#include <PFTauElementsOperators.h>

Inheritance diagram for PFTauElementsOperators:

Public Member Functions
void	computeInsideOutContents (const std::vector< reco::PFCandidatePtr > &theChargedCands, const std::vector< reco::PFCandidatePtr > &theGammaCands, const math::XYZVector &leadTrackVector, const TFormula &coneSizeFormula, double(*ptrToMetricFunction)(const math::XYZVector &, const math::XYZVector &), const double minChargedSize, const double maxChargedSize, const double minNeutralSize, const double maxNeutralSize, const double minChargedPt, const double minNeutralPt, const std::string &outlierCollectorConeMetric, const double outlierCollectorConeSize, std::vector< reco::PFCandidatePtr > &signalChargedObjects, std::vector< reco::PFCandidatePtr > &outlierChargedObjects, std::vector< reco::PFCandidatePtr > &signalGammaObjects, std::vector< reco::PFCandidatePtr > &outlierGammaObjects, bool useScanningAxis)
	compute size of cone using the Inside-Out cone (Author Evan Friis, UC Davis) More...

void	copyCandRefsFilteredByPt (const std::vector< reco::PFCandidatePtr > &theInputCands, std::vector< reco::PFCandidatePtr > &theOutputCands, const double minPt)
	append elements of theInputCands that pass Pt requirement to the end of theOutputCands More...

double	discriminatorByIsolPFCandsEtSum (double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFCandsEtSum (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFCandsEtSum (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFCandsN (int IsolPFCands_maxN=0)

double	discriminatorByIsolPFCandsN (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFCandsN (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFChargedHadrCandsEtSum (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFChargedHadrCandsEtSum (double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFChargedHadrCandsEtSum (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFChargedHadrCandsN (int IsolPFCands_maxN=0)

double	discriminatorByIsolPFChargedHadrCandsN (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFChargedHadrCandsN (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFGammaCandsEtSum (double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFGammaCandsEtSum (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFGammaCandsEtSum (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFGammaCandsN (int IsolPFCands_maxN=0)

double	discriminatorByIsolPFGammaCandsN (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFGammaCandsN (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFNeutrHadrCandsEtSum (double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFNeutrHadrCandsEtSum (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFNeutrHadrCandsEtSum (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, double IsolPFCands_maxEtSum=0)

double	discriminatorByIsolPFNeutrHadrCandsN (int IsolPFCands_maxN=0)

double	discriminatorByIsolPFNeutrHadrCandsN (std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

double	discriminatorByIsolPFNeutrHadrCandsN (const math::XYZVector &myVector, std::string matchingcone_metric, double matchingcone_size, std::string signalcone_metric, double signalcone_size, std::string isolcone_metric, double isolcone_size, bool useOnlyChargedHadrforleadPFCand, double minPt_leadPFCand, double minPt_PFCand, int IsolPFCands_maxN=0)

reco::PFCandidatePtr	leadPFCand (const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFCand (const math::XYZVector &myVector, const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFChargedHadrCand (const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFChargedHadrCand (const math::XYZVector &myVector, const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFGammaCand (const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFGammaCand (const math::XYZVector &myVector, const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFNeutrHadrCand (const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

reco::PFCandidatePtr	leadPFNeutrHadrCand (const math::XYZVector &myVector, const std::string matchingcone_metric, const double matchingcone_size, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFCandsInAnnulus (const std::vector< reco::PFCandidatePtr > &PFCands, const math::XYZVector &myVector, const std::string innercone_metric, const double innercone_size, const std::string outercone_metric, const double outercone_size, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFCandsInAnnulus (const math::XYZVector &myVector, const std::string innercone_metric, const double innercone_size, const std::string outercone_metric, const double outercone_size, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFCandsInCone (const std::vector< reco::PFCandidatePtr > &PFCands, const math::XYZVector &myVector, const std::string conemetric, const double conesize, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFCandsInCone (const math::XYZVector &myVector, const std::string conemetric, const double conesize, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFChargedHadrCandsInAnnulus (const math::XYZVector &myVector, const std::string innercone_metric, const double innercone_size, const std::string outercone_metric, const double outercone_size, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFChargedHadrCandsInAnnulus (const math::XYZVector &myVector, const std::string innercone_metric, const double innercone_size, const std::string outercone_metric, const double outercone_size, const double minPt, const double PFChargedHadrCand_tracktorefpoint_maxDZ, const double refpoint_Z, const reco::Vertex &myPV) const

std::vector< reco::PFCandidatePtr >	PFChargedHadrCandsInCone (const math::XYZVector &myVector, const std::string conemetric, const double conesize, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFChargedHadrCandsInCone (const math::XYZVector &myVector, const std::string conemetric, const double conesize, const double minPt, const double PFChargedHadrCand_tracktorefpoint_maxDZ, const double refpoint_Z, const reco::Vertex &mPV) const

