#include <UnifiedSCCollectionProducer.h>

Inheritance diagram for UnifiedSCCollectionProducer:

Public Member Functions
virtual void	produce (edm::Event &, const edm::EventSetup &)

	UnifiedSCCollectionProducer (const edm::ParameterSet &ps)

	~UnifiedSCCollectionProducer ()

Public Member Functions inherited from edm::EDProducer
	EDProducer ()

virtual	~EDProducer ()

Public Member Functions inherited from edm::ProducerBase
	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
	EDConsumerBase ()

ProductHolderIndex	indexFrom (EDGetToken, BranchType, TypeID const &) const

void	itemsMayGet (BranchType, std::vector< ProductHolderIndex > &) const

void	itemsToGet (BranchType, std::vector< ProductHolderIndex > &) const

void	labelsForToken (EDGetToken iToken, Labels &oLabels) const

void	updateLookup (BranchType iBranchType, ProductHolderIndexHelper const &)

virtual	~EDConsumerBase ()

Private Attributes
std::string	bcCollection_

std::string	bcCollectionUncleanOnly_

edm::InputTag	cleanBcCollection_

edm::InputTag	cleanScCollection_

std::string	scCollection_

std::string	scCollectionUncleanOnly_

edm::InputTag	uncleanBcCollection_

edm::InputTag	uncleanScCollection_

Additional Inherited Members
Public Types inherited from edm::EDProducer
typedef EDProducer	ModuleType

typedef WorkerT< EDProducer >	WorkerType

Public Types inherited from edm::ProducerBase
typedef ProductRegistryHelper::TypeLabelList	TypeLabelList

Static Public Member Functions inherited from edm::EDProducer
static const std::string &	baseType ()

static void	fillDescriptions (ConfigurationDescriptions &descriptions)

static void	prevalidate (ConfigurationDescriptions &descriptions)

Protected Member Functions inherited from edm::EDProducer
CurrentProcessingContext const *	currentContext () const

Protected Member Functions inherited from edm::ProducerBase
void	callWhenNewProductsRegistered (std::function< void(BranchDescription const &)> const &func)

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)

Detailed Description

Definition at line 15 of file UnifiedSCCollectionProducer.h.

Constructor & Destructor Documentation

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

Definition at line 53 of file UnifiedSCCollectionProducer.cc.

References bcCollection_, bcCollectionUncleanOnly_, cleanBcCollection_, cleanScCollection_, edm::ParameterSet::getParameter(), scCollection_, scCollectionUncleanOnly_, AlCaHLTBitMon_QueryRunRegistry::string, uncleanBcCollection_, and uncleanScCollection_.

 {
 
         // get the parameters
         // the cleaned collection:
         cleanBcCollection_ = ps.getParameter<edm::InputTag>("cleanBcCollection");
         cleanScCollection_ = ps.getParameter<edm::InputTag>("cleanScCollection");
         // the uncleaned collection
         uncleanBcCollection_ = ps.getParameter<edm::InputTag>("uncleanBcCollection");
         uncleanScCollection_ = ps.getParameter<edm::InputTag>("uncleanScCollection");
         // the names of the products to be produced:
         //
         // the clean collection: this is as it was before, but labeled
         bcCollection_ = ps.getParameter<std::string>("bcCollection");
         scCollection_ = ps.getParameter<std::string>("scCollection");
         // the unclean only collection: SC unique to the unclean collection
         bcCollectionUncleanOnly_ = ps.getParameter<std::string>("bcCollectionUncleanOnly");
         scCollectionUncleanOnly_ = ps.getParameter<std::string>("scCollectionUncleanOnly");
         // the products:
         produces< reco::BasicClusterCollection >(bcCollection_);
         produces< reco::SuperClusterCollection >(scCollection_);
         produces< reco::BasicClusterCollection >(bcCollectionUncleanOnly_);
         produces< reco::SuperClusterCollection >(scCollectionUncleanOnly_);
 
 }

UnifiedSCCollectionProducer::~UnifiedSCCollectionProducer ( )

Definition at line 80 of file UnifiedSCCollectionProducer.cc.

