
std::vector< PackedMETUncertainty >	uncertaintiesType1p2_
Protected Attributes inherited from pat::PATObject< reco::MET >
std::vector< std::string >	efficiencyNames_
	vector of the efficiencies (names) More...
std::vector < pat::LookupTableRecord >	efficiencyValues_
	vector of the efficiencies (values) More...
std::vector< reco::GenParticle >	genParticleEmbedded_
	vector to hold an embedded generator level particle More...
std::vector< reco::GenParticleRef >	genParticleRef_
	Reference to a generator level particle. More...
std::vector< std::string >	kinResolutionLabels_
std::vector < pat::CandKinResolution >	kinResolutions_
	Kinematic resolutions. More...
std::vector < reco::CandidatePtrVector >	overlapItems_
	Overlapping items (sorted by distance) More...
std::vector< std::string >	overlapLabels_
	Overlapping test labels (only if there are any overlaps) More...
edm::Ptr< reco::Candidate >	refToOrig_
TriggerObjectStandAloneCollection	triggerObjectMatchesEmbedded_
	vector of trigger matches More...
std::vector< std::string >	userCandLabels_
std::vector< reco::CandidatePtr >	userCands_
std::vector< std::string >	userDataLabels_
	User data object. More...
pat::UserDataCollection	userDataObjects_
std::vector< std::string >	userFloatLabels_
std::vector< float >	userFloats_
std::vector< std::string >	userIntLabels_
std::vector< int32_t >	userInts_

Private Member Functions
const PackedMETUncertainty	findMETTotalShift (MET::METCorrectionLevel cor, MET::METUncertainty shift) const
void	initCorMap ()

Private Attributes
std::vector< SpecificCaloMETData >	caloMET_
std::map < MET::METCorrectionLevel, std::vector < MET::METCorrectionType > >	corMap_
std::vector< reco::GenMET >	genMET_
double	metSig_
std::vector< SpecificPFMETData >	pfMET_

Additional Inherited Members
Protected Member Functions inherited from reco::RecoCandidate
template<typename R >
bool	checkOverlap (const R &r1, const R &r2) const
	check if two components overlap More...

Detailed Description

Analysis-level MET class.

pat::MET implements an analysis-level missing energy class as a 4-vector within the 'pat' namespace.

Please post comments and questions to the Physics Tools hypernews: https://hypernews.cern.ch/HyperNews/CMS/get/physTools.html

Author

Steven Lowette, Giovanni Petrucciani, Frederic Ronga, Slava Krutelyov

Definition at line 43 of file MET.h.

Member Enumeration Documentation

enum pat::MET::METCorrectionLevel

Enumerator
Raw
Type1
Type01
TypeXY
Type1XY
Type01XY
Type1Smear
Type01Smear
Type1SmearXY
Type01SmearXY
RawCalo
METCorrectionLevelSize

Definition at line 158 of file MET.h.

                              {
        Raw=0, Type1=1, Type01=2, TypeXY=3, Type1XY=4, Type01XY=5,
    Type1Smear=6, Type01Smear=7, Type1SmearXY=8, 
    Type01SmearXY=9, RawCalo=10, METCorrectionLevelSize=11
      };

enum pat::MET::METCorrectionType

Enumerator
None
T1
T0
TXY
TXYForRaw
TXYForT01
TXYForT1Smear
TXYForT01Smear
Smear
Calo
METCorrectionTypeSize

Definition at line 163 of file MET.h.

                             {
        None=0, T1=1, T0=2, TXY=3, TXYForRaw=4,
    TXYForT01=5, TXYForT1Smear=6, TXYForT01Smear=7,
    Smear=8, Calo=9, METCorrectionTypeSize=10
      };

enum pat::MET::METUncertainty

Enumerator
JetResUp
JetResDown
JetEnUp
JetEnDown
MuonEnUp
MuonEnDown
ElectronEnUp
ElectronEnDown
TauEnUp
TauEnDown
UnclusteredEnUp
UnclusteredEnDown
NoShift
METUncertaintySize
JetResUpSmear
JetResDownSmear
METFullUncertaintySize

Definition at line 152 of file MET.h.

                          {
    JetResUp=0, JetResDown=1, JetEnUp=2, JetEnDown=3,
        MuonEnUp=4, MuonEnDown=5, ElectronEnUp=6, ElectronEnDown=7, TauEnUp=8,TauEnDown=9,
        UnclusteredEnUp=10,UnclusteredEnDown=11, NoShift=12, METUncertaintySize=13,
    JetResUpSmear=14, JetResDownSmear=15, METFullUncertaintySize=16
      };

Constructor & Destructor Documentation

MET::MET

(

)

default constructor

Definition at line 11 of file MET.cc.

References initCorMap().

Referenced by clone().

         {
  initCorMap();
}

MET::MET

(

const reco::MET &

aMET

)

constructor from reco::MET

Definition at line 17 of file MET.cc.

References caloMET_, reco::PFMET::getSpecific(), reco::CaloMET::getSpecific(), initCorMap(), metSig_, operator=(), and pfMET_.

                             : PATObject<reco::MET>(aMET) {
    const reco::CaloMET * calo = dynamic_cast<const reco::CaloMET *>(&aMET);
    if (calo != 0) caloMET_.push_back(calo->getSpecific());
    const reco::PFMET * pf = dynamic_cast<const reco::PFMET *>(&aMET);
    if (pf != 0) pfMET_.push_back(pf->getSpecific());
    const pat::MET * pm = dynamic_cast<const pat::MET *>(&aMET);
    if (pm != 0) this->operator=(*pm);

    metSig_ =0.;
    initCorMap();
}

MET::MET

(

const edm::RefToBase< reco::MET > &

aMETRef

)

constructor from a RefToBase to reco::MET (to be superseded by Ptr counterpart)

constructor from ref to reco::MET

Definition at line 31 of file MET.cc.

