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File indexing completed on 2022-06-03 00:59:03

 #include "FWCore/Framework/interface/Schedule.h"
 
 #include "DataFormats/Common/interface/setIsMergeable.h"
 #include "DataFormats/Common/interface/TriggerResults.h"
 #include "DataFormats/Provenance/interface/ProcessConfiguration.h"
 #include "DataFormats/Provenance/interface/ProductRegistry.h"
 #include "DataFormats/Provenance/interface/ThinnedAssociationsHelper.h"
 #include "DataFormats/Provenance/interface/BranchIDListHelper.h"
 #include "DataFormats/Provenance/interface/ProductResolverIndexHelper.h"
 #include "FWCore/Common/interface/ProcessBlockHelper.h"
 #include "FWCore/Framework/interface/EDConsumerBase.h"
 #include "FWCore/Framework/src/OutputModuleDescription.h"
 #include "FWCore/Framework/interface/SubProcess.h"
 #include "FWCore/Framework/interface/TriggerNamesService.h"
 #include "FWCore/Framework/src/TriggerReport.h"
 #include "FWCore/Framework/src/TriggerTimingReport.h"
 #include "FWCore/Framework/interface/PreallocationConfiguration.h"
 #include "FWCore/Framework/src/Factory.h"
 #include "FWCore/Framework/interface/OutputModuleCommunicator.h"
 #include "FWCore/Framework/interface/maker/ModuleHolder.h"
 #include "FWCore/Framework/interface/ModuleRegistry.h"
 #include "FWCore/Framework/src/TriggerResultInserter.h"
 #include "FWCore/Framework/src/PathStatusInserter.h"
 #include "FWCore/Framework/src/EndPathStatusInserter.h"
 #include "FWCore/Concurrency/interface/WaitingTaskHolder.h"
 #include "FWCore/Concurrency/interface/chain_first.h"
 #include "FWCore/MessageLogger/interface/MessageLogger.h"
 #include "FWCore/ParameterSet/interface/ParameterSet.h"
 #include "FWCore/ParameterSet/interface/ParameterSetDescription.h"
 #include "FWCore/ServiceRegistry/interface/ActivityRegistry.h"
 #include "FWCore/ServiceRegistry/interface/ConsumesInfo.h"
 #include "FWCore/Utilities/interface/Algorithms.h"
 #include "FWCore/Utilities/interface/ConvertException.h"
 #include "FWCore/Utilities/interface/ExceptionCollector.h"
 #include "FWCore/Utilities/interface/RandomNumberGenerator.h"
 #include "FWCore/Utilities/interface/TypeID.h"
 #include "FWCore/Utilities/interface/thread_safety_macros.h"
 
 #include <array>
 #include <algorithm>
 #include <cassert>
 #include <cstdlib>
 #include <functional>
 #include <iomanip>
 #include <list>
 #include <map>
 #include <set>
 #include <exception>
 #include <sstream>
 
 #include "make_shared_noexcept_false.h"
 #include "processEDAliases.h"
 
 namespace edm {
 
   class Maker;
 
   namespace {
     using std::placeholders::_1;
 
     bool binary_search_string(std::vector<std::string> const& v, std::string const& s) {
       return std::binary_search(v.begin(), v.end(), s);
     }
 
     // Here we make the trigger results inserter directly.  This should
     // probably be a utility in the WorkerRegistry or elsewhere.
 
     std::shared_ptr<TriggerResultInserter> makeInserter(ParameterSet& proc_pset,
                                                         PreallocationConfiguration const& iPrealloc,
                                                         ProductRegistry& preg,
                                                         ExceptionToActionTable const& actions,
                                                         std::shared_ptr<ActivityRegistry> areg,
                                                         std::shared_ptr<ProcessConfiguration> processConfiguration) {
       ParameterSet* trig_pset = proc_pset.getPSetForUpdate("@trigger_paths");
       trig_pset->registerIt();
 
       WorkerParams work_args(trig_pset, preg, &iPrealloc, processConfiguration, actions);
       ModuleDescription md(trig_pset->id(),
                            "TriggerResultInserter",
                            "TriggerResults",
                            processConfiguration.get(),
                            ModuleDescription::getUniqueID());
 
       areg->preModuleConstructionSignal_(md);
       bool postCalled = false;
       std::shared_ptr<TriggerResultInserter> returnValue;
       // Caught exception is rethrown
       CMS_SA_ALLOW try {
         maker::ModuleHolderT<TriggerResultInserter> holder(
             make_shared_noexcept_false<TriggerResultInserter>(*trig_pset, iPrealloc.numberOfStreams()),
             static_cast<Maker const*>(nullptr));
         holder.setModuleDescription(md);
         holder.registerProductsAndCallbacks(&preg);
         returnValue = holder.module();
         postCalled = true;
         // if exception then post will be called in the catch block
         areg->postModuleConstructionSignal_(md);
       } catch (...) {
         if (!postCalled) {
           CMS_SA_ALLOW try { areg->postModuleConstructionSignal_(md); } catch (...) {
             // If post throws an exception ignore it because we are already handling another exception
           }
         }
         throw;
       }
       return returnValue;
     }
 
     template <typename T>
     void makePathStatusInserters(std::vector<edm::propagate_const<std::shared_ptr<T>>>& pathStatusInserters,
                                  std::vector<std::string> const& pathNames,
                                  PreallocationConfiguration const& iPrealloc,
                                  ProductRegistry& preg,
                                  std::shared_ptr<ActivityRegistry> areg,
                                  std::shared_ptr<ProcessConfiguration> processConfiguration,
                                  std::string const& moduleTypeName) {
       ParameterSet pset;
       pset.addParameter<std::string>("@module_type", moduleTypeName);
       pset.addParameter<std::string>("@module_edm_type", "EDProducer");
       pset.registerIt();
 
       pathStatusInserters.reserve(pathNames.size());
 
       for (auto const& pathName : pathNames) {
         ModuleDescription md(
             pset.id(), moduleTypeName, pathName, processConfiguration.get(), ModuleDescription::getUniqueID());
 
         areg->preModuleConstructionSignal_(md);
         bool postCalled = false;
         // Caught exception is rethrown
         CMS_SA_ALLOW try {
           maker::ModuleHolderT<T> holder(make_shared_noexcept_false<T>(iPrealloc.numberOfStreams()),
                                          static_cast<Maker const*>(nullptr));
           holder.setModuleDescription(md);
           holder.registerProductsAndCallbacks(&preg);
           pathStatusInserters.emplace_back(holder.module());
           postCalled = true;
           // if exception then post will be called in the catch block
           areg->postModuleConstructionSignal_(md);
         } catch (...) {
           if (!postCalled) {
             CMS_SA_ALLOW try { areg->postModuleConstructionSignal_(md); } catch (...) {
               // If post throws an exception ignore it because we are already handling another exception
             }
           }
           throw;
         }
       }
     }
 
     typedef std::vector<std::string> vstring;
 
     void processSwitchProducers(ParameterSet const& proc_pset, std::string const& processName, ProductRegistry& preg) {
       // Update Switch BranchDescriptions for the chosen case
       struct BranchesCases {
         BranchesCases(std::vector<std::string> cases) : caseLabels{std::move(cases)} {}
         std::vector<BranchKey> chosenBranches;
         std::vector<std::string> caseLabels;
       };
       std::map<std::string, BranchesCases> switchMap;
       for (auto& prod : preg.productListUpdator()) {
         if (prod.second.isSwitchAlias()) {
           auto it = switchMap.find(prod.second.moduleLabel());
           if (it == switchMap.end()) {
             auto const& switchPSet = proc_pset.getParameter<edm::ParameterSet>(prod.second.moduleLabel());
             auto inserted = switchMap.emplace(prod.second.moduleLabel(),
                                               switchPSet.getParameter<std::vector<std::string>>("@all_cases"));
             assert(inserted.second);
             it = inserted.first;
           }
 
           bool found = false;
           for (auto const& productIter : preg.productList()) {
             BranchKey const& branchKey = productIter.first;
             // The alias-for product must be in the same process as
             // the SwitchProducer (earlier processes or SubProcesses
             // may contain products with same type, module label, and
             // instance name)
             if (branchKey.processName() != processName) {
               continue;
             }
 
