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root/cvsroot/UserCode/MitHzz4l/Selection/src/applySelection.cc

Comparing UserCode/MitHzz4l/Selection/src/applySelection.cc (file contents):
Revision 1.16 by khahn, Wed May 9 14:57:20 2012 UTC vs.
Revision 1.23 by khahn, Sun May 20 19:08:59 2012 UTC

#	Line 5 | Line 5
5		#include <iostream>                 // standard I/O
6		#include <iomanip>                  // functions to format standard I/O
7		#include <bitset>
8	+	#include <map>
9		using namespace std;
10
11		//
#	Line 36 | Line 37 | using namespace std;
37		#include "PFCandidateCol.h"
38		#include "PileupInfoCol.h"
39		#include "PileupEnergyDensity.h"
40	+	#include "MCParticle.h"
41		#include "TriggerMask.h"
42		#include "TriggerTable.h"
43		#include "Names.h"
#	Line 50 | Line 52 | using namespace std;
52		#include "IsolationSelection.h"
53
54		//#include "Selection.h"
55	<	#include "ReferenceSelection.h"
55	>	//#include "ReferenceSelection.h"
56	>	#include "ReferenceSelection2.h"
57
58		#include "TriggerUtils.h"
59		#include "PassHLT.h"
#	Line 83 | Line 86 | TH1D * hpu;
86		RunLumiRangeMap rlrm;
87		vector<SimpleLepton> failingLeptons ; // for fake estimation
88		vector<SimpleLepton> passingLeptons;      // for fake estimation
89	+	vector<unsigned> cutvec;
90	+	vector<vector<unsigned> > zcutvec;
91	+	vector<vector<unsigned> > zzcutvec;
92	+	map<unsigned,float>       evtrhoMap;
93	+	vector<string> cutstrs;
94	+	bool passes_HLT_MC;
95	+	vector<bool>   PFnoPUflag;;
96
97		//
98		// prototypes
#	Line 92 | Line 102 | void initPUWeights();
102		double getPUWeight(unsigned npu);
103		void setEffiencyWeights(EventData&, WeightStruct& );
104		void initRunLumiRangeMap();
105	+	void initEvtRhoMap(map<unsigned,float> &);
106	+	unsigned makePFnoPUArray(mithep::Array<PFCandidate> * fPFCandidates,
107	+	vector<bool> &pfNoPileUpFlag,
108	+	mithep::Array<Vertex>      * vtxArr );
109		//----------------------------------------------------------------------------
110
111
#	Line 101 | Line 115 | void initRunLumiRangeMap();
115		int main(int argc, char** argv)
116		//----------------------------------------------------------------------------
117		{
118	+	cutstrs.push_back(string("skim0"));              //0
119	+	cutstrs.push_back(string("skim1"));              //1
120	+	cutstrs.push_back(string("trigger"));            //2
121	+	// -------------------------------------------------
122	+	cutstrs.push_back(string("Z candidate"));        //3
123	+	cutstrs.push_back(string("good Z1"));            //4
124	+	// -------------------------------------------------
125	+	cutstrs.push_back(string("4l"));                 //5
126	+	cutstrs.push_back(string("ZZ candidate"));       //6
127	+	cutstrs.push_back(string("good Z2"));            //7
128	+	cutstrs.push_back(string("ZZ 20/10"));           //8
129	+	cutstrs.push_back(string("resonance"));          //9
130	+	cutstrs.push_back(string("m4l>70"));             //10
131	+	cutstrs.push_back(string("m4l>100"));            //11
132	+
133	+
134	+
135	+
136		string cmsswpath(CMSSW_BASE);
137		cmsswpath.append("/src");
138		std::bitset<1024> triggerBits;
139		vector<vector<string> > inputFiles;
140		inputFiles.push_back(vector<string>());
141		map<string,unsigned> entrymap; // number of unskimmed entries in each file
142	+	for( int i=0; i<cutstrs.size(); i++ ) cutvec.push_back(0);
143	+	for( int i=0; i<2; i++ )  {
144	+	zcutvec.push_back(vector<unsigned>());
145	+	for( int j=0; j<cutstrs.size(); j++ ) zcutvec[i].push_back(0);
