33 string mvaWeightFileEleID,
34 const boost::shared_ptr<PFSCEnergyCalibration>& thePFSCEnergyCalibration,
35 const boost::shared_ptr<PFEnergyCalibration>& thePFEnergyCalibration,
36 bool applyCrackCorrections,
39 bool useEGammaSupercluster,
40 double sumEtEcalIsoForEgammaSC_barrel,
41 double sumEtEcalIsoForEgammaSC_endcap,
42 double coneEcalIsoForEgammaSC,
43 double sumPtTrackIsoForEgammaSC_barrel,
44 double sumPtTrackIsoForEgammaSC_endcap,
45 unsigned int nTrackIsoForEgammaSC,
46 double coneTrackIsoForEgammaSC):
47 mvaEleCut_(mvaEleCut),
48 thePFSCEnergyCalibration_(thePFSCEnergyCalibration),
49 thePFEnergyCalibration_(thePFEnergyCalibration),
50 applyCrackCorrections_(applyCrackCorrections),
51 usePFSCEleCalib_(usePFSCEleCalib),
52 useEGElectrons_(useEGElectrons),
53 useEGammaSupercluster_(useEGammaSupercluster),
54 sumEtEcalIsoForEgammaSC_barrel_(sumEtEcalIsoForEgammaSC_barrel),
55 sumEtEcalIsoForEgammaSC_endcap_(sumEtEcalIsoForEgammaSC_endcap),
56 coneEcalIsoForEgammaSC_(coneEcalIsoForEgammaSC),
57 sumPtTrackIsoForEgammaSC_barrel_(sumPtTrackIsoForEgammaSC_barrel),
58 sumPtTrackIsoForEgammaSC_endcap_(sumPtTrackIsoForEgammaSC_endcap),
59 nTrackIsoForEgammaSC_(nTrackIsoForEgammaSC),
60 coneTrackIsoForEgammaSC_(coneTrackIsoForEgammaSC)
82 tmvaReader_->BookMVA(
"BDT",mvaWeightFileEleID.c_str());
85 std::vector<bool>& active,
102 bool blockHasGSF =
SetLinks(blockRef,associatedToGsf,
103 associatedToBrems,associatedToEcal,
104 active, primaryVertex);
113 BDToutput_.assign(associatedToGsf.size(),-1.);
117 SetIDOutputs(blockRef,associatedToGsf,associatedToBrems,associatedToEcal,primaryVertex);
122 SetCandidates(blockRef,associatedToGsf,associatedToBrems,associatedToEcal);
127 SetActive(blockRef,associatedToGsf,associatedToBrems,associatedToEcal,active);
133 AssMap& associatedToBrems_,
134 AssMap& associatedToEcal_,
135 std::vector<bool>& active,
137 unsigned int CutIndex = 100000;
138 double CutGSFECAL = 10000. ;
141 bool DebugSetLinksSummary =
false;
142 bool DebugSetLinksDetailed =
false;
148 bool IsThereAGSFTrack =
false;
149 bool IsThereAGoodGSFTrack =
false;
151 vector<unsigned int> trackIs(0);
152 vector<unsigned int> gsfIs(0);
153 vector<unsigned int> ecalIs(0);
155 std::vector<bool> localactive(elements.
size(),
true);
159 std::multimap<double, unsigned int> kfElems;
160 for(
unsigned int iEle=0; iEle<elements.
size(); iEle++) {
161 localactive[iEle] = active[iEle];
162 bool thisIsAMuon =
false;
165 case PFBlockElement::TRACK:
169 if ( !thisIsAMuon && active[iEle] ) {
170 trackIs.push_back( iEle );
171 if (DebugSetLinksDetailed)
172 cout<<
"TRACK, stored index, continue "<< iEle << endl;
175 case PFBlockElement::GSF:
181 thisIsAMuon = kfElems.size() ?
184 if ( !thisIsAMuon && active[iEle] ) {
185 IsThereAGSFTrack =
true;
186 gsfIs.push_back( iEle );
187 if (DebugSetLinksDetailed)
188 cout<<
"GSF, stored index, continue "<< iEle << endl;
192 if ( active[iEle] ) {
193 ecalIs.push_back( iEle );
194 if (DebugSetLinksDetailed)
195 cout<<
"ECAL, stored index, continue "<< iEle << endl;
204 if(IsThereAGSFTrack) {
215 if (DebugSetLinksDetailed) {
216 cout<<
"#########################################################"<<endl;
217 cout<<
"##### Process Block: #####"<<endl;
218 cout<<
"#########################################################"<<endl;
223 for(
unsigned int iEle=0; iEle<trackIs.size(); iEle++) {
224 std::multimap<double, unsigned int> gsfElems;
229 if(gsfElems.size() == 0){
232 std::multimap<double, unsigned int> ecalKfElems;
237 if(ecalKfElems.size() > 0) {
238 unsigned int ecalKf_index = ecalKfElems.begin()->second;
239 if(localactive[ecalKf_index]==
true) {
243 bool isGsfLinked =
false;
244 for(
unsigned int iGsf=0; iGsf<gsfIs.size(); iGsf++) {
252 std::multimap<double, unsigned int> ecalGsfElems;
257 if(ecalGsfElems.size() > 0) {
258 if (ecalGsfElems.begin()->second == ecalKf_index) {
263 if(isGsfLinked ==
false) {
270 int nexhits = refKf->trackerExpectedHitsInner().numberOfLostHits();
272 unsigned int Algo = 0;
274 Algo = refKf->algo();
276 bool trackIsFromPrimaryVertex =
false;
278 if ( (*trackIt).castTo<
TrackRef>() == refKf ) {
279 trackIsFromPrimaryVertex =
true;
284 if(Algo < 9 && nexhits == 0 && trackIsFromPrimaryVertex) {
285 localactive[ecalKf_index] =
false;
297 for(
unsigned int iEle=0; iEle<gsfIs.size(); iEle++) {
299 if (!localactive[(gsfIs[iEle])])
continue;
301 localactive[gsfIs[iEle]] =
false;
302 bool ClosestEcalWithKf =
false;
304 if (DebugSetLinksDetailed)
cout <<
" Gsf Index " << gsfIs[iEle] << endl;
311 IsThereAGoodGSFTrack =
true;
313 float etaOut_gsf = GsfEl->
Pout().eta();
314 float diffOutEcalEta = fabs(eta_gsf-etaOut_gsf);
316 float Pin_gsf = 0.01;
318 Pin_gsf = RefGSF->pMode();
322 unsigned int KfGsf_index = CutIndex;
323 unsigned int KfGsf_secondIndex = CutIndex;
324 std::multimap<double, unsigned int> kfElems;
329 std::multimap<double, unsigned int> ecalKfElems;
330 if (kfElems.size() > 0) {
334 for(std::multimap<double, unsigned int>::iterator itkf = kfElems.begin();
335 itkf != kfElems.end(); ++itkf) {
343 if(localactive[itkf->second] ==
true) {
345 KfGsf_index = itkf->second;
346 localactive[KfGsf_index] =
false;
354 KfGsf_secondIndex = itkf->second;
360 std::multimap<double, unsigned int> ecalGsfElems;
365 double ecalGsf_dist = CutGSFECAL;
366 unsigned int ClosestEcalGsf_index = CutIndex;
367 if (ecalGsfElems.size() > 0) {
368 if(localactive[(ecalGsfElems.begin()->second)] ==
true) {
370 bool compatibleEPout =
true;
371 if(diffOutEcalEta > 0.3) {
372 reco::PFClusterRef clusterRef = elements[(ecalGsfElems.begin()->second)].clusterRef();
373 float EoPout = (clusterRef->energy())/(GsfEl->
Pout().t());
375 compatibleEPout =
false;
377 if(compatibleEPout) {
378 ClosestEcalGsf_index = ecalGsfElems.begin()->second;
379 ecalGsf_dist = block.
dist(gsfIs[iEle],ClosestEcalGsf_index,
384 std::multimap<double, unsigned int> ecalOtherGsfElems;
390 if(ecalOtherGsfElems.size()>0) {
395 if(ecalOtherGsfElems.begin()->second != gsfIs[iEle]&&
397 ecalGsf_dist = CutGSFECAL;
398 ClosestEcalGsf_index = CutIndex;
406 else if(ecalKfElems.size() > 0) {
407 if(localactive[(ecalKfElems.begin()->second)] ==
true) {
408 ClosestEcalGsf_index = ecalKfElems.begin()->second;
409 ecalGsf_dist = block.
