diff --git a/PWGJE/Tasks/jetD0AngSubstructure.cxx b/PWGJE/Tasks/jetD0AngSubstructure.cxx index 9650d7ea4bb..28806e838f7 100644 --- a/PWGJE/Tasks/jetD0AngSubstructure.cxx +++ b/PWGJE/Tasks/jetD0AngSubstructure.cxx @@ -8,36 +8,43 @@ // In applying this license CERN does not waive the privileges and immunities // granted to it by virtue of its status as an Intergovernmental Organization // or submit itself to any jurisdiction. +/// +/// \file JetD0AngSubstructure.cxx +/// \brief Analysis task for the reconstruction and study of charged jets containing D_0 mesons in pp collisions. The code is partially inherited from hfFragmentationFunction.cxx. +/// +/// \author P. Dhankher +/// \author L.J. Huisman // -// \file JetD0AngSubstructure.cxx -// -// \brief Analysis task for the reconstruction and study of charged jets -// containing D_0 mesons in pp collisions. -// \inherited from D0 fragmentation and Ds -// \P. Dhankher - -#include "PWGJE/Core/JetDerivedDataUtilities.h" -#include "PWGJE/Core/JetUtilities.h" -#include "PWGJE/DataModel/Jet.h" - #include #include -#include #include #include #include +#include #include #include #include #include - +// +#include +// +#include +#include +#include +#include +#include +// +#include +// +#include +// #include - +// #include #include #include #include - +// using namespace o2; using namespace o2::framework; using namespace o2::framework::expressions; @@ -45,65 +52,276 @@ using namespace o2::framework::expressions; // Definition of a custom AOD table to store jet–D0 quantities namespace o2::aod { -namespace jet_obj -{ +/* // Jet-related quantities -DECLARE_SOA_COLUMN(JetHfDist, jetHfDist, float); -DECLARE_SOA_COLUMN(JetPt, jetPt, float); -DECLARE_SOA_COLUMN(JetEta, jetEta, float); -DECLARE_SOA_COLUMN(JetPhi, jetPhi, float); -DECLARE_SOA_COLUMN(JetNConst, jetNConst, int); -DECLARE_SOA_COLUMN(JetAng, jetAng, float); +*/ +DECLARE_SOA_COLUMN(ExpJetHfDist, expJetHfDist, float); +DECLARE_SOA_COLUMN(ExpJetPt, expJetPt, float); +DECLARE_SOA_COLUMN(ExpJetEta, expJetEta, float); +DECLARE_SOA_COLUMN(ExpJetPhi, expJetPhi, float); +DECLARE_SOA_COLUMN(ExpJetNConst, expJetNConst, int); +DECLARE_SOA_COLUMN(ExpJetAng, expJetAng, float); // D0 candidate quantities -DECLARE_SOA_COLUMN(HfPt, hfPt, float); -DECLARE_SOA_COLUMN(HfEta, hfEta, float); -DECLARE_SOA_COLUMN(HfPhi, hfPhi, float); -DECLARE_SOA_COLUMN(HfMass, hfMass, float); -DECLARE_SOA_COLUMN(HfY, hfY, float); +DECLARE_SOA_COLUMN(ExpHfPt, expHfPt, float); +DECLARE_SOA_COLUMN(ExpHfEta, expHfEta, float); +DECLARE_SOA_COLUMN(ExpHfPhi, expHfPhi, float); +DECLARE_SOA_COLUMN(ExpHfMass, expHfMass, float); +DECLARE_SOA_COLUMN(ExpHfY, expHfY, float); +// ML scores +DECLARE_SOA_COLUMN(ExpHfMlScore0, expHfMlScore0, float); +DECLARE_SOA_COLUMN(ExpHfMlScore1, expHfMlScore1, float); +DECLARE_SOA_COLUMN(ExpHfMlScore2, expHfMlScore2, float); + +/* +// MCP quantities (Particle Level) +*/ +// Jets +DECLARE_SOA_COLUMN(McpJetHfDist, mcpJetHfDist, float); +DECLARE_SOA_COLUMN(McpJetPt, mcpJetPt, float); +DECLARE_SOA_COLUMN(McpJetEta, mcpJetEta, float); +DECLARE_SOA_COLUMN(McpJetPhi, mcpJetPhi, float); +DECLARE_SOA_COLUMN(McpJetNConst, mcpJetNConst, float); +DECLARE_SOA_COLUMN(McpJetAng, mcpJetAng, float); +// D0 candidates (Heavy Flavour) +DECLARE_SOA_COLUMN(McpHfPt, mcpHfPt, float); +DECLARE_SOA_COLUMN(McpHfEta, mcpHfEta, float); +DECLARE_SOA_COLUMN(McpHfPhi, mcpHfPhi, float); +// DECLARE_SOA_COLUMN(HfMass,mcpHfMass, float); +DECLARE_SOA_COLUMN(McpHfY, mcpHfY, float); +DECLARE_SOA_COLUMN(McpHfPrompt, mcpHfPrompt, bool); +DECLARE_SOA_COLUMN(McpHfMatch, mcpHfMatch, bool); + +/* +// MCD quantities (Detector Level) +*/ +// Jets +DECLARE_SOA_COLUMN(McdJetHfDist, mcdJetHfDist, float); +DECLARE_SOA_COLUMN(McdJetPt, mcdJetPt, float); +DECLARE_SOA_COLUMN(McdJetEta, mcdJetEta, float); +DECLARE_SOA_COLUMN(McdJetPhi, mcdJetPhi, float); +DECLARE_SOA_COLUMN(McdJetNConst, mcdJetNConst, float); +DECLARE_SOA_COLUMN(McdJetAng, mcdJetAng, float); +// D0 candidates (Heavy Flavour) +DECLARE_SOA_COLUMN(McdHfPt, mcdHfPt, float); +DECLARE_SOA_COLUMN(McdHfEta, mcdHfEta, float); +DECLARE_SOA_COLUMN(McdHfPhi, mcdHfPhi, float); +DECLARE_SOA_COLUMN(McdHfMass, mcdHfMass, float); +DECLARE_SOA_COLUMN(McdHfY, mcdHfY, float); +DECLARE_SOA_COLUMN(McdHfPrompt, mcdHfPrompt, bool); +DECLARE_SOA_COLUMN(McdHfMatch, mcdHfMatch, bool); +// Other +DECLARE_SOA_COLUMN(McdHfMatchedFrom, mcdHfMatchedFrom, int); +DECLARE_SOA_COLUMN(McdHfSelectedAs, mcdHfSelectedAs, int); // ML scores -DECLARE_SOA_COLUMN(HfMlScore0, hfMlScore0, float); -DECLARE_SOA_COLUMN(HfMlScore1, hfMlScore1, float); -DECLARE_SOA_COLUMN(HfMlScore2, hfMlScore2, float); -} // namespace jet_obj +DECLARE_SOA_COLUMN(McdHfMlScore0, mcdHfMlScore0, float); +DECLARE_SOA_COLUMN(McdHfMlScore1, mcdHfMlScore1, float); +DECLARE_SOA_COLUMN(McdHfMlScore2, mcdHfMlScore2, float); + +/* // AOD table definition -DECLARE_SOA_TABLE(JetObjTable, "AOD", "JETOBJTABLE", - jet_obj::JetHfDist, - jet_obj::JetPt, - jet_obj::JetEta, - jet_obj::JetPhi, - jet_obj::JetNConst, - jet_obj::JetAng, - jet_obj::HfPt, - jet_obj::HfEta, - jet_obj::HfPhi, - jet_obj::HfMass, - jet_obj::HfY, - jet_obj::HfMlScore0, - jet_obj::HfMlScore1, - jet_obj::HfMlScore2); +*/ +DECLARE_SOA_TABLE(EXPJetObjTable, "AOD", "EXPJETOBJTABLE", + ExpJetHfDist, + ExpJetPt, + ExpJetEta, + ExpJetPhi, + ExpJetNConst, + ExpJetAng, + ExpHfPt, + ExpHfEta, + ExpHfPhi, + ExpHfMass, + ExpHfY, + ExpHfMlScore0, + ExpHfMlScore1, + ExpHfMlScore2); + +DECLARE_SOA_TABLE(MCPJetObjTable, "AOD", "MCPJETOBJTABLE", + McpJetHfDist, + McpJetPt, + McpJetEta, + McpJetPhi, + McpJetNConst, + McpJetAng, + McpHfPt, + McpHfEta, + McpHfPhi, + McpHfY, + McpHfPrompt, + McpHfMatch); + +DECLARE_SOA_TABLE(MCDJetObjTable, "AOD", "MCDJETOBJTABLE", + McdJetHfDist, + McdJetPt, + McdJetEta, + McdJetPhi, + McdJetNConst, + McdJetAng, + McdHfPt, + McdHfEta, + McdHfPhi, + McdHfMass, + McdHfY, + McdHfPrompt, + McdHfMatch, + McdHfMlScore0, + McdHfMlScore1, + McdHfMlScore2, + McdHfMatchedFrom, + McdHfSelectedAs); + +DECLARE_SOA_TABLE(MatchJetDistanceTable, "AOD", "MATCHTABLE", + McpJetHfDist, + McpJetPt, + McpJetEta, + McpJetPhi, + McpJetNConst, + McpJetAng, + McpHfPt, + McpHfEta, + McpHfPhi, + McpHfY, + McpHfPrompt, + McdJetHfDist, + McdJetPt, + McdJetEta, + McdJetPhi, + McdJetNConst, + McdJetAng, + McdHfPt, + McdHfEta, + McdHfPhi, + McdHfMass, + McdHfY, + McdHfPrompt, + McdHfMlScore0, + McdHfMlScore1, + McdHfMlScore2, + McdHfMatchedFrom, + McdHfSelectedAs); + } // namespace o2::aod + +// Helps to avoid typos in histogram names when using the "HIST" macro +/* +hf(l): Heavy flavour +ex(p): Experimental data (detector level) +mcd: Monte Carlo data (detector level) +mcp: Monte Carlo data (particle level) +*/ +namespace histnames +{ +#define HNAME(Name) constexpr const char* Name = #Name; +/* +// Experimental Data (analyseDataChargedSubstructure) +*/ +HNAME(ex_col); // Collision Counter +HNAME(ex_jet); // Jet Counter +HNAME(ex_jet_pt); // Jet pT +HNAME(ex_jet_eta); // Jet eta +HNAME(ex_jet_phi); // Jet phi +HNAME(ex_jet_ang); // Jet angularity +HNAME(ex_jet_proj); // Projection of HF candidate momentum on jet axis +HNAME(ex_jet_dist); // Jet–HF candidate angular distance +HNAME(ex_jet_dist_proj); // Jet–HF candidate distance vs projection +HNAME(ex_hfl_pt); // HF candidate pT +HNAME(ex_hfl_mass); // HF candidate mass +HNAME(ex_hfl_eta); // HF candidate eta +HNAME(ex_hfl_phi); // HF candidate phi +/* +// Monte Carlo Data Efficiency (analyseMonteCarloEfficiency) +*/ +HNAME(mc_eff_col); // Collision Counter +HNAME(mc_eff_jet); // Jet Counter +HNAME(mc_eff_det_jet_pt); // Detector level jet pT +HNAME(mc_eff_det_jet_eta); // Detector level jet eta +HNAME(mc_eff_det_jet_phi); // Detector level jet phi +HNAME(mc_eff_det_jet_ang); // Detector level jet angularity +HNAME(mc_eff_det_hfl_pt); // Detector level HF candidate pT +HNAME(mc_eff_det_hfl_mass); // Detector level HF candidate mass +HNAME(mc_eff_det_hfl_eta); // Detector level HF candidate eta +HNAME(mc_eff_det_hfl_phi); // Detector level HF candidate phi +HNAME(mc_eff_par_jet_pt); // Particle level jet pT +HNAME(mc_eff_par_jet_eta); // Particle level jet eta +HNAME(mc_eff_par_jet_phi); // Particle level jet phi +HNAME(mc_eff_par_jet_ang); // Particle level jet angularity +HNAME(mc_eff_par_hfl_pt); // Particle level HF candidate pT +// HNAME(mc_eff_par_hfl_mass); // Particle level HF candidate mass -> PDG value +HNAME(mc_eff_par_hfl_eta); // Particle level HF candidate eta +HNAME(mc_eff_par_hfl_phi); // Particle level HF candidate phi +/* +// Monte Carlo Data Matching (analyseMonteCarlo) +*/ +HNAME(mc_col); // Collision Counter +HNAME(mc_jet); // Jet Counter +HNAME(mc_det_jet_pt); // Detector level jet pT +HNAME(mc_det_jet_eta); // Detector level jet eta +HNAME(mc_det_jet_phi); // Detector level jet phi +HNAME(mc_det_jet_ang); // Detector level jet angularity +HNAME(mc_det_hfl_pt); // Detector level HF candidate pT (matched) +HNAME(mc_det_hfl_mass); // Detector level HF candidate mass (matched) +HNAME(mc_det_hfl_eta); // Detector level HF candidate eta (matched) +HNAME(mc_det_hfl_phi); // Detector level HF candidate phi (matched) +// HNAME(mc_par_jet_pt); // Particle level jet pT +// HNAME(mc_par_jet_eta); // Particle level jet eta +// HNAME(mc_par_jet_phi); // Particle level jet phi +// HNAME(mc_par_jet_ang); // Particle level jet angularity +// HNAME(mc_par_hfl_pt); // Particle level HF candidate pT +// HNAME(mc_par_hfl_mass); // Particle level HF candidate mass -> PDG value +// HNAME(mc_par_hfl_eta); // Particle level HF candidate eta +// HNAME(mc_par_hfl_phi); // Particle level HF candidate phi + +#undef HNAME +} // namespace histnames + +consteval float getValFromBin(int bin) +{ + return static_cast(bin) - 0.5f; +} + +enum BIN_EX_COLCNTR { + AllCollisions = 1, + Sel8ZCut = 2 +}; + +enum BIN_EX_JETCNTR { + ChargedJets = 1 +}; +enum BIN_MC_COLCNTR { + All = 1, + ZCut = 2, + Matched = 3, + MatchedSel8ZCut = 4 +}; + +enum BIN_MC_JETCNTR { + DetectorLevelJetInMCCollision = 1, + ParticleLevelJetInMCCollision = 2, + DetectorLevelJetWithMatchedCandidate = 3, + ParticleLevelJetWithMatchedCandidate = 4 +}; + struct JetD0AngSubstructure { - /** - * Histogram registry - * - * Contains: - * - Event and track histograms - * - Jet kinematic distributions - * - D0–jet substructure observables - */ - HistogramRegistry registry{"registry", - {{"h_collision_counter", "# of collisions;", {HistType::kTH1F, {{2, 0., 2.