References caloMET_, edm::RefToBase< T >::get(), reco::PFMET::getSpecific(), reco::CaloMET::getSpecific(), initCorMap(), metSig_, operator=(), and pfMET_.

                                              : PATObject<reco::MET>(aMETRef) {
    const reco::CaloMET * calo = dynamic_cast<const reco::CaloMET *>(aMETRef.get());
    if (calo != 0) caloMET_.push_back(calo->getSpecific());
    const reco::PFMET * pf = dynamic_cast<const reco::PFMET *>(aMETRef.get());
    if (pf != 0) pfMET_.push_back(pf->getSpecific());
    const pat::MET * pm = dynamic_cast<const pat::MET *>(aMETRef.get());
    if (pm != 0) this->operator=(*pm);

    metSig_ =0.;
    initCorMap();
}

MET::MET

(

const edm::Ptr< reco::MET > &

aMETRef

)

constructor from a Ptr to a reco::MET

constructor from ref to reco::MET

Definition at line 44 of file MET.cc.

References caloMET_, edm::Ptr< T >::get(), reco::PFMET::getSpecific(), reco::CaloMET::getSpecific(), initCorMap(), metSig_, operator=(), and pfMET_.

                                        : PATObject<reco::MET>(aMETRef) {
    const reco::CaloMET * calo = dynamic_cast<const reco::CaloMET *>(aMETRef.get());
    if (calo != 0) caloMET_.push_back(calo->getSpecific());
    const reco::PFMET * pf = dynamic_cast<const reco::PFMET *>(aMETRef.get());
    if (pf != 0) pfMET_.push_back(pf->getSpecific());
    const pat::MET * pm = dynamic_cast<const pat::MET *>(aMETRef.get());
    if (pm != 0) this->operator=(*pm);

    metSig_ =0.;
    initCorMap();
}

MET::MET

(

MET const &

iOther

)

copy constructor

Definition at line 57 of file MET.cc.

References initCorMap(), and metSig_.

                         :
PATObject<reco::MET>(iOther),
genMET_(iOther.genMET_),
caloMET_(iOther.caloMET_),
pfMET_(iOther.pfMET_),
metSig_(iOther.metSig_),
uncertaintiesRaw_(iOther.uncertaintiesRaw_), //74X reading compatibility
uncertaintiesType1_(iOther.uncertaintiesType1_), //74X compatibility
uncertaintiesType1p2_(iOther.uncertaintiesType1p2_), //74X compatibility
uncertainties_(iOther.uncertainties_),
corrections_(iOther.corrections_),
caloPackedMet_(iOther.caloPackedMet_) {

  metSig_ =0.;
  initCorMap();
}

MET::MET	(	const reco::MET &	corMET,
		const MET &	srcMET
	)

cosntructor for corrected METs (keeping specific informations from src MET)

constructor for corrected mets, keeping track of srcMET informations,

Definition at line 76 of file MET.cc.

References initCorMap().

                                                  :
PATObject<reco::MET>(corMET),
genMET_(srcMET.genMET_),
caloMET_(srcMET.caloMET_),
pfMET_(srcMET.pfMET_),
metSig_(srcMET.metSig_),
caloPackedMet_(srcMET.caloPackedMet_) {

  initCorMap();
}

MET::~MET ( )

virtual

destructor

Definition at line 88 of file MET.cc.

          {

}

Member Function Documentation

double pat::MET::CaloMETInmHF ( ) const

inline

Returns the event MET in HF-.

Definition at line 126 of file MET.h.

References SpecificCaloMETData::CaloMETInmHF, and caloSpecific().

{return caloSpecific().CaloMETInmHF;}

double pat::MET::CaloMETInpHF ( ) const

inline

Returns the event MET in HF+.

Definition at line 124 of file MET.h.

References SpecificCaloMETData::CaloMETInpHF, and caloSpecific().

{return caloSpecific().CaloMETInpHF;}

MET::Vector2 MET::caloMETP2

(

)

const

Definition at line 365 of file MET.cc.

References shiftedP2().

Referenced by caloMETPhi(), and caloMETPt().

                                {
  return shiftedP2(MET::METUncertainty::NoShift, MET::METCorrectionLevel::RawCalo );
}

double MET::caloMETPhi

(

)

const

Definition at line 373 of file MET.cc.

References caloMETP2(), and pat::MET::Vector2::phi().

                             {
  return caloMETP2().phi();
}

double pat::MET::CaloMETPhiInmHF ( ) const

inline

Returns the event MET-phi in HF-.

Definition at line 130 of file MET.h.

References SpecificCaloMETData::CaloMETPhiInmHF, and caloSpecific().

{return caloSpecific().CaloMETPhiInmHF;}

double pat::MET::CaloMETPhiInpHF ( ) const

inline

Returns the event MET-phi in HF+.

Definition at line 128 of file MET.h.

References SpecificCaloMETData::CaloMETPhiInpHF, and caloSpecific().

{return caloSpecific().CaloMETPhiInpHF;}

double MET::caloMETPt

(

)

const

Definition at line 369 of file MET.cc.

References caloMETP2(), and pat::MET::Vector2::pt().

                            {
  return caloMETP2().pt();
}

double pat::MET::caloMetSignificance ( ) const

inline

Returns the event MET Significance.

Definition at line 118 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::METSignificance.

{return caloSpecific().METSignificance;}

double MET::caloMETSumEt

(

)

const

Definition at line 377 of file MET.cc.

References NoShift, RawCalo, and shiftedSumEt().

