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PFEGammaAlgo Class Reference

#include <PFEGammaAlgo.h>

Classes

struct  PFEGConfigInfo
 
struct  ProtoEGObject
 

Public Types

typedef std::unordered_map< unsigned int, std::vector< unsigned int > > AsscMap
 
typedef std::unordered_map< const PFClusterElement *, std::vector< PFClusterFlaggedElement > > ClusterMap
 
typedef reco::PFCluster::EEtoPSAssociation EEtoPSAssociation
 
typedef std::vector< std::pair< const reco::PFBlockElement *, const reco::PFBlockElement * > > ElementMap
 
typedef std::unordered_map< const PFGSFElement *, std::vector< PFKFFlaggedElement > > GSFToTrackMap
 
typedef std::unordered_map< const PFKFElement *, float > KFValMap
 
typedef reco::PFBlockElementBrem PFBremElement
 
typedef std::pair< const PFBremElement *, bool > PFBremFlaggedElement
 
typedef reco::PFBlockElementCluster PFClusterElement
 
typedef std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
 
typedef std::pair< const reco::PFBlockElement *, bool > PFFlaggedElement
 
typedef reco::PFBlockElementGsfTrack PFGSFElement
 
typedef std::pair< const PFGSFElement *, bool > PFGSFFlaggedElement
 
typedef reco::PFBlockElementTrack PFKFElement
 
typedef std::pair< const PFKFElement *, bool > PFKFFlaggedElement
 
typedef reco::PFBlockElementSuperCluster PFSCElement
 
typedef std::pair< const PFSCElement *, bool > PFSCFlaggedElement
 

Public Member Functions

reco::PFCandidateCollectiongetCandidates ()
 
reco::PFCandidateEGammaExtraCollectiongetEGExtra ()
 
reco::SuperClusterCollectiongetRefinedSCs ()
 
bool isEGValidCandidate (const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &blockRef, std::vector< bool > &active)
 
 PFEGammaAlgo (const PFEGConfigInfo &)
 
void RunPFEG (const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &blockRef, std::vector< bool > &active)
 
void setAlphaGamma_ESplanes_fromDB (const ESEEIntercalibConstants *esEEInterCalib)
 
void setEEtoPSAssociation (const edm::Handle< EEtoPSAssociation > &eetops)
 
void setESChannelStatus (const ESChannelStatus *channelStatus)
 
void setnPU (int nVtx)
 
void setPhotonPrimaryVtx (const reco::Vertex &primary)
 
 ~PFEGammaAlgo ()
 

Private Types

enum  verbosityLevel { Silent, Summary, Chatty }
 

Private Member Functions

int attachPSClusters (const PFClusterElement *, ClusterMap::mapped_type &)
 
void buildAndRefineEGObjects (const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &block)
 
reco::SuperCluster buildRefinedSuperCluster (const ProtoEGObject &)
 
float calculate_ele_mva (const pfEGHelpers::HeavyObjectCache *hoc, const ProtoEGObject &, reco::PFCandidateEGammaExtra &)
 
void dumpCurrentRefinableObjects () const
 
float EvaluateSingleLegMVA (const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &blockref, const reco::Vertex &primaryvtx, unsigned int track_index)
 
void fill_extra_info (const ProtoEGObject &, reco::PFCandidateEGammaExtra &)
 
void fillPFCandidates (const pfEGHelpers::HeavyObjectCache *hoc, const std::list< ProtoEGObject > &, reco::PFCandidateCollection &, reco::PFCandidateEGammaExtraCollection &)
 
void initializeProtoCands (std::list< ProtoEGObject > &)
 
bool isAMuon (const reco::PFBlockElement &)
 
bool isPrimaryTrack (const reco::PFBlockElementTrack &KfEl, const reco::PFBlockElementGsfTrack &GsfEl)
 
void linkKFTrackToECAL (const PFKFFlaggedElement &, ProtoEGObject &)
 
void linkRefinableObjectBremTangentsToECAL (ProtoEGObject &)
 
void linkRefinableObjectConvSecondaryKFsToSecondaryKFs (ProtoEGObject &)
 
void linkRefinableObjectECALToSingleLegConv (const pfEGHelpers::HeavyObjectCache *hoc, ProtoEGObject &)
 
void linkRefinableObjectGSFTracksToKFs (ProtoEGObject &)
 
void linkRefinableObjectKFTracksToECAL (ProtoEGObject &)
 
void linkRefinableObjectPrimaryGSFTrackToECAL (ProtoEGObject &)
 
void linkRefinableObjectPrimaryGSFTrackToHCAL (ProtoEGObject &)
 
void linkRefinableObjectPrimaryKFsToSecondaryKFs (ProtoEGObject &)
 
void linkRefinableObjectSecondaryKFsToECAL (ProtoEGObject &)
 
void mergeROsByAnyLink (std::list< ProtoEGObject > &)
 
void removeOrLinkECALClustersToKFTracks ()
 
void unlinkRefinableObjectKFandECALMatchedToHCAL (ProtoEGObject &, bool removeFreeECAL=false, bool removeSCECAL=false)
 
void unlinkRefinableObjectKFandECALWithBadEoverP (ProtoEGObject &)
 
bool unwrapSuperCluster (const reco::PFBlockElementSuperCluster *, std::vector< PFClusterFlaggedElement > &, ClusterMap &)
 

Private Attributes

reco::PFBlockRef _currentblock
 
reco::PFBlock::LinkData _currentlinks
 
reco::PFCandidateCollection _finalCandidates
 
ElementMap _recoveredlinks
 
std::list< ProtoEGObject_refinableObjects
 
std::vector< std::vector< PFFlaggedElement > > _splayedblock
 
std::vector< unsigned int > AddFromElectron_
 
PFEGConfigInfo cfg_
 
const ESChannelStatuschannelStatus_
 
float chi2
 
float chi2_gsf
 
float chi2_kf
 
float Clus5x5ratio_
 
float ClusEta_
 
float ClusPhi_
 
float ClusR9_
 
std::vector< std::pair< unsigned int, unsigned int > > convGsfTrack_
 
float CrysEta_
 
int CrysIEta_
 
int CrysIPhi_
 
float CrysPhi_
 
float CrysX_
 
float CrysY_
 
float del_phi
 
float dEta_
 
float DEtaGsfEcalClust
 
float dPhi_
 
float dPtOverPt_gsf
 
float DPtOverPt_gsf
 
float DPtOverPt_kf
 
float e1x3_
 
float e1x5_
 
float e2x5Bottom_
 
float e2x5Left_
 
float e2x5Max_
 
float e2x5Right_
 
float e2x5Top_
 
float e3x1_
 
float e3x3_
 
float E3x3_
 
float e5x5Map [5][5]
 
float earlyBrem
 
float EB
 
float ebottom_
 
edm::Handle< reco::PFCluster::EEtoPSAssociationeetops_
 
reco::PFCandidateCollection egCandidate_
 
reco::PFCandidateEGammaExtraCollection egExtra_
 
float EGsfPoutMode
 
float eleft_
 
float EoverPt
 
float eright_
 
float eSeed_
 
float Eta_gsf
 
float etop_
 
float EtotBremPinPoutMode
 
float EtotPinMode
 
float excluded_
 
std::vector< std::pair< unsigned int, unsigned int > > fifthStepKfTrack_
 
float firstBrem
 
std::vector< bool > GsfTrackSingleEcal_
 
float HOverHE
 
float HOverPin
 
float HoverPt
 
bool isvalid_
 
float lateBrem
 
float lnPt_gsf
 
std::vector< bool > lockExtraKf_
 
float logPFClusE_
 
float LowClusE_
 
std::vector< int > match_ind
 
float Mustache_Et_out_
 
float Mustache_EtRatio_
 
float MustE_
 
double mvaValue
 
const char * mvaWeightFile_
 
float nhit_gsf
 
float nhit_kf
 
float nlayers
 
float nlost
 
float nPFClus_
 
float nVtx_
 
reco::PFCandidateCollection outcands_
 
reco::PFCandidateEGammaExtraCollection outcandsextra_
 
std::vector< reco::PFCandidatepermElectronCandidates_
 
float PFCrysEtaCrack_
 
float PFPhoE_
 
float PFPhoECorr_
 
float PFPhoEt_
 
float PFPhoEta_
 
float PFPhoEtCorr_
 
float PFPhoPhi_
 
float PFPhoR9_
 
float PFPhoR9Corr_
 
const reco::VertexprimaryVertex_
 
float RConv_
 
const GBRForestReaderGC_
 
const GBRForestReaderGCEB_
 
const GBRForestReaderGCEEhR9_
 
const GBRForestReaderGCEElR9_
 
const GBRForestReaderLC_
 
const GBRForestReaderLCEB_
 
const GBRForestReaderLCEE_
 
const GBRForestReaderRes_
 
reco::SuperClusterCollection refinedscs_
 
float RMSAll_
 
float RMSMust_
 
float SCEtaWidth_
 
float SCPhiWidth_
 
float SigmaEtaEta
 
float STIP
 
double sumPtTrackIsoForPhoton_
 
double sumPtTrackIsoSlopeForPhoton_
 
float TotPS1_
 
float TotPS2_
 
float track_pt
 
verbosityLevel verbosityLevel_
 
float VtxZ_
 
TH2D * X0_inner
 
TH2D * X0_middle
 
TH2D * X0_outer
 
TH2D * X0_sum
 
float x0inner_
 
float x0middle_
 
float x0outer_
 

Detailed Description

Definition at line 58 of file PFEGammaAlgo.h.

Member Typedef Documentation

typedef std::unordered_map<unsigned int, std::vector<unsigned int> > PFEGammaAlgo::AsscMap

Definition at line 72 of file PFEGammaAlgo.h.

typedef std::unordered_map<const PFClusterElement*, std::vector<PFClusterFlaggedElement> > PFEGammaAlgo::ClusterMap

Definition at line 78 of file PFEGammaAlgo.h.

Definition at line 60 of file PFEGammaAlgo.h.

typedef std::vector<std::pair<const reco::PFBlockElement*, const reco::PFBlockElement*> > PFEGammaAlgo::ElementMap

Definition at line 74 of file PFEGammaAlgo.h.

typedef std::unordered_map<const PFGSFElement*, std::vector<PFKFFlaggedElement> > PFEGammaAlgo::GSFToTrackMap

Definition at line 76 of file PFEGammaAlgo.h.

typedef std::unordered_map<const PFKFElement*, float > PFEGammaAlgo::KFValMap

Definition at line 80 of file PFEGammaAlgo.h.

Definition at line 62 of file PFEGammaAlgo.h.

typedef std::pair<const PFBremElement*,bool> PFEGammaAlgo::PFBremFlaggedElement

Definition at line 68 of file PFEGammaAlgo.h.

Definition at line 65 of file PFEGammaAlgo.h.

Definition at line 71 of file PFEGammaAlgo.h.

typedef std::pair<const reco::PFBlockElement*,bool> PFEGammaAlgo::PFFlaggedElement

Definition at line 66 of file PFEGammaAlgo.h.

Definition at line 63 of file PFEGammaAlgo.h.

typedef std::pair<const PFGSFElement*,bool> PFEGammaAlgo::PFGSFFlaggedElement

Definition at line 69 of file PFEGammaAlgo.h.

Definition at line 64 of file PFEGammaAlgo.h.

typedef std::pair<const PFKFElement*,bool> PFEGammaAlgo::PFKFFlaggedElement

Definition at line 70 of file PFEGammaAlgo.h.

Definition at line 61 of file PFEGammaAlgo.h.

typedef std::pair<const PFSCElement*,bool> PFEGammaAlgo::PFSCFlaggedElement

Definition at line 67 of file PFEGammaAlgo.h.

Member Enumeration Documentation

Enumerator
Silent 
Summary 
Chatty 

Definition at line 185 of file PFEGammaAlgo.h.

Constructor & Destructor Documentation

PFEGammaAlgo::PFEGammaAlgo ( const PFEGConfigInfo cfg)

Definition at line 696 of file PFEGammaAlgo.cc.

References cfg_, X0_inner, PFEGammaAlgo::PFEGConfigInfo::X0_Map, X0_middle, X0_outer, and X0_sum.

696  :
697  cfg_(cfg),
698  isvalid_(false),
700  nlost(0.0), nlayers(0.0),
701  chi2(0.0), STIP(0.0), del_phi(0.0),HoverPt(0.0), EoverPt(0.0), track_pt(0.0),
702  mvaValue(0.0),
703  CrysPhi_(0.0), CrysEta_(0.0), VtxZ_(0.0), ClusPhi_(0.0), ClusEta_(0.0),
704  ClusR9_(0.0), Clus5x5ratio_(0.0), PFCrysEtaCrack_(0.0), logPFClusE_(0.0), e3x3_(0.0),
705  CrysIPhi_(0), CrysIEta_(0),
706  CrysX_(0.0), CrysY_(0.0),
707  EB(0.0),
708  eSeed_(0.0), e1x3_(0.0),e3x1_(0.0), e1x5_(0.0), e2x5Top_(0.0), e2x5Bottom_(0.0), e2x5Left_(0.0), e2x5Right_(0.0),
709  etop_(0.0), ebottom_(0.0), eleft_(0.0), eright_(0.0),
710  e2x5Max_(0.0),
711  PFPhoEta_(0.0), PFPhoPhi_(0.0), PFPhoR9_(0.0), PFPhoR9Corr_(0.0), SCPhiWidth_(0.0), SCEtaWidth_(0.0),
712  PFPhoEt_(0.0), RConv_(0.0), PFPhoEtCorr_(0.0), PFPhoE_(0.0), PFPhoECorr_(0.0), MustE_(0.0), E3x3_(0.0),
713  dEta_(0.0), dPhi_(0.0), LowClusE_(0.0), RMSAll_(0.0), RMSMust_(0.0), nPFClus_(0.0),
714  TotPS1_(0.0), TotPS2_(0.0),
715  nVtx_(0.0),
716  x0inner_(0.0), x0middle_(0.0), x0outer_(0.0),
718  channelStatus_(0)
719 {
720  //Material Map
721  TFile *XO_File = new TFile(cfg_.X0_Map.c_str(),"READ");
722  X0_sum = (TH2D*)XO_File->Get("TrackerSum");
723  X0_inner = (TH2D*)XO_File->Get("Inner");
724  X0_middle = (TH2D*)XO_File->Get("Middle");
725  X0_outer = (TH2D*)XO_File->Get("Outer");
726 
727 }
float SCEtaWidth_
Definition: PFEGammaAlgo.h:384
double mvaValue
Definition: PFEGammaAlgo.h:369
float e2x5Bottom_
Definition: PFEGammaAlgo.h:380
float Mustache_Et_out_
Definition: PFEGammaAlgo.h:395
TH2D * X0_outer
Definition: PFEGammaAlgo.h:392
float Clus5x5ratio_
Definition: PFEGammaAlgo.h:374
float PFPhoEtCorr_
Definition: PFEGammaAlgo.h:384
float e2x5Right_
Definition: PFEGammaAlgo.h:380
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
float SCPhiWidth_
Definition: PFEGammaAlgo.h:384
float Mustache_EtRatio_
Definition: PFEGammaAlgo.h:395
float logPFClusE_
Definition: PFEGammaAlgo.h:374
float PFPhoECorr_
Definition: PFEGammaAlgo.h:384
TH2D * X0_inner
Definition: PFEGammaAlgo.h:390
float PFPhoR9Corr_
Definition: PFEGammaAlgo.h:384
TH2D * X0_middle
Definition: PFEGammaAlgo.h:391
verbosityLevel verbosityLevel_
Definition: PFEGammaAlgo.h:342
const ESChannelStatus * channelStatus_
Definition: PFEGammaAlgo.h:396
float PFCrysEtaCrack_
Definition: PFEGammaAlgo.h:374
PFEGammaAlgo::~PFEGammaAlgo ( )
inline

Definition at line 139 of file PFEGammaAlgo.h.

139 { };

Member Function Documentation

int PFEGammaAlgo::attachPSClusters ( const PFClusterElement ,
ClusterMap::mapped_type &   
)
private

Definition at line 1259 of file PFEGammaAlgo.cc.

References _splayedblock, docast, PFLayer::ECAL_BARREL, eetops_, edm::Ptr< T >::key(), reco::PFBlockElement::PS1, reco::PFBlockElement::PS2, edm::refToPtr(), and groupFilesInBlocks::temp.

Referenced by linkKFTrackToECAL(), linkRefinableObjectBremTangentsToECAL(), linkRefinableObjectPrimaryGSFTrackToECAL(), linkRefinableObjectSecondaryKFsToECAL(), and unwrapSuperCluster().

1260  {
1261  if( ecalclus->clusterRef()->layer() == PFLayer::ECAL_BARREL ) return 0;
1262  edm::Ptr<reco::PFCluster> clusptr = refToPtr(ecalclus->clusterRef());
1263  EEtoPSElement ecalkey = std::make_pair(clusptr.key(),clusptr);
1264  auto assc_ps = std::equal_range(eetops_->cbegin(),
1265  eetops_->cend(),
1266  ecalkey,
1267  comparePSMapByKey);
1268  for( const auto& ps1 : _splayedblock[reco::PFBlockElement::PS1] ) {
1269  edm::Ptr<reco::PFCluster> temp = refToPtr(ps1.first->clusterRef());
1270  for( auto pscl = assc_ps.first; pscl != assc_ps.second; ++pscl ) {
1271  if( pscl->second == temp ) {
1272  const ClusterElement* pstemp =
1273  docast(const ClusterElement*,ps1.first);
1274  eslist.push_back( PFClusterFlaggedElement(pstemp,true) );
1275  }
1276  }
1277  }
1278  for( const auto& ps2 : _splayedblock[reco::PFBlockElement::PS2] ) {
1279  edm::Ptr<reco::PFCluster> temp = refToPtr(ps2.first->clusterRef());
1280  for( auto pscl = assc_ps.first; pscl != assc_ps.second; ++pscl ) {
1281  if( pscl->second == temp ) {
1282  const ClusterElement* pstemp =
1283  docast(const ClusterElement*,ps2.first);
1284  eslist.push_back( PFClusterFlaggedElement(pstemp,true) );
1285  }
1286  }
1287  }
1288  return eslist.size();
1289  }
Ptr< typename C::value_type > refToPtr(Ref< C, typename C::value_type, refhelper::FindUsingAdvance< C, typename C::value_type > > const &ref)
Definition: RefToPtr.h:18
key_type key() const
Definition: Ptr.h:186
std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
Definition: PFEGammaAlgo.h:71
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
edm::Handle< reco::PFCluster::EEtoPSAssociation > eetops_
Definition: PFEGammaAlgo.h:199
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void PFEGammaAlgo::buildAndRefineEGObjects ( const pfEGHelpers::HeavyObjectCache hoc,
const reco::PFBlockRef block 
)
private

Definition at line 830 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _finalCandidates, _recoveredlinks, _refinableObjects, _splayedblock, a, b, groupFilesInBlocks::block, dumpCurrentRefinableObjects(), fillPFCandidates(), initializeProtoCands(), isAMuon(), linkRefinableObjectBremTangentsToECAL(), linkRefinableObjectConvSecondaryKFsToSecondaryKFs(), linkRefinableObjectECALToSingleLegConv(), linkRefinableObjectGSFTracksToKFs(), linkRefinableObjectKFTracksToECAL(), linkRefinableObjectPrimaryGSFTrackToECAL(), linkRefinableObjectPrimaryGSFTrackToHCAL(), linkRefinableObjectPrimaryKFsToSecondaryKFs(), linkRefinableObjectSecondaryKFsToECAL(), LOGDRESSED, LOGVERB, mergeROsByAnyLink(), outcands_, outcandsextra_, removeOrLinkECALClustersToKFTracks(), unlinkRefinableObjectKFandECALMatchedToHCAL(), and unlinkRefinableObjectKFandECALWithBadEoverP().

Referenced by RunPFEG().