             BranchDescription const& desc = productIter.second;
             if (desc.branchType() == prod.second.branchType() and
                 desc.unwrappedTypeID().typeInfo() == prod.second.unwrappedTypeID().typeInfo() and
                 branchKey.moduleLabel() == prod.second.switchAliasModuleLabel() and
                 branchKey.productInstanceName() == prod.second.productInstanceName()) {
               prod.second.setSwitchAliasForBranch(desc);
               it->second.chosenBranches.push_back(prod.first);  // with moduleLabel of the Switch
               found = true;
             }
           }
           if (not found) {
             Exception ex(errors::LogicError);
             ex << "Trying to find a BranchDescription to be aliased-for by SwitchProducer with\n"
                << "  friendly class name = " << prod.second.friendlyClassName() << "\n"
                << "  module label = " << prod.second.moduleLabel() << "\n"
                << "  product instance name = " << prod.second.productInstanceName() << "\n"
                << "  process name = " << processName
                << "\n\nbut did not find any. Please contact a framework developer.";
             ex.addContext("Calling Schedule.cc:processSwitchProducers()");
             throw ex;
           }
         }
       }
       if (switchMap.empty())
         return;
 
       for (auto& elem : switchMap) {
         std::sort(elem.second.chosenBranches.begin(), elem.second.chosenBranches.end());
       }
 
       auto addProductsToException = [&preg, &processName](auto const& caseLabels, edm::Exception& ex) {
         std::map<std::string, std::vector<BranchKey>> caseBranches;
         for (auto const& item : preg.productList()) {
           if (item.first.processName() != processName)
             continue;
 
           if (auto found = std::find(caseLabels.begin(), caseLabels.end(), item.first.moduleLabel());
               found != caseLabels.end()) {
             caseBranches[*found].push_back(item.first);
           }
         }
 
         for (auto const& caseLabel : caseLabels) {
           ex << "Products for case " << caseLabel << " (friendly class name, product instance name):\n";
           auto& branches = caseBranches[caseLabel];
           std::sort(branches.begin(), branches.end());
           for (auto const& branch : branches) {
             ex << " " << branch.friendlyClassName() << " " << branch.productInstanceName() << "\n";
           }
         }
       };
 
       // Check that non-chosen cases declare exactly the same branches
       // Also set the alias-for branches to transient
       std::vector<bool> foundBranches;
       for (auto const& switchItem : switchMap) {
         auto const& switchLabel = switchItem.first;
         auto const& chosenBranches = switchItem.second.chosenBranches;
         auto const& caseLabels = switchItem.second.caseLabels;
         foundBranches.resize(chosenBranches.size());
         for (auto const& caseLabel : caseLabels) {
           std::fill(foundBranches.begin(), foundBranches.end(), false);
           for (auto& nonConstItem : preg.productListUpdator()) {
             auto const& item = nonConstItem;
             if (item.first.moduleLabel() == caseLabel and item.first.processName() == processName) {
               // Set the alias-for branch as transient so it gets fully ignored in output.
               // I tried first to implicitly drop all branches with
               // '@' in ProductSelector, but that gave problems on
               // input (those branches would be implicitly dropped on
               // input as well, leading to the SwitchProducer branches
               // do be dropped as dependent ones, as the alias
               // detection logic in RootFile says that the
               // SwitchProducer branches are not alias branches)
               nonConstItem.second.setTransient(true);
 
               auto range = std::equal_range(chosenBranches.begin(),
                                             chosenBranches.end(),
                                             BranchKey(item.first.friendlyClassName(),
                                                       switchLabel,
                                                       item.first.productInstanceName(),
                                                       item.first.processName()));
               if (range.first == range.second) {
                 Exception ex(errors::Configuration);
                 ex << "SwitchProducer " << switchLabel << " has a case " << caseLabel << " with a product "
                    << item.first << " that is not produced by the chosen case "
                    << proc_pset.getParameter<edm::ParameterSet>(switchLabel)
                           .getUntrackedParameter<std::string>("@chosen_case")
                    << ". If the intention is to produce only a subset of the products listed below, each case with "
                       "more products needs to be replaced with an EDAlias to only the necessary products, and the "
                       "EDProducer itself needs to be moved to a Task.\n\n";
                 addProductsToException(caseLabels, ex);
                 throw ex;
               }
               assert(std::distance(range.first, range.second) == 1);
               foundBranches[std::distance(chosenBranches.begin(), range.first)] = true;
 
               // Check that there are no BranchAliases for any of the cases
               auto const& bd = item.second;
               if (not bd.branchAliases().empty()) {
                 auto ex = Exception(errors::UnimplementedFeature)
                           << "SwitchProducer does not support ROOT branch aliases. Got the following ROOT branch "
                              "aliases for SwitchProducer with label "
                           << switchLabel << " for case " << caseLabel << ":";
                 for (auto const& branchAlias : bd.branchAliases()) {
                   ex << " " << branchAlias;
                 }
                 throw ex;
               }
             }
           }
 
           for (size_t i = 0; i < chosenBranches.size(); i++) {
             if (not foundBranches[i]) {
               auto chosenLabel = proc_pset.getParameter<edm::ParameterSet>(switchLabel)
                                      .getUntrackedParameter<std::string>("@chosen_case");
               Exception ex(errors::Configuration);
               ex << "SwitchProducer " << switchLabel << " has a case " << caseLabel
                  << " that does not produce a product " << chosenBranches[i] << " that is produced by the chosen case "
                  << chosenLabel
                  << ". If the intention is to produce only a subset of the products listed below, each case with more "
                     "products needs to be replaced with an EDAlias to only the necessary products, and the "
                     "EDProducer itself needs to be moved to a Task.\n\n";
               addProductsToException(caseLabels, ex);
               throw ex;
             }
           }
         }
       }
     }
 
     void reduceParameterSet(ParameterSet& proc_pset,
                             vstring const& end_path_name_list,
                             vstring& modulesInConfig,
                             std::set<std::string> const& usedModuleLabels,
                             std::map<std::string, std::vector<std::pair<std::string, int>>>& outputModulePathPositions) {
       // Before calculating the ParameterSetID of the top level ParameterSet or
       // saving it in the registry drop from the top level ParameterSet all
       // OutputModules and EDAnalyzers not on trigger paths. If unscheduled
       // production is not enabled also drop all the EDFilters and EDProducers
       // that are not scheduled. Drop the ParameterSet used to configure the module
       // itself. Also drop the other traces of these labels in the top level
       // ParameterSet: Remove that labels from @all_modules and from all the
       // end paths. If this makes any end paths empty, then remove the end path
       // name from @end_paths, and @paths.
 
