void fillPFCandVsCount ( Jet & jet, TH2F* hist ){ const int n_ids = 8; int pfcand_ids[n_ids + 1]; memset ( pfcand_ids, 0, sizeof (pfcand_ids)); int nPFCands = jet.getNPFCandidates(); for (int iPFCand = 0; iPFCand < nPFCands; ++iPFCand){ PFCand cand = jet.getPFCandidate( iPFCand ); pfcand_ids[cand.Id()]++; pfcand_ids[n_ids]++; } for (int i = 0; i <= n_ids; ++i) hist -> Fill(i, pfcand_ids[i]); }
void fillPlots ( CollectionPtr & jets, CollectionPtr & core_jets, CollectionPtr & partons, CollectionPtr & hgceeClusters, CollectionPtr & hgchefClusters, CollectionPtr & hgchebClusters, likelihoodGetter & l, int index, std::vector<TH1F*> quark_th1, std::vector<TH1F*> gluon_th1, std::vector<TH2F*> quark_th2, std::vector<TH2F*> gluon_th2 ){ int n_jets = jets -> GetSize(); std::vector<double> likelihood_variables; for (int i = 0; i < n_jets; ++i){ Jet jet = jets -> GetConstituent<Jet>(i); CollectionPtr all_core_jets = core_jets; CollectionPtr matched_core_jets = core_jets -> SkimByRequireDRMatch<PFCoreJet, PFPrunedJet>( jet, 0.3 ) ; rechit_type my_type = NO_TYPE; int my_index = -1; jet.getLeadClusterTypeAndIndex(my_type, my_index); double clusterLength = -1.; double clusterVolume = -1.; if ( my_type == NO_TYPE ) continue; if ( my_type == HGCEE ){ HGCEECluster c(*hgceeClusters, my_index); clusterLength = c.getLength(); clusterVolume = c.getVolume(); } else if ( my_type == HGCHEF ){ HGCHEFCluster c(*hgchefClusters, my_index); clusterLength = c.getLength(); clusterVolume = c.getVolume(); } else { HGCHEBCluster c(*hgchebClusters, my_index); clusterLength = c.getLength(); clusterVolume = c.getVolume(); } double core_over_total_pt = -1.; double lead_core_jet_dr = -1.; double n_core_jets = matched_core_jets -> GetSize(); if ( n_core_jets > 0 ){ PFCoreJet lead_core_jet = matched_core_jets -> GetLeadPtObject<PFCoreJet> (); double core_pt = lead_core_jet.Pt(); core_over_total_pt = core_pt / jet.Pt(); lead_core_jet_dr = jet.DeltaR( &lead_core_jet ); } int flavor = getFlavor ( jet , partons ); if ( flavor == -1 ) continue; bool isQuarkJet ( flavor == 1 ); bool isGluonJet ( flavor == 0 ); likelihood_variables.clear(); double weighted_depth = jet.getWeightedDepth(); double weighted_depth_noEE = jet.getWeightedDepthNoEE(); double profile[n_radii]; jet.getProfile(n_radii, radii, profile); double profile50 = jet.getProfileRadius(n_radii, radii, profile, 0.5); double profile90 = jet.getProfileRadius(n_radii, radii, profile, 0.9); double profile95 = jet.getProfileRadius(n_radii, radii, profile, 0.95); double profile99 = jet.getProfileRadius(n_radii, radii, profile, 0.99); likelihood_variables.push_back ( jet.TrimmedNSubjets(index) ); likelihood_variables.push_back ( jet.getWidth() ); likelihood_variables.push_back ( jet.getNPFCandidates() ); likelihood_variables.push_back ( jet.getPTD() ); likelihood_variables.push_back ( jet.NSubJettiness() ); likelihood_variables.push_back ( jet.TrimmedMass(index) * 1000. ); likelihood_variables.push_back ( profile50 ); likelihood_variables.push_back ( core_over_total_pt ); likelihood_variables.push_back ( lead_core_jet_dr ); double ee_energy = jet.getEEEnergy(); double ee015_energy = jet.getEEEnergy(0, 15); double ee1631_energy = jet.getEEEnergy(16, 31); double hef_energy = jet.getHEFEnergy(); double heb_energy = jet.getHEBEnergy(); double all_energy = ee_energy + hef_energy + heb_energy; double hef11_energy = jet.getHEFEnergy(1, 1); double hef22_energy = jet.getHEFEnergy(2, 2); double hef34_energy = jet.getHEFEnergy(3, 4); double hef56_energy = jet.getHEFEnergy(5, 