}}}}, - {"h_jet_counter", ";# of D^{0} jets;", {HistType::kTH1F, {{6, 0., 3.0}}}}, - {"h_d0_jet_projection", ";z^{D^{0},jet}_{||};dN/dz^{D^{0},jet}_{||}", {HistType::kTH1F, {{1000, 0., 10.}}}}, - {"h_d0_jet_distance_vs_projection", ";#DeltaR_{D^{0},jet};z^{D^{0},jet}_{||}", {HistType::kTH2F, {{1000, 0., 10.}, {1000, 0., 10.}}}}, - {"h_d0_jet_distance", ";#DeltaR_{D^{0},jet};dN/d(#DeltaR)", {HistType::kTH1F, {{1000, 0., 10.}}}}, - {"h_d0_jet_pt", ";p_{T,D^{0} jet};dN/dp_{T,D^{0} jet}", {HistType::kTH1F, {{200, 0., 10.}}}}, - {"h_d0_jet_eta", ";#eta_{T,D^{0} jet};dN/d#eta_{D^{0} jet}", {HistType::kTH1F, {{250, -5., 5.}}}}, - {"h_d0_jet_phi", ";#phi_{T,D^{0} jet};dN/d#phi_{D^{0} jet}", {HistType::kTH1F, {{250, -10., 10.}}}}, - {"h_d0_mass", ";m_{D^{0}});dN/dm_{D^{0}}", {HistType::kTH1F, {{1000, 0., 10.}}}}, - {"h_d0_eta", ";#eta_{D^{0}});dN/d#eta_{D_{}}", {HistType::kTH1F, {{250, -5., 5.}}}}, - {"h_d0_phi", ";#phi_{D^{0}});dN/d#phi_{D^{0}}", {HistType::kTH1F, {{250, -10., 10.}}}}, - {"h_d0_ang", ";#lambda_{#kappa}^{#alpha};counts", {HistType::kTH1F, {{100, 0., 1.}}}}}}; + + // Output table producer + Produces objJetTable; + Produces mcdJetTable; + Produces mcpJetTable; + Produces matchJetTable; + // + using JetChargedTableD0 = soa::Join; + // MC Matching Tables + using JetD0MCDTable = soa::Join; + using JetD0MCPTable = soa::Join; + // Type Aliases for the constituent jets in the table (to be used for angularity calculation) + using JetD0MCDTableConstituent = JetD0MCDTable::iterator; + using JetD0MCPTableConstituent = JetD0MCPTable::iterator; + // Slices for access to proper HF MCD jet collision that is associated to MCCollision + PresliceUnsorted collisionsPerMCCollisionPreslice = aod::jmccollisionlb::mcCollisionId; + Preslice d0MCDJetsPerEXPCollisionPreslice = aod::jet::collisionId; + Preslice d0MCPJetsPerMCCollisionPreslice = aod::jet::mcCollisionId; + + HistogramRegistry registryD0{"registryD0", {}}; // Configurables Configurable vertexZCut{"vertexZCut", 10.0f, "Accepted z-vertex range"}; @@ -119,48 +337,155 @@ struct JetD0AngSubstructure { std::vector eventSelectionBits; int trackSelection = -1; - // Output table producer - Produces ObjJetTable; - - float angularity; - void init(o2::framework::InitContext&) { eventSelectionBits = jetderiveddatautilities::initialiseEventSelectionBits(static_cast(eventSelections)); trackSelection = jetderiveddatautilities::initialiseTrackSelection(static_cast(trackSelections)); + addHistograms(); } + void addHistograms() + { + /* + // Experimental Data Histograms + */ + // Definitions + registryD0.add(histnames::ex_col, "N_{coll};", {HistType::kTH1F, {{2, 0., 2.}}}); + registryD0.add(histnames::ex_jet, "N_{jet};", {HistType::kTH1F, {{1, 0., 1.0}}}); + registryD0.add(histnames::ex_jet_pt, ";p_{T,jet};dN/dp_{T,jet}", {HistType::kTH1F, {{1000, 0., 50.}}}); + registryD0.add(histnames::ex_jet_eta, ";#eta_{jet};dN/d#eta_{jet}", {HistType::kTH1F, {{250, -5., 5.}}}); + registryD0.add(histnames::ex_jet_phi, ";#phi_{jet};dN/d#phi_{jet}", {HistType::kTH1F, {{250, -10., 10.}}}); + registryD0.add(histnames::ex_jet_ang, ";angularity_{jet};dN/d(angularity)", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::ex_jet_dist, ";#DeltaR_{D^{0},jet};dN/d(#DeltaR)", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::ex_jet_dist_proj, ";#DeltaR_{D^{0},jet};z^{D^{0},jet}_{||}", {HistType::kTH2F, {{1000, 0., 10.}, {1000, 0., 10.}}}); + registryD0.add(histnames::ex_jet_proj, ";z^{D^{0},jet}_{||};dN/dz^{D^{0},jet}_{||}", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::ex_hfl_pt, ";p_{T,D^{0}};dN/dp_{T,D^{0}}", {HistType::kTH1F, {{200, 0., 10.}}}); + registryD0.add(histnames::ex_hfl_mass, ";m_{D^{0}};dN/dm_{D^{0}}", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::ex_hfl_eta, ";#eta_{D^{0}};dN/d#eta_{D^{0}}", {HistType::kTH1F, {{250, -5., 5.}}}); + registryD0.add(histnames::ex_hfl_phi, ";#phi_{D^{0}};dN/d#phi_{D^{0}}", {HistType::kTH1F, {{250, -10., 10.