80 {;}

Member Function Documentation

void UnifiedSCCollectionProducer::produce	(	edm::Event &	evt,
		const edm::EventSetup &	es
	)

virtual

Implements edm::EDProducer.

Definition at line 83 of file UnifiedSCCollectionProducer.cc.

 {
 
   edm::LogInfo("UnifiedSC")<< ">>>>> Entering UnifiedSCCollectionProducer <<<<<";
   // get the input collections
   // __________________________________________________________________________
   //
   // cluster collections:
   edm::Handle<reco::BasicClusterCollection> pCleanBC;
   edm::Handle<reco::SuperClusterCollection> pCleanSC;
   //
   edm::Handle<reco::BasicClusterCollection> pUncleanBC;
   edm::Handle<reco::SuperClusterCollection> pUncleanSC;
   
   evt.getByLabel(cleanScCollection_, pCleanSC);
   if (!(pCleanSC.isValid())) 
     {
       
       edm::LogError("MissingInput") << "could not find clean super clusters";
       return;
     }
   
   evt.getByLabel(cleanBcCollection_, pCleanBC);
   if (!(pCleanBC.isValid())) 
     {
       
       edm::LogError("MissingInput") << "could not find " << cleanBcCollection_;
       return;
     }
 
   evt.getByLabel(uncleanBcCollection_, pUncleanBC);
   if (!(pUncleanBC.isValid())) 
     {
       
       edm::LogError("MissingInput") << "could not find " <<  uncleanBcCollection_;
       return;
     }
 
 
 
         evt.getByLabel(uncleanScCollection_, pUncleanSC);
         if (!(pUncleanSC.isValid())) 
         {
 
       edm::LogError("MissingInput")<< "could not handle unclean super clusters!" ;
       return;
         }
 
         // the collections to be produced ___________________________________________
         reco::BasicClusterCollection basicClusters;
         reco::SuperClusterCollection superClusters;
         //
         reco::BasicClusterCollection basicClustersUncleanOnly;
         reco::SuperClusterCollection superClustersUncleanOnly;
         //
         // run over the uncleaned SC and check how many of them are matched to 
         // the cleaned ones
         // if you find a matched one, then keep the info that it is matched 
         //    along with which clean SC was matched + its basic clusters
         // if you find an unmatched one, keep the info and store its basic clusters
         //
         // 
         int uncleanSize = pUncleanSC->size();
         int cleanSize =   pCleanSC->size();
     
     LogTrace("UnifiedSC") << "Size of Clean Collection: " << cleanSize 
                         << ", uncleanSize: " << uncleanSize;
 
 
         // keep the indices
         std::vector<int> inUncleanOnlyInd;      // counting the unclean
         std::vector<int> inCleanInd;            // counting the unclean
         std::vector<int> inCleanOnlyInd;        // counting the clean
         std::vector<DetId> scUncleanSeedDetId;  // counting the unclean
         std::vector<DetId> scCleanSeedDetId;    // counting the clean
         // ontains the index of the SC that owns that BS
         // first basic cluster index, second: 0 for unclean and 1 for clean
         std::vector< std::pair<int, int> > basicClusterOwner; 
         std::vector< std::pair<int, int> > basicClusterOwnerUncleanOnly; 
         // if this basic cluster is a seed it is 1
         std::vector<int> uncleanBasicClusterIsSeed;
 