dist(gsfIs[iEle],ClosestEcalGsf_index,
411 ClosestEcalWithKf =
true;
414 std::multimap<double, unsigned int> ecalOtherGsfElems;
419 if(ecalOtherGsfElems.size() > 0) {
423 if(ecalOtherGsfElems.begin()->second != gsfIs[iEle] &&
425 ecalGsf_dist = CutGSFECAL;
426 ClosestEcalGsf_index = CutIndex;
427 ClosestEcalWithKf =
false;
433 if (DebugSetLinksDetailed)
434 cout <<
" Closest Ecal to the Gsf/Kf: index " << ClosestEcalGsf_index
435 <<
" dist " << ecalGsf_dist << endl;
440 std::multimap<double, unsigned int> bremElems;
447 multimap<unsigned int,unsigned int> cleanedEcalBremElems;
448 vector<unsigned int> keyBremIndex(0);
449 unsigned int latestBrem_trajP = 0;
450 unsigned int latestBrem_index = CutIndex;
451 for(std::multimap<double, unsigned int>::iterator ieb = bremElems.begin();
452 ieb != bremElems.end(); ++ieb ) {
453 unsigned int brem_index = ieb->second;
454 if(localactive[brem_index] ==
false)
continue;
458 std::multimap<double, unsigned int> ecalBremsElems;
465 for (std::multimap<double, unsigned int>::iterator ie = ecalBremsElems.begin();
466 ie != ecalBremsElems.end();ie++) {
467 unsigned int ecalBrem_index = ie->second;
468 if(localactive[ecalBrem_index] ==
false)
continue;
471 float ecalBrem_dist = block.
dist(brem_index,ecalBrem_index,
475 if (ecalBrem_index == ClosestEcalGsf_index && (ecalBrem_dist + 0.0012) > ecalGsf_dist)
continue;
478 std::multimap<double, unsigned int> sortedBremElems;
484 bool isGoodBrem =
false;
485 unsigned int sortedBrem_index = CutIndex;
486 for (std::multimap<double, unsigned int>::iterator ibs = sortedBremElems.begin();
487 ibs != sortedBremElems.end();ibs++) {
488 unsigned int temp_sortedBrem_index = ibs->second;
489 std::multimap<double, unsigned int> sortedGsfElems;
494 bool enteredInPrimaryGsf =
false;
495 for (std::multimap<double, unsigned int>::iterator igs = sortedGsfElems.begin();
496 igs != sortedGsfElems.end();igs++) {
501 if(igs->second == gsfIs[iEle]) {
503 sortedBrem_index = temp_sortedBrem_index;
505 enteredInPrimaryGsf =
true;
509 if(enteredInPrimaryGsf)
517 std::multimap<double, unsigned int> ecalOtherGsfElems;
522 if (ecalOtherGsfElems.size() > 0) {
525 if(ecalOtherGsfElems.begin()->second != gsfIs[iEle] &&
535 elements[ecalBrem_index].clusterRef();
541 if(sortedBremEcal_deta < 0.015) {
543 cleanedEcalBremElems.insert(pair<unsigned int,unsigned int>(sortedBrem_index,ecalBrem_index));
546 if (BremTrajP > latestBrem_trajP) {
547 latestBrem_trajP = BremTrajP;
548 latestBrem_index = sortedBrem_index;
550 if (DebugSetLinksDetailed)
551 cout <<
" brem Index " << sortedBrem_index
552 <<
" associated cluster " << ecalBrem_index <<
" BremTrajP " << BremTrajP <<endl;
557 localactive[ecalBrem_index] =
false;
558 bool alreadyfound =
false;
559 for(
unsigned int ii=0;
ii<keyBremIndex.size();
ii++) {
560 if (sortedBrem_index == keyBremIndex[
ii]) alreadyfound =
true;
562 if (alreadyfound ==
false) {
563 keyBremIndex.push_back(sortedBrem_index);
564 localactive[sortedBrem_index] =
false;
573 vector<unsigned int> GsfElemIndex(0);
574 vector<unsigned int> EcalIndex(0);
577 if (ClosestEcalGsf_index < CutIndex) {
578 GsfElemIndex.push_back(ClosestEcalGsf_index);
579 localactive[ClosestEcalGsf_index] =
false;
580 for (std::multimap<double, unsigned int>::iterator
ii = ecalGsfElems.begin();
581 ii != ecalGsfElems.end();
ii++) {
582 if(localactive[
ii->second]) {
584 std::multimap<double, unsigned int> ecalOtherGsfElems;
589 if(ecalOtherGsfElems.size()) {
590 if(ecalOtherGsfElems.begin()->second != gsfIs[iEle])
continue;
595 float etacl = clusterRef->eta();
596 if( fabs(eta_gsf-etacl) < 0.05) {
597 GsfElemIndex.push_back(
ii->second);
598 localactive[
ii->second] =
false;
599 if (DebugSetLinksDetailed)
600 cout <<
" ExtraCluster From Gsf " <<
ii->second << endl;
637 if(GsfElemIndex.size() == 0){
638 if(latestBrem_index < CutIndex) {
639 unsigned int ckey = cleanedEcalBremElems.count(latestBrem_index);
641 unsigned int temp_cal =
642 cleanedEcalBremElems.find(latestBrem_index)->second;
643 GsfElemIndex.push_back(temp_cal);
644 if (DebugSetLinksDetailed)
645 cout <<
"******************** Gsf Cluster From Brem " << temp_cal
646 <<
" Latest Brem index " << latestBrem_index
647 <<
" ************************* " << endl;
650 pair<multimap<unsigned int,unsigned int>::iterator,multimap<unsigned int,unsigned int>::iterator>
ret;
651 ret = cleanedEcalBremElems.equal_range(latestBrem_index);
652 multimap<unsigned int,unsigned int>::iterator it;
653 for(it=ret.first; it!=ret.second; ++it) {
654 GsfElemIndex.push_back((*it).second);
655 if (DebugSetLinksDetailed)
656 cout <<
"******************** Gsf Cluster From Brem " << (*it).second
657 <<
" Latest Brem index " << latestBrem_index
658 <<
" ************************* " << endl;
662 unsigned int elToErase = 0;
663 for(
unsigned int i = 0;
i<keyBremIndex.size();
i++) {
664 if(latestBrem_index == keyBremIndex[
i]) {
668 keyBremIndex.erase(keyBremIndex.begin()+elToErase);
676 for(
unsigned int iConv=0; iConv<gsfIs.size(); iConv++) {
684 if (DebugSetLinksDetailed)
685 cout <<
" PFElectronAlgo:: I'm running on convGsfBrem " << endl;
687 float conv_dist = block.
dist(gsfIs[iConv],gsfIs[iEle],
692 std::multimap<double, unsigned int> ecalConvElems;
697 if(ecalConvElems.size() > 0) {
699 if(localactive[(ecalConvElems.begin()->second)] ==
true) {
700 if (DebugSetLinksDetailed)
701 cout <<
" PFElectronAlgo:: convGsfBrem has a ECAL cluster linked and free" << endl;
703 std::multimap<double, unsigned int> ecalOtherGsfPrimElems;
705 ecalOtherGsfPrimElems,
708 if(ecalOtherGsfPrimElems.size()>0) {
709 unsigned int gsfprimcheck_index = ecalOtherGsfPrimElems.begin()->second;
715 if (DebugSetLinksDetailed)
716 cout <<
" PFElectronAlgo: !!!!!!! convGsfBrem ECAL cluster has been stored !!!!!!! "
717 <<
" Energy " << clusterRef->energy() <<
" eta,phi " << clusterRef->position().eta()
718 <<
", " << clusterRef->position().phi() << endl;
720 GsfElemIndex.push_back(ecalConvElems.begin()->second);
721 convGsfTrack_.push_back(make_pair(ecalConvElems.begin()->second,gsfIs[iConv]));
722 localactive[ecalConvElems.begin()->second] =
false;
734 EcalIndex.insert(EcalIndex.end(),GsfElemIndex.begin(),GsfElemIndex.end());
739 for(
unsigned int i =0;
i<keyBremIndex.size();
i++) {
740 unsigned int ikey = keyBremIndex[
i];
741 unsigned int ckey = cleanedEcalBremElems.count(ikey);
742 vector<unsigned int> BremElemIndex(0);
744 unsigned int temp_cal =
745 cleanedEcalBremElems.find(ikey)->second;
746 BremElemIndex.push_back(temp_cal);
749 pair<multimap<unsigned int,unsigned int>::iterator,multimap<unsigned int,unsigned int>::iterator>
ret;
750 ret = cleanedEcalBremElems.equal_range(ikey);
751 multimap<unsigned int,unsigned int>::iterator it;
752 for(it=ret.first; it!=ret.second; ++it) {
753 BremElemIndex.push_back((*it).second);
