d7/da9/ProductResolvers_8cc_source.html

 /*----------------------------------------------------------------------
 ----------------------------------------------------------------------*/
 #include "ProductResolvers.h"
 #include "FWCore/Framework/interface/maker/Worker.h"
 #include "FWCore/Framework/interface/UnscheduledAuxiliary.h"
 #include "UnscheduledConfigurator.h"
 #include "FWCore/Framework/interface/EventPrincipal.h"
 #include "FWCore/Framework/interface/MergeableRunProductMetadata.h"
 #include "FWCore/Framework/src/ProductDeletedException.h"
 #include "FWCore/Framework/interface/SharedResourcesAcquirer.h"
 #include "FWCore/Framework/interface/DelayedReader.h"
 #include "FWCore/Framework/interface/TransitionInfoTypes.h"
 #include "FWCore/Framework/interface/ProductProvenanceRetriever.h"
 #include "DataFormats/Provenance/interface/BranchKey.h"
 #include "DataFormats/Provenance/interface/ParentageRegistry.h"
 #include "FWCore/MessageLogger/interface/MessageLogger.h"
 #include "FWCore/Concurrency/interface/SerialTaskQueue.h"
 #include "FWCore/Concurrency/interface/FunctorTask.h"
 #include "FWCore/Utilities/interface/TypeID.h"
 #include "FWCore/Utilities/interface/make_sentry.h"
 #include "FWCore/Utilities/interface/Transition.h"
 #include "FWCore/Utilities/interface/thread_safety_macros.h"

 #include <cassert>
 #include <utility>

 static constexpr unsigned int kUnsetOffset = 0;
 static constexpr unsigned int kAmbiguousOffset = 1;
 static constexpr unsigned int kMissingOffset = 2;

 namespace edm {

   void DataManagingProductResolver::throwProductDeletedException() const {
     ProductDeletedException exception;
     exception << "DataManagingProductResolver::resolveProduct_: The product matching all criteria was already deleted\n"
               << "Looking for type: " << branchDescription().unwrappedTypeID() << "\n"
               << "Looking for module label: " << moduleLabel() << "\n"
               << "Looking for productInstanceName: " << productInstanceName() << "\n"
               << (processName().empty() ? "" : "Looking for process: ") << processName() << "\n"
               << "This means there is a configuration error.\n"
               << "The module which is asking for this data must be configured to state that it will read this data.";
     throw exception;
   }

   //This is a templated function in order to avoid calling another virtual function
   template <bool callResolver, typename FUNC>
   ProductResolverBase::Resolution DataManagingProductResolver::resolveProductImpl(FUNC resolver) const {
     if (productWasDeleted()) {
       throwProductDeletedException();
     }
     auto presentStatus = status();

     if (callResolver && presentStatus == ProductStatus::ResolveNotRun) {
       //if resolver fails because of exception or not setting product
       // make sure the status goes to failed
       auto failedStatusSetter = [this](ProductStatus* iPresentStatus) {
         if (this->status() == ProductStatus::ResolveNotRun) {
           this->setFailedStatus();
         }
         *iPresentStatus = this->status();
       };
       std::unique_ptr<ProductStatus, decltype(failedStatusSetter)> failedStatusGuard(&presentStatus,
                                                                                      failedStatusSetter);

       //If successful, this will call setProduct
       resolver();
     }

     if (presentStatus == ProductStatus::ProductSet) {
       auto pd = &getProductData();
       if (pd->wrapper()->isPresent()) {
         return Resolution(pd);
       }
     }

     return Resolution(nullptr);
   }

   void MergeableInputProductResolver::mergeProduct(
       std::shared_ptr<WrapperBase> iFrom, MergeableRunProductMetadata const* mergeableRunProductMetadata) const {
     // if its not mergeable and the previous read failed, go ahead and use this one
     if (status() == ProductStatus::ResolveFailed) {
       setProduct(std::move(iFrom));
       return;
     }

     assert(status() == ProductStatus::ProductSet);
     if (not iFrom) {
       return;
     }

     checkType(*iFrom);

     auto original = getProductData().unsafe_wrapper();
     if (original->isMergeable()) {
       if (original->isPresent() != iFrom->isPresent()) {
         throw Exception(errors::MismatchedInputFiles)
             << "Merge of Run or Lumi product failed for branch " << branchDescription().branchName() << "\n"
             << "Was trying to merge objects where one product had been put in the input file and the other had not "
                "been."
             << "\n"
             << "The solution is to drop the branch on input. Or better do not create inconsistent files\n"
             << "that need to be merged in the first place.\n";
       }
       if (original->isPresent()) {
         BranchDescription const& desc = branchDescription();
         if (mergeableRunProductMetadata == nullptr || desc.branchType() != InRun) {
           original->mergeProduct(iFrom.get());
         } else {
           MergeableRunProductMetadata::MergeDecision decision =
               mergeableRunProductMetadata->getMergeDecision(desc.processName());
           if (decision == MergeableRunProductMetadata::MERGE) {
             original->mergeProduct(iFrom.get());
           } else if (decision == MergeableRunProductMetadata::REPLACE) {
             // Note this swaps the content of the product where the
             // both products branches are present and the product is
             // also present (was put) in the branch. A module might
             // have already gotten a pointer to the product so we
             // keep those pointers valid. This does not call swap
             // on the Wrapper.
             original->swapProduct(iFrom.get());
           }
           // If the decision is IGNORE, do nothing
         }
       }
       // If both have isPresent false, do nothing

     } else if (original->hasIsProductEqual()) {
       if (original->isPresent() && iFrom->isPresent()) {
         if (!original->isProductEqual(iFrom.get())) {
           auto const& bd = branchDescription();
           edm::LogError("RunLumiMerging")
               << "ProductResolver::mergeTheProduct\n"
               << "Two run/lumi products for the same run/lumi which should be equal are not\n"
               << "Using the first, ignoring the second\n"
               << "className = " << bd.className() << "\n"
               << "moduleLabel = " << bd.moduleLabel() << "\n"
               << "instance = " << bd.productInstanceName() << "\n"
               << "process = " << bd.processName() << "\n";
         }
       } else if (!original->isPresent() && iFrom->isPresent()) {
         setProduct(std::move(iFrom));
       }
       // if not iFrom->isPresent(), do nothing
     } else {
       auto const& bd = branchDescription();
       edm::LogWarning("RunLumiMerging") << "ProductResolver::mergeTheProduct\n"
                                         << "Run/lumi product has neither a mergeProduct nor isProductEqual function\n"
                                         << "Using the first, ignoring the second in merge\n"
                                         << "className = " << bd.className() << "\n"
                                         << "moduleLabel = " << bd.moduleLabel() << "\n"
                                         << "instance = " << bd.productInstanceName() << "\n"
                                         << "process = " << bd.processName() << "\n";
       if (!original->isPresent() && iFrom->isPresent()) {
         setProduct(std::move(iFrom));
       }
       // In other cases, do nothing
     }
   }

   namespace {
     cms::Exception& extendException(cms::Exception& e, BranchDescription const& bd, ModuleCallingContext const* mcc) {
       e.addContext(std::string("While reading from source ") + bd.className() + " " + bd.moduleLabel() + " '" +
                    bd.productInstanceName() + "' " + bd.processName());
       if (mcc) {
         edm::exceptionContext(e, *mcc);
       }
       return e;
     }
   }  // namespace
   ProductResolverBase::Resolution DelayedReaderInputProductResolver::resolveProduct_(
       Principal const& principal, bool, SharedResourcesAcquirer*, ModuleCallingContext const* mcc) const {
     return resolveProductImpl<true>([this, &principal, mcc]() {
       auto branchType = principal.branchType();
       if (branchType == InLumi || branchType == InRun) {
         //delayed get has not been allowed with Run or Lumis
         // The file may already be closed so the reader is invalid
         return;
       }
       if (mcc and branchType == InEvent and aux_) {
         aux_->preModuleDelayedGetSignal_.emit(*(mcc->getStreamContext()), *mcc);
       }