std::vector< reco::PFCandidatePtr >	PFGammaCandsInAnnulus (const math::XYZVector &myVector, const std::string innercone_metric, const double innercone_size, const std::string outercone_metric, const double outercone_size, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFGammaCandsInCone (const math::XYZVector &myVector, const std::string conemetric, const double conesize, const double minPt) const

std::pair< std::vector < reco::PFCandidatePtr > , std::vector < reco::PFCandidatePtr > >	PFGammaCandsInOutEllipse (const std::vector< reco::PFCandidatePtr > &, const reco::PFCandidate &, double rPhi, double rEta, double maxPt) const

std::vector< reco::PFCandidatePtr >	PFNeutrHadrCandsInAnnulus (const math::XYZVector &myVector, const std::string innercone_metric, const double innercone_size, const std::string outercone_metric, const double outercone_size, const double minPt) const

std::vector< reco::PFCandidatePtr >	PFNeutrHadrCandsInCone (const math::XYZVector &myVector, const std::string conemetric, const double conesize, const double minPt) const

	PFTauElementsOperators (reco::PFTau &thePFTau)

void	setAreaMetricrecoElementsmaxabsEta (double x)

	~PFTauElementsOperators ()

Public Member Functions inherited from TauElementsOperators
double	computeConeSize (const TFormula &ConeSizeTFormula, double ConeSizeMin, double ConeSizeMax)

double	computeConeSize (const TFormula &ConeSizeTFormula, double ConeSizeMin, double ConeSizeMax, double transverseEnergy, double energy, double jetOpeningAngle=0.)

double	discriminatorByIsolTracksN (unsigned int isolationAnnulus_Tracksmaxn) const

double	discriminatorByIsolTracksN (const math::XYZVector &coneAxis, std::string matchingConeMetric, double matchingConeSize, double ptLeadingTrackMin, double ptOtherTracksMin, std::string signalConeMetric, double signalConeSize, std::string isolationConeMetric, double isolationConeSize, unsigned int isolationAnnulus_Tracksmaxn) const

double	discriminatorByIsolTracksN (std::string matchingConeMetric, double matchingConeSize, double ptLeadingTrackMin, double ptOtherTracksMin, std::string signalConeMetric, double signalConeSize, std::string isolationConeMetric, double isolationConeSize, unsigned int isolationAnnulus_Tracksmaxn) const

const reco::TrackRef	leadTk (std::string matchingConeMetric, double matchingConeSize, double ptTrackMin) const

const reco::TrackRef	leadTk (const math::XYZVector &jetAxis, std::string matchingConeMetric, double matchingConeSize, double ptTrackMin) const

void	replaceSubStr (std::string &s, const std::string &oldSubStr, const std::string &newSubStr)

	TauElementsOperators ()

	TauElementsOperators (reco::BaseTau &)

const reco::TrackRefVector	tracksInAnnulus (const math::XYZVector &coneAxis, const std::string innerconeMetric, const double innerconeSize, const std::string outerconeMetric, const double outerconeSize, const double ptTrackMin) const

const reco::TrackRefVector	tracksInAnnulus (const math::XYZVector &coneAxis, const std::string innerconeMetric, const double innerconeSize, const std::string outerconeMetric, const double outerconeSize, const double ptTrackMin, const double tracktorefpoint_maxDZ, const double refpoint_Z, const reco::Vertex &myPV) const

const reco::TrackRefVector	tracksInCone (const math::XYZVector &coneAxis, const std::string coneMetric, const double coneSize, const double ptTrackMin) const

const reco::TrackRefVector	tracksInCone (const math::XYZVector &coneAxis, const std::string coneMetric, const double coneSize, const double ptTrackMin, const double tracktorefpoint_maxDZ, const double refpoint_Z, const reco::Vertex &myPV) const

	~TauElementsOperators ()

Private Member Functions
double	computeAngle (const math::XYZVector &vec1, const math::XYZVector &vec2)

double	computeDeltaR (const math::XYZVector &vec1, const math::XYZVector &vec2)

Private Attributes
double	AreaMetric_recoElements_maxabsEta_

std::vector< reco::PFCandidatePtr >	IsolPFCands_

std::vector< reco::PFCandidatePtr >	IsolPFChargedHadrCands_

std::vector< reco::PFCandidatePtr >	IsolPFGammaCands_

std::vector< reco::PFCandidatePtr >	IsolPFNeutrHadrCands_

Angle< math::XYZVector >	metricAngle_

DeltaR< math::XYZVector >	metricDR_

ElementsInEllipse < reco::PFCandidate, reco::PFCandidate >	PFCandidatesInEllipse_

std::vector< reco::PFCandidatePtr >	PFCands_

ElementsInAnnulus < math::XYZVector, Angle < math::XYZVector >, Angle < math::XYZVector > , reco::PFCandidate >	PFCandsinAnnulus_innerAngleouterAnglemetrics_