       // First make a list of labels to drop
       vstring outputModuleLabels;
       std::string edmType;
       std::string const moduleEdmType("@module_edm_type");
       std::string const outputModule("OutputModule");
       std::string const edAnalyzer("EDAnalyzer");
       std::string const edFilter("EDFilter");
       std::string const edProducer("EDProducer");
 
       std::set<std::string> modulesInConfigSet(modulesInConfig.begin(), modulesInConfig.end());
 
       //need a list of all modules on paths in order to determine
       // if an EDAnalyzer only appears on an end path
       vstring scheduledPaths = proc_pset.getParameter<vstring>("@paths");
       std::set<std::string> modulesOnPaths;
       {
         std::set<std::string> noEndPaths(scheduledPaths.begin(), scheduledPaths.end());
         for (auto const& endPath : end_path_name_list) {
           noEndPaths.erase(endPath);
         }
         {
           vstring labels;
           for (auto const& path : noEndPaths) {
             labels = proc_pset.getParameter<vstring>(path);
             modulesOnPaths.insert(labels.begin(), labels.end());
           }
         }
       }
       //Initially fill labelsToBeDropped with all module mentioned in
       // the configuration but which are not being used by the system
       std::vector<std::string> labelsToBeDropped;
       labelsToBeDropped.reserve(modulesInConfigSet.size());
       std::set_difference(modulesInConfigSet.begin(),
                           modulesInConfigSet.end(),
                           usedModuleLabels.begin(),
                           usedModuleLabels.end(),
                           std::back_inserter(labelsToBeDropped));
 
       const unsigned int sizeBeforeOutputModules = labelsToBeDropped.size();
       for (auto const& modLabel : usedModuleLabels) {
         // Do nothing for modules that do not have a ParameterSet. Modules of type
         // PathStatusInserter and EndPathStatusInserter will not have a ParameterSet.
         if (proc_pset.existsAs<ParameterSet>(modLabel)) {
           edmType = proc_pset.getParameterSet(modLabel).getParameter<std::string>(moduleEdmType);
           if (edmType == outputModule) {
             outputModuleLabels.push_back(modLabel);
             labelsToBeDropped.push_back(modLabel);
           }
           if (edmType == edAnalyzer) {
             if (modulesOnPaths.end() == modulesOnPaths.find(modLabel)) {
               labelsToBeDropped.push_back(modLabel);
             }
           }
         }
       }
       //labelsToBeDropped must be sorted
       std::inplace_merge(
           labelsToBeDropped.begin(), labelsToBeDropped.begin() + sizeBeforeOutputModules, labelsToBeDropped.end());
 
       // drop the parameter sets used to configure the modules
       for_all(labelsToBeDropped, std::bind(&ParameterSet::eraseOrSetUntrackedParameterSet, std::ref(proc_pset), _1));
 
       // drop the labels from @all_modules
       vstring::iterator endAfterRemove =
           std::remove_if(modulesInConfig.begin(),
                          modulesInConfig.end(),
                          std::bind(binary_search_string, std::ref(labelsToBeDropped), _1));
       modulesInConfig.erase(endAfterRemove, modulesInConfig.end());
       proc_pset.addParameter<vstring>(std::string("@all_modules"), modulesInConfig);
 
       // drop the labels from all end paths
       vstring endPathsToBeDropped;
       vstring labels;
       for (vstring::const_iterator iEndPath = end_path_name_list.begin(), endEndPath = end_path_name_list.end();
            iEndPath != endEndPath;
            ++iEndPath) {
         labels = proc_pset.getParameter<vstring>(*iEndPath);
         vstring::iterator iSave = labels.begin();
         vstring::iterator iBegin = labels.begin();
 
         for (vstring::iterator iLabel = labels.begin(), iEnd = labels.end(); iLabel != iEnd; ++iLabel) {
           if (binary_search_string(labelsToBeDropped, *iLabel)) {
             if (binary_search_string(outputModuleLabels, *iLabel)) {
               outputModulePathPositions[*iLabel].emplace_back(*iEndPath, iSave - iBegin);
             }
           } else {
             if (iSave != iLabel) {
               iSave->swap(*iLabel);
             }
             ++iSave;
           }
         }
         labels.erase(iSave, labels.end());
         if (labels.empty()) {
           // remove empty end paths and save their names
           proc_pset.eraseSimpleParameter(*iEndPath);
           endPathsToBeDropped.push_back(*iEndPath);
         } else {
           proc_pset.addParameter<vstring>(*iEndPath, labels);
         }
       }
       sort_all(endPathsToBeDropped);
 
       // remove empty end paths from @paths
       endAfterRemove = std::remove_if(scheduledPaths.begin(),
                                       scheduledPaths.end(),
                                       std::bind(binary_search_string, std::ref(endPathsToBeDropped), _1));
       scheduledPaths.erase(endAfterRemove, scheduledPaths.end());
       proc_pset.addParameter<vstring>(std::string("@paths"), scheduledPaths);
 
       // remove empty end paths from @end_paths
       vstring scheduledEndPaths = proc_pset.getParameter<vstring>("@end_paths");
       endAfterRemove = std::remove_if(scheduledEndPaths.begin(),
                                       scheduledEndPaths.end(),
                                       std::bind(binary_search_string, std::ref(endPathsToBeDropped), _1));
       scheduledEndPaths.erase(endAfterRemove, scheduledEndPaths.end());
       proc_pset.addParameter<vstring>(std::string("@end_paths"), scheduledEndPaths);
     }
 
     class RngEDConsumer : public EDConsumerBase {
     public:
       explicit RngEDConsumer(std::set<TypeID>& typesConsumed) {
         Service<RandomNumberGenerator> rng;
         if (rng.isAvailable()) {
           rng->consumes(consumesCollector());
           for (auto const& consumesInfo : this->consumesInfo()) {
             typesConsumed.emplace(consumesInfo.type());
           }
         }
       }
     };
 
     template <typename F>
     auto doCleanup(F&& iF) {
       auto wrapped = [f = std::move(iF)](std::exception_ptr const* iPtr, edm::WaitingTaskHolder iTask) {
         CMS_SA_ALLOW try { f(); } catch (...) {
         }
         if (iPtr) {
           iTask.doneWaiting(*iPtr);
         }
       };
       return wrapped;
     }
   }  // namespace
   // -----------------------------
 
   typedef std::vector<std::string> vstring;
 
   // -----------------------------
 
   Schedule::Schedule(ParameterSet& proc_pset,
                      service::TriggerNamesService const& tns,
                      ProductRegistry& preg,
                      BranchIDListHelper& branchIDListHelper,
                      ProcessBlockHelperBase& processBlockHelper,
                      ThinnedAssociationsHelper& thinnedAssociationsHelper,
                      SubProcessParentageHelper const* subProcessParentageHelper,
                      ExceptionToActionTable const& actions,
                      std::shared_ptr<ActivityRegistry> areg,
                      std::shared_ptr<ProcessConfiguration> processConfiguration,
                      bool hasSubprocesses,
                      PreallocationConfiguration const& prealloc,
                      ProcessContext const* processContext)
       :  //Only create a resultsInserter if there is a trigger path
         resultsInserter_{tns.getTrigPaths().empty()
                              ? std::shared_ptr<TriggerResultInserter>{}
                              : makeInserter(proc_pset, prealloc, preg, actions, areg, processConfiguration)},
         moduleRegistry_(new ModuleRegistry()),
         all_output_communicators_(),
         preallocConfig_(prealloc),
         pathNames_(&tns.getTrigPaths()),
         endPathNames_(&tns.getEndPaths()),
         wantSummary_(tns.wantSummary()) {
     makePathStatusInserters(pathStatusInserters_,
                             *pathNames_,
                             prealloc,
                             preg,
                             areg,
                             processConfiguration,
                             std::string("PathStatusInserter"));
 
     makePathStatusInserters(endPathStatusInserters_,
                             *endPathNames_,
                             prealloc,
                             preg,
                             areg,
                             processConfiguration,
                             std::string("EndPathStatusInserter"));
 
     assert(0 < prealloc.numberOfStreams());
     streamSchedules_.reserve(prealloc.numberOfStreams());
     for (unsigned int i = 0; i < prealloc.numberOfStreams(); ++i) {
       streamSchedules_.emplace_back(make_shared_noexcept_false<StreamSchedule>(resultsInserter(),
                                                                                pathStatusInserters_,
                                                                                endPathStatusInserters_,
                                                                                moduleRegistry(),
                                                                                proc_pset,
                                                                                tns,
                                                                                prealloc,
                                                                                preg,
                                                                                branchIDListHelper,
                                                                                actions,
                                                                                areg,
                                                                                processConfiguration,
                                                                                StreamID{i},
                                                                                processContext));
     }
 
