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Public Member Functions | Private Types | Private Member Functions | Private Attributes

metsig::SignAlgoResolutions Class Reference

#include <SignAlgoResolutions.h>

List of all members.

Public Member Functions

void addResolutions (const edm::ParameterSet &iConfig)
double eval (const resolutionType &type, const resolutionFunc &func, const double &et, const double &phi, const double &eta, const double &p) const
double eval (const resolutionType &type, const resolutionFunc &func, const double &et, const double &phi, const double &eta) const
metsig::SigInputObj evalPF (const reco::PFCandidate *candidate) const
metsig::SigInputObj evalPFJet (const reco::PFJet *jet) const
bool isFilled () const
 SignAlgoResolutions ()
 SignAlgoResolutions (const edm::ParameterSet &iConfig)

Private Types

typedef std::pair
< metsig::resolutionType,
metsig::resolutionFunc
functionCombo
typedef std::vector< double > functionPars

Private Member Functions

void addfunction (const resolutionType type, const resolutionFunc func, std::vector< double > parameters)
double ElectronPtResolution (const reco::PFCandidate *c) const
double EtFunction (const functionPars &x, const functionPars &par) const
double getfunc (const resolutionType &type, const resolutionFunc &func, std::vector< double > &x) const
void initializeJetResolutions (const edm::ParameterSet &iConfig)
double PFunction (const functionPars &x, const functionPars &par) const
double PhiConstFunction (const functionPars &x, const functionPars &par) const
double PhiFunction (const functionPars &x, const functionPars &par) const

Private Attributes

std::map< functionCombo,
functionPars
functionmap_
std::vector< double > jdphi [10]
std::vector< double > jdpt [10]
PFEnergyResolutionpfresol_
JetResolutionphiResol_
JetResolutionptResol_
double ptResolThreshold_

Detailed Description

Definition at line 44 of file SignAlgoResolutions.h.


Member Typedef Documentation

Definition at line 62 of file SignAlgoResolutions.h.

typedef std::vector<double> metsig::SignAlgoResolutions::functionPars [private]

Definition at line 63 of file SignAlgoResolutions.h.


Constructor & Destructor Documentation

metsig::SignAlgoResolutions::SignAlgoResolutions ( ) [inline]

Definition at line 47 of file SignAlgoResolutions.h.

metsig::SignAlgoResolutions::SignAlgoResolutions ( const edm::ParameterSet iConfig)

Definition at line 35 of file SignAlgoResolutions.cc.

References addResolutions().

                                                                            :
    functionmap_(),
    ptResol_(0),
    phiResol_(0)
{
  addResolutions(iConfig);
}

Member Function Documentation

void metsig::SignAlgoResolutions::addfunction ( const resolutionType  type,
const resolutionFunc  func,
std::vector< double >  parameters 
) [private]

Definition at line 308 of file SignAlgoResolutions.cc.

References Parameters::parameters.

                                                                                                            {

  functionCombo mypair(type,func);
  functionmap_[mypair]=parameters;

}
void metsig::SignAlgoResolutions::addResolutions ( const edm::ParameterSet iConfig)

Definition at line 144 of file SignAlgoResolutions.cc.

References metsig::caloEB, metsig::caloEE, metsig::caloHB, metsig::caloHE, metsig::caloHF, metsig::caloHO, metsig::ET, edm::ParameterSet::getParameter(), initializeJetResolutions(), metsig::PFtype1, metsig::PFtype2, metsig::PFtype3, metsig::PFtype4, metsig::PFtype5, metsig::PFtype6, metsig::PFtype7, and metsig::PHI.

Referenced by SignAlgoResolutions().

                                                                            {
    using namespace std;

  // Jet Resolutions - for now load from the files. Migrate to EventSetup asap.
  metsig::SignAlgoResolutions::initializeJetResolutions( iConfig );
  
  ptResolThreshold_ = iConfig.getParameter<double>("ptresolthreshold");


    //get temporary low pT pfjet resolutions
    for (int ieta=0; ieta<10; ieta++){
      jdpt[ieta] = iConfig.getParameter<std::vector<double> >(Form("jdpt%d", ieta));
      jdphi[ieta] = iConfig.getParameter<std::vector<double> >(Form("jdphi%d", ieta));
    }