ElementsInAnnulus < math::XYZVector, Angle < math::XYZVector >, DeltaR < math::XYZVector > , reco::PFCandidate >	PFCandsinAnnulus_innerAngleouterDRmetrics_

ElementsInAnnulus < math::XYZVector, DeltaR < math::XYZVector >, Angle < math::XYZVector > , reco::PFCandidate >	PFCandsinAnnulus_innerDRouterAnglemetrics_

ElementsInAnnulus < math::XYZVector, DeltaR < math::XYZVector >, DeltaR < math::XYZVector > , reco::PFCandidate >	PFCandsinAnnulus_innerDRouterDRmetrics_

ElementsInCone < math::XYZVector, Angle < math::XYZVector > , reco::PFCandidate >	PFCandsinCone_Anglemetric_

ElementsInCone < math::XYZVector, DeltaR < math::XYZVector > , reco::PFCandidate >	PFCandsinCone_DRmetric_

std::vector< reco::PFCandidatePtr >	PFChargedHadrCands_

std::vector< reco::PFCandidatePtr >	PFGammaCands_

reco::PFJetRef	PFJetRef_

std::vector< reco::PFCandidatePtr >	PFNeutrHadrCands_

Additional Inherited Members
Protected Attributes inherited from TauElementsOperators
double	AreaMetric_recoElements_maxabsEta_

reco::BaseTau &	BaseTau_

TFormula	ConeSizeTFormula

reco::TrackRefVector	IsolTracks_

Angle< math::XYZVector >	metricAngle_

DeltaR< math::XYZVector >	metricDR_

reco::TrackRefVector	Tracks_

ElementsInAnnulusRef < math::XYZVector, Angle < math::XYZVector >, Angle < math::XYZVector > , reco::TrackCollection >	TracksinAnnulus_innerAngleouterAnglemetrics_

ElementsInAnnulusRef < math::XYZVector, Angle < math::XYZVector >, DeltaR < math::XYZVector > , reco::TrackCollection >	TracksinAnnulus_innerAngleouterDRmetrics_

ElementsInAnnulusRef < math::XYZVector, DeltaR < math::XYZVector >, Angle < math::XYZVector > , reco::TrackCollection >	TracksinAnnulus_innerDRouterAnglemetrics_

ElementsInAnnulusRef < math::XYZVector, DeltaR < math::XYZVector >, DeltaR < math::XYZVector > , reco::TrackCollection >	TracksinAnnulus_innerDRouterDRmetrics_

ElementsInConeRef < math::XYZVector, Angle < math::XYZVector > , reco::TrackCollection >	TracksinCone_Anglemetric_

ElementsInConeRef < math::XYZVector, DeltaR < math::XYZVector > , reco::TrackCollection >	TracksinCone_DRmetric_

Detailed Description

Definition at line 31 of file PFTauElementsOperators.h.

Constructor & Destructor Documentation

PFTauElementsOperators::PFTauElementsOperators ( reco::PFTau & thePFTau )

Definition at line 6 of file PFTauElementsOperators.cc.

References reco::PFTau::isolationPFCands(), reco::PFTau::isolationPFChargedHadrCands(), reco::PFTau::isolationPFGammaCands(), reco::PFTau::isolationPFNeutrHadrCands(), IsolPFCands_, IsolPFChargedHadrCands_, IsolPFGammaCands_, IsolPFNeutrHadrCands_, PFCands_, PFChargedHadrCands_, PFGammaCands_, PFJetRef_, PFNeutrHadrCands_, reco::PFTau::pfTauTagInfoRef(), and TauElementsOperators::Tracks_.

                                                               : TauElementsOperators(thePFTau),AreaMetric_recoElements_maxabsEta_(2.5){
    PFJetRef_=thePFTau.pfTauTagInfoRef()->pfjetRef();
    PFCands_=thePFTau.pfTauTagInfoRef()->PFCands();
    PFChargedHadrCands_=thePFTau.pfTauTagInfoRef()->PFChargedHadrCands();
    PFNeutrHadrCands_=thePFTau.pfTauTagInfoRef()->PFNeutrHadrCands();
    PFGammaCands_=thePFTau.pfTauTagInfoRef()->PFGammaCands();
    IsolPFCands_=thePFTau.isolationPFCands();
    IsolPFChargedHadrCands_=thePFTau.isolationPFChargedHadrCands();
    IsolPFNeutrHadrCands_=thePFTau.isolationPFNeutrHadrCands();
    IsolPFGammaCands_=thePFTau.isolationPFGammaCands();
    Tracks_=thePFTau.pfTauTagInfoRef()->Tracks();
 }

PFTauElementsOperators::~PFTauElementsOperators ( )

inline

Definition at line 34 of file PFTauElementsOperators.h.