}}}); + // Labels + auto expCollisionCounter = registryD0.get(HIST(histnames::ex_col)); + expCollisionCounter->GetXaxis()->SetBinLabel(BIN_EX_COLCNTR::AllCollisions, "all"); + expCollisionCounter->GetXaxis()->SetBinLabel(BIN_EX_COLCNTR::Sel8ZCut, "sel8 + zcut"); + + auto expJetCounter = registryD0.get(HIST(histnames::ex_jet)); + expJetCounter->GetXaxis()->SetBinLabel(BIN_EX_JETCNTR::ChargedJets, "Charged jets with D0"); + /* + // Monte Carlo Data Efficiency Histograms + */ + // Definitions + registryD0.add(histnames::mc_eff_col, "N_{coll};", {HistType::kTH1F, {{4, 0., 4.0}}}); + registryD0.add(histnames::mc_eff_jet, "N_{jet};", {HistType::kTH1F, {{4, 0., 4.0}}}); + registryD0.add(histnames::mc_eff_det_jet_pt, ";p_{T,det jet};dN/dp_{T,det jet}", {HistType::kTH1F, {{1000, 0., 50.}}}); + registryD0.add(histnames::mc_eff_det_jet_eta, ";#eta_{det jet};dN/d#eta_{det jet}", {HistType::kTH1F, {{250, -5., 5.}}}); + registryD0.add(histnames::mc_eff_det_jet_phi, ";#phi_{det jet};dN/d#phi_{det jet}", {HistType::kTH1F, {{250, -10., 10.}}}); + registryD0.add(histnames::mc_eff_det_jet_ang, ";angularity_{det jet};dN/d(angularity)", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::mc_eff_det_hfl_pt, ";p_{T,det D^{0}};dN/dp_{T,det D^{0}}", {HistType::kTH1F, {{200, 0., 10.}}}); + registryD0.add(histnames::mc_eff_det_hfl_mass, ";m_{det D^{0}};dN/dm_{det D^{0}}", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::mc_eff_det_hfl_eta, ";#eta_{det D^{0}};dN/d#eta_{det D^{0}}", {HistType::kTH1F, {{250, -5., 5.}}}); + registryD0.add(histnames::mc_eff_det_hfl_phi, ";#phi_{det D^{0}};dN/d#phi_{det D^{0}}", {HistType::kTH1F, {{250, -10., 10.}}}); + // Labels + auto mcCollisionCounter = registryD0.get(HIST(histnames::mc_eff_col)); + mcCollisionCounter->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::All, "mccollisions"); + mcCollisionCounter->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::ZCut, "z_cut"); + mcCollisionCounter->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::Matched, "collisions"); + mcCollisionCounter->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::MatchedSel8ZCut, "sel8"); + + auto jetCounter = registryD0.get(HIST(histnames::mc_eff_jet)); + jetCounter->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::ParticleLevelJetInMCCollision, "particle level"); + jetCounter->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::DetectorLevelJetInMCCollision, "detector level"); + jetCounter->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::DetectorLevelJetWithMatchedCandidate, "particle matched jets"); + jetCounter->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::ParticleLevelJetWithMatchedCandidate, "detector matched jets"); + /* + // Monte Carlo Data Histograms + */ + registryD0.add(histnames::mc_col, "N_{coll};", {HistType::kTH1F, {{4, 0., 4.0}}}); + registryD0.add(histnames::mc_jet, "N_{jet};", {HistType::kTH1F, {{4, 0., 4.0}}}); + registryD0.add(histnames::mc_det_jet_pt, ";p_{T,det jet};dN/dp_{T,det jet}", {HistType::kTH1F, {{1000, 0., 50.}}}); + registryD0.add(histnames::mc_det_jet_eta, ";#eta_{det jet};dN/d#eta_{det jet}", {HistType::kTH1F, {{250, -5., 5.}}}); + registryD0.add(histnames::mc_det_jet_phi, ";#phi_{det jet};dN/d#phi_{det jet}", {HistType::kTH1F, {{250, -10., 10.}}}); + registryD0.add(histnames::mc_det_jet_ang, ";angularity_{det jet};dN/d(angularity)", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::mc_det_hfl_pt, ";p_{T,det D^{0}};dN/dp_{T,det D^{0}}", {HistType::kTH1F, {{200, 0., 10.}}}); + registryD0.add(histnames::mc_det_hfl_mass, ";m_{det D^{0}};dN/dm_{det D^{0}}", {HistType::kTH1F, {{1000, 0., 10.}}}); + registryD0.add(histnames::mc_det_hfl_eta, ";#eta_{det D^{0}};dN/d#eta_{det D^{0}}", {HistType::kTH1F, {{250, -5., 5.}}}); + registryD0.add(histnames::mc_det_hfl_phi, ";#phi_{det D^{0}};dN/d#phi_{det D^{0}}", {HistType::kTH1F, {{250, -10., 10.}}}); + // Labels + auto mcCollisionCounter2 = registryD0.get(HIST(histnames::mc_col)); + mcCollisionCounter2->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::All, "mccollisions"); + mcCollisionCounter2->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::ZCut, "z_cut"); + mcCollisionCounter2->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::Matched, "collisions"); + mcCollisionCounter2->GetXaxis()->SetBinLabel(BIN_MC_COLCNTR::MatchedSel8ZCut, "sel8"); + + auto jetCounter2 = registryD0.get(HIST(histnames::mc_jet)); + jetCounter2->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::DetectorLevelJetInMCCollision, "detector level"); + jetCounter2->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::ParticleLevelJetInMCCollision, "particle level"); + jetCounter2->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::DetectorLevelJetWithMatchedCandidate, "particle matched jets"); + jetCounter2->GetXaxis()->SetBinLabel(BIN_MC_JETCNTR::ParticleLevelJetWithMatchedCandidate, "detector matched jets"); + }; + template - void jetCalculateAngularity(T const& jet, U const& /*tracks*/) + float jetCalculateAngularityEXP(T const& jet, U