       auto sentry(make_sentry(mcc, [this, branchType](ModuleCallingContext const* iContext) {
         if (branchType == InEvent and aux_) {
           aux_->postModuleDelayedGetSignal_.emit(*(iContext->getStreamContext()), *iContext);
         }
       }));

       if (auto reader = principal.reader()) {
         std::unique_lock<std::recursive_mutex> guard;
         if (auto sr = reader->sharedResources().second) {
           guard = std::unique_lock<std::recursive_mutex>(*sr);
         }
         if (not productResolved()) {
           try {
             //another thread could have beaten us here
             setProduct(reader->getProduct(branchDescription().branchID(), &principal, mcc));
           } catch (cms::Exception& e) {
             throw extendException(e, branchDescription(), mcc);
           } catch (std::exception const& e) {
             auto newExcept = edm::Exception(errors::StdException) << e.what();
             throw extendException(newExcept, branchDescription(), mcc);
           }
         }
       }
     });
   }

   void DelayedReaderInputProductResolver::retrieveAndMerge_(
       Principal const& principal, MergeableRunProductMetadata const* mergeableRunProductMetadata) const {
     if (auto reader = principal.reader()) {
       std::unique_lock<std::recursive_mutex> guard;
       if (auto sr = reader->sharedResources().second) {
         guard = std::unique_lock<std::recursive_mutex>(*sr);
       }

       //Can't use resolveProductImpl since it first checks to see
       // if the product was already retrieved and then returns if it is
       auto edp(reader->getProduct(branchDescription().branchID(), &principal));

       if (edp.get() != nullptr) {
         if (edp->isMergeable() && branchDescription().branchType() == InRun && !edp->hasSwap()) {
           throw Exception(errors::LogicError)
               << "Missing definition of member function swap for branch name " << branchDescription().branchName()
               << "\n"
               << "Mergeable data types written to a Run must have the swap member function defined"
               << "\n";
         }
         if (status() == defaultStatus() || status() == ProductStatus::ProductSet ||
             (status() == ProductStatus::ResolveFailed && !branchDescription().isMergeable())) {
           setOrMergeProduct(std::move(edp), mergeableRunProductMetadata);
         } else {  // status() == ResolveFailed && branchDescription().isMergeable()
           throw Exception(errors::MismatchedInputFiles)
               << "Merge of Run or Lumi product failed for branch " << branchDescription().branchName() << "\n"
               << "The product branch was dropped in the first run or lumi fragment and present in a later one"
               << "\n"
               << "The solution is to drop the branch on input. Or better do not create inconsistent files\n"
               << "that need to be merged in the first place.\n";
         }
       } else if (status() == defaultStatus()) {
         setFailedStatus();
       } else if (status() != ProductStatus::ResolveFailed && branchDescription().isMergeable()) {
         throw Exception(errors::MismatchedInputFiles)
             << "Merge of Run or Lumi product failed for branch " << branchDescription().branchName() << "\n"
             << "The product branch was present in first run or lumi fragment and dropped in a later one"
             << "\n"
             << "The solution is to drop the branch on input. Or better do not create inconsistent files\n"
             << "that need to be merged in the first place.\n";
       }
       // Do nothing in other case. status is ResolveFailed already or
       // it is not mergeable and the status is ProductSet
     }
   }

   void MergeableInputProductResolver::setOrMergeProduct(
       std::shared_ptr<WrapperBase> prod, MergeableRunProductMetadata const* mergeableRunProductMetadata) const {
     if (status() == defaultStatus()) {
       //resolveProduct has not been called or it failed
       setProduct(std::move(prod));
     } else {
       mergeProduct(std::move(prod), mergeableRunProductMetadata);
     }
   }

   void DelayedReaderInputProductResolver::setMergeableRunProductMetadata_(MergeableRunProductMetadata const* mrpm) {
     setMergeableRunProductMetadataInProductData(mrpm);
   }

   void DelayedReaderInputProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                          Principal const& principal,
                                                          bool skipCurrentProcess,
                                                          ServiceToken const& token,
                                                          SharedResourcesAcquirer* sra,
                                                          ModuleCallingContext const* mcc) const {
     //need to try changing m_prefetchRequested before adding to m_waitingTasks
     bool expected = false;
     bool prefetchRequested = m_prefetchRequested.compare_exchange_strong(expected, true);
     m_waitingTasks.add(waitTask);

     if (prefetchRequested) {
       ServiceWeakToken weakToken = token;
       auto workToDo = [this, mcc, &principal, weakToken]() {
         //need to make sure Service system is activated on the reading thread
         ServiceRegistry::Operate operate(weakToken.lock());
         // Caught exception is propagated via WaitingTaskList
         CMS_SA_ALLOW try {
           resolveProductImpl<true>([this, &principal, mcc]() {
             if (principal.branchType() != InEvent && principal.branchType() != InProcess) {
               return;
             }
             if (auto reader = principal.reader()) {
               std::unique_lock<std::recursive_mutex> guard;
               if (auto sr = reader->sharedResources().second) {
                 guard = std::unique_lock<std::recursive_mutex>(*sr);
               }
               if (not productResolved()) {
                 try {
                   //another thread could have finished this while we were waiting
                   setProduct(reader->getProduct(branchDescription().branchID(), &principal, mcc));
                 } catch (cms::Exception& e) {
                   throw extendException(e, branchDescription(), mcc);
                 } catch (std::exception const& e) {
                   auto newExcept = edm::Exception(errors::StdException) << e.what();
                   throw extendException(newExcept, branchDescription(), mcc);
                 }
               }
             }
           });
         } catch (...) {
           this->m_waitingTasks.doneWaiting(std::current_exception());
           return;
         }
         this->m_waitingTasks.doneWaiting(nullptr);
       };

       SerialTaskQueueChain* queue = nullptr;
       if (auto reader = principal.reader()) {
         if (auto shared_res = reader->sharedResources().first) {
           queue = &(shared_res->serialQueueChain());
         }
       }
       if (queue) {
         queue->push(*waitTask.group(), workToDo);
       } else {
         //Have to create a new task
         auto t = make_functor_task(workToDo);
         waitTask.group()->run([t]() {
           TaskSentry s{t};
           t->execute();
         });
       }
     }
   }

   void DelayedReaderInputProductResolver::resetProductData_(bool deleteEarly) {
     if (not deleteEarly) {
       m_prefetchRequested = false;
       m_waitingTasks.reset();
     }
     DataManagingProductResolver::resetProductData_(deleteEarly);
   }

   void DelayedReaderInputProductResolver::setupUnscheduled(UnscheduledConfigurator const& iConfigure) {
     aux_ = iConfigure.auxiliary();
   }

   bool DelayedReaderInputProductResolver::isFromCurrentProcess() const { return false; }

   void PutOnReadInputProductResolver::putProduct(std::unique_ptr<WrapperBase> edp) const {
     if (status() != defaultStatus()) {
       throw Exception(errors::InsertFailure)
           << "Attempt to insert more than one product on branch " << branchDescription().branchName() << "\n";
     }

     setProduct(std::move(edp));  // ProductResolver takes ownership
   }

   bool PutOnReadInputProductResolver::isFromCurrentProcess() const { return false; }

   ProductResolverBase::Resolution PutOnReadInputProductResolver::resolveProduct_(Principal const&,
                                                                                  bool skipCurrentProcess,
                                                                                  SharedResourcesAcquirer*,
                                                                                  ModuleCallingContext const*) const {
     return resolveProductImpl<false>([]() { return; });
   }

   void PutOnReadInputProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                      Principal const& principal,
                                                      bool skipCurrentProcess,
                                                      ServiceToken const& token,
                                                      SharedResourcesAcquirer* sra,
                                                      ModuleCallingContext const* mcc) const {}

   void PutOnReadInputProductResolver::putOrMergeProduct(std::unique_ptr<WrapperBase> edp) const {
     setOrMergeProduct(std::move(edp), nullptr);
   }

