void SvtxEvaluator::fillOutputNtuples(PHCompositeNode *topNode) { if (verbosity > 1) cout << "SvtxEvaluator::fillOutputNtuples() entered" << endl; SvtxVertexEval* vertexeval = _svtxevalstack->get_vertex_eval(); SvtxTrackEval* trackeval = _svtxevalstack->get_track_eval(); SvtxClusterEval* clustereval = _svtxevalstack->get_cluster_eval(); SvtxHitEval* hiteval = _svtxevalstack->get_hit_eval(); SvtxTruthEval* trutheval = _svtxevalstack->get_truth_eval(); //----------------------- // fill the Vertex NTuple //----------------------- if (_ntp_vertex) { SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap"); PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); if (vertexmap && truthinfo) { for (SvtxVertexMap::Iter iter = vertexmap->begin(); iter != vertexmap->end(); ++iter) { SvtxVertex* vertex = iter->second; PHG4VtxPoint* point = vertexeval->max_truth_point_by_ntracks(vertex); float vx = vertex->get_x(); float vy = vertex->get_y(); float vz = vertex->get_z(); float ntracks = vertex->size_tracks(); float gvx = NAN; float gvy = NAN; float gvz = NAN; float gntracks = truthinfo->GetNumPrimaryVertexParticles(); float nfromtruth = NAN; if (point) { gvx = point->get_x(); gvy = point->get_y(); gvz = point->get_z(); gntracks = truthinfo->GetNumPrimaryVertexParticles(); nfromtruth = vertexeval->get_ntracks_contribution(vertex,point); } float vertex_data[10] = {_ievent, vx, vy, vz, ntracks, gvx, gvy, gvz, gntracks, nfromtruth }; _ntp_vertex->Fill(vertex_data); } } } //----------------------- // fill the gpoint NTuple //----------------------- if (_ntp_gpoint) { SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap"); PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); if (vertexmap && truthinfo) { PHG4VtxPoint* point = truthinfo->GetPrimaryVtx(truthinfo->GetPrimaryVertexIndex()); SvtxVertex* vertex = vertexeval->best_vertex_from(point); float gvx = point->get_x(); float gvy = point->get_y(); float gvz = point->get_z(); float gntracks = truthinfo->GetNumPrimaryVertexParticles(); float vx = NAN; float vy = NAN; float vz = NAN; float ntracks = NAN; float nfromtruth = NAN; if (vertex) { vx = vertex->get_x(); vy = vertex->get_y(); vz = vertex->get_z(); ntracks = vertex->size_tracks(); nfromtruth = vertexeval->get_ntracks_contribution(vertex,point); } float gpoint_data[10] = {_ievent, gvx, gvy, gvz, gntracks, vx, vy, vz, ntracks, nfromtruth }; _ntp_gpoint->Fill(gpoint_data); } } //--------------------- // fill the G4hit NTuple //--------------------- if (_ntp_g4hit) { std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(); for (std::set<PHG4Hit*>::iterator iter = g4hits.begin(); iter != g4hits.end(); ++iter) { PHG4Hit *g4hit = *iter; PHG4Particle *g4particle = trutheval->get_particle(g4hit); float g4hitID = g4hit->get_hit_id(); float gx = 0.5*(g4hit->get_x(0)+g4hit->get_x(1)); float gy = 0.5*(g4hit->get_y(0)+g4hit->get_y(1)); float gz = 0.5*(g4hit->get_z(0)+g4hit->get_z(1)); float gedep = g4hit->get_edep(); float glayer = g4hit->get_layer(); float gtrackID = g4hit->get_trkid(); float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gembed = NAN; float gprimary = NAN; float gfpx = NULL; float gfpy = NULL; float gfpz = NULL; float gfx = NULL; float gfy = NULL; float gfz = NULL; if (g4particle) { gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle) std::set<SvtxCluster*> clusters = clustereval->all_clusters_from(g4hit); float nclusters = clusters.size(); // best cluster reco'd SvtxCluster* cluster = clustereval->best_cluster_from(g4hit); float clusID = NAN; float x = NAN; float y = NAN; float z = NAN; float e = NAN; float adc = NAN; float layer = NAN; float size = NAN; float phisize = NAN; float zsize = NAN; float efromtruth = NAN; if (cluster) { clusID = cluster->get_id(); x = cluster->get_x(); y = cluster->get_y(); z = cluster->get_z(); e = cluster->get_e(); adc = cluster->get_adc(); layer = cluster->get_layer(); size = cluster->size_hits(); phisize = cluster->get_phi_size(); zsize = cluster->get_z_size(); if (g4particle) { efromtruth = clustereval->get_energy_contribution(cluster,g4particle); } } float g4hit_data[35] = {_ievent, g4hitID, gx, gy, gz, gedep, glayer, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, nclusters, clusID, x, y, z, e, adc, layer, size, phisize, zsize, efromtruth }; _ntp_g4hit->Fill(g4hit_data); } } //-------------------- // fill the Hit NTuple //-------------------- if (_ntp_hit) { // need things off of the DST... SvtxHitMap* hitmap = findNode::getClass<SvtxHitMap>(topNode,"SvtxHitMap"); if (hitmap) { for (SvtxHitMap::Iter iter = hitmap->begin(); iter != hitmap->end(); ++iter) { SvtxHit* hit = iter->second; PHG4Hit* g4hit = hiteval->max_truth_hit_by_energy(hit); PHG4CylinderCell* g4cell = hiteval->get_cell(hit); PHG4Particle* g4particle = trutheval->get_particle(g4hit); float event = _ievent; float hitID = hit->get_id(); float e = hit->get_e(); float adc = hit->get_adc(); float layer = hit->get_layer(); float cellID = hit->get_cellid(); float ecell = g4cell->get_edep(); float g4hitID = NAN; float gedep = NAN; float gx = NAN; float gy = NAN; float gz = NAN; float gtrackID = NAN; float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float glast = NAN; float gembed = NAN; float gprimary = NAN; float efromtruth = NAN; if (g4hit) { g4hitID = g4hit->get_hit_id(); gedep = g4hit->get_edep(); gx = 0.5*(g4hit->get_x(0)+g4hit->get_x(1)); gy = 0.5*(g4hit->get_y(0)+g4hit->get_y(1)); gz = 0.5*(g4hit->get_z(0)+g4hit->get_z(1)); gx = g4hit->get_x(0); gy = g4hit->get_y(0); gz = g4hit->get_z(0); if (g4particle) { gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } glast = NAN; gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle){ } if (g4particle) { efromtruth = hiteval->get_energy_contribution(hit,g4particle); } float hit_data[32] = { event, hitID, e, adc, layer, cellID, ecell, g4hitID, gedep, gx, gy, gz, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, efromtruth }; _ntp_hit->Fill(hit_data); } } } //------------------------ // fill the Cluster NTuple //------------------------ if (_ntp_cluster) { // need things off of the DST... SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (clustermap) { for (SvtxClusterMap::Iter iter = clustermap->begin(); iter != clustermap->end(); ++iter) { SvtxCluster* cluster = iter->second; PHG4Hit *g4hit = clustereval->max_truth_hit_by_energy(cluster); PHG4Particle *g4particle = trutheval->get_particle(g4hit); float hitID = cluster->get_id(); float x = cluster->get_x(); float y = cluster->get_y(); float z = cluster->get_z(); float e = cluster->get_e(); float adc = cluster->get_adc(); float layer = cluster->get_layer(); float size = cluster->size_hits(); float phisize = cluster->get_phi_size(); float zsize = cluster->get_z_size(); float g4hitID = NAN; float gx = NAN; float gy = NAN; float gz = NAN; float gtrackID = NAN; float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float glast = NAN; float gembed = NAN; float gprimary = NAN; float nhits = NAN; float efromtruth = NAN; if (g4hit) { g4hitID = g4hit->get_hit_id(); gx = 0.5*(g4hit->get_x(0)+g4hit->get_x(1)); gy = 0.5*(g4hit->get_y(0)+g4hit->get_y(1)); gz = 0.5*(g4hit->get_z(0)+g4hit->get_z(1)); gx = g4hit->get_x(0); gy = g4hit->get_y(0); gz = g4hit->get_z(0); if (g4particle) { gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } glast = NAN; gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle){ } // if (g4hit) { if (g4particle){ efromtruth = clustereval->get_energy_contribution(cluster,g4particle); } float cluster_data[33] = {_ievent, hitID, x, y, z, e, adc, layer, size, phisize, zsize, g4hitID, gx, gy, gz, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, nhits, efromtruth}; _ntp_cluster->Fill(cluster_data); } } } //------------------------ // fill the Gtrack NTuple //------------------------ // need things off of the DST... if (_ntp_gtrack) { PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (truthinfo) { PHG4TruthInfoContainer::ConstRange range = truthinfo->GetPrimaryParticleRange(); for (PHG4TruthInfoContainer::ConstIterator iter = range.first; iter != range.second; ++iter) { PHG4Particle* g4particle = iter->second; float gtrackID = g4particle->get_track_id(); float gflavor = g4particle->get_pid(); std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle); float ng4hits = g4hits.size(); float gpx = g4particle->get_px(); float gpy = g4particle->get_py(); float gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); float gvx = vtx->get_x(); float gvy = vtx->get_y(); float gvz = vtx->get_z(); float gfpx = NULL; float gfpy = NULL; float gfpz = NULL; float gfx = NULL; float gfy = NULL; float gfz = NULL; PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } float gembed = trutheval->get_embed(g4particle); float gprimary = trutheval->is_primary(g4particle); SvtxTrack* track = trackeval->best_track_from(g4particle); float trackID = NAN; float charge = NAN; float quality = NAN; float chisq = NAN; float ndf = NAN; float nhits = NAN; unsigned int layers = 0x0; float dca = NAN; float dca2d = NAN; float dca2dsigma = NAN; float px = NAN; float py = NAN; float pz = NAN; float pcax = NAN; float pcay = NAN; float pcaz = NAN; float nfromtruth = NAN; if (track) { trackID = track->get_id(); charge = track->get_charge(); quality = track->get_quality(); chisq = track->get_chisq(); ndf = track->get_ndf(); nhits = track->size_clusters(); for (SvtxTrack::ConstClusterIter iter = track->begin_clusters(); iter != track->end_clusters(); ++iter) { unsigned int cluster_id = *iter; SvtxCluster* cluster = clustermap->get(cluster_id); unsigned int layer = cluster->get_layer(); if (layer < 32) layers |= (0x1 << layer); } dca = track->get_dca(); dca2d = track->get_dca2d(); dca2dsigma = track->get_dca2d_error(); px = track->get_px(); py = track->get_py(); pz = track->get_pz(); pcax = track->get_x(); pcay = track->get_y(); pcaz = track->get_z(); nfromtruth = trackeval->get_nclusters_contribution(track,g4particle); } float gtrack_data[34] = {_ievent, gtrackID, gflavor, ng4hits, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, trackID, px, py, pz, charge, quality, chisq, ndf, nhits, layers, dca2d, dca2dsigma, pcax, pcay, pcaz, nfromtruth }; _ntp_gtrack->Fill(gtrack_data); } } } //------------------------ // fill the Track NTuple //------------------------ if (_ntp_track) { // need things off of the DST... SvtxTrackMap* trackmap = findNode::getClass<SvtxTrackMap>(topNode,"SvtxTrackMap"); SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (trackmap) { for (SvtxTrackMap::Iter iter = trackmap->begin(); iter != trackmap->end(); ++iter) { SvtxTrack* track = iter->second; float trackID = track->get_id(); float charge = track->get_charge(); float quality = track->get_quality(); float chisq = track->get_chisq(); float ndf = track->get_ndf(); float nhits = track->size_clusters(); unsigned int layers = 0x0; for (SvtxTrack::ConstClusterIter iter = track->begin_clusters(); iter != track->end_clusters(); ++iter) { unsigned int cluster_id = *iter; SvtxCluster* cluster = clustermap->get(cluster_id); unsigned int layer = cluster->get_layer(); if (layer < 32) layers |= (0x1 << layer); } float dca2d = track->get_dca2d(); float dca2dsigma = track->get_dca2d_error(); float px = track->get_px(); float py = track->get_py(); float pz = track->get_pz(); float pcax = track->get_x(); float pcay = track->get_y(); float pcaz = track->get_z(); float presdphi = track->get_cal_dphi(SvtxTrack::PRES); float presdeta = track->get_cal_deta(SvtxTrack::PRES); float prese3x3 = track->get_cal_energy_3x3(SvtxTrack::PRES); float prese = track->get_cal_cluster_e(SvtxTrack::PRES); float cemcdphi = track->get_cal_dphi(SvtxTrack::CEMC); float cemcdeta = track->get_cal_deta(SvtxTrack::CEMC); float cemce3x3 = track->get_cal_energy_3x3(SvtxTrack::CEMC); float cemce = track->get_cal_cluster_e(SvtxTrack::CEMC); float hcalindphi = track->get_cal_dphi(SvtxTrack::HCALIN); float hcalindeta = track->get_cal_deta(SvtxTrack::HCALIN); float hcaline3x3 = track->get_cal_energy_3x3(SvtxTrack::HCALIN); float hcaline = track->get_cal_cluster_e(SvtxTrack::HCALIN); float hcaloutdphi = track->get_cal_dphi(SvtxTrack::HCALOUT); float hcaloutdeta = track->get_cal_deta(SvtxTrack::HCALOUT); float hcaloute3x3 = track->get_cal_energy_3x3(SvtxTrack::HCALOUT); float hcaloute = track->get_cal_cluster_e(SvtxTrack::HCALOUT); float gtrackID = NAN; float gflavor = NAN; float ng4hits = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float gembed = NAN; float gprimary = NAN; float nfromtruth = NAN; PHG4Particle* g4particle = trackeval->max_truth_particle_by_nclusters(track); if (g4particle) { gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle); ng4hits = g4hits.size(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); nfromtruth = trackeval->get_nclusters_contribution(track,g4particle); } float track_data[50] = {_ievent, trackID, px, py, pz, charge, quality, chisq, ndf, nhits, layers, dca2d, dca2dsigma, pcax, pcay, pcaz, presdphi, presdeta, prese3x3, prese, cemcdphi, cemcdeta, cemce3x3, cemce, hcalindphi, hcalindeta, hcaline3x3, hcaline, hcaloutdphi, hcaloutdeta, hcaloute3x3, hcaloute, gtrackID, gflavor, ng4hits, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, nfromtruth }; _ntp_track->Fill(track_data); } } } return; }
void SvtxEvaluator::fillOutputNtuples(PHCompositeNode *topNode) { if (verbosity > 1) cout << "SvtxEvaluator::fillOutputNtuples() entered" << endl; SvtxVertexEval* vertexeval = _svtxevalstack->get_vertex_eval(); SvtxTrackEval* trackeval = _svtxevalstack->get_track_eval(); SvtxClusterEval* clustereval = _svtxevalstack->get_cluster_eval(); SvtxHitEval* hiteval = _svtxevalstack->get_hit_eval(); SvtxTruthEval* trutheval = _svtxevalstack->get_truth_eval(); //----------------------- // fill the Vertex NTuple //----------------------- if (_ntp_vertex) { //cout << "Filling ntp_vertex " << endl; SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap"); PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); if (vertexmap && truthinfo) { for (SvtxVertexMap::Iter iter = vertexmap->begin(); iter != vertexmap->end(); ++iter) { SvtxVertex* vertex = iter->second; PHG4VtxPoint* point = vertexeval->max_truth_point_by_ntracks(vertex); float vx = vertex->get_x(); float vy = vertex->get_y(); float vz = vertex->get_z(); float ntracks = vertex->size_tracks(); float gvx = NAN; float gvy = NAN; float gvz = NAN; float gvt = NAN; float gntracks = truthinfo->GetNumPrimaryVertexParticles(); float nfromtruth = NAN; if (point) { gvx = point->get_x(); gvy = point->get_y(); gvz = point->get_z(); gvt = point->get_t(); gntracks = truthinfo->GetNumPrimaryVertexParticles(); nfromtruth = vertexeval->get_ntracks_contribution(vertex,point); } float vertex_data[11] = {(float) _ievent, vx, vy, vz, ntracks, gvx, gvy, gvz, gvt, gntracks, nfromtruth }; /* cout << "vertex: " << " ievent " << vertex_data[0] << " vx " << vertex_data[1] << " vy " << vertex_data[2] << " vz " << vertex_data[3] << endl; */ _ntp_vertex->Fill(vertex_data); } } } //----------------------- // fill the gpoint NTuple //----------------------- if (_ntp_gpoint) { //cout << "Filling ntp_gpoint " << endl; SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap"); PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); if (vertexmap && truthinfo) { PHG4VtxPoint* point = truthinfo->GetPrimaryVtx(truthinfo->GetPrimaryVertexIndex()); if (point) { SvtxVertex* vertex = vertexeval->best_vertex_from(point); float gvx = point->get_x(); float gvy = point->get_y(); float gvz = point->get_z(); float gvt = point->get_t(); float gntracks = truthinfo->GetNumPrimaryVertexParticles(); float vx = NAN; float vy = NAN; float vz = NAN; float ntracks = NAN; float nfromtruth = NAN; if (vertex) { vx = vertex->get_x(); vy = vertex->get_y(); vz = vertex->get_z(); ntracks = vertex->size_tracks(); nfromtruth = vertexeval->get_ntracks_contribution(vertex,point); } float gpoint_data[11] = {(float) _ievent, gvx, gvy, gvz, gvt, gntracks, vx, vy, vz, ntracks, nfromtruth }; _ntp_gpoint->Fill(gpoint_data); } } } //--------------------- // fill the G4hit NTuple //--------------------- if (_ntp_g4hit) { //cout << "Filling ntp_g4hit " << endl; std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(); for (std::set<PHG4Hit*>::iterator iter = g4hits.begin(); iter != g4hits.end(); ++iter) { PHG4Hit *g4hit = *iter; PHG4Particle *g4particle = trutheval->get_particle(g4hit); float g4hitID = g4hit->get_hit_id(); float gx = g4hit->get_avg_x(); float gy = g4hit->get_avg_y(); float gz = g4hit->get_avg_z(); float gt = g4hit->get_avg_t(); float gedep = g4hit->get_edep(); float glayer = g4hit->get_layer(); float gtrackID = g4hit->get_trkid(); float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gembed = NAN; float gprimary = NAN; float gfpx = 0.; float gfpy = 0.; float gfpz = 0.; float gfx = 0.; float gfy = 0.; float gfz = 0.; if (g4particle) { if (_scan_for_embedded) { if (trutheval->get_embed(g4particle) == 0) continue; } gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle) std::set<SvtxCluster*> clusters = clustereval->all_clusters_from(g4hit); float nclusters = clusters.size(); // best cluster reco'd SvtxCluster* cluster = clustereval->best_cluster_from(g4hit); float clusID = NAN; float x = NAN; float y = NAN; float z = NAN; float e = NAN; float adc = NAN; float layer = NAN; float size = NAN; float phisize = NAN; float zsize = NAN; float efromtruth = NAN; if (cluster) { clusID = cluster->get_id(); x = cluster->get_x(); y = cluster->get_y(); z = cluster->get_z(); e = cluster->get_e(); adc = cluster->get_adc(); layer = cluster->get_layer(); size = cluster->size_hits(); phisize = cluster->get_phi_size(); zsize = cluster->get_z_size(); if (g4particle) { efromtruth = clustereval->get_energy_contribution(cluster,g4particle); } } float g4hit_data[36] = {(float) _ievent, g4hitID, gx, gy, gz, gt, gedep, glayer, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, nclusters, clusID, x, y, z, e, adc, layer, size, phisize, zsize, efromtruth }; _ntp_g4hit->Fill(g4hit_data); } } //-------------------- // fill the Hit NTuple //-------------------- if (_ntp_hit) { //cout << "Filling ntp_hit " << endl; // need things off of the DST... SvtxHitMap* hitmap = findNode::getClass<SvtxHitMap>(topNode,"SvtxHitMap"); if (hitmap) { for (SvtxHitMap::Iter iter = hitmap->begin(); iter != hitmap->end(); ++iter) { SvtxHit* hit = iter->second; PHG4Hit* g4hit = hiteval->max_truth_hit_by_energy(hit); PHG4CylinderCell* g4cell = hiteval->get_cell(hit); PHG4Particle* g4particle = trutheval->get_particle(g4hit); float event = _ievent; float hitID = hit->get_id(); float e = hit->get_e(); float adc = hit->get_adc(); float layer = hit->get_layer(); float cellID = hit->get_cellid(); float ecell = g4cell->get_edep(); float g4hitID = NAN; float gedep = NAN; float gx = NAN; float gy = NAN; float gz = NAN; float gt = NAN; float gtrackID = NAN; float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float gembed = NAN; float gprimary = NAN; float efromtruth = NAN; if (g4hit) { g4hitID = g4hit->get_hit_id(); gedep = g4hit->get_edep(); gx = g4hit->get_avg_x(); gy = g4hit->get_avg_y(); gz = g4hit->get_avg_z(); gt = g4hit->get_avg_t(); if (g4particle) { if (_scan_for_embedded) { if (trutheval->get_embed(g4particle) == 0) continue; } gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle){ } if (g4particle) { efromtruth = hiteval->get_energy_contribution(hit,g4particle); } float hit_data[33] = { event, hitID, e, adc, layer, cellID, ecell, g4hitID, gedep, gx, gy, gz, gt, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, efromtruth }; _ntp_hit->Fill(hit_data); } } } //------------------------ // fill the Cluster NTuple //------------------------ //cout << "check for ntp_cluster" << endl; if (_ntp_cluster && !_scan_for_embedded) { //cout << "Filling ntp_cluster 1 " << endl; // need things off of the DST... SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (clustermap) { for (SvtxClusterMap::Iter iter = clustermap->begin(); iter != clustermap->end(); ++iter) { SvtxCluster* cluster = iter->second; SvtxTrack* track = trackeval->best_track_from(cluster); PHG4Hit *g4hit = clustereval->max_truth_hit_by_energy(cluster); PHG4Particle *g4particle = trutheval->get_particle(g4hit); float hitID = cluster->get_id(); float x = cluster->get_x(); float y = cluster->get_y(); float z = cluster->get_z(); float ex = sqrt(cluster->get_error(0,0)); float ey = sqrt(cluster->get_error(1,1)); float ez = cluster->get_z_error(); float ephi = cluster->get_phi_error(); float e = cluster->get_e(); float adc = cluster->get_adc(); float layer = cluster->get_layer(); float size = cluster->size_hits(); float phisize = cluster->get_phi_size(); float zsize = cluster->get_z_size(); float trackID = NAN; if (track) trackID = track->get_id(); float g4hitID = NAN; float gx = NAN; float gy = NAN; float gz = NAN; float gt = NAN; float gtrackID = NAN; float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float gembed = NAN; float gprimary = NAN; float efromtruth = NAN; if (g4hit) { g4hitID = g4hit->get_hit_id(); gx = g4hit->get_avg_x(); gy = g4hit->get_avg_y(); gz = g4hit->get_avg_z(); gt = g4hit->get_avg_t(); if (g4particle) { gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle){ } // if (g4hit) { if (g4particle){ efromtruth = clustereval->get_energy_contribution(cluster,g4particle); } float cluster_data[38] = {(float) _ievent, hitID, x, y, z, ex, ey, ez, ephi, e, adc, layer, size, phisize, zsize, trackID, g4hitID, gx, gy, gz, gt, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, efromtruth}; _ntp_cluster->Fill(cluster_data); } } } else if (_ntp_cluster && _scan_for_embedded) { //cout << "Filling ntp_cluster 2 " << endl; // if only scanning embedded signals, loop over all the tracks from // embedded particles and report all of their clusters, including those // from other sources (noise hits on the embedded track) // need things off of the DST... SvtxTrackMap* trackmap = findNode::getClass<SvtxTrackMap>(topNode,"SvtxTrackMap"); SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (trackmap) { for (SvtxTrackMap::Iter iter = trackmap->begin(); iter != trackmap->end(); ++iter) { SvtxTrack* track = iter->second; PHG4Particle* truth = trackeval->max_truth_particle_by_nclusters(track); if (truth) { if (trutheval->get_embed(truth) == 0) continue; } for (SvtxTrack::ConstClusterIter iter = track->begin_clusters(); iter != track->end_clusters(); ++iter) { unsigned int cluster_id = *iter; SvtxCluster* cluster = clustermap->get(cluster_id); PHG4Hit *g4hit = clustereval->max_truth_hit_by_energy(cluster); PHG4Particle *g4particle = trutheval->get_particle(g4hit); float hitID = cluster->get_id(); float x = cluster->get_x(); float y = cluster->get_y(); float z = cluster->get_z(); float ex = sqrt(cluster->get_error(0,0)); float ey = sqrt(cluster->get_error(1,1)); float ez = cluster->get_z_error(); float ephi = cluster->get_phi_error(); float e = cluster->get_e(); float adc = cluster->get_adc(); float layer = cluster->get_layer(); float size = cluster->size_hits(); float phisize = cluster->get_phi_size(); float zsize = cluster->get_z_size(); float trackID = NAN; if (track) trackID = track->get_id(); float g4hitID = NAN; float gx = NAN; float gy = NAN; float gz = NAN; float gt = NAN; float gtrackID = NAN; float gflavor = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float gembed = NAN; float gprimary = NAN; float efromtruth = NAN; if (g4hit) { g4hitID = g4hit->get_hit_id(); gx = g4hit->get_avg_x(); gy = g4hit->get_avg_y(); gz = g4hit->get_avg_z(); gt = g4hit->get_avg_t(); if (g4particle) { gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); if (vtx) { gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); } PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); } // if (g4particle){ } // if (g4hit) { if (g4particle){ efromtruth = clustereval->get_energy_contribution(cluster,g4particle); } float cluster_data[38] = {(float) _ievent, hitID, x, y, z, ex, ey, ez, ephi, e, adc, layer, size, phisize, zsize, trackID, g4hitID, gx, gy, gz, gt, gtrackID, gflavor, gpx, gpy, gpz, gvx, gvy, gvz, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, efromtruth}; _ntp_cluster->Fill(cluster_data); } } } } //------------------------ // fill the Gtrack NTuple //------------------------ // need things off of the DST... //cout << "check for ntp_gtrack" << endl; if (_ntp_gtrack) { //cout << "Filling ntp_gtrack " << endl; PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (truthinfo) { PHG4TruthInfoContainer::ConstRange range = truthinfo->GetPrimaryParticleRange(); for (PHG4TruthInfoContainer::ConstIterator iter = range.first; iter != range.second; ++iter) { PHG4Particle* g4particle = iter->second; if (_scan_for_embedded) { if (trutheval->get_embed(g4particle) == 0) continue; } float gtrackID = g4particle->get_track_id(); float gflavor = g4particle->get_pid(); std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle); float ng4hits = g4hits.size(); float gpx = g4particle->get_px(); float gpy = g4particle->get_py(); float gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); float gvx = vtx->get_x(); float gvy = vtx->get_y(); float gvz = vtx->get_z(); float gvt = vtx->get_t(); float gfpx = 0.; float gfpy = 0.; float gfpz = 0.; float gfx = 0.; float gfy = 0.; float gfz = 0.; PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } float gembed = trutheval->get_embed(g4particle); float gprimary = trutheval->is_primary(g4particle); SvtxTrack* track = trackeval->best_track_from(g4particle); float trackID = NAN; float charge = NAN; float quality = NAN; float chisq = NAN; float ndf = NAN; float nhits = NAN; unsigned int layers = 0x0; float dca2d = NAN; float dca2dsigma = NAN; float px = NAN; float py = NAN; float pz = NAN; float pcax = NAN; float pcay = NAN; float pcaz = NAN; float nfromtruth = NAN; float layersfromtruth = NAN; if (track) { trackID = track->get_id(); charge = track->get_charge(); quality = track->get_quality(); chisq = track->get_chisq(); ndf = track->get_ndf(); nhits = track->size_clusters(); for (SvtxTrack::ConstClusterIter iter = track->begin_clusters(); iter != track->end_clusters(); ++iter) { unsigned int cluster_id = *iter; SvtxCluster* cluster = clustermap->get(cluster_id); unsigned int layer = cluster->get_layer(); if (layer < 32) layers |= (0x1 << layer); } dca2d = track->get_dca2d(); dca2dsigma = track->get_dca2d_error(); px = track->get_px(); py = track->get_py(); pz = track->get_pz(); pcax = track->get_x(); pcay = track->get_y(); pcaz = track->get_z(); nfromtruth = trackeval->get_nclusters_contribution(track,g4particle); layersfromtruth = trackeval->get_nclusters_contribution_by_layer(track,g4particle); } float gtrack_data[36] = {(float) _ievent, gtrackID, gflavor, ng4hits, gpx, gpy, gpz, gvx, gvy, gvz, gvt, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, trackID, px, py, pz, charge, quality, chisq, ndf, nhits, (float) layers, dca2d, dca2dsigma, pcax, pcay, pcaz, nfromtruth, layersfromtruth }; /* cout << " ievent " << _ievent << " gtrackID " << gtrackID << " gflavor " << gflavor << " ng4hits " << ng4hits << endl; */ _ntp_gtrack->Fill(gtrack_data); } } } //------------------------ // fill the Track NTuple //------------------------ if (_ntp_track) { //cout << "Filling ntp_track " << endl; // need things off of the DST... SvtxTrackMap* trackmap = findNode::getClass<SvtxTrackMap>(topNode,"SvtxTrackMap"); SvtxClusterMap* clustermap = findNode::getClass<SvtxClusterMap>(topNode,"SvtxClusterMap"); if (trackmap) { for (SvtxTrackMap::Iter iter = trackmap->begin(); iter != trackmap->end(); ++iter) { SvtxTrack* track = iter->second; float trackID = track->get_id(); float charge = track->get_charge(); float quality = track->get_quality(); float chisq = track->get_chisq(); float ndf = track->get_ndf(); float nhits = track->size_clusters(); unsigned int layers = 0x0; for (SvtxTrack::ConstClusterIter iter = track->begin_clusters(); iter != track->end_clusters(); ++iter) { unsigned int cluster_id = *iter; SvtxCluster* cluster = clustermap->get(cluster_id); unsigned int layer = cluster->get_layer(); if (layer < 31) layers |= (0x1 << layer); } float dca2d = track->get_dca2d(); float dca2dsigma = track->get_dca2d_error(); float px = track->get_px(); float py = track->get_py(); float pz = track->get_pz(); float pcax = track->get_x(); float pcay = track->get_y(); float pcaz = track->get_z(); float presdphi = track->get_cal_dphi(SvtxTrack::PRES); float presdeta = track->get_cal_deta(SvtxTrack::PRES); float prese3x3 = track->get_cal_energy_3x3(SvtxTrack::PRES); float prese = track->get_cal_cluster_e(SvtxTrack::PRES); float cemcdphi = track->get_cal_dphi(SvtxTrack::CEMC); float cemcdeta = track->get_cal_deta(SvtxTrack::CEMC); float cemce3x3 = track->get_cal_energy_3x3(SvtxTrack::CEMC); float cemce = track->get_cal_cluster_e(SvtxTrack::CEMC); float hcalindphi = track->get_cal_dphi(SvtxTrack::HCALIN); float hcalindeta = track->get_cal_deta(SvtxTrack::HCALIN); float hcaline3x3 = track->get_cal_energy_3x3(SvtxTrack::HCALIN); float hcaline = track->get_cal_cluster_e(SvtxTrack::HCALIN); float hcaloutdphi = track->get_cal_dphi(SvtxTrack::HCALOUT); float hcaloutdeta = track->get_cal_deta(SvtxTrack::HCALOUT); float hcaloute3x3 = track->get_cal_energy_3x3(SvtxTrack::HCALOUT); float hcaloute = track->get_cal_cluster_e(SvtxTrack::HCALOUT); float gtrackID = NAN; float gflavor = NAN; float ng4hits = NAN; float gpx = NAN; float gpy = NAN; float gpz = NAN; float gvx = NAN; float gvy = NAN; float gvz = NAN; float gvt = NAN; float gfpx = NAN; float gfpy = NAN; float gfpz = NAN; float gfx = NAN; float gfy = NAN; float gfz = NAN; float gembed = NAN; float gprimary = NAN; float nfromtruth = NAN; float layersfromtruth = NAN; PHG4Particle* g4particle = trackeval->max_truth_particle_by_nclusters(track); if (g4particle) { if (_scan_for_embedded) { if (trutheval->get_embed(g4particle) == 0) continue; } gtrackID = g4particle->get_track_id(); gflavor = g4particle->get_pid(); std::set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle); ng4hits = g4hits.size(); gpx = g4particle->get_px(); gpy = g4particle->get_py(); gpz = g4particle->get_pz(); PHG4VtxPoint* vtx = trutheval->get_vertex(g4particle); gvx = vtx->get_x(); gvy = vtx->get_y(); gvz = vtx->get_z(); gvt = vtx->get_t(); PHG4Hit* outerhit = trutheval->get_outermost_truth_hit(g4particle); if (outerhit) { gfpx = outerhit->get_px(1); gfpy = outerhit->get_py(1); gfpz = outerhit->get_pz(1); gfx = outerhit->get_x(1); gfy = outerhit->get_y(1); gfz = outerhit->get_z(1); } gembed = trutheval->get_embed(g4particle); gprimary = trutheval->is_primary(g4particle); nfromtruth = trackeval->get_nclusters_contribution(track,g4particle); layersfromtruth = trackeval->get_nclusters_contribution_by_layer(track,g4particle); } float track_data[52] = {(float) _ievent, trackID, px, py, pz, charge, quality, chisq, ndf, nhits, (float) layers, dca2d, dca2dsigma, pcax, pcay, pcaz, presdphi, presdeta, prese3x3, prese, cemcdphi, cemcdeta, cemce3x3, cemce, hcalindphi, hcalindeta, hcaline3x3, hcaline, hcaloutdphi, hcaloutdeta, hcaloute3x3, hcaloute, gtrackID, gflavor, ng4hits, gpx, gpy, gpz, gvx, gvy, gvz, gvt, gfpx, gfpy, gfpz, gfx, gfy, gfz, gembed, gprimary, nfromtruth, layersfromtruth }; /* cout << "ievent " << _ievent << " trackID " << trackID << " nhits " << nhits << " px " << px << " py " << py << " pz " << pz << " gembed " << gembed << " gprimary " << gprimary << endl; */ _ntp_track->Fill(track_data); } } } return; }
int SimpleTrackingAnalysis::process_event(PHCompositeNode *topNode) { // --- This is the class process_event method // --- This is where the bulk of the analysis is done // --- Here we get the various data nodes we need to do the analysis // --- Then we use variables (accessed through class methods) to perform calculations if ( verbosity > -1 ) { cout << endl; cout << "------------------------------------------------------------------------------------" << endl; cout << "Now processing event number " << nevents << endl; // would be good to add verbosity switch } ++nevents; // You may as youtself, why ++nevents (pre-increment) rather // than nevents++ (post-increment)? The short answer is performance. // For simple types it probably doesn't matter, but it can really help // for complex types (like the iterators below). // --- Truth level information PHG4TruthInfoContainer* truthinfo = findNode::getClass<PHG4TruthInfoContainer>(topNode,"G4TruthInfo"); if ( !truthinfo ) { cerr << PHWHERE << " ERROR: Can't find G4TruthInfo" << endl; exit(-1); } // --- SvtxTrackMap SvtxTrackMap* trackmap = findNode::getClass<SvtxTrackMap>(topNode,"SvtxTrackMap"); if ( !trackmap ) { cerr << PHWHERE << " ERROR: Can't find SvtxTrackMap" << endl; exit(-1); } // --- SvtxVertexMap SvtxVertexMap* vertexmap = findNode::getClass<SvtxVertexMap>(topNode,"SvtxVertexMap"); if ( !vertexmap ) { cerr << PHWHERE << " ERROR: Can't find SvtxVertexMap" << endl; exit(-1); } // --- Create SVTX eval stack SvtxEvalStack svtxevalstack(topNode); // --- Get evaluator objects from the eval stack SvtxVertexEval* vertexeval = svtxevalstack.get_vertex_eval(); SvtxTrackEval* trackeval = svtxevalstack.get_track_eval(); SvtxTruthEval* trutheval = svtxevalstack.get_truth_eval(); if ( verbosity > 0 ) cout << "Now going to loop over truth partcles..." << endl; // need verbosity switch // --- Loop over all truth particles PHG4TruthInfoContainer::Range range = truthinfo->GetPrimaryParticleRange(); for ( PHG4TruthInfoContainer::ConstIterator iter = range.first; iter != range.second; ++iter ) { PHG4Particle* g4particle = iter->second; // You may ask yourself, why second? // In C++ the iterator is a map, which has two members // first is the key (analogous the index of an arry), // second is the value (analogous to the value stored for the array index) int particleID = g4particle->get_pid(); if ( trutheval->get_embed(g4particle) <= 0 && fabs(particleID) == 11 && verbosity > 0 ) { cout << "NON EMBEDDED ELECTRON!!! WHEE!!! " << particleID << " " << iter->first << endl; } if ( trutheval->get_embed(g4particle) <= 0 ) continue; // only look at embedded particles // no good for hits files bool iselectron = fabs(particleID) == 11; bool ispion = fabs(particleID) == 211; if ( verbosity > 0 ) cout << "embedded particle ID is " << particleID << " ispion " << ispion << " iselectron " << iselectron << " " << iter->first << endl; set<PHG4Hit*> g4hits = trutheval->all_truth_hits(g4particle); float ng4hits = g4hits.size(); float truept = sqrt(pow(g4particle->get_px(),2)+pow(g4particle->get_py(),2)); float true_energy = g4particle->get_e(); // --- Get the reconsructed SvtxTrack based on the best candidate from the truth info SvtxTrack* track = trackeval->best_track_from(g4particle); if (!track) continue; float recopt = track->get_pt(); float recop = track->get_p(); if ( verbosity > 0 ) { cout << "truept is " << truept << endl; cout << "recopt is " << recopt << endl; cout << "true energy is " << true_energy << endl; } // --- energy variables directly from the track object float emc_energy_track = track->get_cal_energy_3x3(SvtxTrack::CEMC); float hci_energy_track = track->get_cal_energy_3x3(SvtxTrack::HCALIN); float hco_energy_track = track->get_cal_energy_3x3(SvtxTrack::HCALOUT); if ( verbosity > 0 ) { cout << "emc_energy_track is " << emc_energy_track << endl; cout << "hci_energy_track is " << hci_energy_track << endl; cout << "hco_energy_track is " << hco_energy_track << endl; } // ------------------------------------------------------------------------------------- // --- IMPORTANT NOTE: according to Jin, dphi and deta will not work correctly in HIJING float emc_dphi_track = track->get_cal_dphi(SvtxTrack::CEMC); float hci_dphi_track = track->get_cal_dphi(SvtxTrack::HCALIN); float hco_dphi_track = track->get_cal_dphi(SvtxTrack::HCALOUT); float emc_deta_track = track->get_cal_deta(SvtxTrack::CEMC); float hci_deta_track = track->get_cal_deta(SvtxTrack::HCALIN); float hco_deta_track = track->get_cal_deta(SvtxTrack::HCALOUT); float assoc_dphi = 0.1; // adjust as needed, consider class set method float assoc_deta = 0.1; // adjust as needed, consider class set method bool good_emc_assoc = fabs(emc_dphi_track) < assoc_dphi && fabs(emc_deta_track) < assoc_deta; bool good_hci_assoc = fabs(hci_dphi_track) < assoc_dphi && fabs(hci_deta_track) < assoc_deta; bool good_hco_assoc = fabs(hco_dphi_track) < assoc_dphi && fabs(hco_deta_track) < assoc_deta; // ------------------------------------------------------------------------------------------ float hct_energy_track = 0; if ( hci_energy_track >= 0 ) hct_energy_track += hci_energy_track; if ( hco_energy_track >= 0 ) hct_energy_track += hco_energy_track; float total_energy_dumb = 0; if ( emc_energy_track >= 0 ) total_energy_dumb += emc_energy_track; if ( hci_energy_track >= 0 ) total_energy_dumb += hci_energy_track; if ( hco_energy_track >= 0 ) total_energy_dumb += hco_energy_track; float total_energy_smart = 0; if ( good_emc_assoc ) total_energy_smart += emc_energy_track; if ( good_hci_assoc ) total_energy_smart += hci_energy_track; if ( good_hco_assoc ) total_energy_smart += hco_energy_track; // ---------------------------------------------------------------------- // ---------------------------------------------------------------------- // ---------------------------------------------------------------------- //cout << "starting the main part of the truth analysis" << endl; // examine truth particles that leave all (7 or 8 depending on design) detector hits if ( ng4hits == nlayers ) { _truept_particles_leavingAllHits->Fill(truept); unsigned int nfromtruth = trackeval->get_nclusters_contribution(track,g4particle); unsigned int ndiff = abs((int)nfromtruth-(int)nlayers); if ( ndiff <= 2 ) _truept_particles_recoWithin2Hits->Fill(truept); if ( ndiff <= 1 ) _truept_particles_recoWithin1Hit->Fill(truept); if ( ndiff == 0 ) _truept_particles_recoWithExactHits->Fill(truept); float diff = fabs(recopt-truept)/truept; if ( diff < 0.05 ) _truept_particles_recoWithin5Percent->Fill(truept); if ( diff < 0.04 ) { _truept_particles_recoWithin4Percent->Fill(truept); _truept_quality_particles_recoWithin4Percent->Fill(truept,track->get_quality()); } if ( diff < 0.03 ) _truept_particles_recoWithin3Percent->Fill(truept); double good_energy = total_energy_dumb - 3.14; double eoverp = good_energy/recop; double sigmapt = 0.011 + 0.0008*recopt; th2d_truept_particles_withcalocuts_leavingAllHits->Fill(truept,eoverp); if ( ndiff <= 2 ) th2d_truept_particles_withcalocuts_recoWithin2Hits->Fill(truept,eoverp); if ( ndiff <= 1 ) th2d_truept_particles_withcalocuts_recoWithin1Hit->Fill(truept,eoverp); if ( ndiff == 0 ) th2d_truept_particles_withcalocuts_recoWithExactHits->Fill(truept,eoverp); if ( diff < 0.05 ) th2d_truept_particles_withcalocuts_recoWithin5Percent->Fill(truept,eoverp); if ( diff < 0.04 ) th2d_truept_particles_withcalocuts_recoWithin4Percent->Fill(truept,eoverp); if ( diff < 0.03 ) th2d_truept_particles_withcalocuts_recoWithin3Percent->Fill(truept,eoverp); if ( diff < 1.0*sigmapt ) th2d_truept_particles_withcalocuts_recoWithin1Sigma->Fill(recopt,eoverp); if ( diff < 2.0*sigmapt ) th2d_truept_particles_withcalocuts_recoWithin2Sigma->Fill(recopt,eoverp); if ( diff < 3.0*sigmapt ) th2d_truept_particles_withcalocuts_recoWithin3Sigma->Fill(recopt,eoverp); } // end of requirement of ng4hits == nlayers } // end of loop over truth particles // loop over all reco particles int ntracks = 0; for ( SvtxTrackMap::Iter iter = trackmap->begin(); iter != trackmap->end(); ++iter ) { // --- Get the StxTrack object (from the iterator) SvtxTrack* track = iter->second; float recopt = track->get_pt(); float recop = track->get_p(); // --- Get the truth particle from the evaluator PHG4Particle* g4particle = trackeval->max_truth_particle_by_nclusters(track); float truept = sqrt(pow(g4particle->get_px(),2)+pow(g4particle->get_py(),2)); int particleID = g4particle->get_pid(); if ( verbosity > 5 ) cout << "particle ID is " << particleID << endl; bool iselectron = fabs(particleID) == 11; bool ispion = fabs(particleID) == 211; // --------------------- // --- calorimeter stuff // --------------------- // --- get the energy values directly from the track float emc_energy_track = track->get_cal_energy_3x3(SvtxTrack::CEMC); float hci_energy_track = track->get_cal_energy_3x3(SvtxTrack::HCALIN); float hco_energy_track = track->get_cal_energy_3x3(SvtxTrack::HCALOUT); float total_energy = 0; if ( emc_energy_track > 0 ) total_energy += emc_energy_track; if ( hci_energy_track > 0 ) total_energy += hci_energy_track; if ( hco_energy_track > 0 ) total_energy += hco_energy_track; if ( verbosity > 2 ) cout << "total calo energy is " << total_energy << endl; if (trutheval->get_embed(g4particle) > 0) { // embedded results (quality or performance measures) _truept_dptoverpt->Fill(truept,(recopt-truept)/truept); _truept_dca->Fill(truept,track->get_dca2d()); _recopt_quality->Fill(recopt,track->get_quality()); if ( verbosity > 0 ) cout << "embedded particle ID is " << particleID << " ispion " << ispion << " iselectron " << iselectron << endl; // --- } // end if (embedded results) else { // electron and pion (hadron) id // non-embedded results (purity measures) _recopt_tracks_all->Fill(recopt); _recopt_quality_tracks_all->Fill(recopt,track->get_quality()); unsigned int nfromtruth = trackeval->get_nclusters_contribution(track,g4particle); unsigned int ndiff = abs((int)nfromtruth-(int)nlayers); if ( ndiff <= 2 ) _recopt_tracks_recoWithin2Hits->Fill(recopt); if ( ndiff <= 1 ) _recopt_tracks_recoWithin1Hit->Fill(recopt); if ( ndiff == 0 ) _recopt_tracks_recoWithExactHits->Fill(recopt); float diff = fabs(recopt-truept)/truept; if ( diff < 0.05 ) _recopt_tracks_recoWithin5Percent->Fill(recopt); if ( diff < 0.04 ) { _recopt_tracks_recoWithin4Percent->Fill(recopt); _recopt_quality_tracks_recoWithin4Percent->Fill(recopt,track->get_quality()); } if ( diff < 0.03 ) _recopt_tracks_recoWithin3Percent->Fill(recopt); // -------------------------------------- // --- same but now with calorimeter cuts // -------------------------------------- double good_energy = total_energy - 3.14; double eoverp = good_energy/recop; double sigmapt = 0.011 + 0.0008*recopt; th2d_recopt_tracks_withcalocuts_all->Fill(recopt,eoverp); if ( ndiff <= 2 ) th2d_recopt_tracks_withcalocuts_recoWithin2Hits->Fill(recopt,eoverp); if ( ndiff <= 1 ) th2d_recopt_tracks_withcalocuts_recoWithin1Hit->Fill(recopt,eoverp); if ( ndiff == 0 ) th2d_recopt_tracks_withcalocuts_recoWithExactHits->Fill(recopt,eoverp); if ( diff < 0.05 ) th2d_recopt_tracks_withcalocuts_recoWithin5Percent->Fill(recopt,eoverp); if ( diff < 0.04 ) th2d_recopt_tracks_withcalocuts_recoWithin4Percent->Fill(recopt,eoverp); if ( diff < 0.03 ) th2d_recopt_tracks_withcalocuts_recoWithin3Percent->Fill(recopt,eoverp); if ( diff < 1.0*sigmapt ) th2d_recopt_tracks_withcalocuts_recoWithin1Sigma->Fill(recopt,eoverp); if ( diff < 2.0*sigmapt ) th2d_recopt_tracks_withcalocuts_recoWithin2Sigma->Fill(recopt,eoverp); if ( diff < 3.0*sigmapt ) th2d_recopt_tracks_withcalocuts_recoWithin3Sigma->Fill(recopt,eoverp); // --- done with reco tracks } // else (non-embedded results) ++ntracks; } // loop over reco tracks hmult->Fill(ntracks); // --- Get the leading vertex SvtxVertex* maxvertex = NULL; unsigned int maxtracks = 0; for ( SvtxVertexMap::Iter iter = vertexmap->begin(); iter != vertexmap->end(); ++iter ) { SvtxVertex* vertex = iter->second; if ( vertex->size_tracks() > maxtracks ) { maxvertex = vertex; maxtracks = vertex->size_tracks(); } } if ( !maxvertex ) { cerr << PHWHERE << " ERROR: cannot get reconstructed vertex (event number " << nevents << ")" << endl; ++nerrors; return Fun4AllReturnCodes::DISCARDEVENT; } // --- Get the coordinates for the vertex from the evaluator PHG4VtxPoint* point = vertexeval->max_truth_point_by_ntracks(maxvertex); if ( !point ) { cerr << PHWHERE << " ERROR: cannot get truth vertex (event number " << nevents << ")" << endl; ++nerrors; return Fun4AllReturnCodes::DISCARDEVENT; } _dx_vertex->Fill(maxvertex->get_x() - point->get_x()); _dy_vertex->Fill(maxvertex->get_y() - point->get_y()); _dz_vertex->Fill(maxvertex->get_z() - point->get_z()); hmult_vertex->Fill(ntracks); return Fun4AllReturnCodes::EVENT_OK; }