edm::MixingModule Class Reference

#include <MixingModule.h>

Inheritance diagram for edm::MixingModule:

Public Types
typedef std::vector < DigiAccumulatorMixMod * >	Accumulators
Public Types inherited from edm::one::EDProducerBase
typedef EDProducerBase	ModuleType
Public Types inherited from edm::ProducerBase
typedef ProductRegistryHelper::TypeLabelList	TypeLabelList
Public Types inherited from edm::EDConsumerBase
typedef ProductLabels	Labels

Public Member Functions
void	accumulateEvent (Event const &event, EventSetup const &setup)
void	accumulateEvent (PileUpEventPrincipal const &event, EventSetup const &setup, edm::StreamID const &)
virtual void	beginJob ()
virtual void	beginLuminosityBlock (LuminosityBlock const &l1, EventSetup const &c) override
virtual void	beginRun (Run const &r1, EventSetup const &c) override
virtual void	endLuminosityBlock (LuminosityBlock const &l1, EventSetup const &c) override
virtual void	endRun (Run const &r1, EventSetup const &c) override
void	finalizeEvent (Event &event, EventSetup const &setup)
void	initializeEvent (Event const &event, EventSetup const &setup)
	MixingModule (const edm::ParameterSet &ps)
virtual void	reload (const edm::EventSetup &)
virtual	~MixingModule ()
Public Member Functions inherited from edm::BMixingModule
virtual void	addPileups (const int bcr, EventPrincipal *ep, unsigned int eventId, unsigned int worker, const edm::EventSetup &c)
double	averageNumber () const
	BMixingModule (const edm::ParameterSet &ps)
bool	poisson () const
virtual void	produce (edm::Event &e1, const edm::EventSetup &c) override
virtual void	setBcrOffset ()
virtual void	setSourceOffset (const unsigned int s)
virtual	~BMixingModule ()
Public Member Functions inherited from edm::one::EDProducer< edm::one::SharedResources, edm::one::WatchRuns, edm::one::WatchLuminosityBlocks >
	EDProducer ()=default
Public Member Functions inherited from edm::one::EDProducerBase
	EDProducerBase ()
ModuleDescription const &	moduleDescription () const
virtual	~EDProducerBase ()
Public Member Functions inherited from edm::ProducerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)
	ProducerBase ()
void	registerProducts (ProducerBase *, ProductRegistry *, ModuleDescription const &)
std::function< void(BranchDescription const &)>	registrationCallback () const
	used by the fwk to register list of products More...
virtual	~ProducerBase ()
Public Member Functions inherited from edm::EDConsumerBase
std::vector< ConsumesInfo >	consumesInfo () const
	EDConsumerBase ()
ProductHolderIndexAndSkipBit	indexFrom (EDGetToken, BranchType, TypeID const &) const
void	itemsMayGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
void	itemsToGet (BranchType, std::vector< ProductHolderIndexAndSkipBit > &) const
std::vector < ProductHolderIndexAndSkipBit > const &	itemsToGetFromEvent () const
void	labelsForToken (EDGetToken iToken, Labels &oLabels) const
void	modulesDependentUpon (const std::string &iProcessName, std::vector< const char * > &oModuleLabels) const
void	modulesWhoseProductsAreConsumed (std::vector< ModuleDescription const * > &modules, ProductRegistry const &preg, std::map< std::string, ModuleDescription const * > const &labelsToDesc, std::string const &processName) const
bool	registeredToConsume (ProductHolderIndex, bool, BranchType) const
bool	registeredToConsumeMany (TypeID const &, BranchType) const
void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)
virtual	~EDConsumerBase ()

Private Member Functions
virtual void	addSignals (const edm::Event &e, const edm::EventSetup &es)
virtual void	branchesActivate (const std::string &friendlyName, const std::string &subdet, InputTag &tag, std::string &label)
virtual void	checkSignal (const edm::Event &e)
void	createDigiAccumulators (const edm::ParameterSet &mixingPSet, edm::ConsumesCollector &iC)
virtual void	createnewEDProduct ()
virtual void	doPileUp (edm::Event &e, const edm::EventSetup &es) override
void	pileAllWorkers (EventPrincipal const &ep, ModuleCallingContext const *, int bcr, int id, int &offset, const edm::EventSetup &setup, edm::StreamID const &)
virtual void	put (edm::Event &e, const edm::EventSetup &es)

Private Attributes
std::vector< AdjusterBase * >	adjusters_
std::vector< AdjusterBase * >	adjustersObjects_
Accumulators	digiAccumulators_
InputTag	inputTagPlayback_
bool	mixProdStep1_
bool	mixProdStep2_
CrossingFramePlaybackInfoNew *	playbackInfo_
bool	useCurrentProcessOnly_
std::vector< std::string >	wantedBranches_
std::vector< MixingWorkerBase * >	workers_
std::vector< MixingWorkerBase * >	workersObjects_