146	+	}
147	+	for( int i=0; i<3; i++ )  {
148	+	zzcutvec.push_back(vector<unsigned>());
149	+	for( int j=0; j<cutstrs.size(); j++ ) zzcutvec[i].push_back(0);
150	+	}
151	+
152
153		//
154		// args
#	Line 178 | Line 220 | int main(int argc, char** argv)
220		nt.makeAngleBranch(angles);
221		nt.makeKinematicsBranch(kinematics);
222		nt.makeInfoBranch(evtinfo);
223	<	FOTuple foTree( nt.getFile(), (const char*)"fo");
223	>
224	>	FOTuple foTree( nt.getFile(), (const char*)"FOtree");
225		foTree.makeFailedLeptonBranch(failingLeptons);
226		foTree.makeZLeptonBranch(passingLeptons);
227
#	Line 209 | Line 252 | int main(int argc, char** argv)
252		initElectronIDMVA();
253		initElectronIsoMVA();
254		initTrigger();
255	<
255	>
256	>	// hack
257	>	initEvtRhoMap(evtrhoMap);
258
259
260		//
#	Line 228 | Line 273 | int main(int argc, char** argv)
273		mithep::Array<mithep::PileupInfo>           *puArr         = new mithep::Array<mithep::PileupInfo>();
274		mithep::Array<mithep::PileupEnergyDensity>  *puDArr        = new mithep::Array<mithep::PileupEnergyDensity>();
275		mithep::Array<mithep::Track>                *trkArr        = new mithep::Array<mithep::Track>();
276	+	mithep::Array<mithep::MCParticle>           *mcArr         = new mithep::Array<mithep::MCParticle>();
277		mithep::TriggerMask                         *trigMask      = new mithep::TriggerMask();
278		mithep::TriggerTable                        *hltTable      = new mithep::TriggerTable();
279		vector<string>                              *hltTableStrings  = new vector<string>();
#	Line 240 | Line 286 | int main(int argc, char** argv)
286		TString fPileupInfoName(Names::gkPileupInfoBrn);
287		TString fPileupEnergyDensityName(Names::gkPileupEnergyDensityBrn);
288		TString fTrackName(Names::gkTrackBrn);
289	+	TString fMCParticleName(Names::gkMCPartBrn);
290		TString fTriggerMaskName(Names::gkHltBitBrn);
291		TString fTriggerTableName(Names::gkHltTableBrn);
292
#	Line 248 | Line 295 | int main(int argc, char** argv)
295		chain->SetBranchAddress(fMuonName,        &muonArr);
296		chain->SetBranchAddress(fPrimVtxName,     &vtxArr);
297		chain->SetBranchAddress(fPFCandidateName, &pfArr);
298	<	chain->SetBranchAddress(fPileupInfoName,  &puArr);
298	>	if( ctrl.mc ) {
299	>	chain->SetBranchAddress(fPileupInfoName,  &puArr);
300	>	chain->SetBranchAddress(fMCParticleName,  &mcArr);
301	>	}
302		chain->SetBranchAddress(fPileupEnergyDensityName, &puDArr);
303		chain->SetBranchAddress(fTrackName, &trkArr);
304		chain->SetBranchAddress(fTriggerMaskName, &trigMask);
#	Line 280 | Line 330 | int main(int argc, char** argv)
330		for(UInt_t ientry=0; ientry<imax; ientry++)
331		{
332		chain->GetEntry(ientry);
333	+
334	+	/*
335	+	bool found_tau=false;
336	+	if( ctrl.mc) {  // && ctrl.debug
337	+	cout << "nparticles: " << mcArr->GetEntries() << endl;
338	+	cout << "-----------------------------------" << endl;
339	+	for( int i=0; i<mcArr->GetEntries(); i++ ) {
340	+	const mithep::MCParticle *mc = mcArr->At(i);
341	+	cout << "i: " << i << "\t"
342	+	<< "id: " << mc->AbsPdgId()
343	+	<< endl;
344	+	if( mc->Is(MCParticle::kTau) ) {
345	+	found_tau=true;
346	+	}
347	+	}
348	+	}
349	+	cout << "-----------------------------------" << endl;
350	+	cout << "found tau: " << found_tau << endl;
351	+	*/
352	+
353	+	// events that fail bc ele overlaps w/ reco mu
354	+	/*
355	+	if( info->EvtNum() != 67315 &&
356	+	info->EvtNum() != 288693 ) continue;
357	+	*/
358	+
359	+	// events where they apparently don't veto electrons ...