         // loop over unclean SC _____________________________________________________
         for (int isc =0; isc< uncleanSize; ++isc) {
                 reco::SuperClusterRef unscRef( pUncleanSC, isc);    
                 const std::vector< std::pair<DetId, float> > & uhits = unscRef->hitsAndFractions();
                 int uhitsSize = uhits.size();
                 bool foundTheSame = false;
                 for (int jsc=0; jsc < cleanSize; ++jsc) { // loop over the cleaned SC
                         reco::SuperClusterRef cscRef( pCleanSC, jsc );
                         const std::vector<std::pair<DetId,float> > & chits = cscRef->hitsAndFractions();
                         int chitsSize =  chits.size();
                         foundTheSame = false;
                         if (unscRef->seed()->seed()==cscRef->seed()->seed() && chitsSize == uhitsSize) { 
                                 // if the clusters are exactly the same then because the clustering
                                 // algorithm works in a deterministic way, the order of the rechits
                                 // will be the same
                     foundTheSame = true;
                                 for (int i=0; i< chitsSize; ++i) {
                                         if (uhits[i].first != chits[i].first ) { 
                       foundTheSame=false;    
                       break;
                     }
                                 }
                                 
                         }
                         if (foundTheSame) { // ok you have found it:
                                 // this supercluster belongs to both collections
                                 inUncleanOnlyInd.push_back(0);
                                 inCleanInd.push_back(jsc); // keeps the index of the clean SC
                                 scUncleanSeedDetId.push_back(unscRef->seed()->seed());
                                 //
                                 // keep its basic clusters:
                                 for (reco::CaloCluster_iterator bciter = unscRef->clustersBegin(); bciter != unscRef->clustersEnd(); ++bciter) {
                                         // the basic clusters
                                         basicClusters.push_back(**bciter);
                                         // index of the unclean SC
                                         basicClusterOwner.push_back( std::make_pair(isc,0) ); 
                                 } 
                                 break; // break the loop over unclean sc
                         }
                 }
                 if (not foundTheSame) { // this SC is only in the unclean collection
                         // mark it as unique in the uncleaned
                         inUncleanOnlyInd.push_back(1);
                         scUncleanSeedDetId.push_back(unscRef->seed()->seed());
                         // keep all its basic clusters
                         for (reco::CaloCluster_iterator bciter = unscRef->clustersBegin(); bciter != unscRef->clustersEnd(); ++bciter) {
                                 // the basic clusters
                                 basicClustersUncleanOnly.push_back(**bciter);
                                 basicClusterOwnerUncleanOnly.push_back( std::make_pair(isc,0) );
                         }
                 }
         } // loop over the unclean SC _______________________________________________
         //
         int inCleanSize = inCleanInd.size();
         //
         // loop over the clean SC, check that are not in common with the unclean
         // ones and then store their SC as before ___________________________________
         for (int jsc =0; jsc< cleanSize; ++jsc) {
                 // check whether this index is already in the common collection
                 bool takenAlready = false;
                 for (int j=0; j< inCleanSize; ++j) {
                         if (jsc == inCleanInd[j]) { takenAlready = true ;break;}
                 }
                 if (takenAlready) {
                         inCleanOnlyInd.push_back(0);
                         scCleanSeedDetId.push_back(DetId(0));
                         continue;
                 }
                 inCleanOnlyInd.push_back(1);
                 reco::SuperClusterRef cscRef( pCleanSC, jsc );
                 scCleanSeedDetId.push_back(cscRef->seed()->seed());
                 for (reco::CaloCluster_iterator bciter = cscRef->clustersBegin(); bciter != cscRef->clustersEnd(); ++bciter) {
                         // the basic clusters
                         basicClusters.push_back(**bciter);
                         basicClusterOwner.push_back( std::make_pair(jsc,1) );
                 }
         } // end loop over clean SC _________________________________________________
         //
         //
 
     // Final check: in the endcap BC may exist that are not associated to SC,
     // we need to recover them as well (e.g. multi5x5 algo)
     // This is should be optimized (SA, 20110621)
 