831  {
832  LOGVERB("PFEGammaAlgo")
833  << "Resetting PFEGammaAlgo for new block and running!" << std::endl;
834  _splayedblock.clear();
835  _recoveredlinks.clear();
836  _refinableObjects.clear();
837  _finalCandidates.clear();
838  _splayedblock.resize(13); // make sure that we always have the HGCAL entry
839 
841  _currentlinks = block->linkData();
842  //LOGDRESSED("PFEGammaAlgo") << *_currentblock << std::endl;
843  LOGVERB("PFEGammaAlgo") << "Splaying block" << std::endl;
844  //unwrap the PF block into a fast access map
845  for( const auto& pfelement : _currentblock->elements() ) {
846  if( isAMuon(pfelement) ) continue; // don't allow muons in our element list
847  const size_t itype = (size_t)pfelement.type();
848  if( itype >= _splayedblock.size() ) _splayedblock.resize(itype+1);
849  _splayedblock[itype].push_back(std::make_pair(&pfelement,true));
850  }
851 
852  // show the result of splaying the tree if it's really *really* needed
853 #ifdef PFLOW_DEBUG
854  std::stringstream splayout;
855  for( size_t itype = 0; itype < _splayedblock.size(); ++itype ) {
856  splayout << "\tType: " << itype << " indices: ";
857  for( const auto& flaggedelement : _splayedblock[itype] ) {
858  splayout << flaggedelement.first->index() << ' ';
859  }
860  if( itype != _splayedblock.size() - 1 ) splayout << std::endl;
861  }
862  LOGVERB("PFEGammaAlgo") << splayout.str();
863 #endif
864 
865  // precleaning of the ECAL clusters with respect to primary KF tracks
866  // we don't allow clusters in super clusters to be locked out this way
868 
870  LOGDRESSED("PFEGammaAlgo")
871  << "Initialized " << _refinableObjects.size() << " proto-EGamma objects"
872  << std::endl;
874 
875  //
876  // now we start the refining steps
877  //
878  //
879 
880  // --- Primary Linking Step ---
881  // since this is particle flow and we try to work from the pixels out
882  // we start by linking the tracks together and finding the ECAL clusters
883  for( auto& RO : _refinableObjects ) {
884  // find the KF tracks associated to GSF primary tracks
886  // do the same for HCAL clusters associated to the GSF
888  // link secondary KF tracks associated to primary KF tracks
890  // pick up clusters that are linked to the GSF primary
892  // link associated KF to ECAL (ECAL part grabs PS clusters too if able)
894  // now finally look for clusters associated to brem tangents
896  }
897 
898  LOGDRESSED("PFEGammaAlgo")
899  << "Dumping after GSF and KF Track (Primary) Linking : " << std::endl;
901 
902  // merge objects after primary linking
903  mergeROsByAnyLink(_refinableObjects);
904 
905  LOGDRESSED("PFEGammaAlgo")
906  << "Dumping after first merging operation : " << std::endl;
908 
909  // --- Secondary Linking Step ---
910  // after this we go through the ECAL clusters on the remaining tracks
911  // and try to link those in...
912  for( auto& RO : _refinableObjects ) {
913  // look for conversion legs
916  // look for tracks that complement conversion legs
918  // look again for ECAL clusters (this time with an e/p cut)
920  }
921 
922  LOGDRESSED("PFEGammaAlgo")
923  << "Dumping after ECAL to Track (Secondary) Linking : " << std::endl;
925 
926  // merge objects after primary linking
927  mergeROsByAnyLink(_refinableObjects);
928 
929  LOGDRESSED("PFEGammaAlgo")
930  << "There are " << _refinableObjects.size()
931  << " after the 2nd merging step." << std::endl;
933 
934  // -- unlinking and proto-object vetos, final sorting
935  for( auto& RO : _refinableObjects ) {
936  // remove secondary KFs (and possibly ECALs) matched to HCAL clusters
938  // remove secondary KFs and ECALs linked to them that have bad E/p_in
939  // and spoil the resolution
941  // put things back in order after partitioning
942  std::sort(RO.ecalclusters.begin(), RO.ecalclusters.end(),
943  [](const PFClusterFlaggedElement& a,
944  const PFClusterFlaggedElement& b)
945  { return ( a.first->clusterRef()->correctedEnergy() >
946  b.first->clusterRef()->correctedEnergy() ) ; });
947  setROElectronCluster(RO);
948  }
949 
950  LOGDRESSED("PFEGammaAlgo")
951  << "There are " << _refinableObjects.size()
952  << " after the unlinking and vetos step." << std::endl;
954 
955  // fill the PF candidates and then build the refined SC
956  fillPFCandidates(hoc,_refinableObjects,outcands_,outcandsextra_);
957 
958 }
void unlinkRefinableObjectKFandECALWithBadEoverP(ProtoEGObject &)
std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
Definition: PFEGammaAlgo.h:71
void linkRefinableObjectPrimaryGSFTrackToECAL(ProtoEGObject &)
void linkRefinableObjectECALToSingleLegConv(const pfEGHelpers::HeavyObjectCache *hoc, ProtoEGObject &)
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
void linkRefinableObjectBremTangentsToECAL(ProtoEGObject &)
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGVERB(x)
Definition: PFEGammaAlgo.cc:51
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
void dumpCurrentRefinableObjects() const
void initializeProtoCands(std::list< ProtoEGObject > &)
void linkRefinableObjectPrimaryKFsToSecondaryKFs(ProtoEGObject &)
std::list< ProtoEGObject > _refinableObjects
Definition: PFEGammaAlgo.h:218
reco::PFCandidateEGammaExtraCollection outcandsextra_
Definition: PFEGammaAlgo.h:194
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
bool isAMuon(const reco::PFBlockElement &)
double b
Definition: hdecay.h:120
void linkRefinableObjectGSFTracksToKFs(ProtoEGObject &)
ElementMap _recoveredlinks
Definition: PFEGammaAlgo.h:205
void fillPFCandidates(const pfEGHelpers::HeavyObjectCache *hoc, const std::list< ProtoEGObject > &, reco::PFCandidateCollection &, reco::PFCandidateEGammaExtraCollection &)
void removeOrLinkECALClustersToKFTracks()
void unlinkRefinableObjectKFandECALMatchedToHCAL(ProtoEGObject &, bool removeFreeECAL=false, bool removeSCECAL=false)
double a
Definition: hdecay.h:121
void mergeROsByAnyLink(std::list< ProtoEGObject > &)
void linkRefinableObjectKFTracksToECAL(ProtoEGObject &)
void linkRefinableObjectSecondaryKFsToECAL(ProtoEGObject &)
reco::PFCandidateCollection _finalCandidates
Definition: PFEGammaAlgo.h:220
void linkRefinableObjectConvSecondaryKFsToSecondaryKFs(ProtoEGObject &)
reco::PFCandidateCollection outcands_
Definition: PFEGammaAlgo.h:193
void linkRefinableObjectPrimaryGSFTrackToHCAL(ProtoEGObject &)
reco::SuperCluster PFEGammaAlgo::buildRefinedSuperCluster ( const ProtoEGObject RO)
private

Definition at line 2272 of file PFEGammaAlgo.cc.

References reco::SuperCluster::addCluster(), reco::CaloCluster::addHitAndFraction(), reco::SuperCluster::addPreshowerCluster(), PFEGammaAlgo::PFEGConfigInfo::applyCrackCorrections, cfg_, channelStatus_, reco::CaloCluster::correctedEnergy(), TauDecayModes::dec, PFEGammaAlgo::ProtoEGObject::ecal2ps, PFLayer::ECAL_ENDCAP, PFEGammaAlgo::ProtoEGObject::ecalclusters, reco::PFCluster::energy(), Exception, ESCondObjectContainer< T >::find(), spr::find(), plotBeamSpotDB::first, edm::Ptr< T >::get(), ESCondObjectContainer< T >::getMap(), reco::CaloCluster::hitsAndFractions(), PFClusterWidthAlgo::pflowEtaWidth(), PFClusterWidthAlgo::pflowPhiWidth(), reco::CaloCluster::position(), RecoTauValidation_cfi::posX, RecoTauValidation_cfi::posY, reco::SuperCluster::preshowerClustersBegin(), reco::SuperCluster::preshowerClustersEnd(), PFLayer::PS1, reco::PFBlockElement::PS1, PFLayer::PS2, reco::PFBlockElement::PS2, reco::SuperCluster::rawEnergy(), reco::CaloCluster::setCorrectedEnergy(), reco::SuperCluster::setEtaWidth(), reco::SuperCluster::setPhiWidth(), reco::SuperCluster::setPreshowerEnergy(), reco::SuperCluster::setPreshowerEnergyPlane1(), reco::SuperCluster::setPreshowerEnergyPlane2(), reco::SuperCluster::setSeed(), PFEGammaAlgo::PFEGConfigInfo::thePFEnergyCalibration, and unlinkRefinableObjectKFandECALWithBadEoverP().

Referenced by fill_extra_info(), and fillPFCandidates().

2272  {
2273  if( !RO.ecalclusters.size() ) {
2274  return reco::SuperCluster(0.0,math::XYZPoint(0,0,0));
2275  }
2276 
2277  SumPSEnergy sumps1(reco::PFBlockElement::PS1),
2278  sumps2(reco::PFBlockElement::PS2);
2279 
2280  bool isEE = false;
2281  edm::Ptr<reco::PFCluster> clusptr;
2282  // need the vector of raw pointers for a PF width class
2283  std::vector<const reco::PFCluster*> bare_ptrs;
2284  // calculate necessary parameters and build the SC
2285  double posX(0), posY(0), posZ(0),
2286  rawSCEnergy(0), corrSCEnergy(0), corrPSEnergy(0),
2287  PS1_clus_sum(0), PS2_clus_sum(0),
2288  ePS1(0), ePS2(0), ps1_energy(0.0), ps2_energy(0.0);
2289  int condP1(1), condP2(1);
2290  for( auto& clus : RO.ecalclusters ) {
2291  ePS1 = 0;
2292  ePS2 = 0;
2293  isEE = PFLayer::ECAL_ENDCAP == clus.first->clusterRef()->layer();
2294  clusptr =
2295  edm::refToPtr<reco::PFClusterCollection>(clus.first->clusterRef());
2296  bare_ptrs.push_back(clusptr.get());
2297 
2298  const double cluseraw = clusptr->energy();
2299  double cluscalibe = clusptr->correctedEnergy();
2300  const math::XYZPoint& cluspos = clusptr->position();
2301  posX += cluseraw * cluspos.X();
2302  posY += cluseraw * cluspos.Y();
2303  posZ += cluseraw * cluspos.Z();
2304  // update EE calibrated super cluster energies
2305  if( isEE && RO.ecal2ps.count(clus.first)) {
2306  ePS1 = 0;
2307  ePS2 = 0;
2308  condP1 = condP2 = 1;
2309 
2310  const auto& psclusters = RO.ecal2ps.at(clus.first);
2311 
2312  for( auto i_ps = psclusters.begin(); i_ps != psclusters.end(); ++i_ps) {
2313  const PFClusterRef& psclus = i_ps->first->clusterRef();
2314 
2315  auto const& recH_Frac = psclus->recHitFractions();
2316 
2317  switch( psclus->layer() ) {
2318  case PFLayer::PS1:
2319  for (auto const& recH : recH_Frac){
2320  ESDetId strip1 = recH.recHitRef()->detId();
2321  if(strip1 != ESDetId(0)){
2323  //getStatusCode() == 0 => active channel
2324  // apply correction if all recHits are dead
2325  if(status_p1->getStatusCode() == 0) condP1 = 0;
2326  }
2327  }
2328  break;
2329  case PFLayer::PS2:
2330  for (auto const& recH : recH_Frac){
2331  ESDetId strip2 = recH.recHitRef()->detId();
2332  if(strip2 != ESDetId(0)) {
2334  if(status_p2->getStatusCode() == 0) condP2 = 0;
2335  }
2336  }
2337  break;
2338  default:
2339  break;
2340  }
2341  }
2342 
2343 
2344  PS1_clus_sum = std::accumulate(psclusters.begin(),psclusters.end(),
2345  0.0,sumps1);
2346  PS2_clus_sum = std::accumulate(psclusters.begin(),psclusters.end(),
2347  0.0,sumps2);
2348 
2349  if(condP1 == 1) ePS1 = -1.;
2350  if(condP2 == 1) ePS2 = -1.;
2351 
2352  cluscalibe =
2353  cfg_.thePFEnergyCalibration->energyEm(*clusptr,
2354  PS1_clus_sum,PS2_clus_sum,
2355  ePS1, ePS2,
2357  }
2358  if(ePS1 == -1.) ePS1 = 0;
2359  if(ePS2 == -1.) ePS2 = 0;
2360 
2361  rawSCEnergy += cluseraw;
2362  corrSCEnergy += cluscalibe;
2363  ps1_energy += ePS1;
2364  ps2_energy += ePS2;
2365  corrPSEnergy += ePS1 + ePS2;
2366  }
2367  posX /= rawSCEnergy;
2368  posY /= rawSCEnergy;
2369  posZ /= rawSCEnergy;
2370 
2371  // now build the supercluster
2372  reco::SuperCluster new_sc(corrSCEnergy,math::XYZPoint(posX,posY,posZ));
2373 
2374  clusptr =
2375  edm::refToPtr<reco::PFClusterCollection>(RO.ecalclusters.front().
2376  first->clusterRef());
2377  new_sc.setCorrectedEnergy(corrSCEnergy);
2378  new_sc.setSeed(clusptr);
2379  new_sc.setPreshowerEnergyPlane1(ps1_energy);
2380  new_sc.setPreshowerEnergyPlane2(ps2_energy);
2381  new_sc.setPreshowerEnergy(corrPSEnergy);
2382  for( const auto& clus : RO.ecalclusters ) {
2383  clusptr =
2384  edm::refToPtr<reco::PFClusterCollection>(clus.first->clusterRef());
2385  new_sc.addCluster(clusptr);
2386  auto& hits_and_fractions = clusptr->hitsAndFractions();
2387  for( auto& hit_and_fraction : hits_and_fractions ) {
2388  new_sc.addHitAndFraction(hit_and_fraction.first,hit_and_fraction.second);
2389  }
2390  // put the preshower stuff back in later
2391  if( RO.ecal2ps.count(clus.first) ) {
2392  const auto& cluspsassociation = RO.ecal2ps.at(clus.first);
2393  // EE rechits should be uniquely matched to sets of pre-shower
2394  // clusters at this point, so we throw an exception if otherwise
2395  // now wrapped in EDM debug flags
2396  for( const auto& pscluselem : cluspsassociation ) {
2397  edm::Ptr<reco::PFCluster> psclus =
2398  edm::refToPtr<reco::PFClusterCollection>(pscluselem.first->
2399  clusterRef());
2400 #ifdef PFFLOW_DEBUG
2401  auto found_pscluster = std::find(new_sc.preshowerClustersBegin(),
2402  new_sc.preshowerClustersEnd(),
2403  reco::CaloClusterPtr(psclus));
2404  if( found_pscluster == new_sc.preshowerClustersEnd() ) {
2405 #endif
2406  new_sc.addPreshowerCluster(psclus);
2407 #ifdef PFFLOW_DEBUG
2408  } else {
2409  throw cms::Exception("PFECALSuperClusterAlgo::buildSuperCluster")
2410  << "Found a PS cluster matched to more than one EE cluster!"
2411  << std::endl << std::hex << psclus.get() << " == "
2412  << found_pscluster->get() << std::dec << std::endl;
2413  }
2414 #endif
2415  }
2416  }
2417  }
2418 
2419  // calculate linearly weighted cluster widths
2420  PFClusterWidthAlgo pfwidth(bare_ptrs);
2421  new_sc.setEtaWidth(pfwidth.pflowEtaWidth());
2422  new_sc.setPhiWidth(pfwidth.pflowPhiWidth());
2423 
2424  // cache the value of the raw energy
2425  new_sc.rawEnergy();
2426 
2427  return new_sc;
2428 }
const math::XYZPoint & position() const
cluster centroid position
Definition: CaloCluster.h:129
double correctedEnergy() const
Definition: CaloCluster.h:125
const self & getMap() const
T const * get() const
Returns C++ pointer to the item.
Definition: Ptr.h:160
std::shared_ptr< PFEnergyCalibration > thePFEnergyCalibration
Definition: PFEGammaAlgo.h:114
const std::vector< std::pair< DetId, float > > & hitsAndFractions() const
Definition: CaloCluster.h:195
edm::Ptr< CaloCluster > CaloClusterPtr
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:20
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
const_iterator find(uint32_t rawId) const
double energy() const
cluster energy
Definition: PFCluster.h:82
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
std::vector< Item >::const_iterator const_iterator
const ESChannelStatus * channelStatus_
Definition: PFEGammaAlgo.h:396
float PFEGammaAlgo::calculate_ele_mva ( const pfEGHelpers::HeavyObjectCache hoc,
const ProtoEGObject RO,
reco::PFCandidateEGammaExtra xtra 
)
private

Definition at line 2076 of file PFEGammaAlgo.cc.

References _currentblock, a, funct::abs(), b, PFEGammaAlgo::ProtoEGObject::brems, chi2_gsf, chi2_kf, constexpr, DEtaGsfEcalClust, dPtOverPt_gsf, DPtOverPt_gsf, DPtOverPt_kf, MillePedeFileConverter_cfg::e, earlyBrem, digitizers_cfi::ecal, PFEGammaAlgo::ProtoEGObject::ecalclusters, EGsfPoutMode, PFEGammaAlgo::ProtoEGObject::electronClusters, Eta_gsf, EtotBremPinPoutMode, EtotPinMode, f, spr::find(), PFEGammaAlgo::ProtoEGObject::firstBrem, firstBrem, pfEGHelpers::HeavyObjectCache::gbrEle_, reco::PFBlockElementGsfTrack::GsftrackRef(), PFEGammaAlgo::ProtoEGObject::hcalClusters, HOverHE, HOverPin, edm::Ref< C, T, F >::isNonnull(), PFEGammaAlgo::ProtoEGObject::lateBrem, lateBrem, lnPt_gsf, PFEGammaAlgo::ProtoEGObject::localMap, cmsBatch::log, hpstanc_transforms::max, min(), PFEGammaAlgo::ProtoEGObject::nBremsWithClusters, nhit_gsf, nhit_kf, NULL, PFClusterWidthAlgo::pflowSigmaEtaEta(), reco::PFBlockElementGsfTrack::positionAtECALEntrance(), reco::PFBlockElementGsfTrack::Pout(), PFEGammaAlgo::ProtoEGObject::primaryGSFs, PFEGammaAlgo::ProtoEGObject::primaryKFs, reco::PFCandidateEGammaExtra::setDeltaEta(), reco::PFCandidateEGammaExtra::setEarlyBrem(), reco::PFCandidateEGammaExtra::setGsfElectronClusterRef(), reco::PFCandidateEGammaExtra::setGsfTrackPout(), reco::PFCandidateEGammaExtra::setHadEnergy(), reco::PFCandidateEGammaExtra::setLateBrem(), reco::PFCandidateEGammaExtra::setSigmaEtaEta(), electronIdCutBased_cfi::sigmaEtaEta, and SigmaEtaEta.

Referenced by fillPFCandidates().