360	+	/*
361	+	if( info->EvtNum() != 141713 &&
362	+	info->EvtNum() != 178019 &&
363	+	info->EvtNum() != 60823 &&
364	+	info->EvtNum() != 192795 ) continue;
365	+	*/
366	+
367		if(!(ientry%1000)) cerr << "entry: " << ientry << endl;
284	–	if( ientry>100 )break;
368		setPV( ctrl, vtxArr, vtx);
369	+	//if (!(setPV( ctrl, vtxArr, vtx)) ) continue;
370
371	+	float rho = evtrhoMap[info->EvtNum()];
372	+
373	+	//
374	+	// pfNoPU
375	+	//
376	+	//mithep::Array<PFCandidate> pfNoPileUp;
377	+	PFnoPUflag.clear();
378	+	int pfnopu_size = makePFnoPUArray( pfArr, PFnoPUflag, vtxArr );
379	+	assert(pfnopu_size == pfArr->GetEntries());
380
381		//
382		// data/MC
#	Line 293 | Line 386 | int main(int argc, char** argv)
386		// xsec & PU weights
387		//
388		weights.w = getWeight(xstab,entrymap,chain)/ctrl.totalMC;
389	+	cout << "xsec weight: " << weights.w << endl;
390		int npu = -1;
391		for(int i=0;i<puArr->GetEntries();i++) {
392		if(puArr->At(i)->GetBunchCrossing() == 0)
#	Line 302 | Line 396 | int main(int argc, char** argv)
396		evtinfo.npu;
397		weights.npuw = getPUWeight(evtinfo.npu);
398		//      cout << "weight: " << weights.w << endl;
399	+	//
400	+	// trigger
401	+	//
402	+	if( string(chain->GetFile()->GetEndpointUrl()->GetFile()) != currentFile ) {
403	+	currentFile = string(chain->GetFile()->GetEndpointUrl()->GetFile());
404	+	hltchain->SetBranchAddress(fTriggerTableName, &hltTableStrings);
405	+	hltchain->GetEntry(0);
406	+	hltTable->Clear();
407	+	fillTriggerBits(hltTable, hltTableStrings );
408	+	}
409	+	if( ctrl.debug ) cout << "file is : " << currentFile  << endl;
410	+	fillTriggerBits( hltTable, trigMask, triggerBits );
411	+	passes_HLT_MC = true; // passed to apply as extern global, just for sync
412	+	if( !passHLTMC(triggerBits, info->RunNum(), info->EvtNum() ) ) {
413	+	passes_HLT_MC = false;
414	+	}
415		} else {
416		//
417		// JSON
418		//
419	+	/*
420		RunLumiRangeMap::RunLumiPairType rl(info->RunNum(), info->LumiSec());
421		if( !(rlrm.HasRunLumi(rl)) )  {
422		if( ctrl.debug ) cout << "\tfails JSON" << endl;
423		continue;
424		}
425	+	*/
426		//
427		// trigger
428		//
#	Line 322 | Line 434 | int main(int argc, char** argv)
434		fillTriggerBits(hltTable, hltTableStrings );
435		}
436		if( ctrl.debug ) cout << "file is : " << currentFile  << endl;
437	+	/*
438		fillTriggerBits( hltTable, trigMask, triggerBits );
439		if( !passHLT(triggerBits, info->RunNum(), info->EvtNum() ) ) {
440		if( ctrl.debug ) cout << "\tfails trigger ... " << endl;
441		continue;
442		}
443	+	*/
444		}
445
446		//
#	Line 335 | Line 449 | int main(int argc, char** argv)
449		failingLeptons.clear();
450		passingLeptons.clear();
451		EventData ret4l =
452	<	apply_HZZ4L_reference_selection(ctrl, info,
453	<	vtx,
454	<	pfArr,
341	<	puDArr,
342	<	electronArr,