     //TriggerResults are injected automatically by StreamSchedules and are
     // unknown to the ModuleRegistry
     const std::string kTriggerResults("TriggerResults");
     std::vector<std::string> modulesToUse;
     modulesToUse.reserve(streamSchedules_[0]->allWorkers().size());
     for (auto const& worker : streamSchedules_[0]->allWorkers()) {
       if (worker->description()->moduleLabel() != kTriggerResults) {
         modulesToUse.push_back(worker->description()->moduleLabel());
       }
     }
     //The unscheduled modules are at the end of the list, but we want them at the front
     unsigned int const nUnscheduledModules = streamSchedules_[0]->numberOfUnscheduledModules();
     if (nUnscheduledModules > 0) {
       std::vector<std::string> temp;
       temp.reserve(modulesToUse.size());
       auto itBeginUnscheduled = modulesToUse.begin() + modulesToUse.size() - nUnscheduledModules;
       std::copy(itBeginUnscheduled, modulesToUse.end(), std::back_inserter(temp));
       std::copy(modulesToUse.begin(), itBeginUnscheduled, std::back_inserter(temp));
       temp.swap(modulesToUse);
     }
 
     // propagate_const<T> has no reset() function
     globalSchedule_ = std::make_unique<GlobalSchedule>(resultsInserter(),
                                                        pathStatusInserters_,
                                                        endPathStatusInserters_,
                                                        moduleRegistry(),
                                                        modulesToUse,
                                                        proc_pset,
                                                        preg,
                                                        prealloc,
                                                        actions,
                                                        areg,
                                                        processConfiguration,
                                                        processContext);
 
     //TriggerResults is not in the top level ParameterSet so the call to
     // reduceParameterSet would fail to find it. Just remove it up front.
     std::set<std::string> usedModuleLabels;
     for (auto const& worker : allWorkers()) {
       if (worker->description()->moduleLabel() != kTriggerResults) {
         usedModuleLabels.insert(worker->description()->moduleLabel());
       }
     }
     std::vector<std::string> modulesInConfig(proc_pset.getParameter<std::vector<std::string>>("@all_modules"));
     std::map<std::string, std::vector<std::pair<std::string, int>>> outputModulePathPositions;
     reduceParameterSet(proc_pset, tns.getEndPaths(), modulesInConfig, usedModuleLabels, outputModulePathPositions);
     {
       std::vector<std::string> aliases = proc_pset.getParameter<std::vector<std::string>>("@all_aliases");
       detail::processEDAliases(aliases, {}, proc_pset, processConfiguration->processName(), preg);
     }
 
     // At this point all BranchDescriptions are created. Mark now the
     // ones of unscheduled workers to be on-demand.
     if (nUnscheduledModules > 0) {
       std::set<std::string> unscheduledModules(modulesToUse.begin(), modulesToUse.begin() + nUnscheduledModules);
       preg.setUnscheduledProducts(unscheduledModules);
     }
 
     processSwitchProducers(proc_pset, processConfiguration->processName(), preg);
     proc_pset.registerIt();
     processConfiguration->setParameterSetID(proc_pset.id());
     processConfiguration->setProcessConfigurationID();
 
     // This is used for a little sanity-check to make sure no code
     // modifications alter the number of workers at a later date.
     size_t all_workers_count = allWorkers().size();
 
     moduleRegistry_->forAllModuleHolders([this](maker::ModuleHolder* iHolder) {
       auto comm = iHolder->createOutputModuleCommunicator();
       if (comm) {
         all_output_communicators_.emplace_back(std::shared_ptr<OutputModuleCommunicator>{comm.release()});
       }
     });
     // Now that the output workers are filled in, set any output limits or information.
     limitOutput(proc_pset, branchIDListHelper.branchIDLists(), subProcessParentageHelper);
 
     // Sanity check: make sure nobody has added a worker after we've
     // already relied on the WorkerManager being full.
     assert(all_workers_count == allWorkers().size());
 
     branchIDListHelper.updateFromRegistry(preg);
 
     for (auto const& worker : streamSchedules_[0]->allWorkers()) {
       worker->registerThinnedAssociations(preg, thinnedAssociationsHelper);
     }
 
     processBlockHelper.updateForNewProcess(preg, processConfiguration->processName());
 
     // The output modules consume products in kept branches.
     // So we must set this up before freezing.
     for (auto& c : all_output_communicators_) {
       c->selectProducts(preg, thinnedAssociationsHelper, processBlockHelper);
     }
 
     for (auto& product : preg.productListUpdator()) {
       setIsMergeable(product.second);
     }
 
     {
       // We now get a collection of types that may be consumed.
       std::set<TypeID> productTypesConsumed;
       std::set<TypeID> elementTypesConsumed;
       // Loop over all modules
       for (auto const& worker : allWorkers()) {
         for (auto const& consumesInfo : worker->consumesInfo()) {
           if (consumesInfo.kindOfType() == PRODUCT_TYPE) {
             productTypesConsumed.emplace(consumesInfo.type());
           } else {
             elementTypesConsumed.emplace(consumesInfo.type());
           }
         }
       }
       // The SubProcess class is not a module, yet it may consume.
       if (hasSubprocesses) {
         productTypesConsumed.emplace(typeid(TriggerResults));
       }
       // The RandomNumberGeneratorService is not a module, yet it consumes.
       { RngEDConsumer rngConsumer = RngEDConsumer(productTypesConsumed); }
       preg.setFrozen(productTypesConsumed, elementTypesConsumed, processConfiguration->processName());
     }
 
     for (auto& c : all_output_communicators_) {
       c->setEventSelectionInfo(outputModulePathPositions, preg.anyProductProduced());
     }
 
     if (wantSummary_) {
       std::vector<const ModuleDescription*> modDesc;
       const auto& workers = allWorkers();
       modDesc.reserve(workers.size());
 
       std::transform(workers.begin(),
                      workers.end(),
                      std::back_inserter(modDesc),
                      [](const Worker* iWorker) -> const ModuleDescription* { return iWorker->description(); });
 
       // propagate_const<T> has no reset() function
       summaryTimeKeeper_ = std::make_unique<SystemTimeKeeper>(prealloc.numberOfStreams(), modDesc, tns, processContext);
       auto timeKeeperPtr = summaryTimeKeeper_.get();
 
       areg->watchPreModuleDestruction(timeKeeperPtr, &SystemTimeKeeper::removeModuleIfExists);
 
       areg->watchPreModuleEvent(timeKeeperPtr, &SystemTimeKeeper::startModuleEvent);
       areg->watchPostModuleEvent(timeKeeperPtr, &SystemTimeKeeper::stopModuleEvent);
       areg->watchPreModuleEventAcquire(timeKeeperPtr, &SystemTimeKeeper::restartModuleEvent);
       areg->watchPostModuleEventAcquire(timeKeeperPtr, &SystemTimeKeeper::stopModuleEvent);
       areg->watchPreModuleEventDelayedGet(timeKeeperPtr, &SystemTimeKeeper::pauseModuleEvent);
       areg->watchPostModuleEventDelayedGet(timeKeeperPtr, &SystemTimeKeeper::restartModuleEvent);
 
       areg->watchPreSourceEvent(timeKeeperPtr, &SystemTimeKeeper::startEvent);
       areg->watchPostEvent(timeKeeperPtr, &SystemTimeKeeper::stopEvent);
 
       areg->watchPrePathEvent(timeKeeperPtr, &SystemTimeKeeper::startPath);
       areg->watchPostPathEvent(timeKeeperPtr, &SystemTimeKeeper::stopPath);
 
       areg->watchPostBeginJob(timeKeeperPtr, &SystemTimeKeeper::startProcessingLoop);
       areg->watchPreEndJob(timeKeeperPtr, &SystemTimeKeeper::stopProcessingLoop);
       //areg->preModuleEventSignal_.connect([timeKeeperPtr](StreamContext const& iContext, ModuleCallingContext const& iMod) {
       //timeKeeperPtr->startModuleEvent(iContext,iMod);
       //});
     }
 