  // for now: do this by hand - this can obviously also be done via ESSource etc.
  functionPars etparameters(3,0);
  functionPars phiparameters(1,0);
  // set the parameters per function:
  // ECAL, BARREL:
  std::vector<double> ebet = iConfig.getParameter<std::vector<double> >("EB_EtResPar");
  std::vector<double> ebphi = iConfig.getParameter<std::vector<double> >("EB_PhiResPar");

  etparameters[0]=ebet[0];
  etparameters[1]=ebet[1];
  etparameters[2]=ebet[2];
  phiparameters[0]=ebphi[0];
  addfunction(caloEB,ET,etparameters);
  addfunction(caloEB,PHI,phiparameters);
 // ECAL, ENDCAP:
  std::vector<double> eeet = iConfig.getParameter<std::vector<double> >("EE_EtResPar");
  std::vector<double> eephi = iConfig.getParameter<std::vector<double> >("EE_PhiResPar");

  etparameters[0]=eeet[0];
  etparameters[1]=eeet[1];
  etparameters[2]=eeet[2];
  phiparameters[0]=eephi[0];
  addfunction(caloEE,ET,etparameters);
  addfunction(caloEE,PHI,phiparameters);
 // HCAL, BARREL:
  std::vector<double> hbet = iConfig.getParameter<std::vector<double> >("HB_EtResPar");
  std::vector<double> hbphi = iConfig.getParameter<std::vector<double> >("HB_PhiResPar");

  etparameters[0]=hbet[0];
  etparameters[1]=hbet[1];
  etparameters[2]=hbet[2];
  phiparameters[0]=hbphi[0];
  addfunction(caloHB,ET,etparameters);
  addfunction(caloHB,PHI,phiparameters);
 // HCAL, ENDCAP:
  std::vector<double> heet = iConfig.getParameter<std::vector<double> >("HE_EtResPar");
  std::vector<double> hephi = iConfig.getParameter<std::vector<double> >("HE_PhiResPar");

  etparameters[0]=heet[0];
  etparameters[1]=heet[1];
  etparameters[2]=heet[2];
  phiparameters[0]=hephi[0];
  addfunction(caloHE,ET,etparameters);
  addfunction(caloHE,PHI,phiparameters);
 // HCAL, Outer
  std::vector<double> hoet = iConfig.getParameter<std::vector<double> >("HO_EtResPar");
  std::vector<double> hophi = iConfig.getParameter<std::vector<double> >("HO_PhiResPar");


  etparameters[0]=hoet[0];
  etparameters[1]=hoet[1];
  etparameters[2]=hoet[2];
  phiparameters[0]=hophi[0];
  addfunction(caloHO,ET,etparameters);
  addfunction(caloHO,PHI,phiparameters);
 // HCAL, Forward
  std::vector<double> hfet = iConfig.getParameter<std::vector<double> >("HF_EtResPar");
  std::vector<double> hfphi = iConfig.getParameter<std::vector<double> >("HF_PhiResPar");

  etparameters[0]=hfet[0];
  etparameters[1]=hfet[1];
  etparameters[2]=hfet[2];
  phiparameters[0]=hfphi[0];
  addfunction(caloHF,ET,etparameters);
  addfunction(caloHF,PHI,phiparameters);


  // PF objects:
  // type 1:
  std::vector<double> pf1et = iConfig.getParameter<std::vector<double> >("PF_EtResType1");
  std::vector<double> pf1phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType1");
  etparameters[0]=pf1et[0];
  etparameters[1]=pf1et[1];
  etparameters[2]=pf1et[2];
  phiparameters[0]=pf1phi[0];
  addfunction(PFtype1,ET,etparameters);
  addfunction(PFtype1,PHI,phiparameters);

  // PF objects:
  // type 2:
  std::vector<double> pf2et = iConfig.getParameter<std::vector<double> >("PF_EtResType2");
  std::vector<double> pf2phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType2");
  etparameters[0]=pf2et[0];
  etparameters[1]=pf2et[1];
  etparameters[2]=pf2et[2];
  phiparameters[0]=pf2phi[0];
  addfunction(PFtype2,ET,etparameters);
  addfunction(PFtype2,PHI,phiparameters);

  // PF objects:
  // type 3:
  std::vector<double> pf3et = iConfig.getParameter<std::vector<double> >("PF_EtResType3");
  std::vector<double> pf3phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType3");
  etparameters[0]=pf3et[0];
  etparameters[1]=pf3et[1];
  etparameters[2]=pf3et[2];
  phiparameters[0]=pf3phi[0];
  addfunction(PFtype3,ET,etparameters);
  addfunction(PFtype3,PHI,phiparameters);

