FFTGenericScaleCalculator.h

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#ifndef JetMETCorrections_FFTJetObjects_FFTGenericScaleCalculator_h
#define JetMETCorrections_FFTJetObjects_FFTGenericScaleCalculator_h
 
//
// Generic variable mapper for FFTJet jet corrections
//
#include <cmath>
#include <vector>
 
#include "JetMETCorrections/FFTJetObjects/interface/AbsFFTSpecificScaleCalculator.h"
#include "FWCore/ParameterSet/interface/ParameterSet.h"
 
class FFTGenericScaleCalculator : public AbsFFTSpecificScaleCalculator {
public:
  FFTGenericScaleCalculator(const edm::ParameterSet& ps);
 
  inline ~FFTGenericScaleCalculator() override {}
 
  void mapFFTJet(const reco::Jet& jet,
                 const reco::FFTJet<float>& fftJet,
                 const math::XYZTLorentzVector& current,
                 double* buf,
                 unsigned dim) const override;
 
private:
  inline double f_safeLog(const double x) const {
    if (x > 0.0)
      return log(x);
    else
      return m_minLog;
  }
 
  std::vector<double> m_factors;
  double m_minLog;
 
  // Variables from the "current" Lorentz vector
  int m_eta;
  int m_phi;
  int m_pt;
  int m_logPt;
  int m_mass;
  int m_logMass;
  int m_energy;
  int m_logEnergy;
  int m_gamma;
  int m_logGamma;
 
  // Variables from fftJet
  int m_pileup;
  int m_ncells;
  int m_etSum;
  int m_etaWidth;
  int m_phiWidth;
  int m_averageWidth;
  int m_widthRatio;
  int m_etaPhiCorr;
  int m_fuzziness;
  int m_convergenceDistance;
  int m_recoScale;
  int m_recoScaleRatio;
  int m_membershipFactor;
 
  // Variables from the precluster
  int m_magnitude;
  int m_logMagnitude;
  int m_magS1;
  int m_LogMagS1;
  int m_magS2;
  int m_LogMagS2;
  int m_driftSpeed;
  int m_magSpeed;
  int m_lifetime;
  int m_splitTime;
  int m_mergeTime;
  int m_scale;
  int m_logScale;
  int m_nearestNeighborDistance;
  int m_clusterRadius;
  int m_clusterSeparation;
  int m_dRFromJet;
  int m_LaplacianS1;
  int m_LaplacianS2;
  int m_LaplacianS3;
  int m_HessianS2;
  int m_HessianS4;
  int m_HessianS6;
 
  // Variables from reco::Jet
  int m_nConstituents;
  int m_aveConstituentPt;
  int m_logAveConstituentPt;
  int m_constituentPtDistribution;
  int m_constituentEtaPhiSpread;
 
  // Variables from reco::PFJet
  int m_chargedHadronEnergyFraction;
  int m_neutralHadronEnergyFraction;
  int m_photonEnergyFraction;
  int m_electronEnergyFraction;
  int m_muonEnergyFraction;
  int m_HFHadronEnergyFraction;
  int m_HFEMEnergyFraction;
  int m_chargedHadronMultiplicity;
  int m_neutralHadronMultiplicity;
  int m_photonMultiplicity;
  int m_electronMultiplicity;
  int m_muonMultiplicity;
  int m_HFHadronMultiplicity;
  int m_HFEMMultiplicity;
  int m_chargedEmEnergyFraction;
  int m_chargedMuEnergyFraction;
  int m_neutralEmEnergyFraction;
  int m_EmEnergyFraction;
  int m_chargedMultiplicity;
  int m_neutralMultiplicity;
};
 
#endif  // JetMETCorrections_FFTJetObjects_FFTGenericScaleCalculator_h