   ProductResolverBase::Resolution PuttableProductResolver::resolveProduct_(Principal const&,
                                                                            bool skipCurrentProcess,
                                                                            SharedResourcesAcquirer*,
                                                                            ModuleCallingContext const*) const {
     if (!skipCurrentProcess) {
       //'false' means never call the lambda function
       return resolveProductImpl<false>([]() { return; });
     }
     return Resolution(nullptr);
   }

   void PuttableProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                Principal const& principal,
                                                bool skipCurrentProcess,
                                                ServiceToken const& token,
                                                SharedResourcesAcquirer* sra,
                                                ModuleCallingContext const* mcc) const {
     if (not skipCurrentProcess) {
       if (branchDescription().branchType() == InProcess &&
           mcc->parent().globalContext()->transition() == GlobalContext::Transition::kAccessInputProcessBlock) {
         // This is an accessInputProcessBlock transition
         // We cannot access produced products in those transitions
         // except for in SubProcesses where they should have already run.
         return;
       }
       if (branchDescription().availableOnlyAtEndTransition() and mcc) {
         if (not mcc->parent().isAtEndTransition()) {
           return;
         }
       }

       //Need to try modifying prefetchRequested_ before adding to m_waitingTasks
       bool expected = false;
       bool prefetchRequested = prefetchRequested_.compare_exchange_strong(expected, true);
       m_waitingTasks.add(waitTask);

       if (worker_ and prefetchRequested) {
         //using a waiting task to do a callback guarantees that
         // the m_waitingTasks list will be released from waiting even
         // if the module does not put this data product or the
         // module has an exception while running

         auto waiting = make_waiting_task([this](std::exception_ptr const* iException) {
           if (nullptr != iException) {
             m_waitingTasks.doneWaiting(*iException);
           } else {
             m_waitingTasks.doneWaiting(std::exception_ptr());
           }
         });
         worker_->callWhenDoneAsync(WaitingTaskHolder(*waitTask.group(), waiting));
       }
     }
   }

   void PuttableProductResolver::putProduct(std::unique_ptr<WrapperBase> edp) const {
     ProducedProductResolver::putProduct(std::move(edp));
     bool expected = false;
     if (prefetchRequested_.compare_exchange_strong(expected, true)) {
       m_waitingTasks.doneWaiting(std::exception_ptr());
     }
   }

   void PuttableProductResolver::resetProductData_(bool deleteEarly) {
     if (not deleteEarly) {
       prefetchRequested_ = false;
       m_waitingTasks.reset();
     }
     DataManagingProductResolver::resetProductData_(deleteEarly);
   }

   void PuttableProductResolver::setupUnscheduled(UnscheduledConfigurator const& iConfigure) {
     worker_ = iConfigure.findWorker(branchDescription().moduleLabel());
   }

   void UnscheduledProductResolver::setupUnscheduled(UnscheduledConfigurator const& iConfigure) {
     aux_ = iConfigure.auxiliary();
     worker_ = iConfigure.findWorker(branchDescription().moduleLabel());
   }

   ProductResolverBase::Resolution UnscheduledProductResolver::resolveProduct_(Principal const&,
                                                                               bool skipCurrentProcess,
                                                                               SharedResourcesAcquirer*,
                                                                               ModuleCallingContext const*) const {
     if (!skipCurrentProcess and worker_) {
       return resolveProductImpl<false>([] {});
     }
     return Resolution(nullptr);
   }

   void UnscheduledProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                   Principal const& principal,
                                                   bool skipCurrentProcess,
                                                   ServiceToken const& token,
                                                   SharedResourcesAcquirer* sra,
                                                   ModuleCallingContext const* mcc) const {
     if (skipCurrentProcess) {
       return;
     }
     if (worker_ == nullptr) {
       throw cms::Exception("LogicError") << "UnscheduledProductResolver::prefetchAsync_()  called with null worker_. "
                                             "This should not happen, please contact framework developers.";
     }
     //need to try changing prefetchRequested_ before adding to waitingTasks_
     bool expected = false;
     bool prefetchRequested = prefetchRequested_.compare_exchange_strong(expected, true);
     waitingTasks_.add(waitTask);
     if (prefetchRequested) {
       //Have to create a new task which will make sure the state for UnscheduledProductResolver
       // is properly set after the module has run
       auto t = make_waiting_task([this](std::exception_ptr const* iPtr) {
         //The exception is being rethrown because resolveProductImpl sets the ProductResolver to a failed
         // state for the case where an exception occurs during the call to the function.
         // Caught exception is propagated via WaitingTaskList
         CMS_SA_ALLOW try {
           resolveProductImpl<true>([iPtr]() {
             if (iPtr) {
               std::rethrow_exception(*iPtr);
             }
           });
         } catch (...) {
           waitingTasks_.doneWaiting(std::current_exception());
           return;
         }
         waitingTasks_.doneWaiting(nullptr);
       });

       ParentContext parentContext(mcc);
       EventTransitionInfo const& info = aux_->eventTransitionInfo();
       worker_->doWorkAsync<OccurrenceTraits<EventPrincipal, BranchActionStreamBegin> >(
           WaitingTaskHolder(*waitTask.group(), t),
           info,
           token,
           info.principal().streamID(),
           parentContext,
           mcc->getStreamContext());
     }
   }

   void UnscheduledProductResolver::resetProductData_(bool deleteEarly) {
     if (not deleteEarly) {
       prefetchRequested_ = false;
       waitingTasks_.reset();
     }
     DataManagingProductResolver::resetProductData_(deleteEarly);
   }

   void ProducedProductResolver::putProduct(std::unique_ptr<WrapperBase> edp) const {
     if (status() != defaultStatus()) {
       throw Exception(errors::InsertFailure)
           << "Attempt to insert more than one product on branch " << branchDescription().branchName() << "\n";
     }

     setProduct(std::move(edp));  // ProductResolver takes ownership
   }

   bool ProducedProductResolver::isFromCurrentProcess() const { return true; }

   void DataManagingProductResolver::connectTo(ProductResolverBase const& iOther, Principal const*) { assert(false); }

   void DataManagingProductResolver::checkType(WrapperBase const& prod) const {
     // Check if the types match.
     TypeID typeID(prod.dynamicTypeInfo());
     if (typeID != TypeID{branchDescription().unwrappedType().unvalidatedTypeInfo()}) {
       // Types do not match.
       throw Exception(errors::EventCorruption)
           << "Product on branch " << branchDescription().branchName() << " is of wrong type.\n"
           << "It is supposed to be of type " << branchDescription().className() << ".\n"
           << "It is actually of type " << typeID.className() << ".\n";
     }
   }

   void DataManagingProductResolver::setProduct(std::unique_ptr<WrapperBase> edp) const {
     if (edp) {
       checkType(*edp);
       productData_.unsafe_setWrapper(std::move(edp));
       theStatus_ = ProductStatus::ProductSet;
     } else {
       setFailedStatus();
     }
   }
   void DataManagingProductResolver::setProduct(std::shared_ptr<WrapperBase> edp) const {
     if (edp) {
       checkType(*edp);
       productData_.unsafe_setWrapper(std::move(edp));
       theStatus_ = ProductStatus::ProductSet;
     } else {
       setFailedStatus();
     }
   }

   // This routine returns true if it is known that currently there is no real product.
   // If there is a real product, it returns false.
   // If it is not known if there is a real product, it returns false.
   bool DataManagingProductResolver::productUnavailable_() const {
     auto presentStatus = status();
     if (presentStatus == ProductStatus::ProductSet) {
       return !(getProductData().wrapper()->isPresent());
     }
     return presentStatus != ProductStatus::ResolveNotRun;
   }

   bool DataManagingProductResolver::productResolved_() const {
     auto s = status();
     return (s != defaultStatus()) or (s == ProductStatus::ProductDeleted);
   }

   // This routine returns true if the product was deleted early in order to save memory
   bool DataManagingProductResolver::productWasDeleted_() const { return status() == ProductStatus::ProductDeleted; }

   bool DataManagingProductResolver::productWasFetchedAndIsValid_(bool iSkipCurrentProcess) const {
     if (iSkipCurrentProcess and isFromCurrentProcess()) {
       return false;
     }
     if (status() == ProductStatus::ProductSet) {
       if (getProductData().wrapper()->isPresent()) {
         return true;
       }
     }
     return false;
   }

   void DataManagingProductResolver::setProductProvenanceRetriever_(ProductProvenanceRetriever const* provRetriever) {
     productData_.setProvenance(provRetriever);
   }

   void DataManagingProductResolver::setProductID_(ProductID const& pid) { productData_.setProductID(pid); }

   void DataManagingProductResolver::setMergeableRunProductMetadataInProductData(
       MergeableRunProductMetadata const* mrpm) {
     productData_.setMergeableRunProductMetadata(mrpm);
   }