Additional Inherited Members
Static Public Member Functions inherited from edm::one::EDProducerBase
static const std::string &	baseType ()
static void	fillDescriptions (ConfigurationDescriptions &descriptions)
static void	prevalidate (ConfigurationDescriptions &descriptions)
Protected Member Functions inherited from edm::BMixingModule
void	dropUnwantedBranches (std::vector< std::string > const &wantedBranches)
virtual void	endJob () override
void	setupPileUpEvent (const edm::EventSetup &setup)
void	update (edm::EventSetup const &)
Protected Member Functions inherited from edm::EDConsumerBase
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	consumes (edm::InputTag const &tag)
EDGetToken	consumes (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	consumes (TypeToGet const &id, edm::InputTag const &tag)
ConsumesCollector	consumesCollector ()
	Use a ConsumesCollector to gather consumes information from helper functions. More...
template<typename ProductType , BranchType B = InEvent>
void	consumesMany ()
void	consumesMany (const TypeToGet &id)
template<BranchType B>
void	consumesMany (const TypeToGet &id)
template<typename ProductType , BranchType B = InEvent>
EDGetTokenT< ProductType >	mayConsume (edm::InputTag const &tag)
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
template<BranchType B>
EDGetToken	mayConsume (const TypeToGet &id, edm::InputTag const &tag)
Protected Attributes inherited from edm::BMixingModule
int	bunchSpace_
bool	checktof_
bool	doit_ [4]
unsigned int	eventId_
std::vector< std::shared_ptr < PileUp > >	inputSources_
int	maxBunch_
int	minBunch_
bool const	mixProdStep1_
bool const	mixProdStep2_
edm::ESWatcher< MixingRcd >	parameterWatcher_
bool	playback_
bool	readDB_
std::vector< std::string >	sourceNames_
std::vector< float >	TrueNumInteractions_
int	vertexOffset_
Static Protected Attributes inherited from edm::BMixingModule
static const unsigned int	maxNbSources_ =4

Detailed Description

Definition at line 49 of file MixingModule.h.

Member Typedef Documentation

typedef std::vector<DigiAccumulatorMixMod*> edm::MixingModule::Accumulators

Definition at line 51 of file MixingModule.h.

Constructor & Destructor Documentation

MixingModule::MixingModule ( const edm::ParameterSet &  ps )

explicit

standard constructor

Definition at line 41 of file MixingModule.cc.

References adjustersObjects_, edm::binary_search_all(), branchesActivate(), edm::BMixingModule::bunchSpace_, edm::EDConsumerBase::consumesCollector(), createDigiAccumulators(), edm::BMixingModule::dropUnwantedBranches(), edm::InputTag::encode(), edm::ParameterSet::exists(), edm::ParameterSet::getParameter(), edm::ParameterSet::getParameterNames(), edm::ParameterSet::getUntrackedParameter(), i, cuy::ii, HLT_25ns14e33_v1_cff::InputTag, inputTagPlayback_, edm::InputTag::instance(), edm::InputTag::kSkipCurrentProcess, diffTwoXMLs::label, LogDebug, edm::BMixingModule::maxBunch_, edm::BMixingModule::maxNbSources_, edm::BMixingModule::minBunch_, mixProdStep1_, mixProdStep2_, cscdqm::h::names, edm::BMixingModule::playback_, edm::sort_all(), AlCaHLTBitMon_QueryRunRegistry::string, subdets, GlobalPosition_Frontier_DevDB_cff::tag, o2o::tags, useCurrentProcessOnly_, wantedBranches_, and workersObjects_.

                                                          :
  BMixingModule(ps_mix),
  inputTagPlayback_(),
  mixProdStep2_(ps_mix.getParameter<bool>("mixProdStep2")),
  mixProdStep1_(ps_mix.getParameter<bool>("mixProdStep1")),
  digiAccumulators_()
  {
    if (!mixProdStep1_ && !mixProdStep2_) LogInfo("MixingModule") << " The MixingModule was run in the Standard mode.";
    if (mixProdStep1_) LogInfo("MixingModule") << " The MixingModule was run in the Step1 mode. It produces a mixed secondary source.";
    if (mixProdStep2_) LogInfo("MixingModule") << " The MixingModule was run in the Step2 mode. It uses a mixed secondary source.";

    useCurrentProcessOnly_=false;
    if (ps_mix.exists("useCurrentProcessOnly")) {
      useCurrentProcessOnly_=ps_mix.getParameter<bool>("useCurrentProcessOnly");
      LogInfo("MixingModule") <<" using given Parameter 'useCurrentProcessOnly' ="<<useCurrentProcessOnly_;
    }
    std::string labelPlayback;
    if (ps_mix.exists("LabelPlayback")) {
      labelPlayback = ps_mix.getParameter<std::string>("LabelPlayback");
    }
    if (labelPlayback.empty()) {
      labelPlayback = ps_mix.getParameter<std::string>("@module_label");
    }
    if (playback_) {
      inputTagPlayback_ = InputTag(labelPlayback, "", edm::InputTag::kSkipCurrentProcess);
      consumes<CrossingFramePlaybackInfoNew>(inputTagPlayback_);
    }