34 {}

Member Function Documentation

double PFTauElementsOperators::computeAngle	(	const math::XYZVector &	vec1,
		const math::XYZVector &	vec2
	)

private

double PFTauElementsOperators::computeDeltaR	(	const math::XYZVector &	vec1,
		const math::XYZVector &	vec2
	)

private

void PFTauElementsOperators::computeInsideOutContents	(	const std::vector< reco::PFCandidatePtr > &	theChargedCands,
		const std::vector< reco::PFCandidatePtr > &	theGammaCands,
		const math::XYZVector &	leadTrackVector,
		const TFormula &	coneSizeFormula,
		double(*)(const math::XYZVector &, const math::XYZVector &)	ptrToMetricFunction,
		const double	minChargedSize,
		const double	maxChargedSize,
		const double	minNeutralSize,
		const double	maxNeutralSize,
		const double	minChargedPt,
		const double	minNeutralPt,
		const std::string &	outlierCollectorConeMetric,
		const double	outlierCollectorConeSize,
		std::vector< reco::PFCandidatePtr > &	signalChargedObjects,
		std::vector< reco::PFCandidatePtr > &	outlierChargedObjects,
		std::vector< reco::PFCandidatePtr > &	signalGammaObjects,
		std::vector< reco::PFCandidatePtr > &	outlierGammaObjects,
		bool	useScanningAxis
	)

compute size of cone using the Inside-Out cone (Author Evan Friis, UC Davis)

Definition at line 298 of file PFTauElementsOperators.cc.

References TauTagTools::computeAngle(), TauTagTools::computeDeltaR(), copyCandRefsFilteredByPt(), FixedAreaIsolationCone::setAcceptanceLimit(), python.multivaluedict::sort(), and theIndex().

 {
    if (theChargedCands.empty() && theGammaCands.empty()) 
       return;
    //copy the vector of PFCands filtering by Pt
    std::vector<reco::PFCandidatePtr> filteredCands;
    filteredCands.reserve(theChargedCands.size() + theGammaCands.size());
 
    copyCandRefsFilteredByPt(theChargedCands, filteredCands, minChargedPt);
    copyCandRefsFilteredByPt(theGammaCands, filteredCands, minNeutralPt);
 
    if (filteredCands.empty())
       return;
 
 
    //create vector of indexes as RefVectors can't use STL algos?
    unsigned int numberOfCandidates = filteredCands.size();
    std::vector<uint32_t> filteredCandIndexes(numberOfCandidates);
    for(uint32_t theIndex = 0; theIndex < numberOfCandidates; theIndex++)
       filteredCandIndexes[theIndex] = theIndex;
    
    TauTagTools::sortRefsByOpeningDistance myAngularSorter(leadTrackVector, ptrToMetricFunction, filteredCands);
 
    //sort the remaining candidates by angle to seed track
    sort(filteredCandIndexes.begin(), filteredCandIndexes.end(), myAngularSorter);
 
    std::vector<reco::PFCandidatePtr> sortedCands;
    for(std::vector<uint32_t>::const_iterator theSortedIndex = filteredCandIndexes.begin();
                                         theSortedIndex != filteredCandIndexes.end();
                                         ++theSortedIndex)
    {
       sortedCands.push_back(filteredCands.at(*theSortedIndex));
    }
 