                               {
  return shiftedSumEt(MET::NoShift, MET::RawCalo );
}

double pat::MET::CaloSETInmHF ( ) const

inline

Returns the event SET in HF-.

Definition at line 122 of file MET.h.

References SpecificCaloMETData::CaloSETInmHF, and caloSpecific().

{return caloSpecific().CaloSETInmHF;}

double pat::MET::CaloSETInpHF ( ) const

inline

Returns the event SET in HF+.

Definition at line 120 of file MET.h.

References SpecificCaloMETData::CaloSETInpHF, and caloSpecific().

{return caloSpecific().CaloSETInpHF;}

const SpecificCaloMETData& pat::MET::caloSpecific ( ) const

inline

accessor for the CaloMET-specific structure

Definition at line 132 of file MET.h.

References caloMET_, edm::hlt::Exception, and isCaloMET().

Referenced by CaloMETInmHF(), CaloMETInpHF(), CaloMETPhiInmHF(), CaloMETPhiInpHF(), caloMetSignificance(), CaloSETInmHF(), CaloSETInpHF(), emEtFraction(), emEtInEB(), emEtInEE(), emEtInHF(), etFractionHadronic(), hadEtInHB(), hadEtInHE(), hadEtInHF(), hadEtInHO(), maxEtInEmTowers(), and maxEtInHadTowers().

                                                       {
          if (!isCaloMET()) throw cms::Exception("pat::MET") << "This pat::MET has not been made from a reco::CaloMET\n";
          return caloMET_[0];
      }

double pat::MET::ChargedEMEtFraction ( ) const

inline

Definition at line 140 of file MET.h.

References SpecificPFMETData::ChargedEMFraction, and pfSpecific().

Referenced by METTester::analyze().

{ return pfSpecific().ChargedEMFraction; }

double pat::MET::ChargedHadEtFraction ( ) const

inline

Definition at line 141 of file MET.h.

References SpecificPFMETData::ChargedHadFraction, and pfSpecific().

Referenced by METTester::analyze(), and METAnalyzer::fillMonitorElement().

{ return pfSpecific().ChargedHadFraction; }

virtual MET* pat::MET::clone ( void  ) const

inlinevirtual

required reimplementation of the Candidate's clone method

Reimplemented from reco::MET.

Definition at line 65 of file MET.h.

References MET().

{ return new MET(*this); }

MET::Vector2 MET::corP2

(

MET::METCorrectionLevel

cor = Type1

)

const

Definition at line 312 of file MET.cc.

References NoShift, and shiftedP2().

Referenced by corPhi(), corPt(), corPx(), and corPy().

                                                      {
  return shiftedP2(MET::NoShift, cor );
}

MET::Vector MET::corP3

(

MET::METCorrectionLevel

cor = Type1

)

const

Definition at line 315 of file MET.cc.

References NoShift, and shiftedP3().

                                                     {
  return shiftedP3(MET::NoShift, cor );
}

MET::LorentzVector MET::corP4

(

MET::METCorrectionLevel

cor = Type1

)

const

Definition at line 318 of file MET.cc.

References NoShift, and shiftedP4().

                                                            {
  return shiftedP4(MET::NoShift, cor );
}

double pat::MET::corPhi ( METCorrectionLevel  level = Type1 ) const

inline

Definition at line 190 of file MET.h.

References corP2(), testEve_cfg::level, and pat::MET::Vector2::phi().

{ return corP2(level).phi(); };

double pat::MET::corPt ( METCorrectionLevel  level = Type1 ) const

inline

Definition at line 189 of file MET.h.

References corP2(), testEve_cfg::level, and pat::MET::Vector2::pt().

{ return corP2(level).pt(); };

double pat::MET::corPx ( METCorrectionLevel  level = Type1 ) const

inline

Definition at line 187 of file MET.h.

References corP2(), testEve_cfg::level, and pat::MET::Vector2::px.

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

{ return corP2(level).px; };

double pat::MET::corPy ( METCorrectionLevel  level = Type1 ) const

inline

Definition at line 188 of file MET.h.

References corP2(), testEve_cfg::level, and pat::MET::Vector2::py.

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

{ return corP2(level).py; };

double MET::corSumEt

(

MET::METCorrectionLevel

cor = Type1

)

const

Definition at line 321 of file MET.cc.

References NoShift, and shiftedSumEt().

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

                                                    {
  return shiftedSumEt(MET::NoShift, cor );
}

double pat::MET::emEtFraction ( ) const

inline

Returns the event electromagnetic energy fraction.

Definition at line 102 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::EtFractionEm.

{return caloSpecific().EtFractionEm;}

double pat::MET::emEtInEB ( ) const

inline

Returns the event electromagnetic energy in EB.

Definition at line 112 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::EmEtInEB.

{return caloSpecific().EmEtInEB;}

double pat::MET::emEtInEE ( ) const

inline

Returns the event electromagnetic energy in EE.

Definition at line 114 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::EmEtInEE.

{return caloSpecific().EmEtInEE;}

double pat::MET::emEtInHF ( ) const

inline

Returns the event electromagnetic energy extracted from HF.

Definition at line 116 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::EmEtInHF.

{return caloSpecific().EmEtInHF;}

double pat::MET::etFractionHadronic ( ) const

inline

Returns the event hadronic energy fraction.

Definition at line 100 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::EtFractionHadronic.

{return caloSpecific().EtFractionHadronic;}

const MET::PackedMETUncertainty MET::findMETTotalShift ( MET::METCorrectionLevel  cor, MET::METUncertainty  shift  ) const

private

Definition at line 187 of file MET.cc.