756 EcalIndex.insert(EcalIndex.end(),BremElemIndex.begin(),BremElemIndex.end());
757 associatedToBrems_.insert(pair<
unsigned int,vector<unsigned int> >(ikey,BremElemIndex));
762 vector<unsigned int> convBremKFTrack;
763 convBremKFTrack.clear();
764 if (kfElems.size() > 0) {
765 for(std::multimap<double, unsigned int>::iterator itkf = kfElems.begin();
766 itkf != kfElems.end(); ++itkf) {
774 std::multimap<double, unsigned int> ecalConvElems;
779 if(ecalConvElems.size() > 0) {
785 float secpin = trkRef->p();
789 float eneclust =clust->
clusterRef()->energy();
795 std::multimap<double, unsigned int> hcalConvElems;
805 float enehcalclust = -1;
806 if(hcalConvElems.size() > 0) {
809 enehcalclust =clusthcal->
clusterRef()->energy();
811 if( (enehcalclust / (enehcalclust+eneclust) ) > 0.1 && Algo < 3) {
813 if(enehcalclust > eneclust)
815 if(secpin > (enehcalclust+eneclust) )
821 if(localactive[(ecalConvElems.begin()->second)] ==
false) {
823 if(isHoE || isPoHE) {
824 if (DebugSetLinksDetailed)
825 cout <<
"PFElectronAlgo:: LOCKED ECAL REJECTED TRACK FOR H/E or P/(H+E) "
826 <<
" H/H+E " << enehcalclust/(enehcalclust+eneclust)
827 <<
" H/E " << enehcalclust/eneclust
828 <<
" P/(H+E) " << secpin/(enehcalclust+eneclust)
829 <<
" HCAL ENE " << enehcalclust
830 <<
" ECAL ENE " << eneclust
831 <<
" secPIN " << secpin
832 <<
" Algo Track " << Algo << endl;
837 for(
unsigned int iecal =0; iecal < EcalIndex.size(); iecal++) {
840 if(EcalIndex[iecal] == ecalConvElems.begin()->second) {
841 if (DebugSetLinksDetailed)
842 cout <<
" PFElectronAlgo:: Conv Brem Recovery locked cluster and I will lock also the KF track " << endl;
843 convBremKFTrack.push_back(itkf->second);
852 if (DebugSetLinksDetailed)
853 cout <<
"PFElectronAlgo:: FREE ECAL REJECTED TRACK FOR H/H+E "
854 <<
" H/H+E " << (enehcalclust / (enehcalclust+eneclust) )
855 <<
" H/E " << enehcalclust/eneclust
856 <<
" P/(H+E) " << secpin/(enehcalclust+eneclust)
857 <<
" HCAL ENE " << enehcalclust
858 <<
" ECAL ENE " << eneclust
859 <<
" secPIN " << secpin
860 <<
" Algo Track " << Algo << endl;
865 std::multimap<double, unsigned int> ecalOtherKFPrimElems;
867 ecalOtherKFPrimElems,
870 if(ecalOtherKFPrimElems.size() > 0) {
874 bool isFromGSF =
false;
875 for(std::multimap<double, unsigned int>::iterator itclos = kfElems.begin();
876 itclos != kfElems.end(); ++itclos) {
877 if(ecalOtherKFPrimElems.begin()->second == itclos->second) {
887 float Epin = eneclust/secpin;
890 float totenergy = 0.;
891 for(
unsigned int ikeyecal = 0;
892 ikeyecal<EcalIndex.size(); ikeyecal++){
894 bool foundcluster =
false;
896 for(
unsigned int i2 = 0; i2<ikeyecal-1; i2++) {
897 if(EcalIndex[ikeyecal] == EcalIndex[i2])
901 if(foundcluster)
continue;
904 totenergy += clusasso->
clusterRef()->energy();
909 if(totenergy == 0.) {
910 if (DebugSetLinksDetailed)
911 cout <<
"PFElectronAlgo:: REJECTED_NULLTOT totenergy " << totenergy << endl;
917 double res_before = fabs((totenergy-Pin_gsf)/Pin_gsf);
918 double res_after = fabs(((totenergy+eneclust)-Pin_gsf)/Pin_gsf);
920 if(res_before < res_after) {
921 if (DebugSetLinksDetailed)
922 cout <<
"PFElectronAlgo::REJECTED_RES totenergy " << totenergy <<
" Pin_gsf " << Pin_gsf <<
" cluster to secondary " << eneclust
923 <<
" Res before " << res_before <<
" res_after " << res_after << endl;
928 if (DebugSetLinksDetailed)
929 cout <<
"PFElectronAlgo:: conv brem found asso to ECAL linked to a secondary KF " << endl;
930 convBremKFTrack.push_back(itkf->second);
931 GsfElemIndex.push_back(ecalConvElems.begin()->second);
932 EcalIndex.push_back(ecalConvElems.begin()->second);
933 localactive[(ecalConvElems.begin()->second)] =
false;
934 localactive[(itkf->second)] =
false;
945 double sumEtEcalInTheCone = 0.;
950 double PhiFC = clust->
clusterRef()->position().Phi();
951 double EtaFC = clust->
clusterRef()->position().Eta();
954 for(
unsigned int iEcal=0; iEcal<ecalIs.size(); iEcal++) {
955 bool foundcluster =
false;
956 for(
unsigned int ikeyecal = 0;
957 ikeyecal<EcalIndex.size(); ikeyecal++){
958 if(ecalIs[iEcal] == EcalIndex[ikeyecal])
963 if(foundcluster ==
false) {
966 double eta_clust = clustExt->
clusterRef()->position().Eta();
967 double phi_clust = clustExt->
clusterRef()->position().Phi();
968 double theta_clust = clustExt->
clusterRef()->position().Theta();
969 double deta_clust = eta_clust - EtaFC;
970 double dphi_clust = phi_clust - PhiFC;
971 if ( dphi_clust < -
M_PI )
972 dphi_clust = dphi_clust + 2.*
M_PI;
973 else if ( dphi_clust >
M_PI )
974 dphi_clust = dphi_clust - 2.*
M_PI;
975 double DR =
sqrt(deta_clust*deta_clust+
976 dphi_clust*dphi_clust);
980 vector<double> ps1Ene(0);
981 vector<double> ps2Ene(0);
985 double ET_calib = EE_calib*
sin(theta_clust);
986 sumEtEcalInTheCone += ET_calib;
992 unsigned int sumNTracksInTheCone = 0;
993 double sumPtTracksInTheCone = 0.;
994 for(
unsigned int iTrack=0; iTrack<trackIs.size(); iTrack++) {
996 if(localactive[(trackIs[iTrack])]==
true) {
1001 double deta_trk = trkref->eta() - RefGSF->etaMode();
1002 double dphi_trk = trkref->phi() - RefGSF->phiMode();
1003 if ( dphi_trk < -
M_PI )
1004 dphi_trk = dphi_trk + 2.*
M_PI;
1005 else if ( dphi_trk >
M_PI )
1006 dphi_trk = dphi_trk - 2.*
M_PI;
1007 double DR =
sqrt(deta_trk*deta_trk+
1013 if(DR < coneTrackIsoForEgammaSC_ && NValPixelHit >=3) {
1014 sumNTracksInTheCone++;
1015 sumPtTracksInTheCone+=trkref->pt();
1022 bool isBarrelIsolated =
false;
1023 if( fabs(EtaFC < 1.478) &&
1026 isBarrelIsolated =
true;
1029 bool isEndcapIsolated =
false;
1030 if( fabs(EtaFC >= 1.478) &&
1033 isEndcapIsolated =
true;
1037 if(DebugSetLinksDetailed) {
1038 if(fabs(EtaFC < 1.478) && isBarrelIsolated ==
false) {
1039 cout <<
"**** PFElectronAlgo:: SUPERCLUSTER FOUND BUT FAILS ISOLATION:BARREL *** "
1040 <<
" sumEtEcalInTheCone " <<sumEtEcalInTheCone
1041 <<
" sumNTracksInTheCone " << sumNTracksInTheCone
1042 <<
" sumPtTracksInTheCone " << sumPtTracksInTheCone << endl;
1044 if(fabs(EtaFC >= 1.478) && isEndcapIsolated ==
false) {
1045 cout <<
"**** PFElectronAlgo:: SUPERCLUSTER FOUND BUT FAILS ISOLATION:ENDCAP *** "
1046 <<
" sumEtEcalInTheCone " <<sumEtEcalInTheCone
1047 <<
" sumNTracksInTheCone " << sumNTracksInTheCone
1048 <<
" sumPtTracksInTheCone " << sumPtTracksInTheCone << endl;
1055 if(isBarrelIsolated || isEndcapIsolated ) {
1059 double totenergy = 0.;
1060 for(
unsigned int ikeyecal = 0;
1061 ikeyecal<EcalIndex.size(); ikeyecal++){
1063 bool foundcluster =
false;
1065 for(
unsigned int i2 = 0; i2<ikeyecal-1; i2++) {
1066 if(EcalIndex[ikeyecal] == EcalIndex[i2])
1067 foundcluster =
true;;
1070 if(foundcluster)
continue;
1073 totenergy += clusasso->
clusterRef()->energy();
1079 for(
unsigned int ikeyecal = 0;
1080 ikeyecal<EcalIndex.size(); ikeyecal++){
1082 bool foundcluster =
false;
1084 for(
unsigned int i2 = 0; i2<ikeyecal-1; i2++) {