const& /*tracks*/) + { + float tAngularity = 0.0; + for (const auto& constituent : jet.template tracks_as()) { + tAngularity += std::pow(constituent.pt(), kappa) * std::pow(jetutilities::deltaR(jet, constituent) / (jet.r() / 100.f), alpha); + } + tAngularity /= std::pow(jet.pt(), kappa); + return tAngularity; + } + + template + float jetCalculateAngularityMCD( + JetTableMCDConstituent const& jet, + aod::JetTracks const& tracks) + { + float a = 0.f; + for (const auto& id : jet.tracksIds()) { + const auto trk = tracks.iteratorAt(id); + a += std::pow(trk.pt(), kappa) * + std::pow(jetutilities::deltaR(jet, trk) / (jet.r() / 100.f), alpha); + } + return a / std::pow(jet.pt(), kappa); + } + + template + float jetCalculateAngularityMCP( + JetTableMCPConstituent const& jet, + aod::JetParticles const& particles) { - angularity = 0.0; - for (auto& constituent : jet.template tracks_as()) { - angularity += std::pow(constituent.pt(), kappa) * std::pow(jetutilities::deltaR(jet, constituent) / (jet.r() / 100.f), alpha); + float a = 0.f; + for (const auto& id : jet.tracksIds()) { + const auto p = particles.iteratorAt(id); + a += std::pow(p.pt(), kappa) * + std::pow(jetutilities::deltaR(jet, p) / (jet.r() / 100.f), alpha); } - angularity /= std::pow(jet.pt(), kappa); + return a / std::pow(jet.pt(), kappa); } - void processDataChargedSubstructure(aod::JetCollision const& collision, - soa::Join const& jets, - aod::CandidatesD0Data const&, aod::JetTracks const& tracks) + template + void analyseDataChargedSubstructure(aod::JetCollision const& collision, + JetChargedTable const& jets, + CandidatesTable const& /*candidates*/, + aod::JetTracks const& tracks, + HistogramRegistry& registry) { // apply event selection and fill histograms for sanity check - registry.fill(HIST("h_collision_counter"), 0.5); + registry.fill(HIST(histnames::ex_col), getValFromBin(BIN_EX_COLCNTR::AllCollisions)); if (!jetderiveddatautilities::selectCollision(collision, eventSelectionBits) || !(std::abs(collision.posZ()) < vertexZCut)) { return; } - registry.fill(HIST("h_collision_counter"), 1.5); + registry.fill(HIST(histnames::ex_col), getValFromBin(BIN_EX_COLCNTR::Sel8ZCut)); // Loop over jets containing D0 candidates for (const auto& jet : jets) { // number of charged jets with D0 - registry.fill(HIST("h_jet_counter"), 0.5); + registry.fill(HIST(histnames::ex_jet), getValFromBin(BIN_EX_JETCNTR::ChargedJets)); // obtaining jet 3-vector TVector3 jetVector(jet.px(), jet.py(), jet.pz()); // Loop over D0 candidates associated to the jet - for (const auto& d0Candidate : jet.candidates_as()) { + for (const auto& d0Candidate : jet.template candidates_as()) { // obtaining jet 3-vector TVector3 d0Vector(d0Candidate.px(), d0Candidate.py(), d0Candidate.pz()); @@ -170,24 +495,35 @@ struct JetD0AngSubstructure { // calculating angular distance in eta-phi plane double axisDistance = jetutilities::deltaR(jet, d0Candidate); - jetCalculateAngularity(jet, tracks); + float angularity = jetCalculateAngularityEXP(jet, tracks); // filling histograms - registry.fill(HIST("h_d0_jet_projection"), zParallel); - registry.fill(HIST("h_d0_jet_distance_vs_projection"), axisDistance, zParallel); - registry.fill(HIST("h_d0_jet_distance"), axisDistance); - registry.fill(HIST("h_d0_jet_pt"), jet.pt()); - registry.fill(HIST("h_d0_jet_eta"), jet.eta()); - registry.fill(HIST("h_d0_jet_phi"), jet.phi()); - registry.fill(HIST("h_d0_mass"), d0Candidate.m()); - registry.fill(HIST("h_d0_eta"), d0Candidate.eta()); - registry.fill(HIST("h_d0_phi"), d0Candidate.phi()); - registry.fill(HIST("h_d0_ang"), angularity); // add more axis + registry.fill(HIST(histnames::ex_jet_proj), zParallel); + registry.fill(HIST(histnames::ex_jet_dist_proj), axisDistance, zParallel); + registry.fill(HIST(histnames::ex_jet_dist), axisDistance); + registry.fill(HIST(histnames::ex_jet_pt), jet.pt()); + registry.fill(HIST(histnames::ex_jet_eta), jet.eta()); + registry.fill(HIST(histnames::ex_jet_phi), jet.phi()); + registry.fill(HIST(histnames::ex_jet_ang), angularity); + registry.fill(HIST(histnames::ex_hfl_pt), d0Candidate.pt()); + registry.fill(HIST(histnames::ex_hfl_mass), d0Candidate.m()); + registry.fill(HIST(histnames::ex_hfl_eta), d0Candidate.eta()); + registry.fill(HIST(histnames::ex_hfl_phi), d0Candidate.phi()); // add more axis // filling table - ObjJetTable(axisDistance, - jet.pt(), jet.eta(), jet.phi(), jet.tracks_as().size(), angularity, - d0Candidate.pt(), d0Candidate.eta(), d0Candidate.phi(), d0Candidate.m(), d0Candidate.y(), d0Candidate.mlScores()[0], d0Candidate.mlScores()[1], d0Candidate.mlScores()[2]); + objJetTable(axisDistance, + jet.pt(), + jet.eta(), + jet.phi(), + jet.template tracks_as().size(), angularity, + d0Candidate.pt(), + d0Candidate.eta(), + d0Candidate.phi(), + d0Candidate.m(), + d0Candidate.y(), + d0Candidate.mlScores()[0], + d0Candidate.mlScores()[1], + d0Candidate.mlScores()[2]); break; // get