    ParameterSet ps=ps_mix.getParameter<ParameterSet>("mixObjects");
    std::vector<std::string> names = ps.getParameterNames();
    for(std::vector<std::string>::iterator it=names.begin();it!= names.end();++it) {
      ParameterSet pset=ps.getParameter<ParameterSet>((*it));
      if (!pset.exists("type")) continue; //to allow replacement by empty pset
      std::string object = pset.getParameter<std::string>("type");
      std::vector<InputTag> tags=pset.getParameter<std::vector<InputTag> >("input");

      //if (!mixProdStep2_) {

          InputTag tagCF = InputTag();
          std::string labelCF = " ";

          if (object=="SimTrack") {
            InputTag tag;
            if (tags.size()>0) tag=tags[0];
            std::string label;

            branchesActivate(TypeID(typeid(std::vector<SimTrack>)).friendlyClassName(),std::string(""),tag,label);
            adjustersObjects_.push_back(new Adjuster<std::vector<SimTrack> >(tag, consumesCollector()));
            bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
            if(makeCrossingFrame) {
              workersObjects_.push_back(new MixingWorker<SimTrack>(minBunch_,maxBunch_,bunchSpace_,std::string(""),label,labelCF,maxNbSources_,tag,tagCF));
              produces<CrossingFrame<SimTrack> >(label);
            }
            consumes<std::vector<SimTrack> >(tag);

            LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
            //            std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;

          } else if (object=="RecoTrack") {
            InputTag tag;
            if (tags.size()>0) tag=tags[0];
            std::string label;

            branchesActivate(TypeID(typeid(std::vector<reco::Track>)).friendlyClassName(),std::string(""),tag,label);
            branchesActivate(TypeID(typeid(std::vector<reco::TrackExtra>)).friendlyClassName(),std::string(""),tag,label);
            branchesActivate(TypeID(typeid(edm::OwnVector<TrackingRecHit,edm::ClonePolicy<TrackingRecHit> >)).friendlyClassName(),std::string(""),tag,label);
            adjustersObjects_.push_back(new Adjuster<edm::OwnVector<TrackingRecHit> >(tag, consumesCollector()));
        // note: no crossing frame is foreseen to be used for this object type
        
        LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
        //std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;

          } else if (object=="SimVertex") {
            InputTag tag;
            if (tags.size()>0) tag=tags[0];
            std::string label;

            branchesActivate(TypeID(typeid(std::vector<SimVertex>)).friendlyClassName(),std::string(""),tag,label);
            adjustersObjects_.push_back(new Adjuster<std::vector<SimVertex> >(tag, consumesCollector()));
            bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
            if(makeCrossingFrame) {
              workersObjects_.push_back(new MixingWorker<SimVertex>(minBunch_,maxBunch_,bunchSpace_,std::string(""),label,labelCF,maxNbSources_,tag,tagCF));
              produces<CrossingFrame<SimVertex> >(label);
            }
            consumes<std::vector<SimVertex> >(tag);

            LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag "<<tag.encode()<<", label will be "<<label;
            //            std::cout <<"Will mix "<<object<<"s with InputTag "<<tag.encode()<<", label will be "<<label<<std::endl;

          } else if (object=="HepMCProduct") {
            InputTag tag;
            if (tags.size()>0) tag=tags[0];
            std::string label;

            branchesActivate(TypeID(typeid(HepMCProduct)).friendlyClassName(),std::string(""),tag,label);
            bool makeCrossingFrame = pset.getUntrackedParameter<bool>("makeCrossingFrame", false);
            if(makeCrossingFrame) {
              workersObjects_.push_back(new MixingWorker<HepMCProduct>(minBunch_,maxBunch_,bunchSpace_,std::string(""),label,labelCF,maxNbSources_,tag,tagCF,tags));
              produces<CrossingFrame<HepMCProduct> >(label);
            }
        consumes<HepMCProduct>(tag);

            LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
            //            std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
            for(size_t i = 1; i < tags.size(); ++i) { 
              InputTag fallbackTag = tags[i];
              std::string fallbackLabel;
              branchesActivate(TypeID(typeid(HepMCProduct)).friendlyClassName(),std::string(""),fallbackTag,fallbackLabel);
              mayConsume<HepMCProduct>(fallbackTag);
            }