1085 if(EcalIndex[ikeyecal] == EcalIndex[i2])
1086 foundcluster =
true;
1089 if(foundcluster)
continue;
1092 std::multimap<double, unsigned int> ecalFromSuperClusterElems;
1094 ecalFromSuperClusterElems,
1097 if(ecalFromSuperClusterElems.size() > 0) {
1098 for(std::multimap<double, unsigned int>::iterator itsc = ecalFromSuperClusterElems.begin();
1099 itsc != ecalFromSuperClusterElems.end(); ++itsc) {
1100 if(localactive[itsc->second] ==
false) {
1104 std::multimap<double, unsigned int> ecalOtherKFPrimElems;
1106 ecalOtherKFPrimElems,
1109 if(ecalOtherKFPrimElems.size() > 0) {
1110 if(localactive[ecalOtherKFPrimElems.begin()->second] ==
true) {
1111 if (DebugSetLinksDetailed)
1112 cout <<
"**** PFElectronAlgo:: SUPERCLUSTER FOUND BUT FAILS KF VETO *** " << endl;
1116 bool isInTheEtaRange =
false;
1119 double deta_clustToAdd = clustToAdd->
clusterRef()->position().Eta() - EtaFC;
1120 double ene_clustToAdd = clustToAdd->
clusterRef()->energy();
1122 if(fabs(deta_clustToAdd) < 0.05)
1123 isInTheEtaRange =
true;
1126 bool isBetterEpin =
false;
1127 if(isInTheEtaRange ==
false ) {
1128 if (DebugSetLinksDetailed)
1129 cout <<
"**** PFElectronAlgo:: SUPERCLUSTER FOUND BUT FAILS GAMMA DETA RANGE *** "
1130 << fabs(deta_clustToAdd) << endl;
1132 if(KfGsf_index < CutIndex) {
1134 double res_before_gsf = fabs((totenergy-Pin_gsf)/Pin_gsf);
1135 double res_after_gsf = fabs(((totenergy+ene_clustToAdd)-Pin_gsf)/Pin_gsf);
1140 double Pin_kf = trackEl->
trackRef()->p();
1141 double res_before_kf = fabs((totenergy-Pin_kf)/Pin_kf);
1142 double res_after_kf = fabs(((totenergy+ene_clustToAdd)-Pin_kf)/Pin_kf);
1145 if(res_after_gsf < res_before_gsf && res_after_kf < res_before_kf ) {
1146 isBetterEpin =
true;
1149 if (DebugSetLinksDetailed)
1150 cout <<
"**** PFElectronAlgo:: SUPERCLUSTER FOUND AND FAILS ALSO RES_EPIN"
1151 <<
" tot energy " << totenergy
1152 <<
" Pin_gsf " << Pin_gsf
1153 <<
" Pin_kf " << Pin_kf
1154 <<
" cluster from SC to ADD " << ene_clustToAdd
1155 <<
" Res before GSF " << res_before_gsf <<
" res_after_gsf " << res_after_gsf
1156 <<
" Res before KF " << res_before_kf <<
" res_after_kf " << res_after_kf << endl;
1161 if(isInTheEtaRange || isBetterEpin) {
1162 if (DebugSetLinksDetailed)
1163 cout <<
"!!!! PFElectronAlgo:: ECAL from SUPERCLUSTER FOUND !!!!! " << endl;
1164 GsfElemIndex.push_back(itsc->second);
1165 EcalIndex.push_back(itsc->second);
1166 localactive[(itsc->second)] =
false;
1175 if(KfGsf_index < CutIndex)
1176 GsfElemIndex.push_back(KfGsf_index);
1177 else if(KfGsf_secondIndex < CutIndex)
1178 GsfElemIndex.push_back(KfGsf_secondIndex);
1181 GsfElemIndex.insert(GsfElemIndex.end(),convBremKFTrack.begin(),convBremKFTrack.end());
1182 GsfElemIndex.insert(GsfElemIndex.end(),keyBremIndex.begin(),keyBremIndex.end());
1183 associatedToGsf_.insert(pair<
unsigned int, vector<unsigned int> >(gsfIs[iEle],GsfElemIndex));
1186 for(
unsigned int ikeyecal = 0;
1187 ikeyecal<EcalIndex.size(); ikeyecal++){
1190 vector<unsigned int> EcalElemsIndex(0);
1192 std::multimap<double, unsigned int> PS1Elems;
1197 for( std::multimap<double, unsigned int>::iterator it = PS1Elems.begin();
1198 it != PS1Elems.end();it++) {
1199 unsigned int index = it->second;
1200 if(localactive[index] ==
true) {
1203 std::multimap<double, unsigned> sortedECAL;
1208 unsigned jEcal = sortedECAL.begin()->second;
1209 if ( jEcal != EcalIndex[ikeyecal])
continue;
1212 EcalElemsIndex.push_back(index);
1213 localactive[
index] =
false;
1217 std::multimap<double, unsigned int> PS2Elems;
1222 for( std::multimap<double, unsigned int>::iterator it = PS2Elems.begin();
1223 it != PS2Elems.end();it++) {
1224 unsigned int index = it->second;
1225 if(localactive[index] ==
true) {
1227 std::multimap<double, unsigned> sortedECAL;
1232 unsigned jEcal = sortedECAL.begin()->second;
1233 if ( jEcal != EcalIndex[ikeyecal])
continue;
1235 EcalElemsIndex.push_back(index);
1236 localactive[
index] =
false;
1243 std::multimap<double, unsigned int> hcalGsfElems;
1248 for( std::multimap<double, unsigned int>::iterator it = hcalGsfElems.begin();
1249 it != hcalGsfElems.end();it++) {
1250 unsigned int index = it->second;
1263 EcalElemsIndex.push_back(index);
1264 localactive[
index] =
false;
1269 if(hcalGsfElems.size() == 0 && ClosestEcalWithKf ==
true) {
1270 std::multimap<double, unsigned int> hcalKfElems;
1275 for( std::multimap<double, unsigned int>::iterator it = hcalKfElems.begin();
1276 it != hcalKfElems.end();it++) {
1277 unsigned int index = it->second;
1278 if(localactive[index] ==
true) {
1281 std::multimap<double, unsigned> sortedKf;
1286 unsigned jKf = sortedKf.begin()->second;
1287 if ( jKf != KfGsf_index)
continue;
1288 EcalElemsIndex.push_back(index);
1289 localactive[
index] =
false;
1294 std::multimap<double, unsigned int> kfEtraElems;
1299 if(kfEtraElems.size() > 0) {
1300 for( std::multimap<double, unsigned int>::iterator it = kfEtraElems.begin();
1301 it != kfEtraElems.end();it++) {
1302 unsigned int index = it->second;
1310 bool thisIsAMuon =
false;
1312 if (DebugSetLinksDetailed && thisIsAMuon)
1313 cout <<
" This is a Muon: index " << index << endl;
1314 if(localactive[index] ==
true && !thisIsAMuon) {
1315 if(index != KfGsf_index) {
1318 std::multimap<double, unsigned> sortedECAL;
1323 unsigned jEcal = sortedECAL.begin()->second;
1324 if ( jEcal != EcalIndex[ikeyecal])
continue;
1325 EcalElemsIndex.push_back(index);
1326 localactive[
index] =
false;
1333 associatedToEcal_.insert(pair<
unsigned int,vector<unsigned int> >(EcalIndex[ikeyecal],EcalElemsIndex));
1342 if (DebugSetLinksSummary) {
1343 if(IsThereAGoodGSFTrack) {
1344 if (DebugSetLinksSummary)
cout <<
" -- The Link Summary --" << endl;
1345 for(
map<
unsigned int,vector<unsigned int> >::iterator it = associatedToGsf_.begin();
1346 it != associatedToGsf_.end(); it++) {
1348 if (DebugSetLinksSummary)
cout <<
" AssoGsf " << it->first << endl;
1349 vector<unsigned int> eleasso = it->second;
1350 for(
unsigned int i=0;
i<eleasso.size();
i++) {
1353 if (DebugSetLinksSummary)
1354 cout <<
" AssoGsfElements BREM " << eleasso[
i] << endl;
1357 if (DebugSetLinksSummary)
1358 cout <<
" AssoGsfElements ECAL " << eleasso[
i] << endl;
1361 if (DebugSetLinksSummary)
1362 cout <<
" AssoGsfElements KF " << eleasso[
i] << endl;
1365 if (DebugSetLinksSummary)
1366 cout <<
" AssoGsfElements ????? " << eleasso[
i] << endl;
1371 for(
map<
unsigned int,vector<unsigned int> >::iterator it = associatedToBrems_.begin();
1372 it != associatedToBrems_.end(); it++) {
1373 if (DebugSetLinksSummary)
cout <<
" AssoBrem " << it->first << endl;
1374 vector<unsigned int> eleasso = it->second;
1375 for(
unsigned int i=0;
i<eleasso.size();
i++) {
1378 if (DebugSetLinksSummary)
1379 cout <<
" AssoBremElements ECAL " << eleasso[
i] << endl;
1382 if (DebugSetLinksSummary)