   }  // Schedule::Schedule
 
   void Schedule::limitOutput(ParameterSet const& proc_pset,
                              BranchIDLists const& branchIDLists,
                              SubProcessParentageHelper const* subProcessParentageHelper) {
     std::string const output("output");
 
     ParameterSet const& maxEventsPSet = proc_pset.getUntrackedParameterSet("maxEvents");
     int maxEventSpecs = 0;
     int maxEventsOut = -1;
     ParameterSet const* vMaxEventsOut = nullptr;
     std::vector<std::string> intNamesE = maxEventsPSet.getParameterNamesForType<int>(false);
     if (search_all(intNamesE, output)) {
       maxEventsOut = maxEventsPSet.getUntrackedParameter<int>(output);
       ++maxEventSpecs;
     }
     std::vector<std::string> psetNamesE;
     maxEventsPSet.getParameterSetNames(psetNamesE, false);
     if (search_all(psetNamesE, output)) {
       vMaxEventsOut = &maxEventsPSet.getUntrackedParameterSet(output);
       ++maxEventSpecs;
     }
 
     if (maxEventSpecs > 1) {
       throw Exception(errors::Configuration)
           << "\nAt most, one form of 'output' may appear in the 'maxEvents' parameter set";
     }
 
     for (auto& c : all_output_communicators_) {
       OutputModuleDescription desc(branchIDLists, maxEventsOut, subProcessParentageHelper);
       if (vMaxEventsOut != nullptr && !vMaxEventsOut->empty()) {
         std::string const& moduleLabel = c->description().moduleLabel();
         try {
           desc.maxEvents_ = vMaxEventsOut->getUntrackedParameter<int>(moduleLabel);
         } catch (Exception const&) {
           throw Exception(errors::Configuration)
               << "\nNo entry in 'maxEvents' for output module label '" << moduleLabel << "'.\n";
         }
       }
       c->configure(desc);
     }
   }
 
   bool Schedule::terminate() const {
     if (all_output_communicators_.empty()) {
       return false;
     }
     for (auto& c : all_output_communicators_) {
       if (!c->limitReached()) {
         // Found an output module that has not reached output event count.
         return false;
       }
     }
     LogInfo("SuccessfulTermination") << "The job is terminating successfully because each output module\n"
                                      << "has reached its configured limit.\n";
     return true;
   }
 
   void Schedule::endJob(ExceptionCollector& collector) {
     globalSchedule_->endJob(collector);
     if (collector.hasThrown()) {
       return;
     }
 
     if (wantSummary_ == false)
       return;
     {
       TriggerReport tr;
       getTriggerReport(tr);
 
       // The trigger report (pass/fail etc.):
 
       LogFwkVerbatim("FwkSummary") << "";
       if (streamSchedules_[0]->context().processContext()->isSubProcess()) {
         LogFwkVerbatim("FwkSummary") << "TrigReport Process: "
                                      << streamSchedules_[0]->context().processContext()->processName();
       }
       LogFwkVerbatim("FwkSummary") << "TrigReport "
                                    << "---------- Event  Summary ------------";
       if (!tr.trigPathSummaries.empty()) {
         LogFwkVerbatim("FwkSummary") << "TrigReport"
                                      << " Events total = " << tr.eventSummary.totalEvents
                                      << " passed = " << tr.eventSummary.totalEventsPassed
                                      << " failed = " << tr.eventSummary.totalEventsFailed << "";
       } else {
         LogFwkVerbatim("FwkSummary") << "TrigReport"
                                      << " Events total = " << tr.eventSummary.totalEvents
                                      << " passed = " << tr.eventSummary.totalEvents << " failed = 0";
       }
 
       LogFwkVerbatim("FwkSummary") << "";
       LogFwkVerbatim("FwkSummary") << "TrigReport "
                                    << "---------- Path   Summary ------------";
       LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(10) << "Trig Bit#"
                                    << " " << std::right << std::setw(10) << "Executed"
                                    << " " << std::right << std::setw(10) << "Passed"
                                    << " " << std::right << std::setw(10) << "Failed"
                                    << " " << std::right << std::setw(10) << "Error"
                                    << " "
                                    << "Name"
                                    << "";
       for (auto const& p : tr.trigPathSummaries) {
         LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(5) << 1 << std::right << std::setw(5)
                                      << p.bitPosition << " " << std::right << std::setw(10) << p.timesRun << " "
                                      << std::right << std::setw(10) << p.timesPassed << " " << std::right
                                      << std::setw(10) << p.timesFailed << " " << std::right << std::setw(10)
                                      << p.timesExcept << " " << p.name << "";
       }
 
       /*
       std::vector<int>::const_iterator epi = empty_trig_paths_.begin();
       std::vector<int>::const_iterator epe = empty_trig_paths_.end();
       std::vector<std::string>::const_iterator  epn = empty_trig_path_names_.begin();
       for (; epi != epe; ++epi, ++epn) {
 
         LogFwkVerbatim("FwkSummary") << "TrigReport "
         << std::right << std::setw(5) << 1
         << std::right << std::setw(5) << *epi << " "
         << std::right << std::setw(10) << totalEvents() << " "
         << std::right << std::setw(10) << totalEvents() << " "
         << std::right << std::setw(10) << 0 << " "
         << std::right << std::setw(10) << 0 << " "
         << *epn << "";
       }
        */
 
       LogFwkVerbatim("FwkSummary") << "";
       LogFwkVerbatim("FwkSummary") << "TrigReport "
                                    << "-------End-Path   Summary ------------";
       LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(10) << "Trig Bit#"
                                    << " " << std::right << std::setw(10) << "Executed"
                                    << " " << std::right << std::setw(10) << "Passed"
                                    << " " << std::right << std::setw(10) << "Failed"
                                    << " " << std::right << std::setw(10) << "Error"
                                    << " "
                                    << "Name"
                                    << "";
       for (auto const& p : tr.endPathSummaries) {
         LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(5) << 0 << std::right << std::setw(5)
                                      << p.bitPosition << " " << std::right << std::setw(10) << p.timesRun << " "
                                      << std::right << std::setw(10) << p.timesPassed << " " << std::right
                                      << std::setw(10) << p.timesFailed << " " << std::right << std::setw(10)
                                      << p.timesExcept << " " << p.name << "";
       }
 
       for (auto const& p : tr.trigPathSummaries) {
         LogFwkVerbatim("FwkSummary") << "";
         LogFwkVerbatim("FwkSummary") << "TrigReport "
                                      << "---------- Modules in Path: " << p.name << " ------------";
         LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(10) << "Trig Bit#"
                                      << " " << std::right << std::setw(10) << "Visited"
                                      << " " << std::right << std::setw(10) << "Passed"
                                      << " " << std::right << std::setw(10) << "Failed"
                                      << " " << std::right << std::setw(10) << "Error"
                                      << " "
                                      << "Name"
                                      << "";
 
         for (auto const& mod : p.moduleInPathSummaries) {
           LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(5) << 1 << std::right << std::setw(5)
                                        << mod.bitPosition << " " << std::right << std::setw(10) << mod.timesVisited
                                        << " " << std::right << std::setw(10) << mod.timesPassed << " " << std::right
                                        << std::setw(10) << mod.timesFailed << " " << std::right << std::setw(10)
                                        << mod.timesExcept << " " << mod.moduleLabel << "";
         }
       }
 
       for (auto const& p : tr.endPathSummaries) {
         LogFwkVerbatim("FwkSummary") << "";
         LogFwkVerbatim("FwkSummary") << "TrigReport "
                                      << "------ Modules in End-Path: " << p.name << " ------------";
         LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(10) << "Trig Bit#"
                                      << " " << std::right << std::setw(10) << "Visited"
                                      << " " << std::right << std::setw(10) << "Passed"
                                      << " " << std::right << std::setw(10) << "Failed"
                                      << " " << std::right << std::setw(10) << "Error"
                                      << " "
                                      << "Name"
                                      << "";
 
         unsigned int bitpos = 0;
         for (auto const& mod : p.moduleInPathSummaries) {
           LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(5) << 0 << std::right << std::setw(5)
                                        << bitpos << " " << std::right << std::setw(10) << mod.timesVisited << " "
                                        << std::right << std::setw(10) << mod.timesPassed << " " << std::right
                                        << std::setw(10) << mod.timesFailed << " " << std::right << std::setw(10)
                                        << mod.timesExcept << " " << mod.moduleLabel << "";
           ++bitpos;
         }
       }
 