out of candidates' loop after first HF particle is found in jet } // end of D0 candidates loop @@ -195,7 +531,352 @@ struct JetD0AngSubstructure { } // end of jets loop } // end of process function - PROCESS_SWITCH(JetD0AngSubstructure, processDataChargedSubstructure, "charged HF jet substructure", false); + + template + void analyseMonteCarloEfficiency(MCDJetsPerMCCollissionPreslice const& jetmcdpreslice, + MCPJetsPerMCCollissionPreslice const& jetmcppreslice, + aod::JetMcCollisions const& mccollisions, + aod::JetCollisionsMCD const& collisions, + JetTableMCD const& mcdjets, + JetTableMCP const& mcpjets, + CandidatesMCD const& /*mcdCandidates*/, + CandidatesMCP const& /*mcpCandidates*/, + aod::JetTracks const& tracks, + aod::JetParticles const& particles, + HistogramRegistry& registry) + { + for (const auto& mccollision : mccollisions) { + + registry.fill(HIST(histnames::mc_eff_col), getValFromBin(BIN_MC_COLCNTR::All)); + // skip collisions outside of |z| < vertexZCut + if (std::abs(mccollision.posZ()) > vertexZCut) { + continue; + } + registry.fill(HIST(histnames::mc_eff_col), getValFromBin(BIN_MC_COLCNTR::ZCut)); + + // reconstructed collisions associated to same mccollision + const auto collisionsPerMCCollision = collisions.sliceBy(collisionsPerMCCollisionPreslice, mccollision.globalIndex()); + for (const auto& collision : collisionsPerMCCollision) { + + registry.fill(HIST(histnames::mc_eff_col), getValFromBin(BIN_MC_COLCNTR::Matched)); + if (!jetderiveddatautilities::selectCollision(collision, eventSelectionBits) || !(std::abs(collision.posZ()) < vertexZCut)) { + continue; + } + registry.fill(HIST(histnames::mc_eff_col), getValFromBin(BIN_MC_COLCNTR::MatchedSel8ZCut)); + + // d0 detector level jets associated to the current same collision + const auto d0mcdJetsPerCollision = mcdjets.sliceBy(jetmcdpreslice, collision.globalIndex()); + for (const auto& mcdjet : d0mcdJetsPerCollision) { + + registry.fill(HIST(histnames::mc_eff_jet), getValFromBin(BIN_MC_JETCNTR::DetectorLevelJetInMCCollision)); + + // obtain leading HF candidate in jet + auto mcdd0cand = mcdjet.template candidates_first_as(); + + if (mcdjet.has_matchedJetCand()) { + registry.fill(HIST(histnames::mc_eff_jet), getValFromBin(BIN_MC_JETCNTR::DetectorLevelJetWithMatchedCandidate)); + } + + // reflection information for storage: D0 = +1, D0bar = -1, neither = 0 + int matchedFrom = 0; + int decayChannel = o2::hf_decay::hf_cand_2prong::DecayChannelMain::D0ToPiK; + int selectedAs = 0; + + if (mcdd0cand.flagMcMatchRec() == decayChannel) { // matched to D0 on truth level + matchedFrom = 1; + } else if (mcdd0cand.flagMcMatchRec() == -decayChannel) { // matched to D0bar on truth level + matchedFrom = -1; + } + // bitwise AND operation: Checks whether BIT(i) is set, regardless of other bits + if (mcdd0cand.candidateSelFlag() & BIT(0)) { // CandidateSelFlag == BIT(0) -> selected as D0 + selectedAs = 1; + } else if (mcdd0cand.candidateSelFlag() & BIT(1)) { // CandidateSelFlag == BIT(1) -> selected as D0bar + selectedAs = -1; + } + + float angularity = jetCalculateAngularityMCD(mcdjet, tracks); + registry.fill(HIST(histnames::mc_eff_det_jet_pt), mcdjet.pt()); + registry.fill(HIST(histnames::mc_eff_det_jet_eta), mcdjet.eta()); + registry.fill(HIST(histnames::mc_eff_det_jet_phi), mcdjet.phi()); + registry.fill(HIST(histnames::mc_eff_det_jet_ang), angularity); + // Particle Histgrams + registry.fill(HIST(histnames::mc_eff_det_hfl_pt), mcdd0cand.pt()); + registry.fill(HIST(histnames::mc_eff_det_hfl_mass), mcdd0cand.m()); + registry.fill(HIST(histnames::mc_eff_det_hfl_eta), mcdd0cand.eta()); + registry.fill(HIST(histnames::mc_eff_det_hfl_phi), mcdd0cand.phi()); + + mcdJetTable(jetutilities::deltaR(mcdjet, mcdd0cand), + mcdjet.pt(), + mcdjet.eta(), + mcdjet.phi(), + mcdjet.template tracks_as().size(), // detector level jet + angularity, + mcdd0cand.pt(), + mcdd0cand.eta(), + mcdd0cand.phi(), + mcdd0cand.m(), + mcdd0cand.y(), + (mcdd0cand.originMcRec() == RecoDecay::OriginType::Prompt), // detector level D0 candidate + mcdjet.has_matchedJetCand(), + mcdd0cand.mlScores()[0], + mcdd0cand.mlScores()[1], + mcdd0cand.mlScores()[2], // // Machine Learning PID scores: background, prompt, non-prompt + matchedFrom, selectedAs); // D0 = +1, D0bar = -1, neither = 0 + } + } // end of reconstructed collisions loop (detector level mc collisions matching with real collisions) + + // d0 particle level jets associated to same mccollision + const auto d0mcpJetsPerMCCollision = mcpjets.sliceBy(jetmcppreslice, mccollision.globalIndex()); + for (const auto& mcpjet : d0mcpJetsPerMCCollision) { + + registry.fill(HIST(histnames::mc_eff_jet), getValFromBin(BIN_MC_JETCNTR::ParticleLevelJetInMCCollision)); + + // obtain leading HF particle in jet + auto mcpd0cand = mcpjet.template candidates_first_as(); + + if (mcpjet.has_matchedJetCand()) { + registry.fill(HIST(histnames::mc_eff_jet), getValFromBin(BIN_MC_JETCNTR::ParticleLevelJetWithMatchedCandidate)); + } + float angularity = jetCalculateAngularityMCP(mcpjet, particles); + + registry.fill(HIST(histnames::mc_eff_par_jet_pt), mcpjet.pt()); + registry.fill(HIST(histnames::mc_eff_par_jet_eta), mcpjet.eta()); + registry.fill(HIST(histnames::mc_eff_par_jet_phi), mcpjet.phi()); + registry.fill(HIST(histnames::mc_eff_par_jet_ang), angularity); + // Particle Histgrams + registry.fill(HIST(histnames::mc_eff_par_hfl_pt), mcpd0cand.pt()); + + registry.fill(HIST(histnames::mc_eff_par_hfl_eta), mcpd0cand.eta()); + registry.fill(HIST(histnames::mc_eff_par_hfl_phi), mcpd0cand.phi()); + // store data in MC detector level table (calculate angular distance in eta-phi plane on the fly) + mcpJetTable(jetutilities::deltaR(mcpjet, mcpd0cand), + mcpjet.pt(), + mcpjet.eta(), + mcpjet.phi(), + mcpjet.template tracks_as().size(), // particle level jet + angularity, + mcpd0cand.pt(), + mcpd0cand.eta(), + mcpd0cand.phi(), + // mcpd0cand.m(), + mcpd0cand.y(), + (mcpd0cand.originMcGen() == RecoDecay::OriginType::Prompt), // particle level D0 + mcpjet.has_matchedJetCand()); + } // End of particle level jets loop, related to detector level collisions and jets. + } + } + + template + void analyseMonteCarlo(MCPJetsPerMCCollissionPreslice jetmcpreslice, + aod::JetMcCollisions const& mccollisions, + aod::JetCollisionsMCD const& collisions, + JetTableMCD const& /*mcdjets*/, + JetTableMCP const& mcpjets, + CandidatesMCD const& /*mcdCandidates*/, + CandidatesMCP const& /*mcpCandidates*/, + aod::JetTracks const& jettracks, + aod::JetParticles const& jetparticles, + HistogramRegistry& registry) + { + for (const auto& mccollision : mccollisions) { + registry.fill(HIST(histnames::mc_col), getValFromBin(BIN_MC_COLCNTR::All)); + // skip collisions outside of |z| < vertexZCut + if (std::abs(mccollision.posZ()) > vertexZCut) { + continue; + } + registry.fill(HIST(histnames::mc_col), getValFromBin(BIN_MC_COLCNTR::ZCut)); + + // hf particle level jets associated to same mccollision + const JetD0MCPTable mcpJetsPerMCCollision = mcpjets.sliceBy(jetmcpreslice, mccollision.globalIndex()); + for (const auto& mcpjet : mcpJetsPerMCCollision) { + + registry.fill(HIST(histnames::mc_jet), getValFromBin(BIN_MC_JETCNTR::ParticleLevelJetInMCCollision)); + + // obtain leading HF particle in jet + auto mcpcand = mcpjet.template candidates_first_as(); + + if (mcpjet.has_matchedJetCand()) { + registry.fill(HIST(histnames::mc_jet), getValFromBin(BIN_MC_JETCNTR::ParticleLevelJetWithMatchedCandidate)); + + // loop over detector level matched to current particle level + for (const auto& mcdjet : mcpjet.template matchedJetCand_as()) { + registry.fill(HIST(histnames::mc_jet), getValFromBin(BIN_MC_JETCNTR::DetectorLevelJetWithMatchedCandidate)); + + // apply collision sel8 selection on detector level jet's collision + const auto& collision = collisions.iteratorAt(mcdjet.collisionId()); + registry.fill(HIST(histnames::mc_col), getValFromBin(BIN_MC_COLCNTR::Matched)); + if (!jetderiveddatautilities::selectCollision(collision, eventSelectionBits) || !(std::abs(collision.posZ()) < vertexZCut)) { + continue; + } + registry.fill(HIST(histnames::mc_col), getValFromBin(BIN_MC_COLCNTR::MatchedSel8ZCut)); + + // obtain leading HF candidate in jet + auto mcdcand = mcdjet.template candidates_first_as(); + + // reflection information for storage: HF = +1, HFbar = -1, neither = 0 + int matchedFrom = 0; + int decayChannel = 0; + if (jethfutilities::isD0Table()) { + decayChannel = o2::hf_decay::hf_cand_2prong::DecayChannelMain::D0ToPiK; + } else if (jethfutilities::isLcTable()) { + decayChannel = o2::hf_decay::hf_cand_3prong::DecayChannelMain::LcToPKPi; + } + int selectedAs = 0; + + if (mcdcand.flagMcMatchRec() == decayChannel) { // matched to HF on truth level + matchedFrom = 1; + } else if (mcdcand.flagMcMatchRec() == -decayChannel) { // matched to HFbar on truth level + matchedFrom = -1; + } + // bitwise AND operation: Checks whether BIT(i) is set, regardless of other bits + if (mcdcand.candidateSelFlag() & BIT(0)) { // CandidateSelFlag == BIT(0) -> selected as HF + selectedAs = 1; + } else if (mcdcand.candidateSelFlag() & BIT(1)) { // CandidateSelFlag == BIT(1) -> selected as HFbar + selectedAs = -1; + } + + float mcpAngularity = jetCalculateAngularityMCP(mcpjet, jetparticles); + float mcdAngularity = jetCalculateAngularityMCD(mcdjet, jettracks); + + // filling histograms + // registry.fill(HIST(histnames::h_exp_d0_jet_projection), zParallel); + // registry.fill(HIST(histnames::h_exp_d0_jet_distance_vs_projection), axisDistance, zParallel); + // registry.fill(HIST(histnames::h_exp_d0_jet_distance), axisDistance); + // registry.fill(HIST(histnames::h_exp_d0_jet_pt), jet.pt()); + // registry.fill(HIST(histnames::h_exp_d0_jet_eta), jet.eta()); + // registry.fill(HIST(histnames::h_exp_d0_jet_phi), jet.phi()); + // registry.fill(HIST(histnames::h_exp_d0_jet_ang), angularity); + // Jet