          } else if (object=="PCaloHit") {
            std::vector<std::string> subdets=pset.getParameter<std::vector<std::string> >("subdets");
            std::vector<std::string> crossingFrames=pset.getUntrackedParameter<std::vector<std::string> >("crossingFrames", std::vector<std::string>());
            sort_all(crossingFrames);
            for (unsigned int ii=0;ii<subdets.size();++ii) {
              InputTag tag;
              if (tags.size()==1) tag=tags[0];
              else if(tags.size()>1) tag=tags[ii];
              std::string label;

              branchesActivate(TypeID(typeid(std::vector<PCaloHit>)).friendlyClassName(),subdets[ii],tag,label);
              adjustersObjects_.push_back(new Adjuster<std::vector<PCaloHit> >(tag, consumesCollector()));
              if(binary_search_all(crossingFrames, tag.instance())) {
                workersObjects_.push_back(new MixingWorker<PCaloHit>(minBunch_,maxBunch_,bunchSpace_,subdets[ii],label,labelCF,maxNbSources_,tag,tagCF));
                produces<CrossingFrame<PCaloHit> >(label);
                consumes<std::vector<PCaloHit> >(tag);
              }

              LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
              //              std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;

            }

          } else if (object=="PSimHit") {
            std::vector<std::string> subdets=pset.getParameter<std::vector<std::string> >("subdets");
            std::vector<std::string> crossingFrames=pset.getUntrackedParameter<std::vector<std::string> >("crossingFrames", std::vector<std::string>());
            sort_all(crossingFrames);
            for (unsigned int ii=0;ii<subdets.size();++ii) {
              InputTag tag;
              if (tags.size()==1) tag=tags[0];
              else if(tags.size()>1) tag=tags[ii];
              std::string label;

              branchesActivate(TypeID(typeid(std::vector<PSimHit>)).friendlyClassName(),subdets[ii],tag,label);
              adjustersObjects_.push_back(new Adjuster<std::vector<PSimHit> >(tag, consumesCollector()));
              if(binary_search_all(crossingFrames, tag.instance())) {
                workersObjects_.push_back(new MixingWorker<PSimHit>(minBunch_,maxBunch_,bunchSpace_,subdets[ii],label,labelCF,maxNbSources_,tag,tagCF));
                produces<CrossingFrame<PSimHit> >(label);
                consumes<std::vector<PSimHit> >(tag);
              }

              LogInfo("MixingModule") <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label;
              //              std::cout <<"Will mix "<<object<<"s with InputTag= "<<tag.encode()<<", label will be "<<label<<std::endl;
            }
          } else {
            LogWarning("MixingModule") <<"You have asked to mix an unknown type of object("<<object<<").\n If you want to include it in mixing, please contact the authors of the MixingModule!";
          }
      //} //if for mixProdStep2
    }//while over the mixObjects parameters

    sort_all(wantedBranches_);
    for (unsigned int branch=0;branch<wantedBranches_.size();++branch) LogDebug("MixingModule")<<"Will keep branch "<<wantedBranches_[branch]<<" for mixing ";

    dropUnwantedBranches(wantedBranches_);

    produces<PileupMixingContent>();

    produces<CrossingFramePlaybackInfoNew>();

    edm::ConsumesCollector iC(consumesCollector());
    // Create and configure digitizers
    createDigiAccumulators(ps_mix, iC);
  }

MixingModule::~MixingModule ( )

virtual

Default destructor

Definition at line 284 of file MixingModule.cc.

References adjustersObjects_, digiAccumulators_, and workersObjects_.

                              {
    for (auto& worker : workersObjects_) {
      delete worker;
    }

    for (auto& adjuster : adjustersObjects_) {
      delete adjuster;
    }

    for (auto& digiAccumulator : digiAccumulators_) {
      delete digiAccumulator;
    }
  }

Member Function Documentation

void MixingModule::accumulateEvent	(	edm::Event const &	event,
		edm::EventSetup const &	setup
	)

Definition at line 551 of file MixingModule.cc.

References digiAccumulators_.

Referenced by addSignals(), and pileAllWorkers().

                                                                                 {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->accumulate(event, setup);
    }
  }

void MixingModule::accumulateEvent	(	PileUpEventPrincipal const &	event,
		edm::EventSetup const &	setup,
		edm::StreamID const &	streamID
	)

Definition at line 558 of file MixingModule.cc.

References digiAccumulators_.

                                                                                                                          {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->accumulate(event, setup, streamID);
    }
  }

void MixingModule::addSignals ( const edm::Event &  e, const edm::EventSetup &  es  )

privatevirtual

Reimplemented from edm::BMixingModule.

Definition at line 298 of file MixingModule.cc.

References accumulateEvent(), edm::EventBase::id(), cuy::ii, LogDebug, and workers_.

                                                                             {

    LogDebug("MixingModule")<<"===============> adding signals for "<<e.id();

    accumulateEvent(e, setup);
    // fill in signal part of CrossingFrame
    for (unsigned int ii=0;ii<workers_.size();++ii) {
      workers_[ii]->addSignals(e);
    }
  }

virtual void edm::MixingModule::beginJob ( void  )

inlinevirtual

Reimplemented from edm::BMixingModule.

