123456789101112131415161718192021222324252627282930313233343536373839404142434445464748495051525354555657585960616263646566676869707172737475767778798081828384858687888990919293949596979899100101102103104105106107108109110111112113114115116117118119120121122123124125126127128129130131132133134135136137138139140141142143144145146147148149150151152153154155156157158159160161162163164165166167168169170171172173174175176177178179180181182183184185186187188189190191192193194195196197198199200201202203204205206207208209210211212213214215216217218219220221222223224225226227228229230231232233234235236237238239240241242243244245246247248249250251252253254255256257258259260261262263264265266267268269270271272273274275276277278279280281282283284285286287288289290291292293294295296297298299300301302303304305306307308309310311312313314315316317318319320321322323324325326327328329330331332333334335336337338339340341342343344345346347348349350351352353354355356357358359360361362363364365366367368369370371372373374375376377378379380381382383384385386387388389390391392393394395396397398399400401402403404405406407408409410411412413414415416417418419420421422423424425426427428429430431432433434435436437438439440441442443444445446447448449450451452453454455456457458459460461462463464465466467468469470471472473474475476477478479480481482483484485486487488489490491492493494495496497498499500501502503504505506507508509510511512513514515516517518519520521522523524525526527528529530531532533534535536537538539540541542543544545546547548549550551552553554555556557558559560561562563564565566567568569570571572573574575576577578579580581582583584585586587588589590591592593594595596597598599600601602603604605606607608609610611612613614615616617618619620621622623624625626627628629630631632633634635636637638639640641642643644645646647648649650651652653654655656657658659660661662663664665666667668669670671672673674675676677678679680681682683684685686687688689690691692693694695696697698699700701702703704705706707708709710711712713714715716717718719720721722723724725726727728729730731732733734735736737738739740741742743744745746747748749750751752753754755756757758759760761762 |
- #include <iostream>
- #include <vector>
- #include <cmath>
- #include <numeric>
- #include <TSystem.h>
- #include <Math/VectorUtil.h>
- #include "filval.hpp"
- #include "root_filval.hpp"
- #include "common.hpp"
- #include "analysis/TrackingNtupleObjs.hpp"
- typedef ROOT::Math::LorentzVector<ROOT::Math::PxPyPzE4D<float>> Vec4;
- SeedCollection seeds;
- SimTrackCollection sim_tracks;
- SimVertexCollection sim_vertices;
- TrackCollection gsf_tracks;
- SuperClusterCollection scls;
- std::vector<SimTrack> sim_els;
- void register_objects(TrackingDataSet& tds){
- seeds.init(&tds);
- sim_tracks.init(&tds);
- sim_vertices.init(&tds);
- gsf_tracks.init(&tds);
- scls.init(&tds);
- }
- struct {
- Value<float>* x;
- Value<float>* y;
- Value<float>* z;
- Value<float>* sigma_x;
- Value<float>* sigma_y;
- Value<float>* sigma_z;
- } bs;
- template <typename T>
- struct KinColl {
- T* pt;
- T* eta;
- T* phi;
- };
- bool in_lum_region(const SimVertex& vertex) {
- /* Here approximate the luminous region as a cylinder with length 5*\sigma_z and radius
- * sqrt(\simga_x^2 + \sigma_y^2) centered as beamspot position.
- */
- float dx = vertex.x() - bs.x->get();
- float dy = vertex.y() - bs.y->get();
- float dz = vertex.z() - bs.z->get();
- auto radius = static_cast<float>(5 * sqrt(pow(bs.sigma_x->get(), 2) + pow(bs.sigma_y->get(), 2)));
- float half_len = 5*bs.sigma_z->get();
- return sqrt(dx*dx + dy*dy) < radius and abs(dz) < half_len;
- };
- bool is_good_sim(const SimTrack& sim_track) {
- const auto& vertex = sim_vertices[sim_track.parentVtxIdx()];
- return abs(sim_track.pdgId()) == 11 and // electrons
- in_lum_region(vertex) and // from luminous region
- abs(sim_track.eta())<3.0; // inside ECAL acceptance
- };
