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Comparing UserCode/CmsHi/JetAnalysis/src/HiInclusiveJetAnalyzer.cc (file contents):
Revision 1.1 by yilmaz, Tue Sep 20 19:45:06 2011 UTC vs.
Revision 1.21 by yilmaz, Wed May 16 09:08:37 2012 UTC

#	Line 21 | Line 21
21		#include "DataFormats/HeavyIonEvent/interface/Centrality.h"
22
23		#include "DataFormats/CaloTowers/interface/CaloTowerCollection.h"
24	–	#include "DataFormats/PatCandidates/interface/Jet.h"
24		#include "DataFormats/JetReco/interface/CaloJetCollection.h"
25		#include "SimDataFormats/HiGenData/interface/GenHIEvent.h"
26		#include "SimDataFormats/GeneratorProducts/interface/GenEventInfoProduct.h"
27	+	#include "SimDataFormats/GeneratorProducts/interface/HepMCProduct.h"
28		#include "DataFormats/JetReco/interface/GenJetCollection.h"
29		#include "DataFormats/VertexReco/interface/Vertex.h"
30		#include "DataFormats/Math/interface/deltaPhi.h"
#	Line 43 | Line 43 | using namespace edm;
43		using namespace reco;
44
45		HiInclusiveJetAnalyzer::HiInclusiveJetAnalyzer(const edm::ParameterSet& iConfig) {
46	–
46
47		jetTag_ = iConfig.getParameter<InputTag>("jetTag");
48	<	vtxTag_ = iConfig.getUntrackedParameter<edm::InputTag>("vtxTag",edm::InputTag("hiSelectedVertex"));
48	>	matchTag_ = iConfig.getUntrackedParameter<InputTag>("matchTag",jetTag_);
49	>
50	>	vtxTag_ = iConfig.getUntrackedParameter<edm::InputTag>("vtxTag",edm::InputTag("hiSelectedVertex"));
51	>	trackTag_ = iConfig.getParameter<InputTag>("trackTag");
52	>	useQuality_ = iConfig.getUntrackedParameter<bool>("useQuality",0);
53	>	string trackQuality_ = iConfig.getUntrackedParameter<string>("trackQuality","highPurity");
54
55		isMC_ = iConfig.getUntrackedParameter<bool>("isMC",false);
56	+	fillGenJets_ = iConfig.getUntrackedParameter<bool>("fillGenJets",false);
57	+
58	+	doTrigger_ = iConfig.getUntrackedParameter<bool>("doTrigger",false);
59	+
60	+	rParam = iConfig.getParameter<double>("rParam");
61	+	hardPtMin_ = iConfig.getUntrackedParameter<double>("hardPtMin",4);
62
63		if(isMC_){
64		genjetTag_ = iConfig.getParameter<InputTag>("genjetTag");
#	Line 57 | Line 67 | HiInclusiveJetAnalyzer::HiInclusiveJetAn
67		verbose_ = iConfig.getUntrackedParameter<bool>("verbose",false);
68
69		useCentrality_ = iConfig.getUntrackedParameter<bool>("useCentrality",false);
70	<	useVtx_ = iConfig.getUntrackedParameter<bool>("useVtx",true);
70	>	useVtx_ = iConfig.getUntrackedParameter<bool>("useVtx",false);
71		useJEC_ = iConfig.getUntrackedParameter<bool>("useJEC",true);
72	+	usePat_ = iConfig.getUntrackedParameter<bool>("usePAT",true);
73
74	<	if(!isMC_){
74	>	doLifeTimeTagging_ = iConfig.getUntrackedParameter<bool>("doLifeTimeTagging",false);
75	>	doLifeTimeTaggingExtras_ = iConfig.getUntrackedParameter<bool>("doLifeTimeTaggingExtras",true);
76	>	saveBfragments_  = iConfig.getUntrackedParameter<bool>("saveBfragments",false);
77	>
78	>	pfCandidateLabel_ = iConfig.getUntrackedParameter<edm::InputTag>("pfCandidateLabel",edm::InputTag("particleFlowTmp"));
79	>
80	>	if(doTrigger_){
81		L1gtReadout_ = iConfig.getParameter<edm::InputTag>("L1gtReadout");
82		hltResName_ = iConfig.getUntrackedParameter<string>("hltTrgResults","TriggerResults::HLT");
83
#	Line 77 | Line 94 | HiInclusiveJetAnalyzer::HiInclusiveJetAn
94		}
95
96		cout<<" jet collection : "<<jetTag_<<endl;
97	<	if(isMC_)cout<<" genjet collection : "<<genjetTag_<<endl;
97	>	doSubEvent_ = 0;
98
99	+	if(isMC_){
100	+	cout<<" genjet collection : "<<genjetTag_<<endl;
101	+	genPtMin_ = iConfig.getUntrackedParameter<double>("genPtMin",0);
102	+	doSubEvent_ = iConfig.getUntrackedParameter<bool>("doSubEvent",1);
103	+	}
104
105
106		}
#	Line 102 | Line 124 | HiInclusiveJetAnalyzer::beginJob() {
124		string jetTagTitle = jetTag_.label()+" Jet Analysis Tree";
125		t = fs1->make<TTree>("t",jetTagTitle.c_str());
126
105	–
127		//  TTree* t= new TTree("t","Jet Response Analyzer");
128	<	t->Branch("run",&jets_.run,"run/I");
128	>	//t->Branch("run",&jets_.run,"run/I");
129		t->Branch("evt",&jets_.evt,"evt/I");
130	<	t->Branch("lumi",&jets_.lumi,"lumi/I");
130	>	//t->Branch("lumi",&jets_.lumi,"lumi/I");
131		t->Branch("b",&jets_.b,"b/F");
132	<	t->Branch("vx",&jets_.vx,"vx/F");
133	<	t->Branch("vy",&jets_.vy,"vy/F");
134	<	t->Branch("vz",&jets_.vz,"vz/F");
135	<	t->Branch("hf",&jets_.hf,"hf/F");
132	>	if (useVtx_) {
133	>	t->Branch("vx",&jets_.vx,"vx/F");
134	>	t->Branch("vy",&jets_.vy,"vy/F");
135	>	t->Branch("vz",&jets_.vz,"vz/F");
136	>	}
137	>	if (useCentrality_) {
138	>	t->Branch("hf",&jets_.hf,"hf/F");