Definition at line 59 of file MixingModule.h.

{}

void MixingModule::beginLuminosityBlock ( edm::LuminosityBlock const &  lumi, edm::EventSetup const &  setup  )

overridevirtual

Reimplemented from edm::BMixingModule.

Definition at line 529 of file MixingModule.cc.

References edm::BMixingModule::beginLuminosityBlock(), and digiAccumulators_.

                                                                                                    {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->beginLuminosityBlock(lumi, setup);
    }
    BMixingModule::beginLuminosityBlock(lumi, setup);
  }

void MixingModule::beginRun ( edm::Run const &  run, edm::EventSetup const &  setup  )

overridevirtual

Reimplemented from edm::BMixingModule.

Definition at line 515 of file MixingModule.cc.

References edm::BMixingModule::beginRun(), and digiAccumulators_.

                                                                           {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->beginRun(run, setup);
    }
    BMixingModule::beginRun( run, setup);
  }

void MixingModule::branchesActivate ( const std::string &  friendlyName, const std::string &  subdet, InputTag &  tag, std::string &  label  )

privatevirtual

Definition at line 243 of file MixingModule.cc.

References EgammaHLTValidationUtils::getProcessName(), HLT_25ns14e33_v1_cff::InputTag, edm::InputTag::instance(), edm::InputTag::label(), FSQHLTOfflineSource_cfi::processName, AlCaHLTBitMon_QueryRunRegistry::string, useCurrentProcessOnly_, and wantedBranches_.

Referenced by MixingModule().

                                                                                                                             {

    label=tag.label()+tag.instance();
    wantedBranches_.push_back(friendlyName + '_' +
                              tag.label() + '_' +
                              tag.instance());

    //if useCurrentProcessOnly, we have to change the input tag
    if (useCurrentProcessOnly_) {
      const std::string processName = edm::Service<edm::service::TriggerNamesService>()->getProcessName();
      tag = InputTag(tag.label(),tag.instance(),processName);
    }
  }

void MixingModule::checkSignal ( const edm::Event &  e )

privatevirtual

Reimplemented from edm::BMixingModule.

Definition at line 257 of file MixingModule.cc.

References adjusters_, adjustersObjects_, workers_, and workersObjects_.

                                                 {
    if (adjusters_.empty()){
      for (auto const& adjuster : adjustersObjects_) {
        if (adjuster->checkSignal(e)){
          adjusters_.push_back(adjuster);
        }
      }
    }
    if (workers_.empty()){
      for (auto const& worker : workersObjects_) {
        if (worker->checkSignal(e)){
          workers_.push_back(worker);
        }
      }
    }
  }

void MixingModule::createDigiAccumulators ( const edm::ParameterSet &  mixingPSet, edm::ConsumesCollector &  iC  )

private

Definition at line 217 of file MixingModule.cc.

References digiAccumulators_, edm::DigiAccumulatorMixModFactory::get(), edm::ParameterSet::getParameterNames(), edm::ParameterSet::getParameterSet(), and edm::DigiAccumulatorMixModFactory::makeDigiAccumulator().

Referenced by MixingModule().

                                                                                                       {
    ParameterSet const& digiPSet = mixingPSet.getParameterSet("digitizers");
    std::vector<std::string> digiNames = digiPSet.getParameterNames();
    for(auto const& digiName : digiNames) {
        ParameterSet const& pset = digiPSet.getParameterSet(digiName);
        std::auto_ptr<DigiAccumulatorMixMod> accumulator = std::auto_ptr<DigiAccumulatorMixMod>(DigiAccumulatorMixModFactory::get()->makeDigiAccumulator(pset, *this, iC));
        // Create appropriate DigiAccumulator
        if(accumulator.get() != 0) {
          digiAccumulators_.push_back(accumulator.release());
        }
    }
  }

void MixingModule::createnewEDProduct ( )

privatevirtual

Reimplemented from edm::BMixingModule.

Definition at line 274 of file MixingModule.cc.

References cuy::ii, edm::BMixingModule::maxBunch_, edm::BMixingModule::maxNbSources_, edm::BMixingModule::minBunch_, playbackInfo_, and workers_.

                                        {
    //create playback info
    playbackInfo_=new CrossingFramePlaybackInfoNew(minBunch_,maxBunch_,maxNbSources_);
    //and CrossingFrames
    for (unsigned int ii=0;ii<workers_.size();++ii){
      workers_[ii]->createnewEDProduct();
    }
  }

void MixingModule::doPileUp ( edm::Event &  e, const edm::EventSetup &  es  )

overrideprivatevirtual

Reimplemented from edm::BMixingModule.

Definition at line 336 of file MixingModule.cc.

