/*
* Delphes: a framework for fast simulation of a generic collider experiment
* Copyright (C) 2012-2014 Universite catholique de Louvain (UCL), Belgium
*
* This program is free software: you can redistribute it and/or modify
* it under the terms of the GNU General Public License as published by
* the Free Software Foundation, either version 3 of the License, or
* (at your option) any later version.
*
* This program is distributed in the hope that it will be useful,
* but WITHOUT ANY WARRANTY; without even the implied warranty of
* MERCHANTABILITY || FITNESS FOR A PARTICULAR PURPOSE. See the
* GNU General Public License for more details.
*
* You should have received a copy of the GNU General Public License
* along with this program. If not, see .
*/
/** \class JetFlavorAssociation
*
* Find origin of jet && evaluate jet flavor
*
* \author P. Demin - UCL, Louvain-la-Neuve
*
*/
#include "modules/JetFlavorAssociation.h"
#include "classes/DelphesClasses.h"
#include "classes/DelphesFactory.h"
#include "classes/DelphesFormula.h"
#include "ExRootAnalysis/ExRootResult.h"
#include "ExRootAnalysis/ExRootFilter.h"
#include "ExRootAnalysis/ExRootClassifier.h"
#include "TMath.h"
#include "TString.h"
#include "TFormula.h"
#include "TRandom3.h"
#include "TObjArray.h"
#include "TDatabasePDG.h"
#include "TLorentzVector.h"
#include
#include
#include
#include
using namespace std;
//------------------------------------------------------------------------------
class PartonClassifier: public ExRootClassifier
{
public:
PartonClassifier() {}
Int_t GetCategory(TObject *object);
Double_t fEtaMax, fPTMin;
};
//------------------------------------------------------------------------------
// https://cmssdt.cern.ch/SDT/lxr/source/PhysicsTools/JetMCAlgos/plugins/PartonSelector.cc
Int_t PartonClassifier::GetCategory(TObject *object)
{
// select parton in the parton list
Candidate *parton = static_cast(object);
const TLorentzVector &momentum = parton->Momentum;
Int_t pdgCode;
// inside the eta && momentum range (be a little bit larger that the tracking coverage
if(momentum.Pt() <= fPTMin || TMath::Abs(momentum.Eta()) > fEtaMax) return -1;
pdgCode = TMath::Abs(parton->PID);
if(parton->Status == -1) return -1;
if(pdgCode != 21 && pdgCode > 5) return -1; // not a parton, skip
if(parton->Status == 3 || parton->Status == 2) return 0; // if status 3 return
return 0;
}
//------------------------------------------------------------------------------
class ParticleLHEFClassifier: public ExRootClassifier
{
public:
ParticleLHEFClassifier() {}
Int_t GetCategory(TObject *object);
Double_t fEtaMax, fPTMin;
};
Int_t ParticleLHEFClassifier::GetCategory(TObject *object)
{
// select parton in the parton list
Candidate *particleLHEF = static_cast(object);
const TLorentzVector &momentum = particleLHEF->Momentum;
Int_t pdgCode;
// inside the eta && momentum range (be a little bit larger that the tracking coverage
if(momentum.Pt() <= fPTMin || TMath::Abs(momentum.Eta()) > fEtaMax) return -1;
pdgCode = TMath::Abs(particleLHEF->PID);
if(particleLHEF->Status == -1) return -1;
if(pdgCode != 21 && pdgCode > 5) return -1; // not a parton, skip
if(particleLHEF->Status != 1) return -1; // if status 3 return
return 0;
}
//------------------------------------------------------------------------------
JetFlavorAssociation::JetFlavorAssociation() :
fPartonClassifier(0), fPartonFilter(0), fParticleLHEFFilter(0),
fItPartonInputArray(0), fItParticleInputArray(0),
fItParticleLHEFInputArray(0), fItJetInputArray(0)
{
fPartonClassifier = new PartonClassifier;
fParticleLHEFClassifier = new ParticleLHEFClassifier;
}
//------------------------------------------------------------------------------
JetFlavorAssociation::~JetFlavorAssociation()
{