139	>	t->Branch("bin",&jets_.bin,"bin/I");
140	>	}
141	>
142		t->Branch("nref",&jets_.nref,"nref/I");
116	–	t->Branch("bin",&jets_.bin,"bin/I");
143		t->Branch("rawpt",jets_.rawpt,"rawpt[nref]/F");
144		t->Branch("jtpt",jets_.jtpt,"jtpt[nref]/F");
145		t->Branch("jteta",jets_.jteta,"jteta[nref]/F");
146		t->Branch("jty",jets_.jty,"jty[nref]/F");
147		t->Branch("jtphi",jets_.jtphi,"jtphi[nref]/F");
148	+	t->Branch("jtpu",jets_.jtpu,"jtpu[nref]/F");
149	+
150	+	// jet ID information, jet composition
151	+	t->Branch("discr_fr01", jets_.discr_fr01,"discr_fr01[nref]/F");
152	+
153	+	t->Branch("trackMax", jets_.trackMax,"trackMax[nref]/F");
154	+	t->Branch("trackSum", jets_.trackSum,"trackSum[nref]/F");
155	+	t->Branch("trackN", jets_.trackN,"trackN[nref]/I");
156	+	t->Branch("trackHardSum", jets_.trackHardSum,"trackHardSum[nref]/F");
157	+	t->Branch("trackHardN", jets_.trackHardN,"trackHardN[nref]/I");
158	+
159	+	t->Branch("chargedMax", jets_.chargedMax,"chargedMax[nref]/F");
160	+	t->Branch("chargedSum", jets_.chargedSum,"chargedSum[nref]/F");
161	+	t->Branch("chargedN", jets_.chargedN,"chargedN[nref]/I");
162	+	t->Branch("chargedHardSum", jets_.chargedHardSum,"chargedHardSum[nref]/F");
163	+	t->Branch("chargedHardN", jets_.chargedHardN,"chargedHardN[nref]/I");
164	+
165	+	t->Branch("photonMax", jets_.photonMax,"photonMax[nref]/F");
166	+	t->Branch("photonSum", jets_.photonSum,"photonSum[nref]/F");
167	+	t->Branch("photonN", jets_.photonN,"photonN[nref]/I");
168	+	t->Branch("photonHardSum", jets_.photonHardSum,"photonHardSum[nref]/F");
169	+	t->Branch("photonHardN", jets_.photonHardN,"photonHardN[nref]/I");
170	+
171	+	t->Branch("neutralMax", jets_.neutralMax,"neutralMax[nref]/F");
172	+	t->Branch("neutralSum", jets_.neutralSum,"neutralSum[nref]/F");
173	+	t->Branch("neutralN", jets_.neutralN,"neutralN[nref]/I");
174	+
175	+	t->Branch("eMax", jets_.eMax,"eMax[nref]/F");
176	+	t->Branch("eSum", jets_.eSum,"eSum[nref]/F");
177	+	t->Branch("eN", jets_.eN,"eN[nref]/I");
178	+
179	+	t->Branch("muMax", jets_.muMax,"muMax[nref]/F");
180	+	t->Branch("muSum", jets_.muSum,"muSum[nref]/F");
181	+	t->Branch("muN", jets_.muN,"muN[nref]/I");
182	+
183	+	t->Branch("matchedPt", jets_.matchedPt,"matchedPt[nref]/F");
184	+	t->Branch("matchedR", jets_.matchedR,"matchedR[nref]/F");
185	+
186	+	// b-jet discriminators
187	+	if (doLifeTimeTagging_) {
188	+
189	+	t->Branch("discr_csvMva",jets_.discr_csvMva,"discr_csvMva[nref]/F");
190	+	t->Branch("discr_csvSimple",jets_.discr_csvSimple,"discr_csvSimple[nref]/F");
191	+	t->Branch("discr_muByIp3",jets_.discr_muByIp3,"discr_muByIp3[nref]/F");
192	+	t->Branch("discr_muByPt",jets_.discr_muByPt,"discr_muByPt[nref]/F");
193	+	t->Branch("discr_prob",jets_.discr_prob,"discr_prob[nref]/F");
194	+	t->Branch("discr_probb",jets_.discr_probb,"discr_probb[nref]/F");
195	+	t->Branch("discr_tcHighEff",jets_.discr_tcHighEff,"discr_tcHighEff[nref]/F");
196	+	t->Branch("discr_tcHighPur",jets_.discr_tcHighPur,"discr_tcHighPur[nref]/F");
197	+
198	+	t->Branch("nsvtx",    jets_.nsvtx,    "nsvtx[nref]/I");
199	+	t->Branch("svtxntrk", jets_.svtxntrk, "svtxntrk[nref]/I");
200	+	t->Branch("svtxdl",   jets_.svtxdl,   "svtxdl[nref]/F");
201	+	t->Branch("svtxdls",  jets_.svtxdls,  "svtxdls[nref]/F");
202	+	t->Branch("svtxm",    jets_.svtxm,    "svtxm[nref]/F");
203	+	t->Branch("svtxpt",   jets_.svtxpt,   "svtxpt[nref]/F");
204	+
205	+	t->Branch("nIPtrk",jets_.nIPtrk,"nIPtrk[nref]/I");
206	+	t->Branch("nselIPtrk",jets_.nselIPtrk,"nselIPtrk[nref]/I");
207	+
208	+	if (doLifeTimeTaggingExtras_) {
209	+	t->Branch("nIP",&jets_.nIP,"nIP/I");
210	+	t->Branch("ipJetIndex",jets_.ipJetIndex,"ipJetIndex[nIP]/I");
211	+	t->Branch("ipPt",jets_.ipPt,"ipPt[nIP]/F");
212	+	t->Branch("ipProb0",jets_.ipProb0,"ipProb0[nIP]/F");
213	+	t->Branch("ipProb1",jets_.ipProb1,"ipProb1[nIP]/F");
214	+	t->Branch("ip2d",jets_.ip2d,"ip2d[nIP]/F");
215	+	t->Branch("ip2dSig",jets_.ip2dSig,"ip2dSig[nIP]/F");
216	+	t->Branch("ip3d",jets_.ip3d,"ip3d[nIP]/F");
217	+	t->Branch("ip3dSig",jets_.ip3dSig,"ip3dSig[nIP]/F");
218	+	t->Branch("ipDist2Jet",jets_.ipDist2Jet,"ipDist2Jet[nIP]/F");
219	+	t->Branch("ipDist2JetSig",jets_.ipDist2JetSig,"ipDist2JetSig[nIP]/F");
220	+	t->Branch("ipClosest2Jet",jets_.ipClosest2Jet,"ipClosest2Jet[nIP]/F");
221	+
222	+	}
223	+
224	+	t->Branch("mue",     jets_.mue,     "mue[nref]/F");
225	+	t->Branch("mupt",    jets_.mupt,    "mupt[nref]/F");
226	+	t->Branch("mueta",   jets_.mueta,   "mueta[nref]/F");
227	+	t->Branch("muphi",   jets_.muphi,   "muphi[nref]/F");