   ProductProvenance const* DataManagingProductResolver::productProvenancePtr_() const {
     return provenance()->productProvenance();
   }

   void DataManagingProductResolver::resetProductData_(bool deleteEarly) {
     if (theStatus_ == ProductStatus::ProductSet) {
       productData_.resetProductData();
     }
     if (deleteEarly) {
       theStatus_ = ProductStatus::ProductDeleted;
     } else {
       resetStatus();
     }
   }

   bool DataManagingProductResolver::singleProduct_() const { return true; }

   void AliasProductResolver::setProductProvenanceRetriever_(ProductProvenanceRetriever const* provRetriever) {
     realProduct_.setProductProvenanceRetriever(provRetriever);
   }

   void AliasProductResolver::setProductID_(ProductID const& pid) { realProduct_.setProductID(pid); }

   ProductProvenance const* AliasProductResolver::productProvenancePtr_() const {
     return provenance()->productProvenance();
   }

   void AliasProductResolver::resetProductData_(bool deleteEarly) { realProduct_.resetProductData_(deleteEarly); }

   bool AliasProductResolver::singleProduct_() const { return true; }

   SwitchBaseProductResolver::SwitchBaseProductResolver(std::shared_ptr<BranchDescription const> bd,
                                                        DataManagingOrAliasProductResolver& realProduct)
       : realProduct_(realProduct), productData_(std::move(bd)), prefetchRequested_(false) {
     // Parentage of this branch is always the same by construction, so we can compute the ID just "once" here.
     Parentage p;
     p.setParents(std::vector<BranchID>{realProduct.branchDescription().originalBranchID()});
     parentageID_ = p.id();
     ParentageRegistry::instance()->insertMapped(p);
   }

   void SwitchBaseProductResolver::connectTo(ProductResolverBase const& iOther, Principal const* iParentPrincipal) {
     throw Exception(errors::LogicError)
         << "SwitchBaseProductResolver::connectTo() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   void SwitchBaseProductResolver::setupUnscheduled(UnscheduledConfigurator const& iConfigure) {
     worker_ = iConfigure.findWorker(branchDescription().moduleLabel());
   }

   ProductResolverBase::Resolution SwitchBaseProductResolver::resolveProductImpl(Resolution res) const {
     if (res.data() == nullptr)
       return res;
     return Resolution(&productData_);
   }

   bool SwitchBaseProductResolver::productResolved_() const {
     // SwitchProducer will never put anything in the event, and
     // "false" will make Event::commit_() to call putProduct() with
     // null unique_ptr<WrapperBase> to signal that the produce() was
     // run.
     return false;
   }

   void SwitchBaseProductResolver::setProductProvenanceRetriever_(ProductProvenanceRetriever const* provRetriever) {
     productData_.setProvenance(provRetriever);
   }

   void SwitchBaseProductResolver::setProductID_(ProductID const& pid) {
     // insertIntoSet is const, so let's exploit that to fake the getting of the "input" product
     productData_.setProductID(pid);
   }

   void SwitchBaseProductResolver::resetProductData_(bool deleteEarly) {
     productData_.resetProductData();
     realProduct_.resetProductData_(deleteEarly);
     if (not deleteEarly) {
       prefetchRequested_ = false;
       waitingTasks_.reset();
     }
   }

   void SwitchBaseProductResolver::unsafe_setWrapperAndProvenance() const {
     // update provenance
     productData_.provenance().store()->insertIntoSet(ProductProvenance(branchDescription().branchID(), parentageID_));
     // Use the Wrapper of the pointed-to resolver, but the provenance of this resolver
     productData_.unsafe_setWrapper(realProduct().getProductData().sharedConstWrapper());
   }

   SwitchProducerProductResolver::SwitchProducerProductResolver(std::shared_ptr<BranchDescription const> bd,
                                                                DataManagingOrAliasProductResolver& realProduct)
       : SwitchBaseProductResolver(std::move(bd), realProduct), status_(defaultStatus_) {}

   ProductResolverBase::Resolution SwitchProducerProductResolver::resolveProduct_(Principal const& principal,
                                                                                  bool skipCurrentProcess,
                                                                                  SharedResourcesAcquirer* sra,
                                                                                  ModuleCallingContext const* mcc) const {
     if (status_ == ProductStatus::ResolveFailed) {
       return resolveProductImpl(realProduct().resolveProduct(principal, skipCurrentProcess, sra, mcc));
     }
     return Resolution(nullptr);
   }

   void SwitchProducerProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                      Principal const& principal,
                                                      bool skipCurrentProcess,
                                                      ServiceToken const& token,
                                                      SharedResourcesAcquirer* sra,
                                                      ModuleCallingContext const* mcc) const {
     if (skipCurrentProcess) {
       return;
     }
     if (branchDescription().availableOnlyAtEndTransition() and mcc and not mcc->parent().isAtEndTransition()) {
       return;
     }

     //need to try changing prefetchRequested before adding to waitingTasks
     bool expected = false;
     bool doPrefetchRequested = prefetchRequested().compare_exchange_strong(expected, true);
     waitingTasks().add(waitTask);

     if (doPrefetchRequested) {
       //using a waiting task to do a callback guarantees that
       // the waitingTasks() list will be released from waiting even
       // if the module does not put this data product or the
       // module has an exception while running
       auto waiting = make_waiting_task([this](std::exception_ptr const* iException) {
         if (nullptr != iException) {
           waitingTasks().doneWaiting(*iException);
         } else {
           unsafe_setWrapperAndProvenance();
           waitingTasks().doneWaiting(std::exception_ptr());
         }
       });
       worker()->callWhenDoneAsync(WaitingTaskHolder(*waitTask.group(), waiting));
     }
   }

   void SwitchProducerProductResolver::putProduct(std::unique_ptr<WrapperBase> edp) const {
     if (status_ != defaultStatus_) {
       throw Exception(errors::InsertFailure)
           << "Attempt to insert more than one product for a branch " << branchDescription().branchName()
           << "This makes no sense for SwitchProducerProductResolver.\nContact a Framework developer";
     }
     // Let's use ResolveFailed to signal that produce() was called, as
     // there is no real product in this resolver
     status_ = ProductStatus::ResolveFailed;
     bool expected = false;
     if (prefetchRequested().compare_exchange_strong(expected, true)) {
       unsafe_setWrapperAndProvenance();
       waitingTasks().doneWaiting(std::exception_ptr());
     }
   }

   bool SwitchProducerProductResolver::productUnavailable_() const {
     // if produce() was run (ResolveFailed), ask from the real resolver
     if (status_ == ProductStatus::ResolveFailed) {
       return realProduct().productUnavailable();
     }
     return true;
   }

   void SwitchProducerProductResolver::resetProductData_(bool deleteEarly) {
     SwitchBaseProductResolver::resetProductData_(deleteEarly);
     if (not deleteEarly) {
       status_ = defaultStatus_;
     }
   }

   ProductResolverBase::Resolution SwitchAliasProductResolver::resolveProduct_(Principal const& principal,
                                                                               bool skipCurrentProcess,
                                                                               SharedResourcesAcquirer* sra,
                                                                               ModuleCallingContext const* mcc) const {
     return resolveProductImpl(realProduct().resolveProduct(principal, skipCurrentProcess, sra, mcc));
   }

   void SwitchAliasProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                   Principal const& principal,
                                                   bool skipCurrentProcess,
                                                   ServiceToken const& token,
                                                   SharedResourcesAcquirer* sra,
                                                   ModuleCallingContext const* mcc) const {
     if (skipCurrentProcess) {
       return;
     }