- bool is_good_seed(const Seed& seed, float hoe_cut) {
- return seed.isECALDriven() and seed.hoe() < hoe_cut;
- }
- float reco_energy_rel_err(const SimTrack& sim_track, const Seed& seed) {
- return (sim_track.pt() - seed.Et()) / sim_track.pt() ;
- }
- float reco_energy_rel_err(const SimTrack& sim_track, const Track& track) {
- return (sim_track.pt() - track.pt()) / sim_track.pt() ;
- }
- template<typename TrackOrSeed>
- bool reco_energy_consistent(const SimTrack& sim_track, const TrackOrSeed& track, float consistency_cut=0.1) {
- return fabs(reco_energy_rel_err(sim_track, track)) < consistency_cut;
- }
- Vec4 scl_p4(const SuperCluster& scl) {
- return Vec4(scl.px(), scl.py(), scl.pz(), scl.e());
- }
- double deltaR(float scl_eta, float scl_phi, const SimTrack& sim_track) {
- return sqrt(pow(sim_track.eta() - scl_eta, 2.0) +
- pow(sim_track.phi() - scl_phi, 2.0));
- }
- double deltaR(const SimTrack& sim_track, const Track& gsf_track) {
- return sqrt(pow(sim_track.eta() - gsf_track.eta(), 2.0) +
- pow(sim_track.phi() - gsf_track.phi(), 2.0));
- }
- void update_sim_els() {
- sim_els.clear();
- for (const SimTrack sim_track: sim_tracks) {
- if (is_good_sim(sim_track)) sim_els.push_back(sim_track);
- }
- }
- auto get_match_stats(bool dRMatch) {
- int nSimTrack = 0;
- int nGSFTrack = 0;
- int nMatched = 0; // 1-to-1
- int nMerged = 0; // n-to-1
- int nLost = 0; // 1-to-0
- int nSplit = 0; // 1-to-n
- int nFaked = 0; // 0-to-1
- int nFlipped = 0;
- vector<float> matched_dR;
- vector<float> matched_dpT;
- std::map<int, std::vector<int>> sim_matches;
- std::map<int, std::vector<int>> gsf_matches;
- for(const auto& sim_track : sim_els)
- sim_matches[sim_track.idx] = {};
- for(const auto& gsf_track : gsf_tracks)
- gsf_matches[gsf_track.idx] = {};
- nSimTrack = sim_matches.size();
- nGSFTrack = gsf_matches.size();
- for (const auto& sim_track : sim_els) {
- if (dRMatch) {
- for (const auto& gsf_track : gsf_tracks) {
- float dR = deltaR(sim_track, gsf_track);
- if (dR < 0.2) {
- sim_matches[sim_track.idx].push_back(gsf_track.idx);
- gsf_matches[gsf_track.idx].push_back(sim_track.idx);
- matched_dR.push_back(dR);
- matched_dpT.push_back((sim_track.pt() - gsf_track.pt())/sim_track.pt());
- if (gsf_track.q() != sim_track.q()) nFlipped++;
- }
- }
- } else {
- for (const auto& gsfIdx : sim_track.trkIdx()) {
- const Track& gsf_track = gsf_tracks[gsfIdx];
- float dR = deltaR(sim_track, gsf_track);
- sim_matches[sim_track.idx].push_back(gsf_track.idx);
- gsf_matches[gsf_track.idx].push_back(sim_track.idx);
- matched_dR.push_back(dR);
- matched_dpT.push_back((sim_track.pt() - gsf_track.pt())/sim_track.pt());
- if (gsf_track.q() != sim_track.q()) nFlipped++;
- }
- }
- }
- for (const auto& p : sim_matches) {
- const auto& matches = p.second;
- if (matches.size() == 0) nLost++;
- if (matches.size() == 1 and gsf_matches[matches[0]].size() == 1) nMatched++;
- if (matches.size() > 1) nSplit++;
- }
- for (const auto& p : gsf_matches) {
- const auto& matches = p.second;
- if (matches.size() == 0) nFaked++;
- if (matches.size() > 1) nMerged++;
- }
- return std::make_tuple(nSimTrack, nGSFTrack, nMatched, nMerged, nLost, nSplit, nFaked, nFlipped, matched_dR, matched_dpT);
- }
- void run(){
- using namespace std;
- using namespace fv;
- using namespace fv_root;
- using namespace fv_util;
- auto file_list = the_config->get_source_files();
- string output_filename = the_config->get_output_filename();
- TrackingDataSet tds(output_filename, file_list, "trackingNtuple/tree");
- register_objects(tds);
- auto hoe_cut = the_config->get("hoe_cut").as<float>(999);
- bs = {
- tds.track_branch<float>("bsp_x"),
- tds.track_branch<float>("bsp_y"),
- tds.track_branch<float>("bsp_z"),
- tds.track_branch<float>("bsp_sigmax"),
- tds.track_branch<float>("bsp_sigmay"),
- tds.track_branch<float>("bsp_sigmaz")
- };
- enum TMType {
- NoMatch = 0,
- SeedMatched = 1,
- TrackMatched = 2,
- SeedAndTrackMatched = 3,