2078  {
2079  if( !RO.primaryGSFs.size() ) return -2.0f;
2080  const PFGSFElement* gsfElement = RO.primaryGSFs.front().first;
2081  const PFKFElement* kfElement = NULL;
2082  if( RO.primaryKFs.size() ) kfElement = RO.primaryKFs.front().first;
2083  reco::GsfTrackRef RefGSF= gsfElement->GsftrackRef();
2084  reco::TrackRef RefKF;
2085  constexpr float m_el = 0.000511;
2086  const double Ein_gsf = std::hypot(RefGSF->pMode(),m_el);
2087  double deta_gsfecal = 1e6;
2088  double sigmaEtaEta = 1e-14;
2089  const double Ene_hcalgsf = std::accumulate(RO.hcalClusters.begin(),
2090  RO.hcalClusters.end(),
2091  0.0,
2092  [](const double a,
2093  const PFClusterFlaggedElement& b)
2094  { return a + b.first->clusterRef()->energy(); }
2095  );
2096  if( RO.primaryKFs.size() ) {
2097  RefKF = RO.primaryKFs.front().first->trackRef();
2098  }
2099  const double Eout_gsf = gsfElement->Pout().t();
2100  const double Etaout_gsf = gsfElement->positionAtECALEntrance().eta();
2101  double FirstEcalGsfEnergy(0.0), OtherEcalGsfEnergy(0.0), EcalBremEnergy(0.0);
2102  //shower shape of cluster closest to gsf track
2103  std::vector<const reco::PFCluster*> gsfcluster;
2104  for( const auto& ecal : RO.ecalclusters ) {
2105  const double cenergy = ecal.first->clusterRef()->correctedEnergy();
2106  ElementMap::value_type gsfToEcal(gsfElement,ecal.first);
2107  ElementMap::value_type kfToEcal(kfElement,ecal.first);
2108  bool hasgsf =
2109  ( std::find(RO.localMap.begin(), RO.localMap.end(), gsfToEcal) ==
2110  RO.localMap.end() );
2111  bool haskf =
2112  ( std::find(RO.localMap.begin(), RO.localMap.end(), kfToEcal) ==
2113  RO.localMap.end() );
2114  bool hasbrem = false;
2115  for( const auto& brem : RO.brems ) {
2116  ElementMap::value_type bremToEcal(brem.first,ecal.first);
2117  if( std::find(RO.localMap.begin(), RO.localMap.end(), bremToEcal) !=
2118  RO.localMap.end() ) {
2119  hasbrem = true;
2120  }
2121  }
2122  if( hasbrem && ecal.first != RO.electronClusters[0] ) {
2123  EcalBremEnergy += cenergy;
2124  }
2125  if( !hasbrem && ecal.first != RO.electronClusters[0] ) {
2126  if( hasgsf ) OtherEcalGsfEnergy += cenergy;
2127  if( haskf ) EcalBremEnergy += cenergy; // from conv. brem!
2128  if( !(hasgsf || haskf) ) OtherEcalGsfEnergy += cenergy; // stuff from SC
2129  }
2130  }
2131 
2132  if( RO.electronClusters[0] ) {
2133  reco::PFClusterRef cref = RO.electronClusters[0]->clusterRef();
2134  xtra.setGsfElectronClusterRef(_currentblock,*(RO.electronClusters[0]));
2135  FirstEcalGsfEnergy = cref->correctedEnergy();
2136  deta_gsfecal = cref->positionREP().eta() - Etaout_gsf;
2137  gsfcluster.push_back(&*cref);
2138  PFClusterWidthAlgo pfwidth(gsfcluster);
2139  sigmaEtaEta = pfwidth.pflowSigmaEtaEta();
2140  }
2141 
2142  // brem sequence information
2143  lateBrem = firstBrem = earlyBrem = -1.0f;
2144  if(RO.nBremsWithClusters > 0) {
2145  if (RO.lateBrem == 1) lateBrem = 1.0f;
2146  else lateBrem = 0.0f;
2147  firstBrem = RO.firstBrem;
2148  if(RO.firstBrem < 4) earlyBrem = 1.0f;
2149  else earlyBrem = 0.0f;
2150  }
2151  xtra.setEarlyBrem(earlyBrem);
2152  xtra.setLateBrem(lateBrem);
2153  if( FirstEcalGsfEnergy > 0.0 ) {
2154  if( RefGSF.isNonnull() ) {
2155  xtra.setGsfTrackPout(gsfElement->Pout());
2156  // normalization observables
2157  const float Pt_gsf = RefGSF->ptMode();
2158  lnPt_gsf = std::log(Pt_gsf);
2159  Eta_gsf = RefGSF->etaMode();
2160  // tracking observables
2161  const double ptModeErrorGsf = RefGSF->ptModeError();
2162  dPtOverPt_gsf = (ptModeErrorGsf > 0. ? ptModeErrorGsf/Pt_gsf : 1.0);
2163  nhit_gsf = RefGSF->hitPattern().trackerLayersWithMeasurement();
2164  chi2_gsf = RefGSF->normalizedChi2();
2165  DPtOverPt_gsf = (Pt_gsf - gsfElement->Pout().pt())/Pt_gsf;
2166  // kalman filter vars
2167  nhit_kf = 0;
2168  chi2_kf = -0.01;
2169  DPtOverPt_kf = -0.01;
2170  if( RefKF.isNonnull() ) {
2171  nhit_kf = RefKF->hitPattern().trackerLayersWithMeasurement();
2172  chi2_kf = RefKF->normalizedChi2();
2173  // not used for moment, weird behavior of variable
2174  // DPtOverPt_kf = (RefKF->pt() - RefKF->outerPt())/RefKF->pt();
2175  }
2176  //tracker + calorimetry observables
2177  const double EcalETot =
2178  (FirstEcalGsfEnergy+OtherEcalGsfEnergy+EcalBremEnergy);
2179  EtotPinMode = EcalETot / Ein_gsf;
2180  EGsfPoutMode = FirstEcalGsfEnergy / Eout_gsf;
2181  EtotBremPinPoutMode = ( (EcalBremEnergy + OtherEcalGsfEnergy) /
2182  (Ein_gsf - Eout_gsf) );
2183  DEtaGsfEcalClust = std::abs(deta_gsfecal);
2184  SigmaEtaEta = std::log(sigmaEtaEta);
2186  xtra.setSigmaEtaEta(sigmaEtaEta);
2187 
2188  HOverHE = Ene_hcalgsf/(Ene_hcalgsf + FirstEcalGsfEnergy);
2189  HOverPin = Ene_hcalgsf / Ein_gsf;
2190  xtra.setHadEnergy(Ene_hcalgsf);
2191 
2192  // Apply bounds to variables and calculate MVA
2196  chi2_gsf = std::min(chi2_gsf,10.0f);
2199  chi2_kf = std::min(chi2_kf,10.0f);
2207  SigmaEtaEta = std::max(SigmaEtaEta,-14.0f);
2208  HOverPin = std::max(HOverPin,0.0f);
2209  HOverPin = std::min(HOverPin,5.0f);
2210  /*
2211  std::cout << " **** PFEG BDT observables ****" << endl;
2212  std::cout << " < Normalization > " << endl;
2213  std::cout << " Pt_gsf " << Pt_gsf << " Pin " << Ein_gsf
2214  << " Pout " << Eout_gsf << " Eta_gsf " << Eta_gsf << endl;
2215  std::cout << " < PureTracking > " << endl;
2216  std::cout << " dPtOverPt_gsf " << dPtOverPt_gsf
2217  << " DPtOverPt_gsf " << DPtOverPt_gsf
2218  << " chi2_gsf " << chi2_gsf
2219  << " nhit_gsf " << nhit_gsf
2220  << " DPtOverPt_kf " << DPtOverPt_kf
2221  << " chi2_kf " << chi2_kf
2222  << " nhit_kf " << nhit_kf << endl;
2223  std::cout << " < track-ecal-hcal-ps " << endl;
2224  std::cout << " EtotPinMode " << EtotPinMode
2225  << " EGsfPoutMode " << EGsfPoutMode
2226  << " EtotBremPinPoutMode " << EtotBremPinPoutMode
2227  << " DEtaGsfEcalClust " << DEtaGsfEcalClust
2228  << " SigmaEtaEta " << SigmaEtaEta
2229  << " HOverHE " << HOverHE << " Hcal energy " << Ene_hcalgsf
2230  << " HOverPin " << HOverPin
2231  << " lateBrem " << lateBrem
2232  << " firstBrem " << firstBrem << endl;
2233  */
2234 
2235  float vars[] = { lnPt_gsf, Eta_gsf, dPtOverPt_gsf, DPtOverPt_gsf, chi2_gsf,
2238 
2239  return hoc->gbrEle_->GetAdaBoostClassifier(vars);
2240  }
2241  }
2242  return -2.0f;
2243 }
float EtotBremPinPoutMode
Definition: PFEGammaAlgo.h:328
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:252
void setGsfElectronClusterRef(const reco::PFBlockRef &blk, const reco::PFBlockElementCluster &ref)
set gsf electron cluster ref
float EGsfPoutMode
Definition: PFEGammaAlgo.h:328
std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
Definition: PFEGammaAlgo.h:71
void setHadEnergy(float val)
set the had energy. The cluster energies should be entered before
reco::PFBlockElementGsfTrack PFGSFElement
Definition: PFEGammaAlgo.h:63
float DEtaGsfEcalClust
Definition: PFEGammaAlgo.h:329
#define NULL
Definition: scimark2.h:8
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:20
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define constexpr
float DPtOverPt_gsf
Definition: PFEGammaAlgo.h:322
std::unique_ptr< const GBRForest > gbrEle_
void setSigmaEtaEta(float val)
set the sigmaetaeta
void setEarlyBrem(float val)
set EarlyBrem
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
float DPtOverPt_kf
Definition: PFEGammaAlgo.h:322
void setGsfTrackPout(const math::XYZTLorentzVector &pout)
set the pout (not trivial to get from the GSF track)
float dPtOverPt_gsf
Definition: PFEGammaAlgo.h:322
double f[11][100]
T min(T a, T b)
Definition: MathUtil.h:58
void setDeltaEta(float val)
set the delta eta
reco::PFBlockElementTrack PFKFElement
Definition: PFEGammaAlgo.h:64
float SigmaEtaEta
Definition: PFEGammaAlgo.h:330
double b
Definition: hdecay.h:120
float EtotPinMode
Definition: PFEGammaAlgo.h:328
double a
Definition: hdecay.h:121
void setLateBrem(float val)
set LateBrem
void PFEGammaAlgo::dumpCurrentRefinableObjects ( ) const
private

Definition at line 1291 of file PFEGammaAlgo.cc.

References _refinableObjects, info(), and removeOrLinkECALClustersToKFTracks().

Referenced by buildAndRefineEGObjects().

1291  {
1292  #ifdef PFLOW_DEBUG
1293  edm::LogVerbatim("PFEGammaAlgo")
1294  //<< "Dumping current block: " << std::endl << *_currentblock << std::endl
1295  << "Dumping " << _refinableObjects.size()
1296  << " refinable objects for this block: " << std::endl;
1297  for( const auto& ro : _refinableObjects ) {
1298  std::stringstream info;
1299  info << "Refinable Object:" << std::endl;
1300  if( ro.parentSC ) {
1301  info << "\tSuperCluster element attached to object:" << std::endl
1302  << '\t';
1303  ro.parentSC->Dump(info,"\t");
1304  info << std::endl;
1305  }
1306  if( ro.electronSeed.isNonnull() ) {
1307  info << "\tGSF element attached to object:" << std::endl;
1308  ro.primaryGSFs.front().first->Dump(info,"\t");
1309  info << std::endl;
1310  info << "firstBrem : " << ro.firstBrem
1311  << " lateBrem : " << ro.lateBrem
1312  << " nBrems with cluster : " << ro.nBremsWithClusters
1313  << std::endl;;
1314  if( ro.electronClusters.size() && ro.electronClusters[0] ) {
1315  info << "electron cluster : ";
1316  ro.electronClusters[0]->Dump(info,"\t");
1317  info << std::endl;
1318  } else {
1319  info << " no electron cluster." << std::endl;
1320  }
1321  }
1322  if( ro.primaryKFs.size() ) {
1323  info << "\tPrimary KF tracks attached to object: " << std::endl;
1324  for( const auto& kf : ro.primaryKFs ) {
1325  kf.first->Dump(info,"\t");
1326  info << std::endl;
1327  }
1328  }
1329  if( ro.secondaryKFs.size() ) {
1330  info << "\tSecondary KF tracks attached to object: " << std::endl;
1331  for( const auto& kf : ro.secondaryKFs ) {
1332  kf.first->Dump(info,"\t");
1333  info << std::endl;
1334  }
1335  }
1336  if( ro.brems.size() ) {
1337  info << "\tBrem tangents attached to object: " << std::endl;
1338  for( const auto& brem : ro.brems ) {
1339  brem.first->Dump(info,"\t");
1340  info << std::endl;
1341  }
1342  }
1343  if( ro.ecalclusters.size() ) {
1344  info << "\tECAL clusters attached to object: " << std::endl;
1345  for( const auto& clus : ro.ecalclusters ) {
1346  clus.first->Dump(info,"\t");
1347  info << std::endl;
1348  if( ro.ecal2ps.find(clus.first) != ro.ecal2ps.end() ) {
1349  for( const auto& psclus : ro.ecal2ps.at(clus.first) ) {
1350  info << "\t\t Attached PS Cluster: ";
1351  psclus.first->Dump(info,"");
1352  info << std::endl;
1353  }
1354  }
1355  }
1356  }
1357  edm::LogVerbatim("PFEGammaAlgo") << info.str();
1358  }
1359  #endif
1360  }
static const TGPicture * info(bool iBackgroundIsBlack)
std::list< ProtoEGObject > _refinableObjects
Definition: PFEGammaAlgo.h:218
float PFEGammaAlgo::EvaluateSingleLegMVA ( const pfEGHelpers::HeavyObjectCache hoc,
const reco::PFBlockRef blockref,
const reco::Vertex primaryvtx,
unsigned int  track_index 
)
private

Definition at line 747 of file PFEGammaAlgo.cc.

References reco::PFBlock::associatedElements(), groupFilesInBlocks::block, chi2, del_phi, MuonCkfTrajectoryBuilder_cfi::deltaPhi, reco::PFBlockElement::ECAL, allElectronIsolations_cfi::elements, reco::PFBlock::elements(), EoverPt, pfEGHelpers::HeavyObjectCache::gbrSingleLeg_, reco::PFBlockElement::HCAL, HoverPt, reco::PFBlock::linkData(), reco::PFBlock::LINKTEST_ALL, mvaValue, nlayers, nlost, colinearityKinematic::Phi, PV3DBase< T, PVType, FrameType >::phi(), STIP, track_pt, X, reco::Vertex::x(), reco::Vertex::y(), and reco::Vertex::z().

Referenced by fillPFCandidates(), linkRefinableObjectECALToSingleLegConv(), and RunPFEG().

750  {
751  const reco::PFBlock& block = *blockref;
753  //use this to store linkdata in the associatedElements function below
754  const PFBlock::LinkData& linkData = block.linkData();
755  //calculate MVA Variables
756  chi2=elements[track_index].trackRef()->chi2()/elements[track_index].trackRef()->ndof();
757  nlost=elements[track_index].trackRef()->hitPattern().numberOfLostHits(HitPattern::MISSING_INNER_HITS);
758  nlayers=elements[track_index].trackRef()->hitPattern().trackerLayersWithMeasurement();
759  track_pt=elements[track_index].trackRef()->pt();
760  STIP=elements[track_index].trackRefPF()->STIP();
761 
762  float linked_e=0;
763  float linked_h=0;
764  std::multimap<double, unsigned int> ecalAssoTrack;
765  block.associatedElements( track_index,linkData,
766  ecalAssoTrack,
769  std::multimap<double, unsigned int> hcalAssoTrack;
770  block.associatedElements( track_index,linkData,
771  hcalAssoTrack,
774  if(ecalAssoTrack.size() > 0) {
775  for(std::multimap<double, unsigned int>::iterator itecal = ecalAssoTrack.begin();
776  itecal != ecalAssoTrack.end(); ++itecal) {
777  linked_e=linked_e+elements[itecal->second].clusterRef()->energy();
778  }
779  }
780  if(hcalAssoTrack.size() > 0) {
781  for(std::multimap<double, unsigned int>::iterator ithcal = hcalAssoTrack.begin();
782  ithcal != hcalAssoTrack.end(); ++ithcal) {
783  linked_h=linked_h+elements[ithcal->second].clusterRef()->energy();
784  }
785  }
786  EoverPt=linked_e/elements[track_index].trackRef()->pt();
787  HoverPt=linked_h/elements[track_index].trackRef()->pt();
788  GlobalVector rvtx(elements[track_index].trackRef()->innerPosition().X()-primaryvtx.x(),
789  elements[track_index].trackRef()->innerPosition().Y()-primaryvtx.y(),
790  elements[track_index].trackRef()->innerPosition().Z()-primaryvtx.z());
791  double vtx_phi=rvtx.phi();
792  //delta Phi between conversion vertex and track
793  del_phi=fabs(deltaPhi(vtx_phi, elements[track_index].trackRef()->innerMomentum().Phi()));
794 
795  float vars[] = { del_phi, nlayers, chi2, EoverPt,
796  HoverPt, track_pt, STIP, nlost };
797 
798  mvaValue = hoc->gbrSingleLeg_->GetAdaBoostClassifier(vars);
799 
800  return mvaValue;
801 }
double mvaValue
Definition: PFEGammaAlgo.h:369
double y() const
y coordinate
Definition: Vertex.h:113
std::map< unsigned int, Link > LinkData
Definition: PFBlock.h:46
Geom::Phi< T > phi() const
Definition: PV3DBase.h:69
#define X(str)
Definition: MuonsGrabber.cc:48
const edm::OwnVector< reco::PFBlockElement > & elements() const
Definition: PFBlock.h:107
const LinkData & linkData() const
Definition: PFBlock.h:112
std::unique_ptr< const GBRForest > gbrSingleLeg_
double z() const
z coordinate
Definition: Vertex.h:115
double x() const
x coordinate
Definition: Vertex.h:111
void associatedElements(unsigned i, const LinkData &linkData, std::multimap< double, unsigned > &sortedAssociates, reco::PFBlockElement::Type type=PFBlockElement::NONE, LinkTest test=LINKTEST_RECHIT) const
Definition: PFBlock.cc:75
Block of elements.
Definition: PFBlock.h:30
void PFEGammaAlgo::fill_extra_info ( const ProtoEGObject RO,
reco::PFCandidateEGammaExtra xtra 
)
private

Definition at line 2245 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, reco::PFCandidateEGammaExtra::addExtraNonConvTrack(), buildRefinedSuperCluster(), docast, digitizers_cfi::ecal, reco::PFBlockElement::ECAL, PFEGammaAlgo::ProtoEGObject::ecalclusters, and reco::PFBlockElement::TRACK.

Referenced by fillPFCandidates().

2246  {
2247  // add tracks associated to clusters that are not T_FROM_GAMMACONV
2248  // info about single-leg convs is already save, so just veto in loops
2249  IsConversionTrack<reco::PFBlockElementTrack> isConvKf;
2250  auto KFbegin = _splayedblock[reco::PFBlockElement::TRACK].begin();
2251  auto KFend = _splayedblock[reco::PFBlockElement::TRACK].end();
2252  for( auto& ecal : RO.ecalclusters ) {
2253  NotCloserToOther<reco::PFBlockElement::ECAL,
2255  true>
2256  ECALToTracks(_currentblock,_currentlinks,ecal.first);
2257  auto notmatchedkf = std::partition(KFbegin,KFend,ECALToTracks);
2258  auto notconvkf = std::partition(KFbegin,notmatchedkf,isConvKf);
2259  // go through non-conv-identified kfs and check MVA to add conversions
2260  for( auto kf = notconvkf; kf != notmatchedkf; ++kf ) {
2261  const reco::PFBlockElementTrack* elemaskf =
2262  docast(const reco::PFBlockElementTrack*,kf->first);
2263  xtra.addExtraNonConvTrack(_currentblock,*elemaskf);
2264  }
2265  }
2266 }
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void addExtraNonConvTrack(const reco::PFBlockRef &blk, const reco::PFBlockElementTrack &tkref)
track counting for electrons and photons
void PFEGammaAlgo::fillPFCandidates ( const pfEGHelpers::HeavyObjectCache hoc,
const std::list< ProtoEGObject > &  ,
reco::PFCandidateCollection ,
reco::PFCandidateEGammaExtraCollection  
)
private

Definition at line 1937 of file PFEGammaAlgo.cc.

References _currentblock, reco::PFCandidateEGammaExtra::addConversionRef(), reco::PFCandidate::addElementInBlock(), reco::PFCandidateEGammaExtra::addSingleLegConvTrackRefMva(), buildRefinedSuperCluster(), calculate_ele_mva(), cfg_, reco::PFBlockElementTrack::convRefs(), digitizers_cfi::ecal, reco::CaloCluster::energy(), EvaluateSingleLegMVA(), fill_extra_info(), ntupleEnum::gsf, reco::PFBlockElementGsfTrack::GsftrackRef(), reco::PFBlockElement::index(), edm::Ref< C, T, F >::index(), p4, reco::Vertex::position(), reco::CaloCluster::position(), reco::PFBlockElementTrack::positionAtECALEntrance(), reco::PFBlockElementGsfTrack::positionAtECALEntrance(), PFEGammaAlgo::PFEGConfigInfo::primaryVtx, PFEGammaAlgo::PFEGConfigInfo::produceEGCandsWithNoSuperCluster, reco::SuperCluster::rawEnergy(), refinedscs_, reco::SuperCluster::seed(), reco::PFCandidate::set_mva_e_pi(), reco::LeafCandidate::setCharge(), reco::PFCandidate::setEcalEnergy(), reco::PFCandidateEGammaExtra::setGsfTrackRef(), reco::PFCandidate::setGsfTrackRef(), reco::PFCandidateEGammaExtra::setKfTrackRef(), reco::PFCandidateEGammaExtra::setMVA(), reco::LeafCandidate::setP4(), reco::LeafCandidate::setPdgId(), reco::PFCandidate::setPositionAtECALEntrance(), reco::PFCandidateEGammaExtra::setSuperClusterPFECALRef(), reco::PFCandidateEGammaExtra::setSuperClusterRef(), reco::PFCandidate::setSuperClusterRef(), reco::PFCandidate::setTime(), reco::PFCandidate::setTrackRef(), and reco::PFBlockElementTrack::trackRef().