1383 cout <<
" AssoBremElements ????? " << eleasso[
i] << endl;
1388 for(
map<
unsigned int,vector<unsigned int> >::iterator it = associatedToEcal_.begin();
1389 it != associatedToEcal_.end(); it++) {
1390 if (DebugSetLinksSummary)
cout <<
" AssoECAL " << it->first << endl;
1391 vector<unsigned int> eleasso = it->second;
1392 for(
unsigned int i=0;
i<eleasso.size();
i++) {
1395 if (DebugSetLinksSummary)
1396 cout <<
" AssoECALElements PS1 " << eleasso[
i] << endl;
1399 if (DebugSetLinksSummary)
1400 cout <<
" AssoECALElements PS2 " << eleasso[
i] << endl;
1403 if (DebugSetLinksSummary)
1404 cout <<
" AssoECALElements HCAL " << eleasso[
i] << endl;
1407 if (DebugSetLinksSummary)
1408 cout <<
" AssoHCALElements ????? " << eleasso[
i] << endl;
1412 if (DebugSetLinksSummary)
1413 cout <<
"-- End Summary --" << endl;
1418 return IsThereAGoodGSFTrack;
1422 AssMap& associatedToGsf_,
1423 AssMap& associatedToBrems_,
1424 AssMap& associatedToEcal_,
1430 bool DebugIDOutputs =
false;
1431 if(DebugIDOutputs)
cout <<
" ######## Enter in SetIDOutputs #########" << endl;
1433 unsigned int cgsf=0;
1434 for (
map<
unsigned int,vector<unsigned int> >::iterator igsf = associatedToGsf_.begin();
1435 igsf != associatedToGsf_.end(); igsf++,cgsf++) {
1437 float Ene_ecalgsf = 0.;
1438 float Ene_hcalgsf = 0.;
1439 double sigmaEtaEta = 0.;
1440 float deta_gsfecal = 0.;
1441 float Ene_ecalbrem = 0.;
1442 float Ene_extraecalgsf = 0.;
1443 bool LateBrem =
false;
1445 int FirstBrem = 1000;
1446 unsigned int ecalGsf_index = 100000;
1447 unsigned int kf_index = 100000;
1455 unsigned int gsf_index = igsf->first;
1462 Ein_gsf =
sqrt(RefGSF->pMode()*
1463 RefGSF->pMode()+m_el*m_el);
1466 float Eout_gsf = GsfEl->
Pout().t();
1471 cout <<
" setIdOutput! GSF Track: Ein " << Ein_gsf
1472 <<
" eta,phi " << Etaout_gsf
1476 vector<unsigned int> assogsf_index = igsf->second;
1477 bool FirstEcalGsf =
true;
1478 for (
unsigned int ielegsf=0;ielegsf<assogsf_index.size();ielegsf++) {
1489 if(!isPrim)
continue;
1491 kf_index = assogsf_index[ielegsf];
1496 unsigned int keyecalgsf = assogsf_index[ielegsf];
1497 vector<unsigned int> assoecalgsf_index = associatedToEcal_.find(keyecalgsf)->second;
1499 vector<double> ps1Ene(0);
1500 vector<double> ps2Ene(0);
1501 for(
unsigned int ips =0; ips<assoecalgsf_index.size();ips++) {
1504 PFClusterRef psref = elements[(assoecalgsf_index[ips])].clusterRef();
1505 ps1Ene.push_back(psref->energy());
1508 PFClusterRef psref = elements[(assoecalgsf_index[ips])].clusterRef();
1509 ps2Ene.push_back(psref->energy());
1518 FirstEcalGsf =
false;
1519 ecalGsf_index = assogsf_index[ielegsf];
1526 posX += Ene_ecalgsf * clusterRef->position().X();
1527 posY += Ene_ecalgsf * clusterRef->position().Y();
1528 posZ += Ene_ecalgsf * clusterRef->position().Z();
1531 cout <<
" setIdOutput! GSF ECAL Cluster E " << Ene_ecalgsf
1532 <<
" eta,phi " << clusterRef->position().eta()
1533 <<
", " << clusterRef->position().phi() << endl;
1535 deta_gsfecal = clusterRef->position().eta() - Etaout_gsf;
1537 vector< const reco::PFCluster * > pfClust_vec(0);
1538 pfClust_vec.clear();
1539 pfClust_vec.push_back(&(*clusterRef));
1549 Ene_extraecalgsf += TempClus_energy;
1550 posX += TempClus_energy * clusterRef->position().X();
1551 posY += TempClus_energy * clusterRef->position().Y();
1552 posZ += TempClus_energy * clusterRef->position().Z();
1555 cout <<
" setIdOutput! Extra ECAL Cluster E "
1556 << TempClus_energy <<
" Tot " << Ene_extraecalgsf << endl;
1562 unsigned int brem_index = assogsf_index[ielegsf];
1567 if (TrajPos < FirstBrem) FirstBrem = TrajPos;
1569 vector<unsigned int> assobrem_index = associatedToBrems_.find(brem_index)->second;
1570 for (
unsigned int ibrem = 0; ibrem < assobrem_index.size(); ibrem++){
1572 unsigned int keyecalbrem = assobrem_index[ibrem];
1573 vector<unsigned int> assoelebrem_index = associatedToEcal_.find(keyecalbrem)->second;
1574 vector<double> ps1EneFromBrem(0);
1575 vector<double> ps2EneFromBrem(0);
1576 for (
unsigned int ielebrem=0; ielebrem<assoelebrem_index.size();ielebrem++) {
1578 PFClusterRef psref = elements[(assoelebrem_index[ielebrem])].clusterRef();
1579 ps1EneFromBrem.push_back(psref->energy());
1582 PFClusterRef psref = elements[(assoelebrem_index[ielebrem])].clusterRef();
1583 ps2EneFromBrem.push_back(psref->energy());
1587 if( assobrem_index[ibrem] != ecalGsf_index) {
1589 elements[(assobrem_index[ibrem])].clusterRef();
1591 Ene_ecalbrem += BremClus_energy;
1592 posX += BremClus_energy * clusterRef->position().X();
1593 posY += BremClus_energy * clusterRef->position().Y();
1594 posZ += BremClus_energy * clusterRef->position().Z();
1597 if (DebugIDOutputs)
cout <<
" setIdOutput::BREM Cluster "
1598 << BremClus_energy <<
" eta,phi "
1599 << clusterRef->position().eta() <<
", "
1600 << clusterRef->position().phi() << endl;
1609 if (Ene_ecalgsf > 0.) {
1617 float Pt_gsf = RefGSF->ptMode();
1622 if(RefGSF->ptModeError() > 0.)
1625 nhit_gsf= RefGSF->hitPattern().trackerLayersWithMeasurement();
1626 chi2_gsf = RefGSF->normalizedChi2();
1635 nhit_kf= RefKF->hitPattern().trackerLayersWithMeasurement();
1636 chi2_kf = RefKF->normalizedChi2();
1645 EtotPinMode = (Ene_ecalgsf + Ene_ecalbrem + Ene_extraecalgsf) / Ein_gsf;
1664 HOverHE = Ene_hcalgsf/(Ene_hcalgsf + Ene_ecalgsf);
1699 double mvaValue =
tmvaReader_->EvaluateMVA(
"BDT");
1703 myExtra.
setMVA(mvaValue);
1722 unsigned int iextratrack = 0;
1723 unsigned int itrackHcalLinked = 0;
1724 float SumExtraKfP = 0.;
1727 double Etotal = Ene_ecalgsf + Ene_ecalbrem + Ene_extraecalgsf;
1732 double ETtotal = Etotal*
sin(sc_pflow.Theta());
1733 double phiTrack = RefGSF->phiMode();
1734 double dphi_normalsc = sc_pflow.Phi() - phiTrack;
1735 if ( dphi_normalsc < -
M_PI )
1736 dphi_normalsc = dphi_normalsc + 2.*
M_PI;
1737 else if ( dphi_normalsc >
M_PI )
1738 dphi_normalsc = dphi_normalsc - 2.*
M_PI;
1739 dphi_normalsc = fabs(dphi_normalsc);
1742 if(ecalGsf_index < 100000) {
1743 vector<unsigned int> assoecalgsf_index = associatedToEcal_.find(ecalGsf_index)->second;
1744 for(
unsigned int itrk =0; itrk<assoecalgsf_index.size();itrk++) {
1759 int nexhits = trackref->trackerExpectedHitsInner().numberOfLostHits();
1761 bool trackIsFromPrimaryVertex =
false;
1763 if ( (*trackIt).castTo<
TrackRef>() == trackref ) {
1764 trackIsFromPrimaryVertex =
true;
1770 if(Algo < 3 && nexhits == 0 && trackIsFromPrimaryVertex) {
1773 cout <<
" The ecalGsf cluster is not isolated: >0 KF extra with algo < 3" << endl;
1775 float p_trk = trackref->p();
1780 cout <<
" p_trk " << p_trk
1781 <<
" nexhits " << nexhits << endl;
1783 SumExtraKfP += p_trk;
1786 std::multimap<double, unsigned int> hcalKfElems;
1791 if(hcalKfElems.size() > 0) {
1798 if( iextratrack > 0) {
1800 if(iextratrack > 3 || Ene_hcalgsf > 10 || (SumExtraKfP/Ene_ecalgsf) > 1.