       LogFwkVerbatim("FwkSummary") << "";
       LogFwkVerbatim("FwkSummary") << "TrigReport "
                                    << "---------- Module Summary ------------";
       LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(10) << "Visited"
                                    << " " << std::right << std::setw(10) << "Executed"
                                    << " " << std::right << std::setw(10) << "Passed"
                                    << " " << std::right << std::setw(10) << "Failed"
                                    << " " << std::right << std::setw(10) << "Error"
                                    << " "
                                    << "Name"
                                    << "";
       for (auto const& worker : tr.workerSummaries) {
         LogFwkVerbatim("FwkSummary") << "TrigReport " << std::right << std::setw(10) << worker.timesVisited << " "
                                      << std::right << std::setw(10) << worker.timesRun << " " << std::right
                                      << std::setw(10) << worker.timesPassed << " " << std::right << std::setw(10)
                                      << worker.timesFailed << " " << std::right << std::setw(10) << worker.timesExcept
                                      << " " << worker.moduleLabel << "";
       }
       LogFwkVerbatim("FwkSummary") << "";
     }
     // The timing report (CPU and Real Time):
     TriggerTimingReport tr;
     getTriggerTimingReport(tr);
 
     const int totalEvents = std::max(1, tr.eventSummary.totalEvents);
 
     LogFwkVerbatim("FwkSummary") << "TimeReport "
                                  << "---------- Event  Summary ---[sec]----";
     LogFwkVerbatim("FwkSummary") << "TimeReport" << std::setprecision(6) << std::fixed
                                  << "       event loop CPU/event = " << tr.eventSummary.cpuTime / totalEvents;
     LogFwkVerbatim("FwkSummary") << "TimeReport" << std::setprecision(6) << std::fixed
                                  << "      event loop Real/event = " << tr.eventSummary.realTime / totalEvents;
     LogFwkVerbatim("FwkSummary") << "TimeReport" << std::setprecision(6) << std::fixed
                                  << "     sum Streams Real/event = " << tr.eventSummary.sumStreamRealTime / totalEvents;
     LogFwkVerbatim("FwkSummary") << "TimeReport" << std::setprecision(6) << std::fixed
                                  << " efficiency CPU/Real/thread = "
                                  << tr.eventSummary.cpuTime / tr.eventSummary.realTime /
                                         preallocConfig_.numberOfThreads();
 
     constexpr int kColumn1Size = 10;
     constexpr int kColumn2Size = 12;
     constexpr int kColumn3Size = 12;
     LogFwkVerbatim("FwkSummary") << "";
     LogFwkVerbatim("FwkSummary") << "TimeReport "
                                  << "---------- Path   Summary ---[Real sec]----";
     LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                  << " " << std::right << std::setw(kColumn2Size) << "per exec"
                                  << "  Name";
     for (auto const& p : tr.trigPathSummaries) {
       const int timesRun = std::max(1, p.timesRun);
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::setprecision(6) << std::fixed << std::right
                                    << std::setw(kColumn1Size) << p.realTime / totalEvents << " " << std::right
                                    << std::setw(kColumn2Size) << p.realTime / timesRun << "  " << p.name << "";
     }
     LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                  << " " << std::right << std::setw(kColumn2Size) << "per exec"
                                  << "  Name"
                                  << "";
 
     LogFwkVerbatim("FwkSummary") << "";
     LogFwkVerbatim("FwkSummary") << "TimeReport "
                                  << "-------End-Path   Summary ---[Real sec]----";
     LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                  << " " << std::right << std::setw(kColumn2Size) << "per exec"
                                  << "  Name"
                                  << "";
     for (auto const& p : tr.endPathSummaries) {
       const int timesRun = std::max(1, p.timesRun);
 
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::setprecision(6) << std::fixed << std::right
                                    << std::setw(kColumn1Size) << p.realTime / totalEvents << " " << std::right
                                    << std::setw(kColumn2Size) << p.realTime / timesRun << "  " << p.name << "";
     }
     LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                  << " " << std::right << std::setw(kColumn2Size) << "per exec"
                                  << "  Name"
                                  << "";
 
     for (auto const& p : tr.trigPathSummaries) {
       LogFwkVerbatim("FwkSummary") << "";
       LogFwkVerbatim("FwkSummary") << "TimeReport "
                                    << "---------- Modules in Path: " << p.name << " ---[Real sec]----";
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                    << " " << std::right << std::setw(kColumn2Size) << "per visit"
                                    << "  Name"
                                    << "";
       for (auto const& mod : p.moduleInPathSummaries) {
         LogFwkVerbatim("FwkSummary") << "TimeReport " << std::setprecision(6) << std::fixed << std::right
                                      << std::setw(kColumn1Size) << mod.realTime / totalEvents << " " << std::right
                                      << std::setw(kColumn2Size) << mod.realTime / std::max(1, mod.timesVisited) << "  "
                                      << mod.moduleLabel << "";
       }
     }
     if (not tr.trigPathSummaries.empty()) {
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                    << " " << std::right << std::setw(kColumn2Size) << "per visit"
                                    << "  Name"
                                    << "";
     }
     for (auto const& p : tr.endPathSummaries) {
       LogFwkVerbatim("FwkSummary") << "";
       LogFwkVerbatim("FwkSummary") << "TimeReport "
                                    << "------ Modules in End-Path: " << p.name << " ---[Real sec]----";
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                    << " " << std::right << std::setw(kColumn2Size) << "per visit"
                                    << "  Name"
                                    << "";
       for (auto const& mod : p.moduleInPathSummaries) {
         LogFwkVerbatim("FwkSummary") << "TimeReport " << std::setprecision(6) << std::fixed << std::right
                                      << std::setw(kColumn1Size) << mod.realTime / totalEvents << " " << std::right
                                      << std::setw(kColumn2Size) << mod.realTime / std::max(1, mod.timesVisited) << "  "
                                      << mod.moduleLabel << "";
       }
     }
     if (not tr.endPathSummaries.empty()) {
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                    << " " << std::right << std::setw(kColumn2Size) << "per visit"
                                    << "  Name"
                                    << "";
     }
     LogFwkVerbatim("FwkSummary") << "";
     LogFwkVerbatim("FwkSummary") << "TimeReport "
                                  << "---------- Module Summary ---[Real sec]----";
     LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                  << " " << std::right << std::setw(kColumn2Size) << "per exec"
                                  << " " << std::right << std::setw(kColumn3Size) << "per visit"
                                  << "  Name"
                                  << "";
     for (auto const& worker : tr.workerSummaries) {
       LogFwkVerbatim("FwkSummary") << "TimeReport " << std::setprecision(6) << std::fixed << std::right
                                    << std::setw(kColumn1Size) << worker.realTime / totalEvents << " " << std::right
                                    << std::setw(kColumn2Size) << worker.realTime / std::max(1, worker.timesRun) << " "
                                    << std::right << std::setw(kColumn3Size)
                                    << worker.realTime / std::max(1, worker.timesVisited) << "  " << worker.moduleLabel
                                    << "";
     }
     LogFwkVerbatim("FwkSummary") << "TimeReport " << std::right << std::setw(kColumn1Size) << "per event"
                                  << " " << std::right << std::setw(kColumn2Size) << "per exec"
                                  << " " << std::right << std::setw(kColumn3Size) << "per visit"
                                  << "  Name"
                                  << "";
 