228	+	t->Branch("mudr",    jets_.mudr,    "mudr[nref]/F");
229	+	t->Branch("muptrel", jets_.muptrel, "muptrel[nref]/F");
230	+	t->Branch("muchg",   jets_.muchg,   "muchg[nref]/I");
231	+	}
232
233	+
234		if(isMC_){
235	+	t->Branch("beamId1",&jets_.beamId1,"beamId1/I");
236	+	t->Branch("beamId2",&jets_.beamId2,"beamId2/I");
237	+
238		t->Branch("pthat",&jets_.pthat,"pthat/F");
239
240		// Only matched gen jets
#	Line 132 | Line 246 | HiInclusiveJetAnalyzer::beginJob() {
246		t->Branch("refdrjt",jets_.refdrjt,"refdrjt[nref]/F");
247		// matched parton
248		t->Branch("refparton_pt",jets_.refparton_pt,"refparton_pt[nref]/F");
249	<	t->Branch("refparton_flavor",jets_.refparton_flavor,"refparton_flavor[nref]/F");
249	>	t->Branch("refparton_flavor",jets_.refparton_flavor,"refparton_flavor[nref]/I");
250	>	t->Branch("refparton_flavorForB",jets_.refparton_flavorForB,"refparton_flavorForB[nref]/I");
251	>
252	>	if(fillGenJets_){
253	>	// For all gen jets, matched or unmatched
254	>	t->Branch("ngen",&jets_.ngen,"ngen/I");
255	>	t->Branch("genmatchindex",jets_.genmatchindex,"genmatchindex[ngen]/I");
256	>	t->Branch("genpt",jets_.genpt,"genpt[ngen]/F");
257	>	t->Branch("geneta",jets_.geneta,"geneta[ngen]/F");
258	>	t->Branch("geny",jets_.geny,"geny[ngen]/F");
259	>	t->Branch("genphi",jets_.genphi,"genphi[ngen]/F");
260	>	t->Branch("gendphijt",jets_.gendphijt,"gendphijt[ngen]/F");
261	>	t->Branch("gendrjt",jets_.gendrjt,"gendrjt[ngen]/F");
262	>
263	>	if(doSubEvent_){
264	>	t->Branch("gensubid",jets_.gensubid,"gensubid[ngen]/I");
265	>	}
266	>	}
267	>
268	>	if(saveBfragments_  ) {
269	>	t->Branch("bMult",&jets_.bMult,"bMult/I");
270	>	t->Branch("bJetIndex",jets_.bJetIndex,"bJetIndex[bMult]/I");
271	>	t->Branch("bStatus",jets_.bStatus,"bStatus[bMult]/I");
272	>	t->Branch("bVx",jets_.bVx,"bVx[bMult]/F");
273	>	t->Branch("bVy",jets_.bVy,"bVy[bMult]/F");
274	>	t->Branch("bVz",jets_.bVz,"bVz[bMult]/F");
275	>	t->Branch("bPt",jets_.bPt,"bPt[bMult]/F");
276	>	t->Branch("bEta",jets_.bEta,"bEta[bMult]/F");
277	>	t->Branch("bPhi",jets_.bPhi,"bPhi[bMult]/F");
278	>	t->Branch("bPdg",jets_.bPdg,"bPdg[bMult]/I");
279	>	t->Branch("bChg",jets_.bChg,"bChg[bMult]/I");
280	>	}
281
137	–	// For all gen jets, matched or unmatched
138	–	t->Branch("ngen",&jets_.ngen,"ngen/I");
139	–	t->Branch("genmatchindex",jets_.genmatchindex,"genmatchindex[ngen]/I");
140	–	t->Branch("genpt",jets_.genpt,"genpt[ngen]/F");
141	–	t->Branch("geneta",jets_.geneta,"geneta[ngen]/F");
142	–	t->Branch("geny",jets_.geny,"geny[ngen]/F");
143	–	t->Branch("genphi",jets_.genphi,"genphi[ngen]/F");
144	–	t->Branch("gendphijt",jets_.gendphijt,"gendphijt[ngen]/F");
145	–	t->Branch("gendrjt",jets_.gendrjt,"gendrjt[ngen]/F");
282		}
283	<
283	>	/*
284		if(!isMC_){
285		t->Branch("nL1TBit",&jets_.nL1TBit,"nL1TBit/I");
286		t->Branch("l1TBit",jets_.l1TBit,"l1TBit[nL1TBit]/O");
#	Line 156 | Line 292 | HiInclusiveJetAnalyzer::beginJob() {
292		t->Branch("hltBit",jets_.hltBit,"hltBit[nHLTBit]/O");
293
294		}
295	<
295	>	*/
296		TH1D::SetDefaultSumw2();
297
298
#	Line 177 | Line 313 | HiInclusiveJetAnalyzer::analyze(const Ev
313
314		LogDebug("HiInclusiveJetAnalyzer")<<"START event: "<<event<<" in run "<<run<<endl;
315
180	–
316		int bin = -1;
317		double hf = 0.;
318		double b = 999.;
319
320		if(useCentrality_){
186	–	//if(!isMC_){
321		if(!centrality_) centrality_ = new CentralityProvider(iSetup);
322		centrality_->newEvent(iEvent,iSetup); // make sure you do this first in every event
323		//double c = centrality_->centralityValue();
#	Line 193 | Line 327 | HiInclusiveJetAnalyzer::analyze(const Ev
327
328		bin = centrality_->getBin();
329		b = centrality_->bMean();
196	–	//}
197	–	/*
198	–	else{
199	–
200	–	TFile * centFile = new TFile("/net/hidsk0001/d00/scratch/mnguyen/CMSSW_3_9_1_patch1/src/macros/Hydjet_CentTable.root");
201	–
202	–	edm::Handle<reco::Centrality> cent;
203	–	iEvent.getByLabel(edm::InputTag("hiCentrality"),cent);
204	–	//cout<<" grabbed centrality "<<endl;
205	–	CentralityBins::RunMap cmap = getCentralityFromFile(centFile, "makeCentralityTableTFile", "HFhitsHydjet_2760GeV", 1, 1);
206	–
207	–	// Still getting cent from hits.  When tower tables become available, we need to switch
208	–	hf = cent->EtHFhitSum();
209	–	//cout<<" hf "<<hf<<endl;
210	–	bin = cmap[run]->getBin(hf);
211	–	b = cmap[run]->bMeanOfBin(bin);
212	–	}
213	–	*/
330		}
331
332
333
334
219	–	//double jetPtMin = 35.;
220	–
335
336		// loop the events
337
#	Line 236 | Line 350 | HiInclusiveJetAnalyzer::analyze(const Ev
350		}
351		}
352
353	+	edm::Handle<pat::JetCollection> patjets;