 
     // loop on original clean BC collection and see if the BC is missing from the new one
     for (reco::BasicClusterCollection::const_iterator bc = pCleanBC->begin();
          bc!=pCleanBC->end();
          ++bc){
       
       bool foundTheSame = false;
       for (reco::BasicClusterCollection::const_iterator cleanonly_bc = basicClusters.begin();
            cleanonly_bc!=basicClusters.end();
            ++cleanonly_bc){     
         
         const std::vector<std::pair<DetId,float> > & chits = bc->hitsAndFractions();
         int chitsSize =  chits.size();
         
         const std::vector<std::pair<DetId,float> > & uhits = cleanonly_bc->hitsAndFractions();
         int uhitsSize =  uhits.size();
         
         
         if (cleanonly_bc->seed()==bc->seed() && chitsSize == uhitsSize) {
             foundTheSame = true;
         for (int i=0; i< chitsSize; ++i) {
           if (uhits[i].first != chits[i].first ) { 
             foundTheSame=false;    
             break;
           }
         }
         }
                 
       } // loop on new clean BC collection
       
       // clean basic cluster is not associated to SC and does not belong to the 
       // new collection, add it
       if (!foundTheSame){         
         basicClusters.push_back(*bc);
         LogTrace("UnifiedSC")<<"found BC to add that was not associated to any SC";
       }
       
     } // loop on original clean BC collection
 
 
         // at this point we have the basic cluster collection ready
         // Up to index   basicClusterOwner.size() we have the BC owned by a SC
         // The remaining are BCs not owned by a SC
 
         int bcSize = (int) basicClusterOwner.size();
         int bcSizeUncleanOnly = (int) basicClustersUncleanOnly.size();
 
     LogTrace("UnifiedSC") << "Found cleaned SC: " << cleanSize 
                   <<  " uncleaned SC: "   << uncleanSize ;
         //
         // export the clusters to the event from the clean clusters
         std::auto_ptr< reco::BasicClusterCollection> 
                 basicClusters_p(new reco::BasicClusterCollection);
         basicClusters_p->assign(basicClusters.begin(), basicClusters.end());
         edm::OrphanHandle<reco::BasicClusterCollection> bccHandle =  
                 evt.put(basicClusters_p, bcCollection_);
         if (!(bccHandle.isValid())) {
               
       edm::LogWarning("MissingInput")<< "could not handle the new BasicClusters!";
       return;
         }
         reco::BasicClusterCollection basicClustersProd = *bccHandle;
 
     LogTrace("UnifiedSC")<< "Got the BasicClusters from the event again" ;
         //
         // export the clusters to the event: from the unclean only clusters
         std::auto_ptr< reco::BasicClusterCollection> 
                 basicClustersUncleanOnly_p(new reco::BasicClusterCollection);
         basicClustersUncleanOnly_p->assign(basicClustersUncleanOnly.begin(), 
                                            basicClustersUncleanOnly.end());
         edm::OrphanHandle<reco::BasicClusterCollection> bccHandleUncleanOnly =  
                 evt.put(basicClustersUncleanOnly_p, bcCollectionUncleanOnly_);
         if (!(bccHandleUncleanOnly.isValid())) {
 
       edm::LogWarning("MissingInput")<< "could not handle the new BasicClusters (Unclean Only)!" ;
       return;
         }
         reco::BasicClusterCollection basicClustersUncleanOnlyProd = *bccHandleUncleanOnly;
     LogTrace("UnifiedSC")<< "Got the BasicClusters from the event again  (Unclean Only)" ;
         //
 
         // now we can build the SC collection
         //
         // start again from the unclean collection
         // all the unclean SC will become members of the new collection
         // with different algoIDs ___________________________________________________
         for (int isc=0; isc< uncleanSize; ++isc) {
                 reco::CaloClusterPtrVector clusterPtrVector;
                 // the seed is the basic cluster with the highest energy
                 reco::CaloClusterPtr seed; 
                 if (inUncleanOnlyInd[isc] == 1) { // unclean SC Unique in Unclean
                         for (int jbc=0; jbc< bcSizeUncleanOnly; ++jbc) {
                                 std::pair<int, int> theBcOwner = basicClusterOwnerUncleanOnly[jbc];
                                 if (theBcOwner.first == isc && theBcOwner.second == 0) {
                                         reco::CaloClusterPtr currentClu=reco::CaloClusterPtr(bccHandleUncleanOnly,jbc);
                                         clusterPtrVector.push_back(currentClu);
                                         if (scUncleanSeedDetId[isc] == currentClu->seed()) {
                                                 seed = currentClu;
                                         }
                                 }
                         }
 