- };
- std::map<std::tuple<int, int>, ContainerTH2<float>*> residuals_dRz;
- std::map<std::tuple<int, int>, ContainerTH2<float>*> residuals_dPhi;
- std::map<std::tuple<int, int, int>, ContainerTH2<float>*> BPIX_residuals_dRz;
- std::map<std::tuple<int, int, int>, ContainerTH2<float>*> BPIX_residuals_dPhi;
- std::map<std::tuple<int, int, int>, ContainerTH2<float>*> FPIX_residuals_dRz;
- std::map<std::tuple<int, int, int>, ContainerTH2<float>*> FPIX_residuals_dPhi;
- stringstream name;
- auto set_name = [&name](const std::string& var, const std::string& region,
- const int& layer, const int& hit, const int& tm_type) {
- name.str("");
- name << var << "_" << region;
- if (layer)
- name << "_L" << layer;
- name << "_H" << hit << "_v_Et";
- switch (tm_type) {
- case NoMatch:
- name << "_NoMatch";
- break;
- case SeedMatched:
- name << "_SeedMatched";
- break;
- case TrackMatched:
- name << "_TrackMatched";
- break;
- case SeedAndTrackMatched:
- name << "_SeedAndTrackMatched";
- break;
- default:
- break;
- }
- };
- THParams hist_params;
- for (int hit=1; hit<=3; hit++) {
- for (int tm_type = NoMatch; tm_type <= SeedAndTrackMatched; tm_type++) {
- for (int layer=1; layer<=4; layer++) {
- hist_params = (hit == 1) ? THParams::lookup("dRz_v_Et") : THParams::lookup("dRz_v_Et_outer_hits");
- set_name("dRz", "BPIX", layer, hit, tm_type);
- BPIX_residuals_dRz[make_tuple(layer, hit, tm_type)] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- set_name("dRz", "FPIX", layer, hit, tm_type);
- FPIX_residuals_dRz[make_tuple(layer, hit, tm_type)] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- hist_params = (hit == 1) ? THParams::lookup("dPhi_v_Et") : THParams::lookup("dPhi_v_Et_outer_hits");
- set_name("dPhi", "BPIX", layer, hit, tm_type);
- BPIX_residuals_dPhi[make_tuple(layer, hit, tm_type)] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- set_name("dPhi", "FPIX", layer, hit, tm_type);
- FPIX_residuals_dPhi[make_tuple(layer, hit, tm_type)] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- }
- hist_params = (hit == 1) ? THParams::lookup("dRz_v_Et") : THParams::lookup("dRz_v_Et_outer_hits");
- set_name("dRz", "ALL", 0, hit, tm_type);
- residuals_dRz[std::make_tuple(hit, tm_type)] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- hist_params = (hit == 1) ? THParams::lookup("dPhi_v_Et") : THParams::lookup("dPhi_v_Et_outer_hits");
- set_name("dPhi", "ALL", 0, hit, tm_type);
- residuals_dPhi[make_tuple(hit, tm_type)] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- }
- }
- std::map<int,vector<float>> eta_regions = {{1, {0.0, 1.1, 1.8, 3.0}},
- {2, {0.0, 1.4, 2.3, 3.0}},
- {3, {0.0, 1.0, 2.0, 3.0}}};
- auto get_region = [&eta_regions](int hit, float eta) {
- auto regions = eta_regions[hit];
- if (regions.size() <= 1) return 1;
- float abseta = abs(eta);
- for (int r_idx=1; r_idx < regions.size(); r_idx++) {
- if (abseta > regions[r_idx-1] and abseta < regions[r_idx]) {
- return r_idx;
- }
- }
- return static_cast<int>(regions.size());
- };
- std::map<int, ContainerTH2<float>*> dPhi_residuals_v_eta;
- std::map<int, ContainerTH2<float>*> dRz_residuals_v_eta;
- std::map<std::pair<int, int>, ContainerTH2<float>*> dPhi_residuals_v_region;
- std::map<std::pair<int, int>, ContainerTH2<float>*> dRz_residuals_v_region;
- for (int hit=1; hit<=3; hit++) {
- name.str("");
- name << "dPhi_residuals_v_eta_H" << hit;
- hist_params = (hit==1) ? THParams::lookup("dPhi_v_eta") : THParams::lookup("dPhi_v_eta_outer_hits");
- dPhi_residuals_v_eta[hit] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- name.str("");
- name << "dRz_residuals_v_eta_H" << hit;
- hist_params = (hit==1) ? THParams::lookup("dRz_v_eta") : THParams::lookup("dRz_v_eta_outer_hits");
- dRz_residuals_v_eta[hit] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- for (int region=1; region<=eta_regions[hit].size()-1; region++){
- hist_params = (hit==1) ? THParams::lookup("dRz_v_Et") : THParams::lookup("dRz_v_Et_outer_hits");