354	+	if(usePat_)iEvent.getByLabel(jetTag_, patjets);
355
356	<
357	<	edm::Handle<pat::JetCollection> jets;
356	>	edm::Handle<pat::JetCollection> matchedjets;
357	>	iEvent.getByLabel(matchTag_, matchedjets);
358	>
359	>	edm::Handle<reco::JetView> jets;
360		iEvent.getByLabel(jetTag_, jets);
361
362	<
362	>	edm::Handle<reco::PFCandidateCollection> pfCandidates;
363	>	iEvent.getByLabel(pfCandidateLabel_,pfCandidates);
364	>
365	>	edm::Handle<reco::TrackCollection> tracks;
366	>	iEvent.getByLabel(trackTag_,tracks);
367	>
368		// FILL JRA TREE
369
370		jets_.b = b;
371		jets_.nref = 0;
372
373	<	if(!isMC_){
373	>	if(doTrigger_){
374		fillL1Bits(iEvent);
375		fillHLTBits(iEvent);
376		}
377
378		for(unsigned int j = 0 ; j < jets->size(); ++j){
379	<	const pat::Jet& jet = (*jets)[j];
379	>	const reco::Jet& jet = (*jets)[j];
380
381	<	//cout<<" jet pt "<<jet.pt()<<endl;
382	<	//if(jet.pt() < jetPtMin) continue;
383	<	if (useJEC_) jets_.rawpt[jets_.nref]=jet.correctedJet("Uncorrected").pt();
381	>
382	>	if (useJEC_ && usePat_){
383	>	jets_.rawpt[jets_.nref]=(*patjets)[j].correctedJet("Uncorrected").pt();
384	>	}
385	>
386	>	if(doLifeTimeTagging_){
387	>
388	>	if(jetTag_.label()=="icPu5patJets"){
389	>	jets_.discr_csvMva[jets_.nref]    = (*patjets)[j].bDiscriminator("icPu5CombinedSecondaryVertexMVABJetTags");
390	>	jets_.discr_csvSimple[jets_.nref] = (*patjets)[j].bDiscriminator("icPu5CombinedSecondaryVertexBJetTags");
391	>	jets_.discr_muByIp3[jets_.nref]   = (*patjets)[j].bDiscriminator("icPu5SoftMuonByIP3dBJetTags");
392	>	jets_.discr_muByPt[jets_.nref]    = (*patjets)[j].bDiscriminator("icPu5SoftMuonByPtBJetTags");
393	>	jets_.discr_prob[jets_.nref]      = (*patjets)[j].bDiscriminator("icPu5JetBProbabilityBJetTags");
394	>	jets_.discr_probb[jets_.nref]     = (*patjets)[j].bDiscriminator("icPu5JetProbabilityBJetTags");
395	>	jets_.discr_tcHighEff[jets_.nref] = (*patjets)[j].bDiscriminator("icPu5TrackCountingHighEffBJetTags");
396	>	jets_.discr_tcHighPur[jets_.nref] = (*patjets)[j].bDiscriminator("icPu5TrackCountingHighPurBJetTags");
397	>	}
398	>	else if(jetTag_.label()=="akPu3PFpatJets"){
399	>	jets_.discr_csvMva[jets_.nref]    = (*patjets)[j].bDiscriminator("akPu3PFCombinedSecondaryVertexMVABJetTags");
400	>	jets_.discr_csvSimple[jets_.nref] = (*patjets)[j].bDiscriminator("akPu3PFCombinedSecondaryVertexBJetTags");
401	>	jets_.discr_muByIp3[jets_.nref]   = (*patjets)[j].bDiscriminator("akPu3PFSoftMuonByIP3dBJetTags");
402	>	jets_.discr_muByPt[jets_.nref]    = (*patjets)[j].bDiscriminator("akPu3PFSoftMuonByPtBJetTags");
403	>	jets_.discr_prob[jets_.nref]      = (*patjets)[j].bDiscriminator("akPu3PFJetBProbabilityBJetTags");
404	>	jets_.discr_probb[jets_.nref]     = (*patjets)[j].bDiscriminator("akPu3PFJetProbabilityBJetTags");
405	>	jets_.discr_tcHighEff[jets_.nref] = (*patjets)[j].bDiscriminator("akPu3PFTrackCountingHighEffBJetTags");
406	>	jets_.discr_tcHighPur[jets_.nref] = (*patjets)[j].bDiscriminator("akPu3PFTrackCountingHighPurBJetTags");
407	>	}
408	>	else{
409	>	cout<<" b-tagging variables not filled for this collection, turn of doLifeTimeTagging "<<endl;
410	>	}
411	>
412	>	const reco::SecondaryVertexTagInfo& tagInfoSV=*(*patjets)[j].tagInfoSecondaryVertex();
413	>
414	>	jets_.nsvtx[jets_.nref]     = tagInfoSV.nVertices();
415	>
416	>	if (tagInfoSV.nVertices()>0) {
417	>	jets_.svtxntrk[jets_.nref]  = tagInfoSV.nVertexTracks(0);
418	>	// this is the 3d flight distance, for 2-D use (0,true)
419	>	Measurement1D m1D = tagInfoSV.flightDistance(0);
420	>	jets_.svtxdl[jets_.nref]    = m1D.value();
421	>	jets_.svtxdls[jets_.nref]   = m1D.significance();
422	>
423	>	const reco::Vertex& svtx = tagInfoSV.secondaryVertex(0);
424	>	//cout<<" SV:  vx: "<<svtx.x()<<" vy "<<svtx.y()<<" vz "<<svtx.z()<<endl;
425	>	//cout<<" PV:  vx: "<<jet.vx()<<" vy "<<jet.vy()<<" vz "<<jet.vz()<<endl;
426	>	jets_.svtxm[jets_.nref]    = svtx.p4().mass();
427	>	jets_.svtxpt[jets_.nref]   = svtx.p4().pt();
428	>	//cout<<" chi2 "<<svtx.chi2()<<" ndof "<<svtx.ndof()<<endl;
429	>	}
430	>
431	>	const reco::TrackIPTagInfo& tagInfoIP=*(*patjets)[j].tagInfoTrackIP();
432	>
433	>	jets_.nIPtrk[jets_.nref] = tagInfoIP.tracks().size();
434	>	jets_.nselIPtrk[jets_.nref] = tagInfoIP.selectedTracks().size();
435	>
436	>	if (doLifeTimeTaggingExtras_) {
437	>
438	>	TrackRefVector selTracks=tagInfoIP.selectedTracks();
439	>
440	>	GlobalPoint pv(tagInfoIP.primaryVertex()->position().x(),tagInfoIP.primaryVertex()->position().y(),tagInfoIP.primaryVertex()->position().z());
441	>
