diff --git a/PWGCF/EbyEFluctuations/Tasks/kaonIsospinFluctuations.cxx b/PWGCF/EbyEFluctuations/Tasks/kaonIsospinFluctuations.cxx index 3bb1a9ab3e3..144328c63c7 100644 --- a/PWGCF/EbyEFluctuations/Tasks/kaonIsospinFluctuations.cxx +++ b/PWGCF/EbyEFluctuations/Tasks/kaonIsospinFluctuations.cxx @@ -4987,33 +4987,33 @@ struct KaonIsospinFluctuations { } PROCESS_SWITCH(KaonIsospinFluctuations, processData, "Process for Data", true); -// void processReco(aod::BCsWithTimestamps const&, MyCollisionsWithMcLabels const& collisions, MyV0sWithMcLabels const& V0s, MyTracksWithMcLabels const& tracks, MyPrimVtxCndts const& primVtxCndts, aod::McParticles const&) -// { -// recoEvent.fill(HIST("recoEvent/ProcessType"), doRecoProcessing); -// executeAnalysis(collisions, V0s, tracks, primVtxCndts); -// } -// PROCESS_SWITCH(KaonIsospinFluctuations, processReco, "Process for Reco", false); - -// void processPurity(aod::BCsWithTimestamps const&, MyCollisionsWithMcLabels const& collisions, MyV0sWithMcLabels const& V0s, MyTracksWithMcLabels const& tracks, MyPrimVtxCndts const& primVtxCndts, aod::McParticles const&) -// { -// recoEvent.fill(HIST("recoEvent/ProcessType"), doPurityProcessing); -// executeAnalysis(collisions, V0s, tracks, primVtxCndts); -// } -// PROCESS_SWITCH(KaonIsospinFluctuations, processPurity, "Process for Purity", false); - -// void processGen(MyMcCollisions const&, MyCollisionsWithMcLabels const& collisions, aod::McParticles const& mcParticles) -// { -// recoEvent.fill(HIST("recoEvent/ProcessType"), doGenProcessing); -// executeAnalysis(collisions, nullptr, mcParticles, nullptr); -// } -// PROCESS_SWITCH(KaonIsospinFluctuations, processGen, "Process for Gen", false); - -// void processSim(MyMcCollisions const& mcCollisions, aod::McParticles const& mcParticles) -// { -// recoEvent.fill(HIST("recoEvent/ProcessType"), doSimProcessing); -// executeAnalysis(mcCollisions, nullptr, mcParticles, nullptr); -// } -// PROCESS_SWITCH(KaonIsospinFluctuations, processSim, "Process for Sim", false); + // void processReco(aod::BCsWithTimestamps const&, MyCollisionsWithMcLabels const& collisions, MyV0sWithMcLabels const& V0s, MyTracksWithMcLabels const& tracks, MyPrimVtxCndts const& primVtxCndts, aod::McParticles const&) + // { + // recoEvent.fill(HIST("recoEvent/ProcessType"), doRecoProcessing); + // executeAnalysis(collisions, V0s, tracks, primVtxCndts); + // } + // PROCESS_SWITCH(KaonIsospinFluctuations, processReco, "Process for Reco", false); + + // void processPurity(aod::BCsWithTimestamps const&, MyCollisionsWithMcLabels const& collisions, MyV0sWithMcLabels const& V0s, MyTracksWithMcLabels const& tracks, MyPrimVtxCndts const& primVtxCndts, aod::McParticles const&) + // { + // recoEvent.fill(HIST("recoEvent/ProcessType"), doPurityProcessing); + // executeAnalysis(collisions, V0s, tracks, primVtxCndts); + // } + // PROCESS_SWITCH(KaonIsospinFluctuations, processPurity, "Process for Purity", false); + + // void processGen(MyMcCollisions const&, MyCollisionsWithMcLabels const& collisions, aod::McParticles const& mcParticles) + // { + // recoEvent.fill(HIST("recoEvent/ProcessType"), doGenProcessing); + // executeAnalysis(collisions, nullptr, mcParticles, nullptr); + // } + // PROCESS_SWITCH(KaonIsospinFluctuations, processGen, "Process for Gen", false); + + // void processSim(MyMcCollisions const& mcCollisions, aod::McParticles const& mcParticles) + // { + // recoEvent.fill(HIST("recoEvent/ProcessType"), doSimProcessing); + // executeAnalysis(mcCollisions, nullptr, mcParticles, nullptr); + // } + // PROCESS_SWITCH(KaonIsospinFluctuations, processSim, "Process for Sim", false); }; WorkflowSpec defineDataProcessing(ConfigContext const& cfgc)