- name.str("");
- name << "dRz_residuals_H" << hit << "_R" << region;
- dRz_residuals_v_region[{hit, region}] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- hist_params = (hit==1) ? THParams::lookup("dPhi_v_Et") : THParams::lookup("dPhi_v_Et_outer_hits");
- name.str("");
- name << "dPhi_residuals_H" << hit << "_R" << region;
- dPhi_residuals_v_region[{hit, region}] = tds.register_container<ContainerTH2<float>>(name.str(), hist_params);
- }
- }
- KinColl<ContainerTH1<float>> good_sim_kinems = {
- tds.register_container<ContainerTH1<float>>("good_sim_v_pt", THParams::lookup("pt")),
- tds.register_container<ContainerTH1<float>>("good_sim_v_eta", THParams::lookup("eta")),
- tds.register_container<ContainerTH1<float>>("good_sim_v_phi", THParams::lookup("phi"))};
- KinColl<ContainerTH1<float>> gsf_kinems = {
- tds.register_container<ContainerTH1<float>>("gsf_track_v_pt", THParams::lookup("pt")),
- tds.register_container<ContainerTH1<float>>("gsf_track_v_eta", THParams::lookup("eta")),
- tds.register_container<ContainerTH1<float>>("gsf_track_v_phi", THParams::lookup("phi"))};
- KinColl<ContainerTH1<float>> seed_kinems = {
- tds.register_container<ContainerTH1<float>>("seed_v_pt", THParams::lookup("pt")),
- tds.register_container<ContainerTH1<float>>("seed_v_eta", THParams::lookup("eta")),
- tds.register_container<ContainerTH1<float>>("seed_v_phi", THParams::lookup("phi"))};
- KinColl<ContainerTH1<float>> scl_kinems = {
- tds.register_container<ContainerTH1<float>>("scl_v_pt", THParams::lookup("pt")),
- tds.register_container<ContainerTH1<float>>("scl_v_eta", THParams::lookup("eta")),
- tds.register_container<ContainerTH1<float>>("scl_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> seed_eff = {
- tds.register_container<EfficiencyContainer<float>>("seed_eff_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("seed_eff_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("seed_eff_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> seed_pur = {
- tds.register_container<EfficiencyContainer<float>>("seed_pur_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("seed_pur_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("seed_pur_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> tracking_eff = {
- tds.register_container<EfficiencyContainer<float>>("tracking_eff_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("tracking_eff_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("tracking_eff_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> tracking_pur = {
- tds.register_container<EfficiencyContainer<float>>("tracking_pur_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("tracking_pur_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("tracking_pur_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> tracking_eff_dR = {
- tds.register_container<EfficiencyContainer<float>>("tracking_eff_v_pt_dR", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("tracking_eff_v_eta_dR", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("tracking_eff_v_phi_dR", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> tracking_pur_dR = {
- tds.register_container<EfficiencyContainer<float>>("tracking_pur_v_pt_dR", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("tracking_pur_v_eta_dR", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("tracking_pur_v_phi_dR", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> partial_fake_rate = {
- tds.register_container<EfficiencyContainer<float>>("partial_fake_rate_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("partial_fake_rate_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("partial_fake_rate_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> full_fake_rate = {
- tds.register_container<EfficiencyContainer<float>>("full_fake_rate_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("full_fake_rate_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("full_fake_rate_v_phi", THParams::lookup("phi"))};
