PFEnergyCalibration Class Reference

#include <PFEnergyCalibration.h>

Public Member Functions
double	energyEm (const reco::PFCluster &clusterEcal, std::vector< double > &EclustersPS1, std::vector< double > &EclustersPS2, bool crackCorrection=true) const
double	energyEm (const reco::PFCluster &clusterEcal, double ePS1, double ePS2, bool crackCorrection=true) const
double	energyEm (const reco::PFCluster &clusterEcal, std::vector< double > &EclustersPS1, std::vector< double > &EclustersPS2, double &ps1, double &ps2, bool crackCorrection=true) const
double	energyEm (const reco::PFCluster &clusterEcal, double ePS1, double ePS2, double &ps1, double &ps2, bool crackCorrection=true) const
void	energyEmHad (double t, double &e, double &h, double eta, double phi) const
void	initializeCalibrationFunctions ()
	PFEnergyCalibration ()
void	setCalibrationFunctions (const PerformancePayloadFromTFormula *thePFCal)
	~PFEnergyCalibration ()

Protected Attributes
TF1 *	faBarrel
TF1 *	faEndcap
TF1 *	faEtaBarrel
TF1 *	faEtaEndcap
TF1 *	fbBarrel
TF1 *	fbEndcap
TF1 *	fbEtaBarrel
TF1 *	fbEtaEndcap
TF1 *	fcBarrel
TF1 *	fcEndcap
const PerformancePayloadFromTFormula *	pfCalibrations

Private Member Functions
double	aBarrel (double x) const
double	aEndcap (double x) const
double	aEtaBarrel (double x) const
double	aEtaEndcap (double x) const
double	Alpha (double eta) const
double	bBarrel (double x) const
double	bEndcap (double x) const
double	Beta (double E, double eta) const
double	bEtaBarrel (double x) const
double	bEtaEndcap (double x) const
double	cBarrel (double x) const
double	cEndcap (double x) const
double	CorrBarrel (double E, double eta) const
double	CorrEta (double eta) const
double	CorrPhi (double phi, double eta) const
double	dCrackPhi (double phi, double eta) const
double	Ecorr (double eEcal, double ePS1, double ePS2, double eta, double phi, bool crackCorrection=true) const
double	Ecorr (double eEcal, double ePS1, double ePS2, double eta, double phi, double &, double &, bool crackCorrection=true) const
double	EcorrBarrel (double E, double eta, double phi, bool crackCorrection=true) const
double	EcorrPS (double eEcal, double ePS1, double ePS2, double etaEcal) const
double	EcorrPS (double eEcal, double ePS1, double ePS2, double etaEcal, double &, double &) const
double	EcorrPS_ePSNil (double eEcal, double eta) const
double	EcorrZoneAfterPS (double E, double eta) const
double	EcorrZoneBeforePS (double E, double eta) const
double	Gamma (double etaEcal) const
double	minimum (double a, double b) const

Private Attributes
double	threshE
double	threshH

Friends
std::ostream &	operator<< (std::ostream &out, const PFEnergyCalibration &calib)

Detailed Description

Definition at line 39 of file PFEnergyCalibration.h.

Constructor & Destructor Documentation

PFEnergyCalibration::PFEnergyCalibration

(

)

Definition at line 12 of file PFEnergyCalibration.cc.

References initializeCalibrationFunctions().

                                         : pfCalibrations(0)
{
  initializeCalibrationFunctions();
}

PFEnergyCalibration::~PFEnergyCalibration

(

)

Definition at line 17 of file PFEnergyCalibration.cc.

References faBarrel, faEndcap, faEtaBarrel, faEtaEndcap, fbBarrel, fbEndcap, fbEtaBarrel, fbEtaEndcap, fcBarrel, and fcEndcap.

{

  delete faBarrel;
  delete fbBarrel;
  delete fcBarrel;
  delete faEtaBarrel;
  delete fbEtaBarrel;
  delete faEndcap;
  delete fbEndcap;
  delete fcEndcap;
  delete faEtaEndcap;
  delete fbEtaEndcap;

}

Member Function Documentation

double PFEnergyCalibration::aBarrel ( double  x ) const

private

Definition at line 224 of file PFEnergyCalibration.cc.

References faBarrel, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfa_BARREL, and point.

Referenced by energyEmHad().

                                           { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfa_BARREL,point); 

  } else { 

    return faBarrel->Eval(x); 

  }
}

double PFEnergyCalibration::aEndcap ( double  x ) const

private

Definition at line 304 of file PFEnergyCalibration.cc.

References faEndcap, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfa_ENDCAP, and point.

Referenced by energyEmHad().

                                           { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfa_ENDCAP,point); 

  } else { 

    return faEndcap->Eval(x); 

  }
}

double PFEnergyCalibration::aEtaBarrel ( double  x ) const

private

Definition at line 272 of file PFEnergyCalibration.cc.

References faEtaBarrel, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfaEta_BARREL, and point.

Referenced by energyEmHad().

                                              { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfaEta_BARREL,point); 

  } else { 

    return faEtaBarrel->Eval(x); 

  }
}

double PFEnergyCalibration::aEtaEndcap ( double  x ) const

private

Definition at line 352 of file PFEnergyCalibration.cc.

References faEtaEndcap, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfaEta_ENDCAP, and point.

Referenced by energyEmHad().