1801 || (ETtotal > 50. && iextratrack > 1 && (Ene_hcalgsf/Ene_ecalgsf) > 0.1) ) {
1803 cout <<
" *****This electron candidate is discarded: Non isolated # tracks "
1804 << iextratrack <<
" HOverHE " <<
HOverHE
1805 <<
" SumExtraKfP/Ene_ecalgsf " << SumExtraKfP/Ene_ecalgsf
1806 <<
" SumExtraKfP " << SumExtraKfP
1807 <<
" Ene_ecalgsf " << Ene_ecalgsf
1808 <<
" ETtotal " << ETtotal
1809 <<
" Ene_hcalgsf/Ene_ecalgsf " << Ene_hcalgsf/Ene_ecalgsf
1818 ((EtotPinMode < 1.1 && EtotPinMode > 0.6) && (fabs(
Eta_gsf) >= 1.0 && fabs(
Eta_gsf) <= 2.0))) {
1820 (itrackHcalLinked == iextratrack) &&
1821 kf_index < 100000 ) {
1826 cout <<
" *****This electron is reactivated # tracks "
1827 << iextratrack <<
" #tracks hcal linked " << itrackHcalLinked
1828 <<
" SumExtraKfP/Ene_ecalgsf " << SumExtraKfP/Ene_ecalgsf
1830 <<
" eta gsf " << fabs(
Eta_gsf) <<
" kf index " << kf_index <<endl;
1837 cout <<
" *****This electron candidate is discarded HCAL ENERGY "
1848 cout <<
" *****This electron candidate is discarded Low ETOTPIN "
1854 if(ETtotal > 50. && dphi_normalsc > 0.1 ) {
1856 cout <<
" *****This electron candidate is discarded Large ANGLE "
1857 <<
" ETtotal " << ETtotal <<
" EGsfPoutMode " << dphi_normalsc << endl;
1863 if (DebugIDOutputs) {
1864 cout <<
" **** BDT observables ****" << endl;
1865 cout <<
" < Normalization > " << endl;
1866 cout <<
" Pt_gsf " << Pt_gsf <<
" Pin " << Ein_gsf <<
" Pout " << Eout_gsf
1867 <<
" Eta_gsf " <<
Eta_gsf << endl;
1868 cout <<
" < PureTracking > " << endl;
1875 <<
" nhit_kf " <<
nhit_kf << endl;
1876 cout <<
" < track-ecal-hcal-ps " << endl;
1882 <<
" HOverHE " <<
HOverHE <<
" Hcal energy " << Ene_hcalgsf
1886 cout <<
" !!!!!!!!!!!!!!!! the BDT output !!!!!!!!!!!!!!!!!: direct " << mvaValue
1887 <<
" corrected " <<
BDToutput_[cgsf] << endl;
1893 cout <<
" Gsf Ref isNULL " << endl;
1898 cout <<
" No clusters associated to the gsf " << endl;
1901 DebugIDOutputs =
false;
1909 AssMap& associatedToGsf_,
1910 AssMap& associatedToBrems_,
1911 AssMap& associatedToEcal_){
1919 bool DebugIDCandidates =
false;
1923 unsigned int cgsf=0;
1924 for (
map<
unsigned int,vector<unsigned int> >::iterator igsf = associatedToGsf_.begin();
1925 igsf != associatedToGsf_.end(); igsf++,cgsf++) {
1926 unsigned int gsf_index = igsf->first;
1936 float dpt=0;
float dpt_gsf=0;
1937 float Eene=0;
float dene=0;
float Hene=0.;
1942 std::vector<float> bremEnergyVec;
1944 std::vector<const PFCluster*> pfSC_Clust_vec;
1946 float de_gs = 0., de_me = 0., de_kf = 0.;
1952 float ps1TotEne = 0;
1953 float ps2TotEne = 0;
1954 vector<unsigned int> elementsToAdd(0);
1959 elementsToAdd.push_back(gsf_index);
1968 charge= RefGSF->chargeMode();
1969 nhit_gsf= RefGSF->hitPattern().trackerLayersWithMeasurement();
1971 momentum_gsf.SetPx(RefGSF->pxMode());
1972 momentum_gsf.SetPy(RefGSF->pyMode());
1973 momentum_gsf.SetPz(RefGSF->pzMode());
1974 float ENE=
sqrt(RefGSF->pMode()*
1975 RefGSF->pMode()+m_el*m_el);
1977 if( DebugIDCandidates )
1978 cout <<
"SetCandidates:: GsfTrackRef: Ene " << ENE
1979 <<
" charge " << charge <<
" nhits " << nhit_gsf <<endl;
1981 momentum_gsf.SetE(ENE);
1982 dpt_gsf=RefGSF->ptModeError()*
1983 (RefGSF->pMode()/RefGSF->ptMode());
1985 momentum_mean.SetPx(RefGSF->px());
1986 momentum_mean.SetPy(RefGSF->py());
1987 momentum_mean.SetPz(RefGSF->pz());
1988 float ENEm=
sqrt(RefGSF->p()*
1989 RefGSF->p()+m_el*m_el);
1990 momentum_mean.SetE(ENEm);
1995 if( DebugIDCandidates )
1996 cout <<
"SetCandidates:: !!!! NULL GSF Track Ref " << endl;
2000 vector<unsigned int> assogsf_index = igsf->second;
2001 unsigned int ecalGsf_index = 100000;
2002 bool FirstEcalGsf =
true;
2003 for (
unsigned int ielegsf=0;ielegsf<assogsf_index.size();ielegsf++) {
2006 elementsToAdd.push_back((assogsf_index[ielegsf]));
2011 if(!isPrim)
continue;
2017 nhit_kf=RefKF->hitPattern().trackerLayersWithMeasurement();
2018 momentum_kf.SetPx(RefKF->px());
2019 momentum_kf.SetPy(RefKF->py());
2020 momentum_kf.SetPz(RefKF->pz());
2021 float ENE=
sqrt(RefKF->p()*RefKF->p()+m_el*m_el);
2022 if( DebugIDCandidates )
2023 cout <<
"SetCandidates:: KFTrackRef: Ene " << ENE <<
" nhits " << nhit_kf << endl;
2025 momentum_kf.SetE(ENE);
2028 if( DebugIDCandidates )
2029 cout <<
"SetCandidates:: !!!! NULL KF Track Ref " << endl;
2034 unsigned int keyecalgsf = assogsf_index[ielegsf];
2035 vector<unsigned int> assoecalgsf_index = associatedToEcal_.find(keyecalgsf)->second;
2036 vector<double> ps1Ene(0);
2037 vector<double> ps2Ene(0);
2041 for(
unsigned int ips =0; ips<assoecalgsf_index.size();ips++) {
2044 PFClusterRef psref = elements[(assoecalgsf_index[ips])].clusterRef();
2045 ps1Ene.push_back(psref->energy());
2046 elementsToAdd.push_back((assoecalgsf_index[ips]));
2049 PFClusterRef psref = elements[(assoecalgsf_index[ips])].clusterRef();
2050 ps2Ene.push_back(psref->energy());
2051 elementsToAdd.push_back((assoecalgsf_index[ips]));
2056 elementsToAdd.push_back((assoecalgsf_index[ips]));
2061 elementsToAdd.push_back((assogsf_index[ielegsf]));
2079 float ceta=
cl.position().eta();
2080 float cphi=
cl.position().phi();
2093 if( DebugIDCandidates )
2094 cout <<
"SetCandidates:: EcalCluster: EneNoCalib " << clust->
clusterRef()->energy()
2095 <<
" eta,phi " << ceta <<
"," << cphi <<
" Calib " << EE <<
" dE " << dE <<endl;
2097 bool elecCluster=
false;
2099 FirstEcalGsf =
false;
2101 ecalGsf_index = assogsf_index[ielegsf];
2109 clusterMomentum.SetPxPyPzE(EE*direction.x(),
2126 std::map<unsigned int,std::vector<reco::PFCandidate> >::iterator itcheck=
2131 std::vector<reco::PFCandidate> tmpVec;
2132 tmpVec.push_back(cluster_Candidate);
2138 itcheck->second.push_back(cluster_Candidate);
2142 posX += EE *
cl.position().X();
2143 posY += EE *
cl.position().Y();
2144 posZ += EE *
cl.position().Z();
2150 pfSC_Clust_vec.push_back( &
cl );
2158 unsigned int brem_index = assogsf_index[ielegsf];
2159 vector<unsigned int> assobrem_index = associatedToBrems_.find(brem_index)->second;
2160 elementsToAdd.push_back(brem_index);
2161 for (
unsigned int ibrem = 0; ibrem < assobrem_index.size(); ibrem++){
2164 if( assobrem_index[ibrem] != ecalGsf_index) {
2165 unsigned int keyecalbrem = assobrem_index[ibrem];
2166 const vector<unsigned int>& assoelebrem_index = associatedToEcal_.find(keyecalbrem)->second;
2167 vector<double> ps1EneFromBrem(0);
2168 vector<double> ps2EneFromBrem(0);
2169 for (
unsigned int ielebrem=0; ielebrem<assoelebrem_index.size();ielebrem++) {
2171 PFClusterRef psref = elements[(assoelebrem_index[ielebrem])].clusterRef();
2172 ps1EneFromBrem.push_back(psref->energy());
2173 elementsToAdd.push_back(assoelebrem_index[ielebrem]);
2176 PFClusterRef psref = elements[(assoelebrem_index[ielebrem])].clusterRef();
2177 ps2EneFromBrem.push_back(psref->energy());
2178 elementsToAdd.push_back(assoelebrem_index[ielebrem]);
2181 elementsToAdd.push_back(assobrem_index[ibrem]);
2188 bremEnergyVec.push_back(EE);
2190 float ceta = clusterRef->position().eta();
2193 if( DebugIDCandidates )
2194 cout <<
"SetCandidates:: BremCluster: Ene " << EE <<
" dE " << dE <<endl;
2197 posX += EE * clusterRef->position().X();
2198 posY += EE * clusterRef->position().Y();
2199 posZ += EE * clusterRef->position().Z();
2207 pfSC_Clust_vec.push_back( clusterRef.