- KinColl<EfficiencyContainer<float>> clean_fake_rate = {
- tds.register_container<EfficiencyContainer<float>>("clean_fake_rate_v_pt", THParams::lookup("pt")),
- tds.register_container<EfficiencyContainer<float>>("clean_fake_rate_v_eta", THParams::lookup("eta")),
- tds.register_container<EfficiencyContainer<float>>("clean_fake_rate_v_phi", THParams::lookup("phi"))};
- auto& hit_vs_layer_barrel = *tds.register_container<ContainerTH2<int>>("hit_vs_layer_barrel", THParams::lookup("hit_vs_layer"));
- auto& hit_vs_layer_forward = *tds.register_container<ContainerTH2<int>>("hit_vs_layer_forward", THParams::lookup("hit_vs_layer"));
- auto& gsf_tracks_nmatch_sim_tracks = *tds.register_container<ContainerTH1<size_t>>("gsf_tracks_nmatch_sim_tracks ", THParams::lookup("gsf_tracks_nmatch_sim_tracks"));
- auto& ecal_energy_resolution = *tds.register_container<ContainerTH1<float>>("ecal_energy_resolution ", THParams::lookup("ecal_energy_resolution"));
- auto& n_seeds = *tds.register_container<ContainerTH1<size_t>>("n_seeds", THParams::lookup("n_seeds"));
- auto& n_good_seeds = *tds.register_container<ContainerTH1<size_t>>("n_good_seeds", THParams::lookup("n_seeds"));
- auto& n_good_sim = *tds.register_container<ContainerTH1<int>>("n_good_sim", THParams::lookup("n_seeds"));
- auto& n_gsf_tracks = *tds.register_container<ContainerTH1<int>>("n_gsf_track", THParams::lookup("n_seeds"));
- auto& n_matched = *tds.register_container<ContainerTH1<int>>("n_matched", THParams::lookup("n_seeds"));
- auto& n_merged = *tds.register_container<ContainerTH1<int>>("n_merged", THParams::lookup("n_seeds"));
- auto& n_lost = *tds.register_container<ContainerTH1<int>>("n_lost", THParams::lookup("n_seeds"));
- auto& n_split = *tds.register_container<ContainerTH1<int>>("n_split", THParams::lookup("n_seeds"));
- auto& n_faked = *tds.register_container<ContainerTH1<int>>("n_faked", THParams::lookup("n_seeds"));
- auto& n_flipped = *tds.register_container<ContainerTH1<int>>("n_flipped", THParams::lookup("n_seeds"));
- auto& matched_dR = *tds.register_container<ContainerTH1<float>>("matched_dR", THParams::lookup("matched_dR"));
- auto& matched_dpT = *tds.register_container<ContainerTH1<float>>("matched_dpT", THParams::lookup("matched_dpT"));
- auto& n_matched_dR = *tds.register_container<ContainerTH1<int>>("n_matched_dR", THParams::lookup("n_seeds"));
- auto& n_merged_dR = *tds.register_container<ContainerTH1<int>>("n_merged_dR", THParams::lookup("n_seeds"));
- auto& n_lost_dR = *tds.register_container<ContainerTH1<int>>("n_lost_dR", THParams::lookup("n_seeds"));
- auto& n_split_dR = *tds.register_container<ContainerTH1<int>>("n_split_dR", THParams::lookup("n_seeds"));
- auto& n_faked_dR = *tds.register_container<ContainerTH1<int>>("n_faked_dR", THParams::lookup("n_seeds"));
- auto& n_flipped_dR = *tds.register_container<ContainerTH1<int>>("n_flipped_dR", THParams::lookup("n_seeds"));
- auto& matched_dR_dR = *tds.register_container<ContainerTH1<float>>("matched_dR_dR", THParams::lookup("matched_dR"));
- auto& matched_dpT_dR = *tds.register_container<ContainerTH1<float>>("matched_dpT_dR", THParams::lookup("matched_dpT"));
- auto& sim_pt = *tds.register_container<ContainerTH1<float>>("sim_pt", THParams::lookup("pt_fine"));
- auto& sim_eta = *tds.register_container<ContainerTH1<float>>("sim_eta", THParams::lookup("eta_fine"));
- auto& sim_phi = *tds.register_container<ContainerTH1<float>>("sim_phi", THParams::lookup("phi_fine"));
- auto& reco_pt = *tds.register_container<ContainerTH1<float>>("reco_pt", THParams::lookup("pt_fine"));
- auto& reco_eta = *tds.register_container<ContainerTH1<float>>("reco_eta", THParams::lookup("eta_fine"));
- auto& reco_phi = *tds.register_container<ContainerTH1<float>>("reco_phi", THParams::lookup("phi_fine"));
