AliceO2Group · victor-gonzalez · Sep 19, 2025 · Sep 13, 2025
@@ -108,7 +108,7 @@ enum BeforeAfter {
 };
 
 static const std::vector<std::string> beforeAfterName = {"before", "before outliers exclusion", ""};
-static const std::vector<std::string> beforeAfterSufix = {"B", "BO", "A"};
+static const std::vector<std::string> beforeAfterSuffix = {"B", "BO", "A"};
 
 /* helpers for the multiplicity axes definition */
 static constexpr float MultiplicityUpperLimitBase[11][8] = {
@@ -538,9 +538,10 @@ struct DptDptFilter {
   struct : ConfigurableGroup {
     std::string prefix = "cfgCCDB";
     Configurable<std::string> url{"url", "http://ccdb-test.cern.ch:8080", "The CCDB url for the input file"};
-    Configurable<std::string> pathName{"pathName", "", "The CCDB path for the input file. Default \"\", i.e. don't load from CCDB"};
+    Configurable<std::string> pathNameCorrections{"pathNameCorrections", "", "The CCDB path for the corrections file. Default \"\", i.e. don't load from CCDB"};
+    Configurable<std::string> pathNamePID{"pathNamePID", "", "The CCDB path for the PID adjusts file. Default \"\", i.e. don't load from CCDB"};
     Configurable<std::string> date{"date", "20220307", "The CCDB date for the input file"};
-    Configurable<std::string> period{"period", "LHC22o", "The CCDB dataset period for the input file"};
+    Configurable<std::string> suffix{"suffix", "", "Dataset period suffix for metadata discrimination"};
   } cfginputfile;
   Configurable<bool> cfgFullDerivedData{"cfgFullDerivedData", false, "Produce the full derived data for external storage. Default false"};
   Configurable<std::string> cfgCentMultEstimator{"cfgCentMultEstimator", "V0M", "Centrality/multiplicity estimator detector: V0M,CL0,CL1,FV0A,FT0M,FT0A,FT0C,NTPV,NOCM: none. Default V0M"};
@@ -683,23 +684,23 @@ struct DptDptFilter {
       if (cfgEventSelection.fillQc) {
         /* the quality control histograms */
         for (int i = 0; i < BeforeAfterNOOFTIMES; ++i) {
-          fhMultiplicityVsCentrality[i] = new TH2F(TString::Format("MultiplicityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);Global tracks", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
-          fhMultiplicityVsT0cMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsT0cMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0C Multiplicity;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0C), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
-          fhMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsT0aMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0A Multiplicity;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
-          fhMultiplicityVsV0aMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsV0aMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;V0A Multiplicity;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceV0A), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
-          fhMultiplicityVsPvMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsPvMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;PV contributors;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
-          fhPvMultiplicityVsCentrality[i] = new TH2F(TString::Format("PvMultiplicityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);PV contributors", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
-          fhPvMultiplicityVsT0cMultiplicity[i] = new TH2F(TString::Format("PvMultiplicityVsT0cMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0C multiplicity;PV contributors", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0C), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
-          fhPvMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("PvMultiplicityVsT0aMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0A multiplicity;PV contributors", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
-          fhPvMultiplicityVsV0aMultiplicity[i] = new TH2F(TString::Format("PvMultiplicityVsV0aMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;V0A multiplicity;PV contributors", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceV0A), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
-          fhV0aMultiplicityVsCentrality[i] = new TH2F(TString::Format("V0aMultiplicityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);V0A multiplicity", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourceV0A));
-          fhV0aMultiplicityVsT0cMultiplicity[i] = new TH2F(TString::Format("V0aMultiplicityVsT0cMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0C multiplicity;V0A multiplicity", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0C), DPTDPTMULTIPLICITYAXIS(MultSourceV0A));
-          fhV0aMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("V0aMultiplicityVsT0aMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0A multiplicity;V0A multiplicity", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourceV0A));
-          fhT0cMultiplicityVsCentrality[i] = new TH2F(TString::Format("T0cMultiplicityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);T0C multiplicity", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourceT0C));