    //get first candidate (seed trk by definition)
    std::vector<reco::PFCandidatePtr>::const_iterator signalObjectCandidate = sortedCands.begin();
    double totalEnergySoFar                                    = (**signalObjectCandidate).energy();
    double totalEtSoFar                                        = (**signalObjectCandidate).et();
    math::XYZVector axisVectorSoFar                            = leadTrackVector;
    double currentDelToCenter = ptrToMetricFunction(leadTrackVector, axisVectorSoFar);
    //advance to next object
    ++signalObjectCandidate;
    bool doneBuilding = false;
    while (!doneBuilding && signalObjectCandidate != sortedCands.end())
    {
       //compute cutoff quanity
       math::XYZVector testAxis       = axisVectorSoFar;
       if (useScanningAxis)
          testAxis           += (**signalObjectCandidate).momentum();
       currentDelToCenter    = ptrToMetricFunction((**signalObjectCandidate).momentum(), testAxis);
       double testEnergy     = totalEnergySoFar + (**signalObjectCandidate).energy();
       double testEt         = totalEtSoFar     + (**signalObjectCandidate).et();
       bool isCharged        = (**signalObjectCandidate).charge();
       bool addThisObject    = true;
       if (currentDelToCenter > ((isCharged)?maxChargedSize:maxNeutralSize) ) {
          //max conesize is reached
          addThisObject = false;
       }
       else if (currentDelToCenter > ((isCharged)?minChargedSize:minNeutralSize) )
       {
          //only do calculation if we are in the region above the minimum size
          double cutOffQuantity = coneSizeFormula.Eval(testEnergy, testEt);
          if (currentDelToCenter > cutOffQuantity)
             addThisObject = false;
          else if (useScanningAxis)
          {
             //make sure we don't make the seed track kinematically inconsistent  
             //(stop growth if axis-lead track distance greater than computed opening angle
             if (ptrToMetricFunction(testAxis, leadTrackVector) > cutOffQuantity)
                addThisObject = false;
          }
       }
       if (addThisObject)
       {
          axisVectorSoFar  = testAxis;
          totalEnergySoFar = testEnergy;
          totalEtSoFar     = testEt;
          ++signalObjectCandidate;  //signal object candidate now points to one past the
       }
       else
       {
          doneBuilding = true;
       }
    }
    // split the collection into two collections
    double largest3DOpeningAngleSignal = 0.;  //used for area outlier collection cone
    for (std::vector<reco::PFCandidatePtr>::const_iterator iterCand =  sortedCands.begin();
                                              iterCand != signalObjectCandidate;
                                              ++iterCand)
    {
       double angleToAxis = TauTagTools::computeAngle((*iterCand)->momentum(), axisVectorSoFar);
       if (angleToAxis > largest3DOpeningAngleSignal)
          largest3DOpeningAngleSignal = angleToAxis;
 
       if ((*iterCand)->charge())
          signalChargedObjects.push_back(*iterCand);
       else
          signalGammaObjects.push_back(*iterCand);
    }
 
    //function pointer to outlier collection cutoff quantity
    double (*outlierCollectionCalculator)(const math::XYZVector&, const math::XYZVector&) = TauTagTools::computeAngle;
    double outlierCollectionComputedMaxSize = 0;
 
    if (!outlierCollectorConeMetric.compare("angle"))
    {
       outlierCollectionCalculator       = TauTagTools::computeAngle;
       outlierCollectionComputedMaxSize  = outlierCollectionMaxSize;
    } else if (!outlierCollectorConeMetric.compare("area"))
    {
       //determine opening angle (in 3D space of signal objects)
       
       outlierCollectionCalculator       = TauTagTools::computeAngle;  //the area cone outside angle is defined in 3D
       FixedAreaIsolationCone theFixedAreaCone;
       theFixedAreaCone.setAcceptanceLimit(2.5);
       //calculate new iso cone size
       int errorFlagForConeSizeCalc = 0;
       outlierCollectionComputedMaxSize = theFixedAreaCone(axisVectorSoFar.theta(), axisVectorSoFar.phi(), largest3DOpeningAngleSignal, outlierCollectionMaxSize, errorFlagForConeSizeCalc);
       if (errorFlagForConeSizeCalc != 0)
       {
          edm::LogError("PFRecoTauAlgorithm") << "Error: " << errorFlagForConeSizeCalc << " when calculated const area annulus.  Taking all non-signal PFJet consituents!";
          outlierCollectionComputedMaxSize = 1000.;  //takes everything...
       }
    } else if (!outlierCollectorConeMetric.compare("DR"))
    {
       outlierCollectionCalculator       = TauTagTools::computeDeltaR;
       outlierCollectionComputedMaxSize  = outlierCollectionMaxSize;
    } 
    else //warn if metric choice for outlier collection is not consistent
    {
       edm::LogWarning("PFRecoTauAlgorithm") << "Error in computeInsideOutContents(...):  Outlier (isolation) collector cone metric (" << outlierCollectorConeMetric 
                                             << ") is not recognized! All non-signal associated PFJet constituents will be included in the outliers!";
    }
 
    for (std::vector<reco::PFCandidatePtr>::const_iterator iterCand =  signalObjectCandidate;
                                              iterCand != sortedCands.end();
                                              ++iterCand)
    {
       //stop adding objects if we have reached the maximum outleir collector size
       double outlierOpeningQuantity = outlierCollectionCalculator(axisVectorSoFar, (*iterCand)->momentum());
       if (outlierOpeningQuantity > outlierCollectionComputedMaxSize) break;
 
       if ((*iterCand)->charge())
          outlierChargedObjects.push_back(*iterCand);
       else
          outlierGammaObjects.push_back(*iterCand);
    }
    //done
 }

void PFTauElementsOperators::copyCandRefsFilteredByPt	(	const std::vector< reco::PFCandidatePtr > &	theInputCands,
		std::vector< reco::PFCandidatePtr > &	theOutputCands,
		const double	minPt
	)

append elements of theInputCands that pass Pt requirement to the end of theOutputCands

Definition at line 284 of file PFTauElementsOperators.cc.