  // PF objects:
  // type 4:
  std::vector<double> pf4et = iConfig.getParameter<std::vector<double> >("PF_EtResType4");
  std::vector<double> pf4phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType4");
  etparameters[0]=pf4et[0];
  etparameters[1]=pf4et[1];
  etparameters[2]=pf4et[2];
  //phiparameters[0]=pf4phi[0];
  addfunction(PFtype4,ET,etparameters);
  addfunction(PFtype4,PHI,pf4phi); //use the same functional form for photon phi error as for pT, pass whole vector

  // PF objects:
  // type 5:
  std::vector<double> pf5et = iConfig.getParameter<std::vector<double> >("PF_EtResType5");
  std::vector<double> pf5phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType5");
  etparameters[0]=pf5et[0];
  etparameters[1]=pf5et[1];
  etparameters[2]=pf5et[2];
  phiparameters[0]=pf5phi[0];
  addfunction(PFtype5,ET,etparameters);
  addfunction(PFtype5,PHI,pf5phi);

  // PF objects:
  // type 6:
  std::vector<double> pf6et = iConfig.getParameter<std::vector<double> >("PF_EtResType6");
  std::vector<double> pf6phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType6");
  etparameters[0]=pf6et[0];
  etparameters[1]=pf6et[1];
  etparameters[2]=pf6et[2];
  phiparameters[0]=pf6phi[0];
  addfunction(PFtype6,ET,etparameters);
  addfunction(PFtype6,PHI,phiparameters);

  
  // PF objects:
  // type 7:
  std::vector<double> pf7et = iConfig.getParameter<std::vector<double> >("PF_EtResType7");
  std::vector<double> pf7phi = iConfig.getParameter<std::vector<double> >("PF_PhiResType7");
  etparameters[0]=pf7et[0];
  etparameters[1]=pf7et[1];
  etparameters[2]=pf7et[2];
  phiparameters[0]=pf7phi[0];
  addfunction(PFtype7,ET,etparameters);
  addfunction(PFtype7,PHI,phiparameters);

  return;
}
double metsig::SignAlgoResolutions::ElectronPtResolution ( const reco::PFCandidate c) const [private]

Definition at line 416 of file SignAlgoResolutions.cc.

References reco::LeafCandidate::energy(), relval_parameters_module::energy, eta(), and reco::LeafCandidate::eta().

                                                                             {

    double eta = c->eta();
    double energy = c->energy();
    double dEnergy = pfresol_->getEnergyResolutionEm(energy, eta);

    return dEnergy/cosh(eta);
}
double metsig::SignAlgoResolutions::EtFunction ( const functionPars x,
const functionPars par 
) const [private]

Definition at line 341 of file SignAlgoResolutions.cc.

References query::result, and mathSSE::sqrt().

{
  if(par.size()<3)
    return 0.;
  if(x.size()<1)
    return 0.;
  double et=x[0];
  if(et<=0.)
    return 0.;
  double result = et*sqrt((par[2]*par[2])+(par[1]*par[1]/et)+(par[0]*par[0]/(et*et)));
  return result;
}
double metsig::SignAlgoResolutions::eval ( const resolutionType type,
const resolutionFunc func,
const double &  et,
const double &  phi,
const double &  eta,
const double &  p 
) const

Definition at line 53 of file SignAlgoResolutions.cc.

References eta(), AlCaHLTBitMon_ParallelJobs::p, phi, and x.

                                                                                                                                                                                 {

  functionPars x(4);
  x[0]=et;
  x[1]=phi;
  x[2]=eta;
  x[3]=p;
  //  std::cout << "getting function of type " << type << " " << func << " " << x[0] << " " << x[1] << " " << x[2] << " " << x[3] << std::endl;
  return getfunc(type,func,x);

}
double metsig::SignAlgoResolutions::eval ( const resolutionType type,
const resolutionFunc func,
const double &  et,
const double &  phi,
const double &  eta 
) const

Definition at line 45 of file SignAlgoResolutions.cc.

References funct::exp(), AlCaHLTBitMon_ParallelJobs::p, funct::sin(), and theta().

                                                                                                                                                                {
  // derive p from et and eta;
  double theta = 2*atan(exp(-eta));
  double p = et / sin(theta); // rough assumption: take e and p equivalent...
  return eval(type,func,et,phi,eta,p);

}
metsig::SigInputObj metsig::SignAlgoResolutions::evalPF ( const reco::PFCandidate candidate) const

Definition at line 65 of file SignAlgoResolutions.cc.