-          fhT0cMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("T0cMultiplicityVsT0aMultiplicity%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;T0A multiplicity;T0C multiplicity", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourceT0C));
-          fhT0CentralityVsCentrality[i] = new TH2F(TString::Format("T0CentralityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);T0 centrality(%%)", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTCENTRALITYAXIS);
-          fhV0aCentralityVsCentrality[i] = new TH2F(TString::Format("V0aCentralityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);V0A centrality (%%)", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTCENTRALITYAXIS);
-          fhNtpvCentralityVsCentrality[i] = new TH2F(TString::Format("NtpvCentralityVsCentrality%s", beforeAfterSufix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);NTPV centrality (%%)", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTCENTRALITYAXIS);
+          fhMultiplicityVsCentrality[i] = new TH2F(TString::Format("MultiplicityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);Global tracks", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
+          fhMultiplicityVsT0cMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsT0cMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0C Multiplicity;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0C), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
+          fhMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsT0aMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0A Multiplicity;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
+          fhMultiplicityVsV0aMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsV0aMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;V0A Multiplicity;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceV0A), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
+          fhMultiplicityVsPvMultiplicity[i] = new TH2F(TString::Format("MultiplicityVsPvMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;PV contributors;Global tracks", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors), DPTDPTMULTIPLICITYAXIS(MultSourceNtracks));
+          fhPvMultiplicityVsCentrality[i] = new TH2F(TString::Format("PvMultiplicityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);PV contributors", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
+          fhPvMultiplicityVsT0cMultiplicity[i] = new TH2F(TString::Format("PvMultiplicityVsT0cMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0C multiplicity;PV contributors", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0C), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
+          fhPvMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("PvMultiplicityVsT0aMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0A multiplicity;PV contributors", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
+          fhPvMultiplicityVsV0aMultiplicity[i] = new TH2F(TString::Format("PvMultiplicityVsV0aMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;V0A multiplicity;PV contributors", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceV0A), DPTDPTMULTIPLICITYAXIS(MultSourcePvContributors));
+          fhV0aMultiplicityVsCentrality[i] = new TH2F(TString::Format("V0aMultiplicityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);V0A multiplicity", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourceV0A));
+          fhV0aMultiplicityVsT0cMultiplicity[i] = new TH2F(TString::Format("V0aMultiplicityVsT0cMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0C multiplicity;V0A multiplicity", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0C), DPTDPTMULTIPLICITYAXIS(MultSourceV0A));
+          fhV0aMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("V0aMultiplicityVsT0aMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0A multiplicity;V0A multiplicity", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourceV0A));
+          fhT0cMultiplicityVsCentrality[i] = new TH2F(TString::Format("T0cMultiplicityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);T0C multiplicity", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTMULTIPLICITYAXIS(MultSourceT0C));
+          fhT0cMultiplicityVsT0aMultiplicity[i] = new TH2F(TString::Format("T0cMultiplicityVsT0aMultiplicity%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;T0A multiplicity;T0C multiplicity", beforeAfterName[i].c_str()).Data(), DPTDPTMULTIPLICITYAXIS(MultSourceT0A), DPTDPTMULTIPLICITYAXIS(MultSourceT0C));
+          fhT0CentralityVsCentrality[i] = new TH2F(TString::Format("T0CentralityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);T0 centrality(%%)", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTCENTRALITYAXIS);
+          fhV0aCentralityVsCentrality[i] = new TH2F(TString::Format("V0aCentralityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);V0A centrality (%%)", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTCENTRALITYAXIS);
+          fhNtpvCentralityVsCentrality[i] = new TH2F(TString::Format("NtpvCentralityVsCentrality%s", beforeAfterSuffix[i].c_str()).Data(), TString::Format("%s;%s centrality (%%);NTPV centrality (%%)", beforeAfterName[i].c_str(), multestimator.data()).Data(), DPTDPTCENTRALITYAXIS, DPTDPTCENTRALITYAXIS);
         }
       }
 