References HLT_25ns14e33_v1_cff::minPt.

Referenced by computeInsideOutContents().

 {
    for(std::vector<reco::PFCandidatePtr>::const_iterator iPFCand  = theInputCands.begin();
                                             iPFCand != theInputCands.end();
                                             ++iPFCand)
    {
       if ( (*iPFCand)->pt() > minPt )
          theOutputCands.push_back(*iPFCand);
    }
 }

double PFTauElementsOperators::discriminatorByIsolPFCandsEtSum ( double IsolPFCands_maxEtSum = 0 )

Definition at line 572 of file PFTauElementsOperators.cc.

References IsolPFCands_.

                                                                                          {
   double myIsolPFCandsEtSum=0.;
   double myDiscriminator=0.;
   for(std::vector<reco::PFCandidatePtr>::const_iterator iPFCand=IsolPFCands_.begin();iPFCand!=IsolPFCands_.end();iPFCand++) myIsolPFCandsEtSum+=(**iPFCand).et();
   if (myIsolPFCandsEtSum<=IsolPFCands_maxEtSum) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFCandsEtSum	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFCandsEtSum	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFCandsN ( int IsolPFCands_maxN = 0 )

Definition at line 456 of file PFTauElementsOperators.cc.

References IsolPFCands_.

                                                                               {
   double myDiscriminator=0.;
   if ((int)IsolPFCands_.size()<=IsolPFCands_maxN) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFCandsN	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFCandsN	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFChargedHadrCandsEtSum	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFChargedHadrCandsEtSum ( double IsolPFCands_maxEtSum = 0 )

Definition at line 607 of file PFTauElementsOperators.cc.

References IsolPFChargedHadrCands_.

                                                                                                                {
   double myIsolPFCandsEtSum=0.;
   double myDiscriminator=0.;
   for(std::vector<reco::PFCandidatePtr>::const_iterator iPFCand=IsolPFChargedHadrCands_.begin();iPFCand!=IsolPFChargedHadrCands_.end();iPFCand++) myIsolPFCandsEtSum+=(**iPFCand).et();
   if (myIsolPFCandsEtSum<=IsolPFChargedHadrCands_maxEtSum) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFChargedHadrCandsEtSum	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFChargedHadrCandsN ( int IsolPFCands_maxN = 0 )

Definition at line 485 of file PFTauElementsOperators.cc.

References IsolPFChargedHadrCands_.

                                                                                                     {
   double myDiscriminator=0.;
   if ((int)IsolPFChargedHadrCands_.size()<=IsolPFChargedHadrCands_maxN) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFChargedHadrCandsN	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFChargedHadrCandsN	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFGammaCandsEtSum ( double IsolPFCands_maxEtSum = 0 )

Definition at line 677 of file PFTauElementsOperators.cc.

References IsolPFGammaCands_.

                                                                                                    {
   double myIsolPFCandsEtSum=0.;
   double myDiscriminator=0.;
   for(std::vector<reco::PFCandidatePtr>::const_iterator iPFCand=IsolPFGammaCands_.begin();iPFCand!=IsolPFGammaCands_.end();iPFCand++) myIsolPFCandsEtSum+=(**iPFCand).et();
   if (myIsolPFCandsEtSum<=IsolPFGammaCands_maxEtSum) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFGammaCandsEtSum	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFGammaCandsEtSum	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFGammaCandsN ( int IsolPFCands_maxN = 0 )

Definition at line 543 of file PFTauElementsOperators.cc.

References IsolPFGammaCands_.

                                                                                         {
   double myDiscriminator=0.;
   if ((int)IsolPFGammaCands_.size()<=IsolPFGammaCands_maxN) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFGammaCandsN	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFGammaCandsN	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFNeutrHadrCandsEtSum ( double IsolPFCands_maxEtSum = 0 )

Definition at line 642 of file PFTauElementsOperators.cc.

References IsolPFNeutrHadrCands_.

                                                                                                            {
   double myIsolPFCandsEtSum=0.;
   double myDiscriminator=0.;
   for(std::vector<reco::PFCandidatePtr>::const_iterator iPFCand=IsolPFNeutrHadrCands_.begin();iPFCand!=IsolPFNeutrHadrCands_.end();iPFCand++) myIsolPFCandsEtSum+=(**iPFCand).et();
   if (myIsolPFCandsEtSum<=IsolPFNeutrHadrCands_maxEtSum) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFNeutrHadrCandsEtSum	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFNeutrHadrCandsEtSum	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		double	IsolPFCands_maxEtSum = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFNeutrHadrCandsN ( int IsolPFCands_maxN = 0 )

Definition at line 514 of file PFTauElementsOperators.cc.

References IsolPFNeutrHadrCands_.