References reco::LeafCandidate::energy(), metsig::ET, eta(), reco::LeafCandidate::eta(), edm::Ref< C, T, F >::isNull(), mergeVDriftHistosByStation::name, reco::PFCandidate::particleId(), metsig::PFtype1, metsig::PFtype2, metsig::PFtype3, metsig::PFtype4, metsig::PFtype5, metsig::PFtype6, metsig::PFtype7, metsig::PHI, reco::LeafCandidate::phi(), phi, funct::sin(), reco::LeafCandidate::theta(), and reco::PFCandidate::trackRef().

                                                                                           {
  double eta = candidate->eta();
  double phi = candidate->phi();
  double et = candidate->energy()*sin(candidate->theta());
  resolutionType thetype;
  std::string name;
  int type = candidate->particleId();
  switch (type) 
    {
    case 1: 
      thetype=PFtype1;name="PFChargedHadron"; break;
    case 2: 
      thetype=PFtype2;name="PFChargedEM"; break;
    case 3: 
      thetype=PFtype3;name="PFMuon"; break;
    case 4: 
      thetype=PFtype4;name="PFNeutralEM"; break;
    case 5: 
      thetype=PFtype5;name="PFNeutralHadron"; break;
    case 6: 
      thetype=PFtype6;name="PFtype6"; break;
    case 7:
      thetype=PFtype7;name="PFtype7"; break;
    default:
      thetype=PFtype7;name="PFunknown"; break;
  }

  double d_et=0, d_phi=0; //d_phi here is the error on phi component of the et
  reco::TrackRef trackRef = candidate->trackRef();
  if(!trackRef.isNull()){
    d_phi = et*trackRef->phiError();
    d_et  = (type==2) ?  ElectronPtResolution(candidate) : trackRef->ptError();
    //if(type==2) std::cout << eval(thetype,ET,et,phi,eta) << "    " << trackRef->ptError() << "    "<< ElectronPtResolution(candidate) << std::endl;
  }
  else{
    d_et = eval(thetype,ET,et,phi,eta);
    d_phi = eval(thetype,PHI,et,phi,eta);
  }

  metsig::SigInputObj resultingobj(name,et,phi,d_et,d_phi);
  return resultingobj;
}
metsig::SigInputObj metsig::SignAlgoResolutions::evalPFJet ( const reco::PFJet jet) const

Definition at line 110 of file SignAlgoResolutions.cc.

References reco::LeafCandidate::eta(), reco::LeafCandidate::phi(), and reco::LeafCandidate::pt().

                                                              {

    double jpt  = jet->pt();
    double jphi = jet->phi();
    double jeta = jet->eta();
    double jdeltapt = 999.;
    double jdeltapphi = 999.;

    if(jpt<ptResolThreshold_ && jpt<20.){ //use temporary fix for low pT jets
        double feta = TMath::Abs(jeta);
        int ieta = feta<5.? int(feta/0.5) : 9; //bin size = 0.5 
        int ipt  = jpt>3. ? int(jpt-3./2) : 0; //bin size =2, starting from ptmin=3GeV
        jdeltapt   = jdpt[ieta][ipt];
        jdeltapphi = jpt*jdphi[ieta][ipt];
    }
    else{
        //use the resolution functions at |eta|=5 to avoid crash for jets with large eta.
        if(jeta>5) jeta=5;
        if(jeta<-5) jeta=-5;
        TF1* fPtEta  = ptResol_->parameterEta("sigma",jeta);
        TF1* fPhiEta = phiResol_->parameterEta("sigma",jeta);
        jdeltapt   = jpt>ptResolThreshold_ ? jpt*fPtEta->Eval(jpt)  : jpt*fPtEta->Eval(ptResolThreshold_);
        jdeltapphi = jpt>ptResolThreshold_ ? jpt*fPhiEta->Eval(jpt) : jpt*fPhiEta->Eval(ptResolThreshold_);
        delete fPtEta;
        delete fPhiEta;
    }

    std::string inputtype = "jet";
    metsig::SigInputObj obj_jet(inputtype,jpt,jphi,jdeltapt,jdeltapphi);
    //std::cout << "RESOLUTIONS JET: " << jpt << "   " << jphi<< "   " <<jdeltapt << "   " << jdeltapphi << std::endl;
    return obj_jet;
}
double metsig::SignAlgoResolutions::getfunc ( const resolutionType type,
const resolutionFunc func,
std::vector< double > &  x 
) const [private]

Definition at line 315 of file SignAlgoResolutions.cc.