References pat::MET::PackedMETUncertainty::add(), corMap_, corrections_, reco::MET::dsumEt(), edm::hlt::Exception, i, JetResDown, METUncertaintySize, Type1Smear, and uncertainties_.

Referenced by shiftedP2(), shiftedP3(), shiftedP4(), and shiftedSumEt().

                                                                               {

  //find corrections shifts =============================
  std::map<MET::METCorrectionLevel, std::vector<MET::METCorrectionType> >::const_iterator itCor_ = corMap_.find(cor);
  if(itCor_==corMap_.end() ) throw cms::Exception("Unsupported", "Specified MET correction scheme does not exist");

  bool isSmeared=false;
  MET::PackedMETUncertainty totShift;
  unsigned int scor=itCor_->second.size();
  for(unsigned int i=0; i<scor;i++) {
    totShift.add( corrections_[ itCor_->second[i] ].dpx(),
          corrections_[ itCor_->second[i] ].dpy(),
          corrections_[ itCor_->second[i] ].dsumEt() );

    if(itCor_->first>=MET::Type1Smear)
      isSmeared=true;
  }

  

  //find uncertainty shift =============================
  if(shift>=MET::METUncertaintySize) throw cms::Exception("Unsupported", "MET uncertainty does not exist");
  if(isSmeared && shift<=MET::JetResDown) shift = (MET::METUncertainty)(MET::METUncertaintySize+shift+1);
                              
  totShift.add( uncertainties_[ shift ].dpx(),
        uncertainties_[ shift ].dpy(),
        uncertainties_[ shift ].dsumEt() );

  return totShift;
}

const reco::GenMET * MET::genMET

(

)

const

return the associated GenMET

return the generated MET from neutrinos

Definition at line 109 of file MET.cc.

References genMET_.

                                     {
  return (genMET_.size() > 0 ? &genMET_.front() : 0 );
}

double pat::MET::hadEtInHB ( ) const

inline

Returns the event hadronic energy in HB.

Definition at line 104 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::HadEtInHB.

{return caloSpecific().HadEtInHB;}

double pat::MET::hadEtInHE ( ) const

inline

Returns the event hadronic energy in HE.

Definition at line 108 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::HadEtInHE.

{return caloSpecific().HadEtInHE;}

double pat::MET::hadEtInHF ( ) const

inline

Returns the event hadronic energy in HF.

Definition at line 110 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::HadEtInHF.

{return caloSpecific().HadEtInHF;}

double pat::MET::hadEtInHO ( ) const

inline

Returns the event hadronic energy in HO.

Definition at line 106 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::HadEtInHO.

{return caloSpecific().HadEtInHO;}

void MET::initCorMap ( )

private

Definition at line 131 of file MET.cc.

References Calo, corMap_, None, Raw, RawCalo, Smear, T0, T1, TXY, TXYForRaw, TXYForT01, TXYForT01Smear, TXYForT1Smear, Type01, Type01Smear, Type01SmearXY, Type01XY, Type1, Type1Smear, Type1SmearXY, Type1XY, and TypeXY.

Referenced by MET().

                {

  std::vector<MET::METCorrectionType> tmpRaw;
  std::vector<MET::METCorrectionType> tmpType1;
  std::vector<MET::METCorrectionType> tmpType01;
  std::vector<MET::METCorrectionType> tmpTypeXY;
  std::vector<MET::METCorrectionType> tmpType1XY;
  std::vector<MET::METCorrectionType> tmpType01XY;
  std::vector<MET::METCorrectionType> tmpType1Smear;
  std::vector<MET::METCorrectionType> tmpType01Smear;
  std::vector<MET::METCorrectionType> tmpType1SmearXY;
  std::vector<MET::METCorrectionType> tmpType01SmearXY;
  
  tmpRaw.push_back(MET::None);
  
  tmpType1.push_back(MET::T1);
  tmpType01.push_back(MET::T1);
  tmpType1XY.push_back(MET::T1);
  tmpType01XY.push_back(MET::T1);
  tmpType1Smear.push_back(MET::T1);
  tmpType01Smear.push_back(MET::T1);
  tmpType1SmearXY.push_back(MET::T1);
  tmpType01SmearXY.push_back(MET::T1);

  tmpType01.push_back(MET::T0);
  tmpType01XY.push_back(MET::T0);
  tmpType01Smear.push_back(MET::T0);
  tmpType01SmearXY.push_back(MET::T0);
  
  tmpType1SmearXY.push_back(MET::Smear);
  tmpType01SmearXY.push_back(MET::Smear);

  tmpTypeXY.push_back(MET::TXYForRaw);
  tmpType1XY.push_back(MET::TXY);
  tmpType01XY.push_back(MET::TXYForT01);
  tmpType1SmearXY.push_back(MET::TXYForT1Smear);
  tmpType01SmearXY.push_back(MET::TXYForT01Smear);

  corMap_[MET::Raw] = tmpRaw;
  corMap_[MET::Type1] = tmpType1;
  corMap_[MET::Type01] = tmpType01;
  corMap_[MET::TypeXY] = tmpTypeXY;
  corMap_[MET::Type1XY] = tmpType1XY;
  corMap_[MET::Type01XY] = tmpType01XY;
  corMap_[MET::Type1Smear] = tmpType1Smear;
  corMap_[MET::Type01Smear] = tmpType01Smear;
  corMap_[MET::Type1SmearXY] = tmpType1SmearXY;
  corMap_[MET::Type01SmearXY] = tmpType01SmearXY;
  
  //specific calo case
  std::vector<MET::METCorrectionType> tmpRawCalo;
  tmpRawCalo.push_back(MET::Calo);
  corMap_[MET::RawCalo] = tmpRawCalo;
}

bool pat::MET::isCaloMET ( ) const

inline

True if this pat::MET was made from a reco::CaloMET.