     //need to try changing prefetchRequested_ before adding to waitingTasks_
     bool expected = false;
     bool doPrefetchRequested = prefetchRequested().compare_exchange_strong(expected, true);
     waitingTasks().add(waitTask);

     if (doPrefetchRequested) {
       //using a waiting task to do a callback guarantees that
       // the waitingTasks() list will be released from waiting even
       // if the module does not put this data product or the
       // module has an exception while running
       auto waiting = make_waiting_task([this](std::exception_ptr const* iException) {
         if (nullptr != iException) {
           waitingTasks().doneWaiting(*iException);
         } else {
           unsafe_setWrapperAndProvenance();
           waitingTasks().doneWaiting(std::exception_ptr());
         }
       });
       realProduct().prefetchAsync(
           WaitingTaskHolder(*waitTask.group(), waiting), principal, skipCurrentProcess, token, sra, mcc);
     }
   }

   void ParentProcessProductResolver::setProductProvenanceRetriever_(ProductProvenanceRetriever const* provRetriever) {
     provRetriever_ = provRetriever;
   }

   void ParentProcessProductResolver::setProductID_(ProductID const&) {}

   ProductProvenance const* ParentProcessProductResolver::productProvenancePtr_() const {
     return provRetriever_ ? provRetriever_->branchIDToProvenance(bd_->originalBranchID()) : nullptr;
   }

   void ParentProcessProductResolver::resetProductData_(bool deleteEarly) {}

   bool ParentProcessProductResolver::singleProduct_() const { return true; }

   void ParentProcessProductResolver::throwNullRealProduct() const {
     // In principle, this ought to be fixed. I noticed one hits this error
     // when in a SubProcess and calling the Event::getProvenance function
     // with a BranchID to a branch from an earlier SubProcess or the top
     // level process and this branch is not kept in this SubProcess. It might
     // be possible to hit this in other contexts. I say it ought to be
     // fixed because one does not encounter this issue if the SubProcesses
     // are split into genuinely different processes (in principle that
     // ought to give identical behavior and results). No user has ever
     // reported this issue which has been around for some time and it was only
     // noticed when testing some rare corner cases after modifying Core code.
     // After discussing this with Chris we decided that at least for the moment
     // there are higher priorities than fixing this ... I converted it so it
     // causes an exception instead of a seg fault. The issue that may need to
     // be addressed someday is how ProductResolvers for non-kept branches are
     // connected to earlier SubProcesses.
     throw Exception(errors::LogicError)
         << "ParentProcessProductResolver::throwNullRealProduct RealProduct pointer not set in this context.\n"
         << "Contact a Framework developer\n";
   }

   NoProcessProductResolver::NoProcessProductResolver(std::vector<ProductResolverIndex> const& matchingHolders,
                                                      std::vector<bool> const& ambiguous,
                                                      bool madeAtEnd)
       : matchingHolders_(matchingHolders),
         ambiguous_(ambiguous),
         lastCheckIndex_(ambiguous_.size() + kUnsetOffset),
         lastSkipCurrentCheckIndex_(lastCheckIndex_.load()),
         prefetchRequested_(false),
         skippingPrefetchRequested_(false),
         madeAtEnd_{madeAtEnd} {
     assert(ambiguous_.size() == matchingHolders_.size());
   }

   ProductResolverBase::Resolution NoProcessProductResolver::tryResolver(unsigned int index,
                                                                         Principal const& principal,
                                                                         bool skipCurrentProcess,
                                                                         SharedResourcesAcquirer* sra,
                                                                         ModuleCallingContext const* mcc) const {
     ProductResolverBase const* productResolver = principal.getProductResolverByIndex(matchingHolders_[index]);
     return productResolver->resolveProduct(principal, skipCurrentProcess, sra, mcc);
   }

   ProductResolverBase::Resolution NoProcessProductResolver::resolveProduct_(Principal const& principal,
                                                                             bool skipCurrentProcess,
                                                                             SharedResourcesAcquirer* sra,
                                                                             ModuleCallingContext const* mcc) const {
     //See if we've already cached which Resolver we should call or if
     // we know it is ambiguous
     const unsigned int choiceSize = ambiguous_.size();

     //madeAtEnd_==true and not at end transition is the same as skipping the current process
     if ((not skipCurrentProcess) and (madeAtEnd_ and mcc)) {
       skipCurrentProcess = not mcc->parent().isAtEndTransition();
     }

     unsigned int checkCacheIndex = skipCurrentProcess ? lastSkipCurrentCheckIndex_.load() : lastCheckIndex_.load();
     if (checkCacheIndex != choiceSize + kUnsetOffset) {
       if (checkCacheIndex == choiceSize + kAmbiguousOffset) {
         return ProductResolverBase::Resolution::makeAmbiguous();
       } else if (checkCacheIndex == choiceSize + kMissingOffset) {
         return Resolution(nullptr);
       }
       return tryResolver(checkCacheIndex, principal, skipCurrentProcess, sra, mcc);
     }

     std::atomic<unsigned int>& updateCacheIndex = skipCurrentProcess ? lastSkipCurrentCheckIndex_ : lastCheckIndex_;

     std::vector<unsigned int> const& lookupProcessOrder = principal.lookupProcessOrder();
     for (unsigned int k : lookupProcessOrder) {
       assert(k < ambiguous_.size());
       if (k == 0)
         break;  // Done
       if (ambiguous_[k]) {
         updateCacheIndex = choiceSize + kAmbiguousOffset;
         return ProductResolverBase::Resolution::makeAmbiguous();
       }
       if (matchingHolders_[k] != ProductResolverIndexInvalid) {
         auto resolution = tryResolver(k, principal, skipCurrentProcess, sra, mcc);
         if (resolution.data() != nullptr) {
           updateCacheIndex = k;
           return resolution;
         }
       }
     }

     updateCacheIndex = choiceSize + kMissingOffset;
     return Resolution(nullptr);
   }

   void NoProcessProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                 Principal const& principal,
                                                 bool skipCurrentProcess,
                                                 ServiceToken const& token,
                                                 SharedResourcesAcquirer* sra,
                                                 ModuleCallingContext const* mcc) const {
     bool timeToMakeAtEnd = true;
     if (madeAtEnd_ and mcc) {
       timeToMakeAtEnd = mcc->parent().isAtEndTransition();
     }

     //If timeToMakeAtEnd is false, then it is equivalent to skipping the current process
     if (not skipCurrentProcess and timeToMakeAtEnd) {
       //need to try changing prefetchRequested_ before adding to waitingTasks_
       bool expected = false;
       bool prefetchRequested = prefetchRequested_.compare_exchange_strong(expected, true);
       waitingTasks_.add(waitTask);

       if (prefetchRequested) {
         //we are the first thread to request
         tryPrefetchResolverAsync(0, principal, false, sra, mcc, token, waitTask.group());
       }
     } else {
       skippingWaitingTasks_.add(waitTask);
       bool expected = false;
       if (skippingPrefetchRequested_.compare_exchange_strong(expected, true)) {
         //we are the first thread to request
         tryPrefetchResolverAsync(0, principal, true, sra, mcc, token, waitTask.group());
       }
     }
   }

   void NoProcessProductResolver::setCache(bool iSkipCurrentProcess,
                                           ProductResolverIndex iIndex,
                                           std::exception_ptr iExceptPtr) const {
     if (not iSkipCurrentProcess) {
       lastCheckIndex_ = iIndex;
       waitingTasks_.doneWaiting(iExceptPtr);
     } else {
       lastSkipCurrentCheckIndex_ = iIndex;
       skippingWaitingTasks_.doneWaiting(iExceptPtr);
     }
   }

   namespace {
     class TryNextResolverWaitingTask : public edm::WaitingTask {
     public:
       TryNextResolverWaitingTask(NoProcessProductResolver const* iResolver,
                                  unsigned int iResolverIndex,
                                  Principal const* iPrincipal,
                                  SharedResourcesAcquirer* iSRA,
                                  ModuleCallingContext const* iMCC,
                                  bool iSkipCurrentProcess,
                                  ServiceToken iToken,
                                  oneapi::tbb::task_group* iGroup)
           : resolver_(iResolver),
             principal_(iPrincipal),
             sra_(iSRA),
             mcc_(iMCC),
             group_(iGroup),
             serviceToken_(iToken),
             index_(iResolverIndex),
             skipCurrentProcess_(iSkipCurrentProcess) {}