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectSecondaryKFsToECAL().

1940  {
1941  // reset output collections
1942  egcands.clear();
1943  egxs.clear();
1944  refinedscs_.clear();
1945  egcands.reserve(ROs.size());
1946  egxs.reserve(ROs.size());
1947  refinedscs_.reserve(ROs.size());
1948  for( auto& RO : ROs ) {
1949  if( RO.ecalclusters.size() == 0 &&
1951 
1954  if( RO.primaryGSFs.size() || RO.primaryKFs.size() ) {
1955  cand.setPdgId(-11); // anything with a primary track is an electron
1956  } else {
1957  cand.setPdgId(22); // anything with no primary track is a photon
1958  }
1959  if( RO.primaryKFs.size() ) {
1960  cand.setCharge(RO.primaryKFs[0].first->trackRef()->charge());
1961  xtra.setKfTrackRef(RO.primaryKFs[0].first->trackRef());
1962  cand.setTrackRef(RO.primaryKFs[0].first->trackRef());
1963  cand.addElementInBlock(_currentblock,RO.primaryKFs[0].first->index());
1964  }
1965  if( RO.primaryGSFs.size() ) {
1966  cand.setCharge(RO.primaryGSFs[0].first->GsftrackRef()->chargeMode());
1967  xtra.setGsfTrackRef(RO.primaryGSFs[0].first->GsftrackRef());
1968  cand.setGsfTrackRef(RO.primaryGSFs[0].first->GsftrackRef());
1969  cand.addElementInBlock(_currentblock,RO.primaryGSFs[0].first->index());
1970  }
1971  if( RO.parentSC ) {
1972  xtra.setSuperClusterPFECALRef(RO.parentSC->superClusterRef());
1973  // we'll set to the refined supercluster back up in the producer
1974  cand.setSuperClusterRef(RO.parentSC->superClusterRef());
1975  xtra.setSuperClusterRef(RO.parentSC->superClusterRef());
1976  cand.addElementInBlock(_currentblock,RO.parentSC->index());
1977  }
1978  // add brems
1979  for( const auto& bremflagged : RO.brems ) {
1980  const PFBremElement* brem = bremflagged.first;
1981  cand.addElementInBlock(_currentblock,brem->index());
1982  }
1983  // add clusters and ps clusters
1984  for( const auto& ecal : RO.ecalclusters ) {
1985  const PFClusterElement* clus = ecal.first;
1986  cand.addElementInBlock(_currentblock,clus->index());
1987  if( RO.ecal2ps.count(clus) ) {
1988  for( auto& ps : RO.ecal2ps.at(clus) ) {
1989  const PFClusterElement* psclus = ps.first;
1990  cand.addElementInBlock(_currentblock,psclus->index());
1991  }
1992  }
1993  }
1994  // add secondary tracks
1995  for( const auto& secdkf : RO.secondaryKFs ) {
1996  const PFKFElement* kf = secdkf.first;
1998  const reco::ConversionRefVector& convrefs = kf->convRefs();
1999  bool no_conv_ref = true;
2000  for( const auto& convref : convrefs ) {
2001  if( convref.isNonnull() && convref.isAvailable() ) {
2002  xtra.addConversionRef(convref);
2003  no_conv_ref = false;
2004  }
2005  }
2006  if( no_conv_ref ) {
2007  //single leg conversions
2008 
2009  //look for stored mva value in map or else recompute
2010  const auto &mvavalmapped = RO.singleLegConversionMvaMap.find(kf);
2011  //FIXME: Abuse single mva value to store both provenance and single leg mva score
2012  //by storing 3.0 + mvaval
2013  float mvaval = ( mvavalmapped != RO.singleLegConversionMvaMap.end() ?
2014  mvavalmapped->second :
2016  *cfg_.primaryVtx,
2017  kf->index()) );
2018 
2019  xtra.addSingleLegConvTrackRefMva(std::make_pair(kf->trackRef(),mvaval));
2020  }
2021  }
2022 
2023  // build the refined supercluster from those clusters left in the cand
2024  refinedscs_.push_back(buildRefinedSuperCluster(RO));
2025 
2026  // forward the time from the seed cluster
2027  if (!RO.ecalclusters.empty()) {
2028  auto const & seedPFClust = *RO.ecalclusters.front().first->clusterRef();
2029  cand.setTime( seedPFClust.time(), seedPFClust.timeError() );
2030  }
2031 
2032  const reco::SuperCluster& the_sc = refinedscs_.back();
2033  // with the refined SC in hand we build a naive candidate p4
2034  // and set the candidate ECAL position to either the barycenter of the
2035  // supercluster (if super-cluster present) or the seed of the
2036  // new SC generated by the EGAlgo
2037  const double scE = the_sc.energy();
2038  if( scE != 0.0 ) {
2039  const math::XYZPoint& seedPos = the_sc.seed()->position();
2040  math::XYZVector egDir = the_sc.position()-cfg_.primaryVtx->position();
2041  egDir = egDir.Unit();
2042  cand.setP4(math::XYZTLorentzVector(scE*egDir.x(),
2043  scE*egDir.y(),
2044  scE*egDir.z(),
2045  scE ));
2046  math::XYZPointF ecalPOS_f(seedPos.x(),seedPos.y(),seedPos.z());
2047  cand.setPositionAtECALEntrance(ecalPOS_f);
2048  cand.setEcalEnergy(the_sc.rawEnergy(),the_sc.energy());
2049  } else if ( cfg_.produceEGCandsWithNoSuperCluster &&
2050  RO.primaryGSFs.size() ) {
2051  const PFGSFElement* gsf = RO.primaryGSFs[0].first;
2052  reco::GsfTrackRef gref = gsf->GsftrackRef();
2053  math::XYZTLorentzVector p4(gref->pxMode(),gref->pyMode(),
2054  gref->pzMode(),gref->pMode());
2055  cand.setP4(p4);
2056  cand.setPositionAtECALEntrance(gsf->positionAtECALEntrance());
2057  } else if ( cfg_.produceEGCandsWithNoSuperCluster &&
2058  RO.primaryKFs.size() ) {
2059  const PFKFElement* kf = RO.primaryKFs[0].first;
2060  reco::TrackRef kref = RO.primaryKFs[0].first->trackRef();
2061  math::XYZTLorentzVector p4(kref->px(),kref->py(),kref->pz(),kref->p());
2062  cand.setP4(p4);
2063  cand.setPositionAtECALEntrance(kf->positionAtECALEntrance());
2064  }
2065  const float ele_mva_value = calculate_ele_mva(hoc,RO,xtra);
2066  fill_extra_info(RO,xtra);
2067  //std::cout << "PFEG ele_mva: " << ele_mva_value << std::endl;
2068  xtra.setMVA(ele_mva_value);
2069  cand.set_mva_e_pi(ele_mva_value);
2070  egcands.push_back(cand);
2071  egxs.push_back(xtra);
2072  }
2073 }
const math::XYZPoint & position() const
cluster centroid position
Definition: CaloCluster.h:129
void setSuperClusterRef(reco::SuperClusterRef sc)
set reference to the corresponding supercluster
reco::SuperClusterCollection refinedscs_
Definition: PFEGammaAlgo.h:195
void setPositionAtECALEntrance(const math::XYZPointF &pos)
set position at ECAL entrance
Definition: PFCandidate.h:348
float calculate_ele_mva(const pfEGHelpers::HeavyObjectCache *hoc, const ProtoEGObject &, reco::PFCandidateEGammaExtra &)
void addSingleLegConvTrackRefMva(const std::pair< reco::TrackRef, float > &trackrefmva)
add Single Leg Conversion TrackRef
virtual void setPdgId(int pdgId) final
reco::PFBlockElementGsfTrack PFGSFElement
Definition: PFEGammaAlgo.h:63
key_type index() const
Definition: Ref.h:267
unsigned int index
index type
Definition: Vertex.h:53
ROOT::Math::PositionVector3D< ROOT::Math::Cartesian3D< float > > XYZPointF
point in space with cartesian internal representation
Definition: Point3D.h:10
const reco::Vertex * primaryVtx
Definition: PFEGammaAlgo.h:131
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
void setGsfTrackRef(const reco::GsfTrackRef &ref)
set gsftrack reference
const Point & position() const
position
Definition: Vertex.h:109
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
Definition: LorentzVector.h:29
void set_mva_e_pi(float mvaNI)
Definition: PFCandidate.h:311
void addElementInBlock(const reco::PFBlockRef &blockref, unsigned elementIndex)
add an element to the current PFCandidate
Definition: PFCandidate.cc:216
double p4[4]
Definition: TauolaWrapper.h:92
virtual void setCharge(Charge q) final
set electric charge
Definition: LeafCandidate.h:93
double energy() const
cluster energy
Definition: CaloCluster.h:124
reco::PFBlockElementCluster PFClusterElement
Definition: PFEGammaAlgo.h:65
reco::PFBlockElementBrem PFBremElement
Definition: PFEGammaAlgo.h:62
void setEcalEnergy(float eeRaw, float eeCorr)
set corrected Ecal energy
Definition: PFCandidate.h:217
double rawEnergy() const
raw uncorrected energy (sum of energies of component BasicClusters)
Definition: SuperCluster.h:47
float EvaluateSingleLegMVA(const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &blockref, const reco::Vertex &primaryvtx, unsigned int track_index)
void fill_extra_info(const ProtoEGObject &, reco::PFCandidateEGammaExtra &)
void setGsfTrackRef(const reco::GsfTrackRef &ref)
set gsftrack reference
Definition: PFCandidate.cc:459
XYZVectorD XYZVector
spatial vector with cartesian internal representation
Definition: Vector3D.h:30
XYZPointD XYZPoint
point in space with cartesian internal representation
Definition: Point3D.h:12
reco::PFBlockElementTrack PFKFElement
Definition: PFEGammaAlgo.h:64
virtual void setP4(const LorentzVector &p4) final
set 4-momentum
void setSuperClusterPFECALRef(reco::SuperClusterRef sc)
set reference to the corresponding supercluster
void addConversionRef(const reco::ConversionRef &convref)
add Conversions from PF
Particle reconstructed by the particle flow algorithm.
Definition: PFCandidate.h:39
reco::SuperCluster buildRefinedSuperCluster(const ProtoEGObject &)
void setSuperClusterRef(const reco::SuperClusterRef &scRef)
Definition: PFCandidate.cc:625
void setKfTrackRef(const reco::TrackRef &ref)
set kf track reference
const CaloClusterPtr & seed() const
seed BasicCluster
Definition: SuperCluster.h:66
void setMVA(float val)
set the result (mostly for debugging)
void setTrackRef(const reco::TrackRef &ref)
set track reference
Definition: PFCandidate.cc:421
void setTime(float time, float timeError=0.f)
the timing information
Definition: PFCandidate.h:424
reco::PFCandidateCollection& PFEGammaAlgo::getCandidates ( )
inline

Definition at line 174 of file PFEGammaAlgo.h.

References outcands_.

174 {return outcands_;}
reco::PFCandidateCollection outcands_
Definition: PFEGammaAlgo.h:193
reco::PFCandidateEGammaExtraCollection& PFEGammaAlgo::getEGExtra ( )
inline

Definition at line 177 of file PFEGammaAlgo.h.

References outcandsextra_.

177 {return outcandsextra_;}
reco::PFCandidateEGammaExtraCollection outcandsextra_
Definition: PFEGammaAlgo.h:194
reco::SuperClusterCollection& PFEGammaAlgo::getRefinedSCs ( )
inline

Definition at line 180 of file PFEGammaAlgo.h.

References refinedscs_.

180 {return refinedscs_;}
reco::SuperClusterCollection refinedscs_
Definition: PFEGammaAlgo.h:195
void PFEGammaAlgo::initializeProtoCands ( std::list< ProtoEGObject > &  )
private

Definition at line 961 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _refinableObjects, _splayedblock, PFEGammaAlgo::ProtoEGObject::brems, docast, reco::PFBlockElementGsfTrack::Dump(), PFEGammaAlgo::ProtoEGObject::ecal2ps, PFEGammaAlgo::ProtoEGObject::ecalclusters, PFEGammaAlgo::ProtoEGObject::electronSeed, Exception, f, PFEGammaAlgo::ProtoEGObject::firstBrem, edm::Ref< C, T, F >::get(), reco::PFBlockElementGsfTrack::GsftrackRef(), reco::PFBlockElement::index(), edm::Ref< C, T, F >::isAvailable(), edm::Ref< C, T, F >::isNonnull(), edm::Ref< C, T, F >::isNull(), PFEGammaAlgo::ProtoEGObject::lateBrem, reco::PFBlock::LINKTEST_ALL, PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, LOGVERB, eostools::move(), PFEGammaAlgo::ProtoEGObject::nBremsWithClusters, PFEGammaAlgo::ProtoEGObject::parentBlock, PFEGammaAlgo::ProtoEGObject::parentSC, PFEGammaAlgo::ProtoEGObject::primaryGSFs, reco::PFBlockElement::T_FROM_GAMMACONV, reco::PFBlockElementGsfTrack::trackType(), and unwrapSuperCluster().

Referenced by buildAndRefineEGObjects().

961  {
962  // step 1: build SC based proto-candidates
963  // in the future there will be an SC Et requirement made here to control
964  // block size
965  for( auto& element : _splayedblock[PFBlockElement::SC] ) {
966  LOGDRESSED("PFEGammaAlgo")
967  << "creating SC-based proto-object" << std::endl
968  << "\tSC at index: " << element.first->index()
969  << " has type: " << element.first->type() << std::endl;
970  element.second = false;
971  ProtoEGObject fromSC;
972  fromSC.nBremsWithClusters = -1;
973  fromSC.firstBrem = -1;
974  fromSC.lateBrem = -1;
975  fromSC.parentBlock = _currentblock;
976  fromSC.parentSC = docast(const PFSCElement*,element.first);
977  // splay the supercluster so we can knock out used elements
978  bool sc_success =
979  unwrapSuperCluster(fromSC.parentSC,fromSC.ecalclusters,fromSC.ecal2ps);
980  if( sc_success ) {
981  /*
982  auto ins_pos = std::lower_bound(_refinableObjects.begin(),
983  _refinableObjects.end(),
984  fromSC,
985  [&](const ProtoEGObject& a,
986  const ProtoEGObject& b){
987  const double a_en =
988  a.parentSC->superClusterRef()->energy();
989  const double b_en =
990  b.parentSC->superClusterRef()->energy();
991  return a_en < b_en;
992  });
993  */
994  _refinableObjects.insert(_refinableObjects.end(),fromSC);
995  }
996  }
997  // step 2: build GSF-seed-based proto-candidates
998  reco::GsfTrackRef gsfref_forextra;
999  reco::TrackExtraRef gsftrk_extra;
1000  reco::ElectronSeedRef theseedref;
1001  std::list<ProtoEGObject>::iterator objsbegin, objsend;
1002  for( auto& element : _splayedblock[PFBlockElement::GSF] ) {
1003  LOGDRESSED("PFEGammaAlgo")
1004  << "creating GSF-based proto-object" << std::endl
1005  << "\tGSF at index: " << element.first->index()
1006  << " has type: " << element.first->type() << std::endl;
1007  const PFGSFElement* elementAsGSF =
1008  docast(const PFGSFElement*,element.first);
1009  if( elementAsGSF->trackType(reco::PFBlockElement::T_FROM_GAMMACONV) ) {
1010  continue; // for now, do not allow dedicated brems to make proto-objects
1011  }
1012  element.second = false;
1013 
1014  ProtoEGObject fromGSF;
1015  fromGSF.nBremsWithClusters = -1;
1016  fromGSF.firstBrem = -1;
1017  fromGSF.lateBrem = 0;
1018  gsfref_forextra = elementAsGSF->GsftrackRef();
1019  gsftrk_extra = ( gsfref_forextra.isAvailable() ?
1020  gsfref_forextra->extra() : reco::TrackExtraRef() );
1021  theseedref = ( gsftrk_extra.isAvailable() ?
1022  gsftrk_extra->seedRef().castTo<reco::ElectronSeedRef>() :
1023  reco::ElectronSeedRef() );
1024  fromGSF.electronSeed = theseedref;
1025  // exception if there's no seed
1026  if(fromGSF.electronSeed.isNull() || !fromGSF.electronSeed.isAvailable()) {
1027  std::stringstream gsf_err;
1028  elementAsGSF->Dump(gsf_err,"\t");
1029  throw cms::Exception("PFEGammaAlgo::initializeProtoCands()")
1030  << "Found a GSF track with no seed! This should not happen!"
1031  << std::endl << gsf_err.str() << std::endl;
1032  }
1033  // flag this GSF element as globally used and push back the track ref
1034  // into the protocand
1035  element.second = false;
1036  fromGSF.parentBlock = _currentblock;
1037  fromGSF.primaryGSFs.push_back(std::make_pair(elementAsGSF,true));
1038  // add the directly matched brem tangents
1039  for( auto& brem : _splayedblock[PFBlockElement::BREM] ) {
1040  float dist = _currentblock->dist(elementAsGSF->index(),
1041  brem.first->index(),
1042  _currentlinks,
1044  if( dist == 0.001f ) {
1045  const PFBremElement* eAsBrem =
1046  docast(const PFBremElement*,brem.first);
1047  fromGSF.brems.push_back(std::make_pair(eAsBrem,true));
1048  fromGSF.localMap.push_back( ElementMap::value_type(eAsBrem,elementAsGSF) );
1049  fromGSF.localMap.push_back( ElementMap::value_type(elementAsGSF,eAsBrem) );
1050  brem.second = false;
1051  }
1052  }
1053  // if this track is ECAL seeded reset links or import cluster
1054  // tracker (this is pixel only, right?) driven seeds just get the GSF
1055  // track associated since this only branches for ECAL Driven seeds
1056  if( fromGSF.electronSeed->isEcalDriven() ) {
1057  // step 2a: either merge with existing ProtoEG object with SC or add
1058  // SC directly to this proto EG object if not present
1059  LOGDRESSED("PFEGammaAlgo")
1060  << "GSF-based proto-object is ECAL driven, merging SC-cand"
1061  << std::endl;
1062  LOGVERB("PFEGammaAlgo")
1063  << "ECAL Seed Ptr: " << fromGSF.electronSeed.get()
1064  << " isAvailable: " << fromGSF.electronSeed.isAvailable()
1065  << " isNonnull: " << fromGSF.electronSeed.isNonnull()
1066  << std::endl;
1067  SeedMatchesToProtoObject sctoseedmatch(fromGSF.electronSeed);
1068  objsbegin = _refinableObjects.begin();
1069  objsend = _refinableObjects.end();
1070  // this auto is a std::list<ProtoEGObject>::iterator
1071  auto clusmatch = std::find_if(objsbegin,objsend,sctoseedmatch);
1072  if( clusmatch != objsend ) {
1073  fromGSF.parentSC = clusmatch->parentSC;
1074  fromGSF.ecalclusters = std::move(clusmatch->ecalclusters);
1075  fromGSF.ecal2ps = std::move(clusmatch->ecal2ps);
1076  _refinableObjects.erase(clusmatch);
1077  } else if (fromGSF.electronSeed.isAvailable() &&
1078  fromGSF.electronSeed.isNonnull()) {
1079  // link tests in the gap region can current split a gap electron
1080  // HEY THIS IS A WORK AROUND FOR A KNOWN BUG IN PFBLOCKALGO
1081  // MAYBE WE SHOULD FIX IT??????????????????????????????????
1082  LOGDRESSED("PFEGammaAlgo")
1083  << "Encountered the known GSF-SC splitting bug "
1084  << " in PFBlockAlgo! We should really fix this!" << std::endl;
1085  } else { // SC was not in a earlier proto-object
1086  std::stringstream gsf_err;
1087  elementAsGSF->Dump(gsf_err,"\t");
1088  throw cms::Exception("PFEGammaAlgo::initializeProtoCands()")
1089  << "Expected SuperCluster from ECAL driven GSF seed "
1090  << "was not found in the block!" << std::endl
1091  << gsf_err.str() << std::endl;
1092  } // supercluster in block
1093  } // is ECAL driven seed?
1094  /*
1095  auto ins_pos = std::lower_bound(_refinableObjects.begin(),
1096  _refinableObjects.end(),
1097  fromGSF,
1098  [&](const ProtoEGObject& a,
1099  const ProtoEGObject& b){
1100  const double a_en = ( a.parentSC ?
1101  a.parentSC->superClusterRef()->energy() :
1102  a.primaryGSFs[0].first->GsftrackRef()->pt() );
1103  const double b_en = ( b.parentSC ?
1104  b.parentSC->superClusterRef()->energy() :
1105  b.primaryGSFs[0].first->GsftrackRef()->pt() );
1106  return a_en < b_en;
1107  });
1108  */
1109  _refinableObjects.insert(_refinableObjects.end(),fromGSF);
1110  } // end loop on GSF elements of block
1111 }
bool isAvailable() const
Definition: Ref.h:576
reco::PFBlockElementSuperCluster PFSCElement
Definition: PFEGammaAlgo.h:61
reco::PFBlockElementGsfTrack PFGSFElement
Definition: PFEGammaAlgo.h:63
edm::Ref< TrackExtraCollection > TrackExtraRef
persistent reference to a TrackExtra
Definition: TrackExtraFwd.h:17
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGVERB(x)
Definition: PFEGammaAlgo.cc:51
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
bool unwrapSuperCluster(const reco::PFBlockElementSuperCluster *, std::vector< PFClusterFlaggedElement > &, ClusterMap &)
double f[11][100]
std::list< ProtoEGObject > _refinableObjects
Definition: PFEGammaAlgo.h:218
reco::PFBlockElementBrem PFBremElement
Definition: PFEGammaAlgo.h:62
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
def move(src, dest)
Definition: eostools.py:510
bool PFEGammaAlgo::isAMuon ( const reco::PFBlockElement pfbe)
private

Definition at line 803 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, allElectronIsolations_cfi::elements, reco::PFBlockElement::GSF, reco::PFBlockElement::index(), PFMuonAlgo::isMuon(), reco::PFBlock::LINKTEST_ALL, reco::PFBlockElement::TRACK, and reco::PFBlockElement::type().