343	<	&electronReferencePreSelection,
344	<	&electronReferenceIDMVASelection,
345	<	&electronReferenceIsoSelection,
346	<	muonArr,
347	<	&muonReferencePreSelection,
348	<	&muonIDPFSelection,
349	<	&muonReferenceIsoSelection);
452	>
453	>
454	>	// reference
455		/*
456	<	apply_HZZ4L_reference_selection(ctrl, info,
457	<	vtx,
458	<	pfArr,
459	<	puArr,
460	<	electronArr,
461	<	&electronPreSelection,
462	<	&electronIDMVASelection,
463	<	&electronIsoMVASelection,
464	<	muonArr,
465	<	&muonPreSelection,
466	<	&muonIDPFSelection,
467	<	&muonIsoMVASelection);
456	>	apply_HZZ4L_reference2_selection(ctrl, info,
457	>	vtx,
458	>	pfArr,
459	>	//rho,
460	>	puDArr,
461	>	electronArr,
462	>	&electronReferencePreSelection,
463	>	&electronReferenceIDMVASelection,
464	>	&electronReferenceIsoSelection,
465	>	muonArr,
466	>	&muonReferencePreSelection,
467	>	&muonIDPFSelection,
468	>	&muonReferenceIsoSelection);
469		*/
470
471	+	// evolved
472	+	apply_HZZ4L_reference2_selection(ctrl, info,
473	+	vtx,
474	+	pfArr,
475	+	//rho,
476	+	puDArr,
477	+	electronArr,
478	+	&electronReferencePreSelection,
479	+	//&electronPreSelection,
480	+	&electronReferenceIDMVASelection,
481	+	&electronIsoMVASelection,
482	+	muonArr,
483	+	&muonReferencePreSelection,
484	+	//&muonPreSelection,
485	+	&muonIDPFSelection,
486	+	&muonIsoMVASelection);
487	+
488	+
489		if( ctrl.debug ) cout << endl;
490
491	<	//      cout << "bits: " << ret4l.status.selectionBits << endl;
491	>
492	>	int Z1type=0, Z2type=0;
493	>	if( ret4l.status.selectionBits.to_ulong() >= PASS_ZCANDIDATE ) {
494	>	if( abs(ret4l.Z1leptons[0].type) == 11  ) Z1type = 11;
495	>	if( abs(ret4l.Z1leptons[0].type) == 13  ) Z1type = 13;
496	>	}
497	>	if( ret4l.status.selectionBits.to_ulong() >= PASS_ZZCANDIDATE ) {
498	>	if( abs(ret4l.Z2leptons[0].type) == 11  ) Z2type = 11;
499	>	if( abs(ret4l.Z2leptons[0].type) == 13  ) Z2type = 13;
500	>	}
501	>
502	>	#ifdef SYNC
503	>	cout  << "bits: " << ret4l.status.selectionBits  << "\t"
504	>	<< "Z1: " << Z1type << "\t"
505	>	<< "Z2: " << Z2type << endl;
506	>	cout << endl;
507	>	#endif
508
509		if( ret4l.status.pass() ) {
370	–
510		fillAngles(ret4l,angles);
511		fillKinematics(ret4l,kinematics);
512		fillEventInfo(info,evtinfo);
#	Line 399 | Line 538 | int main(int argc, char** argv)
538		pass++;
539		//      if( pass > 3 ) break;
540
541	<	} else if( ret4l.status.selectionBits.test(PASS_ZCANDIDATE) ) { // save for fakes ...
542	<	cout << "failingLeptons : " << failingLeptons.size() << endl;
543	<	for( int f=0; f<failingLeptons.size(); f++ ) {
544	<	SimpleLepton  l = failingLeptons[f];
545	<	cout << "f: " << f << "\t"
546	<	<< "type: " << l.type << "\t"
547	<	<< "pT: " << l.vec->Pt()
548	<	<< endl;
541	>	} else if( ret4l.status.selectionBits.test(PASS_GOODZ1) ) { // save for fakes ...