                                              { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfaEta_ENDCAP,point); 

  } else { 

    return faEtaEndcap->Eval(x); 

  }
}

double PFEnergyCalibration::Alpha ( double  eta ) const

private

Definition at line 673 of file PFEnergyCalibration.cc.

References constexpr, eta, p1, p2, and query::result.

Referenced by EcorrPS().

                                           {

  //Energy dependency
  constexpr double p0 = 5.97621e-01;

  //Eta dependency
  constexpr double p1 =-1.86407e-01;
  constexpr double p2 = 3.85197e-01; 

  //so that <feta()> = 1
  constexpr double norm = (p1+p2*(2.6+1.656)/2);

  double result = p0*(p1+p2*eta)/norm;

  return result;
}

double PFEnergyCalibration::bBarrel ( double  x ) const

private

Definition at line 240 of file PFEnergyCalibration.cc.

References fbBarrel, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfb_BARREL, and point.

Referenced by energyEmHad().

                                           { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfb_BARREL,point); 

  } else { 

    return fbBarrel->Eval(x); 

  }
}

double PFEnergyCalibration::bEndcap ( double  x ) const

private

Definition at line 320 of file PFEnergyCalibration.cc.

References fbEndcap, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfb_ENDCAP, and point.

Referenced by energyEmHad().

                                           { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfb_ENDCAP,point); 

  } else { 

    return fbEndcap->Eval(x); 

  }
}

double PFEnergyCalibration::Beta ( double  E, double  eta  ) const

private

Definition at line 691 of file PFEnergyCalibration.cc.

References constexpr, p1, p2, p3, p4, and query::result.

Referenced by EcorrPS().

                                                    {

 //Energy dependency
  constexpr double p0 = 0.032;
  constexpr double p1 = 9.70394e-02;
  constexpr double p2 = 2.23072e+01;
  constexpr double p3 = 100;

  //Eta dependency
  constexpr double p4 = 1.02496e+00 ;
  constexpr double p5 = -4.40176e-03 ;

  //so that <feta()> = 1
  constexpr double norm = (p4+p5*(2.6+1.656)/2);

  double result = (1.0012+p0*TMath::Exp(-E/p3)+p1*TMath::Exp(-E/p2))*(p4+p5*eta)/norm;            
  return result;
}

double PFEnergyCalibration::bEtaBarrel ( double  x ) const

private

Definition at line 288 of file PFEnergyCalibration.cc.

References fbEtaBarrel, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfbEta_BARREL, and point.

Referenced by energyEmHad().

                                              { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfbEta_BARREL,point); 

  } else { 

    return fbEtaBarrel->Eval(x); 

  }
}

double PFEnergyCalibration::bEtaEndcap ( double  x ) const

private

Definition at line 368 of file PFEnergyCalibration.cc.

References fbEtaEndcap, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfbEta_ENDCAP, and point.

Referenced by energyEmHad().

                                              { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfbEta_ENDCAP,point); 

  } else { 

    return fbEtaEndcap->Eval(x); 

  }
}

double PFEnergyCalibration::cBarrel ( double  x ) const

private

Definition at line 256 of file PFEnergyCalibration.cc.

References fcBarrel, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfc_BARREL, and point.

Referenced by energyEmHad().

                                           { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfc_BARREL,point); 

  } else { 

    return fcBarrel->Eval(x); 

  }
}

double PFEnergyCalibration::cEndcap ( double  x ) const

private

Definition at line 336 of file PFEnergyCalibration.cc.

References fcEndcap, PerformancePayloadFromTFormula::getResult(), BinningPointByMap::insert(), BinningVariables::JetEt, pfCalibrations, PerformanceResult::PFfc_ENDCAP, and point.

Referenced by energyEmHad().

                                           { 

  if ( pfCalibrations ) { 

    BinningPointByMap point;
    point.insert(BinningVariables::JetEt, x);
    return pfCalibrations->getResult(PerformanceResult::PFfc_ENDCAP,point); 

  } else { 

    return fcEndcap->Eval(x); 

  }
}

double PFEnergyCalibration::CorrBarrel ( double  E, double  eta  ) const

private

Definition at line 627 of file PFEnergyCalibration.cc.

References constexpr, p1, p2, p3, p4, and query::result.

Referenced by EcorrBarrel().

                                                          {

  //Energy dependency
  /*
  //YM Parameters 52XX:
  constexpr double p0=1.00000e+00;
  constexpr double p1=3.27753e+01;
  constexpr double p2=2.28552e-02;
  constexpr double p3=3.06139e+00;
  constexpr double p4=2.25135e-01;
  constexpr double p5=1.47824e+00;
  constexpr double p6=1.09e-02;
  constexpr double p7=4.19343e+01;
  */
  constexpr double p0 = 0.9944;
  constexpr double p1 = 9.827;
  constexpr double p2 = 1.503;
  constexpr double p3 = 1.196;
  constexpr double p4 = 0.3349;
  constexpr double p5 = 0.89;
  constexpr double p6 = 0.004361;
  constexpr double p7 = 51.51;
  //Eta dependency
  constexpr double p8=2.705593e-03;
  
  double result = (p0+1/(p1+p2*TMath::Power(E,p3))+p4*TMath::Exp(-E/p5)+p6*TMath::Exp(-E*E/(p7*p7)))*(1+p8*eta*eta);

  return result;
}

double PFEnergyCalibration::CorrEta ( double  eta ) const

private

Definition at line 609 of file PFEnergyCalibration.cc.