if(fPartonClassifier) delete fPartonClassifier;
if(fParticleLHEFClassifier) delete fParticleLHEFClassifier;
}
//------------------------------------------------------------------------------
void JetFlavorAssociation::Init()
{
ExRootConfParam param;
fDeltaR = GetDouble("DeltaR", 0.5);
fPartonClassifier->fPTMin = GetDouble("PartonPTMin", 0.0);
fPartonClassifier->fEtaMax = GetDouble("PartonEtaMax", 2.5);
fParticleLHEFClassifier->fPTMin = GetDouble("PartonPTMin", 0.0);
fParticleLHEFClassifier->fEtaMax = GetDouble("PartonEtaMax", 2.5);
// import input array(s)
fPartonInputArray = ImportArray(GetString("PartonInputArray", "Delphes/partons"));
fItPartonInputArray = fPartonInputArray->MakeIterator();
fParticleInputArray = ImportArray(GetString("ParticleInputArray", "Delphes/allParticles"));
fItParticleInputArray = fParticleInputArray->MakeIterator();
fParticleLHEFInputArray = ImportArray(GetString("ParticleLHEFInputArray", "Delphes/allParticlesLHEF"));
fItParticleLHEFInputArray = fParticleLHEFInputArray->MakeIterator();
fPartonFilter = new ExRootFilter(fPartonInputArray);
fParticleLHEFFilter = new ExRootFilter(fParticleLHEFInputArray);
fJetInputArray = ImportArray(GetString("JetInputArray", "FastJetFinder/jets"));
fItJetInputArray = fJetInputArray->MakeIterator();
}
//------------------------------------------------------------------------------
void JetFlavorAssociation::Finish()
{
if(fPartonFilter) delete fPartonFilter;
if(fParticleLHEFFilter) delete fParticleLHEFFilter;
if(fItJetInputArray) delete fItJetInputArray;
if(fItParticleLHEFInputArray) delete fItParticleLHEFInputArray;
if(fItParticleInputArray) delete fItParticleInputArray;
if(fItPartonInputArray) delete fItPartonInputArray;
}
//------------------------------------------------------------------------------
void JetFlavorAssociation::Process(){
Candidate *jet;
TObjArray *partonArray;
TObjArray *partonLHEFArray;
// select quark && gluons
fPartonFilter->Reset();
partonArray = fPartonFilter->GetSubArray(fPartonClassifier, 0); // get the filtered parton array
if(partonArray == 0) return;
TIter itPartonArray(partonArray);
fParticleLHEFFilter->Reset();
partonLHEFArray = fParticleLHEFFilter->GetSubArray(fParticleLHEFClassifier, 0); // get the filtered parton array
if(partonLHEFArray == 0) return;
TIter itPartonLHEFArray(partonLHEFArray);
// loop over all input jets
fItJetInputArray->Reset();
while((jet = static_cast(fItJetInputArray->Next())))
{
// get standard flavor
GetAlgoFlavor(jet, itPartonArray, itPartonLHEFArray);
GetPhysicsFlavor(jet, itPartonArray, itPartonLHEFArray);
}
}
//------------------------------------------------------------------------------
// Standard definition of jet flavor in
// https://cmssdt.cern.ch/SDT/lxr/source/PhysicsTools/JetMCAlgos/plugins/JetPartonMatcher.cc?v=CMSSW_7_3_0_pre1
void JetFlavorAssociation::GetAlgoFlavor(Candidate *jet, TIter &itPartonArray, TIter &itPartonLHEFArray)
{
float maxPt = 0;
bool isGoodParton = true;
int daughterCounter = 0;
Candidate *parton, *partonLHEF;
Candidate *tempParton = 0, *tempPartonHighestPt = 0;
int pdgCode, pdgCodeMax = -1;
itPartonArray.Reset();
while((parton = static_cast(itPartonArray.Next())))
{
// default delphes method
pdgCode = TMath::Abs(parton->PID);
if(TMath::Abs(parton->PID) == 21) pdgCode = 0;
if(jet->Momentum.DeltaR(parton->Momentum) <= fDeltaR)
{
if(pdgCodeMax < pdgCode) pdgCodeMax = pdgCode;
}
isGoodParton = true;
itPartonLHEFArray.Reset();
while((partonLHEF = static_cast(itPartonLHEFArray.Next())))
{
if(parton->Momentum.DeltaR(partonLHEF->Momentum) < 0.001 &&
parton->PID == partonLHEF->PID &&
partonLHEF->Charge == parton->Charge)
{
isGoodParton = false;
break;
}
if(!isGoodParton) continue;
// check the daugheter
daughterCounter = 0;