542	>	//      if(ctrl.debug) {
543	>	cout << "failingLeptons : " << failingLeptons.size() << endl;
544	>	for( int f=0; f<failingLeptons.size(); f++ ) {
545	>	SimpleLepton  l = failingLeptons[f];
546	>	cout << "f: " << f << "\t"
547	>	<< "type: " << l.type << "\t"
548	>	<< "pT: " << l.vec.Pt()  << "\t"
549	>	<< "eta: " << l.vec.Eta()
550	>	<< endl;
551	>	//    }
552		}
411	–	/*
412	–	cout << "passingLeptons : " << passingLeptons.GetSize() << endl;
413	–	for( int f=0; f<passingLeptons.GetSize(); f++ ) {
414	–	cout << "f: " << f << "\t"
415	–	<< "type: " << passingLeptons.At(f).type << "\t"
416	–	<< "pT: " << passingLeptons.At(f).vec->Pt()
417	–	<< endl;
418	–	}
419	–	*/
420	–	cout << endl;
553		foTree.Fill();
554		}
555		}
#	Line 426 | Line 558 | int main(int argc, char** argv)
558		foTree.getFile()->cd();
559		foTree.getTree()->Write();
560		nt.WriteClose();
561	+
562	+	cout << endl;
563	+	cout << endl;
564	+	for( int i=0; i<cutvec.size(); i++ ) {
565	+	cout << "cut: " << i << "\t"
566	+	<< "pass: " << cutvec[i];
567	+
568	+	if( i>PASS_TRIGGER&&i<=PASS_GOODZ1 )
569	+	cout << "\t2e: " << zcutvec[0][i]
570	+	<< "\t2m: " << zcutvec[1][i];
571	+
572	+	if( i>PASS_ZCANDIDATE )
573	+	cout << "\t4e: " << zzcutvec[0][i]
574	+	<< "\t4m: " << zzcutvec[1][i]
575	+	<< "\t2e2m: " << zzcutvec[2][i];
576	+
577	+	cout << "\t" << cutstrs[i] << endl;
578	+
579	+	cout << endl;
580	+	}
581	+
582		}
583
584		//----------------------------------------------------------------------------
#	Line 454 | Line 607 | bool setPV(ControlFlags ctrl,
607		if( ctrl.debug ) cout << "vertex :: " << i << "\tntrks: " << pv->NTracks() << endl;
608
609		// Select best PV for corrected d0; if no PV passing cuts, the first PV in the collection will be used
610	<	//  if(!pv->IsValid()) continue;
610	>	if(!pv->IsValid())                                continue;
611		if(pv->NTracksFit()       < fMinNTracksFit)       continue;
612		if(pv->Ndof()                 < fMinNdof)         continue;
613		if(fabs(pv->Z()) > fMaxAbsZ)                      continue;
#	Line 475 | Line 628 | bool setPV(ControlFlags ctrl,
628		if( ctrl.debug) cout << "new PV set, pt : " << best_sumpt << endl;
629		}
630		}
631	<
631	>	// sync
632		if(!bestPV) bestPV = vtxArr->At(0);
633	+	//if(!bestPV) return false;
634		vtx.SetPosition(bestPV->X(),bestPV->Y(),bestPV->Z());
635		vtx.SetErrors(bestPV->XErr(),bestPV->YErr(),bestPV->ZErr());
636		return true;
#	Line 502 | Line 656 | void setEffiencyWeights(EventData & evtd
656
657		for( int k=0; k<lepvec.size(); k++ ) {
658		if( abs(lepvec[k].type) == 13 ) {
659	<	mvec.push_back( std::pair<float,float> (fabs(lepvec[k].vec->Eta()), lepvec[k].vec->Pt()) );
660	<	wlegs.push_back( muonPerLegOfflineEfficiencyWeight( fabs(lepvec[k].vec->Eta()),
661	<	lepvec[k].vec->Pt() ) );
659	>	mvec.push_back( std::pair<float,float> (fabs(lepvec[k].vec.Eta()), lepvec[k].vec.Pt()) );
660	>	wlegs.push_back( muonPerLegOfflineEfficiencyWeight( fabs(lepvec[k].vec.Eta()),
661	>	lepvec[k].vec.Pt() ) );
662		} else {
663
664		// now deal with medium vs loose
665		//              evec.push_back( std::pair<float,float> (fabs(lepvec[k].vec.Eta()), lepvec[k].vec.Pt()) );
666
667	<	std::pair<float,float> tmppair(fabs(lepvec[k].vec->Eta()), lepvec[k].vec->Pt());
667	>	std::pair<float,float> tmppair(fabs(lepvec[k].vec.Eta()), lepvec[k].vec.Pt());
668		evec.push_back( std::pair<bool, std::pair<float,float> > (lepvec[k].isTight, tmppair) );
669
670	<	//              wlegs.push_back( elePerLegOfflineEfficiencyWeight(  fabs(lepvec[k].vec->Eta()),
671	<	//                                                                 lepvec[k].vec->Pt() ) );