References metsig::CONSTPHI, metsig::ET, metsig::PHI, query::result, edm::second(), metsig::TRACKP, and makeHLTPrescaleTable::values.

                                                                                                                                    {
  
  double result=0;
  functionCombo mypair(type,func);

  if(functionmap_.count(mypair)==0){
        return result;
  }
  
  functionPars values = (functionmap_.find(mypair))->second;
  switch ( func ){
  case metsig::ET :
    return EtFunction(x,values);
  case metsig::PHI :
    return PhiFunction(x,values);
  case metsig::TRACKP :
    return PFunction(x,values);
  case metsig::CONSTPHI :
    return PhiConstFunction(x,values);
  }
  
  //  std::cout << "returning function " << type << " " << func << " " << result << " " << x[0] << std::endl; 

  return result;
}
void metsig::SignAlgoResolutions::initializeJetResolutions ( const edm::ParameterSet iConfig) [private]

Definition at line 386 of file SignAlgoResolutions.cc.

References dtNoiseDBValidation_cfg::cerr, launcher::cmssw_base, cmsBenchmark::cmssw_release_base, edm::ParameterSet::getParameter(), getHLTPrescaleColumns::path, and testRegression::stat.

Referenced by addResolutions().

                                                                                    {
  
  using namespace std;
  
  // only reinitialize the resolutsion if the pointers are zero
  if ( ptResol_ == 0 ) {
    string resolutionsAlgo  = iConfig.getParameter<std::string>("resolutionsAlgo");     
    string resolutionsEra   = iConfig.getParameter<std::string>("resolutionsEra");     

    string cmssw_base(getenv("CMSSW_BASE"));
    string cmssw_release_base(getenv("CMSSW_RELEASE_BASE"));
    string path = cmssw_base + "/src/CondFormats/JetMETObjects/data";
    struct stat st;
    if (stat(path.c_str(),&st)!=0) {
      path = cmssw_release_base + "/src/CondFormats/JetMETObjects/data";
    }
    if (stat(path.c_str(),&st)!=0) {
      cerr<<"ERROR: tried to set path but failed, abort."<<endl;
    }    
    string era(resolutionsEra);
    string alg(resolutionsAlgo);
    string ptFileName  = path + "/" + era + "_PtResolution_" +alg+".txt";
    string phiFileName = path + "/" + era + "_PhiResolution_"+alg+".txt";
    
    ptResol_ = new JetResolution(ptFileName,false);
    phiResol_ = new JetResolution(phiFileName,false);
  }
}
bool metsig::SignAlgoResolutions::isFilled ( ) const [inline]

Definition at line 55 of file SignAlgoResolutions.h.

References functionmap_.

{return functionmap_.size()>0;}
double metsig::SignAlgoResolutions::PFunction ( const functionPars x,
const functionPars par 
) const [private]

Definition at line 374 of file SignAlgoResolutions.cc.

{
  // not currently implemented
  return 0;
}
double metsig::SignAlgoResolutions::PhiConstFunction ( const functionPars x,
const functionPars par 
) const [private]

Definition at line 380 of file SignAlgoResolutions.cc.

{
  return par[0];
}
double metsig::SignAlgoResolutions::PhiFunction ( const functionPars x,
const functionPars par 
) const [private]

Definition at line 355 of file SignAlgoResolutions.cc.

References mathSSE::sqrt().

{
  double et=x[0];
  if(et<=0.){
    return 0.;
  }

  //if 1 parameter is C provided, returns C*pT, if three parameters N, S, C are provided, it returns the usual resolution value, as for sigmaPt
  if(par.size()!=1 && par.size()!=3){//only 1 or 3 parameters supported for phi function
      return 0.;
  }
  else if(par.size()==1){
    return par[0]*et;
  }
  else{
    return et*sqrt((par[2]*par[2])+(par[1]*par[1]/et)+(par[0]*par[0]/(et*et)));
  }

}

Member Data Documentation

Definition at line 64 of file SignAlgoResolutions.h.

Referenced by isFilled().

std::vector<double> metsig::SignAlgoResolutions::jdphi[10] [private]

Definition at line 77 of file SignAlgoResolutions.h.

std::vector<double> metsig::SignAlgoResolutions::jdpt[10] [private]

Definition at line 76 of file SignAlgoResolutions.h.

Definition at line 81 of file SignAlgoResolutions.h.

Definition at line 80 of file SignAlgoResolutions.h.

Definition at line 79 of file SignAlgoResolutions.h.

Definition at line 72 of file SignAlgoResolutions.h.