Histograms + + registry.fill(HIST(histnames::mc_det_jet_pt), mcdjet.pt()); + registry.fill(HIST(histnames::mc_det_jet_eta), mcdjet.eta()); + registry.fill(HIST(histnames::mc_det_jet_phi), mcdjet.phi()); + registry.fill(HIST(histnames::mc_det_jet_ang), mcdAngularity); + // Particle Histgrams + registry.fill(HIST(histnames::mc_det_hfl_pt), mcdcand.pt()); + registry.fill(HIST(histnames::mc_det_hfl_mass), mcdcand.m()); + registry.fill(HIST(histnames::mc_det_hfl_eta), mcdcand.eta()); + registry.fill(HIST(histnames::mc_det_hfl_phi), mcdcand.phi()); // add more axis + + // store matched particle and detector level data in one single table (calculate angular distance in eta-phi plane on the fly) + matchJetTable(jetutilities::deltaR(mcpjet, mcpcand), + mcpjet.pt(), + mcpjet.eta(), + mcpjet.phi(), + mcpjet.template tracks_as().size(), // particle level jet + mcpAngularity, + mcpcand.pt(), + mcpcand.eta(), + mcpcand.phi(), + mcpcand.y(), + (mcpcand.originMcGen() == RecoDecay::OriginType::Prompt), // particle level HF + jetutilities::deltaR(mcdjet, mcdcand), + mcdjet.pt(), + mcdjet.eta(), + mcdjet.phi(), + mcdjet.template tracks_as().size(), // detector level jet + mcdAngularity, + mcdcand.pt(), + mcdcand.eta(), + mcdcand.phi(), + mcdcand.m(), + mcdcand.y(), + (mcdcand.originMcRec() == RecoDecay::OriginType::Prompt), // detector level HF + mcdcand.mlScores()[0], + mcdcand.mlScores()[1], + mcdcand.mlScores()[2], // Machine Learning PID scores: background, prompt, non-prompt + matchedFrom, + selectedAs); // HF = +1, HFbar = -1, neither = 0 + } + } else { + // store matched particle and detector level data in one single table (calculate angular distance in eta-phi plane on the fly) + float mcpAngularity = jetCalculateAngularityMCP(mcpjet, jetparticles); + // float mcpAngularity = 0.; + matchJetTable(jetutilities::deltaR(mcpjet, mcpcand), + mcpjet.pt(), + mcpjet.eta(), + mcpjet.phi(), + mcpjet.template tracks_as().size(), // particle level jet + mcpAngularity, + + mcpcand.pt(), + mcpcand.eta(), + mcpcand.phi(), + mcpcand.y(), + (mcpcand.originMcGen() == RecoDecay::OriginType::Prompt), // particle level HF + -2, -2, -2, -2, -2, // detector level jet + -2, -2, -2, -2, -2, -2, -2, // detector level HF + -2, -2, -2, // Machine Learning PID scores: background, prompt, non-prompt + -2, -2); // HF = +1, HFbar = -1, neither = 0 + } + } // end of mcpjets loop + } // end of mccollisions loop + }; + + void processataChargedSubstructureD0(aod::JetCollision const& collision, + JetChargedTableD0 const& jets, + aod::CandidatesD0Data const& candidates, + aod::JetTracks const& tracks) + { + analyseDataChargedSubstructure(collision, jets, candidates, tracks, registryD0); + } + + PROCESS_SWITCH(JetD0AngSubstructure, processataChargedSubstructureD0, "charged HF jet substructure", false); + + void processMonteCarloEfficiencyD0(aod::JetMcCollisions const& mccollisions, + aod::JetCollisionsMCD const& collisions, + JetD0MCDTable const& mcdjets, + JetD0MCPTable const& mcpjets, + aod::CandidatesD0MCD const& mcdCandidates, + aod::CandidatesD0MCP const& mcpCandidates, + aod::JetTracks const& jettracks, + aod::JetParticles const& jetparticles) + { + analyseMonteCarloEfficiency, + Preslice, + JetD0MCDTable, + JetD0MCPTable, + aod::CandidatesD0MCD, + aod::CandidatesD0MCP>( + d0MCDJetsPerEXPCollisionPreslice, d0MCPJetsPerMCCollisionPreslice, mccollisions, collisions, mcdjets, + mcpjets, mcdCandidates, mcpCandidates, jettracks, jetparticles, registryD0); + } + + PROCESS_SWITCH(JetD0AngSubstructure, processMonteCarloEfficiencyD0, "non-matched and matched MC D0 and jets", false); + + void processMonteCarloD0(aod::JetMcCollisions const& mccollisions, + aod::JetCollisionsMCD const& collisions, + JetD0MCDTable const& mcdjets, + JetD0MCPTable const& mcpjets, + aod::CandidatesD0MCD const& mcdCandidates, + aod::CandidatesD0MCP const& mcpCandidates, + aod::JetTracks const& jettracks, + aod::JetParticles const& jetparticles) + { + analyseMonteCarlo, + JetD0MCDTable, + JetD0MCPTable, + aod::CandidatesD0MCD, + aod::CandidatesD0MCP>( + d0MCPJetsPerMCCollisionPreslice, mccollisions, collisions, mcdjets, + mcpjets, mcdCandidates, mcpCandidates, jettracks, jetparticles, registryD0); + } + + PROCESS_SWITCH(JetD0AngSubstructure, processMonteCarloD0, "Store all simulated D0 jets information with matched candidate (if any found)", false); }; // Workflow definition -WorkflowSpec defineDataProcessing(ConfigContext const& cfgc) { return WorkflowSpec{adaptAnalysisTask(cfgc, TaskName{"jet-d0-ang-substructure"})}; } +WorkflowSpec defineDataProcessing(ConfigContext const& cfgc) +{ + return WorkflowSpec{ + adaptAnalysisTask( + cfgc)}; +}