- auto& tm_corr = *tds.register_container<ContainerTH2<int>>("tm_corr", THParams(2, -0.5, 1.5, 2, -0.5, 1.5));
- while (tds.next()) {
- update_sim_els();
- n_seeds.fill(seeds.size());
- size_t _n_good_seeds = 0;
- for (const auto& seed : seeds) {
- if (is_good_seed(seed, hoe_cut)) {
- _n_good_seeds++;
- seed_kinems.pt->fill(seed.pt());
- seed_kinems.eta->fill(seed.eta());
- seed_kinems.phi->fill(seed.phi());
- }
- }
- n_good_seeds.fill(_n_good_seeds);
- for (const auto& sim_track : sim_els) {
- good_sim_kinems.pt->fill(sim_track.pt());
- good_sim_kinems.eta->fill(sim_track.eta());
- good_sim_kinems.phi->fill(sim_track.phi());
- }
- for (const auto& gsf_track : gsf_tracks) {
- gsf_kinems.pt->fill(gsf_track.pt());
- gsf_kinems.eta->fill(gsf_track.eta());
- gsf_kinems.phi->fill(gsf_track.phi());
- }
- for (const auto& scl : scls) {
- scl_kinems.pt->fill(hypot(scl.px(), scl.py()));
- scl_kinems.eta->fill(pseudorapidity(scl.x(), scl.y(), scl.z()));
- scl_kinems.phi->fill(atan2(scl.py(), scl.px()));
- }
- auto match_stats = get_match_stats(false);
- n_good_sim.fill(std::get<0>(match_stats));
- n_gsf_tracks.fill(std::get<1>(match_stats));
- n_matched.fill(std::get<2>(match_stats));
- n_merged.fill(std::get<3>(match_stats));
- n_lost.fill(std::get<4>(match_stats));
- n_split.fill(std::get<5>(match_stats));
- n_faked.fill(std::get<6>(match_stats));
- n_flipped.fill(std::get<7>(match_stats));
- for(float dR : std::get<8>(match_stats)) matched_dR.fill(dR);
- for(float dpT : std::get<9>(match_stats)) matched_dpT.fill(dpT);
- match_stats = get_match_stats(true);
- n_matched_dR.fill(std::get<2>(match_stats));
- n_merged_dR.fill(std::get<3>(match_stats));
- n_lost_dR.fill(std::get<4>(match_stats));
- n_split_dR.fill(std::get<5>(match_stats));
- n_faked_dR.fill(std::get<6>(match_stats));
- n_flipped_dR.fill(std::get<7>(match_stats));
- for(float dR : std::get<8>(match_stats)) matched_dR_dR.fill(dR);
- for(float dpT : std::get<9>(match_stats)) matched_dpT_dR.fill(dpT);
- for (const auto& sim_track : sim_els) {
- sim_pt.fill(sim_track.pt());
- sim_eta.fill(sim_track.eta());
- sim_phi.fill(sim_track.phi());
- }
- for (const auto& reco_track : gsf_tracks) {
- reco_pt.fill(reco_track.pt());
- reco_eta.fill(reco_track.eta());
- reco_phi.fill(reco_track.phi());
- }
- for (const auto& sim_track : sim_els) {
- if (seeds.size() == 0) continue;
- for (const auto &seed_idx : sim_track.seedIdx()) {
- const Seed& seed = seeds[seed_idx];
- if (!is_good_seed(seed, hoe_cut)) continue;
- ecal_energy_resolution.fill(reco_energy_rel_err(sim_track, seed));
- }
- }
- // Seeding Efficiency
- for (const auto& sim_track : sim_els) {
- if (seeds.size() == 0) continue;
- bool matched = false;
- for (const auto& seed_idx : sim_track.seedIdx()) {
- const Seed& seed = seeds[seed_idx];
- if (is_good_seed(seed, hoe_cut)) {
- matched=true;
- break;
- }
- }
- if (abs(sim_track.eta()) < 2.4)
- seed_eff.pt->fill(sim_track.pt(), matched);
- if (sim_track.pt() > 20.0)
- seed_eff.eta->fill(sim_track.eta(), matched);
- if (abs(sim_track.eta()) < 2.4 and sim_track.pt() > 20)
- seed_eff.phi->fill(sim_track.phi(), matched);
- }
- // Tracking Efficiency
- for (const auto& sim_track : sim_els) {
- if (gsf_tracks.size() == 0) continue;
- bool matched = false;
- for (const auto& track_idx : sim_track.trkIdx()) {
- const Seed& seed = seeds[gsf_tracks[track_idx].seedIdx()];
- if (is_good_seed(seed, hoe_cut)) {
- matched=true;
- break;
- }
- }
- if (abs(sim_track.eta()) < 2.4)
- tracking_eff.pt->fill(sim_track.pt(), matched);
- if (sim_track.pt() > 20.0)
- tracking_eff.eta->fill(sim_track.eta(), matched);
- if (abs(sim_track.eta()) < 2.4 and sim_track.pt() > 20)
- tracking_eff.phi->fill(sim_track.phi(), matched);
- // dR-matching
- matched = false;
- for (const auto& gsf_track : gsf_tracks) {
- const Seed& seed = seeds[gsf_track.seedIdx()];
- double dR = deltaR(sim_track, gsf_track);
- if (is_good_seed(seed, hoe_cut) and dR < 0.2) {
- matched = true;
- break;