Definition at line 88 of file MET.h.

References caloMET_.

Referenced by caloSpecific().

{ return !caloMET_.empty(); }

bool pat::MET::isPFMET ( ) const

inline

True if this pat::MET was made from a reco::pfMET.

Definition at line 90 of file MET.h.

References pfMET_.

Referenced by METTester::analyze(), and pfSpecific().

{ return !pfMET_.empty(); }

bool pat::MET::isRecoMET ( ) const

inline

True if this pat::MET was NOT made from a reco::CaloMET nor a reco::pfMET.

Definition at line 92 of file MET.h.

References caloMET_, and pfMET_.

{ return  ( caloMET_.empty() && pfMET_.empty() ); }

double pat::MET::maxEtInEmTowers ( ) const

inline

Returns the maximum energy deposited in ECAL towers.

Definition at line 96 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::MaxEtInEmTowers.

{return caloSpecific().MaxEtInEmTowers;}

double pat::MET::maxEtInHadTowers ( ) const

inline

Returns the maximum energy deposited in HCAL towers.

Definition at line 98 of file MET.h.

References caloSpecific(), and SpecificCaloMETData::MaxEtInHadTowers.

{return caloSpecific().MaxEtInHadTowers;}

double MET::metSignificance

(

)

const

Definition at line 125 of file MET.cc.

References metSig_.

                                  {
  return metSig_;
}

double pat::MET::MuonEtFraction ( ) const

inline

Definition at line 142 of file MET.h.

References SpecificPFMETData::MuonFraction, and pfSpecific().

Referenced by METTester::analyze().

{ return pfSpecific().MuonFraction; }

double pat::MET::NeutralEMFraction ( ) const

inline

Definition at line 138 of file MET.h.

References SpecificPFMETData::NeutralEMFraction, and pfSpecific().

Referenced by METTester::analyze(), and METAnalyzer::fillMonitorElement().

{ return pfSpecific().NeutralEMFraction; }

double pat::MET::NeutralHadEtFraction ( ) const

inline

Definition at line 139 of file MET.h.

References SpecificPFMETData::NeutralHadFraction, and pfSpecific().

Referenced by METTester::analyze(), and METAnalyzer::fillMonitorElement().

{ return pfSpecific().NeutralHadFraction; }

MET & MET::operator=

(

MET const &

iOther

)

Definition at line 92 of file MET.cc.

References caloMET_, caloPackedMet_, corrections_, genMET_, metSig_, pfMET_, uncertainties_, uncertaintiesRaw_, uncertaintiesType1_, and uncertaintiesType1p2_.

Referenced by MET().

                                     {
   PATObject<reco::MET>::operator=(iOther);
   genMET_ = iOther.genMET_;
   caloMET_ =iOther.caloMET_;
   pfMET_ =iOther.pfMET_;
   uncertaintiesRaw_ = iOther.uncertaintiesRaw_; //74X compatibility
   uncertaintiesType1_ = iOther.uncertaintiesType1_;
   uncertaintiesType1p2_ = iOther.uncertaintiesType1p2_;
   uncertainties_ = iOther.uncertainties_;
   corrections_ = iOther.corrections_;
   metSig_ = iOther.metSig_;
   caloPackedMet_ = iOther.caloPackedMet_;

   return *this;
}

const SpecificPFMETData& pat::MET::pfSpecific ( ) const

inline

accessor for the pfMET-specific structure

Definition at line 146 of file MET.h.

References edm::hlt::Exception, isPFMET(), and pfMET_.

Referenced by ChargedEMEtFraction(), ChargedHadEtFraction(), MuonEtFraction(), NeutralEMFraction(), NeutralHadEtFraction(), Type6EtFraction(), and Type7EtFraction().

                                                   {
          if (!isPFMET()) throw cms::Exception("pat::MET") << "This pat::MET has not been made from a reco::PFMET\n";
          return pfMET_[0];
      }

void MET::setCorShift	(	double	px,
		double	py,
		double	sumEt,
		MET::METCorrectionType	level
	)

Definition at line 356 of file MET.cc.

References corrections_, testEve_cfg::level, reco::LeafCandidate::px(), reco::LeafCandidate::py(), and reco::MET::sumEt().

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

                                                                                    {
  if (corrections_.empty()) {
    corrections_.resize(MET::METCorrectionType::METCorrectionTypeSize);
  }
  
  corrections_[level].set(px - this->px(), py - this->py(), sumEt - this->sumEt());
}

void MET::setGenMET

(

const reco::GenMET &

gm

)

set the associated GenMET

method to set the generated MET

Definition at line 114 of file MET.cc.

References genMET_.

Referenced by pat::PATMETProducer::produce().

                                         {
  genMET_.clear();
  genMET_.push_back(gm);
}

void MET::setMETSignificance

(

const double &

metSig

)

Definition at line 121 of file MET.cc.

References metSig_.

Referenced by pat::PATMETProducer::produce().

                                                 {
  metSig_ = metSig;
}

void MET::setUncShift	(	double	px,
		double	py,
		double	sumEt,
		METUncertainty	shift,
		bool	isSmeared = false
	)

Definition at line 339 of file MET.cc.

References pat::MET::PackedMETUncertainty::dpx(), pat::MET::PackedMETUncertainty::dpy(), pat::MET::PackedMETUncertainty::dsumEt(), JetResDown, reco::LeafCandidate::px(), reco::LeafCandidate::py(), edm::shift, reco::MET::sumEt(), and uncertainties_.