References a, Abs(), constexpr, i, visualization-live-secondInstance_cfg::m, query::result, alignCSCRings::s, Sign(), and contentValuesCheck::ss.

Referenced by EcorrBarrel().

                                             {
  
  // we use a gaussian with a screwness for each of the 5 |eta|-cracks
  constexpr double a[] = {6.13349e-01, 5.08146e-01, 4.44480e-01, 3.3487e-01, 7.65627e-01}; // amplitude
  constexpr double m[] = {-1.79514e-02, 4.44747e-01, 7.92824e-01, 1.14090e+00, 1.47464e+00}; // mean
  constexpr double s[] = {7.92382e-03, 3.06028e-03, 3.36139e-03, 3.94521e-03, 8.63950e-04}; // sigma
  constexpr double sa[] = {1.27228e+01, 3.81517e-02, 1.63507e-01, -6.56480e-02, 1.87160e-01}; // screwness amplitude
  constexpr double ss[] = {5.48753e-02, -1.00223e-02, 2.22866e-03, 4.26288e-04, 2.67937e-03}; // screwness sigma
  double result = 1;

  for(unsigned i=0;i<=4;i++) result+=a[i]*TMath::Gaus(eta,m[i],s[i])*(1+sa[i]*TMath::Sign(1.,eta-m[i])*TMath::Exp(-TMath::Abs(eta-m[i])/ss[i]));

  return result;
}

double PFEnergyCalibration::CorrPhi ( double  phi, double  eta  ) const

private

Definition at line 583 of file PFEnergyCalibration.cc.

References constexpr, dCrackPhi(), p1, p2, p3, p4, and query::result.

Referenced by EcorrBarrel().

                                                         {

  // we use 3 gaussians to correct the phi-cracks effect
  constexpr double p1=   5.59379e-01;
  constexpr double p2=   -1.26607e-03;
  constexpr double p3=  9.61133e-04;

  constexpr double p4=   1.81691e-01;
  constexpr double p5=   -4.97535e-03;
  constexpr double p6=   1.31006e-03;

  constexpr double p7=   1.38498e-01;
  constexpr double p8=   1.18599e-04;
  constexpr double p9= 2.01858e-03;
  

  double dminphi = dCrackPhi(phi,eta);
  
  double result = (1+p1*TMath::Gaus(dminphi,p2,p3)+p4*TMath::Gaus(dminphi,p5,p6)+p7*TMath::Gaus(dminphi,p8,p9));

  return result;
}   

double PFEnergyCalibration::dCrackPhi ( double  phi, double  eta  ) const

private

Definition at line 541 of file PFEnergyCalibration.cc.

References constexpr, gather_cfg::cout, i, visualization-live-secondInstance_cfg::m, minimum(), and pi.

Referenced by CorrPhi().

                                                           {

  
  //Shift of this location if eta<0
  constexpr double delta_cPhi=0.00638;

  double m; //the result

  //the location is shifted
  if(eta<0) phi +=delta_cPhi;

  if (phi>=-pi && phi<=pi){

    //the problem of the extrema
    if (phi<cPhi[17] || phi>=cPhi[0]){
      if (phi<0) phi+= 2*pi;
      m = minimum(phi -cPhi[0],phi-cPhi[17]-2*pi);          
    }

    //between these extrema...
    else{
      bool OK = false;
      unsigned i=16;
      while(!OK){
    if (phi<cPhi[i]){
      m=minimum(phi-cPhi[i+1],phi-cPhi[i]);
      OK=true;
    }
    else i-=1;
      }
    }
  }
  else{
    m=0.;        //if there is a problem, we assum that we are in a crack
    std::cout<<"Problem in dminphi"<<std::endl;
  }
  if(eta<0) m=-m;   //because of the disymetry
  return m;
}

double PFEnergyCalibration::Ecorr ( double  eEcal, double  ePS1, double  ePS2, double  eta, double  phi, bool  crackCorrection = true  ) const

private

Definition at line 883 of file PFEnergyCalibration.cc.

References Abs(), constexpr, EcorrBarrel(), EcorrPS(), EcorrPS_ePSNil(), EcorrZoneAfterPS(), EcorrZoneBeforePS(), and query::result.

Referenced by energyEm().

                                            {

  constexpr double endBarrel=1.48;
  constexpr double beginingPS=1.65;
  constexpr double endPS=2.6;
  constexpr double endEndCap=2.98;
 
  double result=0;

  eta=TMath::Abs(eta);

  if(eEcal>0){
    if(eta <= endBarrel)                         result = EcorrBarrel(eEcal,eta,phi,crackCorrection);
    else if(eta <= beginingPS)                   result = EcorrZoneBeforePS(eEcal,eta);
    else if((eta < endPS) && ePS1==0 && ePS2==0) result = EcorrPS_ePSNil(eEcal,eta);
    else if(eta < endPS)                         result = EcorrPS(eEcal,ePS1,ePS2,eta);
    else if(eta < endEndCap)                     result = EcorrZoneAfterPS(eEcal,eta); 
    else result =eEcal;
  }
  else result = eEcal;// useful if eEcal=0 or eta>2.98
  //protection
  if(result<eEcal) result=eEcal;
  return result;
}

double PFEnergyCalibration::Ecorr ( double  eEcal, double  ePS1, double  ePS2, double  eta, double  phi, double &  ps1, double &  ps2, bool  crackCorrection = true  ) const

private

Definition at line 913 of file PFEnergyCalibration.cc.