       void execute() final {
         auto exceptPtr = exceptionPtr();
         if (exceptPtr) {
           resolver_->prefetchFailed(index_, *principal_, skipCurrentProcess_, *exceptPtr);
         } else {
           if (not resolver_->dataValidFromResolver(index_, *principal_, skipCurrentProcess_)) {
             resolver_->tryPrefetchResolverAsync(
                 index_ + 1, *principal_, skipCurrentProcess_, sra_, mcc_, serviceToken_.lock(), group_);
           }
         }
       }

     private:
       NoProcessProductResolver const* resolver_;
       Principal const* principal_;
       SharedResourcesAcquirer* sra_;
       ModuleCallingContext const* mcc_;
       oneapi::tbb::task_group* group_;
       ServiceWeakToken serviceToken_;
       unsigned int index_;
       bool skipCurrentProcess_;
     };
   }  // namespace

   void NoProcessProductResolver::prefetchFailed(unsigned int iProcessingIndex,
                                                 Principal const& principal,
                                                 bool iSkipCurrentProcess,
                                                 std::exception_ptr iExceptPtr) const {
     std::vector<unsigned int> const& lookupProcessOrder = principal.lookupProcessOrder();
     auto k = lookupProcessOrder[iProcessingIndex];

     setCache(iSkipCurrentProcess, k, iExceptPtr);
   }

   bool NoProcessProductResolver::dataValidFromResolver(unsigned int iProcessingIndex,
                                                        Principal const& principal,
                                                        bool iSkipCurrentProcess) const {
     std::vector<unsigned int> const& lookupProcessOrder = principal.lookupProcessOrder();
     auto k = lookupProcessOrder[iProcessingIndex];
     ProductResolverBase const* productResolver = principal.getProductResolverByIndex(matchingHolders_[k]);

     if (productResolver->productWasFetchedAndIsValid(iSkipCurrentProcess)) {
       setCache(iSkipCurrentProcess, k, nullptr);
       return true;
     }
     return false;
   }

   void NoProcessProductResolver::tryPrefetchResolverAsync(unsigned int iProcessingIndex,
                                                           Principal const& principal,
                                                           bool skipCurrentProcess,
                                                           SharedResourcesAcquirer* sra,
                                                           ModuleCallingContext const* mcc,
                                                           ServiceToken token,
                                                           oneapi::tbb::task_group* group) const {
     std::vector<unsigned int> const& lookupProcessOrder = principal.lookupProcessOrder();
     auto index = iProcessingIndex;

     const unsigned int choiceSize = ambiguous_.size();
     unsigned int newCacheIndex = choiceSize + kMissingOffset;
     while (index < lookupProcessOrder.size()) {
       auto k = lookupProcessOrder[index];
       if (k == 0) {
         break;
       }
       assert(k < ambiguous_.size());
       if (ambiguous_[k]) {
         newCacheIndex = choiceSize + kAmbiguousOffset;
         break;
       }
       if (matchingHolders_[k] != ProductResolverIndexInvalid) {
         //make new task

         auto task = new TryNextResolverWaitingTask(this, index, &principal, sra, mcc, skipCurrentProcess, token, group);
         WaitingTaskHolder hTask(*group, task);
         ProductResolverBase const* productResolver = principal.getProductResolverByIndex(matchingHolders_[k]);

         //Make sure the Services are available on this thread
         ServiceRegistry::Operate guard(token);

         productResolver->prefetchAsync(hTask, principal, skipCurrentProcess, token, sra, mcc);
         return;
       }
       ++index;
     }
     //data product unavailable
     setCache(skipCurrentProcess, newCacheIndex, nullptr);
   }

   void NoProcessProductResolver::setProductProvenanceRetriever_(ProductProvenanceRetriever const*) {}

   void NoProcessProductResolver::setProductID_(ProductID const&) {}

   ProductProvenance const* NoProcessProductResolver::productProvenancePtr_() const { return nullptr; }

   inline unsigned int NoProcessProductResolver::unsetIndexValue() const { return ambiguous_.size() + kUnsetOffset; }

   void NoProcessProductResolver::resetProductData_(bool) {
     // This function should never receive 'true'. On the other hand,
     // nothing should break if a 'true' is passed, because
     // NoProcessProductResolver just forwards the resolve
     const auto resetValue = unsetIndexValue();
     lastCheckIndex_ = resetValue;
     lastSkipCurrentCheckIndex_ = resetValue;
     prefetchRequested_ = false;
     skippingPrefetchRequested_ = false;
     waitingTasks_.reset();
     skippingWaitingTasks_.reset();
   }

   bool NoProcessProductResolver::singleProduct_() const { return false; }

   bool NoProcessProductResolver::unscheduledWasNotRun_() const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::unscheduledWasNotRun_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool NoProcessProductResolver::productUnavailable_() const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::productUnavailable_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool NoProcessProductResolver::productResolved_() const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::productResolved_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool NoProcessProductResolver::productWasDeleted_() const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::productWasDeleted_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool NoProcessProductResolver::productWasFetchedAndIsValid_(bool /*iSkipCurrentProcess*/) const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::productWasFetchedAndIsValid_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   BranchDescription const& NoProcessProductResolver::branchDescription_() const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::branchDescription_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   void NoProcessProductResolver::resetBranchDescription_(std::shared_ptr<BranchDescription const>) {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::resetBranchDescription_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   Provenance const* NoProcessProductResolver::provenance_() const {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::provenance_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   void NoProcessProductResolver::connectTo(ProductResolverBase const&, Principal const*) {
     throw Exception(errors::LogicError)
         << "NoProcessProductResolver::connectTo() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   //---- SingleChoiceNoProcessProductResolver ----------------
   ProductResolverBase::Resolution SingleChoiceNoProcessProductResolver::resolveProduct_(
       Principal const& principal,
       bool skipCurrentProcess,
       SharedResourcesAcquirer* sra,
       ModuleCallingContext const* mcc) const {
     //NOTE: Have to lookup the other ProductResolver each time rather than cache
     // it's pointer since it appears the pointer can change at some later stage
     return principal.getProductResolverByIndex(realResolverIndex_)
         ->resolveProduct(principal, skipCurrentProcess, sra, mcc);
   }

   void SingleChoiceNoProcessProductResolver::prefetchAsync_(WaitingTaskHolder waitTask,
                                                             Principal const& principal,
                                                             bool skipCurrentProcess,
                                                             ServiceToken const& token,
                                                             SharedResourcesAcquirer* sra,
                                                             ModuleCallingContext const* mcc) const {
     principal.getProductResolverByIndex(realResolverIndex_)
         ->prefetchAsync(waitTask, principal, skipCurrentProcess, token, sra, mcc);
   }

   void SingleChoiceNoProcessProductResolver::setProductProvenanceRetriever_(ProductProvenanceRetriever const*) {}

   void SingleChoiceNoProcessProductResolver::setProductID_(ProductID const&) {}

   ProductProvenance const* SingleChoiceNoProcessProductResolver::productProvenancePtr_() const { return nullptr; }

   void SingleChoiceNoProcessProductResolver::resetProductData_(bool) {}

   bool SingleChoiceNoProcessProductResolver::singleProduct_() const { return false; }

   bool SingleChoiceNoProcessProductResolver::unscheduledWasNotRun_() const {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::unscheduledWasNotRun_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool SingleChoiceNoProcessProductResolver::productUnavailable_() const {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::productUnavailable_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool SingleChoiceNoProcessProductResolver::productResolved_() const {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::productResolved_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool SingleChoiceNoProcessProductResolver::productWasDeleted_() const {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::productWasDeleted_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   bool SingleChoiceNoProcessProductResolver::productWasFetchedAndIsValid_(bool /*iSkipCurrentProcess*/) const {
     throw Exception(errors::LogicError) << "SingleChoiceNoProcessProductResolver::productWasFetchedAndIsValid_() not "
                                            "implemented and should never be called.\n"
                                         << "Contact a Framework developer\n";
   }