442	>	for(int it=0;it<jets_.nselIPtrk[jets_.nref] ;it++)
443	>	{
444	>	jets_.ipJetIndex[jets_.nIP + it]= jets_.nref;
445	>	TrackIPTagInfo::TrackIPData data = tagInfoIP.impactParameterData()[it];
446	>	jets_.ipPt[jets_.nIP + it] = selTracks[it]->pt();
447	>	jets_.ipProb0[jets_.nIP + it] = tagInfoIP.probabilities(0)[it];
448	>	jets_.ipProb1[jets_.nIP + it] = tagInfoIP.probabilities(1)[it];
449	>	jets_.ip2d[jets_.nIP + it] = data.ip2d.value();
450	>	jets_.ip2dSig[jets_.nIP + it] = data.ip2d.significance();
451	>	jets_.ip3d[jets_.nIP + it] = data.ip3d.value();
452	>	jets_.ip3dSig[jets_.nIP + it] = data.ip3d.significance();
453	>	jets_.ipDist2Jet[jets_.nIP + it] = data.distanceToJetAxis.value();
454	>	jets_.ipDist2JetSig[jets_.nIP + it] = data.distanceToJetAxis.significance();
455	>	jets_.ipClosest2Jet[jets_.nIP + it] = (data.closestToJetAxis - pv).mag();  //decay length
456	>	}
457	>
458	>	jets_.nIP += jets_.nselIPtrk[jets_.nref];
459	>
460	>	}
461	>
462	>	const reco::PFCandidateCollection *pfCandidateColl = &(*pfCandidates);
463	>	int pfMuonIndex = getPFJetMuon(jet, pfCandidateColl);
464	>	if(pfMuonIndex >=0){
465	>	const reco::PFCandidate muon = pfCandidateColl->at(pfMuonIndex);
466	>	jets_.mupt[jets_.nref]    =  muon.pt();
467	>	jets_.mueta[jets_.nref]   =  muon.eta();
468	>	jets_.muphi[jets_.nref]   =  muon.phi();
469	>	jets_.mue[jets_.nref]     =  muon.energy();
470	>	jets_.mudr[jets_.nref]    =  reco::deltaR(jet,muon);
471	>	jets_.muptrel[jets_.nref] =  getPtRel(muon, jet);
472	>	jets_.muchg[jets_.nref]   =  muon.charge();
473	>	}else{
474	>	jets_.mupt[jets_.nref]    =  0.0;
475	>	jets_.mueta[jets_.nref]   =  0.0;
476	>	jets_.muphi[jets_.nref]   =  0.0;
477	>	jets_.mue[jets_.nref]     =  0.0;
478	>	jets_.mudr[jets_.nref]    =  9.9;
479	>	jets_.muptrel[jets_.nref] =  0.0;
480	>	jets_.muchg[jets_.nref]   = 0;
481	>	}
482	>
483	>	}
484	>
485	>
486	>
487	>	// Jet ID variables
488	>
489	>	jets_.muMax[jets_.nref] = 0;
490	>	jets_.muSum[jets_.nref] = 0;
491	>	jets_.muN[jets_.nref] = 0;
492	>
493	>	jets_.eMax[jets_.nref] = 0;
494	>	jets_.eSum[jets_.nref] = 0;
495	>	jets_.eN[jets_.nref] = 0;
496	>
497	>	jets_.neutralMax[jets_.nref] = 0;
498	>	jets_.neutralSum[jets_.nref] = 0;
499	>	jets_.neutralN[jets_.nref] = 0;
500	>
501	>	jets_.photonMax[jets_.nref] = 0;
502	>	jets_.photonSum[jets_.nref] = 0;
503	>	jets_.photonN[jets_.nref] = 0;
504	>	jets_.photonHardSum[jets_.nref] = 0;
505	>	jets_.photonHardN[jets_.nref] = 0;
506	>
507	>	jets_.chargedMax[jets_.nref] = 0;
508	>	jets_.chargedSum[jets_.nref] = 0;
509	>	jets_.chargedN[jets_.nref] = 0;
510	>	jets_.chargedHardSum[jets_.nref] = 0;
511	>	jets_.chargedHardN[jets_.nref] = 0;
512	>
513	>	jets_.trackMax[jets_.nref] = 0;
514	>	jets_.trackSum[jets_.nref] = 0;
515	>	jets_.trackN[jets_.nref] = 0;
516	>	jets_.trackHardSum[jets_.nref] = 0;
517	>	jets_.trackHardN[jets_.nref] = 0;
518	>
519	>
520	>	for(unsigned int icand = 0; icand < tracks->size(); ++icand){
521	>	const reco::Track& track = (*tracks)[icand];
522	>	if(useQuality_ && !(track.quality(reco::TrackBase::qualityByName(trackQuality_)))) continue;
523	>
524	>	double dr = deltaR(jet,track);
525	>	if(dr < rParam){
526	>	double ptcand = track.pt();
527	>	jets_.trackSum[jets_.nref] += ptcand;
528	>	jets_.trackN[jets_.nref] += 1;
529	>
530	>	if(ptcand > hardPtMin_){
531	>	jets_.trackHardSum[jets_.nref] += ptcand;
532	>	jets_.trackHardN[jets_.nref] += 1;
533	>
534	>	}
535	>	if(ptcand > jets_.trackMax[jets_.nref]) jets_.trackMax[jets_.nref] = ptcand;
536	>
537	>	}
538	>	}
539	>
540	>	for(unsigned int icand = 0; icand < pfCandidates->size(); ++icand){
541	>	const reco::PFCandidate& track = (*pfCandidates)[icand];
542	>	double dr = deltaR(jet,track);
543	>	if(dr < rParam){
544	>	double ptcand = track.pt();
545	>	int pfid = track.particleId();
546	>
547	>	switch(pfid){
548	>
549	>	case 1:
550	>	jets_.chargedSum[jets_.nref] += ptcand;
551	>	jets_.chargedN[jets_.nref] += 1;
552	>	if(ptcand > hardPtMin_){
553	>	jets_.chargedHardSum[jets_.nref] += ptcand;
554	>	jets_.chargedHardN[jets_.nref] += 1;
555	>	}
556	>	if(ptcand > jets_.chargedMax[jets_.nref]) jets_.chargedMax[jets_.nref] = ptcand;
557	>	break;
558	>
559	>	case 2:
560	>	jets_.eSum[jets_.nref] += ptcand;
561	>	jets_.eN[jets_.nref] += 1;
562	>	if(ptcand > jets_.eMax[jets_.nref]) jets_.eMax[jets_.nref] = ptcand;
563	>	break;
564	>
565	>	case 3:
566	>	jets_.muSum[jets_.nref] += ptcand;
567	>	jets_.muN[jets_.nref] += 1;
568	>	if(ptcand > jets_.muMax[jets_.nref]) jets_.muMax[jets_.nref] = ptcand;
569	>	break;
570	>
571	>	case 4:
572	>	jets_.photonSum[jets_.nref] += ptcand;