     LogFwkVerbatim("FwkSummary") << "";
     LogFwkVerbatim("FwkSummary") << "T---Report end!"
                                  << "";
     LogFwkVerbatim("FwkSummary") << "";
   }
 
   void Schedule::closeOutputFiles() {
     using std::placeholders::_1;
     for_all(all_output_communicators_, std::bind(&OutputModuleCommunicator::closeFile, _1));
     for (auto& worker : allWorkers()) {
       worker->respondToCloseOutputFile();
     }
   }
 
   void Schedule::openOutputFiles(FileBlock& fb) {
     using std::placeholders::_1;
     for_all(all_output_communicators_, std::bind(&OutputModuleCommunicator::openFile, _1, std::cref(fb)));
   }
 
   void Schedule::writeRunAsync(WaitingTaskHolder task,
                                RunPrincipal const& rp,
                                ProcessContext const* processContext,
                                ActivityRegistry* activityRegistry,
                                MergeableRunProductMetadata const* mergeableRunProductMetadata) {
     auto token = ServiceRegistry::instance().presentToken();
     GlobalContext globalContext(GlobalContext::Transition::kWriteRun,
                                 LuminosityBlockID(rp.run(), 0),
                                 rp.index(),
                                 LuminosityBlockIndex::invalidLuminosityBlockIndex(),
                                 rp.endTime(),
                                 processContext);
 
     using namespace edm::waiting_task;
     chain::first([&](auto nextTask) {
       //services can depend on other services
       ServiceRegistry::Operate op(token);
 
       // Propagating the exception would be nontrivial, and signal actions are not supposed to throw exceptions
       CMS_SA_ALLOW try { activityRegistry->preGlobalWriteRunSignal_(globalContext); } catch (...) {
       }
       for (auto& c : all_output_communicators_) {
         c->writeRunAsync(nextTask, rp, processContext, activityRegistry, mergeableRunProductMetadata);
       }
     }) | chain::then(doCleanup([activityRegistry, globalContext, token]() {
       //services can depend on other services
       ServiceRegistry::Operate op(token);
 
       activityRegistry->postGlobalWriteRunSignal_(globalContext);
     })) |
         chain::runLast(task);
   }
 
   void Schedule::writeProcessBlockAsync(WaitingTaskHolder task,
                                         ProcessBlockPrincipal const& pbp,
                                         ProcessContext const* processContext,
                                         ActivityRegistry* activityRegistry) {
     auto token = ServiceRegistry::instance().presentToken();
     GlobalContext globalContext(GlobalContext::Transition::kWriteProcessBlock,
                                 LuminosityBlockID(),
                                 RunIndex::invalidRunIndex(),
                                 LuminosityBlockIndex::invalidLuminosityBlockIndex(),
                                 Timestamp::invalidTimestamp(),
                                 processContext);
 
     using namespace edm::waiting_task;
     chain::first([&](auto nextTask) {
       // Propagating the exception would be nontrivial, and signal actions are not supposed to throw exceptions
       ServiceRegistry::Operate op(token);
       CMS_SA_ALLOW try { activityRegistry->preWriteProcessBlockSignal_(globalContext); } catch (...) {
       }
       for (auto& c : all_output_communicators_) {
         c->writeProcessBlockAsync(nextTask, pbp, processContext, activityRegistry);
       }
     }) | chain::then(doCleanup([activityRegistry, globalContext, token]() {
       //services can depend on other services
       ServiceRegistry::Operate op(token);
 
       activityRegistry->postWriteProcessBlockSignal_(globalContext);
     })) |
         chain::runLast(std::move(task));
   }
 
   void Schedule::writeLumiAsync(WaitingTaskHolder task,
                                 LuminosityBlockPrincipal const& lbp,
                                 ProcessContext const* processContext,
                                 ActivityRegistry* activityRegistry) {
     auto token = ServiceRegistry::instance().presentToken();
     GlobalContext globalContext(GlobalContext::Transition::kWriteLuminosityBlock,
                                 lbp.id(),
                                 lbp.runPrincipal().index(),
                                 lbp.index(),
                                 lbp.beginTime(),
                                 processContext);
 
     using namespace edm::waiting_task;
     chain::first([&](auto nextTask) {
       ServiceRegistry::Operate op(token);
       CMS_SA_ALLOW try { activityRegistry->preGlobalWriteLumiSignal_(globalContext); } catch (...) {
       }
       for (auto& c : all_output_communicators_) {
         c->writeLumiAsync(nextTask, lbp, processContext, activityRegistry);
       }
     }) | chain::then(doCleanup([activityRegistry, globalContext, token]() {
       //services can depend on other services
       ServiceRegistry::Operate op(token);
 
       activityRegistry->postGlobalWriteLumiSignal_(globalContext);
     })) |
         chain::runLast(task);
   }
 
   bool Schedule::shouldWeCloseOutput() const {
     using std::placeholders::_1;
     // Return true iff at least one output module returns true.
     return (std::find_if(all_output_communicators_.begin(),
                          all_output_communicators_.end(),
                          std::bind(&OutputModuleCommunicator::shouldWeCloseFile, _1)) !=
             all_output_communicators_.end());
   }
 
   void Schedule::respondToOpenInputFile(FileBlock const& fb) {
     using std::placeholders::_1;
     for_all(allWorkers(), std::bind(&Worker::respondToOpenInputFile, _1, std::cref(fb)));
   }
 
   void Schedule::respondToCloseInputFile(FileBlock const& fb) {
     using std::placeholders::_1;
     for_all(allWorkers(), std::bind(&Worker::respondToCloseInputFile, _1, std::cref(fb)));
   }
 
   void Schedule::beginJob(ProductRegistry const& iRegistry,
                           eventsetup::ESRecordsToProxyIndices const& iESIndices,
                           ProcessBlockHelperBase const& processBlockHelperBase) {
     globalSchedule_->beginJob(iRegistry, iESIndices, processBlockHelperBase);
   }
 
   void Schedule::beginStream(unsigned int iStreamID) {
     assert(iStreamID < streamSchedules_.size());
     streamSchedules_[iStreamID]->beginStream();
   }
 
   void Schedule::endStream(unsigned int iStreamID) {
     assert(iStreamID < streamSchedules_.size());
     streamSchedules_[iStreamID]->endStream();
   }
 
   void Schedule::processOneEventAsync(WaitingTaskHolder iTask,
                                       unsigned int iStreamID,
                                       EventTransitionInfo& info,
                                       ServiceToken const& token) {
     assert(iStreamID < streamSchedules_.size());
     streamSchedules_[iStreamID]->processOneEventAsync(std::move(iTask), info, token, pathStatusInserters_);
   }
 
   bool Schedule::changeModule(std::string const& iLabel,
                               ParameterSet const& iPSet,
                               const ProductRegistry& iRegistry,
                               eventsetup::ESRecordsToProxyIndices const& iIndices) {
     Worker* found = nullptr;
     for (auto const& worker : allWorkers()) {
       if (worker->description()->moduleLabel() == iLabel) {
         found = worker;
         break;
       }
     }
     if (nullptr == found) {
       return false;
     }
 
     auto newMod = moduleRegistry_->replaceModule(iLabel, iPSet, preallocConfig_);
 
     globalSchedule_->replaceModule(newMod, iLabel);
 
     for (auto& s : streamSchedules_) {
       s->replaceModule(newMod, iLabel);
     }
 