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

                                                                                              {
  if (uncertainties_.empty()) { 
    uncertainties_.resize(METUncertainty::METFullUncertaintySize);
  }

  if(isSmeared && shift<=MET::JetResDown) {
    //changing reference to only get the uncertainty shift and not the smeared one
    // which is performed independently
    shift = (MET::METUncertainty)(METUncertainty::METUncertaintySize+shift+1);
    const PackedMETUncertainty& ref = uncertainties_[METUncertainty::NoShift];
    uncertainties_[shift].set(px + ref.dpx() - this->px(), py + ref.dpy() - this->py(), sumEt + ref.dsumEt() - this->sumEt() );
  }
  else
    uncertainties_[shift].set(px - this->px(), py - this->py(), sumEt - this->sumEt());
  
}

MET::Vector2 MET::shiftedP2	(	MET::METUncertainty	shift,
		MET::METCorrectionLevel	cor = Type1
	)		const

Definition at line 219 of file MET.cc.

References caloPackedMet_, pat::MET::PackedMETUncertainty::dpx(), pat::MET::PackedMETUncertainty::dpy(), findMETTotalShift(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), run_regression::ret, shiftedP2_74x(), uncertaintiesRaw_, uncertaintiesType1_, and findQualityFiles::v.

Referenced by caloMETP2(), corP2(), shiftedPhi(), shiftedPt(), shiftedPx(), shiftedPy(), and uncorP2().

                                                                                   {
  
  Vector2 vo;

  //backward compatibility with 74X samples -> the only one
  // with uncertaintiesType1_/uncertaintiesRaw_ not empty
  //will be removed once 74X is not used anymore
  if(uncertaintiesType1_.size()!=0 || uncertaintiesRaw_.size()!=0) {
    if(cor!=MET::METCorrectionLevel::RawCalo) {
      vo = shiftedP2_74x(shift, cor);
    } else {
      Vector2 ret{ caloPackedMet_.dpx(), caloPackedMet_.dpy() };
      vo = ret;
    }
  }
  else {
    const MET::PackedMETUncertainty& v = findMETTotalShift(cor,shift);
    Vector2 ret{ (px() + v.dpx()), (py() + v.dpy()) };
    //return ret;
    vo = ret;
  }
  return vo;
}

MET::Vector2 MET::shiftedP2_74x	(	MET::METUncertainty	shift,
		MET::METCorrectionLevel	level
	)		const

Definition at line 382 of file MET.cc.

References edm::hlt::Exception, reco::LeafCandidate::px(), reco::LeafCandidate::py(), Raw, run_regression::ret, edm::shift, Type1, uncertaintiesRaw_, uncertaintiesType1_, and findQualityFiles::v.

Referenced by shiftedP2().

                                                                                         {
    if (level != Type1 && level != Raw) throw cms::Exception("Unsupported", "MET uncertainties only supported for Raw and Type1 in 74X samples \n");
    const std::vector<PackedMETUncertainty> &v = (level == Type1 ? uncertaintiesType1_ :  uncertaintiesRaw_);
    if (v.empty()) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type\n");
    if (v.size() == 1) {
        if (shift != MET::METUncertainty::NoShift) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type (only central value available)\n");
        return Vector2{ (px() + v.front().dpx()), (py() + v.front().dpy()) };
    }
    Vector2 ret{ (px() + v[shift].dpx()), (py() + v[shift].dpy()) };
    return ret;
}

MET::Vector MET::shiftedP3	(	MET::METUncertainty	shift,
		MET::METCorrectionLevel	cor = Type1
	)		const

Definition at line 242 of file MET.cc.

References caloPackedMet_, pat::MET::PackedMETUncertainty::dpx(), pat::MET::PackedMETUncertainty::dpy(), findMETTotalShift(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), shiftedP3_74x(), tmp, uncertaintiesRaw_, uncertaintiesType1_, and findQualityFiles::v.

Referenced by corP3(), and uncorP3().

                                                                                  {

  Vector vo;

  //backward compatibility with 74X samples -> the only one
  // with uncertaintiesType1_/uncertaintiesRaw_ not empty
  //will be removed once 74X is not used anymore
  if(uncertaintiesType1_.size()!=0 || uncertaintiesRaw_.size()!=0) {
    if(cor!=MET::METCorrectionLevel::RawCalo) {
      vo = shiftedP3_74x(shift, cor);
    } else {
      Vector tmp(caloPackedMet_.dpx(), caloPackedMet_.dpy(), 0);
      vo = tmp;
    }
  }
  else {
    const MET::PackedMETUncertainty& v = findMETTotalShift(cor,shift);
    //return Vector(px() + v.dpx(), py() + v.dpy(), 0);
    Vector tmp(px() + v.dpx(), py() + v.dpy(), 0);
    vo = tmp;
  }
  return vo;
}

MET::Vector MET::shiftedP3_74x	(	MET::METUncertainty	shift,
		MET::METCorrectionLevel	level
	)		const

Definition at line 394 of file MET.cc.

References edm::hlt::Exception, reco::LeafCandidate::px(), reco::LeafCandidate::py(), Raw, Type1, uncertaintiesRaw_, and uncertaintiesType1_.

Referenced by shiftedP3().

                                                                                        {
    if (level != Type1 && level != Raw) throw cms::Exception("Unsupported", "MET uncertainties only supported for Raw and Type1 in 74X samples \n");
    const std::vector<PackedMETUncertainty> &v = (level == Type1 ? uncertaintiesType1_ :  uncertaintiesRaw_);
    if (v.empty()) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type\n");
    if (v.size() == 1) {
        if (shift != MET::METUncertainty::NoShift) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type (only central value available)\n");
        return Vector(px() + v.front().dpx(), py() + v.front().dpy(), 0);
    }
    return Vector(px() + v[shift].dpx(), py() + v[shift].dpy(), 0);
}

MET::LorentzVector MET::shiftedP4	(	METUncertainty	shift,
		MET::METCorrectionLevel	cor = Type1
	)		const

Definition at line 265 of file MET.cc.