References Abs(), constexpr, EcorrBarrel(), EcorrPS(), EcorrPS_ePSNil(), EcorrZoneAfterPS(), EcorrZoneBeforePS(), and query::result.

                                                                                                                                        {

  constexpr double endBarrel=1.48;
  constexpr double beginingPS=1.65;
  constexpr double endPS=2.6;
  constexpr double endEndCap=2.98;
 
  double result=0;

  eta=TMath::Abs(eta);

  if(eEcal>0){
    if(eta <= endBarrel)                         result = EcorrBarrel(eEcal,eta,phi,crackCorrection);
    else if(eta <= beginingPS)                   result = EcorrZoneBeforePS(eEcal,eta);
    else if((eta < endPS) && ePS1==0 && ePS2==0) result = EcorrPS_ePSNil(eEcal,eta);
    else if(eta < endPS)                         result = EcorrPS(eEcal,ePS1,ePS2,eta,ps1,ps2);
    else if(eta < endEndCap)                     result = EcorrZoneAfterPS(eEcal,eta); 
    else result =eEcal;
  }
  else result = eEcal;// useful if eEcal=0 or eta>2.98
  // protection
  if(result<eEcal) result=eEcal;
  return result;
}

double PFEnergyCalibration::EcorrBarrel ( double  E, double  eta, double  phi, bool  crackCorrection = true  ) const

private

Definition at line 741 of file PFEnergyCalibration.cc.

References CorrBarrel(), CorrEta(), CorrPhi(), bookConverter::max, and query::result.

Referenced by Ecorr().

                                              {

  // double result = E*CorrBarrel(E,eta)*CorrEta(eta)*CorrPhi(phi,eta);
  double correction = crackCorrection ? std::max(CorrEta(eta),CorrPhi(phi,eta)) : 1.;
  double result = E * CorrBarrel(E,eta) * correction;

  return result;
}

double PFEnergyCalibration::EcorrPS ( double  eEcal, double  ePS1, double  ePS2, double  etaEcal  ) const

private

Definition at line 780 of file PFEnergyCalibration.cc.

References Alpha(), Beta(), constexpr, alignCSCRings::e, Gamma(), p1, p2, p3, p4, and query::result.

Referenced by Ecorr().

                                                                                      {

  // gives the good weights to each subdetector
  double E = Beta(1.0155*eEcal+0.025*(ePS1+0.5976*ePS2)/9e-5,etaEcal)*eEcal+Gamma(etaEcal)*(ePS1+Alpha(etaEcal)*ePS2)/9e-5 ;

  //Correction of the residual energy dependency
  constexpr double p0 = 1.00;
  constexpr double p1 = 2.18;
  constexpr double p2 =1.94;
  constexpr double p3 =4.13;
  constexpr double p4 =1.127;

  double result = E*(p0+p1*TMath::Exp(-E/p2)-p3*TMath::Exp(-E/p4));

  return result;
} 

double PFEnergyCalibration::EcorrPS ( double  eEcal, double  ePS1, double  ePS2, double  etaEcal, double &  outputPS1, double &  outputPS2  ) const

private

Definition at line 800 of file PFEnergyCalibration.cc.

References Alpha(), Beta(), constexpr, alignCSCRings::e, Gamma(), p1, p2, p3, p4, and query::result.

                                                                                                                             {

  // gives the good weights to each subdetector
  double gammaprime=Gamma(etaEcal)/9e-5;
  outputPS1=gammaprime*ePS1;
  outputPS2=gammaprime*Alpha(etaEcal)*ePS2;
  double E = Beta(1.0155*eEcal+0.025*(ePS1+0.5976*ePS2)/9e-5,etaEcal)*eEcal+outputPS1+outputPS2;

  //Correction of the residual energy dependency
  constexpr double p0 = 1.00;
  constexpr double p1 = 2.18;
  constexpr double p2 =1.94;
  constexpr double p3 =4.13;
  constexpr double p4 =1.127;
  
  double corrfac=(p0+p1*TMath::Exp(-E/p2)-p3*TMath::Exp(-E/p4));
  outputPS1*=corrfac;
  outputPS2*=corrfac;
  double result = E*corrfac;

  return result;
} 

double PFEnergyCalibration::EcorrPS_ePSNil ( double  eEcal, double  eta  ) const

private

Definition at line 827 of file PFEnergyCalibration.cc.

References Abs(), constexpr, p1, p2, p3, p4, and query::result.

Referenced by Ecorr().

                                                                 {

  //Energy dependency
  constexpr double p0= 1.02;
  constexpr double p1= 0.165;
  constexpr double p2= 6.5 ;
  constexpr double p3=  2.1 ;

  //Eta dependency
  constexpr double p4 = 1.02496e+00 ;
  constexpr double p5 = -4.40176e-03 ;

  //so that <feta()> = 1
  constexpr double norm = (p4+p5*(2.6+1.656)/2);

  double result = eEcal*(p0+p1*TMath::Exp(-TMath::Abs(eEcal-p3)/p2))*(p4+p5*eta)/norm;
          
  return result;
}

double PFEnergyCalibration::EcorrZoneAfterPS ( double  E, double  eta  ) const

private

Definition at line 850 of file PFEnergyCalibration.cc.