Referenced by buildAndRefineEGObjects().

803  {
804  switch( pfbe.type() ) {
806  {
807  auto& elements = _currentblock->elements();
808  std::multimap<double,unsigned> tks;
809  _currentblock->associatedElements(pfbe.index(),
811  tks,
814  for( const auto& tk : tks ) {
815  if( PFMuonAlgo::isMuon(elements[tk.second]) ) {
816  return true;
817  }
818  }
819  }
820  break;
821  case reco::PFBlockElement::TRACK:
822  return PFMuonAlgo::isMuon(pfbe);
823  break;
824  default:
825  break;
826  }
827  return false;
828 }
static bool isMuon(const reco::PFBlockElement &elt)
Definition: PFMuonAlgo.cc:155
Type type() const
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
unsigned index() const
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
bool PFEGammaAlgo::isEGValidCandidate ( const pfEGHelpers::HeavyObjectCache hoc,
const reco::PFBlockRef blockRef,
std::vector< bool > &  active 
)
inline

Definition at line 166 of file PFEGammaAlgo.h.

References egCandidate_, and RunPFEG().

168  {
169  RunPFEG(hoc,blockRef,active);
170  return (egCandidate_.size()>0);
171  };
reco::PFCandidateCollection egCandidate_
Definition: PFEGammaAlgo.h:400
void RunPFEG(const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &blockRef, std::vector< bool > &active)
bool PFEGammaAlgo::isPrimaryTrack ( const reco::PFBlockElementTrack KfEl,
const reco::PFBlockElementGsfTrack GsfEl 
)
private

Definition at line 2613 of file PFEGammaAlgo.cc.

References reco::PFBlockElementGsfTrack::GsftrackRefPF(), edm::Ref< C, T, F >::isNonnull(), and reco::PFBlockElementTrack::trackRefPF().

Referenced by linkRefinableObjectGSFTracksToKFs().

2614  {
2615  bool isPrimary = false;
2616 
2617  GsfPFRecTrackRef gsfPfRef = GsfEl.GsftrackRefPF();
2618 
2619  if(gsfPfRef.isNonnull()) {
2620  PFRecTrackRef kfPfRef = KfEl.trackRefPF();
2621  PFRecTrackRef kfPfRef_fromGsf = (*gsfPfRef).kfPFRecTrackRef();
2622  if(kfPfRef.isNonnull() && kfPfRef_fromGsf.isNonnull()) {
2623  reco::TrackRef kfref= (*kfPfRef).trackRef();
2624  reco::TrackRef kfref_fromGsf = (*kfPfRef_fromGsf).trackRef();
2625  if(kfref.isNonnull() && kfref_fromGsf.isNonnull()) {
2626  if(kfref == kfref_fromGsf)
2627  isPrimary = true;
2628  }
2629  }
2630  }
2631 
2632  return isPrimary;
2633 }
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:252
const GsfPFRecTrackRef & GsftrackRefPF() const
const PFRecTrackRef & trackRefPF() const
void PFEGammaAlgo::linkKFTrackToECAL ( const PFKFFlaggedElement ,
ProtoEGObject  
)
private

Definition at line 1714 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, attachPSClusters(), docast, reco::PFBlockElement::ECAL, PFEGammaAlgo::ProtoEGObject::ecal2ps, PFEGammaAlgo::ProtoEGObject::ecalclusters, linkRefinableObjectBremTangentsToECAL(), PFEGammaAlgo::ProtoEGObject::localMap, and LOGDRESSED.

Referenced by linkRefinableObjectKFTracksToECAL().

1715  {
1716  std::vector<PFClusterFlaggedElement>& currentECAL = RO.ecalclusters;
1717  auto ECALbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1718  auto ECALend = _splayedblock[reco::PFBlockElement::ECAL].end();
1719  NotCloserToOther<reco::PFBlockElement::TRACK,reco::PFBlockElement::ECAL>
1720  kfTrackToECALs(_currentblock,_currentlinks,kfflagged.first);
1721  NotCloserToOther<reco::PFBlockElement::GSF,reco::PFBlockElement::ECAL>
1722  kfTrackGSFToECALs(_currentblock,_currentlinks,kfflagged.first);
1723  //get the ECAL elements not used and not closer to another KF
1724  auto notmatched_sc = std::partition(currentECAL.begin(),
1725  currentECAL.end(),
1726  kfTrackToECALs);
1727  //get subset ECAL elements not used or closer to another GSF of any type
1728  notmatched_sc = std::partition(currentECAL.begin(),
1729  notmatched_sc,
1730  kfTrackGSFToECALs);
1731  for( auto ecalitr = currentECAL.begin(); ecalitr != notmatched_sc;
1732  ++ecalitr ) {
1733  const PFClusterElement* elemascluster =
1734  docast(const PFClusterElement*,ecalitr->first);
1735  PFClusterFlaggedElement flaggedclus(elemascluster,true);
1736 
1737  LOGDRESSED("PFEGammaAlgo::linkKFTracktoECAL()")
1738  << "Found a cluster already in RO by KF extrapolation"
1739  << " at ECAL surface!" << std::endl
1740  << *elemascluster << std::endl;
1741  RO.localMap.push_back(ElementMap::value_type(elemascluster,
1742  kfflagged.first));
1743  RO.localMap.push_back(ElementMap::value_type(kfflagged.first,
1744  elemascluster));
1745  }
1746  //get the ECAL elements not used and not closer to another KF
1747  auto notmatched_blk = std::partition(ECALbegin,ECALend,kfTrackToECALs);
1748  //get subset ECAL elements not used or closer to another GSF of any type
1749  notmatched_blk = std::partition(ECALbegin,notmatched_blk,kfTrackGSFToECALs);
1750  for( auto ecalitr = ECALbegin; ecalitr != notmatched_blk; ++ecalitr ) {
1751  const PFClusterElement* elemascluster =
1752  docast(const PFClusterElement*,ecalitr->first);
1753  if( addPFClusterToROSafe(elemascluster,RO) ) {
1754  attachPSClusters(elemascluster,RO.ecal2ps[elemascluster]);
1755  ecalitr->second = false;
1756 
1757  LOGDRESSED("PFEGammaAlgo::linkKFTracktoECAL()")
1758  << "Found a cluster not in RO by KF extrapolation"
1759  << " at ECAL surface!" << std::endl
1760  << *elemascluster << std::endl;
1761  RO.localMap.push_back(ElementMap::value_type(elemascluster,
1762  kfflagged.first));
1763  RO.localMap.push_back( ElementMap::value_type(kfflagged.first,
1764  elemascluster));
1765  }
1766  }
1767 }
std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
Definition: PFEGammaAlgo.h:71
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
reco::PFBlockElementCluster PFClusterElement
Definition: PFEGammaAlgo.h:65
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
int attachPSClusters(const PFClusterElement *, ClusterMap::mapped_type &)
void PFEGammaAlgo::linkRefinableObjectBremTangentsToECAL ( ProtoEGObject RO)
private

Definition at line 1770 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, funct::abs(), attachPSClusters(), PFEGammaAlgo::ProtoEGObject::brems, docast, digitizers_cfi::ecal, reco::PFBlockElement::ECAL, PFEGammaAlgo::ProtoEGObject::ecal2ps, PFEGammaAlgo::ProtoEGObject::ecalclusters, PFEGammaAlgo::ProtoEGObject::firstBrem, linkRefinableObjectConvSecondaryKFsToSecondaryKFs(), PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, and PFEGammaAlgo::ProtoEGObject::nBremsWithClusters.

Referenced by buildAndRefineEGObjects(), and linkKFTrackToECAL().

1770  {
1771  if( !RO.brems.size() ) return;
1772  int FirstBrem = -1;
1773  int TrajPos = -1;
1774  int lastBremTrajPos = -1;
1775  for( auto& bremflagged : RO.brems ) {
1776  bool has_clusters = false;
1777  TrajPos = (bremflagged.first->indTrajPoint())-2;
1778  auto ECALbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1779  auto ECALend = _splayedblock[reco::PFBlockElement::ECAL].end();
1780  NotCloserToOther<reco::PFBlockElement::BREM,reco::PFBlockElement::ECAL>
1781  BremToECALs(_currentblock,_currentlinks,bremflagged.first);
1782  // check for late brem using clusters already in the SC
1783  auto RSCBegin = RO.ecalclusters.begin();
1784  auto RSCEnd = RO.ecalclusters.end();
1785  auto notmatched_rsc = std::partition(RSCBegin,RSCEnd,BremToECALs);
1786  for( auto ecal = RSCBegin; ecal != notmatched_rsc; ++ecal ) {
1787  float deta =
1788  std::abs( ecal->first->clusterRef()->positionREP().eta() -
1789  bremflagged.first->positionAtECALEntrance().eta() );
1790  if( deta < 0.015 ) {
1791  has_clusters = true;
1792  if( lastBremTrajPos == -1 || lastBremTrajPos < TrajPos ) {
1793  lastBremTrajPos = TrajPos;
1794  }
1795  if( FirstBrem == -1 || TrajPos < FirstBrem ) { // set brem information
1796  FirstBrem = TrajPos;
1797  RO.firstBrem = TrajPos;
1798  }
1799  LOGDRESSED("PFEGammaAlgo::linkBremToECAL()")
1800  << "Found a cluster already in SC linked to brem extrapolation"
1801  << " at ECAL surface!" << std::endl;
1802  RO.localMap.push_back( ElementMap::value_type(ecal->first,bremflagged.first) );
1803  RO.localMap.push_back( ElementMap::value_type(bremflagged.first,ecal->first) );
1804  }
1805  }
1806  // grab new clusters from the block (ensured to not be late brem)
1807  auto notmatched_block = std::partition(ECALbegin,ECALend,BremToECALs);
1808  for( auto ecal = ECALbegin; ecal != notmatched_block; ++ecal ) {
1809  float deta =
1810  std::abs( ecal->first->clusterRef()->positionREP().eta() -
1811  bremflagged.first->positionAtECALEntrance().eta() );
1812  if( deta < 0.015 ) {
1813  has_clusters = true;
1814  if( lastBremTrajPos == -1 || lastBremTrajPos < TrajPos ) {
1815  lastBremTrajPos = TrajPos;
1816  }
1817  if( FirstBrem == -1 || TrajPos < FirstBrem ) { // set brem information
1818 
1819  FirstBrem = TrajPos;
1820  RO.firstBrem = TrajPos;
1821  }
1822  const PFClusterElement* elemasclus =
1823  docast(const PFClusterElement*,ecal->first);
1824  if( addPFClusterToROSafe(elemasclus,RO) ) {
1825  attachPSClusters(elemasclus,RO.ecal2ps[elemasclus]);
1826 
1827  RO.localMap.push_back( ElementMap::value_type(ecal->first,bremflagged.first) );
1828  RO.localMap.push_back( ElementMap::value_type(bremflagged.first,ecal->first) );
1829  ecal->second = false;
1830  LOGDRESSED("PFEGammaAlgo::linkBremToECAL()")
1831  << "Found a cluster not already associated by brem extrapolation"
1832  << " at ECAL surface!" << std::endl;
1833  }
1834 
1835  }
1836  }
1837  if(has_clusters) {
1838  if( RO.nBremsWithClusters == -1 ) RO.nBremsWithClusters = 0;
1839  ++RO.nBremsWithClusters;
1840  }
1841  }
1842 }
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
reco::PFBlockElementCluster PFClusterElement
Definition: PFEGammaAlgo.h:65
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
int attachPSClusters(const PFClusterElement *, ClusterMap::mapped_type &)
void PFEGammaAlgo::linkRefinableObjectConvSecondaryKFsToSecondaryKFs ( ProtoEGObject RO)
private

Definition at line 1845 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, SoftLeptonByDistance_cfi::distance, docast, plotBeamSpotDB::first, training_settings::idx, linkRefinableObjectECALToSingleLegConv(), PFEGammaAlgo::ProtoEGObject::localMap, PFEGammaAlgo::ProtoEGObject::secondaryKFs, and reco::PFBlockElement::TRACK.

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectBremTangentsToECAL().

1845  {
1846  IsConversionTrack<reco::PFBlockElementTrack> isConvKf;
1847  auto KFbegin = _splayedblock[reco::PFBlockElement::TRACK].begin();
1848  auto KFend = _splayedblock[reco::PFBlockElement::TRACK].end();
1849  auto BeginROskfs = RO.secondaryKFs.begin();
1850  auto EndROskfs = RO.secondaryKFs.end();
1851  auto ronotconv = std::partition(BeginROskfs,EndROskfs,isConvKf);
1852  size_t convkfs_end = std::distance(BeginROskfs,ronotconv);
1853  for( size_t idx = 0; idx < convkfs_end; ++idx ) {
1854  const std::vector<PFKFFlaggedElement>& secKFs = RO.secondaryKFs; //we want the entry at the index but we allocate to secondaryKFs in loop which invalidates all iterators, references and pointers, hence we need to get the entry fresh each time
1855  NotCloserToOther<reco::PFBlockElement::TRACK,
1857  true>
1858  TracksToTracks(_currentblock,_currentlinks, secKFs[idx].first);
1859  auto notmatched = std::partition(KFbegin,KFend,TracksToTracks);
1860  notmatched = std::partition(KFbegin,notmatched,isConvKf);
1861  for( auto kf = KFbegin; kf != notmatched; ++kf ) {
1862  const reco::PFBlockElementTrack* elemaskf =
1863  docast(const reco::PFBlockElementTrack*,kf->first);
1864  RO.secondaryKFs.push_back( std::make_pair(elemaskf,true) );
1865  RO.localMap.push_back( ElementMap::value_type(secKFs[idx].first,kf->first) );
1866  RO.localMap.push_back( ElementMap::value_type(kf->first,secKFs[idx].first) );
1867  kf->second = false;
1868  }
1869  }
1870 }
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void PFEGammaAlgo::linkRefinableObjectECALToSingleLegConv ( const pfEGHelpers::HeavyObjectCache hoc,
ProtoEGObject RO 
)
private

Definition at line 1873 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, cfg_, docast, digitizers_cfi::ecal, reco::PFBlockElement::ECAL, PFEGammaAlgo::ProtoEGObject::ecalclusters, EvaluateSingleLegMVA(), linkRefinableObjectSecondaryKFsToECAL(), PFEGammaAlgo::ProtoEGObject::localMap, PFEGammaAlgo::PFEGConfigInfo::mvaConvCut, PFEGammaAlgo::PFEGConfigInfo::primaryVtx, PFEGammaAlgo::ProtoEGObject::secondaryKFs, PFEGammaAlgo::ProtoEGObject::singleLegConversionMvaMap, and reco::PFBlockElement::TRACK.

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectConvSecondaryKFsToSecondaryKFs().

1874  {
1875  IsConversionTrack<reco::PFBlockElementTrack> isConvKf;
1876  auto KFbegin = _splayedblock[reco::PFBlockElement::TRACK].begin();
1877  auto KFend = _splayedblock[reco::PFBlockElement::TRACK].end();
1878  for( auto& ecal : RO.ecalclusters ) {
1879  NotCloserToOther<reco::PFBlockElement::ECAL,
1881  true>
1882  ECALToTracks(_currentblock,_currentlinks,ecal.first);
1883  auto notmatchedkf = std::partition(KFbegin,KFend,ECALToTracks);
1884  auto notconvkf = std::partition(KFbegin,notmatchedkf,isConvKf);
1885  // add identified KF conversion tracks
1886  for( auto kf = KFbegin; kf != notconvkf; ++kf ) {
1887  const reco::PFBlockElementTrack* elemaskf =
1888  docast(const reco::PFBlockElementTrack*,kf->first);
1889  RO.secondaryKFs.push_back( std::make_pair(elemaskf,true) );
1890  RO.localMap.push_back( ElementMap::value_type(ecal.first,elemaskf) );
1891  RO.localMap.push_back( ElementMap::value_type(elemaskf,ecal.first) );
1892  kf->second = false;
1893  }
1894  // go through non-conv-identified kfs and check MVA to add conversions
1895  for( auto kf = notconvkf; kf != notmatchedkf; ++kf ) {
1896  float mvaval = EvaluateSingleLegMVA(hoc,_currentblock,
1897  *cfg_.primaryVtx,
1898  kf->first->index());
1899  if(mvaval > cfg_.mvaConvCut) {
1900  const reco::PFBlockElementTrack* elemaskf =
1901  docast(const reco::PFBlockElementTrack*,kf->first);
1902  RO.secondaryKFs.push_back( std::make_pair(elemaskf,true) );
1903  RO.localMap.push_back( ElementMap::value_type(ecal.first,elemaskf) );
1904  RO.localMap.push_back( ElementMap::value_type(elemaskf,ecal.first) );
1905  kf->second = false;
1906 
1907  RO.singleLegConversionMvaMap.insert(std::make_pair(elemaskf, mvaval));
1908  }
1909  }
1910  }
1911 }
unsigned int index
index type
Definition: Vertex.h:53
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
const reco::Vertex * primaryVtx
Definition: PFEGammaAlgo.h:131
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
float EvaluateSingleLegMVA(const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &blockref, const reco::Vertex &primaryvtx, unsigned int track_index)
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void PFEGammaAlgo::linkRefinableObjectGSFTracksToKFs ( ProtoEGObject RO)
private

Definition at line 1554 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, constexpr, docast, PFEGammaAlgo::ProtoEGObject::electronSeed, edm::Ref< C, T, F >::isNull(), isPrimaryTrack(), linkRefinableObjectPrimaryKFsToSecondaryKFs(), PFEGammaAlgo::ProtoEGObject::localMap, PFEGammaAlgo::ProtoEGObject::primaryGSFs, PFEGammaAlgo::ProtoEGObject::primaryKFs, PFEGammaAlgo::ProtoEGObject::secondaryKFs, findQualityFiles::size, reco::PFBlockElement::T_FROM_GAMMACONV, reco::PFBlockElement::TRACK, reco::PFBlockElementTrack::trackType(), and reco::PFBlockElementGsfTrack::trackType().

Referenced by buildAndRefineEGObjects(), and mergeROsByAnyLink().