   BranchDescription const& SingleChoiceNoProcessProductResolver::branchDescription_() const {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::branchDescription_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   void SingleChoiceNoProcessProductResolver::resetBranchDescription_(std::shared_ptr<BranchDescription const>) {
     throw Exception(errors::LogicError) << "SingleChoiceNoProcessProductResolver::resetBranchDescription_() not "
                                            "implemented and should never be called.\n"
                                         << "Contact a Framework developer\n";
   }

   Provenance const* SingleChoiceNoProcessProductResolver::provenance_() const {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::provenance_() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

   void SingleChoiceNoProcessProductResolver::connectTo(ProductResolverBase const&, Principal const*) {
     throw Exception(errors::LogicError)
         << "SingleChoiceNoProcessProductResolver::connectTo() not implemented and should never be called.\n"
         << "Contact a Framework developer\n";
   }

 }  // namespace edm
edm::AliasProductResolver::setProductProvenanceRetriever_
void setProductProvenanceRetriever_(ProductProvenanceRetriever const *provRetriever) override
Definition: ProductResolvers.cc:628

findQualityFiles.size
size
Write out results.
Definition: findQualityFiles.py:443

edm::SingleChoiceNoProcessProductResolver::connectTo
void connectTo(ProductResolverBase const &iOther, Principal const *) final
Definition: ProductResolvers.cc:1235

Worker.h

edm::ProductResolverBase::setProductID
void setProductID(ProductID const &pid)
Definition: ProductResolverBase.h:144

edm::DelayedReaderInputProductResolver::m_prefetchRequested
std::atomic< bool > m_prefetchRequested
Definition: ProductResolvers.h:152

edm::SwitchBaseProductResolver::getProductData
ProductData const  & getProductData() const final
Definition: ProductResolvers.h:344

edm::SingleChoiceNoProcessProductResolver::productProvenancePtr_
ProductProvenance const  * productProvenancePtr_() const override
Definition: ProductResolvers.cc:1181

edm::MergeableInputProductResolver::setOrMergeProduct
void setOrMergeProduct(std::shared_ptr< WrapperBase > prod, MergeableRunProductMetadata const *mergeableRunProductMetadata) const
Definition: ProductResolvers.cc:256

edm::NoProcessProductResolver::branchDescription_
BranchDescription const  & branchDescription_() const override
Definition: ProductResolvers.cc:1131

edm::PutOnReadInputProductResolver::isFromCurrentProcess
bool isFromCurrentProcess() const final
Definition: ProductResolvers.cc:359

edm::SwitchBaseProductResolver::worker
Worker * worker() const
Definition: ProductResolvers.h:320

L1TObjectsTimingClient_cff.resolution
resolution
Definition: L1TObjectsTimingClient_cff.py:52

edm::DelayedReaderInputProductResolver::m_waitingTasks
WaitingTaskList m_waitingTasks
Definition: ProductResolvers.h:153

edm::DataManagingProductResolver::setProductProvenanceRetriever_
void setProductProvenanceRetriever_(ProductProvenanceRetriever const *provRetriever) final
Definition: ProductResolvers.cc:600

edm::ProductResolverBase::productInstanceName
std::string const  & productInstanceName() const
Definition: ProductResolverBase.h:127

edm::Principal
Definition: Principal.h:56

edm::make_sentry
std::unique_ptr< T, F > make_sentry(T *iObject, F iFunc)
NOTE: if iObject is null, then iFunc will not be called.
Definition: make_sentry.h:30

edm::ParentProcessProductResolver::resetProductData_
void resetProductData_(bool deleteEarly) override
Definition: ProductResolvers.cc:831

info
static const TGPicture * info(bool iBackgroundIsBlack)
Definition: FWCollectionSummaryWidget.cc:153

edm::SingleChoiceNoProcessProductResolver::productWasDeleted_
bool productWasDeleted_() const override
Definition: ProductResolvers.cc:1205

UnscheduledConfigurator.h

edm::UnscheduledProductResolver::prefetchAsync_
void prefetchAsync_(WaitingTaskHolder waitTask, Principal const &principal, bool skipCurrentProcess, ServiceToken const &token, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const override
Definition: ProductResolvers.cc:468

CMS_SA_ALLOW
#define CMS_SA_ALLOW

edm::PuttableProductResolver::prefetchAsync_
void prefetchAsync_(WaitingTaskHolder waitTask, Principal const &principal, bool skipCurrentProcess, ServiceToken const &token, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const override
Definition: ProductResolvers.cc:390

edm::errors::StdException
Definition: EDMException.h:28

edm::Parentage
Definition: Parentage.h:25

kAmbiguousOffset
static constexpr unsigned int kAmbiguousOffset
Definition: ProductResolvers.cc:28

edm::SwitchProducerProductResolver::resolveProduct_
Resolution resolveProduct_(Principal const &principal, bool skipCurrentProcess, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const final
Definition: ProductResolvers.cc:705

edm::ParentProcessProductResolver::singleProduct_
bool singleProduct_() const override
Definition: ProductResolvers.cc:833

edm::exceptionContext
void exceptionContext(cms::Exception &, ESModuleCallingContext const &)
Definition: exceptionContext.cc:11

edm::ProductResolverIndex
unsigned int ProductResolverIndex
Definition: ProductResolverIndex.h:8

edm::Provenance::productProvenance
ProductProvenance const  * productProvenance() const
Definition: Provenance.cc:24

Exception
Definition: hltDiff.cc:245

edm::SwitchBaseProductResolver
Definition: ProductResolvers.h:308

kMissingOffset
static constexpr unsigned int kMissingOffset
Definition: ProductResolvers.cc:29

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Definition: ProductResolvers.h:75

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Definition: MergeableRunProductMetadata.h:54

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Definition: ProductResolvers.cc:344

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Definition: MergeableRunProductMetadata.h:54

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Definition: ProductResolvers.cc:634

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Definition: ProductResolverBase.h:90

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Definition: ProductResolvers.h:546

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Definition: WaitingTaskHolder.h:78

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Definition: ProductResolvers.cc:640

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Definition: ProductResolvers.cc:1179

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Definition: MergeableRunProductMetadata.cc:260

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Definition: ProductResolvers.h:385

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Definition: ProductResolvers.h:252

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Definition: WaitingTaskList.cc:212

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Definition: ProductResolvers.cc:1037

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Definition: ProductResolvers.cc:586

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Definition: BranchType.h:11

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Definition: ProductResolvers.cc:658

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Definition: ProductResolverBase.h:87

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Definition: ProductResolverBase.h:119

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Definition: AlignmentPayloadInspectorHelper.h:46

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Definition: BranchType.h:11

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Definition: BranchDescription.h:79

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Definition: ProductID.h:27

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Definition: ProductResolvers.h:355

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Definition: BranchDescription.h:120

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Definition: ProductResolvers.h:549

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Definition: ProductData.h:52

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Definition: ProductResolvers.h:254

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or
The Signals That Services Can Subscribe To This is based on ActivityRegistry and is current per Services can connect to the signals distributed by the ActivityRegistry in order to monitor the activity of the application Each possible callback has some defined which we here list in angle e< void, edm::EventID const  &, edm::Timestamp const  & > We also list in braces which AR_WATCH_USING_METHOD_ is used for those or
Definition: Activities.doc:12

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Definition: ProductResolvers.h:321

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Definition: WaitingTaskList.cc:125

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Definition: ProductResolvers.cc:1199

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Definition: ProductResolverBase.h:102

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Definition: ProductResolvers.h:380

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Definition: ProductResolvers.cc:361

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Definition: BranchType.h:11

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Definition: ProductResolvers.h:550

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Definition: ProductResolvers.h:548

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Definition: ProductResolvers.cc:1080

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ProductProvenance const  * branchIDToProvenance(BranchID const &bid) const
Definition: ProductProvenanceLookup.cc:59

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Definition: TransitionInfoTypes.h:26

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Definition: ProductResolvers.h:351