     {
       //Need to updateLookup in order to make getByToken work
       auto const processBlockLookup = iRegistry.productLookup(InProcess);
       auto const runLookup = iRegistry.productLookup(InRun);
       auto const lumiLookup = iRegistry.productLookup(InLumi);
       auto const eventLookup = iRegistry.productLookup(InEvent);
       found->updateLookup(InProcess, *runLookup);
       found->updateLookup(InRun, *runLookup);
       found->updateLookup(InLumi, *lumiLookup);
       found->updateLookup(InEvent, *eventLookup);
       found->updateLookup(iIndices);
 
       auto const& processName = newMod->moduleDescription().processName();
       auto const& processBlockModuleToIndicies = processBlockLookup->indiciesForModulesInProcess(processName);
       auto const& runModuleToIndicies = runLookup->indiciesForModulesInProcess(processName);
       auto const& lumiModuleToIndicies = lumiLookup->indiciesForModulesInProcess(processName);
       auto const& eventModuleToIndicies = eventLookup->indiciesForModulesInProcess(processName);
       found->resolvePutIndicies(InProcess, processBlockModuleToIndicies);
       found->resolvePutIndicies(InRun, runModuleToIndicies);
       found->resolvePutIndicies(InLumi, lumiModuleToIndicies);
       found->resolvePutIndicies(InEvent, eventModuleToIndicies);
     }
 
     return true;
   }
 
   void Schedule::deleteModule(std::string const& iLabel, ActivityRegistry* areg) {
     globalSchedule_->deleteModule(iLabel);
     for (auto& stream : streamSchedules_) {
       stream->deleteModule(iLabel);
     }
     moduleRegistry_->deleteModule(iLabel, areg->preModuleDestructionSignal_, areg->postModuleDestructionSignal_);
   }
 
   void Schedule::initializeEarlyDelete(std::vector<std::string> const& branchesToDeleteEarly,
                                        edm::ProductRegistry const& preg) {
     for (auto& stream : streamSchedules_) {
       stream->initializeEarlyDelete(*moduleRegistry(), branchesToDeleteEarly, preg);
     }
   }
 
   std::vector<ModuleDescription const*> Schedule::getAllModuleDescriptions() const {
     std::vector<ModuleDescription const*> result;
     result.reserve(allWorkers().size());
 
     for (auto const& worker : allWorkers()) {
       ModuleDescription const* p = worker->description();
       result.push_back(p);
     }
     return result;
   }
 
   Schedule::AllWorkers const& Schedule::allWorkers() const { return globalSchedule_->allWorkers(); }
 
   void Schedule::convertCurrentProcessAlias(std::string const& processName) {
     for (auto const& worker : allWorkers()) {
       worker->convertCurrentProcessAlias(processName);
     }
   }
 
   void Schedule::availablePaths(std::vector<std::string>& oLabelsToFill) const {
     streamSchedules_[0]->availablePaths(oLabelsToFill);
   }
 
   void Schedule::triggerPaths(std::vector<std::string>& oLabelsToFill) const { oLabelsToFill = *pathNames_; }
 
   void Schedule::endPaths(std::vector<std::string>& oLabelsToFill) const { oLabelsToFill = *endPathNames_; }
 
   void Schedule::modulesInPath(std::string const& iPathLabel, std::vector<std::string>& oLabelsToFill) const {
     streamSchedules_[0]->modulesInPath(iPathLabel, oLabelsToFill);
   }
 
   void Schedule::moduleDescriptionsInPath(std::string const& iPathLabel,
                                           std::vector<ModuleDescription const*>& descriptions,
                                           unsigned int hint) const {
     streamSchedules_[0]->moduleDescriptionsInPath(iPathLabel, descriptions, hint);
   }
 
   void Schedule::moduleDescriptionsInEndPath(std::string const& iEndPathLabel,
                                              std::vector<ModuleDescription const*>& descriptions,
                                              unsigned int hint) const {
     streamSchedules_[0]->moduleDescriptionsInEndPath(iEndPathLabel, descriptions, hint);
   }
 
   void Schedule::fillModuleAndConsumesInfo(
       std::vector<ModuleDescription const*>& allModuleDescriptions,
       std::vector<std::pair<unsigned int, unsigned int>>& moduleIDToIndex,
       std::array<std::vector<std::vector<ModuleDescription const*>>, NumBranchTypes>& modulesWhoseProductsAreConsumedBy,
       std::vector<std::vector<ModuleProcessName>>& modulesInPreviousProcessesWhoseProductsAreConsumedBy,
       ProductRegistry const& preg) const {
     allModuleDescriptions.clear();
     moduleIDToIndex.clear();
     for (auto iBranchType = 0U; iBranchType < NumBranchTypes; ++iBranchType) {
       modulesWhoseProductsAreConsumedBy[iBranchType].clear();
     }
     modulesInPreviousProcessesWhoseProductsAreConsumedBy.clear();
 
     allModuleDescriptions.reserve(allWorkers().size());
     moduleIDToIndex.reserve(allWorkers().size());
     for (auto iBranchType = 0U; iBranchType < NumBranchTypes; ++iBranchType) {
       modulesWhoseProductsAreConsumedBy[iBranchType].resize(allWorkers().size());
     }
     modulesInPreviousProcessesWhoseProductsAreConsumedBy.resize(allWorkers().size());
 
     std::map<std::string, ModuleDescription const*> labelToDesc;
     unsigned int i = 0;
     for (auto const& worker : allWorkers()) {
       ModuleDescription const* p = worker->description();
       allModuleDescriptions.push_back(p);
       moduleIDToIndex.push_back(std::pair<unsigned int, unsigned int>(p->id(), i));
       labelToDesc[p->moduleLabel()] = p;
       ++i;
     }
     sort_all(moduleIDToIndex);
 
     i = 0;
     for (auto const& worker : allWorkers()) {
       std::array<std::vector<ModuleDescription const*>*, NumBranchTypes> modules;
       for (auto iBranchType = 0U; iBranchType < NumBranchTypes; ++iBranchType) {
         modules[iBranchType] = &modulesWhoseProductsAreConsumedBy[iBranchType].at(i);
       }
 
       std::vector<ModuleProcessName>& modulesInPreviousProcesses =
           modulesInPreviousProcessesWhoseProductsAreConsumedBy.at(i);
       try {
         worker->modulesWhoseProductsAreConsumed(modules, modulesInPreviousProcesses, preg, labelToDesc);
       } catch (cms::Exception& ex) {
         ex.addContext("Calling Worker::modulesWhoseProductsAreConsumed() for module " +
                       worker->description()->moduleLabel());
         throw;
       }
       ++i;
     }
   }
 
   void Schedule::getTriggerReport(TriggerReport& rep) const {
     rep.eventSummary.totalEvents = 0;
     rep.eventSummary.totalEventsPassed = 0;
     rep.eventSummary.totalEventsFailed = 0;
     for (auto& s : streamSchedules_) {
       s->getTriggerReport(rep);
     }
     sort_all(rep.workerSummaries);
   }
 
   void Schedule::getTriggerTimingReport(TriggerTimingReport& rep) const {
     rep.eventSummary.totalEvents = 0;
     rep.eventSummary.cpuTime = 0.;
     rep.eventSummary.realTime = 0.;
     summaryTimeKeeper_->fillTriggerTimingReport(rep);
   }
 
   int Schedule::totalEvents() const {
     int returnValue = 0;
     for (auto& s : streamSchedules_) {
       returnValue += s->totalEvents();
     }
     return returnValue;
   }
 
   int Schedule::totalEventsPassed() const {
     int returnValue = 0;
     for (auto& s : streamSchedules_) {
       returnValue += s->totalEventsPassed();
     }
     return returnValue;
   }
 
   int Schedule::totalEventsFailed() const {
     int returnValue = 0;
     for (auto& s : streamSchedules_) {
       returnValue += s->totalEventsFailed();
     }
     return returnValue;
   }
 
   void Schedule::clearCounters() {
     for (auto& s : streamSchedules_) {
       s->clearCounters();
     }
   }
 }  // namespace edm

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