6); double hef712_energy = jet.getHEFEnergy(7,12); double likelihood = l.getLikelihood ( likelihood_variables ); if ( isQuarkJet ){ quark_th1[0] -> Fill ( jet.NSubJettiness() ); quark_th1[1] -> Fill ( jet.TrimmedMass(index) * 1000. ); quark_th1[2] -> Fill ( jet.TrimmedNSubjets(index) ); quark_th1[3] -> Fill ( jet.getNPFCandidates() ); quark_th1[4] -> Fill ( jet.getWidth() ); quark_th1[5] -> Fill ( jet.getChargedWidth() ); quark_th1[6] -> Fill ( jet.getNeutralWidth() ); quark_th1[7] -> Fill ( weighted_depth ); quark_th1[8] -> Fill ( weighted_depth_noEE ); quark_th1[9] -> Fill ( jet.getPTD() ); quark_th1[10] -> Fill ( likelihood ); quark_th1[11] -> Fill ( ee_energy / all_energy ); quark_th1[12] -> Fill ( ee015_energy / all_energy ); quark_th1[13] -> Fill ( ee1631_energy / all_energy ); quark_th1[14]-> Fill ( heb_energy / all_energy ); quark_th1[15]-> Fill ( hef_energy / all_energy ); quark_th1[16]-> Fill ( hef11_energy / all_energy ); quark_th1[17]-> Fill ( hef22_energy / all_energy ); quark_th1[18]-> Fill ( hef34_energy / all_energy ); quark_th1[19]-> Fill ( hef56_energy / all_energy ); quark_th1[20]-> Fill ( hef712_energy / all_energy ); for (int i_radius = 0; i_radius < n_radii; ++i_radius){ quark_th1[21] -> Fill(radii[i_radius], profile[i_radius]); } quark_th1[22] -> Fill ( profile50 ); quark_th1[23] -> Fill ( profile90 ); quark_th1[24] -> Fill ( profile95 ); quark_th1[25] -> Fill ( profile99 ); quark_th1[26] -> Fill ( n_core_jets ); quark_th1[27] -> Fill ( lead_core_jet_dr ); quark_th1[28] -> Fill ( core_over_total_pt ); quark_th1[29] -> Fill ( clusterVolume ); quark_th1[30] -> Fill ( clusterLength ); quark_th2[0] -> Fill ( jet.Pt(), weighted_depth ); quark_th2[1] -> Fill ( jet.Pt(), jet.getMaxRHDepth()); quark_th2[2] -> Fill ( jet.getNPFCandidates(), jet.TrimmedNSubjets(index) ); } if ( isGluonJet ){ gluon_th1[0] -> Fill ( jet.NSubJettiness() ); gluon_th1[1] -> Fill ( jet.TrimmedMass(index) * 1000. ); gluon_th1[2] -> Fill ( jet.TrimmedNSubjets(index) ); gluon_th1[3] -> Fill ( jet.getNPFCandidates() ); gluon_th1[4] -> Fill ( jet.getWidth() ); gluon_th1[5] -> Fill ( jet.getChargedWidth() ); gluon_th1[6] -> Fill ( jet.getNeutralWidth() ); gluon_th1[7] -> Fill ( weighted_depth ); gluon_th1[8] -> Fill ( weighted_depth_noEE ); gluon_th1[9] -> Fill ( jet.getPTD() ); gluon_th1[10] -> Fill ( likelihood ); gluon_th1[11] -> Fill ( ee_energy / all_energy ); gluon_th1[12] -> Fill ( ee015_energy / all_energy ); gluon_th1[13] -> Fill ( ee1631_energy / all_energy ); gluon_th1[14]-> Fill ( heb_energy / all_energy ); gluon_th1[15]-> Fill ( hef_energy / all_energy ); gluon_th1[16]-> Fill ( hef11_energy / all_energy ); gluon_th1[17]-> Fill ( hef22_energy / all_energy ); gluon_th1[18]-> Fill ( hef34_energy / all_energy ); gluon_th1[19]-> Fill ( hef56_energy / all_energy ); gluon_th1[20]-> Fill ( hef712_energy / all_energy ); for (int i_radius = 0; i_radius < n_radii; ++i_radius){ gluon_th1[21] -> Fill(radii[i_radius], profile[i_radius]); } gluon_th1[22] -> Fill ( profile50 ); gluon_th1[23] -> Fill ( profile90 ); gluon_th1[24] -> Fill ( profile95 ); gluon_th1[25] -> Fill ( profile99 ); gluon_th1[26] -> Fill ( n_core_jets ); gluon_th1[27] -> Fill ( lead_core_jet_dr ); gluon_th1[28] -> Fill ( core_over_total_pt ); gluon_th1[29] -> Fill ( clusterVolume ); gluon_th1[30] -> Fill ( clusterLength ); gluon_th2[0] -> Fill ( jet.Pt(), weighted_depth ); gluon_th2[1] -> Fill ( jet.Pt(), jet.getMaxRHDepth()); gluon_th2[2] -> Fill ( jet.getNPFCandidates(), jet.TrimmedNSubjets(index) ); } } }