@@ -1099,9 +1100,8 @@ struct DptDptFilterTracks {
   bool storedccdbinfo = false;
 
   std::string cfgCCDBUrl{"http://ccdb-test.cern.ch:8080"};
-  std::string cfgCCDBPathName{""};
+  std::string cfgCCDBPathNamePID{""};
   std::string cfgCCDBDate{"20220307"};
-  std::string cfgCCDBPeriod{"LHC22o"};
 
   Configurable<bool> cfgOutDebugInfo{"cfgOutDebugInfo", false, "Out detailed debug information per track into a text file. Default false"};
   Configurable<bool> cfgFullDerivedData{"cfgFullDerivedData", false, "Produce the full derived data for external storage. Default false"};
@@ -1171,9 +1171,8 @@ struct DptDptFilterTracks {
     }
     /* self configure the CCDB access to the input file */
     getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.url", cfgCCDBUrl, false);
-    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.pathName", cfgCCDBPathName, false);
+    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.pathNamePID", cfgCCDBPathNamePID, false);
     getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.date", cfgCCDBDate, false);
-    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.period", cfgCCDBPeriod, false);
 
     /* create the output list which will own the task histograms */
     TList* fOutputList = new TList();
@@ -1440,9 +1439,9 @@ struct DptDptFilterTracks {
     using namespace analysis::dptdptfilter;
 
     /* let's get a potential PID adjustment */
-    if (cfgCCDBPathName.length() > 0 && !storedccdbinfo) {
-      LOGF(info, "Getting information for PID adjustment from %s, at %s, for %s", cfgCCDBPathName.c_str(), cfgCCDBDate.c_str(), cfgCCDBPeriod.c_str());
-      TList* pidinfo = getCCDBInput(ccdb, cfgCCDBPathName.c_str(), cfgCCDBDate.c_str(), cfgCCDBPeriod.c_str());
+    if ((cfgCCDBDate.length() > 0) && (cfgCCDBPathNamePID.length() > 0) && !storedccdbinfo) {
+      LOGF(info, "Getting information for PID adjustment from %s, at %s", cfgCCDBPathNamePID.c_str(), cfgCCDBDate.c_str());
+      TList* pidinfo = getCCDBInput(ccdb, cfgCCDBPathNamePID.c_str(), cfgCCDBDate.c_str());
       if (pidinfo != nullptr) {
         pidselector.storePIDAdjustments(pidinfo);
       }

@@ -804,21 +804,35 @@ struct DptDptTrackSelection {
   bool requirePvContributor = false;
 };
 
-inline TList* getCCDBInput(auto& ccdb, const char* ccdbpath, const char* ccdbdate, const char* period = "")
+inline TList* getCCDBInput(auto& ccdb, const char* ccdbpath, const char* ccdbdate, bool periodInPath = false, const std::string& suffix = "")
 {
   std::tm cfgtm = {};
   std::stringstream ss(ccdbdate);
   ss >> std::get_time(&cfgtm, "%Y%m%d");
   cfgtm.tm_hour = 12;
   int64_t timestamp = std::mktime(&cfgtm) * 1000;
 
-  TList* lst = nullptr;
-  if (std::strlen(period) != 0) {
-    std::map<std::string, std::string> metadata{{"Period", period}};
-    lst = ccdb->template getSpecific<TList>(ccdbpath, timestamp, metadata);
-  } else {
-    lst = ccdb->template getForTimeStamp<TList>(ccdbpath, timestamp);
+  auto cleanPeriod = [](const auto& str) {
+    std::string tmpStr = str;
+    size_t pos = tmpStr.find('_');
+    if (pos != std::string::npos) {
+      tmpStr.erase(pos);
+    }
+    return tmpStr;
+  };
+
+  std::string actualPeriod = cleanPeriod(metadataInfo.get("LPMProductionTag"));
+  std::string actualPath = ccdbpath;
+  if (periodInPath) {
+    actualPath = actualPath + "/" + actualPeriod;
+  }
+  if (suffix.length() > 0) {
+    actualPeriod = actualPeriod + "_" + suffix;
   }
+
+  TList* lst = nullptr;
+  std::map<std::string, std::string> metadata{{"Period", actualPeriod}};
+  lst = ccdb->template getSpecific<TList>(actualPath, timestamp, metadata);
   if (lst != nullptr) {
     LOGF(info, "Correctly loaded CCDB input object");
   } else {