get() );
2212 math::XYZPoint direction=clusterRef->position()/clusterRef->position().R();
2214 photonMomentum.SetPxPyPzE(EE*direction.x(),
2230 std::map<unsigned int,std::vector<reco::PFCandidate> >::iterator itcheck=
2235 std::vector<reco::PFCandidate> tmpVec;
2236 tmpVec.push_back(photon_Candidate);
2242 itcheck->second.push_back(photon_Candidate);
2252 double unCorrEene = Eene;
2253 double absEta = fabs(momentum_gsf.Eta());
2254 double emTheta = momentum_gsf.Theta();
2257 pfSC_Clust_vec.clear();
2259 if( DebugIDCandidates )
2260 cout <<
"PFEelectronAlgo:: absEta " << absEta <<
" theta " << emTheta
2261 <<
" EneRaw " << Eene <<
" Err " << dene;
2267 double Etene = Eene*
sin(emTheta);
2269 double emBR_et = emBR_e*
sin(emTheta);
2271 Eene = emCorrFull_et/
sin(emTheta);
2276 double emBR_et = emBR_e*
sin(emTheta);
2278 Eene = emCorrFull_et/
sin(emTheta);
2280 dene =
sqrt(dene)*(Eene/unCorrEene);
2284 if( DebugIDCandidates )
2285 cout <<
" EneCorrected " << Eene <<
" Err " << dene << endl;
2290 if(has_kf && unCorrEene > 0.) {
2296 std::multimap<double, unsigned int> bremElems;
2302 double phiTrack = RefGSF->phiMode();
2303 if(bremElems.size()>0) {
2304 unsigned int brem_index = bremElems.begin()->second;
2310 double dphi_normalsc = sc_pflow.Phi() - phiTrack;
2311 if ( dphi_normalsc < -
M_PI )
2312 dphi_normalsc = dphi_normalsc + 2.*
M_PI;
2313 else if ( dphi_normalsc >
M_PI )
2314 dphi_normalsc = dphi_normalsc - 2.*
M_PI;
2316 int chargeGsf = RefGSF->chargeMode();
2317 int chargeKf = RefKF->charge();
2320 if(dphi_normalsc < 0.)
2325 if(chargeKf == chargeGsf)
2327 else if(chargeGsf == chargeSC)
2332 if( DebugIDCandidates )
2333 cout <<
"PFElectronAlgo:: charge determination "
2334 <<
" charge GSF " << chargeGsf
2335 <<
" charge KF " << chargeKf
2336 <<
" charge SC " << chargeSC
2337 <<
" Final Charge " << charge << endl;
2342 if ((nhit_gsf<8) && (has_kf)){
2346 momentum=momentum_kf;
2348 float scale= Fe/momentum.E();
2351 if (Eene < 0.0001) {
2357 newmomentum.SetPxPyPzE(scale*momentum.Px(),
2358 scale*momentum.Py(),
2359 scale*momentum.Pz(),Fe);
2360 if( DebugIDCandidates )
2361 cout <<
"SetCandidates:: (nhit_gsf<8) && (has_kf):: pt " << newmomentum.pt() <<
" Ene " << Fe <<endl;
2365 if ((nhit_gsf>7) || (has_kf==
false)){
2367 de_gs=1-momentum_gsf.E()/Eene;
2368 de_me=1-momentum_mean.E()/Eene;
2369 de_kf=1-momentum_kf.E()/Eene;
2372 momentum=momentum_gsf;
2373 dpt=1/(dpt_gsf*dpt_gsf);
2380 Fe =((dene*Eene) +(dpt*momentum.E()))/(dene+dpt);
2386 if ((de_gs>0.05)&&(de_kf>0.05)){
2389 if ((de_gs<-0.1)&&(de_me<-0.1) &&(de_kf<0.) &&
2390 (momentum.E()/dpt_gsf) > 5. && momentum_gsf.pt() < 30.){
2393 float scale= Fe/momentum.E();
2395 newmomentum.SetPxPyPzE(scale*momentum.Px(),
2396 scale*momentum.Py(),
2397 scale*momentum.Pz(),Fe);
2398 if( DebugIDCandidates )
2399 cout <<
"SetCandidates::(nhit_gsf>7) || (has_kf==false) " << newmomentum.pt() <<
" Ene " << Fe <<endl;
2403 if (newmomentum.pt()>0.5){
2408 if( DebugIDCandidates )
2409 cout <<
"SetCandidates:: I am before doing candidate " <<endl;
2412 std::vector<float> clusterEnergyVec;
2413 clusterEnergyVec.push_back(RawEene);
2414 clusterEnergyVec.insert(clusterEnergyVec.end(),bremEnergyVec.begin(),bremEnergyVec.end());
2417 std::vector<reco::PFCandidateElectronExtra>::iterator itextra;
2421 itextra->setClusterEnergies(clusterEnergyVec);
2425 std::cout <<
" There is a big problem with the electron extra, PFElectronAlgo should crash soon " << RawEene << std::endl;
2431 temp_Candidate =
PFCandidate(charge,newmomentum,particleType);
2448 if(seedRef.
isAvailable() && seedRef->isEcalDriven()) {
2455 if( DebugIDCandidates )
2456 cout <<
"SetCandidates:: I am after doing candidate " <<endl;
2458 for (
unsigned int elad=0; elad<elementsToAdd.size();elad++){
2463 std::map<unsigned int, std::vector<reco::PFCandidate> >::const_iterator itcluster=
2467 const std::vector<reco::PFCandidate> & theClusters=itcluster->second;
2468 unsigned nclus=theClusters.size();
2470 for(
unsigned iclus=0;iclus<nclus;++iclus)
2477 bool bypassmva=
false;
2486 if( DebugIDCandidates ) {
2488 float esceg = itcheck->caloEnergy();
2490 <<
" SuperClusterEnergy " << esceg
2491 <<
" PF Energy " << Eene << endl;
2493 cout <<
" hoe " << itcheck->hcalOverEcal()
2494 <<
" tkiso04 " << itcheck->dr04TkSumPt()
2495 <<
" ecaliso04 " << itcheck->dr04EcalRecHitSumEt()
2496 <<
" hcaliso04 " << itcheck->dr04HcalTowerSumEt()
2497 <<
" tkiso03 " << itcheck->dr03TkSumPt()
2498 <<
" ecaliso03 " << itcheck->dr03EcalRecHitSumEt()
2499 <<
" hcaliso03 " << itcheck->dr03HcalTowerSumEt() << endl;
2507 if( mvaSelected || bypassmva ) {
2510 itextra->setStatus(PFCandidateElectronExtra::Selected,
true);
2514 itextra->setStatus(PFCandidateElectronExtra::Rejected,
true);
2520 itextra->setStatus(PFCandidateElectronExtra::ECALDrivenPreselected,bypassmva);
2521 itextra->setStatus(PFCandidateElectronExtra::MVASelected,mvaSelected);
2529 if( DebugIDCandidates )
2530 cout <<
"SetCandidates:: No Candidate Produced because of Pt cut: 0.5 " <<endl;
2535 if( DebugIDCandidates )
2536 cout <<
"SetCandidates:: No Candidate Produced because of No GSF Track Ref " <<endl;
2545 AssMap& associatedToGsf_,
2546 AssMap& associatedToBrems_,
2547 AssMap& associatedToEcal_,
2548 std::vector<bool>& active){
2554 unsigned int cgsf=0;
2555 for (
map<
unsigned int,vector<unsigned int> >::iterator igsf = associatedToGsf_.begin();
2556 igsf != associatedToGsf_.end(); igsf++,cgsf++) {
2558 unsigned int gsf_index = igsf->first;
2564 bool bypassmva=
false;
2577 active[gsf_index] =
false;
2578 vector<unsigned int> assogsf_index = igsf->second;
2579 for (
unsigned int ielegsf=0;ielegsf<assogsf_index.size();ielegsf++) {
2582 active[(assogsf_index[ielegsf])] =
false;
2584 unsigned int keyecalgsf = assogsf_index[ielegsf];
2597 for(
unsigned int iconv = 0; iconv <
convGsfTrack_.size(); iconv++) {
2602 std::multimap<double, unsigned> convKf;
2608 if(convKf.size() > 0) {
2609 active[convKf.begin()->second] =
false;
2616 vector<unsigned int> assoecalgsf_index = associatedToEcal_.find(keyecalgsf)->second;
2617 for(
unsigned int ips =0; ips<assoecalgsf_index.size();ips++) {
2620 active[(assoecalgsf_index[ips])] =
false;
2622 active[(assoecalgsf_index[ips])] =
false;
2625 active[(assoecalgsf_index[ips])] =
false;
2631 unsigned int brem_index = assogsf_index[ielegsf];
2632 vector<unsigned int> assobrem_index = associatedToBrems_.find(brem_index)->second;
2633 for (
unsigned int ibrem = 0; ibrem < assobrem_index.size(); ibrem++){
2635 unsigned int keyecalbrem = assobrem_index[ibrem];
2637 active[(assobrem_index[ibrem])] =
false;
2648 vector<unsigned int> assoelebrem_index = associatedToEcal_.find(keyecalbrem)->second;