- }
- }
- if (abs(sim_track.eta()) < 2.4)
- tracking_eff_dR.pt->fill(sim_track.pt(), matched);
- if (sim_track.pt() > 20.0)
- tracking_eff_dR.eta->fill(sim_track.eta(), matched);
- if (abs(sim_track.eta()) < 2.4 and sim_track.pt() > 20)
- tracking_eff_dR.phi->fill(sim_track.phi(), matched);
- }
- // Seeding Purity
- for (const auto& seed : seeds) {
- if (!is_good_seed(seed, hoe_cut)) continue;
- bool match = false;
- for (const auto& sim_track_idx : seed.simTrkIdx()) {
- if (is_good_sim(sim_tracks[sim_track_idx])) {
- match = true;
- break;
- }
- }
- if (abs(seed.eta()) < 2.4)
- seed_pur.pt->fill(seed.pt(), match);
- if (seed.pt() > 20)
- seed_pur.eta->fill(seed.eta(), match);
- if (abs(seed.eta()) < 2.4 and seed.pt() > 20)
- seed_pur.phi->fill(seed.phi(), match);
- }
- // Tracking Purity
- for (const auto& gsf_track : gsf_tracks) {
- gsf_tracks_nmatch_sim_tracks.fill(gsf_track.simTrkIdx().size());
- const Seed& seed = seeds[gsf_track.seedIdx()];
- if (!is_good_seed(seed, hoe_cut)) continue;
- bool matched = false;
- for (const auto& sim_track_idx : gsf_track.simTrkIdx()) {
- if (is_good_sim(sim_tracks[sim_track_idx])) {
- matched = true;
- break;
- }
- }
- if (abs(gsf_track.eta()) < 2.4)
- tracking_pur.pt->fill(gsf_track.pt(), matched);
- if (gsf_track.pt() > 20)
- tracking_pur.eta->fill(gsf_track.eta(), matched);
- if (abs(gsf_track.eta()) < 2.4 and gsf_track.pt() > 20)
- tracking_pur.phi->fill(gsf_track.phi(), matched);
- // dR-matching
- matched = false;
- for (const auto& sim_track : sim_els) {
- double dR = deltaR(sim_track, gsf_track);
- if (dR < 0.2) {
- matched = true;
- break;
- }
- }
- if (abs(gsf_track.eta()) < 2.4)
- tracking_pur_dR.pt->fill(gsf_track.pt(), matched);
- if (gsf_track.pt() > 20.0)
- tracking_pur_dR.eta->fill(gsf_track.eta(), matched);
- if (abs(gsf_track.eta()) < 2.4 and gsf_track.pt() > 20)
- tracking_pur_dR.phi->fill(gsf_track.phi(), matched);
- }
- // Fake-Rate
- std::map<size_t, std::vector<int>> scl2trk; // Maps superclusters to tm-status of matched gsf-tracks
- for (const auto &gsf_track : gsf_tracks) {
- bool gsf_truth_matched = false;
- for(const auto& sim_track_idx : gsf_track.simTrkIdx()) {
- if (is_good_sim(sim_tracks[sim_track_idx])) {
- gsf_truth_matched = true;
- break;
- }
- }
- int scl_idx = seeds[gsf_track.seedIdx()].sclIdx();
- scl2trk[scl_idx].push_back(gsf_truth_matched);
- }
- std::set<size_t> tm_scls; // Set of super-clusters with well matched sim-electrons
- for (const auto &scl : scls) {
- Vec4 p4 = scl_p4(scl);
- for(const auto& sim_track : sim_els) {
- if (deltaR(p4.eta(), p4.phi(), sim_track) > 0.2) continue;
- if (((p4.Et() - sim_track.pt()) / p4.Et()) > 0.1) continue;
- tm_scls.insert(scl.idx);
- break;
- }
- }
- /* cout << "scls: "; */
- /* for (const auto& scl: scls) cout << scl.idx << ", "; */
- /* cout << endl << "tm_scls: "; */
- /* for (const auto& idx: tm_scls) cout << idx << ", "; */
- /* cout << endl; */
- for (const auto &scl : scls) {
- if (scl.hoe() > hoe_cut) continue;
- float scl_pt = hypot(scl.px(), scl.py());
- float scl_eta = pseudorapidity(scl.x(), scl.y(), scl.z());
- float scl_phi = atan2(scl.py(), scl.px());
- int ntracks = scl2trk[scl.idx].size();
- int ntmtracks = std::accumulate(scl2trk[scl.idx].begin(), scl2trk[scl.idx].end(), 0);
- bool partial_fake = ntmtracks > 0 and ntracks > ntmtracks;
- bool full_fake = ntmtracks == 0 and ntracks > 0;
- /* cout << "ntracks: " << ntracks << " "; */
- /* cout << "count: " << tm_scls.count(scl.idx); */
- if (ntracks > 0) {
- partial_fake_rate.pt->fill(scl_pt, partial_fake);
- partial_fake_rate.eta->fill(scl_eta, partial_fake);
- partial_fake_rate.phi->fill(scl_phi, partial_fake);
- full_fake_rate.pt->fill(scl_pt, full_fake);
- full_fake_rate.eta->fill(scl_eta, full_fake);
- full_fake_rate.phi->fill(scl_phi, full_fake);
- if (tm_scls.count(scl.idx) == 0) {
- /* cout << "Filling clean_fake_rate" << endl; */