@@ -908,9 +908,9 @@ struct DptDptCorrelations {
   TList* ccdblst = nullptr;
   bool loadfromccdb = false;
   std::string cfgCCDBUrl{"http://ccdb-test.cern.ch:8080"};
-  std::string cfgCCDBPathName{""};
+  std::string cfgCCDBPathNameCorrections{""};
   std::string cfgCCDBDate{"20220307"};
-  std::string cfgCCDBPeriod{"LHC22o"};
+  std::string cfgCCDBSuffix{""};
 
   /* pair conversion suppression defaults */
   static constexpr float kCfgPairCutDefaults[1][5] = {{-1, -1, -1, -1, -1}};
@@ -972,10 +972,10 @@ struct DptDptCorrelations {
 
     /* self configure the CCDB access to the input file */
     getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.url", cfgCCDBUrl, false);
-    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.pathName", cfgCCDBPathName, false);
+    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.pathNameCorrections", cfgCCDBPathNameCorrections, false);
     getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.date", cfgCCDBDate, false);
-    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.period", cfgCCDBPeriod, false);
-    loadfromccdb = cfgCCDBPathName.length() > 0;
+    getTaskOptionValue(initContext, "dpt-dpt-filter", "cfgCCDB.suffix", cfgCCDBSuffix, false);
+    loadfromccdb = (cfgCCDBDate.length() > 0) && (cfgCCDBPathNameCorrections.length() > 0);
 
     /* update the potential binning change */
     etabinwidth = (etaup - etalow) / static_cast<float>(etabins);
@@ -1230,7 +1230,7 @@ struct DptDptCorrelations {
 
     if (ccdblst == nullptr) {
       if (loadfromccdb) {
-        ccdblst = getCCDBInput(ccdb, cfgCCDBPathName.c_str(), cfgCCDBDate.c_str());
+        ccdblst = getCCDBInput(ccdb, cfgCCDBPathNameCorrections.c_str(), cfgCCDBDate.c_str(), true, cfgCCDBSuffix);
       }
     }
 
@@ -1326,7 +1326,7 @@ struct DptDptCorrelations {
 
     if (ccdblst == nullptr) {
       if (loadfromccdb) {
-        ccdblst = getCCDBInput(ccdb, cfgCCDBPathName.c_str(), cfgCCDBDate.c_str());
+        ccdblst = getCCDBInput(ccdb, cfgCCDBPathNameCorrections.c_str(), cfgCCDBDate.c_str(), true, cfgCCDBSuffix);
       }
     }
 
@@ -1646,6 +1646,7 @@ struct DptDptCorrelations {
 
 WorkflowSpec defineDataProcessing(ConfigContext const& cfgc)
 {
+  o2::analysis::dptdptfilter::metadataInfo.initMetadata(cfgc);
   WorkflowSpec workflow{
     adaptAnalysisTask<DptDptCorrelations>(cfgc, TaskName{"DptDptCorrelationsRec"}, SetDefaultProcesses{{{"processRecLevel", true}, {"processRecLevelMixed", false}, {"processCleaner", false}}}),  // o2-linter: disable=name/o2-task (It is adapted multiple times)
     adaptAnalysisTask<DptDptCorrelations>(cfgc, TaskName{"DptDptCorrelationsGen"}, SetDefaultProcesses{{{"processGenLevel", false}, {"processGenLevelMixed", false}, {"processCleaner", true}}})}; // o2-linter: disable=name/o2-task (It is adapted multiple times)