                                                                                                 {
   double myDiscriminator=0.;
   if ((int)IsolPFNeutrHadrCands_.size()<=IsolPFNeutrHadrCands_maxN) myDiscriminator=1;
   return myDiscriminator;
 }

double PFTauElementsOperators::discriminatorByIsolPFNeutrHadrCandsN	(	std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

double PFTauElementsOperators::discriminatorByIsolPFNeutrHadrCandsN	(	const math::XYZVector &	myVector,
		std::string	matchingcone_metric,
		double	matchingcone_size,
		std::string	signalcone_metric,
		double	signalcone_size,
		std::string	isolcone_metric,
		double	isolcone_size,
		bool	useOnlyChargedHadrforleadPFCand,
		double	minPt_leadPFCand,
		double	minPt_PFCand,
		int	IsolPFCands_maxN = `0`
	)

reco::PFCandidatePtr PFTauElementsOperators::leadPFCand	(	const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

reco::PFCandidatePtr PFTauElementsOperators::leadPFCand	(	const math::XYZVector &	myVector,
		const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

reco::PFCandidatePtr PFTauElementsOperators::leadPFChargedHadrCand	(	const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

Referenced by PFRecoTauAlgorithm::buildPFTau().

reco::PFCandidatePtr PFTauElementsOperators::leadPFChargedHadrCand	(	const math::XYZVector &	myVector,
		const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

reco::PFCandidatePtr PFTauElementsOperators::leadPFGammaCand	(	const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

reco::PFCandidatePtr PFTauElementsOperators::leadPFGammaCand	(	const math::XYZVector &	myVector,
		const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

reco::PFCandidatePtr PFTauElementsOperators::leadPFNeutrHadrCand	(	const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

reco::PFCandidatePtr PFTauElementsOperators::leadPFNeutrHadrCand	(	const math::XYZVector &	myVector,
		const std::string	matchingcone_metric,
		const double	matchingcone_size,
		const double	minPt
	)		const

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFCandsInAnnulus	(	const std::vector< reco::PFCandidatePtr > &	PFCands,
		const math::XYZVector &	myVector,
		const std::string	innercone_metric,
		const double	innercone_size,
		const std::string	outercone_metric,
		const double	outercone_size,
		const double	minPt
	)		const

Referenced by PFGammaCandsInAnnulus(), and PFNeutrHadrCandsInAnnulus().

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFCandsInAnnulus	(	const math::XYZVector &	myVector,
		const std::string	innercone_metric,
		const double	innercone_size,
		const std::string	outercone_metric,
		const double	outercone_size,
		const double	minPt
	)		const

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFCandsInCone	(	const std::vector< reco::PFCandidatePtr > &	PFCands,
		const math::XYZVector &	myVector,
		const std::string	conemetric,
		const double	conesize,
		const double	minPt
	)		const

Referenced by PFRecoTauAlgorithm::buildPFTau(), PFGammaCandsInCone(), and PFNeutrHadrCandsInCone().

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFCandsInCone	(	const math::XYZVector &	myVector,
		const std::string	conemetric,
		const double	conesize,
		const double	minPt
	)		const

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFChargedHadrCandsInAnnulus	(	const math::XYZVector &	myVector,
		const std::string	innercone_metric,
		const double	innercone_size,
		const std::string	outercone_metric,
		const double	outercone_size,
		const double	minPt
	)		const

Referenced by PFRecoTauAlgorithm::buildPFTau().

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFChargedHadrCandsInAnnulus	(	const math::XYZVector &	myVector,
		const std::string	innercone_metric,
		const double	innercone_size,
		const std::string	outercone_metric,
		const double	outercone_size,
		const double	minPt,
		const double	PFChargedHadrCand_tracktorefpoint_maxDZ,
		const double	refpoint_Z,
		const reco::Vertex &	myPV
	)		const

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFChargedHadrCandsInCone	(	const math::XYZVector &	myVector,
		const std::string	conemetric,
		const double	conesize,
		const double	minPt
	)		const

Referenced by PFRecoTauAlgorithm::buildPFTau().

std::vector<reco::PFCandidatePtr> PFTauElementsOperators::PFChargedHadrCandsInCone	(	const math::XYZVector &	myVector,
		const std::string	conemetric,
		const double	conesize,
		const double	minPt,
		const double	PFChargedHadrCand_tracktorefpoint_maxDZ,
		const double	refpoint_Z,
		const reco::Vertex &	mPV
	)		const

std::vector< reco::PFCandidatePtr > PFTauElementsOperators::PFGammaCandsInAnnulus	(	const math::XYZVector &	myVector,
		const std::string	innercone_metric,
		const double	innercone_size,
		const std::string	outercone_metric,
		const double	outercone_size,
		const double	minPt
	)		const

Definition at line 158 of file PFTauElementsOperators.cc.