References constexpr, p1, p2, p3, p4, and query::result.

Referenced by Ecorr().

                                                                {

  //Energy dependency
  constexpr double p0 =1; 
  constexpr double p1 = 0.058;
  constexpr double p2 =12.5;
  constexpr double p3 =-1.05444e+00;
  constexpr double p4 =-5.39557e+00;
  constexpr double p5 =8.38444e+00;
  constexpr double p6 = 6.10998e-01  ;

  //Eta dependency
  constexpr double p7 =1.06161e+00;
  constexpr double p8 = 0.41;
  constexpr double p9 =2.918;
  constexpr double p10 =0.0181;
  constexpr double p11= 2.05;
  constexpr double p12 =2.99;
  constexpr double p13=0.0287;

  //so that <feta()> = 1
  constexpr double norm=1.045;

  double result = E*(p0+p1*TMath::Exp(-(E-p3)/p2)+1/(p4+p5*TMath::Power(E,p6)))*(p7+p8*TMath::Gaus(eta,p9,p10)+p11*TMath::Gaus(eta,p12,p13))/norm;
  return result;
}

double PFEnergyCalibration::EcorrZoneBeforePS ( double  E, double  eta  ) const

private

Definition at line 754 of file PFEnergyCalibration.cc.

References constexpr, eta, p1, p2, p3, p4, and query::result.

Referenced by Ecorr().

                                                                 {

 //Energy dependency
  constexpr double p0 =1; 
  constexpr double p1 =0.18;
  constexpr double p2 =8.;

  //Eta dependency
  constexpr double p3 =0.3;
  constexpr double p4 =1.11;
  constexpr double p5 =0.025;
  constexpr double p6 =1.49;
  constexpr double p7 =0.6;

  //so that <feta()> = 1
  constexpr double norm = 1.21;

  double result = E*(p0+p1*TMath::Exp(-E/p2))*(p3+p4*TMath::Gaus(eta,p6,p5)+p7*eta)/norm;

  return result;
}

double PFEnergyCalibration::energyEm	(	const reco::PFCluster &	clusterEcal,
		std::vector< double > &	EclustersPS1,
		std::vector< double > &	EclustersPS2,
		bool	crackCorrection = true
	)		const

Definition at line 385 of file PFEnergyCalibration.cc.

Referenced by energyEm().

                                               {
  double ePS1(std::accumulate(EclustersPS1.begin(), EclustersPS1.end(), 0.0));
  double ePS2(std::accumulate(EclustersPS2.begin(), EclustersPS2.end(), 0.0));
  return energyEm(clusterEcal, ePS1, ePS2, crackCorrection);
}

double PFEnergyCalibration::energyEm	(	const reco::PFCluster &	clusterEcal,
		double	ePS1,
		double	ePS2,
		bool	crackCorrection = true
	)		const

Definition at line 395 of file PFEnergyCalibration.cc.

References reco::PFCluster::calculatePositionREP(), Ecorr(), reco::PFCluster::energy(), eta, phi, and reco::PFCluster::positionREP().

                                               {
  double eEcal = clusterEcal.energy();
  //temporaty ugly fix
  reco::PFCluster myPFCluster=clusterEcal;
  myPFCluster.calculatePositionREP();
  double eta = myPFCluster.positionREP().eta();
  double phi = myPFCluster.positionREP().phi();

  double calibrated = Ecorr(eEcal,ePS1,ePS2,eta,phi, crackCorrection);
  // if(eEcal!=0 && calibrated==0) std::cout<<"Eecal = "<<eEcal<<"  eta = "<<eta<<"  phi = "<<phi<<std::endl; 
  return calibrated; 
}

double PFEnergyCalibration::energyEm	(	const reco::PFCluster &	clusterEcal,
		std::vector< double > &	EclustersPS1,
		std::vector< double > &	EclustersPS2,
		double &	ps1,
		double &	ps2,
		bool	crackCorrection = true
	)		const

Definition at line 411 of file PFEnergyCalibration.cc.

References energyEm().

                                                 {
  double ePS1(std::accumulate(EclustersPS1.begin(), EclustersPS1.end(), 0.0));
  double ePS2(std::accumulate(EclustersPS2.begin(), EclustersPS2.end(), 0.0));
  return energyEm(clusterEcal, ePS1, ePS2, ps1, ps2, crackCorrection);
}

double PFEnergyCalibration::energyEm	(	const reco::PFCluster &	clusterEcal,
		double	ePS1,
		double	ePS2,
		double &	ps1,
		double &	ps2,
		bool	crackCorrection = true
	)		const

Definition at line 420 of file PFEnergyCalibration.cc.

References reco::PFCluster::calculatePositionREP(), Ecorr(), reco::PFCluster::energy(), eta, phi, and reco::PFCluster::positionREP().