1554  {
1558  auto KFbegin = _splayedblock[reco::PFBlockElement::TRACK].begin();
1559  auto KFend = _splayedblock[reco::PFBlockElement::TRACK].end();
1560  for( auto& gsfflagged : RO.primaryGSFs ) {
1561  const PFGSFElement* seedtk = gsfflagged.first;
1562  // don't process SC-only ROs or secondary seeded ROs
1563  if( RO.electronSeed.isNull() || seedtk->trackType(convType) ) continue;
1564  NotCloserToOther<reco::PFBlockElement::GSF,reco::PFBlockElement::TRACK>
1565  gsfTrackToKFs(_currentblock,_currentlinks,seedtk);
1566  // get KF tracks not closer to another and not already used
1567  auto notlinked = std::partition(KFbegin,KFend,gsfTrackToKFs);
1568  // attach tracks and set as used
1569  for( auto kft = KFbegin; kft != notlinked; ++kft ) {
1570  const PFKFElement* elemaskf =
1571  docast(const PFKFElement*,kft->first);
1572  // don't care about things that aren't primaries or directly
1573  // associated secondary tracks
1574  if( isPrimaryTrack(*elemaskf,*seedtk) &&
1575  !elemaskf->trackType(convType) ) {
1576  kft->second = false;
1577  RO.primaryKFs.push_back(std::make_pair(elemaskf,true));
1578  RO.localMap.push_back( ElementMap::value_type(seedtk,elemaskf) );
1579  RO.localMap.push_back( ElementMap::value_type(elemaskf,seedtk) );
1580  } else if ( elemaskf->trackType(convType) ) {
1581  kft->second = false;
1582  RO.secondaryKFs.push_back(std::make_pair(elemaskf,true));
1583  RO.localMap.push_back( ElementMap::value_type(seedtk,elemaskf) );
1584  RO.localMap.push_back( ElementMap::value_type(elemaskf,seedtk) );
1585  }
1586  }// loop on closest KFs not closer to other GSFs
1587  } // loop on GSF primaries on RO
1588 }
size
Write out results.
reco::PFBlockElementGsfTrack PFGSFElement
Definition: PFEGammaAlgo.h:63
bool isPrimaryTrack(const reco::PFBlockElementTrack &KfEl, const reco::PFBlockElementGsfTrack &GsfEl)
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define constexpr
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
reco::PFBlockElementTrack PFKFElement
Definition: PFEGammaAlgo.h:64
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void PFEGammaAlgo::linkRefinableObjectKFTracksToECAL ( ProtoEGObject RO)
private

Definition at line 1707 of file PFEGammaAlgo.cc.

References _splayedblock, reco::PFBlockElement::ECAL, linkKFTrackToECAL(), PFEGammaAlgo::ProtoEGObject::primaryKFs, PFEGammaAlgo::ProtoEGObject::secondaryKFs, and findQualityFiles::size.

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectPrimaryGSFTrackToHCAL().

1707  {
1708  if( !_splayedblock[reco::PFBlockElement::ECAL].size() ) return;
1709  for( auto& primkf : RO.primaryKFs ) linkKFTrackToECAL(primkf,RO);
1710  for( auto& secdkf : RO.secondaryKFs ) linkKFTrackToECAL(secdkf,RO);
1711 }
size
Write out results.
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
void linkKFTrackToECAL(const PFKFFlaggedElement &, ProtoEGObject &)
void PFEGammaAlgo::linkRefinableObjectPrimaryGSFTrackToECAL ( ProtoEGObject RO)
private

Definition at line 1627 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, attachPSClusters(), docast, digitizers_cfi::ecal, reco::PFBlockElement::ECAL, PFEGammaAlgo::ProtoEGObject::ecal2ps, PFEGammaAlgo::ProtoEGObject::ecalclusters, PFEGammaAlgo::ProtoEGObject::electronClusters, linkRefinableObjectPrimaryGSFTrackToHCAL(), PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, NULL, PFEGammaAlgo::ProtoEGObject::primaryGSFs, findQualityFiles::size, and groupFilesInBlocks::temp.

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectPrimaryKFsToSecondaryKFs().

1627  {
1629  RO.electronClusters.push_back(NULL);
1630  return;
1631  }
1632  auto ECALbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1633  auto ECALend = _splayedblock[reco::PFBlockElement::ECAL].end();
1634  for( auto& primgsf : RO.primaryGSFs ) {
1635  NotCloserToOther<reco::PFBlockElement::GSF,reco::PFBlockElement::ECAL>
1636  gsfTracksToECALs(_currentblock,_currentlinks,primgsf.first);
1637  CompatibleEoPOut eoverp_test(primgsf.first);
1638  // get set of matching ecals not already in SC
1639  auto notmatched_blk = std::partition(ECALbegin,ECALend,gsfTracksToECALs);
1640  notmatched_blk = std::partition(ECALbegin,notmatched_blk,eoverp_test);
1641  // get set of matching ecals already in the RO
1642  auto notmatched_sc = std::partition(RO.ecalclusters.begin(),
1643  RO.ecalclusters.end(),
1644  gsfTracksToECALs);
1645  notmatched_sc = std::partition(RO.ecalclusters.begin(),
1646  notmatched_sc,
1647  eoverp_test);
1648  // look inside the SC for the ECAL cluster
1649  for( auto ecal = RO.ecalclusters.begin(); ecal != notmatched_sc; ++ecal ) {
1650  const PFClusterElement* elemascluster =
1651  docast(const PFClusterElement*,ecal->first);
1652  PFClusterFlaggedElement temp(elemascluster,true);
1653  LOGDRESSED("PFEGammaAlgo::linkGSFTracktoECAL()")
1654  << "Found a cluster already in RO by GSF extrapolation"
1655  << " at ECAL surface!" << std::endl
1656  << *elemascluster << std::endl;
1657 
1658  RO.localMap.push_back(ElementMap::value_type(primgsf.first,temp.first));
1659  RO.localMap.push_back(ElementMap::value_type(temp.first,primgsf.first));
1660  }
1661  // look outside the SC for the ecal cluster
1662  for( auto ecal = ECALbegin; ecal != notmatched_blk; ++ecal ) {
1663  const PFClusterElement* elemascluster =
1664  docast(const PFClusterElement*,ecal->first);
1665  LOGDRESSED("PFEGammaAlgo::linkGSFTracktoECAL()")
1666  << "Found a cluster not already in RO by GSF extrapolation"
1667  << " at ECAL surface!" << std::endl
1668  << *elemascluster << std::endl;
1669  if( addPFClusterToROSafe(elemascluster,RO) ) {
1670  attachPSClusters(elemascluster,RO.ecal2ps[elemascluster]);
1671  RO.localMap.push_back(ElementMap::value_type(primgsf.first,elemascluster));
1672  RO.localMap.push_back(ElementMap::value_type(elemascluster,primgsf.first));
1673  ecal->second = false;
1674  }
1675  }
1676  }
1677 }
size
Write out results.
std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
Definition: PFEGammaAlgo.h:71
#define NULL
Definition: scimark2.h:8
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
reco::PFBlockElementCluster PFClusterElement
Definition: PFEGammaAlgo.h:65
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
int attachPSClusters(const PFClusterElement *, ClusterMap::mapped_type &)
void PFEGammaAlgo::linkRefinableObjectPrimaryGSFTrackToHCAL ( ProtoEGObject RO)
private

Definition at line 1681 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, docast, digitizers_cfi::hcal, reco::PFBlockElement::HCAL, PFEGammaAlgo::ProtoEGObject::hcalClusters, linkRefinableObjectKFTracksToECAL(), PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, PFEGammaAlgo::ProtoEGObject::primaryGSFs, findQualityFiles::size, and groupFilesInBlocks::temp.

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectPrimaryGSFTrackToECAL().

1681  {
1682  if( !_splayedblock[reco::PFBlockElement::HCAL].size() ) return;
1683  auto HCALbegin = _splayedblock[reco::PFBlockElement::HCAL].begin();
1684  auto HCALend = _splayedblock[reco::PFBlockElement::HCAL].end();
1685  for( auto& primgsf : RO.primaryGSFs ) {
1686  NotCloserToOther<reco::PFBlockElement::GSF,reco::PFBlockElement::HCAL>
1687  gsfTracksToHCALs(_currentblock,_currentlinks,primgsf.first);
1688  CompatibleEoPOut eoverp_test(primgsf.first);
1689  auto notmatched = std::partition(HCALbegin,HCALend,gsfTracksToHCALs);
1690  for( auto hcal = HCALbegin; hcal != notmatched; ++hcal ) {
1691  const PFClusterElement* elemascluster =
1692  docast(const PFClusterElement*,hcal->first);
1693  PFClusterFlaggedElement temp(elemascluster,true);
1694  LOGDRESSED("PFEGammaAlgo::linkGSFTracktoECAL()")
1695  << "Found an HCAL cluster associated to GSF extrapolation"
1696  << std::endl;
1697  RO.hcalClusters.push_back(temp);
1698  RO.localMap.push_back( ElementMap::value_type(primgsf.first,temp.first) );
1699  RO.localMap.push_back( ElementMap::value_type(temp.first,primgsf.first) );
1700  hcal->second = false;
1701  }
1702  }
1703 }
size
Write out results.
std::pair< const PFClusterElement *, bool > PFClusterFlaggedElement
Definition: PFEGammaAlgo.h:71
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
reco::PFBlockElementCluster PFClusterElement
Definition: PFEGammaAlgo.h:65
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void PFEGammaAlgo::linkRefinableObjectPrimaryKFsToSecondaryKFs ( ProtoEGObject RO)
private

Definition at line 1591 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, constexpr, docast, Exception, linkRefinableObjectPrimaryGSFTrackToECAL(), PFEGammaAlgo::ProtoEGObject::localMap, PFEGammaAlgo::ProtoEGObject::primaryKFs, PFEGammaAlgo::ProtoEGObject::secondaryKFs, findQualityFiles::size, reco::PFBlockElement::T_FROM_GAMMACONV, reco::PFBlockElement::TRACK, and reco::PFBlockElementTrack::trackType().

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectGSFTracksToKFs().

1591  {
1595  auto KFbegin = _splayedblock[reco::PFBlockElement::TRACK].begin();
1596  auto KFend = _splayedblock[reco::PFBlockElement::TRACK].end();
1597  for( auto& kfflagged : RO.primaryKFs ) {
1598  const PFKFElement* primkf = kfflagged.first;
1599  // don't process SC-only ROs or secondary seeded ROs
1600  if( primkf->trackType(convType) ) {
1601  throw cms::Exception("PFEGammaAlgo::linkRefinableObjectPrimaryKFsToSecondaryKFs()")
1602  << "A KF track from conversion has been assigned as a primary!!"
1603  << std::endl;
1604  }
1605  NotCloserToOther<reco::PFBlockElement::TRACK,reco::PFBlockElement::TRACK,true>
1606  kfTrackToKFs(_currentblock,_currentlinks,primkf);
1607  // get KF tracks not closer to another and not already used
1608  auto notlinked = std::partition(KFbegin,KFend,kfTrackToKFs);
1609  // attach tracks and set as used
1610  for( auto kft = KFbegin; kft != notlinked; ++kft ) {
1611  const PFKFElement* elemaskf =
1612  docast(const PFKFElement*,kft->first);
1613  // don't care about things that aren't primaries or directly
1614  // associated secondary tracks
1615  if( elemaskf->trackType(convType) ) {
1616  kft->second = false;
1617  RO.secondaryKFs.push_back(std::make_pair(elemaskf,true));
1618  RO.localMap.push_back( ElementMap::value_type(primkf,elemaskf) );
1619  RO.localMap.push_back( ElementMap::value_type(elemaskf,primkf) );
1620  }
1621  }// loop on closest KFs not closer to other KFs
1622  } // loop on KF primaries on RO
1623 }
size
Write out results.
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define constexpr
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
reco::PFBlockElementTrack PFKFElement
Definition: PFEGammaAlgo.h:64
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void PFEGammaAlgo::linkRefinableObjectSecondaryKFsToECAL ( ProtoEGObject RO)
private

Definition at line 1914 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, attachPSClusters(), docast, digitizers_cfi::ecal, reco::PFBlockElement::ECAL, PFEGammaAlgo::ProtoEGObject::ecal2ps, fillPFCandidates(), PFEGammaAlgo::ProtoEGObject::localMap, PFEGammaAlgo::ProtoEGObject::secondaryKFs, and reco::PFBlockElement::TRACK.

Referenced by buildAndRefineEGObjects(), and linkRefinableObjectECALToSingleLegConv().

1914  {
1915  auto ECALbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1916  auto ECALend = _splayedblock[reco::PFBlockElement::ECAL].end();
1917  for( auto& skf : RO.secondaryKFs ) {
1918  NotCloserToOther<reco::PFBlockElement::TRACK,
1920  false>
1921  TracksToECALwithCut(_currentblock,_currentlinks,skf.first,1.5f);
1922  auto notmatched = std::partition(ECALbegin,ECALend,TracksToECALwithCut);
1923  for( auto ecal = ECALbegin; ecal != notmatched; ++ecal ) {
1924  const reco::PFBlockElementCluster* elemascluster =
1925  docast(const reco::PFBlockElementCluster*,ecal->first);
1926  if( addPFClusterToROSafe(elemascluster,RO) ) {
1927  attachPSClusters(elemascluster,RO.ecal2ps[elemascluster]);
1928  RO.localMap.push_back(ElementMap::value_type(skf.first,elemascluster));
1929  RO.localMap.push_back(ElementMap::value_type(elemascluster,skf.first));
1930  ecal->second = false;
1931  }
1932  }
1933  }
1934 }
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
int attachPSClusters(const PFClusterElement *, ClusterMap::mapped_type &)
void PFEGammaAlgo::mergeROsByAnyLink ( std::list< ProtoEGObject > &  )
private

Definition at line 1459 of file PFEGammaAlgo.cc.

References PFEGammaAlgo::ProtoEGObject::brems, SoftLeptonByDistance_cfi::distance, PFEGammaAlgo::ProtoEGObject::ecal2ps, PFEGammaAlgo::ProtoEGObject::ecalclusters, PFEGammaAlgo::ProtoEGObject::electronClusters, PFEGammaAlgo::ProtoEGObject::electronSeed, PFEGammaAlgo::ProtoEGObject::firstBrem, edm::Ref< C, T, F >::isNonnull(), edm::Ref< C, T, F >::isNull(), PFEGammaAlgo::ProtoEGObject::lateBrem, linkRefinableObjectGSFTracksToKFs(), PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, LOGWARN, PFEGammaAlgo::ProtoEGObject::nBremsWithClusters, PFEGammaAlgo::ProtoEGObject::parentSC, PFEGammaAlgo::ProtoEGObject::primaryGSFs, PFEGammaAlgo::ProtoEGObject::primaryKFs, PFEGammaAlgo::ProtoEGObject::secondaryKFs, and std::swap().

Referenced by buildAndRefineEGObjects(), and removeOrLinkECALClustersToKFTracks().

1459  {
1460  if( ROs.size() < 2 ) return; // nothing to do with one or zero ROs
1461  bool check_for_merge = true;
1462  while( check_for_merge ) {
1463  // bugfix for early termination merging loop (15 April 2014)
1464  // check all pairwise combinations in the list
1465  // if one has a merge shuffle it to the front of the list
1466  // if there are no merges left to do we can terminate
1467  for( auto it1 = ROs.begin(); it1 != ROs.end(); ++it1 ) {
1468  TestIfROMergableByLink mergeTest(*it1);
1469  auto find_start = it1; ++find_start;
1470  auto has_merge = std::find_if(find_start,ROs.end(),mergeTest);
1471  if( has_merge != ROs.end() && it1 != ROs.begin() ) {
1472  std::swap(*(ROs.begin()),*it1);
1473  break;
1474  }
1475  }// ensure mergables are shuffled to the front
1476  ProtoEGObject& thefront = ROs.front();
1477  TestIfROMergableByLink mergeTest(thefront);
1478  auto mergestart = ROs.begin(); ++mergestart;
1479  auto nomerge = std::partition(mergestart,ROs.end(),mergeTest);
1480  if( nomerge != mergestart ) {
1481  LOGDRESSED("PFEGammaAlgo::mergeROsByAnyLink()")
1482  << "Found objects " << std::distance(mergestart,nomerge)
1483  << " to merge by links to the front!" << std::endl;
1484  for( auto roToMerge = mergestart; roToMerge != nomerge; ++roToMerge) {
1485  //bugfix! L.Gray 14 Jan 2016
1486  // -- check that the front is still mergeable!
1487  if( thefront.ecalclusters.size() && roToMerge->ecalclusters.size() ) {
1488  if( thefront.ecalclusters.front().first->clusterRef()->layer() !=
1489  roToMerge->ecalclusters.front().first->clusterRef()->layer() ) {
1490  LOGWARN("PFEGammaAlgo::mergeROsByAnyLink")
1491  << "Tried to merge EB and EE clusters! Skipping!";
1492  ROs.push_back(*roToMerge);
1493  continue;
1494  }
1495  }
1496  //end bugfix
1497  thefront.ecalclusters.insert(thefront.ecalclusters.end(),
1498  roToMerge->ecalclusters.begin(),
1499  roToMerge->ecalclusters.end());
1500  thefront.ecal2ps.insert(roToMerge->ecal2ps.begin(),
1501  roToMerge->ecal2ps.end());
1502  thefront.secondaryKFs.insert(thefront.secondaryKFs.end(),
1503  roToMerge->secondaryKFs.begin(),
1504  roToMerge->secondaryKFs.end());
1505 
1506  thefront.localMap.insert(thefront.localMap.end(),
1507  roToMerge->localMap.begin(),
1508  roToMerge->localMap.end());
1509  // TO FIX -> use best (E_gsf - E_clustersum)/E_GSF
1510  if( !thefront.parentSC && roToMerge->parentSC ) {
1511  thefront.parentSC = roToMerge->parentSC;
1512  }
1513  if( thefront.electronSeed.isNull() &&
1514  roToMerge->electronSeed.isNonnull() ) {
1515  thefront.electronSeed = roToMerge->electronSeed;
1516  thefront.primaryGSFs.insert(thefront.primaryGSFs.end(),
1517  roToMerge->primaryGSFs.begin(),
1518  roToMerge->primaryGSFs.end());
1519  thefront.primaryKFs.insert(thefront.primaryKFs.end(),
1520  roToMerge->primaryKFs.begin(),
1521  roToMerge->primaryKFs.end());
1522  thefront.brems.insert(thefront.brems.end(),
1523  roToMerge->brems.begin(),
1524  roToMerge->brems.end());
1525  thefront.electronClusters = roToMerge->electronClusters;
1526  thefront.nBremsWithClusters = roToMerge->nBremsWithClusters;
1527  thefront.firstBrem = roToMerge->firstBrem;
1528  thefront.lateBrem = roToMerge->lateBrem;
1529  } else if ( thefront.electronSeed.isNonnull() &&
1530  roToMerge->electronSeed.isNonnull()) {
1531  LOGWARN("PFEGammaAlgo::mergeROsByAnyLink")
1532  << "Need to implement proper merging of two gsf candidates!"
1533  << std::endl;
1534  }
1535  }
1536  ROs.erase(mergestart,nomerge);
1537  // put the merged element in the back of the cleaned list
1538  ROs.push_back(ROs.front());
1539  ROs.pop_front();
1540  } else {
1541  check_for_merge = false;
1542  }
1543  }
1544  LOGDRESSED("PFEGammaAlgo::mergeROsByAnyLink()")
1545  << "After merging by links there are: " << ROs.size()
1546  << " refinable EGamma objects!" << std::endl;
1547  }
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
void swap(edm::DataFrameContainer &lhs, edm::DataFrameContainer &rhs)
#define LOGWARN(x)
Definition: PFEGammaAlgo.cc:52
void PFEGammaAlgo::removeOrLinkECALClustersToKFTracks ( )
private

Definition at line 1364 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _recoveredlinks, _splayedblock, cfg_, docast, reco::PFBlockElement::ECAL, f, reco::PFBlockElement::GSF, reco::PFBlockElement::index(), PFTrackAlgoTools::isGoodForEGMPrimary(), reco::PFBlock::LINKTEST_ALL, mergeROsByAnyLink(), PFEGammaAlgo::PFEGConfigInfo::primaryVtx, SimDataFormats::CaloAnalysis::sc, reco::PFBlockElement::SC, findQualityFiles::size, reco::PFBlockElement::T_FROM_GAMMACONV, reco::PFBlockElement::TRACK, reco::PFBlockElementTrack::trackRef(), reco::Vertex::tracks_begin(), reco::Vertex::tracks_end(), and reco::PFBlockElementGsfTrack::trackType().