                 }
                 else { // unclean SC common in clean and unclean
                         for (int jbc=0; jbc< bcSize; ++jbc) {
                                 std::pair<int, int> theBcOwner = basicClusterOwner[jbc];
                                 if (theBcOwner.first == isc && theBcOwner.second == 0) {
                                         reco::CaloClusterPtr currentClu=reco::CaloClusterPtr(bccHandle,jbc);
                                         clusterPtrVector.push_back(currentClu);
                                         if (scUncleanSeedDetId[isc] == currentClu->seed()) {
                                                 seed = currentClu;
                                         }
                                 }
                         }
                 }
                 //std::cout << "before getting the uncl" << std::endl;
                 reco::SuperClusterRef unscRef( pUncleanSC, isc ); 
                 reco::SuperCluster newSC(unscRef->energy(), unscRef->position(), 
                                          seed, clusterPtrVector );
                 // now set the algoID for this SC again
                 if (inUncleanOnlyInd[isc] == 1) {
                         // set up the quality to unclean only .............
                         newSC.setFlags(reco::CaloCluster::uncleanOnly);
                         superClustersUncleanOnly.push_back(newSC);
                 }
                 else {
                         // set up the quality to common  .............
                         newSC.setFlags(reco::CaloCluster::common);
                         superClusters.push_back(newSC);
                 }
                 // now you can store your SC
 
         } // end loop over unclean SC _______________________________________________
         //  flags numbering scheme
         //  flags =   0 = cleanedOnly     cluster is only in the cleaned collection
         //  flags = 100 = common          cluster is common in both collections
         //  flags = 200 = uncleanedOnly   cluster is only in the uncleaned collection
 
         // now loop over the clean SC and do the same but now you have to avoid the
         // the duplicated ones ______________________________________________________
         for (int jsc=0; jsc< cleanSize; ++jsc) {
                 //std::cout << "working in cl #" << jsc << std::endl;
                 // check that the SC is not in the unclean collection
                 if (inCleanOnlyInd[jsc] == 0) continue;
                 reco::CaloClusterPtrVector clusterPtrVector;
                 // the seed is the basic cluster with the highest energy
                 reco::CaloClusterPtr seed; 
                 for (int jbc=0; jbc< bcSize; ++jbc) {
                         std::pair<int, int> theBcOwner = basicClusterOwner[jbc];
                         if (theBcOwner.first == jsc && theBcOwner.second == 1) {
                                 reco::CaloClusterPtr currentClu=reco::CaloClusterPtr(bccHandle,jbc);
                                 clusterPtrVector.push_back(currentClu);
                                 if (scCleanSeedDetId[jsc] == currentClu->seed()) {
                                         seed = currentClu;
                                 }
                         }
                 }
                 reco::SuperClusterRef cscRef( pCleanSC, jsc ); 
                 reco::SuperCluster newSC(cscRef->energy(), cscRef->position(),
                                          seed, clusterPtrVector );
                 newSC.setFlags(reco::CaloCluster::cleanOnly);
 
                 // add it to the collection:
                 superClusters.push_back(newSC);
 
         } // end loop over clean SC _________________________________________________
 
 
 
 
 
 
 
     LogTrace("UnifiedSC")<< "New SC collection was created";
 
         std::auto_ptr< reco::SuperClusterCollection> 
                 superClusters_p(new reco::SuperClusterCollection);
         superClusters_p->assign(superClusters.begin(), superClusters.end());
 
         evt.put(superClusters_p, scCollection_);
     