                                                 {
  double eEcal = clusterEcal.energy();
  //temporaty ugly fix
  reco::PFCluster myPFCluster=clusterEcal;
  myPFCluster.calculatePositionREP();
  double eta = myPFCluster.positionREP().eta();
  double phi = myPFCluster.positionREP().phi();

  double calibrated = Ecorr(eEcal,ePS1,ePS2,eta,phi,ps1,ps2,crackCorrection);
  // if(eEcal!=0 && calibrated==0) std::cout<<"Eecal = "<<eEcal<<"  eta = "<<eta<<"  phi = "<<phi<<std::endl; 
  return calibrated; 
}

void PFEnergyCalibration::energyEmHad	(	double	t,
		double &	e,
		double &	h,
		double	eta,
		double	phi
	)		const

Definition at line 131 of file PFEnergyCalibration.cc.

References a, aBarrel(), funct::abs(), aEndcap(), aEtaBarrel(), aEtaEndcap(), b, bBarrel(), bEndcap(), bEtaBarrel(), bEtaEndcap(), cBarrel(), cEndcap(), alignCSCRings::e, h, bookConverter::max, min(), lumiQTWidget::t, GOODCOLL_filter_cfg::thresh, threshE, threshH, and groupFilesInBlocks::tt.

                                                                                            { 
 
  
  // Use calorimetric energy as true energy for neutral particles
  double tt = t;
  double ee = e;
  double hh = h;
  double a = 1.;
  double b = 1.;
  double etaCorrE = 1.;
  double etaCorrH = 1.;
  t = min(999.9,max(tt,e+h));
  if ( t < 1. ) return;

  // Barrel calibration
  if ( std::abs(eta) < 1.48 ) { 

    // The energy correction
    a = e>0. ? aBarrel(t) : 1.;
    b = e>0. ? bBarrel(t) : cBarrel(t);
    double thresh = e > 0. ? threshE : threshH;

    // Protection against negative calibration - to be tuned
    if ( a < -0.25 || b < -0.25 ) { 
      a = 1.;
      b = 1.;
      thresh = 0.;
    }

    // The new estimate of the true energy
    t = min(999.9,max(tt, thresh+a*e+b*h));

    // The angular correction for ECAL hadronic deposits
    etaCorrE = 1. + aEtaBarrel(t) + 2.2*bEtaBarrel(t)*std::abs(eta)*std::abs(eta);
    etaCorrH = 1.;
    // etaCorr = 1.;
    //t = max(tt, thresh+etaCorrE*a*e+etaCorrH*b*h);

    if ( e > 0. && thresh > 0. ) 
      e = h > 0. ? threshE-threshH + etaCorrE * a * e : threshE + etaCorrE * a * e;
    if ( h > 0. && thresh > 0. ) 
      h = threshH + etaCorrH * b * h;

  // Endcap calibration   
  } else {

    // The energy correction
    a = e>0. ? aEndcap(t) : 1.;
    b = e>0. ? bEndcap(t) : cEndcap(t);
    double thresh = e > 0. ? threshE : threshH;

    if ( a < -0.25 || b < -0.25 ) { 
      a = 1.;
      b = 1.;
      thresh = 0.;
    }

    // The new estimate of the true energy
    t = min(999.9,max(tt, thresh+a*e+b*h));
    
    // The angular correction 
 
    double dEta = std::abs( std::abs(eta) - 1.5 );
    double etaPow = dEta * dEta * dEta * dEta;
    //MM: 0.1 factor helps the parametrization
    etaCorrE = 1. + aEtaEndcap(t) + 0.1*bEtaEndcap(t)*etaPow;
    etaCorrH = 1. + aEtaEndcap(t) + bEtaEndcap(t)*etaPow;
    
    //t = min(999.9,max(tt, thresh + etaCorrE*a*e + etaCorrH*b*h));

    if ( e > 0. && thresh > 0. ) 
      e = h > 0. ? threshE-threshH + etaCorrE * a * e : threshE + etaCorrE * a * e;
    if ( h > 0. && thresh > 0. ) 
      h = threshH + b * etaCorrH * h;


  }

  // Protection
  if ( e < 0. || h < 0. ) {
  
    // Some protection against crazy calibration
    if ( e < 0. ) e = ee;
    if ( h < 0. ) h = hh;
  }

  // And that's it !

  
}

double PFEnergyCalibration::Gamma ( double  etaEcal ) const

private

Definition at line 712 of file PFEnergyCalibration.cc.

References constexpr, p1, p2, and query::result.

Referenced by EcorrPS().

                                               {

 //Energy dependency
  constexpr double p0 = 2.49752e-02;

  //Eta dependency
  constexpr double p1 = 6.48816e-02;
  constexpr double p2 = -1.59517e-02; 
 
  //so that <feta()> = 1
  constexpr double norm = (p1+p2*(2.6+1.656)/2);

  double result = p0*(p1+p2*etaEcal)/norm;                    

  return result;
}

void PFEnergyCalibration::initializeCalibrationFunctions

(

)

Definition at line 34 of file PFEnergyCalibration.cc.

References alignCSCRings::e, faBarrel, faEndcap, faEtaBarrel, faEtaEndcap, fbBarrel, fbEndcap, fbEtaBarrel, fbEtaEndcap, fcBarrel, fcEndcap, threshE, and threshH.

Referenced by PFEnergyCalibration().