References PFCandsInAnnulus(), and PFGammaCands_.

Referenced by PFRecoTauAlgorithm::buildPFTau().

                                                                                                                                                                                                                                                      {     
   std::vector<reco::PFCandidatePtr> theFilteredPFCandsInAnnulus=PFCandsInAnnulus(PFGammaCands_,myVector,innercone_metric,innercone_size,outercone_metric,outercone_size,minPt);
   return theFilteredPFCandsInAnnulus;
 }

std::vector< reco::PFCandidatePtr > PFTauElementsOperators::PFGammaCandsInCone	(	const math::XYZVector &	myVector,
		const std::string	conemetric,
		const double	conesize,
		const double	minPt
	)		const

Definition at line 62 of file PFTauElementsOperators.cc.

References PFCandsInCone(), and PFGammaCands_.

Referenced by PFRecoTauAlgorithm::buildPFTau().

                                                                                                                                                                             {     
   std::vector<reco::PFCandidatePtr> theFilteredPFCandsInCone=PFCandsInCone(PFGammaCands_,myVector,conemetric,conesize,minPt);
   return theFilteredPFCandsInCone;
 }

std::pair< std::vector< reco::PFCandidatePtr >, std::vector< reco::PFCandidatePtr > > PFTauElementsOperators::PFGammaCandsInOutEllipse	(	const std::vector< reco::PFCandidatePtr > &	PFGammaCands_,
		const reco::PFCandidate &	leadCand_,
		double	rPhi,
		double	rEta,
		double	maxPt
	)		const

Definition at line 68 of file PFTauElementsOperators.cc.

References PFCandidatesInEllipse_.

Referenced by PFRecoTauAlgorithm::buildPFTau().

                                                                                                                                                                                                                                                     {
   std::pair<std::vector<reco::PFCandidatePtr>,std::vector<reco::PFCandidatePtr>> myPFGammaCandsInEllipse = PFCandidatesInEllipse_(leadCand_, rPhi, rEta, PFGammaCands_);
   std::vector<reco::PFCandidatePtr> thePFGammaCandsInEllipse = myPFGammaCandsInEllipse.first;
   std::vector<reco::PFCandidatePtr> thePFGammaCandsOutEllipse = myPFGammaCandsInEllipse.second;
   std::vector<reco::PFCandidatePtr> theFilteredPFGammaCandsInEllipse;
   for(std::vector<reco::PFCandidatePtr>::const_iterator iPFGammaCand = thePFGammaCandsInEllipse.begin(); iPFGammaCand != thePFGammaCandsInEllipse.end(); ++iPFGammaCand){
     if((**iPFGammaCand).pt() <= maxPt) theFilteredPFGammaCandsInEllipse.push_back(*iPFGammaCand);
     else thePFGammaCandsOutEllipse.push_back(*iPFGammaCand);
   }
   std::pair<std::vector<reco::PFCandidatePtr>, std::vector<reco::PFCandidatePtr>> theFilteredPFGammaCandsInOutEllipse(theFilteredPFGammaCandsInEllipse, thePFGammaCandsOutEllipse);
   
   return theFilteredPFGammaCandsInOutEllipse;
 }

std::vector< reco::PFCandidatePtr > PFTauElementsOperators::PFNeutrHadrCandsInAnnulus	(	const math::XYZVector &	myVector,
		const std::string	innercone_metric,
		const double	innercone_size,
		const std::string	outercone_metric,
		const double	outercone_size,
		const double	minPt
	)		const

Definition at line 154 of file PFTauElementsOperators.cc.

References PFCandsInAnnulus(), and PFNeutrHadrCands_.

Referenced by PFRecoTauAlgorithm::buildPFTau().

                                                                                                                                                                                                                                                          {     
   std::vector<reco::PFCandidatePtr> theFilteredPFCandsInAnnulus=PFCandsInAnnulus(PFNeutrHadrCands_,myVector,innercone_metric,innercone_size,outercone_metric,outercone_size,minPt);
   return theFilteredPFCandsInAnnulus;
 }

std::vector< reco::PFCandidatePtr > PFTauElementsOperators::PFNeutrHadrCandsInCone	(	const math::XYZVector &	myVector,
		const std::string	conemetric,
		const double	conesize,
		const double	minPt
	)		const

Definition at line 58 of file PFTauElementsOperators.cc.

References PFCandsInCone(), and PFNeutrHadrCands_.

Referenced by PFRecoTauAlgorithm::buildPFTau().

                                                                                                                                                                                {     
   std::vector<reco::PFCandidatePtr> theFilteredPFCandsInCone=PFCandsInCone(PFNeutrHadrCands_,myVector,conemetric,conesize,minPt);
   return theFilteredPFCandsInCone;
 }