References caloPackedMet_, pat::MET::PackedMETUncertainty::dpx(), pat::MET::PackedMETUncertainty::dpy(), findMETTotalShift(), reco::LeafCandidate::px(), reco::LeafCandidate::py(), shiftedP4_74x(), tmp, uncertaintiesRaw_, uncertaintiesType1_, findQualityFiles::v, x(), and reco::LeafCandidate::y().

Referenced by corP4(), and uncorP4().

                                                                                      {

  LorentzVector vo;

  //backward compatibility with 74X samples -> the only one
  // with uncertaintiesType1_/uncertaintiesRaw_ not empty
  //will be removed once 74X is not used anymore
  if(uncertaintiesType1_.size()!=0 || uncertaintiesRaw_.size()!=0) {
    if(cor!=MET::METCorrectionLevel::RawCalo) {
      vo = shiftedP4_74x(shift, cor);
    } else {
      double x = caloPackedMet_.dpx(), y = caloPackedMet_.dpy();
      LorentzVector tmp(x, y, 0, std::hypot(x,y));
      vo =  tmp;
    }
  }
  else {
    const MET::PackedMETUncertainty& v = findMETTotalShift(cor,shift);
    double x = px() + v.dpx(), y = py() + v.dpy();
    //return LorentzVector(x, y, 0, std::hypot(x,y));
    LorentzVector tmp(x, y, 0, std::hypot(x,y));
    vo =  tmp;
  }
  return vo;
}

MET::LorentzVector MET::shiftedP4_74x	(	METUncertainty	shift,
		MET::METCorrectionLevel	level
	)		const

Definition at line 405 of file MET.cc.

References edm::hlt::Exception, reco::LeafCandidate::px(), reco::LeafCandidate::py(), Raw, edm::shift, Type1, uncertaintiesRaw_, uncertaintiesType1_, x(), and reco::LeafCandidate::y().

Referenced by shiftedP4().

                                                                                            {
    if (level != Type1 && level != Raw) throw cms::Exception("Unsupported", "MET uncertainties only supported for Raw and Type1 in 74X samples\n");
    const std::vector<PackedMETUncertainty> &v = (level == Type1 ? uncertaintiesType1_ : uncertaintiesRaw_);
    if (v.empty()) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type\n");
    if (v.size() == 1) {
        if (shift != MET::METUncertainty::NoShift) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type (only central value available)\n");
        double x = px() + v.front().dpx(), y = py() + v.front().dpy();
        return LorentzVector(x, y, 0, std::hypot(x,y));
    }
    double x = px() + v[shift].dpx(), y = py() + v[shift].dpy();
    return LorentzVector(x, y, 0, std::hypot(x,y));
}

double pat::MET::shiftedPhi ( METUncertainty  shift, METCorrectionLevel  level = Type1  ) const

inline

Definition at line 181 of file MET.h.

References testEve_cfg::level, pat::MET::Vector2::phi(), and shiftedP2().

{ return shiftedP2(shift,level).phi(); };

double pat::MET::shiftedPt ( METUncertainty  shift, METCorrectionLevel  level = Type1  ) const

inline

Definition at line 180 of file MET.h.

References testEve_cfg::level, pat::MET::Vector2::pt(), and shiftedP2().

{ return shiftedP2(shift,level).pt(); };

double pat::MET::shiftedPx ( METUncertainty  shift, METCorrectionLevel  level = Type1  ) const

inline

Definition at line 178 of file MET.h.

References testEve_cfg::level, pat::MET::Vector2::px, and shiftedP2().

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

{ return shiftedP2(shift,level).px; };

double pat::MET::shiftedPy ( METUncertainty  shift, METCorrectionLevel  level = Type1  ) const

inline

Definition at line 179 of file MET.h.

References testEve_cfg::level, pat::MET::Vector2::py, and shiftedP2().

Referenced by pat::PATMETSlimmer::OneMETShift::readAndSet().

{ return shiftedP2(shift,level).py; };

double MET::shiftedSumEt	(	MET::METUncertainty	shift,
		MET::METCorrectionLevel	cor = Type1
	)		const

Definition at line 290 of file MET.cc.

References caloPackedMet_, pat::MET::PackedMETUncertainty::dsumEt(), findMETTotalShift(), shiftedSumEt_74x(), reco::MET::sumEt(), uncertaintiesRaw_, uncertaintiesType1_, and findQualityFiles::v.

Referenced by caloMETSumEt(), corSumEt(), pat::PATMETSlimmer::OneMETShift::readAndSet(), and uncorSumEt().

                                                                                 {

  double sumEto;

  //backward compatibility with 74X samples -> the only one
  // with uncertaintiesType1_/uncertaintiesRaw_ not empty
  //will be removed once 74X is not used anymore
  if(uncertaintiesType1_.size()!=0 || uncertaintiesRaw_.size()!=0) {
    if(cor!=MET::METCorrectionLevel::RawCalo) {
      sumEto = shiftedSumEt_74x(shift, cor);
    } else {
      sumEto = caloPackedMet_.dsumEt();
    }
  }
  else {
    const MET::PackedMETUncertainty& v = findMETTotalShift(cor,shift);
    //return sumEt() + v.dsumEt();
    sumEto = sumEt() + v.dsumEt();
  }
  return sumEto;
}

double MET::shiftedSumEt_74x	(	MET::METUncertainty	shift,
		MET::METCorrectionLevel	level
	)		const

Definition at line 418 of file MET.cc.