                                                    {

  // NEW NEW with HCAL pre-calibration

  threshE = 3.5;
  threshH = 2.5;

  // Barrel (fit made with |eta| < 1.2)
  faBarrel = new TF1("faBarrel","(x<190)?([0]+((([1]+([2]/x^[8]))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))):([9]+[10]*exp(-x/[11]))",1.,1000.);
  faBarrel->SetParameter(0,-18.7813);
  faBarrel->SetParameter(1,2.49368);
  faBarrel->SetParameter(2,10.3321);
  faBarrel->SetParameter(3,0.074916);
  faBarrel->SetParameter(4,-17.5757);
  faBarrel->SetParameter(5,-7.94004e+06);
  faBarrel->SetParameter(6,-1.66603);
  faBarrel->SetParameter(7,-1464.26);
  faBarrel->SetParameter(8,0.881126);
  faBarrel->SetParameter(9,1.09984);
  faBarrel->SetParameter(10,0.394544);
  faBarrel->SetParameter(11,562.407);
  fbBarrel = new TF1("fbBarrel","(x<190)?([0]+((([1]+([2]/x^[8]))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))):([9]+[10]*exp(-x/[11]))",1.,1000.);
  fbBarrel->SetParameter(0,3.44547);
  fbBarrel->SetParameter(1,0.812146);
  fbBarrel->SetParameter(2,-7.41084);
  fbBarrel->SetParameter(3,1.82401);
  fbBarrel->SetParameter(4,2.70183);
  fbBarrel->SetParameter(5,0.0397483);
  fbBarrel->SetParameter(6,0.44918);
  fbBarrel->SetParameter(7,-1.04172);
  fbBarrel->SetParameter(8,-0.205864);
  fbBarrel->SetParameter(9,0.930077);
  fbBarrel->SetParameter(10,0.666935);
  fbBarrel->SetParameter(11,56.9643);
  fcBarrel = new TF1("fcBarrel","[0]+((([1]+([2]/x^[8]))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))",1.,1000.);
  fcBarrel->SetParameter(0,1.35401);
  fcBarrel->SetParameter(1,0.121855);
  fcBarrel->SetParameter(2,-3.51745);
  fcBarrel->SetParameter(3,382655);
  fcBarrel->SetParameter(4,0.464902);
  fcBarrel->SetParameter(5,0.0229584);
  fcBarrel->SetParameter(6,2.62871);
  fcBarrel->SetParameter(7,-1.46264);
  fcBarrel->SetParameter(8,0.983422);
  faEtaBarrel = new TF1("faEtaBarrelEH","[0]+[1]*exp(-x/[2])",1.,1000.);
  faEtaBarrel->SetParameter(0,-0.03);
  faEtaBarrel->SetParameter(1,0.0443975);
  faEtaBarrel->SetParameter(2,62.3599);
  fbEtaBarrel = new TF1("fbEtaBarrelEH","[0]+[1]*exp(-x/[2])",1.,1000.);
  fbEtaBarrel->SetParameter(0,0.0266189);
  fbEtaBarrel->SetParameter(1,0.0828236);
  fbEtaBarrel->SetParameter(2,68.0159);

  // End-caps (fit made with eta 
   faEndcap = new TF1("faEndcap","[0]+((([1]+([2]/x^[8]))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))",1.,1000.);
  faEndcap->SetParameter(0,3.10102);
  faEndcap->SetParameter(1,37.0556);
  faEndcap->SetParameter(2,-42.0353);
  faEndcap->SetParameter(3,29.7847);
  faEndcap->SetParameter(4,1.83545);
  faEndcap->SetParameter(5,0.00670624);
  faEndcap->SetParameter(6,0.89783);
  faEndcap->SetParameter(7,-1.73037);
  faEndcap->SetParameter(8,0.0329707);
  fbEndcap = new TF1("fbEndcap","[0]+((([1]+([2]/x^[8]))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))",1.,1000.);
  fbEndcap->SetParameter(0,-1.07747);
  fbEndcap->SetParameter(1,10.9055);
  fbEndcap->SetParameter(2,-8.88263);
  fbEndcap->SetParameter(3,0.0963555);
  fbEndcap->SetParameter(4,-0.627371);
  fbEndcap->SetParameter(5,0.0023847);
  fbEndcap->SetParameter(6,-2.17868);
  fbEndcap->SetParameter(7,-2.67134);
  fbEndcap->SetParameter(8,-0.0108459);
  fcEndcap = new TF1("fcEndcap","[0]+((([1]+([2]/x^[8]))*exp(-(x^[6]/[3])))-([4]*exp(-(x^[7]/[5]))))",1.,1000.);
  fcEndcap->SetParameter(0,1.13795);
  fcEndcap->SetParameter(1,1.21698);
  fcEndcap->SetParameter(2,-3.81192);
  fcEndcap->SetParameter(3,115.409);
  fcEndcap->SetParameter(4,0.673456);
  fcEndcap->SetParameter(5,0.217077);
  fcEndcap->SetParameter(6,1.95596);
  fcEndcap->SetParameter(7,-0.252215);
  fcEndcap->SetParameter(8,0.506146);
  faEtaEndcap = new TF1("faEtaEndcapEH","[0]+[1]*exp(-x/[2])",1.,1000.);
  faEtaEndcap->SetParameter(0,0.0135773);
  faEtaEndcap->SetParameter(1,-0.0276094);
  faEtaEndcap->SetParameter(2,103.144);
  fbEtaEndcap = new TF1("fbEtaEndcapEH","[0]+[1]*x*exp(x*[2])",1.,1000.);
  fbEtaEndcap->SetParameter(0,0.181798);
  fbEtaEndcap->SetParameter(1,-0.00087979);
  fbEtaEndcap->SetParameter(2,-0.00231785);
 
  
}

double PFEnergyCalibration::minimum ( double  a, double  b  ) const

private

Definition at line 517 of file PFEnergyCalibration.cc.