References begin, edm::BMixingModule::bunchSpace_, digiAccumulators_, end, Exception, edm::Event::getByLabel(), edm::EventBase::id(), cuy::ii, edm::BMixingModule::inputSources_, inputTagPlayback_, edm::BMixingModule::maxBunch_, edm::BMixingModule::maxNbSources_, edm::BMixingModule::minBunch_, edm::Event::moduleCallingContext(), pileAllWorkers(), edm::BMixingModule::playback_, playbackInfo_, edm::Event::put(), CrossingFramePlaybackInfoNew::setInfo(), edm::source(), edm::Event::streamID(), edm::BMixingModule::TrueNumInteractions_, and workers_.

                                                                     {
    using namespace std::placeholders;

    // Don't allocate because PileUp will do it for us.
    std::vector<edm::SecondaryEventIDAndFileInfo> recordEventID;
    std::vector<size_t> sizes;
    sizes.reserve(maxNbSources_*(maxBunch_ + 1 - minBunch_));
    size_t playbackCounter = 0U;
    edm::Handle<CrossingFramePlaybackInfoNew>  playbackInfo_H;
    edm::Handle<CrossingFramePlaybackInfoExtended> oldFormatPlaybackInfo_H;
    bool oldFormatPlayback = false;
    if (playback_) {
      bool got = e.getByLabel(inputTagPlayback_, playbackInfo_H);
      if (!got) {
        bool gotOld = e.getByLabel(inputTagPlayback_, oldFormatPlaybackInfo_H);
        if (!gotOld) {
          throw cms::Exception("MixingProductNotFound") << " No "
            "CrossingFramePlaybackInfoNew on the input file, but playback "
            "option set!!!!! Please change the input file if you really want "
            "playback!!!!!!"  << std::endl;
        }
        oldFormatPlayback = true;
      }
    }

    // source[0] is "real" pileup.  Check to see that this is what we are doing.

    std::vector<int> PileupList;
    PileupList.clear();
    TrueNumInteractions_.clear();

    std::shared_ptr<PileUp> source0 = inputSources_[0];

    if((source0 && source0->doPileUp(0) ) && !playback_) {
      //    if((!inputSources_[0] || !inputSources_[0]->doPileUp()) && !playback_ )

      // Pre-calculate all pileup distributions before we go fishing for events

      source0->CalculatePileup(minBunch_, maxBunch_, PileupList, TrueNumInteractions_, e.streamID());

    }

    //    for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
    //  std::cout << " bunch ID, Pileup, True " << bunchIdx << " " << PileupList[bunchIdx-minBunch_] << " " <<  TrueNumInteractions_[bunchIdx-minBunch_] << std::endl;
    //}

    for (int bunchIdx = minBunch_; bunchIdx <= maxBunch_; ++bunchIdx) {
      for (size_t setBcrIdx=0; setBcrIdx<workers_.size(); ++setBcrIdx) {
        workers_[setBcrIdx]->setBcrOffset();
      }
      for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
        (*accItr)->initializeBunchCrossing(e, setup, bunchIdx);
      }

      for (size_t readSrcIdx=0; readSrcIdx<maxNbSources_; ++readSrcIdx) {
        std::shared_ptr<PileUp> source = inputSources_[readSrcIdx];   // this looks like we create
                                                                        // new PileUp objects for each
                                                                        // source for each event?
                                                                        // Why?
        for (size_t setSrcIdx=0; setSrcIdx<workers_.size(); ++setSrcIdx) {
          workers_[setSrcIdx]->setSourceOffset(readSrcIdx);
        }

        if (!source || !source->doPileUp(bunchIdx)) {
          sizes.push_back(0U);
          if(playback_ && !oldFormatPlayback) {
            playbackCounter += playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
          }
          continue;
        }

        //        int eventId = 0;
        int vertexOffset = 0;