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void setMergeableRunProductMetadata(MergeableRunProductMetadataBase const *mrpm)
Definition: ProductData.h:60

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Definition: trackSplitPlot.h:33

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ProductProvenance const  * productProvenancePtr_() const override
Definition: ProductResolvers.cc:1082

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Definition: ProductResolvers.cc:375

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Definition: ProductData.h:36

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void setProductID_(ProductID const &pid) final
Definition: ProductResolvers.cc:680

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void prefetchAsync_(WaitingTaskHolder waitTask, Principal const &principal, bool skipCurrentProcess, ServiceToken const &token, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const override
Definition: ProductResolvers.cc:1167

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Definition: Provenance.h:34

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Definition: ServiceToken.h:101

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void prefetchAsync(WaitingTaskHolder waitTask, Principal const &principal, bool skipCurrentProcess, ServiceToken const &token, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const
Definition: ProductResolverBase.h:69

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Definition: EDMException.h:43

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void setCache(bool skipCurrentProcess, ProductResolverIndex index, std::exception_ptr exceptionPtr) const
Definition: ProductResolvers.cc:957

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Definition: ProductResolvers.cc:856

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std::atomic< bool > skippingPrefetchRequested_
Definition: ProductResolvers.h:551

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Definition: ProductResolvers.cc:662

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Definition: ProductResolvers.h:102

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Definition: ServiceToken.h:42

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Definition: ProductResolvers.h:545

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Definition: TypeWithDict.h:81

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void setProductProvenanceRetriever_(ProductProvenanceRetriever const *provRetriever) override
Definition: ProductResolvers.cc:1078

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Definition: ProductResolvers.cc:336

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Definition: ProductResolvers.cc:27

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Definition: ProductResolvers.cc:441

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Definition: ProductResolvers.cc:1113

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Definition: ProductResolvers.cc:821

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Provenance const  * provenance_() const override
Definition: ProductResolvers.cc:1229

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bool singleProduct_() const override
Definition: ProductResolvers.cc:1185

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void setupUnscheduled(UnscheduledConfigurator const &) final
Definition: ProductResolvers.cc:449

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void setMergeableRunProductMetadataInProductData(MergeableRunProductMetadata const *)
Definition: ProductResolvers.cc:606

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Definition: ProductData.h:56

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Definition: ProductResolvers.h:253

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Definition: WrapperBase.h:30

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Definition: svgfig.py:547

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Definition: BranchDescription.h:32

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Definition: FunctorTask.h:44

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Definition: ProductResolvers.h:70

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BranchDescription const  & branchDescription() const
Definition: ProductResolverBase.h:110

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void putProduct(std::unique_ptr< WrapperBase > edp) const override
Definition: ProductResolvers.cc:350

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void prefetchFailed(unsigned int iProcessingIndex, Principal const &principal, bool iSkipCurrentProcess, std::exception_ptr iExceptPtr) const
Definition: ProductResolvers.cc:1013

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void setProductID_(ProductID const &pid) override
Definition: ProductResolvers.cc:825

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void setMergeableRunProductMetadata_(MergeableRunProductMetadata const *) override
Definition: ProductResolvers.cc:266

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Definition: ProductResolvers.h:303

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edm::UnscheduledAuxiliary::preModuleDelayedGetSignal_
signalslot::Signal< void(StreamContext const  &, ModuleCallingContext const  &)> preModuleDelayedGetSignal_
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Definition: ProductResolverBase.h:36

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ProductData productData_
Definition: ProductResolvers.h:101

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Definition: WaitingTask.h:36

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Transition transition() const
Definition: GlobalContext.h:53

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std::vector< ProductResolverIndex > matchingHolders_
Definition: ProductResolvers.h:544

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Definition: definitions.py:57

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Definition: SerialTaskQueueChain.h:32

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Definition: ProductResolverIndex.h:16

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Definition: WaitingTaskHolder.h:32

edm::NoProcessProductResolver::tryResolver
Resolution tryResolver(unsigned int index, Principal const &principal, bool skipCurrentProcess, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const
Definition: ProductResolvers.cc:869

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Definition: ServiceRegistry.h:40

edm::PuttableProductResolver::resolveProduct_
Resolution resolveProduct_(Principal const &principal, bool skipCurrentProcess, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const override
Definition: ProductResolvers.cc:379

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Definition: BranchDescription.h:90

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HLT enums.
Definition: AlignableModifier.h:19

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Definition: WrapperBase.h:23

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unsigned int unsetIndexValue() const
Definition: ProductResolvers.cc:1084

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StreamContext const  * getStreamContext() const
Definition: ModuleCallingContext.cc:34

edm::DelayedReaderInputProductResolver::retrieveAndMerge_
void retrieveAndMerge_(Principal const &principal, MergeableRunProductMetadata const *mergeableRunProductMetadata) const override
Definition: ProductResolvers.cc:210

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Definition: ProductProvenance.h:24

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bool unscheduledWasNotRun_() const override
Definition: ProductResolvers.cc:1187

edm::DataManagingProductResolver::setProduct
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Definition: ProductResolvers.cc:550

UnscheduledAuxiliary.h

edm::ProductData::unsafe_setWrapper
void unsafe_setWrapper(std::unique_ptr< WrapperBase > iValue) const
Definition: ProductData.cc:27

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Provenance const  * provenance_() const override
Definition: ProductResolvers.cc:1143

edm::NoProcessProductResolver::productWasDeleted_
bool productWasDeleted_() const override
Definition: ProductResolvers.cc:1119

edm::NoProcessProductResolver::prefetchAsync_
void prefetchAsync_(WaitingTaskHolder waitTask, Principal const &principal, bool skipCurrentProcess, ServiceToken const &token, SharedResourcesAcquirer *sra, ModuleCallingContext const *mcc) const override
Definition: ProductResolvers.cc:925

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Definition: ProductResolvers.cc:453

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Definition: SharedResourcesAcquirer.h:34

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void resetProductData_(bool deleteEarly) override=0

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Definition: ProductResolvers.cc:781

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Definition: UnscheduledConfigurator.h:32

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Definition: ProductResolvers.cc:878

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Definition: MessageLogger.h:122

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Definition: ProductResolvers.cc:517

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Definition: UnscheduledAuxiliary.h:44

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Definition: UnscheduledConfigurator.h:53

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Definition: ProductResolvers.cc:668

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Definition: ProductResolverBase.h:100

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Definition: ProductResolvers.h:322

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Definition: ParentageRegistry.cc:5

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Definition: ProductResolvers.cc:1193

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Definition: ProductResolvers.cc:1217

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Definition: UnscheduledAuxiliary.h:36

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Definition: ProductResolvers.cc:1125

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Definition: ProductResolvers.cc:33

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Definition: Principal.cc:562

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Definition: ProductResolverBase.h:48

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Definition: ProductResolvers.cc:632

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Definition: ParentContext.h:27

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Definition: ProductResolvers.cc:827

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Definition: ProductResolvers.cc:788

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Definition: ProductResolvers.cc:1137

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Definition: ProductResolvers.h:251

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Definition: ParentageRegistry.cc:25

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Definition: ProductResolvers.cc:1223

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Definition: eostools.py:511

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Definition: ProductResolvers.cc:676

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Definition: Principal.h:187

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Definition: AlCaHLTBitMon_ParallelJobs.py:153

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Definition: ProductResolvers.cc:525

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Definition: dqmdumpme.py:60

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Definition: unpackBuffers-CaloStage2.py:316

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Definition: EDMException.h:37

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void setProductProvenanceRetriever(ProductProvenanceRetriever const *provRetriever)
Definition: ProductResolverBase.h:139

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Definition: ProductResolvers.cc:572

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Definition: ProductResolvers.h:552

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Definition: ProductProvenanceLookup.cc:42

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Definition: ProductResolvers.h:591

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Definition: EDMException.h:35

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Definition: ProductResolvers.cc:433

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Definition: ModuleCallingContext.h:56

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Definition: ProductResolvers.h:52

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Definition: DeepTauBase.h:115

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Definition: BranchDescription.h:77

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Definition: ProductResolvers.cc:1156

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Definition: ProductResolvers.cc:652