573	>	jets_.photonN[jets_.nref] += 1;
574	>	if(ptcand > hardPtMin_){
575	>	jets_.photonHardSum[jets_.nref] += ptcand;
576	>	jets_.photonHardN[jets_.nref] += 1;
577	>	}
578	>	if(ptcand > jets_.photonMax[jets_.nref]) jets_.photonMax[jets_.nref] = ptcand;
579	>	break;
580	>
581	>	case 5:
582	>	jets_.neutralSum[jets_.nref] += ptcand;
583	>	jets_.neutralN[jets_.nref] += 1;
584	>	if(ptcand > jets_.neutralMax[jets_.nref]) jets_.neutralMax[jets_.nref] = ptcand;
585	>	break;
586	>
587	>	default:
588	>	break;
589	>
590	>	}
591	>	}
592	>	}
593	>
594	>	double drMin = 100;
595	>	for(unsigned int imatch = 0 ; imatch < matchedjets->size(); ++imatch){
596	>	const reco::Jet& mjet = (*matchedjets)[imatch];
597	>
598	>	double dr = deltaR(jet,mjet);
599	>	if(dr < drMin){
600	>	jets_.matchedPt[jets_.nref] = mjet.pt();
601	>	jets_.matchedR[jets_.nref] = dr;
602	>
603	>	}
604	>	}
605	>
606	>
607	>
608	>
609	>	//     if(etrk.quality(reco::TrackBase::qualityByName(qualityString_))) pev_.trkQual[pev_.nTrk]=1;
610	>
611	>	/////////////////////////////////////////////////////////////////
612	>	// Jet core pt^2 discriminant for fake jets
613	>	// Edited by Yue Shi Lai <ylai@mit.edu>
614	>
615	>	// Initial value is 0
616	>	jets_.discr_fr01[jets_.nref] = 0;
617	>	// Start with no directional adaption, i.e. the fake rejection
618	>	// axis is the jet axis
619	>	float pseudorapidity_adapt = jets_.jteta[jets_.nref];
620	>	float azimuth_adapt = jets_.jtphi[jets_.nref];
621	>
622	>	// Unadapted discriminant with adaption search
623	>	for (size_t iteration = 0; iteration < 2; iteration++) {
624	>	float pseudorapidity_adapt_new = pseudorapidity_adapt;
625	>	float azimuth_adapt_new = azimuth_adapt;
626	>	float max_weighted_perp = 0;
627	>	float perp_square_sum = 0;
628	>
629	>	for (size_t index_pf_candidate = 0;
630	>	index_pf_candidate < pfCandidates->size();
631	>	index_pf_candidate++) {
632	>	const reco::PFCandidate &p =
633	>	(*pfCandidates)[index_pf_candidate];
634	>
635	>	switch (p.particleId()) {
636	>	//case 1:     // Charged hadron
637	>	//case 3:     // Muon
638	>	case 4: // Photon
639	>	{
640	>	const float dpseudorapidity =
641	>	p.eta() - pseudorapidity_adapt;
642	>	const float dazimuth =
643	>	reco::deltaPhi(p.phi(), azimuth_adapt);
644	>	// The Gaussian scale factor is 0.5 / (0.1 * 0.1)
645	>	// = 50
646	>	const float angular_weight =
647	>	exp(-50.0F * (dpseudorapidity * dpseudorapidity +
648	>	dazimuth * dazimuth));
649	>	const float weighted_perp =
650	>	angular_weight * p.pt() * p.pt();
651	>	const float weighted_perp_square =
652	>	weighted_perp * p.pt();
653	>
654	>	perp_square_sum += weighted_perp_square;
655	>	if (weighted_perp >= max_weighted_perp) {
656	>	pseudorapidity_adapt_new = p.eta();
657	>	azimuth_adapt_new = p.phi();
658	>	max_weighted_perp = weighted_perp;
659	>	}
660	>	}
661	>	default:
662	>	break;
663	>	}
664	>	}
665	>	// Update the fake rejection value
666	>	jets_.discr_fr01[jets_.nref] = std::max(
667	>	jets_.discr_fr01[jets_.nref], perp_square_sum);
668	>	// Update the directional adaption
669	>	pseudorapidity_adapt = pseudorapidity_adapt_new;
670	>	azimuth_adapt = azimuth_adapt_new;
671	>	}
672	>
673	>
674		jets_.jtpt[jets_.nref] = jet.pt();
675		jets_.jteta[jets_.nref] = jet.eta();
676		jets_.jtphi[jets_.nref] = jet.phi();
677		jets_.jty[jets_.nref] = jet.eta();
678	<
678	>	jets_.jtpu[jets_.nref] = jet.pileup();
679
680	<	if(jet.genJet()){
268	<	jets_.refpt[jets_.nref] = jet.genJet()->pt();
269	<	jets_.refeta[jets_.nref] = jet.genJet()->eta();
270	<	jets_.refphi[jets_.nref] = jet.genJet()->phi();
271	<	jets_.refy[jets_.nref] = jet.genJet()->eta();
272	<	jets_.refdphijt[jets_.nref] = reco::deltaPhi(jet.phi(),jet.genJet()->phi());
273	<	jets_.refdrjt[jets_.nref] = reco::deltaR(jet.eta(),jet.phi(),jet.genJet()->eta(),jet.genJet()->phi());
274	<	}
275	<	else{
276	<	jets_.refpt[jets_.nref] = -999.;
277	<	jets_.refeta[jets_.nref] = -999.;
278	<	jets_.refphi[jets_.nref] = -999.;
279	<	jets_.refy[jets_.nref] = -999.;
280	<	jets_.refdphijt[jets_.nref] = -999.;
281	<	jets_.refdrjt[jets_.nref] = -999.;
282	<	}
680	>	if(isMC_ && usePat_){
681
682	<	// matched partons
683	<	if (jet.genParton()) {
684	<	jets_.refparton_pt[jets_.nref] = jet.genParton()->pt();
685	<	jets_.refparton_flavor[jets_.nref] = jet.genParton()->pdgId();
686	<	} else {
687	<	jets_.refparton_pt[jets_.nref] = -999;
688	<	jets_.refparton_flavor[jets_.nref] = -999;
689	<	}
682	>	const reco::GenJet * genjet = (*patjets)[j].genJet();
683	>
684	>	if(genjet){
685	>	jets_.refpt[jets_.nref] = genjet->pt();