     LogTrace("UnifiedSC") << "Clusters (Basic/Super) added to the Event! :-)";
 
         std::auto_ptr< reco::SuperClusterCollection> 
                 superClustersUncleanOnly_p(new reco::SuperClusterCollection);
         superClustersUncleanOnly_p->assign(superClustersUncleanOnly.begin(), 
                                            superClustersUncleanOnly.end());
 
         evt.put(superClustersUncleanOnly_p, scCollectionUncleanOnly_);
 
         // ----- debugging ----------
         // print the new collection SC quantities
 
     // print out the clean collection SC
     LogTrace("UnifiedSC") << "Clean Collection SC ";
     for (int i=0; i < cleanSize; ++i) {
       reco::SuperClusterRef cscRef( pCleanSC, i );
       LogTrace("UnifiedSC") << " >>> clean    #" << i << "; Energy: " << cscRef->energy()
                                 << " eta: " << cscRef->eta() 
                                 << " sc seed detid: " << cscRef->seed()->seed().rawId()
                                 << std::endl;
                 }
                 // the unclean SC
                 LogTrace("UnifiedSC") << "Unclean Collection SC ";
                 for (int i=0; i < uncleanSize; ++i) {
                         reco::SuperClusterRef uscRef( pUncleanSC, i );
                         LogTrace("UnifiedSC") << " >>> unclean  #" << i << "; Energy: " << uscRef->energy()
                                 << " eta: " << uscRef->eta() 
                                 << " sc seed detid: " << uscRef->seed()->seed().rawId();
                 }
                 // the new collection
                 LogTrace("UnifiedSC")<< "The new SC clean collection with size "<< superClusters.size()  << std::endl;
 
                 int new_unclean = 0, new_clean=0;
                 for (int i=0; i < (int) superClusters.size(); ++i) {
                         const reco::SuperCluster & nsc = superClusters[i];
                         LogTrace("UnifiedSC") << "SC was got" << std::endl
                                 << " ---> energy: " << nsc.energy() << std::endl
                                 << " ---> eta: " << nsc.eta() << std::endl
                                 << " ---> inClean: " << nsc.isInClean() << std::endl
                                 << " ---> id: " << nsc.seed()->seed().rawId() << std::endl
                                 << " >>> newSC    #" << i << "; Energy: " << nsc.energy()
                                 << " eta: " << nsc.eta()  << " isClean=" 
                                 << nsc.isInClean() << " isUnclean=" << nsc.isInUnclean()
                                 << " sc seed detid: " << nsc.seed()->seed().rawId();
 
                         if (nsc.isInUnclean()) ++new_unclean;
                         if (nsc.isInClean()) ++new_clean;
                 }
                 LogTrace("UnifiedSC")<< "The new SC unclean only collection with size "<< superClustersUncleanOnly.size();
                 for (int i=0; i < (int) superClustersUncleanOnly.size(); ++i) {
                         const reco::SuperCluster nsc = superClustersUncleanOnly[i];
                         LogTrace ("UnifiedSC") << " >>> newSC    #" << i << "; Energy: " << nsc.energy()
                                 << " eta: " << nsc.eta()  << " isClean=" 
                                 << nsc.isInClean() << " isUnclean=" << nsc.isInUnclean()
                                 << " sc seed detid: " << nsc.seed()->seed().rawId();
                         if (nsc.isInUnclean()) ++new_unclean;
                         if (nsc.isInClean()) ++new_clean;      
                 }
                 if ( (new_unclean != uncleanSize) || (new_clean != cleanSize) ) {
                         LogTrace("UnifiedSC") << ">>>>!!!!!! MISMATCH: new unclean/ old unclean= " 
                                 << new_unclean << " / " << uncleanSize 
                                 << ", new clean/ old clean" << new_clean << " / " << cleanSize;
                 }
         
 }