if(parton->D1 != -1 || parton->D2 != -1)
{
// partons are only quarks || gluons
int daughterFlavor1 = -1;
int daughterFlavor2 = -1;
if(parton->D1 != -1) daughterFlavor1 = TMath::Abs(static_cast(fParticleInputArray->At(parton->D1))->PID);
if(parton->D2 != -1) daughterFlavor2 = TMath::Abs(static_cast(fParticleInputArray->At(parton->D2))->PID);
if((daughterFlavor1 == 1 || daughterFlavor1 == 2 || daughterFlavor1 == 3 || daughterFlavor1 == 4 || daughterFlavor1 == 5 || daughterFlavor1 == 21)) daughterCounter++;
if((daughterFlavor2 == 1 || daughterFlavor2 == 2 || daughterFlavor2 == 3 || daughterFlavor2 == 4 || daughterFlavor1 == 5 || daughterFlavor2 == 21)) daughterCounter++;
}
if(daughterCounter > 0) continue;
if(jet->Momentum.DeltaR(parton->Momentum) <= fDeltaR)
{
// if not yet found && pdgId is a c, take as c
if(TMath::Abs(parton->PID) == 4) tempParton = parton;
if(TMath::Abs(parton->PID) == 5) tempParton = parton;
if(parton->Momentum.Pt() > maxPt)
{
maxPt = parton->Momentum.Pt();
tempPartonHighestPt = parton;
}
}
}
}
if(!tempParton) tempParton = tempPartonHighestPt;
jet->FlavorAlgo = tempParton ? TMath::Abs(tempParton->PID) : 0;
if(pdgCodeMax == 0) pdgCodeMax = 21;
if(pdgCodeMax == -1) pdgCodeMax = 0;
jet->Flavor = pdgCodeMax;
}
//------------------------------------------------------------------------------
void JetFlavorAssociation::GetPhysicsFlavor(Candidate *jet, TIter &itPartonArray, TIter &itPartonLHEFArray)
{
int partonCounter = 0;
float biggerConeSize = 0.7;
float dist;
bool isGoodCandidate;
int contaminatingFlavor = 0;
int motherCounter = 0;
Candidate *parton, *partonLHEF, *mother1, *mother2;
Candidate *tempParton = 0;
vector contaminations;
vector::iterator itContaminations;
contaminations.clear();
itPartonLHEFArray.Reset();
while((partonLHEF = static_cast(itPartonLHEFArray.Next())))
{
dist = jet->Momentum.DeltaR(partonLHEF->Momentum); // take the DR
if(partonLHEF->Status == 1 && dist <= fDeltaR)
{
tempParton = partonLHEF;
partonCounter++;
}
}
itPartonArray.Reset();
itPartonLHEFArray.Reset();
while((parton = static_cast(itPartonArray.Next())))
{
dist = jet->Momentum.DeltaR(parton->Momentum); // take the DR
isGoodCandidate = true;
while((partonLHEF = static_cast(itPartonLHEFArray.Next())))
{
if(parton->Momentum.DeltaR(partonLHEF->Momentum) < 0.01 &&
parton->PID == partonLHEF->PID &&
partonLHEF->Charge == parton->Charge)
{
isGoodCandidate = false;
break;
}
}
if(!isGoodCandidate) continue;
if(parton->D1 != -1 || parton->D2 != -1)
{
if((TMath::Abs(parton->PID) < 4 || TMath::Abs(parton->PID) == 21)) continue;
if(dist < biggerConeSize) contaminations.push_back(parton);
}
}
if(partonCounter != 1)
{
jet->FlavorPhys = 0;
}
else if(contaminations.size() == 0)
{
jet->FlavorPhys = TMath::Abs(tempParton->PID);
}
else if(contaminations.size() > 0)
{
jet->FlavorPhys = TMath::Abs(tempParton->PID);
for(itContaminations = contaminations.begin(); itContaminations != contaminations.end(); ++itContaminations)
{
parton = *itContaminations;
contaminatingFlavor = TMath::Abs(parton->PID);
motherCounter = 0;
if(parton->M1 != -1) motherCounter++;
if(parton->M2 != -1) motherCounter++;
if(parton->M1 != -1)
{
mother1 = static_cast(fParticleInputArray->At(parton->M1));
if(mother1 && motherCounter > 0 && mother1->Momentum.DeltaR(tempParton->Momentum) < 0.001) continue;
}
if(parton->M2 != -1)
{
mother2 = static_cast(fParticleInputArray->At(parton->M2));
if(mother2 && motherCounter > 0 && mother2->Momentum.DeltaR(tempParton->Momentum) < 0.001) continue;
}
// mother is the initialParton --> OK
if(TMath::Abs(tempParton->PID) == 4)
{
// keep association --> the initialParton is a c --> the contaminated parton is a c
if(contaminatingFlavor == 4) continue;
jet->FlavorPhys = 0; // all the other cases reject!
break;
}
}
}
}