References a, Abs(), and b.

Referenced by dCrackPhi().

                                                    {
  if(TMath::Abs(b)<TMath::Abs(a)) a=b;
  return a;
}

void PFEnergyCalibration::setCalibrationFunctions ( const PerformancePayloadFromTFormula *  thePFCal )

inline

Definition at line 72 of file PFEnergyCalibration.h.

References pfCalibrations.

                                                                               {
    pfCalibrations = thePFCal;
  }

Friends And Related Function Documentation

std::ostream& operator<< ( std::ostream &  out, const PFEnergyCalibration &  calib  )

friend

Definition at line 437 of file PFEnergyCalibration.cc.

                                               {

  if(!out ) return out;

  out<<"PFEnergyCalibration -- "<<endl;

  if ( calib.pfCalibrations ) { 

    std::cout << "Functions taken from the global tags : " << std::endl;

    static std::map<std::string, PerformanceResult::ResultType> functType;

    functType["PFfa_BARREL"] = PerformanceResult::PFfa_BARREL;
    functType["PFfa_ENDCAP"] = PerformanceResult::PFfa_ENDCAP;
    functType["PFfb_BARREL"] = PerformanceResult::PFfb_BARREL;
    functType["PFfb_ENDCAP"] = PerformanceResult::PFfb_ENDCAP;
    functType["PFfc_BARREL"] = PerformanceResult::PFfc_BARREL;
    functType["PFfc_ENDCAP"] = PerformanceResult::PFfc_ENDCAP;
    functType["PFfaEta_BARREL"] = PerformanceResult::PFfaEta_BARREL;
    functType["PFfaEta_ENDCAP"] = PerformanceResult::PFfaEta_ENDCAP;
    functType["PFfbEta_BARREL"] = PerformanceResult::PFfbEta_BARREL;
    functType["PFfbEta_ENDCAP"] = PerformanceResult::PFfbEta_ENDCAP;
    
    for(std::map<std::string,PerformanceResult::ResultType>::const_iterator 
      func = functType.begin(); 
        func != functType.end(); 
        ++func) {    
      
      cout << "Function: " << func->first << endl;
      PerformanceResult::ResultType fType = func->second;
      calib.pfCalibrations->printFormula(fType);
    }

  } else { 
    
    std::cout << "Default calibration functions : " << std::endl;
    
    calib.faBarrel->Print();
    calib.fbBarrel->Print();
    calib.fcBarrel->Print();
    calib.faEtaBarrel->Print();
    calib.fbEtaBarrel->Print();
    calib.faEndcap->Print();
    calib.fbEndcap->Print();
    calib.fcEndcap->Print();
    calib.faEtaEndcap->Print();
    calib.fbEtaEndcap->Print();
  }
    
  return out;
}

Member Data Documentation

TF1* PFEnergyCalibration::faBarrel

protected

Definition at line 85 of file PFEnergyCalibration.h.

Referenced by aBarrel(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::faEndcap

protected

Definition at line 92 of file PFEnergyCalibration.h.

Referenced by aEndcap(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::faEtaBarrel

protected

Definition at line 88 of file PFEnergyCalibration.h.

Referenced by aEtaBarrel(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::faEtaEndcap

protected

Definition at line 95 of file PFEnergyCalibration.h.

Referenced by aEtaEndcap(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::fbBarrel

protected

Definition at line 86 of file PFEnergyCalibration.h.

Referenced by bBarrel(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::fbEndcap

protected

Definition at line 93 of file PFEnergyCalibration.h.

Referenced by bEndcap(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::fbEtaBarrel

protected

Definition at line 89 of file PFEnergyCalibration.h.

Referenced by bEtaBarrel(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::fbEtaEndcap

protected

Definition at line 96 of file PFEnergyCalibration.h.

Referenced by bEtaEndcap(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::fcBarrel

protected

Definition at line 87 of file PFEnergyCalibration.h.

Referenced by cBarrel(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

TF1* PFEnergyCalibration::fcEndcap

protected

Definition at line 94 of file PFEnergyCalibration.h.

Referenced by cEndcap(), initializeCalibrationFunctions(), operator<<(), and ~PFEnergyCalibration().

const PerformancePayloadFromTFormula* PFEnergyCalibration::pfCalibrations

protected

Definition at line 82 of file PFEnergyCalibration.h.

Referenced by aBarrel(), aEndcap(), aEtaBarrel(), aEtaEndcap(), bBarrel(), bEndcap(), bEtaBarrel(), bEtaEndcap(), cBarrel(), cEndcap(), operator<<(), and setCalibrationFunctions().

double PFEnergyCalibration::threshE

private

Definition at line 130 of file PFEnergyCalibration.h.

Referenced by energyEmHad(), and initializeCalibrationFunctions().

double PFEnergyCalibration::threshH

private

Definition at line 130 of file PFEnergyCalibration.h.

Referenced by energyEmHad(), and initializeCalibrationFunctions().