References edm::hlt::Exception, Raw, edm::shift, reco::MET::sumEt(), Type1, uncertaintiesRaw_, and uncertaintiesType1_.

Referenced by shiftedSumEt().

                                                                                       {
    if (level != Type1 && level != Raw) throw cms::Exception("Unsupported", "MET uncertainties only supported for Raw and Type1 in 74X samples\n");
    const std::vector<PackedMETUncertainty> &v = (level == Type1 ? uncertaintiesType1_ : uncertaintiesRaw_);
    if (v.empty()) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type\n");
    if (v.size() == 1) {
        if (shift != MET::METUncertainty::NoShift) throw cms::Exception("Unsupported", "MET uncertainties not available for the specified correction type (only central value available)\n");
        return sumEt() + v.front().dsumEt();
    }
    return sumEt() + v[shift].dsumEt();
}

double pat::MET::Type6EtFraction ( ) const

inline

Definition at line 143 of file MET.h.

References pfSpecific(), and SpecificPFMETData::Type6Fraction.

Referenced by METTester::analyze(), and METAnalyzer::fillMonitorElement().

{ return pfSpecific().Type6Fraction; }

double pat::MET::Type7EtFraction ( ) const

inline

Definition at line 144 of file MET.h.

References pfSpecific(), and SpecificPFMETData::Type7Fraction.

Referenced by METTester::analyze(), and METAnalyzer::fillMonitorElement().

{ return pfSpecific().Type7Fraction; }

MET::Vector2 MET::uncorP2

(

)

const

Definition at line 325 of file MET.cc.

References NoShift, Raw, and shiftedP2().

Referenced by uncorPhi(), uncorPt(), uncorPx(), and uncorPy().

                               {
  return shiftedP2(MET::NoShift, MET::Raw );
}

MET::Vector MET::uncorP3

(

)

const

Definition at line 328 of file MET.cc.

References NoShift, Raw, and shiftedP3().

                              {
  return shiftedP3(MET::NoShift, MET::Raw );
}

MET::LorentzVector MET::uncorP4

(

)

const

Definition at line 331 of file MET.cc.

References NoShift, Raw, and shiftedP4().

                                     {
  return shiftedP4(MET::NoShift, MET::Raw );
}

double pat::MET::uncorPhi ( ) const

inline

Definition at line 199 of file MET.h.

References pat::MET::Vector2::phi(), and uncorP2().

{ return uncorP2().phi(); };

double pat::MET::uncorPt ( ) const

inline

Definition at line 198 of file MET.h.

References pat::MET::Vector2::pt(), and uncorP2().

{ return uncorP2().pt(); };

double pat::MET::uncorPx ( ) const

inline

Definition at line 196 of file MET.h.

References pat::MET::Vector2::px, and uncorP2().

{ return uncorP2().px; };

double pat::MET::uncorPy ( ) const

inline

Definition at line 197 of file MET.h.

References pat::MET::Vector2::py, and uncorP2().

{ return uncorP2().py; };

double MET::uncorSumEt

(

)

const

Definition at line 334 of file MET.cc.

References NoShift, Raw, and shiftedSumEt().

                             {
  return shiftedSumEt(MET::NoShift, MET::Raw );
}

Member Data Documentation

std::vector<SpecificCaloMETData> pat::MET::caloMET_

private

Definition at line 247 of file MET.h.

Referenced by caloSpecific(), isCaloMET(), isRecoMET(), MET(), and operator=().

PackedMETUncertainty pat::MET::caloPackedMet_

protected

Definition at line 270 of file MET.h.

Referenced by operator=(), shiftedP2(), shiftedP3(), shiftedP4(), and shiftedSumEt().

std::map<MET::METCorrectionLevel, std::vector<MET::METCorrectionType> > pat::MET::corMap_

private

Definition at line 256 of file MET.h.

Referenced by findMETTotalShift(), and initCorMap().

std::vector<PackedMETUncertainty> pat::MET::corrections_

protected

Definition at line 268 of file MET.h.

Referenced by findMETTotalShift(), operator=(), and setCorShift().

std::vector<reco::GenMET> pat::MET::genMET_

private

Definition at line 245 of file MET.h.

Referenced by genMET(), operator=(), and setGenMET().

double pat::MET::metSig_

private

Definition at line 252 of file MET.h.

Referenced by MET(), metSignificance(), operator=(), and setMETSignificance().

std::vector<SpecificPFMETData> pat::MET::pfMET_

private

Definition at line 249 of file MET.h.

Referenced by isPFMET(), isRecoMET(), MET(), operator=(), and pfSpecific().

std::vector<PackedMETUncertainty> pat::MET::uncertainties_

protected

Definition at line 267 of file MET.h.

Referenced by findMETTotalShift(), operator=(), and setUncShift().

std::vector<PackedMETUncertainty> pat::MET::uncertaintiesRaw_

protected

Definition at line 265 of file MET.h.

Referenced by operator=(), shiftedP2(), shiftedP2_74x(), shiftedP3(), shiftedP3_74x(), shiftedP4(), shiftedP4_74x(), shiftedSumEt(), and shiftedSumEt_74x().

std::vector<PackedMETUncertainty> pat::MET::uncertaintiesType1_

protected

Definition at line 265 of file MET.h.

Referenced by operator=(), shiftedP2(), shiftedP2_74x(), shiftedP3(), shiftedP3_74x(), shiftedP4(), shiftedP4_74x(), shiftedSumEt(), and shiftedSumEt_74x().

std::vector<PackedMETUncertainty> pat::MET::uncertaintiesType1p2_

protected

Definition at line 265 of file MET.h.

Referenced by operator=().