686	>	jets_.refeta[jets_.nref] = genjet->eta();
687	>	jets_.refphi[jets_.nref] = genjet->phi();
688	>	jets_.refy[jets_.nref] = genjet->eta();
689	>	jets_.refdphijt[jets_.nref] = reco::deltaPhi(jet.phi(), genjet->phi());
690	>	jets_.refdrjt[jets_.nref] = reco::deltaR(jet.eta(),jet.phi(),genjet->eta(),genjet->phi());
691	>	}else{
692	>	jets_.refpt[jets_.nref] = -999.;
693	>	jets_.refeta[jets_.nref] = -999.;
694	>	jets_.refphi[jets_.nref] = -999.;
695	>	jets_.refy[jets_.nref] = -999.;
696	>	jets_.refdphijt[jets_.nref] = -999.;
697	>	jets_.refdrjt[jets_.nref] = -999.;
698	>	}
699	>
700	>	jets_.refparton_flavorForB[jets_.nref] = (*patjets)[j].partonFlavour();
701	>
702	>	// matched partons
703	>	const reco::GenParticle & parton = *(*patjets)[j].genParton();
704	>
705	>	if((*patjets)[j].genParton()){
706	>	jets_.refparton_pt[jets_.nref] = parton.pt();
707	>	jets_.refparton_flavor[jets_.nref] = parton.pdgId();
708	>
709	>	if(saveBfragments_ && abs(jets_.refparton_flavorForB[jets_.nref])==5){
710	>
711	>	usedStringPts.clear();
712	>
713	>	// uncomment this if you want to know the ugly truth about parton matching -matt
714	>	//if(jet.pt() > 50 &&abs(parton.pdgId())!=5 && parton.pdgId()!=21)
715	>	// cout<<" Identified as a b, but doesn't match b or gluon, id = "<<parton.pdgId()<<endl;
716	>
717	>	jets_.bJetIndex[jets_.bMult] = jets_.nref;
718	>	jets_.bStatus[jets_.bMult] = parton.status();
719	>	jets_.bVx[jets_.bMult] = parton.vx();
720	>	jets_.bVy[jets_.bMult] = parton.vy();
721	>	jets_.bVz[jets_.bMult] = parton.vz();
722	>	jets_.bPt[jets_.bMult] = parton.pt();
723	>	jets_.bEta[jets_.bMult] = parton.eta();
724	>	jets_.bPhi[jets_.bMult] = parton.phi();
725	>	jets_.bPdg[jets_.bMult] = parton.pdgId();
726	>	jets_.bChg[jets_.bMult] = parton.charge();
727	>	jets_.bMult++;
728	>	saveDaughters(parton);
729	>	}
730
731	+
732	+	} else {
733	+	jets_.refparton_pt[jets_.nref] = -999;
734	+	jets_.refparton_flavor[jets_.nref] = -999;
735	+	}
736	+
737	+
738	+	}
739
740		jets_.nref++;
741
#	Line 299 | Line 745 | HiInclusiveJetAnalyzer::analyze(const Ev
745
746		if(isMC_){
747
748	+	edm::Handle<HepMCProduct> hepMCProduct;
749	+	iEvent.getByLabel(eventInfoTag_,hepMCProduct);
750	+	const HepMC::GenEvent* MCEvt = hepMCProduct->GetEvent();
751	+	std::pair<HepMC::GenParticle*,HepMC::GenParticle*> beamParticles = MCEvt->beam_particles();
752	+	jets_.beamId1 = beamParticles.first->pdg_id();
753	+	jets_.beamId2 = beamParticles.second->pdg_id();
754	+
755		edm::Handle<GenEventInfoProduct> hEventInfo;
756		iEvent.getByLabel(eventInfoTag_,hEventInfo);
757		//jets_.pthat = hEventInfo->binningValues()[0];
#	Line 316 | Line 769 | HiInclusiveJetAnalyzer::analyze(const Ev
769		float genjet_pt = genjet.pt();
770
771		// threshold to reduce size of output in minbias PbPb
772	<	if(genjet_pt>20.){
772	>	if(genjet_pt>genPtMin_){
773
774		jets_.genpt[jets_.ngen] = genjet_pt;
775		jets_.geneta[jets_.ngen] = genjet.eta();
776		jets_.genphi[jets_.ngen] = genjet.phi();
777		jets_.geny[jets_.ngen] = genjet.eta();
778
779	+	if(doSubEvent_){
780	+	const GenParticle* gencon = genjet.getGenConstituent(0);
781	+	jets_.gensubid[jets_.ngen] = gencon->collisionId();
782	+	}
783
784		// find matching patJet if there is one
785
786		jets_.gendrjt[jets_.ngen] = -1.0;
787		jets_.genmatchindex[jets_.ngen] = -1;
788
332	–
789		for(unsigned int ijet = 0 ; ijet < jets->size(); ++ijet){
790		const pat::Jet& jet = (*jets)[ijet];
791	<
792	<	if(jet.genJet()){
793	<	if(fabs(genjet.pt()-jet.genJet()->pt())<0.0001 &&
794	<	fabs(genjet.eta()-jet.genJet()->eta())<0.0001 &&
795	<	(fabs(genjet.phi()-jet.genJet()->phi())<0.0001 || fabs(genjet.phi()-jet.genJet()->phi() - 2.0*TMath::Pi()) < 0.0001 )){
791	>	const reco::GenJet* matchedGenJet = (*patjets)[ijet].genJet();
792	>	if(matchedGenJet){
793	>	// poor man's matching, someone fix please
794	>	if(fabs(genjet.pt()-matchedGenJet->pt())<0.0001 &&
795	>	fabs(genjet.eta()-matchedGenJet->eta())<0.0001 &&
796	>	(fabs(genjet.phi()-matchedGenJet->phi())<0.0001 || fabs(genjet.phi()-matchedGenJet->phi() - 2.0*TMath::Pi()) < 0.0001 )){
797
798		jets_.genmatchindex[jets_.ngen] = (int)ijet;
799		jets_.gendphijt[jets_.ngen] = reco::deltaPhi(jet.phi(),genjet.phi());
#	Line 353 | Line 810 | HiInclusiveJetAnalyzer::analyze(const Ev
810
811		}
812		t->Fill();
813	+	memset(&jets_,0,sizeof jets_);
814		}
815
816
#	Line 452 | Line 910 | inline bool HiInclusiveJetAnalyzer::getP
910		}
911
912
913	+	int
914	+	HiInclusiveJetAnalyzer::getPFJetMuon(const pat::Jet& pfJet, const reco::PFCandidateCollection *pfCandidateColl)