Referenced by buildAndRefineEGObjects(), and dumpCurrentRefinableObjects().

1364  {
1365  typedef std::multimap<double, unsigned> MatchedMap;
1366  typedef const reco::PFBlockElementGsfTrack* GsfTrackElementPtr;
1369  MatchedMap matchedGSFs, matchedECALs;
1370  std::unordered_map<GsfTrackElementPtr,MatchedMap> gsf_ecal_cache;
1371  for( auto& kftrack : _splayedblock[reco::PFBlockElement::TRACK] ) {
1372  matchedGSFs.clear();
1373  _currentblock->associatedElements(kftrack.first->index(), _currentlinks,
1374  matchedGSFs,
1377  if( !matchedGSFs.size() ) { // only run this if we aren't associated to GSF
1378  LesserByDistance closestTrackToECAL(_currentblock,_currentlinks,
1379  &kftrack);
1380  auto ecalbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1381  auto ecalend = _splayedblock[reco::PFBlockElement::ECAL].end();
1382  std::partial_sort(ecalbegin,ecalbegin+1,ecalend,closestTrackToECAL);
1383  PFFlaggedElement& closestECAL =
1385  const float dist = _currentblock->dist(kftrack.first->index(),
1386  closestECAL.first->index(),
1387  _currentlinks,
1389  bool inSC = false;
1390  for( auto& sc : _splayedblock[reco::PFBlockElement::SC] ) {
1391  float dist_sc = _currentblock->dist(sc.first->index(),
1392  closestECAL.first->index(),
1393  _currentlinks,
1395  if( dist_sc != -1.0f) { inSC = true; break; }
1396  }
1397 
1398  if( dist != -1.0f && closestECAL.second ) {
1399  bool gsflinked = false;
1400  // check that this cluster is not associated to a GSF track
1401  for(const auto& gsfflag : _splayedblock[reco::PFBlockElement::GSF]) {
1402  const reco::PFBlockElementGsfTrack* elemasgsf =
1403  docast(const reco::PFBlockElementGsfTrack*,gsfflag.first);
1405  continue; // keep clusters that have a found conversion GSF near
1406  }
1407  // make sure cache exists
1408  if( !gsf_ecal_cache.count(elemasgsf) ) {
1409  matchedECALs.clear();
1410  _currentblock->associatedElements(elemasgsf->index(), _currentlinks,
1411  matchedECALs,
1414  gsf_ecal_cache.emplace(elemasgsf,matchedECALs);
1415  MatchedMap().swap(matchedECALs);
1416  }
1417  const MatchedMap& ecal_matches = gsf_ecal_cache[elemasgsf];
1418  if( ecal_matches.size() ) {
1419  if( ecal_matches.begin()->second == closestECAL.first->index() ) {
1420  gsflinked = true;
1421  break;
1422  }
1423  }
1424  } // loop over primary GSF tracks
1425  if( !gsflinked && !inSC) {
1426  // determine if we should remove the matched cluster
1427  const reco::PFBlockElementTrack * kfEle =
1428  docast(const reco::PFBlockElementTrack*,kftrack.first);
1429  const reco::TrackRef trackref = kfEle->trackRef();
1430 
1431  const int nexhits =
1432  trackref->hitPattern().numberOfLostHits(HitPattern::MISSING_INNER_HITS);
1433  bool fromprimaryvertex = false;
1434  for( auto vtxtks = cfg_.primaryVtx->tracks_begin();
1435  vtxtks != cfg_.primaryVtx->tracks_end(); ++ vtxtks ) {
1436  if( trackref == vtxtks->castTo<reco::TrackRef>() ) {
1437  fromprimaryvertex = true;
1438  break;
1439  }
1440  }// loop over tracks in primary vertex
1441  // if associated to good non-GSF matched track remove this cluster
1442  if( PFTrackAlgoTools::isGoodForEGMPrimary(trackref->algo()) && nexhits == 0 && fromprimaryvertex ) {
1443  closestECAL.second = false;
1444  } else { // otherwise associate the cluster and KF track
1445  _recoveredlinks.push_back( ElementMap::value_type(closestECAL.first,kftrack.first) );
1446  _recoveredlinks.push_back( ElementMap::value_type(kftrack.first,closestECAL.first) );
1447  }
1448 
1449 
1450 
1451 
1452  }
1453  } // found a good closest ECAL match
1454  } // no GSF track matched to KF
1455  } // loop over KF elements
1456  }
size
Write out results.
const reco::TrackRef & trackRef() const
trackRef_iterator tracks_end() const
last iterator over tracks
Definition: Vertex.cc:81
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
const reco::Vertex * primaryVtx
Definition: PFEGammaAlgo.h:131
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
std::pair< const reco::PFBlockElement *, bool > PFFlaggedElement
Definition: PFEGammaAlgo.h:66
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
unsigned index() const
double f[11][100]
virtual bool trackType(TrackType trType) const
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
ElementMap _recoveredlinks
Definition: PFEGammaAlgo.h:205
bool isGoodForEGMPrimary(const reco::TrackBase::TrackAlgorithm &)
trackRef_iterator tracks_begin() const
first iterator over tracks
Definition: Vertex.cc:76
void PFEGammaAlgo::RunPFEG ( const pfEGHelpers::HeavyObjectCache hoc,
const reco::PFBlockRef blockRef,
std::vector< bool > &  active 
)

Definition at line 729 of file PFEGammaAlgo.cc.

References buildAndRefineEGObjects(), Chatty, convGsfTrack_, egCandidate_, egExtra_, EvaluateSingleLegMVA(), fifthStepKfTrack_, and verbosityLevel_.

Referenced by isEGValidCandidate(), and setPhotonPrimaryVtx().

731  {
732 
733  fifthStepKfTrack_.clear();
734  convGsfTrack_.clear();
735 
736  egCandidate_.clear();
737  egExtra_.clear();
738 
739  // define how much is printed out for debugging.
740  // ... will be setable via CFG file parameter
741  verbosityLevel_ = Chatty; // Chatty mode.
742 
743  buildAndRefineEGObjects(hoc, blockRef);
744 }
reco::PFCandidateEGammaExtraCollection egExtra_
Definition: PFEGammaAlgo.h:404
std::vector< std::pair< unsigned int, unsigned int > > fifthStepKfTrack_
Definition: PFEGammaAlgo.h:310
void buildAndRefineEGObjects(const pfEGHelpers::HeavyObjectCache *hoc, const reco::PFBlockRef &block)
reco::PFCandidateCollection egCandidate_
Definition: PFEGammaAlgo.h:400
std::vector< std::pair< unsigned int, unsigned int > > convGsfTrack_
Definition: PFEGammaAlgo.h:311
verbosityLevel verbosityLevel_
Definition: PFEGammaAlgo.h:342
void PFEGammaAlgo::setAlphaGamma_ESplanes_fromDB ( const ESEEIntercalibConstants esEEInterCalib)
inline

Definition at line 145 of file PFEGammaAlgo.h.

References cfg_, and PFEGammaAlgo::PFEGConfigInfo::thePFEnergyCalibration.

145  {
146  cfg_.thePFEnergyCalibration->initAlphaGamma_ESplanes_fromDB(esEEInterCalib);
147  }
std::shared_ptr< PFEnergyCalibration > thePFEnergyCalibration
Definition: PFEGammaAlgo.h:114
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
void PFEGammaAlgo::setEEtoPSAssociation ( const edm::Handle< EEtoPSAssociation > &  eetops)
inline

Definition at line 141 of file PFEGammaAlgo.h.

References eetops_.

141  {
142  eetops_ = eetops;
143  }
edm::Handle< reco::PFCluster::EEtoPSAssociation > eetops_
Definition: PFEGammaAlgo.h:199
void PFEGammaAlgo::setESChannelStatus ( const ESChannelStatus channelStatus)
inline

Definition at line 149 of file PFEGammaAlgo.h.

References channelStatus_.

149  {
150  channelStatus_ = channelStatus;
151  }
const ESChannelStatus * channelStatus_
Definition: PFEGammaAlgo.h:396
void PFEGammaAlgo::setnPU ( int  nVtx)
inline

Definition at line 153 of file PFEGammaAlgo.h.

References nVtx_.

153  {
154  nVtx_=nVtx;
155  }
void PFEGammaAlgo::setPhotonPrimaryVtx ( const reco::Vertex primary)
inline

Definition at line 156 of file PFEGammaAlgo.h.

References cfg_, PFEGammaAlgo::PFEGConfigInfo::primaryVtx, and RunPFEG().

156  {
157  cfg_.primaryVtx = & primary;
158  }
const reco::Vertex * primaryVtx
Definition: PFEGammaAlgo.h:131
PFEGConfigInfo cfg_
Definition: PFEGammaAlgo.h:313
void PFEGammaAlgo::unlinkRefinableObjectKFandECALMatchedToHCAL ( ProtoEGObject RO,
bool  removeFreeECAL = false,
bool  removeSCECAL = false 
)
private

Definition at line 2521 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, reco::PFBlockElementCluster::clusterRef(), SoftLeptonByDistance_cfi::distance, digitizers_cfi::ecal, PFEGammaAlgo::ProtoEGObject::ecalclusters, f, spr::find(), spr::goodTrack(), reco::PFBlockElement::HCAL, PFTrackAlgoTools::isGoodForEGM(), reco::PFBlock::LINKTEST_ALL, PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, PFEGammaAlgo::ProtoEGObject::parentSC, and PFEGammaAlgo::ProtoEGObject::secondaryKFs.

Referenced by buildAndRefineEGObjects(), and unlinkRefinableObjectKFandECALWithBadEoverP().

2523  {
2524  std::vector<bool> cluster_in_sc;
2525  auto ecal_begin = RO.ecalclusters.begin();
2526  auto ecal_end = RO.ecalclusters.end();
2527  auto hcal_begin = _splayedblock[reco::PFBlockElement::HCAL].begin();
2528  auto hcal_end = _splayedblock[reco::PFBlockElement::HCAL].end();
2529  for( auto secd_kf = RO.secondaryKFs.begin();
2530  secd_kf != RO.secondaryKFs.end(); ++secd_kf ) {
2531  bool remove_this_kf = false;
2532  NotCloserToOther<reco::PFBlockElement::TRACK,reco::PFBlockElement::HCAL>
2533  tracksToHCALs(_currentblock,_currentlinks,secd_kf->first);
2534  reco::TrackRef trkRef = secd_kf->first->trackRef();
2535 
2536  bool goodTrack = PFTrackAlgoTools::isGoodForEGM(trkRef->algo());
2537  const float secpin = trkRef->p();
2538 
2539  for( auto ecal = ecal_begin; ecal != ecal_end; ++ecal ) {
2540  const double ecalenergy = ecal->first->clusterRef()->correctedEnergy();
2541  // first check if the cluster is in the SC (use dist calc for fastness)
2542  const size_t clus_idx = std::distance(ecal_begin,ecal);
2543  if( cluster_in_sc.size() < clus_idx + 1) {
2544  float dist = -1.0f;
2545  if( RO.parentSC ) {
2546  dist = _currentblock->dist(secd_kf->first->index(),
2547  ecal->first->index(),
2548  _currentlinks,
2550  }
2551  cluster_in_sc.push_back(dist != -1.0f);
2552  }
2553 
2554  ElementMap::value_type check_match(ecal->first,secd_kf->first);
2555  auto kf_matched = std::find(RO.localMap.begin(),
2556  RO.localMap.end(),
2557  check_match);
2558  // if we've found a secondary KF that matches this ecal cluster
2559  // now we see if it is matched to HCAL
2560  // if it is matched to an HCAL cluster we take different
2561  // actions if the cluster was in an SC or not
2562  if( kf_matched != RO.localMap.end() ) {
2563  auto hcal_matched = std::partition(hcal_begin,hcal_end,tracksToHCALs);
2564  for( auto hcalclus = hcal_begin;
2565  hcalclus != hcal_matched;
2566  ++hcalclus ) {
2567  const reco::PFBlockElementCluster * clusthcal =
2568  dynamic_cast<const reco::PFBlockElementCluster*>(hcalclus->first);
2569  const double hcalenergy = clusthcal->clusterRef()->energy();
2570  const double hpluse = ecalenergy+hcalenergy;
2571  const bool isHoHE = ( (hcalenergy / hpluse ) > 0.1 && goodTrack );
2572  const bool isHoE = ( hcalenergy > ecalenergy );
2573  const bool isPoHE = ( secpin > hpluse );
2574  if( cluster_in_sc[clus_idx] ) {
2575  if(isHoE || isPoHE) {
2576  LOGDRESSED("PFEGammaAlgo")
2577  << "REJECTED TRACK FOR H/E or P/(H+E), CLUSTER IN SC"
2578  << " H/H+E " << (hcalenergy / hpluse)
2579  << " H/E " << (hcalenergy > ecalenergy)
2580  << " P/(H+E) " << (secpin/hpluse)
2581  << " HCAL ENE " << hcalenergy
2582  << " ECAL ENE " << ecalenergy
2583  << " secPIN " << secpin
2584  << " Algo Track " << trkRef->algo() << std::endl;
2585  remove_this_kf = true;
2586  }
2587  } else {
2588  if(isHoHE){
2589  LOGDRESSED("PFEGammaAlgo")
2590  << "REJECTED TRACK FOR H/H+E, CLUSTER NOT IN SC"
2591  << " H/H+E " << (hcalenergy / hpluse)
2592  << " H/E " << (hcalenergy > ecalenergy)
2593  << " P/(H+E) " << (secpin/hpluse)
2594  << " HCAL ENE " << hcalenergy
2595  << " ECAL ENE " << ecalenergy
2596  << " secPIN " << secpin
2597  << " Algo Track " <<trkRef->algo() << std::endl;
2598  remove_this_kf = true;
2599  }
2600  }
2601  }
2602  }
2603  }
2604  if( remove_this_kf ) {
2605  secd_kf = RO.secondaryKFs.erase(secd_kf);
2606  if( secd_kf == RO.secondaryKFs.end() ) break;
2607  }
2608  }
2609 }
const PFClusterRef & clusterRef() const
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:20
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
bool isGoodForEGM(const reco::TrackBase::TrackAlgorithm &)
bool goodTrack(const reco::Track *pTrack, math::XYZPoint leadPV, trackSelectionParameters parameters, bool debug=false)
double f[11][100]
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
void PFEGammaAlgo::unlinkRefinableObjectKFandECALWithBadEoverP ( ProtoEGObject RO)
private

Definition at line 2431 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, funct::abs(), PFEGammaAlgo::ProtoEGObject::brems, SoftLeptonByDistance_cfi::distance, digitizers_cfi::ecal, PFEGammaAlgo::ProtoEGObject::ecalclusters, stringResolutionProvider_cfi::eta, f, spr::find(), reco::PFBlock::LINKTEST_ALL, PFEGammaAlgo::ProtoEGObject::localMap, LOGDRESSED, PFEGammaAlgo::ProtoEGObject::primaryGSFs, PFEGammaAlgo::ProtoEGObject::secondaryKFs, and unlinkRefinableObjectKFandECALMatchedToHCAL().

Referenced by buildAndRefineEGObjects(), and buildRefinedSuperCluster().

2431  {
2432  // this only means something for ROs with a primary GSF track
2433  if( !RO.primaryGSFs.size() ) return;
2434  // need energy sums to tell if we've added crap or not
2435  const double Pin_gsf = RO.primaryGSFs.front().first->GsftrackRef()->pMode();
2436  const double gsfOuterEta =
2437  RO.primaryGSFs.front().first->positionAtECALEntrance().Eta();
2438  double tot_ecal= 0.0;
2439  std::vector<double> min_brem_dists;
2440  std::vector<double> closest_brem_eta;
2441  // first get the total ecal energy (we should replace this with a cache)
2442  for( const auto& ecal : RO.ecalclusters ) {
2443  tot_ecal += ecal.first->clusterRef()->correctedEnergy();
2444  // we also need to look at the minimum distance to brems
2445  // since energetic brems will be closer to the brem than the track
2446  double min_brem_dist = 5000.0;
2447  double eta = -999.0;
2448  for( const auto& brem : RO.brems ) {
2449  const float dist = _currentblock->dist(brem.first->index(),
2450  ecal.first->index(),
2451  _currentlinks,
2453  if( dist < min_brem_dist && dist != -1.0f ) {
2454  min_brem_dist = dist;
2455  eta = brem.first->positionAtECALEntrance().Eta();
2456  }
2457  }
2458  min_brem_dists.push_back(min_brem_dist);
2459  closest_brem_eta.push_back(eta);
2460  }
2461 
2462  // loop through the ECAL clusters and remove ECAL clusters matched to
2463  // secondary track either in *or* out of the SC if the E/pin is bad
2464  for( auto secd_kf = RO.secondaryKFs.begin();
2465  secd_kf != RO.secondaryKFs.end(); ++secd_kf ) {
2466  reco::TrackRef trkRef = secd_kf->first->trackRef();
2467  const float secpin = secd_kf->first->trackRef()->p();
2468  bool remove_this_kf = false;
2469  for( auto ecal = RO.ecalclusters.begin();
2470  ecal != RO.ecalclusters.end(); ++ecal ) {
2471  size_t bremidx = std::distance(RO.ecalclusters.begin(),ecal);
2472  const float minbremdist = min_brem_dists[bremidx];
2473  const double ecalenergy = ecal->first->clusterRef()->correctedEnergy();
2474  const double Epin = ecalenergy/secpin;
2475  const double detaGsf =
2476  std::abs(gsfOuterEta - ecal->first->clusterRef()->positionREP().Eta());
2477  const double detaBrem =
2478  std::abs(closest_brem_eta[bremidx] -
2479  ecal->first->clusterRef()->positionREP().Eta());
2480 
2481  ElementMap::value_type check_match(ecal->first,secd_kf->first);
2482  auto kf_matched = std::find(RO.localMap.begin(),
2483  RO.localMap.end(),
2484  check_match);
2485 
2486  const float tkdist = _currentblock->dist(secd_kf->first->index(),
2487  ecal->first->index(),
2488  _currentlinks,
2490 
2491  // do not reject this track if it is closer to a brem than the
2492  // secondary track, or if it lies in the delta-eta plane with the
2493  // gsf track or if it is in the dEta plane with the brems
2494  if( Epin > 3 && kf_matched != RO.localMap.end() &&
2495  tkdist != -1.0f && tkdist < minbremdist &&
2496  detaGsf > 0.05 && detaBrem > 0.015) {
2497  double res_with = std::abs((tot_ecal-Pin_gsf)/Pin_gsf);
2498  double res_without = std::abs((tot_ecal-ecalenergy-Pin_gsf)/Pin_gsf);
2499  if(res_without < res_with) {
2500  LOGDRESSED("PFEGammaAlgo")
2501  << " REJECTED_RES totenergy " << tot_ecal
2502  << " Pin_gsf " << Pin_gsf
2503  << " cluster to secondary " << ecalenergy
2504  << " res_with " << res_with
2505  << " res_without " << res_without << std::endl;
2506  tot_ecal -= ecalenergy;
2507  remove_this_kf = true;
2508  ecal = RO.ecalclusters.erase(ecal);
2509  if( ecal == RO.ecalclusters.end() ) break;
2510  }
2511  }
2512  }
2513  if( remove_this_kf ) {
2514  secd_kf = RO.secondaryKFs.erase(secd_kf);
2515  if( secd_kf == RO.secondaryKFs.end() ) break;
2516  }
2517  }
2518 }
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:20
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
Abs< T >::type abs(const T &t)
Definition: Abs.h:22
double f[11][100]
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
bool PFEGammaAlgo::unwrapSuperCluster ( const reco::PFBlockElementSuperCluster thesc,
std::vector< PFClusterFlaggedElement > &  ecalclusters,
ClusterMap ecal2ps 
)
private

Definition at line 1114 of file PFEGammaAlgo.cc.

References _currentblock, _currentlinks, _splayedblock, attachPSClusters(), TauDecayModes::dec, SoftLeptonByDistance_cfi::distance, docast, reco::PFBlockElementCluster::Dump(), reco::PFBlockElementSuperCluster::Dump(), reco::PFBlockElement::ECAL, Exception, spr::find(), reco::PFBlockElementSuperCluster::fromPFSuperCluster(), edm::Ref< C, T, F >::get(), reco::PFBlockElement::HGCAL, edm::Ref< C, T, F >::isAvailable(), edm::Ref< C, T, F >::isNonnull(), LOGDRESSED, LOGERR, LOGVERB, and reco::PFBlockElementSuperCluster::superClusterRef().