        ModuleCallingContext const* mcc = e.moduleCallingContext();
        if (!playback_) {
           // non-minbias pileup only gets one event for now. Fix later if desired.
          int numberOfEvents = (readSrcIdx == 0 ? PileupList[bunchIdx - minBunch_] : 1);
          sizes.push_back(numberOfEvents);
          inputSources_[readSrcIdx]->readPileUp(e.id(), recordEventID,
                                                std::bind(&MixingModule::pileAllWorkers, std::ref(*this), _1, mcc, bunchIdx,
                                                            _2, vertexOffset, std::ref(setup), e.streamID()), numberOfEvents, e.streamID());
        } else if(oldFormatPlayback) {
          std::vector<edm::EventID> const& playEventID = oldFormatPlaybackInfo_H->getStartEventId(readSrcIdx, bunchIdx);
          size_t numberOfEvents = playEventID.size();
          if(readSrcIdx == 0) {
            PileupList.push_back(numberOfEvents);
            TrueNumInteractions_.push_back(numberOfEvents);
          }
          sizes.push_back(numberOfEvents);
          std::vector<EventID>::const_iterator begin = playEventID.begin();
          std::vector<EventID>::const_iterator end = playEventID.end();
          inputSources_[readSrcIdx]->playOldFormatPileUp(
            begin, end, recordEventID,
            std::bind(&MixingModule::pileAllWorkers, std::ref(*this), _1, mcc, bunchIdx,
                        _2, vertexOffset, std::ref(setup), e.streamID()));
        } else {
          size_t numberOfEvents = playbackInfo_H->getNumberOfEvents(bunchIdx, readSrcIdx);
          if(readSrcIdx == 0) {
            PileupList.push_back(numberOfEvents);
            TrueNumInteractions_.push_back(numberOfEvents);
          }
          sizes.push_back(numberOfEvents);
          std::vector<SecondaryEventIDAndFileInfo>::const_iterator begin = playbackInfo_H->getEventId(playbackCounter);
          playbackCounter += numberOfEvents;
          std::vector<SecondaryEventIDAndFileInfo>::const_iterator end = playbackInfo_H->getEventId(playbackCounter);
          inputSources_[readSrcIdx]->playPileUp(
            begin, end, recordEventID,
            std::bind(&MixingModule::pileAllWorkers, std::ref(*this), _1, mcc, bunchIdx,
                        _2, vertexOffset, std::ref(setup), e.streamID()));
    }
      }
      for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
        (*accItr)->finalizeBunchCrossing(e, setup, bunchIdx);
      }
    }
    // Save playback information

    std::vector<edm::EventID> eventInfoList;
    for (auto const item : recordEventID) {
      eventInfoList.emplace_back(item.eventID());
    }

    // setInfo swaps recordEventID, so recordEventID is useless (empty) after the call.
    playbackInfo_->setInfo(recordEventID, sizes);

    // Keep track of pileup accounting...

    std::auto_ptr<PileupMixingContent> PileupMixing_;

    std::vector<int> numInteractionList;
    std::vector<int> bunchCrossingList;
    std::vector<float> TrueInteractionList;

    //Makin' a list: Basically, we don't care about the "other" sources at this point.
    for (int bunchCrossing=minBunch_;bunchCrossing<=maxBunch_;++bunchCrossing) {
      bunchCrossingList.push_back(bunchCrossing);
      if(!inputSources_[0] || !inputSources_[0]->doPileUp(0)) {
        numInteractionList.push_back(0);
        TrueInteractionList.push_back(0);
      }
      else {
        numInteractionList.push_back(PileupList[bunchCrossing-minBunch_]);
        TrueInteractionList.push_back((TrueNumInteractions_)[bunchCrossing-minBunch_]);
      }
    }

    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->StorePileupInformation( bunchCrossingList,
                     numInteractionList,
                     TrueInteractionList,
                     eventInfoList,
                     bunchSpace_);
    }


    PileupMixing_ = std::auto_ptr<PileupMixingContent>(new PileupMixingContent(bunchCrossingList,
                                                                               numInteractionList,
                                                                               TrueInteractionList,
                                           eventInfoList,
                                           bunchSpace_));

    e.put(PileupMixing_);

    // we have to do the ToF transformation for PSimHits once all pileup has been added
    for (unsigned int ii=0;ii<workers_.size();++ii) {
        workers_[ii]->setTof();
      workers_[ii]->put(e);
    }
 }

void MixingModule::endLuminosityBlock ( edm::LuminosityBlock const &  lumi, edm::EventSetup const &  setup  )

overridevirtual

Reimplemented from edm::BMixingModule.

Definition at line 536 of file MixingModule.cc.

References digiAccumulators_, and edm::BMixingModule::endLuminosityBlock().

                                                                                                   {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->endLuminosityBlock(lumi, setup);
    }
    BMixingModule::endLuminosityBlock(lumi, setup);
  }

void MixingModule::endRun ( edm::Run const &  run, edm::EventSetup const &  setup  )

overridevirtual

Reimplemented from edm::BMixingModule.

Definition at line 522 of file MixingModule.cc.

References digiAccumulators_, and edm::BMixingModule::endRun().

                                                                         {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->endRun(run, setup);
    }
    BMixingModule::endRun( run, setup);
  }

void MixingModule::finalizeEvent ( edm::Event &  event, edm::EventSetup const &  setup  )

virtual

Reimplemented from edm::BMixingModule.

Definition at line 565 of file MixingModule.cc.

References digiAccumulators_.

                                                                         {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->finalizeEvent(event, setup);
    }
  }

void MixingModule::initializeEvent ( edm::Event const &  event, edm::EventSetup const &  setup  )

virtual

Reimplemented from edm::BMixingModule.

Definition at line 544 of file MixingModule.cc.

References digiAccumulators_.

                                                                                 {
    for(Accumulators::const_iterator accItr = digiAccumulators_.begin(), accEnd = digiAccumulators_.end(); accItr != accEnd; ++accItr) {
      (*accItr)->initializeEvent(event, setup);
    }
  }

void MixingModule::pileAllWorkers ( EventPrincipal const &  ep, ModuleCallingContext const *  mcc, int  bcr, int  id, int &  offset, const edm::EventSetup &  setup, edm::StreamID const &  streamID  )

private

Definition at line 309 of file MixingModule.cc.

