void testJetCorrectorParameters::compareBinIndex1D() { fX = {0.0}; float eta=-9999; int oldBin=-1, newBin=-1; setupCorrector(false); cout << endl << "testJetCorrectorParameters::compareBinIndex1D" << endl; for(unsigned int ieta=0; ieta<veta.size()-1; ieta++) { loadbar3(ieta+1, veta.size()-1, 50, 10, "\tProgress:"); eta = (veta[ieta]+veta[ieta+1])/2.0; fX = {eta}; oldBin = L1JetPar->binIndex(fX); newBin = L1JetPar->binIndexN(fX); if((oldBin < 0 && newBin >= 0) || (oldBin >= 0 && newBin < 0)) { cout << "ERROR::testJetCorrectorParameters::compareBinIndex1D Unable to find the right bin for (eta)=(" << eta << ")" << endl << "\t(oldBin,newBin)=(" << oldBin << "," << newBin << ")" << endl; CPPUNIT_ASSERT(oldBin >= 0 && newBin >= 0); } else if(oldBin!=newBin) { cout << "ERROR::testJetCorrectorParameters::compareBinIndex1D oldBin!=newBin (" << oldBin << "!=" << newBin << ") for (eta)=(" << eta << ")" << endl; CPPUNIT_ASSERT(oldBin==newBin); } jetCorrector->setJetEta(eta); jetCorrector->setRho(50.0); jetCorrector->setJetA(0.5); jetCorrector->setJetPt(100.0); CPPUNIT_ASSERT(jetCorrector->getCorrection()>=0); } destroyCorrector(); cout << endl << "testJetCorrectorParameters::compareBinIndex1D All bins match between the linear and non-linear search algorithms for 1D files." << endl; }
void testJetCorrectorParameters::compareBinIndex3D() { fX = {0.0,0.0,0.0}; float eta=-9999, rho=-9999, pt=-9999; int oldBin=-1, newBin=-1; setupCorrector(true); cout << endl << "testJetCorrectorParameters::compareBinIndex3D" << endl; for(unsigned int ieta=0; ieta<veta.size()-1; ieta++) { for(unsigned int irho=0; irho<vrho.size()-1; irho++) { for(unsigned int ipt=0; ipt<vpt.size()-1; ipt++) { loadbar3(ieta*((vrho.size()-1)*(vpt.size()-1))+irho*(vpt.size()-1)+ipt+1, (veta.size()-1)*(vrho.size()-1)*(vpt.size()-1), 50, 100, "\tProgress"); eta = (veta[ieta]+veta[ieta+1])/2.0; rho = (vrho[irho]+vrho[irho+1])/2.0; pt = (vpt[ipt]+vpt[ipt+1])/2.0; fX = {eta,rho,pt}; oldBin = L1JetPar->binIndex(fX); newBin = L1JetPar->binIndexN(fX); if((oldBin < 0 && newBin >= 0) || (oldBin >= 0 && newBin < 0)) { cout << "ERROR::testJetCorrectorParameters::compareBinIndex3D Unable to find the right bin for (eta,rho,pt)=(" << eta << "," << rho << "," << pt << ")" << endl << "\t(oldBin,newBin)=(" << oldBin << "," << newBin << ")" << endl; CPPUNIT_ASSERT(oldBin >= 0 && newBin >= 0); } else if(oldBin!=newBin) { cout << "ERROR::testJetCorrectorParameters::compareBinIndex3D oldBin!=newBin (" << oldBin << "!=" << newBin << ") for (eta,rho,pt)=(" << eta << "," << rho << "," << pt << ")" << endl; CPPUNIT_ASSERT(oldBin==newBin); } jetCorrector->setJetEta(eta); jetCorrector->setRho(rho); jetCorrector->setJetA(0.5); jetCorrector->setJetPt(pt); CPPUNIT_ASSERT(jetCorrector->getCorrection()>=0); } } } destroyCorrector(); cout << endl << "testJetCorrectorParameters::compareBinIndex3D All bins match between the linear and non-linear search algorithms for 3D files." << endl; }
int NeroPuppiFatJets::analyze(const edm::Event& iEvent) { if ( mOnlyMc ) return 0; if ( mMinId == "none" ) return 0; // maybe handle should be taken before iEvent.getByToken(token, handle); iEvent.getByToken(rho_token,rho_handle); TString tPrefix(cachedPrefix); edm::Handle<reco::PFJetCollection> subjets_handle; edm::InputTag subjetLabel("PFJetsSoftDrop"+tPrefix,"SubJets"); //iEvent.getByLabel(subjetLabel,subjets_handle); iEvent.getByToken(subjets_token,subjets_handle); const reco::PFJetCollection *subjetCol = subjets_handle.product(); assert(subjets_handle.isValid()); edm::Handle<reco::JetTagCollection> btags_handle; //iEvent.getByLabel(edm::InputTag((tPrefix+"PFCombinedInclusiveSecondaryVertexV2BJetTags").Data()),btags_handle); iEvent.getByToken(btags_token,btags_handle); assert((btags_handle.isValid())); FactorizedJetCorrector *corrector = ( iEvent.isRealData() ) ? mDataJetCorrector : mMCJetCorrector; int ijetRef = -1; int nsubjet = 0; for (const pat::Jet& j : *handle) { ijetRef++; if (fabs(j.eta() ) > mMaxEta) continue; if ( !NeroPuppiJets::JetId(j,mMinId) ) continue; // pT cut applied after applying JEC if necessary // GET ValueMaps // Fill output object // this was reclustered from mini AOD, so we have to apply JEC, etc edm::RefToBase<pat::Jet> jetRef(edm::Ref<pat::JetCollection>(handle,ijetRef)); double jecFactor=0; if (fabs(j.eta())<5.191) { corrector->setJetPt(j.pt()); corrector->setJetEta(j.eta()); corrector->setJetPhi(j.phi()); corrector->setJetE(j.energy()); corrector->setRho(*rho_handle); corrector->setJetA(j.jetArea()); corrector->setJetEMF(-99.0); jecFactor = corrector->getCorrection(); } if (j.pt()*jecFactor < mMinPt) continue; rawPt -> push_back (j.pt()); new ( (*p4)[p4->GetEntriesFast()]) TLorentzVector(j.px()*jecFactor, j.py()*jecFactor, j.pz()*jecFactor, j.energy()*jecFactor); tau1 -> push_back(j.userFloat(tPrefix+"Njettiness:tau1")); tau2 -> push_back(j.userFloat(tPrefix+"Njettiness:tau2")); tau3 -> push_back(j.userFloat(tPrefix+"Njettiness:tau3")); softdropMass->push_back(j.userFloat(tPrefix+"SDKinematics:Mass")*jecFactor); unsigned int nsubjetThisJet=0; firstSubjet->push_back(nsubjet); for (reco::PFJetCollection::const_iterator i = subjetCol->begin(); i!=subjetCol->end(); ++i) { if (reco::deltaR(i->eta(),i->phi(),j.eta(),j.phi())>jetRadius) continue; nsubjetThisJet++; new ( (*subjet)[nsubjet]) TLorentzVector(i->px(), i->py(), i->pz(), i->energy()); nsubjet++; reco::JetBaseRef sjBaseRef(reco::PFJetRef(subjets_handle,i-subjetCol->begin())); subjet_btag->push_back((float)(*(btags_handle.product()))[sjBaseRef]); } nSubjets->push_back(nsubjetThisJet); } return 0; }