915	+	{
916	+
917	+	int pfMuonIndex = -1;
918	+	float ptMax = 0.;
919	+
920	+
921	+	for(unsigned icand=0;icand<pfCandidateColl->size(); icand++) {
922	+	const reco::PFCandidate pfCandidate = pfCandidateColl->at(icand);
923	+
924	+	int id = pfCandidate.particleId();
925	+	if(abs(id) != 3) continue;
926	+
927	+	if(reco::deltaR(pfJet,pfCandidate)>0.5) continue;
928	+
929	+	double pt =  pfCandidate.pt();
930	+	if(pt>ptMax){
931	+	ptMax = pt;
932	+	pfMuonIndex = (int) icand;
933	+	}
934	+	}
935	+
936	+	return pfMuonIndex;
937	+
938	+	}
939	+
940	+
941	+	double
942	+	HiInclusiveJetAnalyzer::getPtRel(const reco::PFCandidate lep, const pat::Jet& jet )
943	+	{
944	+
945	+	float lj_x = jet.p4().px();
946	+	float lj_y = jet.p4().py();
947	+	float lj_z = jet.p4().pz();
948	+
949	+	// absolute values squared
950	+	float lj2  = lj_x*lj_x+lj_y*lj_y+lj_z*lj_z;
951	+	float lep2 = lep.px()*lep.px()+lep.py()*lep.py()+lep.pz()*lep.pz();
952	+
953	+	// projection vec(mu) to lepjet axis
954	+	float lepXlj = lep.px()*lj_x+lep.py()*lj_y+lep.pz()*lj_z;
955	+
956	+	// absolute value squared and normalized
957	+	float pLrel2 = lepXlj*lepXlj/lj2;
958	+
959	+	// lep2 = pTrel2 + pLrel2
960	+	float pTrel2 = lep2-pLrel2;
961	+
962	+	return (pTrel2 > 0) ? std::sqrt(pTrel2) : 0.0;
963	+	}
964	+
965	+	// Recursive function, but this version gets called only the first time
966	+	void
967	+	HiInclusiveJetAnalyzer::saveDaughters(const reco::GenParticle &gen){
968	+
969	+	for(unsigned i=0;i<gen.numberOfDaughters();i++){
970	+	const reco::Candidate & daughter = *gen.daughter(i);
971	+	double daughterPt = daughter.pt();
972	+	if(daughterPt<1.) continue;
973	+	double daughterEta = daughter.eta();
974	+	if(fabs(daughterEta)>3.) continue;
975	+	int daughterPdgId = daughter.pdgId();
976	+	int daughterStatus = daughter.status();
977	+	// Special case when b->b+string, both b and string contain all daughters, so only take the string
978	+	if(gen.pdgId()==daughterPdgId && gen.status()==3 && daughterStatus==2) continue;
979	+
980	+	// cheesy way of finding strings which were already used
981	+	if(daughter.pdgId()==92){
982	+	for(unsigned ist=0;ist<usedStringPts.size();ist++){
983	+	if(fabs(daughter.pt() - usedStringPts[ist]) < 0.0001) return;
984	+	}
985	+	usedStringPts.push_back(daughter.pt());
986	+	}
987	+	jets_.bJetIndex[jets_.bMult] = jets_.nref;
988	+	jets_.bStatus[jets_.bMult] = daughterStatus;
989	+	jets_.bVx[jets_.bMult] = daughter.vx();
990	+	jets_.bVy[jets_.bMult] = daughter.vy();
991	+	jets_.bVz[jets_.bMult] = daughter.vz();
992	+	jets_.bPt[jets_.bMult] = daughterPt;
993	+	jets_.bEta[jets_.bMult] = daughterEta;
994	+	jets_.bPhi[jets_.bMult] = daughter.phi();
995	+	jets_.bPdg[jets_.bMult] = daughterPdgId;
996	+	jets_.bChg[jets_.bMult] = daughter.charge();
997	+	jets_.bMult++;
998	+	saveDaughters(daughter);
999	+	}
1000	+	}
1001	+
1002	+	// This version called for all subsequent calls
1003	+	void
1004	+	HiInclusiveJetAnalyzer::saveDaughters(const reco::Candidate &gen){
1005	+
1006	+	for(unsigned i=0;i<gen.numberOfDaughters();i++){
1007	+	const reco::Candidate & daughter = *gen.daughter(i);
1008	+	double daughterPt = daughter.pt();
1009	+	if(daughterPt<1.) continue;
1010	+	double daughterEta = daughter.eta();
1011	+	if(fabs(daughterEta)>3.) continue;
1012	+	int daughterPdgId = daughter.pdgId();
1013	+	int daughterStatus = daughter.status();
1014	+	// Special case when b->b+string, both b and string contain all daughters, so only take the string
1015	+	if(gen.pdgId()==daughterPdgId && gen.status()==3 && daughterStatus==2) continue;
1016	+
1017	+	// cheesy way of finding strings which were already used
1018	+	if(daughter.pdgId()==92){
1019	+	for(unsigned ist=0;ist<usedStringPts.size();ist++){
1020	+	if(fabs(daughter.pt() - usedStringPts[ist]) < 0.0001) return;
1021	+	}
1022	+	usedStringPts.push_back(daughter.pt());
1023	+	}
1024
1025	+	jets_.bJetIndex[jets_.bMult] = jets_.nref;
1026	+	jets_.bStatus[jets_.bMult] = daughterStatus;
1027	+	jets_.bVx[jets_.bMult] = daughter.vx();
1028	+	jets_.bVy[jets_.bMult] = daughter.vy();
1029	+	jets_.bVz[jets_.bMult] = daughter.vz();
1030	+	jets_.bPt[jets_.bMult] = daughterPt;
1031	+	jets_.bEta[jets_.bMult] = daughterEta;
1032	+	jets_.bPhi[jets_.bMult] = daughter.phi();
1033	+	jets_.bPdg[jets_.bMult] = daughterPdgId;
1034	+	jets_.bChg[jets_.bMult] = daughter.charge();
1035	+	jets_.bMult++;
1036	+	saveDaughters(daughter);
1037	+	}
1038	+	}
1039
1040		DEFINE_FWK_MODULE(HiInclusiveJetAnalyzer);

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