References accumulateEvent(), adjusters_, edm::BMixingModule::bunchSpace_, edm::EventPrincipal::id(), LogDebug, edm::one::EDProducerBase::moduleDescription(), and workers_.

Referenced by doPileUp().

                                                              {


    InternalContext internalContext(eventPrincipal.id(), mcc);
    ParentContext parentContext(&internalContext);
    ModuleCallingContext moduleCallingContext(&moduleDescription());
    ModuleContextSentry moduleContextSentry(&moduleCallingContext, parentContext);

    for (auto const& adjuster : adjusters_) {
      adjuster->doOffset(bunchSpace_, bunchCrossing, eventPrincipal, &moduleCallingContext, eventId, vertexOffset);
    }
    PileUpEventPrincipal pep(eventPrincipal, &moduleCallingContext, bunchCrossing);
    accumulateEvent(pep, setup, streamID);

    for (auto const& worker : workers_) {
      LogDebug("MixingModule") <<" merging Event:  id " << eventPrincipal.id();
      //      std::cout <<"PILEALLWORKERS merging Event:  id " << eventPrincipal.id() << std::endl;

      worker->addPileups(eventPrincipal, &moduleCallingContext, eventId);
    }
  }

void MixingModule::put ( edm::Event &  e, const edm::EventSetup &  es  )

privatevirtual

Reimplemented from edm::BMixingModule.

Definition at line 507 of file MixingModule.cc.

References playbackInfo_, and edm::Event::put().

                                                                {

    if (playbackInfo_) {
      std::auto_ptr<CrossingFramePlaybackInfoNew> pOut(playbackInfo_);
      e.put(pOut);
    }
  }

void MixingModule::reload ( const edm::EventSetup &  setup )

virtual

Reimplemented from edm::BMixingModule.

Definition at line 230 of file MixingModule.cc.

References edm::BMixingModule::bunchSpace_, HDQMDatabaseProducer::config, edm::EventSetup::get(), cuy::ii, edm::BMixingModule::maxBunch_, edm::BMixingModule::minBunch_, and workersObjects_.

                                                      {
    //change the basic parameters.
    edm::ESHandle<MixingModuleConfig> config;
    setup.get<MixingRcd>().get(config);
    minBunch_=config->minBunch();
    maxBunch_=config->maxBunch();
    bunchSpace_=config->bunchSpace();
    //propagate to change the workers
    for (unsigned int ii=0;ii<workersObjects_.size();++ii){
      workersObjects_[ii]->reload(setup);
    }
  }

Member Data Documentation

std::vector<AdjusterBase *> edm::MixingModule::adjusters_

private

Definition at line 95 of file MixingModule.h.

Referenced by checkSignal(), and pileAllWorkers().

std::vector<AdjusterBase *> edm::MixingModule::adjustersObjects_

private

Definition at line 96 of file MixingModule.h.

Referenced by checkSignal(), MixingModule(), and ~MixingModule().

Accumulators edm::MixingModule::digiAccumulators_

private

Definition at line 103 of file MixingModule.h.

Referenced by accumulateEvent(), beginLuminosityBlock(), beginRun(), createDigiAccumulators(), doPileUp(), endLuminosityBlock(), endRun(), finalizeEvent(), initializeEvent(), and ~MixingModule().

InputTag edm::MixingModule::inputTagPlayback_

private

Definition at line 90 of file MixingModule.h.

Referenced by doPileUp(), and MixingModule().

bool edm::MixingModule::mixProdStep1_

private

Definition at line 92 of file MixingModule.h.

Referenced by MixingModule().

bool edm::MixingModule::mixProdStep2_

private

Definition at line 91 of file MixingModule.h.

Referenced by MixingModule().

CrossingFramePlaybackInfoNew* edm::MixingModule::playbackInfo_

private

Definition at line 93 of file MixingModule.h.

Referenced by createnewEDProduct(), doPileUp(), and put().

bool edm::MixingModule::useCurrentProcessOnly_

private

Definition at line 100 of file MixingModule.h.

Referenced by branchesActivate(), and MixingModule().

std::vector<std::string> edm::MixingModule::wantedBranches_

private

Definition at line 99 of file MixingModule.h.

Referenced by branchesActivate(), and MixingModule().

std::vector<MixingWorkerBase *> edm::MixingModule::workers_

private

Definition at line 97 of file MixingModule.h.

Referenced by addSignals(), checkSignal(), createnewEDProduct(), doPileUp(), and pileAllWorkers().

std::vector<MixingWorkerBase *> edm::MixingModule::workersObjects_

private

Definition at line 98 of file MixingModule.h.

Referenced by checkSignal(), MixingModule(), reload(), and ~MixingModule().