670	>	//              wlegs.push_back( elePerLegOfflineEfficiencyWeight(  fabs(lepvec[k].vec.Eta()),
671	>	//                                                                 lepvec[k].vec.Pt() ) );
672
673	<	wlegs.push_back( elePerLegOfflineEfficiencyWeight(  fabs(lepvec[k].vec->Eta()),
674	<	lepvec[k].vec->Pt(),
673	>	wlegs.push_back( elePerLegOfflineEfficiencyWeight(  fabs(lepvec[k].vec.Eta()),
674	>	lepvec[k].vec.Pt(),
675		lepvec[k].isTight ) );
676
677		}
#	Line 563 | Line 717 | double getPUWeight(unsigned npu)
717		{
718		return hpu->GetBinContent(hpu->FindBin(npu));
719		}
720	+
721	+	//----------------------------------------------------------------------------
722	+	void initEvtRhoMap( map<unsigned, float> & evtrhoMap )
723	+	//----------------------------------------------------------------------------
724	+	{
725	+	unsigned evt;
726	+	float rho;
727	+
728	+	cout << "initialzing EvtRhoMap ";
729	+	//FILE * f = fopen("evtrho.dat", "r");
730	+	//  FILE * f = fopen("allrho.cali.uniq.dat", "r");
731	+	FILE * f = fopen("allrhoAA.cali.uniq.dat", "r");
732	+	int lcount=0;
733	+	while( fscanf( f, "%u:%f", &evt, &rho ) ) {
734	+	if( feof(f) ) break;
735	+	evtrhoMap[evt] = rho;
736	+	lcount++;
737	+	if( !(lcount%1000) ) cout << "."; flush(cout);
738	+	}
739	+	cout << " done" << endl;
740	+	}
741	+
742	+	//----------------------------------------------------------------------------
743	+	unsigned makePFnoPUArray(mithep::Array<PFCandidate> * fPFCandidates,
744	+	vector<bool> &pfNoPileUpflag,
745	+	mithep::Array<Vertex>      * vtxArr )
746	+	//----------------------------------------------------------------------------
747	+	{
748	+	for(UInt_t i = 0; i < fPFCandidates->GetEntries(); i++) {
749	+	const PFCandidate *pf = fPFCandidates->At(i);
750	+	assert(pf);
751	+
752	+	if(pf->PFType() == PFCandidate::eHadron) {
753	+	if(pf->HasTrackerTrk() &&
754	+	vtxArr->At(0)->HasTrack(pf->TrackerTrk()) &&
755	+	vtxArr->At(0)->TrackWeight(pf->TrackerTrk()) > 0) {
756	+
757	+	pfNoPileUpflag.push_back(1);
758	+
759	+	} else {
760	+
761	+	Bool_t vertexFound = kFALSE;
762	+	const Vertex *closestVtx = 0;
763	+	Double_t dzmin = 10000;
764	+
765	+	// loop over vertices
766	+	for(UInt_t j = 0; j < vtxArr->GetEntries(); j++) {
767	+	const Vertex *vtx = vtxArr->At(j);
768	+	assert(vtx);
769	+
770	+	if(pf->HasTrackerTrk() &&
771	+	vtx->HasTrack(pf->TrackerTrk()) &&
772	+	vtx->TrackWeight(pf->TrackerTrk()) > 0) {
773	+	vertexFound = kTRUE;
774	+	closestVtx = vtx;
775	+	break;
776	+	}
777	+	Double_t dz = fabs(pf->SourceVertex().Z() - vtx->Z());
778	+	if(dz < dzmin) {
779	+	closestVtx = vtx;
780	+	dzmin = dz;
781	+	}
782	+	}
783	+
784	+	//      if(fCheckClosestZVertex) {
785	+	if(1) {
786	+	// Fallback: if track is not associated with any vertex,
787	+	// associate it with the vertex closest in z
788	+	if(vertexFound || closestVtx != vtxArr->At(0)) {
789	+	//      pfPileUp->Add(pf);
790	+	pfNoPileUpflag.push_back(0);
791	+	} else {
792	+	pfNoPileUpflag.push_back(1);
793	+	}
794	+	} else {
795	+	if(vertexFound && closestVtx != vtxArr->At(0)) {
796	+	//      pfPileUp->Add(pf);
797	+	pfNoPileUpflag.push_back(0);
798	+	} else {
799	+	//      PFCandidate * pfNoPileUp->AddNew(); // Ridiculous but that's how it is
800	+	pfNoPileUpflag.push_back(1);
801	+	}
802	+	}
803	+	} //hadron & trk stuff
804	+	} else { // hadron
805	+	//      PFCandidate * ptr = pfNoPileUp->AddNew();
806	+	pfNoPileUpflag.push_back(1);
807	+	}
808	+	} // Loop over PF candidates
809	+
810	+	return pfNoPileUpflag.size();
811	+	}
812	+

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