- clean_fake_rate.pt->fill(scl_pt, full_fake);
- clean_fake_rate.eta->fill(scl_eta, full_fake);
- clean_fake_rate.phi->fill(scl_phi, full_fake);
- }
- }
- /* cout << endl; */
- }
- // Hit Residuals
- for (const auto& seed : seeds) {
- if (seed.trkIdx() < 0) continue; // require that seed produced gsf-track
- if (!is_good_seed(seed, hoe_cut)) continue;
- bool is_seed_sim_matched = false;
- for (const auto& sim_track_idx : seed.simTrkIdx()) {
- const SimTrack& sim_track = sim_tracks[sim_track_idx];
- if (is_good_sim(sim_track) and reco_energy_consistent(sim_track, seed)) {
- is_seed_sim_matched = true;
- break;
- }
- }
- bool is_track_sim_matched = false;
- const auto the_track = gsf_tracks[seed.trkIdx()];
- for (const auto& sim_track_idx : the_track.simTrkIdx()) {
- const SimTrack& sim_track = sim_tracks[sim_track_idx];
- if (is_good_sim(sim_track) and reco_energy_consistent(sim_track, the_track)) {
- is_track_sim_matched = true;
- break;
- }
- }
- std::vector<TMType> tm_types;
- if (is_seed_sim_matched and is_track_sim_matched) {
- tm_types = {SeedAndTrackMatched, SeedMatched, TrackMatched};
- } else if (is_seed_sim_matched) {
- tm_types = {SeedMatched};
- } else if (is_track_sim_matched) {
- tm_types = {TrackMatched};
- } else {
- tm_types = {NoMatch};
- }
- tm_corr.fill(is_seed_sim_matched, is_track_sim_matched);
- vector<int> hits_valid;
- vector<float> hits_dRz;
- vector<float> hits_dPhi;
- if (the_track.q() == 1) {
- hits_valid = seed.isValidPos();
- hits_dRz = seed.dRZPos();
- hits_dPhi = seed.dPhiPos();
- } else {
- hits_valid = seed.isValidNeg();
- hits_dRz = seed.dRZNeg();
- hits_dPhi = seed.dPhiNeg();
- }
- const vector<int>& hits_isBarrel = seed.isBarrel();
- const vector<int>& hits_layerOrDiskNr = seed.layerOrDiskNr();
- for (const auto& tm_type : tm_types) {
- size_t nHits = hits_valid.size();
- for (size_t hit_idx = 0; hit_idx < nHits; hit_idx++) {
- if (!hits_valid[hit_idx]) continue;
- bool isBarrel = hits_isBarrel[hit_idx] == 1;
- int layerOrDiskNr = hits_layerOrDiskNr[hit_idx];
- float dRz = abs(hits_dRz[hit_idx]);
- float dPhi = abs(hits_dPhi[hit_idx]);
- int eta_region = get_region(static_cast<int>(hit_idx + 1), seed.eta());
- if (is_seed_sim_matched) {
- dRz_residuals_v_eta[hit_idx + 1]->fill(dRz, abs(seed.eta()));
- dPhi_residuals_v_eta[hit_idx + 1]->fill(dPhi, abs(seed.eta()));
- dRz_residuals_v_region[make_pair(hit_idx + 1, eta_region)]->fill(dRz, seed.Et());
- dPhi_residuals_v_region[make_pair(hit_idx + 1, eta_region)]->fill(dPhi, seed.Et());
- }
- residuals_dRz[make_tuple(hit_idx + 1, tm_type)]->fill(dRz, seed.Et());
- residuals_dPhi[make_tuple(hit_idx + 1, tm_type)]->fill(dPhi, seed.Et());
- if (layerOrDiskNr == -1) continue; // subDet is not set w/ old seeding
- if (isBarrel)
- hit_vs_layer_barrel.fill(layerOrDiskNr, static_cast<const int &>(hit_idx + 1));
- else
- hit_vs_layer_forward.fill(layerOrDiskNr, static_cast<const int &>(hit_idx + 1));
- if (isBarrel) {
- BPIX_residuals_dRz[make_tuple(layerOrDiskNr, hit_idx + 1, tm_type)]->fill(dRz, seed.Et());
- BPIX_residuals_dPhi[make_tuple(layerOrDiskNr, hit_idx + 1, tm_type)]->fill(dPhi, seed.Et());
- } else {
- FPIX_residuals_dRz[make_tuple(layerOrDiskNr, hit_idx + 1, tm_type)]->fill(dRz, seed.Et());
- FPIX_residuals_dPhi[make_tuple(layerOrDiskNr, hit_idx + 1, tm_type)]->fill(dPhi, seed.Et());
- }
- }
- }
- }
- }
- tds.save_all();
- }
- int main(int argc, char * argv[]){
- using namespace fv_util;
- ArgParser args(argc, argv);
- if(args.cmd_option_exists("-c")) {
- init_config(args.get_cmd_option("-c"));
- args.update_config();
- if (args.cmd_option_exists("-s")) {
- the_config->update_key("silent", true);
- }
- if (args.cmd_option_exists("-b")) {
- the_config->update_key("batch", true);
- }
- init_log(LogPriority::kLogInfo);
- // gSystem->Load("libfilval.so");
- run();
- } else {
- cout << "Usage: ./" << argv[0] << " (-s) (-b) -c config_file.yaml" << endl;
- }
- return 0;
- }
|