2650 for (
unsigned int ielebrem=0; ielebrem<assoelebrem_index.size();ielebrem++) {
2652 active[(assoelebrem_index[ielebrem])] =
false;
2654 active[(assoelebrem_index[ielebrem])] =
false;
2667 unsigned int Algo = 0;
2668 switch (trackRef->algo()) {
2669 case TrackBase::ctf:
2670 case TrackBase::iter0:
2671 case TrackBase::iter1:
2672 case TrackBase::iter2:
2675 case TrackBase::iter3:
2678 case TrackBase::iter4:
2681 case TrackBase::iter5:
2684 case TrackBase::iter6:
2695 bool isPrimary =
false;
2701 PFRecTrackRef kfPfRef_fromGsf = (*gsfPfRef).kfPFRecTrackRef();
2706 if(kfref == kfref_fromGsf)
std::vector< std::pair< unsigned int, unsigned int > > fifthStepKfTrack_
const math::XYZTLorentzVector & Pout() const
void setPs2Energy(float e2)
set corrected PS2 energy
const math::XYZPointF & positionAtECALEntrance() const
bool SetLinks(const reco::PFBlockRef &blockRef, AssMap &associatedToGsf_, AssMap &associatedToBrems_, AssMap &associatedToEcal_, std::vector< bool > &active, const reco::Vertex &primaryVertex)
std::map< unsigned int, std::vector< unsigned int > > AssMap
void setPs1Energy(float e1)
set corrected PS1 energy
ParticleType
particle types
void setMVA(float val)
set the result (mostly for debugging)
void setLateBrem(float val)
set LateBrem
Particle flow cluster, see clustering algorithm in PFClusterAlgo.
trackRef_iterator tracks_end() const
last iterator over tracks
static bool isMuon(const reco::PFBlockElement &elt)
void setPositionAtECALEntrance(const math::XYZPointF &pos)
set position at ECAL entrance
float EtotBremPinPoutMode
void SetCandidates(const reco::PFBlockRef &blockRef, AssMap &associatedToGsf_, AssMap &associatedToBrems_, AssMap &associatedToEcal_)
std::vector< std::pair< unsigned int, unsigned int > > convGsfTrack_
PFClusterRef clusterRef() const
void setSigmaEtaEta(float val)
set the sigmaetaeta
void setGsfTrackPout(const math::XYZTLorentzVector &pout)
set the pout (not trivial to get from the GSF track)
const math::XYZPointF & positionAtECALEntrance() const
std::vector< reco::PFCandidateElectronExtra > electronExtra_
Sin< T >::type sin(const T &t)
std::map< unsigned int, Link > LinkData
double pflowPhiWidth() const
void setEarlyBrem(float val)
set EarlyBrem
const std::vector< reco::GsfElectron > * theGsfElectrons_
bool isPrimaryTrack(const reco::PFBlockElementTrack &KfEl, const reco::PFBlockElementGsfTrack &GsfEl)
const edm::OwnVector< reco::PFBlockElement > & elements() const
const LinkData & linkData() const
ROOT::Math::PositionVector3D< ROOT::Math::Cartesian3D< float > > XYZPointF
point in space with cartesian internal representation
unsigned int indTrajPoint() const
double pflowEtaWidth() const
std::vector< GsfElectron > GsfElectronCollection
collection of GsfElectron objects
double coneEcalIsoForEgammaSC_
TMVA::Reader * tmvaReader_
void set_mva_e_pi(float mva)
U second(std::pair< T, U > const &p)
XYZTLorentzVectorD XYZTLorentzVector
Lorentz vector with cylindrical internal representation using pseudorapidity.
bool isNonnull() const
Checks for non-null.
void SetActive(const reco::PFBlockRef &blockRef, AssMap &associatedToGsf_, AssMap &associatedToBrems_, AssMap &associatedToEcal_, std::vector< bool > &active)
void setVertexSource(PFVertexType vt)
double getEnergyResolutionEm(double CorrectedEnergy, double eta) const
double pflowSigmaEtaEta() const
void addElementInBlock(const reco::PFBlockRef &blockref, unsigned elementIndex)
add an element to the current PFCandidate
reco::GsfTrackRef GsftrackRef() const
double sumEtEcalIsoForEgammaSC_barrel_
std::vector< bool > lockExtraKf_
std::vector< double > BDToutput_
void setDeltaEta(float val)
set the delta eta
double sumEtEcalIsoForEgammaSC_endcap_
void SetIDOutputs(const reco::PFBlockRef &blockRef, AssMap &associatedToGsf_, AssMap &associatedToBrems_, AssMap &associatedToEcal_, const reco::Vertex &primaryVertex)
virtual bool trackType(TrackType trType) const
void addDaughter(const Candidate &, const std::string &s="")
add a clone of the passed candidate as daughter
std::map< unsigned int, std::vector< reco::PFCandidate > > electronConstituents_
void setEcalEnergy(float eeRaw, float eeCorr)
set corrected Ecal energy
void setKfTrackRef(const reco::TrackRef &ref)
set kf track reference
double sumPtTrackIsoForEgammaSC_endcap_
unsigned int whichTrackAlgo(const reco::TrackRef &trackRef)
void setGsfTrackRef(const reco::GsfTrackRef &ref)
set gsftrack reference
PFRecTrackRef trackRefPF() const
void associatedElements(unsigned i, const LinkData &linkData, std::multimap< double, unsigned > &sortedAssociates, reco::PFBlockElement::Type type=PFBlockElement::NONE, LinkTest test=LINKTEST_RECHIT) const
XYZPointD XYZPoint
point in space with cartesian internal representation
boost::shared_ptr< PFSCEnergyCalibration > thePFSCEnergyCalibration_
reco::TrackRef trackRef() const
Particle reconstructed by the particle flow algorithm.
std::vector< TrackBaseRef >::const_iterator trackRef_iterator
The iteratator for the vector<TrackRef>
int numberOfValidPixelHits() const
PFElectronAlgo(const double mvaEleCut, std::string mvaWeightFileEleID, const boost::shared_ptr< PFSCEnergyCalibration > &thePFSCEnergyCalibration, const boost::shared_ptr< PFEnergyCalibration > &thePFEnergyCalibration, bool applyCrackCorrections, bool usePFSCEleCalib, bool useEGElectrons, bool useEGammaSupercluster, double sumEtEcalIsoForEgammaSC_barrel, double sumEtEcalIsoForEgammaSC_endcap, double coneEcalIsoForEgammaSC, double sumPtTrackIsoForEgammaSC_barrel, double sumPtTrackIsoForEgammaSC_endcap, unsigned int nTrackIsoForEgammaSC, double coneTrackIsoForEgammaSC)
double sumPtTrackIsoForEgammaSC_barrel_
GsfPFRecTrackRef GsftrackRefPF() const
void setSuperClusterRef(const reco::SuperClusterRef &scRef)
double dist(unsigned ie1, unsigned ie2, const LinkData &linkData, LinkTest test) const
trackRef_iterator tracks_begin() const
first iterator over tracks
unsigned int nTrackIsoForEgammaSC_
T const * get() const
Returns C++ pointer to the item.
void setTrackRef(const reco::TrackRef &ref)
set track reference
void RunPFElectron(const reco::PFBlockRef &blockRef, std::vector< bool > &active, const reco::Vertex &primaryVertex)
void setHadEnergy(float val)
set the had energy. The cluster energies should be entered before
void setHcalEnergy(float ehRaw, float ehCorr)
set corrected Hcal energy
boost::shared_ptr< PFEnergyCalibration > thePFEnergyCalibration_
std::vector< reco::PFCandidate > elCandidate_
bool applyCrackCorrections_
void setEGElectronCollection(const reco::GsfElectronCollection &egelectrons)
bool useEGammaSupercluster_
std::vector< reco::PFCandidate > allElCandidate_