Referenced by initializeProtoCands().

1116  {
1117  ecalclusters.clear();
1118  ecal2ps.clear();
1119  LOGVERB("PFEGammaAlgo")
1120  << "Pointer to SC element: 0x"
1121  << std::hex << thesc << std::dec << std::endl
1122  << "cleared ecalclusters and ecal2ps!" << std::endl;
1123  auto ecalbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1124  auto ecalend = _splayedblock[reco::PFBlockElement::ECAL].end();
1125  auto hgcalbegin = _splayedblock[reco::PFBlockElement::HGCAL].begin();
1126  auto hgcalend = _splayedblock[reco::PFBlockElement::HGCAL].end();
1127  if( ecalbegin == ecalend && hgcalbegin == hgcalend ) {
1128  LOGERR("PFEGammaAlgo::unwrapSuperCluster()")
1129  << "There are no ECAL elements in a block with imported SC!"
1130  << " This is a bug we should fix this!"
1131  << std::endl;
1132  return false;
1133  }
1134  reco::SuperClusterRef scref = thesc->superClusterRef();
1135  const bool is_pf_sc = thesc->fromPFSuperCluster();
1136  if( !(scref.isAvailable() && scref.isNonnull()) ) {
1137  throw cms::Exception("PFEGammaAlgo::unwrapSuperCluster()")
1138  << "SuperCluster pointed to by block element is null!"
1139  << std::endl;
1140  }
1141  LOGDRESSED("PFEGammaAlgo")
1142  << "Got a valid super cluster ref! 0x"
1143  << std::hex << scref.get() << std::dec << std::endl;
1144  const size_t nscclusters = scref->clustersSize();
1145  const size_t nscpsclusters = scref->preshowerClustersSize();
1146  size_t npfpsclusters = 0;
1147  size_t npfclusters = 0;
1148  LOGDRESSED("PFEGammaAlgo")
1149  << "Precalculated cluster multiplicities: "
1150  << nscclusters << ' ' << nscpsclusters << std::endl;
1151  NotCloserToOther<reco::PFBlockElement::SC,reco::PFBlockElement::ECAL>
1152  ecalClustersInSC(_currentblock,_currentlinks,thesc);
1153  NotCloserToOther<reco::PFBlockElement::SC,reco::PFBlockElement::HGCAL>
1154  hgcalClustersInSC(_currentblock,_currentlinks,thesc);
1155  auto ecalfirstnotinsc = std::partition(ecalbegin,ecalend,ecalClustersInSC);
1156  auto hgcalfirstnotinsc = std::partition(hgcalbegin,hgcalend,hgcalClustersInSC);
1157  //reset the begin and end iterators
1158  ecalbegin = _splayedblock[reco::PFBlockElement::ECAL].begin();
1159  ecalend = _splayedblock[reco::PFBlockElement::ECAL].end();
1160 
1161  hgcalbegin = _splayedblock[reco::PFBlockElement::HGCAL].begin();
1162  hgcalend = _splayedblock[reco::PFBlockElement::HGCAL].end();
1163 
1164  //get list of associated clusters by det id and energy matching
1165  //(only needed when using non-pf supercluster)
1166  std::vector<const ClusterElement*> safePFClusters = is_pf_sc ? std::vector<const ClusterElement*>() : getSCAssociatedECALsSafe(scref,_splayedblock[reco::PFBlockElement::ECAL]);
1167 
1168  if( ecalfirstnotinsc == ecalbegin &&
1169  hgcalfirstnotinsc == hgcalbegin) {
1170  LOGERR("PFEGammaAlgo::unwrapSuperCluster()")
1171  << "No associated block elements to SuperCluster!"
1172  << " This is a bug we should fix!"
1173  << std::endl;
1174  return false;
1175  }
1176  npfclusters = std::distance(ecalbegin,ecalfirstnotinsc) + std::distance(hgcalbegin,hgcalfirstnotinsc);
1177  // ensure we have found the correct number of PF ecal clusters in the case
1178  // that this is a PF supercluster, otherwise all bets are off
1179  if( is_pf_sc && nscclusters != npfclusters ) {
1180  std::stringstream sc_err;
1181  thesc->Dump(sc_err,"\t");
1182  throw cms::Exception("PFEGammaAlgo::unwrapSuperCluster()")
1183  << "The number of found ecal elements ("
1184  << nscclusters << ") in block is not the same as"
1185  << " the number of ecal PF clusters reported by the PFSuperCluster"
1186  << " itself (" << npfclusters
1187  << ")! This should not happen!" << std::endl
1188  << sc_err.str() << std::endl;
1189  }
1190  for( auto ecalitr = ecalbegin; ecalitr != ecalfirstnotinsc; ++ecalitr ) {
1191  const PFClusterElement* elemascluster =
1192  docast(const PFClusterElement*,ecalitr->first);
1193 
1194  // reject clusters that really shouldn't be associated to the SC
1195  // (only needed when using non-pf-supercluster)
1196  if(!is_pf_sc && std::find(safePFClusters.begin(),safePFClusters.end(),elemascluster) ==
1197  safePFClusters.end() ) continue;
1198 
1199  //add cluster
1200  ecalclusters.push_back(std::make_pair(elemascluster,true));
1201  //mark cluster as used
1202  ecalitr->second = false;
1203 
1204  // process the ES elements
1205  // auto is a pair<Iterator,bool> here, bool is false when placing fails
1206  auto emplaceresult = ecal2ps.emplace(elemascluster,
1207  ClusterMap::mapped_type());
1208  if( !emplaceresult.second ) {
1209  std::stringstream clus_err;
1210  elemascluster->Dump(clus_err,"\t");
1211  throw cms::Exception("PFEGammaAlgo::unwrapSuperCluster()")
1212  << "List of pointers to ECAL block elements contains non-unique items!"
1213  << " This is very bad!" << std::endl
1214  << "cluster ptr = 0x" << std::hex << elemascluster << std::dec
1215  << std::endl << clus_err.str() << std::endl;
1216  }
1217  ClusterMap::mapped_type& eslist = emplaceresult.first->second;
1218  npfpsclusters += attachPSClusters(elemascluster,eslist);
1219  } // loop over ecal elements
1220 
1221  for( auto hgcalitr = hgcalbegin; hgcalitr != hgcalfirstnotinsc; ++hgcalitr ) {
1222  const PFClusterElement* elemascluster =
1223  docast(const PFClusterElement*,hgcalitr->first);
1224 
1225  // reject clusters that really shouldn't be associated to the SC
1226  // (only needed when using non-pf-supercluster)
1227  if(!is_pf_sc && std::find(safePFClusters.begin(),safePFClusters.end(),elemascluster) ==
1228  safePFClusters.end() ) continue;
1229 
1230  //add cluster
1231  ecalclusters.push_back(std::make_pair(elemascluster,true));
1232  //mark cluster as used
1233  hgcalitr->second = false;
1234  } // loop over ecal elements
1235 
1236  /*
1237  if( is_pf_sc && nscpsclusters != npfpsclusters) {
1238  std::stringstream sc_err;
1239  thesc->Dump(sc_err,"\t");
1240  throw cms::Exception("PFEGammaAlgo::unwrapSuperCluster()")
1241  << "The number of found PF preshower elements ("
1242  << npfpsclusters << ") in block is not the same as"
1243  << " the number of preshower clusters reported by the PFSuperCluster"
1244  << " itself (" << nscpsclusters << ")! This should not happen!"
1245  << std::endl
1246  << sc_err.str() << std::endl;
1247  }
1248  */
1249 
1250  LOGDRESSED("PFEGammaAlgo")
1251  << " Unwrapped SC has " << npfclusters << " ECAL sub-clusters"
1252  << " and " << npfpsclusters << " PreShower layers 1 & 2 clusters!"
1253  << std::endl;
1254  return true;
1255  }
bool isAvailable() const
Definition: Ref.h:576
const SuperClusterRef & superClusterRef() const
bool isNonnull() const
Checks for non-null.
Definition: Ref.h:252
std::vector< std::vector< PFFlaggedElement > > _splayedblock
Definition: PFEGammaAlgo.h:204
void find(edm::Handle< EcalRecHitCollection > &hits, DetId thisDet, std::vector< EcalRecHitCollection::const_iterator > &hit, bool debug=false)
Definition: FindCaloHit.cc:20
reco::PFBlockRef _currentblock
Definition: PFEGammaAlgo.h:200
#define LOGERR(x)
Definition: PFEGammaAlgo.cc:53
#define LOGVERB(x)
Definition: PFEGammaAlgo.cc:51
#define LOGDRESSED(x)
Definition: PFEGammaAlgo.cc:54
T const * get() const
Returns C++ pointer to the item.
Definition: Ref.h:244
reco::PFBlockElementCluster PFClusterElement
Definition: PFEGammaAlgo.h:65
reco::PFBlock::LinkData _currentlinks
Definition: PFEGammaAlgo.h:201
#define docast(x, y)
Definition: PFEGammaAlgo.cc:50
void Dump(std::ostream &out=std::cout, const char *tab=" ") const
print the object inside the element
int attachPSClusters(const PFClusterElement *, ClusterMap::mapped_type &)

Member Data Documentation

reco::PFBlockRef PFEGammaAlgo::_currentblock
private
reco::PFBlock::LinkData PFEGammaAlgo::_currentlinks
private
reco::PFCandidateCollection PFEGammaAlgo::_finalCandidates
private

Definition at line 220 of file PFEGammaAlgo.h.

Referenced by buildAndRefineEGObjects().

ElementMap PFEGammaAlgo::_recoveredlinks
private

Definition at line 205 of file PFEGammaAlgo.h.

Referenced by buildAndRefineEGObjects(), and removeOrLinkECALClustersToKFTracks().

std::list<ProtoEGObject> PFEGammaAlgo::_refinableObjects
private
std::vector<std::vector<PFFlaggedElement> > PFEGammaAlgo::_splayedblock
private
std::vector<unsigned int> PFEGammaAlgo::AddFromElectron_
private

Definition at line 398 of file PFEGammaAlgo.h.

PFEGConfigInfo PFEGammaAlgo::cfg_
private
const ESChannelStatus* PFEGammaAlgo::channelStatus_
private

Definition at line 396 of file PFEGammaAlgo.h.

Referenced by buildRefinedSuperCluster(), and setESChannelStatus().

float PFEGammaAlgo::chi2
private

Definition at line 368 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

float PFEGammaAlgo::chi2_gsf
private

Definition at line 322 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::chi2_kf
private

Definition at line 322 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::Clus5x5ratio_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::ClusEta_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::ClusPhi_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::ClusR9_
private

Definition at line 374 of file PFEGammaAlgo.h.

std::vector< std::pair <unsigned int, unsigned int> > PFEGammaAlgo::convGsfTrack_
private

Definition at line 311 of file PFEGammaAlgo.h.

Referenced by RunPFEG().

float PFEGammaAlgo::CrysEta_
private

Definition at line 374 of file PFEGammaAlgo.h.

int PFEGammaAlgo::CrysIEta_
private

Definition at line 376 of file PFEGammaAlgo.h.

int PFEGammaAlgo::CrysIPhi_
private

Definition at line 376 of file PFEGammaAlgo.h.

float PFEGammaAlgo::CrysPhi_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::CrysX_
private

Definition at line 377 of file PFEGammaAlgo.h.

float PFEGammaAlgo::CrysY_
private

Definition at line 377 of file PFEGammaAlgo.h.

float PFEGammaAlgo::del_phi
private

Definition at line 368 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

float PFEGammaAlgo::dEta_
private

Definition at line 385 of file PFEGammaAlgo.h.

float PFEGammaAlgo::DEtaGsfEcalClust
private

Definition at line 329 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::dPhi_
private

Definition at line 385 of file PFEGammaAlgo.h.

float PFEGammaAlgo::dPtOverPt_gsf
private

Definition at line 322 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::DPtOverPt_gsf
private

Definition at line 322 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::DPtOverPt_kf
private

Definition at line 322 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::e1x3_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e1x5_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e2x5Bottom_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e2x5Left_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e2x5Max_
private

Definition at line 382 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e2x5Right_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e2x5Top_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e3x1_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e3x3_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::E3x3_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::e5x5Map[5][5]
private

Definition at line 371 of file PFEGammaAlgo.h.

float PFEGammaAlgo::earlyBrem
private

Definition at line 332 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::EB
private

Definition at line 378 of file PFEGammaAlgo.h.

float PFEGammaAlgo::ebottom_
private

Definition at line 381 of file PFEGammaAlgo.h.

edm::Handle<reco::PFCluster::EEtoPSAssociation> PFEGammaAlgo::eetops_
private

Definition at line 199 of file PFEGammaAlgo.h.

Referenced by attachPSClusters(), and setEEtoPSAssociation().

reco::PFCandidateCollection PFEGammaAlgo::egCandidate_
private

Definition at line 400 of file PFEGammaAlgo.h.

Referenced by isEGValidCandidate(), and RunPFEG().

reco::PFCandidateEGammaExtraCollection PFEGammaAlgo::egExtra_
private

Definition at line 404 of file PFEGammaAlgo.h.

Referenced by RunPFEG().

float PFEGammaAlgo::EGsfPoutMode
private

Definition at line 328 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::eleft_
private

Definition at line 381 of file PFEGammaAlgo.h.

float PFEGammaAlgo::EoverPt
private

Definition at line 368 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

float PFEGammaAlgo::eright_
private

Definition at line 381 of file PFEGammaAlgo.h.

float PFEGammaAlgo::eSeed_
private

Definition at line 380 of file PFEGammaAlgo.h.

float PFEGammaAlgo::Eta_gsf
private

Definition at line 319 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::etop_
private

Definition at line 381 of file PFEGammaAlgo.h.

float PFEGammaAlgo::EtotBremPinPoutMode
private

Definition at line 328 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::EtotPinMode
private

Definition at line 328 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::excluded_
private

Definition at line 395 of file PFEGammaAlgo.h.

std::vector< std::pair <unsigned int, unsigned int> > PFEGammaAlgo::fifthStepKfTrack_
private

Definition at line 310 of file PFEGammaAlgo.h.

Referenced by RunPFEG().

float PFEGammaAlgo::firstBrem
private

Definition at line 332 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

std::vector<bool> PFEGammaAlgo::GsfTrackSingleEcal_
private

Definition at line 309 of file PFEGammaAlgo.h.

float PFEGammaAlgo::HOverHE
private

Definition at line 333 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::HOverPin
private

Definition at line 333 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::HoverPt
private

Definition at line 368 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

bool PFEGammaAlgo::isvalid_
private

Definition at line 335 of file PFEGammaAlgo.h.

float PFEGammaAlgo::lateBrem
private

Definition at line 332 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::lnPt_gsf
private

Definition at line 319 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

std::vector<bool> PFEGammaAlgo::lockExtraKf_
private

Definition at line 308 of file PFEGammaAlgo.h.

float PFEGammaAlgo::logPFClusE_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::LowClusE_
private

Definition at line 385 of file PFEGammaAlgo.h.

std::vector<int> PFEGammaAlgo::match_ind
private

Definition at line 363 of file PFEGammaAlgo.h.

float PFEGammaAlgo::Mustache_Et_out_
private

Definition at line 395 of file PFEGammaAlgo.h.

float PFEGammaAlgo::Mustache_EtRatio_
private

Definition at line 395 of file PFEGammaAlgo.h.

float PFEGammaAlgo::MustE_
private

Definition at line 384 of file PFEGammaAlgo.h.

double PFEGammaAlgo::mvaValue
private

Definition at line 369 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

const char* PFEGammaAlgo::mvaWeightFile_
private

Definition at line 315 of file PFEGammaAlgo.h.

float PFEGammaAlgo::nhit_gsf
private

Definition at line 325 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::nhit_kf
private

Definition at line 325 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::nlayers
private

Definition at line 367 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

float PFEGammaAlgo::nlost
private

Definition at line 367 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

float PFEGammaAlgo::nPFClus_
private

Definition at line 385 of file PFEGammaAlgo.h.

float PFEGammaAlgo::nVtx_
private

Definition at line 387 of file PFEGammaAlgo.h.

Referenced by setnPU().

reco::PFCandidateCollection PFEGammaAlgo::outcands_
private

Definition at line 193 of file PFEGammaAlgo.h.

Referenced by buildAndRefineEGObjects(), and getCandidates().

reco::PFCandidateEGammaExtraCollection PFEGammaAlgo::outcandsextra_
private

Definition at line 194 of file PFEGammaAlgo.h.

Referenced by buildAndRefineEGObjects(), and getEGExtra().

std::vector< reco::PFCandidate > PFEGammaAlgo::permElectronCandidates_
private

Definition at line 366 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFCrysEtaCrack_
private

Definition at line 374 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoE_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoECorr_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoEt_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoEta_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoEtCorr_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoPhi_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoR9_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::PFPhoR9Corr_
private

Definition at line 384 of file PFEGammaAlgo.h.

const reco::Vertex* PFEGammaAlgo::primaryVertex_
private

Definition at line 348 of file PFEGammaAlgo.h.

float PFEGammaAlgo::RConv_
private

Definition at line 384 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderGC_
private

Definition at line 351 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderGCEB_
private

Definition at line 356 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderGCEEhR9_
private

Definition at line 357 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderGCEElR9_
private

Definition at line 358 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderLC_
private

Definition at line 350 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderLCEB_
private

Definition at line 354 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderLCEE_
private

Definition at line 355 of file PFEGammaAlgo.h.

const GBRForest* PFEGammaAlgo::ReaderRes_
private

Definition at line 352 of file PFEGammaAlgo.h.

reco::SuperClusterCollection PFEGammaAlgo::refinedscs_
private

Definition at line 195 of file PFEGammaAlgo.h.

Referenced by fillPFCandidates(), and getRefinedSCs().

float PFEGammaAlgo::RMSAll_
private

Definition at line 385 of file PFEGammaAlgo.h.

float PFEGammaAlgo::RMSMust_
private

Definition at line 385 of file PFEGammaAlgo.h.

float PFEGammaAlgo::SCEtaWidth_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::SCPhiWidth_
private

Definition at line 384 of file PFEGammaAlgo.h.

float PFEGammaAlgo::SigmaEtaEta
private

Definition at line 330 of file PFEGammaAlgo.h.

Referenced by calculate_ele_mva().

float PFEGammaAlgo::STIP
private

Definition at line 368 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

double PFEGammaAlgo::sumPtTrackIsoForPhoton_
private

Definition at line 361 of file PFEGammaAlgo.h.

double PFEGammaAlgo::sumPtTrackIsoSlopeForPhoton_
private

Definition at line 362 of file PFEGammaAlgo.h.

float PFEGammaAlgo::TotPS1_
private

Definition at line 386 of file PFEGammaAlgo.h.

float PFEGammaAlgo::TotPS2_
private

Definition at line 386 of file PFEGammaAlgo.h.

float PFEGammaAlgo::track_pt
private

Definition at line 368 of file PFEGammaAlgo.h.

Referenced by EvaluateSingleLegMVA().

verbosityLevel PFEGammaAlgo::verbosityLevel_
private

Definition at line 342 of file PFEGammaAlgo.h.

Referenced by RunPFEG().

float PFEGammaAlgo::VtxZ_
private

Definition at line 374 of file PFEGammaAlgo.h.

TH2D* PFEGammaAlgo::X0_inner
private

Definition at line 390 of file PFEGammaAlgo.h.

Referenced by PFEGammaAlgo().

TH2D* PFEGammaAlgo::X0_middle
private

Definition at line 391 of file PFEGammaAlgo.h.

Referenced by PFEGammaAlgo().

TH2D* PFEGammaAlgo::X0_outer
private

Definition at line 392 of file PFEGammaAlgo.h.

Referenced by PFEGammaAlgo().

TH2D* PFEGammaAlgo::X0_sum
private

Definition at line 389 of file PFEGammaAlgo.h.

Referenced by PFEGammaAlgo().

float PFEGammaAlgo::x0inner_
private

Definition at line 393 of file PFEGammaAlgo.h.

float PFEGammaAlgo::x0middle_
private

Definition at line 393 of file PFEGammaAlgo.h.

float PFEGammaAlgo::x0outer_
private

Definition at line 393 of file PFEGammaAlgo.h.